xref: /titanic_52/usr/src/uts/common/sys/ib/mgt/ibmf/ibmf.h (revision 7c478bd95313f5f23a4c958a745db2134aa03244)
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 2004 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #ifndef _SYS_IB_MGT_IBMF_IBMF_H
28 #define	_SYS_IB_MGT_IBMF_IBMF_H
29 
30 #pragma ident	"%Z%%M%	%I%	%E% SMI"
31 
32 /*
33  * This file defines the IBMF client interface.
34  */
35 
36 #ifdef __cplusplus
37 extern "C" {
38 #endif
39 
40 #include <sys/note.h>
41 #include <sys/ib/ib_types.h>
42 #include <sys/ib/ib_pkt_hdrs.h>
43 #include <sys/ib/mgt/ib_mad.h>
44 #include <sys/ib/mgt/ibmf/ibmf_msg.h>
45 #include <sys/ib/mgt/ibmf/ibmf_saa.h>
46 #include <sys/ib/mgt/ibmf/ibmf_utils.h>
47 
48 /* IBMF API function return values */
49 #define	IBMF_SUCCESS			0	/* successful call */
50 #define	IBMF_FAILURE			-1	/* ibmf internal error */
51 #define	IBMF_PORT_IN_USE 		-2	/* class already registered */
52 #define	IBMF_BAD_CLASS			-3	/* bad class specified */
53 #define	IBMF_BAD_HANDLE			-4	/* bad ibmf handle */
54 #define	IBMF_BAD_QP_HANDLE		-5	/* bad QP handle */
55 #define	IBMF_BAD_NODE			-6	/* bad node specified to reg */
56 #define	IBMF_BAD_PORT			-7	/* bad port specified to reg */
57 #define	IBMF_BAD_PORT_STATE		-8	/* port in incorrect state */
58 #define	IBMF_BAD_VERSION		-9	/* bad IBMF version */
59 #define	IBMF_BAD_FLAGS			-10	/* bad IBMF flags */
60 #define	IBMF_BAD_SIZE			-11	/* bad data size in message */
61 #define	IBMF_BAD_RMPP_OPT		-12	/* more than one class used */
62 #define	IBMF_BUSY			-13	/* resources held by client */
63 #define	IBMF_NO_RESOURCES		-14	/* no resources */
64 #define	IBMF_NOT_SUPPORTED		-15	/* function not supported */
65 #define	IBMF_PARTIAL_TRANSFER		-16	/* excess response data */
66 #define	IBMF_UNEXP_TRANS_RECVD		-17	/* unexpected trans received */
67 #define	IBMF_TRANS_TIMEOUT		-18	/* transaction timed out */
68 #define	IBMF_TRANS_FAILURE		-19	/* transaction failure */
69 #define	IBMF_NO_MEMORY			-20	/* could not alloc memory */
70 #define	IBMF_REQ_INVALID		-21	/* request was invalid */
71 #define	IBMF_NO_RECORDS			-22	/* no records match query */
72 #define	IBMF_TOO_MANY_RECORDS		-23	/* too many recs match query */
73 #define	IBMF_INVALID_GID		-24	/* invalid gid in sa request */
74 #define	IBMF_INSUFF_COMPS		-25	/* insufficient components */
75 #define	IBMF_UNSUPP_METHOD		-26	/* unsupported method */
76 #define	IBMF_UNSUPP_METHOD_ATTR		-27	/* unsupp. method/attrbute */
77 #define	IBMF_INVALID_FIELD		-28	/* invalid field in MAD */
78 #define	IBMF_INVALID_ARG		-29	/* invalid function argument */
79 #define	IBMF_CB_REGISTERED		-30	/* callback already regd */
80 #define	IBMF_CB_NOT_REGISTERED		-31	/* callback not registered */
81 #define	IBMF_TRANSPORT_FAILURE		-32	/* a transport call failed */
82 #define	IBMF_TID_IN_USE			-33	/* client's TID in use */
83 
84 /* flags to ibmf_alloc_msg() */
85 #define	IBMF_ALLOC_SLEEP		0
86 #define	IBMF_ALLOC_NOSLEEP		1
87 
88 /*
89  * IBMF version
90  */
91 #define	IBMF_VERSION			1
92 
93 typedef struct _ibmf_handle_dummy	*ibmf_handle_t;
94 
95 typedef struct _ibmf_qp_dummy		*ibmf_qp_handle_t;
96 
97 /*
98  * IBMF default QP handles
99  */
100 #define	IBMF_QP_HANDLE_DEFAULT		(ibmf_qp_handle_t)0
101 
102 /*
103  * ir_client_type
104  */
105 typedef	enum _ibmf_client_type_t {
106 	SUBN_AGENT				= 0x00010001,
107 	SUBN_MANAGER				= 0x00020001,
108 	SUBN_ADM_AGENT				= 0x00010003,
109 	SUBN_ADM_MANAGER			= 0x00020003,
110 	PERF_AGENT				= 0x00010004,
111 	PERF_MANAGER				= 0x00020004,
112 	BM_AGENT				= 0x00010005,
113 	BM_MANAGER				= 0x00020005,
114 	DEV_MGT_AGENT				= 0x00010006,
115 	DEV_MGT_MANAGER				= 0x00020006,
116 	COMM_MGT_MANAGER_AGENT			= 0x00030007,
117 	SNMP_MANAGER_AGENT			= 0x00030008,
118 	VENDOR_09_MANAGER_AGENT			= 0x00030009,
119 	VENDOR_0A_MANAGER_AGENT			= 0x0003000A,
120 	VENDOR_0B_MANAGER_AGENT			= 0x0003000B,
121 	VENDOR_0C_MANAGER_AGENT			= 0x0003000C,
122 	VENDOR_0D_MANAGER_AGENT			= 0x0003000D,
123 	VENDOR_0E_MANAGER_AGENT			= 0x0003000E,
124 	VENDOR_0F_MANAGER_AGENT			= 0x0003000F,
125 	VENDOR_30_MANAGER_AGENT			= 0x00030030,
126 	VENDOR_31_MANAGER_AGENT			= 0x00030031,
127 	VENDOR_32_MANAGER_AGENT			= 0x00030032,
128 	VENDOR_33_MANAGER_AGENT			= 0x00030033,
129 	VENDOR_34_MANAGER_AGENT			= 0x00030034,
130 	VENDOR_35_MANAGER_AGENT			= 0x00030035,
131 	VENDOR_36_MANAGER_AGENT			= 0x00030036,
