/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * 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 COPYING file, which can be found at the root of the source code * * distribution tree, or in https://support.hdfgroup.org/ftp/HDF5/releases. * * If you do not have access to either file, you may request a copy from * * help@hdfgroup.org. * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ /*------------------------------------------------------------------------- * * Created: vfd_swmr_reader.c * (copied and modified from swmr_reader.c) * * Purpose: Reads data from a randomly selected subset of the datasets * in the VFD SWMR test file. * * This program is intended to run concurrently with the * vfd_swmr_writer program. * *------------------------------------------------------------------------- */ /***********/ /* Headers */ /***********/ #include "h5test.h" #include "vfd_swmr_common.h" /********************/ /* Local Prototypes */ /********************/ static int check_dataset(hid_t fid, hbool_t verbose, FILE *verbose_file, const char *sym_name, symbol_t *record, hid_t rec_sid); static int read_records(const char *filename, hbool_t verbose, FILE *verbose_file, unsigned random_seed, unsigned long nseconds, unsigned poll_time, unsigned ncommon, unsigned nrandom); /*******************/ /* Local Variables */ /*******************/ static hid_t symbol_tid = -1; /* The type ID for the SWMR datasets */ /*------------------------------------------------------------------------- * Function: check_dataset * * Purpose: For a given dataset, checks to make sure that the stated * and actual sizes are the same. If they are not, then * we have an inconsistent dataset due to a SWMR error. * * Parameters: hid_t fid * The SWMR test file's ID. * * hbool_t verbose * Whether verbose console output is desired. * * FILE *verbose_file * File handle for verbose output * * const char *sym_name * The name of the dataset from which to read. * * symbol_t *record * Memory for the record. Must be pre-allocated. * * hid_t rec_sid * The memory dataspace for access. It's always the same so * there is no need to re-create it every time this function * is called. * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static int check_dataset(hid_t fid, hbool_t verbose, FILE *verbose_file, const char *sym_name, symbol_t *record, hid_t rec_sid) { hid_t dsid; /* Dataset ID */ hid_t file_sid; /* Dataset's space ID */ hssize_t snpoints; /* Number of elements in dataset */ hsize_t start[2] = {0, 0}, count[2] = {1, 1}; /* Hyperslab selection values */ HDassert(fid >= 0); HDassert(sym_name); HDassert(record); HDassert(rec_sid >= 0); /* Open dataset for symbol */ if((dsid = H5Dopen2(fid, sym_name, H5P_DEFAULT)) < 0) goto error; /* Get the dataset's dataspace */ if((file_sid = H5Dget_space(dsid)) < 0) goto error; /* Get the number of elements (= records, for 1-D datasets) */ if((snpoints = H5Sget_simple_extent_npoints(file_sid)) < 0) goto error; /* Emit informational message */ if(verbose) HDfprintf(verbose_file, "READER: Symbol = '%s', # of records = %lld\n", sym_name, (long long)snpoints); /* Check if there are records for symbol */ if(snpoints > 0) { /* Choose the last record in the dataset */ start[1] = (hsize_t)(snpoints - 1); if(H5Sselect_hyperslab(file_sid, H5S_SELECT_SET, start, NULL, count, NULL) < 0) goto error; /* Read record from dataset */ record->rec_id = (uint64_t)ULLONG_MAX; if(H5Dread(dsid, symbol_tid, rec_sid, file_sid, H5P_DEFAULT, record) < 0) goto error; /* Verify record value */ if(record->rec_id != start[1]) { struct timeval tv; HDgettimeofday(&tv, NULL); if(verbose) { HDfprintf(verbose_file, "*** READER ERROR ***\n"); HDfprintf(verbose_file, "Incorrect record value!\n"); HDfprintf(verbose_file, "Time = %llu.