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ea0f431c JF |
1 | /** @file\r |
2 | CPU PEI Module installs CPU Multiple Processor PPI.\r | |
3 | \r | |
4da1ebf3 | 4 | Copyright (c) 2015 - 2016, Intel Corporation. All rights reserved.<BR>\r |
ea0f431c JF |
5 | 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 | **/\r | |
14 | \r | |
15 | #include "CpuMpPei.h"\r | |
16 | \r | |
17 | //\r | |
18 | // Global Descriptor Table (GDT)\r | |
19 | //\r | |
20 | GLOBAL_REMOVE_IF_UNREFERENCED IA32_GDT mGdtEntries[] = {\r | |
21 | /* selector { Global Segment Descriptor } */\r | |
22 | /* 0x00 */ {{0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}}, //null descriptor\r | |
23 | /* 0x08 */ {{0xffff, 0, 0, 0x2, 1, 0, 1, 0xf, 0, 0, 1, 1, 0}}, //linear data segment descriptor\r | |
24 | /* 0x10 */ {{0xffff, 0, 0, 0xf, 1, 0, 1, 0xf, 0, 0, 1, 1, 0}}, //linear code segment descriptor\r | |
25 | /* 0x18 */ {{0xffff, 0, 0, 0x3, 1, 0, 1, 0xf, 0, 0, 1, 1, 0}}, //system data segment descriptor\r | |
26 | /* 0x20 */ {{0xffff, 0, 0, 0xa, 1, 0, 1, 0xf, 0, 0, 1, 1, 0}}, //system code segment descriptor\r | |
27 | /* 0x28 */ {{0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}}, //spare segment descriptor\r | |
28 | /* 0x30 */ {{0xffff, 0, 0, 0x2, 1, 0, 1, 0xf, 0, 0, 1, 1, 0}}, //system data segment descriptor\r | |
29 | /* 0x38 */ {{0xffff, 0, 0, 0xa, 1, 0, 1, 0xf, 0, 1, 0, 1, 0}}, //system code segment descriptor\r | |
30 | /* 0x40 */ {{0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}}, //spare segment descriptor\r | |
31 | };\r | |
32 | \r | |
33 | //\r | |
34 | // IA32 Gdt register\r | |
35 | //\r | |
36 | GLOBAL_REMOVE_IF_UNREFERENCED IA32_DESCRIPTOR mGdt = {\r | |
37 | sizeof (mGdtEntries) - 1,\r | |
38 | (UINTN) mGdtEntries\r | |
39 | };\r | |
40 | \r | |
41 | GLOBAL_REMOVE_IF_UNREFERENCED EFI_PEI_NOTIFY_DESCRIPTOR mNotifyList = {\r | |
42 | (EFI_PEI_PPI_DESCRIPTOR_NOTIFY_CALLBACK | EFI_PEI_PPI_DESCRIPTOR_TERMINATE_LIST),\r | |
43 | &gEfiEndOfPeiSignalPpiGuid,\r | |
44 | CpuMpEndOfPeiCallback\r | |
45 | };\r | |
46 | \r | |
47 | /**\r | |
48 | Sort the APIC ID of all processors.\r | |
49 | \r | |
50 | This function sorts the APIC ID of all processors so that processor number is\r | |
51 | assigned in the ascending order of APIC ID which eases MP debugging.\r | |
52 | \r | |
53 | @param PeiCpuMpData Pointer to PEI CPU MP Data\r | |
54 | **/\r | |
55 | VOID\r | |
56 | SortApicId (\r | |
57 | IN PEI_CPU_MP_DATA *PeiCpuMpData\r | |
58 | )\r | |
59 | {\r | |
60 | UINTN Index1;\r | |
61 | UINTN Index2;\r | |
62 | UINTN Index3;\r | |
63 | UINT32 ApicId;\r | |
24930b56 | 64 | PEI_CPU_DATA CpuData;\r |
ea0f431c JF |
65 | UINT32 ApCount;\r |
66 | \r | |
67 | ApCount = PeiCpuMpData->CpuCount - 1;\r | |
68 | \r | |
69 | if (ApCount != 0) {\r | |
70 | for (Index1 = 0; Index1 < ApCount; Index1++) {\r | |
71 | Index3 = Index1;\r | |
72 | //\r | |
73 | // Sort key is the hardware default APIC ID\r | |
74 | //\r | |
75 | ApicId = PeiCpuMpData->CpuData[Index1].ApicId;\r | |
76 | for (Index2 = Index1 + 1; Index2 <= ApCount; Index2++) {\r | |
77 | if (ApicId > PeiCpuMpData->CpuData[Index2].ApicId) {\r | |
78 | Index3 = Index2;\r | |
79 | ApicId = PeiCpuMpData->CpuData[Index2].ApicId;\r | |
80 | }\r | |
81 | }\r | |
82 | if (Index3 != Index1) {\r | |
24930b56 JF |
83 | CopyMem (&CpuData, &PeiCpuMpData->CpuData[Index3], sizeof (PEI_CPU_DATA));\r |
84 | CopyMem (\r | |
85 | &PeiCpuMpData->CpuData[Index3],\r | |
86 | &PeiCpuMpData->CpuData[Index1],\r | |
87 | sizeof (PEI_CPU_DATA)\r | |
88 | );\r | |
89 | CopyMem (&PeiCpuMpData->CpuData[Index1], &CpuData, sizeof (PEI_CPU_DATA));\r | |
ea0f431c JF |
90 | }\r |
91 | }\r | |
92 | \r | |
93 | //\r | |
94 | // Get the processor number for the BSP\r | |
95 | //\r | |
96 | ApicId = GetInitialApicId ();\r | |
97 | for (Index1 = 0; Index1 < PeiCpuMpData->CpuCount; Index1++) {\r | |
98 | if (PeiCpuMpData->CpuData[Index1].ApicId == ApicId) {\r | |
99 | PeiCpuMpData->BspNumber = (UINT32) Index1;\r | |
100 | break;\r | |
101 | }\r | |
102 | }\r | |
103 | }\r | |
104 | }\r | |
105 | \r | |
c7981a11 JF |
106 | /**\r |
107 | Enable x2APIC mode on APs.\r | |
108 | \r | |
109 | @param Buffer Pointer to private data buffer.\r | |
110 | **/\r | |
111 | VOID\r | |
112 | EFIAPI\r | |
113 | ApFuncEnableX2Apic (\r | |
114 | IN OUT VOID *Buffer\r | |