132 	VENDOR_37_MANAGER_AGENT			= 0x00030037,
133 	VENDOR_38_MANAGER_AGENT			= 0x00030038,
134 	VENDOR_39_MANAGER_AGENT			= 0x00030039,
135 	VENDOR_3A_MANAGER_AGENT			= 0x0003003A,
136 	VENDOR_3B_MANAGER_AGENT			= 0x0003003B,
137 	VENDOR_3C_MANAGER_AGENT			= 0x0003003C,
138 	VENDOR_3D_MANAGER_AGENT			= 0x0003003D,
139 	VENDOR_3E_MANAGER_AGENT			= 0x0003003E,
140 	VENDOR_3F_MANAGER_AGENT			= 0x0003003F,
141 	VENDOR_40_MANAGER_AGENT			= 0x00030040,
142 	VENDOR_41_MANAGER_AGENT			= 0x00030041,
143 	VENDOR_42_MANAGER_AGENT			= 0x00030042,
144 	VENDOR_43_MANAGER_AGENT			= 0x00030043,
145 	VENDOR_44_MANAGER_AGENT			= 0x00030044,
146 	VENDOR_45_MANAGER_AGENT			= 0x00030045,
147 	VENDOR_46_MANAGER_AGENT			= 0x00030046,
148 	VENDOR_47_MANAGER_AGENT			= 0x00030047,
149 	VENDOR_48_MANAGER_AGENT			= 0x00030048,
150 	VENDOR_49_MANAGER_AGENT			= 0x00030049,
151 	VENDOR_4A_MANAGER_AGENT			= 0x0003004A,
152 	VENDOR_4B_MANAGER_AGENT			= 0x0003004B,
153 	VENDOR_4C_MANAGER_AGENT			= 0x0003004C,
154 	VENDOR_4D_MANAGER_AGENT			= 0x0003004D,
155 	VENDOR_4E_MANAGER_AGENT			= 0x0003004E,
156 	VENDOR_4F_MANAGER_AGENT			= 0x0003004F,
157 	APPLICATION_10_MANAGER_AGENT		= 0x00030010,
158 	APPLICATION_11_MANAGER_AGENT		= 0x00030011,
159 	APPLICATION_12_MANAGER_AGENT		= 0x00030012,
160 	APPLICATION_13_MANAGER_AGENT		= 0x00030013,
161 	APPLICATION_14_MANAGER_AGENT		= 0x00030014,
162 	APPLICATION_15_MANAGER_AGENT		= 0x00030015,
163 	APPLICATION_16_MANAGER_AGENT		= 0x00030016,
164 	APPLICATION_17_MANAGER_AGENT		= 0x00030017,
165 	APPLICATION_18_MANAGER_AGENT		= 0x00030018,
166 	APPLICATION_19_MANAGER_AGENT		= 0x00030019,
167 	APPLICATION_1A_MANAGER_AGENT		= 0x0003001A,
168 	APPLICATION_1B_MANAGER_AGENT		= 0x0003001B,
169 	APPLICATION_1C_MANAGER_AGENT		= 0x0003001C,
170 	APPLICATION_1D_MANAGER_AGENT		= 0x0003001D,
171 	APPLICATION_1E_MANAGER_AGENT		= 0x0003001E,
172 	APPLICATION_1F_MANAGER_AGENT		= 0x0003001F,
173 	APPLICATION_20_MANAGER_AGENT		= 0x00030020,
174 	APPLICATION_21_MANAGER_AGENT		= 0x00030021,
175 	APPLICATION_22_MANAGER_AGENT		= 0x00030022,
176 	APPLICATION_23_MANAGER_AGENT		= 0x00030023,
177 	APPLICATION_24_MANAGER_AGENT		= 0x00030024,
178 	APPLICATION_25_MANAGER_AGENT		= 0x00030025,
179 	APPLICATION_26_MANAGER_AGENT		= 0x00030026,
180 	APPLICATION_27_MANAGER_AGENT		= 0x00030027,
181 	APPLICATION_28_MANAGER_AGENT		= 0x00030028,
182 	APPLICATION_29_MANAGER_AGENT		= 0x00030029,
183 	APPLICATION_2A_MANAGER_AGENT		= 0x0003002A,
184 	APPLICATION_2B_MANAGER_AGENT		= 0x0003002B,
185 	APPLICATION_2C_MANAGER_AGENT		= 0x0003002C,
186 	APPLICATION_2D_MANAGER_AGENT		= 0x0003002D,
187 	APPLICATION_2E_MANAGER_AGENT		= 0x0003002E,
188 	APPLICATION_2F_MANAGER_AGENT		= 0x0003002F,
189 	UNIVERSAL_CLASS				= 0x00040001
190 } ibmf_client_type_t;
191 
192 /*
193  * ibmf_retrans_t data type is used to specify the maximum values
194  * of the retransmission parameters, number of retries,
195  * response time value, round trip travel time, and transaction timeout.
196  *
197  * The retries value must be provided by the client
198  * for all the transaction types enumerated by ibmf_trans_t.
199  * The retries value will be used to retry any section of
200  * the underlying transmission and reception protocol that
201  * are time bound by timers.
202  *
203  * The response time value must be specified for all transaction types except an
204  * unsequenced, non-RMPP send (see the table below).
205  * The response time value is the length of processing time for the
206  * responder to process the requested transaction, from the point of receiving
207  * the last request packet, to the point of returning the first response packet.
208  * This value is interpreted in microseconds.
209  * If the response time value is zero, an implementation default is used.
210  *
211  * The round trip time must be specified for all transaction types except an
212  * unsequenced, non-RMPP send (see the table below).
213  * The round trip travel time is the maximum time it should take a packet
214  * to travel from the requester to the responder and back to the requester.
215  * This value does not include the processing time at the responder.
216  * This value is interpreted in microseconds.
217  * If the round trip time value is zero, an implementation default is used.
218  *
219  * The transaction timeout should be specified for all transactions
220  * using RMPP to receive a message.
