HardenedBSD/contrib/ofed/opensm/libvendor/osm_vendor_mtl.c
Hans Petter Selasky d6b92ffa99 OFED user-space import and update for use with Linux-4.9 compatible RDMA
kernel APIs.

List of sources used:

1) rdma-core was cloned from "https://github.com/linux-rdma/rdma-core.git"
Top commit d65138ef93af30b3ea249f3a84aa6a24ba7f8a75

2) OpenSM was cloned from git://git.openfabrics.org/~halr/opensm.git
Top commit 85f841cf209f791c89a075048a907020e924528d

3) libibmad was cloned from "git://git.openfabrics.org/~iraweiny/libibmad.git"
Tag 1.3.13 with some additional patches from Mellanox.

4) infiniband-diags was cloned from "git://git.openfabrics.org/~iraweiny/infiniband-diags.git"
Tag 1.6.7 with some additional patches from Mellanox.

Added the required Makefiles for building and installing.

Sponsored by:	Mellanox Technologies
2017-08-02 16:00:30 +00:00

1099 lines
32 KiB
C

/*
* Copyright (c) 2004-2008 Voltaire, Inc. All rights reserved.
* Copyright (c) 2002-2005 Mellanox Technologies LTD. All rights reserved.
* Copyright (c) 1996-2003 Intel Corporation. All rights reserved.
*
* This software is available to you under a choice of one of two
* licenses. You may choose to be licensed under the terms of the GNU
* General Public License (GPL) Version 2, available from the file
* COPYING in the main directory of this source tree, or the
* OpenIB.org BSD license below:
*
* Redistribution and use in source and binary forms, with or
* without modification, are permitted provided that the following
* conditions are met:
*
* - Redistributions of source code must retain the above
* copyright notice, this list of conditions and the following
* disclaimer.
*
* - Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*
*/
#if HAVE_CONFIG_H
# include <config.h>
#endif /* HAVE_CONFIG_H */
#ifdef OSM_VENDOR_INTF_MTL
#include <stdlib.h>
#include <string.h>
#include <opensm/osm_helper.h>
#include <opensm/osm_log.h>
/* HACK - I do not know how to prevent complib from loading kernel H files */
#undef __init
#include <vendor/osm_vendor_mtl.h>
#include <vendor/osm_vendor_api.h>
#include <opensm/osm_subnet.h>
#include <opensm/osm_opensm.h>
#include <vendor/osm_vendor_mtl_transaction_mgr.h>
#include <vendor/osm_mtl_bind.h>
/*
Since a race can accure on requests. Meaning - a response is received before
the send_callback is called - we will save both the madw_p and the fact
whether or not it is a response. A race can occure only on requests that did
not fail, and then the madw_p will be put back in the pool before the callback.
*/
uint64_t __osm_set_wrid_by_p_madw(IN osm_madw_t * p_madw)
{
uint64_t wrid = 0;
CL_ASSERT(p_madw->p_mad);
memcpy(&wrid, &p_madw, sizeof(osm_madw_t *));
wrid = (wrid << 1) |
ib_mad_is_response(p_madw->p_mad);
return wrid;
}
void
__osm_set_p_madw_and_resp_by_wrid(IN uint64_t wrid,
OUT uint8_t * is_resp,
OUT osm_madw_t ** pp_madw)
{
*is_resp = wrid & 0x0000000000000001;
wrid = wrid >> 1;
memcpy(pp_madw, &wrid, sizeof(osm_madw_t *));
}
/**********************************************************************
* IB_MGT to OSM ADDRESS VECTOR
**********************************************************************/
void
__osm_mtl_conv_ibmgt_rcv_desc_to_osm_addr(IN osm_vendor_t * const p_vend,
IN IB_MGT_mad_rcv_desc_t * p_rcv_desc,
IN uint8_t is_smi,
OUT osm_mad_addr_t * p_mad_addr)
{
/* p_mad_addr->dest_lid = p_osm->subn.sm_base_lid; - for resp we use the dest lid ... */
p_mad_addr->dest_lid = cl_hton16(p_rcv_desc->remote_lid);
p_mad_addr->static_rate = 0; /* HACK - we do not know the rate ! */
p_mad_addr->path_bits = p_rcv_desc->local_path_bits;
if (is_smi) {
/* SMI */
p_mad_addr->addr_type.smi.source_lid =
cl_hton16(p_rcv_desc->remote_lid);
p_mad_addr->addr_type.smi.port_num = 99; /* HACK - if used - should fail */
} else {
/* GSI */
/* seems to me there is a IBMGT bug reversing the QPN ... */
/* Does IBMGT supposed to provide the QPN is network or HOST ? */
p_mad_addr->addr_type.gsi.remote_qp = cl_hton32(p_rcv_desc->qp);
p_mad_addr->addr_type.gsi.remote_qkey = IB_QP1_WELL_KNOWN_Q_KEY;
/* we do have the p_mad_addr->pkey_ix but how to get the PKey by index ? */
/* the only way seems to be to use VAPI_query_hca_pkey_tbl and obtain */
/* the full PKey table - than go by the index. */
/* since this does not seem reasonable to me I simply use the default */
/* There is a TAVOR limitation that only one P_KEY is supported per */
/* QP - so QP1 must use IB_DEFAULT_PKEY */
p_mad_addr->addr_type.gsi.pkey_ix = 0;
p_mad_addr->addr_type.gsi.service_level = p_rcv_desc->sl;
p_mad_addr->addr_type.gsi.global_route = p_rcv_desc->grh_flag;
/* copy the GRH data if relevant */
if (p_mad_addr->addr_type.gsi.global_route) {
p_mad_addr->addr_type.gsi.grh_info.ver_class_flow =
ib_grh_set_ver_class_flow(p_rcv_desc->grh.