115 | )\r | |
116 | {\r | |
117 | SetApicMode (LOCAL_APIC_MODE_X2APIC);\r | |
118 | }\r | |
119 | \r | |
4de216c0 JF |
120 | /**\r |
121 | Get AP loop mode.\r | |
122 | \r | |
123 | @param MonitorFilterSize Returns the largest monitor-line size in bytes.\r | |
124 | \r | |
125 | @return The AP loop mode.\r | |
126 | **/\r | |
127 | UINT8\r | |
128 | GetApLoopMode (\r | |
129 | OUT UINT16 *MonitorFilterSize\r | |
130 | )\r | |
131 | {\r | |
132 | UINT8 ApLoopMode;\r | |
133 | UINT32 RegEbx;\r | |
134 | UINT32 RegEcx;\r | |
135 | UINT32 RegEdx;\r | |
136 | \r | |
137 | ASSERT (MonitorFilterSize != NULL);\r | |
138 | \r | |
139 | ApLoopMode = PcdGet8 (PcdCpuApLoopMode);\r | |
140 | ASSERT (ApLoopMode >= ApInHltLoop && ApLoopMode <= ApInRunLoop);\r | |
141 | if (ApLoopMode == ApInMwaitLoop) {\r | |
142 | AsmCpuid (CPUID_VERSION_INFO, NULL, NULL, &RegEcx, NULL);\r | |
143 | if ((RegEcx & BIT3) == 0) {\r | |
144 | //\r | |
145 | // If processor does not support MONITOR/MWAIT feature\r | |
146 | // by CPUID.[EAX=01H]:ECX.BIT3, force AP in Hlt-loop mode\r | |
147 | //\r | |
148 | ApLoopMode = ApInHltLoop;\r | |
149 | }\r | |
150 | }\r | |
151 | \r | |
152 | if (ApLoopMode == ApInHltLoop) {\r | |
153 | *MonitorFilterSize = 0;\r | |
154 | } else if (ApLoopMode == ApInRunLoop) {\r | |
155 | *MonitorFilterSize = sizeof (UINT32);\r | |
156 | } else if (ApLoopMode == ApInMwaitLoop) {\r | |
157 | //\r | |
158 | // CPUID.[EAX=05H]:EBX.BIT0-15: Largest monitor-line size in bytes\r | |
159 | // CPUID.[EAX=05H].EDX: C-states supported using MWAIT\r | |
160 | //\r | |
161 | AsmCpuid (CPUID_MONITOR_MWAIT, NULL, &RegEbx, NULL, &RegEdx);\r | |
162 | *MonitorFilterSize = RegEbx & 0xFFFF;\r | |
163 | }\r | |
164 | \r | |
165 | return ApLoopMode;\r | |
166 | }\r | |
167 | \r | |
ea0f431c JF |
168 | /**\r |
169 | Get CPU MP Data pointer from the Guided HOB.\r | |
170 | \r | |
171 | @return Pointer to Pointer to PEI CPU MP Data\r | |
172 | **/\r | |
173 | PEI_CPU_MP_DATA *\r | |
174 | GetMpHobData (\r | |
175 | VOID\r | |
176 | )\r | |
177 | {\r | |
178 | EFI_HOB_GUID_TYPE *GuidHob;\r | |
179 | VOID *DataInHob;\r | |
180 | PEI_CPU_MP_DATA *CpuMpData;\r | |
181 | \r | |
182 | CpuMpData = NULL;\r | |
183 | GuidHob = GetFirstGuidHob (&gEfiCallerIdGuid);\r | |
184 | if (GuidHob != NULL) {\r | |
185 | DataInHob = GET_GUID_HOB_DATA (GuidHob);\r | |
186 | CpuMpData = (PEI_CPU_MP_DATA *)(*(UINTN *)DataInHob);\r | |
187 | }\r | |
188 | ASSERT (CpuMpData != NULL);\r | |
189 | return CpuMpData;\r | |
190 | }\r | |
191 | \r | |
ef1fdb80 | 192 | /**\r |
5ac96e3a | 193 | Save the volatile registers required to be restored following INIT IPI.\r |
ef1fdb80 JF |
194 | \r |
195 | @param VolatileRegisters Returns buffer saved the volatile resisters\r | |
196 | **/\r | |
197 | VOID\r | |
198 | SaveVolatileRegisters (\r | |
199 | OUT CPU_VOLATILE_REGISTERS *VolatileRegisters\r | |
200 | )\r | |
201 | {\r | |
202 | UINT32 RegEdx;\r | |
203 | \r | |
204 | VolatileRegisters->Cr0 = AsmReadCr0 ();\r | |
205 | VolatileRegisters->Cr3 = AsmReadCr3 ();\r | |
206 | VolatileRegisters->Cr4 = AsmReadCr4 ();\r | |
207 | \r | |
208 | AsmCpuid (CPUID_VERSION_INFO, NULL, NULL, NULL, &RegEdx);\r | |
209 | if ((RegEdx & BIT2) != 0) {\r | |
210 | //\r | |
211 | // If processor supports Debugging Extensions feature\r | |
212 | // by CPUID.[EAX=01H]:EDX.BIT2\r | |
213 | //\r | |
214 | VolatileRegisters->Dr0 = AsmReadDr0 ();\r | |
215 | VolatileRegisters->Dr1 = AsmReadDr1 ();\r | |
216 | VolatileRegisters->Dr2 = AsmReadDr2 ();\r | |
217 | VolatileRegisters->Dr3 = AsmReadDr3 ();\r | |
218 | VolatileRegisters->Dr6 = AsmReadDr6 ();\r | |
219 | VolatileRegisters->Dr7 = AsmReadDr7 ();\r | |
220 | }\r | |
221 | }\r | |
222 | \r | |
223 | /**\r | |
5ac96e3a | 224 | Restore the volatile registers following INIT IPI.\r |
ef1fdb80 JF |
225 | \r |
226 | @param VolatileRegisters Pointer to volatile resisters\r | |
227 | @param IsRestoreDr TRUE: Restore DRx if supported\r | |
228 | FALSE: Do not restore DRx\r | |
229 | **/\r | |
230 | VOID\r | |
231 | RestoreVolatileRegisters (\r | |
232 | IN CPU_VOLATILE_REGISTERS *VolatileRegisters,\r | |
233 | IN BOOLEAN IsRestoreDr\r | |
234 | )\r | |
235 | {\r | |
236 | UINT32 RegEdx;\r | |
237 | \r | |
238 | AsmWriteCr0 (VolatileRegisters->Cr0);\r | |
