1dfe7b3bfSKonstantin Belousov /*- 2dfe7b3bfSKonstantin Belousov * Copyright (c) 2003 Peter Wemm. 3dfe7b3bfSKonstantin Belousov * Copyright (c) 1992 Terrence R. Lambert. 4dfe7b3bfSKonstantin Belousov * Copyright (c) 1982, 1987, 1990 The Regents of the University of California. 5dfe7b3bfSKonstantin Belousov * All rights reserved. 6dfe7b3bfSKonstantin Belousov * 7dfe7b3bfSKonstantin Belousov * This code is derived from software contributed to Berkeley by 8dfe7b3bfSKonstantin Belousov * William Jolitz. 9dfe7b3bfSKonstantin Belousov * 10dfe7b3bfSKonstantin Belousov * Redistribution and use in source and binary forms, with or without 11dfe7b3bfSKonstantin Belousov * modification, are permitted provided that the following conditions 12dfe7b3bfSKonstantin Belousov * are met: 13dfe7b3bfSKonstantin Belousov * 1. Redistributions of source code must retain the above copyright 14dfe7b3bfSKonstantin Belousov * notice, this list of conditions and the following disclaimer. 15dfe7b3bfSKonstantin Belousov * 2. Redistributions in binary form must reproduce the above copyright 16dfe7b3bfSKonstantin Belousov * notice, this list of conditions and the following disclaimer in the 17dfe7b3bfSKonstantin Belousov * documentation and/or other materials provided with the distribution. 18dfe7b3bfSKonstantin Belousov * 3. All advertising materials mentioning features or use of this software 19dfe7b3bfSKonstantin Belousov * must display the following acknowledgement: 20dfe7b3bfSKonstantin Belousov * This product includes software developed by the University of 21dfe7b3bfSKonstantin Belousov * California, Berkeley and its contributors. 22dfe7b3bfSKonstantin Belousov * 4. Neither the name of the University nor the names of its contributors 23dfe7b3bfSKonstantin Belousov * may be used to endorse or promote products derived from this software 24dfe7b3bfSKonstantin Belousov * without specific prior written permission. 25dfe7b3bfSKonstantin Belousov * 26dfe7b3bfSKonstantin Belousov * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 27dfe7b3bfSKonstantin Belousov * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 28dfe7b3bfSKonstantin Belousov * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 29dfe7b3bfSKonstantin Belousov * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 30dfe7b3bfSKonstantin Belousov * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 31dfe7b3bfSKonstantin Belousov * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 32dfe7b3bfSKonstantin Belousov * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 33dfe7b3bfSKonstantin Belousov * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 34dfe7b3bfSKonstantin Belousov * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 35dfe7b3bfSKonstantin Belousov * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 36dfe7b3bfSKonstantin Belousov * SUCH DAMAGE. 37dfe7b3bfSKonstantin Belousov * 38dfe7b3bfSKonstantin Belousov * from: @(#)machdep.c 7.4 (Berkeley) 6/3/91 39dfe7b3bfSKonstantin Belousov */ 40dfe7b3bfSKonstantin Belousov 41dfe7b3bfSKonstantin Belousov #include <sys/cdefs.h> 42dfe7b3bfSKonstantin Belousov __FBSDID("$FreeBSD$"); 43dfe7b3bfSKonstantin Belousov 447705dd4dSKonstantin Belousov #include "opt_acpi.h" 45dfe7b3bfSKonstantin Belousov #include "opt_atpic.h" 46dfe7b3bfSKonstantin Belousov #include "opt_cpu.h" 47dfe7b3bfSKonstantin Belousov #include "opt_ddb.h" 48dfe7b3bfSKonstantin Belousov #include "opt_inet.h" 49dfe7b3bfSKonstantin Belousov #include "opt_isa.h" 50835c2787SKonstantin Belousov #include "opt_kdb.h" 51dfe7b3bfSKonstantin Belousov #include "opt_kstack_pages.h" 52dfe7b3bfSKonstantin Belousov #include "opt_maxmem.h" 53dfe7b3bfSKonstantin Belousov #include "opt_mp_watchdog.h" 54dfe7b3bfSKonstantin Belousov #include "opt_platform.h" 55dfe7b3bfSKonstantin Belousov #ifdef __i386__ 56dfe7b3bfSKonstantin Belousov #include "opt_apic.h" 57dfe7b3bfSKonstantin Belousov #endif 58dfe7b3bfSKonstantin Belousov 59dfe7b3bfSKonstantin Belousov #include <sys/param.h> 60dfe7b3bfSKonstantin Belousov #include <sys/proc.h> 61dfe7b3bfSKonstantin Belousov #include <sys/systm.h> 62dfe7b3bfSKonstantin Belousov #include <sys/bus.h> 63dfe7b3bfSKonstantin Belousov #include <sys/cpu.h> 647355a02bSKonstantin Belousov #include <sys/domainset.h> 65dfe7b3bfSKonstantin Belousov #include <sys/kdb.h> 66dfe7b3bfSKonstantin Belousov #include <sys/kernel.h> 67dfe7b3bfSKonstantin Belousov #include <sys/ktr.h> 68dfe7b3bfSKonstantin Belousov #include <sys/lock.h> 69dfe7b3bfSKonstantin Belousov #include <sys/malloc.h> 70dfe7b3bfSKonstantin Belousov #include <sys/mutex.h> 71dfe7b3bfSKonstantin Belousov #include <sys/pcpu.h> 72dfe7b3bfSKonstantin Belousov #include <sys/rwlock.h> 73dfe7b3bfSKonstantin Belousov #include <sys/sched.h> 74dfe7b3bfSKonstantin Belousov #include <sys/smp.h> 75dfe7b3bfSKonstantin Belousov #include <sys/sysctl.h> 76dfe7b3bfSKonstantin Belousov 77dfe7b3bfSKonstantin Belousov #include <machine/clock.h> 78dfe7b3bfSKonstantin Belousov #include <machine/cpu.h> 79dfe7b3bfSKonstantin Belousov #include <machine/cputypes.h> 80dfe7b3bfSKonstantin Belousov #include <machine/specialreg.h> 81dfe7b3bfSKonstantin Belousov #include <machine/md_var.h> 82dfe7b3bfSKonstantin Belousov #include <machine/mp_watchdog.h> 83dfe7b3bfSKonstantin Belousov #include <machine/tss.h> 84dfe7b3bfSKonstantin Belousov #ifdef SMP 85dfe7b3bfSKonstantin Belousov #include <machine/smp.h> 86dfe7b3bfSKonstantin Belousov #endif 873da25bdbSAndriy Gapon #ifdef CPU_ELAN 883da25bdbSAndriy Gapon #include <machine/elan_mmcr.h> 893da25bdbSAndriy Gapon #endif 90b57a73f8SKonstantin Belousov #include <x86/acpica_machdep.h> 91dfe7b3bfSKonstantin Belousov 92dfe7b3bfSKonstantin Belousov #include <vm/vm.h> 93dfe7b3bfSKonstantin Belousov #include <vm/vm_extern.h> 94dfe7b3bfSKonstantin Belousov #include <vm/vm_kern.h> 95dfe7b3bfSKonstantin Belousov #include <vm/vm_page.h> 96dfe7b3bfSKonstantin Belousov #include <vm/vm_map.h> 97dfe7b3bfSKonstantin Belousov #include <vm/vm_object.h> 98dfe7b3bfSKonstantin Belousov #include <vm/vm_pager.h> 99dfe7b3bfSKonstantin Belousov #include <vm/vm_param.h> 100dfe7b3bfSKonstantin Belousov 1018428d0f1SAndriy Gapon #include <isa/isareg.h> 1028428d0f1SAndriy Gapon 1037705dd4dSKonstantin Belousov #include <contrib/dev/acpica/include/acpi.h> 1047705dd4dSKonstantin Belousov 105d9e8bbb6SKonstantin Belousov #define STATE_RUNNING 0x0 106d9e8bbb6SKonstantin Belousov #define STATE_MWAIT 0x1 107d9e8bbb6SKonstantin Belousov #define STATE_SLEEPING 0x2 108d9e8bbb6SKonstantin Belousov 1098428d0f1SAndriy Gapon #ifdef SMP 1108428d0f1SAndriy Gapon static u_int cpu_reset_proxyid; 1118428d0f1SAndriy Gapon static volatile u_int cpu_reset_proxy_active; 1128428d0f1SAndriy Gapon #endif 1138428d0f1SAndriy Gapon 114fa83f689SKonstantin Belousov struct msr_op_arg { 115fa83f689SKonstantin Belousov u_int msr; 116fa83f689SKonstantin Belousov int op; 117fa83f689SKonstantin Belousov uint64_t arg1; 118fa83f689SKonstantin Belousov }; 119fa83f689SKonstantin Belousov 120fa83f689SKonstantin Belousov static void 121fa83f689SKonstantin Belousov x86_msr_op_one(void *argp) 122fa83f689SKonstantin Belousov { 123fa83f689SKonstantin Belousov struct msr_op_arg *a; 124fa83f689SKonstantin Belousov uint64_t v; 125fa83f689SKonstantin Belousov 126fa83f689SKonstantin Belousov a = argp; 127fa83f689SKonstantin Belousov switch (a->op) { 128fa83f689SKonstantin Belousov case MSR_OP_ANDNOT: 129fa83f689SKonstantin Belousov v = rdmsr(a->msr); 130fa83f689SKonstantin Belousov v &= ~a->arg1; 131fa83f689SKonstantin Belousov wrmsr(a->msr, v); 132fa83f689SKonstantin Belousov break; 133fa83f689SKonstantin Belousov case MSR_OP_OR: 134fa83f689SKonstantin Belousov v = rdmsr(a->msr); 135fa83f689SKonstantin Belousov v |= a->arg1; 136fa83f689SKonstantin Belousov wrmsr(a->msr, v); 137fa83f689SKonstantin Belousov break; 138fa83f689SKonstantin Belousov case MSR_OP_WRITE: 139fa83f689SKonstantin Belousov wrmsr(a->msr, a->arg1); 140fa83f689SKonstantin Belousov break; 141fa83f689SKonstantin Belousov } 142fa83f689SKonstantin Belousov } 143fa83f689SKonstantin Belousov 144fa83f689SKonstantin Belousov #define MSR_OP_EXMODE_MASK 0xf0000000 145fa83f689SKonstantin Belousov #define MSR_OP_OP_MASK 0x000000ff 146fa83f689SKonstantin Belousov 147fa83f689SKonstantin Belousov void 148fa83f689SKonstantin Belousov x86_msr_op(u_int msr, u_int op, uint64_t arg1) 149fa83f689SKonstantin Belousov { 150fa83f689SKonstantin Belousov struct thread *td; 151fa83f689SKonstantin Belousov struct msr_op_arg a; 152fa83f689SKonstantin Belousov u_int exmode; 153fa83f689SKonstantin Belousov int bound_cpu, i, is_bound; 154fa83f689SKonstantin Belousov 155fa83f689SKonstantin Belousov a.op = op & MSR_OP_OP_MASK; 156fa83f689SKonstantin Belousov MPASS(a.op == MSR_OP_ANDNOT || a.op == MSR_OP_OR || 157fa83f689SKonstantin Belousov a.op == MSR_OP_WRITE); 158fa83f689SKonstantin Belousov exmode = op & MSR_OP_EXMODE_MASK; 159fa83f689SKonstantin Belousov MPASS(exmode == MSR_OP_LOCAL || exmode == MSR_OP_SCHED || 160fa83f689SKonstantin Belousov exmode == MSR_OP_RENDEZVOUS); 161fa83f689SKonstantin Belousov a.msr = msr; 162fa83f689SKonstantin Belousov a.arg1 = arg1; 163fa83f689SKonstantin Belousov switch (exmode) { 164fa83f689SKonstantin Belousov case MSR_OP_LOCAL: 165fa83f689SKonstantin Belousov x86_msr_op_one(&a); 166fa83f689SKonstantin Belousov break; 167fa83f689SKonstantin Belousov case MSR_OP_SCHED: 168fa83f689SKonstantin Belousov td = curthread; 169fa83f689SKonstantin Belousov thread_lock(td); 170fa83f689SKonstantin Belousov is_bound = sched_is_bound(td); 171fa83f689SKonstantin Belousov bound_cpu = td->td_oncpu; 172fa83f689SKonstantin Belousov CPU_FOREACH(i) { 173fa83f689SKonstantin Belousov sched_bind(td, i); 174fa83f689SKonstantin Belousov x86_msr_op_one(&a); 175fa83f689SKonstantin Belousov } 176fa83f689SKonstantin Belousov if (is_bound) 177fa83f689SKonstantin Belousov sched_bind(td, bound_cpu); 178fa83f689SKonstantin Belousov else 179fa83f689SKonstantin Belousov sched_unbind(td); 180fa83f689SKonstantin Belousov thread_unlock(td); 181fa83f689SKonstantin Belousov break; 182fa83f689SKonstantin Belousov case MSR_OP_RENDEZVOUS: 183fa83f689SKonstantin Belousov smp_rendezvous(NULL, x86_msr_op_one, NULL, &a); 184fa83f689SKonstantin Belousov break; 185fa83f689SKonstantin Belousov } 186fa83f689SKonstantin Belousov } 187fa83f689SKonstantin Belousov 188665919aaSConrad Meyer /* 189665919aaSConrad Meyer * Automatically initialized per CPU errata in cpu_idle_tun below. 