IP_version,
p_rcv_desc->grh.
traffic_class,
p_rcv_desc->grh.
flow_label);
p_mad_addr->addr_type.gsi.grh_info.hop_limit =
p_rcv_desc->grh.hop_limit;
memcpy(&p_mad_addr->addr_type.gsi.grh_info.src_gid.raw,
&p_rcv_desc->grh.sgid, sizeof(ib_net64_t));
memcpy(&p_mad_addr->addr_type.gsi.grh_info.dest_gid.raw,
p_rcv_desc->grh.dgid, sizeof(ib_net64_t));
}
}
}
/**********************************************************************
* OSM ADDR VECTOR TO IB_MGT
**********************************************************************/
void
__osm_mtl_conv_osm_addr_to_ibmgt_addr(IN osm_mad_addr_t * p_mad_addr,
IN uint8_t is_smi, OUT IB_ud_av_t * p_av)
{
/* For global destination or Multicast address: */
u_int8_t ver;
memset(p_av, 0, sizeof(IB_ud_av_t));
p_av->src_path_bits = p_mad_addr->path_bits;
p_av->static_rate = p_mad_addr->static_rate;
p_av->dlid = cl_ntoh16(p_mad_addr->dest_lid);
if (is_smi) {
p_av->sl = 0; /* Just to note we use 0 here. */
} else {
p_av->sl = p_mad_addr->addr_type.gsi.service_level;
p_av->grh_flag = p_mad_addr->addr_type.gsi.global_route;
if (p_mad_addr->addr_type.gsi.global_route) {
ib_grh_get_ver_class_flow(p_mad_addr->addr_type.gsi.
grh_info.ver_class_flow, &ver,
&p_av->traffic_class,
&p_av->flow_label);
p_av->hop_limit =
p_mad_addr->addr_type.gsi.grh_info.hop_limit;
p_av->sgid_index = 0; /* we always use source GID 0 */
memcpy(&p_av->dgid,
&p_mad_addr->addr_type.gsi.grh_info.dest_gid.raw,
sizeof(ib_net64_t));
}
}
}
void __osm_vendor_clear_sm(IN osm_bind_handle_t h_bind)
{
osm_mtl_bind_info_t *p_bind = (osm_mtl_bind_info_t *) h_bind;
osm_vendor_t *p_vend = p_bind->p_vend;
VAPI_ret_t status;
VAPI_hca_attr_t attr_mod;
VAPI_hca_attr_mask_t attr_mask;
OSM_LOG_ENTER(p_vend->p_log);
memset(&attr_mod, 0, sizeof(attr_mod));
memset(&attr_mask, 0, sizeof(attr_mask));
attr_mod.is_sm = FALSE;
attr_mask = HCA_ATTR_IS_SM;
status =
VAPI_modify_hca_attr(p_bind->hca_hndl, p_bind->port_num, &attr_mod,
&attr_mask);
if (status != VAPI_OK) {
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"__osm_vendor_clear_sm: ERR 3C21: "
"Unable set 'IS_SM' bit in port attributes (%d).\n",
status);
}
OSM_LOG_EXIT(p_vend->p_log);
}
/**********************************************************************
* ANY CONSTRUCTION OF THE osm_vendor_t OBJECT
**********************************************************************/
void osm_vendor_construct(IN osm_vendor_t * const p_vend)
{
memset(p_vend, 0, sizeof(*p_vend));
}
/**********************************************************************
* DEALOCATE osm_vendor_t
**********************************************************************/
void osm_vendor_destroy(IN osm_vendor_t * const p_vend)
{
osm_vendor_mgt_bind_t *vendor_mgt_bind_p;
IB_MGT_ret_t mgt_ret;
OSM_LOG_ENTER(p_vend->p_log);
if (p_vend->h_al != NULL) {
vendor_mgt_bind_p = (osm_vendor_mgt_bind_t *) p_vend->h_al;
if (vendor_mgt_bind_p->gsi_init) {
/* un register the class */
/* HACK WE ASSUME WE ONLY GOT SA CLASS REGISTERD ON GSI !!! */
mgt_ret =
IB_MGT_unbind_gsi_class(vendor_mgt_bind_p->
gsi_mads_hdl,
IB_MCLASS_SUBN_ADM);
if (mgt_ret != IB_MGT_OK) {
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_destroy: ERR 3C03: "
"Fail to unbind the SA class.\n");
}
/* un bind the handle */
if (IB_MGT_release_handle
(vendor_mgt_bind_p->gsi_mads_hdl) != IB_MGT_OK) {
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_destroy: ERR 3C02: "
"Fail to unbind the SA GSI handle.\n");
}
osm_log(p_vend->p_log, OSM_LOG_DEBUG,
"osm_vendor_destroy: DBG 1002: "
"Unbind the GSI handles.\n");
}