239 | AsmWriteCr3 (VolatileRegisters->Cr3);\r | |
240 | AsmWriteCr4 (VolatileRegisters->Cr4);\r | |
241 | \r | |
242 | if (IsRestoreDr) {\r | |
243 | AsmCpuid (CPUID_VERSION_INFO, NULL, NULL, NULL, &RegEdx);\r | |
244 | if ((RegEdx & BIT2) != 0) {\r | |
245 | //\r | |
246 | // If processor supports Debugging Extensions feature\r | |
247 | // by CPUID.[EAX=01H]:EDX.BIT2\r | |
248 | //\r | |
249 | AsmWriteDr0 (VolatileRegisters->Dr0);\r | |
250 | AsmWriteDr1 (VolatileRegisters->Dr1);\r | |
251 | AsmWriteDr2 (VolatileRegisters->Dr2);\r | |
252 | AsmWriteDr3 (VolatileRegisters->Dr3);\r | |
253 | AsmWriteDr6 (VolatileRegisters->Dr6);\r | |
254 | AsmWriteDr7 (VolatileRegisters->Dr7);\r | |
255 | }\r | |
256 | }\r | |
257 | }\r | |
258 | \r | |
ea0f431c JF |
259 | /**\r |
260 | This function will be called from AP reset code if BSP uses WakeUpAP.\r | |
261 | \r | |
262 | @param ExchangeInfo Pointer to the MP exchange info buffer\r | |
c972495e | 263 | @param NumApsExecuting Number of current executing AP\r |
ea0f431c JF |
264 | **/\r |
265 | VOID\r | |
266 | EFIAPI\r | |
267 | ApCFunction (\r | |
268 | IN MP_CPU_EXCHANGE_INFO *ExchangeInfo,\r | |
269 | IN UINTN NumApsExecuting\r | |
270 | )\r | |
271 | {\r | |
272 | PEI_CPU_MP_DATA *PeiCpuMpData;\r | |
273 | UINTN ProcessorNumber;\r | |
274 | EFI_AP_PROCEDURE Procedure;\r | |
275 | UINTN BistData;\r | |
c87e41b4 | 276 | volatile UINT32 *ApStartupSignalBuffer;\r |
ea0f431c JF |
277 | \r |
278 | PeiCpuMpData = ExchangeInfo->PeiCpuMpData;\r | |
c87e41b4 JF |
279 | while (TRUE) {\r |
280 | if (PeiCpuMpData->InitFlag) {\r | |
281 | ProcessorNumber = NumApsExecuting;\r | |
282 | //\r | |
283 | // Sync BSP's Control registers to APs\r | |
284 | //\r | |
285 | RestoreVolatileRegisters (&PeiCpuMpData->CpuData[0].VolatileRegisters, FALSE);\r | |
286 | //\r | |
287 | // This is first time AP wakeup, get BIST information from AP stack\r | |
288 | //\r | |
289 | BistData = *(UINTN *) (PeiCpuMpData->Buffer + ProcessorNumber * PeiCpuMpData->CpuApStackSize - sizeof (UINTN));\r | |
290 | PeiCpuMpData->CpuData[ProcessorNumber].Health.Uint32 = (UINT32) BistData;\r | |
291 | PeiCpuMpData->CpuData[ProcessorNumber].ApicId = GetInitialApicId ();\r | |
292 | if (PeiCpuMpData->CpuData[ProcessorNumber].ApicId >= 0xFF) {\r | |
293 | //\r | |
294 | // Set x2APIC mode if there are any logical processor reporting\r | |
295 | // an APIC ID of 255 or greater.\r | |
296 | //\r | |
297 | AcquireSpinLock(&PeiCpuMpData->MpLock);\r | |
298 | PeiCpuMpData->X2ApicEnable = TRUE;\r | |
299 | ReleaseSpinLock(&PeiCpuMpData->MpLock);\r | |
300 | }\r | |
301 | //\r | |
302 | // Sync BSP's Mtrr table to all wakeup APs and load microcode on APs.\r | |
303 | //\r | |
304 | MtrrSetAllMtrrs (&PeiCpuMpData->MtrrTable);\r | |
305 | MicrocodeDetect ();\r | |
306 | PeiCpuMpData->CpuData[ProcessorNumber].State = CpuStateIdle;\r | |
307 | } else {\r | |
2f0261b7 | 308 | //\r |
c87e41b4 | 309 | // Execute AP function if AP is not disabled\r |
2f0261b7 | 310 | //\r |
c87e41b4 JF |
311 | GetProcessorNumber (PeiCpuMpData, &ProcessorNumber);\r |
312 | if (PeiCpuMpData->ApLoopMode == ApInHltLoop) {\r | |
313 | //\r | |
314 | // Restore AP's volatile registers saved\r | |
315 | //\r | |
316 | RestoreVolatileRegisters (&PeiCpuMpData->CpuData[ProcessorNumber].VolatileRegisters, TRUE);\r | |
317 | }\r | |
318 | \r | |
319 | if ((PeiCpuMpData->CpuData[ProcessorNumber].State != CpuStateDisabled) &&\r | |
320 | (PeiCpuMpData->ApFunction != 0)) {\r | |
321 | PeiCpuMpData->CpuData[ProcessorNumber].State = CpuStateBusy;\r | |
322 | Procedure = (EFI_AP_PROCEDURE)(UINTN)PeiCpuMpData->ApFunction;\r | |
323 | //\r | |
324 | // Invoke AP function here\r | |
325 | //\r | |
326 | Procedure ((VOID *)(UINTN)PeiCpuMpData->ApFunctionArgument);\r | |
327 | //\r | |
328 | // Re-get the processor number due to BSP/AP maybe exchange in AP function\r | |
329 | //\r | |
330 | GetProcessorNumber (PeiCpuMpData, &ProcessorNumber);\r | |
331 | PeiCpuMpData->CpuData[ProcessorNumber].State = CpuStateIdle;\r | |
332 | }\r | |
2f0261b7 | 333 | }\r |
c87e41b4 | 334 | \r |
ea0f431c | 335 | //\r |
c87e41b4 | 336 | // AP finished executing C code\r |
ea0f431c | 337 | //\r |
c87e41b4 JF |
338 | InterlockedIncrement ((UINT32 *)&PeiCpuMpData->FinishedCount);\r |
339 | \r | |
ea0f431c | 340 | //\r |
c87e41b4 | 341 | // Place AP is specified loop mode\r |
