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openmpi/ompi/mca/pml/bfo/pml_bfo.h

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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) 2004-2005 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) 2010 Oracle and/or its affiliates. All rights reserved.
* $COPYRIGHT$
*
* Additional copyrights may follow
*
* $HEADER$
*/
/**
* @file
*/
#ifndef MCA_PML_BFO_H
#define MCA_PML_BFO_H
#include "ompi_config.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.
2014-07-26 04:47:28 +04:00
#include "opal/class/ompi_free_list.h"
#include "ompi/request/request.h"
#include "ompi/mca/pml/pml.h"
#include "ompi/mca/pml/base/pml_base_request.h"
#include "ompi/mca/pml/base/pml_base_bsend.h"
#include "ompi/mca/pml/base/pml_base_sendreq.h"
#include "ompi/datatype/ompi_datatype.h"
#include "pml_bfo_hdr.h"
#include "ompi/mca/bml/base/base.h"
#include "ompi/proc/proc.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.
2014-07-26 04:47:28 +04:00
#include "opal/mca/allocator/base/base.h"
BEGIN_C_DECLS
/**
* BFO PML module
*/
struct mca_pml_bfo_t {
mca_pml_base_module_t super;
int priority;
int free_list_num; /* initial size of free list */
int free_list_max; /* maximum size of free list */
int free_list_inc; /* number of elements to grow free list */
MCA/base: Add new MCA variable system Features: - Support for an override parameter file (openmpi-mca-param-override.conf). Variable values in this file can not be overridden by any file or environment value. - Support for boolean, unsigned, and unsigned long long variables. - Support for true/false values. - Support for enumerations on integer variables. - Support for MPIT scope, verbosity, and binding. - Support for command line source. - Support for setting variable source via the environment using OMPI_MCA_SOURCE_<var name>=source (either command or file:filename) - Cleaner API. - Support for variable groups (equivalent to MPIT categories). Notes: - Variables must be created with a backing store (char **, int *, or bool *) that must live at least as long as the variable. - Creating a variable with the MCA_BASE_VAR_FLAG_SETTABLE enables the use of mca_base_var_set_value() to change the value. - String values are duplicated when the variable is registered. It is up to the caller to free the original value if necessary. The new value will be freed by the mca_base_var system and must not be freed by the user. - Variables with constant scope may not be settable. - Variable groups (and all associated variables) are deregistered when the component is closed or the component repository item is freed. This prevents a segmentation fault from accessing a variable after its component is unloaded. - After some discussion we decided we should remove the automatic registration of component priority variables. Few component actually made use of this feature. - The enumerator interface was updated to be general enough to handle future uses of the interface. - The code to generate ompi_info output has been moved into the MCA variable system. See mca_base_var_dump(). opal: update core and components to mca_base_var system orte: update core and components to mca_base_var system ompi: update core and components to mca_base_var system This commit also modifies the rmaps framework. The following variables were moved from ppr and lama: rmaps_base_pernode, rmaps_base_n_pernode, rmaps_base_n_persocket. Both lama and ppr create synonyms for these variables. This commit was SVN r28236.
2013-03-28 01:09:41 +04:00
unsigned int send_pipeline_depth;
unsigned int recv_pipeline_depth;
unsigned int rdma_put_retries_limit;
int max_rdma_per_request;
int max_send_per_range;
bool leave_pinned;
int leave_pinned_pipeline;
/* lock queue access */
opal_mutex_t lock;
/* free lists */
ompi_free_list_t rdma_frags;
ompi_free_list_t recv_frags;
ompi_free_list_t pending_pckts;
ompi_free_list_t buffers;
ompi_free_list_t send_ranges;
/* list of pending operations */
opal_list_t pckt_pending;
opal_list_t send_pending;
opal_list_t recv_pending;
opal_list_t rdma_pending;
/* List of pending fragments without a matching communicator */
opal_list_t non_existing_communicator_pending;
bool enabled;
char* allocator_name;
mca_allocator_base_module_t* allocator;
MCA/base: Add new MCA variable system Features: - Support for an override parameter file (openmpi-mca-param-override.conf). Variable values in this file can not be overridden by any file or environment value. - Support for boolean, unsigned, and unsigned long long variables. - Support for true/false values. - Support for enumerations on integer variables. - Support for MPIT scope, verbosity, and binding. - Support for command line source. - Support for setting variable source via the environment using OMPI_MCA_SOURCE_<var name>=source (either command or file:filename) - Cleaner API. - Support for variable groups (equivalent to MPIT categories). Notes: - Variables must be created with a backing store (char **, int *, or bool *) that must live at least as long as the variable. - Creating a variable with the MCA_BASE_VAR_FLAG_SETTABLE enables the use of mca_base_var_set_value() to change the value. - String values are duplicated when the variable is registered. It is up to the caller to free the original value if necessary. The new value will be freed by the mca_base_var system and must not be freed by the user. - Variables with constant scope may not be settable. - Variable groups (and all associated variables) are deregistered when the component is closed or the component repository item is freed. This prevents a segmentation fault from accessing a variable after its component is unloaded. - After some discussion we decided we should remove the automatic registration of component priority variables. Few component actually made use of this feature. - The enumerator interface was updated to be general enough to handle future uses of the interface. - The code to generate ompi_info output has been moved into the MCA variable system. See mca_base_var_dump(). opal: update core and components to mca_base_var system orte: update core and components to mca_base_var system ompi: update core and components to mca_base_var system This commit also modifies the rmaps framework. The following variables were moved from ppr and lama: rmaps_base_pernode, rmaps_base_n_pernode, rmaps_base_n_persocket. Both lama and ppr create synonyms for these variables. This commit was SVN r28236.
