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openmpi/ompi/mca/common/ofacm/common_ofacm_oob.c
Brian Barrett f42783ae1a Move the RTE framework change into the trunk. With this change, all non-CR
runtime code goes through one of the rte, dpm, or pubsub frameworks.

This commit was SVN r27934.
2013-01-27 23:25:10 +00:00

1669 строки
58 KiB
C

/*
* Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana
* University Research and Technology
* Corporation. All rights reserved.
* Copyright (c) 2004-2005 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) 2006-2008 Cisco Systems, Inc. All rights reserved.
* Copyright (c) 2006-2012 Los Alamos National Security, LLC. All rights
* reserved.
* Copyright (c) 2008-2012 Mellanox Technologies. All rights reserved.
*
* Copyright (c) 2009-2012 Oak Ridge National Laboratory. All rights reserved.
* $COPYRIGHT$
*
* Additional copyrights may follow
*
* $HEADER$
*/
#include "ompi_config.h"
#include "opal/runtime/opal_progress.h"
#include "opal/dss/dss.h"
#include "opal/util/error.h"
#include "opal/util/output.h"
#include "ompi/mca/rte/rte.h"
#include "connect.h"
#include "base.h"
#include "opal/class/opal_hash_table.h"
#include "opal/class/opal_object.h"
#include "ompi/constants.h"
#include <inttypes.h>
#define MAX_LINE_LEN 80
#define NUM_OF_TOKENS 7
typedef enum {
ENDPOINT_CONNECT_REQUEST,
ENDPOINT_CONNECT_RESPONSE,
ENDPOINT_CONNECT_ACK
} connect_message_type_t;
typedef struct port_to_switch_lids{
uint16_t port_lid;
uint16_t switch_lid;
struct port_to_switch_lids* next;
} port_to_switch_lids;
typedef struct switch_to_switch_sl{
uint16_t switch_lid;
uint8_t service_level;
struct switch_to_switch_sl* next;
} switch_to_switch_sl;
static int oob_priority = 50;
static bool rml_recv_posted = false;
static void oob_component_register(void);
static int oob_component_query(ompi_common_ofacm_base_dev_desc_t *dev,
ompi_common_ofacm_base_module_t **cpc);
static int oob_component_finalize(void);
static int oob_module_start_connect(ompi_common_ofacm_base_local_connection_context_t* context);
static int reply_start_connect(ompi_common_ofacm_base_local_connection_context_t* context,
ompi_common_ofacm_base_remote_connection_context_t *remote_info);
static int set_remote_info(ompi_common_ofacm_base_local_connection_context_t *context,
ompi_common_ofacm_base_remote_connection_context_t *remote_info);
static int qp_connect_all(ompi_common_ofacm_base_local_connection_context_t* context);
static int qp_create_all(ompi_common_ofacm_base_local_connection_context_t* context);
static int qp_create_one(ompi_common_ofacm_base_local_connection_context_t* context, int qp);
static int send_connect_data(ompi_common_ofacm_base_local_connection_context_t* context,
uint8_t message_type);
static ompi_common_ofacm_base_local_connection_context_t*
oob_endpoint_init(ompi_proc_t *proc,
ompi_common_ofacm_base_qp_config_t *qp_config,
struct ibv_pd *pd, uint64_t subnet_id, int cpc_type,
uint16_t lid, uint16_t rem_lid,
int32_t user_context_index, void *user_context,
ompi_common_ofacm_base_module_t *cpc,
ompi_common_ofacm_base_context_connect_cb_fn_t connect_cb,
ompi_common_ofacm_base_context_error_cb_fn_t error_cb,
ompi_common_ofacm_base_context_prepare_recv_cb_fn_t prepare_recv_cb);
static int oob_endpoint_finalize(ompi_common_ofacm_base_local_connection_context_t *context);
static void report_error(ompi_common_ofacm_base_local_connection_context_t* context);
static void rml_send_cb(int status, ompi_process_name_t* endpoint,
opal_buffer_t* buffer, ompi_rml_tag_t tag,
void* cbdata);
static void rml_recv_cb(int status, ompi_process_name_t* process_name,
opal_buffer_t* buffer, ompi_rml_tag_t tag,
void* cbdata);
/* Build service level hashtables per port */
static int create_service_level_table_for_port(uint16_t lid,
opal_hash_table_t* port_to_switch_hash_table,
opal_hash_table_t* switch_to_switch_hash_table);
/* Pick the service level of path between to endpoints */
static int pick_service_level(uint16_t src_port_lid, uint16_t dst_port_lid,
uint8_t* service_level,
opal_hash_table_t* port_to_switch_hash_table,
opal_hash_table_t* switch_to_switch_hash_table);
/*
* The "component" struct -- the top-level function pointers for the
* oob connection scheme.
*/
ompi_common_ofacm_base_component_t ompi_common_ofacm_oob = {
"oob",
/* Register */
oob_component_register,
/* Init */
NULL,
/* Query */
oob_component_query,
/* Finalize */
oob_component_finalize,
};
/* Open - this functions sets up any oob specific commandline params */
static void oob_component_register(void)
{
mca_base_param_reg_int_name("common",
"ofacm_connect_oob_priority",
"The selection method priority for oob",
false, false, oob_priority, &oob_priority);
if (oob_priority > 100) {
oob_priority = 100;
} else if (oob_priority < -1) {
oob_priority = -1;
}
}
/*
* Init function. Post non-blocking RML receive to accept incoming
* connection requests.
