xref: /titanic_50/usr/src/uts/common/sys/ib/ibtl/ibci.h (revision 9acbbeaf2a1ffe5c14b244867d427714fab43c5c)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*
23  * Copyright 2005 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #ifndef	_SYS_IB_IBTL_IBCI_H
28 #define	_SYS_IB_IBTL_IBCI_H
29 
30 #pragma ident	"%Z%%M%	%I%	%E% SMI"
31 
32 /*
33  * ibci.h
34  *
35  * Define the data structures and function prototypes that comprise
36  * the IB Channel API (API for HCA drivers).  All CI handles are opaque
37  * to the IBTF here, real data is accessed in the HCA driver by a
38  * typecast to a driver specific struct.
39  */
40 
41 #include <sys/ib/ibtl/ibtl_types.h>
42 #include <sys/ib/ibtl/ibtl_ci_types.h>
43 #include <sys/modctl.h>
44 
45 
46 #ifdef	__cplusplus
47 extern "C" {
48 #endif
49 
50 /*
51  * Define CI opaque IBTF handles.
52  */
53 typedef	struct	ibtl_qp_s	*ibtl_qp_hdl_t;		/* ibt_alloc_qp() */
54 typedef struct	ibtl_eec_s	*ibtl_eec_hdl_t;	/* ibt_alloc_eec() */
55 
56 /*
57  * Define IBTF opaque CI handles.
58  */
59 typedef struct ibc_hca_s	*ibc_hca_hdl_t; /* HCA/CI Handle */
60 typedef struct ibc_pd_s		*ibc_pd_hdl_t;	/* Protection Domain Handle */
61 typedef	struct ibc_rdd_s	*ibc_rdd_hdl_t;	/* Reliable Datagram Domain */
62 typedef struct ibc_ah_s		*ibc_ah_hdl_t;	/* Address Handle */
63 typedef struct ibc_qp_s		*ibc_qp_hdl_t;	/* Queue Pair Handle */
64 typedef struct ibc_srq_s	*ibc_srq_hdl_t;	/* Shared Receive Queue Hdl */
65 typedef struct ibc_qpn_s	*ibc_qpn_hdl_t;	/* Queue Pair Number Handle */
66 typedef struct ibc_cq_s		*ibc_cq_hdl_t;	/* Completion Queue Handle */
67 typedef struct ibc_eec_s	*ibc_eec_hdl_t; /* End-to-End Context Handle */
68 
69 #define	ibc_fmr_pool_hdl_t	ibt_fmr_pool_hdl_t /* FMR Pool Handle */
70 #define	ibc_mr_hdl_t	ibt_mr_hdl_t	/* Memory Region Handle */
71 #define	ibc_mw_hdl_t	ibt_mw_hdl_t	/* Memory Window Handle */
72 #define	ibc_ma_hdl_t	ibt_ma_hdl_t	/* Memory Area Handle */
73 
74 /* Handle used by CI for up calls to IBTF */
75 typedef struct ibtl_hca_devinfo_s *ibc_clnt_hdl_t;	/* ibc_attach() */
76 
77 /*
78  * Fields opaque to TI, but visible to CI
79  */
80 
81 /*
82  * ibt_qp_alloc_attr_t
83  */
84 #define	qp_ibc_scq_hdl	qp_opaque1
85 #define	qp_ibc_rcq_hdl	qp_opaque2
86 #define	qp_ibc_srq_hdl	qp_opaque3
87 
88 
89 /*
90  * ibt_status_t
91  */
92 #define	IBT_HCA_RAWD_CHAN_EXCEEDED	IBT_ERR_OPAQUE1	/* Requested raw QP */
93 							/* exceeds HCA max */
94 							/* limit */
95 #define	IBT_CHAN_RAWD_NOT_SUPPORTED	IBT_ERR_OPAQUE2	/* Raw datagram QPs */
96 							/* not supported */
97 #define	IBT_CHAN_RD_NOT_SUPPORTED	IBT_ERR_OPAQUE3	/* RD not supported */
98 #define	IBT_EEC_HDL_INVALID		IBT_ERR_OPAQUE4	/* Invalid EEC handle */
99 #define	IBT_EEC_STATE_INVALID		IBT_ERR_OPAQUE5	/* Invalid EEC State */
100 #define	IBT_EEC_ATTR_RO			IBT_ERR_OPAQUE6	/* Can't Change EEC */
101 							/* Attribute */
102 #define	IBT_RDD_IN_USE			IBT_ERR_OPAQUE7	/* RDD in Use */
103 #define	IBT_RDD_HDL_INVALID		IBT_ERR_OPAQUE8	/* Invalid RDD */
