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openmpi/orte/mca/ns/ns.h
Ralph Castain c530521a8e Add several new interface functions to the name services:
1. dump_xxx - analogous to the registry's dump commands, allows you to examine the contents of the name services' structures

2. get_job_peers - get an array of process names for all processes in the specified job

This commit was SVN r6759.
2005-08-07 13:21:52 +00:00

708 строки
27 KiB
C

/*
* 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 (c) 2004-2005 The Regents of the University of California.
* All rights reserved.
* $COPYRIGHT$
*
* Additional copyrights may follow
*
* $HEADER$
*/
/** @file:
*
* The Open MPI Name Server
*
* The Open MPI Name Server provides unique name ranges for processes
* within the universe. Each universe will have one name server
* running within the seed daemon. This is done to prevent the
* inadvertent duplication of names.
*/
#ifndef MCA_NS_H
#define MCA_NS_H
/*
* includes
*/
#include "orte_config.h"
#include "include/constants.h"
#include "include/orte_types.h"
#include "dps/dps.h"
#include "mca/mca.h"
#include "mca/oob/oob_types.h"
#include "ns_types.h"
#if defined(c_plusplus) || defined(__cplusplus)
extern "C" {
#endif
/*
* Component functions - all MUST be provided!
*/
/* Init the selected module
*/
typedef int (*orte_ns_base_module_init_fn_t)(void);
/**** CELL FUNCTIONS ****/
/**
* Create a new cell id.
* The create_cellid() function allocates a new cell id for use by the caller.
* The function checks to find the next available cell id, reserves it, and returns that
* number. No memory for names is allocated by this process. The range of answers is from
* 1 to MCA_NS_BASE_CELLID_MAX-1 (zero is reserved for the seed name and cannot therefore be
* allocated).
*
* @param site The name of the site where the cell is located.
* @param resource The name of the resource associated with this cell (e.g., the name
* of the cluster).
* @param cellid The numerical value of the allocated cell id. A value of
* MCA_NS_BASE_CELLID_MAX indicates
* that an error occurred - this represents a very unlikely
* event meaning that the system ran out of cell id's. This probably indicates
* an error in the calling program as the number of available cell id's is extremely large.
*
* @retval ORTE_SUCCESS A cellid was created and returned.
* @retval ORTE_ERROR_VALUE An error code indicative of the problem.
*
* @code
* new_cellid = ompi_name_server.create_cellid()
* @endcode
*/
typedef int (*orte_ns_base_module_create_cellid_fn_t)(orte_cellid_t *cellid,
char *site, char *resource);
/**
* Get cell info
* Retrieve the site and resource info on a cell.
*
* @param cellid The id of the cell who's info is being requested.
* @param site Returns a pointer to a strdup'd string containing the site name.
* @param resource Returns a pointer to a strdup'd string containg the resource name.
* @retval ORTE_SUCCESS A cellid was created and returned.
* @retval ORTE_ERROR_VALUE An error code indicative of the problem.
*/
typedef int (*orte_ns_base_module_get_cell_info_fn_t)(orte_cellid_t cellid,
char **site, char **resource);
/**
* Get the cell id for a process.
* The cellid designator represents the physical location of the process - it is associated with
* the hardware/system where the process is executing. Each process name contains this identifier
* so that the system can issue commands (e.g., "die") to a collection of processes that are
* executing on a common platform.
*
* Given that usage, it is necessary that the system have a way of telling a process its cellid.
* The create_cellid() function is used by the system to associate a "cellid" identifier with
* each platform. This function - assign_cellid_to_process() - is used to inform the process
* of its cellid.
*
* Given a process name, this function will lookup its current platform and update the name with the
* cellid.
*
* @param name Pointer to an ompi_process_name structure. The function will update the cellid
* entry in the structure.
*
* @retval OMPI_SUCCESS Update was successful.
* @retval OMPI_ERROR Update failed, most likely due to either a NULL process name pointer or the
* inability to locate the process name in the lookup table.
*
* @code
* return_value = ompi_name_server.assign_cellid_to_process(ompi_process_name_t* name);
* @endcode
*/
typedef int (*orte_ns_base_module_assign_cellid_to_process_fn_t)(orte_process_name_t* name);
/**
* Get the cell id as a character string.
* The get_cellid_string() function returns the cell id in a character string
* representation. The string is created by expressing the field in hexadecimal. Memory
* for the string is allocated by the function - releasing that allocation is the
* responsibility of the calling program.
