1 /** @file 2 Save the S3 data to S3 boot script. 3 4 Copyright (c) 2006 - 2015, Intel Corporation. All rights reserved.<BR> 5 6 This program and the accompanying materials 7 are licensed and made available under the terms and conditions 8 of the BSD License which accompanies this distribution. The 9 full text of the license may be found at 10 http://opensource.org/licenses/bsd-license.php 11 12 THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, 13 WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. 14 15 **/ 16 #include "InternalBootScriptLib.h" 17 18 /** 19 20 Data structure usage: 21 22 +------------------------------+<------- PcdS3BootScriptTablePrivateDataPtr 23 | SCRIPT_TABLE_PRIVATE_DATA | (mS3BootScriptTablePtr, Before SmmReadyToLock) 24 | TableBase |--- PcdS3BootScriptTablePrivateSmmDataPtr 25 | TableLength |--|-- (mS3BootScriptTablePtr = mS3BootScriptTableSmmPtr, After SmmReadyToLock InSmm) 26 | TableMemoryPageNumber |--|-|---- 27 | AtRuntime | | | | 28 | InSmm | | | | 29 | BootTimeScriptLength |--|-|---|--- 30 | SmmLocked | | | | | 31 | BackFromS3 | | | | | 32 +------------------------------+ | | | | 33 | | | | 34 +------------------------------+<-- | | | 35 | EFI_BOOT_SCRIPT_TABLE_HEADER | | | | 36 | TableLength |----|-- | | 37 +------------------------------+ | | | | 38 | ...... | | | | | 39 +------------------------------+<---- | | | 40 | EFI_BOOT_SCRIPT_TERMINATE | | | | 41 +------------------------------+<------ | | 42 | | 43 | | 44 mBootScriptDataBootTimeGuid LockBox: | | 45 Used to restore data after back from S3| | 46 to handle potential INSERT boot script | | 47 at runtime. | | 48 +------------------------------+ | | 49 | Boot Time Boot Script | | | 50 | Before SmmReadyToLock | | | 51 | | | | 52 | | | | 53 +------------------------------+ | | 54 | Boot Time Boot Script | | | 55 | After SmmReadyToLock InSmm | | | 56 | | | | 57 +------------------------------+<-------|--| 58 | | 59 | | 60 mBootScriptDataGuid LockBox: (IN_PLACE) | | 61 Used to restore data at S3 resume. | | 62 +------------------------------+ | | 63 | Boot Time Boot Script | | | 64 | Before SmmReadyToLock | | | 65 | | | | 66 | | | | 67 +------------------------------+ | | 68 | Boot Time Boot Script | | | 69 | After SmmReadyToLock InSmm | | | 70 | | | | 71 +------------------------------+<-------|--- 72 | Runtime Boot Script | | 73 | After SmmReadyToLock InSmm | | 74 +------------------------------+ | 75 | ...... | | 76 +------------------------------+<-------- 77 78 79 mBootScriptTableBaseGuid LockBox: (IN_PLACE) 80 +------------------------------+ 81 | mS3BootScriptTablePtr-> | 82 | TableBase | 83 +------------------------------+ 84 85 86 mBootScriptSmmPrivateDataGuid LockBox: (IN_PLACE) 87 SMM private data with BackFromS3 = TRUE 88 at runtime. S3 will help restore it to 89 tell the Library the system is back from S3. 90 +------------------------------+ 91 | SCRIPT_TABLE_PRIVATE_DATA | 92 | TableBase | 93 | TableLength | 94 | TableMemoryPageNumber | 95 | AtRuntime | 96 | InSmm | 97 | BootTimeScriptLength | 98 | SmmLocked | 99 | BackFromS3 = TRUE | 100 +------------------------------+ 101 102 **/ 103 104 SCRIPT_TABLE_PRIVATE_DATA *mS3BootScriptTablePtr; 105 106 // 107 // Allocate SMM copy because we can not use mS3BootScriptTablePtr after SmmReadyToLock in InSmm. 108 // 109 SCRIPT_TABLE_PRIVATE_DATA *mS3BootScriptTableSmmPtr; 110 111 EFI_GUID mBootScriptDataGuid = { 112 0xaea6b965, 0xdcf5, 0x4311, { 0xb4, 0xb8, 0xf, 0x12, 0x46, 0x44, 0x94, 0xd2 } 113 }; 114 115 EFI_GUID mBootScriptDataBootTimeGuid = { 116 0xb5af1d7a, 0xb8cf, 0x4eb3, { 0x89, 0x25, 0xa8, 0x20, 0xe1, 0x6b, 0x68, 0x7d } 117 }; 118 119 EFI_GUID mBootScriptTableBaseGuid = { 120 0x1810ab4a, 0x2314, 0x4df6, { 0x81, 0xeb, 0x67, 0xc6, 0xec, 0x5, 0x85, 0x91 } 121 }; 122 123 EFI_GUID mBootScriptSmmPrivateDataGuid = { 124 0x627ee2da, 0x3bf9, 0x439b, { 0x92, 0x9f, 0x2e, 0xe, 0x6e, 0x9d, 0xba, 0x62 } 125 }; 126 127 /** 128 This is an internal function to add a terminate node the entry, recalculate the table 129 length and fill into the table. 130 131 @return the base address of the boot script table. 132 **/ 133 UINT8* 134 S3BootScriptInternalCloseTable ( 135 VOID 136 ) 137 { 138 UINT8 *S3TableBase; 139 EFI_BOOT_SCRIPT_TERMINATE ScriptTerminate; 140 EFI_BOOT_SCRIPT_TABLE_HEADER *ScriptTableInfo; 141 S3TableBase = mS3BootScriptTablePtr->TableBase; 142 143 if (S3TableBase == NULL) { 144 // 145 // the table is not exist 146 // 147 return S3TableBase; 148 } 149 // 150 // Append the termination entry. 151 // 152 ScriptTerminate.OpCode = S3_BOOT_SCRIPT_LIB_TERMINATE_OPCODE; 153 ScriptTerminate.Length = (UINT8) sizeof (EFI_BOOT_SCRIPT_TERMINATE); 154 CopyMem (mS3BootScriptTablePtr->TableBase + mS3BootScriptTablePtr->TableLength, &ScriptTerminate, sizeof (EFI_BOOT_SCRIPT_TERMINATE)); 155 // 156 // fill the table length 157 // 158 ScriptTableInfo = (EFI_BOOT_SCRIPT_TABLE_HEADER*)(mS3BootScriptTablePtr->TableBase); 159 ScriptTableInfo->TableLength = mS3BootScriptTablePtr->TableLength + sizeof (EFI_BOOT_SCRIPT_TERMINATE); 160 161 162 163 return S3TableBase; 164 // 165 // NOTE: Here we did NOT adjust the mS3BootScriptTablePtr->TableLength to 166 // mS3BootScriptTablePtr->TableLength + sizeof (EFI_BOOT_SCRIPT_TERMINATE). 167 // Because maybe after SmmReadyToLock, we still need add entries into the table, 168 // and the entry should be added start before this TERMINATE node. 169 // 170 } 171 172 /** 173 This function save boot script data to LockBox. 174 175 **/ 176 VOID 177 SaveBootScriptDataToLockBox ( 178 VOID 179 ) 180 { 181 EFI_STATUS Status; 182 183 // 184 // Save whole memory copy into LockBox. 185 // It will be used to restore data at S3 resume. 186 // 187 Status = SaveLockBox ( 188 &mBootScriptDataGuid, 189 (VOID *)mS3BootScriptTablePtr->TableBase, 190 EFI_PAGES_TO_SIZE (mS3BootScriptTablePtr->TableMemoryPageNumber) 191 ); 192 ASSERT_EFI_ERROR (Status); 193 194 Status = SetLockBoxAttributes (&mBootScriptDataGuid, LOCK_BOX_ATTRIBUTE_RESTORE_IN_PLACE); 195 ASSERT_EFI_ERROR (Status); 196 197 // 198 // Just need save TableBase. 199 // Do not update other field because they will NOT be used in S3. 200 // 201 Status = SaveLockBox ( 202 &mBootScriptTableBaseGuid, 203 (VOID *)&mS3BootScriptTablePtr->TableBase, 204 sizeof(mS3BootScriptTablePtr->TableBase) 205 ); 206 ASSERT_EFI_ERROR (Status); 207 208 Status = SetLockBoxAttributes (&mBootScriptTableBaseGuid, LOCK_BOX_ATTRIBUTE_RESTORE_IN_PLACE); 209 ASSERT_EFI_ERROR (Status); 210 } 211 212 /** 213 This is the Event call back function to notify the Library the system is entering 214 SmmLocked phase. 215 216 @param Event Pointer to this event 217 @param Context Event handler private data 218 **/ 219 VOID 220 EFIAPI 221 S3BootScriptEventCallBack ( 222 IN EFI_EVENT Event, 223 IN VOID *Context 224 ) 225 { 226 EFI_STATUS Status; 227 VOID *Interface; 228 229 // 230 // Try to locate it because EfiCreateProtocolNotifyEvent will trigger it once when registration. 231 // Just return if it is not found. 232 // 233 Status = gBS->LocateProtocol ( 234 &gEfiDxeSmmReadyToLockProtocolGuid, 235 NULL, 236 &Interface 237 ); 238 if (EFI_ERROR (Status)) { 239 return ; 240 } 241 242 // 243 // Here we should tell the library that we are entering SmmLocked phase. 244 // and the memory page number occupied by the table should not grow anymore. 245 // 246 if (!mS3BootScriptTablePtr->SmmLocked) { 247 // 248 // Before SmmReadyToLock, we need not write the terminate node when adding a node to boot scipt table 249 // or else, that will impact the performance. However, after SmmReadyToLock, we should append terminate 250 // node on every add to boot script table. 251 // 252 S3BootScriptInternalCloseTable (); 253 mS3BootScriptTablePtr->SmmLocked = TRUE; 254 255 // 256 // Save BootScript data to lockbox 257 // 258 SaveBootScriptDataToLockBox (); 259 } 260 } 261 262 /** 263 This is the Event call back function is triggered in SMM to notify the Library 264 the system is entering SmmLocked phase and set InSmm flag. 265 266 @param Protocol Points to the protocol's unique identifier 267 @param Interface Points to the interface instance 268 @param Handle The handle on which the interface was installed 269 270 @retval EFI_SUCCESS SmmEventCallback runs successfully 271 **/ 272 EFI_STATUS 273 EFIAPI 274 S3BootScriptSmmEventCallBack ( 275 IN CONST EFI_GUID *Protocol, 276 IN VOID *Interface, 277 IN EFI_HANDLE Handle 278 ) 279 { 280 // 281 // Check if it is already done 282 // 283 if (mS3BootScriptTablePtr == mS3BootScriptTableSmmPtr) { 284 return EFI_SUCCESS; 285 } 286 287 // 288 // Last chance to call-out, just make sure SmmLocked is set. 289 // 290 S3BootScriptEventCallBack (NULL, NULL); 291 292 // 293 // Save a SMM copy. If TableBase is NOT null, it means SMM copy has been ready, skip copy mem. 294 // 295 if (mS3BootScriptTableSmmPtr->TableBase == NULL) { 296 CopyMem (mS3BootScriptTableSmmPtr, mS3BootScriptTablePtr, sizeof(*mS3BootScriptTablePtr)); 297 298 // 299 // Set InSmm, we allow boot script update when InSmm, but not allow boot script outside SMM. 300 // InSmm will only be checked if SmmLocked is TRUE. 301 // 302 mS3BootScriptTableSmmPtr->InSmm = TRUE; 303 } 304 // 305 // We should not use ACPI Reserved copy, because it is not safe. 306 // 307 mS3BootScriptTablePtr = mS3BootScriptTableSmmPtr; 308 309 return EFI_SUCCESS; 310 } 311 312 /** 313 This function is to save boot time boot script data to LockBox. 