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c69dd9df | 1 | /*++\r |
2 | \r | |
b1f700a8 HT |
3 | Copyright (c) 2006 - 2010, Intel Corporation. All rights reserved.<BR>\r |
4 | This program and the accompanying materials \r | |
c69dd9df | 5 | are licensed and made available under the terms and conditions of the BSD License \r |
6 | which accompanies this distribution. The full text of the license may be found at \r | |
7 | http://opensource.org/licenses/bsd-license.php \r | |
8 | \r | |
9 | THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, \r | |
10 | WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. \r | |
11 | \r | |
12 | Module Name:\r | |
13 | \r | |
14 | BdsPlatform.c\r | |
15 | \r | |
16 | Abstract:\r | |
17 | \r | |
18 | This file include all platform action which can be customized\r | |
19 | by IBV/OEM.\r | |
20 | \r | |
21 | --*/\r | |
22 | \r | |
23 | #include "BdsPlatform.h"\r | |
24 | \r | |
25 | #define IS_PCI_ISA_PDECODE(_p) IS_CLASS3 (_p, PCI_CLASS_BRIDGE, PCI_CLASS_BRIDGE_ISA_PDECODE, 0)\r | |
26 | \r | |
c69dd9df | 27 | extern BOOLEAN gConnectAllHappened;\r |
28 | extern USB_CLASS_FORMAT_DEVICE_PATH gUsbClassKeyboardDevicePath;\r | |
9e65d5e9 | 29 | \r |
30 | EFI_GUID *gTableGuidArray[] = {\r | |
31 | &gEfiAcpi20TableGuid, &gEfiAcpiTableGuid, &gEfiSmbiosTableGuid, &gEfiMpsTableGuid\r | |
32 | };\r | |
33 | \r | |
c69dd9df | 34 | //\r |
35 | // BDS Platform Functions\r | |
36 | //\r | |
37 | \r | |
38 | VOID\r | |
39 | GetSystemTablesFromHob (\r | |
40 | VOID\r | |
41 | )\r | |
42 | /*++\r | |
43 | \r | |
44 | Routine Description:\r | |
45 | Find GUID'ed HOBs that contain EFI_PHYSICAL_ADDRESS of ACPI, SMBIOS, MPs tables\r | |
46 | \r | |
47 | Arguments:\r | |
48 | None\r | |
49 | \r | |
50 | Returns:\r | |
51 | None.\r | |
52 | \r | |
53 | --*/\r | |
54 | {\r | |
e5653d94 | 55 | EFI_PEI_HOB_POINTERS GuidHob;\r |
56 | EFI_PEI_HOB_POINTERS HobStart;\r | |
c69dd9df | 57 | EFI_PHYSICAL_ADDRESS *Table;\r |
58 | UINTN Index;\r | |
c69dd9df | 59 | \r |
60 | //\r | |
61 | // Get Hob List\r | |
62 | //\r | |
e5653d94 | 63 | HobStart.Raw = GetHobList ();\r |
c69dd9df | 64 | //\r |
65 | // Iteratively add ACPI Table, SMBIOS Table, MPS Table to EFI System Table\r | |
66 | //\r | |
9e65d5e9 | 67 | for (Index = 0; Index < sizeof (gTableGuidArray) / sizeof (*gTableGuidArray); ++Index) {\r |
68 | GuidHob.Raw = GetNextGuidHob (gTableGuidArray[Index], HobStart.Raw);\r | |
e5653d94 | 69 | if (GuidHob.Raw != NULL) {\r |
70 | Table = GET_GUID_HOB_DATA (GuidHob.Guid);\r | |
c69dd9df | 71 | if (Table != NULL) {\r |
72 | //\r | |
73 | // Check if Mps Table/Smbios Table/Acpi Table exists in E/F seg,\r | |
74 | // According to UEFI Spec, we should make sure Smbios table, \r | |
75 | // ACPI table and Mps tables kept in memory of specified type\r | |
76 | //\r | |
9e65d5e9 | 77 | ConvertSystemTable(gTableGuidArray[Index], (VOID**)&Table);\r |
78 | gBS->InstallConfigurationTable (gTableGuidArray[Index], (VOID *)Table);\r | |
c69dd9df | 79 | }\r |
80 | }\r | |
81 | }\r | |
82 | \r | |
83 | return ;\r | |
84 | }\r | |
85 | \r | |
86 | #define EFI_LDR_MEMORY_DESCRIPTOR_GUID \\r | |
d8bee43c | 87 | { 0x7701d7e5, 0x7d1d, 0x4432, {0xa4, 0x68, 0x67, 0x3d, 0xab, 0x8a, 0xde, 0x60 }}\r |
c69dd9df | 88 | \r |
89 | EFI_GUID gEfiLdrMemoryDescriptorGuid = EFI_LDR_MEMORY_DESCRIPTOR_GUID;\r | |
90 | \r | |
91 | #pragma pack(1)\r | |
92 | \r | |
93 | typedef struct {\r | |
94 | EFI_HOB_GUID_TYPE Hob;\r | |
95 | UINTN MemDescCount;\r | |
96 | EFI_MEMORY_DESCRIPTOR *MemDesc;\r | |
97 | } MEMORY_DESC_HOB;\r | |
98 | \r | |
99 | #pragma pack()\r | |
100 | \r | |
101 | #if 0\r | |
102 | VOID\r | |
103 | PrintMemoryMap (\r | |
104 | VOID\r | |
105 | )\r | |
106 | {\r | |
107 | EFI_MEMORY_DESCRIPTOR *MemMap;\r | |
108 | EFI_MEMORY_DESCRIPTOR *MemMapPtr;\r | |
109 | UINTN MemMapSize;\r | |
110 | UINTN MapKey, DescriptorSize;\r | |
111 | UINTN Index;\r | |
112 | UINT32 DescriptorVersion;\r | |
113 | UINT64 Bytes;\r | |
114 | EFI_STATUS Status;\r | |
115 | \r | |
116 | MemMapSize = 0;\r | |
117 | MemMap = NULL;\r | |
118 | Status = gBS->GetMemoryMap (&MemMapSize, MemMap, &MapKey, &DescriptorSize, &DescriptorVersion);\r | |
119 | ASSERT (Status == EFI_BUFFER_TOO_SMALL);\r | |
120 | MemMapSize += EFI_PAGE_SIZE;\r | |
121 | Status = gBS->AllocatePool (EfiBootServicesData, MemMapSize, &MemMap);\r | |
122 | ASSERT (Status == EFI_SUCCESS);\r | |
123 | Status = gBS->GetMemoryMap (&MemMapSize, MemMap, &MapKey, &DescriptorSize, &DescriptorVersion);\r | |
124 | ASSERT (Status == EFI_SUCCESS);\r | |
125 | MemMapPtr = MemMap;\r | |
126 | \r | |
127 | ASSERT (DescriptorVersion == EFI_MEMORY_DESCRIPTOR_VERSION);\r | |
128 | \r | |
129 | for (Index = 0; Index < MemMapSize / DescriptorSize; Index ++) {\r | |
130 | Bytes = LShiftU64 (MemMap->NumberOfPages, 12);\r | |
131 | DEBUG ((EFI_D_ERROR, "%lX-%lX %lX %lX %X\n",\r | |
132 | MemMap->PhysicalStart, \r | |
133 | MemMap->PhysicalStart + Bytes - 1,\r | |
134 | MemMap->NumberOfPages, \r | |
135 | MemMap->Attribute,\r | |
136 | (UINTN)MemMap->Type));\r | |
137 | MemMap = (EFI_MEMORY_DESCRIPTOR *)((UINTN)MemMap + DescriptorSize);\r | |
138 | }\r | |
139 | \r | |
140 | gBS->FreePool (MemMapPtr);\r | |
141 | }\r | |
142 | #endif\r | |
143 | \r | |
144 | VOID\r | |
145 | UpdateMemoryMap (\r | |
146 | VOID\r | |
147 | )\r | |
148 | {\r | |
d569cbb0 | 149 | EFI_STATUS Status;\r |
150 | EFI_PEI_HOB_POINTERS GuidHob;\r | |
151 | VOID *Table;\r | |
152 | MEMORY_DESC_HOB MemoryDescHob;\r | |
153 | UINTN Index;\r | |
154 | EFI_PHYSICAL_ADDRESS Memory;\r | |
155 | EFI_GCD_MEMORY_SPACE_DESCRIPTOR Descriptor;\r | |
e5653d94 | 156 | \r |
fa8a1af2 | 157 | GuidHob.Raw = GetFirstGuidHob (&gEfiLdrMemoryDescriptorGuid);\r |
e5653d94 | 158 | if (GuidHob.Raw == NULL) {\r |
159 | DEBUG ((EFI_D_ERROR, "Fail to get gEfiLdrMemoryDescriptorGuid from GUID HOB LIST!\n"));\r | |
160 | return;\r | |
161 | }\r | |
162 | Table = GET_GUID_HOB_DATA (GuidHob.Guid);\r | |
163 | if (Table == NULL) {\r | |
164 | DEBUG ((EFI_D_ERROR, "Fail to get gEfiLdrMemoryDescriptorGuid from GUID HOB LIST!\n"));\r | |
c69dd9df | 165 | return;\r |
166 | }\r | |
c69dd9df | 167 | MemoryDescHob.MemDescCount = *(UINTN *)Table;\r |
168 | MemoryDescHob.MemDesc = *(EFI_MEMORY_DESCRIPTOR **)((UINTN)Table + sizeof(UINTN));\r | |
169 | \r | |
170 | //\r | |
171 | // Add ACPINVS, ACPIReclaim, and Reserved memory to MemoryMap\r | |
172 | //\r | |
173 | for (Index = 0; Index < MemoryDescHob.MemDescCount; Index++) {\r | |
174 | if (MemoryDescHob.MemDesc[Index].PhysicalStart < 0x100000) {\r | |
175 | continue;\r | |
176 | }\r | |
d8bee43c | 177 | if (MemoryDescHob.MemDesc[Index].PhysicalStart >= 0x100000000ULL) {\r |
c69dd9df | 178 | continue;\r |
179 | }\r | |
180 | if ((MemoryDescHob.MemDesc[Index].Type == EfiReservedMemoryType) ||\r | |
181 | (MemoryDescHob.MemDesc[Index].Type == EfiRuntimeServicesData) ||\r | |
182 | (MemoryDescHob.MemDesc[Index].Type == EfiRuntimeServicesCode) ||\r | |
183 | (MemoryDescHob.MemDesc[Index].Type == EfiACPIReclaimMemory) ||\r | |
184 | (MemoryDescHob.MemDesc[Index].Type == EfiACPIMemoryNVS)) {\r | |
d569cbb0 | 185 | DEBUG ((EFI_D_ERROR, "PhysicalStart - 0x%016lx, ", MemoryDescHob.MemDesc[Index].PhysicalStart));\r |
186 | DEBUG ((EFI_D_ERROR, "PageNumber - 0x%016lx, ", MemoryDescHob.MemDesc[Index].NumberOfPages));\r | |
187 | DEBUG ((EFI_D_ERROR, "Attribute - 0x%016lx, ", MemoryDescHob.MemDesc[Index].Attribute));\r | |
188 | DEBUG ((EFI_D_ERROR, "Type - 0x%08x\n", MemoryDescHob.MemDesc[Index].Type));\r | |
c69dd9df | 189 | if ((MemoryDescHob.MemDesc[Index].Type == EfiRuntimeServicesData) ||\r |
190 | (MemoryDescHob.MemDesc[Index].Type == EfiRuntimeServicesCode)) {\r | |
191 | //\r | |
d569cbb0 | 192 | // For RuntimeSevicesData and RuntimeServicesCode, they are BFV or DxeCore.\r |