*
* @param *name A pointer to the name structure containing the name to be
* "translated" to a string.
*
* @retval *name_string A pointer to the character string representation of the
* cell id.
* @retval NULL Indicates an error occurred - either no memory could be allocated
* or the caller provided an incorrect name pointer (e.g., NULL).
*
* @code
* cellid-string = ompi_name_server.get_cellid_string(&name)
* @endcode
*/
typedef int (*orte_ns_base_module_get_cellid_string_fn_t)(char **cellid_string, const orte_process_name_t* name);
/**
* Convert cellid to character string
* Returns the cellid in a character string representation. The string is created
* by expressing the provided cellid in hexadecimal. Memory for the string is
* allocated by the function - releasing that allocation is the responsibility of
* the calling program.
*
* @param cellid The cellid to be converted.
*
* @retval *cellid_string A pointer to a character string representation of the cellid.
* @retval NULL Indicates an error occurred - probably no memory could be allocated.
*
* @code
* cellid-string = ompi_name_server.convert_cellid_to_string(cellid);
* @endcode
*/
typedef int (*orte_ns_base_module_convert_cellid_to_string_fn_t)(char **cellid_string, const orte_cellid_t cellid);
/**
* Convert a string to a cellid.
* Converts a characters string into a cellid. The character string must be a
* hexadecimal representation of a valid cellid.
*
* @param cellidstring The string to be converted.
*
* @retval cellid The resulting cellid
* @retval MCA_NS_BASE_CELLID_MAX String could not be converted.
*
* @code
* cellid = ompi_name_server.convert_string_to_cellid(cellidstring);
* @endcode
*/
typedef int (*orte_ns_base_module_convert_string_to_cellid_fn_t)(orte_cellid_t *cellid, const char *cellidstring);
/**
* Get the cell id as a numberic value.
* The get_cellid() function returns the cell id in a numeric representation -
* i.e., in an integer form.
*
* @param *name A pointer to the name structure containing the name.
*
* @retval cellid The cell id field of the provided name.
* @retval MCA_NS_BASE_CELLID_MAX Indicates that an error occurred - in this case, that
* the name variable provided was NULL.
*
* @code
* cellid = ompi_name_server.get_cellid(&name)
* @endcode
*/
typedef int (*orte_ns_base_module_get_cellid_fn_t)(orte_cellid_t *cellid, const orte_process_name_t* name);
/**** JOB ID FUNCTIONS ****/
/**
* Create a new job id.
* The create_jobid() function allocates a new job id for use by the caller.
* The function checks to find the next available job id, reserves it, and returns that
* number. No memory for names is allocated by this process. The range of answers is from
* 1 to MCA_NS_BASE_JOBID_MAX-1 (zero is reserved for the seed name and cannot therefore be
* allocated).
*
* The 0 job id is reserved for daemons within the system and will not be allocated.
* Developers should therefore assume that the daemon job id is automatically allocated
* and proceed to request names against it.
*
* @param None
* @retval jobid The numerical value of the allocated job id. A value of
* MCA_NS_BASE_JOBID_MAX indicates
* that an error occurred - this represents a very unlikely
* event meaning that the system ran out of job id's. This probably indicates
* an error in the calling program as the number of available job id's is extremely large.
*
* @code
* new_jobid = ompi_name_server.create_jobid()
* @endcode
*/
typedef int (*orte_ns_base_module_create_jobid_fn_t)(orte_jobid_t *jobid);
/**
* Reserve a range of process id's.
* The reserve_range() function reserves a range of vpid's for the given jobid.
* Note that the cellid does not factor into this request - jobid's span the entire universe,
* hence the cell where the process is currently executing is irrelevant to this request.
*
* @param jobid The id of the job for which the vpid's are to be reserved.
* @param range The number of vpid's to be reserved. The function will find the
* next available process id and assign range-number of sequential id's to the caller.
* These id's will be reserved - i.e., they cannot be assigned to any subsequent caller.
*
* @retval startid The starting value of the reserved range of vpid's. A value of MCA_NS_BASE_VPID_MAX
* indicates that an error occurred.
*
* @code
* starting_procid = ompi_name_server.reserve_range(jobid, range)
* @endcode
*/
typedef int (*orte_ns_base_module_reserve_range_fn_t)(orte_jobid_t job,
orte_vpid_t range,
orte_vpid_t *startvpid);
/**
* Get the job id as a character string.
