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openmpi/ompi/mca/pml/ob1/pml_ob1_sendreq.c

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/* -*- Mode: C; c-basic-offset:4 ; indent-tabs-mode:nil -*- */
/*
* Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana
* University Research and Technology
* Corporation. All rights reserved.
* Copyright (c) 2004-2013 The University of Tennessee and The University
* of Tennessee Research Foundation. All rights
* reserved.
* Copyright (c) 2004-2008 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) 2008 UT-Battelle, LLC. All rights reserved.
* Copyright (c) 2010 Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 2012 NVIDIA Corporation. All rights reserved.
* Copyright (c) 2012 Los Alamos National Security, LLC. All rights
* reserved.
* $COPYRIGHT$
*
* Additional copyrights may follow
*
* $HEADER$
*/
#include "ompi_config.h"
#include "opal/prefetch.h"
George did the work and deserves all the credit for it. Ralph did the merge, and deserves whatever blame results from errors in it :-) WHAT: Open our low-level communication infrastructure by moving all necessary components (btl/rcache/allocator/mpool) down in OPAL All the components required for inter-process communications are currently deeply integrated in the OMPI layer. Several groups/institutions have express interest in having a more generic communication infrastructure, without all the OMPI layer dependencies. This communication layer should be made available at a different software level, available to all layers in the Open MPI software stack. As an example, our ORTE layer could replace the current OOB and instead use the BTL directly, gaining access to more reactive network interfaces than TCP. Similarly, external software libraries could take advantage of our highly optimized AM (active message) communication layer for their own purpose. UTK with support from Sandia, developped a version of Open MPI where the entire communication infrastucture has been moved down to OPAL (btl/rcache/allocator/mpool). Most of the moved components have been updated to match the new schema, with few exceptions (mainly BTLs where I have no way of compiling/testing them). Thus, the completion of this RFC is tied to being able to completing this move for all BTLs. For this we need help from the rest of the Open MPI community, especially those supporting some of the BTLs. A non-exhaustive list of BTLs that qualify here is: mx, portals4, scif, udapl, ugni, usnic. This commit was SVN r32317.
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#include "opal/mca/mpool/mpool.h"
#include "ompi/constants.h"
#include "ompi/mca/pml/pml.h"
#include "pml_ob1.h"
#include "pml_ob1_hdr.h"
#include "pml_ob1_sendreq.h"
#include "pml_ob1_rdmafrag.h"
#include "pml_ob1_recvreq.h"
#include "ompi/mca/bml/base/base.h"
#include "ompi/memchecker.h"
OBJ_CLASS_INSTANCE(mca_pml_ob1_send_range_t, ompi_free_list_item_t,
NULL, NULL);
void mca_pml_ob1_send_request_process_pending(mca_bml_base_btl_t *bml_btl)
{
int rc, i, s = opal_list_get_size(&mca_pml_ob1.send_pending);
/* advance pending requests */
for(i = 0; i < s; i++) {
mca_pml_ob1_send_pending_t pending_type = MCA_PML_OB1_SEND_PENDING_NONE;
mca_pml_ob1_send_request_t* sendreq;
mca_bml_base_btl_t *send_dst;
sendreq = get_request_from_send_pending(&pending_type);
if(OPAL_UNLIKELY(NULL == sendreq))
break;
switch(pending_type) {
case MCA_PML_OB1_SEND_PENDING_SCHEDULE:
rc = mca_pml_ob1_send_request_schedule_exclusive(sendreq);
if(OMPI_ERR_OUT_OF_RESOURCE == rc) {
return;
}
break;
case MCA_PML_OB1_SEND_PENDING_START:
send_dst = mca_bml_base_btl_array_find(
&sendreq->req_endpoint->btl_eager, bml_btl->btl);
if (NULL == send_dst) {
/* Put request back onto pending list and try next one. */
add_request_to_send_pending(sendreq,
MCA_PML_OB1_SEND_PENDING_START, true);
} else {
MCA_PML_OB1_SEND_REQUEST_RESET(sendreq);
rc = mca_pml_ob1_send_request_start_btl(sendreq, send_dst);
if (OMPI_ERR_OUT_OF_RESOURCE == rc) {
/* No more resources on this btl so prepend to the pending
* list to minimize reordering and give up for now. */
add_request_to_send_pending(sendreq,
MCA_PML_OB1_SEND_PENDING_START, false);
return;
}
}
break;
default:
opal_output(0, "[%s:%d] wrong send request type\n",
__FILE__, __LINE__);
break;
}
}
}
/*
* The free call mark the final stage in a request life-cycle. Starting from this
* point the request is completed at both PML and user level, and can be used
* for others p2p communications. Therefore, in the case of the OB1 PML it should
* be added to the free request list.
*/
static int mca_pml_ob1_send_request_free(struct ompi_request_t** request)
{
mca_pml_ob1_send_request_t* sendreq = *(mca_pml_ob1_send_request_t**)request;
assert( false == sendreq->req_send.req_base.req_free_called );
OPAL_THREAD_LOCK(&ompi_request_lock);
sendreq->req_send.req_base.req_free_called = true;
PERUSE_TRACE_COMM_EVENT( PERUSE_COMM_REQ_NOTIFY,
&(sendreq->req_send.req_base), PERUSE_SEND );
if( true == sendreq->req_send.req_base.req_pml_complete ) {
/* make buffer defined when the request is compeleted,
and before releasing the objects. */
MEMCHECKER(
memchecker_call(&opal_memchecker_base_mem_defined,
sendreq->req_send.req_base.req_addr,
sendreq->req_send.req_base.req_count,
sendreq->req_send.req_base.req_datatype);
);
MCA_PML_OB1_SEND_REQUEST_RETURN( sendreq );
}
OPAL_THREAD_UNLOCK(&ompi_request_lock);
*request = MPI_REQUEST_NULL;
return OMPI_SUCCESS;
}
static int mca_pml_ob1_send_request_cancel(struct ompi_request_t* request, int complete)
{
/* we dont cancel send requests by now */
return OMPI_SUCCESS;
}
static void mca_pml_ob1_send_request_construct(mca_pml_ob1_send_request_t* req)
{
req->req_send.req_base.req_type = MCA_PML_REQUEST_SEND;
req->req_send.req_base.req_ompi.req_free = mca_pml_ob1_send_request_free;
req->req_send.req_base.req_ompi.req_cancel = mca_pml_ob1_send_request_cancel;
req->req_rdma_cnt = 0;
req->req_throttle_sends = false;
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req->rdma_frag = NULL;
OBJ_CONSTRUCT(&req->req_send_ranges, opal_list_t);
OBJ_CONSTRUCT(&req->req_send_range_lock, opal_mutex_t);
}
static void mca_pml_ob1_send_request_destruct(mca_pml_ob1_send_request_t* req)
{
OBJ_DESTRUCT(&req->req_send_ranges);
OBJ_DESTRUCT(&req->req_send_range_lock);
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if (req->rdma_frag) {
MCA_PML_OB1_RDMA_FRAG_RETURN(req->rdma_frag);
req->rdma_frag = NULL;
}
}
OBJ_CLASS_INSTANCE( mca_pml_ob1_send_request_t,
mca_pml_base_send_request_t,
mca_pml_ob1_send_request_construct,
mca_pml_ob1_send_request_destruct );
/**
* Completion of a short message - nothing left to schedule.
