12874c5fdSThomas Gleixner // SPDX-License-Identifier: GPL-2.0-or-later
2bad5fa63SBorislav Petkov /*
36b44e72aSBorislav Petkov * CPU Microcode Update Driver for Linux
4bad5fa63SBorislav Petkov *
5cea58224SAndrew Morton * Copyright (C) 2000-2006 Tigran Aivazian <[email protected]>
6bad5fa63SBorislav Petkov * 2006 Shaohua Li <[email protected]>
714cfbe55SBorislav Petkov * 2013-2016 Borislav Petkov <[email protected]>
8bad5fa63SBorislav Petkov *
9fe055896SBorislav Petkov * X86 CPU microcode early update for Linux:
10fe055896SBorislav Petkov *
11fe055896SBorislav Petkov * Copyright (C) 2012 Fenghua Yu <[email protected]>
12fe055896SBorislav Petkov * H Peter Anvin" <[email protected]>
13fe055896SBorislav Petkov * (C) 2015 Borislav Petkov <[email protected]>
14fe055896SBorislav Petkov *
156b44e72aSBorislav Petkov * This driver allows to upgrade microcode on x86 processors.
16bad5fa63SBorislav Petkov */
17bad5fa63SBorislav Petkov
186b26e1bfSBorislav Petkov #define pr_fmt(fmt) "microcode: " fmt
19bad5fa63SBorislav Petkov
20bad5fa63SBorislav Petkov #include <linux/platform_device.h>
21a5321aecSAshok Raj #include <linux/stop_machine.h>
22fe055896SBorislav Petkov #include <linux/syscore_ops.h>
23bad5fa63SBorislav Petkov #include <linux/miscdevice.h>
24bad5fa63SBorislav Petkov #include <linux/capability.h>
25fe055896SBorislav Petkov #include <linux/firmware.h>
267eb314a2SThomas Gleixner #include <linux/cpumask.h>
27bad5fa63SBorislav Petkov #include <linux/kernel.h>
28a5321aecSAshok Raj #include <linux/delay.h>
29bad5fa63SBorislav Petkov #include <linux/mutex.h>
30bad5fa63SBorislav Petkov #include <linux/cpu.h>
31a5321aecSAshok Raj #include <linux/nmi.h>
32bad5fa63SBorislav Petkov #include <linux/fs.h>
33bad5fa63SBorislav Petkov #include <linux/mm.h>
34bad5fa63SBorislav Petkov
357eb314a2SThomas Gleixner #include <asm/apic.h>
36fe055896SBorislav Petkov #include <asm/cpu_device_id.h>
37fe055896SBorislav Petkov #include <asm/perf_event.h>
38bad5fa63SBorislav Petkov #include <asm/processor.h>
39fe055896SBorislav Petkov #include <asm/cmdline.h>
4006b8534cSBorislav Petkov #include <asm/setup.h>
41bad5fa63SBorislav Petkov
42d02a0efdSThomas Gleixner #include "internal.h"
43d02a0efdSThomas Gleixner
44bad5fa63SBorislav Petkov static struct microcode_ops *microcode_ops;
45*5214a9f6SBorislav Petkov (AMD) static bool dis_ucode_ldr = false;
466b26e1bfSBorislav Petkov
479407bda8SThomas Gleixner bool force_minrev = IS_ENABLED(CONFIG_MICROCODE_LATE_FORCE_MINREV);
489407bda8SThomas Gleixner module_param(force_minrev, bool, S_IRUSR | S_IWUSR);
499407bda8SThomas Gleixner
50bad5fa63SBorislav Petkov /*
51bad5fa63SBorislav Petkov * Synchronization.
52bad5fa63SBorislav Petkov *
53bad5fa63SBorislav Petkov * All non cpu-hotplug-callback call sites use:
54bad5fa63SBorislav Petkov *
552089f34fSSebastian Andrzej Siewior * - cpus_read_lock/unlock() to synchronize with
56bad5fa63SBorislav Petkov * the cpu-hotplug-callback call sites.
57bad5fa63SBorislav Petkov *
58bad5fa63SBorislav Petkov * We guarantee that only a single cpu is being
59bad5fa63SBorislav Petkov * updated at any particular moment of time.
60bad5fa63SBorislav Petkov */
61bad5fa63SBorislav Petkov struct ucode_cpu_info ucode_cpu_info[NR_CPUS];
62bad5fa63SBorislav Petkov
63f3ad136dSBorislav Petkov /*
64f3ad136dSBorislav Petkov * Those patch levels cannot be updated to newer ones and thus should be final.
65f3ad136dSBorislav Petkov */
66f3ad136dSBorislav Petkov static u32 final_levels[] = {
67f3ad136dSBorislav Petkov 0x01000098,
68f3ad136dSBorislav Petkov 0x0100009f,
69f3ad136dSBorislav Petkov 0x010000af,
70f3ad136dSBorislav Petkov 0, /* T-101 terminator */
71f3ad136dSBorislav Petkov };
72f3ad136dSBorislav Petkov
73080990aaSBorislav Petkov (AMD) struct early_load_data early_data;
74080990aaSBorislav Petkov (AMD)
75f3ad136dSBorislav Petkov /*
76f3ad136dSBorislav Petkov * Check the current patch level on this CPU.
77f3ad136dSBorislav Petkov *
78f3ad136dSBorislav Petkov * Returns:
79f3ad136dSBorislav Petkov * - true: if update should stop
80f3ad136dSBorislav Petkov * - false: otherwise
81f3ad136dSBorislav Petkov */
amd_check_current_patch_level(void)82f3ad136dSBorislav Petkov static bool amd_check_current_patch_level(void)
83f3ad136dSBorislav Petkov {
84f3ad136dSBorislav Petkov u32 lvl, dummy, i;
85f3ad136dSBorislav Petkov u32 *levels;
86f3ad136dSBorislav Petkov
87*5214a9f6SBorislav Petkov (AMD) if (x86_cpuid_vendor() != X86_VENDOR_AMD)
88*5214a9f6SBorislav Petkov (AMD) return false;
89*5214a9f6SBorislav Petkov (AMD)
90f3ad136dSBorislav Petkov native_rdmsr(MSR_AMD64_PATCH_LEVEL, lvl, dummy);
91f3ad136dSBorislav Petkov
92f3ad136dSBorislav Petkov levels = final_levels;
93f3ad136dSBorislav Petkov
94f3ad136dSBorislav Petkov for (i = 0; levels[i]; i++) {
95f3ad136dSBorislav Petkov if (lvl == levels[i])
96f3ad136dSBorislav Petkov return true;
97f3ad136dSBorislav Petkov }
98f3ad136dSBorislav Petkov return false;
99f3ad136dSBorislav Petkov }
100f3ad136dSBorislav Petkov
microcode_loader_disabled(void)101*5214a9f6SBorislav Petkov (AMD) bool __init microcode_loader_disabled(void)
102fe055896SBorislav Petkov {
103*5214a9f6SBorislav Petkov (AMD) if (dis_ucode_ldr)
104*5214a9f6SBorislav Petkov (AMD) return true;
105fe055896SBorislav Petkov
106a15a7535SBorislav Petkov /*
107*5214a9f6SBorislav Petkov (AMD) * Disable when:
108*5214a9f6SBorislav Petkov (AMD) *
109*5214a9f6SBorislav Petkov (AMD) * 1) The CPU does not support CPUID.