190665919aaSConrad Meyer */ 191665919aaSConrad Meyer bool mwait_cpustop_broken = false; 192665919aaSConrad Meyer SYSCTL_BOOL(_machdep, OID_AUTO, mwait_cpustop_broken, CTLFLAG_RDTUN, 193665919aaSConrad Meyer &mwait_cpustop_broken, 0, 194665919aaSConrad Meyer "Can not reliably wake MONITOR/MWAIT cpus without interrupts"); 1958428d0f1SAndriy Gapon 196dfe7b3bfSKonstantin Belousov /* 197dfe7b3bfSKonstantin Belousov * Machine dependent boot() routine 198dfe7b3bfSKonstantin Belousov * 199dfe7b3bfSKonstantin Belousov * I haven't seen anything to put here yet 200dfe7b3bfSKonstantin Belousov * Possibly some stuff might be grafted back here from boot() 201dfe7b3bfSKonstantin Belousov */ 202dfe7b3bfSKonstantin Belousov void 203dfe7b3bfSKonstantin Belousov cpu_boot(int howto) 204dfe7b3bfSKonstantin Belousov { 205dfe7b3bfSKonstantin Belousov } 206dfe7b3bfSKonstantin Belousov 207dfe7b3bfSKonstantin Belousov /* 208dfe7b3bfSKonstantin Belousov * Flush the D-cache for non-DMA I/O so that the I-cache can 209dfe7b3bfSKonstantin Belousov * be made coherent later. 210dfe7b3bfSKonstantin Belousov */ 211dfe7b3bfSKonstantin Belousov void 212dfe7b3bfSKonstantin Belousov cpu_flush_dcache(void *ptr, size_t len) 213dfe7b3bfSKonstantin Belousov { 214dfe7b3bfSKonstantin Belousov /* Not applicable */ 215dfe7b3bfSKonstantin Belousov } 216dfe7b3bfSKonstantin Belousov 217b57a73f8SKonstantin Belousov void 218b57a73f8SKonstantin Belousov acpi_cpu_c1(void) 219b57a73f8SKonstantin Belousov { 220b57a73f8SKonstantin Belousov 221b57a73f8SKonstantin Belousov __asm __volatile("sti; hlt"); 222b57a73f8SKonstantin Belousov } 223b57a73f8SKonstantin Belousov 22419d4720bSJonathan T. Looney /* 22519d4720bSJonathan T. Looney * Use mwait to pause execution while waiting for an interrupt or 22619d4720bSJonathan T. Looney * another thread to signal that there is more work. 22719d4720bSJonathan T. Looney * 22819d4720bSJonathan T. Looney * NOTE: Interrupts will cause a wakeup; however, this function does 22919d4720bSJonathan T. Looney * not enable interrupt handling. The caller is responsible to enable 23019d4720bSJonathan T. Looney * interrupts. 23119d4720bSJonathan T. Looney */ 232b57a73f8SKonstantin Belousov void 233b57a73f8SKonstantin Belousov acpi_cpu_idle_mwait(uint32_t mwait_hint) 234b57a73f8SKonstantin Belousov { 235b57a73f8SKonstantin Belousov int *state; 2363621ba1eSKonstantin Belousov uint64_t v; 237b57a73f8SKonstantin Belousov 238b57a73f8SKonstantin Belousov /* 239319117fdSKonstantin Belousov * A comment in Linux patch claims that 'CPUs run faster with 240319117fdSKonstantin Belousov * speculation protection disabled. All CPU threads in a core 241319117fdSKonstantin Belousov * must disable speculation protection for it to be 242319117fdSKonstantin Belousov * disabled. Disable it while we are idle so the other 243319117fdSKonstantin Belousov * hyperthread can run fast.' 244319117fdSKonstantin Belousov * 245b57a73f8SKonstantin Belousov * XXXKIB. Software coordination mode should be supported, 246b57a73f8SKonstantin Belousov * but all Intel CPUs provide hardware coordination. 247b57a73f8SKonstantin Belousov */ 248d9e8bbb6SKonstantin Belousov 24983dc49beSConrad Meyer state = &PCPU_PTR(monitorbuf)->idle_state; 250a5bd21d0SKonstantin Belousov KASSERT(atomic_load_int(state) == STATE_SLEEPING, 251d9e8bbb6SKonstantin Belousov ("cpu_mwait_cx: wrong monitorbuf state")); 252a5bd21d0SKonstantin Belousov atomic_store_int(state, STATE_MWAIT); 2533621ba1eSKonstantin Belousov if (PCPU_GET(ibpb_set) || hw_ssb_active) { 2543621ba1eSKonstantin Belousov v = rdmsr(MSR_IA32_SPEC_CTRL); 2553621ba1eSKonstantin Belousov wrmsr(MSR_IA32_SPEC_CTRL, v & ~(IA32_SPEC_CTRL_IBRS | 2563621ba1eSKonstantin Belousov IA32_SPEC_CTRL_STIBP | IA32_SPEC_CTRL_SSBD)); 2573621ba1eSKonstantin Belousov } else { 2583621ba1eSKonstantin Belousov v = 0; 2593621ba1eSKonstantin Belousov } 260b57a73f8SKonstantin Belousov cpu_monitor(state, 0, 0); 261a5bd21d0SKonstantin Belousov if (atomic_load_int(state) == STATE_MWAIT) 262b57a73f8SKonstantin Belousov cpu_mwait(MWAIT_INTRBREAK, mwait_hint); 2633621ba1eSKonstantin Belousov 2643621ba1eSKonstantin Belousov /* 2653621ba1eSKonstantin Belousov * SSB cannot be disabled while we sleep, or rather, if it was 2663621ba1eSKonstantin Belousov * disabled, the sysctl thread will bind to our cpu to tweak 2673621ba1eSKonstantin Belousov * MSR. 2683621ba1eSKonstantin Belousov */ 2693621ba1eSKonstantin Belousov if (v != 0) 2703621ba1eSKonstantin Belousov wrmsr(MSR_IA32_SPEC_CTRL, v); 271d9e8bbb6SKonstantin Belousov 272d9e8bbb6SKonstantin Belousov /* 273d9e8bbb6SKonstantin Belousov * We should exit on any event that interrupts mwait, because 274d9e8bbb6SKonstantin Belousov * that event might be a wanted interrupt. 275d9e8bbb6SKonstantin Belousov */ 276a5bd21d0SKonstantin Belousov atomic_store_int(state, STATE_RUNNING); 277b57a73f8SKonstantin Belousov } 278b57a73f8SKonstantin Belousov 279dfe7b3bfSKonstantin Belousov /* Get current clock frequency for the given cpu id. */ 280dfe7b3bfSKonstantin Belousov int 281dfe7b3bfSKonstantin Belousov cpu_est_clockrate(int cpu_id, uint64_t *rate) 282dfe7b3bfSKonstantin Belousov { 283dfe7b3bfSKonstantin Belousov uint64_t tsc1, tsc2; 284dfe7b3bfSKonstantin Belousov uint64_t acnt, mcnt, perf; 285dfe7b3bfSKonstantin Belousov register_t reg; 286dfe7b3bfSKonstantin Belousov 287dfe7b3bfSKonstantin Belousov if (pcpu_find(cpu_id) == NULL || rate == NULL) 288dfe7b3bfSKonstantin Belousov return (EINVAL); 289dfe7b3bfSKonstantin Belousov #ifdef __i386__ 290dfe7b3bfSKonstantin Belousov if ((cpu_feature & CPUID_TSC) == 0) 291dfe7b3bfSKonstantin Belousov return (EOPNOTSUPP); 292dfe7b3bfSKonstantin Belousov #endif 293dfe7b3bfSKonstantin Belousov 294dfe7b3bfSKonstantin Belousov /* 295dfe7b3bfSKonstantin Belousov * If TSC is P-state invariant and APERF/MPERF MSRs do not exist, 296dfe7b3bfSKonstantin Belousov * DELAY(9) based logic fails. 297dfe7b3bfSKonstantin Belousov */ 298dfe7b3bfSKonstantin Belousov if (tsc_is_invariant && !tsc_perf_stat) 299dfe7b3bfSKonstantin Belousov return (EOPNOTSUPP); 300dfe7b3bfSKonstantin Belousov 301dfe7b3bfSKonstantin Belousov #ifdef SMP 302dfe7b3bfSKonstantin Belousov if (smp_cpus > 1) { 303dfe7b3bfSKonstantin Belousov /* Schedule ourselves on the indicated cpu. */ 304dfe7b3bfSKonstantin Belousov thread_lock(curthread); 305dfe7b3bfSKonstantin Belousov sched_bind(curthread, cpu_id); 306dfe7b3bfSKonstantin Belousov thread_unlock(curthread); 307dfe7b3bfSKonstantin Belousov } 308dfe7b3bfSKonstantin Belousov #endif 309dfe7b3bfSKonstantin Belousov 310dfe7b3bfSKonstantin Belousov /* Calibrate by measuring a short delay. */ 311dfe7b3bfSKonstantin Belousov reg = intr_disable(); 312dfe7b3bfSKonstantin Belousov if (tsc_is_invariant) { 313dfe7b3bfSKonstantin Belousov wrmsr(MSR_MPERF, 0); 314dfe7b3bfSKonstantin Belousov wrmsr(MSR_APERF, 0); 315dfe7b3bfSKonstantin Belousov tsc1 = rdtsc(); 316dfe7b3bfSKonstantin Belousov DELAY(1000); 317dfe7b3bfSKonstantin Belousov mcnt = rdmsr(MSR_MPERF); 318dfe7b3bfSKonstantin Belousov acnt = rdmsr(MSR_APERF); 319dfe7b3bfSKonstantin Belousov tsc2 = rdtsc(); 320dfe7b3bfSKonstantin Belousov intr_restore(reg); 321dfe7b3bfSKonstantin Belousov perf = 1000 * acnt / mcnt; 322dfe7b3bfSKonstantin Belousov *rate = (tsc2 - tsc1) * perf; 323dfe7b3bfSKonstantin Belousov } else { 324dfe7b3bfSKonstantin Belousov tsc1 = rdtsc(); 325dfe7b3bfSKonstantin Belousov DELAY(1000); 326dfe7b3bfSKonstantin Belousov tsc2 = rdtsc(); 327dfe7b3bfSKonstantin Belousov intr_restore(reg); 328dfe7b3bfSKonstantin Belousov *rate = (tsc2 - tsc1) * 1000; 329dfe7b3bfSKonstantin Belousov } 330dfe7b3bfSKonstantin Belousov 331dfe7b3bfSKonstantin Belousov #ifdef SMP 332dfe7b3bfSKonstantin Belousov if (smp_cpus > 1) { 333dfe7b3bfSKonstantin Belousov thread_lock(curthread); 334dfe7b3bfSKonstantin Belousov sched_unbind(curthread); 335dfe7b3bfSKonstantin Belousov thread_unlock(curthread); 336dfe7b3bfSKonstantin Belousov } 337dfe7b3bfSKonstantin Belousov #endif 338dfe7b3bfSKonstantin Belousov 339dfe7b3bfSKonstantin Belousov return (0); 340dfe7b3bfSKonstantin Belousov } 341dfe7b3bfSKonstantin Belousov 342dfe7b3bfSKonstantin Belousov /* 343dfe7b3bfSKonstantin Belousov * Shutdown the CPU as much as possible 344dfe7b3bfSKonstantin Belousov */ 345dfe7b3bfSKonstantin Belousov void 346dfe7b3bfSKonstantin Belousov cpu_halt(void) 347dfe7b3bfSKonstantin Belousov { 348dfe7b3bfSKonstantin Belousov for (;;) 349dfe7b3bfSKonstantin Belousov halt(); 350dfe7b3bfSKonstantin Belousov } 351dfe7b3bfSKonstantin Belousov 3528428d0f1SAndriy Gapon static void 353b7b25af0SAndriy Gapon cpu_reset_real(void) 3548428d0f1SAndriy Gapon { 3558428d0f1SAndriy Gapon struct region_descriptor null_idt; 3568428d0f1SAndriy Gapon int b; 3578428d0f1SAndriy Gapon 3588428d0f1SAndriy Gapon disable_intr(); 3598428d0f1SAndriy Gapon #ifdef CPU_ELAN 3608428d0f1SAndriy Gapon if (elan_mmcr != NULL) 3618428d0f1SAndriy Gapon elan_mmcr->RESCFG = 1; 3628428d0f1SAndriy Gapon #endif 3638428d0f1SAndriy Gapon #ifdef __i386__ 3648428d0f1SAndriy Gapon if (cpu == CPU_GEODE1100) { 3658428d0f1SAndriy Gapon /* Attempt Geode's own reset */ 3668428d0f1SAndriy Gapon outl(0xcf8, 0x80009044ul); 3678428d0f1SAndriy Gapon outl(0xcfc, 0xf); 3688428d0f1SAndriy Gapon } 3698428d0f1SAndriy Gapon #endif 3708428d0f1SAndriy Gapon #if !defined(BROKEN_KEYBOARD_RESET) 3718428d0f1SAndriy Gapon /* 3728428d0f1SAndriy Gapon * Attempt to do a CPU reset via the keyboard controller, 3738428d0f1SAndriy Gapon * do not turn off GateA20, as any machine that fails 3748428d0f1SAndriy Gapon * to do the reset here would then end up in no man's land. 3758428d0f1SAndriy Gapon */ 3768428d0f1SAndriy Gapon outb(IO_KBD + 4, 0xFE); 3778428d0f1SAndriy Gapon DELAY(500000); /* wait 0.5 sec to see if that did it */ 3788428d0f1SAndriy Gapon #endif 3798428d0f1SAndriy Gapon 3808428d0f1SAndriy Gapon /* 3818428d0f1SAndriy Gapon * Attempt to force a reset via the Reset Control register at 3828428d0f1SAndriy Gapon * I/O port 0xcf9. Bit 2 forces a system reset when it 3838428d0f1SAndriy Gapon * transitions from 0 to 1. Bit 1 selects the type of reset 3848428d0f1SAndriy Gapon * to attempt: 0 selects a "soft" reset, and 1 selects a 3858428d0f1SAndriy Gapon * "hard" reset. We try a "hard" reset. The first write sets 3868428d0f1SAndriy Gapon * bit 1 to select a "hard" reset and clears bit 2. The 3878428d0f1SAndriy Gapon * second write forces a 0 -> 1 transition in bit 2 to trigger 3888428d0f1SAndriy Gapon * a reset. 