104 #define	IBT_RNR_NAK_TIMER_INVALID	IBT_ERR_OPAQUE9	/* Invalid RNR NAK */
105 							/* Timer Value */
106 #define	IBT_RDD_NOT_SUPPORTED		IBT_ERR_OPAQUE10
107 
108 
109 /*
110  * ibt_wc_status_t
111  */
112 #define	IBT_WC_LOCAL_EEC_OP_ERR		12	/* Internal consistency error */
113 #define	IBT_WC_LOCAL_RDD_VIOLATION_ERR	30	/* The RDD associated with */
114 						/* the QP does not match */
115 						/* the RDD associated with */
116 						/* the EE Context */
117 #define	IBT_WC_REMOTE_RD_REQ_INVALID	31	/* Detected an invalid */
118 						/* incoming RD message */
119 #define	IBT_WC_EEC_REMOTE_ABORTED	32	/* Requester aborted the */
120 						/* operation */
121 #define	IBT_WC_EEC_NUM_INVALID		33	/* Invalid EEC Number */
122 						/* detected */
123 #define	IBT_WC_EEC_STATE_INVALID	34	/* Invalid EEC state */
124 
125 /*
126  * ibt_async_code_t
127  */
128 #define	IBT_EVENT_PATH_MIGRATED_EEC	IBT_ASYNC_OPAQUE1
129 #define	IBT_ERROR_CATASTROPHIC_EEC	IBT_ASYNC_OPAQUE3
130 #define	IBT_ERROR_PATH_MIGRATE_REQ_EEC	IBT_ASYNC_OPAQUE4
131 
132 /*
133  * ibt_object_type_t
134  */
135 #define	IBT_HDL_EEC	IBT_HDL_OPAQUE1
136 #define	IBT_HDL_RDD	IBT_HDL_OPAQUE2
137 
138 
139 /*
140  * ibt_hca_attr_t
141  */
142 #define	hca_max_rdd		hca_opaque2	/* Max RDDs in HCA */
143 #define	hca_max_eec		hca_opaque3	/* Max EEContexts in HCA */
144 #define	hca_max_rd_sgl		hca_opaque4	/* Max SGL entries per RD WR */
145 #define	hca_max_rdma_in_ee	hca_opaque5	/* Max RDMA Reads/Atomics in */
146 						/* per EEC with HCA as target */
147 #define	hca_max_rdma_out_ee	hca_opaque6	/* Max RDMA Reads/Atomics out */
148 						/* per EE by this HCA */
149 #define	hca_max_ipv6_qp		hca_max_ipv6_chan
150 #define	hca_max_ether_qp	hca_max_ether_chan
151 #define	hca_eec_max_ci_priv_sz	hca_opaque7
152 #define	hca_rdd_max_ci_priv_sz	hca_opaque8
153 #define	hca_max_map_per_fmr	hca_opaque9
154 
155 
156 /*
157  * ibt_wc_t
158  */
159 #define	wc_eecn		wc_opaque3	/* End-to-End Context RD's only */
160 
161 
162 /* Channel Interface version */
163 typedef enum ibc_version_e {
164 	IBCI_V1		= 1,
165 	IBCI_V2		= 2		/* FMR Support */
166 } ibc_version_t;
167 
168 
169 typedef enum ibc_free_qp_flags_e {
170 	IBC_FREE_QP_AND_QPN	= 0,	/* free all qp resources */
171 	IBC_FREE_QP_ONLY	= 1	/* OK to free the QP, but the QPN */
172 					/* cannot be reused until a future */
173 					/* call to ibc_release_qpn(qpn_hdl), */
174 					/* where qpn_hdl is a return value */
175 					/* of ibc_free_qp() */
176 } ibc_free_qp_flags_t;
177 
178 /*
179  * RDD alloc flags
180  */
181 typedef enum ibc_rdd_flags_e {
182 	IBT_RDD_NO_FLAGS	= 0,
183 	IBT_RDD_USER_MAP	= (1 << 0),
184 	IBT_RDD_DEFER_ALLOC	= (1 << 1)
185 } ibc_rdd_flags_t;
186 
187 /*
188  * EEC alloc flags
189  */
190 typedef enum ibc_eec_flags_e {
191 	IBT_EEC_NO_FLAGS	= 0,
192 	IBT_EEC_USER_MAP	= (1 << 0),
193 	IBT_EEC_DEFER_ALLOC	= (1 << 1)
194 } ibc_eec_flags_t;
195 
196 
197 /*
198  * Completion Queues
199  *
200  */
201 
202 /*
203  * CQ handler attribute structure.