314 315 Because there may be INSERT boot script at runtime in SMM. 316 The boot time copy will be used to restore data after back from S3. 317 Otherwise the data inserted may cause some boot time boot script data lost 318 if only BootScriptData used. 319 320 **/ 321 VOID 322 SaveBootTimeDataToLockBox ( 323 VOID 324 ) 325 { 326 EFI_STATUS Status; 327 328 // 329 // ACPI Reserved copy is not safe, restore from BootScriptData LockBox first, 330 // and then save the data to BootScriptDataBootTime LockBox. 331 // 332 Status = RestoreLockBox ( 333 &mBootScriptDataGuid, 334 NULL, 335 NULL 336 ); 337 ASSERT_EFI_ERROR (Status); 338 339 // 340 // Save BootScriptDataBootTime 341 // It will be used to restore data after back from S3. 342 // 343 Status = SaveLockBox ( 344 &mBootScriptDataBootTimeGuid, 345 (VOID *) mS3BootScriptTablePtr->TableBase, 346 mS3BootScriptTablePtr->BootTimeScriptLength 347 ); 348 ASSERT_EFI_ERROR (Status); 349 } 350 351 /** 352 This function save boot script SMM private data to LockBox with BackFromS3 = TRUE at runtime. 353 S3 resume will help restore it to tell the Library the system is back from S3. 354 355 **/ 356 VOID 357 SaveSmmPriviateDataToLockBoxAtRuntime ( 358 VOID 359 ) 360 { 361 EFI_STATUS Status; 362 363 // 364 // Save boot script SMM private data with BackFromS3 = TRUE. 365 // 366 mS3BootScriptTablePtr->BackFromS3 = TRUE; 367 Status = SaveLockBox ( 368 &mBootScriptSmmPrivateDataGuid, 369 (VOID *) mS3BootScriptTablePtr, 370 sizeof (SCRIPT_TABLE_PRIVATE_DATA) 371 ); 372 ASSERT_EFI_ERROR (Status); 373 374 Status = SetLockBoxAttributes (&mBootScriptSmmPrivateDataGuid, LOCK_BOX_ATTRIBUTE_RESTORE_IN_PLACE); 375 ASSERT_EFI_ERROR (Status); 376 377 // 378 // Set BackFromS3 flag back to FALSE to indicate that now is not back from S3. 379 // 380 mS3BootScriptTablePtr->BackFromS3 = FALSE; 381 } 382 383 /** 384 This is the Event call back function is triggered in SMM to notify the Library 385 the system is entering runtime phase. 386 387 @param[in] Protocol Points to the protocol's unique identifier 388 @param[in] Interface Points to the interface instance 389 @param[in] Handle The handle on which the interface was installed 390 391 @retval EFI_SUCCESS SmmAtRuntimeCallBack runs successfully 392 **/ 393 EFI_STATUS 394 EFIAPI 395 S3BootScriptSmmAtRuntimeCallBack ( 396 IN CONST EFI_GUID *Protocol, 397 IN VOID *Interface, 398 IN EFI_HANDLE Handle 399 ) 400 { 401 if (!mS3BootScriptTablePtr->AtRuntime) { 402 mS3BootScriptTablePtr->BootTimeScriptLength = (UINT32) (mS3BootScriptTablePtr->TableLength + sizeof (EFI_BOOT_SCRIPT_TERMINATE)); 403 SaveBootTimeDataToLockBox (); 404 405 mS3BootScriptTablePtr->AtRuntime = TRUE; 406 SaveSmmPriviateDataToLockBoxAtRuntime (); 407 } 408 409 return EFI_SUCCESS; 410 } 411 412 /** 413 Library Constructor. 414 this function just identify it is a smm driver or non-smm driver linked against 415 with the library 416 417 @param ImageHandle The firmware allocated handle for the EFI image. 418 @param SystemTable A pointer to the EFI System Table. 419 420 @retval RETURN_SUCCESS Allocate the global memory space to store S3 boot script table private data 421 @retval RETURN_OUT_OF_RESOURCES No enough memory to allocated. 422 **/ 423 RETURN_STATUS 424 EFIAPI 425 S3BootScriptLibInitialize ( 426 IN EFI_HANDLE ImageHandle, 427 IN EFI_SYSTEM_TABLE *SystemTable 428 ) 429 { 430 EFI_STATUS Status; 431 SCRIPT_TABLE_PRIVATE_DATA *S3TablePtr; 432 SCRIPT_TABLE_PRIVATE_DATA *S3TableSmmPtr; 433 VOID *Registration; 434 EFI_SMM_BASE2_PROTOCOL *SmmBase2; 435 BOOLEAN InSmm; 436 EFI_SMM_SYSTEM_TABLE2 *Smst; 437 EFI_PHYSICAL_ADDRESS Buffer; 438 EFI_EVENT Event; 439 440 S3TablePtr = (SCRIPT_TABLE_PRIVATE_DATA*)(UINTN)PcdGet64(PcdS3BootScriptTablePrivateDataPtr); 441 // 442 // The Boot script private data is not be initialized. create it 443 // 444 if (S3TablePtr == 0) { 445 Buffer = SIZE_4GB - 1; 446 Status = gBS->AllocatePages ( 447 AllocateMaxAddress, 448 EfiReservedMemoryType, 449 EFI_SIZE_TO_PAGES(sizeof(SCRIPT_TABLE_PRIVATE_DATA)), 450 &Buffer 451 ); 452 if (EFI_ERROR (Status)) { 453 return RETURN_OUT_OF_RESOURCES; 454 } 455 S3TablePtr = (VOID *) (UINTN) Buffer; 456 457 Status = PcdSet64S (PcdS3BootScriptTablePrivateDataPtr, (UINT64) (UINTN)S3TablePtr); 458 ASSERT_EFI_ERROR (Status); 459 ZeroMem (S3TablePtr, sizeof(SCRIPT_TABLE_PRIVATE_DATA)); 460 // 461 // Create event to notify the library system enter the SmmLocked phase. 462 // 463 Event = EfiCreateProtocolNotifyEvent ( 464 &gEfiDxeSmmReadyToLockProtocolGuid, 465 TPL_CALLBACK, 466 S3BootScriptEventCallBack, 467 NULL, 468 &Registration 469 ); 470 ASSERT (Event != NULL); 471 } 472 mS3BootScriptTablePtr = S3TablePtr; 473 474 // 475 // Get InSmm, we need to register SmmReadyToLock if this library is linked to SMM driver. 476 // 477 Status = gBS->LocateProtocol (&gEfiSmmBase2ProtocolGuid, NULL, (VOID**) &SmmBase2); 478 if (EFI_ERROR (Status)) { 479 return RETURN_SUCCESS; 480 } 481 Status = SmmBase2->InSmm (SmmBase2, &InSmm); 482 if (EFI_ERROR (Status)) { 483 return RETURN_SUCCESS; 484 } 485 if (!InSmm) { 486 return RETURN_SUCCESS; 487 } 488 // 489 // Good, we are in SMM 490 // 491 Status = SmmBase2->GetSmstLocation (SmmBase2, &Smst); 492 if (EFI_ERROR (Status)) { 493 return RETURN_SUCCESS; 494 } 495 496 S3TableSmmPtr = (SCRIPT_TABLE_PRIVATE_DATA*)(UINTN)PcdGet64(PcdS3BootScriptTablePrivateSmmDataPtr); 497 // 498 // The Boot script private data in SMM is not be initialized. create it 499 // 500 if (S3TableSmmPtr == 0) { 501 Status = Smst->SmmAllocatePool ( 502 EfiRuntimeServicesData, 503 sizeof(SCRIPT_TABLE_PRIVATE_DATA), 504 (VOID **) &S3TableSmmPtr 505 ); 506 if (EFI_ERROR (Status)) { 507 return RETURN_OUT_OF_RESOURCES; 508 } 509 510 Status = PcdSet64S (PcdS3BootScriptTablePrivateSmmDataPtr, (UINT64) (UINTN)S3TableSmmPtr); 511 ASSERT_EFI_ERROR (Status); 512 ZeroMem (S3TableSmmPtr, sizeof(SCRIPT_TABLE_PRIVATE_DATA)); 513 514 // 515 // Register SmmExitBootServices and SmmLegacyBoot notification. 516 // 517 Registration = NULL; 518 Status = Smst->SmmRegisterProtocolNotify ( 519 &gEdkiiSmmExitBootServicesProtocolGuid, 520 S3BootScriptSmmAtRuntimeCallBack, 521 &Registration 522 ); 523 ASSERT_EFI_ERROR (Status); 524 525 Registration = NULL; 526 Status = Smst->SmmRegisterProtocolNotify ( 527 &gEdkiiSmmLegacyBootProtocolGuid, 528 S3BootScriptSmmAtRuntimeCallBack, 529 &Registration 530 ); 531 ASSERT_EFI_ERROR (Status); 532 } 533 mS3BootScriptTableSmmPtr = S3TableSmmPtr; 534 535 // 536 // Register SmmReadyToLock notification. 537 // 538 Registration = NULL; 539 Status = Smst->SmmRegisterProtocolNotify ( 540 &gEfiSmmReadyToLockProtocolGuid, 541 S3BootScriptSmmEventCallBack, 542 &Registration 543 ); 544 ASSERT_EFI_ERROR (Status); 545 546 return RETURN_SUCCESS; 547 } 548 /** 549 To get the start address from which a new boot time s3 boot script entry will write into. 550 If the table is not exist, the functio will first allocate a buffer for the table 551 If the table buffer is not enough for the new entry, in non-smm mode, the funtion will 552 invoke reallocate to enlarge buffer. 553 554 @param EntryLength the new entry length. 555 556 @retval the address from which the a new s3 boot script entry will write into 557 **/ 558 UINT8* 559 S3BootScriptGetBootTimeEntryAddAddress ( 560 UINT8 EntryLength 561 ) 562 { 563 EFI_PHYSICAL_ADDRESS S3TableBase; 564 EFI_PHYSICAL_ADDRESS NewS3TableBase; 565 UINT8 *NewEntryPtr; 566 UINT32 TableLength; 567 UINT16 PageNumber; 568 EFI_STATUS Status; 569 EFI_BOOT_SCRIPT_TABLE_HEADER *ScriptTableInfo; 570 571 S3TableBase = (EFI_PHYSICAL_ADDRESS)(UINTN)(mS3BootScriptTablePtr->TableBase); 572 if (S3TableBase == 0) { 573 // 574 // The table is not exist. This is the first to add entry. 575 // Allocate ACPI script table space under 4G memory. 576 // 577 S3TableBase = 0xffffffff; 578 Status = gBS->AllocatePages ( 579 AllocateMaxAddress, 580 EfiReservedMemoryType, 581 2 + PcdGet16(PcdS3BootScriptRuntimeTableReservePageNumber), 582 (EFI_PHYSICAL_ADDRESS*)&S3TableBase 583 ); 584 585 if (EFI_ERROR(Status)) { 586 ASSERT_EFI_ERROR (Status); 587 return 0; 588 } 589 // 590 // Fill Table Header 591 // 592 ScriptTableInfo = (EFI_BOOT_SCRIPT_TABLE_HEADER*)(UINTN)S3TableBase; 593 ScriptTableInfo->OpCode = S3_BOOT_SCRIPT_LIB_TABLE_OPCODE; 594 ScriptTableInfo->Length = (UINT8) sizeof (EFI_BOOT_SCRIPT_TABLE_HEADER); 595 ScriptTableInfo->Version = BOOT_SCRIPT_TABLE_VERSION; 596 ScriptTableInfo->TableLength = 0; // will be calculate at CloseTable 597 mS3BootScriptTablePtr->TableLength = sizeof (EFI_BOOT_SCRIPT_TABLE_HEADER); 598 mS3BootScriptTablePtr->TableBase = (UINT8*)(UINTN)S3TableBase; 599 mS3BootScriptTablePtr->TableMemoryPageNumber = (UINT16)(2 + PcdGet16(PcdS3BootScriptRuntimeTableReservePageNumber)); 600 } 601 602 // Here we do not count the reserved memory for runtime script table. 