3898428d0f1SAndriy Gapon */ 3908428d0f1SAndriy Gapon outb(0xcf9, 0x2); 3918428d0f1SAndriy Gapon outb(0xcf9, 0x6); 3928428d0f1SAndriy Gapon DELAY(500000); /* wait 0.5 sec to see if that did it */ 3938428d0f1SAndriy Gapon 3948428d0f1SAndriy Gapon /* 3958428d0f1SAndriy Gapon * Attempt to force a reset via the Fast A20 and Init register 3968428d0f1SAndriy Gapon * at I/O port 0x92. Bit 1 serves as an alternate A20 gate. 3978428d0f1SAndriy Gapon * Bit 0 asserts INIT# when set to 1. We are careful to only 3988428d0f1SAndriy Gapon * preserve bit 1 while setting bit 0. We also must clear bit 3998428d0f1SAndriy Gapon * 0 before setting it if it isn't already clear. 4008428d0f1SAndriy Gapon */ 4018428d0f1SAndriy Gapon b = inb(0x92); 4028428d0f1SAndriy Gapon if (b != 0xff) { 4038428d0f1SAndriy Gapon if ((b & 0x1) != 0) 4048428d0f1SAndriy Gapon outb(0x92, b & 0xfe); 4058428d0f1SAndriy Gapon outb(0x92, b | 0x1); 4068428d0f1SAndriy Gapon DELAY(500000); /* wait 0.5 sec to see if that did it */ 4078428d0f1SAndriy Gapon } 4088428d0f1SAndriy Gapon 4098428d0f1SAndriy Gapon printf("No known reset method worked, attempting CPU shutdown\n"); 4108428d0f1SAndriy Gapon DELAY(1000000); /* wait 1 sec for printf to complete */ 4118428d0f1SAndriy Gapon 4128428d0f1SAndriy Gapon /* Wipe the IDT. */ 4138428d0f1SAndriy Gapon null_idt.rd_limit = 0; 4148428d0f1SAndriy Gapon null_idt.rd_base = 0; 4158428d0f1SAndriy Gapon lidt(&null_idt); 4168428d0f1SAndriy Gapon 4178428d0f1SAndriy Gapon /* "good night, sweet prince .... <THUNK!>" */ 4188428d0f1SAndriy Gapon breakpoint(); 4198428d0f1SAndriy Gapon 4208428d0f1SAndriy Gapon /* NOTREACHED */ 4218428d0f1SAndriy Gapon while(1); 4228428d0f1SAndriy Gapon } 4238428d0f1SAndriy Gapon 4248428d0f1SAndriy Gapon #ifdef SMP 4258428d0f1SAndriy Gapon static void 426b7b25af0SAndriy Gapon cpu_reset_proxy(void) 4278428d0f1SAndriy Gapon { 4288428d0f1SAndriy Gapon 4298428d0f1SAndriy Gapon cpu_reset_proxy_active = 1; 4308428d0f1SAndriy Gapon while (cpu_reset_proxy_active == 1) 4318428d0f1SAndriy Gapon ia32_pause(); /* Wait for other cpu to see that we've started */ 4328428d0f1SAndriy Gapon 4338428d0f1SAndriy Gapon printf("cpu_reset_proxy: Stopped CPU %d\n", cpu_reset_proxyid); 4348428d0f1SAndriy Gapon DELAY(1000000); 4358428d0f1SAndriy Gapon cpu_reset_real(); 4368428d0f1SAndriy Gapon } 4378428d0f1SAndriy Gapon #endif 4388428d0f1SAndriy Gapon 4398428d0f1SAndriy Gapon void 440b7b25af0SAndriy Gapon cpu_reset(void) 4418428d0f1SAndriy Gapon { 4428428d0f1SAndriy Gapon #ifdef SMP 443665919aaSConrad Meyer struct monitorbuf *mb; 4448428d0f1SAndriy Gapon cpuset_t map; 4458428d0f1SAndriy Gapon u_int cnt; 4468428d0f1SAndriy Gapon 4478428d0f1SAndriy Gapon if (smp_started) { 4488428d0f1SAndriy Gapon map = all_cpus; 4498428d0f1SAndriy Gapon CPU_CLR(PCPU_GET(cpuid), &map); 4509825eadfSRyan Libby CPU_ANDNOT(&map, &stopped_cpus); 4518428d0f1SAndriy Gapon if (!CPU_EMPTY(&map)) { 4528428d0f1SAndriy Gapon printf("cpu_reset: Stopping other CPUs\n"); 4538428d0f1SAndriy Gapon stop_cpus(map); 4548428d0f1SAndriy Gapon } 4558428d0f1SAndriy Gapon 4568428d0f1SAndriy Gapon if (PCPU_GET(cpuid) != 0) { 4578428d0f1SAndriy Gapon cpu_reset_proxyid = PCPU_GET(cpuid); 4588428d0f1SAndriy Gapon cpustop_restartfunc = cpu_reset_proxy; 4598428d0f1SAndriy Gapon cpu_reset_proxy_active = 0; 4608428d0f1SAndriy Gapon printf("cpu_reset: Restarting BSP\n"); 4618428d0f1SAndriy Gapon 4628428d0f1SAndriy Gapon /* Restart CPU #0. */ 4638428d0f1SAndriy Gapon CPU_SETOF(0, &started_cpus); 464665919aaSConrad Meyer mb = &pcpu_find(0)->pc_monitorbuf; 465665919aaSConrad Meyer atomic_store_int(&mb->stop_state, 466665919aaSConrad Meyer MONITOR_STOPSTATE_RUNNING); 4678428d0f1SAndriy Gapon 4688428d0f1SAndriy Gapon cnt = 0; 4698428d0f1SAndriy Gapon while (cpu_reset_proxy_active == 0 && cnt < 10000000) { 4708428d0f1SAndriy Gapon ia32_pause(); 4718428d0f1SAndriy Gapon cnt++; /* Wait for BSP to announce restart */ 4728428d0f1SAndriy Gapon } 4738428d0f1SAndriy Gapon if (cpu_reset_proxy_active == 0) { 4748428d0f1SAndriy Gapon printf("cpu_reset: Failed to restart BSP\n"); 4758428d0f1SAndriy Gapon } else { 4768428d0f1SAndriy Gapon cpu_reset_proxy_active = 2; 4778428d0f1SAndriy Gapon while (1) 4788428d0f1SAndriy Gapon ia32_pause(); 4798428d0f1SAndriy Gapon /* NOTREACHED */ 4808428d0f1SAndriy Gapon } 4818428d0f1SAndriy Gapon } 4828428d0f1SAndriy Gapon 4838428d0f1SAndriy Gapon DELAY(1000000); 4848428d0f1SAndriy Gapon } 4858428d0f1SAndriy Gapon #endif 4868428d0f1SAndriy Gapon cpu_reset_real(); 4878428d0f1SAndriy Gapon /* NOTREACHED */ 4888428d0f1SAndriy Gapon } 4898428d0f1SAndriy Gapon 490b57a73f8SKonstantin Belousov bool 491b57a73f8SKonstantin Belousov cpu_mwait_usable(void) 492b57a73f8SKonstantin Belousov { 493b57a73f8SKonstantin Belousov 494b57a73f8SKonstantin Belousov return ((cpu_feature2 & CPUID2_MON) != 0 && ((cpu_mon_mwait_flags & 495b57a73f8SKonstantin Belousov (CPUID5_MON_MWAIT_EXT | CPUID5_MWAIT_INTRBREAK)) == 496b57a73f8SKonstantin Belousov (CPUID5_MON_MWAIT_EXT | CPUID5_MWAIT_INTRBREAK))); 497b57a73f8SKonstantin Belousov } 498b57a73f8SKonstantin Belousov 499dfe7b3bfSKonstantin Belousov void (*cpu_idle_hook)(sbintime_t) = NULL; /* ACPI idle hook. */ 500dfe7b3bfSKonstantin Belousov static int cpu_ident_amdc1e = 0; /* AMD C1E supported. */ 501dfe7b3bfSKonstantin Belousov static int idle_mwait = 1; /* Use MONITOR/MWAIT for short idle. */ 502dfe7b3bfSKonstantin Belousov SYSCTL_INT(_machdep, OID_AUTO, idle_mwait, CTLFLAG_RWTUN, &idle_mwait, 503dfe7b3bfSKonstantin Belousov 0, "Use MONITOR/MWAIT for short idle"); 504dfe7b3bfSKonstantin Belousov 505dfe7b3bfSKonstantin Belousov static void 506dfe7b3bfSKonstantin Belousov cpu_idle_acpi(sbintime_t sbt) 507dfe7b3bfSKonstantin Belousov { 508dfe7b3bfSKonstantin Belousov int *state; 509dfe7b3bfSKonstantin Belousov 51083dc49beSConrad Meyer state = &PCPU_PTR(monitorbuf)->idle_state; 511a5bd21d0SKonstantin Belousov atomic_store_int(state, STATE_SLEEPING); 512dfe7b3bfSKonstantin Belousov 513dfe7b3bfSKonstantin Belousov /* See comments in cpu_idle_hlt(). */ 514dfe7b3bfSKonstantin Belousov disable_intr(); 515dfe7b3bfSKonstantin Belousov if (sched_runnable()) 516dfe7b3bfSKonstantin Belousov enable_intr(); 517dfe7b3bfSKonstantin Belousov else if (cpu_idle_hook) 518dfe7b3bfSKonstantin Belousov cpu_idle_hook(sbt); 519dfe7b3bfSKonstantin Belousov else 520b57a73f8SKonstantin Belousov acpi_cpu_c1(); 521a5bd21d0SKonstantin Belousov atomic_store_int(state, STATE_RUNNING); 522dfe7b3bfSKonstantin Belousov } 523dfe7b3bfSKonstantin Belousov 524dfe7b3bfSKonstantin Belousov static void 525dfe7b3bfSKonstantin Belousov cpu_idle_hlt(sbintime_t sbt) 526dfe7b3bfSKonstantin Belousov { 527dfe7b3bfSKonstantin Belousov int *state; 528dfe7b3bfSKonstantin Belousov 52983dc49beSConrad Meyer state = &PCPU_PTR(monitorbuf)->idle_state; 530a5bd21d0SKonstantin Belousov atomic_store_int(state, STATE_SLEEPING); 531dfe7b3bfSKonstantin Belousov 532dfe7b3bfSKonstantin Belousov /* 533dfe7b3bfSKonstantin Belousov * Since we may be in a critical section from cpu_idle(), if 534dfe7b3bfSKonstantin Belousov * an interrupt fires during that critical section we may have 535dfe7b3bfSKonstantin Belousov * a pending preemption. If the CPU halts, then that thread 536dfe7b3bfSKonstantin Belousov * may not execute until a later interrupt awakens the CPU. 537dfe7b3bfSKonstantin Belousov * To handle this race, check for a runnable thread after 538dfe7b3bfSKonstantin Belousov * disabling interrupts and immediately return if one is 539dfe7b3bfSKonstantin Belousov * found. Also, we must absolutely guarentee that hlt is 540dfe7b3bfSKonstantin Belousov * the next instruction after sti. This ensures that any 541dfe7b3bfSKonstantin Belousov * interrupt that fires after the call to disable_intr() will 542dfe7b3bfSKonstantin Belousov * immediately awaken the CPU from hlt. Finally, please note 543dfe7b3bfSKonstantin Belousov * that on x86 this works fine because of interrupts enabled only 544dfe7b3bfSKonstantin Belousov * after the instruction following sti takes place, while IF is set 545dfe7b3bfSKonstantin Belousov * to 1 immediately, allowing hlt instruction to acknowledge the 546dfe7b3bfSKonstantin Belousov * interrupt. 