ea0f431c | 342 | //\r |
c87e41b4 JF |
343 | if (PeiCpuMpData->ApLoopMode == ApInHltLoop) {\r |
344 | //\r | |
345 | // Save AP volatile registers\r | |
346 | //\r | |
347 | SaveVolatileRegisters (&PeiCpuMpData->CpuData[ProcessorNumber].VolatileRegisters);\r | |
348 | //\r | |
349 | // Place AP in Hlt-loop\r | |
350 | //\r | |
351 | while (TRUE) {\r | |
352 | DisableInterrupts ();\r | |
353 | CpuSleep ();\r | |
354 | CpuPause ();\r | |
355 | }\r | |
356 | }\r | |
357 | ApStartupSignalBuffer = PeiCpuMpData->CpuData[ProcessorNumber].StartupApSignal;\r | |
c87e41b4 JF |
358 | while (TRUE) {\r |
359 | DisableInterrupts ();\r | |
360 | if (PeiCpuMpData->ApLoopMode == ApInMwaitLoop) {\r | |
361 | //\r | |
362 | // Place AP in Mwait-loop\r | |
363 | //\r | |
364 | AsmMonitor ((UINTN)ApStartupSignalBuffer, 0, 0);\r | |
365 | if (*ApStartupSignalBuffer != WAKEUP_AP_SIGNAL) {\r | |
366 | //\r | |
367 | // If AP start-up signal is not set, place AP into\r | |
368 | // the maximum C-state\r | |
369 | //\r | |
370 | AsmMwait (PeiCpuMpData->ApTargetCState << 4, 0);\r | |
371 | }\r | |
372 | } else if (PeiCpuMpData->ApLoopMode == ApInRunLoop) {\r | |
373 | //\r | |
374 | // Place AP in Run-loop\r | |
375 | //\r | |
376 | CpuPause ();\r | |
377 | } else {\r | |
378 | ASSERT (FALSE);\r | |
379 | }\r | |
f40a7de4 | 380 | \r |
c972495e | 381 | //\r |
c87e41b4 JF |
382 | // If AP start-up signal is written, AP is waken up\r |
383 | // otherwise place AP in loop again\r | |
c972495e | 384 | //\r |
c87e41b4 | 385 | if (*ApStartupSignalBuffer == WAKEUP_AP_SIGNAL) {\r |
4da1ebf3 JF |
386 | //\r |
387 | // Clear AP start-up signal when AP waken up\r | |
388 | //\r | |
389 | InterlockedCompareExchange32 (\r | |
390 | (UINT32 *)ApStartupSignalBuffer,\r | |
391 | WAKEUP_AP_SIGNAL,\r | |
392 | 0\r | |
393 | );\r | |
c87e41b4 JF |
394 | break;\r |
395 | }\r | |
ea0f431c JF |
396 | }\r |
397 | }\r | |
ea0f431c JF |
398 | }\r |
399 | \r | |
4da1ebf3 JF |
400 | /**\r |
401 | Write AP start-up signal to wakeup AP.\r | |
402 | \r | |
403 | @param ApStartupSignalBuffer Pointer to AP wakeup signal\r | |
404 | **/\r | |
405 | VOID\r | |
406 | WriteStartupSignal (\r | |
407 | IN volatile UINT32 *ApStartupSignalBuffer\r | |
408 | )\r | |
409 | {\r | |
410 | *ApStartupSignalBuffer = WAKEUP_AP_SIGNAL;\r | |
411 | //\r | |
412 | // If AP is waken up, StartupApSignal should be cleared.\r | |
413 | // Otherwise, write StartupApSignal again till AP waken up.\r | |
414 | //\r | |
415 | while (InterlockedCompareExchange32 (\r | |
416 | (UINT32 *)ApStartupSignalBuffer,\r | |
417 | WAKEUP_AP_SIGNAL,\r | |
418 | WAKEUP_AP_SIGNAL\r | |
419 | ) != 0) {\r | |
420 | CpuPause ();\r | |
421 | }\r | |
422 | }\r | |
423 | \r | |
ea0f431c JF |
424 | /**\r |
425 | This function will be called by BSP to wakeup AP.\r | |
426 | \r | |
427 | @param PeiCpuMpData Pointer to PEI CPU MP Data\r | |
428 | @param Broadcast TRUE: Send broadcast IPI to all APs\r | |
429 | FALSE: Send IPI to AP by ApicId\r | |
a09647f3 | 430 | @param ProcessorNumber The handle number of specified processor\r |
ea0f431c JF |
431 | @param Procedure The function to be invoked by AP\r |
432 | @param ProcedureArgument The argument to be passed into AP function\r | |
433 | **/\r | |
434 | VOID\r | |
435 | WakeUpAP (\r | |
436 | IN PEI_CPU_MP_DATA *PeiCpuMpData,\r | |
437 | IN BOOLEAN Broadcast,\r | |
a09647f3 | 438 | IN UINTN ProcessorNumber,\r |
ea0f431c JF |
439 | IN EFI_AP_PROCEDURE Procedure, OPTIONAL\r |
440 | IN VOID *ProcedureArgument OPTIONAL\r | |
441 | )\r | |
442 | {\r | |
443 | volatile MP_CPU_EXCHANGE_INFO *ExchangeInfo;\r | |
a09647f3 | 444 | UINTN Index;\r |
ea0f431c JF |
445 | \r |
446 | PeiCpuMpData->ApFunction = (UINTN) Procedure;\r | |
447 | PeiCpuMpData->ApFunctionArgument = (UINTN) ProcedureArgument;\r | |
448 | PeiCpuMpData->FinishedCount = 0;\r | |
449 | \r | |
450 | ExchangeInfo = PeiCpuMpData->MpCpuExchangeInfo;\r | |
451 | ExchangeInfo->Lock = 0;\r | |
452 | ExchangeInfo->StackStart = PeiCpuMpData->Buffer;\r | |
453 | ExchangeInfo->StackSize = PeiCpuMpData->CpuApStackSize;\r | |
454 | ExchangeInfo->BufferStart = PeiCpuMpData->WakeupBuffer;\r | |
455 | ExchangeInfo->PmodeOffset = PeiCpuMpData->AddressMap.PModeEntryOffset;\r | |
456 | ExchangeInfo->LmodeOffset = PeiCpuMpData->AddressMap.LModeEntryOffset;\r | |
