1e085f869SStanislav Sedov /*-
24d846d26SWarner Losh * SPDX-License-Identifier: BSD-2-Clause
3718cf2ccSPedro F. Giffuni *
4e085f869SStanislav Sedov * Copyright (c) 2006-2008 Stanislav Sedov <stas@FreeBSD.org>
5e085f869SStanislav Sedov * All rights reserved.
6e085f869SStanislav Sedov *
7e085f869SStanislav Sedov * Redistribution and use in source and binary forms, with or without
8e085f869SStanislav Sedov * modification, are permitted provided that the following conditions
9e085f869SStanislav Sedov * are met:
10e085f869SStanislav Sedov * 1. Redistributions of source code must retain the above copyright
11e085f869SStanislav Sedov * notice, this list of conditions and the following disclaimer.
12e085f869SStanislav Sedov * 2. Redistributions in binary form must reproduce the above copyright
13e085f869SStanislav Sedov * notice, this list of conditions and the following disclaimer in the
14e085f869SStanislav Sedov * documentation and/or other materials provided with the distribution.
15e085f869SStanislav Sedov *
16e085f869SStanislav Sedov * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
17e085f869SStanislav Sedov * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
18e085f869SStanislav Sedov * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
19e085f869SStanislav Sedov * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
20e085f869SStanislav Sedov * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
21e085f869SStanislav Sedov * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
22e085f869SStanislav Sedov * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
23e085f869SStanislav Sedov * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
24e085f869SStanislav Sedov * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
25e085f869SStanislav Sedov * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
26e085f869SStanislav Sedov * SUCH DAMAGE.
27e085f869SStanislav Sedov *
28e085f869SStanislav Sedov */
29e085f869SStanislav Sedov
30e085f869SStanislav Sedov #include <sys/param.h>
31e085f869SStanislav Sedov #include <sys/systm.h>
32e085f869SStanislav Sedov #include <sys/conf.h>
33e085f869SStanislav Sedov #include <sys/fcntl.h>
34e085f869SStanislav Sedov #include <sys/ioccom.h>
35e085f869SStanislav Sedov #include <sys/malloc.h>
36e085f869SStanislav Sedov #include <sys/module.h>
37e085f869SStanislav Sedov #include <sys/mutex.h>
38e085f869SStanislav Sedov #include <sys/priv.h>
39e085f869SStanislav Sedov #include <sys/proc.h>
40e085f869SStanislav Sedov #include <sys/queue.h>
41e085f869SStanislav Sedov #include <sys/sched.h>
42e085f869SStanislav Sedov #include <sys/kernel.h>
43e085f869SStanislav Sedov #include <sys/sysctl.h>
44e085f869SStanislav Sedov #include <sys/uio.h>
45e085f869SStanislav Sedov #include <sys/pcpu.h>
46e085f869SStanislav Sedov #include <sys/smp.h>
47e085f869SStanislav Sedov #include <sys/pmckern.h>
48e085f869SStanislav Sedov #include <sys/cpuctl.h>
49e085f869SStanislav Sedov
50c08973d0SKonstantin Belousov #include <vm/vm.h>
51c08973d0SKonstantin Belousov #include <vm/vm_param.h>
52c08973d0SKonstantin Belousov #include <vm/pmap.h>
53c08973d0SKonstantin Belousov
54e085f869SStanislav Sedov #include <machine/cpufunc.h>
55e085f869SStanislav Sedov #include <machine/md_var.h>
56e085f869SStanislav Sedov #include <machine/specialreg.h>
5797edfc1bSMark Johnston #include <x86/ucode.h>
58e085f869SStanislav Sedov
59e085f869SStanislav Sedov static d_open_t cpuctl_open;
60e085f869SStanislav Sedov static d_ioctl_t cpuctl_ioctl;
61e085f869SStanislav Sedov
62e085f869SStanislav Sedov #define CPUCTL_VERSION 1
63e085f869SStanislav Sedov
64d8aeed01SAndriy Gapon #ifdef CPUCTL_DEBUG
65e085f869SStanislav Sedov # define DPRINTF(format,...) printf(format, __VA_ARGS__);
66e085f869SStanislav Sedov #else
67e085f869SStanislav Sedov # define DPRINTF(...)