547dfe7b3bfSKonstantin Belousov */ 548dfe7b3bfSKonstantin Belousov disable_intr(); 549dfe7b3bfSKonstantin Belousov if (sched_runnable()) 550dfe7b3bfSKonstantin Belousov enable_intr(); 551dfe7b3bfSKonstantin Belousov else 552b57a73f8SKonstantin Belousov acpi_cpu_c1(); 553a5bd21d0SKonstantin Belousov atomic_store_int(state, STATE_RUNNING); 554dfe7b3bfSKonstantin Belousov } 555dfe7b3bfSKonstantin Belousov 556dfe7b3bfSKonstantin Belousov static void 557dfe7b3bfSKonstantin Belousov cpu_idle_mwait(sbintime_t sbt) 558dfe7b3bfSKonstantin Belousov { 559dfe7b3bfSKonstantin Belousov int *state; 560dfe7b3bfSKonstantin Belousov 56183dc49beSConrad Meyer state = &PCPU_PTR(monitorbuf)->idle_state; 562a5bd21d0SKonstantin Belousov atomic_store_int(state, STATE_MWAIT); 563dfe7b3bfSKonstantin Belousov 564dfe7b3bfSKonstantin Belousov /* See comments in cpu_idle_hlt(). */ 565dfe7b3bfSKonstantin Belousov disable_intr(); 566dfe7b3bfSKonstantin Belousov if (sched_runnable()) { 567a5bd21d0SKonstantin Belousov atomic_store_int(state, STATE_RUNNING); 568dfe7b3bfSKonstantin Belousov enable_intr(); 569dfe7b3bfSKonstantin Belousov return; 570dfe7b3bfSKonstantin Belousov } 571a5bd21d0SKonstantin Belousov 572dfe7b3bfSKonstantin Belousov cpu_monitor(state, 0, 0); 573a5bd21d0SKonstantin Belousov if (atomic_load_int(state) == STATE_MWAIT) 574dfe7b3bfSKonstantin Belousov __asm __volatile("sti; mwait" : : "a" (MWAIT_C1), "c" (0)); 575dfe7b3bfSKonstantin Belousov else 576dfe7b3bfSKonstantin Belousov enable_intr(); 577a5bd21d0SKonstantin Belousov atomic_store_int(state, STATE_RUNNING); 578dfe7b3bfSKonstantin Belousov } 579dfe7b3bfSKonstantin Belousov 580dfe7b3bfSKonstantin Belousov static void 581dfe7b3bfSKonstantin Belousov cpu_idle_spin(sbintime_t sbt) 582dfe7b3bfSKonstantin Belousov { 583dfe7b3bfSKonstantin Belousov int *state; 584dfe7b3bfSKonstantin Belousov int i; 585dfe7b3bfSKonstantin Belousov 58683dc49beSConrad Meyer state = &PCPU_PTR(monitorbuf)->idle_state; 587a5bd21d0SKonstantin Belousov atomic_store_int(state, STATE_RUNNING); 588dfe7b3bfSKonstantin Belousov 589dfe7b3bfSKonstantin Belousov /* 590dfe7b3bfSKonstantin Belousov * The sched_runnable() call is racy but as long as there is 591dfe7b3bfSKonstantin Belousov * a loop missing it one time will have just a little impact if any 592dfe7b3bfSKonstantin Belousov * (and it is much better than missing the check at all). 593dfe7b3bfSKonstantin Belousov */ 594dfe7b3bfSKonstantin Belousov for (i = 0; i < 1000; i++) { 595dfe7b3bfSKonstantin Belousov if (sched_runnable()) 596dfe7b3bfSKonstantin Belousov return; 597dfe7b3bfSKonstantin Belousov cpu_spinwait(); 598dfe7b3bfSKonstantin Belousov } 599dfe7b3bfSKonstantin Belousov } 600dfe7b3bfSKonstantin Belousov 601dfe7b3bfSKonstantin Belousov /* 602dfe7b3bfSKonstantin Belousov * C1E renders the local APIC timer dead, so we disable it by 603dfe7b3bfSKonstantin Belousov * reading the Interrupt Pending Message register and clearing 604dfe7b3bfSKonstantin Belousov * both C1eOnCmpHalt (bit 28) and SmiOnCmpHalt (bit 27). 605dfe7b3bfSKonstantin Belousov * 606dfe7b3bfSKonstantin Belousov * Reference: 607dfe7b3bfSKonstantin Belousov * "BIOS and Kernel Developer's Guide for AMD NPT Family 0Fh Processors" 608dfe7b3bfSKonstantin Belousov * #32559 revision 3.00+ 609dfe7b3bfSKonstantin Belousov */ 610dfe7b3bfSKonstantin Belousov #define MSR_AMDK8_IPM 0xc0010055 611dfe7b3bfSKonstantin Belousov #define AMDK8_SMIONCMPHALT (1ULL << 27) 612dfe7b3bfSKonstantin Belousov #define AMDK8_C1EONCMPHALT (1ULL << 28) 613dfe7b3bfSKonstantin Belousov #define AMDK8_CMPHALT (AMDK8_SMIONCMPHALT | AMDK8_C1EONCMPHALT) 614dfe7b3bfSKonstantin Belousov 615dfe7b3bfSKonstantin Belousov void 616dfe7b3bfSKonstantin Belousov cpu_probe_amdc1e(void) 617dfe7b3bfSKonstantin Belousov { 618dfe7b3bfSKonstantin Belousov 619dfe7b3bfSKonstantin Belousov /* 620dfe7b3bfSKonstantin Belousov * Detect the presence of C1E capability mostly on latest 621dfe7b3bfSKonstantin Belousov * dual-cores (or future) k8 family. 622dfe7b3bfSKonstantin Belousov */ 623dfe7b3bfSKonstantin Belousov if (cpu_vendor_id == CPU_VENDOR_AMD && 624dfe7b3bfSKonstantin Belousov (cpu_id & 0x00000f00) == 0x00000f00 && 625dfe7b3bfSKonstantin Belousov (cpu_id & 0x0fff0000) >= 0x00040000) { 626dfe7b3bfSKonstantin Belousov cpu_ident_amdc1e = 1; 627dfe7b3bfSKonstantin Belousov } 628dfe7b3bfSKonstantin Belousov } 629dfe7b3bfSKonstantin Belousov 630dfe7b3bfSKonstantin Belousov void (*cpu_idle_fn)(sbintime_t) = cpu_idle_acpi; 631dfe7b3bfSKonstantin Belousov 632dfe7b3bfSKonstantin Belousov void 633dfe7b3bfSKonstantin Belousov cpu_idle(int busy) 634dfe7b3bfSKonstantin Belousov { 635dfe7b3bfSKonstantin Belousov uint64_t msr; 636dfe7b3bfSKonstantin Belousov sbintime_t sbt = -1; 637dfe7b3bfSKonstantin Belousov 638dfe7b3bfSKonstantin Belousov CTR2(KTR_SPARE2, "cpu_idle(%d) at %d", 639dfe7b3bfSKonstantin Belousov busy, curcpu); 640ed95805eSJohn Baldwin #ifdef MP_WATCHDOG 641dfe7b3bfSKonstantin Belousov ap_watchdog(PCPU_GET(cpuid)); 642dfe7b3bfSKonstantin Belousov #endif 643ed95805eSJohn Baldwin 644dfe7b3bfSKonstantin Belousov /* If we are busy - try to use fast methods. */ 645dfe7b3bfSKonstantin Belousov if (busy) { 646dfe7b3bfSKonstantin Belousov if ((cpu_feature2 & CPUID2_MON) && idle_mwait) { 647dfe7b3bfSKonstantin Belousov cpu_idle_mwait(busy); 648dfe7b3bfSKonstantin Belousov goto out; 649dfe7b3bfSKonstantin Belousov } 650dfe7b3bfSKonstantin Belousov } 651dfe7b3bfSKonstantin Belousov 652dfe7b3bfSKonstantin Belousov /* If we have time - switch timers into idle mode. */ 653dfe7b3bfSKonstantin Belousov if (!busy) { 654dfe7b3bfSKonstantin Belousov critical_enter(); 655dfe7b3bfSKonstantin Belousov sbt = cpu_idleclock(); 656dfe7b3bfSKonstantin Belousov } 657dfe7b3bfSKonstantin Belousov 658dfe7b3bfSKonstantin Belousov /* Apply AMD APIC timer C1E workaround. */ 659dfe7b3bfSKonstantin Belousov if (cpu_ident_amdc1e && cpu_disable_c3_sleep) { 660dfe7b3bfSKonstantin Belousov msr = rdmsr(MSR_AMDK8_IPM); 661dfe7b3bfSKonstantin Belousov if (msr & AMDK8_CMPHALT) 662dfe7b3bfSKonstantin Belousov wrmsr(MSR_AMDK8_IPM, msr & ~AMDK8_CMPHALT); 663dfe7b3bfSKonstantin Belousov } 664dfe7b3bfSKonstantin Belousov 665dfe7b3bfSKonstantin Belousov /* Call main idle method. */ 666dfe7b3bfSKonstantin Belousov cpu_idle_fn(sbt); 667dfe7b3bfSKonstantin Belousov 668dfe7b3bfSKonstantin Belousov /* Switch timers back into active mode. */ 669dfe7b3bfSKonstantin Belousov if (!busy) { 670dfe7b3bfSKonstantin Belousov cpu_activeclock(); 671dfe7b3bfSKonstantin Belousov critical_exit(); 672dfe7b3bfSKonstantin Belousov } 673dfe7b3bfSKonstantin Belousov out: 674dfe7b3bfSKonstantin Belousov CTR2(KTR_SPARE2, "cpu_idle(%d) at %d done", 675dfe7b3bfSKonstantin Belousov busy, curcpu); 676dfe7b3bfSKonstantin Belousov } 677dfe7b3bfSKonstantin Belousov 6783f3937b4SKonstantin Belousov static int cpu_idle_apl31_workaround; 6793f3937b4SKonstantin Belousov SYSCTL_INT(_machdep, OID_AUTO, idle_apl31, CTLFLAG_RW, 6803f3937b4SKonstantin Belousov &cpu_idle_apl31_workaround, 0, 681160be7ccSKonstantin Belousov "Apollo Lake APL31 MWAIT bug workaround"); 6823f3937b4SKonstantin Belousov 683dfe7b3bfSKonstantin Belousov int 684dfe7b3bfSKonstantin Belousov cpu_idle_wakeup(int cpu) 685dfe7b3bfSKonstantin Belousov { 68683dc49beSConrad Meyer struct monitorbuf *mb; 687dfe7b3bfSKonstantin Belousov int *state; 688dfe7b3bfSKonstantin Belousov 68983dc49beSConrad Meyer mb = &pcpu_find(cpu)->pc_monitorbuf; 69083dc49beSConrad Meyer state = &mb->idle_state; 691a5bd21d0SKonstantin Belousov switch (atomic_load_int(state)) { 692a5bd21d0SKonstantin Belousov case STATE_SLEEPING: 693dfe7b3bfSKonstantin Belousov return (0); 694a5bd21d0SKonstantin Belousov case STATE_MWAIT: 695a5bd21d0SKonstantin Belousov atomic_store_int(state, STATE_RUNNING); 6963f3937b4SKonstantin Belousov return (cpu_idle_apl31_workaround ? 0 : 1); 697a5bd21d0SKonstantin Belousov case STATE_RUNNING: 698a5bd21d0SKonstantin Belousov return (1); 699a5bd21d0SKonstantin Belousov default: 700a5bd21d0SKonstantin Belousov panic("bad monitor state"); 701a5bd21d0SKonstantin Belousov return (1); 702a5bd21d0SKonstantin Belousov } 703dfe7b3bfSKonstantin Belousov } 704dfe7b3bfSKonstantin Belousov 705dfe7b3bfSKonstantin Belousov /* 706dfe7b3bfSKonstantin Belousov * Ordered by speed/power consumption. 707dfe7b3bfSKonstantin Belousov */ 708a5f472c5SKonstantin Belousov static struct { 709dfe7b3bfSKonstantin Belousov void *id_fn; 710dfe7b3bfSKonstantin Belousov char *id_name; 711a5f472c5SKonstantin Belousov int id_cpuid2_flag; 712dfe7b3bfSKonstantin Belousov } idle_tbl[] = { 713a5f472c5SKonstantin Belousov { .id_fn = cpu_idle_spin, .id_name = "spin" }, 714a5f472c5SKonstantin Belousov { .id_fn = cpu_idle_mwait, .id_name = "mwait", 715a5f472c5SKonstantin Belousov .id_cpuid2_flag = CPUID2_MON }, 716a5f472c5SKonstantin Belousov { .id_fn = cpu_idle_hlt, .id_name = "hlt" }, 717a5f472c5SKonstantin Belousov { .id_fn = cpu_idle_acpi, .id_name = "acpi" }, 718dfe7b3bfSKonstantin Belousov }; 719dfe7b3bfSKonstantin Belousov 720dfe7b3bfSKonstantin Belousov static int 721dfe7b3bfSKonstantin Belousov idle_sysctl_available(SYSCTL_HANDLER_ARGS) 722dfe7b3bfSKonstantin Belousov { 723dfe7b3bfSKonstantin Belousov char *avail, *p; 724dfe7b3bfSKonstantin Belousov int error; 725dfe7b3bfSKonstantin Belousov int i; 726dfe7b3bfSKonstantin Belousov 727dfe7b3bfSKonstantin Belousov avail = malloc(256, M_TEMP, M_WAITOK); 728dfe7b3bfSKonstantin Belousov p = avail; 729a5f472c5SKonstantin Belousov for (i = 0; i < nitems(idle_tbl); i++) { 730a5f472c5SKonstantin Belousov if (idle_tbl[i].id_cpuid2_flag != 0 && 731a5f472c5SKonstantin Belousov (cpu_feature2 & idle_tbl[i].id_cpuid2_flag) == 0) 732dfe7b3bfSKonstantin Belousov continue; 733dfe7b3bfSKonstantin Belousov if (strcmp(idle_tbl[i].id_name, "acpi") == 0 && 734dfe7b3bfSKonstantin Belousov cpu_idle_hook == NULL) 735dfe7b3bfSKonstantin Belousov continue; 736dfe7b3bfSKonstantin Belousov p += sprintf(p, "%s%s", p != avail ? ", " : "", 737dfe7b3bfSKonstantin Belousov idle_tbl[i].id_name); 738dfe7b3bfSKonstantin Belousov } 739dfe7b3bfSKonstantin Belousov error = sysctl_handle_string(oidp, avail, 0, req); 740dfe7b3bfSKonstantin Belousov free(avail, M_TEMP); 741dfe7b3bfSKonstantin Belousov return (error); 742dfe7b3bfSKonstantin