603 PageNumber = (UINT16) (mS3BootScriptTablePtr->TableMemoryPageNumber - PcdGet16(PcdS3BootScriptRuntimeTableReservePageNumber)); 604 TableLength = mS3BootScriptTablePtr->TableLength; 605 if ((UINTN) EFI_PAGES_TO_SIZE ((UINTN) PageNumber) < (UINTN) (TableLength + EntryLength + sizeof (EFI_BOOT_SCRIPT_TERMINATE))) { 606 // 607 // The buffer is too small to hold the table, Reallocate the buffer 608 // 609 NewS3TableBase = 0xffffffff; 610 Status = gBS->AllocatePages ( 611 AllocateMaxAddress, 612 EfiReservedMemoryType, 613 2 + PageNumber + PcdGet16(PcdS3BootScriptRuntimeTableReservePageNumber), 614 (EFI_PHYSICAL_ADDRESS*)&NewS3TableBase 615 ); 616 617 if (EFI_ERROR(Status)) { 618 ASSERT_EFI_ERROR (Status); 619 return 0; 620 } 621 622 CopyMem ((VOID*)(UINTN)NewS3TableBase, (VOID*)(UINTN)S3TableBase, TableLength); 623 gBS->FreePages (S3TableBase, mS3BootScriptTablePtr->TableMemoryPageNumber); 624 625 mS3BootScriptTablePtr->TableBase = (UINT8*)(UINTN)NewS3TableBase; 626 mS3BootScriptTablePtr->TableMemoryPageNumber = (UINT16) (2 + PageNumber + PcdGet16(PcdS3BootScriptRuntimeTableReservePageNumber)); 627 } 628 // 629 // calculate the the start address for the new entry. 630 // 631 NewEntryPtr = mS3BootScriptTablePtr->TableBase + TableLength; 632 633 // 634 // update the table lenghth 635 // 636 mS3BootScriptTablePtr->TableLength = TableLength + EntryLength; 637 638 // 639 // In the boot time, we will not append the termination entry to the boot script 640 // table until the callers think there is no boot time data that should be added and 641 // it is caller's responsibility to explicit call the CloseTable. 642 // 643 // 644 645 return NewEntryPtr; 646 } 647 /** 648 To get the start address from which a new runtime(after SmmReadyToLock) s3 boot script entry will write into. 649 In this case, it should be ensured that there is enough buffer to hold the entry. 650 651 @param EntryLength the new entry length. 652 653 @retval the address from which the a new s3 runtime(after SmmReadyToLock) script entry will write into 654 **/ 655 UINT8* 656 S3BootScriptGetRuntimeEntryAddAddress ( 657 UINT8 EntryLength 658 ) 659 { 660 UINT8 *NewEntryPtr; 661 662 NewEntryPtr = NULL; 663 // 664 // Check if the memory range reserved for S3 Boot Script table is large enough to hold the node. 665 // 666 if ((UINTN) (mS3BootScriptTablePtr->TableLength + EntryLength + sizeof (EFI_BOOT_SCRIPT_TERMINATE)) <= (UINTN) EFI_PAGES_TO_SIZE ((UINTN) (mS3BootScriptTablePtr->TableMemoryPageNumber))) { 667 NewEntryPtr = mS3BootScriptTablePtr->TableBase + mS3BootScriptTablePtr->TableLength; 668 mS3BootScriptTablePtr->TableLength = mS3BootScriptTablePtr->TableLength + EntryLength; 669 // 670 // Append a terminate node on every insert 671 // 672 S3BootScriptInternalCloseTable (); 673 } 674 return (UINT8*)NewEntryPtr; 675 } 676 677 /** 678 This function is to restore boot time boot script data from LockBox. 679 680 **/ 681 VOID 682 RestoreBootTimeDataFromLockBox ( 683 VOID 684 ) 685 { 686 EFI_STATUS Status; 687 UINTN LockBoxLength; 688 689 // 690 // Restore boot time boot script data from LockBox. 691 // 692 LockBoxLength = mS3BootScriptTablePtr->BootTimeScriptLength; 693 Status = RestoreLockBox ( 694 &mBootScriptDataBootTimeGuid, 695 (VOID *) mS3BootScriptTablePtr->TableBase, 696 &LockBoxLength 697 ); 698 ASSERT_EFI_ERROR (Status); 699 700 // 701 // Update the data to BootScriptData LockBox. 702 // 703 Status = UpdateLockBox ( 704 &mBootScriptDataGuid, 705 0, 706 (VOID *) mS3BootScriptTablePtr->TableBase, 707 LockBoxLength 708 ); 709 ASSERT_EFI_ERROR (Status); 710 711 // 712 // Update TableLength. 713 // 714 mS3BootScriptTablePtr->TableLength = (UINT32) (mS3BootScriptTablePtr->BootTimeScriptLength - sizeof (EFI_BOOT_SCRIPT_TERMINATE)); 715 } 716 717 /** 718 To get the start address from which a new s3 boot script entry will write into. 719 720 @param EntryLength the new entry length. 721 722 @retval the address from which the a new s3 boot script entry will write into 723 **/ 724 UINT8* 725 S3BootScriptGetEntryAddAddress ( 726 UINT8 EntryLength 727 ) 728 { 729 UINT8* NewEntryPtr; 730 731 if (mS3BootScriptTablePtr->SmmLocked) { 732 // 733 // We need check InSmm, because after SmmReadyToLock, only SMM driver is allowed to write boot script. 734 // 735 if (!mS3BootScriptTablePtr->InSmm) { 736 // 737 // Add DEBUG ERROR, so that we can find it after SmmReadyToLock. 738 // Do not use ASSERT, because we may have test to invoke this interface. 739 // 740 DEBUG ((EFI_D_ERROR, "FATAL ERROR: Set boot script outside SMM after SmmReadyToLock!!!\n")); 741 return NULL; 742 } 743 744 if (mS3BootScriptTablePtr->BackFromS3) { 745 // 746 // Back from S3, restore boot time boot script data from LockBox 747 // and set BackFromS3 flag back to FALSE. 748 // 749 RestoreBootTimeDataFromLockBox (); 750 mS3BootScriptTablePtr->BackFromS3 = FALSE; 751 } 752 753 NewEntryPtr = S3BootScriptGetRuntimeEntryAddAddress (EntryLength); 754 } else { 755 NewEntryPtr = S3BootScriptGetBootTimeEntryAddAddress (EntryLength); 756 } 757 return NewEntryPtr; 758 759 } 760 761 /** 762 Sync BootScript LockBox data. 763 764 @param Script The address from where the boot script has been added or updated. 765 766 **/ 767 VOID 768 SyncBootScript ( 769 IN UINT8 *Script 770 ) 771 { 772 EFI_STATUS Status; 773 UINT32 ScriptOffset; 774 UINT32 TotalScriptLength; 775 776 if (!mS3BootScriptTablePtr->SmmLocked || !mS3BootScriptTablePtr->InSmm) { 777 // 778 // If it is not after SmmReadyToLock in SMM, 779 // just return. 780 // 781 return ; 782 } 783 784 ScriptOffset = (UINT32) (Script - mS3BootScriptTablePtr->TableBase); 785 786 TotalScriptLength = (UINT32) (mS3BootScriptTablePtr->TableLength + sizeof (EFI_BOOT_SCRIPT_TERMINATE)); 787 788 // 789 // Update BootScriptData 790 // So in S3 resume, the data can be restored correctly. 791 // 792 Status = UpdateLockBox ( 793 &mBootScriptDataGuid, 794 ScriptOffset, 795 (VOID *)((UINTN)mS3BootScriptTablePtr->TableBase + ScriptOffset), 796 TotalScriptLength - ScriptOffset 797 ); 798 ASSERT_EFI_ERROR (Status); 799 800 // 801 // Now the length field is updated, need sync to lockbox. 802 // So at S3 resume, the data can be restored correctly. 803 // 804 Status = UpdateLockBox ( 805 &mBootScriptDataGuid, 806 OFFSET_OF (EFI_BOOT_SCRIPT_TABLE_HEADER, TableLength), 807 &TotalScriptLength, 808 sizeof (TotalScriptLength) 809 ); 810 ASSERT_EFI_ERROR (Status); 811 } 812 813 /** 814 This is an function to close the S3 boot script table. The function could only be called in 815 BOOT time phase. To comply with the Framework spec definition on 816 EFI_BOOT_SCRIPT_SAVE_PROTOCOL.CloseTable(), this function will fulfill following things: 817 1. Closes the specified boot script table 818 2. It allocates a new memory pool to duplicate all the boot scripts in the specified table. 819 Once this function is called, the table maintained by the library will be destroyed 820 after it is copied into the allocated pool. 821 3. Any attempts to add a script record after calling this function will cause a new table 822 to be created by the library. 823 4. The base address of the allocated pool will be returned in Address. Note that after 824 using the boot script table, the CALLER is responsible for freeing the pool that is allocated 825 by this function. 826 827 In Spec PI1.1, this EFI_BOOT_SCRIPT_SAVE_PROTOCOL.CloseTable() is retired. To provides this API for now is 828 for Framework Spec compatibility. 829 830 If anyone does call CloseTable() on a real platform, then the caller is responsible for figuring out 831 how to get the script to run at S3 resume because the boot script maintained by the lib will be 832 destroyed. 833 834 @return the base address of the new copy of the boot script table. 835 @note this function could only called in boot time phase 836 837 **/ 838 UINT8* 839 EFIAPI 840 S3BootScriptCloseTable ( 841 VOID 842 ) 843 { 844 UINT8 *S3TableBase; 845 UINT32 TableLength; 846 UINT8 *Buffer; 847 EFI_STATUS Status; 848 EFI_BOOT_SCRIPT_TABLE_HEADER *ScriptTableInfo; 849 850 S3TableBase = mS3BootScriptTablePtr->TableBase; 851 if (S3TableBase == 0) { 852 return 0; 853 } 854 // 855 // Append the termination record the S3 boot script table 856 // 857 S3BootScriptInternalCloseTable(); 858 TableLength = mS3BootScriptTablePtr->TableLength + sizeof (EFI_BOOT_SCRIPT_TERMINATE); 859 // 860 // Allocate the buffer and copy the boot script to the buffer. 861 // 862 Status = gBS->AllocatePool ( 863 EfiBootServicesData, 864 (UINTN)TableLength, 865 (VOID **) &Buffer 866 ); 867 if (EFI_ERROR (Status)) { 868 return 0; 869 } 870 CopyMem (Buffer, S3TableBase, TableLength); 871 872 // 873 // Destroy the table maintained by the library so that the next write operation 874 // will write the record to the first entry of the table. 