xref: /illumos-gate/usr/src/uts/common/sys/rsm/rsm_in.h (revision 1f5207b7604fb44407eb4342aff613f7c4508508)
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 1999-2003 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #ifndef _RSM_IN_H
28 #define	_RSM_IN_H
29 
30 #pragma ident	"%Z%%M%	%I%	%E% SMI"
31 
32 #ifdef	__cplusplus
33 extern "C" {
34 #endif
35 
36 #include <sys/ddi.h>
37 #include <sys/sunddi.h>
38 #include <sys/rsm/rsm.h>
39 #include <sys/rsm/rsmpi.h>
40 
41 #define	DRIVER_NAME	"rsm"
42 
43 
44 #define	RSM_DRIVER_MINOR	0
45 
46 #define	RSM_CNUM	8
47 
48 #define	RSMIPC_SZ	10	/* number of outstanding requests, max: 256 */
49 
50 #define	RSMIPC_MAX_MESSAGES	64 /* max msgs that receiver can buffer */
51 #define	RSMIPC_LOTSFREE_MSGBUFS	16 /* chunks of credits sent to sender  */
52 
53 /*
54  * The base for Sun RSMAPI Kernel Agent service idenitifiers is RSM_INTR_T_KA
55  * as defined below. This is as per the RSMPI specification. Thus,
56  * in the kernel agent, we need to use this value as the service identifier
57  * while registering the service handlers.
58  */
59 #define	RSM_INTR_T_KA	0x88
60 #define	RSM_SERVICE	RSM_INTR_T_KA
61 
62 #define	RSM_PRI		2
63 #define	RSM_QUEUE_SZ	256
64 
65 #define	RSM_LOCK	0
66 #define	RSM_NOLOCK	1
67 
68 #define	RSM_MAX_NUM_SEG	4095	/* default value for max imp and exp segs */
69 
70 #define	RSM_MAX_NODE	64	/* maximum number of nodes in the cluster */
71 
72 #define	RSM_MAX_CTRL	32	/* maximum number of controllers per node */
73 
74 /*
75  * The following defines UINT_MAX rounded down to a page aligned value.
76  */
77 #define	RSM_MAXSZ_PAGE_ALIGNED (UINT_MAX & PAGEMASK)
78 /*
79  * Define TRASHSIZE as the maximum possible size which is page aligned
80  * This value cannot be 0xffffffffffffe000 since this is taken as a
81  * negative value in the devmap_umem_remap call, thus causing the call
82  * to fail.
83  */
84 #define	TRASHSIZE 0x7fffffffffffe000
85 
86 #define	RSM_ACCESS_READ				0444
87 #define	RSM_ACCESS_WRITE			0222
88 #define	RSM_ACCESS_TRUSTED			0666
89 
90 /* flag values for rsmseg_unload */
91 #define	DISCONNECT	1
92 #define	NO_DISCONNECT	0
93 
94 struct rsm_driver_data {
95 	kmutex_t	drv_lock;
96 	kcondvar_t	drv_cv;
97 	int		drv_state;	/* RSM_DRV_YYYY states */
98 	int		drv_memdel_cnt; /* number of memdel callbacks */
99 };
100 
101 /* rsm driver state */
102 #define	RSM_DRV_NEW			0
103 #define	RSM_DRV_OK			1
104 #define	RSM_DRV_PREDEL_STARTED		2
105 #define	RSM_DRV_PREDEL_COMPLETED	3
106 #define	RSM_DRV_POSTDEL_IN_PROGRESS	4
107 #define	RSM_DRV_DR_IN_PROGRESS		5
108 #define	RSM_DRV_REG_PROCESSING		6
109 #define	RSM_DRV_UNREG_PROCESSING	7
110 
111 /* internal flags */
112 #define	RSM_DR_QUIESCE		0
113 #define	RSM_DR_UNQUIESCE	1
114 
115 typedef enum {
116 	RSM_STATE_NEW = 0,
117 	RSM_STATE_NEW_QUIESCED,
118 	RSM_STATE_BIND,
119 	RSM_STATE_BIND_QUIESCED,
120 	RSM_STATE_EXPORT,
121 	RSM_STATE_EXPORT_QUIESCING,
122 	RSM_STATE_EXPORT_QUIESCED,
123 	RSM_STATE_ZOMBIE,
124 	RSM_STATE_CONNECTING,
125 	RSM_STATE_ABORT_CONNECT,
126 	RSM_STATE_CONNECT,
127 	RSM_STATE_CONN_QUIESCE,
128 	RSM_STATE_MAPPING,
129 	RSM_STATE_ACTIVE,
130 	RSM_STATE_MAP_QUIESCE,
131 	RSM_STATE_DISCONNECT,
132 	RSM_STATE_END
133 } rsm_resource_state_t;
134 
135 typedef enum {
136 	RSM_RESOURCE_EXPORT_SEGMENT,
137 	RSM_RESOURCE_IMPORT_SEGMENT,
138 	RSM_RESOURCE_BAR
139 }rsm_resource_type_t;
140 
141 /*
142  * All resources have the only common info. whether it is a segment or
143  * a notification queue.