Belousov } 743dfe7b3bfSKonstantin Belousov 7447029da5cSPawel Biernacki SYSCTL_PROC(_machdep, OID_AUTO, idle_available, 7457029da5cSPawel Biernacki CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_NEEDGIANT, 7467029da5cSPawel Biernacki 0, 0, idle_sysctl_available, "A", 7477029da5cSPawel Biernacki "list of available idle functions"); 748dfe7b3bfSKonstantin Belousov 74955ba21d4SKonstantin Belousov static bool 750a5f472c5SKonstantin Belousov cpu_idle_selector(const char *new_idle_name) 75155ba21d4SKonstantin Belousov { 75255ba21d4SKonstantin Belousov int i; 75355ba21d4SKonstantin Belousov 754a5f472c5SKonstantin Belousov for (i = 0; i < nitems(idle_tbl); i++) { 755a5f472c5SKonstantin Belousov if (idle_tbl[i].id_cpuid2_flag != 0 && 756a5f472c5SKonstantin Belousov (cpu_feature2 & idle_tbl[i].id_cpuid2_flag) == 0) 75755ba21d4SKonstantin Belousov continue; 75855ba21d4SKonstantin Belousov if (strcmp(idle_tbl[i].id_name, "acpi") == 0 && 75955ba21d4SKonstantin Belousov cpu_idle_hook == NULL) 76055ba21d4SKonstantin Belousov continue; 76155ba21d4SKonstantin Belousov if (strcmp(idle_tbl[i].id_name, new_idle_name)) 76255ba21d4SKonstantin Belousov continue; 76355ba21d4SKonstantin Belousov cpu_idle_fn = idle_tbl[i].id_fn; 76455ba21d4SKonstantin Belousov if (bootverbose) 76555ba21d4SKonstantin Belousov printf("CPU idle set to %s\n", idle_tbl[i].id_name); 76655ba21d4SKonstantin Belousov return (true); 76755ba21d4SKonstantin Belousov } 76855ba21d4SKonstantin Belousov return (false); 76955ba21d4SKonstantin Belousov } 77055ba21d4SKonstantin Belousov 771dfe7b3bfSKonstantin Belousov static int 772a5f472c5SKonstantin Belousov cpu_idle_sysctl(SYSCTL_HANDLER_ARGS) 773dfe7b3bfSKonstantin Belousov { 77455ba21d4SKonstantin Belousov char buf[16], *p; 77555ba21d4SKonstantin Belousov int error, i; 776dfe7b3bfSKonstantin Belousov 777dfe7b3bfSKonstantin Belousov p = "unknown"; 778a5f472c5SKonstantin Belousov for (i = 0; i < nitems(idle_tbl); i++) { 779dfe7b3bfSKonstantin Belousov if (idle_tbl[i].id_fn == cpu_idle_fn) { 780dfe7b3bfSKonstantin Belousov p = idle_tbl[i].id_name; 781dfe7b3bfSKonstantin Belousov break; 782dfe7b3bfSKonstantin Belousov } 783dfe7b3bfSKonstantin Belousov } 784dfe7b3bfSKonstantin Belousov strncpy(buf, p, sizeof(buf)); 785dfe7b3bfSKonstantin Belousov error = sysctl_handle_string(oidp, buf, sizeof(buf), req); 786dfe7b3bfSKonstantin Belousov if (error != 0 || req->newptr == NULL) 787dfe7b3bfSKonstantin Belousov return (error); 788a5f472c5SKonstantin Belousov return (cpu_idle_selector(buf) ? 0 : EINVAL); 789dfe7b3bfSKonstantin Belousov } 790dfe7b3bfSKonstantin Belousov 7917029da5cSPawel Biernacki SYSCTL_PROC(_machdep, OID_AUTO, idle, 7927029da5cSPawel Biernacki CTLTYPE_STRING | CTLFLAG_RW | CTLFLAG_NEEDGIANT, 7937029da5cSPawel Biernacki 0, 0, cpu_idle_sysctl, "A", 7947029da5cSPawel Biernacki "currently selected idle function"); 795835c2787SKonstantin Belousov 79655ba21d4SKonstantin Belousov static void 797a5f472c5SKonstantin Belousov cpu_idle_tun(void *unused __unused) 79855ba21d4SKonstantin Belousov { 79955ba21d4SKonstantin Belousov char tunvar[16]; 80055ba21d4SKonstantin Belousov 80155ba21d4SKonstantin Belousov if (TUNABLE_STR_FETCH("machdep.idle", tunvar, sizeof(tunvar))) 802a5f472c5SKonstantin Belousov cpu_idle_selector(tunvar); 80345ed991dSKonstantin Belousov else if (cpu_vendor_id == CPU_VENDOR_AMD && 80445ed991dSKonstantin Belousov CPUID_TO_FAMILY(cpu_id) == 0x17 && CPUID_TO_MODEL(cpu_id) == 0x1) { 80545ed991dSKonstantin Belousov /* Ryzen erratas 1057, 1109. */ 80645ed991dSKonstantin Belousov cpu_idle_selector("hlt"); 80745ed991dSKonstantin Belousov idle_mwait = 0; 808665919aaSConrad Meyer mwait_cpustop_broken = true; 80945ed991dSKonstantin Belousov } 81045ed991dSKonstantin Belousov 8113f3937b4SKonstantin Belousov if (cpu_vendor_id == CPU_VENDOR_INTEL && cpu_id == 0x506c9) { 8123f3937b4SKonstantin Belousov /* 813160be7ccSKonstantin Belousov * Apollo Lake errata APL31 (public errata APL30). 814160be7ccSKonstantin Belousov * Stores to the armed address range may not trigger 815160be7ccSKonstantin Belousov * MWAIT to resume execution. OS needs to use 816160be7ccSKonstantin Belousov * interrupts to wake processors from MWAIT-induced 817160be7ccSKonstantin Belousov * sleep states. 8183f3937b4SKonstantin Belousov */ 8193f3937b4SKonstantin Belousov cpu_idle_apl31_workaround = 1; 820665919aaSConrad Meyer mwait_cpustop_broken = true; 8213f3937b4SKonstantin Belousov } 8223f3937b4SKonstantin Belousov TUNABLE_INT_FETCH("machdep.idle_apl31", &cpu_idle_apl31_workaround); 82355ba21d4SKonstantin Belousov } 824a5f472c5SKonstantin Belousov SYSINIT(cpu_idle_tun, SI_SUB_CPU, SI_ORDER_MIDDLE, cpu_idle_tun, NULL); 82555ba21d4SKonstantin Belousov 826ba0ced82SEric van Gyzen static int panic_on_nmi = 0xff; 827295f4b6cSKonstantin Belousov SYSCTL_INT(_machdep, OID_AUTO, panic_on_nmi, CTLFLAG_RWTUN, 828295f4b6cSKonstantin Belousov &panic_on_nmi, 0, 829ba0ced82SEric van Gyzen "Panic on NMI: 1 = H/W failure; 2 = unknown; 0xff = all"); 830835c2787SKonstantin Belousov int nmi_is_broadcast = 1; 831835c2787SKonstantin Belousov SYSCTL_INT(_machdep, OID_AUTO, nmi_is_broadcast, CTLFLAG_RWTUN, 832835c2787SKonstantin Belousov &nmi_is_broadcast, 0, 833835c2787SKonstantin Belousov "Chipset NMI is broadcast"); 834835c2787SKonstantin Belousov 835295f4b6cSKonstantin Belousov void 836295f4b6cSKonstantin Belousov nmi_call_kdb(u_int cpu, u_int type, struct trapframe *frame) 837835c2787SKonstantin Belousov { 8380fb3a72aSAndriy Gapon bool claimed = false; 839835c2787SKonstantin Belousov 8400fb3a72aSAndriy Gapon #ifdef DEV_ISA 841835c2787SKonstantin Belousov /* machine/parity/power fail/"kitchen sink" faults */ 8420fb3a72aSAndriy Gapon if (isa_nmi(frame->tf_err)) { 8430fb3a72aSAndriy Gapon claimed = true; 844ba0ced82SEric van Gyzen if ((panic_on_nmi & 1) != 0) 8450fb3a72aSAndriy Gapon panic("NMI indicates hardware failure"); 8460fb3a72aSAndriy Gapon } 8470fb3a72aSAndriy Gapon #endif /* DEV_ISA */ 848ba0ced82SEric van Gyzen 849835c2787SKonstantin Belousov /* 850ba0ced82SEric van Gyzen * NMIs can be useful for debugging. They can be hooked up to a 851ba0ced82SEric van Gyzen * pushbutton, usually on an ISA, PCI, or PCIe card. They can also be 852ba0ced82SEric van Gyzen * generated by an IPMI BMC, either manually or in response to a 853ba0ced82SEric van Gyzen * watchdog timeout. For example, see the "power diag" command in 854ba0ced82SEric van Gyzen * ports/sysutils/ipmitool. They can also be generated by a 855ba0ced82SEric van Gyzen * hypervisor; see "bhyvectl --inject-nmi". 856835c2787SKonstantin Belousov */ 857ba0ced82SEric van Gyzen 858ba0ced82SEric van Gyzen #ifdef KDB 859ba0ced82SEric van Gyzen if (!claimed && (panic_on_nmi & 2) != 0) { 860ba0ced82SEric van Gyzen if (debugger_on_panic) { 861835c2787SKonstantin Belousov printf("NMI/cpu%d ... going to debugger\n", cpu); 862ba0ced82SEric van Gyzen claimed = kdb_trap(type, 0, frame); 863ba0ced82SEric van Gyzen } 864835c2787SKonstantin Belousov } 865835c2787SKonstantin Belousov #endif /* KDB */ 866ba0ced82SEric van Gyzen 867ba0ced82SEric van Gyzen if (!claimed && panic_on_nmi != 0) 868ba0ced82SEric van Gyzen panic("NMI"); 869295f4b6cSKonstantin Belousov } 870835c2787SKonstantin Belousov 871295f4b6cSKonstantin Belousov void 872295f4b6cSKonstantin Belousov nmi_handle_intr(u_int type, struct trapframe *frame) 873835c2787SKonstantin Belousov { 874835c2787SKonstantin Belousov 875835c2787SKonstantin Belousov #ifdef SMP 876295f4b6cSKonstantin Belousov if (nmi_is_broadcast) { 877295f4b6cSKonstantin Belousov nmi_call_kdb_smp(type, frame); 878295f4b6cSKonstantin Belousov return; 879295f4b6cSKonstantin Belousov } 880835c2787SKonstantin Belousov #endif 8811d6dfd12SKonstantin Belousov nmi_call_kdb(PCPU_GET(cpuid), type, frame); 882835c2787SKonstantin Belousov } 883319117fdSKonstantin Belousov 884a324b7f7SKonstantin Belousov static int hw_ibrs_active; 885a324b7f7SKonstantin Belousov int hw_ibrs_ibpb_active; 886319117fdSKonstantin Belousov int hw_ibrs_disable = 1; 887319117fdSKonstantin Belousov 888319117fdSKonstantin Belousov SYSCTL_INT(_hw, OID_AUTO, ibrs_active, CTLFLAG_RD, &hw_ibrs_active, 0, 889b31b965eSKonstantin Belousov "Indirect Branch Restricted Speculation active"); 890319117fdSKonstantin Belousov 8917029da5cSPawel Biernacki SYSCTL_NODE(_machdep_mitigations, OID_AUTO, ibrs, 8927029da5cSPawel Biernacki CTLFLAG_RW | CTLFLAG_MPSAFE, 0, 893961aacb1SScott Long "Indirect Branch Restricted Speculation active"); 894961aacb1SScott Long 895961aacb1SScott Long SYSCTL_INT(_machdep_mitigations_ibrs, OID_AUTO, active, CTLFLAG_RD, 896961aacb1SScott Long &hw_ibrs_active, 0, "Indirect Branch Restricted Speculation active"); 897961aacb1SScott Long 898319117fdSKonstantin Belousov void 899a324b7f7SKonstantin Belousov hw_ibrs_recalculate(bool for_all_cpus) 900319117fdSKonstantin Belousov { 901319117fdSKonstantin Belousov if ((cpu_ia32_arch_caps & IA32_ARCH_CAP_IBRS_ALL) != 0) { 902a324b7f7SKonstantin Belousov x86_msr_op(MSR_IA32_SPEC_CTRL, (for_all_cpus ? 