xref: /titanic_50/usr/src/uts/common/sys/ib/adapters/hermon/hermon_qp.h (revision 6a634c9dca3093f3922e4b7ab826d7bdf17bf78e)
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 (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 
22 /*
23  * Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved.
24  */
25 
26 #ifndef	_SYS_IB_ADAPTERS_HERMON_QP_H
27 #define	_SYS_IB_ADAPTERS_HERMON_QP_H
28 
29 /*
30  * hermon_qp.h
31  *    Contains all of the prototypes, #defines, and structures necessary
32  *    for all of the Queue Pair Processing routines.
33  *    Specifically it contains the various flags, structures used for managing
34  *    Hermon queue pairs, and prototypes for many of the functions consumed by
35  *    other parts of the Hermon driver (including those routines directly
36  *    exposed through the IBTF CI interface).
37  *
38  *    Most of the values defined below establish default values which,
39  *    where indicated, can be controlled via their related patchable values,
40  *    if 'hermon_alt_config_enable' is set.
41  */
42 
43 #include <sys/types.h>
44 #include <sys/conf.h>
45 #include <sys/ddi.h>
46 #include <sys/sunddi.h>
47 
48 #ifdef __cplusplus
49 extern "C" {
50 #endif
51 
52 /*
53  * The following defines the default number of Queue Pairs. This value is
54  * controlled via the "hermon_log_num_qp" configuration variables.
55  * We also have a define for the minimum size of a QP.  QPs allocated
56  * with size 0, 1, 2, or 3 will always get back a QP of size 4.
57  *
58  * Note: Increasing #QPs from 64K to 256K for reserved ranges for FCoIB.
59  */
60 #define	HERMON_NUM_QP_SHIFT		0x12
61 #define	HERMON_NUM_QPS			(1 << HERMON_NUM_QP_SHIFT) /* 256K */
62 #define	HERMON_QP_MIN_SIZE		0xf
63 
64 /*
65  * The following defines the default number of Hermon RDMA Remote read
66  * database (RDB) entries per QP.  This value is controllable through the
67  * "hermon_log_num_rdb_per_qp" configuration variable.
68  */
69 #define	HERMON_LOG_NUM_RDB_PER_QP	0x4
70 
71 /*
72  * This defines the maximum number of SGLs per WQE.  This value is
73  * controllable through the "hermon_wqe_max_sgl" configuration variable
74  * (but should not be set larger than this value).
75  */
76 #define	HERMON_NUM_SGL_PER_WQE		0x10
77 
78 /*
79  * Maximum QP number mask (QP number is 24 bits).
80  * We reserve the most significant bit to indicate an "XRC" QP
81  * as recommended by the PRM.  All XRC QPs will have this bit set.
82  */
83 #define	HERMON_QP_MAXNUMBER_MSK		0x7FFFFF
84 #define	HERMON_QP_XRC_MSK		0x800000
85 
86 /*
87  * This define and the following macro are used to find a schedule queue for
88  * a new QP based on its queue pair number.  Note:  This is a rather simple
89  * method that we use today.  We simply choose from the schedule queue based
90  * on the 4 least significant bits of the QP number.
91  */
92 
93 /*
94  * The following defines are used to indicate whether a QP is special or
95  * not (and what type it is).  They are used in the "qp_is_special" field
96  * below in qp_state.  If "qp_is_special" == 0 then an ordinary data qp.
97  */
98 
99 /*
100  * The sl is selected based on the qpnum as it was for Tavor/Arbel, except for
101  * QP0, which is defined as being 0xF
102  */
103 
104 #define	HERMON_QP_SMI			0x1
105 #define	HERMON_QP_GSI			0x2
106 
107 #define	HERMON_DEF_SCHED_POLICY		0x03
108 #define	HERMON_DEF_SCHED_SELECTION	0x0F
109 
110 #define	HERMON_QP_SCHEDQ_GET(port, sl, issmi)   \
111 	(HERMON_DEF_SCHED_POLICY 		\
112 	| (issmi == HERMON_QP_SMI ? (HERMON_DEF_SCHED_SELECTION << 2) : \
113 	((issmi == HERMON_QP_GSI ? 0 : (sl & 0XF)) << 2)) \
114 	| ((port & 0x01) << 6) \
115 	| ((issmi == HERMON_QP_SMI ? 0 : 1) << 7))
116 
117 
118 /*
119  * This define determines the frequency with which the AckReq bit will be
120  * set in outgoing RC packets.  By default it is set to five (5) or 2^5 = 32.