457 | ExchangeInfo->Cr3 = AsmReadCr3 ();\r | |
458 | ExchangeInfo->CFunction = (UINTN) ApCFunction;\r | |
459 | ExchangeInfo->NumApsExecuting = 0;\r | |
460 | ExchangeInfo->PeiCpuMpData = PeiCpuMpData;\r | |
461 | \r | |
462 | //\r | |
463 | // Get the BSP's data of GDT and IDT\r | |
464 | //\r | |
465 | CopyMem ((VOID *)&ExchangeInfo->GdtrProfile, &mGdt, sizeof(mGdt));\r | |
466 | AsmReadIdtr ((IA32_DESCRIPTOR *) &ExchangeInfo->IdtrProfile);\r | |
467 | \r | |
a09647f3 JF |
468 | if (PeiCpuMpData->ApLoopMode == ApInMwaitLoop) {\r |
469 | //\r | |
470 | // Get AP target C-state each time when waking up AP,\r | |
471 | // for it maybe updated by platform again\r | |
472 | //\r | |
473 | PeiCpuMpData->ApTargetCState = PcdGet8 (PcdCpuApTargetCstate);\r | |
ea0f431c JF |
474 | }\r |
475 | \r | |
a09647f3 JF |
476 | //\r |
477 | // Wakeup APs per AP loop state\r | |
478 | //\r | |
479 | if (PeiCpuMpData->ApLoopMode == ApInHltLoop || PeiCpuMpData->InitFlag) {\r | |
480 | if (Broadcast) {\r | |
481 | SendInitSipiSipiAllExcludingSelf ((UINT32) ExchangeInfo->BufferStart);\r | |
482 | } else {\r | |
483 | SendInitSipiSipi (\r | |
484 | PeiCpuMpData->CpuData[ProcessorNumber].ApicId,\r | |
485 | (UINT32) ExchangeInfo->BufferStart\r | |
486 | );\r | |
487 | }\r | |
488 | } else if ((PeiCpuMpData->ApLoopMode == ApInMwaitLoop) ||\r | |
489 | (PeiCpuMpData->ApLoopMode == ApInRunLoop)) {\r | |
490 | if (Broadcast) {\r | |
491 | for (Index = 0; Index < PeiCpuMpData->CpuCount; Index++) {\r | |
492 | if (Index != PeiCpuMpData->BspNumber) {\r | |
4da1ebf3 | 493 | WriteStartupSignal (PeiCpuMpData->CpuData[Index].StartupApSignal);\r |
a09647f3 JF |
494 | }\r |
495 | }\r | |
496 | } else {\r | |
4da1ebf3 | 497 | WriteStartupSignal (PeiCpuMpData->CpuData[ProcessorNumber].StartupApSignal);\r |
a09647f3 JF |
498 | }\r |
499 | } else {\r | |
500 | ASSERT (FALSE);\r | |
501 | }\r | |
ea0f431c JF |
502 | return ;\r |
503 | }\r | |
504 | \r | |
505 | /**\r | |
506 | Get available system memory below 1MB by specified size.\r | |
507 | \r | |
508 | @param WakeupBufferSize Wakeup buffer size required\r | |
509 | \r | |
510 | @retval other Return wakeup buffer address below 1MB.\r | |
511 | @retval -1 Cannot find free memory below 1MB.\r | |
512 | **/\r | |
513 | UINTN\r | |
514 | GetWakeupBuffer (\r | |
515 | IN UINTN WakeupBufferSize\r | |
516 | )\r | |
517 | {\r | |
518 | EFI_PEI_HOB_POINTERS Hob;\r | |
519 | UINTN WakeupBufferStart;\r | |
520 | UINTN WakeupBufferEnd;\r | |
521 | \r | |
522 | //\r | |
523 | // Get the HOB list for processing\r | |
524 | //\r | |
525 | Hob.Raw = GetHobList ();\r | |
526 | \r | |
527 | //\r | |
528 | // Collect memory ranges\r | |
529 | //\r | |
530 | while (!END_OF_HOB_LIST (Hob)) {\r | |
531 | if (Hob.Header->HobType == EFI_HOB_TYPE_RESOURCE_DESCRIPTOR) {\r | |
532 | if ((Hob.ResourceDescriptor->PhysicalStart < BASE_1MB) &&\r | |
533 | (Hob.ResourceDescriptor->ResourceType == EFI_RESOURCE_SYSTEM_MEMORY) &&\r | |
534 | ((Hob.ResourceDescriptor->ResourceAttribute &\r | |
535 | (EFI_RESOURCE_ATTRIBUTE_READ_PROTECTED |\r | |
536 | EFI_RESOURCE_ATTRIBUTE_WRITE_PROTECTED |\r | |
537 | EFI_RESOURCE_ATTRIBUTE_EXECUTION_PROTECTED\r | |
538 | )) == 0)\r | |
539 | ) {\r | |
540 | //\r | |
541 | // Need memory under 1MB to be collected here\r | |
542 | //\r | |
543 | WakeupBufferEnd = (UINTN) (Hob.ResourceDescriptor->PhysicalStart + Hob.ResourceDescriptor->ResourceLength);\r | |
544 | if (WakeupBufferEnd > BASE_1MB) {\r | |
545 | //\r | |
546 | // Wakeup buffer should be under 1MB\r | |
547 | //\r | |
548 | WakeupBufferEnd = BASE_1MB;\r | |
549 | }\r | |
550 | //\r | |
551 | // Wakeup buffer should be aligned on 4KB\r | |
552 | //\r | |
553 | WakeupBufferStart = (WakeupBufferEnd - WakeupBufferSize) & ~(SIZE_4KB - 1);\r | |
554 | if (WakeupBufferStart < Hob.ResourceDescriptor->PhysicalStart) {\r | |
555 | continue;\r | |
556 | }\r | |
557 | //\r | |
558 | // Create a memory allocation HOB.\r | |
559 | //\r | |
560 | BuildMemoryAllocationHob (\r | |
561 | WakeupBufferStart,\r | |
562 | WakeupBufferSize,\r | |
563 | EfiBootServicesData\r | |
564 | );\r | |
565 | return WakeupBufferStart;\r | |
566 | }\r | |
567 | }\r | |
568 | //\r | |
569 | // Find the next HOB\r | |
570 | //\r | |
571 | Hob.Raw = GET_NEXT_HOB (Hob);\r | |
572 | }\r | |
