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/* * 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 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include <sys/types.h> #include <sys/param.h> #include <sys/stat.h> #include <sys/open.h> #include <sys/file.h> #include <sys/conf.h> #include <sys/modctl.h> #include <sys/cmn_err.h> #include <sys/bitmap.h> #include <sys/debug.h> #include <sys/kmem.h> #include <sys/errno.h> #include <sys/sysmacros.h> #include <sys/lockstat.h> #include <sys/atomic.h> #include <sys/dtrace.h> #include <sys/ddi.h> #include <sys/sunddi.h> typedef struct lockstat_probe { const char *lsp_func; const char *lsp_name; int lsp_probe; dtrace_id_t lsp_id; } lockstat_probe_t; lockstat_probe_t lockstat_probes[] = { { LS_MUTEX_ENTER, LSA_ACQUIRE, LS_MUTEX_ENTER_ACQUIRE }, { LS_MUTEX_ENTER, LSA_BLOCK, LS_MUTEX_ENTER_BLOCK }, { LS_MUTEX_ENTER, LSA_SPIN, LS_MUTEX_ENTER_SPIN }, { LS_MUTEX_EXIT, LSA_RELEASE, LS_MUTEX_EXIT_RELEASE }, { LS_MUTEX_DESTROY, LSA_RELEASE, LS_MUTEX_DESTROY_RELEASE }, { LS_MUTEX_TRYENTER, LSA_ACQUIRE, LS_MUTEX_TRYENTER_ACQUIRE }, { LS_LOCK_SET, LSS_ACQUIRE, LS_LOCK_SET_ACQUIRE }, { LS_LOCK_SET, LSS_SPIN, LS_LOCK_SET_SPIN }, { LS_LOCK_SET_SPL, LSS_ACQUIRE, LS_LOCK_SET_SPL_ACQUIRE }, { LS_LOCK_SET_SPL, LSS_SPIN, LS_LOCK_SET_SPL_SPIN }, { LS_LOCK_TRY, LSS_ACQUIRE, LS_LOCK_TRY_ACQUIRE }, { LS_LOCK_CLEAR, LSS_RELEASE, LS_LOCK_CLEAR_RELEASE }, { LS_LOCK_CLEAR_SPLX, LSS_RELEASE, LS_LOCK_CLEAR_SPLX_RELEASE }, { LS_CLOCK_UNLOCK, LSS_RELEASE, LS_CLOCK_UNLOCK_RELEASE }, { LS_RW_ENTER, LSR_ACQUIRE, LS_RW_ENTER_ACQUIRE }, { LS_RW_ENTER, LSR_BLOCK, LS_RW_ENTER_BLOCK }, { LS_RW_EXIT, LSR_RELEASE, LS_RW_EXIT_RELEASE }, { LS_RW_TRYENTER, LSR_ACQUIRE, LS_RW_TRYENTER_ACQUIRE }, { LS_RW_TRYUPGRADE, LSR_UPGRADE, LS_RW_TRYUPGRADE_UPGRADE }, { LS_RW_DOWNGRADE, LSR_DOWNGRADE, LS_RW_DOWNGRADE_DOWNGRADE }, { LS_THREAD_LOCK, LST_SPIN, LS_THREAD_LOCK_SPIN }, { LS_THREAD_LOCK_HIGH, LST_SPIN, LS_THREAD_LOCK_HIGH_SPIN }, { NULL } }; static dev_info_t *lockstat_devi; /* saved in xxattach() for xxinfo() */ static kmutex_t lockstat_test; /* for testing purposes only */ static dtrace_provider_id_t lockstat_id; /*ARGSUSED*/ static void lockstat_enable(void *arg, dtrace_id_t id, void *parg) { lockstat_probe_t *probe = parg; ASSERT(!lockstat_probemap[probe->lsp_probe]); lockstat_probemap[probe->lsp_probe] = id; membar_producer(); lockstat_hot_patch(); membar_producer(); /* * Immediately generate a record for the lockstat_test mutex * to verify that the mutex hot-patch code worked as expected. */ mutex_enter(&lockstat_test); mutex_exit(&lockstat_test); } /*ARGSUSED*/ static void lockstat_disable(void *arg, dtrace_id_t id, void *parg) { lockstat_probe_t *probe = parg; int i; ASSERT(lockstat_probemap[probe->lsp_probe]); lockstat_probemap[probe->lsp_probe] = 0; lockstat_hot_patch(); membar_producer(); /* * See if we have any probes left enabled. */ for (i = 0; i < LS_NPROBES; i++) { if (lockstat_probemap[i]) { /* * This probe is still enabled. We don't need to deal * with waiting for all threads to be out of the * lockstat critical sections; just return. */ return; } } /* * The delay() here isn't as cheesy as you might think. We don't * want to busy-loop in the kernel, so we have to give up the * CPU between calls to lockstat_active_threads(); that much is * obvious. But the reason it's a do..while loop rather than a * while loop is subtle. The memory barrier above guarantees that * no threads will enter the lockstat code from this point forward. * However, another thread could already be executing lockstat code * without our knowledge if the update to its t_lockstat field hasn't * cleared its CPU's store buffer. Delaying for one clock tick * guarantees that either (1) the thread will have *ample* time to * complete its work, or (2) the thread will be preempted, in which * case it will have to grab and release a dispatcher lock, which * will flush that CPU's store buffer. Either way we're covered. */ do { delay(1); } while (lockstat_active_threads()); } /*ARGSUSED*/ static int lockstat_open(dev_t *devp, int flag, int otyp, cred_t *cred_p) { return (0); } /* ARGSUSED */ static int lockstat_info(dev_info_t *dip, ddi_info_cmd_t infocmd, void *arg, void **result) { int error; switch (infocmd) { case DDI_INFO_DEVT2DEVINFO: *result = (void *) lockstat_devi; error = DDI_SUCCESS; break; case DDI_INFO_DEVT2INSTANCE: *result = (void *)0; error = DDI_SUCCESS; break; default: error = DDI_FAILURE; } return (error); } /*ARGSUSED*/ static void lockstat_provide(void *arg, const dtrace_probedesc_t *desc) { int i = 0; for (i = 0; lockstat_probes[i].lsp_func != NULL; i++) { lockstat_probe_t *probe = &lockstat_probes[i]; if (dtrace_probe_lookup(lockstat_id, "genunix", probe->lsp_func, probe->lsp_name) != 0) continue; ASSERT(!probe->lsp_id); probe->lsp_id = dtrace_probe_create(lockstat_id, "genunix", probe->lsp_func, probe->lsp_name, 1, probe); } } /*ARGSUSED*/ static void lockstat_destroy(void *arg, dtrace_id_t id, void *parg) { lockstat_probe_t *probe = parg; ASSERT(!lockstat_probemap[probe->lsp_probe]); probe->lsp_id = 0; } static dtrace_pattr_t lockstat_attr = { { DTRACE_STABILITY_EVOLVING, DTRACE_STABILITY_EVOLVING, DTRACE_CLASS_COMMON }, { DTRACE_STABILITY_PRIVATE, DTRACE_STABILITY_PRIVATE, DTRACE_CLASS_UNKNOWN }, { DTRACE_STABILITY_PRIVATE, DTRACE_STABILITY_PRIVATE, DTRACE_CLASS_UNKNOWN }, { DTRACE_STABILITY_EVOLVING, DTRACE_STABILITY_EVOLVING, DTRACE_CLASS_COMMON }, { DTRACE_STABILITY_EVOLVING, DTRACE_STABILITY_EVOLVING, DTRACE_CLASS_COMMON }, }; static dtrace_pops_t lockstat_pops = { lockstat_provide, NULL, lockstat_enable, lockstat_disable, NULL, NULL, NULL, NULL, NULL, lockstat_destroy }; static int lockstat_attach(dev_info_t *devi, ddi_attach_cmd_t cmd) { switch (cmd) { case DDI_ATTACH: break; case DDI_RESUME: return (DDI_SUCCESS); default: return (DDI_FAILURE); } if (ddi_create_minor_node(devi, "lockstat", S_IFCHR, 0, DDI_PSEUDO, 0) == DDI_FAILURE || dtrace_register("lockstat", &lockstat_attr, DTRACE_PRIV_KERNEL, NULL, &lockstat_pops, NULL, &lockstat_id) != 0) { ddi_remove_minor_node(devi, NULL); return (DDI_FAILURE); } lockstat_probe = dtrace_probe; membar_producer(); ddi_report_dev(devi); lockstat_devi = devi; return (DDI_SUCCESS); } static int lockstat_detach(dev_info_t *devi, ddi_detach_cmd_t cmd) { switch (cmd) { case DDI_DETACH: break; case DDI_SUSPEND: return (DDI_SUCCESS); default: return (DDI_FAILURE); } if (dtrace_unregister(lockstat_id) != 0) return (DDI_FAILURE); ddi_remove_minor_node(devi, NULL); return (DDI_SUCCESS); } /* * Configuration data structures */ static struct cb_ops lockstat_cb_ops = { lockstat_open, /* open */ nodev, /* close */ nulldev, /* strategy */ nulldev, /* print */ nodev, /* dump */ nodev, /* read */ nodev, /* write */ nodev, /* ioctl */ nodev, /* devmap */ nodev, /* mmap */ nodev, /* segmap */ nochpoll, /* poll */ ddi_prop_op, /* cb_prop_op */ 0, /* streamtab */ D_MP | D_NEW /* Driver compatibility flag */ }; static struct dev_ops lockstat_ops = { DEVO_REV, /* devo_rev, */ 0, /* refcnt */ lockstat_info, /* getinfo */ nulldev, /* identify */ nulldev, /* probe */ lockstat_attach, /* attach */ lockstat_detach, /* detach */ nulldev, /* reset */ &lockstat_cb_ops, /* cb_ops */ NULL, /* bus_ops */ }; static struct modldrv modldrv = { &mod_driverops, /* Type of module. This one is a driver */ "Lock Statistics %I%", /* name of module */ &lockstat_ops, /* driver ops */ }; static struct modlinkage modlinkage = { MODREV_1, (void *)&modldrv, NULL }; int _init(void) { return (mod_install(&modlinkage)); } int _fini(void) { return (mod_remove(&modlinkage)); } int _info(struct modinfo *modinfop) { return (mod_info(&modlinkage, modinfop)); }