1/* SPDX-License-Identifier: GPL-2.0 */
  2#ifndef _ASM_X86_PLATFORM_H
  3#define _ASM_X86_PLATFORM_H
  4
  5#include <asm/bootparam.h>
  6
  7struct ghcb;
  8struct mpc_bus;
  9struct mpc_cpu;
 10struct pt_regs;
 11struct mpc_table;
 12struct cpuinfo_x86;
 13struct irq_domain;
 14
 15/**
 16 * struct x86_init_mpparse - platform specific mpparse ops
 17 * @setup_ioapic_ids:		platform specific ioapic id override
 18 * @find_smp_config:		find the smp configuration
 19 * @get_smp_config:		get the smp configuration
 
 20 */
 21struct x86_init_mpparse {
 22	void (*setup_ioapic_ids)(void);
 23	void (*find_smp_config)(void);
 24	void (*get_smp_config)(unsigned int early);
 
 25};
 26
 27/**
 28 * struct x86_init_resources - platform specific resource related ops
 29 * @probe_roms:			probe BIOS roms
 30 * @reserve_resources:		reserve the standard resources for the
 31 *				platform
 32 * @memory_setup:		platform specific memory setup
 33 *
 34 */
 35struct x86_init_resources {
 36	void (*probe_roms)(void);
 37	void (*reserve_resources)(void);
 38	char *(*memory_setup)(void);
 
 39};
 40
 41/**
 42 * struct x86_init_irqs - platform specific interrupt setup
 43 * @pre_vector_init:		init code to run before interrupt vectors
 44 *				are set up.
 45 * @intr_init:			interrupt init code
 46 * @intr_mode_select:		interrupt delivery mode selection
 47 * @intr_mode_init:		interrupt delivery mode setup
 48 * @create_pci_msi_domain:	Create the PCI/MSI interrupt domain
 49 */
 50struct x86_init_irqs {
 51	void (*pre_vector_init)(void);
 52	void (*intr_init)(void);
 53	void (*intr_mode_select)(void);
 54	void (*intr_mode_init)(void);
 55	struct irq_domain *(*create_pci_msi_domain)(void);
 56};
 57
 58/**
 59 * struct x86_init_oem - oem platform specific customizing functions
 60 * @arch_setup:			platform specific architecture setup
 61 * @banner:			print a platform specific banner
 62 */
 63struct x86_init_oem {
 64	void (*arch_setup)(void);
 65	void (*banner)(void);
 66};
 67
 68/**
 69 * struct x86_init_paging - platform specific paging functions
 70 * @pagetable_init:	platform specific paging initialization call to setup
 71 *			the kernel pagetables and prepare accessors functions.
 72 *			Callback must call paging_init(). Called once after the
 73 *			direct mapping for phys memory is available.
 74 */
 75struct x86_init_paging {
 76	void (*pagetable_init)(void);
 77};
 78
 79/**
 80 * struct x86_init_timers - platform specific timer setup
 81 * @setup_perpcu_clockev:	set up the per cpu clock event device for the
 82 *				boot cpu
 83 * @timer_init:			initialize the platform timer (default PIT/HPET)
 84 * @wallclock_init:		init the wallclock device
 85 */
 86struct x86_init_timers {
 87	void (*setup_percpu_clockev)(void);
 88	void (*timer_init)(void);
 89	void (*wallclock_init)(void);
 90};
 91
 92/**
 93 * struct x86_init_iommu - platform specific iommu setup
 94 * @iommu_init:			platform specific iommu setup
 95 */
 96struct x86_init_iommu {
 97	int (*iommu_init)(void);
 98};
 99
100/**
101 * struct x86_init_pci - platform specific pci init functions
102 * @arch_init:			platform specific pci arch init call
103 * @init:			platform specific pci subsystem init
104 * @init_irq:			platform specific pci irq init
105 * @fixup_irqs:			platform specific pci irq fixup
106 */
107struct x86_init_pci {
108	int (*arch_init)(void);
109	int (*init)(void);
110	void (*init_irq)(void);
111	void (*fixup_irqs)(void);
112};
113
114/**
115 * struct x86_hyper_init - x86 hypervisor init functions
116 * @init_platform:		platform setup
117 * @guest_late_init:		guest late init
118 * @x2apic_available:		X2APIC detection
119 * @msi_ext_dest_id:		MSI supports 15-bit APIC IDs
120 * @init_mem_mapping:		setup early mappings during init_mem_mapping()
121 * @init_after_bootmem:		guest init after boot allocator is finished
122 */
123struct x86_hyper_init {
124	void (*init_platform)(void);
125	void (*guest_late_init)(void);
126	bool (*x2apic_available)(void);
127	bool (*msi_ext_dest_id)(void);
128	void (*init_mem_mapping)(void);
129	void (*init_after_bootmem)(void);
130};
131
132/**
133 * struct x86_init_acpi - x86 ACPI init functions
134 * @set_root_poitner:		set RSDP address
135 * @get_root_pointer:		get RSDP address
136 * @reduced_hw_early_init:	hardware reduced platform early init
137 */
138struct x86_init_acpi {
139	void (*set_root_pointer)(u64 addr);
140	u64 (*get_root_pointer)(void);
141	void (*reduced_hw_early_init)(void);
142};
143
144/**
145 * struct x86_guest - Functions used by misc guest incarnations like SEV, TDX, etc.
146 *
147 * @enc_status_change_prepare	Notify HV before the encryption status of a range is changed
148 * @enc_status_change_finish	Notify HV after the encryption status of a range is changed
149 * @enc_tlb_flush_required	Returns true if a TLB flush is needed before changing page encryption status
150 * @enc_cache_flush_required	Returns true if a cache flush is needed before changing page encryption status
 