875 // 876 // Fill the table header. 877 ScriptTableInfo = (EFI_BOOT_SCRIPT_TABLE_HEADER*)S3TableBase; 878 ScriptTableInfo->OpCode = S3_BOOT_SCRIPT_LIB_TABLE_OPCODE; 879 ScriptTableInfo->Length = (UINT8) sizeof (EFI_BOOT_SCRIPT_TABLE_HEADER); 880 ScriptTableInfo->TableLength = 0; // will be calculate at close the table 881 882 mS3BootScriptTablePtr->TableLength = sizeof (EFI_BOOT_SCRIPT_TABLE_HEADER); 883 return Buffer; 884 } 885 /** 886 Save I/O write to boot script 887 888 @param Width The width of the I/O operations.Enumerated in S3_BOOT_SCRIPT_LIB_WIDTH. 889 @param Address The base address of the I/O operations. 890 @param Count The number of I/O operations to perform. 891 @param Buffer The source buffer from which to write data. 892 893 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 894 @retval RETURN_SUCCESS Opcode is added. 895 **/ 896 RETURN_STATUS 897 EFIAPI 898 S3BootScriptSaveIoWrite ( 899 IN S3_BOOT_SCRIPT_LIB_WIDTH Width, 900 IN UINT64 Address, 901 IN UINTN Count, 902 IN VOID *Buffer 903 ) 904 905 { 906 UINT8 Length; 907 UINT8 *Script; 908 UINT8 WidthInByte; 909 EFI_BOOT_SCRIPT_IO_WRITE ScriptIoWrite; 910 911 WidthInByte = (UINT8) (0x01 << (Width & 0x03)); 912 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_IO_WRITE) + (WidthInByte * Count)); 913 914 Script = S3BootScriptGetEntryAddAddress (Length); 915 if (Script == NULL) { 916 return RETURN_OUT_OF_RESOURCES; 917 } 918 // 919 // save script data 920 // 921 ScriptIoWrite.OpCode = EFI_BOOT_SCRIPT_IO_WRITE_OPCODE; 922 ScriptIoWrite.Length = Length; 923 ScriptIoWrite.Width = Width; 924 ScriptIoWrite.Address = Address; 925 ScriptIoWrite.Count = (UINT32) Count; 926 CopyMem ((VOID*)Script, (VOID*)&ScriptIoWrite, sizeof(EFI_BOOT_SCRIPT_IO_WRITE)); 927 CopyMem ((VOID*)(Script + sizeof (EFI_BOOT_SCRIPT_IO_WRITE)), Buffer, WidthInByte * Count); 928 929 SyncBootScript (Script); 930 931 return RETURN_SUCCESS; 932 } 933 934 /** 935 Adds a record for an I/O modify operation into a S3 boot script table 936 937 @param Width The width of the I/O operations.Enumerated in S3_BOOT_SCRIPT_LIB_WIDTH. 938 @param Address The base address of the I/O operations. 939 @param Data A pointer to the data to be OR-ed. 940 @param DataMask A pointer to the data mask to be AND-ed with the data read from the register 941 942 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 943 @retval RETURN_SUCCESS Opcode is added. 944 **/ 945 RETURN_STATUS 946 EFIAPI 947 S3BootScriptSaveIoReadWrite ( 948 IN S3_BOOT_SCRIPT_LIB_WIDTH Width, 949 IN UINT64 Address, 950 IN VOID *Data, 951 IN VOID *DataMask 952 ) 953 { 954 UINT8 Length; 955 UINT8 *Script; 956 UINT8 WidthInByte; 957 EFI_BOOT_SCRIPT_IO_READ_WRITE ScriptIoReadWrite; 958 959 WidthInByte = (UINT8) (0x01 << (Width & 0x03)); 960 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_IO_READ_WRITE) + (WidthInByte * 2)); 961 962 Script = S3BootScriptGetEntryAddAddress (Length); 963 if (Script == NULL) { 964 return RETURN_OUT_OF_RESOURCES; 965 } 966 // 967 // Build script data 968 // 969 ScriptIoReadWrite.OpCode = EFI_BOOT_SCRIPT_IO_READ_WRITE_OPCODE; 970 ScriptIoReadWrite.Length = Length; 971 ScriptIoReadWrite.Width = Width; 972 ScriptIoReadWrite.Address = Address; 973 974 CopyMem ((VOID*)Script, (VOID*)&ScriptIoReadWrite, sizeof(EFI_BOOT_SCRIPT_IO_READ_WRITE)); 975 CopyMem ((VOID*)(Script + sizeof (EFI_BOOT_SCRIPT_IO_READ_WRITE)), Data, WidthInByte); 976 CopyMem ((VOID*)(Script + sizeof (EFI_BOOT_SCRIPT_IO_READ_WRITE) + WidthInByte), DataMask, WidthInByte); 977 978 SyncBootScript (Script); 979 980 return RETURN_SUCCESS; 981 } 982 /** 983 Adds a record for a memory write operation into a specified boot script table. 984 985 @param Width The width of the I/O operations.Enumerated in S3_BOOT_SCRIPT_LIB_WIDTH. 986 @param Address The base address of the memory operations 987 @param Count The number of memory operations to perform. 988 @param Buffer The source buffer from which to write the data. 989 990 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 991 @retval RETURN_SUCCESS Opcode is added. 992 **/ 993 RETURN_STATUS 994 EFIAPI 995 S3BootScriptSaveMemWrite ( 996 IN S3_BOOT_SCRIPT_LIB_WIDTH Width, 997 IN UINT64 Address, 998 IN UINTN Count, 999 IN VOID *Buffer 1000 ) 1001 { 1002 UINT8 Length; 1003 UINT8 *Script; 1004 UINT8 WidthInByte; 1005 EFI_BOOT_SCRIPT_MEM_WRITE ScriptMemWrite; 1006 1007 WidthInByte = (UINT8) (0x01 << (Width & 0x03)); 1008 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_MEM_WRITE) + (WidthInByte * Count)); 1009 1010 Script = S3BootScriptGetEntryAddAddress (Length); 1011 if (Script == NULL) { 1012 return RETURN_OUT_OF_RESOURCES; 1013 } 1014 // 1015 // Build script data 1016 // 1017 ScriptMemWrite.OpCode = EFI_BOOT_SCRIPT_MEM_WRITE_OPCODE; 1018 ScriptMemWrite.Length = Length; 1019 ScriptMemWrite.Width = Width; 1020 ScriptMemWrite.Address = Address; 1021 ScriptMemWrite.Count = (UINT32) Count; 1022 1023 CopyMem ((VOID*)Script, (VOID*)&ScriptMemWrite, sizeof(EFI_BOOT_SCRIPT_MEM_WRITE)); 1024 CopyMem ((VOID*)(Script + sizeof (EFI_BOOT_SCRIPT_MEM_WRITE)), Buffer, WidthInByte * Count); 1025 1026 SyncBootScript (Script); 1027 1028 return RETURN_SUCCESS; 1029 } 1030 /** 1031 Adds a record for a memory modify operation into a specified boot script table. 1032 1033 @param Width The width of the I/O operations.Enumerated in S3_BOOT_SCRIPT_LIB_WIDTH. 1034 @param Address The base address of the memory operations. Address needs alignment if required 1035 @param Data A pointer to the data to be OR-ed. 1036 @param DataMask A pointer to the data mask to be AND-ed with the data read from the register. 1037 1038 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 1039 @retval RETURN_SUCCESS Opcode is added. 1040 **/ 1041 RETURN_STATUS 1042 EFIAPI 1043 S3BootScriptSaveMemReadWrite ( 1044 IN S3_BOOT_SCRIPT_LIB_WIDTH Width, 1045 IN UINT64 Address, 1046 IN VOID *Data, 1047 IN VOID *DataMask 1048 ) 1049 { 1050 UINT8 Length; 1051 UINT8 *Script; 1052 UINT8 WidthInByte; 1053 EFI_BOOT_SCRIPT_MEM_READ_WRITE ScriptMemReadWrite; 1054 1055 WidthInByte = (UINT8) (0x01 << (Width & 0x03)); 1056 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_MEM_READ_WRITE) + (WidthInByte * 2)); 1057 1058 Script = S3BootScriptGetEntryAddAddress (Length); 1059 if (Script == NULL) { 1060 return RETURN_OUT_OF_RESOURCES; 1061 } 1062 // 1063 // Build script data 1064 // 1065 ScriptMemReadWrite.OpCode = EFI_BOOT_SCRIPT_MEM_READ_WRITE_OPCODE; 1066 ScriptMemReadWrite.Length = Length; 1067 ScriptMemReadWrite.Width = Width; 1068 ScriptMemReadWrite.Address = Address; 1069 1070 CopyMem ((VOID*)Script, (VOID*)&ScriptMemReadWrite , sizeof (EFI_BOOT_SCRIPT_MEM_READ_WRITE)); 1071 CopyMem ((VOID*)(Script + sizeof (EFI_BOOT_SCRIPT_MEM_READ_WRITE)), Data, WidthInByte); 1072 CopyMem ((VOID*)(Script + sizeof (EFI_BOOT_SCRIPT_MEM_READ_WRITE) + WidthInByte), DataMask, WidthInByte); 1073 1074 SyncBootScript (Script); 1075 1076 return RETURN_SUCCESS; 1077 } 1078 /** 1079 Adds a record for a PCI configuration space write operation into a specified boot script table. 1080 1081 @param Width The width of the I/O operations.Enumerated in S3_BOOT_SCRIPT_LIB_WIDTH. 1082 @param Address The address within the PCI configuration space. 1083 @param Count The number of PCI operations to perform. 1084 @param Buffer The source buffer from which to write the data. 1085 1086 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 1087 @retval RETURN_SUCCESS Opcode is added. 1088 @note A known Limitations in the implementation which is 64bits operations are not supported. 1089 1090 **/ 1091 RETURN_STATUS 1092 EFIAPI 1093 S3BootScriptSavePciCfgWrite ( 1094 IN S3_BOOT_SCRIPT_LIB_WIDTH Width, 1095 IN UINT64 Address, 1096 IN UINTN Count, 1097 IN VOID *Buffer 1098 ) 1099 { 1100 UINT8 Length; 1101 UINT8 *Script; 1102 UINT8 WidthInByte; 1103 EFI_BOOT_SCRIPT_PCI_CONFIG_WRITE ScriptPciWrite; 1104 1105 if (Width == S3BootScriptWidthUint64 || 1106 Width == S3BootScriptWidthFifoUint64 || 1107 Width == S3BootScriptWidthFillUint64) { 1108 return EFI_INVALID_PARAMETER; 1109 } 1110 1111 WidthInByte = (UINT8) (0x01 << (Width & 0x03)); 1112 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG_WRITE) + (WidthInByte * Count)); 1113 1114 Script = S3BootScriptGetEntryAddAddress (Length); 1115 if (Script == NULL) { 1116 return RETURN_OUT_OF_RESOURCES; 1117 } 1118 // 1119 // Build script data 1120 // 1121 ScriptPciWrite.OpCode = EFI_BOOT_SCRIPT_PCI_CONFIG_WRITE_OPCODE; 1122 ScriptPciWrite.Length = Length; 1123 ScriptPciWrite.Width = Width; 1124 ScriptPciWrite.Address = Address; 1125 ScriptPciWrite.Count = (UINT32) Count; 1126 1127 CopyMem ((VOID*)Script, (VOID*)&ScriptPciWrite, sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG_WRITE)); 1128 CopyMem ((VOID*)(Script + sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG_WRITE)), Buffer, WidthInByte * Count); 1129 1130 SyncBootScript (Script); 1131 1132 return RETURN_SUCCESS; 1133 } 1134 /** 1135 Adds a record for a PCI configuration space modify operation into a specified boot script table. 