/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* for delay() */ #include /* For TASKQ_NAMELEN */ /* * The callb mechanism provides generic event scheduling/echoing. * A callb function is registered and called on behalf of the event. */ typedef struct callb { struct callb *c_next; /* next in class or on freelist */ kthread_id_t c_thread; /* ptr to caller's thread struct */ char c_flag; /* info about the callb state */ uchar_t c_class; /* this callb's class */ kcondvar_t c_done_cv; /* signal callb completion */ boolean_t (*c_func)(); /* cb function: returns true if ok */ void *c_arg; /* arg to c_func */ char c_name[CB_MAXNAME+1]; /* debug:max func name length */ } callb_t; /* * callb c_flag bitmap definitions */ #define CALLB_FREE 0x0 #define CALLB_TAKEN 0x1 #define CALLB_EXECUTING 0x2 /* * Basic structure for a callb table. * All callbs are organized into different class groups described * by ct_class array. * The callbs within a class are single-linked and normally run by a * serial execution. */ typedef struct callb_table { kmutex_t ct_lock; /* protect all callb states */ callb_t *ct_freelist; /* free callb structures */ int ct_busy; /* != 0 prevents additions */ kcondvar_t ct_busy_cv; /* to wait for not busy */ int ct_ncallb; /* num of callbs allocated */ callb_t *ct_first_cb[NCBCLASS]; /* ptr to 1st callb in a class */ } callb_table_t; int callb_timeout_sec = CPR_KTHREAD_TIMEOUT_SEC; static callb_id_t callb_add_common(boolean_t (*)(void *, int), void *, int, char *, kthread_id_t); static callb_table_t callb_table; /* system level callback table */ static callb_table_t *ct = &callb_table; static kmutex_t callb_safe_mutex; callb_cpr_t callb_cprinfo_safe = { &callb_safe_mutex, CALLB_CPR_ALWAYS_SAFE, 0, 0, 0 }; /* * Init all callb tables in the system. */ void callb_init() { callb_table.ct_busy = 0; /* mark table open for additions */ mutex_init(&callb_safe_mutex, NULL, MUTEX_DEFAULT, NULL); mutex_init(&callb_table.ct_lock, NULL, MUTEX_DEFAULT, NULL); } /* * callout_add() is called to register func() be called later. */ static callb_id_t callb_add_common(boolean_t (*func)(void *arg, int code), void *arg, int class, char *name, kthread_id_t t) { callb_t *cp; ASSERT(class < NCBCLASS); mutex_enter(&ct->ct_lock); while (ct->ct_busy) cv_wait(&ct->ct_busy_cv, &ct->ct_lock); if ((cp = ct->ct_freelist) == NULL) { ct->ct_ncallb++; cp = (callb_t *)kmem_zalloc(sizeof (callb_t), KM_SLEEP); } ct->ct_freelist = cp->c_next; cp->c_thread = t; cp->c_func = func; cp->c_arg = arg; cp->c_class = (uchar_t)class; cp->c_flag |= CALLB_TAKEN; #ifdef DEBUG if (strlen(name) > CB_MAXNAME) cmn_err(CE_WARN, "callb_add: name of callback function '%s' " "too long -- truncated to %d chars", name, CB_MAXNAME); #endif (void) strncpy(cp->c_name, name, CB_MAXNAME); cp->c_name[CB_MAXNAME] = '\0'; /* * Insert the new callb at the head of its class list. */ cp->c_next = ct->ct_first_cb[class]; ct->ct_first_cb[class] = cp; mutex_exit(&ct->ct_lock); return ((callb_id_t)cp); } /* * The default function to add an entry to the callback table. Since * it uses curthread as the thread identifier to store in the table, * it should be used for the normal case of a thread which is calling * to add ITSELF to the table. */ callb_id_t callb_add(boolean_t (*func)(void *arg, int code), void *arg, int class, char *name) { return (callb_add_common(func, arg, class, name, curthread)); } /* * A special version of callb_add() above for use by threads which * might be adding an entry to the table on behalf of some other * thread (for example, one which is constructed but not yet running). * In this version the thread id is an argument. */ callb_id_t callb_add_thread(boolean_t (*func)(void *arg, int code), void *arg, int class, char *name, kthread_id_t t) { return (callb_add_common(func, arg, class, name, t)); } /* * callout_delete() is called to remove an entry identified by id * that was originally placed there by a call to callout_add(). * return -1 if fail to delete a callb entry otherwise return 0. */ int callb_delete(callb_id_t id) { callb_t **pp; callb_t *me = (callb_t *)id; mutex_enter(&ct->ct_lock); for (;;) { pp = &ct->ct_first_cb[me->c_class]; while (*pp != NULL && *pp != me) pp = &(*pp)->c_next; #ifdef DEBUG if (*pp != me) { cmn_err(CE_WARN, "callb delete bogus entry 0x%p", (void *)me); mutex_exit(&ct->ct_lock); return (-1); } #endif /* DEBUG */ /* * It is not allowed to delete a callb in the middle of * executing otherwise, the callb_execute() will be confused. */ if (!