*/
static int oob_component_query(ompi_common_ofacm_base_dev_desc_t *dev,
ompi_common_ofacm_base_module_t **cpc)
{
int rc;
/* If we have the transport_type member, check to ensure we're on
IB (this CPC will not work with iWarp). If we do not have the
transport_type member, then we must be < OFED v1.2, and
therefore we must be IB. */
#if defined(HAVE_STRUCT_IBV_DEVICE_TRANSPORT_TYPE)
if (IBV_TRANSPORT_IB != dev->ib_dev->transport_type) {
OFACM_VERBOSE(("OFACM: oob CPC only supported on InfiniBand; skipped on device %s",
ibv_get_device_name(dev->ib_dev)));
return OMPI_ERR_NOT_SUPPORTED;
}
#endif
if (dev->capabilities & OMPI_COMMON_OFACM_XRC_ONLY) {
OFACM_VERBOSE(("OFACM: oob CPC not supported with XRC receive queues, please try xoob CPC; skipped"));
return OMPI_ERR_NOT_SUPPORTED;
}
/* If this btl supports OOB, then post the RML message. But
ensure to only post it *once*, because another btl may have
come in before this and already posted it. */
if (!rml_recv_posted) {
rc = ompi_rte_recv_buffer_nb(OMPI_NAME_WILDCARD,
OMPI_RML_TAG_OFACM,
OMPI_RML_PERSISTENT,
rml_recv_cb,
NULL);
if (OMPI_SUCCESS != rc) {
OFACM_VERBOSE(("OFACM: oob CPC system error %d (%s)",
rc, opal_strerror(rc)));
return rc;
}
rml_recv_posted = true;
}
*cpc = malloc(sizeof(ompi_common_ofacm_base_module_t));
if (NULL == *cpc) {
ompi_rte_recv_cancel(OMPI_NAME_WILDCARD, OMPI_RML_TAG_OFACM);
rml_recv_posted = false;
OFACM_VERBOSE(("openib BTL: oob CPC system error (malloc failed)"));
return OMPI_ERR_OUT_OF_RESOURCE;
}
/* Init global list of all connection contexts */
OBJ_CONSTRUCT(&ompi_common_ofacm_oob.all_procs, opal_list_t);
(*cpc)->data.cbm_component = &ompi_common_ofacm_oob;
(*cpc)->data.cbm_priority = oob_priority;
(*cpc)->data.cbm_modex_message = NULL;
(*cpc)->data.cbm_modex_message_len = 0;
(*cpc)->cbm_endpoint_init = oob_endpoint_init;
(*cpc)->cbm_start_connect = oob_module_start_connect;
(*cpc)->cbm_endpoint_finalize = oob_endpoint_finalize;
(*cpc)->cbm_finalize = NULL;
(*cpc)->cbm_uses_cts = false;
OFACM_VERBOSE(("openib BTL: oob CPC available for use on %s",
ibv_get_device_name(dev->ib_dev)));
return OMPI_SUCCESS;
}
static ompi_common_ofacm_base_proc_t* find_proc(ompi_proc_t *proc)
{
ompi_common_ofacm_base_proc_t *ret = NULL;
opal_list_item_t *item;
opal_list_t *list = &ompi_common_ofacm_oob.all_procs;
for (item = opal_list_get_first(list);
item != opal_list_get_end(list);
item = opal_list_get_next(item)) {
if (proc == ((ompi_common_ofacm_base_proc_t *)item)->proc_ompi){
ret = (ompi_common_ofacm_base_proc_t *)item;
}
}
return ret;
}
/* OOB connection context init */
static ompi_common_ofacm_base_local_connection_context_t*
oob_endpoint_init(ompi_proc_t *proc,
ompi_common_ofacm_base_qp_config_t *qp_config,
struct ibv_pd *pd, uint64_t subnet_id, int cpc_type,
uint16_t lid, uint16_t rem_lid,
int32_t user_context_index, void *user_context,
ompi_common_ofacm_base_module_t *cpc,
ompi_common_ofacm_base_context_connect_cb_fn_t connect_cb,
ompi_common_ofacm_base_context_error_cb_fn_t error_cb,
ompi_common_ofacm_base_context_prepare_recv_cb_fn_t prepare_recv_cb)
{
int ret;
bool new_proc;
ompi_common_ofacm_base_local_connection_context_t *context;
ompi_common_ofacm_base_proc_t *context_proc;
context = (ompi_common_ofacm_base_local_connection_context_t*)
OBJ_NEW(ompi_common_ofacm_base_local_connection_context_t);
context_proc = find_proc(proc);
if (NULL == context_proc) {
new_proc = true;
/* constructing new proc */
context_proc = (ompi_common_ofacm_base_proc_t *)
OBJ_NEW(ompi_common_ofacm_base_proc_t );
} else {
new_proc = false;
OBJ_RETAIN(context_proc);
}
ompi_common_ofacm_base_proc_setup(context_proc, context, proc);
ret = ompi_common_ofacm_base_context_init(context, cpc, connect_cb, error_cb,
prepare_recv_cb, context_proc, qp_config,
pd, subnet_id, cpc_type, lid, rem_lid, user_context_index, user_context);
if (OMPI_SUCCESS != ret) {
OBJ_DESTRUCT(context_proc);
OBJ_DESTRUCT(context);
return NULL;
}
if (new_proc) {
opal_list_append(&ompi_common_ofacm_oob.all_procs, (opal_list_item_t *)context_proc);
}
return context;
}
/* OOB connection context finalization */
static int oob_endpoint_finalize
(ompi_common_ofacm_base_local_connection_context_t *context)
{
opal_list_item_t *proc_item, *cntx_item, *cntx_item_next;
bool found = false;
bool pfound = false;
int qp;
opal_list_t *proc_list = &ompi_common_ofacm_oob.all_procs;
/* Proc cleanup. We should find the context proc in all proc list and remove
* from the proc list our context. After it we try to release the proc context */
for (proc_item = opal_list_get_first(proc_list);
proc_item != opal_list_get_end(proc_list);
proc_item = opal_list_get_next(proc_item)) {
if (context->proc == ((ompi_common_ofacm_base_proc_t *)proc_item)){
ompi_common_ofacm_base_proc_t *proc =
(ompi_common_ofacm_base_proc_t *)proc_item;
opal_list_t *cntx_list = &proc->all_contexts;
pfound = true;
/* Remove the context from proc list */
cntx_item = opal_list_get_first(cntx_list);
while(cntx_item != opal_list_get_end(cntx_list)) {
/* take the next before removing from the list */
cntx_item_next = opal_list_get_next(cntx_item);
if (context == (ompi_common_ofacm_base_local_connection_context_t *)cntx_item) {
found = true;
opal_list_remove_item(cntx_list, cntx_item);
}
cntx_item = cntx_item_next;
}
/* Remove our proc from all list */
if (opal_list_is_empty(cntx_list)) {
opal_list_remove_item(proc_list, (opal_list_item_t *)proc);
}
OBJ_RELEASE(proc);
}
}
/* Release QPs */
for (qp = 0; qp < context->num_of_qps; qp++) {
if(NULL != context->qps[qp].lcl_qp) {
if(ibv_destroy_qp(context->qps[qp].lcl_qp)) {
OFACM_ERROR(("Failed to destroy QP:%d\n", qp));
}
}
}
assert(true == found);
assert(true == pfound);
/* We done with proc release and now we way destroy the context */
OBJ_RELEASE(context);
return OMPI_SUCCESS;
}
/*
* Connect function. Start initiation of connections to a remote
* peer. We send our Queue Pair information over the RML/OOB
* communication mechanism. On completion of our send, a send
* completion handler is called.
*/
static int oob_module_start_connect(ompi_common_ofacm_base_local_connection_context_t *context)
{
int rc;
if (OMPI_SUCCESS != (rc = qp_create_all(context))) {
return rc;
}
/* Send connection info over to remote endpoint */
context->state = MCA_COMMON_OFACM_CONNECTING;
if (OMPI_SUCCESS !=
(rc = send_connect_data(context, ENDPOINT_CONNECT_REQUEST))) {
OFACM_ERROR(("error sending connect request, error code %d", rc));
return rc;
}
return OMPI_SUCCESS;
}
/*
* Component finalize function. Cleanup RML non-blocking receive.