68e085f869SStanislav Sedov #endif
69e085f869SStanislav Sedov
7083605554SKonstantin Belousov #define UCODE_SIZE_MAX (4 * 1024 * 1024)
71e085f869SStanislav Sedov
72e085f869SStanislav Sedov static int cpuctl_do_msr(int cpu, cpuctl_msr_args_t *data, u_long cmd,
73e085f869SStanislav Sedov struct thread *td);
74f1143962SKonstantin Belousov static int cpuctl_do_cpuid(int cpu, cpuctl_cpuid_args_t *data,
75e085f869SStanislav Sedov struct thread *td);
76f1143962SKonstantin Belousov static int cpuctl_do_cpuid_count(int cpu, cpuctl_cpuid_count_args_t *data,
77aa1cb750SAttilio Rao struct thread *td);
780530a936SKonstantin Belousov static int cpuctl_do_eval_cpu_features(int cpu, struct thread *td);
79e085f869SStanislav Sedov static int cpuctl_do_update(int cpu, cpuctl_update_args_t *data,
80e085f869SStanislav Sedov struct thread *td);
81e085f869SStanislav Sedov static int update_intel(int cpu, cpuctl_update_args_t *args,
82e085f869SStanislav Sedov struct thread *td);
83e085f869SStanislav Sedov static int update_amd(int cpu, cpuctl_update_args_t *args, struct thread *td);
8496ff3b75SFabien Thomas static int update_via(int cpu, cpuctl_update_args_t *args,
8596ff3b75SFabien Thomas struct thread *td);
86e085f869SStanislav Sedov
87e085f869SStanislav Sedov static struct cdev **cpuctl_devs;
88e085f869SStanislav Sedov static MALLOC_DEFINE(M_CPUCTL, "cpuctl", "CPUCTL buffer");
89e085f869SStanislav Sedov
90e085f869SStanislav Sedov static struct cdevsw cpuctl_cdevsw = {
91e085f869SStanislav Sedov .d_version = D_VERSION,
92e085f869SStanislav Sedov .d_open = cpuctl_open,
93e085f869SStanislav Sedov .d_ioctl = cpuctl_ioctl,
94e085f869SStanislav Sedov .d_name = "cpuctl",
95e085f869SStanislav Sedov };
96e085f869SStanislav Sedov
97e085f869SStanislav Sedov /*
98e085f869SStanislav Sedov * This function checks if specified cpu enabled or not.
99e085f869SStanislav Sedov */
100e085f869SStanislav Sedov static int
cpu_enabled(int cpu)101e085f869SStanislav Sedov cpu_enabled(int cpu)
102e085f869SStanislav Sedov {
103e085f869SStanislav Sedov
104e085f869SStanislav Sedov return (pmc_cpu_is_disabled(cpu) == 0);
105e085f869SStanislav Sedov }
106e085f869SStanislav Sedov
107e085f869SStanislav Sedov /*
108e085f869SStanislav Sedov * Check if the current thread is bound to a specific cpu.
109e085f869SStanislav Sedov */
110e085f869SStanislav Sedov static int
cpu_sched_is_bound(struct thread * td)111e085f869SStanislav Sedov cpu_sched_is_bound(struct thread *td)
112e085f869SStanislav Sedov {
113e085f869SStanislav Sedov int ret;
114e085f869SStanislav Sedov
115e085f869SStanislav Sedov thread_lock(td);
116e085f869SStanislav Sedov ret = sched_is_bound(td);
117e085f869SStanislav Sedov thread_unlock(td);
118e085f869SStanislav Sedov return (ret);
119e085f869SStanislav Sedov }
120e085f869SStanislav Sedov
121e085f869SStanislav Sedov /*
122e085f869SStanislav Sedov * Switch to target cpu to run.
123e085f869SStanislav Sedov */
124e085f869SStanislav Sedov static void
set_cpu(int cpu,struct thread * td)125e085f869SStanislav Sedov set_cpu(int cpu, struct thread *td)
126e085f869SStanislav Sedov {
127e085f869SStanislav Sedov
12896c85efbSNathan Whitehorn KASSERT(cpu >= 0 && cpu <= mp_maxid && cpu_enabled(cpu),
129e085f869SStanislav Sedov ("[cpuctl,%d]: bad cpu number %d", __LINE__, cpu));
130e085f869SStanislav Sedov thread_lock(td);
131e085f869SStanislav Sedov sched_bind(td, cpu);
132e085f869SStanislav Sedov thread_unlock(td);
133e085f869SStanislav Sedov KASSERT(td->td_oncpu == cpu,
1343966c380SKonstantin Belousov ("[cpuctl,%d]: cannot bind to target cpu %d on cpu %d", __LINE__,
1353966c380SKonstantin Belousov cpu, td->td_oncpu));
136e085f869SStanislav Sedov }
137e085f869SStanislav Sedov
138e085f869SStanislav Sedov static void
restore_cpu(int oldcpu,int is_bound,struct thread * td)139e085f869SStanislav Sedov restore_cpu(int oldcpu, int is_bound, struct thread *td)
140e085f869SStanislav Sedov {
141e085f869SStanislav Sedov
14296c85efbSNathan Whitehorn KASSERT(oldcpu >= 0 && oldcpu <= mp_maxid && cpu_enabled(oldcpu),
143e085f869SStanislav Sedov ("[cpuctl,%d]: bad cpu number %d", __LINE__, oldcpu));
144e085f869SStanislav Sedov thread_lock(td);
145e085f869SStanislav Sedov if (is_bound == 0)
146e085f869SStanislav Sedov sched_unbind(td);
147e085f869SStanislav Sedov else
148e085f869SStanislav Sedov sched_bind(td, oldcpu);
149e085f869SStanislav Sedov thread_unlock(td);
150e085f869SStanislav Sedov }
151e085f869SStanislav Sedov
152e085f869SStanislav Sedov int
cpuctl_ioctl(struct cdev * dev,u_long cmd,caddr_t data,int flags,struct thread * td)153e085f869SStanislav Sedov cpuctl_ioctl(struct cdev *dev, u_long cmd, caddr_t data,
154e085f869SStanislav Sedov int flags, struct thread *td)
155e085f869SStanislav Sedov {
1563966c380SKonstantin Belousov int cpu, ret;
157e085f869SStanislav Sedov
1583966c380SKonstantin Belousov cpu = dev2unit(dev);
15996c85efbSNathan Whitehorn if (cpu > mp_maxid || !cpu_enabled(cpu)) {