903a324b7f7SKonstantin Belousov MSR_OP_RENDEZVOUS : MSR_OP_LOCAL) | 904a324b7f7SKonstantin Belousov (hw_ibrs_disable != 0 ? MSR_OP_ANDNOT : MSR_OP_OR), 905fa83f689SKonstantin Belousov IA32_SPEC_CTRL_IBRS); 906a324b7f7SKonstantin Belousov hw_ibrs_active = hw_ibrs_disable == 0; 907a324b7f7SKonstantin Belousov hw_ibrs_ibpb_active = 0; 908a324b7f7SKonstantin Belousov } else { 909a324b7f7SKonstantin Belousov hw_ibrs_active = hw_ibrs_ibpb_active = (cpu_stdext_feature3 & 910a324b7f7SKonstantin Belousov CPUID_STDEXT3_IBPB) != 0 && !hw_ibrs_disable; 911319117fdSKonstantin Belousov } 912319117fdSKonstantin Belousov } 913319117fdSKonstantin Belousov 914319117fdSKonstantin Belousov static int 915319117fdSKonstantin Belousov hw_ibrs_disable_handler(SYSCTL_HANDLER_ARGS) 916319117fdSKonstantin Belousov { 917319117fdSKonstantin Belousov int error, val; 918319117fdSKonstantin Belousov 919319117fdSKonstantin Belousov val = hw_ibrs_disable; 920319117fdSKonstantin Belousov error = sysctl_handle_int(oidp, &val, 0, req); 921319117fdSKonstantin Belousov if (error != 0 || req->newptr == NULL) 922319117fdSKonstantin Belousov return (error); 923319117fdSKonstantin Belousov hw_ibrs_disable = val != 0; 924a324b7f7SKonstantin Belousov hw_ibrs_recalculate(true); 925319117fdSKonstantin Belousov return (0); 926319117fdSKonstantin Belousov } 927319117fdSKonstantin Belousov SYSCTL_PROC(_hw, OID_AUTO, ibrs_disable, CTLTYPE_INT | CTLFLAG_RWTUN | 928319117fdSKonstantin Belousov CTLFLAG_NOFETCH | CTLFLAG_MPSAFE, NULL, 0, hw_ibrs_disable_handler, "I", 929b31b965eSKonstantin Belousov "Disable Indirect Branch Restricted Speculation"); 9308fbcc334SKonstantin Belousov 931961aacb1SScott Long SYSCTL_PROC(_machdep_mitigations_ibrs, OID_AUTO, disable, CTLTYPE_INT | 932961aacb1SScott Long CTLFLAG_RWTUN | CTLFLAG_NOFETCH | CTLFLAG_MPSAFE, NULL, 0, 933961aacb1SScott Long hw_ibrs_disable_handler, "I", 934961aacb1SScott Long "Disable Indirect Branch Restricted Speculation"); 935961aacb1SScott Long 9363621ba1eSKonstantin Belousov int hw_ssb_active; 9373621ba1eSKonstantin Belousov int hw_ssb_disable; 9383621ba1eSKonstantin Belousov 9393621ba1eSKonstantin Belousov SYSCTL_INT(_hw, OID_AUTO, spec_store_bypass_disable_active, CTLFLAG_RD, 9403621ba1eSKonstantin Belousov &hw_ssb_active, 0, 9413621ba1eSKonstantin Belousov "Speculative Store Bypass Disable active"); 9423621ba1eSKonstantin Belousov 9437029da5cSPawel Biernacki SYSCTL_NODE(_machdep_mitigations, OID_AUTO, ssb, 9447029da5cSPawel Biernacki CTLFLAG_RW | CTLFLAG_MPSAFE, 0, 945961aacb1SScott Long "Speculative Store Bypass Disable active"); 946961aacb1SScott Long 947961aacb1SScott Long SYSCTL_INT(_machdep_mitigations_ssb, OID_AUTO, active, CTLFLAG_RD, 948961aacb1SScott Long &hw_ssb_active, 0, "Speculative Store Bypass Disable active"); 949961aacb1SScott Long 9503621ba1eSKonstantin Belousov static void 9513621ba1eSKonstantin Belousov hw_ssb_set(bool enable, bool for_all_cpus) 9523621ba1eSKonstantin Belousov { 9533621ba1eSKonstantin Belousov 9543621ba1eSKonstantin Belousov if ((cpu_stdext_feature3 & CPUID_STDEXT3_SSBD) == 0) { 9553621ba1eSKonstantin Belousov hw_ssb_active = 0; 9563621ba1eSKonstantin Belousov return; 9573621ba1eSKonstantin Belousov } 9583621ba1eSKonstantin Belousov hw_ssb_active = enable; 959fa83f689SKonstantin Belousov x86_msr_op(MSR_IA32_SPEC_CTRL, 960fa83f689SKonstantin Belousov (enable ? MSR_OP_OR : MSR_OP_ANDNOT) | 961fa83f689SKonstantin Belousov (for_all_cpus ? MSR_OP_SCHED : MSR_OP_LOCAL), IA32_SPEC_CTRL_SSBD); 9623621ba1eSKonstantin Belousov } 9633621ba1eSKonstantin Belousov 9643621ba1eSKonstantin Belousov void 9653621ba1eSKonstantin Belousov hw_ssb_recalculate(bool all_cpus) 9663621ba1eSKonstantin Belousov { 9673621ba1eSKonstantin Belousov 9683621ba1eSKonstantin Belousov switch (hw_ssb_disable) { 9693621ba1eSKonstantin Belousov default: 9703621ba1eSKonstantin Belousov hw_ssb_disable = 0; 9713621ba1eSKonstantin Belousov /* FALLTHROUGH */ 9723621ba1eSKonstantin Belousov case 0: /* off */ 9733621ba1eSKonstantin Belousov hw_ssb_set(false, all_cpus); 9743621ba1eSKonstantin Belousov break; 9753621ba1eSKonstantin Belousov case 1: /* on */ 9763621ba1eSKonstantin Belousov hw_ssb_set(true, all_cpus); 9773621ba1eSKonstantin Belousov break; 9783621ba1eSKonstantin Belousov case 2: /* auto */ 97923437573SKonstantin Belousov hw_ssb_set((cpu_ia32_arch_caps & IA32_ARCH_CAP_SSB_NO) != 0 ? 9803621ba1eSKonstantin Belousov false : true, all_cpus); 9813621ba1eSKonstantin Belousov break; 9823621ba1eSKonstantin Belousov } 9833621ba1eSKonstantin Belousov } 9843621ba1eSKonstantin Belousov 9853621ba1eSKonstantin Belousov static int 9863621ba1eSKonstantin Belousov hw_ssb_disable_handler(SYSCTL_HANDLER_ARGS) 9873621ba1eSKonstantin Belousov { 9883621ba1eSKonstantin Belousov int error, val; 9893621ba1eSKonstantin Belousov 9903621ba1eSKonstantin Belousov val = hw_ssb_disable; 9913621ba1eSKonstantin Belousov error = sysctl_handle_int(oidp, &val, 0, req); 9923621ba1eSKonstantin Belousov if (error != 0 || req->newptr == NULL) 9933621ba1eSKonstantin Belousov return (error); 9943621ba1eSKonstantin Belousov hw_ssb_disable = val; 9953621ba1eSKonstantin Belousov hw_ssb_recalculate(true); 9963621ba1eSKonstantin Belousov return (0); 9973621ba1eSKonstantin Belousov } 9983621ba1eSKonstantin Belousov SYSCTL_PROC(_hw, OID_AUTO, spec_store_bypass_disable, CTLTYPE_INT | 9993621ba1eSKonstantin Belousov CTLFLAG_RWTUN | CTLFLAG_NOFETCH | CTLFLAG_MPSAFE, NULL, 0, 10003621ba1eSKonstantin Belousov hw_ssb_disable_handler, "I", 10013621ba1eSKonstantin Belousov "Speculative Store Bypass Disable (0 - off, 1 - on, 2 - auto"); 10023621ba1eSKonstantin Belousov 1003961aacb1SScott Long SYSCTL_PROC(_machdep_mitigations_ssb, OID_AUTO, disable, CTLTYPE_INT | 1004961aacb1SScott Long CTLFLAG_RWTUN | CTLFLAG_NOFETCH | CTLFLAG_MPSAFE, NULL, 0, 1005961aacb1SScott Long hw_ssb_disable_handler, "I", 1006961aacb1SScott Long "Speculative Store Bypass Disable (0 - off, 1 - on, 2 - auto"); 1007961aacb1SScott Long 10087355a02bSKonstantin Belousov int hw_mds_disable; 10097355a02bSKonstantin Belousov 10107355a02bSKonstantin Belousov /* 10117355a02bSKonstantin Belousov * Handler for Microarchitectural Data Sampling issues. Really not a 10127355a02bSKonstantin Belousov * pointer to C function: on amd64 the code must not change any CPU 10137355a02bSKonstantin Belousov * architectural state except possibly %rflags. Also, it is always 10147355a02bSKonstantin Belousov * called with interrupts disabled. 10157355a02bSKonstantin Belousov */ 10167355a02bSKonstantin Belousov void mds_handler_void(void); 10177355a02bSKonstantin Belousov void mds_handler_verw(void); 10187355a02bSKonstantin Belousov void mds_handler_ivb(void); 10197355a02bSKonstantin Belousov void mds_handler_bdw(void); 10207355a02bSKonstantin Belousov void mds_handler_skl_sse(void); 10217355a02bSKonstantin Belousov void mds_handler_skl_avx(void); 10227355a02bSKonstantin Belousov void mds_handler_skl_avx512(void); 10237355a02bSKonstantin Belousov void mds_handler_silvermont(void); 1024e2e0470dSKonstantin Belousov void (*mds_handler)(void) = mds_handler_void; 10257355a02bSKonstantin Belousov 10267355a02bSKonstantin Belousov static int 10277355a02bSKonstantin Belousov sysctl_hw_mds_disable_state_handler(SYSCTL_HANDLER_ARGS) 10287355a02bSKonstantin Belousov { 10297355a02bSKonstantin Belousov const char *state; 10307355a02bSKonstantin Belousov 10317355a02bSKonstantin Belousov if (mds_handler == mds_handler_void) 10327355a02bSKonstantin Belousov state = "inactive"; 10337355a02bSKonstantin Belousov else if (mds_handler == mds_handler_verw) 10347355a02bSKonstantin Belousov state = "VERW"; 10357355a02bSKonstantin Belousov else if (mds_handler == mds_handler_ivb) 10367355a02bSKonstantin Belousov state = "software IvyBridge"; 10377355a02bSKonstantin Belousov else if (mds_handler == mds_handler_bdw) 10387355a02bSKonstantin Belousov state = "software Broadwell"; 10397355a02bSKonstantin Belousov else if (mds_handler == mds_handler_skl_sse) 10407355a02bSKonstantin Belousov state = "software Skylake SSE"; 10417355a02bSKonstantin Belousov else if (mds_handler == mds_handler_skl_avx) 10427355a02bSKonstantin Belousov state = "software Skylake AVX"; 10437355a02bSKonstantin Belousov else if (mds_handler == mds_handler_skl_avx512) 10447355a02bSKonstantin Belousov state = "software Skylake AVX512"; 10457355a02bSKonstantin Belousov else if (mds_handler == mds_handler_silvermont) 10467355a02bSKonstantin Belousov state = "software Silvermont"; 10477355a02bSKonstantin Belousov else 10487355a02bSKonstantin Belousov state = "unknown"; 10497355a02bSKonstantin Belousov return (SYSCTL_OUT(req, state, strlen(state))); 10507355a02bSKonstantin Belousov } 10517355a02bSKonstantin Belousov 10527355a02bSKonstantin Belousov SYSCTL_PROC(_hw, OID_AUTO, mds_disable_state, 10537355a02bSKonstantin Belousov CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_MPSAFE, NULL, 0, 10547355a02bSKonstantin Belousov sysctl_hw_mds_disable_state_handler, "A", 10557355a02bSKonstantin Belousov "Microarchitectural Data Sampling Mitigation state"); 10567355a02bSKonstantin Belousov 10577029da5cSPawel Biernacki SYSCTL_NODE(_machdep_mitigations, OID_AUTO, mds, 10587029da5cSPawel Biernacki CTLFLAG_RW | CTLFLAG_MPSAFE, 0, 1059961aacb1SScott Long "Microarchitectural Data Sampling Mitigation state"); 1060961aacb1SScott Long 1061961aacb1SScott Long SYSCTL_PROC(_machdep_mitigations_mds, OID_AUTO, state, 1062961aacb1SScott Long CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_MPSAFE, NULL, 0, 1063961aacb1SScott Long sysctl_hw_mds_disable_state_handler, "A", 1064961aacb1SScott Long "Microarchitectural Data Sampling Mitigation state"); 1065961aacb1SScott Long 10667355a02bSKonstantin Belousov _Static_assert(__offsetof(struct pcpu, pc_mds_tmp) % 64 == 0, "MDS AVX512"); 10677355a02bSKonstantin Belousov 10687355a02bSKonstantin Belousov void 10697355a02bSKonstantin Belousov hw_mds_recalculate(void) 10707355a02bSKonstantin Belousov { 10717355a02bSKonstantin Belousov struct pcpu *pc; 10727355a02bSKonstantin Belousov vm_offset_t b64; 10737355a02bSKonstantin Belousov u_long xcr0; 10747355a02bSKonstantin Belousov int i; 10757355a02bSKonstantin Belousov 10767355a02bSKonstantin Belousov /* 10777355a02bSKonstantin Belousov * Allow user to force VERW variant even if MD_CLEAR is not 10787355a02bSKonstantin Belousov * reported. For instance, hypervisor might unknowingly 10797355a02bSKonstantin Belousov * filter the cap out. 10807355a02bSKonstantin Belousov * For the similar reasons, and for testing, allow to enable 1081*36e1ad61SKonstantin Belousov * mitigation even when MDS_NO cap is set. 10827355a02bSKonstantin Belousov */ 