*/
static int oob_component_finalize(void)
{
if (rml_recv_posted) {
ompi_rte_recv_cancel(OMPI_NAME_WILDCARD, OMPI_RML_TAG_OFACM);
rml_recv_posted = false;
}
return OMPI_SUCCESS;
}
/**************************************************************************/
/*
* Reply to a `start - connect' message
*/
static int reply_start_connect(ompi_common_ofacm_base_local_connection_context_t* context,
ompi_common_ofacm_base_remote_connection_context_t *remote_info)
{
int rc;
OFACM_VERBOSE(("Initialized QPs, LID = %d", context->lid));
/* Create local QP's and post receive resources */
if (OMPI_SUCCESS != (rc = qp_create_all(context))) {
return rc;
}
/* Set the remote side info */
set_remote_info(context, remote_info);
/* Connect to remote endpoint qp's */
if (OMPI_SUCCESS != (rc = qp_connect_all(context))) {
return rc;
}
/* Send connection info over to remote endpoint */
context->state = MCA_COMMON_OFACM_CONNECT_ACK;
if (OMPI_SUCCESS !=
(rc = send_connect_data(context, ENDPOINT_CONNECT_RESPONSE))) {
OFACM_ERROR(("error in endpoint send connect request error code is %d",
rc));
return rc;
}
return OMPI_SUCCESS;
}
static int set_remote_info(ompi_common_ofacm_base_local_connection_context_t *context,
ompi_common_ofacm_base_remote_connection_context_t *remote_info)
{
/* copy the remote_info stuff */
memcpy(&context->remote_info,
remote_info, sizeof(ompi_common_ofacm_base_remote_connection_context_t ));
OFACM_VERBOSE(("Setting QP info, LID = %d", context->remote_info.rem_lid));
return OMPI_SUCCESS;
}
/*
* Connect the local ends of all qp's to the remote side
*/
static int qp_connect_all(ompi_common_ofacm_base_local_connection_context_t* context)
{
int i;
uint8_t service_level = 0;
uint32_t rtr_mask = 0, rts_mask = 0;
int rc = OMPI_SUCCESS;
static bool is_hash_table_initialized = false;
static opal_hash_table_t switch_to_switch_hash_table;
static opal_hash_table_t port_to_switch_hash_table;
/* Create two hash tables for a given port in order to allow
* an efficient search of service level on any route exiting
* from it */
if((NULL != ompi_common_ofacm_three_dim_torus) &&
(false == is_hash_table_initialized)){
rc = create_service_level_table_for_port(context->lid, &port_to_switch_hash_table,
&switch_to_switch_hash_table);
if(OMPI_SUCCESS != rc){
/* Failed to create service table for port */
return OMPI_ERROR;
}
is_hash_table_initialized = true;
}
/* Pick the Service Level of each route from the table */
if(is_hash_table_initialized){
rc = pick_service_level(context->lid, context->remote_info.rem_lid, &service_level,
&port_to_switch_hash_table, &switch_to_switch_hash_table);
if(OMPI_SUCCESS != rc){
/* Failed to retrieve service level on the route */
return OMPI_ERROR;
}
/*printf("Debug: qp_connect_all: lid %hu rem lid %hu num_qps %d SL %c\n", context->lid,
context->remote_info.rem_lid, context->num_of_qps, service_level);*/
}
for (i = 0; i < context->num_of_qps; i++) {
struct ibv_qp_attr attr;
struct ibv_qp* qp = context->qps[i].lcl_qp;
enum ibv_mtu mtu = (context->attr[i].path_mtu < context->remote_info.rem_mtu) ?
context->attr[i].path_mtu : context->remote_info.rem_mtu;
memset(&attr, 0, sizeof(attr));
memcpy(&attr, context->attr, sizeof(struct ibv_qp_attr));
attr.qp_state = IBV_QPS_RTR;
attr.path_mtu = mtu;
attr.dest_qp_num = context->remote_info.rem_qps[i].rem_qp_num;
attr.rq_psn = context->remote_info.rem_qps[i].rem_psn;
attr.ah_attr.dlid = context->remote_info.rem_lid;
if(is_hash_table_initialized){
attr.ah_attr.sl = service_level;
}
/* JMS to be filled in later dynamically */
attr.ah_attr.static_rate = 0;
rtr_mask = IBV_QP_STATE |
IBV_QP_AV |
IBV_QP_PATH_MTU |
IBV_QP_DEST_QPN |
IBV_QP_RQ_PSN |
IBV_QP_MAX_DEST_RD_ATOMIC |
IBV_QP_MIN_RNR_TIMER;
/* applying user specified rtr mask */
if (NULL != context->custom_rtr_attr_mask) {
rtr_mask |= context->custom_rtr_attr_mask[i];
}
OFACM_VERBOSE(("Set MTU to IBV value %d (%s bytes)", mtu,
(mtu == IBV_MTU_256) ? "256" :
(mtu == IBV_MTU_512) ? "512" :
(mtu == IBV_MTU_1024) ? "1024" :
(mtu == IBV_MTU_2048) ? "2048" :
(mtu == IBV_MTU_4096) ? "4096" :
"unknown (!)"));
if (ibv_modify_qp(qp, &attr, rtr_mask)) {
OFACM_ERROR(("Error modifing QP to RTR errno says %s",
strerror(errno)));
return OMPI_ERROR;
}
attr.qp_state = IBV_QPS_RTS;
/* On PP QPs we have SW flow control, no need for rnr retries. Setting
* it to zero helps to catch bugs */
/*
attr.rnr_retry = BTL_OPENIB_QP_TYPE_PP(i) ? 0 :
mca_btl_openib_component.ib_rnr_retry;
*/
attr.sq_psn = context->qps[i].lcl_psn;
rts_mask = IBV_QP_STATE |
IBV_QP_TIMEOUT |
IBV_QP_RETRY_CNT |
IBV_QP_RNR_RETRY |
IBV_QP_SQ_PSN |
IBV_QP_MAX_QP_RD_ATOMIC;
/* applying user specified rts mask */
if (NULL != context->custom_rts_attr_mask) {
rts_mask |= context->custom_rts_attr_mask[i];
}
if (ibv_modify_qp(qp, &attr, rts_mask)) {
OFACM_ERROR(("error modifying QP to RTS errno says %s",
strerror(errno)));
return OMPI_ERROR;
}
}
return OMPI_SUCCESS;
}
/*
* Create the local side of all the qp's. The remote sides will be
* connected later.
*/
static int qp_create_all(ompi_common_ofacm_base_local_connection_context_t* context)
{
int qp, rc;
for (qp = 0; qp < context->num_of_qps; ++qp) {
rc = qp_create_one(context, qp);
if (OMPI_SUCCESS != rc) {
return rc;
}
}
/* Now that all the qp's are created locally, post some receive
buffers, setup credits, etc. */
return context->prepare_recv_cb(context->user_context);
}
/*
* Create the local side of one qp. The remote side will be connected
* later.