121  * So AckReq will be set once every 32 packets sent.  This value is
122  * controllable through the "hermon_qp_ackreq_freq" configuration variable.
123  */
124 #define	HERMON_QP_ACKREQ_FREQ		0x5
125 
126 /*
127  * Define the maximum message size (log 2).  Note: This value corresponds
128  * to the maximum allowable message sized as defined by the IBA spec.
129  */
130 #define	HERMON_QP_LOG_MAX_MSGSZ		0x1F
131 
132 /*
133  * This macro is used to determine if the hermon QP type (qp_serv) is the
134  * same as the caller passed in IBT type (qp_trans).  This is used in QP modify
135  * to ensure the types match.
136  */
137 #define	HERMON_QP_TYPE_VALID(qp_trans, qp_serv)				\
138 	((qp_trans == IBT_RC_SRV && qp_serv == HERMON_QP_RC) ||		\
139 	(qp_trans == IBT_UD_SRV && (qp_serv == HERMON_QP_UD ||		\
140 	qp_serv == HERMON_QP_RFCI || qp_serv == HERMON_QP_FCMND ||	\
141 	qp_serv == HERMON_QP_FEXCH)) ||					\
142 	(qp_trans == IBT_UC_SRV && qp_serv == HERMON_QP_UC))
143 
144 /*
145  * The following enumerated type is used to capture all the various types
146  * of Hermon work queue types. It is specifically used as an argument to the
147  * to the hermon_qp_sgl_to_logwqesz() routine to determine the amount of
148  * overhead (in WQE header size) consumed by each of the types. This
149  * information is used to round the WQE size to the next largest power-of-2
150  * (and to determine the number of SGLs that are supported for the given WQE
151  * type).  There is also a define below used to specify the minimum size for a
152  * WQE.  The minimum size is set to 64 bytes (a single cacheline).
153  */
154 
155 typedef enum {
156 	HERMON_QP_WQ_TYPE_SENDQ_UD,
157 	HERMON_QP_WQ_TYPE_SENDQ_CONN,
158 	HERMON_QP_WQ_TYPE_RECVQ,
159 	HERMON_QP_WQ_TYPE_SENDMLX_QP0,
160 	HERMON_QP_WQ_TYPE_SENDMLX_QP1
161 } hermon_qp_wq_type_t;
162 #define	HERMON_QP_WQE_MLX_SND_HDRS	0x40
163 #define	HERMON_QP_WQE_MLX_RCV_HDRS	0x00
164 #define	HERMON_QP_WQE_MLX_SRQ_HDRS	0x10
165 #define	HERMON_QP_WQE_MLX_QP0_HDRS	0x40
166 #define	HERMON_QP_WQE_MLX_QP1_HDRS	0x70
167 #define	HERMON_QP_WQE_LOG_MINIMUM	0x6
168 
169 
170 /*
171  * The hermon_qp_range_t is used to manage a qp_range for RSS and FEXCH.
172  * It has a reference count.  When the reference count goes to 0,
173  * the qpc resource can be freed.
174  */
175 typedef struct hermon_qp_range_s {
176 	kmutex_t	hqpr_lock;
177 	hermon_rsrc_t	*hqpr_qpcrsrc;
178 	uint_t		hqpr_refcnt;
179 } hermon_qp_range_t;
180 
181 /*
182  * The hermon_qp_info_t structure is used internally by the Hermon driver to
183  * pass information to and from the hermon_qp_alloc() and
184  * hermon_special_qp_alloc() routines.  It contains placeholders for all of the
185  * potential inputs and outputs that either routine can take.
