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1/* SPDX-License-Identifier: MIT */
2/******************************************************************************
3 * platform.h
4 *
5 * Hardware platform operations. Intended for use by domain-0 kernel.
6 *
7 * Copyright (c) 2002-2006, K Fraser
8 */
9
10#ifndef __XEN_PUBLIC_PLATFORM_H__
11#define __XEN_PUBLIC_PLATFORM_H__
12
13#include <xen/interface/xen.h>
14
15#define XENPF_INTERFACE_VERSION 0x03000001
16
17/*
18 * Set clock such that it would read <secs,nsecs> after 00:00:00 UTC,
19 * 1 January, 1970 if the current system time was <system_time>.
20 */
21#define XENPF_settime32 17
22struct xenpf_settime32 {
23 /* IN variables. */
24 uint32_t secs;
25 uint32_t nsecs;
26 uint64_t system_time;
27};
28DEFINE_GUEST_HANDLE_STRUCT(xenpf_settime32_t);
29#define XENPF_settime64 62
30struct xenpf_settime64 {
31 /* IN variables. */
32 uint64_t secs;
33 uint32_t nsecs;
34 uint32_t mbz;
35 uint64_t system_time;
36};
37DEFINE_GUEST_HANDLE_STRUCT(xenpf_settime64_t);
38
39/*
40 * Request memory range (@mfn, @mfn+@nr_mfns-1) to have type @type.
41 * On x86, @type is an architecture-defined MTRR memory type.
42 * On success, returns the MTRR that was used (@reg) and a handle that can
43 * be passed to XENPF_DEL_MEMTYPE to accurately tear down the new setting.
44 * (x86-specific).
45 */
46#define XENPF_add_memtype 31
47struct xenpf_add_memtype {
48 /* IN variables. */
49 xen_pfn_t mfn;
50 uint64_t nr_mfns;
51 uint32_t type;
52 /* OUT variables. */
53 uint32_t handle;
54 uint32_t reg;
55};
56DEFINE_GUEST_HANDLE_STRUCT(xenpf_add_memtype_t);
57
58/*
59 * Tear down an existing memory-range type. If @handle is remembered then it
60 * should be passed in to accurately tear down the correct setting (in case
61 * of overlapping memory regions with differing types). If it is not known
62 * then @handle should be set to zero. In all cases @reg must be set.
63 * (x86-specific).
64 */
65#define XENPF_del_memtype 32
66struct xenpf_del_memtype {
67 /* IN variables. */
68 uint32_t handle;
69 uint32_t reg;
70};
71DEFINE_GUEST_HANDLE_STRUCT(xenpf_del_memtype_t);
72
73/* Read current type of an MTRR (x86-specific). */
74#define XENPF_read_memtype 33
75struct xenpf_read_memtype {
76 /* IN variables. */
77 uint32_t reg;
78 /* OUT variables. */
79 xen_pfn_t mfn;
80 uint64_t nr_mfns;
81 uint32_t type;
82};
83DEFINE_GUEST_HANDLE_STRUCT(xenpf_read_memtype_t);
84
85#define XENPF_microcode_update 35
86struct xenpf_microcode_update {
87 /* IN variables. */
88 GUEST_HANDLE(void) data; /* Pointer to microcode data */
89 uint32_t length; /* Length of microcode data. */
90};
91DEFINE_GUEST_HANDLE_STRUCT(xenpf_microcode_update_t);
92
93#define XENPF_platform_quirk 39
94#define QUIRK_NOIRQBALANCING 1 /* Do not restrict IO-APIC RTE targets */
95#define QUIRK_IOAPIC_BAD_REGSEL 2 /* IO-APIC REGSEL forgets its value */
96#define QUIRK_IOAPIC_GOOD_REGSEL 3 /* IO-APIC REGSEL behaves properly */
97struct xenpf_platform_quirk {
98 /* IN variables. */
99 uint32_t quirk_id;
100};
101DEFINE_GUEST_HANDLE_STRUCT(xenpf_platform_quirk_t);
102
103#define XENPF_efi_runtime_call 49
104#define XEN_EFI_get_time 1
105#define XEN_EFI_set_time 2
106#define XEN_EFI_get_wakeup_time 3
107#define XEN_EFI_set_wakeup_time 4
108#define XEN_EFI_get_next_high_monotonic_count 5
109#define XEN_EFI_get_variable 6
110#define XEN_EFI_set_variable 7
111#define XEN_EFI_get_next_variable_name 8
112#define XEN_EFI_query_variable_info 9
113#define XEN_EFI_query_capsule_capabilities 10
114#define XEN_EFI_update_capsule 11
115
116struct xenpf_efi_runtime_call {
117 uint32_t function;
118 /*
119 * This field is generally used for per sub-function flags (defined
120 * below), except for the XEN_EFI_get_next_high_monotonic_count case,
121 * where it holds the single returned value.