221  * Since, it is not possible for the client to know the size of the
222  * response, IBMF will calculate a reasonable transaction timeout after
223  * receiving the first RMPP data packet of the response at which time the
224  * size of the message will be known.  If this value is greater than the
225  * client's transaction timeout parameter the client's value will be used.
226  * If the client's transaction timeout parameter is 0 the calculated value will
227  * be used.
228  * This value is interpreted in microseconds.
229  * If the transaction timeout value is zero, an implementation default is used.
230  *
231  * See Section 13.6.3.1, of the InfiniBand Architecture Specification,
232  * Volume 1, Release 1.1 for details on how to deduce this value.
233  *
234  * The following table describes the retrans parameters needed for
235  * the various ibmf_msg_transport() flag combinations.
236  *
237  * ibmf_msg_transport() flags   retries      rtv/rttv      trans_to
238  * No Flags                     ignored      ignored       ignored
239  * Sequenced Flag               required     required      required
240  * RMPP Flag                    required     required      ignored
241  * RMPP + Sequenced Flags       required     required      optional
242  */
243 typedef struct _ibmf_retrans_t {
244 	uint32_t	retrans_retries;	/* number of retries */
245 	uint32_t	retrans_rtv;		/* response time value */
246 	uint32_t	retrans_rttv; 		/* round trip travel time */
247 	uint32_t	retrans_trans_to;	/* transaction timeout */
248 } ibmf_retrans_t;
249 
250 typedef struct _ibmf_register_info {
251 	ib_guid_t		ir_ci_guid;
252 	uint_t			ir_port_num;
253 	ibmf_client_type_t	ir_client_class;
254 } ibmf_register_info_t;
255 
256 typedef enum _ibmf_impl_caps {
257 	IBMF_DEF_QP_HDL_P_KEY_ANY		= 0x0001,
258 	IBMF_DEF_QP_HDL_Q_KEY_ANY		= 0x0002,
259 	IBMF_NON_DEF_QP_HDL_P_KEY_ANY		= 0x0004,
260 	IBMF_NON_DEF_QP_HDL_Q_KEY_ANY		= 0x0008
261 } ibmf_impl_caps_t;
262 
263 
264 /*
265  * Defines for channel interface events.
266  * IBMF_CI_OFFLINE :
267  *      Indication to the client that it must cease all ibmf activity
268  *      (after any current activity has terminated). The client must
269  *      release all ibmf resources and unregister from ibmf prior to
270  *      returning from the callback.
271  *
272  *      NOTE1: It is expected that there will exist some higher level
273  *      management entity that will "wake up" the ibmf client once
274  *      the CI is available. The ibmf client may then register with the
275  *      available CI's nodeguid and portnumber.
276  *
277  *	NOTE2: callback implementors must handle the case where the
278  *	callback is invoked AFTER the ibmf resources have been freed by
279  *	another thread.
280  */
281 typedef enum ibmf_async_event_e {
282 	IBMF_CI_OFFLINE		= 0x1
283 } ibmf_async_event_t;
284 
285 /*
286  * ibmf_async_event_cb_t():
287  * IBMF's callback to clients to inform them of events such as
288  * the ibmf services temporarily suspending or resuming.
289  * This notification mechanism covers all asynchronous events
290  * of interest that are not related to IB messages.
291  *
292  * NOTE:
293  * It is possible for the callback function to be called before
294  * ibmf_register() returns. When this happens, the entity doing the
295  * ibmf_register() may see an ibmf_handle being passed to the
296  * callback function that it does not recognize.
297  *
298  * Input arguments:
299  *	ibmf_handle - Handle to the IBMF interface
300  *      clnt_private - is an opaque handle to client specific data
301  *      event_type - specifies the event type the client is being notified of
302  *
303  * Output arguments:
304  *      None
305  *
306  * Return values:
307  *      None
308  */
309 typedef void (*ibmf_async_event_cb_t)(
310 	ibmf_handle_t		ibmf_handle,
311 	void			*clnt_private,
312 	ibmf_async_event_t	event_type);
313 
314 /*
315  * ibmf_msg_cb_t():
316  *
317  * This routine type is called by IBMF when an unsolicited message that
318  * corresponds to one of the class registrants is received. An unsolicited
319  * message is one that was not allocated by this client for the purpose
320  * of executing a transaction using the ibmf_msg_transport() call.
321  * Examples of unsolicited messages are traps, and requests from other
322  * management entities.
323  *
324  * This routine type is also called by IBMF at the end of a transaction
325  * specified in a call to ibmf_msg_transport().
326  *
327  * When it is called as result of an incoming message:
328  *
329  *	The recipient is expected to free the ibmf_msg_t passed in by
330  *	calling ibmf_free_msg(); this freeing should be done before the
331  *	client unregisters.
332  *
333  *	The recipient is expected to not call any routines in the callback
334  *	that may block.
335  *
336  * 	Blocking within the callback is not allowed, but ibmf doesn't enforce
337  *	this.
338  *
339  *	This routine may be called before ibmf_setup_async_cb() returns.
340  *
341  *
342  * Input arguments:
343  *	Handle to the IBMF interface
344  *	Pointer to the Message sent or received
345  *	Callback arguments, specified at registration time (for async callbacks)
346  *		or specified to ibmf_msg_transport()
347  *
348  * Output arguments:
349  *	None
350  *
351  * Return values:
352  *	None
353  */
354 typedef void (*ibmf_msg_cb_t)(
355 	ibmf_handle_t		ibmf_handle,
356 	ibmf_msg_t		*msgp,
357 	void			*args);
358 
359 /* defines for im_msg_flags */
360 #define	IBMF_MSG_FLAGS_GLOBAL_ADDRESS	0x00000010	/* has global addr */
361 
362 /*
363  * ibmf_register():
364  *
365  * An agent needs to register before it can receive any management packets
366  * and a manager needs to register before it can send/receive any management
367  * packets. The registration is on a per port of the node basis.
368  *
369  * A client can register for one class per call to ibmf_register().
370  * The client should set ir_client_class component of the client_info argument
371  * to the class it wants to register for.
372  * ibmf_register() will fail if the class is already registered for,
373  * with the error code IBMF_PORT_IN_USE.
374  *
375  * Note that for some classes, the client can register as agent or manager only
376  * and agent+manager only. An exception to this rule is the UNIVERSAL_CLASS
377  * described below.
