1*a288e5a9SJoshua M. Clulow /*
2*a288e5a9SJoshua M. Clulow * This file and its contents are supplied under the terms of the
3*a288e5a9SJoshua M. Clulow * Common Development and Distribution License ("CDDL"), version 1.0.
4*a288e5a9SJoshua M. Clulow * You may only use this file in accordance with the terms of version
5*a288e5a9SJoshua M. Clulow * 1.0 of the CDDL.
6*a288e5a9SJoshua M. Clulow *
7*a288e5a9SJoshua M. Clulow * A full copy of the text of the CDDL should have accompanied this
8*a288e5a9SJoshua M. Clulow * source. A copy of the CDDL is also available via the Internet at
9*a288e5a9SJoshua M. Clulow * http://www.illumos.org/license/CDDL.
10*a288e5a9SJoshua M. Clulow */
11*a288e5a9SJoshua M. Clulow /*
12*a288e5a9SJoshua M. Clulow * Copyright (c) 2013, Joyent, Inc. All rights reserved.
13*a288e5a9SJoshua M. Clulow */
14*a288e5a9SJoshua M. Clulow
15*a288e5a9SJoshua M. Clulow #include <sys/cmn_err.h>
16*a288e5a9SJoshua M. Clulow #include <sys/ddi_periodic.h>
17*a288e5a9SJoshua M. Clulow #include <sys/id_space.h>
18*a288e5a9SJoshua M. Clulow #include <sys/kobj.h>
19*a288e5a9SJoshua M. Clulow #include <sys/sysmacros.h>
20*a288e5a9SJoshua M. Clulow #include <sys/systm.h>
21*a288e5a9SJoshua M. Clulow #include <sys/taskq.h>
22*a288e5a9SJoshua M. Clulow #include <sys/taskq_impl.h>
23*a288e5a9SJoshua M. Clulow #include <sys/time.h>
24*a288e5a9SJoshua M. Clulow #include <sys/types.h>
25*a288e5a9SJoshua M. Clulow #include <sys/sdt.h>
26*a288e5a9SJoshua M. Clulow
27*a288e5a9SJoshua M. Clulow extern void sir_on(int);
28*a288e5a9SJoshua M. Clulow
29*a288e5a9SJoshua M. Clulow /*
30*a288e5a9SJoshua M. Clulow * The ddi_periodic_add(9F) Implementation
31*a288e5a9SJoshua M. Clulow *
32*a288e5a9SJoshua M. Clulow * This file contains the implementation of the ddi_periodic_add(9F) interface.
33*a288e5a9SJoshua M. Clulow * It is a thin wrapper around the cyclic subsystem (see documentation in
34*a288e5a9SJoshua M. Clulow * uts/common/os/cyclic.c), providing a DDI interface for registering
35*a288e5a9SJoshua M. Clulow * (and unregistering) callbacks for periodic invocation at arbitrary
36*a288e5a9SJoshua M. Clulow * interrupt levels, or in kernel context.
37*a288e5a9SJoshua M. Clulow *
38*a288e5a9SJoshua M. Clulow * Each call to ddi_periodic_add will result in a new opaque handle, as
39*a288e5a9SJoshua M. Clulow * allocated from an id_space, a new "periodic" object (ddi_periodic_impl_t)
40*a288e5a9SJoshua M. Clulow * and a registered cyclic.
41*a288e5a9SJoshua M. Clulow *
42*a288e5a9SJoshua M. Clulow * Operation
43*a288e5a9SJoshua M. Clulow *
44*a288e5a9SJoshua M. Clulow * Whenever the cyclic fires, our cyclic handler checks that the particular
45*a288e5a9SJoshua M. Clulow * periodic is not dispatched already (we do not support overlapping execution
46*a288e5a9SJoshua M. Clulow * of the consumer's handler function), and not yet cancelled. If both of
47*a288e5a9SJoshua M. Clulow * these conditions hold, we mark the periodic as DPF_DISPATCHED and enqueue it
48*a288e5a9SJoshua M. Clulow * to either the taskq (for DDI_IPL_0) or to one of the soft interrupt queues
49*a288e5a9SJoshua M. Clulow * (DDI_IPL_1 to DDI_IPL_10).
50*a288e5a9SJoshua M. Clulow *
51*a288e5a9SJoshua M. Clulow * While the taskq (or soft interrupt handler) is handling a particular
52*a288e5a9SJoshua M. Clulow * periodic, we mark it as DPF_EXECUTING. When complete, we reset both
53*a288e5a9SJoshua M. Clulow * DPF_DISPATCHED and DPF_EXECUTING.
54*a288e5a9SJoshua M. Clulow *
55*a288e5a9SJoshua M. Clulow * Cancellation
56*a288e5a9SJoshua M. Clulow *
57*a288e5a9SJoshua M. Clulow * ddi_periodic_delete(9F) historically had spectacularly loose semantics with
58*a288e5a9SJoshua M. Clulow * respect to cancellation concurrent with handler execution. These semantics
59*a288e5a9SJoshua M. Clulow * are now tighter:
60*a288e5a9SJoshua M. Clulow *
61*a288e5a9SJoshua M. Clulow * 1. At most one invocation of ddi_periodic_delete(9F) will actually
62*a288e5a9SJoshua M. Clulow * perform the deletion, all others will return immediately.