*/
static inline void
mca_pml_ob1_match_completion_free_request( mca_bml_base_btl_t* bml_btl,
mca_pml_ob1_send_request_t* sendreq )
{
if( sendreq->req_send.req_bytes_packed > 0 ) {
PERUSE_TRACE_COMM_EVENT( PERUSE_COMM_REQ_XFER_BEGIN,
&(sendreq->req_send.req_base), PERUSE_SEND );
}
/* signal request completion */
send_request_pml_complete(sendreq);
/* check for pending requests */
MCA_PML_OB1_PROGRESS_PENDING(bml_btl);
}
static void
mca_pml_ob1_match_completion_free( struct mca_btl_base_module_t* btl,
struct mca_btl_base_endpoint_t* ep,
struct mca_btl_base_descriptor_t* des,
int status )
{
mca_pml_ob1_send_request_t* sendreq = (mca_pml_ob1_send_request_t*)des->des_cbdata;
mca_bml_base_btl_t* bml_btl = (mca_bml_base_btl_t*) des->des_context;
/* check completion status */
if( OPAL_UNLIKELY(OMPI_SUCCESS != status) ) {
/* TSW - FIX */
opal_output(0, "%s:%d FATAL", __FILE__, __LINE__);
ompi_rte_abort(-1, NULL);
}
mca_pml_ob1_match_completion_free_request( bml_btl, sendreq );
}
static inline void
mca_pml_ob1_rndv_completion_request( mca_bml_base_btl_t* bml_btl,
mca_pml_ob1_send_request_t* sendreq,
size_t req_bytes_delivered )
{
if( sendreq->req_send.req_bytes_packed > 0 ) {
PERUSE_TRACE_COMM_EVENT( PERUSE_COMM_REQ_XFER_BEGIN,
&(sendreq->req_send.req_base), PERUSE_SEND );
}
OPAL_THREAD_ADD_SIZE_T(&sendreq->req_bytes_delivered, req_bytes_delivered);
/* advance the request */
OPAL_THREAD_ADD32(&sendreq->req_state, -1);
send_request_pml_complete_check(sendreq);
/* check for pending requests */
MCA_PML_OB1_PROGRESS_PENDING(bml_btl);
}
/*
* Completion of the first fragment of a long message that
* requires an acknowledgement
*/
static void
mca_pml_ob1_rndv_completion( mca_btl_base_module_t* btl,
struct mca_btl_base_endpoint_t* ep,
struct mca_btl_base_descriptor_t* des,
int status )
{
mca_pml_ob1_send_request_t* sendreq = (mca_pml_ob1_send_request_t*)des->des_cbdata;
mca_bml_base_btl_t* bml_btl = (mca_bml_base_btl_t*)des->des_context;
size_t req_bytes_delivered;
/* check completion status */
if( OPAL_UNLIKELY(OMPI_SUCCESS != status) ) {
/* TSW - FIX */
opal_output(0, "%s:%d FATAL", __FILE__, __LINE__);
ompi_rte_abort(-1, NULL);
}
/* count bytes of user data actually delivered. As the rndv completion only
* happens in one thread, the increase of the req_bytes_delivered does not
* have to be atomic.
*/
req_bytes_delivered = mca_pml_ob1_compute_segment_length_base ((void *) des->des_segments,
des->des_segment_count,
sizeof(mca_pml_ob1_rendezvous_hdr_t));
mca_pml_ob1_rndv_completion_request( bml_btl, sendreq, req_bytes_delivered );
}
/**
* Completion of a get request.
*/
static void
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mca_pml_ob1_rget_completion (mca_pml_ob1_rdma_frag_t *frag, int64_t rdma_length)
{
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mca_pml_ob1_send_request_t *sendreq = (mca_pml_ob1_send_request_t *) frag->rdma_req;
mca_bml_base_btl_t *bml_btl = frag->rdma_bml;
/* count bytes of user data actually delivered and check for request completion */
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if (OPAL_LIKELY(0 < rdma_length)) {
OPAL_THREAD_ADD_SIZE_T(&sendreq->req_bytes_delivered, (size_t) rdma_length);
}
send_request_pml_complete_check(sendreq);
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MCA_PML_OB1_PROGRESS_PENDING(bml_btl);
}
/**
* Completion of a control message - return resources.
*/
static void
mca_pml_ob1_send_ctl_completion( mca_btl_base_module_t* btl,
struct mca_btl_base_endpoint_t* ep,
struct mca_btl_base_descriptor_t* des,
int status )
{
mca_bml_base_btl_t* bml_btl = (mca_bml_base_btl_t*) des->des_context;
/* check for pending requests */
MCA_PML_OB1_PROGRESS_PENDING(bml_btl);
}
/**
* Completion of additional fragments of a large message - may need
* to schedule additional fragments.
*/
static void
mca_pml_ob1_frag_completion( mca_btl_base_module_t* btl,
struct mca_btl_base_endpoint_t* ep,
struct mca_btl_base_descriptor_t* des,
int status )
{
mca_pml_ob1_send_request_t* sendreq = (mca_pml_ob1_send_request_t*)des->des_cbdata;
mca_bml_base_btl_t* bml_btl = (mca_bml_base_btl_t*) des->des_context;
size_t req_bytes_delivered;
/* check completion status */
if( OPAL_UNLIKELY(OMPI_SUCCESS != status) ) {
/* TSW - FIX */
opal_output(0, "%s:%d FATAL", __FILE__, __LINE__);
ompi_rte_abort(-1, NULL);
}
/* count bytes of user data actually delivered */
req_bytes_delivered = mca_pml_ob1_compute_segment_length_base ((void *) des->des_segments,
des->des_segment_count,
sizeof(mca_pml_ob1_frag_hdr_t));
OPAL_THREAD_ADD_SIZE_T(&sendreq->req_pipeline_depth, -1);
OPAL_THREAD_ADD_SIZE_T(&sendreq->req_bytes_delivered, req_bytes_delivered);
if(send_request_pml_complete_check(sendreq) == false) {
mca_pml_ob1_send_request_schedule(sendreq);
}
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/* check for pending requests */
MCA_PML_OB1_PROGRESS_PENDING(bml_btl);
}
#if OPAL_CUDA_SUPPORT /* CUDA_ASYNC_SEND */
/**
* This function is called when the copy of the frag from the GPU buffer
* to the internal buffer is complete. Used to support asynchronous
* copies from GPU to host buffers. Now the data can be sent.
*/
static void
mca_pml_ob1_copy_frag_completion( mca_btl_base_module_t* btl,
struct mca_btl_base_endpoint_t* ep,
struct mca_btl_base_descriptor_t* des,
int status )
{
int rc;
mca_bml_base_btl_t* bml_btl = (mca_bml_base_btl_t*) des->des_context;
des->des_cbfunc = mca_pml_ob1_frag_completion;
/* Reset the BTL onwership flag as the BTL can free it after completion. */
des->des_flags |= MCA_BTL_DES_FLAGS_BTL_OWNERSHIP;
OPAL_OUTPUT((-1, "copy_frag_completion FRAG frag=%p", (void *)des));
/* Currently, we cannot support a failure in the send. In the blocking
* case, the counters tracking the fragments being sent are not adjusted
* until the function returns success, so it handles the error by leaving
* all the buffer counters intact. In this case, it is too late so
* we just abort. In theory, a new queue could be created to hold this
* fragment and then attempt to send it out on another BTL. */
rc = mca_bml_base_send(bml_btl, des, MCA_PML_OB1_HDR_TYPE_FRAG);
if(OPAL_UNLIKELY(rc < 0)) {
opal_output(0, "%s:%d FATAL", __FILE__, __LINE__);
ompi_rte_abort(-1, NULL);
}
}
#endif /* OPAL_CUDA_SUPPORT */
/**
* Buffer the entire message and mark as complete.