186  */
187 typedef struct hermon_qp_info_s {
188 	ibt_qp_alloc_attr_t	*qpi_attrp;
189 	uint_t			qpi_type;
190 	uint_t			qpi_port;
191 	ibtl_qp_hdl_t		qpi_ibt_qphdl;
192 	ibt_chan_sizes_t	*qpi_queueszp;
193 	ib_qpn_t		*qpi_qpn;
194 	hermon_qphdl_t		qpi_qphdl;
195 } hermon_qp_info_t;
196 
197 /*
198  * The QPN entry which is stored in the AVL tree
199  */
200 typedef struct hermon_qpn_entry_s {
201 	avl_node_t		qpn_avlnode;
202 	uint_t			qpn_refcnt;
203 	uint_t			qpn_counter;
204 	uint_t			qpn_indx;
205 	hermon_rsrc_t		*qpn_qpc;
206 } hermon_qpn_entry_t;
207 #define	HERMON_QPN_NOFLAG		0x0
208 #define	HERMON_QPN_RELEASE		0x1
209 #define	HERMON_QPN_FREE_ONLY		0x2
210 
211 #define	HERMON_QP_OH_SIZE		0x0800
212 /*
213  * 2KB, fixed per Mnox PRM 0.35c & conversation w/Mnox technical Sep 5, 2007
214  */
215 
216 /*
217  * The hermon_sw_qp_s structure is also referred to using the "hermon_qphdl_t"
218  * typedef (see hermon_typedef.h).  It encodes all the information necessary
219  * to track the various resources needed to allocate, query, modify, and
220  * (later) free both normal QP and special QP.
221  *
222  * Specifically, it has a lock to ensure single threaded access to the QP.
223  * It has QP state, type, and number, pointers to the PD, MR, and CQ handles
224  * associated with the QP, and pointers to the buffer where the work queues
225  * come from.
226  *
227  * It has two pointers (one per work queue) to the workQ headers for the WRID
228  * list, as well as pointers to the last WQE on each chain (used when
229  * connecting a new chain of WQEs to a previously executing chain - see
230  * hermon_wr.c).  It's also got the real WQE size, real number of SGL per WQE,
231  * and the size of each of the work queues (in number of WQEs).
232  *
233  * Additionally, it has pointers to the resources associated with the QP,
234  * including the obligatory backpointer to the resource for the QP handle
235  * itself.  But it also has some flags, like "qp_forward_sqd_event" and
236  * "qp_sqd_still_draining" (which are used to indicate whether a Send Queue
237  * Drained Event should be forwarded to the IBTF) or "qp_is_special",
238  * "qp_portnum", and "qp_pkeyindx" (which are used by special QP to store
239  * necessary information about the type of the QP, which port it's connected
240  * to, and what its current PKey index is set to).