63*a288e5a9SJoshua M. Clulow * 2. The invocation that performs the deletion will _block_ until
64*a288e5a9SJoshua M. Clulow * the handler is no longer running, and all resources have been
65*a288e5a9SJoshua M. Clulow * released.
66*a288e5a9SJoshua M. Clulow *
67*a288e5a9SJoshua M. Clulow * We affect this model by removing the cancelling periodic from the
68*a288e5a9SJoshua M. Clulow * global list and marking it DPF_CANCELLED. This will prevent further
69*a288e5a9SJoshua M. Clulow * execution of the handler. We then wait on a CV until the DPF_EXECUTING
70*a288e5a9SJoshua M. Clulow * and DPF_DISPATCHED flags are clear, which means the periodic is removed
71*a288e5a9SJoshua M. Clulow * from all request queues, is no longer executing, and may be freed. At this
72*a288e5a9SJoshua M. Clulow * point we return the opaque ID to the id_space and free the memory.
73*a288e5a9SJoshua M. Clulow *
74*a288e5a9SJoshua M. Clulow * NOTE:
75*a288e5a9SJoshua M. Clulow * The ddi_periodic_add(9F) interface is presently limited to a minimum period
76*a288e5a9SJoshua M. Clulow * of 10ms between firings.
77*a288e5a9SJoshua M. Clulow */
78*a288e5a9SJoshua M. Clulow
79*a288e5a9SJoshua M. Clulow /*
80*a288e5a9SJoshua M. Clulow * Tuneables:
81*a288e5a9SJoshua M. Clulow */
82*a288e5a9SJoshua M. Clulow int ddi_periodic_max_id = 1024;
83*a288e5a9SJoshua M. Clulow int ddi_periodic_taskq_threadcount = 4;
84*a288e5a9SJoshua M. Clulow hrtime_t ddi_periodic_resolution = 10000000;
85*a288e5a9SJoshua M. Clulow
86*a288e5a9SJoshua M. Clulow /*
87*a288e5a9SJoshua M. Clulow * Globals:
88*a288e5a9SJoshua M. Clulow */
89*a288e5a9SJoshua M. Clulow static kmem_cache_t *periodic_cache;
90*a288e5a9SJoshua M. Clulow static id_space_t *periodic_id_space;
91*a288e5a9SJoshua M. Clulow static taskq_t *periodic_taskq;
92*a288e5a9SJoshua M. Clulow
93*a288e5a9SJoshua M. Clulow /*
94*a288e5a9SJoshua M. Clulow * periodics_lock protects the list of all periodics (periodics), and
95*a288e5a9SJoshua M. Clulow * each of the soft interrupt request queues (periodic_softint_queue).
96*a288e5a9SJoshua M. Clulow *
97*a288e5a9SJoshua M. Clulow * Do not hold an individual periodic's lock while obtaining periodics_lock.
98*a288e5a9SJoshua M. Clulow * While in the periodic_softint_queue list, the periodic will be marked
99*a288e5a9SJoshua M. Clulow * DPF_DISPATCHED, and thus safe from frees. Only the invocation of
100*a288e5a9SJoshua M. Clulow * i_untimeout() that removes the periodic from the global list is allowed
101*a288e5a9SJoshua M. Clulow * to free it.
102*a288e5a9SJoshua M. Clulow */
103*a288e5a9SJoshua M. Clulow static kmutex_t periodics_lock;
104*a288e5a9SJoshua M. Clulow static list_t periodics;
105*a288e5a9SJoshua M. Clulow static list_t periodic_softint_queue[10]; /* for IPL1 up to IPL10 */
106*a288e5a9SJoshua M. Clulow
107*a288e5a9SJoshua M. Clulow typedef enum periodic_ipl {
108*a288e5a9SJoshua M. Clulow PERI_IPL_0 = 0,
109*a288e5a9SJoshua M. Clulow PERI_IPL_1,
110*a288e5a9SJoshua M. Clulow PERI_IPL_2,
111*a288e5a9SJoshua M. Clulow PERI_IPL_3,
112*a288e5a9SJoshua M. Clulow PERI_IPL_4,
113*a288e5a9SJoshua M. Clulow PERI_IPL_5,
114*a288e5a9SJoshua M. Clulow PERI_IPL_6,
115*a288e5a9SJoshua M. Clulow PERI_IPL_7,
116*a288e5a9SJoshua M. Clulow PERI_IPL_8,
117*a288e5a9SJoshua M. Clulow PERI_IPL_9,
118*a288e5a9SJoshua M. Clulow PERI_IPL_10
119*a288e5a9SJoshua M. Clulow } periodic_ipl_t;
120*a288e5a9SJoshua M. Clulow
121*a288e5a9SJoshua M. Clulow static char *
periodic_handler_symbol(ddi_periodic_impl_t * dpr)122*a288e5a9SJoshua M. Clulow periodic_handler_symbol(ddi_periodic_impl_t *dpr)
123*a288e5a9SJoshua M. Clulow {
124*a288e5a9SJoshua M. Clulow ulong_t off;
125*a288e5a9SJoshua M. Clulow
126*a288e5a9SJoshua M. Clulow return (kobj_getsymname((uintptr_t)dpr->dpr_handler, &off));
127*a288e5a9SJoshua M. Clulow }
128*a288e5a9SJoshua M. Clulow
129*a288e5a9SJoshua M. Clulow /*
130*a288e5a9SJoshua M. Clulow * This function may be called either from a soft interrupt handler
131*a288e5a9SJoshua M. Clulow * (ddi_periodic_softintr), or as a taskq worker function.