2013-03-28 01:09:41 +04:00
unsigned int unexpected_limit;
};
typedef struct mca_pml_bfo_t mca_pml_bfo_t;
extern mca_pml_bfo_t mca_pml_bfo;
extern int mca_pml_bfo_output;
/*
* PML interface functions.
*/
extern int mca_pml_bfo_add_comm(
struct ompi_communicator_t* comm
);
extern int mca_pml_bfo_del_comm(
struct ompi_communicator_t* comm
);
extern int mca_pml_bfo_add_procs(
struct ompi_proc_t **procs,
size_t nprocs
);
extern int mca_pml_bfo_del_procs(
struct ompi_proc_t **procs,
size_t nprocs
);
extern int mca_pml_bfo_enable( bool enable );
extern int mca_pml_bfo_progress(void);
extern int mca_pml_bfo_iprobe( int dst,
int tag,
struct ompi_communicator_t* comm,
int *matched,
ompi_status_public_t* status );
extern int mca_pml_bfo_probe( int dst,
int tag,
struct ompi_communicator_t* comm,
ompi_status_public_t* status );
extern int mca_pml_bfo_improbe( int dst,
int tag,
struct ompi_communicator_t* comm,
int *matched,
struct ompi_message_t **message,
ompi_status_public_t* status );
extern int mca_pml_bfo_mprobe( int dst,
int tag,
struct ompi_communicator_t* comm,
struct ompi_message_t **message,
ompi_status_public_t* status );
extern int mca_pml_bfo_isend_init( void *buf,
size_t count,
ompi_datatype_t *datatype,
int dst,
int tag,
mca_pml_base_send_mode_t mode,
struct ompi_communicator_t* comm,
struct ompi_request_t **request );
extern int mca_pml_bfo_isend( void *buf,
size_t count,
ompi_datatype_t *datatype,
int dst,
int tag,
mca_pml_base_send_mode_t mode,
struct ompi_communicator_t* comm,
struct ompi_request_t **request );
extern int mca_pml_bfo_send( void *buf,
size_t count,
ompi_datatype_t *datatype,
int dst,
int tag,
mca_pml_base_send_mode_t mode,
struct ompi_communicator_t* comm );
extern int mca_pml_bfo_irecv_init( void *buf,
size_t count,
ompi_datatype_t *datatype,
int src,
int tag,
struct ompi_communicator_t* comm,
struct ompi_request_t **request );
extern int mca_pml_bfo_irecv( void *buf,
size_t count,
ompi_datatype_t *datatype,
int src,
int tag,
struct ompi_communicator_t* comm,
struct ompi_request_t **request );
extern int mca_pml_bfo_recv( void *buf,
size_t count,
ompi_datatype_t *datatype,
int src,
int tag,
struct ompi_communicator_t* comm,
ompi_status_public_t* status );
extern int mca_pml_bfo_imrecv( void *buf,
size_t count,
ompi_datatype_t *datatype,
struct ompi_message_t **message,
struct ompi_request_t **request );
extern int mca_pml_bfo_mrecv( void *buf,
size_t count,
ompi_datatype_t *datatype,
struct ompi_message_t **message,
ompi_status_public_t* status );
extern int mca_pml_bfo_dump( struct ompi_communicator_t* comm,
int verbose );
extern int mca_pml_bfo_start( size_t count,
ompi_request_t** requests );
extern int mca_pml_bfo_ft_event( int state );
END_C_DECLS
struct mca_pml_bfo_pckt_pending_t {
ompi_free_list_item_t super;
ompi_proc_t* proc;
mca_pml_bfo_hdr_t hdr;
struct mca_bml_base_btl_t *bml_btl;
uint8_t order;
};
typedef struct mca_pml_bfo_pckt_pending_t mca_pml_bfo_pckt_pending_t;
OBJ_CLASS_DECLARATION(mca_pml_bfo_pckt_pending_t);
#define MCA_PML_BFO_PCKT_PENDING_ALLOC(pckt) \
do { \
ompi_free_list_item_t* item; \
OMPI_FREE_LIST_WAIT_MT(&mca_pml_bfo.pending_pckts, item); \
pckt = (mca_pml_bfo_pckt_pending_t*)item; \
} while (0)
#define MCA_PML_BFO_PCKT_PENDING_RETURN(pckt) \
do { \
/* return packet */ \
OMPI_FREE_LIST_RETURN_MT(&mca_pml_bfo.pending_pckts, \
(ompi_free_list_item_t*)pckt); \
} while(0)
#define MCA_PML_BFO_ADD_FIN_TO_PENDING(P, D, B, O, S) \
do { \
mca_pml_bfo_pckt_pending_t *_pckt; \
\
MCA_PML_BFO_PCKT_PENDING_ALLOC(_pckt); \
_pckt->hdr.hdr_common.hdr_type = MCA_PML_BFO_HDR_TYPE_FIN; \
_pckt->hdr.hdr_fin.hdr_des = (D); \
_pckt->hdr.hdr_fin.hdr_fail = (S); \
_pckt->proc = (P); \
_pckt->bml_btl = (B); \
_pckt->order = (O); \
OPAL_THREAD_LOCK(&mca_pml_bfo.lock); \
opal_list_append(&mca_pml_bfo.pckt_pending, \
(opal_list_item_t*)_pckt); \
OPAL_THREAD_UNLOCK(&mca_pml_bfo.lock); \
} while(0)
int mca_pml_bfo_send_fin(ompi_proc_t* proc, mca_bml_base_btl_t* bml_btl,
#if PML_BFO
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.