*/
static int qp_create_one(ompi_common_ofacm_base_local_connection_context_t *context, int qp)
{
struct ibv_qp *my_qp;
struct ibv_qp_init_attr init_attr;
struct ibv_qp_attr attr;
size_t req_inline = context->init_attr[qp].cap.max_inline_data;
uint32_t init_mask = 0;
/* Taking default init attributes from user */
memcpy(&init_attr, &context->init_attr[qp], sizeof(init_attr));
my_qp = ibv_create_qp(context->ib_pd, &init_attr);
if (NULL == my_qp) {
OFACM_ERROR(("error creating qp errno says %s", strerror(errno)));
return OMPI_ERROR;
}
context->qps[qp].lcl_qp = my_qp;
if (init_attr.cap.max_inline_data < req_inline) {
context->qps[qp].ib_inline_max = init_attr.cap.max_inline_data;
ompi_show_help("help-mpi-common-ofacm-cpc-base.txt",
"inline truncated", true, ompi_process_info.nodename,
req_inline, init_attr.cap.max_inline_data);
} else {
context->qps[qp].ib_inline_max = req_inline;
}
/* Taking default attributes from user */
memcpy(&attr, &context->attr[qp], sizeof(attr));
attr.qp_state = IBV_QPS_INIT;
attr.qp_access_flags = IBV_ACCESS_REMOTE_WRITE | IBV_ACCESS_REMOTE_READ;
init_mask = IBV_QP_STATE |
IBV_QP_PKEY_INDEX |
IBV_QP_PORT |
IBV_QP_ACCESS_FLAGS;
/* apply user specified init mask */
if (NULL != context->custom_init_attr_mask) {
init_mask |= context->custom_init_attr_mask[qp];
}
if (ibv_modify_qp(context->qps[qp].lcl_qp,
&attr, init_mask)) {
OFACM_ERROR(("Error modifying qp to INIT errno says %s", strerror(errno)));
return OMPI_ERROR;
}
/* Setup meta data on the endpoint */
context->qps[qp].lcl_psn = lrand48() & 0xffffff;
return OMPI_SUCCESS;
}
/*
* RML send connect information to remote endpoint
*/
static int send_connect_data(ompi_common_ofacm_base_local_connection_context_t* context,
uint8_t message_type)
{
opal_buffer_t* buffer = OBJ_NEW(opal_buffer_t);
int rc;
if (NULL == buffer) {
OMPI_ERROR_LOG(OMPI_ERR_OUT_OF_RESOURCE);
return OMPI_ERR_OUT_OF_RESOURCE;
}
/* pack the info in the send buffer */
OFACM_VERBOSE(("packing %d of %d\n", 1, OPAL_UINT8));
OFACM_VERBOSE(("type %d\n", message_type));
rc = opal_dss.pack(buffer, &message_type, 1, OPAL_UINT8);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
return rc;
}
OFACM_VERBOSE(("packing %d of %d\n", 1, OPAL_UINT64));
rc = opal_dss.pack(buffer, &context->subnet_id, 1, OPAL_UINT64);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
return rc;
}
if (message_type != ENDPOINT_CONNECT_REQUEST) {
/* send the QP connect request info we respond to */
OFACM_VERBOSE(("packing %d of %d\n", 1, OPAL_UINT32));
rc = opal_dss.pack(buffer,
&context->remote_info.rem_qps[0].rem_qp_num, 1,
OPAL_UINT32);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
return rc;
}
OFACM_VERBOSE(("packing %d of %d\n", 1, OPAL_UINT16));
rc = opal_dss.pack(buffer, &context->remote_info.rem_lid, 1, OPAL_UINT16);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
return rc;
}
}
if (message_type != ENDPOINT_CONNECT_ACK) {
int qp;
/* send CM type/family */
OFACM_VERBOSE(("packing %d of %d\n", 1, OPAL_INT));
rc = opal_dss.pack(buffer, &context->cpc_type, 1, OPAL_INT);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
return rc;
}
/* Pasha: Send number of qp here. We don't must to send number of QPs here, BUT
* recv side callback code is pretty complicated and I don't want to touch
* it now. So best work around on this stage is send another 1byte with number of
* qps.
*/
OFACM_VERBOSE(("packing %d of %d\n", 1, OPAL_UINT8));
rc = opal_dss.pack(buffer, &context->num_of_qps, 1, OPAL_UINT8);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
return rc;
}
/* stuff all the QP info into the buffer */
for (qp = 0; qp < context->num_of_qps; qp++) {
OFACM_VERBOSE(("packing %d of %d\n", 1, OPAL_UINT32));
rc = opal_dss.pack(buffer, &context->qps[qp].lcl_qp->qp_num,
1, OPAL_UINT32);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
return rc;
}
OFACM_VERBOSE(("packing %d of %d\n", 1, OPAL_UINT32));
rc = opal_dss.pack(buffer, &context->qps[qp].lcl_psn, 1,
OPAL_UINT32);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
return rc;
}
}
OFACM_VERBOSE(("packing %d of %d\n", 1, OPAL_UINT16));
rc = opal_dss.pack(buffer, &context->lid, 1, OPAL_UINT16);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
return rc;
}
OFACM_VERBOSE(("packing %d of %d\n", 1, OPAL_UINT32));
rc = opal_dss.pack(buffer, &context->attr[0].path_mtu, 1,
OPAL_UINT32);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
return rc;
}
OFACM_VERBOSE(("packing %d of %d\n", 1, OPAL_UINT32));
rc = opal_dss.pack(buffer, &context->index, 1, OPAL_UINT32);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
return rc;
}
}
/* send to remote endpoint */
rc = ompi_rte_send_buffer_nb(&context->proc->proc_ompi->proc_name,
buffer, OMPI_RML_TAG_OFACM, 0,
rml_send_cb, NULL);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
return rc;
}
OFACM_VERBOSE(("Sent QP Info, LID = %d, SUBNET = %lx\n",
context->lid,
context->subnet_id));
return OMPI_SUCCESS;
}
static void report_error(ompi_common_ofacm_base_local_connection_context_t* context)
{
if (NULL == context || NULL == context->error_cb) {
/* The context is undefined and we can not print specific error */
ompi_show_help("help-mpi-common-ofacm-oob.txt",
"ofacm oob fatal error", true,
ompi_process_info.nodename,
__FILE__, __LINE__);
exit(1);
}
/* Other way, call to user error callback */
context->error_cb(context->user_context);
}
/*
* Callback when we have finished RML sending the connect data to a
* remote peer
*/
static void rml_send_cb(int status, ompi_process_name_t* endpoint,
opal_buffer_t* buffer, ompi_rml_tag_t tag,
void* cbdata)
{
OBJ_RELEASE(buffer);
}
/*
* Non blocking RML recv callback. Read incoming QP and other info,
* and if this endpoint is trying to connect, reply with our QP info,
* otherwise try to modify QP's and establish reliable connection
*/
static void rml_recv_cb(int status, ompi_process_name_t* process_name,
opal_buffer_t* buffer, ompi_rml_tag_t tag,
void* cbdata)
{
int context_state;
int rc;
uint32_t lcl_qp = 0;
uint16_t lcl_lid = 0;
int32_t cnt = 1;
ompi_common_ofacm_base_remote_connection_context_t remote_info;
ompi_common_ofacm_base_local_connection_context_t *l_context;
ompi_common_ofacm_base_proc_t *proc;
uint8_t message_type, num_qps;
int cpc_type;
opal_list_t *procs_list = &ompi_common_ofacm_oob.all_procs;
opal_list_t *context_list;
bool master;
/* start by unpacking data first so we know who is knocking at
our door */
OFACM_VERBOSE(("unpacking %d of %d\n", cnt, OPAL_UINT8));
rc = opal_dss.unpack(buffer, &message_type, &cnt, OPAL_UINT8);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
report_error(NULL);
return;
}
OFACM_VERBOSE(("unpacking %d of %d\n", cnt, OPAL_UINT64));
rc = opal_dss.unpack(buffer, &remote_info.rem_subnet_id, &cnt, OPAL_UINT64);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
report_error(NULL);
return;
}
if (ENDPOINT_CONNECT_REQUEST != message_type) {
OFACM_VERBOSE(("unpacking %d of %d\n", cnt, OPAL_UINT32));
rc = opal_dss.unpack(buffer, &lcl_qp, &cnt, OPAL_UINT32);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
