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409 lines
14 KiB
C
409 lines
14 KiB
C
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
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* Copyright by The HDF Group. *
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* All rights reserved. *
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* *
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* This file is part of HDF5. The full HDF5 copyright notice, including *
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* terms governing use, modification, and redistribution, is contained in *
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* the COPYING file, which can be found at the root of the source code *
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* distribution tree, or in https://www.hdfgroup.org/licenses. *
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* If you do not have access to either file, you may request a copy from *
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* help@hdfgroup.org. *
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* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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/* HACKED VERSION
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* Demonstrate SWMR with a mirrored file.
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*
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* Must be built with SERVER_IP as the IP address of the target system
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* with a running mirror server, and SERVER_PORT as the primary server port.
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*
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* In addition to the local file, 'shinano.h5' will be created on the remote
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* system, mirroring the local file. The file location will be local to
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* Server's/Writer's invocation directory.
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*
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* Template for demonstration purposes:
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*
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* # Launch mirror server on remote machine (in foreground to easily stop)
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* REMOTE(1)$ ./mirror_server /path/to/mirror_worker
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*
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* # Launch chunk writer with plenty of chunks.
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* LOCAL(1)$ ./use_append_chunk_mirror -l w -n 10000
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*
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* # Wait one second for files to be created.
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*
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* # Launch chunk readers on both files.
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* LOCAL(2)$ ./use_append_chunk_mirror -l r -n 10000
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* REMOTE(2)$ ./use_append_chunk_mirror -l r -n 10000 -f shinano.h5
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*
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* # Hard-stop the server.
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* REMOTE(1)$ ^C
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* # alt, softer shutdown using echo and nc
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* echo "SHUTDOWN" | nc localhost 3000
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*/
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/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
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* Use Case 1.7 Appending a single chunk
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* Description:
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* Appending a single chunk of raw data to a dataset along an unlimited
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* dimension within a pre-created file and reading the new data back.
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* Goal:
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* Read data appended by the Writer to a pre-existing dataset in a
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* file. The dataset has one or more unlimited dimensions. The data is
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* appended by a hyperslab that is contained in one chunk (for example,
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* appending 2-dim planes along the slowest changing dimension in the
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* 3-dim dataset).
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* Level:
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* User Level
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* Guarantees:
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* o Readers will see the modified dimension sizes after the Writer
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* finishes HDF5 metadata updates and issues H5Fflush or H5Oflush calls.
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* o Readers will see newly appended data after the Writer finishes
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* the flush operation.
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*
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* Preconditions:
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* o Readers are not allowed to modify the file.
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* o All datasets that are modified by the Writer exist when the Writer
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* opens the file.
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* o All datasets that are modified by the Writer exist when a Reader
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* opens the file.
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* o Data is written by a hyperslab contained in one chunk.
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*
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* Main Success Scenario:
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* 1. An application creates a file with required objects (groups,
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* datasets, and attributes).
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* 2. The Writer application opens the file and datasets in the file
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* and starts adding data along the unlimited dimension using a hyperslab
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* selection that corresponds to an HDF5 chunk.
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* 3. A Reader opens the file and a dataset in a file, and queries
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* the sizes of the dataset; if the extent of the dataset has changed,
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* reads the appended data back.
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*
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* Discussion points:
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* 1. Since the new data is written to the file, and metadata update
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* operation of adding pointer to the newly written chunk is atomic and
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* happens after the chunk is on the disk, only two things may happen
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* to the Reader:
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* o The Reader will not see new data.
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* o The Reader will see all new data written by Writer.
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* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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/* Created: Jacob Smith, 2019 */
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#include "use.h"
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/* This test uses many POSIX things that are not available on
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* Windows.