204  */
205 typedef struct ibc_cq_handler_attr_s {
206 	ibt_cq_handler_id_t	h_id;		/* Valid ID != NULL */
207 	int			h_flags;	/* Flags of ddi_intr_get_cap */
208 	int			h_pri;		/* priority from */
209 						/* ddi_intr_get_pri */
210 	void			*h_bind;	/* unknown intrd stuff */
211 } ibc_cq_handler_attr_t;
212 
213 
214 /*
215  * Event data for asynchronous events and errors. The QP/EEC/CQ/SRQ handle,
216  * or port number associated with the Event/Error is passed as an argument
217  * to the async handler.
218  */
219 typedef struct ibc_async_event_s {
220 	uint64_t	ev_fma_ena;	/* fault management error data */
221 	ibtl_qp_hdl_t	ev_qp_hdl;	/* IBTF QP handle. */
222 	ibtl_eec_hdl_t	ev_eec_hdl;	/* IBTF EEC handle. */
223 	ibt_cq_hdl_t	ev_cq_hdl;	/* IBT CQ handle. */
224 	uint8_t		ev_port;	/* Valid for PORT UP/DOWN events */
225 	ibt_srq_hdl_t	ev_srq_hdl;	/* SRQ handle */
226 } ibc_async_event_t;
227 
228 
229 typedef struct ibc_operations_s {
230 	/* HCA */
231 	ibt_status_t (*ibc_query_hca_ports)(ibc_hca_hdl_t hca, uint8_t port,
232 	    ibt_hca_portinfo_t *info_p);
233 	ibt_status_t (*ibc_modify_ports)(ibc_hca_hdl_t hca, uint8_t port,
234 	    ibt_port_modify_flags_t flags, uint8_t init_type);
235 	ibt_status_t (*ibc_modify_system_image)(ibc_hca_hdl_t hca,
236 	    ib_guid_t sys_guid);
237 
238 	/* Protection Domain */
239 	ibt_status_t (*ibc_alloc_pd)(ibc_hca_hdl_t hca, ibt_pd_flags_t flags,
240 	    ibc_pd_hdl_t *pd_p);
241 	ibt_status_t (*ibc_free_pd)(ibc_hca_hdl_t hca, ibc_pd_hdl_t pd);
242 
243 	/* Reliable Datagram Domain */
244 	ibt_status_t (*ibc_alloc_rdd)(ibc_hca_hdl_t hca, ibc_rdd_flags_t flags,
245 	    ibc_rdd_hdl_t *rdd_p);
246 	ibt_status_t (*ibc_free_rdd)(ibc_hca_hdl_t hca, ibc_rdd_hdl_t rdd);
247 
248 	/* Address Handle */
249 	ibt_status_t (*ibc_alloc_ah)(ibc_hca_hdl_t hca, ibt_ah_flags_t flags,
250 	    ibc_pd_hdl_t pd, ibt_adds_vect_t *attr_p, ibc_ah_hdl_t *ah_p);
251 	ibt_status_t (*ibc_free_ah)(ibc_hca_hdl_t hca, ibc_ah_hdl_t ah);
252 	ibt_status_t (*ibc_query_ah)(ibc_hca_hdl_t hca, ibc_ah_hdl_t ah,
253 	    ibc_pd_hdl_t *pd_p, ibt_adds_vect_t *attr_p);
254 	ibt_status_t (*ibc_modify_ah)(ibc_hca_hdl_t hca, ibc_ah_hdl_t ah,
255 	    ibt_adds_vect_t *attr_p);
256 
257 	/* Queue Pair */
258 	ibt_status_t (*ibc_alloc_qp)(ibc_hca_hdl_t hca, ibtl_qp_hdl_t ibtl_qp,
259 	    ibt_qp_type_t type, ibt_qp_alloc_attr_t *attr_p,
260 	    ibt_chan_sizes_t *queue_sizes_p, ib_qpn_t *qpn, ibc_qp_hdl_t *qp_p);
261 	ibt_status_t (*ibc_alloc_special_qp)(ibc_hca_hdl_t hca, uint8_t port,