if (vendor_mgt_bind_p->smi_init) {
/* first - clear the IS_SM in the capability mask */
__osm_vendor_clear_sm((osm_bind_handle_t)
(vendor_mgt_bind_p->smi_p_bind));
/* un register the class */
mgt_ret =
IB_MGT_unbind_sm(vendor_mgt_bind_p->smi_mads_hdl);
if (mgt_ret != IB_MGT_OK) {
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_destroy: ERR 3C04: "
"Fail to unbind the SM class.\n");
}
/* un bind the handle */
if (IB_MGT_release_handle
(vendor_mgt_bind_p->smi_mads_hdl) != IB_MGT_OK) {
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_destroy: ERR 3C05: "
"Fail to unbind the SMI handle.\n");
}
osm_log(p_vend->p_log, OSM_LOG_DEBUG,
"osm_vendor_destroy: DBG 1003: "
"Unbind the SMI handles.\n");
}
}
osm_transaction_mgr_destroy(p_vend);
/* __osm_mtl_destroy_tid_mad_map( p_vend ); */
OSM_LOG_EXIT(p_vend->p_log);
}
/**********************************************************************
DEALLOCATE A POINTER TO osm_vendor_t
**********************************************************************/
void osm_vendor_delete(IN osm_vendor_t ** const pp_vend)
{
CL_ASSERT(pp_vend);
osm_vendor_destroy(*pp_vend);
free(*pp_vend);
*pp_vend = NULL;
}
/**********************************************************************
* This proc actuall binds the handle to the lower level.
*
* We might have here as a result a casting of our struct to the ib_al_handle_t
*
* Q: Do we need 2 of those - one for MSI and one for GSI ?
* A: Yes! We should be able to do the SA too. So we need a struct!
*
**********************************************************************/
ib_api_status_t
osm_vendor_init(IN osm_vendor_t * const p_vend,
IN osm_log_t * const p_log, IN const uint32_t timeout)
{
osm_vendor_mgt_bind_t *ib_mgt_hdl_p;
ib_api_status_t status = IB_SUCCESS;
OSM_LOG_ENTER(p_log);
p_vend->p_log = p_log;
/*
* HACK: We need no handle. Assuming the driver is up.
*/
ib_mgt_hdl_p = (osm_vendor_mgt_bind_t *)
malloc(sizeof(osm_vendor_mgt_bind_t));
if (ib_mgt_hdl_p == NULL) {
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_init: ERR 3C06: "
"Fail to allocate vendor mgt handle.\n");
goto Exit;
}
ib_mgt_hdl_p->smi_init = FALSE;
ib_mgt_hdl_p->gsi_init = FALSE;
/* cast it into the ib_al_handle_t h_al */
p_vend->h_al = (ib_al_handle_t) ib_mgt_hdl_p;
p_vend->p_transaction_mgr = NULL;
osm_transaction_mgr_init(p_vend);
/* p_vend->madw_by_tid_map_p = NULL; */
/* __osm_mtl_init_tid_mad_map( p_vend ); */
p_vend->timeout = timeout;
Exit:
OSM_LOG_EXIT(p_log);
return (status);
}
/**********************************************************************
* Create and Initialize osm_vendor_t Object
**********************************************************************/
osm_vendor_t *osm_vendor_new(IN osm_log_t * const p_log,
IN const uint32_t timeout)
{
ib_api_status_t status;
osm_vendor_t *p_vend;
OSM_LOG_ENTER(p_log);
CL_ASSERT(p_log);
p_vend = malloc(sizeof(*p_vend));
if (p_vend != NULL) {
memset(p_vend, 0, sizeof(*p_vend));
status = osm_vendor_init(p_vend, p_log, timeout);
if (status != IB_SUCCESS) {
osm_vendor_delete(&p_vend);
}
} else {
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_new: ERR 3C07: "
"Fail to allocate vendor object.\n");
}
OSM_LOG_EXIT(p_log);
return (p_vend);
}
/**********************************************************************
* IB_MGT RCV callback
*
**********************************************************************/
void
__osm_mtl_rcv_callback(IN IB_MGT_mad_hndl_t mad_hndl,
IN void *private_ctx_p,
IN void *payload_p,
IN IB_MGT_mad_rcv_desc_t * rcv_remote_info_p)
{
IB_MGT_ret_t status;
