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1 | /** @file\r | |
2 | GUID used to identify id for the caller who is initiating the Status Code.\r | |
3 | \r | |
4 | Copyright (c) 2006, Intel Corporation\r | |
5 | All rights reserved. This program and the accompanying materials\r | |
6 | are licensed and made available under the terms and conditions of the BSD License\r | |
7 | which accompanies this distribution. The full text of the license may be found at\r | |
8 | http://opensource.org/licenses/bsd-license.php\r | |
9 | \r | |
10 | THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,\r | |
11 | WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.\r | |
12 | \r | |
13 | @par Revision Reference:\r | |
14 | GUIDs defined in Status Codes Specification 0.92\r | |
15 | \r | |
16 | **/\r | |
17 | \r | |
18 | #ifndef __STATUS_CODE_DATA_TYPE_ID_GUID_H__\r | |
19 | #define __STATUS_CODE_DATA_TYPE_ID_GUID_H__\r | |
20 | \r | |
21 | #include <FrameworkDxe.h>\r | |
22 | #include <Protocol/DebugSupport.h>\r | |
23 | #include <Protocol/FrameworkHii.h>\r | |
24 | #include <Guid/DataHubRecords.h>\r | |
25 | \r | |
26 | //////////////////////////////////////////////////////////////////////////////////////////\r | |
27 | // String Data Type defintion. This is part of Status Code Specification\r | |
28 | //////////////////////////////////////////////////////////////////////////////////////////\r | |
29 | #define EFI_STATUS_CODE_DATA_TYPE_STRING_GUID \\r | |
30 | { 0x92D11080, 0x496F, 0x4D95, { 0xBE, 0x7E, 0x03, 0x74, 0x88, 0x38, 0x2B, 0x0A } }\r | |
31 | \r | |
32 | #pragma pack(1)\r | |
33 | \r | |
34 | typedef enum {\r | |
35 | EfiStringAscii, ///< A NULL-terminated ASCII string.\r | |
36 | EfiStringUnicode, ///< A double NULL-terminated Unicode string.\r | |
37 | EfiStringToken ///< An EFI_STATUS_CODE_STRING_TOKEN representing the string. \r | |
38 | ///< The actual string can be obtained by querying the HII Database.\r | |
39 | } EFI_STRING_TYPE;\r | |
40 | \r | |
41 | typedef struct {\r | |
42 | FRAMEWORK_EFI_HII_HANDLE Handle; ///< The HII handle of the string pack, which can be\r | |
43 | ///< used to retrieve the string. It is a dynamic value\r | |
44 | ///< that may not be the same for different boots.\r | |
45 | STRING_REF Token; ///< When combined with the HII handle, the string \r | |
46 | ///< token can be used to retrieve the string.\r | |
47 | \r | |
48 | } EFI_STATUS_CODE_STRING_TOKEN;\r | |
49 | \r | |
50 | typedef union {\r | |
51 | CHAR8 *Ascii; ///< ASCII formatted string.\r | |
52 | CHAR16 *Unicode; ///< Unicode formatted string.\r | |
53 | EFI_STATUS_CODE_STRING_TOKEN Hii; ///< HII handle/token pair.\r | |
54 | } EFI_STATUS_CODE_STRING;\r | |
55 | \r | |
56 | typedef struct {\r | |
57 | EFI_STATUS_CODE_DATA DataHeader; ///< The data header identifying the data.\r | |
58 | EFI_STRING_TYPE StringType; ///< Specifies if the string is ASCII or Unicode.\r | |
59 | EFI_STATUS_CODE_STRING String; ///< A pointer to a null-terminated ASCII or Unicode string.\r | |
60 | } EFI_STATUS_CODE_STRING_DATA;\r | |
61 | #pragma pack()\r | |
62 | \r | |
63 | extern EFI_GUID gEfiStatusCodeDataTypeStringGuid;\r | |
64 | \r | |
65 | \r | |
66 | //////////////////////////////////////////////////////////////////////////////////////////\r | |
67 | // Special Data Type defintion. This is part of Status Code Specification\r | |
68 | //////////////////////////////////////////////////////////////////////////////////////////\r | |