193 | // The memory type is assigned in EfiLdr\r | |
194 | //\r | |
195 | Status = gDS->GetMemorySpaceDescriptor (MemoryDescHob.MemDesc[Index].PhysicalStart, &Descriptor);\r | |
196 | if (EFI_ERROR (Status)) {\r | |
197 | continue;\r | |
198 | }\r | |
199 | if (Descriptor.GcdMemoryType != EfiGcdMemoryTypeReserved) {\r | |
200 | //\r | |
201 | // BFV or tested DXE core\r | |
202 | //\r | |
203 | continue;\r | |
204 | }\r | |
205 | //\r | |
206 | // Untested DXE Core region, free and remove\r | |
207 | //\r | |
208 | Status = gDS->FreeMemorySpace (\r | |
209 | MemoryDescHob.MemDesc[Index].PhysicalStart,\r | |
210 | LShiftU64 (MemoryDescHob.MemDesc[Index].NumberOfPages, EFI_PAGE_SHIFT)\r | |
211 | );\r | |
212 | if (EFI_ERROR (Status)) {\r | |
213 | DEBUG ((EFI_D_ERROR, "FreeMemorySpace fail - %r!\n", Status));\r | |
214 | continue;\r | |
215 | }\r | |
216 | Status = gDS->RemoveMemorySpace (\r | |
217 | MemoryDescHob.MemDesc[Index].PhysicalStart,\r | |
218 | LShiftU64 (MemoryDescHob.MemDesc[Index].NumberOfPages, EFI_PAGE_SHIFT)\r | |
219 | );\r | |
220 | if (EFI_ERROR (Status)) {\r | |
221 | DEBUG ((EFI_D_ERROR, "RemoveMemorySpace fail - %r!\n", Status));\r | |
222 | continue;\r | |
223 | }\r | |
224 | \r | |
225 | //\r | |
226 | // Convert Runtime type to BootTime type\r | |
227 | //\r | |
228 | if (MemoryDescHob.MemDesc[Index].Type == EfiRuntimeServicesData) {\r | |
229 | MemoryDescHob.MemDesc[Index].Type = EfiBootServicesData;\r | |
230 | } else {\r | |
231 | MemoryDescHob.MemDesc[Index].Type = EfiBootServicesCode;\r | |
232 | }\r | |
233 | \r | |
234 | //\r | |
235 | // PassThrough, let below code add and alloate.\r | |
c69dd9df | 236 | //\r |
c69dd9df | 237 | }\r |
d569cbb0 | 238 | //\r |
239 | // ACPI or reserved memory\r | |
240 | //\r | |
c69dd9df | 241 | Status = gDS->AddMemorySpace (\r |
242 | EfiGcdMemoryTypeSystemMemory,\r | |
243 | MemoryDescHob.MemDesc[Index].PhysicalStart,\r | |
244 | LShiftU64 (MemoryDescHob.MemDesc[Index].NumberOfPages, EFI_PAGE_SHIFT),\r | |
245 | MemoryDescHob.MemDesc[Index].Attribute\r | |
246 | );\r | |
247 | if (EFI_ERROR (Status)) {\r | |
d569cbb0 | 248 | DEBUG ((EFI_D_ERROR, "AddMemorySpace fail - %r!\n", Status));\r |
c69dd9df | 249 | if ((MemoryDescHob.MemDesc[Index].Type == EfiACPIReclaimMemory) ||\r |
250 | (MemoryDescHob.MemDesc[Index].Type == EfiACPIMemoryNVS)) {\r | |
251 | //\r | |
252 | // For EfiACPIReclaimMemory and EfiACPIMemoryNVS, it must success.\r | |
253 | // For EfiReservedMemoryType, there maybe overlap. So skip check here.\r | |
254 | //\r | |
255 | // ASSERT_EFI_ERROR (Status);\r | |
256 | }\r | |
257 | continue;\r | |
258 | }\r | |
259 | \r | |
260 | Memory = MemoryDescHob.MemDesc[Index].PhysicalStart;\r | |
261 | Status = gBS->AllocatePages (\r | |
262 | AllocateAddress,\r | |
e188a609 | 263 | (EFI_MEMORY_TYPE)MemoryDescHob.MemDesc[Index].Type,\r |
c69dd9df | 264 | (UINTN)MemoryDescHob.MemDesc[Index].NumberOfPages,\r |
265 | &Memory\r | |
266 | );\r | |
267 | if (EFI_ERROR (Status)) {\r | |
d569cbb0 | 268 | DEBUG ((EFI_D_ERROR, "AllocatePages fail - %r!\n", Status));\r |
c69dd9df | 269 | //\r |
270 | // For the page added, it must be allocated.\r | |
271 | //\r | |
272 | // ASSERT_EFI_ERROR (Status);\r | |
273 | continue;\r | |
274 | }\r | |
275 | }\r | |
276 | }\r | |
277 | \r | |
278 | }\r | |
279 | \r | |
280 | EFI_STATUS\r | |
281 | DisableUsbLegacySupport(\r | |
282 | void\r | |
283 | )\r | |
284 | /*++\r | |
285 | \r | |
286 | Routine Description:\r | |
287 | Disabble the USB legacy Support in all Ehci and Uhci.\r | |
288 | This function assume all PciIo handles have been created in system.\r | |
289 | \r | |
290 | Arguments:\r | |
291 | None\r | |
292 | \r | |
293 | Returns:\r | |
294 | EFI_SUCCESS\r | |
295 | EFI_NOT_FOUND\r | |
296 | --*/\r | |
297 | {\r | |
298 | EFI_STATUS Status;\r | |
299 | EFI_HANDLE *HandleArray;\r | |
300 | UINTN HandleArrayCount;\r | |
301 | UINTN Index;\r | |
302 | EFI_PCI_IO_PROTOCOL *PciIo;\r | |
303 | UINT8 Class[3];\r | |
304 | UINT16 Command;\r | |
305 | UINT32 HcCapParams;\r | |
306 | UINT32 ExtendCap;\r | |
307 | UINT32 Value;\r | |
308 | UINT32 TimeOut;\r | |
309 | \r | |
310 | //\r | |
311 | // Find the usb host controller \r | |
312 | // \r | |
313 | Status = gBS->LocateHandleBuffer (\r | |
314 | ByProtocol,\r | |
315 | &gEfiPciIoProtocolGuid,\r | |
316 | NULL,\r | |
317 | &HandleArrayCount,\r | |
318 | &HandleArray\r | |
319 | );\r | |
320 | if (!EFI_ERROR (Status)) {\r | |
321 | for (Index = 0; Index < HandleArrayCount; Index++) {\r | |
322 | Status = gBS->HandleProtocol (\r | |
323 | HandleArray[Index],\r | |
324 | &gEfiPciIoProtocolGuid,\r | |
325 | (VOID **)&PciIo\r | |
326 | );\r | |
327 | if (!EFI_ERROR (Status)) {\r | |
328 | //\r | |
329 | // Find the USB host controller controller\r | |
330 | //\r | |
331 | Status = PciIo->Pci.Read (PciIo, EfiPciIoWidthUint8, 0x09, 3, &Class);\r | |
332 | if (!EFI_ERROR (Status)) {\r | |
333 | if ((PCI_CLASS_SERIAL == Class[2]) &&\r | |
334 | (PCI_CLASS_SERIAL_USB == Class[1])) {\r | |
1a573c7e | 335 | if (PCI_IF_UHCI == Class[0]) {\r |
c69dd9df | 336 | //\r |
337 | // Found the UHCI, then disable the legacy support\r | |
338 | //\r | |
339 | Command = 0;\r | |
340 | Status = PciIo->Pci.Write (PciIo, EfiPciIoWidthUint16, 0xC0, 1, &Command);\r | |
1a573c7e | 341 | } else if (PCI_IF_EHCI == Class[0]) {\r |
c69dd9df | 342 | //\r |
343 | // Found the EHCI, then disable the legacy support\r | |
344 | //\r | |
345 | Status = PciIo->Mem.Read (\r | |
346 | PciIo,\r | |
347 | EfiPciIoWidthUint32,\r | |
348 | 0, //EHC_BAR_INDEX\r | |
349 | (UINT64) 0x08, //EHC_HCCPARAMS_OFFSET\r | |
350 | 1,\r | |
351 | &HcCapParams\r | |
352 | );\r | |
353 | \r | |
354 | ExtendCap = (HcCapParams >> 8) & 0xFF;\r | |
355 | //\r | |
356 | // Disable the SMI in USBLEGCTLSTS firstly\r | |
357 | //\r | |
358 | PciIo->Pci.Read (PciIo, EfiPciIoWidthUint32, ExtendCap + 0x4, 1, &Value);\r | |
359 | Value &= 0xFFFF0000;\r | |
360 | PciIo->Pci.Write (PciIo, EfiPciIoWidthUint32, ExtendCap + 0x4, 1, &Value);\r | |
361 | \r | |
362 | //\r | |
363 | // Get EHCI Ownership from legacy bios\r | |
364 | //\r | |
365 | PciIo->Pci.Read (PciIo, EfiPciIoWidthUint32, ExtendCap, 1, &Value);\r | |
366 | Value |= (0x1 << 24);\r | |
367 | PciIo->Pci.Write (PciIo, EfiPciIoWidthUint32, ExtendCap, 1, &Value);\r | |
368 | \r | |
369 | TimeOut = 40;\r | |
370 | while (TimeOut--) {\r | |
371 | gBS->Stall (500);\r | |
372 | \r | |
373 | PciIo->Pci.Read (PciIo, EfiPciIoWidthUint32, ExtendCap, 1, &Value);\r | |
374 | \r | |
375 | if ((Value & 0x01010000) == 0x01000000) {\r | |
376 | break;\r | |
377 | }\r | |
378 | }\r | |
379 | }\r | |
380 | } \r | |
381 | }\r | |
382 | }\r | |
383 | }\r | |
384 | } else {\r | |
385 | return Status;\r | |
386 | }\r | |
387 | gBS->FreePool (HandleArray);\r | |
388 | return EFI_SUCCESS;\r | |
389 | }\r | |
390 | \r | |
391 | \r | |
392 | VOID\r | |
20fac443 | 393 | EFIAPI\r |
c69dd9df | 394 | PlatformBdsInit (\r |
20fac443 | 395 | VOID\r |
c69dd9df | 396 | )\r |
397 | /*++\r | |
398 | \r | |
399 | Routine Description:\r | |
400 | \r | |
401 | Platform Bds init. Incude the platform firmware vendor, revision\r | |
402 | and so crc check.\r | |
403 | \r | |
404 | Arguments:\r | |
405 | \r | |
c69dd9df | 406 | Returns:\r |
407 | \r | |
408 | None.\r | |
409 | \r | |
410 | --*/\r | |
411 | {\r | |
e5653d94 | 412 | GetSystemTablesFromHob ();\r |
413 | \r | |
414 | UpdateMemoryMap ();\r | |
415 | \r | |
416 | //\r | |
417 | // Append Usb Keyboard short form DevicePath into "ConInDev" \r | |
418 | //\r | |
419 | BdsLibUpdateConsoleVariable (\r | |
420 | VarConsoleInpDev,\r | |
421 | (EFI_DEVICE_PATH_PROTOCOL *) &gUsbClassKeyboardDevicePath,\r | |
422 | NULL\r | |