378  *
379  * Clients that require to send/receive general UD traffic,
380  * not limited to MADs, over a UD QP may do so by registering
381  * with the UNIVERSAL_CLASS client type.
382  * Unlike the other IBMF client types, any number of clients may
383  * be simultaneously registered for the UNIVERSAL_CLASS on a port.
384  * When registered with the UNIVERSAL_CLASS, a client should only use the
385  * alternate QPs, and never use the default QP handle.
386  * However, a client registered for any other client type may also use
387  * the alternate QPs in addition to using the default QP handle.
388  * IBMF implementations that do not support registration for the UNIVERSAL class
389  * will return IBMF_NOT_SUPPORTED.
390  *
391  * NOTE on usage of qp handles:
392  *
393  * Some implementations support specifying any Q_Key and P_Key
394  * combination when ibmf_qp_handle_t arg is set to IBMF_QP_HANDLE_DEFAULT
395  * in the call to ibmf_msg_transport() and some implementations allow only
396  * the default values of Q_Key (0x8001_0000) and P_Key (0xFFFF/0x7FFFF)
397  * when ibmf_qp_handle_t arg is IBMF_QP_HANDLE_DEFAULT. The client can know
398  * the behavior supported via ibmf_impl_caps_t arg on successful return from
399  * ibmf_register(). ibmf_impl_caps_t arg points to a bit mask of the
400  * capabilities of the platform. If the implementation supports any
401  * P_Key and/or Q_Key value with IBMF_QP_HANDLE_DEFAULT, then
402  * IBMF_DEF_QP_HDL_P_KEY_ANY and/or IBMF_DEF_QP_HDL_Q_KEY_ANY will be set in
403  * ibmf_impl_caps_t.
404  *
405  * Some implementations support specifying any P_Key and Q_Key combination on
406  * a per-request basis when ibmf_qp_handle_t is set to an explicitly allocated
407  * qp handle (the client specifies the P_Key/Q_Key value in ibmf_addr_info_t
408  * argument). IBMA indicates this behavior by setting
409  * IBMF_NON_DEF_QP_HDL_P_KEY_ANY and/or IBMF_NON_DEF_QP_HDL_Q_KEY_ANY in the
410  * ibmf_impl_caps_t arg. In such an implementation, ibmf_modify_qp() does not
411  * change anything in the transport and always returns IBMF_SUCCESS.
412  *
413  * When the implementation supports IBMF_DEF_QP_HDL_P_KEY_ANY and/or
414  * IBMF_DEF_QP_HDL_Q_KEY_ANY, it may map IBMF_QP_HANDLE_DEFAULT to any qp
415  * number(s) supported by the
416  * underlying transport. The client can not not make any assumptions on this
417  * mapping nor can it query ibmf for the qp num being used with
418  * IBMF_QP_HANDLE_DEFAULT. There are cases where the client needs to have
419  * explicit control over the qp number being used by ibmf (eg., agent
420  * redirection). The client should explicitly allocate a qp using
421  * ibmf_alloc_qp() in such cases.
422  *
423  * Also, IBMF_QP_HANDLE_DEFAULT can only be used when the class of the MAD
424  * being sent using ibmf_msg_transport() is the same as the class the client
425  * registered for. If a client wishes to send a MAD class other than the
426  * one it registered for, it should explicitly allocate a qp and use that
427  * qp while sending MADs.
428  *
429  * If the implementation supports
430  * IBMF_DEF_QP_HDL_P_KEY_ANY/IBMF_DEF_QP_HDL_Q_KEY_ANY and/or
431  * IBMF_NON_DEF_QP_HDL_P_KEY_ANY/IBMF_NON_DEF_QP_HDL_Q_KEY_ANY, it is the
432  * implementation's responsibility to ensure that the
433  * requested P_Key and Q_Key can be used by, with in resource limitations,
434  * concurrent sends.
435  *
436  * Clients registering for classes that include an RMPP header in their
437  * MADs must set the IBMF_REG_FLAG_RMPP flag when registering with IBMF.
438  * This must be done regardless of whether the client intends to use
439  * the RMPP protocol or not. The flag is an indicator to IBMF of the
440  * presence of the RMPP header in the MAD.
441  *
442  * IBMF will always insure that receive buffer pointers are offsets into a
443  * single contiguous buffer of memory. The im_msgbufs_recv.im_bufs_mad_hdr,
444  * points to the start of the buffer. The other two pointers,
445  * im_msgbufs_recv.im_bufs_cl_hdr, and im_msgbufs_recv.im_bufs_cl_data,
446  * will point to class specific offsets within the buffer.
447  *
448  * Clients may provide a pointer to a callback function in the client_cb
449  * argument. Implementations of ibmf that require the client_cb to
450  * be specified should return IBMF_INVALID_ARG if the client_cb argument
451  * is NULL.
452  *
453  * This interface may block
454  *
455  * Input arguments:
456  *	Pointer to client registration information
457  *	Version of the interface (IBMF_VERSION)
458  *	flags - set IBMF_REG_FLAG_RMPP if client supports RMPP MAD
459  *		set IBMF_REG_FLAG_NO_OFFLOAD for requiring that processing
460  *			not be offloaded onto a non-interrupt context thread
461  *			on send completions and receive completions.
462  *			(Processsing will be done in the interrupt context)
463  *			The default is to offload the processing to a
464  *			non-interrupt context thread(s).
465  *		set IBMF_REG_FLAG_SINGLE_OFFLOAD for requiring single
466  *			threaded processing if IBMF_REG_FLAG_NO_OFFLOAD
467  *			is not specified. The default is multi-threaded
468  *			processing. It is an error to set this flag if
469  *			IBMF_REG_FLAG_NO_OFFLOAD is set.
470  *      client_cb - callback to be called for asynchronous events that
471  *                  are not related to IB messages
472  *      client_cb_args - opaque pointer to client private data area
473  *
474  * Output arguments:
475  *	Handle to the IBMF interface; used in subsequent interactions
476  *	Pointer to ibmf_impl_caps_t; gives capabilities of the platform
477  *
478  * Return values:
479  *	IBMF_SUCCESS		- registration successful
480  *	IBMF_BAD_VERSION	- registration failed due to invalid version
481  *	IBMF_PORT_IN_USE	- registration failed - some entity already
482  *				  registered for the class on the node/port
483  *				  specified.