132*a288e5a9SJoshua M. Clulow */
133*a288e5a9SJoshua M. Clulow static void
periodic_execute(void * arg)134*a288e5a9SJoshua M. Clulow periodic_execute(void *arg)
135*a288e5a9SJoshua M. Clulow {
136*a288e5a9SJoshua M. Clulow ddi_periodic_impl_t *dpr = arg;
137*a288e5a9SJoshua M. Clulow mutex_enter(&dpr->dpr_lock);
138*a288e5a9SJoshua M. Clulow
139*a288e5a9SJoshua M. Clulow /*
140*a288e5a9SJoshua M. Clulow * We must be DISPATCHED, but not yet EXECUTING:
141*a288e5a9SJoshua M. Clulow */
142*a288e5a9SJoshua M. Clulow VERIFY((dpr->dpr_flags & (DPF_DISPATCHED | DPF_EXECUTING)) ==
143*a288e5a9SJoshua M. Clulow DPF_DISPATCHED);
144*a288e5a9SJoshua M. Clulow VERIFY(dpr->dpr_thread == NULL);
145*a288e5a9SJoshua M. Clulow
146*a288e5a9SJoshua M. Clulow if (!(dpr->dpr_flags & DPF_CANCELLED)) {
147*a288e5a9SJoshua M. Clulow int level = dpr->dpr_level;
148*a288e5a9SJoshua M. Clulow uint64_t count = dpr->dpr_fire_count;
149*a288e5a9SJoshua M. Clulow /*
150*a288e5a9SJoshua M. Clulow * If we have not yet been cancelled, then
151*a288e5a9SJoshua M. Clulow * mark us executing:
152*a288e5a9SJoshua M. Clulow */
153*a288e5a9SJoshua M. Clulow dpr->dpr_flags |= DPF_EXECUTING;
154*a288e5a9SJoshua M. Clulow dpr->dpr_thread = curthread;
155*a288e5a9SJoshua M. Clulow mutex_exit(&dpr->dpr_lock);
156*a288e5a9SJoshua M. Clulow
157*a288e5a9SJoshua M. Clulow /*
158*a288e5a9SJoshua M. Clulow * Execute the handler, without holding locks:
159*a288e5a9SJoshua M. Clulow */
160*a288e5a9SJoshua M. Clulow DTRACE_PROBE4(ddi__periodic__execute, void *, dpr->dpr_handler,
161*a288e5a9SJoshua M. Clulow void *, dpr->dpr_arg, int, level, uint64_t, count);
162*a288e5a9SJoshua M. Clulow (*dpr->dpr_handler)(dpr->dpr_arg);
163*a288e5a9SJoshua M. Clulow DTRACE_PROBE4(ddi__periodic__done, void *, dpr->dpr_handler,
164*a288e5a9SJoshua M. Clulow void *, dpr->dpr_arg, int, level, uint64_t, count);
165*a288e5a9SJoshua M. Clulow
166*a288e5a9SJoshua M. Clulow mutex_enter(&dpr->dpr_lock);
167*a288e5a9SJoshua M. Clulow dpr->dpr_thread = NULL;
168*a288e5a9SJoshua M. Clulow dpr->dpr_fire_count++;
169*a288e5a9SJoshua M. Clulow }
170*a288e5a9SJoshua M. Clulow
171*a288e5a9SJoshua M. Clulow /*
172*a288e5a9SJoshua M. Clulow * We're done with this periodic for now, so release it and
173*a288e5a9SJoshua M. Clulow * wake anybody that was waiting for us to be finished:
174*a288e5a9SJoshua M. Clulow */
175*a288e5a9SJoshua M. Clulow dpr->dpr_flags &= ~(DPF_DISPATCHED | DPF_EXECUTING);
176*a288e5a9SJoshua M. Clulow cv_broadcast(&dpr->dpr_cv);
177*a288e5a9SJoshua M. Clulow mutex_exit(&dpr->dpr_lock);
178*a288e5a9SJoshua M. Clulow }
179*a288e5a9SJoshua M. Clulow
180*a288e5a9SJoshua M. Clulow void
ddi_periodic_softintr(int level)181*a288e5a9SJoshua M. Clulow ddi_periodic_softintr(int level)
182*a288e5a9SJoshua M. Clulow {
183*a288e5a9SJoshua M. Clulow ddi_periodic_impl_t *dpr;
184*a288e5a9SJoshua M. Clulow VERIFY(level >= PERI_IPL_1 && level <= PERI_IPL_10);
185*a288e5a9SJoshua M. Clulow
186*a288e5a9SJoshua M. Clulow mutex_enter(&periodics_lock);
187*a288e5a9SJoshua M. Clulow /*
188*a288e5a9SJoshua M. Clulow * Pull the first scheduled periodic off the queue for this priority
189*a288e5a9SJoshua M. Clulow * level:
190*a288e5a9SJoshua M. Clulow */
191*a288e5a9SJoshua M. Clulow while ((dpr = list_remove_head(&periodic_softint_queue[level - 1])) !=
192*a288e5a9SJoshua M. Clulow NULL) {
193*a288e5a9SJoshua M. Clulow mutex_exit(&periodics_lock);