 
 
 
 
 
 
 
151 */
152struct x86_guest {
153	void (*enc_status_change_prepare)(unsigned long vaddr, int npages, bool enc);
154	bool (*enc_status_change_finish)(unsigned long vaddr, int npages, bool enc);
155	bool (*enc_tlb_flush_required)(bool enc);
156	bool (*enc_cache_flush_required)(void);
 
 
157};
158
159/**
160 * struct x86_init_ops - functions for platform specific setup
161 *
162 */
163struct x86_init_ops {
164	struct x86_init_resources	resources;
165	struct x86_init_mpparse		mpparse;
166	struct x86_init_irqs		irqs;
167	struct x86_init_oem		oem;
168	struct x86_init_paging		paging;
169	struct x86_init_timers		timers;
170	struct x86_init_iommu		iommu;
171	struct x86_init_pci		pci;
172	struct x86_hyper_init		hyper;
173	struct x86_init_acpi		acpi;
174};
175
176/**
177 * struct x86_cpuinit_ops - platform specific cpu hotplug setups
178 * @setup_percpu_clockev:	set up the per cpu clock event device
179 * @early_percpu_clock_init:	early init of the per cpu clock event device
 
 
180 */
181struct x86_cpuinit_ops {
182	void (*setup_percpu_clockev)(void);
183	void (*early_percpu_clock_init)(void);
184	void (*fixup_cpu_id)(struct cpuinfo_x86 *c, int node);
 