484  *	IBMF_BAD_CLASS		- registration failed - invalid class
485  *	IBMF_BAD_PORT		- registration failed - non existent port
486  *	IBMF_BAD_NODE		- registration failed - non existent node
487  *	IBMF_BAD_FLAGS		- IBMF_REG_FLAG_NO_OFFLOAD is specified with
488  *					IBMF_REG_FLAG_SINGLE_OFFLOAD
489  *	IBMF_INVALID_ARG	- registration failed - invalid argument
490  *	IBMF_FAILURE		- registration failed - ibmf internal error
491  *	IBMF_NO_RESOURCES	- registration failed - not enough resources
492  *	IBMF_TRANSPORT_FAILURE	- registration failed - transport call failed
493  *
494  */
495 int	ibmf_register(
496 		ibmf_register_info_t	*client_info,
497 		uint_t			ibmf_version,
498 		uint_t			flags,
499 		ibmf_async_event_cb_t   client_cb,
500 		void			*client_cb_args,
501 		ibmf_handle_t		*ibmf_handle,
502 		ibmf_impl_caps_t	*ibmf_impl_features);
503 
504 #define	IBMF_REG_FLAG_RMPP		0x1
505 #define	IBMF_REG_FLAG_NO_OFFLOAD	0x2
506 #define	IBMF_REG_FLAG_SINGLE_OFFLOAD	0x4
507 
508 /*
509  * ibmf_unregister():
510  *
511  * Unregister a previously established registration.
512  *
513  * This interface may block.
514  *
515  * The client should free any and all ibmf_msg_t's passed in all
516  * "receive msg callbacks" before unregistering. Also, the client should
517  * ensure that it is not trying to send any messages before calling this
518  * routine.
519  *
520  * After successfully returning from this call, ibmf_handle should not be used
521  * for any further interactions with the IBMF.
522  *
523  * Input arguments:
524  *	Handle to the IBMF interface
525  *	flags - unused (should be 0)
526  *
527  * Output arguments:
528  *	Handle to the IBMF interface; will be invalidated following
529  *		this call.
530  *
531  * Return values:
532  *	IBMF_SUCCESS		- unregistration successful
533  *	IBMF_BAD_HANDLE		- unregistration failed - invalid handle
534  *				  passed in.
535  *	IBMF_BUSY		- unregistration failed - client has not
536  *				  freed all the resources (ibmf_msg_t's etc)
537  *				  allocated by the IBMF, the client
538  *				  has not removed all recv callbacks.
539  *	IBMF_INVALID_ARG	- invalid argument
540  *	IBMF_FAILURE		- ibmf internal error
541  *	IBMF_NO_RESOURCES	- not enough resources
542  *	IBMF_TRANSPORT_FAILURE	- transport call failed
543  */
544 int	ibmf_unregister(
545 		ibmf_handle_t		*ibmf_handle,
546 		uint_t			flags);
547 
548 /*
549  * ibmf_setup_async_cb():
550  *
551  * This routine establishes a callback that the IBMF invokes when a message
552  * corresponding to the class corresponding to ibmf_handle is received.
553  * It is an error to call this routine twice without an intervening
554  * call to ibmf_tear_down_async_cb() for the same ibmf_qp_handle/ibmf_handle
555  * combination. Only unsolicited message reception will result in this
556  * callback being invoked.
557  *
558  * This interface may block.
559  *
560  * The callback routine could be invoked before this function returns.
561  *
562  * Input arguments:
563  *	Handle to the IBMF interface
564  *	IBMF QP handle (either allocated via ibmf_alloc_qp() or
565  *	    IBMF_QP_HANDLE_DEFAULT)
566  *	Callback routine
567  *	Argument to be passed when the callback is invoked
568  *	flags - unused (should be 0)
569  *
570  * Output arguments:
571  *	None
572  *
573  * Return values:
574  *	IBMF_SUCCESS		- Callback established successfully
575  *	IBMF_BAD_HANDLE		- failure - invalid handle
576  *	IBMF_BAD_QP_HANDLE	- failure - invalid qp handle
577  *	IBMF_CB_REGISTERED	- failure - callback is already established
578  *	IBMF_INVALID_ARG	- failure - invalid argument
579  */
580 int	ibmf_setup_async_cb(
581 		ibmf_handle_t		ibmf_handle,
582 		ibmf_qp_handle_t	ibmf_qp_handle,
583 		ibmf_msg_cb_t		async_msg_cb,
584 		void			*async_msg_cb_args,
585 		uint_t			flags);
586 
587 /*
588  * ibmf_tear_down_async_cb():
589  *
590  * This routine removes the callback set up using ibmf_setup_async_cb.
591  * There will not be any callbacks if messages are received after successful
592  * return from this routine. There could be message received callbacks during
593  * the execution of this routine.
594  *
595  * This interface may block.
596  *
597  * Input arguments:
598  *	Handle to the IBMF interface
599  *	IBMF QP handle (either allocated via ibmf_alloc_qp() or
600  *	    IBMF_QP_HANDLE_DEFAULT)
601  *	flags - unused (should be 0)
602  *
603  * Output arguments:
604  *	None
605  *
606  * Return values:
607  *	IBMF_SUCCESS		- call successful
608  *	IBMF_BAD_HANDLE		- failure - invalid ibmf handle or qp handle
609  *	IBMF_BAD_QP_HANDLE	- failure - invalid qp handle
610  *	IBMF_CB_NOT_REGISTERED	- No callback currently registered
611  *	IBMF_INVALID_ARG	- failure - invalid argument
612  */
613 int	ibmf_tear_down_async_cb(
614 		ibmf_handle_t		ibmf_handle,
615 		ibmf_qp_handle_t	ibmf_qp_handle,
616 		uint_t			flags);
617 
618 /*
619  * ibmf_msg_transport():
620  *
621  * This interface does not block if a callback is specified.
622  *
623  * IBMF makes some preliminary checks and returns failure if the
624  * checks fail. The callback, if any, is not called in this case. If the
625  * checks pass, the message specified in msgp->im_msgbufs_send is relayed
626  * down into the transport layer over as many MAD packets as necessary
627  * to accommodate the entire message. The IBMF_MSG_TRANS_FLAG_RMPP flag is set
628  * when the RMPP protocol should be used when sending out the message.