* The get_jobid_string() function returns the job id in a character string
* representation. The string is created by expressing the field in hexadecimal. Memory
* for the string is allocated by the function - releasing that allocation is the
* responsibility of the calling program.
*
* @param *name A pointer to the name structure containing the name to be
* "translated" to a string.
*
* @retval *name_string A pointer to the character string representation of the
* job id.
* @retval NULL Indicates an error occurred - either no memory could be allocated
* or the caller provided an incorrect name pointer (e.g., NULL).
*
* @code
* jobid-string = ompi_name_server.get_jobid_string(&name)
* @endcode
*/
typedef int (*orte_ns_base_module_get_jobid_string_fn_t)(char **jobid_string, const orte_process_name_t* name);
/**
* Convert jobid to character string
* The convert_jobid_to_string() function returns the jobid in a character string representation.
* The string is created by expressing the provided jobid in hexadecimal. Memory
* for the string is allocated by the function - releasing that allocation is the
* responsibility of the calling program.
*
* @param jobid The jobid to be converted.
*
* @retval *jobid_string A pointer to a character string representation of the
* jobid.
* @retval NULL Indicates an error occurred - probably no memory could be allocated.
*
* @code
* jobid-string = ompi_name_server.convert_jobid_to_string(jobid);
* @endcode
*/
typedef int (*orte_ns_base_module_convert_jobid_to_string_fn_t)(char **jobid_string, const orte_jobid_t jobid);
/**
* Convert a string to a jobid
* Converts a character string into a jobid. The character string must be a hexadecimal
* representation of a valid jobid.
*
* @param jobidstring The string to be converted.
*
* @retval jobid The resulting jobid.
* @retval MCA_NS_BASE_JOBID_MAX String could not be converted.
*
* @code
* jobid = ompi_name_server.convert_string_to_jobid(jobidstring);
* @endcode
*
*/
typedef int (*orte_ns_base_module_convert_string_to_jobid_fn_t)(orte_jobid_t *jobid, const char* jobidstring);
/**
* Get the job id as a numeric value.
* The get_jobid() function returns the job id in a numeric representation -
* i.e., in an integer form.
*
* @param *name A pointer to the name structure containing the name.
*
* @retval jobid The job id field of the provided name.
* @retval MCA_NS_BASE_JOBID_MAX Indicates that an error occurred - in this case, that
* the name variable provided was NULL.
*
* @code
* jobid = ompi_name_server.get_jobid(&name)
* @endcode
*/
typedef int (*orte_ns_base_module_get_jobid_fn_t)(orte_jobid_t *jobid, const orte_process_name_t* name);
/**** NAME FUNCTIONS ****/
/**
* Obtain a single new process name.
* The create_process_name() function creates a single process name structure and fills the
* fields with the provided values.
*
* @param cell The cell for which the process name is intended. Usually, this is
* the id of the cell where the process is initially planning to be spawned.
* @param job The id of the job to which the process will belong. Process id's are
* tracked according to jobid, but not cellid. Thus, two processes
* can have the same process id if and only if they have different jobid's. However,
* two processes in the same jobid cannot have the same process id, regardless
* of whether or not they are in the same cell.
* @param vpid The virtual process id for the name. Note that no check is made for uniqueness -
* the caller is responsible for ensuring that the requested name is, in fact, unique
* by first requesting reservation of an appropriate range of virtual process id's.
*
* @retval *name Pointer to an ompi_process_name_t structure containing the name.
* @retval NULL Indicates an error, probably due to inability to allocate memory for
* the name structure.
*
* @code
* new_name = ompi_name_server.create_process_name(cell, job, vpid);
* @endcode
*/
typedef int (*orte_ns_base_module_create_proc_name_fn_t)(orte_process_name_t **name,
orte_cellid_t cell,
orte_jobid_t job,
orte_vpid_t vpid);
/*
* Create my name
* If a process is a singleton, then it needs to create a name for itself. When
* a persistent daemon is present, this requires a communication to that daemon.
* Since the RML uses process names as its index into the RML communicator table,
* the RML automatically assigns a name to each process when it first attempts
* to communicate. This function takes advantage of that behavior to ensure that
* one, and ONLY one, name gets assigned to the process
*/
typedef int (*orte_ns_base_module_create_my_name_fn_t)(void);
/**
* Make a copy of a process name.