69 | #define EFI_STATUS_CODE_SPECIFIC_DATA_GUID \\r | |
70 | { 0x335984bd, 0xe805, 0x409a, { 0xb8, 0xf8, 0xd2, 0x7e, 0xce, 0x5f, 0xf7, 0xa6 } }\r | |
71 | \r | |
72 | #pragma pack(1)\r | |
73 | \r | |
74 | ///\r | |
75 | /// Device handle Extended Data. Used for many\r | |
76 | /// errors and progress codes to point to the device.\r | |
77 | ///\r | |
78 | typedef struct {\r | |
79 | EFI_STATUS_CODE_DATA DataHeader;\r | |
80 | EFI_HANDLE Handle;\r | |
81 | } EFI_DEVICE_HANDLE_EXTENDED_DATA;\r | |
82 | \r | |
83 | ///\r | |
84 | /// Extended data about the device path, which is used for many errors and \r | |
85 | /// progress codes to point to the device.\r | |
86 | ///\r | |
87 | typedef struct {\r | |
88 | EFI_STATUS_CODE_DATA DataHeader;\r | |
89 | UINT8 *DevicePath;\r | |
90 | } EFI_DEVICE_PATH_EXTENDED_DATA;\r | |
91 | \r | |
92 | ///\r | |
93 | /// This structure defines extended data describing a PCI resource allocation error.\r | |
94 | ///\r | |
95 | typedef struct {\r | |
96 | EFI_STATUS_CODE_DATA DataHeader;\r | |
97 | UINT32 Bar;\r | |
98 | UINT16 DevicePathSize;\r | |
99 | UINT16 ReqResSize;\r | |
100 | UINT16 AllocResSize;\r | |
101 | UINT8 *DevicePath;\r | |
102 | UINT8 *ReqRes;\r | |
103 | UINT8 *AllocRes;\r | |
104 | } EFI_RESOURCE_ALLOC_FAILURE_ERROR_DATA;\r | |
105 | \r | |
106 | ///\r | |
107 | /// This structure provides the voltage at the time of error. It also provides \r | |
108 | /// the threshold value indicating the minimum or maximum voltage that is considered \r | |
109 | /// an error. If the voltage is less then the threshold, the error indicates that the \r | |
110 | /// voltage fell below the minimum acceptable value. If the voltage is greater then the threshold, \r | |
111 | /// the error indicates that the voltage rose above the maximum acceptable value.\r | |
112 | ///\r | |
113 | typedef struct {\r | |
114 | ///\r | |
115 | /// The data header identifying the data. \r | |
116 | ///\r | |
117 | EFI_STATUS_CODE_DATA DataHeader;\r | |
118 | ///\r | |
119 | /// The voltage value at the time of the error.\r | |
120 | ///\r | |
121 | EFI_EXP_BASE10_DATA Voltage;\r | |
122 | ///\r | |
123 | /// The voltage threshold.\r | |
124 | ///\r | |
125 | EFI_EXP_BASE10_DATA Threshold;\r | |
126 | } EFI_COMPUTING_UNIT_VOLTAGE_ERROR_DATA;\r | |
127 | \r | |
128 | ///\r | |
129 | /// Microcode Update Extended Error Data\r | |
130 | ///\r | |
131 | typedef struct {\r | |
132 | ///\r | |
133 | /// The data header identifying the data. \r | |
134 | ///\r | |
135 | EFI_STATUS_CODE_DATA DataHeader;\r | |
136 | ///\r | |
137 | /// The version of the microcode update from the header.\r | |
138 | ///\r | |
139 | UINT32 Version;\r | |
140 | } EFI_COMPUTING_UNIT_MICROCODE_UPDATE_ERROR_DATA;\r | |
141 | \r | |
142 | ///\r | |
143 | /// Asynchronous Timer Extended Error Data\r | |
144 | /// The timer limit provides the timeout value of the timer prior to expiration.\r | |
145 | ///\r | |
146 | typedef struct {\r | |
147 | ///\r | |
148 | /// The data header identifying the data. \r | |
149 | ///\r | |
150 | EFI_STATUS_CODE_DATA DataHeader;\r | |
151 | ///\r | |
152 | /// The number of seconds that the computing unit timer was configured to expire.\r | |
153 | ///\r | |
154 | EFI_EXP_BASE10_DATA TimerLimit;\r | |
155 | } EFI_COMPUTING_UNIT_TIMER_EXPIRED_ERROR_DATA;\r | |
156 | \r | |
157 | ///\r | |
158 | /// Host Processor Mismatch Extended Error Data\r | |