144  */
145 typedef struct rsm_resource {
146 	kmutex_t		rsmrc_lock;	/* sync on resource */
147 	minor_t			rsmrc_num;	/* (minor) number */
148 	rsm_memseg_id_t		rsmrc_key;	/* user key */
149 	mode_t			rsmrc_mode;	/* access permission */
150 	struct adapter		*rsmrc_adapter;	/* controller number */
151 	rsm_node_id_t		rsmrc_node;	/*  nodeid */
152 	rsm_resource_type_t	rsmrc_type;	/* type of this resource */
153 	rsm_resource_state_t	rsmrc_state;	/* segment state */
154 	struct rsm_resource	*rsmrc_next;
155 } rsmresource_t;
156 
157 #define	RSMRC_BLKSZ	16
158 #define	RSMRC_RESERVED	((rsmresource_t *)0x1)
159 
160 #define	RSM_HASHSZ	128
161 
162 #define	RSM_USER_MEMORY		0x1
163 #define	RSM_KERNEL_MEMORY	0x2
164 #define	RSM_EXPORT_WAIT		0x4
165 #define	RSM_SEGMENT_POLL	0x8
166 #define	RSM_FORCE_DISCONNECT	0x10
167 #define	RSM_IMPORT_DUMMY	0x20
168 /*
169  * The following macro is used within the kernel agent to indicate that
170  * rebind/unbind is allowed for an exported segment. It is a part of the
171  * segment's s_flags field.
172  */
173 #define	RSMKA_ALLOW_UNBIND_REBIND	0x40
174 #define	RSM_REPUBLISH_WAIT	0x80
175 #define	RSM_DR_INPROGRESS	0x100
176 #define	RSM_FORCE_DESTROY_WAIT	0x200
177 #define	RSMKA_SET_RESOURCE_DONTWAIT	0x400
178 
179 #define	RSMRC_LOCK(p)	mutex_enter(&(p)->rsmrc_lock)
180 #define	RSMRC_UNLOCK(p)	mutex_exit(&(p)->rsmrc_lock)
181 #define	RSMRC_HELD(p)	MUTEX_HELD(&(p)->rsmrc_lock)
182 #define	RSMRC_TRY(p)	mutex_tryenter(&(p)->rsmrc_lock)
183 
184 typedef struct rsm_region {
185 	caddr_t		r_vaddr;	/* exported virtual address */
186 	size_t		r_len;		/* length of export region */
187 	offset_t	r_off;		/* offset of this region in segment */
188 	struct as	*r_asp;
189 	struct rsm_region *r_next;	/* next region of segment */
190 }rsm_region;
191 
192 typedef struct rsm_cookie {
193 	devmap_cookie_t		c_dhp;		/* devmap cookie handle */
194 	offset_t		c_off;		/* offset of mapping	*/
195 	size_t			c_len;		/* len of mapping	*/
196 	struct rsm_cookie	*c_next;	/* next handle		*/
197 }rsmcookie_t;
198 
199 typedef struct rsm_mapinfo {
200 	dev_info_t	*dip;
201 	uint_t		dev_register;
202 	off_t		dev_offset;
203 	off_t		start_offset;
204 	size_t		individual_len;
205 	struct rsm_mapinfo *next;
206 } rsm_mapinfo_t;
207 
208 
209 
210 /*
211  * Shared Importer data structure
212  *
213  */
214 typedef struct rsm_import_share {
215 	kmutex_t	rsmsi_lock;	/* lock for shared importers	*/
216 	kcondvar_t	rsmsi_cv;	/* condvar to wait at		*/
217 	rsm_node_id_t	rsmsi_node;
218 	rsm_memseg_id_t	rsmsi_segid;
219 	size_t		rsmsi_seglen;
220 	rsm_memseg_import_handle_t	rsmsi_handle; /* RSMPI handle */
221 	uint_t		rsmsi_state;
222 #define	RSMSI_STATE_NEW			0x0001
223 #define	RSMSI_STATE_CONNECTING		0x0002
224 #define	RSMSI_STATE_ABORT_CONNECT	0x0004
225 #define	RSMSI_STATE_CONNECTED		0x0008
226 #define	RSMSI_STATE_CONN_QUIESCE	0x0010
227 #define	RSMSI_STATE_MAPPED		0x0020