122 */
123 uint32_t misc;
124 xen_ulong_t status;
125 union {
126#define XEN_EFI_GET_TIME_SET_CLEARS_NS 0x00000001
127 struct {
128 struct xenpf_efi_time {
129 uint16_t year;
130 uint8_t month;
131 uint8_t day;
132 uint8_t hour;
133 uint8_t min;
134 uint8_t sec;
135 uint32_t ns;
136 int16_t tz;
137 uint8_t daylight;
138 } time;
139 uint32_t resolution;
140 uint32_t accuracy;
141 } get_time;
142
143 struct xenpf_efi_time set_time;
144
145#define XEN_EFI_GET_WAKEUP_TIME_ENABLED 0x00000001
146#define XEN_EFI_GET_WAKEUP_TIME_PENDING 0x00000002
147 struct xenpf_efi_time get_wakeup_time;
148
149#define XEN_EFI_SET_WAKEUP_TIME_ENABLE 0x00000001
150#define XEN_EFI_SET_WAKEUP_TIME_ENABLE_ONLY 0x00000002
151 struct xenpf_efi_time set_wakeup_time;
152
153#define XEN_EFI_VARIABLE_NON_VOLATILE 0x00000001
154#define XEN_EFI_VARIABLE_BOOTSERVICE_ACCESS 0x00000002
155#define XEN_EFI_VARIABLE_RUNTIME_ACCESS 0x00000004
156 struct {
157 GUEST_HANDLE(void) name; /* UCS-2/UTF-16 string */
158 xen_ulong_t size;
159 GUEST_HANDLE(void) data;
160 struct xenpf_efi_guid {
161 uint32_t data1;
162 uint16_t data2;
163 uint16_t data3;
164 uint8_t data4[8];
165 } vendor_guid;
166 } get_variable, set_variable;
167
168 struct {
169 xen_ulong_t size;
170 GUEST_HANDLE(void) name; /* UCS-2/UTF-16 string */
171 struct xenpf_efi_guid vendor_guid;
172 } get_next_variable_name;
173
174 struct {
175 uint32_t attr;
176 uint64_t max_store_size;
177 uint64_t remain_store_size;
178 uint64_t max_size;
179 } query_variable_info;
180
181 struct {
182 GUEST_HANDLE(void) capsule_header_array;
183 xen_ulong_t capsule_count;
184 uint64_t max_capsule_size;
185 uint32_t reset_type;
186 } query_capsule_capabilities;
187
188 struct {
189 GUEST_HANDLE(void) capsule_header_array;
190 xen_ulong_t capsule_count;
191 uint64_t sg_list; /* machine address */
192 } update_capsule;
193 } u;
194};
195DEFINE_GUEST_HANDLE_STRUCT(xenpf_efi_runtime_call);
196
197#define XEN_FW_EFI_VERSION 0
198#define XEN_FW_EFI_CONFIG_TABLE 1
199#define XEN_FW_EFI_VENDOR 2
200#define XEN_FW_EFI_MEM_INFO 3
201#define XEN_FW_EFI_RT_VERSION 4
202
203#define XENPF_firmware_info 50
204#define XEN_FW_DISK_INFO 1 /* from int 13 AH=08/41/48 */
205#define XEN_FW_DISK_MBR_SIGNATURE 2 /* from MBR offset 0x1b8 */
206#define XEN_FW_VBEDDC_INFO 3 /* from int 10 AX=4f15 */
207#define XEN_FW_EFI_INFO 4 /* from EFI */
208#define XEN_FW_KBD_SHIFT_FLAGS 5 /* Int16, Fn02: Get keyboard shift flags. */
209
210struct xenpf_firmware_info {
211 /* IN variables. */
212 uint32_t type;
213 uint32_t index;
214 /* OUT variables. */
215 union {
216 struct {
217 /* Int13, Fn48: Check Extensions Present. */
218 uint8_t device; /* %dl: bios device number */
219 uint8_t version; /* %ah: major version */
220 uint16_t interface_support; /* %cx: support bitmap */
221 /* Int13, Fn08: Legacy Get Device Parameters. */
222 uint16_t legacy_max_cylinder; /* %cl[7:6]:%ch: max cyl # */
223 uint8_t legacy_max_head; /* %dh: max head # */
224 uint8_t legacy_sectors_per_track; /* %cl[5:0]: max sector # */
225 /* Int13, Fn41: Get Device Parameters (as filled into %ds:%esi). */
226 /* NB. First uint16_t of buffer must be set to buffer size. */
227 GUEST_HANDLE(void) edd_params;
228 } disk_info; /* XEN_FW_DISK_INFO */
229 struct {
230 uint8_t device; /* bios device number */
231 uint32_t mbr_signature; /* offset 0x1b8 in mbr */
232 } disk_mbr_signature; /* XEN_FW_DISK_MBR_SIGNATURE */
233 struct {
234 /* Int10, AX=4F15: Get EDID info. */
235 uint8_t capabilities;
236 uint8_t edid_transfer_time;
237 /* must refer to 128-byte buffer */
238 GUEST_HANDLE(uchar) edid;
239 } vbeddc_info; /* XEN_FW_VBEDDC_INFO */
240
241 union xenpf_efi_info {
242 uint32_t version;
243 struct {
244 uint64_t addr; /* EFI_CONFIGURATION_TABLE */
245 uint32_t nent;
246 } cfg;
247 struct {
248 uint32_t revision;
249 uint32_t bufsz; /* input, in bytes */
250 GUEST_HANDLE(void) name;
251 /* UCS-2/UTF-16 string */
252 } vendor;
253 struct {
254 uint64_t addr;
255 uint64_t size;
256 uint64_t attr;
257 uint32_t type;
258 } mem;
259 } efi_info; /* XEN_FW_EFI_INFO */
260