*/
int mca_pml_ob1_send_request_start_buffered(
mca_pml_ob1_send_request_t* sendreq,
mca_bml_base_btl_t* bml_btl,
size_t size)
{
mca_btl_base_descriptor_t* des;
mca_btl_base_segment_t* segment;
mca_pml_ob1_hdr_t* hdr;
struct iovec iov;
unsigned int iov_count;
size_t max_data, req_bytes_delivered;
int rc;
/* allocate descriptor */
mca_bml_base_alloc(bml_btl, &des,
MCA_BTL_NO_ORDER,
sizeof(mca_pml_ob1_rendezvous_hdr_t) + size,
MCA_BTL_DES_FLAGS_PRIORITY | MCA_BTL_DES_FLAGS_BTL_OWNERSHIP);
if( OPAL_UNLIKELY(NULL == des) ) {
return OMPI_ERR_OUT_OF_RESOURCE;
}
segment = des->des_segments;
/* pack the data into the BTL supplied buffer */
iov.iov_base = (IOVBASE_TYPE*)((unsigned char*)segment->seg_addr.pval +
sizeof(mca_pml_ob1_rendezvous_hdr_t));
iov.iov_len = size;
iov_count = 1;
max_data = size;
- Split the datatype engine into two parts: an MPI specific part in OMPI and a language agnostic part in OPAL. The convertor is completely moved into OPAL. This offers several benefits as described in RFC http://www.open-mpi.org/community/lists/devel/2009/07/6387.php namely: - Fewer basic types (int* and float* types, boolean and wchar - Fixing naming scheme to ompi-nomenclature. - Usability outside of the ompi-layer. - Due to the fixed nature of simple opal types, their information is completely known at compile time and therefore constified - With fewer datatypes (22), the actual sizes of bit-field types may be reduced from 64 to 32 bits, allowing reorganizing the opal_datatype structure, eliminating holes and keeping data required in convertor (upon send/recv) in one cacheline... This has implications to the convertor-datastructure and other parts of the code. - Several performance tests have been run, the netpipe latency does not change with this patch on Linux/x86-64 on the smoky cluster. - Extensive tests have been done to verify correctness (no new regressions) using: 1. mpi_test_suite on linux/x86-64 using clean ompi-trunk and ompi-ddt: a. running both trunk and ompi-ddt resulted in no differences (except for MPI_SHORT_INT and MPI_TYPE_MIX_LB_UB do now run correctly). b. with --enable-memchecker and running under valgrind (one buglet when run with static found in test-suite, commited) 2. ibm testsuite on linux/x86-64 using clean ompi-trunk and ompi-ddt: all passed (except for the dynamic/ tests failed!! as trunk/MTT) 3. compilation and usage of HDF5 tests on Jaguar using PGI and PathScale compilers. 4. compilation and usage on Scicortex. - Please note, that for the heterogeneous case, (-m32 compiled binaries/ompi), neither ompi-trunk, nor ompi-ddt branch would successfully launch. This commit was SVN r21641.
2009-07-13 08:56:31 +04:00
if((rc = opal_convertor_pack( &sendreq->req_send.req_base.req_convertor,
&iov,
&iov_count,
&max_data)) < 0) {
mca_bml_base_free(bml_btl, des);
return rc;
}
req_bytes_delivered = max_data;
/* build rendezvous header */
hdr = (mca_pml_ob1_hdr_t*)segment->seg_addr.pval;
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mca_pml_ob1_rendezvous_hdr_prepare (&hdr->hdr_rndv, MCA_PML_OB1_HDR_TYPE_RNDV, 0,
sendreq->req_send.req_base.req_comm->c_contextid,
sendreq->req_send.req_base.req_comm->c_my_rank,
sendreq->req_send.req_base.req_tag,
(uint16_t)sendreq->req_send.req_base.req_sequence,
sendreq->req_send.req_bytes_packed, sendreq);
ob1_hdr_hton(hdr, MCA_PML_OB1_HDR_TYPE_RNDV, sendreq->req_send.req_base.req_proc);
/* update lengths */
segment->seg_len = sizeof(mca_pml_ob1_rendezvous_hdr_t) + max_data;
des->des_cbfunc = mca_pml_ob1_rndv_completion;
des->des_cbdata = sendreq;
/* buffer the remainder of the message */
rc = mca_pml_base_bsend_request_alloc((ompi_request_t*)sendreq);
if( OPAL_UNLIKELY(OMPI_SUCCESS != rc) ) {
mca_bml_base_free(bml_btl, des);
return rc;
}
iov.iov_base = (IOVBASE_TYPE*)(((unsigned char*)sendreq->req_send.req_addr) + max_data);
iov.iov_len = max_data = sendreq->req_send.req_bytes_packed - max_data;
- Split the datatype engine into two parts: an MPI specific part in OMPI and a language agnostic part in OPAL. The convertor is completely moved into OPAL. This offers several benefits as described in RFC http://www.open-mpi.org/community/lists/devel/2009/07/6387.php namely: - Fewer basic types (int* and float* types, boolean and wchar - Fixing naming scheme to ompi-nomenclature. - Usability outside of the ompi-layer. - Due to the fixed nature of simple opal types, their information is completely known at compile time and therefore constified - With fewer datatypes (22), the actual sizes of bit-field types may be reduced from 64 to 32 bits, allowing reorganizing the opal_datatype structure, eliminating holes and keeping data required in convertor (upon send/recv) in one cacheline... This has implications to the convertor-datastructure and other parts of the code. - Several performance tests have been run, the netpipe latency does not change with this patch on Linux/x86-64 on the smoky cluster. - Extensive tests have been done to verify correctness (no new regressions) using: 1. mpi_test_suite on linux/x86-64 using clean ompi-trunk and ompi-ddt: a. running both trunk and ompi-ddt resulted in no differences (except for MPI_SHORT_INT and MPI_TYPE_MIX_LB_UB do now run correctly). b. with --enable-memchecker and running under valgrind (one buglet when run with static found in test-suite, commited) 2. ibm testsuite on linux/x86-64 using clean ompi-trunk and ompi-ddt: all passed (except for the dynamic/ tests failed!! as trunk/MTT) 3. compilation and usage of HDF5 tests on Jaguar using PGI and PathScale compilers. 4. compilation and usage on Scicortex. - Please note, that for the heterogeneous case, (-m32 compiled binaries/ompi), neither ompi-trunk, nor ompi-ddt branch would successfully launch. This commit was SVN r21641.
2009-07-13 08:56:31 +04:00
if((rc = opal_convertor_pack( &sendreq->req_send.req_base.req_convertor,
&iov,
&iov_count,
&max_data)) < 0) {
mca_bml_base_free(bml_btl, des);
return rc;
}
/* re-init convertor for packed data */
- Split the datatype engine into two parts: an MPI specific part in OMPI and a language agnostic part in OPAL. The convertor is completely moved into OPAL. This offers several benefits as described in RFC http://www.open-mpi.org/community/lists/devel/2009/07/6387.php namely: - Fewer basic types (int* and float* types, boolean and wchar - Fixing naming scheme to ompi-nomenclature. - Usability outside of the ompi-layer. - Due to the fixed nature of simple opal types, their information is completely known at compile time and therefore constified - With fewer datatypes (22), the actual sizes of bit-field types may be reduced from 64 to 32 bits, allowing reorganizing the opal_datatype structure, eliminating holes and keeping data required in convertor (upon send/recv) in one cacheline... This has implications to the convertor-datastructure and other parts of the code. - Several performance tests have been run, the netpipe latency does not change with this patch on Linux/x86-64 on the smoky cluster. - Extensive tests have been done to verify correctness (no new regressions) using: 1. mpi_test_suite on linux/x86-64 using clean ompi-trunk and ompi-ddt: a. running both trunk and ompi-ddt resulted in no differences (except for MPI_SHORT_INT and MPI_TYPE_MIX_LB_UB do now run correctly). b. with --enable-memchecker and running under valgrind (one buglet when run with static found in test-suite, commited) 2. ibm testsuite on linux/x86-64 using clean ompi-trunk and ompi-ddt: all passed (except for the dynamic/ tests failed!! as trunk/MTT) 3. compilation and usage of HDF5 tests on Jaguar using PGI and PathScale compilers. 4. compilation and usage on Scicortex. - Please note, that for the heterogeneous case, (-m32 compiled binaries/ompi), neither ompi-trunk, nor ompi-ddt branch would successfully launch. This commit was SVN r21641.