1136 1137 @param Width The width of the I/O operations.Enumerated in S3_BOOT_SCRIPT_LIB_WIDTH. 1138 @param Address The address within the PCI configuration space. 1139 @param Data A pointer to the data to be OR-ed.The size depends on Width. 1140 @param DataMask A pointer to the data mask to be AND-ed. 1141 1142 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 1143 @retval RETURN__SUCCESS Opcode is added. 1144 @note A known Limitations in the implementation which is 64bits operations are not supported. 1145 1146 **/ 1147 RETURN_STATUS 1148 EFIAPI 1149 S3BootScriptSavePciCfgReadWrite ( 1150 IN S3_BOOT_SCRIPT_LIB_WIDTH Width, 1151 IN UINT64 Address, 1152 IN VOID *Data, 1153 IN VOID *DataMask 1154 ) 1155 { 1156 UINT8 Length; 1157 UINT8 *Script; 1158 UINT8 WidthInByte; 1159 EFI_BOOT_SCRIPT_PCI_CONFIG_READ_WRITE ScriptPciReadWrite; 1160 1161 if (Width == S3BootScriptWidthUint64 || 1162 Width == S3BootScriptWidthFifoUint64 || 1163 Width == S3BootScriptWidthFillUint64) { 1164 return EFI_INVALID_PARAMETER; 1165 } 1166 1167 WidthInByte = (UINT8) (0x01 << (Width & 0x03)); 1168 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG_READ_WRITE) + (WidthInByte * 2)); 1169 1170 Script = S3BootScriptGetEntryAddAddress (Length); 1171 if (Script == NULL) { 1172 return RETURN_OUT_OF_RESOURCES; 1173 } 1174 // 1175 // Build script data 1176 // 1177 ScriptPciReadWrite.OpCode = EFI_BOOT_SCRIPT_PCI_CONFIG_READ_WRITE_OPCODE; 1178 ScriptPciReadWrite.Length = Length; 1179 ScriptPciReadWrite.Width = Width; 1180 ScriptPciReadWrite.Address = Address; 1181 1182 CopyMem ((VOID*)Script, (VOID*)&ScriptPciReadWrite, sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG_READ_WRITE)); 1183 CopyMem ((VOID*)(Script + sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG_READ_WRITE)), Data, WidthInByte); 1184 CopyMem ( 1185 (VOID*)(Script + sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG_READ_WRITE) + WidthInByte), 1186 DataMask, 1187 WidthInByte 1188 ); 1189 1190 SyncBootScript (Script); 1191 1192 return RETURN_SUCCESS; 1193 } 1194 /** 1195 Adds a record for a PCI configuration 2 space write operation into a specified boot script table. 1196 1197 @param Width The width of the I/O operations.Enumerated in S3_BOOT_SCRIPT_LIB_WIDTH. 1198 @param Segment The PCI segment number for Address. 1199 @param Address The address within the PCI configuration space. 1200 @param Count The number of PCI operations to perform. 1201 @param Buffer The source buffer from which to write the data. 1202 1203 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 1204 @retval RETURN_SUCCESS Opcode is added. 1205 @note A known Limitations in the implementation which is non-zero Segment and 64bits operations are not supported. 1206 1207 **/ 1208 RETURN_STATUS 1209 EFIAPI 1210 S3BootScriptSavePciCfg2Write ( 1211 IN S3_BOOT_SCRIPT_LIB_WIDTH Width, 1212 IN UINT16 Segment, 1213 IN UINT64 Address, 1214 IN UINTN Count, 1215 IN VOID *Buffer 1216 ) 1217 { 1218 UINT8 Length; 1219 UINT8 *Script; 1220 UINT8 WidthInByte; 1221 EFI_BOOT_SCRIPT_PCI_CONFIG2_WRITE ScriptPciWrite2; 1222 1223 if (Segment != 0 || 1224 Width == S3BootScriptWidthUint64 || 1225 Width == S3BootScriptWidthFifoUint64 || 1226 Width == S3BootScriptWidthFillUint64) { 1227 return EFI_INVALID_PARAMETER; 1228 } 1229 1230 WidthInByte = (UINT8) (0x01 << (Width & 0x03)); 1231 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG2_WRITE) + (WidthInByte * Count)); 1232 1233 Script = S3BootScriptGetEntryAddAddress (Length); 1234 if (Script == NULL) { 1235 return RETURN_OUT_OF_RESOURCES; 1236 } 1237 // 1238 // Build script data 1239 // 1240 ScriptPciWrite2.OpCode = EFI_BOOT_SCRIPT_PCI_CONFIG2_WRITE_OPCODE; 1241 ScriptPciWrite2.Length = Length; 1242 ScriptPciWrite2.Width = Width; 1243 ScriptPciWrite2.Address = Address; 1244 ScriptPciWrite2.Segment = Segment; 1245 ScriptPciWrite2.Count = (UINT32)Count; 1246 1247 CopyMem ((VOID*)Script, (VOID*)&ScriptPciWrite2, sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG2_WRITE)); 1248 CopyMem ((VOID*)(Script + sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG2_WRITE)), Buffer, WidthInByte * Count); 1249 1250 SyncBootScript (Script); 1251 1252 return RETURN_SUCCESS; 1253 } 1254 /** 1255 Adds a record for a PCI configuration 2 space modify operation into a specified boot script table. 1256 1257 @param Width The width of the I/O operations.Enumerated in S3_BOOT_SCRIPT_LIB_WIDTH. 1258 @param Segment The PCI segment number for Address. 1259 @param Address The address within the PCI configuration space. 1260 @param Data A pointer to the data to be OR-ed. The size depends on Width. 1261 @param DataMask A pointer to the data mask to be AND-ed. 1262 1263 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 1264 @retval RETURN_SUCCESS Opcode is added. 1265 @note A known Limitations in the implementation which is non-zero Segment and 64bits operations are not supported. 1266 1267 **/ 1268 RETURN_STATUS 1269 EFIAPI 1270 S3BootScriptSavePciCfg2ReadWrite ( 1271 IN S3_BOOT_SCRIPT_LIB_WIDTH Width, 1272 IN UINT16 Segment, 1273 IN UINT64 Address, 1274 IN VOID *Data, 1275 IN VOID *DataMask 1276 ) 1277 { 1278 UINT8 Length; 1279 UINT8 *Script; 1280 UINT8 WidthInByte; 1281 EFI_BOOT_SCRIPT_PCI_CONFIG2_READ_WRITE ScriptPciReadWrite2; 1282 1283 if (Segment != 0 || 1284 Width == S3BootScriptWidthUint64 || 1285 Width == S3BootScriptWidthFifoUint64 || 1286 Width == S3BootScriptWidthFillUint64) { 1287 return EFI_INVALID_PARAMETER; 1288 } 1289 1290 WidthInByte = (UINT8) (0x01 << (Width & 0x03)); 1291 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG2_READ_WRITE) + (WidthInByte * 2)); 1292 1293 Script = S3BootScriptGetEntryAddAddress (Length); 1294 if (Script == NULL) { 1295 return RETURN_OUT_OF_RESOURCES; 1296 } 1297 // 1298 // Build script data 1299 // 1300 ScriptPciReadWrite2.OpCode = EFI_BOOT_SCRIPT_PCI_CONFIG2_READ_WRITE_OPCODE; 1301 ScriptPciReadWrite2.Length = Length; 1302 ScriptPciReadWrite2.Width = Width; 1303 ScriptPciReadWrite2.Segment = Segment; 1304 ScriptPciReadWrite2.Address = Address; 1305 1306 CopyMem ((VOID*)Script, (VOID*)&ScriptPciReadWrite2, sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG2_READ_WRITE)); 1307 CopyMem ((VOID*)(Script + sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG2_READ_WRITE)), Data, WidthInByte); 1308 CopyMem ( 1309 (VOID*)(Script + sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG2_READ_WRITE) + WidthInByte), 1310 DataMask, 1311 WidthInByte 1312 ); 1313 1314 SyncBootScript (Script); 1315 1316 return RETURN_SUCCESS; 1317 } 1318 1319 /** 1320 Checks the parameter of S3BootScriptSaveSmbusExecute(). 1321 1322 This function checks the input parameters of SmbusExecute(). If the input parameters are valid 1323 for certain SMBus bus protocol, it will return EFI_SUCCESS; otherwise, it will return certain 1324 error code based on the input SMBus bus protocol. 1325 1326 @param SmBusAddress Address that encodes the SMBUS Slave Address, SMBUS Command, SMBUS Data Length, 1327 and PEC. 1328 @param Operation Signifies which particular SMBus hardware protocol instance that 1329 it will use to execute the SMBus transactions. This SMBus 1330 hardware protocol is defined by the SMBus Specification and is 1331 not related to EFI. 1332 @param Length Signifies the number of bytes that this operation will do. The 1333 maximum number of bytes can be revision specific and operation 1334 specific. This field will contain the actual number of bytes that 1335 are executed for this operation. Not all operations require this 1336 argument. 1337 @param Buffer Contains the value of data to execute to the SMBus slave device. 1338 Not all operations require this argument. The length of this 1339 buffer is identified by Length. 1340 1341 @retval EFI_SUCCESS All the parameters are valid for the corresponding SMBus bus 1342 protocol. 1343 @retval EFI_INVALID_PARAMETER Operation is not defined in EFI_SMBUS_OPERATION. 1344 @retval EFI_INVALID_PARAMETER Length/Buffer is NULL for operations except for EfiSmbusQuickRead 1345 and EfiSmbusQuickWrite. Length is outside the range of valid 1346 values. 1347 @retval EFI_UNSUPPORTED The SMBus operation or PEC is not supported. 1348 @retval EFI_BUFFER_TOO_SMALL Buffer is not sufficient for this operation. 1349 1350 **/ 1351 EFI_STATUS 1352 CheckParameters ( 1353 IN UINTN SmBusAddress, 1354 IN EFI_SMBUS_OPERATION Operation, 1355 IN OUT UINTN *Length, 1356 IN VOID *Buffer 1357 ) 1358 { 1359 EFI_STATUS Status; 1360 UINTN RequiredLen; 1361 EFI_SMBUS_DEVICE_COMMAND Command; 1362 BOOLEAN PecCheck; 1363 1364 Command = SMBUS_LIB_COMMAND (SmBusAddress); 1365 PecCheck = SMBUS_LIB_PEC (SmBusAddress); 1366 // 1367 // Set default value to be 2: 1368 // for SmbusReadWord, SmbusWriteWord and SmbusProcessCall. 