629  * The IBMF_MSG_TRANS_FLAG_SEQ is set when the the transaction is a
630  * sequenced transaction (send and receive) where the client expects a reply.
631  * The transaction completion callback will be invoked when IBMF
632  * is done processing the send operation and after having received the
633  * complete response if one is due, with or without errors.
634  * If no callback is specified, the routine blocks till the underlying
635  * transport is done processing the send request and received the complete
636  * response, with or without errors
637  *
638  * When sending non-MAD traffic over the alternate QPs,
639  * if the message data exceeds the maximum MTU supported, the call will fail
640  * with the status IBMF_BAD_SIZE.
641  *
642  * NOTE: If the call is asynchronous, the callback may be invoked before
643  * the call returns. The client should be prepared to handle this possibility.
644  *
645  * The message is sent to the address specified by msgp->im_local_addr and
646  * msgp->im_global_addr (global address invalid for SMPs and is ignored).
647  * Note that the desired Q_Key and P_Key can be specified via
648  * msgp->im_local_addr. If the ibmf implementation does not support any
649  * value of Q_Key/P_Key with IBMF_QP_HANDLE_DEFAULT, it is an error to specify
650  * a Q_Key other than 0x8001_0000 and a P_Key other than 0xFFFF/0x7FFF when
651  * ibmf_qp_handle_t arg is set IBMF_QP_HANDLE_DEFAULT. (See the NOTE in
652  * ibmf_register() on what the platform supports.) In this case, when a q_key
653  * value other than 0x8001_0000 and/or P_Key value other than
654  * 0xFFFF/0x7FFF is desired, the client should allocate its own qp handle
655  * with the desired values and use that in the ibmf_msg_transport() call.
656  * ibmf_msg_transport() returns IBMF_BAD_HANDLE to flag the error.
657  *
658  * NOTE: If the qp handle is not the default handle (ie., not
659  * IBMF_QP_HANDLE_DEFAULT), it is possible for some other thread to modify
660  * P_Key and Q_Key value associated with the qp_handle while this function
661  * is executing; this routine may return IBMF_BAD_HANDLE if that
662  * happens. It is possible that the modification happens after this routine
663  * validates the values, in which case no error may be flagged.
664  *
665  * NOTE: if the class of the MAD being sent is not the same as what the
666  * ibmf_handle (obtained via ibmf_register()) corresponds to, ibmf_qp_handle
667  * can not be set to IBMF_QP_HANDLE_DEFAULT.
668  *
669  * NOTE on notation: A message structure allocated by an ibmf_alloc_msg()
670  * call or one returned in an unsolicted callback will be referred to as
671  * "Message". When referring to a message in the general sense of the word,
672  * it will be referred to as "message".
673  * NOTE: Rules for reusing an IBMF Message:
674  * Clients may reuse a Message, either provided by IBMF in an unsolicited
675  * request, or one obtained through the ibmf_alloc_msg() call, for a
676  * subsequent request from the client itself. The client may reuse a Message
677  * to avoid the overhead of allocating a new Message and new send buffers.
678  * To safely reuse Messages, the client must follow the rules listed below.
679  * 1) Using the receive buffers to send the message header and data:
680  * If the Message has been provided by IBMF in an unsolicited request,
681  * it will have its receive buffers already allocated and pointed to by
682  * im_msgbufs_recv pointers by IBMF. In such a case, a client may set
683  * the im_msgbufs_send pointers to the values in the im_msgbufs_recv
684  * thus reusing the buffer allocated by IBMF for the incoming Message.
685  * However, this may be done only when the request from the client is
686  * a non-sequenced operation i.e. IBMF_MSG_TRANS_FLAG_SEQ flag is not set.
687  * An attempt to reuse the receive buffer for any other operation will
688  * result in the failure of the ibmf_msg_transport() call with the error
689  * status IBMF_REQ_INVALID.
690  * 2) Providing send buffers to send the message header and data:
691  * If the client provides its own send buffers for the message header and data,
692  * the IBMF Message may be reused for both sequenced and non-sequenced
693  * transactions. Any receive buffers that were allocated by IBMF from a
694  * previous transaction, will be freed up once the Message is reused in an
695  * ibmf_msg_transport() call. New receive buffers will be provided by IBMF
696  * if the new transaction is a sequenced transaction.
697  *
698  * Input arguments:
699  *	Handle to the IBMF interface
700  *	IBMF QP handle (either allocated via ibmf_alloc_qp() or
701  *	    IBMF_QP_HANDLE_DEFAULT [see the NOTE above regarding MAD class])
702  *	Pointer to ibmf_msg_t to be sent
703  *	A pointer to ibmf_retrans_t to specify retries and timeout
704  *	values to use during the transaction.
705  *	Function to be called when the operation is done.
706  *		(the routine is blocking if this function is NULL).
707  *	Argument to be passed when the callback is invoked
708  *	flags - set IBMF_MSG_TRANS_FLAG_RMPP if send should use RMPP
709  *		set IBMF_MSG_TRANS_FLAG_SEQ if transaction is sequenced
710  *
711  * Output arguments:
712  *	None
713  *
714  * Return values:
715  *	IBMF_SUCCESS		- If blocking call, the operation was
716  *				  completed by the transport. For
717  *				  non blocking call, the request passed basic
718  *				  checks and the callback should be expected.
719  *	IBMF_BAD_HANDLE		- operation failure - invalid ibmf handle
720  *	IBMF_BAD_QP_HANDLE	- operation failure - invalid qp handle or
721  *				  q_key/p_key in msgp->ip_local_addr is
722  *				  inconsistent with ibmf_qp_handle (for eg.,
723  *				  handle is IBMF_QP_HANDLE_DEFAULT and
724  *				  Q_Key/P_Key is non-default and platform
725  *				  doesn't support non-default keys on this
726  *				  qp_handle or handle is IBMF_QP_HANDLE_DEFAULT
727  *				  but MAD class is not the one specified to
728  *				  ibmf_register())
729  *	IBMF_BAD_PORT_STATE	- operation failure - port in incorrect state
730  *				  for packet transmission
731  *	IBMF_NO_RESOURCES	- operation failure - temporarily out of
732  *				  resources and call may succeed on a retry
733  *	IBMF_FAILURE		- operation failure - unspecified error
734  *	IBMF_BAD_SIZE		- data size in message to long for single UD pkt
735  *	IBMF_BAD_RMPP_OPT	- the class or QP does not support RMPP
736  *	IBMF_PARTIAL_TRANSFER	- only part of the received data was returned
737  *				  to the client up to the message size limit.