2009-07-13 08:56:31 +04:00
opal_convertor_prepare_for_send( &sendreq->req_send.req_base.req_convertor,
&(ompi_mpi_byte.dt.super),
sendreq->req_send.req_bytes_packed,
sendreq->req_send.req_addr );
/* wait for ack and completion */
sendreq->req_state = 2;
/* request is complete at mpi level */
OPAL_THREAD_LOCK(&ompi_request_lock);
MCA_PML_OB1_SEND_REQUEST_MPI_COMPLETE(sendreq, true);
OPAL_THREAD_UNLOCK(&ompi_request_lock);
/* send */
rc = mca_bml_base_send(bml_btl, des, MCA_PML_OB1_HDR_TYPE_RNDV);
if( OPAL_LIKELY( rc >= 0 ) ) {
if( OPAL_LIKELY( 1 == rc ) ) {
mca_pml_ob1_rndv_completion_request( bml_btl, sendreq, req_bytes_delivered);
}
return OMPI_SUCCESS;
}
mca_bml_base_free(bml_btl, des );
return rc;
}
/**
* We work on a buffered request with a size smaller than the eager size
* or the BTL is not able to send the data IN_PLACE. Request a segment
* that is used for initial hdr and any eager data. This is used only
* from the _START macro.
*/
int mca_pml_ob1_send_request_start_copy( mca_pml_ob1_send_request_t* sendreq,
mca_bml_base_btl_t* bml_btl,
size_t size )
{
mca_btl_base_descriptor_t* des = NULL;
mca_btl_base_segment_t* segment;
mca_pml_ob1_hdr_t* hdr;
struct iovec iov;
unsigned int iov_count;
size_t max_data = size;
int rc;
if(NULL != bml_btl->btl->btl_sendi) {
mca_pml_ob1_match_hdr_t match;
2014-10-30 22:54:06 +03:00
mca_pml_ob1_match_hdr_prepare (&match, MCA_PML_OB1_HDR_TYPE_MATCH, 0,
sendreq->req_send.req_base.req_comm->c_contextid,
sendreq->req_send.req_base.req_comm->c_my_rank,
sendreq->req_send.req_base.req_tag,
(uint16_t)sendreq->req_send.req_base.req_sequence);
2014-10-30 22:54:06 +03:00
ob1_hdr_hton (&match, MCA_PML_OB1_HDR_TYPE_MATCH, sendreq->req_send.req_base.req_proc);
/* try to send immediately */
rc = mca_bml_base_sendi( bml_btl, &sendreq->req_send.req_base.req_convertor,
&match, OMPI_PML_OB1_MATCH_HDR_LEN,
size, MCA_BTL_NO_ORDER,
MCA_BTL_DES_FLAGS_PRIORITY | MCA_BTL_DES_FLAGS_BTL_OWNERSHIP,
MCA_PML_OB1_HDR_TYPE_MATCH,
&des);
if( OPAL_LIKELY(OMPI_SUCCESS == rc) ) {
/* signal request completion */
send_request_pml_complete(sendreq);
/* check for pending requests */
MCA_PML_OB1_PROGRESS_PENDING(bml_btl);
return OMPI_SUCCESS;
}
/* just in case the btl changed the converter, reset it */
if (size > 0 && NULL != des) {
MCA_PML_OB1_SEND_REQUEST_RESET(sendreq);
}
} else {
/* allocate descriptor */
mca_bml_base_alloc( bml_btl, &des,
MCA_BTL_NO_ORDER,
OMPI_PML_OB1_MATCH_HDR_LEN + size,
MCA_BTL_DES_FLAGS_PRIORITY | MCA_BTL_DES_FLAGS_BTL_OWNERSHIP);
}
if( OPAL_UNLIKELY(NULL == des) ) {
return OMPI_ERR_OUT_OF_RESOURCE;
}
segment = des->des_segments;
if(size > 0) {
/* pack the data into the supplied buffer */
iov.iov_base = (IOVBASE_TYPE*)((unsigned char*)segment->seg_addr.pval +
OMPI_PML_OB1_MATCH_HDR_LEN);
iov.iov_len = size;
iov_count = 1;
/*
* Before copy the user buffer, make the target part
* accessible.
*/
MEMCHECKER(
memchecker_call(&opal_memchecker_base_mem_defined,
sendreq->req_send.req_base.req_addr,
sendreq->req_send.req_base.req_count,
sendreq->req_send.req_base.req_datatype);
);
- Split the datatype engine into two parts: an MPI specific part in OMPI and a language agnostic part in OPAL. The convertor is completely moved into OPAL. This offers several benefits as described in RFC http://www.open-mpi.org/community/lists/devel/2009/07/6387.php namely: - Fewer basic types (int* and float* types, boolean and wchar - Fixing naming scheme to ompi-nomenclature. - Usability outside of the ompi-layer. - Due to the fixed nature of simple opal types, their information is completely known at compile time and therefore constified - With fewer datatypes (22), the actual sizes of bit-field types may be reduced from 64 to 32 bits, allowing reorganizing the opal_datatype structure, eliminating holes and keeping data required in convertor (upon send/recv) in one cacheline... This has implications to the convertor-datastructure and other parts of the code. - Several performance tests have been run, the netpipe latency does not change with this patch on Linux/x86-64 on the smoky cluster. - Extensive tests have been done to verify correctness (no new regressions) using: 1. mpi_test_suite on linux/x86-64 using clean ompi-trunk and ompi-ddt: a. running both trunk and ompi-ddt resulted in no differences (except for MPI_SHORT_INT and MPI_TYPE_MIX_LB_UB do now run correctly). b. with --enable-memchecker and running under valgrind (one buglet when run with static found in test-suite, commited) 2. ibm testsuite on linux/x86-64 using clean ompi-trunk and ompi-ddt: all passed (except for the dynamic/ tests failed!! as trunk/MTT) 3. compilation and usage of HDF5 tests on Jaguar using PGI and PathScale compilers. 4. compilation and usage on Scicortex. - Please note, that for the heterogeneous case, (-m32 compiled binaries/ompi), neither ompi-trunk, nor ompi-ddt branch would successfully launch. This commit was SVN r21641.
2009-07-13 08:56:31 +04:00
(void)opal_convertor_pack( &sendreq->req_send.req_base.req_convertor,
&iov, &iov_count, &max_data );
/*
* Packing finished, make the user buffer unaccessable.