261 uint8_t kbd_shift_flags; /* XEN_FW_KBD_SHIFT_FLAGS */
262 } u;
263};
264DEFINE_GUEST_HANDLE_STRUCT(xenpf_firmware_info_t);
265
266#define XENPF_enter_acpi_sleep 51
267struct xenpf_enter_acpi_sleep {
268 /* IN variables */
269 uint16_t val_a; /* PM1a control / sleep type A. */
270 uint16_t val_b; /* PM1b control / sleep type B. */
271 uint32_t sleep_state; /* Which state to enter (Sn). */
272#define XENPF_ACPI_SLEEP_EXTENDED 0x00000001
273 uint32_t flags; /* XENPF_ACPI_SLEEP_*. */
274};
275DEFINE_GUEST_HANDLE_STRUCT(xenpf_enter_acpi_sleep_t);
276
277#define XENPF_change_freq 52
278struct xenpf_change_freq {
279 /* IN variables */
280 uint32_t flags; /* Must be zero. */
281 uint32_t cpu; /* Physical cpu. */
282 uint64_t freq; /* New frequency (Hz). */
283};
284DEFINE_GUEST_HANDLE_STRUCT(xenpf_change_freq_t);
285
286/*
287 * Get idle times (nanoseconds since boot) for physical CPUs specified in the
288 * @cpumap_bitmap with range [0..@cpumap_nr_cpus-1]. The @idletime array is
289 * indexed by CPU number; only entries with the corresponding @cpumap_bitmap
290 * bit set are written to. On return, @cpumap_bitmap is modified so that any
291 * non-existent CPUs are cleared. Such CPUs have their @idletime array entry
292 * cleared.
293 */
294#define XENPF_getidletime 53
295struct xenpf_getidletime {
296 /* IN/OUT variables */
297 /* IN: CPUs to interrogate; OUT: subset of IN which are present */
298 GUEST_HANDLE(uchar) cpumap_bitmap;
299 /* IN variables */
300 /* Size of cpumap bitmap. */
301 uint32_t cpumap_nr_cpus;
302 /* Must be indexable for every cpu in cpumap_bitmap. */
303 GUEST_HANDLE(uint64_t) idletime;
304 /* OUT variables */
305 /* System time when the idletime snapshots were taken. */
306 uint64_t now;
307};
308DEFINE_GUEST_HANDLE_STRUCT(xenpf_getidletime_t);
309
310#define XENPF_set_processor_pminfo 54
311
312/* ability bits */
313#define XEN_PROCESSOR_PM_CX 1
314#define XEN_PROCESSOR_PM_PX 2
315#define XEN_PROCESSOR_PM_TX 4
316
317/* cmd type */
318#define XEN_PM_CX 0
319#define XEN_PM_PX 1
320#define XEN_PM_TX 2
321#define XEN_PM_PDC 3
322/* Px sub info type */
323#define XEN_PX_PCT 1
324#define XEN_PX_PSS 2
325#define XEN_PX_PPC 4
326#define XEN_PX_PSD 8
327
328struct xen_power_register {
329 uint32_t space_id;
330 uint32_t bit_width;
331 uint32_t bit_offset;
332 uint32_t access_size;
333 uint64_t address;
334};
335
336struct xen_processor_csd {
337 uint32_t domain; /* domain number of one dependent group */
338 uint32_t coord_type; /* coordination type */
339 uint32_t num; /* number of processors in same domain */
340};
341DEFINE_GUEST_HANDLE_STRUCT(xen_processor_csd);
342
343struct xen_processor_cx {
344 struct xen_power_register reg; /* GAS for Cx trigger register */
345 uint8_t type; /* cstate value, c0: 0, c1: 1, ... */
346 uint32_t latency; /* worst latency (ms) to enter/exit this cstate */
347 uint32_t power; /* average power consumption(mW) */
348 uint32_t dpcnt; /* number of dependency entries */
349 GUEST_HANDLE(xen_processor_csd) dp; /* NULL if no dependency */
350};
351DEFINE_GUEST_HANDLE_STRUCT(xen_processor_cx);
352
353struct xen_processor_flags {
354 uint32_t bm_control:1;
355 uint32_t bm_check:1;
356 uint32_t has_cst:1;
357 uint32_t power_setup_done:1;
358 uint32_t bm_rld_set:1;
359};
360
361struct xen_processor_power {
362 uint32_t count; /* number of C state entries in array below */
363 struct xen_processor_flags flags; /* global flags of this processor */
364 GUEST_HANDLE(xen_processor_cx) states; /* supported c states */
365};
366
367struct xen_pct_register {
368 uint8_t descriptor;
369 uint16_t length;
370 uint8_t space_id;
371 uint8_t bit_width;
372 uint8_t bit_offset;
373 uint8_t reserved;
374 uint64_t address;
375};
376
377struct xen_processor_px {
378 uint64_t core_frequency; /* megahertz */
379 uint64_t power; /* milliWatts */
380 uint64_t transition_latency; /* microseconds */
381 uint64_t bus_master_latency; /* microseconds */
382 uint64_t control; /* control value */
383 uint64_t status; /* success indicator */
384};
385DEFINE_GUEST_HANDLE_STRUCT(xen_processor_px);
386