160e085f869SStanislav Sedov DPRINTF("[cpuctl,%d]: bad cpu number %d\n", __LINE__, cpu);
161e085f869SStanislav Sedov return (ENXIO);
162e085f869SStanislav Sedov }
163e085f869SStanislav Sedov /* Require write flag for "write" requests. */
164133cbe3bSKonstantin Belousov if ((cmd == CPUCTL_MSRCBIT || cmd == CPUCTL_MSRSBIT ||
1650530a936SKonstantin Belousov cmd == CPUCTL_UPDATE || cmd == CPUCTL_WRMSR ||
1660530a936SKonstantin Belousov cmd == CPUCTL_EVAL_CPU_FEATURES) &&
167133cbe3bSKonstantin Belousov (flags & FWRITE) == 0)
168e085f869SStanislav Sedov return (EPERM);
169e085f869SStanislav Sedov switch (cmd) {
170e085f869SStanislav Sedov case CPUCTL_RDMSR:
171e085f869SStanislav Sedov ret = cpuctl_do_msr(cpu, (cpuctl_msr_args_t *)data, cmd, td);
172e085f869SStanislav Sedov break;
173b2d75854SStanislav Sedov case CPUCTL_MSRSBIT:
174b2d75854SStanislav Sedov case CPUCTL_MSRCBIT:
175e085f869SStanislav Sedov case CPUCTL_WRMSR:
176e085f869SStanislav Sedov ret = priv_check(td, PRIV_CPUCTL_WRMSR);
177e085f869SStanislav Sedov if (ret != 0)
178e085f869SStanislav Sedov goto fail;
179e085f869SStanislav Sedov ret = cpuctl_do_msr(cpu, (cpuctl_msr_args_t *)data, cmd, td);
180e085f869SStanislav Sedov break;
181e085f869SStanislav Sedov case CPUCTL_CPUID:
182f1143962SKonstantin Belousov ret = cpuctl_do_cpuid(cpu, (cpuctl_cpuid_args_t *)data, td);
183e085f869SStanislav Sedov break;
184e085f869SStanislav Sedov case CPUCTL_UPDATE:
185e085f869SStanislav Sedov ret = priv_check(td, PRIV_CPUCTL_UPDATE);
186e085f869SStanislav Sedov if (ret != 0)
187e085f869SStanislav Sedov goto fail;
188e085f869SStanislav Sedov ret = cpuctl_do_update(cpu, (cpuctl_update_args_t *)data, td);
189e085f869SStanislav Sedov break;
190aa1cb750SAttilio Rao case CPUCTL_CPUID_COUNT:
191f1143962SKonstantin Belousov ret = cpuctl_do_cpuid_count(cpu,
192f1143962SKonstantin Belousov (cpuctl_cpuid_count_args_t *)data, td);
193aa1cb750SAttilio Rao break;
1940530a936SKonstantin Belousov case CPUCTL_EVAL_CPU_FEATURES:
1950530a936SKonstantin Belousov ret = cpuctl_do_eval_cpu_features(cpu, td);
1960530a936SKonstantin Belousov break;
197e085f869SStanislav Sedov default:
198e085f869SStanislav Sedov ret = EINVAL;
199e085f869SStanislav Sedov break;
200e085f869SStanislav Sedov }
201e085f869SStanislav Sedov fail:
202e085f869SStanislav Sedov return (ret);
203e085f869SStanislav Sedov }
204e085f869SStanislav Sedov
205e085f869SStanislav Sedov /*
206e085f869SStanislav Sedov * Actually perform cpuid operation.
207e085f869SStanislav Sedov */
208f1143962SKonstantin Belousov static int
cpuctl_do_cpuid_count(int cpu,cpuctl_cpuid_count_args_t * data,struct thread * td)209cef789cdSKonstantin Belousov cpuctl_do_cpuid_count(int cpu, cpuctl_cpuid_count_args_t *data,
210cef789cdSKonstantin Belousov struct thread *td)
211e085f869SStanislav Sedov {
212e085f869SStanislav Sedov int is_bound = 0;
213e085f869SStanislav Sedov int oldcpu;
214e085f869SStanislav Sedov
21596c85efbSNathan Whitehorn KASSERT(cpu >= 0 && cpu <= mp_maxid,
216e085f869SStanislav Sedov ("[cpuctl,%d]: bad cpu number %d", __LINE__, cpu));
217e085f869SStanislav Sedov
218e085f869SStanislav Sedov /* Explicitly clear cpuid data to avoid returning stale info. */
219e085f869SStanislav Sedov bzero(data->data, sizeof(data->data));
220aa1cb750SAttilio Rao DPRINTF("[cpuctl,%d]: retrieving cpuid lev %#0x type %#0x for %d cpu\n",
221aa1cb750SAttilio Rao __LINE__, data->level, data->level_type, cpu);
222f1143962SKonstantin Belousov #ifdef __i386__
223f1143962SKonstantin Belousov if (cpu_id == 0)
224f1143962SKonstantin Belousov return (ENODEV);
225f1143962SKonstantin Belousov #endif
226e085f869SStanislav Sedov oldcpu = td->td_oncpu;
227e085f869SStanislav Sedov is_bound = cpu_sched_is_bound(td);
228e085f869SStanislav Sedov set_cpu(cpu, td);
229aa1cb750SAttilio Rao cpuid_count(data->level, data->level_type, data->data);
230e085f869SStanislav Sedov restore_cpu(oldcpu, is_bound, td);
231f1143962SKonstantin Belousov return (0);
232e085f869SStanislav Sedov }
233e085f869SStanislav Sedov
234f1143962SKonstantin Belousov static int
cpuctl_do_cpuid(int cpu,cpuctl_cpuid_args_t * data,struct thread * td)235aa1cb750SAttilio Rao cpuctl_do_cpuid(int cpu, cpuctl_cpuid_args_t *data, struct thread *td)
236aa1cb750SAttilio Rao {
237cef789cdSKonstantin Belousov cpuctl_cpuid_count_args_t cdata;
238f1143962SKonstantin Belousov int error;
239aa1cb750SAttilio Rao
240cef789cdSKonstantin Belousov cdata.level = data->level;
241aa1cb750SAttilio Rao /* Override the level type. */
242cef789cdSKonstantin Belousov cdata.level_type = 0;
243f1143962SKonstantin Belousov error = cpuctl_do_cpuid_count(cpu, &cdata, td);
244cef789cdSKonstantin Belousov bcopy(cdata.data, data->data, sizeof(data->data)); /* Ignore error */
245f1143962SKonstantin Belousov return (error);
246aa1cb750SAttilio Rao }
247aa1cb750SAttilio Rao
248e085f869SStanislav Sedov /*
249e085f869SStanislav Sedov * Actually perform MSR operations.