10837355a02bSKonstantin Belousov if (cpu_vendor_id != CPU_VENDOR_INTEL || hw_mds_disable == 0 || 1084*36e1ad61SKonstantin Belousov ((cpu_ia32_arch_caps & IA32_ARCH_CAP_MDS_NO) != 0 && 1085*36e1ad61SKonstantin Belousov hw_mds_disable == 3)) { 10867355a02bSKonstantin Belousov mds_handler = mds_handler_void; 10877355a02bSKonstantin Belousov } else if (((cpu_stdext_feature3 & CPUID_STDEXT3_MD_CLEAR) != 0 && 10887355a02bSKonstantin Belousov hw_mds_disable == 3) || hw_mds_disable == 1) { 10897355a02bSKonstantin Belousov mds_handler = mds_handler_verw; 10907355a02bSKonstantin Belousov } else if (CPUID_TO_FAMILY(cpu_id) == 0x6 && 10917355a02bSKonstantin Belousov (CPUID_TO_MODEL(cpu_id) == 0x2e || CPUID_TO_MODEL(cpu_id) == 0x1e || 10927355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x1f || CPUID_TO_MODEL(cpu_id) == 0x1a || 10937355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x2f || CPUID_TO_MODEL(cpu_id) == 0x25 || 10947355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x2c || CPUID_TO_MODEL(cpu_id) == 0x2d || 10957355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x2a || CPUID_TO_MODEL(cpu_id) == 0x3e || 10967355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x3a) && 10977355a02bSKonstantin Belousov (hw_mds_disable == 2 || hw_mds_disable == 3)) { 10987355a02bSKonstantin Belousov /* 10997355a02bSKonstantin Belousov * Nehalem, SandyBridge, IvyBridge 11007355a02bSKonstantin Belousov */ 11017355a02bSKonstantin Belousov CPU_FOREACH(i) { 11027355a02bSKonstantin Belousov pc = pcpu_find(i); 11037355a02bSKonstantin Belousov if (pc->pc_mds_buf == NULL) { 11047355a02bSKonstantin Belousov pc->pc_mds_buf = malloc_domainset(672, M_TEMP, 11057355a02bSKonstantin Belousov DOMAINSET_PREF(pc->pc_domain), M_WAITOK); 11067355a02bSKonstantin Belousov bzero(pc->pc_mds_buf, 16); 11077355a02bSKonstantin Belousov } 11087355a02bSKonstantin Belousov } 11097355a02bSKonstantin Belousov mds_handler = mds_handler_ivb; 11107355a02bSKonstantin Belousov } else if (CPUID_TO_FAMILY(cpu_id) == 0x6 && 11117355a02bSKonstantin Belousov (CPUID_TO_MODEL(cpu_id) == 0x3f || CPUID_TO_MODEL(cpu_id) == 0x3c || 11127355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x45 || CPUID_TO_MODEL(cpu_id) == 0x46 || 11137355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x56 || CPUID_TO_MODEL(cpu_id) == 0x4f || 11147355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x47 || CPUID_TO_MODEL(cpu_id) == 0x3d) && 11157355a02bSKonstantin Belousov (hw_mds_disable == 2 || hw_mds_disable == 3)) { 11167355a02bSKonstantin Belousov /* 11177355a02bSKonstantin Belousov * Haswell, Broadwell 11187355a02bSKonstantin Belousov */ 11197355a02bSKonstantin Belousov CPU_FOREACH(i) { 11207355a02bSKonstantin Belousov pc = pcpu_find(i); 11217355a02bSKonstantin Belousov if (pc->pc_mds_buf == NULL) { 11227355a02bSKonstantin Belousov pc->pc_mds_buf = malloc_domainset(1536, M_TEMP, 11237355a02bSKonstantin Belousov DOMAINSET_PREF(pc->pc_domain), M_WAITOK); 11247355a02bSKonstantin Belousov bzero(pc->pc_mds_buf, 16); 11257355a02bSKonstantin Belousov } 11267355a02bSKonstantin Belousov } 11277355a02bSKonstantin Belousov mds_handler = mds_handler_bdw; 11287355a02bSKonstantin Belousov } else if (CPUID_TO_FAMILY(cpu_id) == 0x6 && 11297355a02bSKonstantin Belousov ((CPUID_TO_MODEL(cpu_id) == 0x55 && (cpu_id & 11307355a02bSKonstantin Belousov CPUID_STEPPING) <= 5) || 11317355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x4e || CPUID_TO_MODEL(cpu_id) == 0x5e || 11327355a02bSKonstantin Belousov (CPUID_TO_MODEL(cpu_id) == 0x8e && (cpu_id & 11337355a02bSKonstantin Belousov CPUID_STEPPING) <= 0xb) || 11347355a02bSKonstantin Belousov (CPUID_TO_MODEL(cpu_id) == 0x9e && (cpu_id & 11357355a02bSKonstantin Belousov CPUID_STEPPING) <= 0xc)) && 11367355a02bSKonstantin Belousov (hw_mds_disable == 2 || hw_mds_disable == 3)) { 11377355a02bSKonstantin Belousov /* 11387355a02bSKonstantin Belousov * Skylake, KabyLake, CoffeeLake, WhiskeyLake, 11397355a02bSKonstantin Belousov * CascadeLake 11407355a02bSKonstantin Belousov */ 11417355a02bSKonstantin Belousov CPU_FOREACH(i) { 11427355a02bSKonstantin Belousov pc = pcpu_find(i); 11437355a02bSKonstantin Belousov if (pc->pc_mds_buf == NULL) { 11447355a02bSKonstantin Belousov pc->pc_mds_buf = malloc_domainset(6 * 1024, 11457355a02bSKonstantin Belousov M_TEMP, DOMAINSET_PREF(pc->pc_domain), 11467355a02bSKonstantin Belousov M_WAITOK); 11477355a02bSKonstantin Belousov b64 = (vm_offset_t)malloc_domainset(64 + 63, 11487355a02bSKonstantin Belousov M_TEMP, DOMAINSET_PREF(pc->pc_domain), 11497355a02bSKonstantin Belousov M_WAITOK); 11507355a02bSKonstantin Belousov pc->pc_mds_buf64 = (void *)roundup2(b64, 64); 11517355a02bSKonstantin Belousov bzero(pc->pc_mds_buf64, 64); 11527355a02bSKonstantin Belousov } 11537355a02bSKonstantin Belousov } 11547355a02bSKonstantin Belousov xcr0 = rxcr(0); 11557355a02bSKonstantin Belousov if ((xcr0 & XFEATURE_ENABLED_ZMM_HI256) != 0 && 115699a6085fSScott Long (cpu_stdext_feature & CPUID_STDEXT_AVX512DQ) != 0) 11577355a02bSKonstantin Belousov mds_handler = mds_handler_skl_avx512; 11587355a02bSKonstantin Belousov else if ((xcr0 & XFEATURE_ENABLED_AVX) != 0 && 11597355a02bSKonstantin Belousov (cpu_feature2 & CPUID2_AVX) != 0) 11607355a02bSKonstantin Belousov mds_handler = mds_handler_skl_avx; 11617355a02bSKonstantin Belousov else 11627355a02bSKonstantin Belousov mds_handler = mds_handler_skl_sse; 11637355a02bSKonstantin Belousov } else if (CPUID_TO_FAMILY(cpu_id) == 0x6 && 11647355a02bSKonstantin Belousov ((CPUID_TO_MODEL(cpu_id) == 0x37 || 11657355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x4a || 11667355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x4c || 11677355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x4d || 11687355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x5a || 11697355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x5d || 11707355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x6e || 11717355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x65 || 11727355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x75 || 11737355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x1c || 11747355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x26 || 11757355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x27 || 11767355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x35 || 11777355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x36 || 11787355a02bSKonstantin Belousov CPUID_TO_MODEL(cpu_id) == 0x7a))) { 11797355a02bSKonstantin Belousov /* Silvermont, Airmont */ 11807355a02bSKonstantin Belousov CPU_FOREACH(i) { 11817355a02bSKonstantin Belousov pc = pcpu_find(i); 11827355a02bSKonstantin Belousov if (pc->pc_mds_buf == NULL) 11837355a02bSKonstantin Belousov pc->pc_mds_buf = malloc(256, M_TEMP, M_WAITOK); 11847355a02bSKonstantin Belousov } 11857355a02bSKonstantin Belousov mds_handler = mds_handler_silvermont; 11867355a02bSKonstantin Belousov } else { 11877355a02bSKonstantin Belousov hw_mds_disable = 0; 11887355a02bSKonstantin Belousov mds_handler = mds_handler_void; 11897355a02bSKonstantin Belousov } 11907355a02bSKonstantin Belousov } 11917355a02bSKonstantin Belousov 119248ec6d3bSKonstantin Belousov static void 119348ec6d3bSKonstantin Belousov hw_mds_recalculate_boot(void *arg __unused) 119448ec6d3bSKonstantin Belousov { 119548ec6d3bSKonstantin Belousov 119648ec6d3bSKonstantin Belousov hw_mds_recalculate(); 119748ec6d3bSKonstantin Belousov } 119848ec6d3bSKonstantin Belousov SYSINIT(mds_recalc, SI_SUB_SMP, SI_ORDER_ANY, hw_mds_recalculate_boot, NULL); 119948ec6d3bSKonstantin Belousov 12007355a02bSKonstantin Belousov static int 12017355a02bSKonstantin Belousov sysctl_mds_disable_handler(SYSCTL_HANDLER_ARGS) 12027355a02bSKonstantin Belousov { 12037355a02bSKonstantin Belousov int error, val; 12047355a02bSKonstantin Belousov 12057355a02bSKonstantin Belousov val = hw_mds_disable; 12067355a02bSKonstantin Belousov error = sysctl_handle_int(oidp, &val, 0, req); 12077355a02bSKonstantin Belousov if (error != 0 || req->newptr == NULL) 12087355a02bSKonstantin Belousov return (error); 12097355a02bSKonstantin Belousov if (val < 0 || val > 3) 12107355a02bSKonstantin Belousov return (EINVAL); 12117355a02bSKonstantin Belousov hw_mds_disable = val; 12127355a02bSKonstantin Belousov hw_mds_recalculate(); 12137355a02bSKonstantin Belousov return (0); 12147355a02bSKonstantin Belousov } 12157355a02bSKonstantin Belousov 12167355a02bSKonstantin Belousov SYSCTL_PROC(_hw, OID_AUTO, mds_disable, CTLTYPE_INT | 12177355a02bSKonstantin Belousov CTLFLAG_RWTUN | CTLFLAG_NOFETCH | CTLFLAG_MPSAFE, NULL, 0, 12187355a02bSKonstantin Belousov sysctl_mds_disable_handler, "I", 12197355a02bSKonstantin Belousov "Microarchitectural Data Sampling Mitigation " 12207355a02bSKonstantin Belousov "(0 - off, 1 - on VERW, 2 - on SW, 3 - on AUTO"); 12217355a02bSKonstantin Belousov 1222961aacb1SScott Long SYSCTL_PROC(_machdep_mitigations_mds, OID_AUTO, disable, CTLTYPE_INT | 1223961aacb1SScott Long CTLFLAG_RWTUN | CTLFLAG_NOFETCH | CTLFLAG_MPSAFE, NULL, 0, 1224961aacb1SScott Long sysctl_mds_disable_handler, "I", 1225961aacb1SScott Long "Microarchitectural Data Sampling Mitigation " 1226961aacb1SScott Long "(0 - off, 1 - on VERW, 2 - on SW, 3 - on AUTO"); 1227e3721601SScott Long 1228e3721601SScott Long /* 1229e3721601SScott Long * Intel Transactional Memory Asynchronous Abort Mitigation 1230e3721601SScott Long * CVE-2019-11135 1231e3721601SScott Long */ 1232e3721601SScott Long int x86_taa_enable; 1233e3721601SScott Long int x86_taa_state; 1234e3721601SScott Long enum { 1235184b15ffSScott Long TAA_NONE = 0, /* No mitigation enabled */ 1236184b15ffSScott Long TAA_TSX_DISABLE = 1, /* Disable TSX via MSR */ 1237184b15ffSScott Long TAA_VERW = 2, /* Use VERW mitigation */ 1238184b15ffSScott Long TAA_AUTO = 3, /* Automatically select the mitigation */ 1239184b15ffSScott