387struct xen_psd_package {
388 uint64_t num_entries;
389 uint64_t revision;
390 uint64_t domain;
391 uint64_t coord_type;
392 uint64_t num_processors;
393};
394
395struct xen_processor_performance {
396 uint32_t flags; /* flag for Px sub info type */
397 uint32_t platform_limit; /* Platform limitation on freq usage */
398 struct xen_pct_register control_register;
399 struct xen_pct_register status_register;
400 uint32_t state_count; /* total available performance states */
401 GUEST_HANDLE(xen_processor_px) states;
402 struct xen_psd_package domain_info;
403 uint32_t shared_type; /* coordination type of this processor */
404};
405DEFINE_GUEST_HANDLE_STRUCT(xen_processor_performance);
406
407struct xenpf_set_processor_pminfo {
408 /* IN variables */
409 uint32_t id; /* ACPI CPU ID */
410 uint32_t type; /* {XEN_PM_CX, XEN_PM_PX} */
411 union {
412 struct xen_processor_power power;/* Cx: _CST/_CSD */
413 struct xen_processor_performance perf; /* Px: _PPC/_PCT/_PSS/_PSD */
414 GUEST_HANDLE(uint32_t) pdc;
415 };
416};
417DEFINE_GUEST_HANDLE_STRUCT(xenpf_set_processor_pminfo);
418
419#define XENPF_get_cpuinfo 55
420struct xenpf_pcpuinfo {
421 /* IN */
422 uint32_t xen_cpuid;
423 /* OUT */
424 /* The maxium cpu_id that is present */
425 uint32_t max_present;
426#define XEN_PCPU_FLAGS_ONLINE 1
427 /* Correponding xen_cpuid is not present*/
428#define XEN_PCPU_FLAGS_INVALID 2
429 uint32_t flags;
430 uint32_t apic_id;
431 uint32_t acpi_id;
432};
433DEFINE_GUEST_HANDLE_STRUCT(xenpf_pcpuinfo);
434
435#define XENPF_cpu_online 56
436#define XENPF_cpu_offline 57
437struct xenpf_cpu_ol {
438 uint32_t cpuid;
439};
440DEFINE_GUEST_HANDLE_STRUCT(xenpf_cpu_ol);
441
442#define XENPF_cpu_hotadd 58
443struct xenpf_cpu_hotadd {
444 uint32_t apic_id;
445 uint32_t acpi_id;
446 uint32_t pxm;
447};
448
449#define XENPF_mem_hotadd 59
450struct xenpf_mem_hotadd {
451 uint64_t spfn;
452 uint64_t epfn;
453 uint32_t pxm;
454 uint32_t flags;
455};
456
457#define XENPF_core_parking 60
458struct xenpf_core_parking {
459 /* IN variables */
460#define XEN_CORE_PARKING_SET 1
461#define XEN_CORE_PARKING_GET 2
462 uint32_t type;
463 /* IN variables: set cpu nums expected to be idled */
464 /* OUT variables: get cpu nums actually be idled */
465 uint32_t idle_nums;
466};
467DEFINE_GUEST_HANDLE_STRUCT(xenpf_core_parking);
468
469#define XENPF_get_symbol 63
470struct xenpf_symdata {
471 /* IN/OUT variables */
472 uint32_t namelen; /* size of 'name' buffer */
473
474 /* IN/OUT variables */
475 uint32_t symnum; /* IN: Symbol to read */
476 /* OUT: Next available symbol. If same as IN */
477 /* then we reached the end */
478
479 /* OUT variables */
480 GUEST_HANDLE(char) name;
481 uint64_t address;
482 char type;
483};
484DEFINE_GUEST_HANDLE_STRUCT(xenpf_symdata);
485
486#define XENPF_get_dom0_console 64
487
488struct xen_platform_op {
489 uint32_t cmd;
490 uint32_t interface_version; /* XENPF_INTERFACE_VERSION */
491 union {
492 struct xenpf_settime32 settime32;
493 struct xenpf_settime64 settime64;
494 struct xenpf_add_memtype add_memtype;
495 struct xenpf_del_memtype del_memtype;
496 struct xenpf_read_memtype read_memtype;
497 struct xenpf_microcode_update microcode;
498 struct xenpf_platform_quirk platform_quirk;
499 struct xenpf_efi_runtime_call efi_runtime_call;
500 struct xenpf_firmware_info firmware_info;
501 struct xenpf_enter_acpi_sleep enter_acpi_sleep;
502 struct xenpf_change_freq change_freq;
503 struct xenpf_getidletime getidletime;
504 struct xenpf_set_processor_pminfo set_pminfo;
505 struct xenpf_pcpuinfo pcpu_info;
506 struct xenpf_cpu_ol cpu_ol;
507 struct xenpf_cpu_hotadd cpu_add;
508 struct xenpf_mem_hotadd mem_add;
509 struct xenpf_core_parking core_parking;
510 struct xenpf_symdata symdata;
511 struct dom0_vga_console_info dom0_console;
512 uint8_t pad[128];
513 } u;
514};
515DEFINE_GUEST_HANDLE_STRUCT(xen_platform_op_t);
516
517#endif /* __XEN_PUBLIC_PLATFORM_H__ */
1/******************************************************************************
2 * platform.h
3 *
4 * Hardware platform operations. Intended for use by domain-0 kernel.