423 | );\r | |
c69dd9df | 424 | }\r |
425 | \r | |
426 | UINT64\r | |
427 | GetPciExpressBaseAddressForRootBridge (\r | |
428 | IN UINTN HostBridgeNumber,\r | |
429 | IN UINTN RootBridgeNumber\r | |
430 | )\r | |
431 | /*++\r | |
432 | \r | |
433 | Routine Description:\r | |
434 | This routine is to get PciExpress Base Address for this RootBridge\r | |
435 | \r | |
436 | Arguments:\r | |
437 | HostBridgeNumber - The number of HostBridge\r | |
438 | RootBridgeNumber - The number of RootBridge\r | |
439 | \r | |
440 | Returns:\r | |
441 | UINT64 - PciExpressBaseAddress for this HostBridge and RootBridge\r | |
442 | \r | |
443 | --*/\r | |
444 | {\r | |
445 | EFI_PCI_EXPRESS_BASE_ADDRESS_INFORMATION *PciExpressBaseAddressInfo;\r | |
446 | UINTN BufferSize;\r | |
447 | UINT32 Index;\r | |
448 | UINT32 Number;\r | |
e5653d94 | 449 | EFI_PEI_HOB_POINTERS GuidHob;\r |
c69dd9df | 450 | \r |
c69dd9df | 451 | //\r |
452 | // Get PciExpressAddressInfo Hob\r | |
453 | //\r | |
5b8adaa5 | 454 | PciExpressBaseAddressInfo = NULL;\r |
455 | BufferSize = 0;\r | |
456 | GuidHob.Raw = GetFirstGuidHob (&gEfiPciExpressBaseAddressGuid);\r | |
457 | if (GuidHob.Raw != NULL) {\r | |
458 | PciExpressBaseAddressInfo = GET_GUID_HOB_DATA (GuidHob.Guid);\r | |
459 | BufferSize = GET_GUID_HOB_DATA_SIZE (GuidHob.Guid);\r | |
460 | } else {\r | |
e5653d94 | 461 | return 0;\r |
462 | }\r | |
c69dd9df | 463 | \r |
464 | //\r | |
465 | // Search the PciExpress Base Address in the Hob for current RootBridge\r | |
466 | //\r | |
467 | Number = (UINT32)(BufferSize / sizeof(EFI_PCI_EXPRESS_BASE_ADDRESS_INFORMATION));\r | |
468 | for (Index = 0; Index < Number; Index++) {\r | |
469 | if ((PciExpressBaseAddressInfo[Index].HostBridgeNumber == HostBridgeNumber) &&\r | |
470 | (PciExpressBaseAddressInfo[Index].RootBridgeNumber == RootBridgeNumber)) {\r | |
471 | return PciExpressBaseAddressInfo[Index].PciExpressBaseAddress;\r | |
472 | }\r | |
473 | }\r | |
474 | \r | |
475 | //\r | |
476 | // Do not find the PciExpress Base Address in the Hob\r | |
477 | //\r | |
5b8adaa5 | 478 | return 0; \r |
c69dd9df | 479 | }\r |
480 | \r | |
481 | VOID\r | |
482 | PatchPciRootBridgeDevicePath (\r | |
483 | IN UINTN HostBridgeNumber,\r | |
484 | IN UINTN RootBridgeNumber,\r | |
485 | IN PLATFORM_ROOT_BRIDGE_DEVICE_PATH *RootBridge\r | |
486 | )\r | |
487 | {\r | |
488 | UINT64 PciExpressBase;\r | |
489 | \r | |
490 | PciExpressBase = GetPciExpressBaseAddressForRootBridge (HostBridgeNumber, RootBridgeNumber);\r | |
5b8adaa5 | 491 | \r |
492 | DEBUG ((EFI_D_INFO, "Get PciExpress Address from Hob: 0x%X\n", PciExpressBase));\r | |
493 | \r | |
c69dd9df | 494 | if (PciExpressBase != 0) {\r |
495 | RootBridge->PciRootBridge.HID = EISA_PNP_ID(0x0A08);\r | |
496 | }\r | |
497 | }\r | |
498 | \r | |
499 | EFI_STATUS\r | |
500 | ConnectRootBridge (\r | |
501 | VOID\r | |
502 | )\r | |
503 | /*++\r | |
504 | \r | |
505 | Routine Description:\r | |
506 | \r | |
507 | Connect RootBridge\r | |
508 | \r | |
509 | Arguments:\r | |
510 | \r | |
511 | None.\r | |
512 | \r | |
513 | Returns:\r | |
514 | \r | |
515 | EFI_SUCCESS - Connect RootBridge successfully.\r | |
516 | EFI_STATUS - Connect RootBridge fail.\r | |
517 | \r | |
518 | --*/\r | |
519 | {\r | |
520 | EFI_STATUS Status;\r | |
521 | EFI_HANDLE RootHandle;\r | |
522 | \r | |
523 | //\r | |
524 | // Patch Pci Root Bridge Device Path\r | |
525 | //\r | |
526 | PatchPciRootBridgeDevicePath (0, 0, &gPlatformRootBridge0);\r | |
527 | \r | |
528 | //\r | |
529 | // Make all the PCI_IO protocols on PCI Seg 0 show up\r | |
530 | //\r | |
531 | BdsLibConnectDevicePath (gPlatformRootBridges[0]);\r | |
532 | \r | |
533 | Status = gBS->LocateDevicePath (\r | |
534 | &gEfiDevicePathProtocolGuid, \r | |
535 | &gPlatformRootBridges[0], \r | |
536 | &RootHandle\r | |
537 | );\r | |
5b8adaa5 | 538 | DEBUG ((EFI_D_INFO, "Pci Root bridge handle is 0x%X\n", RootHandle));\r |
539 | \r | |
c69dd9df | 540 | if (EFI_ERROR (Status)) {\r |
541 | return Status;\r | |
542 | }\r | |
543 | \r | |
544 | Status = gBS->ConnectController (RootHandle, NULL, NULL, FALSE);\r | |
545 | if (EFI_ERROR (Status)) {\r | |
546 | return Status;\r | |
547 | }\r | |
548 | \r | |
549 | return EFI_SUCCESS;\r | |
550 | }\r | |
551 | \r | |
552 | EFI_STATUS\r | |
553 | PrepareLpcBridgeDevicePath (\r | |
554 | IN EFI_HANDLE DeviceHandle\r | |
555 | )\r | |
556 | /*++\r | |
557 | \r | |
558 | Routine Description:\r | |
559 | \r | |
560 | Add IsaKeyboard to ConIn,\r | |
561 | add IsaSerial to ConOut, ConIn, ErrOut.\r | |
562 | LPC Bridge: 06 01 00\r | |
563 | \r | |
564 | Arguments:\r | |
565 | \r | |
566 | DeviceHandle - Handle of PCIIO protocol.\r | |
567 | \r | |
568 | Returns:\r | |
569 | \r | |
570 | EFI_SUCCESS - LPC bridge is added to ConOut, ConIn, and ErrOut.\r | |
571 | EFI_STATUS - No LPC bridge is added.\r | |
572 | \r | |
573 | --*/\r | |
574 | {\r | |
575 | EFI_STATUS Status;\r | |
576 | EFI_DEVICE_PATH_PROTOCOL *DevicePath;\r | |
577 | EFI_DEVICE_PATH_PROTOCOL *TempDevicePath;\r | |
578 | \r | |
579 | DevicePath = NULL;\r | |
580 | Status = gBS->HandleProtocol (\r | |
581 | DeviceHandle,\r | |
582 | &gEfiDevicePathProtocolGuid,\r | |
d8bee43c | 583 | (VOID*)&DevicePath\r |
c69dd9df | 584 | );\r |
585 | if (EFI_ERROR (Status)) {\r | |
586 | return Status;\r | |
587 | }\r | |
588 | TempDevicePath = DevicePath;\r | |
589 | \r | |
590 | //\r | |
591 | // Register Keyboard\r | |
592 | //\r | |
593 | DevicePath = AppendDevicePathNode (DevicePath, (EFI_DEVICE_PATH_PROTOCOL *)&gPnpPs2KeyboardDeviceNode);\r | |
594 | \r | |
595 | BdsLibUpdateConsoleVariable (VarConsoleInp, DevicePath, NULL);\r | |
596 | \r | |
597 | //\r | |
598 | // Register COM1\r | |
599 | //\r | |
600 | DevicePath = TempDevicePath;\r | |
601 | gPnp16550ComPortDeviceNode.UID = 0;\r | |
602 | \r | |
603 | DevicePath = AppendDevicePathNode (DevicePath, (EFI_DEVICE_PATH_PROTOCOL *)&gPnp16550ComPortDeviceNode);\r | |
604 | DevicePath = AppendDevicePathNode (DevicePath, (EFI_DEVICE_PATH_PROTOCOL *)&gUartDeviceNode);\r | |
605 | DevicePath = AppendDevicePathNode (DevicePath, (EFI_DEVICE_PATH_PROTOCOL *)&gTerminalTypeDeviceNode);\r | |
606 | \r | |
607 | BdsLibUpdateConsoleVariable (VarConsoleOut, DevicePath, NULL);\r | |
608 | BdsLibUpdateConsoleVariable (VarConsoleInp, DevicePath, NULL);\r | |
609 | BdsLibUpdateConsoleVariable (VarErrorOut, DevicePath, NULL);\r | |
610 | \r | |
611 | //\r | |
612 | // Register COM2\r | |
613 | //\r | |
614 | DevicePath = TempDevicePath;\r | |
615 | gPnp16550ComPortDeviceNode.UID = 1;\r | |
616 | \r | |
617 | DevicePath = AppendDevicePathNode (DevicePath, (EFI_DEVICE_PATH_PROTOCOL *)&gPnp16550ComPortDeviceNode);\r | |
618 | DevicePath = AppendDevicePathNode (DevicePath, (EFI_DEVICE_PATH_PROTOCOL *)&gUartDeviceNode);\r | |
619 | DevicePath = AppendDevicePathNode (DevicePath, (EFI_DEVICE_PATH_PROTOCOL *)&gTerminalTypeDeviceNode);\r | |
620 | \r | |
621 | BdsLibUpdateConsoleVariable (VarConsoleOut, DevicePath, NULL);\r | |
622 | BdsLibUpdateConsoleVariable (VarConsoleInp, DevicePath, NULL);\r | |
623 | BdsLibUpdateConsoleVariable (VarErrorOut, DevicePath, NULL);\r | |
624 | \r | |
625 | return EFI_SUCCESS;\r | |
626 | }\r | |
627 | \r | |
c69dd9df | 628 | EFI_STATUS\r |
629 | GetGopDevicePath (\r | |
630 | IN EFI_DEVICE_PATH_PROTOCOL *PciDevicePath,\r | |
631 | OUT EFI_DEVICE_PATH_PROTOCOL **GopDevicePath\r | |
632 | )\r | |
633 | {\r | |
634 | UINTN Index;\r | |
635 | EFI_STATUS Status;\r | |
636 | EFI_HANDLE PciDeviceHandle;\r | |
637 | EFI_DEVICE_PATH_PROTOCOL *TempDevicePath;\r | |
638 | EFI_DEVICE_PATH_PROTOCOL *TempPciDevicePath;\r | |
639 | UINTN GopHandleCount;\r | |
640 | EFI_HANDLE *GopHandleBuffer;\r | |
641 | \r | |
642 | if (PciDevicePath == NULL || GopDevicePath == NULL) {\r | |