%llu, Symbol = '%s', # of records = %lld, record->rec_id = %llu\n", (unsigned long long)tv.tv_sec, (unsigned long long)tv.tv_usec, sym_name, (long long)snpoints, (unsigned long long)record->rec_id); } /* end if */ goto error; } /* end if */ } /* end if */ /* Close the dataset's dataspace */ if(H5Sclose(file_sid) < 0) goto error; /* Close dataset for symbol */ if(H5Dclose(dsid) < 0) goto error; return 0; error: H5E_BEGIN_TRY { H5Sclose(file_sid); H5Dclose(dsid); } H5E_END_TRY; return -1; } /* end check_dataset() */ /*------------------------------------------------------------------------- * Function: read_records * * Purpose: For a given dataset, checks to make sure that the stated * and actual sizes are the same. If they are not, then * we have an inconsistent dataset due to a SWMR error. * * The "common" datasets are a random selection from among * the level 0 datasets. The "random" datasets are a random * selection from among all the file's datasets. This scheme * ensures that the level 0 datasets are interrogated vigorously. * * Parameters: const char *filename * The SWMR test file's name. * * hbool_t verbose * Whether verbose console output is desired. * * FILE *verbose_file * File handle for verbose output * * unsigned random_seed * Random seed for the file (used for verbose logging) * * unsigned long nseconds * The amount of time to read records (ns). * * unsigned poll_time * The amount of time to sleep (s). * * unsigned ncommon * The number of common/non-random datasets that will be opened. * * unsigned nrandom * The number of random datasets that will be opened. * * Return: Success: 0 * Failure: -1 * *------------------------------------------------------------------------- */ static int read_records(const char *filename, hbool_t verbose, FILE *verbose_file, unsigned random_seed, unsigned long nseconds, unsigned poll_time, unsigned ncommon, unsigned nrandom) { time_t start_time; /* Starting time */ time_t curr_time; /* Current time */ symbol_info_t **sym_com = NULL; /* Pointers to array of common dataset IDs */ symbol_info_t **sym_rand = NULL; /* Pointers to array of random dataset IDs */ hid_t mem_sid; /* Memory dataspace ID */ hid_t fid; /* SWMR test file ID */ hid_t fapl; /* file access property list */ symbol_t record; /* The record to read from the dataset */ unsigned v; /* Local index variable */ hbool_t use_log_vfd = FALSE; /* Use the log VFD (set this manually) */ H5F_vfd_swmr_config_t *config = NULL; /* Configuration for VFD SWMR */ HDassert(filename); HDassert(nseconds != 0); HDassert(poll_time != 0); /* Reset the record */ /* (record's 'info' field might need to change for each record read, also) */ HDmemset(&record, 0, sizeof(record)); /* Emit informational message */ if(verbose) HDfprintf(verbose_file, "READER: Choosing datasets\n"); /* Allocate space for 'common' datasets, if any */ if(ncommon > 0) { /* Allocate array to hold pointers to symbols for common datasets */ if(NULL == (sym_com = (symbol_info_t **)HDmalloc(sizeof(symbol_info_t *) * ncommon))) goto error; /* Open the common datasets */ for(v = 0; v < ncommon; v++) { unsigned offset; /* Offset of symbol to use */ /* Determine the offset of the symbol, within level 0 symbols */ /* (level 0 symbols are the most common symbols) */ offset = (unsigned)((unsigned)HDrandom() % symbol_count[0]); sym_com[v] = &symbol_info[0][offset]; /* Emit informational message */ if(verbose) HDfprintf(verbose_file, "READER: Common symbol #%u = '%s'\n", v, symbol_info[0][offset].name); } /* end for */ } /* end if */ /* Allocate space for 'random' datasets, if any */ if(nrandom > 0) { /* Allocate array to hold pointers to symbols for random datasets */ if(NULL == (sym_rand = (symbol_info_t **)HDmalloc(sizeof(symbol_info_t *) * nrandom))) goto error; /* Determine the random datasets */ for(v = 0; v < nrandom; v++) { symbol_info_t *sym; /* Symbol to use */ /* Determine the symbol, within all symbols */ if(NULL == (sym = choose_dataset())) return -1; sym_rand[v] = sym; /* Emit informational message */ if(verbose) HDfprintf(verbose_file, "READER: Random symbol #%u = '%s'\n", v, sym->name); } /* end for */ } /* end if */ /* Create a dataspace for the record to read */ if((mem_sid = H5Screate(H5S_SCALAR)) < 0) goto error; /* Emit informational message */ if(verbose) HDfprintf(verbose_file, "READER: Going to open file and read records\n"); /* Get the starting time */ start_time = HDtime(NULL); curr_time = start_time; /* Create file access property list */ if((fapl = h5_fileaccess()) < 0) goto error; /* Log I/O when verbose output it enbabled */ if(use_log_vfd) { char verbose_name[1024]; HDsnprintf(verbose_name, sizeof(verbose_name), "vfd_swmr_reader.log.