250e085f869SStanislav Sedov */
251e085f869SStanislav Sedov static int
cpuctl_do_msr(int cpu,cpuctl_msr_args_t * data,u_long cmd,struct thread * td)252e085f869SStanislav Sedov cpuctl_do_msr(int cpu, cpuctl_msr_args_t *data, u_long cmd, struct thread *td)
253e085f869SStanislav Sedov {
254b2d75854SStanislav Sedov uint64_t reg;
255e085f869SStanislav Sedov int is_bound = 0;
256e085f869SStanislav Sedov int oldcpu;
257e085f869SStanislav Sedov int ret;
258e085f869SStanislav Sedov
25996c85efbSNathan Whitehorn KASSERT(cpu >= 0 && cpu <= mp_maxid,
260e085f869SStanislav Sedov ("[cpuctl,%d]: bad cpu number %d", __LINE__, cpu));
261e085f869SStanislav Sedov
262e085f869SStanislav Sedov /*
263e085f869SStanislav Sedov * Explicitly clear cpuid data to avoid returning stale
264e085f869SStanislav Sedov * info
265e085f869SStanislav Sedov */
266e085f869SStanislav Sedov DPRINTF("[cpuctl,%d]: operating on MSR %#0x for %d cpu\n", __LINE__,
267e085f869SStanislav Sedov data->msr, cpu);
268f1143962SKonstantin Belousov #ifdef __i386__
269f1143962SKonstantin Belousov if ((cpu_feature & CPUID_MSR) == 0)
270f1143962SKonstantin Belousov return (ENODEV);
271f1143962SKonstantin Belousov #endif
272e085f869SStanislav Sedov oldcpu = td->td_oncpu;
273e085f869SStanislav Sedov is_bound = cpu_sched_is_bound(td);
274e085f869SStanislav Sedov set_cpu(cpu, td);
275b0f642adSStanislav Sedov if (cmd == CPUCTL_RDMSR) {
276b0f642adSStanislav Sedov data->data = 0;
277b0f642adSStanislav Sedov ret = rdmsr_safe(data->msr, &data->data);
278b2d75854SStanislav Sedov } else if (cmd == CPUCTL_WRMSR) {
279b0f642adSStanislav Sedov ret = wrmsr_safe(data->msr, data->data);
280b2d75854SStanislav Sedov } else if (cmd == CPUCTL_MSRSBIT) {
281b2d75854SStanislav Sedov critical_enter();
282b2d75854SStanislav Sedov ret = rdmsr_safe(data->msr, ®);
283b2d75854SStanislav Sedov if (ret == 0)
284b2d75854SStanislav Sedov ret = wrmsr_safe(data->msr, reg | data->data);
285b2d75854SStanislav Sedov critical_exit();
286b2d75854SStanislav Sedov } else if (cmd == CPUCTL_MSRCBIT) {
287b2d75854SStanislav Sedov critical_enter();
288b2d75854SStanislav Sedov ret = rdmsr_safe(data->msr, ®);
289b2d75854SStanislav Sedov if (ret == 0)
290b2d75854SStanislav Sedov ret = wrmsr_safe(data->msr, reg & ~data->data);
291b2d75854SStanislav Sedov critical_exit();
292b2d75854SStanislav Sedov } else
2933966c380SKonstantin Belousov panic("[cpuctl,%d]: unknown operation requested: %lu",
2943966c380SKonstantin Belousov __LINE__, cmd);
295e085f869SStanislav Sedov restore_cpu(oldcpu, is_bound, td);
296e085f869SStanislav Sedov return (ret);
297e085f869SStanislav Sedov }
298e085f869SStanislav Sedov
299e085f869SStanislav Sedov /*
300e085f869SStanislav Sedov * Actually perform microcode update.