643 | return EFI_INVALID_PARAMETER;\r | |
644 | }\r | |
645 | \r | |
646 | //\r | |
647 | // Initialize the GopDevicePath to be PciDevicePath\r | |
648 | //\r | |
649 | *GopDevicePath = PciDevicePath;\r | |
650 | TempPciDevicePath = PciDevicePath;\r | |
651 | \r | |
652 | Status = gBS->LocateDevicePath (\r | |
653 | &gEfiDevicePathProtocolGuid,\r | |
654 | &TempPciDevicePath,\r | |
655 | &PciDeviceHandle\r | |
656 | );\r | |
657 | if (EFI_ERROR (Status)) {\r | |
658 | return Status;\r | |
659 | }\r | |
660 | \r | |
661 | //\r | |
662 | // Try to connect this handle, so that GOP dirver could start on this \r | |
663 | // device and create child handles with GraphicsOutput Protocol installed\r | |
664 | // on them, then we get device paths of these child handles and select \r | |
665 | // them as possible console device.\r | |
666 | //\r | |
667 | gBS->ConnectController (PciDeviceHandle, NULL, NULL, FALSE);\r | |
668 | \r | |
669 | Status = gBS->LocateHandleBuffer (\r | |
670 | ByProtocol,\r | |
671 | &gEfiGraphicsOutputProtocolGuid,\r | |
672 | NULL,\r | |
673 | &GopHandleCount,\r | |
674 | &GopHandleBuffer\r | |
675 | );\r | |
676 | if (!EFI_ERROR (Status)) {\r | |
677 | //\r | |
678 | // Add all the child handles as possible Console Device\r | |
679 | //\r | |
680 | for (Index = 0; Index < GopHandleCount; Index++) {\r | |
d8bee43c | 681 | Status = gBS->HandleProtocol (GopHandleBuffer[Index], &gEfiDevicePathProtocolGuid, (VOID*)&TempDevicePath);\r |
c69dd9df | 682 | if (EFI_ERROR (Status)) {\r |
683 | continue;\r | |
684 | }\r | |
685 | if (CompareMem (\r | |
686 | PciDevicePath,\r | |
687 | TempDevicePath,\r | |
688 | GetDevicePathSize (PciDevicePath) - END_DEVICE_PATH_LENGTH\r | |
689 | ) == 0) {\r | |
690 | //\r | |
691 | // In current implementation, we only enable one of the child handles\r | |
692 | // as console device, i.e. sotre one of the child handle's device\r | |
693 | // path to variable "ConOut"\r | |
694 | // In futhure, we could select all child handles to be console device\r | |
695 | // \r | |
696 | \r | |
697 | *GopDevicePath = TempDevicePath;\r | |
698 | \r | |
699 | //\r | |
700 | // Delete the PCI device's path that added by GetPlugInPciVgaDevicePath()\r | |
701 | // Add the integrity GOP device path.\r | |
702 | //\r | |
703 | BdsLibUpdateConsoleVariable (VarConsoleOutDev, NULL, PciDevicePath);\r | |
704 | BdsLibUpdateConsoleVariable (VarConsoleOutDev, TempDevicePath, NULL);\r | |
705 | }\r | |
706 | }\r | |
707 | gBS->FreePool (GopHandleBuffer);\r | |
708 | }\r | |
709 | \r | |
710 | return EFI_SUCCESS;\r | |
711 | }\r | |
c69dd9df | 712 | \r |
713 | EFI_STATUS\r | |
714 | PreparePciVgaDevicePath (\r | |
715 | IN EFI_HANDLE DeviceHandle\r | |
716 | )\r | |
717 | /*++\r | |
718 | \r | |
719 | Routine Description:\r | |
720 | \r | |
721 | Add PCI VGA to ConOut.\r | |
722 | PCI VGA: 03 00 00\r | |
723 | \r | |
724 | Arguments:\r | |
725 | \r | |
726 | DeviceHandle - Handle of PCIIO protocol.\r | |
727 | \r | |
728 | Returns:\r | |
729 | \r | |
730 | EFI_SUCCESS - PCI VGA is added to ConOut.\r | |
731 | EFI_STATUS - No PCI VGA device is added.\r | |
732 | \r | |
733 | --*/\r | |
734 | {\r | |
735 | EFI_STATUS Status;\r | |
736 | EFI_DEVICE_PATH_PROTOCOL *DevicePath;\r | |
c69dd9df | 737 | EFI_DEVICE_PATH_PROTOCOL *GopDevicePath;\r |
c69dd9df | 738 | \r |
739 | DevicePath = NULL;\r | |
740 | Status = gBS->HandleProtocol (\r | |
741 | DeviceHandle,\r | |
742 | &gEfiDevicePathProtocolGuid,\r | |
d8bee43c | 743 | (VOID*)&DevicePath\r |
c69dd9df | 744 | );\r |
745 | if (EFI_ERROR (Status)) {\r | |
746 | return Status;\r | |
747 | }\r | |
748 | \r | |
c69dd9df | 749 | GetGopDevicePath (DevicePath, &GopDevicePath);\r |
750 | DevicePath = GopDevicePath;\r | |
c69dd9df | 751 | \r |
752 | BdsLibUpdateConsoleVariable (VarConsoleOut, DevicePath, NULL);\r | |
753 | \r | |
754 | return EFI_SUCCESS;\r | |
755 | }\r | |
756 | \r | |
757 | EFI_STATUS\r | |
758 | PreparePciSerialDevicePath (\r | |
759 | IN EFI_HANDLE DeviceHandle\r | |
760 | )\r | |
761 | /*++\r | |
762 | \r | |
763 | Routine Description:\r | |
764 | \r | |
765 | Add PCI Serial to ConOut, ConIn, ErrOut.\r | |
766 | PCI Serial: 07 00 02\r | |
767 | \r | |
768 | Arguments:\r | |
769 | \r | |
770 | DeviceHandle - Handle of PCIIO protocol.\r | |
771 | \r | |
772 | Returns:\r | |
773 | \r | |
774 | EFI_SUCCESS - PCI Serial is added to ConOut, ConIn, and ErrOut.\r | |
775 | EFI_STATUS - No PCI Serial device is added.\r | |
776 | \r | |
777 | --*/\r | |
778 | {\r | |
779 | EFI_STATUS Status;\r | |
780 | EFI_DEVICE_PATH_PROTOCOL *DevicePath;\r | |
be768885 | 781 | \r |
c69dd9df | 782 | DevicePath = NULL;\r |
783 | Status = gBS->HandleProtocol (\r | |
784 | DeviceHandle,\r | |
785 | &gEfiDevicePathProtocolGuid,\r | |
d8bee43c | 786 | (VOID*)&DevicePath\r |
c69dd9df | 787 | );\r |
788 | if (EFI_ERROR (Status)) {\r | |
789 | return Status;\r | |
790 | }\r | |
791 | \r | |
792 | DevicePath = AppendDevicePathNode (DevicePath, (EFI_DEVICE_PATH_PROTOCOL *)&gUartDeviceNode);\r | |
793 | DevicePath = AppendDevicePathNode (DevicePath, (EFI_DEVICE_PATH_PROTOCOL *)&gTerminalTypeDeviceNode);\r | |
794 | \r | |
795 | BdsLibUpdateConsoleVariable (VarConsoleOut, DevicePath, NULL);\r | |
796 | BdsLibUpdateConsoleVariable (VarConsoleInp, DevicePath, NULL);\r | |
797 | BdsLibUpdateConsoleVariable (VarErrorOut, DevicePath, NULL);\r | |
798 | \r | |
799 | return EFI_SUCCESS;\r | |
800 | }\r | |
801 | \r | |
802 | EFI_STATUS\r | |
803 | DetectAndPreparePlatformPciDevicePath (\r | |
804 | BOOLEAN DetectVgaOnly\r | |
805 | )\r | |
806 | /*++\r | |
807 | \r | |
808 | Routine Description:\r | |
809 | \r | |
810 | Do platform specific PCI Device check and add them to ConOut, ConIn, ErrOut\r | |
811 | \r | |
812 | Arguments:\r | |
813 | \r | |
814 | DetectVgaOnly - Only detect VGA device if it's TRUE.\r | |
815 | \r | |
816 | Returns:\r | |
817 | \r | |
818 | EFI_SUCCESS - PCI Device check and Console variable update successfully.\r | |
819 | EFI_STATUS - PCI Device check or Console variable update fail.\r | |
820 | \r | |
821 | --*/\r | |
822 | {\r | |
823 | EFI_STATUS Status;\r | |
824 | UINTN HandleCount;\r | |
825 | EFI_HANDLE *HandleBuffer;\r | |
826 | UINTN Index;\r | |
827 | EFI_PCI_IO_PROTOCOL *PciIo;\r | |
828 | PCI_TYPE00 Pci;\r | |
829 | \r | |
830 | //\r | |
831 | // Start to check all the PciIo to find all possible device\r | |
832 | //\r | |
833 | HandleCount = 0;\r | |
834 | HandleBuffer = NULL;\r | |
835 | Status = gBS->LocateHandleBuffer (\r | |
836 | ByProtocol,\r | |
837 | &gEfiPciIoProtocolGuid,\r | |
838 | NULL,\r | |
839 | &HandleCount,\r | |
840 | &HandleBuffer\r | |
841 | );\r | |
842 | if (EFI_ERROR (Status)) {\r | |
843 | return Status;\r | |
844 | }\r | |
845 | \r | |
846 | for (Index = 0; Index < HandleCount; Index++) {\r | |
d8bee43c | 847 | Status = gBS->HandleProtocol (HandleBuffer[Index], &gEfiPciIoProtocolGuid, (VOID*)&PciIo);\r |
c69dd9df | 848 | if (EFI_ERROR (Status)) {\r |
849 | continue;\r | |
850 | }\r | |
851 | \r | |
852 | //\r | |
853 | // Check for all PCI device\r | |
854 | //\r | |
855 | Status = PciIo->Pci.Read (\r | |
856 | PciIo,\r | |
857 | EfiPciIoWidthUint32,\r | |
858 | 0,\r | |
859 | sizeof (Pci) / sizeof (UINT32),\r | |
860 | &Pci\r | |
861 | );\r | |
862 | if (EFI_ERROR (Status)) {\r | |
863 | continue;\r | |
864 | }\r | |
865 | \r | |
866 | if (!DetectVgaOnly) {\r | |
867 | //\r | |
868 | // Here we decide whether it is LPC Bridge\r | |
869 | //\r | |
870 | if ((IS_PCI_LPC (&Pci)) ||\r | |
871 | ((IS_PCI_ISA_PDECODE (&Pci)) && (Pci.Hdr.VendorId == 0x8086) && (Pci.Hdr.DeviceId == 0x7110))) {\r | |
872 | //\r | |
873 | // Add IsaKeyboard to ConIn,\r | |
874 | // add IsaSerial to ConOut, ConIn, ErrOut\r | |
