/* * 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 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * Kernel statistics framework */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* * Global lock to protect the AVL trees and kstat_chain_id. */ static kmutex_t kstat_chain_lock; /* * Every install/delete kstat bumps kstat_chain_id. This is used by: * * (1) /dev/kstat, to detect changes in the kstat chain across ioctls; * * (2) kstat_create(), to assign a KID (kstat ID) to each new kstat. * /dev/kstat uses the KID as a cookie for kstat lookups. * * We reserve the first two IDs because some kstats are created before * the well-known ones (kstat_headers = 0, kstat_types = 1). * * We also bump the kstat_chain_id if a zone is gaining or losing visibility * into a particular kstat, which is logically equivalent to a kstat being * installed/deleted. */ kid_t kstat_chain_id = 2; /* * As far as zones are concerned, there are 3 types of kstat: * * 1) Those which have a well-known name, and which should return per-zone data * depending on which zone is doing the kstat_read(). sockfs:0:sock_unix_list * is an example of this type of kstat. * * 2) Those which should only be exported to a particular list of zones. * For example, in the case of nfs:*:mntinfo, we don't want zone A to be * able to see NFS mounts associated with zone B, while we want the * global zone to be able to see all mounts on the system. * * 3) Those that can be exported to all zones. Most system-related * kstats fall within this category. * * An ekstat_t thus contains a list of kstats that the zone is to be * exported to. The lookup of a name:instance:module thus translates to a * lookup of name:instance:module:myzone; if the kstat is not exported * to all zones, and does not have the caller's zoneid explicitly * enumerated in the list of zones to be exported to, it is the same as * if the kstat didn't exist. * * Writing to kstats is currently disallowed from within a non-global * zone, although this restriction could be removed in the future. */ typedef struct kstat_zone { zoneid_t zoneid; struct kstat_zone *next; } kstat_zone_t; /* * Extended kstat structure -- for internal use only. */ typedef struct ekstat { kstat_t e_ks; /* the kstat itself */ size_t e_size; /* total allocation size */ kthread_t *e_owner; /* thread holding this kstat */ kcondvar_t e_cv; /* wait for owner == NULL */ avl_node_t e_avl_bykid; /* AVL tree to sort by KID */ avl_node_t e_avl_byname; /* AVL tree to sort by name */ kstat_zone_t e_zone; /* zone to export stats to */ } ekstat_t; static uint64_t kstat_initial[8192]; static void *kstat_initial_ptr = kstat_initial; static size_t kstat_initial_avail = sizeof (kstat_initial); static vmem_t *kstat_arena; #define KSTAT_ALIGN (sizeof (uint64_t)) static avl_tree_t kstat_avl_bykid; static avl_tree_t kstat_avl_byname; /* * Various pointers we need to create kstats at boot time in kstat_init() */ extern kstat_named_t *segmapcnt_ptr; extern uint_t segmapcnt_ndata; extern int segmap_kstat_update(kstat_t *, int); extern kstat_named_t *biostats_ptr; extern uint_t biostats_ndata; extern kstat_named_t *pollstats_ptr; extern uint_t pollstats_ndata; extern int vac; extern uint_t nproc; extern time_t boot_time; extern sysinfo_t sysinfo; extern vminfo_t vminfo; struct { kstat_named_t ncpus; kstat_named_t lbolt; kstat_named_t deficit; kstat_named_t clk_intr; kstat_named_t vac; kstat_named_t nproc; kstat_named_t avenrun_1min; kstat_named_t avenrun_5min; kstat_named_t avenrun_15min; kstat_named_t boot_time; } system_misc_kstat = { { "ncpus", KSTAT_DATA_UINT32 }, { "lbolt", KSTAT_DATA_UINT32 }, { "deficit", KSTAT_DATA_UINT32 }, { "clk_intr", KSTAT_DATA_UINT32 }, { "vac", KSTAT_DATA_UINT32 }, { "nproc", KSTAT_DATA_UINT32 }, { "avenrun_1min", KSTAT_DATA_UINT32 }, { "avenrun_5min", KSTAT_DATA_UINT32 }, { "avenrun_15min", KSTAT_DATA_UINT32 }, { "boot_time", KSTAT_DATA_UINT32 }, }; struct { kstat_named_t physmem; kstat_named_t nalloc; kstat_named_t nfree; kstat_named_t nalloc_calls; kstat_named_t nfree_calls; kstat_named_t kernelbase; kstat_named_t econtig; kstat_named_t freemem; kstat_named_t availrmem; kstat_named_t lotsfree; kstat_named_t desfree; kstat_named_t minfree; kstat_named_t fastscan; kstat_named_t