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- Promote em(4) polling begin/end ktr into polling(4)
[dragonfly.git] / sys / kern / kern_sysref.c
blob458081b8623c03bdcd2a16cb208adb2d3cf336b5
1 /*
2 * Copyright (c) 2007 The DragonFly Project. All rights reserved.
3 *
4 * This code is derived from software contributed to The DragonFly Project
5 * by Matthew Dillon <dillon@backplane.com>
6 *
7 * Redistribution and use in source and binary forms, with or without
8 * modification, are permitted provided that the following conditions
9 * are met:
10 *
11 * 1. Redistributions of source code must retain the above copyright
12 * notice, this list of conditions and the following disclaimer.
13 * 2. Redistributions in binary form must reproduce the above copyright
14 * notice, this list of conditions and the following disclaimer in
15 * the documentation and/or other materials provided with the
16 * distribution.
17 * 3. Neither the name of The DragonFly Project nor the names of its
18 * contributors may be used to endorse or promote products derived
19 * from this software without specific, prior written permission.
20 *
21 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
22 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
23 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
24 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
25 * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
26 * INCIDENTAL, SPECIAL, EXEMPLARY OR CONSEQUENTIAL DAMAGES (INCLUDING,
27 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
28 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
29 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
30 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
31 * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
32 * SUCH DAMAGE.
33 *
34 * $DragonFly: src/sys/kern/kern_sysref.c,v 1.6 2007/05/29 17:01:04 dillon Exp $
35 */
36 /*
37 * System resource control module for all cluster-addressable system resource
38 * structures.
39 *
40 * This module implements the core ref counting, sysid registration, and
41 * objcache-backed allocation mechanism for all major system resource
42 * structures.
43 *
44 * sysid registrations operate via the objcache ctor/dtor mechanism and
45 * sysids will be reused if the resource is not explicitly accessed via
46 * its sysid. This removes all RB tree handling overhead from the critical
47 * path for locally used resources.
48 */
49
50 #include <sys/param.h>
51 #include <sys/systm.h>
52 #include <sys/kernel.h>
53 #include <sys/tree.h>
54 #include <sys/spinlock.h>
55 #include <machine/atomic.h>
56 #include <machine/cpufunc.h>
57
58 #include <sys/spinlock2.h>
59 #include <sys/sysref2.h>
60
61 static boolean_t sysref_ctor(void *data, void *privdata, int ocflags);
62 static void sysref_dtor(void *data, void *privdata);
63
64 /*
65 * Red-Black tree support
66 */
67 static int rb_sysref_compare(struct sysref *sr1, struct sysref *sr2);
68 RB_GENERATE2(sysref_rb_tree, sysref, rbnode, rb_sysref_compare, sysid_t, sysid);
69
70 static struct srpercpu {
71 struct sysref_rb_tree rbtree;
72 struct spinlock spin;
73 } sysref_array[MAXCPU];
74
75 static void
76 sysrefbootinit(void *dummy __unused)
77 {
78 struct srpercpu *sa;
79 int i;
80
81 for (i = 0; i < ncpus; ++i) {
82 sa = &sysref_array[i];
83 spin_init(&sa->spin);
84 RB_INIT(&sa->rbtree);
85 }
86 }
87
88 SYSINIT(sysref, SI_BOOT2_MACHDEP, SI_ORDER_ANY, sysrefbootinit, NULL);
89
90 static
91 int
92 rb_sysref_compare(struct sysref *sr1, struct sysref *sr2)
93 {
94 if (sr1->sysid < sr2->sysid)
95 return(-1);
96 if (sr1->sysid > sr2->sysid)
97 return(1);
98 return(0);
99 }
100
101 /*
102 * Manual initialization of a resource structure's sysref, only used during
103 * booting to set up certain statically declared resources which cannot
104 * be deallocated.