875 | //\r | |
e5653d94 | 876 | DEBUG ((EFI_D_INFO, "Find the LPC Bridge device\n"));\r |
c69dd9df | 877 | PrepareLpcBridgeDevicePath (HandleBuffer[Index]);\r |
878 | continue;\r | |
879 | }\r | |
880 | //\r | |
881 | // Here we decide which Serial device to enable in PCI bus \r | |
882 | //\r | |
883 | if (IS_PCI_16550SERIAL (&Pci)) {\r | |
884 | //\r | |
885 | // Add them to ConOut, ConIn, ErrOut.\r | |
886 | //\r | |
e5653d94 | 887 | DEBUG ((EFI_D_INFO, "Find the 16550 SERIAL device\n"));\r |
c69dd9df | 888 | PreparePciSerialDevicePath (HandleBuffer[Index]);\r |
889 | continue;\r | |
890 | }\r | |
891 | }\r | |
892 | \r | |
893 | //\r | |
894 | // Here we decide which VGA device to enable in PCI bus \r | |
895 | //\r | |
896 | if (IS_PCI_VGA (&Pci)) {\r | |
897 | //\r | |
898 | // Add them to ConOut.\r | |
899 | //\r | |
e5653d94 | 900 | DEBUG ((EFI_D_INFO, "Find the VGA device\n"));\r |
c69dd9df | 901 | PreparePciVgaDevicePath (HandleBuffer[Index]);\r |
902 | continue;\r | |
903 | }\r | |
904 | }\r | |
905 | \r | |
906 | gBS->FreePool (HandleBuffer);\r | |
907 | \r | |
908 | return EFI_SUCCESS;\r | |
909 | }\r | |
910 | \r | |
911 | EFI_STATUS\r | |
912 | PlatformBdsConnectConsole (\r | |
913 | IN BDS_CONSOLE_CONNECT_ENTRY *PlatformConsole\r | |
914 | )\r | |
915 | /*++\r | |
916 | \r | |
917 | Routine Description:\r | |
918 | \r | |
919 | Connect the predefined platform default console device. Always try to find\r | |
920 | and enable the vga device if have.\r | |
921 | \r | |
922 | Arguments:\r | |
923 | \r | |
924 | PlatformConsole - Predfined platform default console device array.\r | |
925 | \r | |
926 | Returns:\r | |
927 | \r | |
928 | EFI_SUCCESS - Success connect at least one ConIn and ConOut \r | |
929 | device, there must have one ConOut device is \r | |
930 | active vga device.\r | |
931 | \r | |
932 | EFI_STATUS - Return the status of \r | |
933 | BdsLibConnectAllDefaultConsoles ()\r | |
934 | \r | |
935 | --*/\r | |
936 | {\r | |
937 | EFI_STATUS Status;\r | |
938 | UINTN Index;\r | |
939 | EFI_DEVICE_PATH_PROTOCOL *VarConout;\r | |
940 | EFI_DEVICE_PATH_PROTOCOL *VarConin;\r | |
941 | UINTN DevicePathSize;\r | |
942 | \r | |
943 | //\r | |
944 | // Connect RootBridge\r | |
945 | //\r | |
946 | ConnectRootBridge ();\r | |
947 | \r | |
948 | VarConout = BdsLibGetVariableAndSize (\r | |
949 | VarConsoleOut,\r | |
950 | &gEfiGlobalVariableGuid,\r | |
951 | &DevicePathSize\r | |
952 | );\r | |
953 | VarConin = BdsLibGetVariableAndSize (\r | |
954 | VarConsoleInp,\r | |
955 | &gEfiGlobalVariableGuid,\r | |
956 | &DevicePathSize\r | |
957 | );\r | |
be768885 | 958 | \r |
c69dd9df | 959 | if (VarConout == NULL || VarConin == NULL) {\r |
960 | //\r | |
961 | // Do platform specific PCI Device check and add them to ConOut, ConIn, ErrOut\r | |
962 | //\r | |
963 | DetectAndPreparePlatformPciDevicePath (FALSE);\r | |
964 | \r | |
965 | //\r | |
966 | // Have chance to connect the platform default console,\r | |
967 | // the platform default console is the minimue device group\r | |
968 | // the platform should support\r | |
969 | //\r | |
970 | for (Index = 0; PlatformConsole[Index].DevicePath != NULL; ++Index) {\r | |
971 | //\r | |
972 | // Update the console variable with the connect type\r | |
973 | //\r | |
974 | if ((PlatformConsole[Index].ConnectType & CONSOLE_IN) == CONSOLE_IN) {\r | |
975 | BdsLibUpdateConsoleVariable (VarConsoleInp, PlatformConsole[Index].DevicePath, NULL);\r | |
976 | }\r | |
977 | if ((PlatformConsole[Index].ConnectType & CONSOLE_OUT) == CONSOLE_OUT) {\r | |
978 | BdsLibUpdateConsoleVariable (VarConsoleOut, PlatformConsole[Index].DevicePath, NULL);\r | |
979 | }\r | |
980 | if ((PlatformConsole[Index].ConnectType & STD_ERROR) == STD_ERROR) {\r | |
981 | BdsLibUpdateConsoleVariable (VarErrorOut, PlatformConsole[Index].DevicePath, NULL);\r | |
982 | }\r | |
983 | }\r | |
984 | } else {\r | |
985 | //\r | |
986 | // Only detect VGA device and add them to ConOut\r | |
987 | //\r | |
988 | DetectAndPreparePlatformPciDevicePath (TRUE);\r | |
989 | }\r | |
990 | \r | |
991 | //\r | |
992 | // The ConIn devices connection will start the USB bus, should disable all\r | |
993 | // Usb legacy support firstly.\r | |
994 | // Caution: Must ensure the PCI bus driver has been started. Since the \r | |
995 | // ConnectRootBridge() will create all the PciIo protocol, it's safe here now\r | |
996 | //\r | |
997 | Status = DisableUsbLegacySupport();\r | |
998 | \r | |
999 | //\r | |
1000 | // Connect the all the default console with current cosole variable\r | |
1001 | //\r | |
1002 | Status = BdsLibConnectAllDefaultConsoles ();\r | |
1003 | if (EFI_ERROR (Status)) {\r | |
1004 | return Status;\r | |
1005 | }\r | |
1006 | \r | |
1007 | return EFI_SUCCESS;\r | |
1008 | }\r | |
1009 | \r | |
1010 | VOID\r | |
1011 | PlatformBdsConnectSequence (\r | |
1012 | VOID\r | |
1013 | )\r | |
1014 | /*++\r | |
1015 | \r | |
1016 | Routine Description:\r | |
1017 | \r | |
1018 | Connect with predeined platform connect sequence, \r | |
1019 | the OEM/IBV can customize with their own connect sequence.\r | |
1020 | \r | |
1021 | Arguments:\r | |
1022 | \r | |
1023 | None.\r | |
1024 | \r | |
1025 | Returns:\r | |
1026 | \r | |
1027 | None.\r | |
1028 | \r | |
1029 | --*/\r | |
1030 | {\r | |
1031 | UINTN Index;\r | |
1032 | \r | |
1033 | Index = 0;\r | |
1034 | \r | |
1035 | //\r | |
1036 | // Here we can get the customized platform connect sequence\r | |
1037 | // Notes: we can connect with new variable which record the\r | |
1038 | // last time boots connect device path sequence\r | |
1039 | //\r | |
1040 | while (gPlatformConnectSequence[Index] != NULL) {\r | |
1041 | //\r | |
1042 | // Build the platform boot option\r | |
1043 | //\r | |
1044 | BdsLibConnectDevicePath (gPlatformConnectSequence[Index]);\r | |
1045 | Index++;\r | |
1046 | }\r | |
1047 | \r | |
1048 | }\r | |
1049 | \r | |
1050 | VOID\r | |
1051 | PlatformBdsGetDriverOption (\r | |
1052 | IN OUT LIST_ENTRY *BdsDriverLists\r | |
1053 | )\r | |
1054 | /*++\r | |
1055 | \r | |
1056 | Routine Description:\r | |
1057 | \r | |
1058 | Load the predefined driver option, OEM/IBV can customize this\r | |
1059 | to load their own drivers\r | |
1060 | \r | |
1061 | Arguments:\r | |
1062 | \r | |
1063 | BdsDriverLists - The header of the driver option link list.\r | |
1064 | \r | |
1065 | Returns:\r | |
1066 | \r | |
1067 | None.\r | |
1068 | \r | |
1069 | --*/\r | |
1070 | {\r | |
1071 | UINTN Index;\r | |
1072 | \r | |
1073 | Index = 0;\r | |
1074 | \r | |
1075 | //\r | |
1076 | // Here we can get the customized platform driver option\r | |
1077 | //\r | |
1078 | while (gPlatformDriverOption[Index] != NULL) {\r | |
1079 | //\r | |
1080 | // Build the platform boot option\r | |
1081 | //\r | |
1082 | BdsLibRegisterNewOption (BdsDriverLists, gPlatformDriverOption[Index], NULL, L"DriverOrder");\r | |
1083 | Index++;\r | |
1084 | }\r | |
1085 | \r | |
1086 | }\r | |
1087 | \r | |
1088 | VOID\r | |
1089 | PlatformBdsDiagnostics (\r | |
1090 | IN EXTENDMEM_COVERAGE_LEVEL MemoryTestLevel,\r | |
03a2bbf3 | 1091 | IN BOOLEAN QuietBoot,\r |
1092 | IN BASEM_MEMORY_TEST BaseMemoryTest\r | |
c69dd9df | 1093 | )\r |
1094 | /*++\r | |
1095 | \r | |
1096 | Routine Description:\r | |
1097 | \r | |
1098 | Perform the platform diagnostic, such like test memory. OEM/IBV also\r | |
1099 | can customize this fuction to support specific platform diagnostic.\r | |
1100 | \r | |
1101 | Arguments:\r | |
1102 | \r | |
1103 | MemoryTestLevel - The memory test intensive level\r | |
1104 | \r | |
1105 | QuietBoot - Indicate if need to enable the quiet boot\r | |
03a2bbf3 | 1106 | \r |
1107 | BaseMemoryTest - A pointer to BdsMemoryTest()\r | |
c69dd9df | 1108 | \r |
1109 | Returns:\r | |