%u", random_seed); H5Pset_fapl_log(fapl, verbose_name, H5FD_LOG_ALL, (size_t)(512 * 1024 * 1024)); } /* end if */ /* * Set up to open the file with VFD SWMR configured. */ /* Enable page buffering */ if(H5Pset_page_buffer_size(fapl, 4096, 0, 0) < 0) goto error; /* Allocate memory for the configuration structure */ if((config = (H5F_vfd_swmr_config_t *)HDmalloc(sizeof(H5F_vfd_swmr_config_t))) == NULL) goto error; config->version = H5F__CURR_VFD_SWMR_CONFIG_VERSION; config->tick_len = 4; config->max_lag = 5; config->vfd_swmr_writer = FALSE; config->md_pages_reserved = 128; HDstrcpy(config->md_file_path, "./my_md_file"); /* Enable VFD SWMR configuration */ if(H5Pset_vfd_swmr_config(fapl, config) < 0) goto error; /* Loop over reading records until [at least] the correct # of seconds have passed */ while(curr_time < (time_t)(start_time + (time_t)nseconds)) { /* Emit informational message */ if(verbose) HDfprintf(verbose_file, "READER: Opening file: %s\n", filename); /* Open the file with VFD SWMR configured */ /* Remove H5E_BEGIN_TRY/END_TRY if you want to see the error stack */ H5E_BEGIN_TRY { fid = H5Fopen(filename, H5F_ACC_RDONLY, fapl); } H5E_END_TRY; if(fid < 0) { HDfprintf(stderr, "READER: Error in opening the file: %s\n", filename); goto error; } /* Check 'common' datasets, if any */ if(ncommon > 0) { /* Emit informational message */ if(verbose) HDfprintf(verbose_file, "READER: Checking common symbols after FILE OPEN\n"); /* Iterate over common datasets */ for(v = 0; v < ncommon; v++) { /* Check common dataset */ if(check_dataset(fid, verbose, verbose_file, sym_com[v]->name, &record, mem_sid) < 0) goto error; HDmemset(&record, 0, sizeof(record)); } /* end for */ } /* end if */ /* Check 'random' datasets, if any */ if(nrandom > 0) { /* Emit informational message */ if(verbose) HDfprintf(verbose_file, "READER: Checking random symbols after FILE OPEN\n"); /* Iterate over random datasets */ for(v = 0; v < nrandom; v++) { /* Check random dataset */ if(check_dataset(fid, verbose, verbose_file, sym_rand[v]->name, &record, mem_sid) < 0) goto error; HDmemset(&record, 0, sizeof(record)); } /* end for */ } /* end if */ /* Emit informational message */ if(verbose) HDfprintf(verbose_file, "READER: Closing file\n"); /* Close the file */ if(H5Fclose(fid) < 0) goto error; /* Sleep for the appropriate # of seconds */ HDsleep(poll_time); /* Retrieve the current time */ curr_time = HDtime(NULL); } /* end while */ /* Close the memory dataspace */ if(H5Sclose(mem_sid) < 0) goto error; /* Close the fapl */ if(H5Pclose(fapl) < 0) goto error; if(config) HDfree(config); /* Emit informational message */ if(verbose) HDfprintf(verbose_file, "READER: Closing datasets\n"); /* Close 'random' datasets, if any */ if(nrandom > 0) { /* Release array holding dataset ID's for random datasets */ HDfree(sym_rand); } /* end if */ /* Close 'common' datasets, if any */ if(ncommon > 0) { /* Release array holding dataset ID's for common datasets */ HDfree(sym_com); } /* end if */ return 0; error: if(config) HDfree(config); if(sym_rand) HDfree(sym_rand); if(sym_com) HDfree(sym_com); H5E_BEGIN_TRY { H5Sclose(mem_sid); H5Fclose(fid); H5Pclose(fapl); } H5E_END_TRY; return -1; } /* end read_records() */ static void usage(void) { printf("\n"); printf("Usage error!\n"); printf("\n"); printf("Usage: vfd_swmr_reader [-q] [-s <# of seconds to sleep between polling>]\n"); printf(" [-h <# of common symbols to poll>] [-l <# of random symbols to poll>]\n"); printf(" [-r ] <# of seconds to test>\n"); printf("\n"); printf("<# of seconds to test> must be specified.