241  */
242 struct hermon_sw_qp_s {
243 	kmutex_t		qp_lock;
244 	uint_t			qp_state;
245 	uint32_t		qp_qpnum;
246 	hermon_pdhdl_t		qp_pdhdl;
247 	uint_t			qp_serv_type;
248 	ibt_qp_type_t		qp_type;
249 	uint_t			qp_sl;		/* service level */
250 	hermon_mrhdl_t		qp_mrhdl;
251 	uint_t			qp_sq_sigtype;
252 	uint_t			qp_is_special;
253 	ibt_qp_alloc_flags_t	qp_alloc_flags;
254 	uint32_t		qp_uarpg;
255 	devmap_cookie_t		qp_umap_dhp;
256 	uint_t			qp_portnum;	/* port 0/1 for HCA */
257 	uint_t			qp_portnum_alt;	/* port 0/1 for HCA */
258 	uint_t			qp_pkeyindx;
259 	uint_t			qp_no_prefetch;
260 				/* prefetch == 0, none == 1, for headroom */
261 	uint_t			qp_rlky;	/* using reserved lkey */
262 
263 	/* Send Work Queue */
264 	kmutex_t		qp_sq_lock;
265 	hermon_cqhdl_t		qp_sq_cqhdl;
266 	hermon_workq_avl_t	qp_sq_wqavl;
267 	hermon_workq_hdr_t	*qp_sq_wqhdr;
268 	uint32_t		*qp_sq_buf;
269 	uint32_t		qp_sq_bufsz;
270 	uint32_t		qp_sq_logqsz;	/* used to check owner valid */
271 	uint32_t		qp_sq_log_wqesz;
272 	uint32_t		qp_sq_headroom; /* #bytes needed for headroom */
273 	uint32_t		qp_sq_hdrmwqes;	/* # wqes needed for headroom */
274 	uint32_t		qp_sq_baseaddr;
275 	uint32_t		qp_sq_sgl;
276 	uint_t			qp_uses_lso;
277 	uint32_t		qp_ring;
278 	uint_t			qp_state_for_post_send; /* copy of qp_state */
279 
280 	/* Receive Work Queue - not used when SRQ is used */
281 	hermon_cqhdl_t		qp_rq_cqhdl;
282 	hermon_workq_avl_t	qp_rq_wqavl;	/* needed for srq */
283 	hermon_workq_hdr_t	*qp_rq_wqhdr;
284 	uint32_t		*qp_rq_buf;
285 	uint32_t		qp_rq_bufsz;
286 	uint32_t		qp_rq_logqsz;	/* used to check owner valid */
287 	uint32_t		qp_rq_log_wqesz;
288 	uint32_t		qp_rq_wqecntr;
289 	uint32_t		qp_rq_baseaddr;
290 	uint32_t		qp_rq_sgl;
291 
292 	/* DoorBell Record information */
293 	ddi_acc_handle_t	qp_rq_dbr_acchdl;
294 	hermon_dbr_t		*qp_rq_vdbr;
295 	uint64_t		qp_rq_pdbr;
296 	uint64_t		qp_rdbr_mapoffset;	/* user mode access */
297 
298 	uint64_t		qp_desc_off;
299 
300 	hermon_rsrc_t		*qp_qpcrsrcp;
301 	hermon_rsrc_t		*qp_rsrcp;
302 	void			*qp_hdlrarg;
303 	uint_t			qp_forward_sqd_event;
304 	uint_t			qp_sqd_still_draining;
305 
306 	/* Shared Receive Queue */
307 	hermon_srqhdl_t		qp_srqhdl;
308 
309 	/* Refcnt of QP belongs to an MCG */
310 	uint_t			qp_mcg_refcnt;
311 
312 	/* save the mtu from init2rtr for future use */
313 	uint_t			qp_save_mtu;
314 	hermon_qpn_entry_t	*qp_qpn_hdl;
315 
316 	struct hermon_qalloc_info_s qp_wqinfo;
317 
318 	ibt_fc_attr_t		qp_fc_attr;
319 
320 	struct hermon_qp_range_s *qp_rangep;
321 
322 	/* Beware: 8-byte alignment needed here */
323 
324 	struct hermon_hw_qpc_s qpc;
325 };
326 _NOTE(READ_ONLY_DATA(hermon_sw_qp_s::qp_qpnum
327     hermon_sw_qp_s::qp_sq_buf
328     hermon_sw_qp_s::qp_sq_log_wqesz
329     hermon_sw_qp_s::qp_sq_bufsz
