1
1
openmpi/src/mca/gpr/base/base.h

202 строки
8.0 KiB
C
Исходник Обычный вид История

/*
* Copyright (c) 2004-2005 The Trustees of Indiana University.
* All rights reserved.
* Copyright (c) 2004-2005 The Trustees of the University of Tennessee.
* All rights reserved.
* Copyright (c) 2004-2005 High Performance Computing Center Stuttgart,
* University of Stuttgart. All rights reserved.
* $COPYRIGHT$
*
* Additional copyrights may follow
*
* $HEADER$
*/
/** @file:
*
* The Open MPI general purpose registry.
*
* The Open MPI system contains a general purpose registry for use by both
* applications and internal systems to dynamically share information. For
* speed purposes, the registry is divided into "segments", each labelled
* with an appropriate "token" string that describes its contents. Segments
* are automatically provided for the "universe" and for each MPI CommWorld.
* At this time, all segments may be accessed by any application within the universe, thus
* providing a mechanism for cross-CommWorld communications (with the requirement
* that all participating CommWorlds must reside within the same universe). In the future,
* some form of security may be provided to limit access privileges between
* segments.
*
* Within each registry segment, there exists a list of objects that have
* been "put" onto the registry. Each object must be tagged with at least
* one token, but may be tagged with as many tokens as the creator desires.
* Retrieval requests must specify the segment and at least one token, but
* can specify an arbitrary number of tokens to describe the search. The registry
* will return a list of all objects that meet the search criteria.
*
* Tokens are defined as character strings, thus allowing for clarity in
* the program. However, for speed purposes, tokens are translated into
* integer keys prior to storing an object. A table of token-key pairs
* is independently maintained for each registry segment. Users can obtain
* an index of tokens within a dictionary by requesting it through the ompi_registry_index()
* function.
*
* The registry also provides a subscription capability whereby a caller
* can subscribe to a stored object and receive notification when various actions
* are performed on that object. Currently supported actions include modification,
* the addition of another subscriber, and deletion. Notifications are sent via
* the OOB communication channel.
*
*
*/
#ifndef MCA_GPR_BASE_H_
#define MCA_GRP_BASE_H_
/*
* includes
*/
#include "ompi_config.h"
#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <string.h>
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
#ifdef HAVE_LIBGEN_H
#include <libgen.h>
#endif
#ifdef HAVE_SYS_TYPES_H
#include <sys/types.h>
#endif
#include "include/constants.h"
#include "threads/mutex.h"
#include "threads/condition.h"
#include "runtime/runtime.h"
#include "util/output.h"
#include "util/proc_info.h"
#include "util/sys_info.h"
#include "util/bufpack.h"
#include "class/ompi_list.h"
#include "mca/mca.h"
#include "mca/base/base.h"
#include "mca/base/mca_base_param.h"
#include "mca/oob/base/base.h"
#include "mca/gpr/gpr.h"
/*
* Global functions for MCA overall collective open and close
*/
#if defined(c_plusplus) || defined(__cplusplus)
extern "C" {
#endif
OMPI_DECLSPEC int mca_gpr_base_open(void);
OMPI_DECLSPEC int mca_gpr_base_select(bool *allow_multi_user_threads,
bool *have_hidden_threads);
OMPI_DECLSPEC int mca_gpr_base_close(void);
/* general usage functions */
OMPI_DECLSPEC int mca_gpr_base_pack_delete_segment(ompi_buffer_t cmd, bool silent, char *segment);
OMPI_DECLSPEC int mca_gpr_base_unpack_delete_segment(ompi_buffer_t buffer);
OMPI_DECLSPEC int mca_gpr_base_pack_delete_object(ompi_buffer_t buffer, bool silent,
ompi_registry_mode_t mode,
char *segment, char **tokens);
OMPI_DECLSPEC int mca_gpr_base_unpack_delete_object(ompi_buffer_t buffer);