1369 // 1370 RequiredLen = 2; 1371 Status = EFI_SUCCESS; 1372 switch (Operation) { 1373 case EfiSmbusQuickRead: 1374 case EfiSmbusQuickWrite: 1375 if (PecCheck || Command != 0) { 1376 return EFI_UNSUPPORTED; 1377 } 1378 break; 1379 case EfiSmbusReceiveByte: 1380 case EfiSmbusSendByte: 1381 if (Command != 0) { 1382 return EFI_UNSUPPORTED; 1383 } 1384 // 1385 // Cascade to check length parameter. 1386 // 1387 case EfiSmbusReadByte: 1388 case EfiSmbusWriteByte: 1389 RequiredLen = 1; 1390 // 1391 // Cascade to check length parameter. 1392 // 1393 case EfiSmbusReadWord: 1394 case EfiSmbusWriteWord: 1395 case EfiSmbusProcessCall: 1396 if (Buffer == NULL || Length == NULL) { 1397 return EFI_INVALID_PARAMETER; 1398 } else if (*Length < RequiredLen) { 1399 Status = EFI_BUFFER_TOO_SMALL; 1400 } 1401 *Length = RequiredLen; 1402 break; 1403 case EfiSmbusReadBlock: 1404 case EfiSmbusWriteBlock: 1405 case EfiSmbusBWBRProcessCall: 1406 if ((Buffer == NULL) || 1407 (Length == NULL) || 1408 (*Length < MIN_SMBUS_BLOCK_LEN) || 1409 (*Length > MAX_SMBUS_BLOCK_LEN)) { 1410 return EFI_INVALID_PARAMETER; 1411 } 1412 break; 1413 default: 1414 return EFI_INVALID_PARAMETER; 1415 } 1416 return Status; 1417 } 1418 1419 /** 1420 Adds a record for an SMBus command execution into a specified boot script table. 1421 1422 @param SmBusAddress Address that encodes the SMBUS Slave Address, SMBUS Command, SMBUS Data Length, and PEC. 1423 @param Operation Indicates which particular SMBus protocol it will use to execute the SMBus 1424 transactions. 1425 @param Length A pointer to signify the number of bytes that this operation will do. 1426 @param Buffer Contains the value of data to execute to the SMBUS slave device. 1427 1428 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 1429 @retval RETURN_SUCCESS Opcode is added. 1430 **/ 1431 RETURN_STATUS 1432 EFIAPI 1433 S3BootScriptSaveSmbusExecute ( 1434 IN UINTN SmBusAddress, 1435 IN EFI_SMBUS_OPERATION Operation, 1436 IN UINTN *Length, 1437 IN VOID *Buffer 1438 ) 1439 { 1440 EFI_STATUS Status; 1441 UINTN BufferLength; 1442 UINT8 DataSize; 1443 UINT8 *Script; 1444 EFI_BOOT_SCRIPT_SMBUS_EXECUTE ScriptSmbusExecute; 1445 1446 if (Length == NULL) { 1447 BufferLength = 0; 1448 } else { 1449 BufferLength = *Length; 1450 } 1451 1452 Status = CheckParameters (SmBusAddress, Operation, &BufferLength, Buffer); 1453 if (EFI_ERROR (Status)) { 1454 return Status; 1455 } 1456 1457 DataSize = (UINT8)(sizeof (EFI_BOOT_SCRIPT_SMBUS_EXECUTE) + BufferLength); 1458 1459 Script = S3BootScriptGetEntryAddAddress (DataSize); 1460 if (Script == NULL) { 1461 return RETURN_OUT_OF_RESOURCES; 1462 } 1463 // 1464 // Build script data 1465 // 1466 ScriptSmbusExecute.OpCode = EFI_BOOT_SCRIPT_SMBUS_EXECUTE_OPCODE; 1467 ScriptSmbusExecute.Length = DataSize; 1468 ScriptSmbusExecute.SmBusAddress = (UINT64) SmBusAddress; 1469 ScriptSmbusExecute.Operation = Operation; 1470 ScriptSmbusExecute.DataSize = (UINT32) BufferLength; 1471 1472 CopyMem ((VOID*)Script, (VOID*)&ScriptSmbusExecute, sizeof (EFI_BOOT_SCRIPT_SMBUS_EXECUTE)); 1473 CopyMem ( 1474 (VOID*)(Script + sizeof (EFI_BOOT_SCRIPT_SMBUS_EXECUTE)), 1475 Buffer, 1476 BufferLength 1477 ); 1478 1479 SyncBootScript (Script); 1480 1481 return RETURN_SUCCESS; 1482 } 1483 /** 1484 Adds a record for an execution stall on the processor into a specified boot script table. 1485 1486 @param Duration Duration in microseconds of the stall 1487 1488 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 1489 @retval RETURN_SUCCESS Opcode is added. 1490 **/ 1491 RETURN_STATUS 1492 EFIAPI 1493 S3BootScriptSaveStall ( 1494 IN UINTN Duration 1495 ) 1496 { 1497 UINT8 Length; 1498 UINT8 *Script; 1499 EFI_BOOT_SCRIPT_STALL ScriptStall; 1500 1501 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_STALL)); 1502 1503 Script = S3BootScriptGetEntryAddAddress (Length); 1504 if (Script == NULL) { 1505 return RETURN_OUT_OF_RESOURCES; 1506 } 1507 // 1508 // Build script data 1509 // 1510 ScriptStall.OpCode = EFI_BOOT_SCRIPT_STALL_OPCODE; 1511 ScriptStall.Length = Length; 1512 ScriptStall.Duration = Duration; 1513 1514 CopyMem ((VOID*)Script, (VOID*)&ScriptStall, sizeof (EFI_BOOT_SCRIPT_STALL)); 1515 1516 SyncBootScript (Script); 1517 1518 return RETURN_SUCCESS; 1519 } 1520 /** 1521 Adds a record for dispatching specified arbitrary code into a specified boot script table. 1522 1523 @param EntryPoint Entry point of the code to be dispatched. 1524 @param Context Argument to be passed into the EntryPoint of the code to be dispatched. 1525 1526 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 1527 @retval RETURN_SUCCESS Opcode is added. 1528 **/ 1529 RETURN_STATUS 1530 EFIAPI 1531 S3BootScriptSaveDispatch2 ( 1532 IN VOID *EntryPoint, 1533 IN VOID *Context 1534 ) 1535 { 1536 UINT8 Length; 1537 UINT8 *Script; 1538 EFI_BOOT_SCRIPT_DISPATCH_2 ScriptDispatch2; 1539 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_DISPATCH_2)); 1540 1541 Script = S3BootScriptGetEntryAddAddress (Length); 1542 if (Script == NULL) { 1543 return RETURN_OUT_OF_RESOURCES; 1544 } 1545 // 1546 // Build script data 1547 // 1548 ScriptDispatch2.OpCode = EFI_BOOT_SCRIPT_DISPATCH_2_OPCODE; 1549 ScriptDispatch2.Length = Length; 1550 ScriptDispatch2.EntryPoint = (EFI_PHYSICAL_ADDRESS)(UINTN)EntryPoint; 1551 ScriptDispatch2.Context = (EFI_PHYSICAL_ADDRESS)(UINTN)Context; 1552 1553 CopyMem ((VOID*)Script, (VOID*)&ScriptDispatch2, sizeof (EFI_BOOT_SCRIPT_DISPATCH_2)); 1554 1555 SyncBootScript (Script); 1556 1557 return RETURN_SUCCESS; 1558 1559 } 1560 /** 1561 Adds a record for memory reads of the memory location and continues when the exit criteria is 1562 satisfied or after a defined duration. 1563 1564 Please aware, below interface is different with PI specification, Vol 5: 1565 EFI_S3_SAVE_STATE_PROTOCOL.Write() for EFI_BOOT_SCRIPT_MEM_POLL_OPCODE. 1566 "Duration" below is microseconds, while "Delay" in PI specification means 1567 the number of 100ns units to poll. 1568 1569 @param Width The width of the memory operations. 1570 @param Address The base address of the memory operations. 1571 @param BitMask A pointer to the bit mask to be AND-ed with the data read from the register. 1572 @param BitValue A pointer to the data value after to be Masked. 1573 @param Duration Duration in microseconds of the stall. 1574 @param LoopTimes The times of the register polling. 1575 1576 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 1577 @retval RETURN_SUCCESS Opcode is added. 1578 1579 **/ 1580 RETURN_STATUS 1581 EFIAPI 1582 S3BootScriptSaveMemPoll ( 1583 IN S3_BOOT_SCRIPT_LIB_WIDTH Width, 1584 IN UINT64 Address, 1585 IN VOID *BitMask, 1586 IN VOID *BitValue, 1587 IN UINTN Duration, 1588 IN UINTN LoopTimes 1589 ) 1590 { 1591 UINT8 Length; 1592 UINT8 *Script; 1593 UINT8 WidthInByte; 1594 EFI_BOOT_SCRIPT_MEM_POLL ScriptMemPoll; 1595 1596 WidthInByte = (UINT8) (0x01 << (Width & 0x03)); 1597 1598 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_MEM_POLL) + (WidthInByte * 2)); 1599 1600 Script = S3BootScriptGetEntryAddAddress (Length); 1601 if (Script == NULL) { 1602 return RETURN_OUT_OF_RESOURCES; 1603 } 1604 // 1605 // Build script data 1606 // 1607 ScriptMemPoll.OpCode = EFI_BOOT_SCRIPT_MEM_POLL_OPCODE; 1608 ScriptMemPoll.Length = Length; 1609 ScriptMemPoll.Width = Width; 1610 ScriptMemPoll.Address = Address; 1611 ScriptMemPoll.Duration = Duration; 1612 ScriptMemPoll.LoopTimes = LoopTimes; 1613 1614 CopyMem ((UINT8 *) (Script + sizeof (EFI_BOOT_SCRIPT_MEM_POLL)), BitValue, WidthInByte); 1615 CopyMem ((UINT8 *) (Script + sizeof (EFI_BOOT_SCRIPT_MEM_POLL) + WidthInByte), BitMask, WidthInByte); 1616 CopyMem ((VOID*)Script, (VOID*)&ScriptMemPoll, sizeof (EFI_BOOT_SCRIPT_MEM_POLL)); 1617 1618 SyncBootScript (Script); 1619 1620 return RETURN_SUCCESS; 1621 } 1622 /** 1623 Store arbitrary information in the boot script table. This opcode is a no-op on dispatch and is only 1624 used for debugging script issues. 1625 1626 @param InformationLength Length of the data in bytes 1627 @param Information Information to be logged in the boot scrpit 1628 1629 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 1630 @retval RETURN_SUCCESS Opcode is added. 1631 1632 **/ 1633 RETURN_STATUS 1634 EFIAPI 1635 S3BootScriptSaveInformation ( 1636 IN UINT32 InformationLength, 1637 IN VOID *Information 1638 ) 1639 { 1640 UINT8 Length; 1641 UINT8 *Script; 1642 EFI_BOOT_SCRIPT_INFORMATION ScriptInformation; 1643 1644 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_INFORMATION) + InformationLength); 1645 1646 Script = S3BootScriptGetEntryAddAddress (Length); 1647 if (Script == NULL) { 1648 return RETURN_OUT_OF_RESOURCES; 1649 } 1650 // 1651 // Build script data 1652 // 1653 ScriptInformation.OpCode = EFI_BOOT_SCRIPT_INFORMATION_OPCODE; 1654 ScriptInformation.Length = Length; 1655 1656 1657 ScriptInformation.InformationLength = InformationLength; 1658 1659 CopyMem ((VOID*)Script, (VOID*)&ScriptInformation, sizeof (EFI_BOOT_SCRIPT_INFORMATION)); 1660 CopyMem ((VOID*)(Script + sizeof (EFI_BOOT_SCRIPT_INFORMATION)), (VOID *) Information, (UINTN) InformationLength); 1661 1662 SyncBootScript (Script); 1663 1664 return RETURN_SUCCESS; 1665 1666 } 1667 /** 1668 Store a string in the boot script table. This opcode is a no-op on dispatch and is only 1669 used for debugging script issues. 