osm_mtl_bind_info_t *bind_info_p = private_ctx_p;
osm_madw_t *req_madw_p = NULL;
osm_madw_t *madw_p;
osm_vend_wrap_t *p_new_vw;
osm_mad_addr_t mad_addr;
ib_mad_t *mad_buf_p;
osm_log_t *const p_log = bind_info_p->p_vend->p_log;
OSM_LOG_ENTER(p_log);
/* if it is a response MAD we mustbe able to get the request */
if (ib_mad_is_response((ib_mad_t *) payload_p)) {
/* can we find a matching madw by this payload TID */
status =
osm_transaction_mgr_get_madw_for_tid(bind_info_p->p_vend,
(ib_mad_t *) payload_p,
&req_madw_p);
if (status != IB_MGT_OK) {
osm_log(p_log, OSM_LOG_ERROR,
"__osm_mtl_rcv_callback: ERR 3C08: "
"Error obtaining request madw by TID (%d).\n",
status);
req_madw_p = NULL;
}
if (req_madw_p == NULL) {
osm_log(p_log, OSM_LOG_ERROR,
"__osm_mtl_rcv_callback: ERR 3C09: "
"Fail to obtain request madw for received MAD.(method=%X attr=%X) Aborting CB.\n",
((ib_mad_t *) payload_p)->method,
cl_ntoh16(((ib_mad_t *) payload_p)->attr_id)
);
goto Exit;
}
}
/* do we have a request ??? */
if (req_madw_p == NULL) {
/* first arrange an address */
__osm_mtl_conv_ibmgt_rcv_desc_to_osm_addr(bind_info_p->p_vend,
rcv_remote_info_p,
(((ib_mad_t *)
payload_p)->
mgmt_class ==
IB_MCLASS_SUBN_LID)
|| (((ib_mad_t *)
payload_p)->
mgmt_class ==
IB_MCLASS_SUBN_DIR),
&mad_addr);
osm_log(p_log, OSM_LOG_ERROR,
"__osm_mtl_rcv_callback: : "
"Received MAD from QP:%X.\n",
cl_ntoh32(mad_addr.addr_type.gsi.remote_qp)
);
/* if not - get new osm_madw and arrange it. */
/* create the new madw in the pool */
madw_p = osm_mad_pool_get(bind_info_p->p_osm_pool,
(osm_bind_handle_t) bind_info_p,
MAD_BLOCK_SIZE, &mad_addr);
if (madw_p == NULL) {
osm_log(p_log, OSM_LOG_ERROR,
"__osm_mtl_rcv_callback: ERR 3C10: "
"Error request for a new madw.\n");
goto Exit;
}
/* HACK: we cust to avoid the const ??? */
mad_buf_p = (void *)madw_p->p_mad;
} else {
/* we have the madw defined during the send and stored in the vend_wrap */
/* we need to make sure the wrapper is correctly init there */
CL_ASSERT(req_madw_p->vend_wrap.p_resp_madw != 0);
madw_p = req_madw_p->vend_wrap.p_resp_madw;
/* HACK: we do not Support RMPP */
CL_ASSERT(madw_p->h_bind);
mad_buf_p =
osm_vendor_get(madw_p->h_bind, MAD_BLOCK_SIZE,
&madw_p->vend_wrap);
if (mad_buf_p == NULL) {
osm_log(p_log, OSM_LOG_ERROR,
"__osm_mtl_rcv_callback: ERR 3C11: "
"Unable to acquire wire MAD.\n");
goto Exit;
}
/*
Finally, attach the wire MAD to this wrapper.
*/
osm_madw_set_mad(madw_p, mad_buf_p);
/* also we need to handle the size of the mad since we did not init ... */
madw_p->mad_size = MAD_BLOCK_SIZE;
}
/* init some fields of the vendor wrapper */
p_new_vw = osm_madw_get_vend_ptr(madw_p);
p_new_vw->h_bind = bind_info_p;
p_new_vw->size = MAD_BLOCK_SIZE;
p_new_vw->p_resp_madw = NULL;
p_new_vw->mad_buf_p = mad_buf_p;
/* HACK: We do not support RMPP in receiving MADS */
memcpy(p_new_vw->mad_buf_p, payload_p, MAD_BLOCK_SIZE);
/* attach the buffer to the wrapper */
madw_p->p_mad = mad_buf_p;
/* we can also make sure we marked the size and bind on the returned madw */
madw_p->h_bind = p_new_vw->h_bind;
/* call the CB */
(*bind_info_p->rcv_callback) (madw_p, bind_info_p->client_context,
req_madw_p);
Exit:
OSM_LOG_EXIT(p_log);
}
/**********************************************************************
* IB_MGT Send callback : invoked after each send
*
**********************************************************************/
void
__osm_mtl_send_callback(IN IB_MGT_mad_hndl_t mad_hndl,
IN u_int64_t wrid,
IN IB_comp_status_t status, IN void *private_ctx_p)
{
osm_madw_t *madw_p;
osm_mtl_bind_info_t *bind_info_p =