185};
186
187struct timespec64;
188
189/**
190 * struct x86_legacy_devices - legacy x86 devices
191 *
192 * @pnpbios: this platform can have a PNPBIOS. If this is disabled the platform
193 * 	is known to never have a PNPBIOS.
194 *
195 * These are devices known to require LPC or ISA bus. The definition of legacy
196 * devices adheres to the ACPI 5.2.9.3 IA-PC Boot Architecture flag
197 * ACPI_FADT_LEGACY_DEVICES. These devices consist of user visible devices on
198 * the LPC or ISA bus. User visible devices are devices that have end-user
199 * accessible connectors (for example, LPT parallel port). Legacy devices on
200 * the LPC bus consist for example of serial and parallel ports, PS/2 keyboard
201 * / mouse, and the floppy disk controller. A system that lacks all known
202 * legacy devices can assume all devices can be detected exclusively via
203 * standard device enumeration mechanisms including the ACPI namespace.
204 *
205 * A system which has does not have ACPI_FADT_LEGACY_DEVICES enabled must not
206 * have any of the legacy devices enumerated below present.
207 */
208struct x86_legacy_devices {
209	int pnpbios;
210};
211
212/**
213 * enum x86_legacy_i8042_state - i8042 keyboard controller state
214 * @X86_LEGACY_I8042_PLATFORM_ABSENT: the controller is always absent on
215 *	given platform/subarch.
216 * @X86_LEGACY_I8042_FIRMWARE_ABSENT: firmware reports that the controller
217 *	is absent.
218 * @X86_LEGACY_i8042_EXPECTED_PRESENT: the controller is likely to be
219 *	present, the i8042 driver should probe for controller existence.
220 */
221enum x86_legacy_i8042_state {
222	X86_LEGACY_I8042_PLATFORM_ABSENT,
223	X86_LEGACY_I8042_FIRMWARE_ABSENT,
224	X86_LEGACY_I8042_EXPECTED_PRESENT,
225};
226
227/**
228 * struct x86_legacy_features - legacy x86 features
229 *
230 * @i8042: indicated if we expect the device to have i8042 controller
231 *	present.
232 * @rtc: this device has a CMOS real-time clock present
233 * @reserve_bios_regions: boot code will search for the EBDA address and the
234 * 	start of the 640k - 1M BIOS region.  If false, the platform must
235 * 	ensure that its memory map correctly reserves sub-1MB regions as needed.
236 * @devices: legacy x86 devices, refer to struct x86_legacy_devices
237 * 	documentation for further details.
238 */
239struct x86_legacy_features {
240	enum x86_legacy_i8042_state i8042;
241	int rtc;
242	int warm_reset;
243	int no_vga;
244	int reserve_bios_regions;
245	struct x86_legacy_devices devices;
246};
247
248/**
249 * struct x86_hyper_runtime - x86 hypervisor specific runtime callbacks
250 *
251 * @pin_vcpu:			pin current vcpu to specified physical
252 *				cpu (run rarely)
253 * @sev_es_hcall_prepare:	Load additional hypervisor-specific
254 *				state into the GHCB when doing a VMMCALL under
255 *				SEV-ES. Called from the #VC exception handler.
256 * @sev_es_hcall_finish:	Copies state from the GHCB back into the
257 *				processor (or pt_regs). Also runs checks on the
258 *				state returned from the hypervisor after a
259 *				VMMCALL under SEV-ES.  Needs to return 'false'
260 *				if the checks fail.  Called from the #VC
261 *				exception handler.
 
 
 
262 */
263struct x86_hyper_runtime {
264	void (*pin_vcpu)(int cpu);
265	void (*sev_es_hcall_prepare)(struct ghcb *ghcb, struct pt_regs *regs);
266	bool (*sev_es_hcall_finish)(struct ghcb *ghcb, struct pt_regs *regs);
 