1670 1671 @param String The string to save to boot script table 1672 1673 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 1674 @retval RETURN_SUCCESS Opcode is added. 1675 1676 **/ 1677 RETURN_STATUS 1678 EFIAPI 1679 S3BootScriptSaveInformationAsciiString ( 1680 IN CONST CHAR8 *String 1681 ) 1682 { 1683 return S3BootScriptSaveInformation ( 1684 (UINT32) AsciiStrLen (String) + 1, 1685 (VOID*) String 1686 ); 1687 } 1688 /** 1689 Adds a record for dispatching specified arbitrary code into a specified boot script table. 1690 1691 @param EntryPoint Entry point of the code to be dispatched. 1692 1693 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 1694 @retval RETURN_SUCCESS Opcode is added. 1695 **/ 1696 RETURN_STATUS 1697 EFIAPI 1698 S3BootScriptSaveDispatch ( 1699 IN VOID *EntryPoint 1700 ) 1701 { 1702 UINT8 Length; 1703 UINT8 *Script; 1704 EFI_BOOT_SCRIPT_DISPATCH ScriptDispatch; 1705 1706 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_DISPATCH)); 1707 1708 Script = S3BootScriptGetEntryAddAddress (Length); 1709 if (Script == NULL) { 1710 return RETURN_OUT_OF_RESOURCES; 1711 } 1712 // 1713 // Build script data 1714 // 1715 ScriptDispatch.OpCode = EFI_BOOT_SCRIPT_DISPATCH_OPCODE; 1716 ScriptDispatch.Length = Length; 1717 ScriptDispatch.EntryPoint = (EFI_PHYSICAL_ADDRESS)(UINTN)EntryPoint; 1718 1719 CopyMem ((VOID*)Script, (VOID*)&ScriptDispatch, sizeof (EFI_BOOT_SCRIPT_DISPATCH)); 1720 1721 SyncBootScript (Script); 1722 1723 return RETURN_SUCCESS; 1724 1725 } 1726 /** 1727 Adds a record for I/O reads the I/O location and continues when the exit criteria is satisfied or after a 1728 defined duration. 1729 1730 @param Width The width of the I/O operations. 1731 @param Address The base address of the I/O operations. 1732 @param Data The comparison value used for the polling exit criteria. 1733 @param DataMask Mask used for the polling criteria. The bits in the bytes below Width which are zero 1734 in Data are ignored when polling the memory address. 1735 @param Delay The number of 100ns units to poll. Note that timer available may be of poorer 1736 granularity so the delay may be longer. 1737 1738 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 1739 @retval RETURN_SUCCESS Opcode is added. 1740 1741 **/ 1742 RETURN_STATUS 1743 EFIAPI 1744 S3BootScriptSaveIoPoll ( 1745 IN S3_BOOT_SCRIPT_LIB_WIDTH Width, 1746 IN UINT64 Address, 1747 IN VOID *Data, 1748 IN VOID *DataMask, 1749 IN UINT64 Delay 1750 ) 1751 { 1752 UINT8 WidthInByte; 1753 UINT8 *Script; 1754 UINT8 Length; 1755 EFI_BOOT_SCRIPT_IO_POLL ScriptIoPoll; 1756 1757 1758 WidthInByte = (UINT8) (0x01 << (Width & 0x03)); 1759 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_IO_POLL) + (WidthInByte * 2)); 1760 1761 Script = S3BootScriptGetEntryAddAddress (Length); 1762 if (Script == NULL) { 1763 return RETURN_OUT_OF_RESOURCES; 1764 } 1765 // 1766 // Build script data 1767 // 1768 ScriptIoPoll.OpCode = EFI_BOOT_SCRIPT_IO_POLL_OPCODE; 1769 ScriptIoPoll.Length = (UINT8) (sizeof (EFI_BOOT_SCRIPT_IO_POLL) + (WidthInByte * 2)); 1770 ScriptIoPoll.Width = Width; 1771 ScriptIoPoll.Address = Address; 1772 ScriptIoPoll.Delay = Delay; 1773 1774 CopyMem ((VOID*)Script, (VOID*)&ScriptIoPoll, sizeof (EFI_BOOT_SCRIPT_IO_POLL)); 1775 CopyMem ((UINT8 *) (Script + sizeof (EFI_BOOT_SCRIPT_IO_POLL)), Data, WidthInByte); 1776 CopyMem ((UINT8 *) (Script + sizeof (EFI_BOOT_SCRIPT_IO_POLL) + WidthInByte), DataMask, WidthInByte); 1777 1778 SyncBootScript (Script); 1779 1780 return RETURN_SUCCESS; 1781 } 1782 1783 /** 1784 Adds a record for PCI configuration space reads and continues when the exit criteria is satisfied or 1785 after a defined duration. 1786 1787 @param Width The width of the I/O operations. 1788 @param Address The address within the PCI configuration space. 1789 @param Data The comparison value used for the polling exit criteria. 1790 @param DataMask Mask used for the polling criteria. The bits in the bytes below Width which are zero 1791 in Data are ignored when polling the memory address 1792 @param Delay The number of 100ns units to poll. Note that timer available may be of poorer 1793 granularity so the delay may be longer. 1794 1795 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 1796 @retval RETURN_SUCCESS Opcode is added. 1797 @note A known Limitations in the implementation which is 64bits operations are not supported. 1798 1799 **/ 1800 RETURN_STATUS 1801 EFIAPI 1802 S3BootScriptSavePciPoll ( 1803 IN S3_BOOT_SCRIPT_LIB_WIDTH Width, 1804 IN UINT64 Address, 1805 IN VOID *Data, 1806 IN VOID *DataMask, 1807 IN UINT64 Delay 1808 ) 1809 { 1810 UINT8 *Script; 1811 UINT8 WidthInByte; 1812 UINT8 Length; 1813 EFI_BOOT_SCRIPT_PCI_CONFIG_POLL ScriptPciPoll; 1814 1815 if (Width == S3BootScriptWidthUint64 || 1816 Width == S3BootScriptWidthFifoUint64 || 1817 Width == S3BootScriptWidthFillUint64) { 1818 return EFI_INVALID_PARAMETER; 1819 } 1820 1821 WidthInByte = (UINT8) (0x01 << (Width & 0x03)); 1822 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG_POLL) + (WidthInByte * 2)); 1823 1824 Script = S3BootScriptGetEntryAddAddress (Length); 1825 if (Script == NULL) { 1826 return RETURN_OUT_OF_RESOURCES; 1827 } 1828 // 1829 // Build script data 1830 // 1831 ScriptPciPoll.OpCode = EFI_BOOT_SCRIPT_PCI_CONFIG_POLL_OPCODE; 1832 ScriptPciPoll.Length = (UINT8) (sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG_POLL) + (WidthInByte * 2)); 1833 ScriptPciPoll.Width = Width; 1834 ScriptPciPoll.Address = Address; 1835 ScriptPciPoll.Delay = Delay; 1836 1837 CopyMem ((VOID*)Script, (VOID*)&ScriptPciPoll, sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG_POLL)); 1838 CopyMem ((UINT8 *) (Script + sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG_POLL)), Data, WidthInByte); 1839 CopyMem ((UINT8 *) (Script + sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG_POLL) + WidthInByte), DataMask, WidthInByte); 1840 1841 SyncBootScript (Script); 1842 1843 return RETURN_SUCCESS; 1844 } 1845 /** 1846 Adds a record for PCI configuration space reads and continues when the exit criteria is satisfied or 1847 after a defined duration. 1848 1849 @param Width The width of the I/O operations. 1850 @param Segment The PCI segment number for Address. 1851 @param Address The address within the PCI configuration space. 1852 @param Data The comparison value used for the polling exit criteria. 1853 @param DataMask Mask used for the polling criteria. The bits in the bytes below Width which are zero 1854 in Data are ignored when polling the memory address 1855 @param Delay The number of 100ns units to poll. Note that timer available may be of poorer 1856 granularity so the delay may be longer. 1857 1858 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 1859 @retval RETURN_SUCCESS Opcode is added. 1860 @note A known Limitations in the implementation which is non-zero Segment and 64bits operations are not supported. 1861 1862 **/ 1863 RETURN_STATUS 1864 EFIAPI 1865 S3BootScriptSavePci2Poll ( 1866 IN S3_BOOT_SCRIPT_LIB_WIDTH Width, 1867 IN UINT16 Segment, 1868 IN UINT64 Address, 1869 IN VOID *Data, 1870 IN VOID *DataMask, 1871 IN UINT64 Delay 1872 ) 1873 { 1874 UINT8 WidthInByte; 1875 UINT8 *Script; 1876 UINT8 Length; 1877 EFI_BOOT_SCRIPT_PCI_CONFIG2_POLL ScriptPci2Poll; 1878 1879 if (Segment != 0 || 1880 Width == S3BootScriptWidthUint64 || 1881 Width == S3BootScriptWidthFifoUint64 || 1882 Width == S3BootScriptWidthFillUint64) { 1883 return EFI_INVALID_PARAMETER; 1884 } 1885 1886 WidthInByte = (UINT8) (0x01 << (Width & 0x03)); 1887 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG2_POLL) + (WidthInByte * 2)); 1888 1889 Script = S3BootScriptGetEntryAddAddress (Length); 1890 if (Script == NULL) { 1891 return RETURN_OUT_OF_RESOURCES; 1892 } 1893 // 1894 // Build script data 1895 // 1896 ScriptPci2Poll.OpCode = EFI_BOOT_SCRIPT_PCI_CONFIG2_POLL_OPCODE; 1897 ScriptPci2Poll.Length = (UINT8) (sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG2_POLL) + (WidthInByte * 2)); 1898 ScriptPci2Poll.Width = Width; 1899 ScriptPci2Poll.Segment = Segment; 1900 ScriptPci2Poll.Address = Address; 1901 ScriptPci2Poll.Delay = Delay; 1902 1903 CopyMem ((VOID*)Script, (VOID*)&ScriptPci2Poll, sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG2_POLL)); 1904 CopyMem ((UINT8 *) (Script + sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG2_POLL)), Data, WidthInByte); 1905 CopyMem ((UINT8 *) (Script + sizeof (EFI_BOOT_SCRIPT_PCI_CONFIG2_POLL) + WidthInByte), DataMask, WidthInByte); 1906 1907 SyncBootScript (Script); 1908 1909 return RETURN_SUCCESS; 1910 } 1911 /** 1912 Do the calculation of start address from which a new s3 boot script entry will write into. 1913 1914 @param EntryLength The new entry length. 1915 @param Position specifies the position in the boot script table where the opcode will be 1916 inserted, either before or after, depending on BeforeOrAfter. 