110*5214a9f6SBorislav Petkov (AMD) *
111*5214a9f6SBorislav Petkov (AMD) * 2) Bit 31 in CPUID[1]:ECX is clear
112*5214a9f6SBorislav Petkov (AMD) * The bit is reserved for hypervisor use. This is still not
113*5214a9f6SBorislav Petkov (AMD) * completely accurate as XEN PV guests don't see that CPUID bit
114*5214a9f6SBorislav Petkov (AMD) * set, but that's good enough as they don't land on the BSP
115*5214a9f6SBorislav Petkov (AMD) * path anyway.
116*5214a9f6SBorislav Petkov (AMD) *
117*5214a9f6SBorislav Petkov (AMD) * 3) Certain AMD patch levels are not allowed to be
118*5214a9f6SBorislav Petkov (AMD) * overwritten.
119a15a7535SBorislav Petkov */
120*5214a9f6SBorislav Petkov (AMD) if (!have_cpuid_p() ||
121*5214a9f6SBorislav Petkov (AMD) native_cpuid_ecx(1) & BIT(31) ||
122*5214a9f6SBorislav Petkov (AMD) amd_check_current_patch_level())
123*5214a9f6SBorislav Petkov (AMD) dis_ucode_ldr = true;
124fe055896SBorislav Petkov
1250b62f6cbSThomas Gleixner return dis_ucode_ldr;
126fe055896SBorislav Petkov }
127fe055896SBorislav Petkov
load_ucode_bsp(void)128fe055896SBorislav Petkov void __init load_ucode_bsp(void)
129fe055896SBorislav Petkov {
1307a93a40bSBorislav Petkov unsigned int cpuid_1_eax;
1311f161f67SBorislav Petkov bool intel = true;
132fe055896SBorislav Petkov
133*5214a9f6SBorislav Petkov (AMD) if (cmdline_find_option_bool(boot_command_line, "dis_ucode_ldr") > 0)
134*5214a9f6SBorislav Petkov (AMD) dis_ucode_ldr = true;
135*5214a9f6SBorislav Petkov (AMD)
136*5214a9f6SBorislav Petkov (AMD) if (microcode_loader_disabled())
137fe055896SBorislav Petkov return;
138fe055896SBorislav Petkov
139309aac77SBorislav Petkov cpuid_1_eax = native_cpuid_eax(1);
140fe055896SBorislav Petkov
1417a93a40bSBorislav Petkov switch (x86_cpuid_vendor()) {
142fe055896SBorislav Petkov case X86_VENDOR_INTEL:
1431f161f67SBorislav Petkov if (x86_family(cpuid_1_eax) < 6)
1441f161f67SBorislav Petkov return;
145fe055896SBorislav Petkov break;
1461f161f67SBorislav Petkov
147fe055896SBorislav Petkov case X86_VENDOR_AMD:
1481f161f67SBorislav Petkov if (x86_family(cpuid_1_eax) < 0x10)
1491f161f67SBorislav Petkov return;
1501f161f67SBorislav Petkov intel = false;
151fe055896SBorislav Petkov break;
1521f161f67SBorislav Petkov
153fe055896SBorislav Petkov default:
1541f161f67SBorislav Petkov return;
155fe055896SBorislav Petkov }
1561f161f67SBorislav Petkov
1571f161f67SBorislav Petkov if (intel)
158080990aaSBorislav Petkov (AMD) load_ucode_intel_bsp(&early_data);
1591f161f67SBorislav Petkov else
160080990aaSBorislav Petkov (AMD) load_ucode_amd_bsp(&early_data, cpuid_1_eax);
161fe055896SBorislav Petkov }
162fe055896SBorislav Petkov
load_ucode_ap(void)163fe055896SBorislav Petkov void load_ucode_ap(void)
164fe055896SBorislav Petkov {
1657a93a40bSBorislav Petkov unsigned int cpuid_1_eax;
166fe055896SBorislav Petkov
167*5214a9f6SBorislav Petkov (AMD) /*
168*5214a9f6SBorislav Petkov (AMD) * Can't use microcode_loader_disabled() here - .init section
169*5214a9f6SBorislav Petkov (AMD) * hell. It doesn't have to either - the BSP variant must've
170*5214a9f6SBorislav Petkov (AMD) * parsed cmdline already anyway.
171*5214a9f6SBorislav Petkov (AMD) */
1720b62f6cbSThomas Gleixner if (dis_ucode_ldr)
173fe055896SBorislav Petkov return;
174fe055896SBorislav Petkov
175309aac77SBorislav Petkov cpuid_1_eax = native_cpuid_eax(1);
176fe055896SBorislav Petkov
1777a93a40bSBorislav Petkov switch (x86_cpuid_vendor()) {
178fe055896SBorislav Petkov case X86_VENDOR_INTEL:
179309aac77SBorislav Petkov if (x86_family(cpuid_1_eax) >= 6)
180fe055896SBorislav Petkov load_ucode_intel_ap();
181fe055896SBorislav Petkov break;
182fe055896SBorislav Petkov case X86_VENDOR_AMD:
183309aac77SBorislav Petkov if (x86_family(cpuid_1_eax) >= 0x10)
1845af05b8dSThomas Gleixner load_ucode_amd_ap(cpuid_1_eax);
185fe055896SBorislav Petkov break;
186fe055896SBorislav Petkov default:
187fe055896SBorislav Petkov break;
188fe055896SBorislav Petkov }
189fe055896SBorislav Petkov }
190fe055896SBorislav Petkov
find_microcode_in_initrd(const char * path)1918529e8abSThomas Gleixner struct cpio_data __init find_microcode_in_initrd(const char *path)
19206b8534cSBorislav Petkov {
19306b8534cSBorislav Petkov #ifdef CONFIG_BLK_DEV_INITRD
19406b8534cSBorislav Petkov unsigned long start = 0;
19506b8534cSBorislav Petkov size_t size;
19606b8534cSBorislav Petkov
19706b8534cSBorislav Petkov #ifdef CONFIG_X86_32
1980b62f6cbSThomas Gleixner size = boot_params.hdr.ramdisk_size;
1990b62f6cbSThomas Gleixner /* Early load on BSP has a temporary mapping. */
20006b8534cSBorislav Petkov if (size)
2010b62f6cbSThomas Gleixner start = initrd_start_early;
20206b8534cSBorislav Petkov
20306b8534cSBorislav Petkov #else /* CONFIG_X86_64 */
20406b8534cSBorislav Petkov size = (unsigned long)boot_params.ext_ramdisk_size << 32;
20506b8534cSBorislav Petkov size |= boot_params.hdr.ramdisk_size;
20606b8534cSBorislav Petkov
20706b8534cSBorislav Petkov if (size) {
20806b8534cSBorislav Petkov start = (unsigned long)boot_params.ext_ramdisk_image << 32;
20906b8534cSBorislav Petkov start |= boot_params.hdr.ramdisk_image;
21006b8534cSBorislav Petkov start += PAGE_OFFSET;
21106b8534cSBorislav Petkov }
21206b8534cSBorislav Petkov #endif
21306b8534cSBorislav Petkov
21406b8534cSBorislav Petkov /*
2158877ebddSBorislav Petkov * Fixup the start address: after reserve_initrd() runs, initrd_start
2168877ebddSBorislav Petkov * has the virtual address of the beginning of the initrd. It also
2178877ebddSBorislav Petkov * possibly relocates the ramdisk. In either case, initrd_start contains
2188877ebddSBorislav Petkov * the updated address so use that instead.