report_error(NULL);
return;
}
OFACM_VERBOSE(("unpacking %d of %d\n", cnt, OPAL_UINT16));
rc = opal_dss.unpack(buffer, &lcl_lid, &cnt, OPAL_UINT16);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
report_error(NULL);
return;
}
}
if (ENDPOINT_CONNECT_ACK != message_type) {
int qp;
OFACM_VERBOSE(("unpacking %d of %d\n", cnt, OPAL_INT));
rc = opal_dss.unpack(buffer, &cpc_type, &cnt, OPAL_INT);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
report_error(NULL);
return;
}
/* Pasha: Reading number of qps, in original code we tool it from
* btl component. In future we may change order of operations here. We may start
* lookup for connection descriptor after receiving subnet_id and lid. But in order
* to do it here I need totally to rewrite the recv callback...next time ;)
*/
OFACM_VERBOSE(("unpacking %d of %d\n", cnt, OPAL_UINT8));
rc = opal_dss.unpack(buffer, &num_qps, &cnt, OPAL_UINT8);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
report_error(NULL);
return;
}
/* get ready for the data */
ompi_common_ofacm_base_remote_context_init(&remote_info,
num_qps, 0);
/* unpack all the qp info */
for (qp = 0; qp < num_qps; ++qp) {
OFACM_VERBOSE(("unpacking %d of %d\n", cnt, OPAL_UINT32));
rc = opal_dss.unpack(buffer, &remote_info.rem_qps[qp].rem_qp_num, &cnt,
OPAL_UINT32);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
report_error(NULL);
return;
}
OFACM_VERBOSE(("unpacking %d of %d\n", cnt, OPAL_UINT32));
rc = opal_dss.unpack(buffer, &remote_info.rem_qps[qp].rem_psn, &cnt,
OPAL_UINT32);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
report_error(NULL);
return;
}
}
OFACM_VERBOSE(("unpacking %d of %d\n", cnt, OPAL_UINT16));
rc = opal_dss.unpack(buffer, &remote_info.rem_lid, &cnt, OPAL_UINT16);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
report_error(NULL);
return;
}
OFACM_VERBOSE(("unpacking %d of %d\n", cnt, OPAL_UINT32));
rc = opal_dss.unpack(buffer, &remote_info.rem_mtu, &cnt, OPAL_UINT32);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
report_error(NULL);
return;
}
OFACM_VERBOSE(("unpacking %d of %d\n", cnt, OPAL_UINT32));
rc = opal_dss.unpack(buffer, &remote_info.rem_index, &cnt, OPAL_UINT32);
if (OMPI_SUCCESS != rc) {
OMPI_ERROR_LOG(rc);
report_error(NULL);
return;
}
}
OFACM_VERBOSE(("Received QP Info, LID = %d, SUBNET = %lx, CPC_TYPE = %d",
remote_info.rem_lid,
remote_info.rem_subnet_id,
cpc_type));
master = ompi_rte_compare_name_fields(OMPI_RTE_CMP_ALL, OMPI_PROC_MY_NAME,
process_name) >= 0 ? true : false;
for (proc = (ompi_common_ofacm_base_proc_t *)opal_list_get_first(procs_list);
proc != (ompi_common_ofacm_base_proc_t *)opal_list_get_end(procs_list);
proc = (ompi_common_ofacm_base_proc_t *)opal_list_get_next(proc)){
bool found = false;
if (ompi_rte_compare_name_fields(OMPI_RTE_CMP_ALL,
&proc->proc_ompi->proc_name,
process_name) != OPAL_EQUAL) {
continue;
}
context_list = &proc->all_contexts;
if (ENDPOINT_CONNECT_REQUEST != message_type) {
/* This is a reply message. Try to get the endpoint
instance the reply belongs to */
for (l_context = (ompi_common_ofacm_base_local_connection_context_t *)opal_list_get_first(context_list);
l_context != (ompi_common_ofacm_base_local_connection_context_t *)opal_list_get_end(context_list);
l_context = (ompi_common_ofacm_base_local_connection_context_t *)opal_list_get_next(l_context)) {
if (l_context->qps[0].lcl_qp != NULL &&
lcl_lid == l_context->lid &&
lcl_qp == l_context->qps[0].lcl_qp->qp_num &&
remote_info.rem_subnet_id == l_context->subnet_id) {
found = true;
break;
}
}
} else {
/* This is new connection request. If this is master try
to find endpoint in a connecting state. If this is
slave try to find endpoint in closed state and
initiate connection back */
ompi_common_ofacm_base_local_connection_context_t *context_found = NULL;
for (l_context = (ompi_common_ofacm_base_local_connection_context_t *)opal_list_get_first(context_list);
l_context != (ompi_common_ofacm_base_local_connection_context_t *)opal_list_get_end(context_list);
l_context = (ompi_common_ofacm_base_local_connection_context_t *)opal_list_get_next(l_context)) {
if (l_context->subnet_id != remote_info.rem_subnet_id ||
l_context->cpc_type != cpc_type ||
(l_context->state != MCA_COMMON_OFACM_CONNECTING
&& l_context->state != MCA_COMMON_OFACM_CLOSED))
continue;
found = true;
context_found = l_context;
if ((master &&
MCA_COMMON_OFACM_CONNECTING == l_context->state) ||
(!master &&
MCA_COMMON_OFACM_CLOSED == l_context->state))
break; /* Found one. No point to continue */
}
l_context = context_found;
/* if this is slave and there is no endpoints in closed
state then all connection are already in progress so
just ignore this connection request */
if (found && !master &&
MCA_COMMON_OFACM_CLOSED != l_context->state) {
return;
}
}
if (!found) {
OFACM_ERROR(("can't find suitable endpoint for this peer\n"));
report_error(NULL);
return;
}
OPAL_THREAD_LOCK(&l_context->context_lock);
context_state = l_context->state;
/* Update status */
switch (context_state) {
case MCA_COMMON_OFACM_CLOSED:
/* We had this connection closed before. The endpoint is
trying to connect. Move the status of this connection
to CONNECTING, and then reply with our QP
information */
if (master) {
rc = reply_start_connect(l_context, &remote_info);
} else {
rc = oob_module_start_connect(l_context);
}
if (OMPI_SUCCESS != rc) {
OFACM_ERROR(("error in endpoint reply start connect"));
report_error(l_context);
break;
}
/* As long as we expect a message from the peer (in order
to setup the connection) let the event engine pool the
RML events. Note: we increment it once peer active
connection. */
opal_progress_event_users_increment();
break;
case MCA_COMMON_OFACM_CONNECTING:
/* preparing remote info for this context */
ompi_common_ofacm_base_remote_context_init(&l_context->remote_info,
l_context->num_of_qps, 0);
/* need to check status here */
set_remote_info(l_context, &remote_info);
if (OMPI_SUCCESS != (rc = qp_connect_all(l_context))) {
OFACM_ERROR(("endpoint connect error: %d", rc));
report_error(l_context);
break;
}
if (master) {
l_context->state = MCA_COMMON_OFACM_WAITING_ACK;
/* Send him an ACK */
send_connect_data(l_context, ENDPOINT_CONNECT_RESPONSE);
} else {
send_connect_data(l_context, ENDPOINT_CONNECT_ACK);
/* Tell main BTL that we're done */
l_context->state = MCA_COMMON_OFACM_CONNECTED;
l_context->connect_cb(l_context->user_context);
}
break;
case MCA_COMMON_OFACM_WAITING_ACK:
/* Tell main BTL that we're done */
l_context->state = MCA_COMMON_OFACM_CONNECTED;
l_context->connect_cb(l_context->user_context);
break;
case MCA_COMMON_OFACM_CONNECT_ACK:
send_connect_data(l_context, ENDPOINT_CONNECT_ACK);
/* Tell main BTL that we're done */
l_context->state = MCA_COMMON_OFACM_CONNECTED;
l_context->connect_cb(l_context->user_context);
break;
case MCA_COMMON_OFACM_CONNECTED:
break;
default :
OFACM_ERROR(("Invalid endpoint state %d", context_state));
report_error(l_context);
}
OPAL_THREAD_UNLOCK(&l_context->context_lock);
break;
}
}
/*
* Get the service level on the route between
* source port LID and destination port LID.