267};
268
269/**
270 * struct x86_platform_ops - platform specific runtime functions
271 * @calibrate_cpu:		calibrate CPU
272 * @calibrate_tsc:		calibrate TSC, if different from CPU
273 * @get_wallclock:		get time from HW clock like RTC etc.
274 * @set_wallclock:		set time back to HW clock
275 * @is_untracked_pat_range	exclude from PAT logic
276 * @nmi_init			enable NMI on cpus
277 * @save_sched_clock_state:	save state for sched_clock() on suspend
278 * @restore_sched_clock_state:	restore state for sched_clock() on resume
279 * @apic_post_init:		adjust apic if needed
280 * @legacy:			legacy features
281 * @set_legacy_features:	override legacy features. Use of this callback
282 * 				is highly discouraged. You should only need
283 * 				this if your hardware platform requires further
284 * 				custom fine tuning far beyond what may be
285 * 				possible in x86_early_init_platform_quirks() by
286 * 				only using the current x86_hardware_subarch
287 * 				semantics.
288 * @realmode_reserve:		reserve memory for realmode trampoline
289 * @realmode_init:		initialize realmode trampoline
290 * @hyper:			x86 hypervisor specific runtime callbacks
291 */
292struct x86_platform_ops {
293	unsigned long (*calibrate_cpu)(void);
294	unsigned long (*calibrate_tsc)(void);
295	void (*get_wallclock)(struct timespec64 *ts);
296	int (*set_wallclock)(const struct timespec64 *ts);
297	void (*iommu_shutdown)(void);
298	bool (*is_untracked_pat_range)(u64 start, u64 end);
299	void (*nmi_init)(void);
300	unsigned char (*get_nmi_reason)(void);
301	void (*save_sched_clock_state)(void);
302	void (*restore_sched_clock_state)(void);
303	void (*apic_post_init)(void);
304	struct x86_legacy_features legacy;
305	void (*set_legacy_features)(void);
306	void (*realmode_reserve)(void);
307	void (*realmode_init)(void);
308	struct x86_hyper_runtime hyper;
309	struct x86_guest guest;
310};
311
312struct x86_apic_ops {
313	unsigned int	(*io_apic_read)   (unsigned int apic, unsigned int reg);
314	void		(*restore)(void);
315};
316
317extern struct x86_init_ops x86_init;
318extern struct x86_cpuinit_ops x86_cpuinit;
319extern struct x86_platform_ops x86_platform;
320extern struct x86_msi_ops x86_msi;
321extern struct x86_apic_ops x86_apic_ops;
322
323extern void x86_early_init_platform_quirks(void);
324extern void x86_init_noop(void);
325extern void x86_init_uint_noop(unsigned int unused);
326extern bool bool_x86_init_noop(void);
327extern void x86_op_int_noop(int cpu);
328extern bool x86_pnpbios_disabled(void);
 
 
329
330#endif

  1/* SPDX-License-Identifier: GPL-2.0 */
  2#ifndef _ASM_X86_PLATFORM_H
  3#define _ASM_X86_PLATFORM_H
  4
 
