1 /******************************************************************************
2 * arch-x86/mca.h
3 * Guest OS machine check interface to x86 Xen.
4 *
5 * Contributed by Advanced Micro Devices, Inc.
6 * Author: Christoph Egger <Christoph.Egger@amd.com>
7 *
8 * Updated by Intel Corporation
9 * Author: Liu, Jinsong <jinsong.liu@intel.com>
10 *
11 * Permission is hereby granted, free of charge, to any person obtaining a copy
12 * of this software and associated documentation files (the "Software"), to
13 * deal in the Software without restriction, including without limitation the
14 * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
15 * sell copies of the Software, and to permit persons to whom the Software is
16 * furnished to do so, subject to the following conditions:
17 *
18 * The above copyright notice and this permission notice shall be included in
19 * all copies or substantial portions of the Software.
20 *
21 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
22 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
23 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
24 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
25 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
26 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
27 * DEALINGS IN THE SOFTWARE.
28 */
29
30 #ifndef __XEN_PUBLIC_ARCH_X86_MCA_H__
31 #define __XEN_PUBLIC_ARCH_X86_MCA_H__
32
33 /* Hypercall */
34 #define __HYPERVISOR_mca __HYPERVISOR_arch_0
35
36 #define XEN_MCA_INTERFACE_VERSION 0x01ecc003
37
38 /* IN: Dom0 calls hypercall to retrieve nonurgent error log entry */
39 #define XEN_MC_NONURGENT 0x1
40 /* IN: Dom0 calls hypercall to retrieve urgent error log entry */
41 #define XEN_MC_URGENT 0x2
42 /* IN: Dom0 acknowledges previosly-fetched error log entry */
43 #define XEN_MC_ACK 0x4
44
45 /* OUT: All is ok */
46 #define XEN_MC_OK 0x0
47 /* OUT: Domain could not fetch data. */
48 #define XEN_MC_FETCHFAILED 0x1
49 /* OUT: There was no machine check data to fetch. */
50 #define XEN_MC_NODATA 0x2
51
52 #ifndef __ASSEMBLY__
53 /* vIRQ injected to Dom0 */
54 #define VIRQ_MCA VIRQ_ARCH_0
55
56 /*
57 * mc_info entry types
58 * mca machine check info are recorded in mc_info entries.
59 * when fetch mca info, it can use MC_TYPE_... to distinguish
60 * different mca info.
61 */
62 #define MC_TYPE_GLOBAL 0
63 #define MC_TYPE_BANK 1
64 #define MC_TYPE_EXTENDED 2
65 #define MC_TYPE_RECOVERY 3
66
67 struct mcinfo_common {
68 uint16_t type; /* structure type */
69 uint16_t size; /* size of this struct in bytes */
70 };
71
72 #define MC_FLAG_CORRECTABLE (1 << 0)
73 #define MC_FLAG_UNCORRECTABLE (1 << 1)
74 #define MC_FLAG_RECOVERABLE (1 << 2)
75 #define MC_FLAG_POLLED (1 << 3)
76 #define MC_FLAG_RESET (1 << 4)
77 #define MC_FLAG_CMCI (1 << 5)
78 #define MC_FLAG_MCE (1 << 6)
79
80 /* contains x86 global mc information */
81 struct mcinfo_global {
82 struct mcinfo_common common;
83
84 uint16_t mc_domid; /* running domain at the time in error */
85 uint16_t mc_vcpuid; /* virtual cpu scheduled for mc_domid */
86 uint32_t mc_socketid; /* physical socket of the physical core */
87 uint16_t mc_coreid; /* physical impacted core */
88 uint16_t mc_core_threadid; /* core thread of physical core */
89 uint32_t mc_apicid;
90 uint32_t mc_flags;
91 uint64_t mc_gstatus; /* global status */
92 };
93
94 /* contains x86 bank mc information */
95 struct mcinfo_bank {
96 struct mcinfo_common common;
97
98 uint16_t mc_bank; /* bank nr */
99 uint16_t mc_domid; /* domain referenced by mc_addr if valid */
100 uint64_t mc_status; /* bank status */
101 uint64_t mc_addr; /* bank address */
102 uint64_t mc_misc;
103 uint64_t mc_ctrl2;
104 uint64_t mc_tsc;
105 };
106
107 struct mcinfo_msr {
108 uint64_t reg; /* MSR */
109 uint64_t value; /* MSR value */
110 };
111
112 /* contains mc information from other or additional mc MSRs */
113 struct mcinfo_extended {
114 struct mcinfo_common common;
115 uint32_t mc_msrs; /* Number of msr with valid values. */
116 /*
117 * Currently Intel extended MSR (32/64) include all gp registers
118 * and E(R)FLAGS, E(R)IP, E(R)MISC, up to 11/19 of them might be
119 * useful at present. So expand this array to 16/32 to leave room.