5 *
6 * Permission is hereby granted, free of charge, to any person obtaining a copy
7 * of this software and associated documentation files (the "Software"), to
8 * deal in the Software without restriction, including without limitation the
9 * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
10 * sell copies of the Software, and to permit persons to whom the Software is
11 * furnished to do so, subject to the following conditions:
12 *
13 * The above copyright notice and this permission notice shall be included in
14 * all copies or substantial portions of the Software.
15 *
16 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
19 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
21 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
22 * DEALINGS IN THE SOFTWARE.
23 *
24 * Copyright (c) 2002-2006, K Fraser
25 */
26
27#ifndef __XEN_PUBLIC_PLATFORM_H__
28#define __XEN_PUBLIC_PLATFORM_H__
29
30#include <xen/interface/xen.h>
31
32#define XENPF_INTERFACE_VERSION 0x03000001
33
34/*
35 * Set clock such that it would read <secs,nsecs> after 00:00:00 UTC,
36 * 1 January, 1970 if the current system time was <system_time>.
37 */
38#define XENPF_settime32 17
39struct xenpf_settime32 {
40 /* IN variables. */
41 uint32_t secs;
42 uint32_t nsecs;
43 uint64_t system_time;
44};
45DEFINE_GUEST_HANDLE_STRUCT(xenpf_settime32_t);
46#define XENPF_settime64 62
47struct xenpf_settime64 {
48 /* IN variables. */
49 uint64_t secs;
50 uint32_t nsecs;
51 uint32_t mbz;
52 uint64_t system_time;
53};
54DEFINE_GUEST_HANDLE_STRUCT(xenpf_settime64_t);
55
56/*
57 * Request memory range (@mfn, @mfn+@nr_mfns-1) to have type @type.
58 * On x86, @type is an architecture-defined MTRR memory type.
59 * On success, returns the MTRR that was used (@reg) and a handle that can
60 * be passed to XENPF_DEL_MEMTYPE to accurately tear down the new setting.
61 * (x86-specific).
62 */
63#define XENPF_add_memtype 31
64struct xenpf_add_memtype {
65 /* IN variables. */
66 xen_pfn_t mfn;
67 uint64_t nr_mfns;
68 uint32_t type;
69 /* OUT variables. */
70 uint32_t handle;
71 uint32_t reg;
72};
73DEFINE_GUEST_HANDLE_STRUCT(xenpf_add_memtype_t);
74
75/*
76 * Tear down an existing memory-range type. If @handle is remembered then it
77 * should be passed in to accurately tear down the correct setting (in case
78 * of overlapping memory regions with differing types). If it is not known
79 * then @handle should be set to zero. In all cases @reg must be set.
80 * (x86-specific).
81 */
82#define XENPF_del_memtype 32
83struct xenpf_del_memtype {
84 /* IN variables. */
85 uint32_t handle;
86 uint32_t reg;
87};
88DEFINE_GUEST_HANDLE_STRUCT(xenpf_del_memtype_t);
89
90/* Read current type of an MTRR (x86-specific). */
91#define XENPF_read_memtype 33
92struct xenpf_read_memtype {
93 /* IN variables. */
94 uint32_t reg;
95 /* OUT variables. */
96 xen_pfn_t mfn;
97 uint64_t nr_mfns;
98 uint32_t type;
99};
100DEFINE_GUEST_HANDLE_STRUCT(xenpf_read_memtype_t);
101
102#define XENPF_microcode_update 35
103struct xenpf_microcode_update {
104 /* IN variables. */
105 GUEST_HANDLE(void) data; /* Pointer to microcode data */
106 uint32_t length; /* Length of microcode data. */
107};
108DEFINE_GUEST_HANDLE_STRUCT(xenpf_microcode_update_t);
109
110#define XENPF_platform_quirk 39
111#define QUIRK_NOIRQBALANCING 1 /* Do not restrict IO-APIC RTE targets */
112#define QUIRK_IOAPIC_BAD_REGSEL 2 /* IO-APIC REGSEL forgets its value */
113#define QUIRK_IOAPIC_GOOD_REGSEL 3 /* IO-APIC REGSEL behaves properly */
114struct xenpf_platform_quirk {
115 /* IN variables. */
116 uint32_t quirk_id;
117};
118DEFINE_GUEST_HANDLE_STRUCT(xenpf_platform_quirk_t);
119
120#define XENPF_efi_runtime_call 49
121#define XEN_EFI_get_time 1
122#define XEN_EFI_set_time 2
123#define XEN_EFI_get_wakeup_time 3
124#define XEN_EFI_set_wakeup_time 4
125#define XEN_EFI_get_next_high_monotonic_count 5
126#define XEN_EFI_get_variable 6
127#define XEN_EFI_set_variable 7
128#define XEN_EFI_get_next_variable_name 8
129#define XEN_EFI_query_variable_info 9
130#define XEN_EFI_query_capsule_capabilities 10
131#define XEN_EFI_update_capsule 11
132
133struct xenpf_efi_runtime_call {
134 uint32_t function;
135 /*
136 * This field is generally used for per sub-function flags (defined
137 * below), except for the XEN_EFI_get_next_high_monotonic_count case,
138 * where it holds the single returned value.