159 | /// This provides information to indicate which processors mismatch, and how they mismatch. The \r | |
160 | /// status code contains the instance number of the processor that is in error. This structure's \r | |
161 | /// Instance indicates the second processor that does not match. This differentiation allows the \r | |
162 | /// consumer to determine which two processors do not match. The Attributes indicate what \r | |
163 | /// mismatch is being reported. Because Attributes is a bit field, more than one mismatch can be \r | |
164 | /// reported with one error code.\r | |
165 | ///\r | |
166 | typedef struct {\r | |
167 | ///\r | |
168 | /// The data header identifying the data. \r | |
169 | ///\r | |
170 | EFI_STATUS_CODE_DATA DataHeader;\r | |
171 | ///\r | |
172 | /// The unit number of the computing unit that does not match.\r | |
173 | /// \r | |
174 | UINT32 Instance;\r | |
175 | /// \r | |
176 | /// The attributes describing the failure. \r | |
177 | /// \r | |
178 | UINT16 Attributes;\r | |
179 | } EFI_HOST_PROCESSOR_MISMATCH_ERROR_DATA;\r | |
180 | \r | |
181 | ///\r | |
182 | /// Thermal Extended Error Data\r | |
183 | /// This structure provides the temperature at the time of error. It also provides the threshold value \r | |
184 | /// indicating the minimum temperature that is considered an error.\r | |
185 | ///\r | |
186 | typedef struct {\r | |
187 | ///\r | |
188 | /// The data header identifying the data. \r | |
189 | ///\r | |
190 | EFI_STATUS_CODE_DATA DataHeader;\r | |
191 | ///\r | |
192 | /// The thermal value at the time of the error.\r | |
193 | ///\r | |
194 | EFI_EXP_BASE10_DATA Temperature;\r | |
195 | ///\r | |
196 | /// The thermal threshold.\r | |
197 | ///\r | |
198 | EFI_EXP_BASE10_DATA Threshold;\r | |
199 | } EFI_COMPUTING_UNIT_THERMAL_ERROR_DATA;\r | |
200 | \r | |
201 | //\r | |
202 | // Valid cache types\r | |
203 | //\r | |
204 | typedef enum {\r | |
205 | EfiInitCacheDataOnly,\r | |
206 | EfiInitCacheInstrOnly,\r | |
207 | EfiInitCacheBoth,\r | |
208 | EfiInitCacheUnspecified\r | |
209 | } EFI_INIT_CACHE_TYPE;\r | |
210 | \r | |
211 | ///\r | |
212 | /// Embedded cache init extended data\r | |
213 | ///\r | |
214 | typedef struct {\r | |
215 | EFI_STATUS_CODE_DATA DataHeader;\r | |
216 | UINT32 Level;\r | |
217 | EFI_INIT_CACHE_TYPE Type;\r | |
218 | } EFI_CACHE_INIT_DATA;\r | |
219 | \r | |
220 | ///\r | |
221 | /// Processor Disabled Extended Error Data\r | |
222 | /// This structure provides details as to why and how the computing unit was disabled. The causes \r | |
223 | /// should cover the typical reasons a processor would be disabled. How the processor was disabled is \r | |
224 | /// important because there are distinct differences between hardware and software disabling.\r | |
225 | ///\r | |
226 | typedef struct {\r | |
227 | ///\r | |
228 | /// The data header identifying the data. \r | |
229 | ///\r | |
230 | EFI_STATUS_CODE_DATA DataHeader;\r | |
231 | ///\r | |
232 | /// The reason for disabling the processor. \r | |
233 | /// \r | |
234 | UINT32 Cause;\r | |
235 | ///\r | |
236 | /// TRUE if the processor is disabled via software means such as not listing it in the ACPI tables. \r | |
237 | /// Such a processor will respond to Interprocessor Interrupts (IPIs). FALSE if the processor is hardware \r | |
238 | /// disabled, which means it is invisible to software and will not respond to IPIs.\r | |
239 | ///\r | |
240 | BOOLEAN SoftwareDisabled;\r | |