*/
MEMCHECKER(
memchecker_call(&opal_memchecker_base_mem_noaccess,
sendreq->req_send.req_base.req_addr,
sendreq->req_send.req_base.req_count,
sendreq->req_send.req_base.req_datatype);
);
}
/* build match header */
hdr = (mca_pml_ob1_hdr_t*)segment->seg_addr.pval;
2014-10-30 22:54:06 +03:00
mca_pml_ob1_match_hdr_prepare (&hdr->hdr_match, MCA_PML_OB1_HDR_TYPE_MATCH, 0,
sendreq->req_send.req_base.req_comm->c_contextid,
sendreq->req_send.req_base.req_comm->c_my_rank,
sendreq->req_send.req_base.req_tag,
(uint16_t)sendreq->req_send.req_base.req_sequence);
2014-10-30 22:54:06 +03:00
ob1_hdr_hton(hdr, MCA_PML_OB1_HDR_TYPE_MATCH, sendreq->req_send.req_base.req_proc);
/* update lengths */
segment->seg_len = OMPI_PML_OB1_MATCH_HDR_LEN + max_data;
/* short message */
des->des_cbdata = sendreq;
des->des_cbfunc = mca_pml_ob1_match_completion_free;
/* send */
rc = mca_bml_base_send_status(bml_btl, des, MCA_PML_OB1_HDR_TYPE_MATCH);
if( OPAL_LIKELY( rc >= OMPI_SUCCESS ) ) {
if( OPAL_LIKELY( 1 == rc ) ) {
mca_pml_ob1_match_completion_free_request( bml_btl, sendreq );
}
return OMPI_SUCCESS;
}
if (OMPI_ERR_RESOURCE_BUSY == rc) {
/* No more resources. Allow the upper level to queue the send */
rc = OMPI_ERR_OUT_OF_RESOURCE;
}
mca_bml_base_free (bml_btl, des);
return rc;
}
/**
* BTL can send directly from user buffer so allow the BTL
* to prepare the segment list. Start sending a small message.
*/
int mca_pml_ob1_send_request_start_prepare( mca_pml_ob1_send_request_t* sendreq,
mca_bml_base_btl_t* bml_btl,
size_t size )
{
mca_btl_base_descriptor_t* des;
mca_btl_base_segment_t* segment;
mca_pml_ob1_hdr_t* hdr;
int rc;
/* prepare descriptor */
mca_bml_base_prepare_src( bml_btl,
&sendreq->req_send.req_base.req_convertor,
MCA_BTL_NO_ORDER,
OMPI_PML_OB1_MATCH_HDR_LEN,
&size,
MCA_BTL_DES_FLAGS_PRIORITY | MCA_BTL_DES_FLAGS_BTL_OWNERSHIP,
&des );
if( OPAL_UNLIKELY(NULL == des) ) {
return OMPI_ERR_OUT_OF_RESOURCE;
}
segment = des->des_segments;
/* build match header */
hdr = (mca_pml_ob1_hdr_t*)segment->seg_addr.pval;
2014-10-30 22:54:06 +03:00
mca_pml_ob1_match_hdr_prepare (&hdr->hdr_match, MCA_PML_OB1_HDR_TYPE_MATCH, 0,
sendreq->req_send.req_base.req_comm->c_contextid,
sendreq->req_send.req_base.req_comm->c_my_rank,
sendreq->req_send.req_base.req_tag,
(uint16_t)sendreq->req_send.req_base.req_sequence);
2014-10-30 22:54:06 +03:00
ob1_hdr_hton(hdr, MCA_PML_OB1_HDR_TYPE_MATCH, sendreq->req_send.req_base.req_proc);
/* short message */
des->des_cbfunc = mca_pml_ob1_match_completion_free;
des->des_cbdata = sendreq;
/* send */
rc = mca_bml_base_send(bml_btl, des, MCA_PML_OB1_HDR_TYPE_MATCH);
if( OPAL_LIKELY( rc >= 0 ) ) {
if( OPAL_LIKELY( 1 == rc ) ) {
mca_pml_ob1_match_completion_free_request( bml_btl, sendreq );
}
return OMPI_SUCCESS;
}
mca_bml_base_free(bml_btl, des );
return rc;
}
/**
* We have contigous data that is registered - schedule across
* available nics.
*/
int mca_pml_ob1_send_request_start_rdma( mca_pml_ob1_send_request_t* sendreq,
mca_bml_base_btl_t* bml_btl,
size_t size )
{
/*
* When req_rdma array is constructed the first element of the array always
* assigned different btl in round robin fashion (if there are more than
* one RDMA capable BTLs). This way round robin distribution of RDMA
* operation is achieved.
*/
2014-10-30 22:54:06 +03:00
mca_btl_base_registration_handle_t *local_handle;
mca_btl_base_descriptor_t *des;
mca_pml_ob1_rdma_frag_t *frag;
mca_pml_ob1_rget_hdr_t *hdr;
2014-10-30 22:54:06 +03:00
size_t reg_size;
void *data_ptr;
int rc;
bml_btl = sendreq->req_rdma[0].bml_btl;
if (!(bml_btl->btl_flags & (MCA_BTL_FLAGS_GET | MCA_BTL_FLAGS_CUDA_GET))) {
2014-10-30 22:54:06 +03:00
sendreq->rdma_frag = NULL;
/* This BTL does not support get. Use rendezvous to start the RDMA operation using put instead. */
return mca_pml_ob1_send_request_start_rndv (sendreq, bml_btl, 0, MCA_PML_OB1_HDR_FLAGS_CONTIG |
MCA_PML_OB1_HDR_FLAGS_PIN);
}
2014-10-30 22:54:06 +03:00
/* at this time ob1 does not support non-contiguous gets. the convertor represents a
* contiguous block of memory */
opal_convertor_get_current_pointer (&sendreq->req_send.req_base.req_convertor, &data_ptr);
local_handle = sendreq->req_rdma[0].btl_reg;
/* allocate an rdma fragment to keep track of the request size for use in the fin message */
MCA_PML_OB1_RDMA_FRAG_ALLOC(frag);
if (OPAL_UNLIKELY(NULL == frag)) {
return OPAL_ERR_OUT_OF_RESOURCE;
}
2014-10-30 22:54:06 +03:00
/* fill in necessary fragment data */
frag->rdma_req = sendreq;
frag->rdma_bml = bml_btl;
frag->rdma_length = size;
frag->cbfunc = mca_pml_ob1_rget_completion;
/* do not store the local handle in the fragment. it will be released by mca_pml_ob1_free_rdma_resources */
/* save the fragment for get->put fallback */
sendreq->rdma_frag = frag;
2014-10-30 22:54:06 +03:00
reg_size = bml_btl->btl->btl_registration_handle_size;
/* allocate space for get hdr + segment list */
2014-10-30 22:54:06 +03:00
mca_bml_base_alloc(bml_btl, &des, MCA_BTL_NO_ORDER, sizeof (*hdr) + reg_size,
MCA_BTL_DES_FLAGS_PRIORITY | MCA_BTL_DES_FLAGS_BTL_OWNERSHIP);
if( OPAL_UNLIKELY(NULL == des) ) {
/* NTH: no need to reset the converter here. it will be reset before it is retried */
return OMPI_ERR_OUT_OF_RESOURCE;
}
/* build match header */
hdr = (mca_pml_ob1_rget_hdr_t *) des->des_segments->seg_addr.pval;
2014-10-30 22:54:06 +03:00
/* TODO -- Add support for multiple segments for get */
mca_pml_ob1_rget_hdr_prepare (hdr, MCA_PML_OB1_HDR_FLAGS_CONTIG | MCA_PML_OB1_HDR_FLAGS_PIN,
sendreq->req_send.req_base.req_comm->c_contextid,
sendreq->req_send.req_base.req_comm->c_my_rank,
sendreq->req_send.req_base.req_tag,
(uint16_t)sendreq->req_send.req_base.req_sequence,
sendreq->req_send.req_bytes_packed, sendreq,
frag, data_ptr, local_handle, reg_size);
ob1_hdr_hton(hdr, MCA_PML_OB1_HDR_TYPE_RGET, sendreq->req_send.req_base.req_proc);
des->des_cbfunc = mca_pml_ob1_send_ctl_completion;
des->des_cbdata = sendreq;
/**
* Well, it's a get so we will not know when the peer will get the data anyway.