262 	    ibtl_qp_hdl_t ibt_qp, ibt_sqp_type_t type,
263 	    ibt_qp_alloc_attr_t *attr_p, ibt_chan_sizes_t *queue_sizes_p,
264 	    ibc_qp_hdl_t *qp_p);
265 	ibt_status_t (*ibc_free_qp)(ibc_hca_hdl_t hca, ibc_qp_hdl_t qp,
266 	    ibc_free_qp_flags_t free_qp_flags, ibc_qpn_hdl_t *qpnh_p);
267 	ibt_status_t (*ibc_release_qpn)(ibc_hca_hdl_t hca, ibc_qpn_hdl_t qpnh);
268 	ibt_status_t (*ibc_query_qp)(ibc_hca_hdl_t hca, ibc_qp_hdl_t qp,
269 	    ibt_qp_query_attr_t *attr_p);
270 	ibt_status_t (*ibc_modify_qp)(ibc_hca_hdl_t hca, ibc_qp_hdl_t qp,
271 	    ibt_cep_modify_flags_t flags, ibt_qp_info_t *info_p,
272 	    ibt_queue_sizes_t *actual_sz);
273 
274 	/* Completion Queues */
275 	ibt_status_t (*ibc_alloc_cq)(ibc_hca_hdl_t hca, ibt_cq_hdl_t ibt_cq,
276 	    ibt_cq_attr_t *attr_p, ibc_cq_hdl_t *cq_p, uint_t *actual_size);
277 	ibt_status_t (*ibc_free_cq)(ibc_hca_hdl_t hca, ibc_cq_hdl_t cq);
278 	ibt_status_t (*ibc_query_cq)(ibc_hca_hdl_t hca, ibc_cq_hdl_t cq,
279 	    uint_t *entries);
280 	ibt_status_t (*ibc_resize_cq)(ibc_hca_hdl_t hca, ibc_cq_hdl_t cq,
281 	    uint_t size, uint_t *actual_size);
282 	ibt_status_t (*ibc_alloc_cq_sched)(ibc_hca_hdl_t hca,
283 	    ibt_cq_sched_flags_t flags, ibc_cq_handler_attr_t *handler_attrs_p);
284 	ibt_status_t (*ibc_free_cq_sched)(ibc_hca_hdl_t hca,
285 	    ibt_cq_handler_id_t id);
286 
287 	/* EE Context */
288 	ibt_status_t (*ibc_alloc_eec)(ibc_hca_hdl_t hca, ibc_eec_flags_t flags,
289 	    ibtl_eec_hdl_t ibtl_eec, ibc_rdd_hdl_t rdd, ibc_eec_hdl_t *eec_p);
290 	ibt_status_t (*ibc_free_eec)(ibc_hca_hdl_t hca, ibc_eec_hdl_t eec);
291 	ibt_status_t (*ibc_query_eec)(ibc_hca_hdl_t hca, ibc_eec_hdl_t eec,
292 	    ibt_eec_query_attr_t *attr_p);
293 	ibt_status_t (*ibc_modify_eec)(ibc_hca_hdl_t hca, ibc_eec_hdl_t eec,
294 	    ibt_cep_modify_flags_t flags, ibt_eec_info_t *info_p);
295 
296 	/* Memory Registration */
297 	ibt_status_t (*ibc_register_mr)(ibc_hca_hdl_t hca, ibc_pd_hdl_t pd,
298 	    ibt_mr_attr_t *attr_p, void *ibtl_reserved, ibc_mr_hdl_t *mr_p,
299 	    ibt_mr_desc_t *mem_desc);
300 	ibt_status_t (*ibc_register_buf)(ibc_hca_hdl_t hca, ibc_pd_hdl_t pd,
301 	    ibt_smr_attr_t *attrp, struct buf *buf, void *ibtl_reserved,
302 	    ibc_mr_hdl_t *mr_hdl_p, ibt_mr_desc_t *mem_desc);
303 	ibt_status_t (*ibc_register_shared_mr)(ibc_hca_hdl_t hca,
304 	    ibc_mr_hdl_t mr, ibc_pd_hdl_t pd, ibt_smr_attr_t *attr_p,
305 	    void *ibtl_reserved, ibc_mr_hdl_t *mr_p, ibt_mr_desc_t *mem_desc);