301e085f869SStanislav Sedov */
302e085f869SStanislav Sedov static int
cpuctl_do_update(int cpu,cpuctl_update_args_t * data,struct thread * td)303e085f869SStanislav Sedov cpuctl_do_update(int cpu, cpuctl_update_args_t *data, struct thread *td)
304e085f869SStanislav Sedov {
305e085f869SStanislav Sedov cpuctl_cpuid_args_t args = {
306e085f869SStanislav Sedov .level = 0,
307e085f869SStanislav Sedov };
308e085f869SStanislav Sedov char vendor[13];
309e085f869SStanislav Sedov int ret;
310e085f869SStanislav Sedov
31196c85efbSNathan Whitehorn KASSERT(cpu >= 0 && cpu <= mp_maxid,
312e085f869SStanislav Sedov ("[cpuctl,%d]: bad cpu number %d", __LINE__, cpu));
313e085f869SStanislav Sedov DPRINTF("[cpuctl,%d]: XXX %d", __LINE__, cpu);
314e085f869SStanislav Sedov
315f1143962SKonstantin Belousov ret = cpuctl_do_cpuid(cpu, &args, td);
316f1143962SKonstantin Belousov if (ret != 0)
317f1143962SKonstantin Belousov return (ret);
318e085f869SStanislav Sedov ((uint32_t *)vendor)[0] = args.data[1];
319e085f869SStanislav Sedov ((uint32_t *)vendor)[1] = args.data[3];
320e085f869SStanislav Sedov ((uint32_t *)vendor)[2] = args.data[2];
321e085f869SStanislav Sedov vendor[12] = '\0';
322e085f869SStanislav Sedov if (strncmp(vendor, INTEL_VENDOR_ID, sizeof(INTEL_VENDOR_ID)) == 0)
323e085f869SStanislav Sedov ret = update_intel(cpu, data, td);
32496ff3b75SFabien Thomas else if(strncmp(vendor, AMD_VENDOR_ID, sizeof(AMD_VENDOR_ID)) == 0)
325e085f869SStanislav Sedov ret = update_amd(cpu, data, td);
3263966c380SKonstantin Belousov else if(strncmp(vendor, CENTAUR_VENDOR_ID, sizeof(CENTAUR_VENDOR_ID))
3273966c380SKonstantin Belousov == 0)
32896ff3b75SFabien Thomas ret = update_via(cpu, data, td);
329e085f869SStanislav Sedov else
330e085f869SStanislav Sedov ret = ENXIO;
331e085f869SStanislav Sedov return (ret);
332e085f869SStanislav Sedov }
333e085f869SStanislav Sedov
33483cb39d4SKonstantin Belousov struct ucode_update_data {
33583cb39d4SKonstantin Belousov void *ptr;
33683cb39d4SKonstantin Belousov int cpu;
33783cb39d4SKonstantin Belousov int ret;
33883cb39d4SKonstantin Belousov };
33983cb39d4SKonstantin Belousov
34083cb39d4SKonstantin Belousov static void
ucode_intel_load_rv(void * arg)34183cb39d4SKonstantin Belousov ucode_intel_load_rv(void *arg)
34283cb39d4SKonstantin Belousov {
34383cb39d4SKonstantin Belousov struct ucode_update_data *d;
34483cb39d4SKonstantin Belousov
34583cb39d4SKonstantin Belousov d = arg;
34683cb39d4SKonstantin Belousov if (PCPU_GET(cpuid) == d->cpu)
34783cb39d4SKonstantin Belousov d->ret = ucode_intel_load(d->ptr, true, NULL, NULL);
34883cb39d4SKonstantin Belousov }
34983cb39d4SKonstantin Belousov
350e085f869SStanislav Sedov static int
update_intel(int cpu,cpuctl_update_args_t * args,struct thread * td)351e085f869SStanislav Sedov update_intel(int cpu, cpuctl_update_args_t *args, struct thread *td)
352e085f869SStanislav Sedov {
35383cb39d4SKonstantin Belousov struct ucode_update_data d;
354f79abb04SKonstantin Belousov void *ptr;
35597edfc1bSMark Johnston int is_bound, oldcpu, ret;
356e085f869SStanislav Sedov
357e085f869SStanislav Sedov if (args->size == 0 || args->data == NULL) {
358e085f869SStanislav Sedov DPRINTF("[cpuctl,%d]: zero-sized firmware image", __LINE__);
359e085f869SStanislav Sedov return (EINVAL);
360e085f869SStanislav Sedov }
361e085f869SStanislav Sedov if (args->size > UCODE_SIZE_MAX) {
362e085f869SStanislav Sedov DPRINTF("[cpuctl,%d]: firmware image too large", __LINE__);
363e085f869SStanislav Sedov return (EINVAL);
364e085f869SStanislav Sedov }
365e085f869SStanislav Sedov
366e085f869SStanislav Sedov /*
367f79abb04SKonstantin Belousov * 16 byte alignment required. Rely on the fact that
368f79abb04SKonstantin Belousov * malloc(9) always returns the pointer aligned at least on
369f79abb04SKonstantin Belousov * the size of the allocation.