OMPI_DECLSPEC int mca_gpr_base_pack_index(ompi_buffer_t cmd, char *segment);
OMPI_DECLSPEC int mca_gpr_base_unpack_index(ompi_buffer_t cmd, ompi_list_t *return_list);
OMPI_DECLSPEC int mca_gpr_base_pack_cleanup(ompi_buffer_t cmd, mca_ns_base_jobid_t jobid);
OMPI_DECLSPEC int mca_gpr_base_pack_synchro(ompi_buffer_t cmd,
ompi_registry_synchro_mode_t synchro_mode,
ompi_registry_mode_t mode,
char *segment, char **tokens, int trigger);
OMPI_DECLSPEC int mca_gpr_base_unpack_synchro(ompi_buffer_t buffer,
ompi_registry_notify_id_t *remote_idtag);
OMPI_DECLSPEC int mca_gpr_base_pack_cancel_synchro(ompi_buffer_t cmd,
bool silent,
ompi_registry_notify_id_t remote_idtag);
OMPI_DECLSPEC int mca_gpr_base_unpack_cancel_synchro(ompi_buffer_t buffer);
OMPI_DECLSPEC int mca_gpr_base_pack_subscribe(ompi_buffer_t cmd,
ompi_registry_mode_t mode,
ompi_registry_notify_action_t action,
char *segment, char **tokens);
OMPI_DECLSPEC int mca_gpr_base_unpack_subscribe(ompi_buffer_t buffer,
ompi_registry_notify_id_t *remote_idtag);
OMPI_DECLSPEC int mca_gpr_base_pack_unsubscribe(ompi_buffer_t cmd, bool silent,
ompi_registry_notify_id_t remote_idtag);
OMPI_DECLSPEC int mca_gpr_base_unpack_unsubscribe(ompi_buffer_t buffer);
OMPI_DECLSPEC int mca_gpr_base_pack_put(ompi_buffer_t cmd, bool silent,
ompi_registry_mode_t mode, char *segment,
char **tokens, ompi_registry_object_t object,
ompi_registry_object_size_t size);
OMPI_DECLSPEC int mca_gpr_base_unpack_put(ompi_buffer_t buffer);
OMPI_DECLSPEC int mca_gpr_base_pack_get(ompi_buffer_t cmd,
ompi_registry_mode_t mode,
char *segment, char **tokens);
OMPI_DECLSPEC int mca_gpr_base_unpack_get(ompi_buffer_t buffer, ompi_list_t *return_list);
OMPI_DECLSPEC int mca_gpr_base_pack_dump(ompi_buffer_t cmd);
OMPI_DECLSPEC void mca_gpr_base_print_dump(ompi_buffer_t buffer, int output_id);
OMPI_DECLSPEC int mca_gpr_base_pack_cleanup_job(ompi_buffer_t buffer, mca_ns_base_jobid_t jobid);
OMPI_DECLSPEC int mca_gpr_base_pack_cleanup_proc(ompi_buffer_t buffer, bool purge, ompi_process_name_t *proc);
OMPI_DECLSPEC int mca_gpr_base_pack_test_internals(ompi_buffer_t cmd, int level);
OMPI_DECLSPEC int mca_gpr_base_unpack_test_internals(ompi_buffer_t buffer, ompi_list_t *return_list);
OMPI_DECLSPEC int mca_gpr_base_pack_notify_off(ompi_buffer_t cmd,
ompi_process_name_t *proc,
ompi_registry_notify_id_t sub_number);
OMPI_DECLSPEC int mca_gpr_base_unpack_notify_off(ompi_buffer_t buffer);
OMPI_DECLSPEC int mca_gpr_base_pack_notify_on(ompi_buffer_t cmd,
ompi_process_name_t *proc,
ompi_registry_notify_id_t sub_number);
OMPI_DECLSPEC int mca_gpr_base_unpack_notify_on(ompi_buffer_t buffer);
OMPI_DECLSPEC int mca_gpr_base_pack_assign_ownership(ompi_buffer_t cmd, bool silent,
mca_ns_base_jobid_t jobid, char *segment);
OMPI_DECLSPEC int mca_gpr_base_unpack_assign_ownership(ompi_buffer_t buffer);
OMPI_DECLSPEC int mca_gpr_base_pack_get_startup_msg(ompi_buffer_t cmd, mca_ns_base_jobid_t jobid);
OMPI_DECLSPEC ompi_buffer_t mca_gpr_base_unpack_get_startup_msg(ompi_buffer_t buffer, ompi_list_t *recipients);
OMPI_DECLSPEC int mca_gpr_base_pack_triggers_active_cmd(ompi_buffer_t cmd, mca_ns_base_jobid_t jobid);
OMPI_DECLSPEC int mca_gpr_base_unpack_triggers_active_cmd(ompi_buffer_t cmd);
OMPI_DECLSPEC int mca_gpr_base_pack_triggers_inactive_cmd(ompi_buffer_t cmd, mca_ns_base_jobid_t jobid);
OMPI_DECLSPEC int mca_gpr_base_unpack_triggers_inactive_cmd(ompi_buffer_t cmd);
OMPI_DECLSPEC extern int mca_gpr_base_output;
OMPI_DECLSPEC extern mca_gpr_base_module_t ompi_registry; /* holds selected module's function pointers */
OMPI_DECLSPEC extern bool mca_gpr_base_selected;
OMPI_DECLSPEC extern ompi_list_t mca_gpr_base_components_available;
OMPI_DECLSPEC extern mca_gpr_base_component_t mca_gpr_base_selected_component;
#if defined(c_plusplus) || defined(__cplusplus)
}
#endif
/*
* globals that might be needed
*/
#endif