120 */
121 struct mcinfo_msr mc_msr[sizeof(void *) * 4];
122 };
123
124 /* Recovery Action flags. Giving recovery result information to DOM0 */
125
126 /* Xen takes successful recovery action, the error is recovered */
127 #define REC_ACTION_RECOVERED (0x1 << 0)
128 /* No action is performed by XEN */
129 #define REC_ACTION_NONE (0x1 << 1)
130 /* It's possible DOM0 might take action ownership in some case */
131 #define REC_ACTION_NEED_RESET (0x1 << 2)
132
133 /*
134 * Different Recovery Action types, if the action is performed successfully,
135 * REC_ACTION_RECOVERED flag will be returned.
136 */
137
138 /* Page Offline Action */
139 #define MC_ACTION_PAGE_OFFLINE (0x1 << 0)
140 /* CPU offline Action */
141 #define MC_ACTION_CPU_OFFLINE (0x1 << 1)
142 /* L3 cache disable Action */
143 #define MC_ACTION_CACHE_SHRINK (0x1 << 2)
144
145 /*
146 * Below interface used between XEN/DOM0 for passing XEN's recovery action
147 * information to DOM0.
148 */
149 struct page_offline_action {
150 /* Params for passing the offlined page number to DOM0 */
151 uint64_t mfn;
152 uint64_t status;
153 };
154
155 struct cpu_offline_action {
156 /* Params for passing the identity of the offlined CPU to DOM0 */
157 uint32_t mc_socketid;
158 uint16_t mc_coreid;
159 uint16_t mc_core_threadid;
160 };
161
162 #define MAX_UNION_SIZE 16
163 struct mcinfo_recovery {
164 struct mcinfo_common common;
165 uint16_t mc_bank; /* bank nr */
166 uint8_t action_flags;
167 uint8_t action_types;
168 union {
169 struct page_offline_action page_retire;
170 struct cpu_offline_action cpu_offline;
171 uint8_t pad[MAX_UNION_SIZE];
172 } action_info;
173 };
174
175
176 #define MCINFO_MAXSIZE 768
177 struct mc_info {
178 /* Number of mcinfo_* entries in mi_data */
179 uint32_t mi_nentries;
180 uint32_t flags;
181 uint64_t mi_data[(MCINFO_MAXSIZE - 1) / 8];
182 };
183 DEFINE_GUEST_HANDLE_STRUCT(mc_info);
184
185 #define __MC_MSR_ARRAYSIZE 8
186 #define __MC_MSR_MCGCAP 0
187 #define __MC_NMSRS 1
188 #define MC_NCAPS 7
189 struct mcinfo_logical_cpu {
190 uint32_t mc_cpunr;
191 uint32_t mc_chipid;
192 uint16_t mc_coreid;
193 uint16_t mc_threadid;
194 uint32_t mc_apicid;
195 uint32_t mc_clusterid;
196 uint32_t mc_ncores;
197 uint32_t mc_ncores_active;
198 uint32_t mc_nthreads;
199 uint32_t mc_cpuid_level;
200 uint32_t mc_family;
201 uint32_t mc_vendor;
202 uint32_t mc_model;
203 uint32_t mc_step;
204 char mc_vendorid[16];
205 char mc_brandid[64];
206 uint32_t mc_cpu_caps[MC_NCAPS];
207 uint32_t mc_cache_size;
208 uint32_t mc_cache_alignment;
209 uint32_t mc_nmsrvals;
210 struct mcinfo_msr mc_msrvalues[__MC_MSR_ARRAYSIZE];
211 };
212 DEFINE_GUEST_HANDLE_STRUCT(mcinfo_logical_cpu);
213
214 /*
215 * Prototype:
216 * uint32_t x86_mcinfo_nentries(struct mc_info *mi);
217 */
218 #define x86_mcinfo_nentries(_mi) \
219 ((_mi)->mi_nentries)
220 /*
221 * Prototype:
222 * struct mcinfo_common *x86_mcinfo_first(struct mc_info *mi);
223 */
224 #define x86_mcinfo_first(_mi) \
225 ((struct mcinfo_common *)(_mi)->mi_data)
226 /*
227 * Prototype:
228 * struct mcinfo_common *x86_mcinfo_next(struct mcinfo_common *mic);
229 */
230 #define x86_mcinfo_next(_mic) \
231 ((struct mcinfo_common *)((uint8_t *)(_mic) + (_mic)->size))
232
233 /*
234 * Prototype:
235 * void x86_mcinfo_lookup(void *ret, struct mc_info *mi, uint16_t type);
236 */
x86_mcinfo_lookup(struct mcinfo_common ** ret,struct mc_info * mi,uint16_t type)237 static inline void x86_mcinfo_lookup(struct mcinfo_common **ret,
238 struct mc_info *mi, uint16_t type)
239 {
240 uint32_t i;
241 struct mcinfo_common *mic;
242 bool found = 0;
243
244 if (!ret || !mi)
245 return;
246
247 mic = x86_mcinfo_first(mi);
248 for (i = 0; i < x86_mcinfo_nentries(mi); i++) {
249 if (mic->type == type) {
250 found = 1;
251 break;
252 }
253 mic = x86_mcinfo_next(mic);
254 }
255
256 *ret = found ? mic : NULL;
257 }
258
259 /*
260 * Fetch machine check data from hypervisor.