370e085f869SStanislav Sedov */
371e085f869SStanislav Sedov ptr = malloc(args->size + 16, M_CPUCTL, M_WAITOK);
372e085f869SStanislav Sedov if (copyin(args->data, ptr, args->size) != 0) {
373e085f869SStanislav Sedov DPRINTF("[cpuctl,%d]: copyin %p->%p of %zd bytes failed",
374e085f869SStanislav Sedov __LINE__, args->data, ptr, args->size);
375e085f869SStanislav Sedov ret = EFAULT;
37697edfc1bSMark Johnston goto out;
377e085f869SStanislav Sedov }
378e085f869SStanislav Sedov oldcpu = td->td_oncpu;
379e085f869SStanislav Sedov is_bound = cpu_sched_is_bound(td);
380e085f869SStanislav Sedov set_cpu(cpu, td);
38183cb39d4SKonstantin Belousov d.ptr = ptr;
38283cb39d4SKonstantin Belousov d.cpu = cpu;
38383cb39d4SKonstantin Belousov smp_rendezvous(NULL, ucode_intel_load_rv, NULL, &d);
384e085f869SStanislav Sedov restore_cpu(oldcpu, is_bound, td);
38583cb39d4SKonstantin Belousov ret = d.ret;
38697edfc1bSMark Johnston
38797edfc1bSMark Johnston /*
38897edfc1bSMark Johnston * Replace any existing update. This ensures that the new update
38997edfc1bSMark Johnston * will be reloaded automatically during ACPI resume.
39097edfc1bSMark Johnston */
39197edfc1bSMark Johnston if (ret == 0)
39297edfc1bSMark Johnston ptr = ucode_update(ptr);
39397edfc1bSMark Johnston
39497edfc1bSMark Johnston out:
3951f039bdeSKonstantin Belousov free(ptr, M_CPUCTL);
396e085f869SStanislav Sedov return (ret);
397e085f869SStanislav Sedov }
398e085f869SStanislav Sedov
3990112b52bSAndriy Gapon /*
4000112b52bSAndriy Gapon * NB: MSR 0xc0010020, MSR_K8_UCODE_UPDATE, is not documented by AMD.
4010112b52bSAndriy Gapon * Coreboot, illumos and Linux source code was used to understand
4020112b52bSAndriy Gapon * its workings.
4030112b52bSAndriy Gapon */
4040112b52bSAndriy Gapon static void
amd_ucode_wrmsr(void * ucode_ptr)4050112b52bSAndriy Gapon amd_ucode_wrmsr(void *ucode_ptr)
4060112b52bSAndriy Gapon {
4070112b52bSAndriy Gapon uint32_t tmp[4];
4080112b52bSAndriy Gapon
4090112b52bSAndriy Gapon wrmsr_safe(MSR_K8_UCODE_UPDATE, (uintptr_t)ucode_ptr);
4100112b52bSAndriy Gapon do_cpuid(0, tmp);
4110112b52bSAndriy Gapon }
4120112b52bSAndriy Gapon
413e085f869SStanislav Sedov static int
update_amd(int cpu,cpuctl_update_args_t * args,struct thread * td)414e085f869SStanislav Sedov update_amd(int cpu, cpuctl_update_args_t *args, struct thread *td)
415e085f869SStanislav Sedov {
4160112b52bSAndriy Gapon void *ptr;
417e085f869SStanislav Sedov int ret;
418e085f869SStanislav Sedov
419e085f869SStanislav Sedov if (args->size == 0 || args->data == NULL) {
420e085f869SStanislav Sedov DPRINTF("[cpuctl,%d]: zero-sized firmware image", __LINE__);
421e085f869SStanislav Sedov return (EINVAL);
422e085f869SStanislav Sedov }
423e085f869SStanislav Sedov if (args->size > UCODE_SIZE_MAX) {
424e085f869SStanislav Sedov DPRINTF("[cpuctl,%d]: firmware image too large", __LINE__);
425e085f869SStanislav Sedov return (EINVAL);
426e085f869SStanislav Sedov }
4270112b52bSAndriy Gapon
428e085f869SStanislav Sedov /*
4290112b52bSAndriy Gapon * 16 byte alignment required. Rely on the fact that
4300112b52bSAndriy Gapon * malloc(9) always returns the pointer aligned at least on
4310112b52bSAndriy Gapon * the size of the allocation.
432e085f869SStanislav Sedov */
4330112b52bSAndriy Gapon ptr = malloc(args->size + 16, M_CPUCTL, M_ZERO | M_WAITOK);
434e085f869SStanislav Sedov if (copyin(args->data, ptr, args->size) != 0) {
435e085f869SStanislav Sedov DPRINTF("[cpuctl,%d]: copyin %p->%p of %zd bytes failed",
436e085f869SStanislav Sedov __LINE__, args->data, ptr, args->size);
437e085f869SStanislav Sedov ret = EFAULT;
438e085f869SStanislav Sedov goto fail;
439e085f869SStanislav Sedov }
4400112b52bSAndriy Gapon smp_rendezvous(NULL, amd_ucode_wrmsr, NULL, ptr);
441e085f869SStanislav Sedov ret = 0;
442e085f869SStanislav Sedov fail:
4430112b52bSAndriy Gapon free(ptr, M_CPUCTL);
444e085f869SStanislav Sedov return (ret);
445e085f869SStanislav Sedov }
446e085f869SStanislav Sedov
44796ff3b75SFabien Thomas static int
update_via(int cpu,cpuctl_update_args_t * args,struct thread * td)44896ff3b75SFabien Thomas update_via(int cpu, cpuctl_update_args_t *args, struct thread *td)
44996ff3b75SFabien Thomas {
450f79abb04SKonstantin Belousov void *ptr;
45196ff3b75SFabien Thomas uint64_t rev0, rev1, res;
45296ff3b75SFabien Thomas uint32_t tmp[4];
453f79abb04SKonstantin Belousov int is_bound;
45496ff3b75SFabien Thomas int oldcpu;
45596ff3b75SFabien Thomas int ret;
45696ff3b75SFabien Thomas
45796ff3b75SFabien Thomas if (args->size == 0 || args->data == NULL) {
45896ff3b75SFabien Thomas DPRINTF("[cpuctl,%d]: zero-sized firmware image", __LINE__);
45996ff3b75SFabien Thomas return (EINVAL);
46096ff3b75SFabien Thomas }
46196ff3b75SFabien Thomas if (args->size > UCODE_SIZE_MAX) {
46296ff3b75SFabien Thomas DPRINTF("[cpuctl,%d]: firmware image too large", __LINE__);
46396ff3b75SFabien Thomas return (EINVAL);
46496ff3b75SFabien Thomas }
46596ff3b75SFabien Thomas
46696ff3b75SFabien Thomas /*
46796ff3b75SFabien Thomas * 4 byte alignment required.