 
  5struct ghcb;
  6struct mpc_bus;
  7struct mpc_cpu;
  8struct pt_regs;
  9struct mpc_table;
 10struct cpuinfo_x86;
 11struct irq_domain;
 12
 13/**
 14 * struct x86_init_mpparse - platform specific mpparse ops
 15 * @setup_ioapic_ids:		platform specific ioapic id override
 16 * @find_mptable:		Find MPTABLE early to reserve the memory region
 17 * @early_parse_smp_cfg:	Parse the SMP configuration data early before initmem_init()
 18 * @parse_smp_cfg:		Parse the SMP configuration data
 19 */
 20struct x86_init_mpparse {
 21	void (*setup_ioapic_ids)(void);
 22	void (*find_mptable)(void);
 23	void (*early_parse_smp_cfg)(void);
 24	void (*parse_smp_cfg)(void);
 25};
 26
 27/**
 28 * struct x86_init_resources - platform specific resource related ops
 29 * @probe_roms:			probe BIOS roms
 30 * @reserve_resources:		reserve the standard resources for the
 31 *				platform
 32 * @memory_setup:		platform specific memory setup
 33 * @dmi_setup:			platform specific DMI setup
 34 */
 35struct x86_init_resources {
 36	void (*probe_roms)(void);
 37	void (*reserve_resources)(void);
 38	char *(*memory_setup)(void);
 39	void (*dmi_setup)(void);
 40};
 41
 42/**
 43 * struct x86_init_irqs - platform specific interrupt setup
 44 * @pre_vector_init:		init code to run before interrupt vectors
 45 *				are set up.
 46 * @intr_init:			interrupt init code
 47 * @intr_mode_select:		interrupt delivery mode selection
 48 * @intr_mode_init:		interrupt delivery mode setup
 49 * @create_pci_msi_domain:	Create the PCI/MSI interrupt domain
 50 */
 51struct x86_init_irqs {
 52	void (*pre_vector_init)(void);
 53	void (*intr_init)(void);
 54	void (*intr_mode_select)(void);
 55	void (*intr_mode_init)(void);
 56	struct irq_domain *(*create_pci_msi_domain)(void);
 57};
 58
 59/**
 60 * struct x86_init_oem - oem platform specific customizing functions
 61 * @arch_setup:			platform specific architecture setup
 62 * @banner:			print a platform specific banner
 63 */
 64struct x86_init_oem {
 65	void (*arch_setup)(void);
 66	void (*banner)(void);
 67};
 68
 69/**
 70 * struct x86_init_paging - platform specific paging functions
 71 * @pagetable_init:	platform specific paging initialization call to setup
 72 *			the kernel pagetables and prepare accessors functions.
 73 *			Callback must call paging_init(). Called once after the
 74 *			direct mapping for phys memory is available.
 75 */
 76struct x86_init_paging {
 77	void (*pagetable_init)(void);
 78};
 79
 80/**
 81 * struct x86_init_timers - platform specific timer setup
 82 * @setup_perpcu_clockev:	set up the per cpu clock event device for the
 83 *				boot cpu
 84 * @timer_init:			initialize the platform timer (default PIT/HPET)
 85 * @wallclock_init:		init the wallclock device
 86 */
 87struct x86_init_timers {
 88	void (*setup_percpu_clockev)(void);
 89	void (*timer_init)(void);
 90	void (*wallclock_init)(void);
 91};
 92
 93/**
 94 * struct x86_init_iommu - platform specific iommu setup
 95 * @iommu_init:			platform specific iommu setup
 96 */
 97struct x86_init_iommu {
 98	int (*iommu_init)(void);
 99};
100
101/**
102 * struct x86_init_pci - platform specific pci init functions
103 * @arch_init:			platform specific pci arch init call
104 * @init:			platform specific pci subsystem init
105 * @init_irq:			platform specific pci irq init
106 * @fixup_irqs:			platform specific pci irq fixup
107 */
108struct x86_init_pci {
109	int (*arch_init)(void);
110	int (*init)(void);
111	void (*init_irq)(void);
112	void (*fixup_irqs)(void);
113};
114
115/**
116 * struct x86_hyper_init - x86 hypervisor init functions
117 * @init_platform:		platform setup
118 * @guest_late_init:		guest late init
119 * @x2apic_available:		X2APIC detection
120 * @msi_ext_dest_id:		MSI supports 15-bit APIC IDs
121 * @init_mem_mapping:		setup early mappings during init_mem_mapping()
122 * @init_after_bootmem:		guest init after boot allocator is finished
123 */
124struct x86_hyper_init {
125	void (*init_platform)(void);
126	void (*guest_late_init)(void);
127	bool (*x2apic_available)(void);
128	bool (*msi_ext_dest_id)(void);
129	void (*init_mem_mapping)(void);
130	void (*init_after_bootmem)(void);
131};
132
133/**
134 * struct x86_init_acpi - x86 ACPI init functions
135 * @set_root_poitner:		set RSDP address
136 * @get_root_pointer:		get RSDP address
137 * @reduced_hw_early_init:	hardware reduced platform early init