261 */
262 #define XEN_MC_fetch 1
263 struct xen_mc_fetch {
264 /*
265 * IN: XEN_MC_NONURGENT, XEN_MC_URGENT,
266 * XEN_MC_ACK if ack'king an earlier fetch
267 * OUT: XEN_MC_OK, XEN_MC_FETCHAILED, XEN_MC_NODATA
268 */
269 uint32_t flags;
270 uint32_t _pad0;
271 /* OUT: id for ack, IN: id we are ack'ing */
272 uint64_t fetch_id;
273
274 /* OUT variables. */
275 GUEST_HANDLE(mc_info) data;
276 };
277 DEFINE_GUEST_HANDLE_STRUCT(xen_mc_fetch);
278
279
280 /*
281 * This tells the hypervisor to notify a DomU about the machine check error
282 */
283 #define XEN_MC_notifydomain 2
284 struct xen_mc_notifydomain {
285 /* IN variables */
286 uint16_t mc_domid; /* The unprivileged domain to notify */
287 uint16_t mc_vcpuid; /* The vcpu in mc_domid to notify */
288
289 /* IN/OUT variables */
290 uint32_t flags;
291 };
292 DEFINE_GUEST_HANDLE_STRUCT(xen_mc_notifydomain);
293
294 #define XEN_MC_physcpuinfo 3
295 struct xen_mc_physcpuinfo {
296 /* IN/OUT */
297 uint32_t ncpus;
298 uint32_t _pad0;
299 /* OUT */
300 GUEST_HANDLE(mcinfo_logical_cpu) info;
301 };
302
303 #define XEN_MC_msrinject 4
304 #define MC_MSRINJ_MAXMSRS 8
305 struct xen_mc_msrinject {
306 /* IN */
307 uint32_t mcinj_cpunr; /* target processor id */
308 uint32_t mcinj_flags; /* see MC_MSRINJ_F_* below */
309 uint32_t mcinj_count; /* 0 .. count-1 in array are valid */
310 uint32_t _pad0;
311 struct mcinfo_msr mcinj_msr[MC_MSRINJ_MAXMSRS];
312 };
313
314 /* Flags for mcinj_flags above; bits 16-31 are reserved */
315 #define MC_MSRINJ_F_INTERPOSE 0x1
316
317 #define XEN_MC_mceinject 5
318 struct xen_mc_mceinject {
319 unsigned int mceinj_cpunr; /* target processor id */
320 };
321
322 struct xen_mc {
323 uint32_t cmd;
324 uint32_t interface_version; /* XEN_MCA_INTERFACE_VERSION */
325 union {
326 struct xen_mc_fetch mc_fetch;
327 struct xen_mc_notifydomain mc_notifydomain;
328 struct xen_mc_physcpuinfo mc_physcpuinfo;
329 struct xen_mc_msrinject mc_msrinject;
330 struct xen_mc_mceinject mc_mceinject;
331 } u;
332 };
333 DEFINE_GUEST_HANDLE_STRUCT(xen_mc);
334
335 /* Fields are zero when not available */
336 struct xen_mce {
337 __u64 status;
338 __u64 misc;
339 __u64 addr;
340 __u64 mcgstatus;
341 __u64 ip;
342 __u64 tsc; /* cpu time stamp counter */
343 __u64 time; /* wall time_t when error was detected */
344 __u8 cpuvendor; /* cpu vendor as encoded in system.h */
345 __u8 inject_flags; /* software inject flags */
346 __u16 pad;
347 __u32 cpuid; /* CPUID 1 EAX */
348 __u8 cs; /* code segment */
349 __u8 bank; /* machine check bank */
350 __u8 cpu; /* cpu number; obsolete; use extcpu now */
351 __u8 finished; /* entry is valid */
352 __u32 extcpu; /* linux cpu number that detected the error */
353 __u32 socketid; /* CPU socket ID */
354 __u32 apicid; /* CPU initial apic ID */
355 __u64 mcgcap; /* MCGCAP MSR: machine check capabilities of CPU */
356 };
357
358 /*
359 * This structure contains all data related to the MCE log. Also
360 * carries a signature to make it easier to find from external
361 * debugging tools. Each entry is only valid when its finished flag
362 * is set.
363 */
364
365 #define XEN_MCE_LOG_LEN 32
366
367 struct xen_mce_log {
368 char signature[12]; /* "MACHINECHECK" */
369 unsigned len; /* = XEN_MCE_LOG_LEN */
370 unsigned next;
371 unsigned flags;
372 unsigned recordlen; /* length of struct xen_mce */
373 struct xen_mce entry[XEN_MCE_LOG_LEN];
374 };
375
376 #define XEN_MCE_OVERFLOW 0 /* bit 0 in flags means overflow */
377
378 #define XEN_MCE_LOG_SIGNATURE "MACHINECHECK"
379
380 #define MCE_GET_RECORD_LEN _IOR('M', 1, int)
381 #define MCE_GET_LOG_LEN _IOR('M', 2, int)
382 #define MCE_GETCLEAR_FLAGS _IOR('M', 3, int)
383
384 #endif /* __ASSEMBLY__ */
385 #endif /* __XEN_PUBLIC_ARCH_X86_MCA_H__ */
386