46896ff3b75SFabien Thomas */
469f79abb04SKonstantin Belousov ptr = malloc(args->size, M_CPUCTL, M_WAITOK);
47096ff3b75SFabien Thomas if (copyin(args->data, ptr, args->size) != 0) {
47196ff3b75SFabien Thomas DPRINTF("[cpuctl,%d]: copyin %p->%p of %zd bytes failed",
47296ff3b75SFabien Thomas __LINE__, args->data, ptr, args->size);
47396ff3b75SFabien Thomas ret = EFAULT;
47496ff3b75SFabien Thomas goto fail;
47596ff3b75SFabien Thomas }
47696ff3b75SFabien Thomas oldcpu = td->td_oncpu;
47796ff3b75SFabien Thomas is_bound = cpu_sched_is_bound(td);
47896ff3b75SFabien Thomas set_cpu(cpu, td);
47996ff3b75SFabien Thomas critical_enter();
480ecf28f6dSRui Paulo rdmsr_safe(MSR_BIOS_SIGN, &rev0); /* Get current microcode revision. */
48196ff3b75SFabien Thomas
48296ff3b75SFabien Thomas /*
48396ff3b75SFabien Thomas * Perform update.
48496ff3b75SFabien Thomas */
48596ff3b75SFabien Thomas wrmsr_safe(MSR_BIOS_UPDT_TRIG, (uintptr_t)(ptr));
48696ff3b75SFabien Thomas do_cpuid(1, tmp);
48796ff3b75SFabien Thomas
48896ff3b75SFabien Thomas /*
48996ff3b75SFabien Thomas * Result are in low byte of MSR FCR5:
49096ff3b75SFabien Thomas * 0x00: No update has been attempted since RESET.
49196ff3b75SFabien Thomas * 0x01: The last attempted update was successful.
49296ff3b75SFabien Thomas * 0x02: The last attempted update was unsuccessful due to a bad
49396ff3b75SFabien Thomas * environment. No update was loaded and any preexisting
49496ff3b75SFabien Thomas * patches are still active.
49596ff3b75SFabien Thomas * 0x03: The last attempted update was not applicable to this processor.
49696ff3b75SFabien Thomas * No update was loaded and any preexisting patches are still
49796ff3b75SFabien Thomas * active.
49896ff3b75SFabien Thomas * 0x04: The last attempted update was not successful due to an invalid
49996ff3b75SFabien Thomas * update data block. No update was loaded and any preexisting
50096ff3b75SFabien Thomas * patches are still active
50196ff3b75SFabien Thomas */
50296ff3b75SFabien Thomas rdmsr_safe(0x1205, &res);
50396ff3b75SFabien Thomas res &= 0xff;
50496ff3b75SFabien Thomas critical_exit();
50596ff3b75SFabien Thomas rdmsr_safe(MSR_BIOS_SIGN, &rev1); /* Get new microcode revision. */
50696ff3b75SFabien Thomas restore_cpu(oldcpu, is_bound, td);
50796ff3b75SFabien Thomas
50896ff3b75SFabien Thomas DPRINTF("[cpu,%d]: rev0=%x rev1=%x res=%x\n", __LINE__,
50996ff3b75SFabien Thomas (unsigned)(rev0 >> 32), (unsigned)(rev1 >> 32), (unsigned)res);
51096ff3b75SFabien Thomas
51196ff3b75SFabien Thomas if (res != 0x01)
51296ff3b75SFabien Thomas ret = EINVAL;
51396ff3b75SFabien Thomas else
51496ff3b75SFabien Thomas ret = 0;
51596ff3b75SFabien Thomas fail:
5161f039bdeSKonstantin Belousov free(ptr, M_CPUCTL);
51796ff3b75SFabien Thomas return (ret);
51896ff3b75SFabien Thomas }
51996ff3b75SFabien Thomas
5200530a936SKonstantin Belousov static int
cpuctl_do_eval_cpu_features(int cpu,struct thread * td)5210530a936SKonstantin Belousov cpuctl_do_eval_cpu_features(int cpu, struct thread *td)
5220530a936SKonstantin Belousov {
5230530a936SKonstantin Belousov int is_bound = 0;
5240530a936SKonstantin Belousov int oldcpu;
5250530a936SKonstantin Belousov
5260530a936SKonstantin Belousov KASSERT(cpu >= 0 && cpu <= mp_maxid,
5270530a936SKonstantin Belousov ("[cpuctl,%d]: bad cpu number %d", __LINE__, cpu));
5280530a936SKonstantin Belousov
5290530a936SKonstantin Belousov #ifdef __i386__
5300530a936SKonstantin Belousov if (cpu_id == 0)
5310530a936SKonstantin Belousov return (ENODEV);
5320530a936SKonstantin Belousov #endif
5330530a936SKonstantin Belousov oldcpu = td->td_oncpu;