138 */
139struct x86_init_acpi {
140	void (*set_root_pointer)(u64 addr);
141	u64 (*get_root_pointer)(void);
142	void (*reduced_hw_early_init)(void);
143};
144
145/**
146 * struct x86_guest - Functions used by misc guest incarnations like SEV, TDX, etc.
147 *
148 * @enc_status_change_prepare	Notify HV before the encryption status of a range is changed
149 * @enc_status_change_finish	Notify HV after the encryption status of a range is changed
150 * @enc_tlb_flush_required	Returns true if a TLB flush is needed before changing page encryption status
151 * @enc_cache_flush_required	Returns true if a cache flush is needed before changing page encryption status
152 * @enc_kexec_begin		Begin the two-step process of converting shared memory back
153 *				to private. It stops the new conversions from being started
154 *				and waits in-flight conversions to finish, if possible.
155 * @enc_kexec_finish		Finish the two-step process of converting shared memory to
156 *				private. All memory is private after the call when
157 *				the function returns.
158 *				It is called on only one CPU while the others are shut down
159 *				and with interrupts disabled.
160 */
161struct x86_guest {
162	int (*enc_status_change_prepare)(unsigned long vaddr, int npages, bool enc);
163	int (*enc_status_change_finish)(unsigned long vaddr, int npages, bool enc);
164	bool (*enc_tlb_flush_required)(bool enc);
165	bool (*enc_cache_flush_required)(void);
166	void (*enc_kexec_begin)(void);
167	void (*enc_kexec_finish)(void);
168};
169
170/**
171 * struct x86_init_ops - functions for platform specific setup
172 *
173 */
174struct x86_init_ops {
175	struct x86_init_resources	resources;
176	struct x86_init_mpparse		mpparse;
177	struct x86_init_irqs		irqs;
178	struct x86_init_oem		oem;
179	struct x86_init_paging		paging;
180	struct x86_init_timers		timers;
181	struct x86_init_iommu		iommu;
182	struct x86_init_pci		pci;
183	struct x86_hyper_init		hyper;
184	struct x86_init_acpi		acpi;
185};
186
187/**
188 * struct x86_cpuinit_ops - platform specific cpu hotplug setups
189 * @setup_percpu_clockev:	set up the per cpu clock event device
190 * @early_percpu_clock_init:	early init of the per cpu clock event device
191 * @fixup_cpu_id:		fixup function for cpuinfo_x86::topo.pkg_id
192 * @parallel_bringup:		Parallel bringup control
193 */
194struct x86_cpuinit_ops {
195	void (*setup_percpu_clockev)(void);
196	void (*early_percpu_clock_init)(void);
197	void (*fixup_cpu_id)(struct cpuinfo_x86 *c, int node);
198	bool parallel_bringup;
199};
200
201struct timespec64;
202
203/**
204 * struct x86_legacy_devices - legacy x86 devices
205 *
206 * @pnpbios: this platform can have a PNPBIOS. If this is disabled the platform
207 * 	is known to never have a PNPBIOS.
208 *
209 * These are devices known to require LPC or ISA bus. The definition of legacy
210 * devices adheres to the ACPI 5.2.9.3 IA-PC Boot Architecture flag
211 * ACPI_FADT_LEGACY_DEVICES. These devices consist of user visible devices on
212 * the LPC or ISA bus. User visible devices are devices that have end-user
213 * accessible connectors (for example, LPT parallel port). Legacy devices on
214 * the LPC bus consist for example of serial and parallel ports, PS/2 keyboard
215 * / mouse, and the floppy disk controller. A system that lacks all known
216 * legacy devices can assume all devices can be detected exclusively via
217 * standard device enumeration mechanisms including the ACPI namespace.
218 *
219 * A system which has does not have ACPI_FADT_LEGACY_DEVICES enabled must not
220 * have any of the legacy devices enumerated below present.
221 */
222struct x86_legacy_devices {
223	int pnpbios;
224};
225
226/**
227 * enum x86_legacy_i8042_state - i8042 keyboard controller state
228 * @X86_LEGACY_I8042_PLATFORM_ABSENT: the controller is always absent on
229 *	given platform/subarch.
230 * @X86_LEGACY_I8042_FIRMWARE_ABSENT: firmware reports that the controller
231 *	is absent.
232 * @X86_LEGACY_i8042_EXPECTED_PRESENT: the controller is likely to be
233 *	present, the i8042 driver should probe for controller existence.
234 */
235enum x86_legacy_i8042_state {
236	X86_LEGACY_I8042_PLATFORM_ABSENT,
237	X86_LEGACY_I8042_FIRMWARE_ABSENT,
238	X86_LEGACY_I8042_EXPECTED_PRESENT,
239};
240
241/**
242 * struct x86_legacy_features - legacy x86 features
243 *
244 * @i8042: indicated if we expect the device to have i8042 controller