194*a288e5a9SJoshua M. Clulow /*
195*a288e5a9SJoshua M. Clulow * And execute it:
196*a288e5a9SJoshua M. Clulow */
197*a288e5a9SJoshua M. Clulow periodic_execute(dpr);
198*a288e5a9SJoshua M. Clulow mutex_enter(&periodics_lock);
199*a288e5a9SJoshua M. Clulow }
200*a288e5a9SJoshua M. Clulow mutex_exit(&periodics_lock);
201*a288e5a9SJoshua M. Clulow }
202*a288e5a9SJoshua M. Clulow
203*a288e5a9SJoshua M. Clulow void
ddi_periodic_init(void)204*a288e5a9SJoshua M. Clulow ddi_periodic_init(void)
205*a288e5a9SJoshua M. Clulow {
206*a288e5a9SJoshua M. Clulow int i;
207*a288e5a9SJoshua M. Clulow
208*a288e5a9SJoshua M. Clulow /*
209*a288e5a9SJoshua M. Clulow * Create a kmem_cache for request tracking objects, and a list
210*a288e5a9SJoshua M. Clulow * to store them in so we can later delete based on opaque handles:
211*a288e5a9SJoshua M. Clulow */
212*a288e5a9SJoshua M. Clulow periodic_cache = kmem_cache_create("ddi_periodic",
213*a288e5a9SJoshua M. Clulow sizeof (ddi_periodic_impl_t), 0, NULL, NULL, NULL, NULL, NULL, 0);
214*a288e5a9SJoshua M. Clulow list_create(&periodics, sizeof (ddi_periodic_impl_t),
215*a288e5a9SJoshua M. Clulow offsetof(ddi_periodic_impl_t, dpr_link));
216*a288e5a9SJoshua M. Clulow
217*a288e5a9SJoshua M. Clulow /*
218*a288e5a9SJoshua M. Clulow * Initialise the identifier space for ddi_periodic_add(9F):
219*a288e5a9SJoshua M. Clulow */
220*a288e5a9SJoshua M. Clulow periodic_id_space = id_space_create("ddi_periodic", 1,
221*a288e5a9SJoshua M. Clulow ddi_periodic_max_id);
222*a288e5a9SJoshua M. Clulow
223*a288e5a9SJoshua M. Clulow /*
224*a288e5a9SJoshua M. Clulow * Initialise the request queue for each soft interrupt level:
225*a288e5a9SJoshua M. Clulow */
226*a288e5a9SJoshua M. Clulow for (i = PERI_IPL_1; i <= PERI_IPL_10; i++) {
227*a288e5a9SJoshua M. Clulow list_create(&periodic_softint_queue[i - 1],
228*a288e5a9SJoshua M. Clulow sizeof (ddi_periodic_impl_t), offsetof(ddi_periodic_impl_t,
229*a288e5a9SJoshua M. Clulow dpr_softint_link));
230*a288e5a9SJoshua M. Clulow }
231*a288e5a9SJoshua M. Clulow
232*a288e5a9SJoshua M. Clulow /*
233*a288e5a9SJoshua M. Clulow * Create the taskq for running PERI_IPL_0 handlers. This taskq will
234*a288e5a9SJoshua M. Clulow * _only_ be used with taskq_dispatch_ent(), and a taskq_ent_t
235*a288e5a9SJoshua M. Clulow * pre-allocated with the ddi_periodic_impl_t.
236*a288e5a9SJoshua M. Clulow */
237*a288e5a9SJoshua M. Clulow periodic_taskq = taskq_create_instance("ddi_periodic_taskq", -1,
238*a288e5a9SJoshua M. Clulow ddi_periodic_taskq_threadcount, maxclsyspri, 0, 0, 0);
239*a288e5a9SJoshua M. Clulow
240*a288e5a9SJoshua M. Clulow /*
241*a288e5a9SJoshua M. Clulow * Initialize the mutex lock used for the soft interrupt request
242*a288e5a9SJoshua M. Clulow * queues.
243*a288e5a9SJoshua M. Clulow */
244*a288e5a9SJoshua M. Clulow mutex_init(&periodics_lock, NULL, MUTEX_ADAPTIVE, NULL);
245*a288e5a9SJoshua M. Clulow }
246*a288e5a9SJoshua M. Clulow
247*a288e5a9SJoshua M. Clulow void
ddi_periodic_fini(void)248*a288e5a9SJoshua M. Clulow ddi_periodic_fini(void)
249*a288e5a9SJoshua M. Clulow {
250*a288e5a9SJoshua M. Clulow int i;
251*a288e5a9SJoshua M. Clulow ddi_periodic_impl_t *dpr;
252*a288e5a9SJoshua M. Clulow
253*a288e5a9SJoshua M. Clulow /*
254*a288e5a9SJoshua M. Clulow * Find all periodics that have not yet been unregistered and,
255*a288e5a9SJoshua M. Clulow * on DEBUG bits, print a warning about this resource leak.