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*/
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#ifdef H5_HAVE_UNISTD_H
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#ifdef H5_HAVE_MIRROR_VFD
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#define THIS_PROGNAME "use_append_chunk_mirror"
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#define CONNECT_WITH_JELLY 0
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#if CONNECT_WITH_JELLY
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#define SERVER_IP "10.10.10.248" /* hard-coded IP address */
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#else
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#define SERVER_IP "127.0.0.1" /* localhost */
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#endif /* CONNECT_WITH_JELLY */
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#define SERVER_PORT 3000 /* hard-coded port number */
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#define MIRROR_FILE_NAME "shinano.h5" /* hard-coded duplicate/mirror filename */
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static options_t UC_opts; /* Use Case Options */
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/* Setup parameters for the use case.
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* Return: 0 succeed; -1 fail.
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*/
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int
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setup_parameters(int argc, char *const argv[], options_t *opts)
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{
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/* use case defaults */
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HDmemset(opts, 0, sizeof(options_t));
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opts->chunksize = Chunksize_DFT;
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opts->use_swmr = TRUE;
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opts->iterations = 1;
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opts->chunkplanes = 1;
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opts->progname = THIS_PROGNAME;
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if (parse_option(argc, argv, opts) < 0)
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return (-1);
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opts->chunkdims[0] = opts->chunkplanes;
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opts->chunkdims[1] = opts->chunkdims[2] = opts->chunksize;
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opts->dims[0] = 0;
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opts->max_dims[0] = H5S_UNLIMITED;
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opts->dims[1] = opts->dims[2] = opts->max_dims[1] = opts->max_dims[2] = opts->chunksize;
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if (opts->nplanes == 0)
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opts->nplanes = (hsize_t)opts->chunksize;
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show_parameters(opts);
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return 0;
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} /* setup_parameters() */
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/* Overall Algorithm:
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* Parse options from user;
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* Generate/pre-created test files needed and close it;
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* fork: child process becomes the reader process;
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* while parent process continues as the writer process;
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* both run till ending conditions are met.
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*/
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int
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main(int argc, char *argv[])
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{
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pid_t childpid = 0;
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pid_t mypid, tmppid;
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int child_status;
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int child_wait_option = 0;
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int ret_value = 0;
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int child_ret_value;
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hbool_t send_wait = FALSE;
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hid_t fid = H5I_INVALID_HID;
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H5FD_mirror_fapl_t mirr_fa;
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H5FD_splitter_vfd_config_t *split_fa = NULL;
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hid_t mirr_fapl_id = H5I_INVALID_HID;
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if (setup_parameters(argc, argv, &UC_opts) < 0) {
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Hgoto_error(1);
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}
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mirr_fa.magic = H5FD_MIRROR_FAPL_MAGIC;
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mirr_fa.version = H5FD_MIRROR_CURR_FAPL_T_VERSION;
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mirr_fa.handshake_port = SERVER_PORT;
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HDstrncpy(mirr_fa.remote_ip, SERVER_IP, H5FD_MIRROR_MAX_IP_LEN);
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if (NULL == (split_fa = HDcalloc(1, sizeof(H5FD_splitter_vfd_config_t)))) {
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HDfprintf(stderr, "can't allocate memory for splitter config\n");
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Hgoto_error(1);
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}
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split_fa->wo_fapl_id = H5I_INVALID_HID;
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split_fa->rw_fapl_id = H5I_INVALID_HID;
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split_fa->magic = H5FD_SPLITTER_MAGIC;
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split_fa->version = H5FD_CURR_SPLITTER_VFD_CONFIG_VERSION;
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split_fa->log_file_path[0] = '\0'; /* none */
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split_fa->ignore_wo_errs = FALSE;
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HDstrncpy(split_fa->wo_path, MIRROR_FILE_NAME, H5FD_SPLITTER_PATH_MAX);
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/* Determine the need to send/wait message file*/
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if (UC_opts.launch == UC_READWRITE) {
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HDunlink(WRITER_MESSAGE);
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send_wait = TRUE;
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}
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/* ==============================================================*/
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/* UC_READWRITE: create datafile, launch both reader and writer. */
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/* UC_WRITER: create datafile, skip reader, launch writer. */