slowscan; kstat_named_t nscan; kstat_named_t desscan; kstat_named_t pp_kernel; kstat_named_t pagesfree; kstat_named_t pageslocked; kstat_named_t pagestotal; } system_pages_kstat = { { "physmem", KSTAT_DATA_ULONG }, { "nalloc", KSTAT_DATA_ULONG }, { "nfree", KSTAT_DATA_ULONG }, { "nalloc_calls", KSTAT_DATA_ULONG }, { "nfree_calls", KSTAT_DATA_ULONG }, { "kernelbase", KSTAT_DATA_ULONG }, { "econtig", KSTAT_DATA_ULONG }, { "freemem", KSTAT_DATA_ULONG }, { "availrmem", KSTAT_DATA_ULONG }, { "lotsfree", KSTAT_DATA_ULONG }, { "desfree", KSTAT_DATA_ULONG }, { "minfree", KSTAT_DATA_ULONG }, { "fastscan", KSTAT_DATA_ULONG }, { "slowscan", KSTAT_DATA_ULONG }, { "nscan", KSTAT_DATA_ULONG }, { "desscan", KSTAT_DATA_ULONG }, { "pp_kernel", KSTAT_DATA_ULONG }, { "pagesfree", KSTAT_DATA_ULONG }, { "pageslocked", KSTAT_DATA_ULONG }, { "pagestotal", KSTAT_DATA_ULONG }, }; static int header_kstat_update(kstat_t *, int); static int header_kstat_snapshot(kstat_t *, void *, int); static int system_misc_kstat_update(kstat_t *, int); static int system_pages_kstat_update(kstat_t *, int); static struct { char name[KSTAT_STRLEN]; size_t size; uint_t min_ndata; uint_t max_ndata; } kstat_data_type[KSTAT_NUM_TYPES] = { { "raw", 1, 0, INT_MAX }, { "name=value", sizeof (kstat_named_t), 0, INT_MAX }, { "interrupt", sizeof (kstat_intr_t), 1, 1 }, { "i/o", sizeof (kstat_io_t), 1, 1 }, { "event_timer", sizeof (kstat_timer_t), 0, INT_MAX }, }; int kstat_zone_find(kstat_t *k, zoneid_t zoneid) { ekstat_t *e = (ekstat_t *)k; kstat_zone_t *kz; ASSERT(MUTEX_HELD(&kstat_chain_lock)); for (kz = &e->e_zone; kz != NULL; kz = kz->next) { if (zoneid == ALL_ZONES || kz->zoneid == ALL_ZONES) return (1); if (zoneid == kz->zoneid) return (1); } return (0); } void kstat_zone_remove(kstat_t *k, zoneid_t zoneid) { ekstat_t *e = (ekstat_t *)k; kstat_zone_t *kz, *t = NULL; mutex_enter(&kstat_chain_lock); if (zoneid == e->e_zone.zoneid) { kz = e->e_zone.next; ASSERT(kz != NULL); e->e_zone.zoneid = kz->zoneid; e->e_zone.next = kz->next; goto out; } for (kz = &e->e_zone; kz->next != NULL; kz = kz->next) { if (kz->next->zoneid == zoneid) { t = kz->next; kz->next = t->next; break; } } ASSERT(t != NULL); /* we removed something */ kz = t; out: kstat_chain_id++; mutex_exit(&kstat_chain_lock); kmem_free(kz, sizeof (*kz)); } void kstat_zone_add(kstat_t *k, zoneid_t zoneid) { ekstat_t *e = (ekstat_t *)k; kstat_zone_t *kz; kz = kmem_alloc(sizeof (*kz), KM_SLEEP); mutex_enter(&kstat_chain_lock); kz->zoneid = zoneid; kz->next = e->e_zone.next; e->e_zone.next = kz; kstat_chain_id++; mutex_exit(&kstat_chain_lock); } /* * Compare the list of zones for the given kstats, returning 0 if they match * (ie, one list contains ALL_ZONES or both lists contain the same zoneid). * In practice, this is called indirectly by kstat_hold_byname(), so one of the * two lists always has one element, and this is an O(n) operation rather than * O(n^2). */ static int kstat_zone_compare(ekstat_t *e1, ekstat_t *e2) { kstat_zone_t *kz1, *kz2; ASSERT(MUTEX_HELD(&kstat_chain_lock)); for (kz1 = &e1->e_zone; kz1 != NULL; kz1 = kz1->next) { for (kz2 = &e2->e_zone; kz2 != NULL; kz2 = kz2->next) { if (kz1->zoneid == ALL_ZONES || kz2->zoneid == ALL_ZONES) return (0); if (kz1->zoneid == kz2->zoneid) return (0); } } return (e1->e_zone.zoneid < e2->e_zone.zoneid ? -1 : 1); } /* * Support for keeping kstats sorted in AVL trees for fast lookups. */ static int kstat_compare_bykid(const void *a1, const void *a2) { const kstat_t *k1 = a1; const kstat_t *k2 = a2; if (k1->ks_kid < k2->ks_kid) return (-1); if (k1->ks_kid > k2->ks_kid) return (1); return (kstat_zone_compare((ekstat_t *)k1, (ekstat_t *)k2)); } static int kstat_compare_byname(const void *a1, const void *a2) { const kstat_t *k1 = a1; const kstat_t *k2 = a2; int s; s = strcmp(k1->ks_module, k2->ks_module); if (s > 0) return (1); if (s < 0) return (-1); if (k1->ks_instance < k2->ks_instance) return (-1); if (k1->ks_instance > k2->ks_instance) return (1); s = strcmp(k1->ks_name, k2->ks_name); if (s > 0) return (1); if (s < 0) return (-1); return (kstat_zone_compare((ekstat_t *)k1, (ekstat_t *)k2)); } static kstat_t * kstat_hold(avl_tree_t *t, ekstat_t *template) { kstat_t *ksp; ekstat_t *e; mutex_enter(&kstat_chain_lock); for (;;) { ksp = avl_find(t, template, NULL); if (ksp == NULL) break; e = (ekstat_t *)ksp; if (e->e_owner == NULL) { e->e_owner = curthread; break; } cv_wait(&e->e_cv, &kstat_chain_lock); } mutex_exit(&kstat_chain_lock); return (ksp); } void kstat_rele(kstat_t *ksp) { ekstat_t *e = (ekstat_t *)ksp; mutex_enter(&kstat_chain_lock); ASSERT(e->e_owner == curthread); e->e_owner = NULL; cv_broadcast(&e->e_cv); mutex_exit(&kstat_chain_lock); } kstat_t * kstat_hold_bykid(kid_t kid, zoneid_t zoneid) { ekstat_t e; e.e_ks.ks_kid = kid; e.e_zone.zoneid = zoneid; e.e_zone.next = NULL; return (kstat_hold(&kstat_avl_bykid, &e)); } kstat_t * kstat_hold_byname(const char *ks_module, int ks_instance, const char *ks_name, zoneid_t ks_zoneid) { ekstat_t e; kstat_set_string(e.e_ks.ks_module, ks_module); e.e_ks.ks_instance = ks_instance; kstat_set_string(e.e_ks.ks_name, ks_name); e.e_zone.zoneid = ks_zoneid; e.e_zone.next = NULL; return (kstat_hold(&kstat_avl_byname, &e)); } static ekstat_t * kstat_alloc(size_t size) { ekstat_t *e = NULL; size = P2ROUNDUP(sizeof (ekstat_t) + size, KSTAT_ALIGN); if (kstat_arena == NULL) { if (size <= kstat_initial_avail) { e = kstat_initial_ptr; kstat_initial_ptr = (char *)kstat_initial_ptr + size; kstat_initial_avail -= size; } } else { e = vmem_alloc(kstat_arena, size, VM_NOSLEEP); } if (e != NULL) { bzero(e, size); e->e_size = size; cv_init(&e->e_cv, NULL, CV_DEFAULT, NULL); } return (e); } static void kstat_free(ekstat_t *e) { cv_destroy(&e->e_cv); vmem_free(kstat_arena, e, e->e_size); } /* * Create various system kstats. */ void kstat_init(void) { kstat_t *ksp; ekstat_t *e; avl_tree_t *t = &kstat_avl_bykid; /* * Set up the kstat vmem arena. */ kstat_arena = vmem_create("kstat", kstat_initial, sizeof (kstat_initial), KSTAT_ALIGN, segkmem_alloc, segkmem_free, heap_arena, 0, VM_SLEEP); /* * Make initial kstats appear as though they were allocated. */ for (e = avl_first(t); e != NULL; e = avl_walk(t, e, AVL_AFTER)) (void) vmem_xalloc(kstat_arena, e->e_size, KSTAT_ALIGN, 0, 0, e, (char *)e + e->e_size, VM_NOSLEEP | VM_BESTFIT | VM_PANIC); /* * The mother of all kstats. The first kstat in the system, which * always has KID 0, has the headers for all kstats (including itself) * as its data. Thus, the kstat driver does not need any special * interface to extract the kstat chain. */ kstat_chain_id = 0; ksp = kstat_create("unix", 0, "kstat_headers", "kstat", KSTAT_TYPE_RAW, 0, KSTAT_FLAG_VIRTUAL | KSTAT_FLAG_VAR_SIZE); if (ksp) { ksp->ks_lock = &kstat_chain_lock; ksp->ks_update = header_kstat_update; ksp->ks_snapshot = header_kstat_snapshot; kstat_install(ksp); } else { panic("cannot create kstat 'kstat_headers'"); } ksp = kstat_create("unix", 0, "kstat_types", "kstat", KSTAT_TYPE_NAMED, KSTAT_NUM_TYPES, 0); if (ksp) { int i; kstat_named_t *kn = KSTAT_NAMED_PTR(ksp); for (i = 0; i < KSTAT_NUM_TYPES; i++) { kstat_named_init(&kn[i], kstat_data_type[i].name, KSTAT_DATA_ULONG); kn[i].value.ul = i; } kstat_install(ksp); } ksp = kstat_create("unix", 0, "sysinfo", "misc", KSTAT_TYPE_RAW, sizeof (sysinfo_t), KSTAT_FLAG_VIRTUAL); if (ksp) { ksp->ks_data = (void *) &sysinfo; kstat_install(ksp); } ksp = kstat_create("unix", 0, "vminfo", "vm", KSTAT_TYPE_RAW, sizeof (vminfo_t), KSTAT_FLAG_VIRTUAL); if (ksp) { ksp->ks_data = (void *) &vminfo; kstat_install(ksp); } ksp = kstat_create("unix", 0, "segmap", "vm", KSTAT_TYPE_NAMED, segmapcnt_ndata, KSTAT_FLAG_VIRTUAL); if (ksp) { ksp->ks_data = (void *) segmapcnt_ptr; ksp->ks_update = segmap_kstat_update; kstat_install(ksp); } ksp = kstat_create("unix", 0, "biostats", "misc", KSTAT_TYPE_NAMED, biostats_ndata, KSTAT_FLAG_VIRTUAL); if (ksp) { ksp->ks_data = (void *) biostats_ptr; kstat_install(ksp); } #ifdef VAC ksp = kstat_create("unix", 0, "flushmeter", "hat", KSTAT_TYPE_RAW, sizeof (struct flushmeter), KSTAT_FLAG_VIRTUAL); if (ksp) { ksp->ks_data = (void *) &flush_cnt; kstat_install(ksp); } #endif /* VAC */ ksp = kstat_create("unix", 0, "var", "misc", KSTAT_TYPE_RAW, sizeof (struct var), KSTAT_FLAG_VIRTUAL); if (ksp) { ksp->ks_data = (void *) &v; kstat_install(ksp); } ksp = kstat_create("unix", 0, "system_misc", "misc", KSTAT_TYPE_NAMED, sizeof (system_misc_kstat) / sizeof (kstat_named_t), KSTAT_FLAG_VIRTUAL); if (ksp) { ksp->ks_data = (void *) &system_misc_kstat; ksp->ks_update = system_misc_kstat_update; kstat_install(ksp); } ksp = kstat_create("unix", 0, "system_pages", "pages", KSTAT_TYPE_NAMED, sizeof (system_pages_kstat) / sizeof (kstat_named_t), KSTAT_FLAG_VIRTUAL); if (ksp) { ksp->ks_data = (void *) &system_pages_kstat; ksp->ks_update = system_pages_kstat_update; kstat_install(ksp); } ksp = kstat_create("poll", 0, "pollstats", "misc", KSTAT_TYPE_NAMED, pollstats_ndata, KSTAT_FLAG_VIRTUAL | KSTAT_FLAG_WRITABLE); if (ksp) { ksp->ks_data = pollstats_ptr; kstat_install(ksp); } } /* * Caller of this should ensure that the string pointed by src * doesn't change while kstat's lock is held. Not doing so defeats * kstat's snapshot strategy as explained in */ void kstat_named_setstr(kstat_named_t *knp, const char *src) { if (knp->data_type != KSTAT_DATA_STRING) panic("kstat_named_setstr('%p', '%p'): " "named kstat is not of type KSTAT_DATA_STRING", knp, src); KSTAT_NAMED_STR_PTR(knp) = (char *)src; if (src != NULL) KSTAT_NAMED_STR_BUFLEN(knp) = strlen(src) + 1; else KSTAT_NAMED_STR_BUFLEN(knp) = 0; } void kstat_set_string(char *dst, const char *src) { bzero(dst, KSTAT_STRLEN); (void) strncpy(dst, src, KSTAT_STRLEN - 1); } void kstat_named_init(kstat_named_t *knp, const char *name, uchar_t data_type) { kstat_set_string(knp->name, name); knp->data_type = data_type; if (data_type == KSTAT_DATA_STRING) kstat_named_setstr(knp, NULL); } void kstat_timer_init(kstat_timer_t *ktp, const char *name) { kstat_set_string(ktp->name, name); } /* ARGSUSED */ static int default_kstat_update(kstat_t *ksp, int rw) { uint_t i; size_t len = 0; kstat_named_t *knp; /* * Named kstats with variable-length long strings have a standard * way of determining how much space is needed to hold the snapshot: */ if (ksp->ks_data != NULL && ksp->ks_type == KSTAT_TYPE_NAMED && (ksp->ks_flags & KSTAT_FLAG_VAR_SIZE)) { /* * Add in the space required for the strings */ knp = KSTAT_NAMED_PTR(ksp); for (i = 0; i < ksp->ks_ndata; i++, knp++) { if (knp->data_type == KSTAT_DATA_STRING) len += KSTAT_NAMED_STR_BUFLEN(knp); } ksp->ks_data_size = ksp->ks_ndata * sizeof (kstat_named_t) + len; } return (0); } static int default_kstat_snapshot(kstat_t *ksp, void *buf, int rw) { kstat_io_t *kiop; hrtime_t cur_time; size_t namedsz; ksp->ks_snaptime = cur_time = gethrtime(); if (rw == KSTAT_WRITE) { if (!(ksp->ks_flags & KSTAT_FLAG_WRITABLE)) return (EACCES); bcopy(buf, ksp->ks_data, ksp->ks_data_size); return (0); } /* * KSTAT_TYPE_NAMED kstats are defined to have ks_ndata * number of kstat_named_t structures, followed by an optional * string segment. The ks_data generally holds only the * kstat_named_t structures. So we copy it first. The strings, * if any, are copied below. For other kstat types, ks_data holds the * entire buffer. */ namedsz = sizeof (kstat_named_t) * ksp->ks_ndata; if (ksp->ks_type == KSTAT_TYPE_NAMED && ksp->ks_data_size > namedsz) bcopy(ksp->ks_data, buf, namedsz); else bcopy(ksp->ks_data, buf, ksp->ks_data_size); /* * Apply kstat type-specific data massaging */ switch (ksp->ks_type) { case KSTAT_TYPE_IO: /* * Normalize time units and deal with incomplete transactions */ kiop = (kstat_io_t *)buf; scalehrtime(&kiop->wtime); scalehrtime(&kiop->wlentime); scalehrtime(&kiop->wlastupdate); scalehrtime(&kiop->rtime); scalehrtime(&kiop->rlentime); scalehrtime(&kiop->rlastupdate); if (kiop->wcnt != 0) { /* like kstat_waitq_exit */ hrtime_t wfix = cur_time - kiop->wlastupdate; kiop->wlastupdate = cur_time; kiop->wlentime += kiop->wcnt * wfix; kiop->wtime += wfix; } if (kiop->rcnt != 0) { /* like kstat_runq_exit */ hrtime_t rfix = cur_time - kiop->rlastupdate; kiop->rlastupdate = cur_time; kiop->rlentime += kiop->rcnt * rfix; kiop->rtime += rfix; } break; case KSTAT_TYPE_NAMED: /* * Massage any long strings in at the end of the buffer */ if (ksp->ks_data_size > namedsz) { uint_t i; kstat_named_t *knp = buf; char *dst = (char *)(knp + ksp->ks_ndata); /* * Copy strings and update pointers */ for (i = 0; i < ksp->ks_ndata; i++, knp++) { if (knp->data_type == KSTAT_DATA_STRING && KSTAT_NAMED_STR_PTR(knp) != NULL) { bcopy(KSTAT_NAMED_STR_PTR(knp), dst, KSTAT_NAMED_STR_BUFLEN(knp)); KSTAT_NAMED_STR_PTR(knp) = dst; dst += KSTAT_NAMED_STR_BUFLEN(knp); } } ASSERT(dst <= ((char *)buf + ksp->ks_data_size)); } break; } return (0); } static int header_kstat_update(kstat_t *header_ksp, int rw) { int nkstats = 0; ekstat_t *e; avl_tree_t *t = &kstat_avl_bykid; zoneid_t zoneid; if (rw == KSTAT_WRITE) return (EACCES); ASSERT(MUTEX_HELD(&kstat_chain_lock)); zoneid = getzoneid(); for (e = avl_first(t); e != NULL; e = avl_walk(t, e, AVL_AFTER)) { if (kstat_zone_find((kstat_t *)e, zoneid)) { nkstats++; } } header_ksp->ks_ndata = nkstats; header_ksp->ks_data_size = nkstats * sizeof (kstat_t); return (0); } /* * Copy out the data section of kstat 0, which consists of the list * of all kstat headers. By specification, these headers must be * copied out in order of increasing KID. */ static int header_kstat_snapshot(kstat_t *header_ksp, void *buf, int rw) { ekstat_t *e; avl_tree_t *t = &kstat_avl_bykid; zoneid_t zoneid; header_ksp->ks_snaptime = gethrtime(); if (rw == KSTAT_WRITE) return (EACCES); ASSERT(MUTEX_HELD(&kstat_chain_lock)); zoneid = getzoneid(); for (e = avl_first(t); e != NULL; e = avl_walk(t, e, AVL_AFTER)) { if (kstat_zone_find((kstat_t *)e, zoneid)) { bcopy(&e->e_ks, buf, sizeof (kstat_t)); buf = (char *)buf + sizeof (kstat_t); } } return (0); } /* ARGSUSED */ static int system_misc_kstat_update(kstat_t *ksp, int rw) { int myncpus = ncpus; int *loadavgp = &avenrun[0]; int loadavg[LOADAVG_NSTATS]; if (rw == KSTAT_WRITE) return (EACCES); if (!INGLOBALZONE(curproc)) { /* * Here we grab cpu_lock which is OK as long as no-one in the * future attempts to lookup this particular kstat * (unix:0:system_misc) while holding cpu_lock. */ mutex_enter(&cpu_lock); if (pool_pset_enabled()) { psetid_t mypsid = zone_pset_get(curproc->p_zone); int error; myncpus = zone_ncpus_get(curproc->p_zone); ASSERT(myncpus > 0); error = cpupart_get_loadavg(mypsid, &loadavg[0], LOADAVG_NSTATS); ASSERT(error == 0); loadavgp = &loadavg[0]; } mutex_exit(&cpu_lock); } system_misc_kstat.ncpus.value.ui32 = (uint32_t)myncpus; system_misc_kstat.lbolt.value.ui32 = (uint32_t)lbolt; system_misc_kstat.deficit.value.ui32 = (uint32_t)deficit; system_misc_kstat.clk_intr.value.ui32 = (uint32_t)lbolt; system_misc_kstat.vac.value.ui32 = (uint32_t)vac; system_misc_kstat.nproc.value.ui32 = (uint32_t)nproc; system_misc_kstat.avenrun_1min.value.ui32 = (uint32_t)loadavgp[0]; system_misc_kstat.avenrun_5min.value.ui32 = (uint32_t)loadavgp[1]; system_misc_kstat.avenrun_15min.value.ui32 = (uint32_t)loadavgp[2]; system_misc_kstat.boot_time.value.ui32 = (uint32_t)boot_time; return (0); } #ifdef __sparc extern caddr_t econtig32; #else /* !__sparc */ extern caddr_t econtig; #endif /* __sparc */ extern struct vnode kvp; /* ARGSUSED */ static int system_pages_kstat_update(kstat_t *ksp, int rw) { kobj_stat_t kobj_stat; if (rw == KSTAT_WRITE) { return (EACCES); } kobj_stat_get(&kobj_stat); system_pages_kstat.physmem.value.ul = (ulong_t)physmem; system_pages_kstat.nalloc.value.ul = kobj_stat.nalloc; system_pages_kstat.nfree.value.ul = kobj_stat.nfree; system_pages_kstat.nalloc_calls.value.ul = kobj_stat.nalloc_calls; system_pages_kstat.nfree_calls.value.ul = kobj_stat.nfree_calls; system_pages_kstat.kernelbase.value.ul = (ulong_t)KERNELBASE; #ifdef __sparc /* * kstat should REALLY be modified to also report kmem64_base and * kmem64_end (see sun4u/os/startup.c), as the virtual address range * [ kernelbase .. econtig ] no longer is truly reflective of the * kernel's vallocs... */ system_pages_kstat.econtig.value.ul = (ulong_t)econtig32; #else /* !__sparc */ system_pages_kstat.econtig.value.ul = (ulong_t)econtig; #endif /* __sparc */ system_pages_kstat.freemem.value.ul = (ulong_t)freemem; system_pages_kstat.availrmem.value.ul = (ulong_t)availrmem; system_pages_kstat.lotsfree.value.ul = (ulong_t)lotsfree; system_pages_kstat.desfree.value.ul = (ulong_t)desfree; system_pages_kstat.minfree.value.ul = (ulong_t)minfree; system_pages_kstat.fastscan.value.ul = (ulong_t)fastscan; system_pages_kstat.slowscan.value.ul = (ulong_t)slowscan; system_pages_kstat.nscan.value.ul = (ulong_t)nscan; system_pages_kstat.desscan.value.ul = (ulong_t)desscan; system_pages_kstat.pagesfree.value.ul = (ulong_t)freemem; system_pages_kstat.pageslocked.value.ul = (ulong_t)(availrmem_initial - availrmem); system_pages_kstat.pagestotal.value.ul = (ulong_t)total_pages; /* * pp_kernel represents