* If we generate the PERUSE event here, at least we will know when we
* sent the GET message ...
*/
if( sendreq->req_send.req_bytes_packed > 0 ) {
PERUSE_TRACE_COMM_EVENT( PERUSE_COMM_REQ_XFER_BEGIN,
&(sendreq->req_send.req_base), PERUSE_SEND );
}
/* send */
rc = mca_bml_base_send(bml_btl, des, MCA_PML_OB1_HDR_TYPE_RGET);
if (OPAL_UNLIKELY(rc < 0)) {
mca_bml_base_free(bml_btl, des);
return rc;
}
return OMPI_SUCCESS;
}
/**
* Rendezvous is required. Not doing rdma so eager send up to
* the btls eager limit.
*/
int mca_pml_ob1_send_request_start_rndv( mca_pml_ob1_send_request_t* sendreq,
mca_bml_base_btl_t* bml_btl,
size_t size,
int flags )
{
mca_btl_base_descriptor_t* des;
mca_btl_base_segment_t* segment;
mca_pml_ob1_hdr_t* hdr;
int rc;
/* prepare descriptor */
if(size == 0) {
mca_bml_base_alloc( bml_btl,
&des,
MCA_BTL_NO_ORDER,
sizeof(mca_pml_ob1_rendezvous_hdr_t),
MCA_BTL_DES_FLAGS_PRIORITY | MCA_BTL_DES_FLAGS_BTL_OWNERSHIP );
} else {
MEMCHECKER(
memchecker_call(&opal_memchecker_base_mem_defined,
sendreq->req_send.req_base.req_addr,
sendreq->req_send.req_base.req_count,
sendreq->req_send.req_base.req_datatype);
);
mca_bml_base_prepare_src( bml_btl,
&sendreq->req_send.req_base.req_convertor,
MCA_BTL_NO_ORDER,
sizeof(mca_pml_ob1_rendezvous_hdr_t),
&size,
MCA_BTL_DES_FLAGS_PRIORITY | MCA_BTL_DES_FLAGS_BTL_OWNERSHIP,
&des );
MEMCHECKER(
memchecker_call(&opal_memchecker_base_mem_noaccess,
sendreq->req_send.req_base.req_addr,
sendreq->req_send.req_base.req_count,
sendreq->req_send.req_base.req_datatype);
);
}
if( OPAL_UNLIKELY(NULL == des) ) {
return OMPI_ERR_OUT_OF_RESOURCE;
}
segment = des->des_segments;
/* build hdr */
hdr = (mca_pml_ob1_hdr_t*)segment->seg_addr.pval;
2014-10-30 22:54:06 +03:00
mca_pml_ob1_rendezvous_hdr_prepare (&hdr->hdr_rndv, MCA_PML_OB1_HDR_TYPE_RNDV, flags,
sendreq->req_send.req_base.req_comm->c_contextid,
sendreq->req_send.req_base.req_comm->c_my_rank,
sendreq->req_send.req_base.req_tag,
(uint16_t)sendreq->req_send.req_base.req_sequence,
sendreq->req_send.req_bytes_packed, sendreq);
ob1_hdr_hton(hdr, MCA_PML_OB1_HDR_TYPE_RNDV, sendreq->req_send.req_base.req_proc);
/* first fragment of a long message */
des->des_cbdata = sendreq;
des->des_cbfunc = mca_pml_ob1_rndv_completion;
/* wait for ack and completion */
sendreq->req_state = 2;
/* send */
rc = mca_bml_base_send(bml_btl, des, MCA_PML_OB1_HDR_TYPE_RNDV);
if( OPAL_LIKELY( rc >= 0 ) ) {
if( OPAL_LIKELY( 1 == rc ) ) {
mca_pml_ob1_rndv_completion_request( bml_btl, sendreq, size );
}
return OMPI_SUCCESS;
}
mca_bml_base_free(bml_btl, des );
return rc;
}
void mca_pml_ob1_send_request_copy_in_out( mca_pml_ob1_send_request_t *sendreq,
uint64_t send_offset,
uint64_t send_length )
{
mca_pml_ob1_send_range_t *sr;
ompi_free_list_item_t *i;
mca_bml_base_endpoint_t* bml_endpoint = sendreq->req_endpoint;
int num_btls = mca_bml_base_btl_array_get_size(&bml_endpoint->btl_send);
int n;
double weight_total = 0;
if( OPAL_UNLIKELY(0 == send_length) )
return;
OMPI_FREE_LIST_WAIT_MT(&mca_pml_ob1.send_ranges, i);
sr = (mca_pml_ob1_send_range_t*)i;
sr->range_send_offset = send_offset;
sr->range_send_length = send_length;
sr->range_btl_idx = 0;
for(n = 0; n < num_btls && n < mca_pml_ob1.max_send_per_range; n++) {
sr->range_btls[n].bml_btl =
mca_bml_base_btl_array_get_next(&bml_endpoint->btl_send);
weight_total += sr->range_btls[n].bml_btl->btl_weight;
}
sr->range_btl_cnt = n;
mca_pml_ob1_calc_weighted_length(sr->range_btls, n, send_length,
weight_total);
OPAL_THREAD_LOCK(&sendreq->req_send_range_lock);
opal_list_append(&sendreq->req_send_ranges, (opal_list_item_t*)sr);
OPAL_THREAD_UNLOCK(&sendreq->req_send_range_lock);
}
static inline mca_pml_ob1_send_range_t *
get_send_range_nolock(mca_pml_ob1_send_request_t* sendreq)
{
opal_list_item_t *item;
item = opal_list_get_first(&sendreq->req_send_ranges);
if(opal_list_get_end(&sendreq->req_send_ranges) == item)
return NULL;
return (mca_pml_ob1_send_range_t*)item;
}
static inline mca_pml_ob1_send_range_t *
get_send_range(mca_pml_ob1_send_request_t* sendreq)
{
mca_pml_ob1_send_range_t *range;
OPAL_THREAD_LOCK(&sendreq->req_send_range_lock);
range = get_send_range_nolock(sendreq);
OPAL_THREAD_UNLOCK(&sendreq->req_send_range_lock);
return range;
}
static inline mca_pml_ob1_send_range_t *
get_next_send_range(mca_pml_ob1_send_request_t* sendreq,
mca_pml_ob1_send_range_t *range)
{
OPAL_THREAD_LOCK(&sendreq->req_send_range_lock);
opal_list_remove_item(&sendreq->req_send_ranges, (opal_list_item_t *)range);
OMPI_FREE_LIST_RETURN_MT(&mca_pml_ob1.send_ranges, &range->base);
range = get_send_range_nolock(sendreq);
OPAL_THREAD_UNLOCK(&sendreq->req_send_range_lock);
return range;
}
/**
* Schedule pipeline of send descriptors for the given request.
* Up to the rdma threshold. If this is a send based protocol,
* the rdma threshold is the end of the message. Otherwise, schedule
* fragments up to the threshold to overlap initial registration/setup
* costs of the rdma. Only one thread can be inside this function.