105 */
106 void
107 sysref_init(struct sysref *sr, struct sysref_class *srclass)
108 {
109 struct srpercpu *sa;
110 globaldata_t gd;
111
112 gd = mycpu;
113 crit_enter_gd(gd);
114 gd->gd_sysid_alloc += ncpus_fit; /* next unique sysid */
115 sr->sysid = gd->gd_sysid_alloc;
116 KKASSERT(((int)sr->sysid & ncpus_fit_mask) == gd->gd_cpuid);
117 sr->refcnt = -0x40000000;
118 sr->flags = 0;
119 sr->srclass = srclass;
120
121 sa = &sysref_array[gd->gd_cpuid];
122 spin_lock_wr(&sa->spin);
123 sysref_rb_tree_RB_INSERT(&sa->rbtree, sr);
124 spin_unlock_wr(&sa->spin);
125 crit_exit_gd(gd);
126 }
127
128 /*
129 * Allocate a resource structure of the specified class, initialize a
130 * sysid and add the resource to the RB tree. The caller must complete
131 * initialization of the resource and call sysref_activate() to activate it.
132 */
133 void *
134 sysref_alloc(struct sysref_class *srclass)
135 {
136 struct sysref *sr;
137 char *data;
138 int n;
139
140 /*
141 * Create the object cache backing store.
142 */
143 if (srclass->oc == NULL) {
144 KKASSERT(srclass->mtype != NULL);
145 srclass->oc = objcache_create_mbacked(
146 srclass->mtype, srclass->objsize,
147 0, srclass->mag_capacity,
148 sysref_ctor, sysref_dtor, srclass);
149 }
150
151 /*
152 * Allocate the resource.
153 */
154 data = objcache_get(srclass->oc, M_WAITOK);
155 sr = (struct sysref *)(data + srclass->offset);
156
157 /*
158 * Refcnt isn't touched while it is zero. The objcache ctor
159 * function has already allocated a sysid and emplaced the
160 * structure in the RB tree.
161 */
162 KKASSERT(sr->refcnt == 0);
163 sr->refcnt = -0x40000000;
164
165 /*
166 * Clean out the structure unless the caller wants to deal with
167 * it (e.g. like the vmspace code).
168 */
169 if ((srclass->flags & SRC_MANAGEDINIT) == 0) {
170 if (srclass->offset != 0)
171 bzero(data, srclass->offset);
172 n = srclass->offset + sizeof(struct sysref);
173 KKASSERT(n <= srclass->objsize);
174 if (n != srclass->objsize)
175 bzero(data + n, srclass->objsize - n);
176 }
177 return(data);
178 }
179
180 /*
181 * Object cache backing store ctor function.
182 *
183 * This allocates the sysid and associates the structure with the
184 * red-black tree, allowing it to be looked up. The actual resource
185 * structure has NOT yet been allocated so it is marked free.
186 *
187 * If the sysid is not used to access the resource, we will just
188 * allow the sysid to be reused when the resource structure is reused,
189 * allowing the RB tree operation to be 'cached'. This results in
190 * virtually no performance penalty for using the sysref facility.
191 */
192 static
193 boolean_t
194 sysref_ctor(void *data, void *privdata, int ocflags)
195 {
196 globaldata_t gd;
197 struct srpercpu *sa;
198 struct sysref_class *srclass = privdata;
199 struct sysref *sr = (void *)((char *)data + srclass->offset);
200
201 /*
202 * Resource structures need to be cleared when allocating from
203 * malloc backing store. This is different from the zeroing
204 * that we do in sysref_alloc().
205 */
206 bzero(data, srclass->objsize);
207
208 /*
209 * Resources managed by our objcache do the sysid and RB tree
210 * handling in the objcache ctor/dtor, so we can reuse the
211 * structure without re-treeing it over and over again.
212 */
213 gd = mycpu;
214 crit_enter_gd(gd);
215 gd->gd_sysid_alloc += ncpus_fit; /* next unique sysid */
216 sr->sysid = gd->gd_sysid_alloc;
217 KKASSERT(((int)sr->sysid & ncpus_fit_mask) == gd->gd_cpuid);
218 /* sr->refcnt= 0; already zero */
219 sr->flags = SRF_ALLOCATED;
220 sr->srclass = srclass;
221
222 sa = &sysref_array[gd->gd_cpuid];
223 spin_lock_wr(&sa->spin);
224 sysref_rb_tree_RB_INSERT(&sa->rbtree, sr);
225 spin_unlock_wr(&sa->spin);
226 crit_exit_gd(gd);
227
228 /*
229 * Execute the class's ctor function, if any. NOTE: The class
230 * should not try to zero out the structure, we've already handled
231 * that and preinitialized the sysref.