21906b8534cSBorislav Petkov */
22024c25032SBorislav Petkov if (initrd_start)
22106b8534cSBorislav Petkov start = initrd_start;
22206b8534cSBorislav Petkov
22306b8534cSBorislav Petkov return find_cpio_data(path, (void *)start, size, NULL);
22406b8534cSBorislav Petkov #else /* !CONFIG_BLK_DEV_INITRD */
22506b8534cSBorislav Petkov return (struct cpio_data){ NULL, 0, "" };
22606b8534cSBorislav Petkov #endif
22706b8534cSBorislav Petkov }
22806b8534cSBorislav Petkov
reload_early_microcode(unsigned int cpu)22918648dbdSThomas Gleixner static void reload_early_microcode(unsigned int cpu)
230fe055896SBorislav Petkov {
231fe055896SBorislav Petkov int vendor, family;
232fe055896SBorislav Petkov
23399f925ceSBorislav Petkov vendor = x86_cpuid_vendor();
23499f925ceSBorislav Petkov family = x86_cpuid_family();
235fe055896SBorislav Petkov
236fe055896SBorislav Petkov switch (vendor) {
237fe055896SBorislav Petkov case X86_VENDOR_INTEL:
238fe055896SBorislav Petkov if (family >= 6)
239fe055896SBorislav Petkov reload_ucode_intel();
240fe055896SBorislav Petkov break;
241fe055896SBorislav Petkov case X86_VENDOR_AMD:
242fe055896SBorislav Petkov if (family >= 0x10)
243a5ad9213SBorislav Petkov (AMD) reload_ucode_amd(cpu);
244fe055896SBorislav Petkov break;
245fe055896SBorislav Petkov default:
246fe055896SBorislav Petkov break;
247fe055896SBorislav Petkov }
248fe055896SBorislav Petkov }
249fe055896SBorislav Petkov
250bad5fa63SBorislav Petkov /* fake device for request_firmware */
251bad5fa63SBorislav Petkov static struct platform_device *microcode_pdev;
252bad5fa63SBorislav Petkov
253a77a94f8SBorislav Petkov #ifdef CONFIG_MICROCODE_LATE_LOADING
254a5321aecSAshok Raj /*
255a5321aecSAshok Raj * Late loading dance. Why the heavy-handed stomp_machine effort?
256a5321aecSAshok Raj *
257a5321aecSAshok Raj * - HT siblings must be idle and not execute other code while the other sibling
258a5321aecSAshok Raj * is loading microcode in order to avoid any negative interactions caused by
259a5321aecSAshok Raj * the loading.
260a5321aecSAshok Raj *
261a5321aecSAshok Raj * - In addition, microcode update on the cores must be serialized until this
262a5321aecSAshok Raj * requirement can be relaxed in the future. Right now, this is conservative
263a5321aecSAshok Raj * and good.
264a5321aecSAshok Raj */
265ba3aeb97SThomas Gleixner enum sibling_ctrl {
266ba3aeb97SThomas Gleixner /* Spinwait with timeout */
267ba3aeb97SThomas Gleixner SCTRL_WAIT,
268ba3aeb97SThomas Gleixner /* Invoke the microcode_apply() callback */
269ba3aeb97SThomas Gleixner SCTRL_APPLY,
270ba3aeb97SThomas Gleixner /* Proceed without invoking the microcode_apply() callback */
271ba3aeb97SThomas Gleixner SCTRL_DONE,
272ba3aeb97SThomas Gleixner };
273ba3aeb97SThomas Gleixner
2744b753955SThomas Gleixner struct microcode_ctrl {
275ba3aeb97SThomas Gleixner enum sibling_ctrl ctrl;
2764b753955SThomas Gleixner enum ucode_state result;
277ba3aeb97SThomas Gleixner unsigned int ctrl_cpu;
2787eb314a2SThomas Gleixner bool nmi_enabled;
2794b753955SThomas Gleixner };
2804b753955SThomas Gleixner
2817eb314a2SThomas Gleixner DEFINE_STATIC_KEY_FALSE(microcode_nmi_handler_enable);
2824b753955SThomas Gleixner static DEFINE_PER_CPU(struct microcode_ctrl, ucode_ctrl);
2838f849ff6SThomas Gleixner static atomic_t late_cpus_in, offline_in_nmi;
2841582c0f4SThomas Gleixner static unsigned int loops_per_usec;
2858f849ff6SThomas Gleixner static cpumask_t cpu_offline_mask;
286a5321aecSAshok Raj
wait_for_cpus(atomic_t * cnt)2871582c0f4SThomas Gleixner static noinstr bool wait_for_cpus(atomic_t *cnt)
288bb8c13d6SBorislav Petkov {
2891582c0f4SThomas Gleixner unsigned int timeout, loops;
290bb8c13d6SBorislav Petkov
2911582c0f4SThomas Gleixner WARN_ON_ONCE(raw_atomic_dec_return(cnt) < 0);
292bb8c13d6SBorislav Petkov
2930772b9aaSThomas Gleixner for (timeout = 0; timeout < USEC_PER_SEC; timeout++) {
2941582c0f4SThomas Gleixner if (!raw_atomic_read(cnt))
2950772b9aaSThomas Gleixner return true;
296bb8c13d6SBorislav Petkov
2971582c0f4SThomas Gleixner for (loops = 0; loops < loops_per_usec; loops++)
2981582c0f4SThomas Gleixner cpu_relax();
299bb8c13d6SBorislav Petkov
3007eb314a2SThomas Gleixner /* If invoked directly, tickle the NMI watchdog */
3011582c0f4SThomas Gleixner if (!microcode_ops->use_nmi && !(timeout % USEC_PER_MSEC)) {
3021582c0f4SThomas Gleixner instrumentation_begin();
303bb8c13d6SBorislav Petkov touch_nmi_watchdog();
3041582c0f4SThomas Gleixner instrumentation_end();
3051582c0f4SThomas Gleixner }
306bb8c13d6SBorislav Petkov }
3070772b9aaSThomas Gleixner /* Prevent the late comers from making progress and let them time out */
3081582c0f4SThomas Gleixner raw_atomic_inc(cnt);
3090772b9aaSThomas Gleixner return false;
310bb8c13d6SBorislav Petkov }
311a5321aecSAshok Raj
wait_for_ctrl(void)3121582c0f4SThomas Gleixner static noinstr bool wait_for_ctrl(void)
3136067788fSThomas Gleixner {
3141582c0f4SThomas Gleixner unsigned int timeout, loops;
3156067788fSThomas Gleixner
3166067788fSThomas Gleixner for (timeout = 0; timeout < USEC_PER_SEC; timeout++) {
3171582c0f4SThomas Gleixner if (raw_cpu_read(ucode_ctrl.ctrl) != SCTRL_WAIT)
3186067788fSThomas Gleixner return true;
3191582c0f4SThomas Gleixner
3201582c0f4SThomas Gleixner for (loops = 0; loops < loops_per_usec; loops++)
3211582c0f4SThomas Gleixner cpu_relax();
3221582c0f4SThomas Gleixner
3237eb314a2SThomas Gleixner /* If invoked directly, tickle the NMI watchdog */
3241582c0f4SThomas Gleixner if (!microcode_ops->use_nmi && !(timeout % USEC_PER_MSEC)) {
3251582c0f4SThomas Gleixner instrumentation_begin();
3266067788fSThomas Gleixner touch_nmi_watchdog();
3271582c0f4SThomas Gleixner instrumentation_end();
3281582c0f4SThomas Gleixner }
3296067788fSThomas Gleixner }
3306067788fSThomas Gleixner return false;
3316067788fSThomas Gleixner }
3326067788fSThomas Gleixner
3331582c0f4SThomas Gleixner /*
3341582c0f4SThomas Gleixner * Protected against instrumentation up to the point where the primary
3351582c0f4SThomas Gleixner * thread completed the update. See microcode_nmi_handler() for details.