573 | \r | |
574 | return (UINTN) -1;\r | |
575 | }\r | |
576 | \r | |
577 | /**\r | |
578 | Get available system memory below 1MB by specified size.\r | |
579 | \r | |
580 | @param PeiCpuMpData Pointer to PEI CPU MP Data\r | |
581 | **/\r | |
582 | VOID\r | |
583 | BackupAndPrepareWakeupBuffer(\r | |
584 | IN PEI_CPU_MP_DATA *PeiCpuMpData\r | |
585 | )\r | |
586 | {\r | |
587 | CopyMem (\r | |
588 | (VOID *) PeiCpuMpData->BackupBuffer,\r | |
589 | (VOID *) PeiCpuMpData->WakeupBuffer,\r | |
590 | PeiCpuMpData->BackupBufferSize\r | |
591 | );\r | |
592 | CopyMem (\r | |
593 | (VOID *) PeiCpuMpData->WakeupBuffer,\r | |
594 | (VOID *) PeiCpuMpData->AddressMap.RendezvousFunnelAddress,\r | |
595 | PeiCpuMpData->AddressMap.RendezvousFunnelSize\r | |
596 | );\r | |
597 | }\r | |
598 | \r | |
599 | /**\r | |
600 | Restore wakeup buffer data.\r | |
601 | \r | |
602 | @param PeiCpuMpData Pointer to PEI CPU MP Data\r | |
603 | **/\r | |
604 | VOID\r | |
605 | RestoreWakeupBuffer(\r | |
606 | IN PEI_CPU_MP_DATA *PeiCpuMpData\r | |
607 | )\r | |
608 | {\r | |
609 | CopyMem ((VOID *) PeiCpuMpData->WakeupBuffer, (VOID *) PeiCpuMpData->BackupBuffer, PeiCpuMpData->BackupBufferSize);\r | |
610 | }\r | |
611 | \r | |
612 | /**\r | |
613 | This function will get CPU count in the system.\r | |
614 | \r | |
615 | @param PeiCpuMpData Pointer to PEI CPU MP Data\r | |
616 | \r | |
617 | @return AP processor count\r | |
618 | **/\r | |
619 | UINT32\r | |
620 | CountProcessorNumber (\r | |
621 | IN PEI_CPU_MP_DATA *PeiCpuMpData\r | |
622 | )\r | |
623 | {\r | |
624 | //\r | |
625 | // Load Microcode on BSP\r | |
626 | //\r | |
627 | MicrocodeDetect ();\r | |
628 | //\r | |
629 | // Store BSP's MTRR setting\r | |
630 | //\r | |
631 | MtrrGetAllMtrrs (&PeiCpuMpData->MtrrTable);\r | |
944f45ae | 632 | \r |
ea0f431c | 633 | //\r |
944f45ae | 634 | // Only perform AP detection if PcdCpuMaxLogicalProcessorNumber is greater than 1\r |
ea0f431c | 635 | //\r |
944f45ae MK |
636 | if (PcdGet32 (PcdCpuMaxLogicalProcessorNumber) > 1) {\r |
637 | //\r | |
2f0261b7 | 638 | // Send 1st broadcast IPI to APs to wakeup APs\r |
944f45ae | 639 | //\r |
2f0261b7 JF |
640 | PeiCpuMpData->InitFlag = TRUE;\r |
641 | PeiCpuMpData->X2ApicEnable = FALSE;\r | |
944f45ae MK |
642 | WakeUpAP (PeiCpuMpData, TRUE, 0, NULL, NULL);\r |
643 | //\r | |
644 | // Wait for AP task to complete and then exit.\r | |
645 | //\r | |
646 | MicroSecondDelay (PcdGet32 (PcdCpuApInitTimeOutInMicroSeconds));\r | |
2f0261b7 | 647 | PeiCpuMpData->InitFlag = FALSE;\r |
944f45ae MK |
648 | PeiCpuMpData->CpuCount += (UINT32)PeiCpuMpData->MpCpuExchangeInfo->NumApsExecuting;\r |
649 | ASSERT (PeiCpuMpData->CpuCount <= PcdGet32 (PcdCpuMaxLogicalProcessorNumber));\r | |
650 | //\r | |
c7981a11 JF |
651 | // Wait for all APs finished the initialization\r |
652 | //\r | |
653 | while (PeiCpuMpData->FinishedCount < (PeiCpuMpData->CpuCount - 1)) {\r | |
654 | CpuPause ();\r | |
655 | }\r | |
656 | \r | |
657 | if (PeiCpuMpData->X2ApicEnable) {\r | |
658 | DEBUG ((EFI_D_INFO, "Force x2APIC mode!\n"));\r | |
659 | //\r | |
a09647f3 | 660 | // Wakeup all APs to enable x2APIC mode\r |
c7981a11 JF |
661 | //\r |
662 | WakeUpAP (PeiCpuMpData, TRUE, 0, ApFuncEnableX2Apic, NULL);\r | |
663 | //\r | |
664 | // Wait for all known APs finished\r | |
665 | //\r | |
666 | while (PeiCpuMpData->FinishedCount < (PeiCpuMpData->CpuCount - 1)) {\r | |
667 | CpuPause ();\r | |
668 | }\r | |
669 | //\r | |
670 | // Enable x2APIC on BSP\r | |
671 | //\r | |
672 | SetApicMode (LOCAL_APIC_MODE_X2APIC);\r | |
673 | }\r | |
674 | DEBUG ((EFI_D_INFO, "APIC MODE is %d\n", GetApicMode ()));\r | |
675 | //\r | |
944f45ae MK |
676 | // Sort BSP/Aps by CPU APIC ID in ascending order\r |
677 | //\r | |
678 | SortApicId (PeiCpuMpData);\r | |
679 | }\r | |
ea0f431c JF |
680 | \r |
681 | DEBUG ((EFI_D_INFO, "CpuMpPei: Find %d processors in system.\n", PeiCpuMpData->CpuCount));\r | |
682 | return PeiCpuMpData->CpuCount;\r | |
683 | }\r | |
684 | \r | |
685 | /**\r | |
686 | Prepare for AP wakeup buffer and copy AP reset code into it.\r | |
687 | \r | |
688 | Get wakeup buffer below 1MB. Allocate memory for CPU MP Data and APs Stack.\r | |
689 | \r | |
690 | @return Pointer to PEI CPU MP Data\r | |
691 | **/\r | |
692 | PEI_CPU_MP_DATA *\r | |
693 | PrepareAPStartupVector (\r | |