(osm_mtl_bind_info_t *) private_ctx_p;
osm_log_t *const p_log = bind_info_p->p_vend->p_log;
osm_vend_wrap_t *p_vw;
uint8_t is_resp;
OSM_LOG_ENTER(p_log);
/* obtain the madp from the wrid */
__osm_set_p_madw_and_resp_by_wrid(wrid, &is_resp, &madw_p);
osm_log(p_log, OSM_LOG_DEBUG,
"__osm_mtl_send_callback: INFO 1008: "
"Handling Send of MADW:%p Is Resp:%d.\n", madw_p, is_resp);
/* we need to handle requests and responses differently */
if (is_resp) {
if (status != IB_COMP_SUCCESS) {
osm_log(p_log, OSM_LOG_ERROR,
"__osm_mtl_send_callback: ERR 3C12: "
"Error Sending Response MADW:%p.\n", madw_p);
} else {
osm_log(p_log, OSM_LOG_DEBUG,
"__osm_mtl_send_callback: DBG 1008: "
"Completed Sending Response MADW:%p.\n",
madw_p);
}
/* if we are a response - we need to clean it up */
osm_mad_pool_put(bind_info_p->p_osm_pool, madw_p);
} else {
/* this call back is invoked on completion of send - error or not */
if (status != IB_COMP_SUCCESS) {
osm_log(p_log, OSM_LOG_ERROR,
"__osm_mtl_send_callback: ERR 3C13: "
"Received an Error from IB_MGT Send (%d).\n",
status);
p_vw = osm_madw_get_vend_ptr(madw_p);
CL_ASSERT(p_vw);
/*
Return any wrappers to the pool that may have been
pre-emptively allocated to handle a receive.
*/
if (p_vw->p_resp_madw) {
osm_mad_pool_put(bind_info_p->p_osm_pool,
p_vw->p_resp_madw);
p_vw->p_resp_madw = NULL;
}
/* invoke the CB */
(*bind_info_p->send_err_callback) (bind_info_p->
client_context,
madw_p);
} else {
/* successful request send - do nothing - the response will need the
out mad */
osm_log(p_log, OSM_LOG_DEBUG,
"__osm_mtl_send_callback: DBG 1008: "
"Completed Sending Request MADW:%p.\n", madw_p);
}
}
OSM_LOG_EXIT(p_log);
}
/**********************************************************************
* BINDs a callback (rcv and send error) for a given class and method
* defined by the given: osm_bind_info_t
**********************************************************************/
osm_bind_handle_t
osm_vendor_bind(IN osm_vendor_t * const p_vend,
IN osm_bind_info_t * const p_user_bind,
IN osm_mad_pool_t * const p_mad_pool,
IN osm_vend_mad_recv_callback_t mad_recv_callback,
IN osm_vend_mad_send_err_callback_t send_err_callback,
IN void *context)
{
ib_net64_t port_guid;
osm_mtl_bind_info_t *p_bind = NULL;
VAPI_hca_hndl_t hca_hndl;
VAPI_hca_id_t hca_id;
IB_MGT_mad_type_t mad_type;
uint32_t port_num;
osm_vendor_mgt_bind_t *ib_mgt_hdl_p;
IB_MGT_ret_t mgt_ret;
OSM_LOG_ENTER(p_vend->p_log);
CL_ASSERT(p_user_bind);
CL_ASSERT(p_mad_pool);
CL_ASSERT(mad_recv_callback);
CL_ASSERT(send_err_callback);
/* cast back the AL handle to vendor mgt bind */
ib_mgt_hdl_p = (osm_vendor_mgt_bind_t *) p_vend->h_al;
port_guid = p_user_bind->port_guid;
osm_log(p_vend->p_log, OSM_LOG_INFO,
"osm_vendor_bind: "
"Binding to port 0x%" PRIx64 ".\n", cl_ntoh64(port_guid));
/* obtain the hca name and port num from the guid */
osm_log(p_vend->p_log, OSM_LOG_DEBUG,
"osm_vendor_bind: "
"Finding CA and Port that owns port guid 0x%" PRIx64 ".\n",
port_guid);
mgt_ret =
osm_vendor_get_guid_ca_and_port(p_vend, port_guid, &hca_hndl,
&hca_id, &port_num);
if (mgt_ret != IB_MGT_OK) {
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_bind: ERR 3C14: "
"Unable to obtain CA and port (%d).\n");
goto Exit;
}
/* create the bind object tracking this binding */
p_bind = (osm_mtl_bind_info_t *) malloc(sizeof(osm_mtl_bind_info_t));
memset(p_bind, 0, sizeof(osm_mtl_bind_info_t));
if (p_bind == NULL) {
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_bind: ERR 3C15: "
"Unable to allocate internal bind object.\n");