3361582c0f4SThomas Gleixner */
load_secondary_wait(unsigned int ctrl_cpu)3371582c0f4SThomas Gleixner static noinstr bool load_secondary_wait(unsigned int ctrl_cpu)
3386067788fSThomas Gleixner {
3396067788fSThomas Gleixner /* Initial rendezvous to ensure that all CPUs have arrived */
3406067788fSThomas Gleixner if (!wait_for_cpus(&late_cpus_in)) {
3411582c0f4SThomas Gleixner raw_cpu_write(ucode_ctrl.result, UCODE_TIMEOUT);
3421582c0f4SThomas Gleixner return false;
3436067788fSThomas Gleixner }
3446067788fSThomas Gleixner
3456067788fSThomas Gleixner /*
3466067788fSThomas Gleixner * Wait for primary threads to complete. If one of them hangs due
3476067788fSThomas Gleixner * to the update, there is no way out. This is non-recoverable
3486067788fSThomas Gleixner * because the CPU might hold locks or resources and confuse the
3496067788fSThomas Gleixner * scheduler, watchdogs etc. There is no way to safely evacuate the
3506067788fSThomas Gleixner * machine.
3516067788fSThomas Gleixner */
3521582c0f4SThomas Gleixner if (wait_for_ctrl())
3531582c0f4SThomas Gleixner return true;
3546067788fSThomas Gleixner
3551582c0f4SThomas Gleixner instrumentation_begin();
3561582c0f4SThomas Gleixner panic("Microcode load: Primary CPU %d timed out\n", ctrl_cpu);
3571582c0f4SThomas Gleixner instrumentation_end();
3581582c0f4SThomas Gleixner }
3591582c0f4SThomas Gleixner
3601582c0f4SThomas Gleixner /*
3611582c0f4SThomas Gleixner * Protected against instrumentation up to the point where the primary
3621582c0f4SThomas Gleixner * thread completed the update. See microcode_nmi_handler() for details.
3631582c0f4SThomas Gleixner */
load_secondary(unsigned int cpu)3641582c0f4SThomas Gleixner static noinstr void load_secondary(unsigned int cpu)
3651582c0f4SThomas Gleixner {
3661582c0f4SThomas Gleixner unsigned int ctrl_cpu = raw_cpu_read(ucode_ctrl.ctrl_cpu);
3671582c0f4SThomas Gleixner enum ucode_state ret;
3681582c0f4SThomas Gleixner
3691582c0f4SThomas Gleixner if (!load_secondary_wait(ctrl_cpu)) {
3701582c0f4SThomas Gleixner instrumentation_begin();
3711582c0f4SThomas Gleixner pr_err_once("load: %d CPUs timed out\n",
3721582c0f4SThomas Gleixner atomic_read(&late_cpus_in) - 1);
3731582c0f4SThomas Gleixner instrumentation_end();
3741582c0f4SThomas Gleixner return;
3751582c0f4SThomas Gleixner }
3761582c0f4SThomas Gleixner
3771582c0f4SThomas Gleixner /* Primary thread completed. Allow to invoke instrumentable code */
3781582c0f4SThomas Gleixner instrumentation_begin();
3796067788fSThomas Gleixner /*
3806067788fSThomas Gleixner * If the primary succeeded then invoke the apply() callback,
3816067788fSThomas Gleixner * otherwise copy the state from the primary thread.
3826067788fSThomas Gleixner */
3836067788fSThomas Gleixner if (this_cpu_read(ucode_ctrl.ctrl) == SCTRL_APPLY)
3846067788fSThomas Gleixner ret = microcode_ops->apply_microcode(cpu);
3856067788fSThomas Gleixner else
3866067788fSThomas Gleixner ret = per_cpu(ucode_ctrl.result, ctrl_cpu);
3876067788fSThomas Gleixner
3886067788fSThomas Gleixner this_cpu_write(ucode_ctrl.result, ret);
3896067788fSThomas Gleixner this_cpu_write(ucode_ctrl.ctrl, SCTRL_DONE);
3901582c0f4SThomas Gleixner instrumentation_end();
3916067788fSThomas Gleixner }
3926067788fSThomas Gleixner
__load_primary(unsigned int cpu)3938f849ff6SThomas Gleixner static void __load_primary(unsigned int cpu)
3946067788fSThomas Gleixner {
3956067788fSThomas Gleixner struct cpumask *secondaries = topology_sibling_cpumask(cpu);
3966067788fSThomas Gleixner enum sibling_ctrl ctrl;
3976067788fSThomas Gleixner enum ucode_state ret;
3986067788fSThomas Gleixner unsigned int sibling;
3996067788fSThomas Gleixner
4006067788fSThomas Gleixner /* Initial rendezvous to ensure that all CPUs have arrived */
4016067788fSThomas Gleixner if (!wait_for_cpus(&late_cpus_in)) {
4026067788fSThomas Gleixner this_cpu_write(ucode_ctrl.result, UCODE_TIMEOUT);
4036067788fSThomas Gleixner pr_err_once("load: %d CPUs timed out\n", atomic_read(&late_cpus_in) - 1);
4046067788fSThomas Gleixner return;
4056067788fSThomas Gleixner }
4066067788fSThomas Gleixner
4076067788fSThomas Gleixner ret = microcode_ops->apply_microcode(cpu);
4086067788fSThomas Gleixner this_cpu_write(ucode_ctrl.result, ret);
4096067788fSThomas Gleixner this_cpu_write(ucode_ctrl.ctrl, SCTRL_DONE);
4106067788fSThomas Gleixner
4116067788fSThomas Gleixner /*
4126067788fSThomas Gleixner * If the update was successful, let the siblings run the apply()
4136067788fSThomas Gleixner * callback. If not, tell them it's done. This also covers the
4146067788fSThomas Gleixner * case where the CPU has uniform loading at package or system
4156067788fSThomas Gleixner * scope implemented but does not advertise it.