228 #define	RSMSI_STATE_MAP_QUIESCE		0x0040
229 #define	RSMSI_STATE_DISCONNECTED	0x0080
230 
231 	uint_t		rsmsi_refcnt;	/* ref count of importers	*/
232 	uint_t		rsmsi_mapcnt;	/* count of mapped importers	*/
233 	mode_t		rsmsi_mode;	/* mode of last (re)publish	*/
234 	uid_t		rsmsi_uid;
235 	gid_t		rsmsi_gid;
236 	rsm_mapinfo_t	*rsmsi_mapinfo;	/* register, offset, len values */
237 	uint_t		rsmsi_flags;	/* flags			*/
238 #define	RSMSI_FLAGS_ABORTDONE	0x0001	/* NOT_IMPORTING msg for abort conn */
239 					/* has been sent		    */
240 	void		*rsmsi_cookie;	/* cookie of the first seg connect */
241 } rsm_import_share_t;
242 
243 #define	RSMSI_LOCK(sharep)	mutex_enter(&(sharep)->rsmsi_lock)
244 #define	RSMSI_UNLOCK(sharep)	mutex_exit(&(sharep)->rsmsi_lock)
245 #define	RSMSI_HELD(sharep)	MUTEX_HELD(&(sharep)->rsmsi_lock)
246 #define	RSMSI_TRY(sharep)	mutex_tryenter(&(sharep)->rsmsi_lock)
247 
248 typedef struct rsm_seginfo {
249 	rsmresource_t		s_hdr;		/* resource hdr */
250 #define	s_state	s_hdr.rsmrc_state	/* segment state */
251 #define	s_adapter s_hdr.rsmrc_adapter
252 #define	s_node	s_hdr.rsmrc_node
253 #define	s_lock	s_hdr.rsmrc_lock
254 #define	s_minor	s_hdr.rsmrc_num		/* minor # of segment */
255 #define	s_key	s_hdr.rsmrc_key		/* user segment key */
256 #define	s_mode	s_hdr.rsmrc_mode	/* user segment mode */
257 #define	s_type	s_hdr.rsmrc_type	/* segment type */
258 	uid_t			s_uid;		/* owner id */
259 	gid_t			s_gid;		/* owner id */
260 
261 	size_t			s_len;		/* total segment size */
262 	rsm_region		s_region;	/* regions of segment */
263 
264 	int			s_flags;
265 	int			s_pollflag;	/* indicates poll status */
266 
267 	kcondvar_t		s_cv;		/* condition to wait on */
268 
269 	rsm_memseg_id_t		s_segid;	/* NIC segment id */
270 
271 	int		s_acl_len;		/* length of access list */
272 	rsmapi_access_entry_t *s_acl;		/* access list */
273 	rsm_access_entry_t *s_acl_in;		/* access list with hwaddr */
274 
275 	struct pollhead	s_poll;
276 	uint32_t	s_pollevent;
277 	pid_t 		s_pid;
278 
279 	rsmcookie_t	*s_ckl;		/* list of devmap cookie */
280 
281 	size_t		s_total_maplen;
282 	rsm_mapinfo_t	*s_mapinfo;	/* register, offset, len  */
283 
284 	union {
285 		rsm_memseg_import_handle_t	in;
286 		rsm_memseg_export_handle_t	out;
287 	} s_handle;			/* NIC handle for segment */
288 
289 	/*
290 	 * This field is used to indicate the cookie returned by the
291 	 * ddi_umem_lock when binding pages for an export segment.
292 	 * Also, for importers on the same node as the export segment,
293 	 * this field indicates the cookie used during import mapping.
294 	 */
295 	ddi_umem_cookie_t	s_cookie;
296 	rsm_import_share_t	*s_share;	/* shared importer data	    */
297 	/*
298 	 * This field in an import segments indicates the number of
299 	 * putv/getv operations in progress and in an export segment
300 	 * it is the number of putv/getv ops currently using it as
301 	 * a handle in the iovec.