Long 1240184b15ffSScott Long /* The states below are not selectable by the operator */ 1241184b15ffSScott Long 1242184b15ffSScott Long TAA_TAA_UC = 4, /* Mitigation present in microcode */ 1243184b15ffSScott Long TAA_NOT_PRESENT = 5 /* TSX is not present */ 1244e3721601SScott Long }; 1245e3721601SScott Long 1246e3721601SScott Long static void 1247e3721601SScott Long taa_set(bool enable, bool all) 1248e3721601SScott Long { 1249e3721601SScott Long 1250fa83f689SKonstantin Belousov x86_msr_op(MSR_IA32_TSX_CTRL, 1251fa83f689SKonstantin Belousov (enable ? MSR_OP_OR : MSR_OP_ANDNOT) | 1252fa83f689SKonstantin Belousov (all ? MSR_OP_RENDEZVOUS : MSR_OP_LOCAL), 1253fa83f689SKonstantin Belousov IA32_TSX_CTRL_RTM_DISABLE | IA32_TSX_CTRL_TSX_CPUID_CLEAR); 1254e3721601SScott Long } 1255e3721601SScott Long 1256e3721601SScott Long void 1257e3721601SScott Long x86_taa_recalculate(void) 1258e3721601SScott Long { 1259e3721601SScott Long static int taa_saved_mds_disable = 0; 1260e3721601SScott Long int taa_need = 0, taa_state = 0; 1261e3721601SScott Long int mds_disable = 0, need_mds_recalc = 0; 1262e3721601SScott Long 1263e3721601SScott Long /* Check CPUID.07h.EBX.HLE and RTM for the presence of TSX */ 1264e3721601SScott Long if ((cpu_stdext_feature & CPUID_STDEXT_HLE) == 0 || 1265e3721601SScott Long (cpu_stdext_feature & CPUID_STDEXT_RTM) == 0) { 1266e3721601SScott Long /* TSX is not present */ 1267184b15ffSScott Long x86_taa_state = TAA_NOT_PRESENT; 1268e3721601SScott Long return; 1269e3721601SScott Long } 1270e3721601SScott Long 1271e3721601SScott Long /* Check to see what mitigation options the CPU gives us */ 1272e3721601SScott Long if (cpu_ia32_arch_caps & IA32_ARCH_CAP_TAA_NO) { 1273e3721601SScott Long /* CPU is not suseptible to TAA */ 12740d423176SScott Long taa_need = TAA_TAA_UC; 1275e3721601SScott Long } else if (cpu_ia32_arch_caps & IA32_ARCH_CAP_TSX_CTRL) { 1276e3721601SScott Long /* 1277e3721601SScott Long * CPU can turn off TSX. This is the next best option 1278e3721601SScott Long * if TAA_NO hardware mitigation isn't present 1279e3721601SScott Long */ 1280e3721601SScott Long taa_need = TAA_TSX_DISABLE; 1281e3721601SScott Long } else { 1282e3721601SScott Long /* No TSX/TAA specific remedies are available. */ 1283e3721601SScott Long if (x86_taa_enable == TAA_TSX_DISABLE) { 1284e3721601SScott Long if (bootverbose) 1285e3721601SScott Long printf("TSX control not available\n"); 1286e3721601SScott Long return; 1287e3721601SScott Long } else 1288e3721601SScott Long taa_need = TAA_VERW; 1289e3721601SScott Long } 1290e3721601SScott Long 1291e3721601SScott Long /* Can we automatically take action, or are we being forced? */ 1292e3721601SScott Long if (x86_taa_enable == TAA_AUTO) 1293e3721601SScott Long taa_state = taa_need; 1294e3721601SScott Long else 1295e3721601SScott Long taa_state = x86_taa_enable; 1296e3721601SScott Long 1297e3721601SScott Long /* No state change, nothing to do */ 1298e3721601SScott Long if (taa_state == x86_taa_state) { 1299e3721601SScott Long if (bootverbose) 1300e3721601SScott Long printf("No TSX change made\n"); 1301e3721601SScott Long return; 1302e3721601SScott Long } 1303e3721601SScott Long 1304e3721601SScott Long /* Does the MSR need to be turned on or off? */ 1305e3721601SScott Long if (taa_state == TAA_TSX_DISABLE) 1306e3721601SScott Long taa_set(true, true); 1307e3721601SScott Long else if (x86_taa_state == TAA_TSX_DISABLE) 1308e3721601SScott Long taa_set(false, true); 1309e3721601SScott Long 1310e3721601SScott Long /* Does MDS need to be set to turn on VERW? */ 1311e3721601SScott Long if (taa_state == TAA_VERW) { 1312e3721601SScott Long taa_saved_mds_disable = hw_mds_disable; 1313e3721601SScott Long mds_disable = hw_mds_disable = 1; 1314e3721601SScott Long need_mds_recalc = 1; 1315e3721601SScott Long } else if (x86_taa_state == TAA_VERW) { 1316e3721601SScott Long mds_disable = hw_mds_disable = taa_saved_mds_disable; 1317e3721601SScott Long need_mds_recalc = 1; 1318e3721601SScott Long } 1319e3721601SScott Long if (need_mds_recalc) { 1320e3721601SScott Long hw_mds_recalculate(); 1321e3721601SScott Long if (mds_disable != hw_mds_disable) { 1322e3721601SScott Long if (bootverbose) 1323e3721601SScott Long printf("Cannot change MDS state for TAA\n"); 1324e3721601SScott Long /* Don't update our state */ 1325e3721601SScott Long return; 1326e3721601SScott Long } 1327e3721601SScott Long } 1328e3721601SScott Long 1329e3721601SScott Long x86_taa_state = taa_state; 1330e3721601SScott Long return; 1331e3721601SScott Long } 1332e3721601SScott Long 1333e3721601SScott Long static void 1334e3721601SScott Long taa_recalculate_boot(void * arg __unused) 1335e3721601SScott Long { 1336e3721601SScott Long 1337e3721601SScott Long x86_taa_recalculate(); 1338e3721601SScott Long } 1339e3721601SScott Long SYSINIT(taa_recalc, SI_SUB_SMP, SI_ORDER_ANY, taa_recalculate_boot, NULL); 1340e3721601SScott Long 13417029da5cSPawel Biernacki SYSCTL_NODE(_machdep_mitigations, OID_AUTO, taa, 13427029da5cSPawel Biernacki CTLFLAG_RW | CTLFLAG_MPSAFE, 0, 1343e3721601SScott Long "TSX Asynchronous Abort Mitigation"); 1344e3721601SScott Long 1345e3721601SScott Long static int 1346e3721601SScott Long sysctl_taa_handler(SYSCTL_HANDLER_ARGS) 1347e3721601SScott Long { 1348e3721601SScott Long int error, val; 1349e3721601SScott Long 1350e3721601SScott Long val = x86_taa_enable; 1351e3721601SScott Long error = sysctl_handle_int(oidp, &val, 0, req); 1352e3721601SScott Long if (error != 0 || req->newptr == NULL) 1353e3721601SScott Long return (error); 1354e3721601SScott Long if (val < TAA_NONE || val > TAA_AUTO) 1355e3721601SScott Long return (EINVAL); 1356e3721601SScott Long x86_taa_enable = val; 1357e3721601SScott Long x86_taa_recalculate(); 1358e3721601SScott Long return (0); 1359e3721601SScott Long } 1360e3721601SScott Long 1361e3721601SScott Long SYSCTL_PROC(_machdep_mitigations_taa, OID_AUTO, enable, CTLTYPE_INT | 1362e3721601SScott Long CTLFLAG_RWTUN | CTLFLAG_NOFETCH | CTLFLAG_MPSAFE, NULL, 0, 1363e3721601SScott Long sysctl_taa_handler, "I", 1364e3721601SScott Long "TAA Mitigation enablement control " 1365e3721601SScott Long "(0 - off, 1 - disable TSX, 2 - VERW, 3 - on AUTO"); 1366e3721601SScott Long 1367e3721601SScott Long static int 1368e3721601SScott Long sysctl_taa_state_handler(SYSCTL_HANDLER_ARGS) 1369e3721601SScott Long { 1370e3721601SScott Long const char *state; 1371e3721601SScott Long 1372e3721601SScott Long switch (x86_taa_state) { 1373e3721601SScott Long case TAA_NONE: 1374e3721601SScott Long state = "inactive"; 1375e3721601SScott Long break; 1376e3721601SScott Long case TAA_TSX_DISABLE: 1377e3721601SScott Long state = "TSX disabled"; 1378e3721601SScott Long break; 1379e3721601SScott Long case TAA_VERW: 1380e3721601SScott Long state = "VERW"; 1381e3721601SScott Long break; 1382184b15ffSScott Long case TAA_TAA_UC: 1383184b15ffSScott Long state = "Mitigated in microcode"; 1384e3721601SScott Long break; 1385184b15ffSScott Long case TAA_NOT_PRESENT: 1386184b15ffSScott Long state = "TSX not present"; 1387ee02bd9cSConrad Meyer break; 1388e3721601SScott Long default: 1389e3721601SScott Long state = "unknown"; 1390e3721601SScott Long } 1391e3721601SScott Long 1392e3721601SScott Long return (SYSCTL_OUT(req, state, strlen(state))); 1393e3721601SScott Long } 1394e3721601SScott Long 1395e3721601SScott Long SYSCTL_PROC(_machdep_mitigations_taa, OID_AUTO, state, 1396e3721601SScott Long CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_MPSAFE, NULL, 0, 1397e3721601SScott Long sysctl_taa_state_handler, "A", 1398e3721601SScott Long "TAA Mitigation state"); 1399e3721601SScott Long 14008fbcc334SKonstantin Belousov /* 14018fbcc334SKonstantin Belousov * Enable and restore kernel text write permissions. 14028fbcc334SKonstantin Belousov * Callers must ensure that disable_wp()/restore_wp() are executed 14038fbcc334SKonstantin Belousov * without rescheduling on the same core. 14048fbcc334SKonstantin Belousov */ 14058fbcc334SKonstantin Belousov bool 14068fbcc334SKonstantin Belousov disable_wp(void) 14078fbcc334SKonstantin Belousov { 14088fbcc334SKonstantin Belousov u_int cr0; 14098fbcc334SKonstantin Belousov 14108fbcc334SKonstantin Belousov cr0 = rcr0(); 14118fbcc334SKonstantin Belousov if ((cr0 & CR0_WP) == 0) 14128fbcc334SKonstantin Belousov return (false); 14138fbcc334SKonstantin Belousov load_cr0(cr0 & ~CR0_WP); 14148fbcc334SKonstantin Belousov return (true); 14158fbcc334SKonstantin Belousov } 14168fbcc334SKonstantin Belousov 14178fbcc334SKonstantin Belousov void 14188fbcc334SKonstantin Belousov restore_wp(bool old_wp) 14198fbcc334SKonstantin Belousov { 14208fbcc334SKonstantin Belousov 14218fbcc334SKonstantin Belousov if (old_wp) 14228fbcc334SKonstantin Belousov load_cr0(rcr0() | CR0_WP); 14238fbcc334SKonstantin Belousov } 14248fbcc334SKonstantin Belousov 14257705dd4dSKonstantin Belousov bool 14267705dd4dSKonstantin Belousov acpi_get_fadt_bootflags(uint16_t *flagsp) 14277705dd4dSKonstantin Belousov { 14287705dd4dSKonstantin Belousov #ifdef DEV_ACPI 14297705dd4dSKonstantin Belousov ACPI_TABLE_FADT *fadt; 14307705dd4dSKonstantin Belousov vm_paddr_t physaddr; 14317705dd4dSKonstantin Belousov 14327705dd4dSKonstantin Belousov physaddr = acpi_find_table(ACPI_SIG_FADT); 14337705dd4dSKonstantin Belousov if (physaddr == 0) 14347705dd4dSKonstantin Belousov return (false); 14357705dd4dSKonstantin Belousov fadt = acpi_map_table(physaddr, ACPI_SIG_FADT); 14367705dd4dSKonstantin Belousov if (fadt == NULL) 14377705dd4dSKonstantin Belousov return (false); 14387705dd4dSKonstantin Belousov *flagsp = fadt->BootFlags; 14397705dd4dSKonstantin Belousov acpi_unmap_table(fadt); 14407705dd4dSKonstantin Belousov return (true); 14417705dd4dSKonstantin Belousov #else 14427705dd4dSKonstantin Belousov return (false); 14437705dd4dSKonstantin Belousov #endif 14447705dd4dSKonstantin Belousov } 1445