* @Param src_port_lid - LID of the source port.
* @Param dst_port_lid - LID of destination port.
* @Param service_level - Returned value.
* The service level on the route between source port
* to destination port.
* @return - Error Code. Non Zero value on error.
*/
static int pick_service_level(uint16_t src_port_lid, uint16_t dst_port_lid, uint8_t* service_level,
opal_hash_table_t* port_to_switch_hash_table, opal_hash_table_t* switch_to_switch_hash_table)
{
uint8_t* sl;
uint16_t* dst_switch_lid;
void* p_src_switch_lid = NULL;
void* p_dst_switch_lid = NULL;
void* p_service_level = NULL;
int rc = OMPI_SUCCESS;
/* Get the switch LID connected tothe source HCA LID */
rc = opal_hash_table_get_value_ptr(port_to_switch_hash_table, &src_port_lid, sizeof(uint16_t), &p_src_switch_lid);
if(OMPI_SUCCESS != rc){
/* Could not find source port LID */
rc = OMPI_ERROR;
return rc;
}
/* Get the switch LID connected to the destination HCA LID */
rc = opal_hash_table_get_value_ptr(port_to_switch_hash_table, &dst_port_lid, sizeof(uint16_t), &p_dst_switch_lid);
if(OMPI_SUCCESS != rc){
/* Could not find destination port LID */
rc = OMPI_ERROR;
return rc;
}
dst_switch_lid = (uint16_t*)p_dst_switch_lid;
/* Get the service level of the route beween the source HCA LID and destination HCA LID */
rc = opal_hash_table_get_value_ptr(switch_to_switch_hash_table, dst_switch_lid, sizeof(uint16_t), &p_service_level);
if(OMPI_SUCCESS != rc){
/* Could not find destination switch LID in hashtable*/
rc = OMPI_ERROR;
return rc;
}
sl = (uint8_t*)p_service_level;
*service_level = *sl;
return rc;
}
/*
* Get the size of the port to switch hashtable from a file.
* @Params fp - Descriptor of the input file.
* @Param hash_table_size - Pointer to the size of
* the port to switch hashtable.
* @param head - pointer to a linked list containing
* the pairs to be stored in the hashtable.
* @return - Error code. Non zero value for failure.
*/
static int get_port_to_switch_hashtable_data_from_file(FILE* fp, int* hash_table_size, port_to_switch_lids** head)
{
int i;
char c;
int num_items;
int rc = OMPI_SUCCESS;
int ret = OMPI_SUCCESS;
uint64_t guid;
uint16_t port_lid;
uint16_t switch_lid;
uint16_t mtu, rate, lmc; /* TODO: Check binary representation */
int port_number;
port_to_switch_lids* item = NULL;
port_to_switch_lids* p_head = *head;
port_to_switch_lids* p_next_item = NULL;
char str[MAX_LINE_LEN] = "\0";
char input_str[NUM_OF_TOKENS][MAX_LINE_LEN] = {"\0"};
char expected_str[NUM_OF_TOKENS][MAX_LINE_LEN] = {"\0"};
c = fgetc(fp);
fseek(fp, -1, SEEK_CUR);
/* Init expected input strings */
strcpy(expected_str[0], "Channel");
strcpy(expected_str[1], "Adapter");
strcpy(expected_str[2], "base");
strcpy(expected_str[3], "LID");
strcpy(expected_str[4], "LMC");
strcpy(expected_str[5], "port");
/* Create list */
p_head = (port_to_switch_lids*)calloc(1, sizeof(port_to_switch_lids));
if(NULL == p_head){
rc = OMPI_ERR_OUT_OF_RESOURCE;
return rc;
}
*head = p_head;
/* Pre-process the port-to-switch table */
while(EOF != c)
{
ret = fscanf(fp, "%s %s %" PRIx64 " %c", input_str[0], input_str[1], &guid, &c);
ret += fscanf(fp, "%s %s %hx %c", input_str[2], input_str[3], &port_lid, &c);
ret += fscanf(fp, "%s %hu %c", input_str[4], &lmc, &c);
ret += fscanf(fp, "%s %s %d", input_str[6], input_str[5], &port_number);
if(14 != ret){
rc = OMPI_ERR_FILE_READ_FAILURE;
return rc;
}
for(i = 0; i < 6; i++)
{
/*if(strncmp(str, table_header, hash_table_header_size)){*/
if(strcmp(input_str[i], expected_str[i])){
/* Incorrect table header */
rc = OMPI_ERROR;
return rc;
}
}
c = fgetc(fp);
fgets(str, MAX_LINE_LEN, fp);
if(strncmp(str, "# LID : MTU : RATE", strlen(str) - 1)){
/* Incorrect table header */
rc = OMPI_ERROR;
return rc;
}
c = fgetc(fp);
fseek(fp, -1, SEEK_CUR);
/* Read next line */
fgets(str, MAX_LINE_LEN, fp);
/* Update the port to switch hashtable size if read valid data */
num_items = sscanf(str, "%hx %c %hu %c %hu", &switch_lid, &c, &mtu, &c, &rate);
if(5 == num_items){
(*hash_table_size)++;
}
else{
/* Wrong file format */
rc = OMPI_ERROR;
return rc;
}
/* Store port LID and switch LID */
item = calloc(1, sizeof(port_to_switch_lids));
if(NULL == item){
rc = OMPI_ERR_OUT_OF_RESOURCE;
return rc;
}
item->port_lid = port_lid;
item->switch_lid = switch_lid;
/* Insert the item to the head of the list */
p_next_item = p_head->next;
p_head->next = item;
item->next = p_next_item;
/* Get Next char */
c = fgetc(fp);
fseek(fp, -1, SEEK_CUR);
}
return rc;
}
/*
* Get from the input file the size of the
* switch-to-switch hashtable dedicated for
* the input switch LID.