* Given a process name, this function creates a copy of it and returns a pointer
* to the duplicate structure.
*
* @param *name Pointer to an existing process name structure.
*
* @retval *newname Pointer to the duplicate structure, with all fields transferred.
* @retval NULL Indicates an error - most likely due to a NULL process name
* pointer being supplied as input.
*/
typedef int (*orte_ns_base_module_copy_proc_name_fn_t)(orte_process_name_t **dest,
orte_process_name_t* src);
/**
* Convert a string representation to a process name.
* The convert_string_to_process_name() function converts a string representation of a process
* name into an Open MPI name structure. The string must be of the proper form - i.e., it
* must be in the form "cellid.jobid.vpid", where each field is expressed in hexadecimal form.
*
* @param *name_string A character string representation of a process name.
*
* @retval *name Pointer to an ompi_process_name_t structure containing the name.
* @retval NULL Indicates an error, probably due to inability to allocate memory for
* the name structure.
*
* @code
* name = ompi_name_server.convert_string_to_process_name(name_string);
* @endcode
*/
typedef int (*orte_ns_base_module_convert_string_to_process_name_fn_t)(orte_process_name_t **name,
const char* name_string);
/**
* Free (release) a process name.
* The free_name() function releases the process name from the "used" list
* maintained within the name server for the jobid contained in the specified
* name. The memory for the name is also released at that time.
*
* Name values are currently \em not re-used. Hence, free-ing a name
* does not provide any noticeable benefit other than releasing the memory. In
* the future, names may be re-used if this becomes desirable.
*
* @param *name A pointer to the name structure containing the name being released.
*
* @retval OMPI_SUCCESS Indicates the release was succesfully accomplished.
* @retval OMPI_ERROR Indicates the release failed - most likely due to an
* error when free-ing the memory allocation.
*
* @code
* if (OMPI_ERROR == ompi_name_server.free_name(&name) {
* report error
* }
* @endcode
*/
typedef int (*orte_ns_base_module_free_name_fn_t)(orte_process_name_t **name);
/**
* Get the process name as a character string.
* The get_proc_name_string() function returns the entire process name in a
* character string representation. The string is created by expressing each
* field in hexadecimal separated by periods, as follows:
*
* sprintf(string_name, "%x.%x.%x", cellid, jobid, vpid)
*
* The memory required for the string is allocated by the function - releasing
* that allocation is the responsibility of the calling program.
*
* @param *name A pointer to the name structure containing the name to be
* "translated" to a string.
*
* @retval *name_string A pointer to the character string representation of the
* full name.
* @retval NULL Indicates an error occurred - either no memory could be allocated
* or the caller provided an incorrect name pointer (e.g., NULL).
*
* @code
* name-string = ompi_name_server.get_proc_name_string(&name)
* @endcode
*/
typedef int (*orte_ns_base_module_get_proc_name_string_fn_t)(char **name_string,
const orte_process_name_t* name);
/**
* Compare two name values.
* The compare() function checks the value of the fields in the two
* provided names, and returns a value indicating if the first one is less than, greater
* than, or equal to the second. The value of each field is compared in a hierarchical
* fashion, with cellid first, followed by jobid and vpid in sequence. The bit-mask
* indicates which fields are to be included in the comparison. Fields not included via the
* bit-mask are ignored. Thus, the caller may request that any combination of the three fields
* be included in the comparison.
*
* @param fields A bit-mask indicating which fields are to be included in the comparison. The
* comparison is performed on a hierarchical basis, with cellid being first, followed by
* jobid and then vpid. Each field can be included separately, thus allowing the caller
* to configure the comparison to meet their needs.
* @param *name1 A pointer to the first name structure.
* @param *name2 A pointer to the second name structure.
*
* @retval -1 The indicated fields of the first provided name are less than the same
* fields of the second provided name.
* @retval 0 The indicated fields of the two provided names are equal.
* @retval +1 The indicated fields of the first provided name is greater than the same
* fields of the second provided name.
*
* The function returns a large negative value if there is an error.
*
* @code
* result = ompi_name_server.compare(bit_mask, &name1, &name2)
* @endcode
*/
typedef int (*orte_ns_base_module_compare_fn_t)(orte_ns_cmp_bitmask_t fields,
const orte_process_name_t* name1,
const orte_process_name_t* name2);
/**** VPID FUNCTIONS ****/
/**
* Get the virtual process id as a character string.