\n"); printf("\n"); printf("Defaults to verbose (no '-q' given), 1 second between polling ('-s 1'),\n"); printf("5 common symbols to poll ('-h 5'), 10 random symbols to poll ('-l 10'),\n"); printf("and will generate a random seed (no -r given).\n"); printf("\n"); HDexit(1); } int main(int argc, const char *argv[]) { long nseconds = 0; /* # of seconds to test */ int poll_time = 1; /* # of seconds between polling */ int ncommon = 5; /* # of common symbols to poll */ int nrandom = 10; /* # of random symbols to poll */ hbool_t verbose = TRUE; /* Whether to emit some informational messages */ FILE *verbose_file = NULL; /* File handle for verbose output */ hbool_t use_seed = FALSE; /* Set to 1 if a seed was set on the command line */ unsigned random_seed = 0; /* Random # seed */ unsigned u; /* Local index variables */ int temp; /* Parse command line options */ if(argc < 2) usage(); if(argc > 1) { u = 1; while(u < (unsigned)argc) { if(argv[u][0] == '-') { switch(argv[u][1]) { /* # of common symbols to poll */ case 'h': ncommon = HDatoi(argv[u + 1]); if(ncommon < 0) usage(); u += 2; break; /* # of random symbols to poll */ case 'l': nrandom = HDatoi(argv[u + 1]); if(nrandom < 0) usage(); u += 2; break; /* Be quiet */ case 'q': verbose = FALSE; u++; break; /* Random # seed */ case 'r': use_seed = TRUE; temp = HDatoi(argv[u + 1]); if(temp < 0) usage(); else random_seed = (unsigned)temp; u += 2; break; /* # of seconds between polling */ case 's': poll_time = HDatoi(argv[u + 1]); if(poll_time < 0) usage(); u += 2; break; default: usage(); break; } /* end switch */ } /* end if */ else { /* Get the number of records to append */ nseconds = HDatol(argv[u]); if(nseconds <= 0) usage(); u++; } /* end else */ } /* end while */ } /* end if */ if(nseconds <= 0) usage(); if(poll_time >= nseconds) usage(); /* Set the random seed */ if(!use_seed) { struct timeval t; HDgettimeofday(&t, NULL); random_seed = (unsigned)(t.tv_usec); } /* end if */ HDsrandom(random_seed); /* Open output file */ if(verbose) { char verbose_name[1024]; HDsnprintf(verbose_name, sizeof(verbose_name), "vfd_swmr_reader.out.%u", random_seed); if(NULL == (verbose_file = HDfopen(verbose_name, "w"))) { HDfprintf(stderr, "READER: Can't open verbose output file!\n"); HDexit(1); } } /* end if */ /* Emit informational message */ if(verbose) { HDfprintf(verbose_file, "READER: Parameters:\n"); HDfprintf(verbose_file, "\t# of seconds between polling = %d\n", poll_time); HDfprintf(verbose_file, "\t# of common symbols to poll = %d\n", ncommon); HDfprintf(verbose_file, "\t# of random symbols to poll = %d\n", nrandom); HDfprintf(verbose_file, "\t# of seconds to test = %ld\n", nseconds); } /* end if */ /* ALWAYS emit the random seed for possible debugging */ HDfprintf(stdout, "READER: Using reader random seed: %u\n", random_seed); /* Emit informational message */ if(verbose) HDfprintf(verbose_file, "READER: Generating symbol names\n"); /* Generate dataset names */ if(generate_symbols() < 0) { HDfprintf(stderr, "READER: Error generating symbol names!\n"); HDexit(1); } /* end if */ /* Create datatype for creating datasets */ if((symbol_tid = create_symbol_datatype()) < 0) { HDfprintf(stderr, "READER: Error creating symbol datatype!\n"); HDexit(1); } /* Reading records from datasets */ if(read_records(FILENAME, verbose, verbose_file, random_seed, (unsigned long)nseconds, (unsigned)poll_time, (unsigned)ncommon, (unsigned)nrandom) < 0) { HDfprintf(stderr, "READER: Error reading records from datasets (random_seed = %u)!\n", random_seed); HDexit(1); } /* end if */ /* Emit informational message */ if(verbose) HDfprintf(verbose_file, "READER: Releasing symbols\n"); /* Clean up the symbols */ if(shutdown_symbols() < 0) { HDfprintf(stderr, "READER: Error releasing symbols!\n"); HDexit(1); } /* end if */ /* Emit informational message */ if(verbose) HDfprintf(verbose_file, "READER: Closing objects\n"); /* Close objects created */ if(H5Tclose(symbol_tid) < 0) { HDfprintf(stderr, "READER: Error closing symbol datatype!\n"); HDexit(1); } /* end if */ return 0; }