256*a288e5a9SJoshua M. Clulow */
257*a288e5a9SJoshua M. Clulow mutex_enter(&periodics_lock);
258*a288e5a9SJoshua M. Clulow while ((dpr = list_head(&periodics)) != NULL) {
259*a288e5a9SJoshua M. Clulow #ifdef DEBUG
260*a288e5a9SJoshua M. Clulow printf("DDI periodic handler not deleted (id=%lx, hdlr=%s)\n",
261*a288e5a9SJoshua M. Clulow (unsigned long)dpr->dpr_id, periodic_handler_symbol(dpr));
262*a288e5a9SJoshua M. Clulow #endif
263*a288e5a9SJoshua M. Clulow
264*a288e5a9SJoshua M. Clulow mutex_exit(&periodics_lock);
265*a288e5a9SJoshua M. Clulow /*
266*a288e5a9SJoshua M. Clulow * Delete the periodic ourselves:
267*a288e5a9SJoshua M. Clulow */
268*a288e5a9SJoshua M. Clulow i_untimeout((timeout_t)(uintptr_t)dpr->dpr_id);
269*a288e5a9SJoshua M. Clulow mutex_enter(&periodics_lock);
270*a288e5a9SJoshua M. Clulow }
271*a288e5a9SJoshua M. Clulow mutex_exit(&periodics_lock);
272*a288e5a9SJoshua M. Clulow
273*a288e5a9SJoshua M. Clulow /*
274*a288e5a9SJoshua M. Clulow * At this point there are no remaining cyclics, so clean up the
275*a288e5a9SJoshua M. Clulow * remaining resources:
276*a288e5a9SJoshua M. Clulow */
277*a288e5a9SJoshua M. Clulow taskq_destroy(periodic_taskq);
278*a288e5a9SJoshua M. Clulow periodic_taskq = NULL;
279*a288e5a9SJoshua M. Clulow
280*a288e5a9SJoshua M. Clulow id_space_destroy(periodic_id_space);
281*a288e5a9SJoshua M. Clulow periodic_id_space = NULL;
282*a288e5a9SJoshua M. Clulow
283*a288e5a9SJoshua M. Clulow kmem_cache_destroy(periodic_cache);
284*a288e5a9SJoshua M. Clulow periodic_cache = NULL;
285*a288e5a9SJoshua M. Clulow
286*a288e5a9SJoshua M. Clulow list_destroy(&periodics);
287*a288e5a9SJoshua M. Clulow for (i = PERI_IPL_1; i <= PERI_IPL_10; i++)
288*a288e5a9SJoshua M. Clulow list_destroy(&periodic_softint_queue[i - 1]);
289*a288e5a9SJoshua M. Clulow
290*a288e5a9SJoshua M. Clulow mutex_destroy(&periodics_lock);
291*a288e5a9SJoshua M. Clulow }
292*a288e5a9SJoshua M. Clulow
293*a288e5a9SJoshua M. Clulow static void
periodic_cyclic_handler(void * arg)294*a288e5a9SJoshua M. Clulow periodic_cyclic_handler(void *arg)
295*a288e5a9SJoshua M. Clulow {
296*a288e5a9SJoshua M. Clulow ddi_periodic_impl_t *dpr = arg;
297*a288e5a9SJoshua M. Clulow
298*a288e5a9SJoshua M. Clulow mutex_enter(&dpr->dpr_lock);
299*a288e5a9SJoshua M. Clulow /*
300*a288e5a9SJoshua M. Clulow * If we've been cancelled, or we're already dispatched, then exit
301*a288e5a9SJoshua M. Clulow * immediately:
302*a288e5a9SJoshua M. Clulow */
303*a288e5a9SJoshua M. Clulow if (dpr->dpr_flags & (DPF_CANCELLED | DPF_DISPATCHED)) {
304*a288e5a9SJoshua M. Clulow mutex_exit(&dpr->dpr_lock);
305*a288e5a9SJoshua M. Clulow return;
306*a288e5a9SJoshua M. Clulow }
307*a288e5a9SJoshua M. Clulow VERIFY(!(dpr->dpr_flags & DPF_EXECUTING));
308*a288e5a9SJoshua M. Clulow
309*a288e5a9SJoshua M. Clulow /*
310*a288e5a9SJoshua M. Clulow * This periodic is not presently dispatched, so dispatch it now:
311*a288e5a9SJoshua M. Clulow */
312*a288e5a9SJoshua M. Clulow dpr->dpr_flags |= DPF_DISPATCHED;
313*a288e5a9SJoshua M. Clulow mutex_exit(&dpr->dpr_lock);
314*a288e5a9SJoshua M. Clulow
315*a288e5a9SJoshua M. Clulow if (dpr->dpr_level == PERI_IPL_0) {
316*a288e5a9SJoshua M. Clulow /*
317*a288e5a9SJoshua M. Clulow * DDI_IPL_0 periodics are dispatched onto the taskq:
318*a288e5a9SJoshua M. Clulow */
319*a288e5a9SJoshua M. Clulow taskq_dispatch_ent(periodic_taskq, periodic_execute,
320*a288e5a9SJoshua M. Clulow dpr, 0, &dpr->dpr_taskq_ent);
321*a288e5a9SJoshua M. Clulow } else {
322*a288e5a9SJoshua M. Clulow /*
323*a288e5a9SJoshua M. Clulow * Higher priority periodics are handled by a soft interrupt
324*a288e5a9SJoshua M. Clulow * handler. Enqueue us for processing by the handler:
325*a288e5a9SJoshua M. Clulow */
326*a288e5a9SJoshua M. Clulow mutex_enter(&periodics_lock);
327*a288e5a9SJoshua M. Clulow list_insert_tail(&periodic_softint_queue[dpr->dpr_level - 1],
328*a288e5a9SJoshua M. Clulow dpr);
329*a288e5a9SJoshua M. Clulow mutex_exit(&periodics_lock);
330*a288e5a9SJoshua M. Clulow
331*a288e5a9SJoshua M. Clulow /*
332*a288e5a9SJoshua M. Clulow * Request the execution of the soft interrupt handler for this
333*a288e5a9SJoshua M. Clulow * periodic's priority level.