330     hermon_sw_qp_s::qp_sq_sgl
331     hermon_sw_qp_s::qp_rq_buf
332     hermon_sw_qp_s::qp_rq_log_wqesz
333     hermon_sw_qp_s::qp_rq_bufsz
334     hermon_sw_qp_s::qp_rq_sgl
335     hermon_sw_qp_s::qp_desc_off
336     hermon_sw_qp_s::qp_mrhdl
337     hermon_sw_qp_s::qp_wqinfo
338     hermon_sw_qp_s::qp_qpcrsrcp
339     hermon_sw_qp_s::qp_rsrcp
340     hermon_sw_qp_s::qp_hdlrarg
341     hermon_sw_qp_s::qp_pdhdl
342     hermon_sw_qp_s::qp_sq_cqhdl
343     hermon_sw_qp_s::qp_rq_cqhdl
344     hermon_sw_qp_s::qp_sq_sigtype
345     hermon_sw_qp_s::qp_serv_type
346     hermon_sw_qp_s::qp_is_special
347     hermon_sw_qp_s::qp_alloc_flags
348     hermon_sw_qp_s::qp_uarpg
349     hermon_sw_qp_s::qp_sq_wqhdr
350     hermon_sw_qp_s::qp_rq_wqhdr
351     hermon_sw_qp_s::qp_qpn_hdl))
352 _NOTE(MUTEX_PROTECTS_DATA(hermon_sw_qp_s::qp_lock,
353     hermon_sw_qp_s::qp_state
354     hermon_sw_qp_s::qpc
355     hermon_sw_qp_s::qp_forward_sqd_event
356     hermon_sw_qp_s::qp_sqd_still_draining
357     hermon_sw_qp_s::qp_mcg_refcnt
358     hermon_sw_qp_s::qp_save_mtu
359     hermon_sw_qp_s::qp_umap_dhp))
360 _NOTE(SCHEME_PROTECTS_DATA("safe sharing",
361     hermon_sw_qp_s::qp_pkeyindx
362     hermon_sw_qp_s::qp_portnum))
363 
364 #define	HERMON_SET_QP_POST_SEND_STATE(qp, state)			\
365 	mutex_enter(&qp->qp_sq_lock);					\
366 	qp->qp_state_for_post_send = state;				\
367 	mutex_exit(&qp->qp_sq_lock)
368 
369 /* Defined in hermon_qp.c */
370 int hermon_qp_alloc(hermon_state_t *state, hermon_qp_info_t *qpinfo,
371     uint_t sleepflag);
372 int hermon_special_qp_alloc(hermon_state_t *state, hermon_qp_info_t *qpinfo,
373     uint_t sleepflag);
374 int hermon_qp_alloc_range(hermon_state_t *state, uint_t log2,
375     hermon_qp_info_t *qpinfo, ibtl_qp_hdl_t *ibtl_qp_p, ibc_cq_hdl_t *send_cq_p,
376     ibc_cq_hdl_t *recv_cq_p, hermon_qphdl_t *qp_p, uint_t sleepflag);
377 int hermon_qp_free(hermon_state_t *state, hermon_qphdl_t *qphdl,
378     ibc_free_qp_flags_t free_qp_flags, ibc_qpn_hdl_t *qpnh, uint_t sleepflag);
379 int hermon_qp_query(hermon_state_t *state, hermon_qphdl_t qphdl,
380     ibt_qp_query_attr_t *attr_p);
381 hermon_qphdl_t hermon_qphdl_from_qpnum(hermon_state_t *state, uint_t qpnum);
382 void hermon_qp_release_qpn(hermon_state_t *state, hermon_qpn_entry_t *entry,
383     int flags);
384 void hermon_qpn_avl_init(hermon_state_t *state);
385 void hermon_qpn_avl_fini(hermon_state_t *state);
386 
387 /* Defined in hermon_qpmod.c */
388 int hermon_qp_modify(hermon_state_t *state, hermon_qphdl_t qp,
389     ibt_cep_modify_flags_t flags, ibt_qp_info_t *info_p,
390     ibt_queue_sizes_t *actual_sz);
391 int hermon_qp_to_reset(hermon_state_t *state, hermon_qphdl_t qp);
392 
393 #ifdef __cplusplus
394 }
395 #endif
396 
397 #endif	/* _SYS_IB_ADAPTERS_HERMON_QP_H */
398