goto Exit;
}
/* track this bind request info */
memcpy(p_bind->hca_id, hca_id, sizeof(VAPI_hca_id_t));
p_bind->port_num = port_num;
p_bind->p_vend = p_vend;
p_bind->client_context = context;
p_bind->rcv_callback = mad_recv_callback;
p_bind->send_err_callback = send_err_callback;
p_bind->p_osm_pool = p_mad_pool;
CL_ASSERT(p_bind->port_num);
/*
* Get the proper CLASS
*/
switch (p_user_bind->mad_class) {
case IB_MCLASS_SUBN_LID:
case IB_MCLASS_SUBN_DIR:
mad_type = IB_MGT_SMI;
break;
case IB_MCLASS_SUBN_ADM:
default:
mad_type = IB_MGT_GSI;
break;
}
/* we split here - based on the type of MADS GSI / SMI */
/* HACK: we only support one class registration per SMI/GSI !!! */
if (mad_type == IB_MGT_SMI) {
/*
* SMI CASE
*/
/* we do not need to bind the handle if already available */
if (ib_mgt_hdl_p->smi_init == FALSE) {
/* First we have to reg and get the handle for the mad */
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_bind: "
"Binding to IB_MGT SMI of %s port %u\n", hca_id,
port_num);
mgt_ret =
IB_MGT_get_handle(hca_id, port_num, IB_MGT_SMI,
&(ib_mgt_hdl_p->smi_mads_hdl));
if (IB_MGT_OK != mgt_ret) {
free(p_bind);
p_bind = NULL;
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_bind: ERR 3C16: "
"Error obtaining IB_MGT handle to SMI.\n");
goto Exit;
}
/* bind it */
mgt_ret = IB_MGT_bind_sm(ib_mgt_hdl_p->smi_mads_hdl);
if (IB_MGT_OK != mgt_ret) {
free(p_bind);
p_bind = NULL;
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_bind: ERR 3C17: "
"Error binding IB_MGT handle to SM.\n");
goto Exit;
}
ib_mgt_hdl_p->smi_init = TRUE;
}
/* attach to this bind info */
p_bind->mad_hndl = ib_mgt_hdl_p->smi_mads_hdl;
ib_mgt_hdl_p->smi_p_bind = p_bind;
/* now register the callback */
mgt_ret = IB_MGT_reg_cb(p_bind->mad_hndl,
&__osm_mtl_rcv_callback,
p_bind,
&__osm_mtl_send_callback,
p_bind,
IB_MGT_RCV_CB_MASK |
IB_MGT_SEND_CB_MASK);
} else {
/*
* GSI CASE
*/
if (ib_mgt_hdl_p->gsi_init == FALSE) {
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_bind: " "Binding to IB_MGT GSI\n");
/* First we have to reg and get the handle for the mad */
mgt_ret =
IB_MGT_get_handle(hca_id, port_num, IB_MGT_GSI,
&(ib_mgt_hdl_p->gsi_mads_hdl));
if (IB_MGT_OK != mgt_ret) {
free(p_bind);
p_bind = NULL;
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_bind: ERR 3C20: "
"Error obtaining IB_MGT handle to GSI.\n");
goto Exit;
}
/* bind it */
mgt_ret =
IB_MGT_bind_gsi_class(ib_mgt_hdl_p->gsi_mads_hdl,
p_user_bind->mad_class);
if (IB_MGT_OK != mgt_ret) {
free(p_bind);
p_bind = NULL;
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_bind: ERR 3C22: "
"Error binding IB_MGT handle to GSI.\n");
goto Exit;
}
ib_mgt_hdl_p->gsi_init = TRUE;
/* attach to this bind info */
p_bind->mad_hndl = ib_mgt_hdl_p->gsi_mads_hdl;
/* now register the callback */
mgt_ret = IB_MGT_reg_cb(p_bind->mad_hndl,
&__osm_mtl_rcv_callback,
p_bind,
&__osm_mtl_send_callback,
p_bind,
IB_MGT_RCV_CB_MASK |
IB_MGT_SEND_CB_MASK);
} else {
/* we can use the existing handle */
p_bind->mad_hndl = ib_mgt_hdl_p->gsi_mads_hdl;
mgt_ret = IB_MGT_OK;
}
}
if (IB_MGT_OK != mgt_ret) {
free(p_bind);
p_bind = NULL;
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_bind: ERR 3C23: "
"Error binding IB_MGT CB (%d).\n", mgt_ret);
goto Exit;
}
/* HACK: Do we need to initialize an address vector ???? */
Exit:
OSM_LOG_EXIT(p_vend->p_log);
return ((osm_bind_handle_t) p_bind);
}
/**********************************************************************
Get a mad from the lower level.
The osm_vend_wrap_t is a wrapper used to connect the mad to the response.