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/* UC_READER: skip create, launch reader, exit. */
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/* ==============================================================*/
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/* =========== */
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/* Create file */
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/* =========== */
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if (UC_opts.launch != UC_READER) {
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HDprintf("Creating skeleton data file for test...\n");
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/* Prepare mirror child driver */
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mirr_fapl_id = H5Pcreate(H5P_FILE_ACCESS);
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if (mirr_fapl_id == H5I_INVALID_HID) {
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HDfprintf(stderr, "can't create creation mirror FAPL\n");
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Hgoto_error(1);
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}
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if (H5Pset_fapl_mirror(mirr_fapl_id, &mirr_fa) < 0) {
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HDfprintf(stderr, "can't set creation mirror FAPL\n");
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H5Eprint2(H5E_DEFAULT, stdout);
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Hgoto_error(1);
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}
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/* Prepare parent "splitter" driver in UC_opts */
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split_fa->wo_fapl_id = mirr_fapl_id;
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split_fa->rw_fapl_id = H5P_DEFAULT;
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UC_opts.fapl_id = H5Pcreate(H5P_FILE_ACCESS);
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if (UC_opts.fapl_id == H5I_INVALID_HID) {
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HDfprintf(stderr, "can't create creation FAPL\n");
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Hgoto_error(1);
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}
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if (H5Pset_fapl_splitter(UC_opts.fapl_id, split_fa) < 0) {
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HDfprintf(stderr, "can't set creation FAPL\n");
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H5Eprint2(H5E_DEFAULT, stdout);
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Hgoto_error(1);
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}
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if (H5Pset_libver_bounds(UC_opts.fapl_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) < 0) {
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HDfprintf(stderr, "can't set creation FAPL libver bounds\n");
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Hgoto_error(1);
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}
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/* Create file */
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if (create_uc_file(&UC_opts) < 0) {
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HDfprintf(stderr, "***encounter error\n");
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Hgoto_error(1);
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}
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else {
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HDprintf("File created.\n");
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}
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/* Close FAPLs to prevent issues with forking later */
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if (H5Pclose(UC_opts.fapl_id) < 0) {
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HDfprintf(stderr, "can't close creation FAPL\n");
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Hgoto_error(1);
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}
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UC_opts.fapl_id = H5I_INVALID_HID;
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if (H5Pclose(mirr_fapl_id) < 0) {
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HDfprintf(stderr, "can't close creation mirror FAPL\n");
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Hgoto_error(1);
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}
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mirr_fapl_id = H5I_INVALID_HID;
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}
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/* ============ */
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/* Fork process */
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/* ============ */
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if (UC_opts.launch == UC_READWRITE) {
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if ((childpid = HDfork()) < 0) {
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HDperror("fork");
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Hgoto_error(1);
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}
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}
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mypid = HDgetpid();
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/* ============= */
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/* launch reader */
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/* ============= */
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if (UC_opts.launch != UC_WRITER) {
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/* child process -- launch the reader */
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/* reader only opens the one file -- separate reader needed for mirrored file 'shinano.h5' */
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if (0 == childpid) {
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HDprintf("%d: launch reader process\n", mypid);
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UC_opts.fapl_id = H5P_DEFAULT;
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if (read_uc_file(send_wait, &UC_opts) < 0) {
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HDfprintf(stderr, "read_uc_file encountered error (%d)\n", mypid);
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HDexit(1);
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}
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HDexit(0);
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}
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}
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/* ============= */
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/* launch writer */
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/* ============= */
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/* this process continues to launch the writer */
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HDprintf("%d: continue as the writer process\n", mypid);
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/* Prepare mirror child driver */
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mirr_fapl_id = H5Pcreate(H5P_FILE_ACCESS);
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if (mirr_fapl_id == H5I_INVALID_HID) {
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HDfprintf(stderr, "can't create creation mirror FAPL\n");