* The get_vpid_string() function returns the vpid in a character string
* representation. The string is created by expressing the field in hexadecimal. Memory
* for the string is allocated by the function - releasing that allocation is the
* responsibility of the calling program.
*
* @param *name A pointer to the name structure containing the name to be
* "translated" to a string.
*
* @retval *name_string A pointer to the character string representation of the
* vpid.
* @retval NULL Indicates an error occurred - either no memory could be allocated
* or the caller provided an incorrect name pointer (e.g., NULL).
*
* @code
* vpid-string = ompi_name_server.get_vpid_string(&name)
* @endcode
*/
typedef int (*orte_ns_base_module_get_vpid_string_fn_t)(char **vpid_string, const orte_process_name_t* name);
/**
* Convert vpid to character string
* Returns the vpid in a character string representation. The string is created
* by expressing the provided vpid in hexadecimal. Memory for the string is
* allocated by the function - releasing that allocation is the responsibility of
* the calling program.
*
* @param vpid The vpid to be converted.
*
* @retval *vpid_string A pointer to a character string representation of the vpid.
* @retval NULL Indicates an error occurred - probably no memory could be allocated.
*
* @code
* vpid-string = ompi_name_server.convert_vpid_to_string(vpid);
* @endcode
*/
typedef int (*orte_ns_base_module_convert_vpid_to_string_fn_t)(char **vpid_string, const orte_vpid_t vpid);
/**
* Convert a string to a vpid.
* Converts a characters string into a vpid. The character string must be a
* hexadecimal representation of a valid vpid.
*
* @param vpidstring The string to be converted.
*
* @retval vpid The resulting vpid
* @retval MCA_NS_BASE_VPID_MAX String could not be converted.
*
* @code
* vpid = ompi_name_server.convert_string_to_vpid(vpidstring);
* @endcode
*/
typedef int (*orte_ns_base_module_convert_string_to_vpid_fn_t)(orte_vpid_t *vpid, const char* vpidstring);
/**
* Get the virtual process id as a numeric value.
* The get_vpid() function returns the vpid in a numeric representation -
* i.e., in an integer form.
*
* @param *name A pointer to the name structure containing the name.
*
* @retval vpid The vpid field of the provided name.
* @retval MCA_NS_BASE_VPID_MAX Indicates that an error occurred - in this case, that
* the name variable provided was NULL.
*
* @code
* vpid = ompi_name_server.get_vpid(&name)
* @endcode
*/
typedef int (*orte_ns_base_module_get_vpid_fn_t)(orte_vpid_t *vpid, const orte_process_name_t *name);
/**** TAG SERVER ****/
/*
* Allocate a tag
* If name is NULL, tag server provides next unique tag but cannot look
* that number up again for anyone else.
*/
typedef int (*orte_ns_base_module_assign_rml_tag_fn_t)(orte_rml_tag_t *tag,
char *name);
/**** DATA TYPE SERVER ****/
/* This function defines a new data type and gives it a system-wide unique
* identifier for use in the data packing subsystem. Only called from the
* dps when needing a new identifier.