* @Params fp - Descriptor of the input file.
* @Param switch_lid - the source switch local ID (LID).
* @Param hash_table_size - Pointer to the hashtable size.
* Value returned by this routine.
* @Param head - pointer to a linked list containing the pairs
* to be stored in the hashtable.
* @return - Error code. Non zero value for failure.
*/
static int get_switch_to_switch_hashtable_size_from_file(FILE* fp, uint16_t switch_lid, int* hash_table_size, switch_to_switch_sl** head)
{
int i;
char c;
int num_items;
int port;
uint64_t guid;
uint16_t source_lid;
uint16_t dest_lid;
int rc = OMPI_SUCCESS;
int ret = OMPI_SUCCESS;uint8_t service_level;
switch_to_switch_sl* item = NULL;
switch_to_switch_sl* p_head = NULL;
switch_to_switch_sl* p_next_item = NULL;
int table_offset = 0;
int offset_in_table = 0;
char str[MAX_LINE_LEN] = "\0";
char input_str[NUM_OF_TOKENS][MAX_LINE_LEN] = {"\0"};
char expected_str[NUM_OF_TOKENS][MAX_LINE_LEN] = {"\0"};
/* Init expected strings */
strcpy(expected_str[0], "Switch");
strcpy(expected_str[1], "base");
strcpy(expected_str[2], "LID");
strcpy(expected_str[3], "port");
/* Allocate empty list */
p_head = (switch_to_switch_sl*)calloc(1, sizeof(switch_to_switch_sl));
if(NULL == p_head){
rc = OMPI_ERR_OUT_OF_RESOURCE;
return rc;
}
*head = p_head;
c = fgetc(fp);
fseek(fp, -1, SEEK_CUR);
/* Read info */
while(EOF != c){
/* Go over the switch-to-switch routing tables until the requested
* table dedicated for the input switch_lid is found */
ret = fscanf(fp, "%s %" PRIx64 " %c", input_str[0], &guid, &c);
ret += fscanf(fp, "%s %s %hx %c", input_str[1], input_str[2], &source_lid, &c);
ret += fscanf(fp, "%s %s %d", input_str[4], input_str[3], &port);
c = fgetc(fp);
if(10 != ret)
{
rc = OMPI_ERR_FILE_READ_FAILURE;
return rc;
}
for(i = 0; i < 4; i++){
/* Validate the table header correctness */
if(strncmp(input_str[i], expected_str[i], strlen(input_str[i]))){
/* Incorrect table header */
rc = OMPI_ERROR;
return rc;
}
}
/* Get next line acording to the currect structure of the file */
fgets(str, MAX_LINE_LEN, fp);
if(strncmp(str, "# LID : SL : MTU : RATE", strlen(str) - 1)){
rc = OMPI_ERROR;
return rc;
}
/* Test if this is the requested table,
* dedicated for the input source switch lid */
if(source_lid != switch_lid){
/* Skip to next table */
while(EOF != c)
{
offset_in_table = ftell(fp);
fgets(str, MAX_LINE_LEN, fp);
if(!strncmp(str, "Switch", strlen("Switch"))){
/* Found new table found - start over */
fseek(fp, offset_in_table, SEEK_SET);
break;
}
/* Receive next charecter */
c = fgetc(fp);
fseek(fp, -1, SEEK_CUR);
}
if(EOF == c){
/* End-Of-File was met without
* finding the required routing table*/
rc = OMPI_ERROR;
}
}
else{
/* The right table was found */
while(EOF != c){
fgets(str, MAX_LINE_LEN, fp);
/* Test if a new table was found */
if(!strncmp(str, "Switch", strlen("Switch"))){
/* Quit the search - table was fully read */
return rc;
}
/* Still in the required switch route table */
else{
/* Check correcness of the data and update table size */
num_items = sscanf(str, "%hx %c %c", &dest_lid, &c, &service_level);
if(3 != num_items){
/* Failed to read input data / wrong input formate */
rc = OMPI_ERROR;
return rc;
}
(*hash_table_size)++;
/* Add the data to the list*/
item = (switch_to_switch_sl*)calloc(1, sizeof(switch_to_switch_sl));
if(NULL == item){
rc = OMPI_ERR_OUT_OF_RESOURCE;
return rc;
}
item->switch_lid = dest_lid;
item->service_level = service_level;
p_next_item = p_head->next;
p_head->next = item;
item->next = p_next_item;
}
/* Get next charecter */
c = fgetc(fp);
fseek(fp, -1, SEEK_CUR);
}
/* Set file descriptor to the beginning
* of the required table table */
fseek(fp, table_offset, SEEK_SET);
}
}
return rc;
}
/*
* Set port to switch hashtable according to data read from an input file.
* The hashtable Key is the port local ID (uint16_t).
* The hashtable Value is the local ID (uint16_t) of the switch connected to the port in the fabric.
*
* @Param hashtable - the hashtable to set.
* @Param hashtable_size - the number of hashtable elements.
* @Param head - Pointer to a linked list containing
* the pairs two be stored in the hashtable.
* @return - Error code. Non Zero value on error.
*/
static int set_port_to_switch_hash_table(opal_hash_table_t* hashtable, size_t hashtable_size, port_to_switch_lids** p_head)
{
int ret;
uint16_t key;
uint16_t* value = NULL;
unsigned int i;
int rc = OMPI_SUCCESS;
port_to_switch_lids* head = NULL;
port_to_switch_lids* p_item = NULL;
port_to_switch_lids* p_item_next = NULL;
if((NULL == p_head) || (NULL == *p_head)){
rc = OMPI_ERROR;
return rc;
}
head = *p_head;
for(i = 0; i < hashtable_size; i++){
/* Read pairs of port-lid and witch-lid from
* file and store them in the input hashtable */
value = (uint16_t*)calloc(1, sizeof(uint16_t));
if(NULL == value){
rc = OMPI_ERR_OUT_OF_RESOURCE;
return rc;
}
/* Get next pair to store */
p_item = head->next;
if(NULL == p_item){
rc = OMPI_ERROR;
return rc;
}
key = p_item->port_lid;
*value = p_item->switch_lid;
/* Remove item from list */
p_item_next = p_item->next;
head->next = p_item_next;
free(p_item);
/* Set the port to switch LIDS hashtable */
ret = opal_hash_table_set_value_ptr(hashtable, &key, sizeof(uint16_t), (void*)value);
if(OPAL_SUCCESS != ret){
OFACM_ERROR(("Failed to set port2switch hashtable\n"));
rc = OMPI_ERROR;
break;
}
}
free(*p_head);
*p_head = NULL;
return rc;
}
/*
* Set switch to switch hashtable according to data read from an input file.