total pages used by the kernel since the * startup. This formula takes into account the boottime kernel * footprint and also considers the availrmem changes because of * user explicit page locking. */ system_pages_kstat.pp_kernel.value.ul = (ulong_t)(physinstalled - obp_pages - availrmem - k_anoninfo.ani_mem_resv - anon_segkp_pages_locked - segvn_pages_locked - pages_locked - pages_claimed - pages_useclaim); return (0); } kstat_t * kstat_create(const char *ks_module, int ks_instance, const char *ks_name, const char *ks_class, uchar_t ks_type, uint_t ks_ndata, uchar_t ks_flags) { return (kstat_create_zone(ks_module, ks_instance, ks_name, ks_class, ks_type, ks_ndata, ks_flags, ALL_ZONES)); } /* * Allocate and initialize a kstat structure. Or, if a dormant kstat with * the specified name exists, reactivate it. Returns a pointer to the kstat * on success, NULL on failure. The kstat will not be visible to the * kstat driver until kstat_install(). */ kstat_t * kstat_create_zone(const char *ks_module, int ks_instance, const char *ks_name, const char *ks_class, uchar_t ks_type, uint_t ks_ndata, uchar_t ks_flags, zoneid_t ks_zoneid) { size_t ks_data_size; kstat_t *ksp; ekstat_t *e; avl_index_t where; char namebuf[KSTAT_STRLEN + 16]; if (avl_numnodes(&kstat_avl_bykid) == 0) { avl_create(&kstat_avl_bykid, kstat_compare_bykid, sizeof (ekstat_t), offsetof(struct ekstat, e_avl_bykid)); avl_create(&kstat_avl_byname, kstat_compare_byname, sizeof (ekstat_t), offsetof(struct ekstat, e_avl_byname)); } /* * If ks_name == NULL, set the ks_name to . */ if (ks_name == NULL) { char buf[KSTAT_STRLEN]; kstat_set_string(buf, ks_module); (void) sprintf(namebuf, "%s%d", buf, ks_instance); ks_name = namebuf; } /* * Make sure it's a valid kstat data type */ if (ks_type >= KSTAT_NUM_TYPES) { cmn_err(CE_WARN, "kstat_create('%s', %d, '%s'): " "invalid kstat type %d", ks_module, ks_instance, ks_name, ks_type); return (NULL); } /* * Don't allow persistent virtual kstats -- it makes no sense. * ks_data points to garbage when the client goes away. */ if ((ks_flags & KSTAT_FLAG_PERSISTENT) && (ks_flags & KSTAT_FLAG_VIRTUAL)) { cmn_err(CE_WARN, "kstat_create('%s', %d, '%s'): " "cannot create persistent virtual kstat", ks_module, ks_instance, ks_name); return (NULL); } /* * Don't allow variable-size physical kstats, since the framework's * memory allocation for physical kstat data is fixed at creation time. */ if ((ks_flags & KSTAT_FLAG_VAR_SIZE) && !(ks_flags & KSTAT_FLAG_VIRTUAL)) { cmn_err(CE_WARN, "kstat_create('%s', %d, '%s'): " "cannot create variable-size physical kstat", ks_module, ks_instance, ks_name); return (NULL); } /* * Make sure the number of data fields is within legal range */ if (ks_ndata < kstat_data_type[ks_type].min_ndata || ks_ndata > kstat_data_type[ks_type].max_ndata) { cmn_err(CE_WARN, "kstat_create('%s', %d, '%s'): " "ks_ndata=%d out of range [%d, %d]", ks_module, ks_instance, ks_name, (int)ks_ndata, kstat_data_type[ks_type].min_ndata, kstat_data_type[ks_type].max_ndata); return (NULL); } ks_data_size = kstat_data_type[ks_type].size * ks_ndata; /* * If the named kstat already exists and is dormant, reactivate it. */ ksp = kstat_hold_byname(ks_module, ks_instance, ks_name, ks_zoneid); if (ksp != NULL) { if (!(ksp->ks_flags & KSTAT_FLAG_DORMANT)) { /* * The named kstat exists but is not dormant -- * this is a kstat namespace collision. */ kstat_rele(ksp); cmn_err(CE_WARN, "kstat_create('%s', %d, '%s'): namespace collision", ks_module, ks_instance, ks_name); return (NULL); } if ((strcmp(ksp->ks_class, ks_class) != 0) || (ksp->ks_type != ks_type) || (ksp->ks_ndata != ks_ndata) || (ks_flags & KSTAT_FLAG_VIRTUAL)) { /* * The name is the same, but the other key parameters * differ from those of the dormant kstat -- bogus. */ kstat_rele(ksp); cmn_err(CE_WARN, "kstat_create('%s', %d, '%s'): " "invalid reactivation of dormant kstat", ks_module, ks_instance, ks_name); return (NULL); } /* * Return dormant kstat pointer to caller. As usual, * the kstat is marked invalid until kstat_install(). */ ksp->ks_flags |= KSTAT_FLAG_INVALID; kstat_rele(ksp); return (ksp); } /* * Allocate memory for the new kstat header and, if this is a physical * kstat, the data section. */ e = kstat_alloc(ks_flags & KSTAT_FLAG_VIRTUAL ? 