5340530a936SKonstantin Belousov is_bound = cpu_sched_is_bound(td);
5350530a936SKonstantin Belousov set_cpu(cpu, td);
5360530a936SKonstantin Belousov identify_cpu1();
5370530a936SKonstantin Belousov identify_cpu2();
5380530a936SKonstantin Belousov restore_cpu(oldcpu, is_bound, td);
539a324b7f7SKonstantin Belousov hw_ibrs_recalculate(true);
5403621ba1eSKonstantin Belousov hw_ssb_recalculate(true);
5412dec2b4aSKonstantin Belousov #ifdef __amd64__
5422dec2b4aSKonstantin Belousov amd64_syscall_ret_flush_l1d_recalc();
543c08973d0SKonstantin Belousov pmap_allow_2m_x_ept_recalculate();
5442dec2b4aSKonstantin Belousov #endif
5457355a02bSKonstantin Belousov hw_mds_recalculate();
546e3721601SScott Long x86_taa_recalculate();
54717edf152SKonstantin Belousov x86_rngds_mitg_recalculate(true);
548*ebaea1bcSOlivier Certner zenbleed_check_and_apply(true);
54999801b12SKonstantin Belousov printcpuinfo();
5500530a936SKonstantin Belousov return (0);
5510530a936SKonstantin Belousov }
5520530a936SKonstantin Belousov
553e085f869SStanislav Sedov int
cpuctl_open(struct cdev * dev,int flags,int fmt __unused,struct thread * td)554e085f869SStanislav Sedov cpuctl_open(struct cdev *dev, int flags, int fmt __unused, struct thread *td)
555e085f869SStanislav Sedov {
556e085f869SStanislav Sedov int ret = 0;
557e085f869SStanislav Sedov int cpu;
558e085f869SStanislav Sedov
5596bfa9a2dSEd Schouten cpu = dev2unit(dev);
56096c85efbSNathan Whitehorn if (cpu > mp_maxid || !cpu_enabled(cpu)) {
561e085f869SStanislav Sedov DPRINTF("[cpuctl,%d]: incorrect cpu number %d\n", __LINE__,
562e085f869SStanislav Sedov cpu);
563e085f869SStanislav Sedov return (ENXIO);
564e085f869SStanislav Sedov }
565e085f869SStanislav Sedov if (flags & FWRITE)
566e085f869SStanislav Sedov ret = securelevel_gt(td->td_ucred, 0);
567e085f869SStanislav Sedov return (ret);
568e085f869SStanislav Sedov }
569e085f869SStanislav Sedov
570e085f869SStanislav Sedov static int
cpuctl_modevent(module_t mod __unused,int type,void * data __unused)571e085f869SStanislav Sedov cpuctl_modevent(module_t mod __unused, int type, void *data __unused)
572e085f869SStanislav Sedov {
573e085f869SStanislav Sedov int cpu;
574e085f869SStanislav Sedov
575e085f869SStanislav Sedov switch(type) {
576e085f869SStanislav Sedov case MOD_LOAD:
577e085f869SStanislav Sedov if (bootverbose)
578e085f869SStanislav Sedov printf("cpuctl: access to MSR registers/cpuid info.\n");
57996c85efbSNathan Whitehorn cpuctl_devs = malloc(sizeof(*cpuctl_devs) * (mp_maxid + 1), M_CPUCTL,
580cee9542dSKonstantin Belousov M_WAITOK | M_ZERO);
58196c85efbSNathan Whitehorn CPU_FOREACH(cpu)
582e085f869SStanislav Sedov if (cpu_enabled(cpu))
583e085f869SStanislav Sedov cpuctl_devs[cpu] = make_dev(&cpuctl_cdevsw, cpu,
584e085f869SStanislav Sedov UID_ROOT, GID_KMEM, 0640, "cpuctl%d", cpu);
585e085f869SStanislav Sedov break;
586e085f869SStanislav Sedov case MOD_UNLOAD:
58796c85efbSNathan Whitehorn CPU_FOREACH(cpu) {
588e085f869SStanislav Sedov if (cpuctl_devs[cpu] != NULL)
589e085f869SStanislav Sedov destroy_dev(cpuctl_devs[cpu]);
590e085f869SStanislav Sedov }
591e085f869SStanislav Sedov free(cpuctl_devs, M_CPUCTL);
592e085f869SStanislav Sedov break;
593e085f869SStanislav Sedov case MOD_SHUTDOWN:
594e085f869SStanislav Sedov break;
595e085f869SStanislav Sedov default:
596e085f869SStanislav Sedov return (EOPNOTSUPP);
597e085f869SStanislav Sedov }
598e085f869SStanislav Sedov return (0);
599e085f869SStanislav Sedov }
600e085f869SStanislav Sedov
601e085f869SStanislav Sedov DEV_MODULE(cpuctl, cpuctl_modevent, NULL);
602e085f869SStanislav Sedov MODULE_VERSION(cpuctl, CPUCTL_VERSION);
603