1110 | \r | |
1111 | None.\r | |
1112 | \r | |
1113 | --*/\r | |
1114 | {\r | |
1115 | EFI_STATUS Status;\r | |
1116 | \r | |
1117 | //\r | |
1118 | // Here we can decide if we need to show\r | |
1119 | // the diagnostics screen\r | |
1120 | // Notes: this quiet boot code should be remove\r | |
1121 | // from the graphic lib\r | |
1122 | //\r | |
1123 | if (QuietBoot) {\r | |
d46f3632 | 1124 | Status = EnableQuietBoot (PcdGetPtr(PcdLogoFile));\r |
ff514e29 | 1125 | if (EFI_ERROR (Status)) {\r |
1126 | DisableQuietBoot ();\r | |
1127 | return;\r | |
1128 | }\r | |
1129 | \r | |
c69dd9df | 1130 | //\r |
1131 | // Perform system diagnostic\r | |
1132 | //\r | |
03a2bbf3 | 1133 | Status = BaseMemoryTest (MemoryTestLevel);\r |
c69dd9df | 1134 | if (EFI_ERROR (Status)) {\r |
1135 | DisableQuietBoot ();\r | |
1136 | }\r | |
1137 | \r | |
1138 | return ;\r | |
1139 | }\r | |
1140 | //\r | |
1141 | // Perform system diagnostic\r | |
1142 | //\r | |
03a2bbf3 | 1143 | Status = BaseMemoryTest (MemoryTestLevel);\r |
c69dd9df | 1144 | }\r |
1145 | \r | |
1146 | VOID\r | |
20fac443 | 1147 | EFIAPI\r |
c69dd9df | 1148 | PlatformBdsPolicyBehavior (\r |
c69dd9df | 1149 | IN OUT LIST_ENTRY *DriverOptionList,\r |
03a2bbf3 | 1150 | IN OUT LIST_ENTRY *BootOptionList,\r |
1151 | IN PROCESS_CAPSULES ProcessCapsules,\r | |
1152 | IN BASEM_MEMORY_TEST BaseMemoryTest\r | |
c69dd9df | 1153 | )\r |
1154 | /*++\r | |
1155 | \r | |
1156 | Routine Description:\r | |
1157 | \r | |
1158 | The function will excute with as the platform policy, current policy\r | |
1159 | is driven by boot mode. IBV/OEM can customize this code for their specific\r | |
1160 | policy action.\r | |
1161 | \r | |
1162 | Arguments:\r | |
1163 | \r | |
c69dd9df | 1164 | DriverOptionList - The header of the driver option link list\r |
1165 | \r | |
1166 | BootOptionList - The header of the boot option link list\r | |
1167 | \r | |
1168 | Returns:\r | |
1169 | \r | |
1170 | None.\r | |
1171 | \r | |
1172 | --*/\r | |
1173 | {\r | |
1174 | EFI_STATUS Status;\r | |
1175 | UINT16 Timeout;\r | |
1176 | EFI_EVENT UserInputDurationTime;\r | |
c69dd9df | 1177 | UINTN Index;\r |
1178 | EFI_INPUT_KEY Key;\r | |
20fac443 | 1179 | EFI_BOOT_MODE BootMode;\r |
c69dd9df | 1180 | \r |
1181 | //\r | |
1182 | // Init the time out value\r | |
1183 | //\r | |
6efe5f96 | 1184 | Timeout = PcdGet16 (PcdPlatformBootTimeOut);\r |
c69dd9df | 1185 | \r |
1186 | //\r | |
1187 | // Load the driver option as the driver option list\r | |
1188 | //\r | |
1189 | PlatformBdsGetDriverOption (DriverOptionList);\r | |
1190 | \r | |
1191 | //\r | |
1192 | // Get current Boot Mode\r | |
1193 | //\r | |
20fac443 | 1194 | Status = BdsLibGetBootMode (&BootMode);\r |
1195 | DEBUG ((EFI_D_ERROR, "Boot Mode:%x\n", BootMode));\r | |
c69dd9df | 1196 | \r |
1197 | //\r | |
1198 | // Go the different platform policy with different boot mode\r | |
1199 | // Notes: this part code can be change with the table policy\r | |
1200 | //\r | |
20fac443 | 1201 | ASSERT (BootMode == BOOT_WITH_FULL_CONFIGURATION);\r |
c69dd9df | 1202 | //\r |
1203 | // Connect platform console\r | |
1204 | //\r | |
1205 | Status = PlatformBdsConnectConsole (gPlatformConsole);\r | |
1206 | if (EFI_ERROR (Status)) {\r | |
1207 | //\r | |
1208 | // Here OEM/IBV can customize with defined action\r | |
1209 | //\r | |
1210 | PlatformBdsNoConsoleAction ();\r | |
1211 | }\r | |
1212 | //\r | |
1213 | // Create a 300ms duration event to ensure user has enough input time to enter Setup\r | |
1214 | //\r | |
1215 | Status = gBS->CreateEvent (\r | |
e53a6ea9 | 1216 | EVT_TIMER,\r |
c69dd9df | 1217 | 0,\r |
1218 | NULL,\r | |
1219 | NULL,\r | |
1220 | &UserInputDurationTime\r | |
1221 | );\r | |
1222 | ASSERT (Status == EFI_SUCCESS);\r | |
1223 | Status = gBS->SetTimer (UserInputDurationTime, TimerRelative, 3000000);\r | |
1224 | ASSERT (Status == EFI_SUCCESS);\r | |
1225 | //\r | |
1226 | // Memory test and Logo show\r | |
1227 | //\r | |
03a2bbf3 | 1228 | PlatformBdsDiagnostics (IGNORE, TRUE, BaseMemoryTest);\r |
c69dd9df | 1229 | \r |
1230 | //\r | |
1231 | // Perform some platform specific connect sequence\r | |
1232 | //\r | |
1233 | PlatformBdsConnectSequence ();\r | |
1234 | \r | |
1235 | //\r | |
1236 | // Give one chance to enter the setup if we\r | |
1237 | // have the time out\r | |
1238 | //\r | |
ba992f96 | 1239 | // BUGBUG: hard code timeout to 5 second to show logo in graphic mode.\r |
1240 | Timeout = 5; \r | |
c69dd9df | 1241 | if (Timeout != 0) {\r |
1242 | PlatformBdsEnterFrontPage (Timeout, FALSE);\r | |
1243 | }\r | |
1244 | \r | |
1245 | //\r | |
1246 | //BdsLibConnectAll ();\r | |
1247 | //BdsLibEnumerateAllBootOption (BootOptionList); \r | |
1248 | \r | |
1249 | //\r | |
1250 | // Please uncomment above ConnectAll and EnumerateAll code and remove following first boot\r | |
1251 | // checking code in real production tip.\r | |
1252 | // \r | |
1253 | // In BOOT_WITH_FULL_CONFIGURATION boot mode, should always connect every device \r | |
1254 | // and do enumerate all the default boot options. But in development system board, the boot mode \r | |
1255 | // cannot be BOOT_ASSUMING_NO_CONFIGURATION_CHANGES because the machine box\r | |
1256 | // is always open. So the following code only do the ConnectAll and EnumerateAll at first boot.\r | |
1257 | //\r | |
1258 | Status = BdsLibBuildOptionFromVar (BootOptionList, L"BootOrder");\r | |
1259 | if (EFI_ERROR(Status)) {\r | |
1260 | //\r | |
1261 | // If cannot find "BootOrder" variable, it may be first boot. \r | |
1262 | // Try to connect all devices and enumerate all boot options here.\r | |
1263 | //\r | |
1264 | BdsLibConnectAll ();\r | |
1265 | BdsLibEnumerateAllBootOption (BootOptionList);\r | |
1266 | } \r | |
1267 | \r | |
1268 | //\r | |
1269 | // To give the User a chance to enter Setup here, if user set TimeOut is 0.\r | |
1270 | // BDS should still give user a chance to enter Setup\r | |
c69dd9df | 1271 | // Check whether the user input after the duration time has expired \r |
1272 | //\r | |
c69dd9df | 1273 | gBS->WaitForEvent (1, &UserInputDurationTime, &Index);\r |
1274 | gBS->CloseEvent (UserInputDurationTime);\r | |
1275 | Status = gST->ConIn->ReadKeyStroke (gST->ConIn, &Key);\r | |
c69dd9df | 1276 | \r |
1277 | if (!EFI_ERROR (Status)) {\r | |
1278 | //\r | |
1279 | // Enter Setup if user input \r | |
1280 | //\r | |
1281 | Timeout = 0xffff;\r | |
1282 | PlatformBdsEnterFrontPage (Timeout, FALSE);\r | |
1283 | }\r | |
1284 | \r | |
1285 | return ;\r | |
1286 | \r | |
1287 | }\r | |
1288 | \r | |
1289 | VOID\r | |
20fac443 | 1290 | EFIAPI\r |
c69dd9df | 1291 | PlatformBdsBootSuccess (\r |
1292 | IN BDS_COMMON_OPTION *Option\r | |
1293 | )\r | |
1294 | /*++\r | |
1295 | \r | |
1296 | Routine Description:\r | |
1297 | \r | |
1298 | Hook point after a boot attempt succeeds. We don't expect a boot option to\r | |
1299 | return, so the EFI 1.0 specification defines that you will default to an\r | |
1300 | interactive mode and stop processing the BootOrder list in this case. This\r | |
1301 | is alos a platform implementation and can be customized by IBV/OEM.\r | |
1302 | \r | |
1303 | Arguments:\r | |
1304 | \r | |
1305 | Option - Pointer to Boot Option that succeeded to boot.\r | |
1306 | \r | |
1307 | Returns:\r | |
1308 | \r | |
1309 | None.\r | |
1310 | \r | |
1311 | --*/\r | |
1312 | {\r | |
1313 | CHAR16 *TmpStr;\r | |
1314 | \r | |
1315 | //\r | |
1316 | // If Boot returned with EFI_SUCCESS and there is not in the boot device\r | |
1317 | // select loop then we need to pop up a UI and wait for user input.\r | |
1318 | //\r | |
1319 | TmpStr = Option->StatusString;\r | |
1320 | if (TmpStr != NULL) {\r | |
1321 | BdsLibOutputStrings (gST->ConOut, TmpStr, Option->Description, L"\n\r", NULL);\r | |