241 | } EFI_COMPUTING_UNIT_CPU_DISABLED_ERROR_DATA;\r | |
242 | \r | |
243 | ///\r | |
244 | /// Memory Error Operation Definition\r | |
245 | ///\r | |
246 | typedef UINT8 EFI_MEMORY_ERROR_OPERATION;\r | |
247 | \r | |
248 | ///\r | |
249 | /// Memory Error Granularity Definition\r | |
250 | ///\r | |
251 | typedef UINT8 EFI_MEMORY_ERROR_GRANULARITY;\r | |
252 | \r | |
253 | ///\r | |
254 | /// This structure provides specific details about the memory error that was detected. It provides \r | |
255 | /// enough information so that consumers can identify the exact failure and provides enough \r | |
256 | /// information to enable corrective action if necessary.\r | |
257 | ///\r | |
258 | typedef struct {\r | |
259 | ///\r | |
260 | /// The data header identifying the data. \r | |
261 | ///\r | |
262 | EFI_STATUS_CODE_DATA DataHeader;\r | |
263 | ///\r | |
264 | /// The error granularity type.\r | |
265 | ///\r | |
266 | EFI_MEMORY_ERROR_GRANULARITY Granularity;\r | |
267 | ///\r | |
268 | /// The operation that resulted in the error being detected. \r | |
269 | ///\r | |
270 | EFI_MEMORY_ERROR_OPERATION Operation;\r | |
271 | ///\r | |
272 | /// The error syndrome, vendor-specific ECC syndrome, or CRC data associated with \r | |
273 | /// the error. If unknown, should be initialized to 0.\r | |
274 | /// Inconsistent with specification here: \r | |
275 | /// This field in StatusCodes spec0.9 is defined as UINT32, keep code unchanged.\r | |
276 | ///\r | |
277 | UINTN Syndrome;\r | |
278 | ///\r | |
279 | /// The physical address of the error. \r | |
280 | ///\r | |
281 | EFI_PHYSICAL_ADDRESS Address;\r | |
282 | ///\r | |
283 | /// The range, in bytes, within which the error address can be determined.\r | |
284 | ///\r | |
285 | UINTN Resolution;\r | |
286 | } EFI_MEMORY_EXTENDED_ERROR_DATA;\r | |
287 | \r | |
288 | ///\r | |
289 | /// This extended data provides some context that consumers can use to locate a DIMM within the \r | |
290 | /// overall memory scheme. \r | |
291 | ///\r | |
292 | typedef struct {\r | |
293 | ///\r | |
294 | /// The data header identifying the data. \r | |
295 | ///\r | |
296 | EFI_STATUS_CODE_DATA DataHeader;\r | |
297 | ///\r | |
298 | /// The memory array number.\r | |
299 | ///\r | |
300 | UINT16 Array;\r | |
301 | ///\r | |
302 | /// The device number within that Array.\r | |
303 | ///\r | |
304 | UINT16 Device;\r | |
305 | } EFI_STATUS_CODE_DIMM_NUMBER;\r | |
306 | \r | |
307 | ///\r | |
308 | /// Memory Module Mismatch Extended Error Data\r | |
309 | /// \r | |
310 | typedef struct {\r | |
311 | ///\r | |
312 | /// The data header identifying the data.\r | |
313 | ///\r | |
314 | EFI_STATUS_CODE_DATA DataHeader;\r | |
315 | ///\r | |
316 | /// The instance number of the memory module that does not match. \r | |
317 | ///\r | |
318 | EFI_STATUS_CODE_DIMM_NUMBER Instance;\r | |
319 | } EFI_MEMORY_MODULE_MISMATCH_ERROR_DATA;\r | |
320 | \r | |
321 | ///\r | |
322 | /// Memory Range Extended Data\r | |
323 | /// This extended data may be used to convey the specifics of a memory range. Ranges are specified \r | |
324 | /// with a start address and a length.\r | |
325 | ///\r | |
326 | typedef struct {\r | |
327 | ///\r | |
328 | /// The data header identifying the data. \r | |
329 | ///\r | |
330 | EFI_STATUS_CODE_DATA DataHeader;\r | |
331 | ///\r | |
332 | /// The starting address of the memory range. \r | |
333 | ///\r | |
334 | EFI_PHYSICAL_ADDRESS Start;\r | |