4166067788fSThomas Gleixner */
4176067788fSThomas Gleixner if (ret == UCODE_UPDATED || ret == UCODE_OK)
4186067788fSThomas Gleixner ctrl = SCTRL_APPLY;
4196067788fSThomas Gleixner else
4206067788fSThomas Gleixner ctrl = SCTRL_DONE;
4216067788fSThomas Gleixner
4226067788fSThomas Gleixner for_each_cpu(sibling, secondaries) {
4236067788fSThomas Gleixner if (sibling != cpu)
4246067788fSThomas Gleixner per_cpu(ucode_ctrl.ctrl, sibling) = ctrl;
4256067788fSThomas Gleixner }
4266067788fSThomas Gleixner }
4276067788fSThomas Gleixner
kick_offline_cpus(unsigned int nr_offl)4288f849ff6SThomas Gleixner static bool kick_offline_cpus(unsigned int nr_offl)
4298f849ff6SThomas Gleixner {
4308f849ff6SThomas Gleixner unsigned int cpu, timeout;
4318f849ff6SThomas Gleixner
4328f849ff6SThomas Gleixner for_each_cpu(cpu, &cpu_offline_mask) {
4338f849ff6SThomas Gleixner /* Enable the rendezvous handler and send NMI */
4348f849ff6SThomas Gleixner per_cpu(ucode_ctrl.nmi_enabled, cpu) = true;
4358f849ff6SThomas Gleixner apic_send_nmi_to_offline_cpu(cpu);
4368f849ff6SThomas Gleixner }
4378f849ff6SThomas Gleixner
4388f849ff6SThomas Gleixner /* Wait for them to arrive */
4398f849ff6SThomas Gleixner for (timeout = 0; timeout < (USEC_PER_SEC / 2); timeout++) {
4408f849ff6SThomas Gleixner if (atomic_read(&offline_in_nmi) == nr_offl)
4418f849ff6SThomas Gleixner return true;
4428f849ff6SThomas Gleixner udelay(1);
4438f849ff6SThomas Gleixner }
4448f849ff6SThomas Gleixner /* Let the others time out */
4458f849ff6SThomas Gleixner return false;
4468f849ff6SThomas Gleixner }
4478f849ff6SThomas Gleixner
release_offline_cpus(void)4488f849ff6SThomas Gleixner static void release_offline_cpus(void)
4498f849ff6SThomas Gleixner {
4508f849ff6SThomas Gleixner unsigned int cpu;
4518f849ff6SThomas Gleixner
4528f849ff6SThomas Gleixner for_each_cpu(cpu, &cpu_offline_mask)
4538f849ff6SThomas Gleixner per_cpu(ucode_ctrl.ctrl, cpu) = SCTRL_DONE;
4548f849ff6SThomas Gleixner }
4558f849ff6SThomas Gleixner
load_primary(unsigned int cpu)4568f849ff6SThomas Gleixner static void load_primary(unsigned int cpu)
4578f849ff6SThomas Gleixner {
4588f849ff6SThomas Gleixner unsigned int nr_offl = cpumask_weight(&cpu_offline_mask);
4598f849ff6SThomas Gleixner bool proceed = true;
4608f849ff6SThomas Gleixner
4618f849ff6SThomas Gleixner /* Kick soft-offlined SMT siblings if required */
4628f849ff6SThomas Gleixner if (!cpu && nr_offl)
4638f849ff6SThomas Gleixner proceed = kick_offline_cpus(nr_offl);
4648f849ff6SThomas Gleixner
4658f849ff6SThomas Gleixner /* If the soft-offlined CPUs did not respond, abort */
4668f849ff6SThomas Gleixner if (proceed)
4678f849ff6SThomas Gleixner __load_primary(cpu);
4688f849ff6SThomas Gleixner
4698f849ff6SThomas Gleixner /* Unconditionally release soft-offlined SMT siblings if required */
4708f849ff6SThomas Gleixner if (!cpu && nr_offl)
4718f849ff6SThomas Gleixner release_offline_cpus();
4728f849ff6SThomas Gleixner }
4738f849ff6SThomas Gleixner
4748f849ff6SThomas Gleixner /*
4758f849ff6SThomas Gleixner * Minimal stub rendezvous handler for soft-offlined CPUs which participate
4768f849ff6SThomas Gleixner * in the NMI rendezvous to protect against a concurrent NMI on affected
4778f849ff6SThomas Gleixner * CPUs.
4788f849ff6SThomas Gleixner */
microcode_offline_nmi_handler(void)4798f849ff6SThomas Gleixner void noinstr microcode_offline_nmi_handler(void)
4808f849ff6SThomas Gleixner {
4818f849ff6SThomas Gleixner if (!raw_cpu_read(ucode_ctrl.nmi_enabled))
4828f849ff6SThomas Gleixner return;
4838f849ff6SThomas Gleixner raw_cpu_write(ucode_ctrl.nmi_enabled, false);
4848f849ff6SThomas Gleixner raw_cpu_write(ucode_ctrl.result, UCODE_OFFLINE);
4858f849ff6SThomas Gleixner raw_atomic_inc(&offline_in_nmi);
4868f849ff6SThomas Gleixner wait_for_ctrl();
4878f849ff6SThomas Gleixner }
4888f849ff6SThomas Gleixner
microcode_update_handler(void)4891582c0f4SThomas Gleixner static noinstr bool microcode_update_handler(void)
490bad5fa63SBorislav Petkov {
4911582c0f4SThomas Gleixner unsigned int cpu = raw_smp_processor_id();
492bad5fa63SBorislav Petkov
4931582c0f4SThomas Gleixner if (raw_cpu_read(ucode_ctrl.ctrl_cpu) == cpu) {
4941582c0f4SThomas Gleixner instrumentation_begin();
4950bf87165SThomas Gleixner load_primary(cpu);
4961582c0f4SThomas Gleixner instrumentation_end();
4971582c0f4SThomas Gleixner } else {
4980bf87165SThomas Gleixner load_secondary(cpu);
4991582c0f4SThomas Gleixner }
500a5321aecSAshok Raj
5011582c0f4SThomas Gleixner instrumentation_begin();
5027eb314a2SThomas Gleixner touch_nmi_watchdog();
5031582c0f4SThomas Gleixner instrumentation_end();
5041582c0f4SThomas Gleixner
5057eb314a2SThomas Gleixner return true;
5067eb314a2SThomas Gleixner }
5077eb314a2SThomas Gleixner
5081582c0f4SThomas Gleixner /*
5091582c0f4SThomas Gleixner * Protection against instrumentation is required for CPUs which are not
5101582c0f4SThomas Gleixner * safe against an NMI which is delivered to the secondary SMT sibling
5111582c0f4SThomas Gleixner * while the primary thread updates the microcode. Instrumentation can end
5121582c0f4SThomas Gleixner * up in #INT3, #DB and #PF. The IRET from those exceptions reenables NMI
5131582c0f4SThomas Gleixner * which is the opposite of what the NMI rendezvous is trying to achieve.
5141582c0f4SThomas Gleixner *
5151582c0f4SThomas Gleixner * The primary thread is safe versus instrumentation as the actual
5161582c0f4SThomas Gleixner * microcode update handles this correctly. It's only the sibling code
5171582c0f4SThomas Gleixner * path which must be NMI safe until the primary thread completed the
5181582c0f4SThomas Gleixner * update.
5191582c0f4SThomas Gleixner */
microcode_nmi_handler(void)5201582c0f4SThomas Gleixner bool noinstr microcode_nmi_handler(void)
5217eb314a2SThomas Gleixner {
5221582c0f4SThomas Gleixner if (!raw_cpu_read(ucode_ctrl.nmi_enabled))
5237eb314a2SThomas Gleixner return false;
5247eb314a2SThomas Gleixner
5251582c0f4SThomas Gleixner raw_cpu_write(ucode_ctrl.nmi_enabled, false);
5267eb314a2SThomas Gleixner return microcode_update_handler();
5277eb314a2SThomas Gleixner }
5287eb314a2SThomas Gleixner
load_cpus_stopped(void * unused)5297eb314a2SThomas Gleixner static int load_cpus_stopped(void *unused)
5307eb314a2SThomas Gleixner {
5317eb314a2SThomas Gleixner if (microcode_ops->use_nmi) {
5327eb314a2SThomas Gleixner /* Enable the NMI handler and raise NMI */
5337eb314a2SThomas Gleixner this_cpu_write(ucode_ctrl.nmi_enabled, true);
5347eb314a2SThomas Gleixner apic->send_IPI(smp_processor_id(), NMI_VECTOR);
5357eb314a2SThomas Gleixner } else {
5367eb314a2SThomas Gleixner /* Just invoke the handler directly */
5377eb314a2SThomas Gleixner microcode_update_handler();
5387eb314a2SThomas Gleixner }
5394b753955SThomas Gleixner return 0;
540a5321aecSAshok Raj }
541a5321aecSAshok Raj
load_late_stop_cpus(bool is_safe)5429407bda8SThomas Gleixner static int load_late_stop_cpus(bool is_safe)
543a5321aecSAshok Raj {
5444b753955SThomas Gleixner unsigned int cpu, updated = 0, failed = 0, timedout = 0, siblings = 0;
5458f849ff6SThomas Gleixner unsigned int nr_offl, offline = 0;
5464b753955SThomas Gleixner int old_rev = boot_cpu_data.microcode;
547ab31c744SAshok Raj struct cpuinfo_x86 prev_info;
548a5321aecSAshok Raj
5499407bda8SThomas Gleixner if (!is_safe) {
5509407bda8SThomas Gleixner pr_err("Late microcode loading without minimal revision check.\n");
551d23d33eaSBorislav Petkov pr_err("You should switch to early loading, if possible.\n");
5529407bda8SThomas Gleixner }
553d23d33eaSBorislav Petkov
5540772b9aaSThomas Gleixner atomic_set(&late_cpus_in, num_online_cpus());
5558f849ff6SThomas Gleixner atomic_set(&offline_in_nmi, 0);
5561582c0f4SThomas Gleixner loops_per_usec = loops_per_jiffy / (TICK_NSEC / 1000);
557a5321aecSAshok Raj
558c0dd9245SAshok Raj /*
559c0dd9245SAshok Raj * Take a snapshot before the microcode update in order to compare and
560c0dd9245SAshok Raj * check whether any bits changed after an update.
