1
1
openmpi/ompi/mca/pml/ob1/pml_ob1_component.c
Nathan Hjelm bedd80214e pml/ob1: remove priority check
This commit removes code that checks the ob1 priority vs the previous
priority. The previous priority is meaningless here and may only cause
ob1 to disable itself when it shouldn't.

Signed-off-by: Nathan Hjelm <hjelmn@lanl.gov>
2015-10-19 12:32:41 -06:00

367 строки
14 KiB
C

/* -*- Mode: C; c-basic-offset:4 ; indent-tabs-mode:nil -*- */
/*
* Copyright (c) 2004-2007 The Trustees of Indiana University and Indiana
* University Research and Technology
* Corporation. All rights reserved.
* Copyright (c) 2004-2009 The University of Tennessee and The University
* of Tennessee Research Foundation. 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 (c) 2007-2010 Cisco Systems, Inc. All rights reserved.
* Copyright (c) 2010 Oracle and/or its affiliates. All rights reserved
* Copyright (c) 2013-2015 Los Alamos National Security, LLC. All rights
* reserved.
* $COPYRIGHT$
*
* Additional copyrights may follow
*
* $HEADER$
*/
#include "ompi_config.h"
#include "opal/mca/event/event.h"
#include "mpi.h"
#include "ompi/runtime/params.h"
#include "ompi/mca/pml/pml.h"
#include "ompi/mca/pml/base/pml_base_bsend.h"
#include "pml_ob1.h"
#include "pml_ob1_hdr.h"
#include "pml_ob1_sendreq.h"
#include "pml_ob1_recvreq.h"
#include "pml_ob1_rdmafrag.h"
#include "pml_ob1_recvfrag.h"
#include "ompi/mca/bml/base/base.h"
#include "pml_ob1_component.h"
#include "opal/mca/allocator/base/base.h"
#include "opal/mca/base/mca_base_pvar.h"
#include "opal/runtime/opal_params.h"
#include "opal/mca/btl/base/base.h"
OBJ_CLASS_INSTANCE( mca_pml_ob1_pckt_pending_t,
opal_free_list_item_t,
NULL,
NULL );
static int mca_pml_ob1_component_register(void);
static int mca_pml_ob1_component_open(void);
static int mca_pml_ob1_component_close(void);
static mca_pml_base_module_t*
mca_pml_ob1_component_init( int* priority, bool enable_progress_threads,
bool enable_mpi_threads );
static int mca_pml_ob1_component_fini(void);
int mca_pml_ob1_output = 0;
static int mca_pml_ob1_verbose = 0;
mca_pml_base_component_2_0_0_t mca_pml_ob1_component = {
/* First, the mca_base_component_t struct containing meta
information about the component itself */
.pmlm_version = {
MCA_PML_BASE_VERSION_2_0_0,
.mca_component_name = "ob1",
.mca_component_major_version = OMPI_MAJOR_VERSION,
.mca_component_minor_version = OMPI_MINOR_VERSION,
.mca_component_release_version = OMPI_RELEASE_VERSION,
.mca_open_component = mca_pml_ob1_component_open,
.mca_close_component = mca_pml_ob1_component_close,
.mca_register_component_params = mca_pml_ob1_component_register
},
.pmlm_data = {
/* The component is checkpoint ready */
MCA_BASE_METADATA_PARAM_CHECKPOINT
},
.pmlm_init = mca_pml_ob1_component_init,
.pmlm_finalize = mca_pml_ob1_component_fini,
};
void *mca_pml_ob1_seg_alloc( struct mca_mpool_base_module_t* mpool,
size_t* size,
mca_mpool_base_registration_t** registration);
void mca_pml_ob1_seg_free( struct mca_mpool_base_module_t* mpool,