139 */
140 uint32_t misc;
141 xen_ulong_t status;
142 union {
143#define XEN_EFI_GET_TIME_SET_CLEARS_NS 0x00000001
144 struct {
145 struct xenpf_efi_time {
146 uint16_t year;
147 uint8_t month;
148 uint8_t day;
149 uint8_t hour;
150 uint8_t min;
151 uint8_t sec;
152 uint32_t ns;
153 int16_t tz;
154 uint8_t daylight;
155 } time;
156 uint32_t resolution;
157 uint32_t accuracy;
158 } get_time;
159
160 struct xenpf_efi_time set_time;
161
162#define XEN_EFI_GET_WAKEUP_TIME_ENABLED 0x00000001
163#define XEN_EFI_GET_WAKEUP_TIME_PENDING 0x00000002
164 struct xenpf_efi_time get_wakeup_time;
165
166#define XEN_EFI_SET_WAKEUP_TIME_ENABLE 0x00000001
167#define XEN_EFI_SET_WAKEUP_TIME_ENABLE_ONLY 0x00000002
168 struct xenpf_efi_time set_wakeup_time;
169
170#define XEN_EFI_VARIABLE_NON_VOLATILE 0x00000001
171#define XEN_EFI_VARIABLE_BOOTSERVICE_ACCESS 0x00000002
172#define XEN_EFI_VARIABLE_RUNTIME_ACCESS 0x00000004
173 struct {
174 GUEST_HANDLE(void) name; /* UCS-2/UTF-16 string */
175 xen_ulong_t size;
176 GUEST_HANDLE(void) data;
177 struct xenpf_efi_guid {
178 uint32_t data1;
179 uint16_t data2;
180 uint16_t data3;
181 uint8_t data4[8];
182 } vendor_guid;
183 } get_variable, set_variable;
184
185 struct {
186 xen_ulong_t size;
187 GUEST_HANDLE(void) name; /* UCS-2/UTF-16 string */
188 struct xenpf_efi_guid vendor_guid;
189 } get_next_variable_name;
190
191 struct {
192 uint32_t attr;
193 uint64_t max_store_size;
194 uint64_t remain_store_size;
195 uint64_t max_size;
196 } query_variable_info;
197
198 struct {
199 GUEST_HANDLE(void) capsule_header_array;
200 xen_ulong_t capsule_count;
201 uint64_t max_capsule_size;
202 uint32_t reset_type;
203 } query_capsule_capabilities;
204
205 struct {
206 GUEST_HANDLE(void) capsule_header_array;
207 xen_ulong_t capsule_count;
208 uint64_t sg_list; /* machine address */
209 } update_capsule;
210 } u;
211};
212DEFINE_GUEST_HANDLE_STRUCT(xenpf_efi_runtime_call);
213
214#define XEN_FW_EFI_VERSION 0
215#define XEN_FW_EFI_CONFIG_TABLE 1
216#define XEN_FW_EFI_VENDOR 2
217#define XEN_FW_EFI_MEM_INFO 3
218#define XEN_FW_EFI_RT_VERSION 4
219
220#define XENPF_firmware_info 50
221#define XEN_FW_DISK_INFO 1 /* from int 13 AH=08/41/48 */
222#define XEN_FW_DISK_MBR_SIGNATURE 2 /* from MBR offset 0x1b8 */
223#define XEN_FW_VBEDDC_INFO 3 /* from int 10 AX=4f15 */
224#define XEN_FW_EFI_INFO 4 /* from EFI */
225#define XEN_FW_KBD_SHIFT_FLAGS 5 /* Int16, Fn02: Get keyboard shift flags. */
226
227struct xenpf_firmware_info {
228 /* IN variables. */
229 uint32_t type;
230 uint32_t index;
231 /* OUT variables. */
232 union {
233 struct {
234 /* Int13, Fn48: Check Extensions Present. */
235 uint8_t device; /* %dl: bios device number */
236 uint8_t version; /* %ah: major version */
237 uint16_t interface_support; /* %cx: support bitmap */
238 /* Int13, Fn08: Legacy Get Device Parameters. */
239 uint16_t legacy_max_cylinder; /* %cl[7:6]:%ch: max cyl # */
240 uint8_t legacy_max_head; /* %dh: max head # */
241 uint8_t legacy_sectors_per_track; /* %cl[5:0]: max sector # */
242 /* Int13, Fn41: Get Device Parameters (as filled into %ds:%esi). */
243 /* NB. First uint16_t of buffer must be set to buffer size. */
244 GUEST_HANDLE(void) edd_params;
245 } disk_info; /* XEN_FW_DISK_INFO */
246 struct {
247 uint8_t device; /* bios device number */
248 uint32_t mbr_signature; /* offset 0x1b8 in mbr */
249 } disk_mbr_signature; /* XEN_FW_DISK_MBR_SIGNATURE */
250 struct {
251 /* Int10, AX=4F15: Get EDID info. */
252 uint8_t capabilities;
253 uint8_t edid_transfer_time;
254 /* must refer to 128-byte buffer */
255 GUEST_HANDLE(uchar) edid;
256 } vbeddc_info; /* XEN_FW_VBEDDC_INFO */
257
258 union xenpf_efi_info {
259 uint32_t version;
260 struct {
261 uint64_t addr; /* EFI_CONFIGURATION_TABLE */
262 uint32_t nent;
263 } cfg;
264 struct {
265 uint32_t revision;
266 uint32_t bufsz; /* input, in bytes */
267 GUEST_HANDLE(void) name;
268 /* UCS-2/UTF-16 string */
269 } vendor;
270 struct {
271 uint64_t addr;
272 uint64_t size;
273 uint64_t attr;