738  *	IBMF_TRANS_TIMEOUT	- transaction timed out
739  *	IBMF_TRANS_FAILURE	- transaction failure
740  *	IBMF_REQ_INVALID	- tried to reuse receive buffer for sending
741  *				  message data in a sequenced operation.
742  *	IBMF_BUSY		- message already being processed
743  *	IBMF_INVALID_ARG	- invalid argument
744  *	IBMF_FAILURE		- ibmf internal error
745  *	IBMF_NO_RESOURCES	- not enough resources
746  *	IBMF_TRANSPORT_FAILURE	- transport call failed
747  *	IBMF_BAD_SIZE		- if msgp->im_msgbufs_send.im_bufs_mad_hdr
748  *				  is NULL when ibmf_qp_handle is the default
749  *				  QP handle, OR, if
750  *				  msgp->im_msgbufs_send.im_bufs_mad_hdr
751  *				  is NULL when ibmf_qp_handle is not the default
752  *				  QP handle and the alternate QP is not being
753  *				  used for RAW data traffic.
754  */
755 int	ibmf_msg_transport(
756 		ibmf_handle_t		ibmf_handle,
757 		ibmf_qp_handle_t	ibmf_qp_handle,
758 		ibmf_msg_t		*msgp,
759 		ibmf_retrans_t		*retrans,
760 		ibmf_msg_cb_t		msg_cb,
761 		void			*msg_cb_args,
762 		uint_t			flags);
763 
764 #define	IBMF_MSG_TRANS_FLAG_RMPP	0x1
765 #define	IBMF_MSG_TRANS_FLAG_SEQ		0x2
766 
767 /*
768  * ibmf_alloc_msg():
769  *
770  * Alloc memory to hold the message being sent out or being received.
771  * The IBMF client must provide the buffers in im_msgbufs_send before
772  * calling ibmf_msg_transport(). If this message is used in a sequenced
773  * transaction response or an unsolicited transaction, IBMF will provide
774  * the buffers in im_msgbufs_recv with the response, once the
775  * transaction is complete.
776  * The client is responsible for freeing the buffers pointed to in
777  * im_msgbufs_send when they are no longer needed. IBMF will free the buffers
778  * in im_msgbufs_send once ibmf_free_msg() is called by the client.
779  *
780  * This interface may block if IBMF_ALLOC_SLEEP is specified.
781  *
782  * Input arguments:
783  *	Handle to the IBMF interface
784  *	sleep flag - IBMF_ALLOC_SLEEP/IBMF_ALLOC_NOSLEEP
785  *
786  * Output arguments:
787  *	Pointer to the buffer allocated; may be NULL if system runs out
788  *		of memory and IBMF_ALLOC_NOSLEEP is specified.
789  *
790  * Return values:
791  *	IBMF_SUCCESS		- allocation successful
792  *	IBMF_BAD_HANDLE		- alloc failed - Invalid IBMF handle passed in
793  *	IBMF_BAD_FLAGS		- allocation failed - invalid flags
794  *	IBMF_INVALID_ARG	- allocation failed - invalid argument
795  *	IBMF_FAILURE		- ibmf internal error
796  *	IBMF_NO_RESOURCES	- not enough resources
797  *	IBMF_TRANSPORT_FAILURE	- transport call failed
798  */
799 int	ibmf_alloc_msg(
800 		ibmf_handle_t		ibmf_handle,
801 		int			flag,
802 		ibmf_msg_t		**ibmf_msgpp);
803 
804 
805 /*
806  * ibmf_free_msg():
807  *
808  * Free message context. This message context is either allocated when
809  * the client calls ibmf_alloc_msg() or is allocated by IBMF automatically in
810  * response to incoming unsolicited messages. For all incoming messages,
811  * solicited or unsolicited, IBMF will provide the buffers pointed to
812  * in im_msgbufs_recv. In addition to freeing the message context,
813  * IBMF is responsible for freeing any buffers allocated by itself,
814  * and pointed to in im_msgbufs_recv when the client calls ibmf_free_msg().
815  *
816  * This interface does not block
817  *
818  * Input arguments:
819  *	Handle to the IBMF interface
820  *	Pointer to the buffer to be freed
821  *
822  * Output arguments:
823  *	None
824  *
825  * Return values:
826  *	IBMF_SUCCESS		- free successful
827  *	IBMF_BAD_HANDLE		- free failed - Invalid IBMF handle passed in
828  *	IBMF_BUSY		- free failed - message in use
829  *	IBMF_INVALID_ARG	- free failed - invalid argument
830  *	IBMF_FAILURE		- ibmf internal error
831  *	IBMF_NO_RESOURCES	- not enough resources
832  *	IBMF_TRANSPORT_FAILURE	- transport call failed
833  */
834 int	ibmf_free_msg(
835 		ibmf_handle_t		ibmf_handle,
836 		ibmf_msg_t		**ibmf_msgpp);
837 
838 
839 /*
840  * ibmf_alloc_qp():
841  *
842  * Alloc a qp with the specified P_key and Q_key values. A pointer to
843  * ibmf_qp_handle_t is returned if the call is successful. The qp is
844  * associated with the port that ibmf_handle corresponds to.
845  *
846  * Non-special QPs may be tagged to send and receive
847  * one of the three types of traffic, either non-MAD UD, or MADs with
848  * RMPP or MADs without RMPP.
849  * The tagging should be done when calling ibmf_alloc_qp()
850  * by setting the flags argument in the ibmf_alloc_qp() interface
851  * function call to specifically defined values.
852  * Only one, and at least one, of these flags must be specified.
853  *
854  * A client may specify the IBMF_ALT_QP_RAW_ONLY flag to limit
855  * the QP to non-MAD UD traffic. If this flag is specified, and the
856  * IBMF implementation supports this flag, the client may send
857  * and receive MADs up to the maximum MTU supported on the link
858  * connected to the chosen port.
859  *
860  * If any of the flag options are not supported by the IBMF implementation,
861  * IBMF will return IBMF_NOT_SUPPORTED.