2014-07-26 04:47:28 +04:00
opal_ptr_t hdr_des, uint8_t order, uint32_t status,
uint16_t seq, uint8_t reqseq, uint16_t ctx, uint32_t src);
#else /* PML_BFO */
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.
2014-07-26 04:47:28 +04:00
opal_ptr_t hdr_des, uint8_t order, uint32_t status);
#endif /* PML_BFO */
/* This function tries to resend FIN/ACK packets from pckt_pending queue.
* Packets are added to the queue when sending of FIN or ACK is failed due to
* resource unavailability. bml_btl passed to the function doesn't represents
* packet's destination, it represents BTL on which resource was freed, so only
* this BTL should be considered for resending packets */
void mca_pml_bfo_process_pending_packets(mca_bml_base_btl_t* bml_btl);
/* This function retries failed PUT/GET operations on frag. When RDMA operation
* cannot be accomplished for some reason, frag is put on the rdma_pending list.
* Later the operation is retried. The destination of RDMA operation is stored
* inside the frag structure */
void mca_pml_bfo_process_pending_rdma(void);
#define MCA_PML_BFO_PROGRESS_PENDING(bml_btl) \
do { \
if(opal_list_get_size(&mca_pml_bfo.pckt_pending)) \
mca_pml_bfo_process_pending_packets(bml_btl); \
if(opal_list_get_size(&mca_pml_bfo.recv_pending)) \
mca_pml_bfo_recv_request_process_pending(); \
if(opal_list_get_size(&mca_pml_bfo.send_pending)) \
mca_pml_bfo_send_request_process_pending(bml_btl); \
if(opal_list_get_size(&mca_pml_bfo.rdma_pending)) \
mca_pml_bfo_process_pending_rdma(); \
} while (0)
/*
* Compute the total number of bytes on supplied descriptor
*/
static inline int mca_pml_bfo_compute_segment_length (size_t seg_size, void *segments, size_t count,
size_t hdrlen) {
size_t i, length;
for (i = 0, length = -hdrlen ; i < count ; ++i) {
mca_btl_base_segment_t *segment =
(mca_btl_base_segment_t *)((char *) segments + i * seg_size);
length += segment->seg_len;
}
return length;
}
static inline int mca_pml_bfo_compute_segment_length_base (mca_btl_base_segment_t *segments,
size_t count, size_t hdrlen) {
size_t i, length;
for (i = 0, length = -hdrlen ; i < count ; ++i) {
length += segments[i].seg_len;
}
return length;
}
/* represent BTL chosen for sending request */
struct mca_pml_bfo_com_btl_t {
mca_bml_base_btl_t *bml_btl;
struct mca_mpool_base_registration_t* btl_reg;
size_t length;
};
typedef struct mca_pml_bfo_com_btl_t mca_pml_bfo_com_btl_t;
int mca_pml_bfo_com_btl_comp(const void *v1, const void *v2);
/* Calculate what percentage of a message to send through each BTL according to
* relative weight */
static inline void
mca_pml_bfo_calc_weighted_length( mca_pml_bfo_com_btl_t *btls, int num_btls, size_t size,
double weight_total )
{
int i;
size_t length_left;
/* shortcut for common case for only one BTL */
if( OPAL_LIKELY(1 == num_btls) ) {
btls[0].length = size;
return;
}
/* sort BTLs according of their weights so BTLs with smaller weight will
* not hijack all of the traffic */
qsort( btls, num_btls, sizeof(mca_pml_bfo_com_btl_t),
mca_pml_bfo_com_btl_comp );
for(length_left = size, i = 0; i < num_btls; i++) {
mca_bml_base_btl_t* bml_btl = btls[i].bml_btl;
size_t length = 0;
if( OPAL_UNLIKELY(0 != length_left) ) {
length = (length_left > bml_btl->btl->btl_eager_limit)?
((size_t)(size * (bml_btl->btl_weight / weight_total))) :
length_left;
if(length > length_left)
length = length_left;
length_left -= length;
}
btls[i].length = length;
}
/* account for rounding errors */
btls[0].length += length_left;
}
#endif