561c0dd9245SAshok Raj */
562c0dd9245SAshok Raj store_cpu_caps(&prev_info);
563c0dd9245SAshok Raj
5647eb314a2SThomas Gleixner if (microcode_ops->use_nmi)
5657eb314a2SThomas Gleixner static_branch_enable_cpuslocked(µcode_nmi_handler_enable);
5667eb314a2SThomas Gleixner
5674b753955SThomas Gleixner stop_machine_cpuslocked(load_cpus_stopped, NULL, cpu_online_mask);
5684b753955SThomas Gleixner
5697eb314a2SThomas Gleixner if (microcode_ops->use_nmi)
5707eb314a2SThomas Gleixner static_branch_disable_cpuslocked(µcode_nmi_handler_enable);
5717eb314a2SThomas Gleixner
5724b753955SThomas Gleixner /* Analyze the results */
5734b753955SThomas Gleixner for_each_cpu_and(cpu, cpu_present_mask, &cpus_booted_once_mask) {
5744b753955SThomas Gleixner switch (per_cpu(ucode_ctrl.result, cpu)) {
5754b753955SThomas Gleixner case UCODE_UPDATED: updated++; break;
5764b753955SThomas Gleixner case UCODE_TIMEOUT: timedout++; break;
5774b753955SThomas Gleixner case UCODE_OK: siblings++; break;
5788f849ff6SThomas Gleixner case UCODE_OFFLINE: offline++; break;
5794b753955SThomas Gleixner default: failed++; break;
5804b753955SThomas Gleixner }
5814b753955SThomas Gleixner }
5822a1dada3SThomas Gleixner
5832a1dada3SThomas Gleixner if (microcode_ops->finalize_late_load)
5844b753955SThomas Gleixner microcode_ops->finalize_late_load(!updated);
5852a1dada3SThomas Gleixner
5864b753955SThomas Gleixner if (!updated) {
5874b753955SThomas Gleixner /* Nothing changed. */
5884b753955SThomas Gleixner if (!failed && !timedout)
5894b753955SThomas Gleixner return 0;
5908f849ff6SThomas Gleixner
5918f849ff6SThomas Gleixner nr_offl = cpumask_weight(&cpu_offline_mask);
5928f849ff6SThomas Gleixner if (offline < nr_offl) {
5938f849ff6SThomas Gleixner pr_warn("%u offline siblings did not respond.\n",
5948f849ff6SThomas Gleixner nr_offl - atomic_read(&offline_in_nmi));
5958f849ff6SThomas Gleixner return -EIO;
5968f849ff6SThomas Gleixner }
5974b753955SThomas Gleixner pr_err("update failed: %u CPUs failed %u CPUs timed out\n",
5984b753955SThomas Gleixner failed, timedout);
5994b753955SThomas Gleixner return -EIO;
6006eab3abaSAshok Raj }
6014b753955SThomas Gleixner
6029407bda8SThomas Gleixner if (!is_safe || failed || timedout)
6034b753955SThomas Gleixner add_taint(TAINT_CPU_OUT_OF_SPEC, LOCKDEP_STILL_OK);
6049407bda8SThomas Gleixner
6054b753955SThomas Gleixner pr_info("load: updated on %u primary CPUs with %u siblings\n", updated, siblings);
6064b753955SThomas Gleixner if (failed || timedout) {
6074b753955SThomas Gleixner pr_err("load incomplete. %u CPUs timed out or failed\n",
6084b753955SThomas Gleixner num_online_cpus() - (updated + siblings));
6094b753955SThomas Gleixner }
6104b753955SThomas Gleixner pr_info("revision: 0x%x -> 0x%x\n", old_rev, boot_cpu_data.microcode);
6114b753955SThomas Gleixner microcode_check(&prev_info);
6124b753955SThomas Gleixner
6134b753955SThomas Gleixner return updated + siblings == num_online_cpus() ? 0 : -EIO;
614bad5fa63SBorislav Petkov }
615bad5fa63SBorislav Petkov
616634ac23aSThomas Gleixner /*
6174b753955SThomas Gleixner * This function does two things:
6184b753955SThomas Gleixner *
6194b753955SThomas Gleixner * 1) Ensure that all required CPUs which are present and have been booted
620634ac23aSThomas Gleixner * once are online.
621634ac23aSThomas Gleixner *
622634ac23aSThomas Gleixner * To pass this check, all primary threads must be online.
623634ac23aSThomas Gleixner *
624634ac23aSThomas Gleixner * If the microcode load is not safe against NMI then all SMT threads
625634ac23aSThomas Gleixner * must be online as well because they still react to NMIs when they are
626634ac23aSThomas Gleixner * soft-offlined and parked in one of the play_dead() variants. So if a
627634ac23aSThomas Gleixner * NMI hits while the primary thread updates the microcode the resulting
628634ac23aSThomas Gleixner * behaviour is undefined. The default play_dead() implementation on
629634ac23aSThomas Gleixner * modern CPUs uses MWAIT, which is also not guaranteed to be safe
630634ac23aSThomas Gleixner * against a microcode update which affects MWAIT.
6314b753955SThomas Gleixner *
6328f849ff6SThomas Gleixner * As soft-offlined CPUs still react on NMIs, the SMT sibling
6338f849ff6SThomas Gleixner * restriction can be lifted when the vendor driver signals to use NMI
6348f849ff6SThomas Gleixner * for rendezvous and the APIC provides a mechanism to send an NMI to a
6358f849ff6SThomas Gleixner * soft-offlined CPU. The soft-offlined CPUs are then able to
6368f849ff6SThomas Gleixner * participate in the rendezvous in a trivial stub handler.
6378f849ff6SThomas Gleixner *
6388f849ff6SThomas Gleixner * 2) Initialize the per CPU control structure and create a cpumask
6398f849ff6SThomas Gleixner * which contains "offline"; secondary threads, so they can be handled
6408f849ff6SThomas Gleixner * correctly by a control CPU.
641634ac23aSThomas Gleixner */
setup_cpus(void)6424b753955SThomas Gleixner static bool setup_cpus(void)
643634ac23aSThomas Gleixner {
644ba3aeb97SThomas Gleixner struct microcode_ctrl ctrl = { .ctrl = SCTRL_WAIT, .result = -1, };
6458f849ff6SThomas Gleixner bool allow_smt_offline;
646634ac23aSThomas Gleixner unsigned int cpu;
647634ac23aSThomas Gleixner
6488f849ff6SThomas Gleixner allow_smt_offline = microcode_ops->nmi_safe ||
6498f849ff6SThomas Gleixner (microcode_ops->use_nmi && apic->nmi_to_offline_cpu);
6508f849ff6SThomas Gleixner
6518f849ff6SThomas Gleixner cpumask_clear(&cpu_offline_mask);
6528f849ff6SThomas Gleixner
653634ac23aSThomas Gleixner for_each_cpu_and(cpu, cpu_present_mask, &cpus_booted_once_mask) {
6548f849ff6SThomas Gleixner /*
6558f849ff6SThomas Gleixner * Offline CPUs sit in one of the play_dead() functions
6568f849ff6SThomas Gleixner * with interrupts disabled, but they still react on NMIs
6578f849ff6SThomas Gleixner * and execute arbitrary code. Also MWAIT being updated
6588f849ff6SThomas Gleixner * while the offline CPU sits there is not necessarily safe
6598f849ff6SThomas Gleixner * on all CPU variants.