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Hgoto_error(1);
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}
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if (H5Pset_fapl_mirror(mirr_fapl_id, &mirr_fa) < 0) {
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HDfprintf(stderr, "can't set creation mirror FAPL\n");
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H5Eprint2(H5E_DEFAULT, stdout);
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Hgoto_error(1);
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}
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/* Prepare parent "splitter" driver in UC_opts */
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split_fa->wo_fapl_id = mirr_fapl_id;
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split_fa->rw_fapl_id = H5P_DEFAULT;
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UC_opts.fapl_id = H5Pcreate(H5P_FILE_ACCESS);
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if (UC_opts.fapl_id == H5I_INVALID_HID) {
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HDfprintf(stderr, "can't create creation FAPL\n");
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Hgoto_error(1);
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}
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if (H5Pset_fapl_splitter(UC_opts.fapl_id, split_fa) < 0) {
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HDfprintf(stderr, "can't set creation FAPL\n");
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H5Eprint2(H5E_DEFAULT, stdout);
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Hgoto_error(1);
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}
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if (UC_opts.use_swmr) {
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if (H5Pset_libver_bounds(UC_opts.fapl_id, H5F_LIBVER_LATEST, H5F_LIBVER_LATEST) < 0) {
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HDfprintf(stderr, "can't set write FAPL libver bounds\n");
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Hgoto_error(1);
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}
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}
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if ((fid = H5Fopen(UC_opts.filename, H5F_ACC_RDWR | (UC_opts.use_swmr ? H5F_ACC_SWMR_WRITE : 0),
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UC_opts.fapl_id)) < 0) {
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HDfprintf(stderr, "H5Fopen failed\n");
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Hgoto_error(1);
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}
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if (write_uc_file(send_wait, fid, &UC_opts) < 0) {
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HDfprintf(stderr, "write_uc_file encountered error\n");
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Hgoto_error(1);
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}
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if (H5Fclose(fid) < 0) {
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HDfprintf(stderr, "Failed to close write\n");
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Hgoto_error(1);
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}
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if (H5Pclose(UC_opts.fapl_id) < 0) {
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HDfprintf(stderr, "can't close write FAPL\n");
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Hgoto_error(1);
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}
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if (H5Pclose(mirr_fapl_id) < 0) {
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HDfprintf(stderr, "can't close write mirror FAPL\n");
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Hgoto_error(1);
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}
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/* ================================================ */
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/* If readwrite, collect exit code of child process */
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/* ================================================ */
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if (UC_opts.launch == UC_READWRITE) {
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if ((tmppid = HDwaitpid(childpid, &child_status, child_wait_option)) < 0) {
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HDperror("waitpid");
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Hgoto_error(1);
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}
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if (WIFEXITED(child_status)) {
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if ((child_ret_value = WEXITSTATUS(child_status)) != 0) {
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HDprintf("%d: child process exited with non-zero code (%d)\n", mypid, child_ret_value);
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Hgoto_error(2);
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}
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}
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else {
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HDprintf("%d: child process terminated abnormally\n", mypid);
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Hgoto_error(2);
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}
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}
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done:
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HDfree(split_fa);
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if (ret_value != 0) {
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HDprintf("Error(s) encountered\n");
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}
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else {
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HDprintf("All passed\n");
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}
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return ret_value;
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}
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#else /* H5_HAVE_MIRROR_VFD */
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int
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main(void)
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{
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HDfprintf(stderr, "Mirror VFD is not built. Skipping.\n");
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return EXIT_SUCCESS;
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} /* end main() */
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#endif /* H5_HAVE_MIRROR_VFD */
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#else /* H5_HAVE_UNISTD_H */
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int
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main(void)
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{
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HDfprintf(stderr, "Non-POSIX platform. Skipping.\n");
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return EXIT_SUCCESS;
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} /* end main() */
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#endif /* H5_HAVE_UNISTD_H */
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