*/
int
mca_pml_ob1_send_request_schedule_once(mca_pml_ob1_send_request_t* sendreq)
{
size_t prev_bytes_remaining = 0;
mca_pml_ob1_send_range_t *range;
int num_fail = 0;
/* check pipeline_depth here before attempting to get any locks */
if(true == sendreq->req_throttle_sends &&
sendreq->req_pipeline_depth >= mca_pml_ob1.send_pipeline_depth)
return OMPI_SUCCESS;
range = get_send_range(sendreq);
while(range && (false == sendreq->req_throttle_sends ||
sendreq->req_pipeline_depth < mca_pml_ob1.send_pipeline_depth)) {
mca_pml_ob1_frag_hdr_t* hdr;
mca_btl_base_descriptor_t* des;
int rc, btl_idx;
size_t size, offset, data_remaining = 0;
mca_bml_base_btl_t* bml_btl;
assert(range->range_send_length != 0);
if(prev_bytes_remaining == range->range_send_length)
num_fail++;
else
num_fail = 0;
prev_bytes_remaining = range->range_send_length;
if( OPAL_UNLIKELY(num_fail == range->range_btl_cnt) ) {
assert(sendreq->req_pending == MCA_PML_OB1_SEND_PENDING_NONE);
add_request_to_send_pending(sendreq,
MCA_PML_OB1_SEND_PENDING_SCHEDULE, true);
/* Note that request remains locked. send_request_process_pending()
* function will call shedule_exclusive() directly without taking
* the lock */
return OMPI_ERR_OUT_OF_RESOURCE;
}
cannot_pack:
do {
btl_idx = range->range_btl_idx;
if(++range->range_btl_idx == range->range_btl_cnt)
range->range_btl_idx = 0;
} while(!range->range_btls[btl_idx].length);
bml_btl = range->range_btls[btl_idx].bml_btl;
/* If there is a remaining data from another BTL that was too small
* for converter to pack then send it through another BTL */
range->range_btls[btl_idx].length += data_remaining;
size = range->range_btls[btl_idx].length;
/* makes sure that we don't exceed BTL max send size */
if(bml_btl->btl->btl_max_send_size != 0) {
size_t max_send_size = bml_btl->btl->btl_max_send_size -
sizeof(mca_pml_ob1_frag_hdr_t);
if (size > max_send_size) {
size = max_send_size;
}
}
/* pack into a descriptor */
offset = (size_t)range->range_send_offset;
- Split the datatype engine into two parts: an MPI specific part in OMPI and a language agnostic part in OPAL. The convertor is completely moved into OPAL. This offers several benefits as described in RFC http://www.open-mpi.org/community/lists/devel/2009/07/6387.php namely: - Fewer basic types (int* and float* types, boolean and wchar - Fixing naming scheme to ompi-nomenclature. - Usability outside of the ompi-layer. - Due to the fixed nature of simple opal types, their information is completely known at compile time and therefore constified - With fewer datatypes (22), the actual sizes of bit-field types may be reduced from 64 to 32 bits, allowing reorganizing the opal_datatype structure, eliminating holes and keeping data required in convertor (upon send/recv) in one cacheline... This has implications to the convertor-datastructure and other parts of the code. - Several performance tests have been run, the netpipe latency does not change with this patch on Linux/x86-64 on the smoky cluster. - Extensive tests have been done to verify correctness (no new regressions) using: 1. mpi_test_suite on linux/x86-64 using clean ompi-trunk and ompi-ddt: a. running both trunk and ompi-ddt resulted in no differences (except for MPI_SHORT_INT and MPI_TYPE_MIX_LB_UB do now run correctly). b. with --enable-memchecker and running under valgrind (one buglet when run with static found in test-suite, commited) 2. ibm testsuite on linux/x86-64 using clean ompi-trunk and ompi-ddt: all passed (except for the dynamic/ tests failed!! as trunk/MTT) 3. compilation and usage of HDF5 tests on Jaguar using PGI and PathScale compilers. 4. compilation and usage on Scicortex. - Please note, that for the heterogeneous case, (-m32 compiled binaries/ompi), neither ompi-trunk, nor ompi-ddt branch would successfully launch. This commit was SVN r21641.
2009-07-13 08:56:31 +04:00
opal_convertor_set_position(&sendreq->req_send.req_base.req_convertor,
&offset);
range->range_send_offset = (uint64_t)offset;
data_remaining = size;
MEMCHECKER(
memchecker_call(&opal_memchecker_base_mem_defined,
sendreq->req_send.req_base.req_addr,
sendreq->req_send.req_base.req_count,
sendreq->req_send.req_base.req_datatype);
);
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mca_bml_base_prepare_src(bml_btl, &sendreq->req_send.req_base.req_convertor,
MCA_BTL_NO_ORDER, sizeof(mca_pml_ob1_frag_hdr_t),
&size, MCA_BTL_DES_FLAGS_BTL_OWNERSHIP | MCA_BTL_DES_SEND_ALWAYS_CALLBACK, &des);
MEMCHECKER(
memchecker_call(&opal_memchecker_base_mem_noaccess,
sendreq->req_send.req_base.req_addr,
sendreq->req_send.req_base.req_count,
sendreq->req_send.req_base.req_datatype);
);
if( OPAL_UNLIKELY(des == NULL || size == 0) ) {
if(des) {
/* Converter can't pack this chunk. Append to another chunk
* from other BTL */
mca_bml_base_free(bml_btl, des);
range->range_btls[btl_idx].length -= data_remaining;
goto cannot_pack;
}
continue;
}
des->des_cbfunc = mca_pml_ob1_frag_completion;
des->des_cbdata = sendreq;
/* setup header */
hdr = (mca_pml_ob1_frag_hdr_t*)des->des_segments->seg_addr.pval;
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mca_pml_ob1_frag_hdr_prepare (hdr, 0, range->range_send_offset, sendreq,
sendreq->req_recv.lval);
ob1_hdr_hton(hdr, MCA_PML_OB1_HDR_TYPE_FRAG,
sendreq->req_send.req_base.req_proc);
#if OMPI_WANT_PERUSE
PERUSE_TRACE_COMM_OMPI_EVENT(PERUSE_COMM_REQ_XFER_CONTINUE,
&(sendreq->req_send.req_base), size, PERUSE_SEND);
#endif /* OMPI_WANT_PERUSE */
#if OPAL_CUDA_SUPPORT /* CUDA_ASYNC_SEND */
/* At this point, check to see if the BTL is doing an asynchronous
* copy. This would have been initiated in the mca_bml_base_prepare_src
* called above. The flag is checked here as we let the hdr be
* set up prior to checking.
*/
if (des->des_flags & MCA_BTL_DES_FLAGS_CUDA_COPY_ASYNC) {
OPAL_OUTPUT((-1, "Initiating async copy on FRAG frag=%p", (void *)des));
/* Need to make sure BTL does not free frag after completion
* of asynchronous copy as we still need to send the fragment. */
des->des_flags &= ~MCA_BTL_DES_FLAGS_BTL_OWNERSHIP;
/* Unclear that this flag needs to be set but to be sure, set it */
des->des_flags |= MCA_BTL_DES_SEND_ALWAYS_CALLBACK;
des->des_cbfunc = mca_pml_ob1_copy_frag_completion;
range->range_btls[btl_idx].length -= size;
range->range_send_length -= size;
range->range_send_offset += size;
OPAL_THREAD_ADD_SIZE_T(&sendreq->req_pipeline_depth, 1);
if(range->range_send_length == 0) {
range = get_next_send_range(sendreq, range);
prev_bytes_remaining = 0;
}
continue;
}
#endif /* OPAL_CUDA_SUPPORT */
/* initiate send - note that this may complete before the call returns */
rc = mca_bml_base_send(bml_btl, des, MCA_PML_OB1_HDR_TYPE_FRAG);
if( OPAL_LIKELY(rc >= 0) ) {
/* update state */
range->range_btls[btl_idx].length -= size;
range->range_send_length -= size;
range->range_send_offset += size;
OPAL_THREAD_ADD_SIZE_T(&sendreq->req_pipeline_depth, 1);
if(range->range_send_length == 0) {
range = get_next_send_range(sendreq, range);
prev_bytes_remaining = 0;
}
} else {
mca_bml_base_free(bml_btl,des);
}
}
return OMPI_SUCCESS;
}
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/**
* A put fragment could not be started. Queue the fragment to be retried later or
* fall back on send/recv.