245 *	present.
246 * @rtc: this device has a CMOS real-time clock present
247 * @reserve_bios_regions: boot code will search for the EBDA address and the
248 * 	start of the 640k - 1M BIOS region.  If false, the platform must
249 * 	ensure that its memory map correctly reserves sub-1MB regions as needed.
250 * @devices: legacy x86 devices, refer to struct x86_legacy_devices
251 * 	documentation for further details.
252 */
253struct x86_legacy_features {
254	enum x86_legacy_i8042_state i8042;
255	int rtc;
256	int warm_reset;
257	int no_vga;
258	int reserve_bios_regions;
259	struct x86_legacy_devices devices;
260};
261
262/**
263 * struct x86_hyper_runtime - x86 hypervisor specific runtime callbacks
264 *
265 * @pin_vcpu:			pin current vcpu to specified physical
266 *				cpu (run rarely)
267 * @sev_es_hcall_prepare:	Load additional hypervisor-specific
268 *				state into the GHCB when doing a VMMCALL under
269 *				SEV-ES. Called from the #VC exception handler.
270 * @sev_es_hcall_finish:	Copies state from the GHCB back into the
271 *				processor (or pt_regs). Also runs checks on the
272 *				state returned from the hypervisor after a
273 *				VMMCALL under SEV-ES.  Needs to return 'false'
274 *				if the checks fail.  Called from the #VC
275 *				exception handler.
276 * @is_private_mmio:		For CoCo VMs, must map MMIO address as private.
277 *				Used when device is emulated by a paravisor
278 *				layer in the VM context.
279 */
280struct x86_hyper_runtime {
281	void (*pin_vcpu)(int cpu);
282	void (*sev_es_hcall_prepare)(struct ghcb *ghcb, struct pt_regs *regs);
283	bool (*sev_es_hcall_finish)(struct ghcb *ghcb, struct pt_regs *regs);
284	bool (*is_private_mmio)(u64 addr);
285};
286
287/**
288 * struct x86_platform_ops - platform specific runtime functions
289 * @calibrate_cpu:		calibrate CPU
290 * @calibrate_tsc:		calibrate TSC, if different from CPU
291 * @get_wallclock:		get time from HW clock like RTC etc.
292 * @set_wallclock:		set time back to HW clock
293 * @is_untracked_pat_range	exclude from PAT logic
294 * @nmi_init			enable NMI on cpus
295 * @save_sched_clock_state:	save state for sched_clock() on suspend
296 * @restore_sched_clock_state:	restore state for sched_clock() on resume
297 * @apic_post_init:		adjust apic if needed
298 * @legacy:			legacy features
299 * @set_legacy_features:	override legacy features. Use of this callback
300 * 				is highly discouraged. You should only need
301 * 				this if your hardware platform requires further
302 * 				custom fine tuning far beyond what may be
303 * 				possible in x86_early_init_platform_quirks() by
304 * 				only using the current x86_hardware_subarch
305 * 				semantics.
306 * @realmode_reserve:		reserve memory for realmode trampoline
307 * @realmode_init:		initialize realmode trampoline
308 * @hyper:			x86 hypervisor specific runtime callbacks
309 */
310struct x86_platform_ops {
311	unsigned long (*calibrate_cpu)(void);
312	unsigned long (*calibrate_tsc)(void);
313	void (*get_wallclock)(struct timespec64 *ts);
314	int (*set_wallclock)(const struct timespec64 *ts);
315	void (*iommu_shutdown)(void);
316	bool (*is_untracked_pat_range)(u64 start, u64 end);
317	void (*nmi_init)(void);
318	unsigned char (*get_nmi_reason)(void);
319	void (*save_sched_clock_state)(void);
320	void (*restore_sched_clock_state)(void);
321	void (*apic_post_init)(void);
322	struct x86_legacy_features legacy;
323	void (*set_legacy_features)(void);
324	void (*realmode_reserve)(void);
325	void (*realmode_init)(void);
326	struct x86_hyper_runtime hyper;
327	struct x86_guest guest;
328};
329
330struct x86_apic_ops {
331	unsigned int	(*io_apic_read)   (unsigned int apic, unsigned int reg);
332	void		(*restore)(void);
333};
334
335extern struct x86_init_ops x86_init;
336extern struct x86_cpuinit_ops x86_cpuinit;
337extern struct x86_platform_ops x86_platform;
338extern struct x86_msi_ops x86_msi;
339extern struct x86_apic_ops x86_apic_ops;
340
341extern void x86_early_init_platform_quirks(void);
342extern void x86_init_noop(void);
343extern void x86_init_uint_noop(unsigned int unused);
344extern bool bool_x86_init_noop(void);
345extern void x86_op_int_noop(int cpu);
346extern bool x86_pnpbios_disabled(void);
347extern int set_rtc_noop(const struct timespec64 *now);
348extern void get_rtc_noop(struct timespec64 *now);
349
350#endif