694 | VOID\r | |
695 | )\r | |
696 | {\r | |
697 | EFI_STATUS Status;\r | |
698 | UINT32 MaxCpuCount;\r | |
699 | PEI_CPU_MP_DATA *PeiCpuMpData;\r | |
700 | EFI_PHYSICAL_ADDRESS Buffer;\r | |
701 | UINTN BufferSize;\r | |
702 | UINTN WakeupBuffer;\r | |
703 | UINTN WakeupBufferSize;\r | |
704 | MP_ASSEMBLY_ADDRESS_MAP AddressMap;\r | |
e001e11f JF |
705 | UINT8 ApLoopMode;\r |
706 | UINT16 MonitorFilterSize;\r | |
707 | UINT8 *MonitorBuffer;\r | |
708 | UINTN Index;\r | |
ea0f431c JF |
709 | \r |
710 | AsmGetAddressMap (&AddressMap);\r | |
711 | WakeupBufferSize = AddressMap.RendezvousFunnelSize + sizeof (MP_CPU_EXCHANGE_INFO);\r | |
712 | WakeupBuffer = GetWakeupBuffer ((WakeupBufferSize + SIZE_4KB - 1) & ~(SIZE_4KB - 1));\r | |
713 | ASSERT (WakeupBuffer != (UINTN) -1);\r | |
714 | DEBUG ((EFI_D_INFO, "CpuMpPei: WakeupBuffer = 0x%x\n", WakeupBuffer));\r | |
715 | \r | |
716 | //\r | |
e001e11f JF |
717 | // Allocate Pages for APs stack, CPU MP Data, backup buffer for wakeup buffer,\r |
718 | // and monitor buffer if required.\r | |
ea0f431c JF |
719 | //\r |
720 | MaxCpuCount = PcdGet32(PcdCpuMaxLogicalProcessorNumber);\r | |
721 | BufferSize = PcdGet32 (PcdCpuApStackSize) * MaxCpuCount + sizeof (PEI_CPU_MP_DATA)\r | |
722 | + WakeupBufferSize + sizeof (PEI_CPU_DATA) * MaxCpuCount;\r | |
e001e11f JF |
723 | ApLoopMode = GetApLoopMode (&MonitorFilterSize);\r |
724 | BufferSize += MonitorFilterSize * MaxCpuCount;\r | |
ea0f431c JF |
725 | Status = PeiServicesAllocatePages (\r |
726 | EfiBootServicesData,\r | |
727 | EFI_SIZE_TO_PAGES (BufferSize),\r | |
728 | &Buffer\r | |
729 | );\r | |
730 | ASSERT_EFI_ERROR (Status);\r | |
731 | \r | |
732 | PeiCpuMpData = (PEI_CPU_MP_DATA *) (UINTN) (Buffer + PcdGet32 (PcdCpuApStackSize) * MaxCpuCount);\r | |
733 | PeiCpuMpData->Buffer = (UINTN) Buffer;\r | |
734 | PeiCpuMpData->CpuApStackSize = PcdGet32 (PcdCpuApStackSize);\r | |
735 | PeiCpuMpData->WakeupBuffer = WakeupBuffer;\r | |
736 | PeiCpuMpData->BackupBuffer = (UINTN)PeiCpuMpData + sizeof (PEI_CPU_MP_DATA);\r | |
737 | PeiCpuMpData->BackupBufferSize = WakeupBufferSize;\r | |
738 | PeiCpuMpData->MpCpuExchangeInfo = (MP_CPU_EXCHANGE_INFO *) (UINTN) (WakeupBuffer + AddressMap.RendezvousFunnelSize);\r | |
739 | \r | |
740 | PeiCpuMpData->CpuCount = 1;\r | |
741 | PeiCpuMpData->BspNumber = 0;\r | |
28f27af6 JF |
742 | PeiCpuMpData->CpuData = (PEI_CPU_DATA *) (PeiCpuMpData->BackupBuffer +\r |
743 | PeiCpuMpData->BackupBufferSize);\r | |
ea0f431c JF |
744 | PeiCpuMpData->CpuData[0].ApicId = GetInitialApicId ();\r |
745 | PeiCpuMpData->CpuData[0].Health.Uint32 = 0;\r | |
746 | PeiCpuMpData->EndOfPeiFlag = FALSE;\r | |
2f0261b7 | 747 | InitializeSpinLock(&PeiCpuMpData->MpLock);\r |
22cfe73a | 748 | SaveVolatileRegisters (&PeiCpuMpData->CpuData[0].VolatileRegisters);\r |
ea0f431c | 749 | CopyMem (&PeiCpuMpData->AddressMap, &AddressMap, sizeof (MP_ASSEMBLY_ADDRESS_MAP));\r |
e001e11f JF |
750 | //\r |
751 | // Initialize AP loop mode\r | |
752 | //\r | |
753 | PeiCpuMpData->ApLoopMode = ApLoopMode;\r | |
754 | DEBUG ((EFI_D_INFO, "AP Loop Mode is %d\n", PeiCpuMpData->ApLoopMode));\r | |
755 | MonitorBuffer = (UINT8 *)(PeiCpuMpData->CpuData + MaxCpuCount);\r | |
756 | if (PeiCpuMpData->ApLoopMode != ApInHltLoop) {\r | |
757 | //\r | |
758 | // Set up APs wakeup signal buffer\r | |
759 | //\r | |
760 | for (Index = 0; Index < MaxCpuCount; Index++) {\r | |
761 | PeiCpuMpData->CpuData[Index].StartupApSignal = \r | |
762 | (UINT32 *)(MonitorBuffer + MonitorFilterSize * Index);\r | |
763 | }\r | |
764 | }\r | |
ea0f431c JF |
765 | //\r |
766 | // Backup original data and copy AP reset code in it\r | |
767 | //\r | |
768 | BackupAndPrepareWakeupBuffer(PeiCpuMpData);\r | |
769 | \r | |
770 | return PeiCpuMpData;\r | |
771 | }\r | |
772 | \r | |
773 | /**\r | |
774 | Notify function on End Of Pei PPI.\r | |
775 | \r | |
776 | On S3 boot, this function will restore wakeup buffer data.\r | |
777 | On normal boot, this function will flag wakeup buffer to be un-used type.\r | |
778 | \r | |
779 | @param PeiServices The pointer to the PEI Services Table.\r | |
780 | @param NotifyDescriptor Address of the notification descriptor data structure.\r | |
781 | @param Ppi Address of the PPI that was installed.\r | |
782 | \r | |
783 | @retval EFI_SUCCESS When everything is OK.\r | |