274 uint32_t type;
275 } mem;
276 } efi_info; /* XEN_FW_EFI_INFO */
277
278 uint8_t kbd_shift_flags; /* XEN_FW_KBD_SHIFT_FLAGS */
279 } u;
280};
281DEFINE_GUEST_HANDLE_STRUCT(xenpf_firmware_info_t);
282
283#define XENPF_enter_acpi_sleep 51
284struct xenpf_enter_acpi_sleep {
285 /* IN variables */
286 uint16_t val_a; /* PM1a control / sleep type A. */
287 uint16_t val_b; /* PM1b control / sleep type B. */
288 uint32_t sleep_state; /* Which state to enter (Sn). */
289#define XENPF_ACPI_SLEEP_EXTENDED 0x00000001
290 uint32_t flags; /* XENPF_ACPI_SLEEP_*. */
291};
292DEFINE_GUEST_HANDLE_STRUCT(xenpf_enter_acpi_sleep_t);
293
294#define XENPF_change_freq 52
295struct xenpf_change_freq {
296 /* IN variables */
297 uint32_t flags; /* Must be zero. */
298 uint32_t cpu; /* Physical cpu. */
299 uint64_t freq; /* New frequency (Hz). */
300};
301DEFINE_GUEST_HANDLE_STRUCT(xenpf_change_freq_t);
302
303/*
304 * Get idle times (nanoseconds since boot) for physical CPUs specified in the
305 * @cpumap_bitmap with range [0..@cpumap_nr_cpus-1]. The @idletime array is
306 * indexed by CPU number; only entries with the corresponding @cpumap_bitmap
307 * bit set are written to. On return, @cpumap_bitmap is modified so that any
308 * non-existent CPUs are cleared. Such CPUs have their @idletime array entry
309 * cleared.
310 */
311#define XENPF_getidletime 53
312struct xenpf_getidletime {
313 /* IN/OUT variables */
314 /* IN: CPUs to interrogate; OUT: subset of IN which are present */
315 GUEST_HANDLE(uchar) cpumap_bitmap;
316 /* IN variables */
317 /* Size of cpumap bitmap. */
318 uint32_t cpumap_nr_cpus;
319 /* Must be indexable for every cpu in cpumap_bitmap. */
320 GUEST_HANDLE(uint64_t) idletime;
321 /* OUT variables */
322 /* System time when the idletime snapshots were taken. */
323 uint64_t now;
324};
325DEFINE_GUEST_HANDLE_STRUCT(xenpf_getidletime_t);
326
327#define XENPF_set_processor_pminfo 54
328
329/* ability bits */
330#define XEN_PROCESSOR_PM_CX 1
331#define XEN_PROCESSOR_PM_PX 2
332#define XEN_PROCESSOR_PM_TX 4
333
334/* cmd type */
335#define XEN_PM_CX 0
336#define XEN_PM_PX 1
337#define XEN_PM_TX 2
338#define XEN_PM_PDC 3
339/* Px sub info type */
340#define XEN_PX_PCT 1
341#define XEN_PX_PSS 2
342#define XEN_PX_PPC 4
343#define XEN_PX_PSD 8
344
345struct xen_power_register {
346 uint32_t space_id;
347 uint32_t bit_width;
348 uint32_t bit_offset;
349 uint32_t access_size;
350 uint64_t address;
351};
352
353struct xen_processor_csd {
354 uint32_t domain; /* domain number of one dependent group */
355 uint32_t coord_type; /* coordination type */
356 uint32_t num; /* number of processors in same domain */
357};
358DEFINE_GUEST_HANDLE_STRUCT(xen_processor_csd);
359
360struct xen_processor_cx {
361 struct xen_power_register reg; /* GAS for Cx trigger register */
362 uint8_t type; /* cstate value, c0: 0, c1: 1, ... */
363 uint32_t latency; /* worst latency (ms) to enter/exit this cstate */
364 uint32_t power; /* average power consumption(mW) */
365 uint32_t dpcnt; /* number of dependency entries */
366 GUEST_HANDLE(xen_processor_csd) dp; /* NULL if no dependency */
367};
368DEFINE_GUEST_HANDLE_STRUCT(xen_processor_cx);
369
370struct xen_processor_flags {
371 uint32_t bm_control:1;
372 uint32_t bm_check:1;
373 uint32_t has_cst:1;
374 uint32_t power_setup_done:1;
375 uint32_t bm_rld_set:1;
376};
377
378struct xen_processor_power {
379 uint32_t count; /* number of C state entries in array below */
380 struct xen_processor_flags flags; /* global flags of this processor */
381 GUEST_HANDLE(xen_processor_cx) states; /* supported c states */
382};
383
384struct xen_pct_register {
385 uint8_t descriptor;
386 uint16_t length;
387 uint8_t space_id;
388 uint8_t bit_width;
389 uint8_t bit_offset;
390 uint8_t reserved;
391 uint64_t address;
392};
393
394struct xen_processor_px {
395 uint64_t core_frequency; /* megahertz */
396 uint64_t power; /* milliWatts */
397 uint64_t transition_latency; /* microseconds */
398 uint64_t bus_master_latency; /* microseconds */