335 | ///\r | |
336 | /// The length in bytes of the memory range.\r | |
337 | ///\r | |
338 | EFI_PHYSICAL_ADDRESS Length;\r | |
339 | } EFI_MEMORY_RANGE_EXTENDED_DATA;\r | |
340 | \r | |
341 | ///\r | |
342 | /// Extended Error Data for Assert\r | |
343 | /// The data indicates the location of the assertion that failed in the source code. This information \r | |
344 | /// includes the file name and line number that are necessary to find the failing assertion in source code.\r | |
345 | ///\r | |
346 | typedef struct {\r | |
347 | ///\r | |
348 | /// The data header identifying the data.\r | |
349 | /// \r | |
350 | EFI_STATUS_CODE_DATA DataHeader;\r | |
351 | ///\r | |
352 | /// The line number of the source file where the fault was generated.\r | |
353 | ///\r | |
354 | UINT32 LineNumber;\r | |
355 | ///\r | |
356 | /// The size in bytes of FileName.\r | |
357 | ///\r | |
358 | UINT32 FileNameSize;\r | |
359 | ///\r | |
360 | /// A pointer to a NULL-terminated ASCII or Unicode string that represents the file \r | |
361 | /// name of the source file where the fault was generated. \r | |
362 | ///\r | |
363 | EFI_STATUS_CODE_STRING_DATA *FileName;\r | |
364 | } EFI_DEBUG_ASSERT_DATA;\r | |
365 | \r | |
366 | ///\r | |
367 | /// System Context Data EBC/IA32/IPF\r | |
368 | ///\r | |
369 | typedef union {\r | |
370 | EFI_SYSTEM_CONTEXT_EBC SystemContextEbc;\r | |
371 | EFI_SYSTEM_CONTEXT_IA32 SystemContextIa32;\r | |
372 | EFI_SYSTEM_CONTEXT_IPF SystemContextIpf;\r | |
373 | } EFI_STATUS_CODE_EXCEP_SYSTEM_CONTEXT;\r | |
374 | \r | |
375 | ///\r | |
376 | /// This extended data allows the processor context that is present at the time of the exception to be \r | |
377 | /// reported with the exception. The format and contents of the context data varies depending on the \r | |
378 | /// processor architecture. \r | |
379 | ///\r | |
380 | typedef struct {\r | |
381 | ///\r | |
382 | /// The data header identifying the data. \r | |
383 | ///\r | |
384 | EFI_STATUS_CODE_DATA DataHeader;\r | |
385 | ///\r | |
386 | /// The system context. \r | |
387 | ///\r | |
388 | EFI_STATUS_CODE_EXCEP_SYSTEM_CONTEXT Context;\r | |
389 | } EFI_STATUS_CODE_EXCEP_EXTENDED_DATA;\r | |
390 | \r | |
391 | ///\r | |
392 | /// This extended data records information about a Start() function call. Start() is a member of \r | |
393 | /// the EFI 1.10 Driver Binding Protocol.\r | |
394 | ///\r | |
395 | typedef struct {\r | |
396 | /// \r | |
397 | /// The data header identifying the data. \r | |
398 | ///\r | |
399 | EFI_STATUS_CODE_DATA DataHeader;\r | |
400 | ///\r | |
401 | /// The controller handle. \r | |
402 | ///\r | |
403 | EFI_HANDLE ControllerHandle;\r | |
404 | ///\r | |
405 | /// The driver binding handle.\r | |
406 | ///\r | |
407 | EFI_HANDLE DriverBindingHandle;\r | |
408 | /// \r | |
409 | /// The size of the RemainingDevicePath. It is zero if the Start() function is \r | |
410 | /// called with RemainingDevicePath = NULL. \r | |
411 | ///\r | |
412 | UINT16 DevicePathSize;\r | |
413 | ///\r | |
414 | /// Matches the RemainingDevicePath parameter being passed to the Start() \r | |
415 | /// function. Note that this parameter is the variable-length device path and not a pointer \r | |
416 | /// to the device path.\r | |
417 | /// \r | |
418 | UINT8 *RemainingDevicePath;\r | |
419 | } EFI_STATUS_CODE_START_EXTENDED_DATA;\r | |
420 | \r | |
421 | ///\r | |
422 | /// Legacy Oprom extended data\r | |