306 	ibt_status_t (*ibc_deregister_mr)(ibc_hca_hdl_t hca, ibc_mr_hdl_t mr);
307 	ibt_status_t (*ibc_query_mr)(ibc_hca_hdl_t hca, ibc_mr_hdl_t mr,
308 	    ibt_mr_query_attr_t *info_p);
309 	ibt_status_t (*ibc_reregister_mr)(ibc_hca_hdl_t hca, ibc_mr_hdl_t mr,
310 	    ibc_pd_hdl_t pd, ibt_mr_attr_t *attr_p, void *ibtl_reserved,
311 	    ibc_mr_hdl_t *mr_p, ibt_mr_desc_t *mem_desc);
312 	ibt_status_t (*ibc_reregister_buf)(ibc_hca_hdl_t hca, ibc_mr_hdl_t mr,
313 	    ibc_pd_hdl_t pd, ibt_smr_attr_t *attrp, struct buf *buf,
314 	    void *ibtl_reserved, ibc_mr_hdl_t *mr_p, ibt_mr_desc_t *mem_desc);
315 	ibt_status_t (*ibc_sync_mr)(ibc_hca_hdl_t hca,
316 	    ibt_mr_sync_t *mr_segments, size_t	num_segments);
317 
318 	/* Memory Window */
319 	ibt_status_t (*ibc_alloc_mw)(ibc_hca_hdl_t hca, ibc_pd_hdl_t pd,
320 	    ibt_mw_flags_t flags, ibc_mw_hdl_t *mw_p, ibt_rkey_t *rkey_p);
321 	ibt_status_t (*ibc_free_mw)(ibc_hca_hdl_t hca, ibc_mw_hdl_t mw);
322 	ibt_status_t (*ibc_query_mw)(ibc_hca_hdl_t hca, ibc_mw_hdl_t mw,
323 	    ibt_mw_query_attr_t *mw_attr_p);
324 
325 	/* Multicast Group */
326 	ibt_status_t (*ibc_attach_mcg)(ibc_hca_hdl_t hca, ibc_qp_hdl_t qp,
327 	    ib_gid_t gid, ib_lid_t lid);
328 	ibt_status_t (*ibc_detach_mcg)(ibc_hca_hdl_t hca, ibc_qp_hdl_t qp,
329 	    ib_gid_t gid, ib_lid_t lid);
330 
331 	/* WR processing */
332 	ibt_status_t (*ibc_post_send)(ibc_hca_hdl_t hca, ibc_qp_hdl_t qp,
333 	    ibt_send_wr_t *wr_p, uint_t num_wr, uint_t *num_posted);
334 	ibt_status_t (*ibc_post_recv)(ibc_hca_hdl_t hca, ibc_qp_hdl_t qp,
335 	    ibt_recv_wr_t *wr_p, uint_t num_wr, uint_t *num_posted);
336 	ibt_status_t (*ibc_poll_cq)(ibc_hca_hdl_t hca, ibc_cq_hdl_t cq,
337 	    ibt_wc_t *wc_p, uint_t num_wc, uint_t *num_polled);
338 	ibt_status_t (*ibc_notify_cq)(ibc_hca_hdl_t hca, ibc_cq_hdl_t cq,
339 	    ibt_cq_notify_flags_t flags);
340 
341 	/* CI Object Private Data */
342 	ibt_status_t (*ibc_ci_data_in)(ibc_hca_hdl_t hca,
343 	    ibt_ci_data_flags_t flags, ibt_object_type_t object,
344 	    void *ibc_object_handle, void *data_p, size_t data_sz);
345 	ibt_status_t (*ibc_ci_data_out)(ibc_hca_hdl_t hca,
346 	    ibt_ci_data_flags_t flags, ibt_object_type_t object,
347 	    void *ibc_object_handle, void *data_p, size_t data_sz);
348 
349 	/* Shared Receive Queues */
350 	ibt_status_t (*ibc_alloc_srq)(ibc_hca_hdl_t hca, ibt_srq_flags_t flags,
351 	    ibt_srq_hdl_t ibt_srq, ibc_pd_hdl_t pd, ibt_srq_sizes_t *sizes,
352 	    ibc_srq_hdl_t *ibc_srq_p, ibt_srq_sizes_t *real_size_p);