302 	 */
303 	uint_t			s_rdmacnt;
304 	struct proc		*s_proc;
305 } rsmseg_t;
306 
307 #define	rsmseglock_acquire(p)	RSMRC_LOCK((rsmresource_t *)(p))
308 #define	rsmseglock_release(p)	RSMRC_UNLOCK((rsmresource_t *)(p))
309 #define	rsmseglock_held(p)	RSMRC_HELD((rsmresource_t *)(p))
310 #define	rsmseglock_try(p)	RSMRC_TRY((rsmresource_t *)(p))
311 
312 #define	rsmsharelock_acquire(p)	RSMSI_LOCK(p->s_share)
313 #define	rsmsharelock_release(p)	RSMSI_UNLOCK(p->s_share)
314 #define	rsmsharelock_held(p)	RSMSI_HELD(p->s_share)
315 #define	rsmsharelock_try(p)	RSMSI_TRY(p->s_share)
316 
317 /*
318  * Resource elements structure
319  */
320 typedef struct {
321 	int		rsmrcblk_avail;
322 	rsmresource_t	*rsmrcblk_blks[RSMRC_BLKSZ];
323 }rsmresource_blk_t;
324 
325 struct rsmresource_table {
326 	krwlock_t	rsmrc_lock;
327 	int		rsmrc_len;
328 	int		rsmrc_sz;
329 	rsmresource_blk_t **rsmrc_root;
330 };
331 
332 /*
333  * Struct for advertised resource list
334  */
335 /*
336  * Hashtable structs
337  * bucket points to an array of pointers, each entry in the bucket array
338  * points to a linked list of resource items.
339  * bucket index = bucket_address%RSM_HASHSZ
340  */
341 typedef struct rsmhash_table {
342 	krwlock_t		rsmhash_rw;
343 	rsmresource_t		**bucket;
344 } rsmhash_table_t;
345 
346 /*
347  * Remote messaging related structure
348  */
349 
350 /*
351  * Flags for ipc slot
352  */
353 #define	RSMIPC_FREE	0x1			/* slot is free */
354 #define	RSMIPC_PENDING	0x2			/* slot has pending request */
355 
356 #define	RSMIPC_SET(x, v)	((x)->rsmipc_flags |= (v))
357 #define	RSMIPC_GET(x, v)	((x)->rsmipc_flags & (v))
358 #define	RSMIPC_CLEAR(x, v)	((x)->rsmipc_flags &= ~(v))
359 
360 typedef struct rsmipc_slot {
361 	kmutex_t 	rsmipc_lock;		/* lock for remote msgs */
362 	kcondvar_t	rsmipc_cv;		/* condition var to wait on */
363 	int		rsmipc_flags;
364 	rsmipc_cookie_t	rsmipc_cookie;		/* cookie of request in wire */
365 	void 		*rsmipc_data;		/* ptr to data to copy */
366 }rsmipc_slot_t;
367 
368 /*
369  * Messaging struc
370  */
371 typedef struct {
372 	kmutex_t	lock;
373 	kcondvar_t	cv;
374 	int		count;
375 	int		wanted;
376 	int		sequence;
377 	rsmipc_slot_t	slots[RSMIPC_SZ];
378 }rsm_ipc_t;
379 
380 /*
381  * These tokens are used for building the list of remote node importers
382  * of a segment exported from the local node
383  */
384 typedef struct importing_token {
385 	struct importing_token	*next;
386 	rsm_memseg_id_t		key;
387 	rsm_node_id_t		importing_node;
388 	void			*import_segment_cookie;
389 	rsm_addr_t		importing_adapter_hwaddr;
390 } importing_token_t;
391 
392 typedef struct {
393 	kmutex_t		lock;
394 	importing_token_t	**bucket;
395 } importers_table_t;
396 
397 /*
398  * Used by the rsm_send_republish() fn
399  */
400 typedef struct republish_token {
401 	struct republish_token	*next;
402 	rsm_memseg_id_t		key;
403 	rsm_node_id_t		importing_node;
404 	rsm_permission_t	permission;
405 } republish_token_t;
406 
407 /*
408  * data strucuture for list manipulation
409  */
410 typedef struct list_element {
411 	struct list_element	*next;
412 	rsm_node_id_t		nodeid;
413 	uint32_t		flags;
414 #define	RSM_SUSPEND_ACKPENDING	0x01
415 #define	RSM_SUSPEND_NODEDEAD	0x02
416 } list_element_t;
417 
418 typedef struct list_head {
419 	struct list_element	*list_head;
420 	kmutex_t		list_lock;
421 } list_head_t;
422 
423 #ifdef	__cplusplus
424 }
425 #endif
426 
427 #endif	/* _RSM_IN_H */
428