(me->c_flag & CALLB_EXECUTING)) break; cv_wait(&me->c_done_cv, &ct->ct_lock); } /* relink the class list */ *pp = me->c_next; /* clean up myself and return the free callb to the head of freelist */ me->c_flag = CALLB_FREE; me->c_next = ct->ct_freelist; ct->ct_freelist = me; mutex_exit(&ct->ct_lock); return (0); } /* * class: indicates to execute all callbs in the same class; * code: optional argument for the callb functions. * return: = 0: success * != 0: ptr to string supplied when callback was registered */ void * callb_execute_class(int class, int code) { callb_t *cp; void *ret = NULL; ASSERT(class < NCBCLASS); mutex_enter(&ct->ct_lock); for (cp = ct->ct_first_cb[class]; cp != NULL && ret == 0; cp = cp->c_next) { while (cp->c_flag & CALLB_EXECUTING) cv_wait(&cp->c_done_cv, &ct->ct_lock); /* * cont if the callb is deleted while we're sleeping */ if (cp->c_flag == CALLB_FREE) continue; cp->c_flag |= CALLB_EXECUTING; #ifdef CALLB_DEBUG printf("callb_execute: name=%s func=%p arg=%p\n", cp->c_name, (void *)cp->c_func, (void *)cp->c_arg); #endif /* CALLB_DEBUG */ mutex_exit(&ct->ct_lock); /* If callback function fails, pass back client's name */ if (!(*cp->c_func)(cp->c_arg, code)) ret = cp->c_name; mutex_enter(&ct->ct_lock); cp->c_flag &= ~CALLB_EXECUTING; cv_broadcast(&cp->c_done_cv); } mutex_exit(&ct->ct_lock); return (ret); } /* * callers make sure no recursive entries to this func. * dp->cc_lockp is registered by callb_add to protect callb_cpr_t structure. * * When calling to stop a kernel thread (code == CB_CODE_CPR_CHKPT) we * use a cv_timedwait() in case the kernel thread is blocked. * * Note that this is a generic callback handler for daemon CPR and * should NOT be changed to accommodate any specific requirement in a daemon. * Individual daemons that require changes to the handler shall write * callback routines in their own daemon modules. */ boolean_t callb_generic_cpr(void *arg, int code) { callb_cpr_t *cp = (callb_cpr_t *)arg; clock_t ret = 0; /* assume success */ mutex_enter(cp->cc_lockp); switch (code) { case CB_CODE_CPR_CHKPT: cp->cc_events |= CALLB_CPR_START; #ifdef CPR_NOT_THREAD_SAFE while (!(cp->cc_events & CALLB_CPR_SAFE)) /* cv_timedwait() returns -1 if it times out. */ if ((ret = cv_reltimedwait(&cp->cc_callb_cv, cp->cc_lockp, (callb_timeout_sec * hz), TR_CLOCK_TICK)) == -1) break; #endif break; case CB_CODE_CPR_RESUME: cp->cc_events &= ~CALLB_CPR_START; cv_signal(&cp->cc_stop_cv); break; } mutex_exit(cp->cc_lockp); return (ret != -1); } /* * The generic callback function associated with kernel threads which * are always considered safe. */ /* ARGSUSED */ boolean_t callb_generic_cpr_safe(void *arg, int code) { return (B_TRUE); } /* * Prevent additions to callback table. */ void callb_lock_table(void) { mutex_enter(&ct->ct_lock); ASSERT(ct->ct_busy == 0); ct->ct_busy = 1; mutex_exit(&ct->ct_lock); } /* * Allow additions to callback table. */ void callb_unlock_table(void) { mutex_enter(&ct->ct_lock); ASSERT(ct->ct_busy != 0); ct->ct_busy = 0; cv_broadcast(&ct->ct_busy_cv); mutex_exit(&ct->ct_lock); } /* * Return a boolean value indicating whether a particular kernel thread is * stopped in accordance with the cpr callback protocol. If returning * false, also return a pointer to the thread name via the 2nd argument. */ boolean_t callb_is_stopped(kthread_id_t tp, caddr_t *thread_name) { callb_t *cp; boolean_t ret_val; mutex_enter(&ct->ct_lock); for (cp = ct->ct_first_cb[CB_CL_CPR_DAEMON]; cp != NULL && tp != cp->c_thread; cp = cp->c_next) ; ret_val = (cp != NULL); if (ret_val) { /* * We found the thread in the callback table and have * provisionally set the return value to true. Now * see if it is marked "safe" and is sleeping or stopped. */ callb_cpr_t *ccp = (callb_cpr_t *)cp->c_arg; *thread_name = cp->c_name; /* in case not stopped */ mutex_enter(ccp->cc_lockp); if (ccp->cc_events & CALLB_CPR_SAFE) { int retry; mutex_exit(ccp->cc_lockp); for (retry = 0; retry < CALLB_MAX_RETRY; retry++) { thread_lock(tp); if (tp->t_state & (TS_SLEEP | TS_STOPPED)) { thread_unlock(tp); break; } thread_unlock(tp); delay(CALLB_THREAD_DELAY); } ret_val = retry < CALLB_MAX_RETRY; } else { ret_val = (ccp->cc_events & CALLB_CPR_ALWAYS_SAFE) != 0; mutex_exit(ccp->cc_lockp); } } else { /* * Thread not found in callback table. Make the best * attempt to identify the thread in the error message. */ ulong_t offset; char *sym = kobj_getsymname((uintptr_t)tp->t_startpc, &offset); *thread_name = sym ? sym : "*unknown*"; } mutex_exit(&ct->ct_lock); return (ret_val); }