*/
static void mca_pml_ob1_send_request_put_frag_failed (mca_pml_ob1_rdma_frag_t *frag, int rc)
{
mca_pml_ob1_send_request_t* sendreq = (mca_pml_ob1_send_request_t *) frag->rdma_req;
mca_bml_base_btl_t *bml_btl = frag->rdma_bml;
if (++frag->retries < mca_pml_ob1.rdma_retries_limit && OMPI_ERR_OUT_OF_RESOURCE == rc) {
/* queue the frag for later if there was a resource error */
OPAL_THREAD_LOCK(&mca_pml_ob1.lock);
opal_list_append(&mca_pml_ob1.rdma_pending, (opal_list_item_t*)frag);
OPAL_THREAD_UNLOCK(&mca_pml_ob1.lock);
} else {
/* tell receiver to deregister memory */
mca_pml_ob1_send_fin (sendreq->req_send.req_base.req_proc, bml_btl,
frag->rdma_hdr.hdr_rdma.hdr_frag, 0, MCA_BTL_NO_ORDER,
OPAL_ERR_TEMP_OUT_OF_RESOURCE);
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/* send fragment by copy in/out */
mca_pml_ob1_send_request_copy_in_out(sendreq, frag->rdma_hdr.hdr_rdma.hdr_rdma_offset,
frag->rdma_length);
/* if a pointer to a receive request is not set it means that
* ACK was not yet received. Don't schedule sends before ACK */
if (NULL != sendreq->req_recv.pval)
mca_pml_ob1_send_request_schedule (sendreq);
}
}
/**
* An RDMA put operation has completed:
* (1) Update request status and if required set completed
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* (2) Send FIN control message to the destination
*/
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static void mca_pml_ob1_put_completion (mca_btl_base_module_t* btl, struct mca_btl_base_endpoint_t* ep,
void *local_address, mca_btl_base_registration_handle_t *local_handle,
void *context, void *cbdata, int status)
{
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mca_pml_ob1_rdma_frag_t *frag = (mca_pml_ob1_rdma_frag_t *) cbdata;
mca_pml_ob1_send_request_t *sendreq = (mca_pml_ob1_send_request_t *) frag->rdma_req;
mca_bml_base_btl_t *bml_btl = (mca_bml_base_btl_t *) context;
/* check completion status */
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if( OPAL_UNLIKELY(OMPI_SUCCESS == status) ) {
/* TODO -- readd ordering */
mca_pml_ob1_send_fin (sendreq->req_send.req_base.req_proc, bml_btl,
frag->rdma_hdr.hdr_rdma.hdr_frag, frag->rdma_length,
0, 0);
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/* check for request completion */
OPAL_THREAD_ADD_SIZE_T(&sendreq->req_bytes_delivered, frag->rdma_length);
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send_request_pml_complete_check(sendreq);
} else {
/* try to fall back on send/recv */
mca_pml_ob1_send_request_put_frag_failed (frag, status);
}
MCA_PML_OB1_RDMA_FRAG_RETURN(frag);
MCA_PML_OB1_PROGRESS_PENDING(bml_btl);
}
int mca_pml_ob1_send_request_put_frag( mca_pml_ob1_rdma_frag_t *frag )
{
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mca_pml_ob1_send_request_t *sendreq = (mca_pml_ob1_send_request_t *) frag->rdma_req;
mca_btl_base_registration_handle_t *local_handle = NULL;
mca_bml_base_btl_t *bml_btl = frag->rdma_bml;
int rc;
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if (bml_btl->btl->btl_register_mem && NULL == frag->local_handle) {
/* Check if the segment is already registered */
for (size_t i = 0 ; i < sendreq->req_rdma_cnt ; ++i) {
if (sendreq->req_rdma[i].bml_btl == frag->rdma_bml) {
/* do not copy the handle to the fragment to avoid deregistring it twice */
local_handle = sendreq->req_rdma[i].btl_reg;
break;
}
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}
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if (NULL == frag->local_handle) {
/* Not already registered. Register the region with the BTL. */
mca_bml_base_register_mem (bml_btl, frag->local_address, frag->rdma_length, 0,
&frag->local_handle);
if (OPAL_UNLIKELY(NULL == frag->local_handle)) {
mca_pml_ob1_send_request_put_frag_failed (frag, OMPI_ERR_OUT_OF_RESOURCE);
return OMPI_ERR_OUT_OF_RESOURCE;
}
local_handle = frag->local_handle;
}
}
PERUSE_TRACE_COMM_OMPI_EVENT( PERUSE_COMM_REQ_XFER_CONTINUE,
&(((mca_pml_ob1_send_request_t*)frag->rdma_req)->req_send.req_base), save_size, PERUSE_SEND );
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rc = mca_bml_base_put (bml_btl, frag->local_address, frag->remote_address, local_handle,
(mca_btl_base_registration_handle_t *) frag->remote_handle, frag->rdma_length,
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0, MCA_BTL_NO_ORDER, mca_pml_ob1_put_completion, frag);
if (OPAL_UNLIKELY(OMPI_SUCCESS != rc)) {
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mca_pml_ob1_send_request_put_frag_failed (frag, rc);
return rc;
}
return OMPI_SUCCESS;
}
/**
* Receiver has scheduled an RDMA operation:
* (1) Allocate an RDMA fragment to maintain the state of the operation
* (2) Call BTL prepare_src to pin/prepare source buffers
* (3) Queue the RDMA put
*/
void mca_pml_ob1_send_request_put( mca_pml_ob1_send_request_t* sendreq,
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mca_btl_base_module_t* btl,
mca_pml_ob1_rdma_hdr_t* hdr )
{
mca_bml_base_endpoint_t *bml_endpoint = sendreq->req_endpoint;
mca_pml_ob1_rdma_frag_t* frag;
if(hdr->hdr_common.hdr_flags & MCA_PML_OB1_HDR_TYPE_ACK) {
OPAL_THREAD_ADD32(&sendreq->req_state, -1);
}
sendreq->req_recv.pval = hdr->hdr_recv_req.pval;
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if (NULL == sendreq->rdma_frag) {
MCA_PML_OB1_RDMA_FRAG_ALLOC(frag);
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if( OPAL_UNLIKELY(NULL == frag) ) {
/* TSW - FIX */
OMPI_ERROR_LOG(OMPI_ERR_OUT_OF_RESOURCE);
ompi_rte_abort(-1, NULL);
}
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} else {
/* rget fallback on put */
frag = sendreq->rdma_frag;
sendreq->rdma_frag = NULL;
sendreq->req_state = 0;
}
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/* copy registration data */
memcpy (frag->remote_handle, hdr + 1, btl->btl_registration_handle_size);
frag->rdma_bml = mca_bml_base_btl_array_find(&bml_endpoint->btl_rdma, btl);
frag->rdma_hdr.hdr_rdma = *hdr;
frag->rdma_req = sendreq;
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frag->rdma_length = hdr->hdr_dst_size;
frag->rdma_state = MCA_PML_OB1_RDMA_PUT;
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frag->remote_address = hdr->hdr_dst_ptr;
frag->retries = 0;
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/* Get the address of the current offset. Note: at this time ob1 CAN NOT handle
* non-contiguous RDMA. If that changes this code will be wrong. */
opal_convertor_get_offset_pointer (&sendreq->req_send.req_base.req_convertor,
hdr->hdr_rdma_offset, &frag->local_address);
mca_pml_ob1_send_request_put_frag(frag);
}