423 | /// The device handle and ROM image base can be used by consumers to determine which option \r | |
424 | /// ROM failed. Due to the black-box nature of legacy option ROMs, the amount of information that \r | |
425 | /// can be obtained may be limited.\r | |
426 | ///\r | |
427 | typedef struct {\r | |
428 | ///\r | |
429 | /// The data header identifying the data.\r | |
430 | ///\r | |
431 | EFI_STATUS_CODE_DATA DataHeader;\r | |
432 | ///\r | |
433 | /// The handle corresponding to the device that this legacy option ROM is being invoked.\r | |
434 | ///\r | |
435 | EFI_HANDLE DeviceHandle;\r | |
436 | ///\r | |
437 | /// The base address of the shadowed legacy ROM image. \r | |
438 | /// May or may not point to the shadow RAM area. \r | |
439 | ///\r | |
440 | EFI_PHYSICAL_ADDRESS RomImageBase;\r | |
441 | } EFI_LEGACY_OPROM_EXTENDED_DATA;\r | |
442 | \r | |
443 | #pragma pack()\r | |
444 | \r | |
445 | extern EFI_GUID gEfiStatusCodeSpecificDataGuid;\r | |
446 | \r | |
447 | //\r | |
448 | // EFI_COMPUTING_UNIT_MISMATCH_ATTRIBUTES\r | |
449 | // All other attributes are reserved for future use and\r | |
450 | // must be initialized to 0.\r | |
451 | //\r | |
452 | #define EFI_COMPUTING_UNIT_MISMATCH_SPEED 0x0001\r | |
453 | #define EFI_COMPUTING_UNIT_MISMATCH_FSB_SPEED 0x0002\r | |
454 | #define EFI_COMPUTING_UNIT_MISMATCH_FAMILY 0x0004\r | |
455 | #define EFI_COMPUTING_UNIT_MISMATCH_MODEL 0x0008\r | |
456 | #define EFI_COMPUTING_UNIT_MISMATCH_STEPPING 0x0010\r | |
457 | #define EFI_COMPUTING_UNIT_MISMATCH_CACHE_SIZE 0x0020\r | |
458 | #define EFI_COMPUTING_UNIT_MISMATCH_OEM1 0x1000\r | |
459 | #define EFI_COMPUTING_UNIT_MISMATCH_OEM2 0x2000\r | |
460 | #define EFI_COMPUTING_UNIT_MISMATCH_OEM3 0x4000\r | |
461 | #define EFI_COMPUTING_UNIT_MISMATCH_OEM4 0x8000\r | |
462 | \r | |
463 | \r | |
464 | \r | |
465 | //\r | |
466 | // Memory Error Granularities\r | |
467 | //\r | |
468 | #define EFI_MEMORY_ERROR_OTHER 0x01\r | |
469 | #define EFI_MEMORY_ERROR_UNKNOWN 0x02\r | |
470 | #define EFI_MEMORY_ERROR_DEVICE 0x03\r | |
471 | #define EFI_MEMORY_ERROR_PARTITION 0x04\r | |
472 | \r | |
473 | //\r | |
474 | // Memory Error Operations\r | |
475 | //\r | |
476 | #define EFI_MEMORY_OPERATION_OTHER 0x01\r | |
477 | #define EFI_MEMORY_OPERATION_UNKNOWN 0x02\r | |
478 | #define EFI_MEMORY_OPERATION_READ 0x03\r | |
479 | #define EFI_MEMORY_OPERATION_WRITE 0x04\r | |
480 | #define EFI_MEMORY_OPERATION_PARTIAL_WRITE 0x05\r | |
481 | \r | |
482 | //\r | |
483 | // Define shorthands to describe Group Operations\r | |
484 | // Many memory init operations are essentially group\r | |
485 | // operations.\r | |
486 | \r | |
487 | /// A shorthand to describe that the operation is performed\r | |
488 | /// on multiple devices within the array\r | |
489 | ///\r | |
490 | #define EFI_MULTIPLE_MEMORY_DEVICE_OPERATION 0xfffe\r | |
491 | ///\r | |
492 | /// A shorthand to describe that the operation is performed on all devices within the array\r | |
493 | ///\r | |
494 | #define EFI_ALL_MEMORY_DEVICE_OPERATION 0xffff\r | |
495 | ///\r | |
496 | /// A shorthand to describe that the operation is performed on multiple arrays\r | |
497 | ///\r | |
498 | #define EFI_MULTIPLE_MEMORY_ARRAY_OPERATION 0xfffe\r | |
499 | ///\r | |
500 | /// A shorthand to describe that the operation is performed on all the arrays\r | |
501 | ///\r | |
502 | #define EFI_ALL_MEMORY_ARRAY_OPERATION 0xffff\r | |
503 | \r | |
504 | #endif\r |