**********************************************************************/
ib_mad_t *osm_vendor_get(IN osm_bind_handle_t h_bind,
IN const uint32_t mad_size,
IN osm_vend_wrap_t * const p_vw)
{
ib_mad_t *mad_p;
osm_mtl_bind_info_t *p_bind = (osm_mtl_bind_info_t *) h_bind;
osm_vendor_t *p_vend = p_bind->p_vend;
OSM_LOG_ENTER(p_vend->p_log);
CL_ASSERT(p_vw);
/* HACK: We know we can not send through IB_MGT */
CL_ASSERT(mad_size <= MAD_BLOCK_SIZE);
/* IB_MGT assumes it is 256 - we must follow */
p_vw->size = MAD_BLOCK_SIZE;
/* allocate it */
mad_p = (ib_mad_t *) malloc(p_vw->size);
if (mad_p == NULL) {
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_get: ERR 3C24: "
"Error Obtaining MAD buffer.\n");
goto Exit;
}
memset(mad_p, 0, p_vw->size);
/* track locally */
p_vw->mad_buf_p = mad_p;
p_vw->h_bind = h_bind;
p_vw->p_resp_madw = NULL;
if (osm_log_get_level(p_vend->p_log) >= OSM_LOG_DEBUG) {
osm_log(p_vend->p_log, OSM_LOG_DEBUG,
"osm_vendor_get: "
"Acquired MAD %p, size = %u.\n", mad_p, p_vw->size);
}
Exit:
OSM_LOG_EXIT(p_vend->p_log);
return (mad_p);
}
/**********************************************************************
* Return a MAD by providing it's wrapper object.
**********************************************************************/
void
osm_vendor_put(IN osm_bind_handle_t h_bind, IN osm_vend_wrap_t * const p_vw)
{
osm_mtl_bind_info_t *p_bind = (osm_mtl_bind_info_t *) h_bind;
osm_vendor_t *p_vend = p_bind->p_vend;
osm_madw_t *p_madw;
OSM_LOG_ENTER(p_vend->p_log);
CL_ASSERT(p_vw);
CL_ASSERT(p_vw->mad_buf_p);
if (osm_log_get_level(p_vend->p_log) >= OSM_LOG_DEBUG) {
osm_log(p_vend->p_log, OSM_LOG_DEBUG,
"osm_vendor_put: " "Retiring MAD %p.\n",
p_vw->mad_buf_p);
}
/*
* We moved the removal of the transaction to immediatly after
* it was looked up.
*/
/* free the mad but the wrapper is part of the madw object */
free(p_vw->mad_buf_p);
p_vw->mad_buf_p = NULL;
p_madw = PARENT_STRUCT(p_vw, osm_madw_t, vend_wrap);
p_madw->p_mad = NULL;
OSM_LOG_EXIT(p_vend->p_log);
}
/**********************************************************************
Actually Send a MAD
This is for internal use by osm_vendor_send and the transaction mgr
retry too.
**********************************************************************/
ib_api_status_t
osm_mtl_send_mad(IN osm_mtl_bind_info_t * p_bind, IN osm_madw_t * const p_madw)
{
osm_vendor_t *const p_vend = p_bind->p_vend;
osm_vend_wrap_t *const p_vw = osm_madw_get_vend_ptr(p_madw);
osm_mad_addr_t *const p_mad_addr = osm_madw_get_mad_addr_ptr(p_madw);
ib_mad_t *const p_mad = osm_madw_get_mad_ptr(p_madw);
ib_api_status_t status;
IB_MGT_ret_t mgt_res;
IB_ud_av_t av;
uint64_t wrid;
uint32_t qpn;
OSM_LOG_ENTER(p_vend->p_log);
/*
* For all sends other than directed route SM MADs,
* acquire an address vector for the destination.
*/
if (p_mad->mgmt_class != IB_MCLASS_SUBN_DIR) {
__osm_mtl_conv_osm_addr_to_ibmgt_addr(p_mad_addr,
p_mad->mgmt_class ==
IB_MCLASS_SUBN_LID, &av);
} else {
/* is a directed route - we need to construct a permissive address */
memset(&av, 0, sizeof(av));
/* we do not need port number since it is part of the mad_hndl */
av.dlid = IB_LID_PERMISSIVE;
}
wrid = __osm_set_wrid_by_p_madw(p_madw);
/* send it */
if ((p_mad->mgmt_class == IB_MCLASS_SUBN_DIR) ||
(p_mad->mgmt_class == IB_MCLASS_SUBN_LID)) {
/* SMI CASE */
if (osm_log_is_active(p_vend->p_log, OSM_LOG_DEBUG)) {
osm_log(p_vend->p_log, OSM_LOG_DEBUG,
"osm_mtl_send_mad: "
"av.dlid 0x%X, "
"av.static_rate %d, "
"av.path_bits %d.\n",
cl_ntoh16(av.dlid), av.static_rate,
av.src_path_bits);
}
mgt_res = IB_MGT_send_mad(p_bind->mad_hndl, p_mad, /* actual payload */
&av, /* address vector */
wrid, /* casting the mad wrapper pointer for err cb */
p_vend->timeout);
} else {
/* GSI CASE - Support Remote QP */
if (osm_log_is_active(p_vend->p_log, OSM_LOG_DEBUG)) {
osm_log(p_vend->p_log, OSM_LOG_DEBUG,
"osm_mtl_send_mad: "
"av.dlid 0x%X, av.static_rate %d, "
"av.path_bits %d, remote qp: 0x%06X \n",
av.dlid,
av.static_rate,
av.src_path_bits,
cl_ntoh32(p_mad_addr->addr_type.gsi.remote_qp)
);
}
/* IBMGT have a bug sending to a QP not 1 -
the QPN must be in network order except when it qpn 1 ... */
qpn = cl_ntoh32(p_mad_addr->addr_type.gsi.remote_qp);
mgt_res = IB_MGT_send_mad_to_qp(p_bind->mad_hndl, p_mad, /* actual payload */
&av, /* address vector */
wrid, /* casting the mad wrapper pointer for err cb */
p_vend->timeout, qpn);
}
if (mgt_res != IB_MGT_OK) {
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_mtl_send_mad: ERR 3C26: "
"Error sending mad (%d).\n", mgt_res);
if (p_vw->p_resp_madw)
osm_mad_pool_put(p_bind->p_osm_pool, p_vw->p_resp_madw);
status = IB_ERROR;
goto Exit;
}
status = IB_SUCCESS;
Exit:
OSM_LOG_EXIT(p_vend->p_log);
return (status);
}
/**********************************************************************
Send a MAD through.