1322 | gBS->FreePool (TmpStr);\r | |
1323 | }\r | |
1324 | }\r | |
1325 | \r | |
1326 | VOID\r | |
20fac443 | 1327 | EFIAPI\r |
c69dd9df | 1328 | PlatformBdsBootFail (\r |
1329 | IN BDS_COMMON_OPTION *Option,\r | |
1330 | IN EFI_STATUS Status,\r | |
1331 | IN CHAR16 *ExitData,\r | |
1332 | IN UINTN ExitDataSize\r | |
1333 | )\r | |
1334 | /*++\r | |
1335 | \r | |
1336 | Routine Description:\r | |
1337 | \r | |
1338 | Hook point after a boot attempt fails.\r | |
1339 | \r | |
1340 | Arguments:\r | |
1341 | \r | |
1342 | Option - Pointer to Boot Option that failed to boot.\r | |
1343 | \r | |
1344 | Status - Status returned from failed boot.\r | |
1345 | \r | |
1346 | ExitData - Exit data returned from failed boot.\r | |
1347 | \r | |
1348 | ExitDataSize - Exit data size returned from failed boot.\r | |
1349 | \r | |
1350 | Returns:\r | |
1351 | \r | |
1352 | None.\r | |
1353 | \r | |
1354 | --*/\r | |
1355 | {\r | |
1356 | CHAR16 *TmpStr;\r | |
1357 | \r | |
1358 | //\r | |
1359 | // If Boot returned with failed status then we need to pop up a UI and wait\r | |
1360 | // for user input.\r | |
1361 | //\r | |
1362 | TmpStr = Option->StatusString;\r | |
1363 | if (TmpStr != NULL) {\r | |
1364 | BdsLibOutputStrings (gST->ConOut, TmpStr, Option->Description, L"\n\r", NULL);\r | |
1365 | gBS->FreePool (TmpStr);\r | |
1366 | }\r | |
1367 | \r | |
1368 | }\r | |
1369 | \r | |
1370 | EFI_STATUS\r | |
1371 | PlatformBdsNoConsoleAction (\r | |
1372 | VOID\r | |
1373 | )\r | |
1374 | /*++\r | |
1375 | \r | |
1376 | Routine Description:\r | |
1377 | \r | |
1378 | This function is remained for IBV/OEM to do some platform action,\r | |
1379 | if there no console device can be connected.\r | |
1380 | \r | |
1381 | Arguments:\r | |
1382 | \r | |
1383 | None.\r | |
1384 | \r | |
1385 | Returns:\r | |
1386 | \r | |
1387 | EFI_SUCCESS - Direct return success now.\r | |
1388 | \r | |
1389 | --*/\r | |
1390 | {\r | |
1391 | return EFI_SUCCESS;\r | |
1392 | }\r | |
1393 | \r | |
1394 | EFI_STATUS\r | |
1395 | ConvertSystemTable (\r | |
1396 | IN EFI_GUID *TableGuid,\r | |
1397 | IN OUT VOID **Table\r | |
1398 | )\r | |
1399 | /*++\r | |
1400 | \r | |
1401 | Routine Description:\r | |
1402 | Convert ACPI Table /Smbios Table /MP Table if its location is lower than Address:0x100000\r | |
1403 | Assumption here:\r | |
1404 | As in legacy Bios, ACPI/Smbios/MP table is required to place in E/F Seg, \r | |
1405 | So here we just check if the range is E/F seg, \r | |
1406 | and if Not, assume the Memory type is EfiACPIReclaimMemory/EfiACPIMemoryNVS\r | |
1407 | \r | |
1408 | Arguments:\r | |
1409 | TableGuid - Guid of the table\r | |
1410 | Table - pointer to the table \r | |
1411 | \r | |
1412 | Returns:\r | |
1413 | EFI_SUCEESS - Convert Table successfully\r | |
1414 | Other - Failed\r | |
1415 | \r | |
1416 | --*/\r | |
1417 | {\r | |
1418 | EFI_STATUS Status;\r | |
1419 | VOID *AcpiHeader;\r | |
1420 | UINTN AcpiTableLen;\r | |
1421 | \r | |
1422 | //\r | |
1423 | // If match acpi guid (1.0, 2.0, or later), Convert ACPI table according to version. \r | |
1424 | //\r | |
1425 | AcpiHeader = (VOID*)(UINTN)(*(UINT64 *)(*Table));\r | |
1426 | \r | |
1427 | if (CompareGuid(TableGuid, &gEfiAcpiTableGuid) || CompareGuid(TableGuid, &gEfiAcpi20TableGuid)){\r | |
1428 | if (((EFI_ACPI_1_0_ROOT_SYSTEM_DESCRIPTION_POINTER *)AcpiHeader)->Reserved == 0x00){\r | |
1429 | //\r | |
1430 | // If Acpi 1.0 Table, then RSDP structure doesn't contain Length field, use structure size\r | |
1431 | //\r | |
1432 | AcpiTableLen = sizeof (EFI_ACPI_1_0_ROOT_SYSTEM_DESCRIPTION_POINTER);\r | |
1433 | } else if (((EFI_ACPI_1_0_ROOT_SYSTEM_DESCRIPTION_POINTER *)AcpiHeader)->Reserved >= 0x02){\r | |
1434 | //\r | |
1435 | // If Acpi 2.0 or later, use RSDP Length fied.\r | |
1436 | //\r | |
1437 | AcpiTableLen = ((EFI_ACPI_2_0_ROOT_SYSTEM_DESCRIPTION_POINTER *)AcpiHeader)->Length;\r | |
1438 | } else {\r | |
1439 | //\r | |
1440 | // Invalid Acpi Version, return\r | |
1441 | //\r | |
1442 | return EFI_UNSUPPORTED;\r | |
1443 | }\r | |
1444 | Status = ConvertAcpiTable (AcpiTableLen, Table);\r | |
1445 | return Status; \r | |
1446 | }\r | |
1447 | \r | |
1448 | //\r | |
1449 | // If matches smbios guid, convert Smbios table.\r | |
1450 | //\r | |
1451 | if (CompareGuid(TableGuid, &gEfiSmbiosTableGuid)){\r | |
1452 | Status = ConvertSmbiosTable (Table);\r | |
1453 | return Status;\r | |
1454 | }\r | |
1455 | \r | |
1456 | //\r | |
1457 | // If the table is MP table?\r | |
1458 | //\r | |
1459 | if (CompareGuid(TableGuid, &gEfiMpsTableGuid)){\r | |
1460 | Status = ConvertMpsTable (Table);\r | |
1461 | return Status;\r | |
1462 | }\r | |
1463 | \r | |
1464 | return EFI_UNSUPPORTED;\r | |
1465 | } \r | |
1466 | \r | |
c69dd9df | 1467 | \r |
1468 | EFI_STATUS\r | |
1469 | ConvertAcpiTable (\r | |
1470 | IN UINTN TableLen,\r | |
1471 | IN OUT VOID **Table\r | |
1472 | )\r | |
1473 | /*++\r | |
1474 | \r | |
1475 | Routine Description:\r | |
1476 | Convert RSDP of ACPI Table if its location is lower than Address:0x100000\r | |
1477 | Assumption here:\r | |
1478 | As in legacy Bios, ACPI table is required to place in E/F Seg, \r | |
1479 | So here we just check if the range is E/F seg, \r | |
1480 | and if Not, assume the Memory type is EfiACPIReclaimMemory/EfiACPIMemoryNVS\r | |
1481 | \r | |
1482 | Arguments:\r | |
1483 | TableLen - Acpi RSDP length\r | |
1484 | Table - pointer to the table \r | |
1485 | \r | |
1486 | Returns:\r | |
1487 | EFI_SUCEESS - Convert Table successfully\r | |
1488 | Other - Failed\r | |
1489 | \r | |
1490 | --*/\r | |
1491 | {\r | |
1492 | VOID *AcpiTableOri;\r | |
1493 | VOID *AcpiTableNew;\r | |
1494 | EFI_STATUS Status;\r | |
1495 | EFI_PHYSICAL_ADDRESS BufferPtr;\r | |
1496 | \r | |
1497 | \r | |
1498 | AcpiTableOri = (VOID *)(UINTN)(*(UINT64*)(*Table));\r | |
1499 | if (((UINTN)AcpiTableOri < 0x100000) && ((UINTN)AcpiTableOri > 0xE0000)) {\r | |
1500 | BufferPtr = EFI_SYSTEM_TABLE_MAX_ADDRESS;\r | |
1501 | Status = gBS->AllocatePages (\r | |
1502 | AllocateMaxAddress,\r | |
1503 | EfiACPIMemoryNVS,\r | |
1504 | EFI_SIZE_TO_PAGES(TableLen),\r | |
1505 | &BufferPtr\r | |
1506 | );\r | |
1507 | ASSERT_EFI_ERROR (Status);\r | |
1508 | AcpiTableNew = (VOID *)(UINTN)BufferPtr;\r | |
1509 | CopyMem (AcpiTableNew, AcpiTableOri, TableLen);\r | |
1510 | } else {\r | |
1511 | AcpiTableNew = AcpiTableOri;\r | |
1512 | }\r | |
1513 | //\r | |
1514 | // Change configuration table Pointer\r | |
1515 | //\r | |
1516 | *Table = AcpiTableNew;\r | |
1517 | \r | |
1518 | return EFI_SUCCESS;\r | |
1519 | }\r | |
1520 | \r | |
1521 | EFI_STATUS\r | |
1522 | ConvertSmbiosTable (\r | |
1523 | IN OUT VOID **Table\r | |
1524 | )\r | |
1525 | /*++\r | |
1526 | \r | |
1527 | Routine Description:\r | |
1528 | \r | |
1529 | Convert Smbios Table if the Location of the SMBios Table is lower than Addres 0x100000\r | |
1530 | Assumption here:\r | |
1531 | As in legacy Bios, Smbios table is required to place in E/F Seg, \r | |
1532 | So here we just check if the range is F seg, \r | |
1533 | and if Not, assume the Memory type is EfiACPIMemoryNVS/EfiRuntimeServicesData\r | |
1534 | Arguments:\r | |
1535 | Table - pointer to the table\r | |
1536 | \r | |
1537 | Returns:\r | |
1538 | EFI_SUCEESS - Convert Table successfully\r | |
1539 | Other - Failed\r | |
1540 | \r | |
1541 | --*/\r | |
1542 | {\r | |
1543 | SMBIOS_TABLE_ENTRY_POINT *SmbiosTableNew;\r | |
1544 | SMBIOS_TABLE_ENTRY_POINT *SmbiosTableOri;\r | |
1545 | EFI_STATUS Status;\r | |
1546 | UINT32 SmbiosEntryLen;\r | |
1547 | UINT32 BufferLen;\r | |
1548 | EFI_PHYSICAL_ADDRESS BufferPtr;\r | |
1549 | \r | |
1550 | SmbiosTableNew = NULL;\r | |
1551 | SmbiosTableOri = NULL;\r | |
1552 | \r | |
1553 | //\r | |