353 	ibt_status_t (*ibc_free_srq)(ibc_hca_hdl_t hca, ibc_srq_hdl_t srq);
354 	ibt_status_t (*ibc_query_srq)(ibc_hca_hdl_t hca, ibc_srq_hdl_t srq,
355 	    ibc_pd_hdl_t *pd_p, ibt_srq_sizes_t *sizes_p, uint_t *limit);
356 	ibt_status_t (*ibc_modify_srq)(ibc_hca_hdl_t hca, ibc_srq_hdl_t srq,
357 	    ibt_srq_modify_flags_t flags, uint_t size, uint_t limit,
358 	    uint_t *real_size_p);
359 	ibt_status_t (*ibc_post_srq)(ibc_hca_hdl_t hca, ibc_srq_hdl_t srq,
360 	    ibt_recv_wr_t *wr, uint_t num_wr, uint_t *num_posted_p);
361 
362 	/* Address translation */
363 	ibt_status_t (*ibc_map_mem_area)(ibc_hca_hdl_t hca_hdl,
364 	    ibt_va_attr_t *va_attrs, void *ibtl_reserved,
365 	    uint_t paddr_list_len, ibt_phys_buf_t *paddr_list_p,
366 	    uint_t *num_paddr_p, size_t *paddr_bufsz_p,
367 	    ib_memlen_t *paddr_offset_p, ibc_ma_hdl_t *ma_hdl_p);
368 	ibt_status_t (*ibc_unmap_mem_area)(ibc_hca_hdl_t hca_hdl,
369 	    ibc_ma_hdl_t ma_hdl);
370 
371 	/* Allocate L_Key */
372 	ibt_status_t (*ibc_alloc_lkey)(ibc_hca_hdl_t hca_hdl, ibc_pd_hdl_t pd,
373 	    ibt_lkey_flags_t flags, uint_t phys_buf_list_sz,
374 	    ibc_mr_hdl_t *mr_p, ibt_pmr_desc_t *mem_desc_p);
375 
376 	/* Physical Register Memory Region */
377 	ibt_status_t (*ibc_register_physical_mr)(ibc_hca_hdl_t hca,
378 	    ibc_pd_hdl_t pd, ibt_pmr_attr_t *mem_pattr, void *ibtl_reserved,
379 	    ibc_mr_hdl_t *mr_p, ibt_pmr_desc_t *mem_desc_p);
380 	ibt_status_t (*ibc_reregister_physical_mr)(ibc_hca_hdl_t hca,
381 	    ibc_mr_hdl_t mr, ibc_pd_hdl_t pd, ibt_pmr_attr_t *mem_pattr,
382 	    void *ibtl_reserved, ibc_mr_hdl_t *mr_p,
383 	    ibt_pmr_desc_t *mem_desc_p);
384 
385 	/* Fast Memory Registration (FMR) */
386 	ibt_status_t (*ibc_create_fmr_pool)(ibc_hca_hdl_t hca, ibc_pd_hdl_t pd,
387 	    ibt_fmr_pool_attr_t *fmr_params, ibc_fmr_pool_hdl_t *fmr_pool_p);
388 	ibt_status_t (*ibc_destroy_fmr_pool)(ibc_hca_hdl_t hca,
389 	    ibc_fmr_pool_hdl_t fmr_pool);
390 	ibt_status_t (*ibc_flush_fmr_pool)(ibc_hca_hdl_t hca,
391 	    ibc_fmr_pool_hdl_t fmr_pool);
392 	ibt_status_t (*ibc_register_physical_fmr)(ibc_hca_hdl_t hca,
393 	    ibc_fmr_pool_hdl_t fmr_pool, ibt_pmr_attr_t *mem_pattr,
394 	    void *ibtl_reserved, ibc_mr_hdl_t *mr_hdl_p,
395 	    ibt_pmr_desc_t *mem_desc_p);
396 	ibt_status_t (*ibc_deregister_fmr)(ibc_hca_hdl_t hca, ibc_mr_hdl_t mr);
397 } ibc_operations_t;
398 
399 
400 /*
401  * The ibc_hca_info_s structure is used for HCA drivers to communicate its
402  * HCA specific information to IBTF when it attaches a device via ibc_attach().