232 *
233 * XXX ignores return value for now
234 */
235 if (srclass->ctor)
236 srclass->ctor(data, privdata, ocflags);
237 return TRUE;
238 }
239
240 /*
241 * Object cache destructor, allowing the structure to be returned
242 * to the system memory pool. The resource structure must be
243 * removed from the RB tree. All other references have already
244 * been destroyed and the RB tree will not create any new references
245 * to the structure in its current state.
246 */
247 static
248 void
249 sysref_dtor(void *data, void *privdata)
250 {
251 struct srpercpu *sa;
252 struct sysref_class *srclass = privdata;
253 struct sysref *sr = (void *)((char *)data + srclass->offset);
254
255 KKASSERT(sr->refcnt == 0);
256 sa = &sysref_array[(int)sr->sysid & ncpus_fit_mask];
257 spin_lock_wr(&sa->spin);
258 sysref_rb_tree_RB_REMOVE(&sa->rbtree, sr);
259 spin_unlock_wr(&sa->spin);
260 if (srclass->dtor)
261 srclass->dtor(data, privdata);
262 }
263
264 /*
265 * Activate or reactivate a resource. 0x40000001 is added to the ref count
266 * so -0x40000000 (during initialization) will translate to a ref count of 1.
267 * Any references made during initialization will translate to additional
268 * positive ref counts.
269 */
270 void
271 sysref_activate(struct sysref *sr)
272 {
273 int count;
274
275 for (;;) {
276 count = sr->refcnt;
277 KASSERT(count < 0 && count + 0x40000001 > 0,
278 ("sysref_activate: bad count %08x", count));
279 if (atomic_cmpset_int(&sr->refcnt, count, count + 0x40000001))
280 break;
281 cpu_pause();
282 }
283 }
284
285 /*
286 * Release a reference under special circumstances. This call is made
287 * from the sysref_put() inline from sys/sysref2.h for any 1->0 transitions,
288 * negative->negative 'termination in progress' transitions, and when the
289 * cmpset instruction fails during a normal transition.
290 *
291 * This function is called from the sysref_put() inline in sys/sysref2.h,
292 * but handles all cases regardless.
293 */
294 void
295 _sysref_put(struct sysref *sr)
296 {
297 int count;
298 void *data;
299
300 for (;;) {
301 count = sr->refcnt;
302 if (count > 1) {
303 /*
304 * release 1 count, nominal case, active resource
305 * structure, no other action required.
306 */
307 if (atomic_cmpset_int(&sr->refcnt, count, count - 1))
308 break;
309 } else if (count == 1) {
310 /*
311 * 1->0 transitions transition to -0x40000000 instead,
312 * placing the resource structure into a termination-
313 * in-progress state. The termination function is
314 * then called.
315 */
316 if (atomic_cmpset_int(&sr->refcnt, count, -0x40000000)) {
317 data = (char *)sr - sr->srclass->offset;
318 sr->srclass->ops.terminate(data);
319 break;
320 }
321 } else if (count > -0x40000000) {
322 /*
323 * release 1 count, nominal case, resource undergoing
324 * termination. The Resource can be ref'd and
325 * deref'd while undergoing termination.
326 */
327 if (atomic_cmpset_int(&sr->refcnt, count, count - 1))
328 break;
329 } else {
330 /*
331 * Final release, set refcnt to 0.
332 * Resource must have been allocated.
333 *
334 * If SRF_SYSIDUSED is not set just objcache_put() the
335 * resource, otherwise objcache_dtor() the resource.
336 */
337 KKASSERT(count == -0x40000000 &&
338 (sr->flags & SRF_ALLOCATED));
339 if (atomic_cmpset_int(&sr->refcnt, count, 0)) {
340 data = (char *)sr - sr->srclass->offset;
341 if (sr->flags & SRF_SYSIDUSED)
342 objcache_dtor(sr->srclass->oc, data);
343 else
344 objcache_put(sr->srclass->oc, data);
345 break;
346 }
347 }
348 /* loop until the cmpset succeeds */
349 cpu_pause();
350 }
351 }
352
353 sysid_t
354 allocsysid(void)
355 {
356 globaldata_t gd = mycpu;
357 sysid_t sysid;
358
359 crit_enter_gd(gd);
360 gd->gd_sysid_alloc += ncpus_fit;
361 sysid = gd->gd_sysid_alloc;
362 crit_exit_gd(gd);
363 return(sysid);
364 }
365
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