334*a288e5a9SJoshua M. Clulow */
335*a288e5a9SJoshua M. Clulow sir_on(dpr->dpr_level);
336*a288e5a9SJoshua M. Clulow }
337*a288e5a9SJoshua M. Clulow }
338*a288e5a9SJoshua M. Clulow
339*a288e5a9SJoshua M. Clulow static void
periodic_destroy(ddi_periodic_impl_t * dpr)340*a288e5a9SJoshua M. Clulow periodic_destroy(ddi_periodic_impl_t *dpr)
341*a288e5a9SJoshua M. Clulow {
342*a288e5a9SJoshua M. Clulow if (dpr == NULL)
343*a288e5a9SJoshua M. Clulow return;
344*a288e5a9SJoshua M. Clulow
345*a288e5a9SJoshua M. Clulow /*
346*a288e5a9SJoshua M. Clulow * By now, we should have a periodic that is not busy, and has been
347*a288e5a9SJoshua M. Clulow * cancelled:
348*a288e5a9SJoshua M. Clulow */
349*a288e5a9SJoshua M. Clulow VERIFY(dpr->dpr_flags == DPF_CANCELLED);
350*a288e5a9SJoshua M. Clulow VERIFY(dpr->dpr_thread == NULL);
351*a288e5a9SJoshua M. Clulow
352*a288e5a9SJoshua M. Clulow id_free(periodic_id_space, dpr->dpr_id);
353*a288e5a9SJoshua M. Clulow cv_destroy(&dpr->dpr_cv);
354*a288e5a9SJoshua M. Clulow mutex_destroy(&dpr->dpr_lock);
355*a288e5a9SJoshua M. Clulow kmem_cache_free(periodic_cache, dpr);
356*a288e5a9SJoshua M. Clulow }
357*a288e5a9SJoshua M. Clulow
358*a288e5a9SJoshua M. Clulow static ddi_periodic_impl_t *
periodic_create(void)359*a288e5a9SJoshua M. Clulow periodic_create(void)
360*a288e5a9SJoshua M. Clulow {
361*a288e5a9SJoshua M. Clulow ddi_periodic_impl_t *dpr;
362*a288e5a9SJoshua M. Clulow
363*a288e5a9SJoshua M. Clulow dpr = kmem_cache_alloc(periodic_cache, KM_SLEEP);
364*a288e5a9SJoshua M. Clulow bzero(dpr, sizeof (*dpr));
365*a288e5a9SJoshua M. Clulow dpr->dpr_id = id_alloc(periodic_id_space);
366*a288e5a9SJoshua M. Clulow mutex_init(&dpr->dpr_lock, NULL, MUTEX_ADAPTIVE, NULL);
367*a288e5a9SJoshua M. Clulow cv_init(&dpr->dpr_cv, NULL, CV_DEFAULT, NULL);
368*a288e5a9SJoshua M. Clulow
369*a288e5a9SJoshua M. Clulow return (dpr);
370*a288e5a9SJoshua M. Clulow }
371*a288e5a9SJoshua M. Clulow
372*a288e5a9SJoshua M. Clulow /*
373*a288e5a9SJoshua M. Clulow * This function provides the implementation for the ddi_periodic_add(9F)
374*a288e5a9SJoshua M. Clulow * interface. It registers a periodic handler and returns an opaque identifier
375*a288e5a9SJoshua M. Clulow * that can be unregistered via ddi_periodic_delete(9F)/i_untimeout().
376*a288e5a9SJoshua M. Clulow *
377*a288e5a9SJoshua M. Clulow * It may be called in user or kernel context, provided cpu_lock is not held.