862  *
863  * This interface may block
864  *
865  * Input arguments:
866  *	Handle to the IBMF interface
867  *	P_Key
868  *	Q_Key
869  *	flags - IBMF_ALT_QP_MAD_NO_RMPP = MAD traffic only,
870  *		IBMF_ALT_QP_MAD_RMPP = RMPP MADs only,
871  *		IBMF_ALT_QP_RAW_ONLY = Non-MAD UD traffic only
872  *
873  * Output arguments:
874  *	Pointer to the qp handle
875  *
876  * Return values:
877  *	IBMF_SUCCESS		- allocation successful
878  *	IBMF_BAD_HANDLE		- alloc failed - Invalid IBMF handle passed in
879  *	IBMF_NO_RESOURCES	- alloc failed - no resources for qp allocation
880  *	IBMF_BAD_FLAGS		- allocation failed - bad flag combination
881  *	IBMF_NOT_SUPPORTED	- allocation failed - unsupported traffic
882  *	IBMF_INVALID_ARG	- allocation failed - invalid argument
883  *	IBMF_NO_RESOURCES	- not enough resources
884  *	IBMF_TRANSPORT_FAILURE	- transport call failed
885  *
886  */
887 int	ibmf_alloc_qp(
888 		ibmf_handle_t		ibmf_handle,
889 		ib_pkey_t		p_key,
890 		ib_qkey_t		q_key,
891 		uint_t			flags,
892 		ibmf_qp_handle_t	*ibmf_qp_handlep);
893 
894 /* Flags values for ibmf_alloc_qp() flags argument */
895 #define	IBMF_ALT_QP_MAD_NO_RMPP		0x1
896 #define	IBMF_ALT_QP_MAD_RMPP		0x2
897 #define	IBMF_ALT_QP_RAW_ONLY		0x4
898 
899 /*
900  * ibmf_query_qp():
901  *
902  * This function returns the P_Key, Q_Key, qp num and the port num that the
903  * qp_handle corresponds to. It is possible that some other thread is
904  * modifying the p_key and q_key for the qp_handle while this function is
905  * executing or some other thread modifies the p_key/q_key values after the
906  * function returns.
907  * It is the callers responsibility to deal with these cases.
908  *
909  * This interface does not block.
910  *
911  * Input arguments:
912  *	Handle to the IBMF interface
913  *	IBMF qp handle (this can not be IBMF_QP_HANDLE_DEFAULT)
914  *	flags - unused (should be 0)
915  *
916  * Output arguments:
917  *	Pointer to QP num
918  *	Pointer to P_key
919  *	Pointer to Q_key
920  *	Pointer to the port num
921  *
922  * Return values:
923  *	IBMF_SUCCESS		- call successful
924  *	IBMF_BAD_HANDLE		- failure - Invalid IBMF handle
925  *	IBMF_BAD_QP_HANDLE	- failure - Invalid qp handle
926  *	IBMF_INVALID_ARG	- failure - invalid argument
927  *	IBMF_TRANSPORT_FAILURE	- transport call failed
928  */
929 int	ibmf_query_qp(
930 		ibmf_handle_t		ibmf_handle,
931 		ibmf_qp_handle_t	ibmf_qp_handle,
932 		uint_t			*qp_num,
933 		ib_pkey_t		*p_key,
934 		ib_qkey_t		*q_key,
935 		uint8_t			*portnum,
936 		uint_t			flags);
937 
938 /*
939  * ibmf_modify_qp():
940  *
941  * This function sets the p_key and q_key associated with the qp handle to the
942  * values specified.
943  *
944  * This interface may block.
945  *
946  * Input arguments:
947  *	Handle to the IBMF interface
948  *	IBMF qp handle (this can not be IBMF_QP_HANDLE_DEFAULT)
949  *	P_key
950  *	Q_key
951  *	flags - unused (should be 0)
952  *
953  * Output arguments:
954  *	None
955  *
956  * Return values:
957  *	IBMF_SUCCESS		- call successful
958  *	IBMF_BAD_HANDLE		- failure - Invalid IBMF handle or qp handle
959  *	IBMF_BAD_QP_HANDLE	- failure - Invalid qp handle
960  *	IBMF_INVALID_ARG	- failure - invalid argument
961  *	IBMF_TRANSPORT_FAILURE	- transport call failed
962  */
963 int	ibmf_modify_qp(
964 		ibmf_handle_t		ibmf_handle,
965 		ibmf_qp_handle_t	ibmf_qp_handle,
966 		ib_pkey_t		p_key,
967 		ib_qkey_t		q_key,
968 		uint_t			flags);
969 
970 /*
971  * ibmf_free_qp():
972  *
973  * This function frees a qp allocated by ibmf_alloc_qp().
974  * The ibmf handle argument must be the same ibmf handle used in the
975  * corresponding ibmf_alloc_qp() call. ibmf_unregister() for the ibmf
976  * handle will not be allowed until all associated qps are freed.
977  * The client must have already invoked ibmf_tear_down_recv_cb()
978  * for this qp handle prior to calling ibmf_free_qp(), else IBMF_BUSY
979  * will be returned.
980  *
981  * This interface may block.
982  *
983  * Input arguments:
984  *	Handle to the IBMF interface
985  *	IBMF qp handle pointer (this can not be IBMF_QP_HANDLE_DEFAULT)
986  *	flags - unused (should be 0)
987  *
988  * Output arguments:
989  *	IBMF qp handle; will be invalidated following successful return from
990  *	this call
991  *
992  * Return values:
993  *	IBMF_SUCCESS		- call successful
994  *	IBMF_BAD_HANDLE		- failure - Invalid IBMF handle or qp handle
995  *	IBMF_BAD_QP_HANDLE	- failure - Invalid qp handle
996  *	IBMF_BUSY		- failure - callback is active
997  *	IBMF_INVALID_ARG	- failure - invalid argument
998  *	IBMF_TRANSPORT_FAILURE	- transport call failed
999  */
1000 int	ibmf_free_qp(
1001 		ibmf_handle_t		ibmf_handle,
1002 		ibmf_qp_handle_t	*ibmf_qp_handle,
1003 		uint_t			flags);
1004 
1005 #ifdef __cplusplus
1006 }
1007 #endif
1008 
1009 #endif /* _SYS_IB_MGT_IBMF_IBMF_H */
1010