void* segment );
static inline int mca_pml_ob1_param_register_int(
const char* param_name,
int default_value,
int *storage)
{
*storage = default_value;
(void) mca_base_component_var_register(&mca_pml_ob1_component.pmlm_version, param_name,
NULL, MCA_BASE_VAR_TYPE_INT, NULL, 0, 0,
OPAL_INFO_LVL_9,
MCA_BASE_VAR_SCOPE_READONLY, storage);
return *storage;
}
static inline unsigned int mca_pml_ob1_param_register_uint(
const char* param_name,
unsigned int default_value,
unsigned int *storage)
{
*storage = default_value;
(void) mca_base_component_var_register(&mca_pml_ob1_component.pmlm_version, param_name,
NULL, MCA_BASE_VAR_TYPE_UNSIGNED_INT, NULL, 0, 0,
OPAL_INFO_LVL_9,
MCA_BASE_VAR_SCOPE_READONLY, storage);
return *storage;
}
static inline size_t mca_pml_ob1_param_register_sizet(
const char* param_name,
size_t default_value,
size_t *storage)
{
*storage = default_value;
(void) mca_base_component_var_register(&mca_pml_ob1_component.pmlm_version, param_name,
NULL, MCA_BASE_VAR_TYPE_SIZE_T, NULL, 0, 0,
OPAL_INFO_LVL_9,
MCA_BASE_VAR_SCOPE_READONLY, storage);
return *storage;
}
static int mca_pml_ob1_comm_size_notify (mca_base_pvar_t *pvar, mca_base_pvar_event_t event, void *obj_handle, int *count)
{
if (MCA_BASE_PVAR_HANDLE_BIND == event) {
/* Return the size of the communicator as the number of values */
*count = ompi_comm_size ((ompi_communicator_t *) obj_handle);
}
return OMPI_SUCCESS;
}
static int mca_pml_ob1_get_unex_msgq_size (const struct mca_base_pvar_t *pvar, void *value, void *obj_handle)
{
ompi_communicator_t *comm = (ompi_communicator_t *) obj_handle;
mca_pml_ob1_comm_t *pml_comm = comm->c_pml_comm;
int comm_size = ompi_comm_size (comm);
unsigned *values = (unsigned *) value;
mca_pml_ob1_comm_proc_t *pml_proc;
int i;
for (i = 0 ; i < comm_size ; ++i) {
pml_proc = pml_comm->procs[i];
if (pml_proc) {
values[i] = opal_list_get_size (&pml_proc->unexpected_frags);
} else {
values[i] = 0;
}
}
return OMPI_SUCCESS;
}
static int mca_pml_ob1_get_posted_recvq_size (const struct mca_base_pvar_t *pvar, void *value, void *obj_handle)
{
ompi_communicator_t *comm = (ompi_communicator_t *) obj_handle;
mca_pml_ob1_comm_t *pml_comm = comm->c_pml_comm;
int comm_size = ompi_comm_size (comm);
unsigned *values = (unsigned *) value;
mca_pml_ob1_comm_proc_t *pml_proc;
int i;
for (i = 0 ; i < comm_size ; ++i) {
pml_proc = pml_comm->procs[i];
if (pml_proc) {
values[i] = opal_list_get_size (&pml_proc->specific_receives);
} else {
values[i] = 0;
}
}
return OMPI_SUCCESS;
}
static int mca_pml_ob1_component_register(void)
{
mca_pml_ob1_param_register_int("verbose", 0, &mca_pml_ob1_verbose);
mca_pml_ob1_param_register_int("free_list_num", 4, &mca_pml_ob1.free_list_num);
mca_pml_ob1_param_register_int("free_list_max", -1, &mca_pml_ob1.free_list_max);
mca_pml_ob1_param_register_int("free_list_inc", 64, &mca_pml_ob1.free_list_inc);
mca_pml_ob1_param_register_int("priority", 20, &mca_pml_ob1.priority);
mca_pml_ob1_param_register_sizet("send_pipeline_depth", 3, &mca_pml_ob1.send_pipeline_depth);