6608f849ff6SThomas Gleixner *
6618f849ff6SThomas Gleixner * Mark them in the offline_cpus mask which will be handled
6628f849ff6SThomas Gleixner * by CPU0 later in the update process.
6638f849ff6SThomas Gleixner *
6648f849ff6SThomas Gleixner * Ensure that the primary thread is online so that it is
6658f849ff6SThomas Gleixner * guaranteed that all cores are updated.
6668f849ff6SThomas Gleixner */
667634ac23aSThomas Gleixner if (!cpu_online(cpu)) {
6688f849ff6SThomas Gleixner if (topology_is_primary_thread(cpu) || !allow_smt_offline) {
6698f849ff6SThomas Gleixner pr_err("CPU %u not online, loading aborted\n", cpu);
670634ac23aSThomas Gleixner return false;
671634ac23aSThomas Gleixner }
6728f849ff6SThomas Gleixner cpumask_set_cpu(cpu, &cpu_offline_mask);
6738f849ff6SThomas Gleixner per_cpu(ucode_ctrl, cpu) = ctrl;
6748f849ff6SThomas Gleixner continue;
675634ac23aSThomas Gleixner }
676ba3aeb97SThomas Gleixner
677ba3aeb97SThomas Gleixner /*
678ba3aeb97SThomas Gleixner * Initialize the per CPU state. This is core scope for now,
679ba3aeb97SThomas Gleixner * but prepared to take package or system scope into account.
680ba3aeb97SThomas Gleixner */
681ba3aeb97SThomas Gleixner ctrl.ctrl_cpu = cpumask_first(topology_sibling_cpumask(cpu));
6824b753955SThomas Gleixner per_cpu(ucode_ctrl, cpu) = ctrl;
683634ac23aSThomas Gleixner }
684634ac23aSThomas Gleixner return true;
685634ac23aSThomas Gleixner }
686634ac23aSThomas Gleixner
load_late_locked(void)6874b753955SThomas Gleixner static int load_late_locked(void)
6886f059e63SThomas Gleixner {
6894b753955SThomas Gleixner if (!setup_cpus())
6906f059e63SThomas Gleixner return -EBUSY;
6916f059e63SThomas Gleixner
6926f059e63SThomas Gleixner switch (microcode_ops->request_microcode_fw(0, µcode_pdev->dev)) {
6936f059e63SThomas Gleixner case UCODE_NEW:
6949407bda8SThomas Gleixner return load_late_stop_cpus(false);
6959407bda8SThomas Gleixner case UCODE_NEW_SAFE:
6969407bda8SThomas Gleixner return load_late_stop_cpus(true);
6976f059e63SThomas Gleixner case UCODE_NFOUND:
6986f059e63SThomas Gleixner return -ENOENT;
6996f059e63SThomas Gleixner default:
7006f059e63SThomas Gleixner return -EBADFD;
7016f059e63SThomas Gleixner }
7026f059e63SThomas Gleixner }
7036f059e63SThomas Gleixner
reload_store(struct device * dev,struct device_attribute * attr,const char * buf,size_t size)704bad5fa63SBorislav Petkov static ssize_t reload_store(struct device *dev,
705bad5fa63SBorislav Petkov struct device_attribute *attr,
706bad5fa63SBorislav Petkov const char *buf, size_t size)
707bad5fa63SBorislav Petkov {
708bad5fa63SBorislav Petkov unsigned long val;
7096f059e63SThomas Gleixner ssize_t ret;
710bad5fa63SBorislav Petkov
711bad5fa63SBorislav Petkov ret = kstrtoul(buf, 0, &val);
71225d0dc4bSAshok Raj if (ret || val != 1)
71325d0dc4bSAshok Raj return -EINVAL;
714bad5fa63SBorislav Petkov
7152089f34fSSebastian Andrzej Siewior cpus_read_lock();
7164b753955SThomas Gleixner ret = load_late_locked();
7172089f34fSSebastian Andrzej Siewior cpus_read_unlock();
718bad5fa63SBorislav Petkov
7196f059e63SThomas Gleixner return ret ? : size;
720bad5fa63SBorislav Petkov }
721bad5fa63SBorislav Petkov
722a77a94f8SBorislav Petkov static DEVICE_ATTR_WO(reload);
723a77a94f8SBorislav Petkov #endif
724a77a94f8SBorislav Petkov
version_show(struct device * dev,struct device_attribute * attr,char * buf)725bad5fa63SBorislav Petkov static ssize_t version_show(struct device *dev,
726bad5fa63SBorislav Petkov struct device_attribute *attr, char *buf)
727bad5fa63SBorislav Petkov {
728bad5fa63SBorislav Petkov struct ucode_cpu_info *uci = ucode_cpu_info + dev->id;
729bad5fa63SBorislav Petkov
730bad5fa63SBorislav Petkov return sprintf(buf, "0x%x\n", uci->cpu_sig.rev);
731bad5fa63SBorislav Petkov }
732bad5fa63SBorislav Petkov
processor_flags_show(struct device * dev,struct device_attribute * attr,char * buf)73359047d94SGuangju Wang[baidu] static ssize_t processor_flags_show(struct device *dev,
734bad5fa63SBorislav Petkov struct device_attribute *attr, char *buf)
735bad5fa63SBorislav Petkov {
736bad5fa63SBorislav Petkov struct ucode_cpu_info *uci = ucode_cpu_info + dev->id;
737bad5fa63SBorislav Petkov
738bad5fa63SBorislav Petkov return sprintf(buf, "0x%x\n", uci->cpu_sig.pf);
739bad5fa63SBorislav Petkov }
740bad5fa63SBorislav Petkov
74159047d94SGuangju Wang[baidu] static DEVICE_ATTR_RO(version);
74259047d94SGuangju Wang[baidu] static DEVICE_ATTR_RO(processor_flags);
743bad5fa63SBorislav Petkov
744bad5fa63SBorislav Petkov static struct attribute *mc_default_attrs[] = {
745bad5fa63SBorislav Petkov &dev_attr_version.attr,
746bad5fa63SBorislav Petkov &dev_attr_processor_flags.attr,
747bad5fa63SBorislav Petkov NULL
748bad5fa63SBorislav Petkov };
749bad5fa63SBorislav Petkov
75045bd07adSArvind Yadav static const struct attribute_group mc_attr_group = {
751bad5fa63SBorislav Petkov .attrs = mc_default_attrs,
752bad5fa63SBorislav Petkov .name = "microcode",
753bad5fa63SBorislav Petkov };
754bad5fa63SBorislav Petkov
microcode_fini_cpu(int cpu)755bad5fa63SBorislav Petkov static void microcode_fini_cpu(int cpu)
756bad5fa63SBorislav Petkov {
75706b8534cSBorislav Petkov if (microcode_ops->microcode_fini_cpu)
758bad5fa63SBorislav Petkov microcode_ops->microcode_fini_cpu(cpu);
759bad5fa63SBorislav Petkov }
760bad5fa63SBorislav Petkov
761bad5fa63SBorislav Petkov /**
762f9e14dbbSBorislav Petkov * microcode_bsp_resume - Update boot CPU microcode during resume.