403  *
404  * IBTF assumes that the structures pointed to by the hca_ops and hca_attr
405  * structure members are persistent.
406  */
407 typedef struct ibc_hca_info_s {
408 	ibc_version_t		hca_ci_vers;	/* CI Version */
409 	dev_info_t		*hca_dip;	/* HCA dev_info */
410 	ibc_hca_hdl_t		hca_handle;	/* used for call through */
411 						/* "hca_ops" */
412 	ibc_operations_t	*hca_ops;
413 	ibt_hca_attr_t		*hca_attr;
414 	ibc_cq_handler_attr_t	hca_def_cq_handler_attr;
415 } ibc_hca_info_t;
416 
417 
418 /* Channel Interface return status */
419 typedef enum ibc_status_e {
420 	IBC_SUCCESS = 0,
421 	IBC_FAILURE = 1
422 } ibc_status_t;
423 
424 /*
425  * CI up-calls to IBTF.
426  */
427 
428 /*
429  * ibc_init
430  *	Registers CI clients with the Solaris I/O framework
431  *
432  * ibc_fini
433  *	Un-Registers CI clients with the Solaris I/O framework
434  */
435 int ibc_init(struct modlinkage *modlp);
436 void ibc_fini(struct modlinkage *modlp);
437 
438 /*
439  * ibc_attach
440  *	Register HCA device with IBTF. During this call HCA driver provides
441  *	driver's information neededby IBTF.
442  *
443  * ibc_post_attach
444  *	After a successful ibc_attach, this must be called.
445  *
446  * ibc_pre_detach
447  *	Attempt to De-Register HCA Device from IBTF.
448  *	This requires the cooperation of IBTF clients to
449  *	stop using this HCA.  Upon success, the HCA driver
450  *	is committed to calling ibc_detach.
451  *
452  * ibc_detach
453  *	De-Register HCA Device from IBTF.
454  *	This function will succeed if ibc_pre_detach has previously
455  *	succeeded for this device.
456  */
457 ibc_status_t ibc_attach(ibc_clnt_hdl_t *ibc_hdl_p, ibc_hca_info_t *info_p);
458 void ibc_post_attach(ibc_clnt_hdl_t ibc_hdl);
459 ibc_status_t ibc_pre_detach(ibc_clnt_hdl_t ibc_hdl, ddi_detach_cmd_t cmd);
460 void ibc_detach(ibc_clnt_hdl_t ibc_hdl);
461 
462 /*
463  * ibc_cq_handler
464  *	IBTF Completion Queue Notification Handler.
465  */
466 void ibc_cq_handler(ibc_clnt_hdl_t ibc_hdl, ibt_cq_hdl_t ibt_cq);
467 
468 /*
469  * ibc_async_handler
470  *	IBTF Asynchronous event/error handler.
471  */
472 void ibc_async_handler(ibc_clnt_hdl_t ibc_hdl, ibt_async_code_t code,
473     ibc_async_event_t *event_p);
474 
475 /*
476  * ibc_memory_handler
477  *	IBTF memory event/error handler.
478  */
479 void ibc_memory_handler(ibc_clnt_hdl_t ibc_hdl, ibt_mem_code_t code,
480     ibt_mem_data_t *data_p, void *ibtl_reserved);
481 
482 /*
483  * ibc_get_ci_failure()
484  *
485  *	Used to obtain a special IBTF failure code for CI specific failures,
486  *	failures other than those defined in ibt_status_t.
487  */
488 ibt_status_t ibc_get_ci_failure(uint64_t ena);
489 
490 #ifdef __cplusplus
491 }
492 #endif
493 
494 #endif	/* _SYS_IB_IBTL_IBCI_H */
495