1554 | // Get Smibos configuration Table \r | |
1555 | //\r | |
1556 | SmbiosTableOri = (SMBIOS_TABLE_ENTRY_POINT *)(UINTN)(*(UINT64*)(*Table));\r | |
1557 | \r | |
1558 | if ((SmbiosTableOri == NULL) ||\r | |
1559 | ((UINTN)SmbiosTableOri > 0x100000) ||\r | |
1560 | ((UINTN)SmbiosTableOri < 0xF0000)){\r | |
1561 | return EFI_SUCCESS;\r | |
1562 | }\r | |
1563 | //\r | |
1564 | // Relocate the Smibos memory\r | |
1565 | //\r | |
1566 | BufferPtr = EFI_SYSTEM_TABLE_MAX_ADDRESS;\r | |
1567 | if (SmbiosTableOri->SmbiosBcdRevision != 0x21) {\r | |
1568 | SmbiosEntryLen = SmbiosTableOri->EntryPointLength;\r | |
1569 | } else {\r | |
1570 | //\r | |
1571 | // According to Smbios Spec 2.4, we should set entry point length as 0x1F if version is 2.1\r | |
1572 | //\r | |
1573 | SmbiosEntryLen = 0x1F;\r | |
1574 | }\r | |
1575 | BufferLen = SmbiosEntryLen + SYS_TABLE_PAD(SmbiosEntryLen) + SmbiosTableOri->TableLength;\r | |
1576 | Status = gBS->AllocatePages (\r | |
1577 | AllocateMaxAddress,\r | |
1578 | EfiACPIMemoryNVS,\r | |
1579 | EFI_SIZE_TO_PAGES(BufferLen),\r | |
1580 | &BufferPtr\r | |
1581 | );\r | |
1582 | ASSERT_EFI_ERROR (Status);\r | |
1583 | SmbiosTableNew = (SMBIOS_TABLE_ENTRY_POINT *)(UINTN)BufferPtr;\r | |
1584 | CopyMem (\r | |
1585 | SmbiosTableNew, \r | |
1586 | SmbiosTableOri,\r | |
1587 | SmbiosEntryLen\r | |
1588 | );\r | |
1589 | // \r | |
1590 | // Get Smbios Structure table address, and make sure the start address is 32-bit align\r | |
1591 | //\r | |
1592 | BufferPtr += SmbiosEntryLen + SYS_TABLE_PAD(SmbiosEntryLen);\r | |
1593 | CopyMem (\r | |
1594 | (VOID *)(UINTN)BufferPtr, \r | |
1595 | (VOID *)(UINTN)(SmbiosTableOri->TableAddress),\r | |
1596 | SmbiosTableOri->TableLength\r | |
1597 | );\r | |
1598 | SmbiosTableNew->TableAddress = (UINT32)BufferPtr;\r | |
1599 | SmbiosTableNew->IntermediateChecksum = 0;\r | |
1600 | SmbiosTableNew->IntermediateChecksum = \r | |
86608df4 | 1601 | CalculateCheckSum8 ((UINT8*)SmbiosTableNew + 0x10, SmbiosEntryLen -0x10);\r |
c69dd9df | 1602 | //\r |
1603 | // Change the SMBIOS pointer\r | |
1604 | //\r | |
1605 | *Table = SmbiosTableNew;\r | |
1606 | \r | |
1607 | return EFI_SUCCESS; \r | |
1608 | } \r | |
1609 | \r | |
1610 | EFI_STATUS\r | |
1611 | ConvertMpsTable (\r | |
1612 | IN OUT VOID **Table\r | |
1613 | )\r | |
1614 | /*++\r | |
1615 | \r | |
1616 | Routine Description:\r | |
1617 | \r | |
1618 | Convert MP Table if the Location of the SMBios Table is lower than Addres 0x100000\r | |
1619 | Assumption here:\r | |
1620 | As in legacy Bios, MP table is required to place in E/F Seg, \r | |
1621 | So here we just check if the range is E/F seg, \r | |
1622 | and if Not, assume the Memory type is EfiACPIMemoryNVS/EfiRuntimeServicesData\r | |
1623 | Arguments:\r | |
1624 | Table - pointer to the table\r | |
1625 | \r | |
1626 | Returns:\r | |
1627 | EFI_SUCEESS - Convert Table successfully\r | |
1628 | Other - Failed\r | |
1629 | \r | |
1630 | --*/\r | |
1631 | {\r | |
1632 | UINT32 Data32;\r | |
1633 | UINT32 FPLength;\r | |
1634 | EFI_LEGACY_MP_TABLE_FLOATING_POINTER *MpsFloatingPointerOri;\r | |
1635 | EFI_LEGACY_MP_TABLE_FLOATING_POINTER *MpsFloatingPointerNew;\r | |
1636 | EFI_LEGACY_MP_TABLE_HEADER *MpsTableOri;\r | |
1637 | EFI_LEGACY_MP_TABLE_HEADER *MpsTableNew;\r | |
1638 | VOID *OemTableOri;\r | |
1639 | VOID *OemTableNew;\r | |
1640 | EFI_STATUS Status;\r | |
1641 | EFI_PHYSICAL_ADDRESS BufferPtr;\r | |
1642 | \r | |
1643 | //\r | |
1644 | // Get MP configuration Table \r | |
1645 | //\r | |
1646 | MpsFloatingPointerOri = (EFI_LEGACY_MP_TABLE_FLOATING_POINTER *)(UINTN)(*(UINT64*)(*Table));\r | |
1647 | if (!(((UINTN)MpsFloatingPointerOri <= 0x100000) && \r | |
1648 | ((UINTN)MpsFloatingPointerOri >= 0xF0000))){\r | |
1649 | return EFI_SUCCESS;\r | |
1650 | }\r | |
1651 | //\r | |
1652 | // Get Floating pointer structure length\r | |
1653 | //\r | |
1654 | FPLength = MpsFloatingPointerOri->Length * 16;\r | |
1655 | Data32 = FPLength + SYS_TABLE_PAD (FPLength);\r | |
1656 | MpsTableOri = (EFI_LEGACY_MP_TABLE_HEADER *)(UINTN)(MpsFloatingPointerOri->PhysicalAddress);\r | |
1657 | if (MpsTableOri != NULL) {\r | |
1658 | Data32 += MpsTableOri->BaseTableLength;\r | |
1659 | Data32 += MpsTableOri->ExtendedTableLength;\r | |
1660 | if (MpsTableOri->OemTablePointer != 0x00) {\r | |
1661 | Data32 += SYS_TABLE_PAD (Data32);\r | |
1662 | Data32 += MpsTableOri->OemTableSize;\r | |
1663 | }\r | |
1664 | } else {\r | |
1665 | return EFI_SUCCESS;\r | |
1666 | }\r | |
1667 | //\r | |
1668 | // Relocate memory\r | |
1669 | //\r | |
1670 | BufferPtr = EFI_SYSTEM_TABLE_MAX_ADDRESS;\r | |
1671 | Status = gBS->AllocatePages (\r | |
1672 | AllocateMaxAddress,\r | |
1673 | EfiACPIMemoryNVS,\r | |
1674 | EFI_SIZE_TO_PAGES(Data32),\r | |
1675 | &BufferPtr\r | |
1676 | );\r | |
1677 | ASSERT_EFI_ERROR (Status); \r | |
1678 | MpsFloatingPointerNew = (EFI_LEGACY_MP_TABLE_FLOATING_POINTER *)(UINTN)BufferPtr;\r | |
1679 | CopyMem (MpsFloatingPointerNew, MpsFloatingPointerOri, FPLength);\r | |
1680 | //\r | |
1681 | // If Mp Table exists\r | |
1682 | //\r | |
1683 | if (MpsTableOri != NULL) {\r | |
1684 | //\r | |
1685 | // Get Mps table length, including Ext table\r | |
1686 | //\r | |
1687 | BufferPtr = BufferPtr + FPLength + SYS_TABLE_PAD (FPLength);\r | |
1688 | MpsTableNew = (EFI_LEGACY_MP_TABLE_HEADER *)(UINTN)BufferPtr;\r | |
1689 | CopyMem (MpsTableNew, MpsTableOri, MpsTableOri->BaseTableLength + MpsTableOri->ExtendedTableLength);\r | |
1690 | \r | |
1691 | if ((MpsTableOri->OemTableSize != 0x0000) && (MpsTableOri->OemTablePointer != 0x0000)){\r | |
1692 | BufferPtr += MpsTableOri->BaseTableLength + MpsTableOri->ExtendedTableLength;\r | |
1693 | BufferPtr += SYS_TABLE_PAD (BufferPtr);\r | |
1694 | OemTableNew = (VOID *)(UINTN)BufferPtr;\r | |
1695 | OemTableOri = (VOID *)(UINTN)MpsTableOri->OemTablePointer;\r | |
1696 | CopyMem (OemTableNew, OemTableOri, MpsTableOri->OemTableSize);\r | |
1697 | MpsTableNew->OemTablePointer = (UINT32)(UINTN)OemTableNew;\r | |
1698 | }\r | |
1699 | MpsTableNew->Checksum = 0;\r | |
ea7beacb | 1700 | MpsTableNew->Checksum = CalculateCheckSum8 ((UINT8*)MpsTableNew, MpsTableOri->BaseTableLength);\r |
c69dd9df | 1701 | MpsFloatingPointerNew->PhysicalAddress = (UINT32)(UINTN)MpsTableNew;\r |
1702 | MpsFloatingPointerNew->Checksum = 0;\r | |
ea7beacb | 1703 | MpsFloatingPointerNew->Checksum = CalculateCheckSum8 ((UINT8*)MpsFloatingPointerNew, FPLength);\r |
c69dd9df | 1704 | }\r |
1705 | //\r | |
1706 | // Change the pointer\r | |
1707 | //\r | |
1708 | *Table = MpsFloatingPointerNew;\r | |
1709 | \r | |
1710 | return EFI_SUCCESS; \r | |
1711 | } \r | |
24cdd14e LG |
1712 | \r |
1713 | /**\r | |
1714 | Lock the ConsoleIn device in system table. All key\r | |
1715 | presses will be ignored until the Password is typed in. The only way to\r | |
1716 | disable the password is to type it in to a ConIn device.\r | |
1717 | \r | |
1718 | @param Password Password used to lock ConIn device.\r | |
1719 | \r | |
1720 | @retval EFI_SUCCESS lock the Console In Spliter virtual handle successfully.\r | |
1721 | @retval EFI_UNSUPPORTED Password not found\r | |
1722 | \r | |
1723 | **/\r | |
1724 | EFI_STATUS\r | |
1725 | EFIAPI\r | |
1726 | LockKeyboards (\r | |
1727 | IN CHAR16 *Password\r | |
1728 | )\r | |
1729 | {\r | |
1730 | return EFI_UNSUPPORTED;\r | |
1731 | }\r | |
1732 | \r | |
1733 | /**\r | |
1734 | This function locks platform flash that is not allowed to be updated during normal boot path.\r | |
1735 | The flash layout is platform specific.\r | |
1736 | \r | |
1737 | **/\r | |
1738 | VOID\r | |
1739 | EFIAPI\r | |
1740 | PlatformBdsLockNonUpdatableFlash (\r | |
1741 | VOID\r | |
1742 | )\r | |
1743 | {\r | |
1744 | return;\r | |
1745 | }\r |