784 | \r | |
785 | **/\r | |
786 | EFI_STATUS\r | |
787 | EFIAPI\r | |
788 | CpuMpEndOfPeiCallback (\r | |
789 | IN EFI_PEI_SERVICES **PeiServices,\r | |
790 | IN EFI_PEI_NOTIFY_DESCRIPTOR *NotifyDescriptor,\r | |
791 | IN VOID *Ppi\r | |
792 | )\r | |
793 | {\r | |
794 | EFI_STATUS Status;\r | |
795 | EFI_BOOT_MODE BootMode;\r | |
796 | PEI_CPU_MP_DATA *PeiCpuMpData;\r | |
797 | EFI_PEI_HOB_POINTERS Hob;\r | |
798 | EFI_HOB_MEMORY_ALLOCATION *MemoryHob;\r | |
799 | \r | |
c972495e | 800 | DEBUG ((EFI_D_INFO, "CpuMpPei: CpuMpEndOfPeiCallback () invoked\n"));\r |
ea0f431c JF |
801 | \r |
802 | Status = PeiServicesGetBootMode (&BootMode);\r | |
803 | ASSERT_EFI_ERROR (Status);\r | |
804 | \r | |
805 | PeiCpuMpData = GetMpHobData ();\r | |
806 | ASSERT (PeiCpuMpData != NULL);\r | |
807 | \r | |
808 | if (BootMode != BOOT_ON_S3_RESUME) {\r | |
809 | //\r | |
810 | // Get the HOB list for processing\r | |
811 | //\r | |
812 | Hob.Raw = GetHobList ();\r | |
813 | //\r | |
814 | // Collect memory ranges\r | |
815 | //\r | |
816 | while (!END_OF_HOB_LIST (Hob)) {\r | |
817 | if (Hob.Header->HobType == EFI_HOB_TYPE_MEMORY_ALLOCATION) {\r | |
818 | MemoryHob = Hob.MemoryAllocation;\r | |
819 | if(MemoryHob->AllocDescriptor.MemoryBaseAddress == PeiCpuMpData->WakeupBuffer) {\r | |
820 | //\r | |
821 | // Flag this HOB type to un-used\r | |
822 | //\r | |
823 | GET_HOB_TYPE (Hob) = EFI_HOB_TYPE_UNUSED;\r | |
824 | break;\r | |
825 | }\r | |
826 | }\r | |
827 | Hob.Raw = GET_NEXT_HOB (Hob);\r | |
828 | }\r | |
829 | } else {\r | |
830 | RestoreWakeupBuffer (PeiCpuMpData);\r | |
831 | PeiCpuMpData->EndOfPeiFlag = TRUE;\r | |
832 | }\r | |
833 | return EFI_SUCCESS;\r | |
834 | }\r | |
835 | \r | |
836 | /**\r | |
837 | The Entry point of the MP CPU PEIM.\r | |
838 | \r | |
839 | This function will wakeup APs and collect CPU AP count and install the\r | |
840 | Mp Service Ppi.\r | |
841 | \r | |
842 | @param FileHandle Handle of the file being invoked.\r | |
843 | @param PeiServices Describes the list of possible PEI Services.\r | |
844 | \r | |
845 | @retval EFI_SUCCESS MpServicePpi is installed successfully.\r | |
846 | \r | |
847 | **/\r | |
848 | EFI_STATUS\r | |
849 | EFIAPI\r | |
850 | CpuMpPeimInit (\r | |
851 | IN EFI_PEI_FILE_HANDLE FileHandle,\r | |
852 | IN CONST EFI_PEI_SERVICES **PeiServices\r | |
853 | )\r | |
854 | {\r | |
9bedfb2f JF |
855 | EFI_STATUS Status;\r |
856 | PEI_CPU_MP_DATA *PeiCpuMpData;\r | |
857 | EFI_VECTOR_HANDOFF_INFO *VectorInfo;\r | |
858 | EFI_PEI_VECTOR_HANDOFF_INFO_PPI *VectorHandoffInfoPpi;\r | |
ea0f431c JF |
859 | \r |
860 | //\r | |
861 | // Load new GDT table on BSP\r | |
862 | //\r | |
863 | AsmInitializeGdt (&mGdt);\r | |
864 | //\r | |
9bedfb2f JF |
865 | // Get Vector Hand-off Info PPI\r |
866 | //\r | |
867 | VectorInfo = NULL;\r | |
868 | Status = PeiServicesLocatePpi (\r | |
869 | &gEfiVectorHandoffInfoPpiGuid,\r | |
870 | 0,\r | |
871 | NULL,\r | |
872 | (VOID **)&VectorHandoffInfoPpi\r | |
873 | );\r | |
874 | if (Status == EFI_SUCCESS) {\r | |
875 | VectorInfo = VectorHandoffInfoPpi->Info;\r | |
876 | }\r | |
877 | Status = InitializeCpuExceptionHandlers (VectorInfo);\r | |
878 | ASSERT_EFI_ERROR (Status);\r | |
879 | //\r | |
ea0f431c JF |
880 | // Get wakeup buffer and copy AP reset code in it\r |
881 | //\r | |
882 | PeiCpuMpData = PrepareAPStartupVector ();\r | |
883 | //\r | |
884 | // Count processor number and collect processor information\r | |
885 | //\r | |
6c7f3f1d | 886 | CountProcessorNumber (PeiCpuMpData);\r |
ea0f431c JF |
887 | //\r |
888 | // Build location of PEI CPU MP DATA buffer in HOB\r | |
889 | //\r | |
890 | BuildGuidDataHob (\r | |
891 | &gEfiCallerIdGuid,\r | |
892 | (VOID *)&PeiCpuMpData,\r | |
893 | sizeof(UINT64)\r | |
894 | );\r | |
895 | //\r | |
896 | // Update and publish CPU BIST information\r | |
897 | //\r | |
898 | CollectBistDataFromPpi (PeiServices, PeiCpuMpData);\r | |
899 | //\r | |
900 | // register an event for EndOfPei\r | |
901 | //\r | |
902 | Status = PeiServicesNotifyPpi (&mNotifyList);\r | |
903 | ASSERT_EFI_ERROR (Status);\r | |
904 | //\r | |
905 | // Install CPU MP PPI\r | |
906 | //\r | |
907 | Status = PeiServicesInstallPpi(&mPeiCpuMpPpiDesc);\r | |
908 | ASSERT_EFI_ERROR (Status);\r | |
909 | \r | |
910 | return Status;\r | |
911 | }\r |