* The hashtable Key is a switch local ID (uint16_t).
* The hashtable Value is the service level (uint8_t) of the route in the
* fabric between local switch LID (represented by key) and remote switch LID.
*
* @Param hashtable - The hashtable to set.
* @Param hashtable_size - The number of hashtable elements.
* @Param head - Pointer to a list of all the data
* pair to be inserted into the hashtable.
* @return - Error code. Non Zero value on error.
*/
static int set_switch_to_switch_hash_table(opal_hash_table_t* hashtable, size_t hashtable_size, switch_to_switch_sl** p_head)
{
uint16_t key; /* switch lid */
uint8_t* value = NULL;
unsigned int i;
int rc = OMPI_SUCCESS;
int ret = OMPI_SUCCESS;
switch_to_switch_sl* head = NULL;
switch_to_switch_sl* item = NULL;
switch_to_switch_sl* p_next_item = NULL;
if((NULL == p_head) || (NULL == *p_head)){
rc = OMPI_ERROR;
return rc;
}
head = *p_head;
/* Read pairs of remote switch (LID) and
* route service level (SL) from file
* and store the in the input hashtable */
for(i = 0; i < hashtable_size; i++)
{
value = (uint8_t*)calloc(1, sizeof(uint8_t));
if(NULL == value){
rc = OMPI_ERR_OUT_OF_RESOURCE;
return rc;
}
/* Get data from list */
item = head->next;
if(NULL == item){
rc = OMPI_ERROR;
return rc;
}
key = item->switch_lid;
*value = item->service_level;
/* Remove data item from list */
p_next_item = item->next;
head->next = p_next_item;
free(item);
ret = opal_hash_table_set_value_ptr(hashtable, &key, sizeof(uint16_t), value);
if(OPAL_SUCCESS != ret){
OFACM_ERROR(("Failed to set sw2sw hashtable\n"));
rc = OMPI_ERROR;
break;
}
}
free(*p_head);
*p_head = NULL;
return rc;
}
/*
* An efficient method that allows to find the service level of any
* any route from an input port to any other port in the fabric.
*
* Create two hashtables according to data read from an input file.
* The first table maps any port LID in the fabric to the LID of
* the switch it is connected to.
* The second table is dedicated to the switch LID to which the
* local port is connected.
*
* The table maps a remote switch LID to the service level
* of the route between the table's LID and this remote LID.
*
* @Param lid - the local ID of the port.
* @return - Error Code. Non Zero value in case of error.
*/
static int create_service_level_table_for_port(uint16_t lid, opal_hash_table_t* port_to_switch_hash_table,
opal_hash_table_t* switch_to_switch_hash_table)
{
FILE* fp = NULL;
uint16_t* switch_lid;
void* p_switch_lid = NULL;
int rc = OMPI_SUCCESS;
int ret = OMPI_SUCCESS;
int file_name_len;
char* switch_to_sl = NULL;
int port_to_switch_hash_table_size = 0;
int switch_to_switch_hash_table_size = 0;
port_to_switch_lids* port_switch_lids = NULL;
switch_to_switch_sl* switch_sl = NULL;
/* Open input configuration file */
fp = fopen(ompi_common_ofacm_three_dim_torus, "rt");
if(NULL == fp){
/* File Opening failed */
fprintf(stderr, "Failed to open the input file for the fabric's service level\n");
rc = OMPI_ERR_FILE_OPEN_FAILURE;
goto ERROR;
}
/* Get port-to-switch hashtable size */
rc = get_port_to_switch_hashtable_data_from_file(fp, &port_to_switch_hash_table_size, &port_switch_lids);
if(OMPI_SUCCESS != rc){
goto ERROR;
}
fclose(fp);
fp = NULL;
/* Build and initialize the port-to-swich hashtable */
OBJ_CONSTRUCT(port_to_switch_hash_table, opal_hash_table_t);
opal_hash_table_init(port_to_switch_hash_table, port_to_switch_hash_table_size);
/* Set the port-to-switch hashtable */
rc = set_port_to_switch_hash_table(port_to_switch_hash_table, port_to_switch_hash_table_size, &port_switch_lids);
if(OMPI_SUCCESS != rc){
goto ERROR;
}
/* Get the LID of the switch connected to the port's LID */
ret = opal_hash_table_get_value_ptr(port_to_switch_hash_table, &lid, sizeof(uint16_t), &p_switch_lid);
if(OPAL_SUCCESS != ret){
rc = OMPI_ERROR;
goto ERROR;
}
/* Open the file containing the mapping from switch-to-switch route to service level */
file_name_len = strlen(ompi_common_ofacm_three_dim_torus);
switch_to_sl = (char*)calloc(file_name_len + 7, sizeof(char));
if(NULL == switch_to_sl){
rc = OMPI_ERR_OUT_OF_RESOURCE;
goto ERROR;
}
/* Build the switch-to-switch file name based on the port-to-switch file name */
strncpy(switch_to_sl, ompi_common_ofacm_three_dim_torus,
strlen(ompi_common_ofacm_three_dim_torus) - strlen("peer-paths.dump") - 1);
strcat(switch_to_sl, "-sw2sw-path-records.dump");
/* Open path-to-SL file */
fp = fopen(switch_to_sl, "rt");
if(NULL == fp){
/* File Opening failed */
fprintf(stderr, "Failed to open the input file for the fabric's service level\n");
rc = OMPI_ERR_FILE_OPEN_FAILURE;
goto ERROR;
}
free(switch_to_sl);
switch_lid = (uint16_t*)p_switch_lid;
rc = get_switch_to_switch_hashtable_size_from_file(fp, *(uint16_t*)switch_lid,
&switch_to_switch_hash_table_size, &switch_sl);
if(OMPI_SUCCESS != rc){
goto ERROR;
}
fclose(fp);
fp = NULL;
/* Build and initialize the switch-to-switch hashtable */
OBJ_CONSTRUCT(switch_to_switch_hash_table, opal_hash_table_t);
opal_hash_table_init(switch_to_switch_hash_table, switch_to_switch_hash_table_size);
/* Set the switch-to-switch hashtable */
rc = set_switch_to_switch_hash_table(switch_to_switch_hash_table,
switch_to_switch_hash_table_size, &switch_sl);
if(OMPI_SUCCESS != rc){
goto ERROR;
}
/* Use: opal_hash_table_get_value_uint64 */
return OMPI_SUCCESS;
ERROR:
/* Close open files */
if(NULL != fp){
fclose(fp);
}
/* Release allocated resources */
if(NULL != port_switch_lids){
port_to_switch_lids* p_list = port_switch_lids;
port_to_switch_lids* p_item = NULL;
while(p_list->next != NULL){
p_item = p_list->next;
if(NULL != p_item){
p_list->next = p_item->next;
free(p_item);
}
}
free(p_list);
}
if(NULL != switch_sl){
switch_to_switch_sl* p_list = switch_sl;
switch_to_switch_sl* p_item = NULL;
while(p_list->next != NULL){
p_item = p_list->next;
if(NULL != p_item){
p_list->next = p_item->next;
free(p_item);
}
}
free(p_list);
}
return rc;
}