*/
typedef int (*orte_ns_base_module_define_data_type_fn_t)(
const char *name,
orte_data_type_t *type);
/**** PEER RETRIEVAL ****/
/*
* Get my peers
*
* THIS FUNCTION MAY BE ELIMINATED IN FUTURE VERSIONS TO REMOVE MULTIPLE STORAGE
* OF O(N) ARRAYS IN THE SYSTEM
*/
typedef int (*orte_ns_base_module_get_peers_fn_t)(orte_process_name_t **procs,
size_t *num_procs, size_t *self);
/*
* Get the list of peers from a specified job
*
* THIS FUNCTION MAY BE ELIMINATED IN FUTURE VERSIONS TO REMOVE MULTIPLE STORAGE
* OF O(N) ARRAYS IN THE SYSTEM
*/
typedef int (*orte_ns_base_module_get_job_peers_fn_t)(orte_process_name_t **procs,
size_t *num_procs, orte_jobid_t job);
/*
* DIAGNOSTIC INTERFACES
*/
typedef int (*orte_ns_base_module_dump_cells_fn_t)(int output_id);
typedef int (*orte_ns_base_module_dump_jobs_fn_t)(int output_id);
typedef int (*orte_ns_base_module_dump_tags_fn_t)(int output_id);
typedef int (*orte_ns_base_module_dump_datatypes_fn_t)(int output_id);
/*
* Ver 1.0.0
*/
struct mca_ns_base_module_1_0_0_t {
/* init */
orte_ns_base_module_init_fn_t init;
/* cell functions */
orte_ns_base_module_create_cellid_fn_t create_cellid;
orte_ns_base_module_get_cellid_fn_t get_cellid;
orte_ns_base_module_get_cell_info_fn_t get_cell_info;
orte_ns_base_module_assign_cellid_to_process_fn_t assign_cellid_to_process;
orte_ns_base_module_get_cellid_string_fn_t get_cellid_string;
orte_ns_base_module_convert_cellid_to_string_fn_t convert_cellid_to_string;
orte_ns_base_module_convert_string_to_cellid_fn_t convert_string_to_cellid;
/* jobid functions */
orte_ns_base_module_create_jobid_fn_t create_jobid;
orte_ns_base_module_get_jobid_fn_t get_jobid;
orte_ns_base_module_get_jobid_string_fn_t get_jobid_string;
orte_ns_base_module_convert_jobid_to_string_fn_t convert_jobid_to_string;
orte_ns_base_module_convert_string_to_jobid_fn_t convert_string_to_jobid;
/* vpid functions */
orte_ns_base_module_reserve_range_fn_t reserve_range;
orte_ns_base_module_get_vpid_fn_t get_vpid;
orte_ns_base_module_get_vpid_string_fn_t get_vpid_string;
orte_ns_base_module_convert_vpid_to_string_fn_t convert_vpid_to_string;
orte_ns_base_module_convert_string_to_vpid_fn_t convert_string_to_vpid;
/* name functions */
orte_ns_base_module_create_proc_name_fn_t create_process_name;
orte_ns_base_module_create_my_name_fn_t create_my_name;
orte_ns_base_module_copy_proc_name_fn_t copy_process_name;
orte_ns_base_module_convert_string_to_process_name_fn_t convert_string_to_process_name;
orte_ns_base_module_free_name_fn_t free_name;
orte_ns_base_module_get_proc_name_string_fn_t get_proc_name_string;
orte_ns_base_module_compare_fn_t compare;
/* peer functions */
orte_ns_base_module_get_peers_fn_t get_peers;
orte_ns_base_module_get_job_peers_fn_t get_job_peers;
/* tag server functions */
orte_ns_base_module_assign_rml_tag_fn_t assign_rml_tag;
/* data type functions */
orte_ns_base_module_define_data_type_fn_t define_data_type;
/* diagnostic functions */
orte_ns_base_module_dump_cells_fn_t dump_cells;
orte_ns_base_module_dump_jobs_fn_t dump_jobs;
orte_ns_base_module_dump_tags_fn_t dump_tags;
orte_ns_base_module_dump_datatypes_fn_t dump_datatypes;
};
typedef struct mca_ns_base_module_1_0_0_t mca_ns_base_module_1_0_0_t;
typedef mca_ns_base_module_1_0_0_t mca_ns_base_module_t;
/*
* NS Component
*/
/**
* Initialize the selected component.
*/
typedef mca_ns_base_module_t* (*mca_ns_base_component_init_fn_t)(int *priority);
/**
* Finalize the selected module
*/
typedef int (*mca_ns_base_component_finalize_fn_t)(void);
/*
* the standard component data structure
*/
struct mca_ns_base_component_1_0_0_t {
mca_base_component_t ns_version;
mca_base_component_data_1_0_0_t ns_data;
mca_ns_base_component_init_fn_t ns_init;
mca_ns_base_component_finalize_fn_t ns_finalize;
};
typedef struct mca_ns_base_component_1_0_0_t mca_ns_base_component_1_0_0_t;
typedef mca_ns_base_component_1_0_0_t mca_ns_base_component_t;
/*
* Macro for use in components that are of type ns v1.0.0
*/
#define MCA_NS_BASE_VERSION_1_0_0 \
/* ns v1.0 is chained to MCA v1.0 */ \
MCA_BASE_VERSION_1_0_0, \
/* ns v1.0 */ \
"ns", 1, 0, 0
/* Global structure for accessing name server functions
*/
OMPI_DECLSPEC extern mca_ns_base_module_t orte_ns; /* holds selected module's function pointers */
#if defined(c_plusplus) || defined(__cplusplus)
}
#endif
#endif