763bad5fa63SBorislav Petkov */
microcode_bsp_resume(void)764f9e14dbbSBorislav Petkov void microcode_bsp_resume(void)
765bad5fa63SBorislav Petkov {
766bad5fa63SBorislav Petkov int cpu = smp_processor_id();
767bad5fa63SBorislav Petkov struct ucode_cpu_info *uci = ucode_cpu_info + cpu;
768bad5fa63SBorislav Petkov
769254ed7cfSBorislav Petkov if (uci->mc)
770bad5fa63SBorislav Petkov microcode_ops->apply_microcode(cpu);
771254ed7cfSBorislav Petkov else
772a5ad9213SBorislav Petkov (AMD) reload_early_microcode(cpu);
773bad5fa63SBorislav Petkov }
774bad5fa63SBorislav Petkov
775bad5fa63SBorislav Petkov static struct syscore_ops mc_syscore_ops = {
776f9e14dbbSBorislav Petkov .resume = microcode_bsp_resume,
777bad5fa63SBorislav Petkov };
778bad5fa63SBorislav Petkov
mc_cpu_online(unsigned int cpu)7795423f5ceSThomas Gleixner static int mc_cpu_online(unsigned int cpu)
7805423f5ceSThomas Gleixner {
7812e199733SThomas Gleixner struct ucode_cpu_info *uci = ucode_cpu_info + cpu;
7825423f5ceSThomas Gleixner struct device *dev = get_cpu_device(cpu);
783bad5fa63SBorislav Petkov
7842e199733SThomas Gleixner memset(uci, 0, sizeof(*uci));
7852e199733SThomas Gleixner
7862e199733SThomas Gleixner microcode_ops->collect_cpu_info(cpu, &uci->cpu_sig);
7872e199733SThomas Gleixner cpu_data(cpu).microcode = uci->cpu_sig.rev;
7882e199733SThomas Gleixner if (!cpu)
7892e199733SThomas Gleixner boot_cpu_data.microcode = uci->cpu_sig.rev;
7902e199733SThomas Gleixner
791bad5fa63SBorislav Petkov if (sysfs_create_group(&dev->kobj, &mc_attr_group))
792bad5fa63SBorislav Petkov pr_err("Failed to create group for CPU%d\n", cpu);
79329bd7fbcSSebastian Andrzej Siewior return 0;
79429bd7fbcSSebastian Andrzej Siewior }
795bad5fa63SBorislav Petkov
mc_cpu_down_prep(unsigned int cpu)79629bd7fbcSSebastian Andrzej Siewior static int mc_cpu_down_prep(unsigned int cpu)
79729bd7fbcSSebastian Andrzej Siewior {
798ba48aa32SThomas Gleixner struct device *dev = get_cpu_device(cpu);
799b6f86689SBorislav Petkov
800b6f86689SBorislav Petkov microcode_fini_cpu(cpu);
801bad5fa63SBorislav Petkov sysfs_remove_group(&dev->kobj, &mc_attr_group);
80229bd7fbcSSebastian Andrzej Siewior return 0;
803bad5fa63SBorislav Petkov }
804bad5fa63SBorislav Petkov
805bad5fa63SBorislav Petkov static struct attribute *cpu_root_microcode_attrs[] = {
806a77a94f8SBorislav Petkov #ifdef CONFIG_MICROCODE_LATE_LOADING
807bad5fa63SBorislav Petkov &dev_attr_reload.attr,
808a77a94f8SBorislav Petkov #endif
809bad5fa63SBorislav Petkov NULL
810bad5fa63SBorislav Petkov };
811bad5fa63SBorislav Petkov
81245bd07adSArvind Yadav static const struct attribute_group cpu_root_microcode_group = {
813bad5fa63SBorislav Petkov .name = "microcode",
814bad5fa63SBorislav Petkov .attrs = cpu_root_microcode_attrs,
815bad5fa63SBorislav Petkov };
816bad5fa63SBorislav Petkov
microcode_init(void)817c769dcd4SBorislav Petkov static int __init microcode_init(void)
818bad5fa63SBorislav Petkov {
819216f58beSGreg Kroah-Hartman struct device *dev_root;
8209a2bc335SBorislav Petkov struct cpuinfo_x86 *c = &boot_cpu_data;
821bad5fa63SBorislav Petkov int error;
822bad5fa63SBorislav Petkov
823*5214a9f6SBorislav Petkov (AMD) if (microcode_loader_disabled())
824da63865aSBoris Ostrovsky return -EINVAL;
82565cef131SBorislav Petkov
826bad5fa63SBorislav Petkov if (c->x86_vendor == X86_VENDOR_INTEL)
827bad5fa63SBorislav Petkov microcode_ops = init_intel_microcode();
828bad5fa63SBorislav Petkov else if (c->x86_vendor == X86_VENDOR_AMD)
829bad5fa63SBorislav Petkov microcode_ops = init_amd_microcode();
830bad5fa63SBorislav Petkov else
831bad5fa63SBorislav Petkov pr_err("no support for this CPU vendor\n");
832bad5fa63SBorislav Petkov
833bad5fa63SBorislav Petkov if (!microcode_ops)
834bad5fa63SBorislav Petkov return -ENODEV;
835bad5fa63SBorislav Petkov
836080990aaSBorislav Petkov (AMD) pr_info_once("Current revision: 0x%08x\n", (early_data.new_rev ?: early_data.old_rev));
837080990aaSBorislav Petkov (AMD)
838080990aaSBorislav Petkov (AMD) if (early_data.new_rev)
839080990aaSBorislav Petkov (AMD) pr_info_once("Updated early from: 0x%08x\n", early_data.old_rev);
840080990aaSBorislav Petkov (AMD)
8412e6ff405SBorislav Petkov microcode_pdev = platform_device_register_simple("microcode", -1, NULL, 0);
842bad5fa63SBorislav Petkov if (IS_ERR(microcode_pdev))
843bad5fa63SBorislav Petkov return PTR_ERR(microcode_pdev);
844bad5fa63SBorislav Petkov
845216f58beSGreg Kroah-Hartman dev_root = bus_get_dev_root(&cpu_subsys);
846216f58beSGreg Kroah-Hartman if (dev_root) {
847216f58beSGreg Kroah-Hartman error = sysfs_create_group(&dev_root->kobj, &cpu_root_microcode_group);
848216f58beSGreg Kroah-Hartman put_device(dev_root);
849bad5fa63SBorislav Petkov if (error) {
850bad5fa63SBorislav Petkov pr_err("Error creating microcode group!\n");
851b6f86689SBorislav Petkov goto out_pdev;
852bad5fa63SBorislav Petkov }
853216f58beSGreg Kroah-Hartman }
854bad5fa63SBorislav Petkov
855bad5fa63SBorislav Petkov register_syscore_ops(&mc_syscore_ops);
8562e199733SThomas Gleixner cpuhp_setup_state(CPUHP_AP_ONLINE_DYN, "x86/microcode:online",
85729bd7fbcSSebastian Andrzej Siewior mc_cpu_online, mc_cpu_down_prep);
858bad5fa63SBorislav Petkov
859bad5fa63SBorislav Petkov return 0;
860bad5fa63SBorislav Petkov
861bad5fa63SBorislav Petkov out_pdev:
862bad5fa63SBorislav Petkov platform_device_unregister(microcode_pdev);
863bad5fa63SBorislav Petkov return error;
864bad5fa63SBorislav Petkov
865bad5fa63SBorislav Petkov }
8662d5be37dSBorislav Petkov late_initcall(microcode_init);
867