mca_pml_ob1_param_register_sizet("recv_pipeline_depth", 4, &mca_pml_ob1.recv_pipeline_depth);
/* NTH: we can get into a live-lock situation in the RDMA failure path so disable
RDMA retries for now. Falling back to send may suck but it is better than
hanging */
mca_pml_ob1.rdma_retries_limit = 0;
/* mca_pml_ob1_param_register_sizet("rdma_retries_limit", 5, &mca_pml_ob1.rdma_retries_limit); */
mca_pml_ob1_param_register_int("max_rdma_per_request", 4, &mca_pml_ob1.max_rdma_per_request);
mca_pml_ob1_param_register_int("max_send_per_range", 4, &mca_pml_ob1.max_send_per_range);
mca_pml_ob1_param_register_uint("unexpected_limit", 128, &mca_pml_ob1.unexpected_limit);
mca_pml_ob1.allocator_name = "bucket";
(void) mca_base_component_var_register(&mca_pml_ob1_component.pmlm_version, "allocator",
"Name of allocator component for unexpected messages",
MCA_BASE_VAR_TYPE_STRING, NULL, 0, 0, OPAL_INFO_LVL_9,
MCA_BASE_VAR_SCOPE_READONLY, &mca_pml_ob1.allocator_name);
(void) mca_base_pvar_register ("ompi", "pml", "ob1", "unexpected_msgq_length", "Number of unexpected messages "
"received by each peer in a communicator", OPAL_INFO_LVL_4, MPI_T_PVAR_CLASS_SIZE,
MCA_BASE_VAR_TYPE_UNSIGNED_INT, NULL, MPI_T_BIND_MPI_COMM,
MCA_BASE_PVAR_FLAG_READONLY | MCA_BASE_PVAR_FLAG_CONTINUOUS,
mca_pml_ob1_get_unex_msgq_size, NULL, mca_pml_ob1_comm_size_notify, NULL);
(void) mca_base_pvar_register ("ompi", "pml", "ob1", "posted_recvq_length", "Number of unmatched receives "
"posted for each peer in a communicator", OPAL_INFO_LVL_4, MPI_T_PVAR_CLASS_SIZE,
MCA_BASE_VAR_TYPE_UNSIGNED_INT, NULL, MPI_T_BIND_MPI_COMM,
MCA_BASE_PVAR_FLAG_READONLY | MCA_BASE_PVAR_FLAG_CONTINUOUS,
mca_pml_ob1_get_posted_recvq_size, NULL, mca_pml_ob1_comm_size_notify, NULL);
return OMPI_SUCCESS;
}
static int mca_pml_ob1_component_open(void)
{
mca_pml_ob1_output = opal_output_open(NULL);
opal_output_set_verbosity(mca_pml_ob1_output, mca_pml_ob1_verbose);
mca_pml_ob1.enabled = false;
return mca_base_framework_open(&ompi_bml_base_framework, 0);
}
static int mca_pml_ob1_component_close(void)
{
int rc;
if (OMPI_SUCCESS != (rc = mca_base_framework_close(&ompi_bml_base_framework))) {
return rc;
}
opal_output_close(mca_pml_ob1_output);
return OMPI_SUCCESS;
}
static mca_pml_base_module_t*
mca_pml_ob1_component_init( int* priority,
bool enable_progress_threads,
bool enable_mpi_threads )
{
mca_allocator_base_component_t* allocator_component;
opal_output_verbose( 10, mca_pml_ob1_output,
"in ob1, my priority is %d\n", mca_pml_ob1.priority);
*priority = mca_pml_ob1.priority;
allocator_component = mca_allocator_component_lookup( mca_pml_ob1.allocator_name );
if(NULL == allocator_component) {
opal_output(0, "mca_pml_ob1_component_init: can't find allocator: %s\n", mca_pml_ob1.allocator_name);
return NULL;
}
mca_pml_ob1.allocator = allocator_component->allocator_init(true,
mca_pml_ob1_seg_alloc,
mca_pml_ob1_seg_free, NULL);
if(NULL == mca_pml_ob1.allocator) {