399 uint64_t control; /* control value */
400 uint64_t status; /* success indicator */
401};
402DEFINE_GUEST_HANDLE_STRUCT(xen_processor_px);
403
404struct xen_psd_package {
405 uint64_t num_entries;
406 uint64_t revision;
407 uint64_t domain;
408 uint64_t coord_type;
409 uint64_t num_processors;
410};
411
412struct xen_processor_performance {
413 uint32_t flags; /* flag for Px sub info type */
414 uint32_t platform_limit; /* Platform limitation on freq usage */
415 struct xen_pct_register control_register;
416 struct xen_pct_register status_register;
417 uint32_t state_count; /* total available performance states */
418 GUEST_HANDLE(xen_processor_px) states;
419 struct xen_psd_package domain_info;
420 uint32_t shared_type; /* coordination type of this processor */
421};
422DEFINE_GUEST_HANDLE_STRUCT(xen_processor_performance);
423
424struct xenpf_set_processor_pminfo {
425 /* IN variables */
426 uint32_t id; /* ACPI CPU ID */
427 uint32_t type; /* {XEN_PM_CX, XEN_PM_PX} */
428 union {
429 struct xen_processor_power power;/* Cx: _CST/_CSD */
430 struct xen_processor_performance perf; /* Px: _PPC/_PCT/_PSS/_PSD */
431 GUEST_HANDLE(uint32_t) pdc;
432 };
433};
434DEFINE_GUEST_HANDLE_STRUCT(xenpf_set_processor_pminfo);
435
436#define XENPF_get_cpuinfo 55
437struct xenpf_pcpuinfo {
438 /* IN */
439 uint32_t xen_cpuid;
440 /* OUT */
441 /* The maxium cpu_id that is present */
442 uint32_t max_present;
443#define XEN_PCPU_FLAGS_ONLINE 1
444 /* Correponding xen_cpuid is not present*/
445#define XEN_PCPU_FLAGS_INVALID 2
446 uint32_t flags;
447 uint32_t apic_id;
448 uint32_t acpi_id;
449};
450DEFINE_GUEST_HANDLE_STRUCT(xenpf_pcpuinfo);
451
452#define XENPF_cpu_online 56
453#define XENPF_cpu_offline 57
454struct xenpf_cpu_ol {
455 uint32_t cpuid;
456};
457DEFINE_GUEST_HANDLE_STRUCT(xenpf_cpu_ol);
458
459#define XENPF_cpu_hotadd 58
460struct xenpf_cpu_hotadd {
461 uint32_t apic_id;
462 uint32_t acpi_id;
463 uint32_t pxm;
464};
465
466#define XENPF_mem_hotadd 59
467struct xenpf_mem_hotadd {
468 uint64_t spfn;
469 uint64_t epfn;
470 uint32_t pxm;
471 uint32_t flags;
472};
473
474#define XENPF_core_parking 60
475struct xenpf_core_parking {
476 /* IN variables */
477#define XEN_CORE_PARKING_SET 1
478#define XEN_CORE_PARKING_GET 2
479 uint32_t type;
480 /* IN variables: set cpu nums expected to be idled */
481 /* OUT variables: get cpu nums actually be idled */
482 uint32_t idle_nums;
483};
484DEFINE_GUEST_HANDLE_STRUCT(xenpf_core_parking);
485
486#define XENPF_get_symbol 63
487struct xenpf_symdata {
488 /* IN/OUT variables */
489 uint32_t namelen; /* size of 'name' buffer */
490
491 /* IN/OUT variables */
492 uint32_t symnum; /* IN: Symbol to read */
493 /* OUT: Next available symbol. If same as IN */
494 /* then we reached the end */
495
496 /* OUT variables */
497 GUEST_HANDLE(char) name;
498 uint64_t address;
499 char type;
500};
501DEFINE_GUEST_HANDLE_STRUCT(xenpf_symdata);
502
503struct xen_platform_op {
504 uint32_t cmd;
505 uint32_t interface_version; /* XENPF_INTERFACE_VERSION */
506 union {
507 struct xenpf_settime32 settime32;
508 struct xenpf_settime64 settime64;
509 struct xenpf_add_memtype add_memtype;
510 struct xenpf_del_memtype del_memtype;
511 struct xenpf_read_memtype read_memtype;
512 struct xenpf_microcode_update microcode;
513 struct xenpf_platform_quirk platform_quirk;
514 struct xenpf_efi_runtime_call efi_runtime_call;
515 struct xenpf_firmware_info firmware_info;
516 struct xenpf_enter_acpi_sleep enter_acpi_sleep;
517 struct xenpf_change_freq change_freq;
518 struct xenpf_getidletime getidletime;
519 struct xenpf_set_processor_pminfo set_pminfo;
520 struct xenpf_pcpuinfo pcpu_info;
521 struct xenpf_cpu_ol cpu_ol;
522 struct xenpf_cpu_hotadd cpu_add;
523 struct xenpf_mem_hotadd mem_add;
524 struct xenpf_core_parking core_parking;
525 struct xenpf_symdata symdata;
526 uint8_t pad[128];
527 } u;
528};
529DEFINE_GUEST_HANDLE_STRUCT(xen_platform_op_t);
530
531#endif /* __XEN_PUBLIC_PLATFORM_H__ */