378*a288e5a9SJoshua M. Clulow */
379*a288e5a9SJoshua M. Clulow timeout_t
i_timeout(void (* func)(void *),void * arg,hrtime_t interval,int level)380*a288e5a9SJoshua M. Clulow i_timeout(void (*func)(void *), void *arg, hrtime_t interval, int level)
381*a288e5a9SJoshua M. Clulow {
382*a288e5a9SJoshua M. Clulow cyc_handler_t cyh;
383*a288e5a9SJoshua M. Clulow cyc_time_t cyt;
384*a288e5a9SJoshua M. Clulow ddi_periodic_impl_t *dpr;
385*a288e5a9SJoshua M. Clulow
386*a288e5a9SJoshua M. Clulow VERIFY(func != NULL);
387*a288e5a9SJoshua M. Clulow VERIFY(level >= 0 && level <= 10);
388*a288e5a9SJoshua M. Clulow
389*a288e5a9SJoshua M. Clulow /*
390*a288e5a9SJoshua M. Clulow * Allocate object to track this periodic:
391*a288e5a9SJoshua M. Clulow */
392*a288e5a9SJoshua M. Clulow dpr = periodic_create();
393*a288e5a9SJoshua M. Clulow dpr->dpr_level = level;
394*a288e5a9SJoshua M. Clulow dpr->dpr_handler = func;
395*a288e5a9SJoshua M. Clulow dpr->dpr_arg = arg;
396*a288e5a9SJoshua M. Clulow
397*a288e5a9SJoshua M. Clulow /*
398*a288e5a9SJoshua M. Clulow * The minimum supported interval between firings of the periodic
399*a288e5a9SJoshua M. Clulow * handler is 10ms; see ddi_periodic_add(9F) for more details. If a
400*a288e5a9SJoshua M. Clulow * shorter interval is requested, round up.
401*a288e5a9SJoshua M. Clulow */
402*a288e5a9SJoshua M. Clulow if (ddi_periodic_resolution > interval) {
403*a288e5a9SJoshua M. Clulow cmn_err(CE_WARN,
404*a288e5a9SJoshua M. Clulow "The periodic timeout (handler=%s, interval=%lld) "
405*a288e5a9SJoshua M. Clulow "requests a finer interval than the supported resolution. "
406*a288e5a9SJoshua M. Clulow "It rounds up to %lld\n", periodic_handler_symbol(dpr),
407*a288e5a9SJoshua M. Clulow interval, ddi_periodic_resolution);
408*a288e5a9SJoshua M. Clulow interval = ddi_periodic_resolution;
409*a288e5a9SJoshua M. Clulow }
410*a288e5a9SJoshua M. Clulow
411*a288e5a9SJoshua M. Clulow /*
412*a288e5a9SJoshua M. Clulow * Ensure that the interval is an even multiple of the base resolution
413*a288e5a9SJoshua M. Clulow * that is at least as long as the requested interval.
414*a288e5a9SJoshua M. Clulow */
415*a288e5a9SJoshua M. Clulow dpr->dpr_interval = roundup(interval, ddi_periodic_resolution);
416*a288e5a9SJoshua M. Clulow
417*a288e5a9SJoshua M. Clulow /*
418*a288e5a9SJoshua M. Clulow * Create the underlying cyclic:
419*a288e5a9SJoshua M. Clulow */
420*a288e5a9SJoshua M. Clulow cyh.cyh_func = periodic_cyclic_handler;
421*a288e5a9SJoshua M. Clulow cyh.cyh_arg = dpr;
422*a288e5a9SJoshua M. Clulow cyh.cyh_level = CY_LOCK_LEVEL;
423*a288e5a9SJoshua M. Clulow
424*a288e5a9SJoshua M. Clulow cyt.cyt_when = 0;
425*a288e5a9SJoshua M. Clulow cyt.cyt_interval = dpr->dpr_interval;
426*a288e5a9SJoshua M. Clulow
427*a288e5a9SJoshua M. Clulow mutex_enter(&cpu_lock);
428*a288e5a9SJoshua M. Clulow dpr->dpr_cyclic_id = cyclic_add(&cyh, &cyt);
429*a288e5a9SJoshua M. Clulow mutex_exit(&cpu_lock);
430*a288e5a9SJoshua M. Clulow
431*a288e5a9SJoshua M. Clulow /*
432*a288e5a9SJoshua M. Clulow * Make the id visible to ddi_periodic_delete(9F) before we
433*a288e5a9SJoshua M. Clulow * return it:
434*a288e5a9SJoshua M. Clulow */
435*a288e5a9SJoshua M. Clulow mutex_enter(&periodics_lock);
436*a288e5a9SJoshua M. Clulow list_insert_tail(&periodics, dpr);
437*a288e5a9SJoshua M. Clulow mutex_exit(&periodics_lock);
438*a288e5a9SJoshua M. Clulow
439*a288e5a9SJoshua M. Clulow return ((timeout_t)(uintptr_t)dpr->dpr_id);
440*a288e5a9SJoshua M. Clulow }
441*a288e5a9SJoshua M. Clulow
442*a288e5a9SJoshua M. Clulow /*
443*a288e5a9SJoshua M. Clulow * This function provides the implementation for the ddi_periodic_delete(9F)
444*a288e5a9SJoshua M. Clulow * interface. It cancels a periodic handler previously registered through
445*a288e5a9SJoshua M. Clulow * ddi_periodic_add(9F)/i_timeout().
446*a288e5a9SJoshua M. Clulow *
447*a288e5a9SJoshua M. Clulow * It may be called in user or kernel context, provided cpu_lock is not held.
448*a288e5a9SJoshua M. Clulow * It may NOT be called from within a periodic handler.