opal_output(0, "mca_pml_ob1_component_init: unable to initialize allocator\n");
return NULL;
}
if(OMPI_SUCCESS != mca_bml_base_init( enable_progress_threads,
enable_mpi_threads)) {
return NULL;
}
/* check if any btls do not support dynamic add_procs */
mca_btl_base_selected_module_t* selected_btl;
OPAL_LIST_FOREACH(selected_btl, &mca_btl_base_modules_initialized, mca_btl_base_selected_module_t) {
mca_btl_base_module_t *btl = selected_btl->btl_module;
if (btl->btl_flags & MCA_BTL_FLAGS_SINGLE_ADD_PROCS) {
mca_pml_ob1.super.pml_flags |= MCA_PML_BASE_FLAG_REQUIRE_WORLD;
break;
}
}
/* Set this here (vs in component_open()) because
opal_leave_pinned* may have been set after MCA params were
read (e.g., by the openib btl) */
mca_pml_ob1.leave_pinned = (1 == opal_leave_pinned);
mca_pml_ob1.leave_pinned_pipeline = (int) opal_leave_pinned_pipeline;
return &mca_pml_ob1.super;
}
int mca_pml_ob1_component_fini(void)
{
int rc;
/* Shutdown BML */
if(OMPI_SUCCESS != (rc = mca_bml.bml_finalize()))
return rc;
if(!mca_pml_ob1.enabled)
return OMPI_SUCCESS; /* never selected.. return success.. */
mca_pml_ob1.enabled = false; /* not anymore */
/* return the static receive/send requests to the respective free list and
* let the free list handle destruction. */
if( NULL != mca_pml_ob1_recvreq ) {
opal_free_list_return (&mca_pml_base_recv_requests, (opal_free_list_item_t *) mca_pml_ob1_recvreq);
mca_pml_ob1_recvreq = NULL;
}
if( NULL != mca_pml_ob1_sendreq ) {
opal_free_list_return (&mca_pml_base_send_requests, (opal_free_list_item_t *) mca_pml_ob1_sendreq);
mca_pml_ob1_sendreq = NULL;
}
OBJ_DESTRUCT(&mca_pml_ob1.rdma_pending);
OBJ_DESTRUCT(&mca_pml_ob1.pckt_pending);
OBJ_DESTRUCT(&mca_pml_ob1.recv_pending);
OBJ_DESTRUCT(&mca_pml_ob1.send_pending);
OBJ_DESTRUCT(&mca_pml_ob1.non_existing_communicator_pending);
OBJ_DESTRUCT(&mca_pml_ob1.buffers);
OBJ_DESTRUCT(&mca_pml_ob1.pending_pckts);
OBJ_DESTRUCT(&mca_pml_ob1.recv_frags);
OBJ_DESTRUCT(&mca_pml_ob1.rdma_frags);
OBJ_DESTRUCT(&mca_pml_ob1.lock);
OBJ_DESTRUCT(&mca_pml_ob1.send_ranges);
if( NULL != mca_pml_ob1.allocator ) {
(void)mca_pml_ob1.allocator->alc_finalize(mca_pml_ob1.allocator);
mca_pml_ob1.allocator = NULL;
}
#if 0
if (mca_pml_base_send_requests.fl_num_allocated !=
mca_pml_base_send_requests.super.opal_list_length) {
opal_output(0, "ob1 send requests: %d allocated %d returned\n",
mca_pml_base_send_requests.fl_num_allocated,
mca_pml_base_send_requests.super.opal_list_length);
}
if (mca_pml_base_recv_requests.fl_num_allocated !=
mca_pml_base_recv_requests.super.opal_list_length) {
opal_output(0, "ob1 recv requests: %d allocated %d returned\n",
mca_pml_base_recv_requests.fl_num_allocated,
mca_pml_base_recv_requests.super.opal_list_length);
}
#endif
return OMPI_SUCCESS;
}
void *mca_pml_ob1_seg_alloc( struct mca_mpool_base_module_t* mpool,
size_t* size,
mca_mpool_base_registration_t** registration) {
return malloc(*size);
}
void mca_pml_ob1_seg_free( struct mca_mpool_base_module_t* mpool,
void* segment ) {
free(segment);
}