What is unclear to me is the need for the setting of all the MAD Wrapper
fields. Seems like the OSM uses these values during it's processing...
**********************************************************************/
ib_api_status_t
osm_vendor_send(IN osm_bind_handle_t h_bind,
IN osm_madw_t * const p_madw, IN boolean_t const resp_expected)
{
osm_mtl_bind_info_t *const p_bind = (osm_mtl_bind_info_t *) h_bind;
osm_vendor_t *const p_vend = p_bind->p_vend;
osm_vend_wrap_t *const p_vw = osm_madw_get_vend_ptr(p_madw);
ib_api_status_t status;
OSM_LOG_ENTER(p_vend->p_log);
/*
* If a response is expected to this MAD, then preallocate
* a mad wrapper to contain the wire MAD received in the
* response. Allocating a wrapper here allows for easier
* failure paths than after we already received the wire mad.
*/
if (resp_expected == TRUE) {
/* we track it in the vendor wrapper */
p_vw->p_resp_madw =
osm_mad_pool_get_wrapper_raw(p_bind->p_osm_pool);
if (p_vw->p_resp_madw == NULL) {
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_send: ERR 3C27: "
"Unable to allocate MAD wrapper.\n");
status = IB_INSUFFICIENT_RESOURCES;
goto Exit;
}
/* put some minimal info on that wrapper */
((osm_madw_t *) (p_vw->p_resp_madw))->h_bind = h_bind;
/* we also want to track it in the TID based map */
status = osm_transaction_mgr_insert_madw((osm_bind_handle_t)
p_bind, p_madw);
if (status != IB_SUCCESS) {
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_send: ERR 3C25: "
"Error inserting request madw by TID (%d).\n",
status);
}
} else
p_vw->p_resp_madw = NULL;
/* do the actual send */
status = osm_mtl_send_mad(p_bind, p_madw);
Exit:
OSM_LOG_EXIT(p_vend->p_log);
return (status);
}
/**********************************************************************
* the idea here is to change the content of the bind such that it
* will hold the local address used for sending directed route by the SMA.
**********************************************************************/
ib_api_status_t osm_vendor_local_lid_change(IN osm_bind_handle_t h_bind)
{
osm_vendor_t *p_vend = ((osm_mtl_bind_info_t *) h_bind)->p_vend;
OSM_LOG_ENTER(p_vend->p_log);
osm_log(p_vend->p_log, OSM_LOG_DEBUG,
"osm_vendor_local_lid_change: DEBUG 2202: " "Change of LID.\n");
OSM_LOG_EXIT(p_vend->p_log);
return (IB_SUCCESS);
}
void osm_vendor_set_sm(IN osm_bind_handle_t h_bind, IN boolean_t is_sm_val)
{
osm_mtl_bind_info_t *p_bind = (osm_mtl_bind_info_t *) h_bind;
osm_vendor_t *p_vend = p_bind->p_vend;
VAPI_ret_t status;
VAPI_hca_attr_t attr_mod;
VAPI_hca_attr_mask_t attr_mask;
OSM_LOG_ENTER(p_vend->p_log);
memset(&attr_mod, 0, sizeof(attr_mod));
memset(&attr_mask, 0, sizeof(attr_mask));
attr_mod.is_sm = is_sm_val;
attr_mask = HCA_ATTR_IS_SM;
status =
VAPI_modify_hca_attr(p_bind->hca_hndl, p_bind->port_num, &attr_mod,
&attr_mask);
if (status != VAPI_OK) {
osm_log(p_vend->p_log, OSM_LOG_ERROR,
"osm_vendor_set_sm: ERR 3C28: "
"Unable set 'IS_SM' bit to:%u in port attributes (%d).\n",
is_sm_val, status);
}
OSM_LOG_EXIT(p_vend->p_log);
}
void osm_vendor_set_debug(IN osm_vendor_t * const p_vend, IN int32_t level)
{
}
#endif /* OSM_VENDOR_INTF_TEST */