0 : ks_data_size); if (e == NULL) { cmn_err(CE_NOTE, "kstat_create('%s', %d, '%s'): " "insufficient kernel memory", ks_module, ks_instance, ks_name); return (NULL); } /* * Initialize as many fields as we can. The caller may reset * ks_lock, ks_update, ks_private, and ks_snapshot as necessary. * Creators of virtual kstats may also reset ks_data. It is * also up to the caller to initialize the kstat data section, * if necessary. All initialization must be complete before * calling kstat_install(). */ e->e_zone.zoneid = ks_zoneid; e->e_zone.next = NULL; ksp = &e->e_ks; ksp->ks_crtime = gethrtime(); kstat_set_string(ksp->ks_module, ks_module); ksp->ks_instance = ks_instance; kstat_set_string(ksp->ks_name, ks_name); ksp->ks_type = ks_type; kstat_set_string(ksp->ks_class, ks_class); ksp->ks_flags = ks_flags | KSTAT_FLAG_INVALID; if (ks_flags & KSTAT_FLAG_VIRTUAL) ksp->ks_data = NULL; else ksp->ks_data = (void *)(e + 1); ksp->ks_ndata = ks_ndata; ksp->ks_data_size = ks_data_size; ksp->ks_snaptime = ksp->ks_crtime; ksp->ks_update = default_kstat_update; ksp->ks_private = NULL; ksp->ks_snapshot = default_kstat_snapshot; ksp->ks_lock = NULL; mutex_enter(&kstat_chain_lock); /* * Add our kstat to the AVL trees. */ if (avl_find(&kstat_avl_byname, e, &where) != NULL) { mutex_exit(&kstat_chain_lock); cmn_err(CE_WARN, "kstat_create('%s', %d, '%s'): namespace collision", ks_module, ks_instance, ks_name); kstat_free(e); return (NULL); } avl_insert(&kstat_avl_byname, e, where); /* * Loop around until we find an unused KID. */ do { ksp->ks_kid = kstat_chain_id++; } while (avl_find(&kstat_avl_bykid, e, &where) != NULL); avl_insert(&kstat_avl_bykid, e, where); mutex_exit(&kstat_chain_lock); return (ksp); } /* * Activate a fully initialized kstat and make it visible to /dev/kstat. */ void kstat_install(kstat_t *ksp) { zoneid_t zoneid = ((ekstat_t *)ksp)->e_zone.zoneid; /* * If this is a variable-size kstat, it MUST provide kstat data locking * to prevent data-size races with kstat readers. */ if ((ksp->ks_flags & KSTAT_FLAG_VAR_SIZE) && ksp->ks_lock == NULL) { panic("kstat_install('%s', %d, '%s'): " "cannot create variable-size kstat without data lock", ksp->ks_module, ksp->ks_instance, ksp->ks_name); } if (kstat_hold_bykid(ksp->ks_kid, zoneid) != ksp) { cmn_err(CE_WARN, "kstat_install(%p): does not exist", (void *)ksp); return; } if (ksp->ks_type == KSTAT_TYPE_NAMED && ksp->ks_data != NULL) { int has_long_strings = 0; uint_t i; kstat_named_t *knp = KSTAT_NAMED_PTR(ksp); for (i = 0; i < ksp->ks_ndata; i++, knp++) { if (knp->data_type == KSTAT_DATA_STRING) { has_long_strings = 1; break; } } /* * It is an error for a named kstat with fields of * KSTAT_DATA_STRING to be non-virtual. */ if (has_long_strings && !(ksp->ks_flags & KSTAT_FLAG_VIRTUAL)) { panic("kstat_install('%s', %d, '%s'): " "named kstat containing KSTAT_DATA_STRING " "is not virtual", ksp->ks_module, ksp->ks_instance, ksp->ks_name); } /* * The default snapshot routine does not handle KSTAT_WRITE * for long strings. */ if (has_long_strings && (ksp->ks_flags & KSTAT_FLAG_WRITABLE) && (ksp->ks_snapshot == default_kstat_snapshot)) { panic("kstat_install('%s', %d, '%s'): " "named kstat containing KSTAT_DATA_STRING " "is writable but uses default snapshot routine", ksp->ks_module, ksp->ks_instance, ksp->ks_name); } } if (ksp->ks_flags & KSTAT_FLAG_DORMANT) { /* * We are reactivating a dormant kstat. Initialize the * caller's underlying data to the value it had when the * kstat went dormant, and mark the kstat as active. * Grab the provider's kstat lock if it's not already held. */ kmutex_t *lp = ksp->ks_lock; if (lp != NULL && MUTEX_NOT_HELD(lp)) { mutex_enter(lp); (void) KSTAT_UPDATE(ksp, KSTAT_WRITE); mutex_exit(lp); } else { (void) KSTAT_UPDATE(ksp, KSTAT_WRITE); } ksp->ks_flags &= ~KSTAT_FLAG_DORMANT; } /* * Now that the kstat is active, make it visible to the kstat driver. */ ksp->ks_flags &= ~KSTAT_FLAG_INVALID; kstat_rele(ksp); } /* * Remove a kstat from the system. Or, if it's a persistent kstat, * just update the data and mark it as dormant. */ void kstat_delete(kstat_t *ksp) { kmutex_t *lp; ekstat_t *e = (ekstat_t *)ksp; zoneid_t zoneid = e->e_zone.zoneid; kstat_zone_t *kz; if (ksp == NULL) return; lp = ksp->ks_lock; if (lp != NULL && MUTEX_HELD(lp)) { panic("kstat_delete(%p): caller holds data lock %p", (void *)ksp, (void *)lp); } if (kstat_hold_bykid(ksp->ks_kid, zoneid) != ksp) { cmn_err(CE_WARN, "kstat_delete(%p): does not exist", (void *)ksp); return; } if (ksp->ks_flags & KSTAT_FLAG_PERSISTENT) { /* * Update the data one last time, so that all activity * prior to going dormant has been accounted for. */ KSTAT_ENTER(ksp); (void) KSTAT_UPDATE(ksp, KSTAT_READ); KSTAT_EXIT(ksp); /* * Mark the kstat as dormant and restore caller-modifiable * fields to default values, so the kstat is readable during * the dormant phase. */ ksp->ks_flags |= KSTAT_FLAG_DORMANT; ksp->ks_lock = NULL; ksp->ks_update = default_kstat_update; ksp->ks_private = NULL; ksp->ks_snapshot = default_kstat_snapshot; kstat_rele(ksp); return; } /* * Remove the kstat from the framework's AVL trees, * free the allocated memory, and increment kstat_chain_id so * /dev/kstat clients can detect the event. */ mutex_enter(&kstat_chain_lock); avl_remove(&kstat_avl_bykid, e); avl_remove(&kstat_avl_byname, e); kstat_chain_id++; mutex_exit(&kstat_chain_lock); kz = e->e_zone.next; while (kz != NULL) { kstat_zone_t *t = kz; kz = kz->next; kmem_free(t, sizeof (*t)); } kstat_rele(ksp); kstat_free(e); } void kstat_delete_byname_zone(const char *ks_module, int ks_instance, const char *ks_name, zoneid_t ks_zoneid) { kstat_t *ksp; ksp = kstat_hold_byname(ks_module, ks_instance, ks_name, ks_zoneid); if (ksp != NULL) { kstat_rele(ksp); kstat_delete(ksp); } } void kstat_delete_byname(const char *ks_module, int ks_instance, const char *ks_name) { kstat_delete_byname_zone(ks_module, ks_instance, ks_name, ALL_ZONES); } /* * The sparc V9 versions of these routines can be much cheaper than * the poor 32-bit compiler can comprehend, so they're in sparcv9_subr.s. * For simplicity, however, we always feed the C versions to lint. */ #if !defined(__sparc) || defined(lint) || defined(__lint) void kstat_waitq_enter(kstat_io_t *kiop) { hrtime_t new, delta; ulong_t wcnt; new = gethrtime_unscaled(); delta = new - kiop->wlastupdate; kiop->wlastupdate = new; wcnt = kiop->wcnt++; if (wcnt != 0) { kiop->wlentime += delta * wcnt; kiop->wtime += delta; } } void kstat_waitq_exit(kstat_io_t *kiop) { hrtime_t new, delta; ulong_t wcnt; new = gethrtime_unscaled(); delta = new - kiop->wlastupdate; kiop->wlastupdate = new; wcnt = kiop->wcnt--; ASSERT((int)wcnt > 0); kiop->wlentime += delta * wcnt; kiop->wtime += delta; } void kstat_runq_enter(kstat_io_t *kiop) { hrtime_t new, delta; ulong_t rcnt; new = gethrtime_unscaled(); delta = new - kiop->rlastupdate; kiop->rlastupdate = new; rcnt = kiop->rcnt++; if (rcnt != 0) { kiop->rlentime += delta * rcnt; kiop->rtime += delta; } } void kstat_runq_exit(kstat_io_t *kiop) { hrtime_t new, delta; ulong_t rcnt; new = gethrtime_unscaled(); delta = new - kiop->rlastupdate; kiop->rlastupdate = new; rcnt = kiop->rcnt--; ASSERT((int)rcnt > 0); kiop->rlentime += delta * rcnt; kiop->rtime += delta; } void kstat_waitq_to_runq(kstat_io_t *kiop) { hrtime_t new, delta; ulong_t wcnt, rcnt; new = gethrtime_unscaled(); delta = new - kiop->wlastupdate; kiop->wlastupdate = new; wcnt = kiop->wcnt--; ASSERT((int)wcnt > 0); kiop->wlentime += delta * wcnt; kiop->wtime += delta; delta = new - kiop->rlastupdate; kiop->rlastupdate = new; rcnt = kiop->rcnt++; if (rcnt != 0) { kiop->rlentime += delta * rcnt; kiop->rtime += delta; } } void kstat_runq_back_to_waitq(kstat_io_t *kiop) { hrtime_t new, delta; ulong_t wcnt, rcnt; new = gethrtime_unscaled(); delta = new - kiop->rlastupdate; kiop->rlastupdate = new; rcnt = kiop->rcnt--; ASSERT((int)rcnt > 0); kiop->rlentime += delta * rcnt; kiop->rtime += delta; delta = new - kiop->wlastupdate; kiop->wlastupdate = new; wcnt = kiop->wcnt++; if (wcnt != 0) { kiop->wlentime += delta * wcnt; kiop->wtime += delta; } } #endif void kstat_timer_start(kstat_timer_t *ktp) { ktp->start_time = gethrtime(); } void kstat_timer_stop(kstat_timer_t *ktp) { hrtime_t etime; u_longlong_t num_events; ktp->stop_time = etime = gethrtime(); etime -= ktp->start_time; num_events = ktp->num_events; if (etime < ktp->min_time || num_events == 0) ktp->min_time = etime; if (etime > ktp->max_time) ktp->max_time = etime; ktp->elapsed_time += etime; ktp->num_events = num_events + 1; }