449*a288e5a9SJoshua M. Clulow */
450*a288e5a9SJoshua M. Clulow void
i_untimeout(timeout_t id)451*a288e5a9SJoshua M. Clulow i_untimeout(timeout_t id)
452*a288e5a9SJoshua M. Clulow {
453*a288e5a9SJoshua M. Clulow ddi_periodic_impl_t *dpr;
454*a288e5a9SJoshua M. Clulow
455*a288e5a9SJoshua M. Clulow /*
456*a288e5a9SJoshua M. Clulow * Find the periodic in the list of all periodics and remove it.
457*a288e5a9SJoshua M. Clulow * If we find in (and remove it from) the global list, we have
458*a288e5a9SJoshua M. Clulow * license to free it once it is no longer busy.
459*a288e5a9SJoshua M. Clulow */
460*a288e5a9SJoshua M. Clulow mutex_enter(&periodics_lock);
461*a288e5a9SJoshua M. Clulow for (dpr = list_head(&periodics); dpr != NULL; dpr =
462*a288e5a9SJoshua M. Clulow list_next(&periodics, dpr)) {
463*a288e5a9SJoshua M. Clulow if (dpr->dpr_id == (id_t)(uintptr_t)id) {
464*a288e5a9SJoshua M. Clulow list_remove(&periodics, dpr);
465*a288e5a9SJoshua M. Clulow break;
466*a288e5a9SJoshua M. Clulow }
467*a288e5a9SJoshua M. Clulow }
468*a288e5a9SJoshua M. Clulow mutex_exit(&periodics_lock);
469*a288e5a9SJoshua M. Clulow
470*a288e5a9SJoshua M. Clulow /*
471*a288e5a9SJoshua M. Clulow * We could not find a periodic for this id, so bail out:
472*a288e5a9SJoshua M. Clulow */
473*a288e5a9SJoshua M. Clulow if (dpr == NULL)
474*a288e5a9SJoshua M. Clulow return;
475*a288e5a9SJoshua M. Clulow
476*a288e5a9SJoshua M. Clulow mutex_enter(&dpr->dpr_lock);
477*a288e5a9SJoshua M. Clulow /*
478*a288e5a9SJoshua M. Clulow * We should be the only one trying to cancel this periodic:
479*a288e5a9SJoshua M. Clulow */
480*a288e5a9SJoshua M. Clulow VERIFY(!(dpr->dpr_flags & DPF_CANCELLED));
481*a288e5a9SJoshua M. Clulow /*
482*a288e5a9SJoshua M. Clulow * Removing a periodic from within its own handler function will
483*a288e5a9SJoshua M. Clulow * cause a deadlock, so panic explicitly.
484*a288e5a9SJoshua M. Clulow */
485*a288e5a9SJoshua M. Clulow if (dpr->dpr_thread == curthread) {
486*a288e5a9SJoshua M. Clulow panic("ddi_periodic_delete(%lx) called from its own handler\n",
487*a288e5a9SJoshua M. Clulow (unsigned long)dpr->dpr_id);
488*a288e5a9SJoshua M. Clulow }
489*a288e5a9SJoshua M. Clulow /*
490*a288e5a9SJoshua M. Clulow * Mark the periodic as cancelled:
491*a288e5a9SJoshua M. Clulow */
492*a288e5a9SJoshua M. Clulow dpr->dpr_flags |= DPF_CANCELLED;
493*a288e5a9SJoshua M. Clulow mutex_exit(&dpr->dpr_lock);
494*a288e5a9SJoshua M. Clulow
495*a288e5a9SJoshua M. Clulow /*
496*a288e5a9SJoshua M. Clulow * Cancel our cyclic. cyclic_remove() guarantees that the cyclic
497*a288e5a9SJoshua M. Clulow * handler will not run again after it returns. Note that the cyclic
498*a288e5a9SJoshua M. Clulow * handler merely _dispatches_ the periodic, so this does _not_ mean
499*a288e5a9SJoshua M. Clulow * the periodic handler is also finished running.
500*a288e5a9SJoshua M. Clulow */
501*a288e5a9SJoshua M. Clulow mutex_enter(&cpu_lock);
502*a288e5a9SJoshua M. Clulow cyclic_remove(dpr->dpr_cyclic_id);
503*a288e5a9SJoshua M. Clulow mutex_exit(&cpu_lock);
504*a288e5a9SJoshua M. Clulow
505*a288e5a9SJoshua M. Clulow /*
506*a288e5a9SJoshua M. Clulow * Wait until the periodic handler is no longer running:
507*a288e5a9SJoshua M. Clulow */
508*a288e5a9SJoshua M. Clulow mutex_enter(&dpr->dpr_lock);
509*a288e5a9SJoshua M. Clulow while (dpr->dpr_flags & (DPF_DISPATCHED | DPF_EXECUTING)) {
510*a288e5a9SJoshua M. Clulow cv_wait(&dpr->dpr_cv, &dpr->dpr_lock);
511*a288e5a9SJoshua M. Clulow }
512*a288e5a9SJoshua M. Clulow mutex_exit(&dpr->dpr_lock);
513*a288e5a9SJoshua M. Clulow
514*a288e5a9SJoshua M. Clulow periodic_destroy(dpr);
515*a288e5a9SJoshua M. Clulow }
516