1917 @param BeforeOrAfter The flag to indicate to insert the nod before or after the position. 1918 This parameter is effective when InsertFlag is TRUE 1919 @param Script return out the position from which the a new s3 boot script entry will write into 1920 **/ 1921 VOID 1922 S3BootScriptCalculateInsertAddress ( 1923 IN UINT8 EntryLength, 1924 IN VOID *Position OPTIONAL, 1925 IN BOOLEAN BeforeOrAfter OPTIONAL, 1926 OUT UINT8 **Script 1927 ) 1928 { 1929 UINTN TableLength; 1930 UINT8 *S3TableBase; 1931 UINTN PositionOffset; 1932 EFI_BOOT_SCRIPT_COMMON_HEADER ScriptHeader; 1933 // 1934 // The entry inserting to table is already added to the end of the table 1935 // 1936 TableLength = mS3BootScriptTablePtr->TableLength - EntryLength; 1937 S3TableBase = mS3BootScriptTablePtr->TableBase ; 1938 // 1939 // calculate the Position offset 1940 // 1941 if (Position != NULL) { 1942 PositionOffset = (UINTN) ((UINT8 *)Position - S3TableBase); 1943 1944 // 1945 // If the BeforeOrAfter is FALSE, that means to insert the node right after the node. 1946 // 1947 if (!BeforeOrAfter) { 1948 CopyMem ((VOID*)&ScriptHeader, Position, sizeof(EFI_BOOT_SCRIPT_COMMON_HEADER)); 1949 PositionOffset += (ScriptHeader.Length); 1950 } 1951 // 1952 // Insert the node before the adjusted Position 1953 // 1954 CopyMem (S3TableBase+PositionOffset+EntryLength, S3TableBase+PositionOffset, TableLength - PositionOffset); 1955 // 1956 // calculate the the start address for the new entry. 1957 // 1958 *Script = S3TableBase + PositionOffset; 1959 1960 } else { 1961 if (!BeforeOrAfter) { 1962 // 1963 // Insert the node to the end of the table 1964 // 1965 *Script = S3TableBase + TableLength; 1966 } else { 1967 // 1968 // Insert the node to the beginning of the table 1969 // 1970 PositionOffset = (UINTN) sizeof(EFI_BOOT_SCRIPT_TABLE_HEADER); 1971 CopyMem (S3TableBase+PositionOffset+EntryLength, S3TableBase+PositionOffset, TableLength - PositionOffset); 1972 *Script = S3TableBase + PositionOffset; 1973 } 1974 } 1975 } 1976 /** 1977 Move the last boot script entry to the position 1978 1979 @param BeforeOrAfter Specifies whether the opcode is stored before (TRUE) or after (FALSE) the position 1980 in the boot script table specified by Position. If Position is NULL or points to 1981 NULL then the new opcode is inserted at the beginning of the table (if TRUE) or end 1982 of the table (if FALSE). 1983 @param Position On entry, specifies the position in the boot script table where the opcode will be 1984 inserted, either before or after, depending on BeforeOrAfter. On exit, specifies 1985 the position of the inserted opcode in the boot script table. 1986 1987 @retval RETURN_OUT_OF_RESOURCES The table is not available. 1988 @retval RETURN_INVALID_PARAMETER The Position is not a valid position in the boot script table. 1989 @retval RETURN_SUCCESS Opcode is inserted. 1990 **/ 1991 RETURN_STATUS 1992 EFIAPI 1993 S3BootScriptMoveLastOpcode ( 1994 IN BOOLEAN BeforeOrAfter, 1995 IN OUT VOID **Position OPTIONAL 1996 ) 1997 { 1998 UINT8* Script; 1999 VOID *TempPosition; 2000 UINTN StartAddress; 2001 UINT32 TableLength; 2002 EFI_BOOT_SCRIPT_COMMON_HEADER ScriptHeader; 2003 BOOLEAN ValidatePosition; 2004 UINT8* LastOpcode; 2005 UINT8 TempBootScriptEntry[BOOT_SCRIPT_NODE_MAX_LENGTH]; 2006 2007 ValidatePosition = FALSE; 2008 TempPosition = (Position == NULL) ? NULL:(*Position); 2009 2010 // 2011 // Check that the script is initialized and synced without adding an entry to the script. 2012 // 2013 Script = S3BootScriptGetEntryAddAddress (0); 2014 if (Script == NULL) { 2015 return RETURN_OUT_OF_RESOURCES; 2016 } 2017 Script = mS3BootScriptTablePtr->TableBase; 2018 2019 StartAddress = (UINTN) Script; 2020 TableLength = mS3BootScriptTablePtr->TableLength; 2021 Script = Script + sizeof(EFI_BOOT_SCRIPT_TABLE_HEADER); 2022 LastOpcode = Script; 2023 // 2024 // Find the last boot Script Entry which is not the terminate node 2025 // 2026 while ((UINTN) Script < (UINTN) (StartAddress + TableLength)) { 2027 CopyMem ((VOID*)&ScriptHeader, Script, sizeof(EFI_BOOT_SCRIPT_COMMON_HEADER)); 2028 if (TempPosition != NULL && TempPosition == Script) { 2029 // 2030 // If the position is specified, the position must be pointed to a boot script entry start address. 2031 // 2032 ValidatePosition = TRUE; 2033 } 2034 if (ScriptHeader.OpCode != S3_BOOT_SCRIPT_LIB_TERMINATE_OPCODE) { 2035 LastOpcode = Script; 2036 } 2037 Script = Script + ScriptHeader.Length; 2038 } 2039 // 2040 // If the position is specified, but not the start of a boot script entry, it is a invalid input 2041 // 2042 if (TempPosition != NULL && !ValidatePosition) { 2043 return RETURN_INVALID_PARAMETER; 2044 } 2045 2046 CopyMem ((VOID*)&ScriptHeader, LastOpcode, sizeof(EFI_BOOT_SCRIPT_COMMON_HEADER)); 2047 2048 CopyMem((VOID*)TempBootScriptEntry, LastOpcode, ScriptHeader.Length); 2049 // 2050 // Find the right position to write the node in 2051 // 2052 S3BootScriptCalculateInsertAddress ( 2053 ScriptHeader.Length, 2054 TempPosition, 2055 BeforeOrAfter, 2056 &Script 2057 ); 2058 // 2059 // Copy the node to Boot script table 2060 // 2061 CopyMem((VOID*)Script, (VOID*)TempBootScriptEntry, ScriptHeader.Length); 2062 2063 SyncBootScript (Script); 2064 2065 // 2066 // return out the Position 2067 // 2068 if (Position != NULL) { 2069 *Position = Script; 2070 } 2071 return RETURN_SUCCESS; 2072 } 2073 /** 2074 Create a Label node in the boot script table. 2075 2076 @param BeforeOrAfter Specifies whether the opcode is stored before (TRUE) or after (FALSE) the position 2077 in the boot script table specified by Position. If Position is NULL or points to 2078 NULL then the new opcode is inserted at the beginning of the table (if TRUE) or end 2079 of the table (if FALSE). 2080 @param Position On entry, specifies the position in the boot script table where the opcode will be 2081 inserted, either before or after, depending on BeforeOrAfter. On exit, specifies 2082 the position of the inserted opcode in the boot script table. 2083 @param InformationLength Length of the label in bytes 2084 @param Information Label to be logged in the boot scrpit 2085 2086 @retval RETURN_INVALID_PARAMETER The Position is not a valid position in the boot script table. 2087 @retval RETURN_OUT_OF_RESOURCES Not enough memory for the table do operation. 2088 @retval RETURN_SUCCESS Opcode is added. 2089 2090 **/ 2091 RETURN_STATUS 2092 EFIAPI 2093 S3BootScriptLabelInternal ( 2094 IN BOOLEAN BeforeOrAfter, 2095 IN OUT VOID **Position OPTIONAL, 2096 IN UINT32 InformationLength, 2097 IN CONST CHAR8 *Information 2098 ) 2099 { 2100 UINT8 Length; 2101 UINT8 *Script; 2102 EFI_BOOT_SCRIPT_INFORMATION ScriptInformation; 2103 2104 Length = (UINT8)(sizeof (EFI_BOOT_SCRIPT_INFORMATION) + InformationLength); 2105 2106 Script = S3BootScriptGetEntryAddAddress (Length); 2107 if (Script == NULL) { 2108 return RETURN_OUT_OF_RESOURCES; 2109 } 2110 // 2111 // Build script data 2112 // 2113 ScriptInformation.OpCode = S3_BOOT_SCRIPT_LIB_LABEL_OPCODE; 2114 ScriptInformation.Length = Length; 2115 2116 2117 ScriptInformation.InformationLength = InformationLength; 2118 2119 CopyMem ((VOID*)Script, (VOID*)&ScriptInformation, sizeof (EFI_BOOT_SCRIPT_INFORMATION)); 2120 CopyMem ((VOID*)(Script + sizeof (EFI_BOOT_SCRIPT_INFORMATION)), (VOID *) Information, (UINTN) InformationLength); 2121 2122 SyncBootScript (Script); 2123 2124 return S3BootScriptMoveLastOpcode (BeforeOrAfter, Position); 2125 2126 } 2127 /** 2128 Find a label within the boot script table and, if not present, optionally create it. 2129 2130 @param BeforeOrAfter Specifies whether the opcode is stored before (TRUE) 2131 or after (FALSE) the position in the boot script table 2132 specified by Position. 2133 @param CreateIfNotFound Specifies whether the label will be created if the label 2134 does not exists (TRUE) or not (FALSE). 2135 @param Position On entry, specifies the position in the boot script table 2136 where the opcode will be inserted, either before or after, 2137 depending on BeforeOrAfter. On exit, specifies the position 2138 of the inserted opcode in the boot script table. 2139 @param Label Points to the label which will be inserted in the boot script table. 2140 2141 @retval EFI_SUCCESS The operation succeeded. A record was added into the 2142 specified script table. 2143 @retval EFI_INVALID_PARAMETER The parameter is illegal or the given boot script is not supported. 2144 If the opcode is unknow or not supported because of the PCD 2145 Feature Flags. 2146 @retval EFI_OUT_OF_RESOURCES There is insufficient memory to store the boot script. 2147 2148 **/ 2149 RETURN_STATUS 2150 EFIAPI 2151 S3BootScriptLabel ( 2152 IN BOOLEAN BeforeOrAfter, 2153 IN BOOLEAN CreateIfNotFound, 2154 IN OUT VOID **Position OPTIONAL, 2155 IN CONST CHAR8 *Label 2156 ) 2157 { 2158 UINT8* Script; 2159 UINTN StartAddress; 2160 UINT32 TableLength; 2161 EFI_BOOT_SCRIPT_COMMON_HEADER ScriptHeader; 2162 EFI_BOOT_SCRIPT_TABLE_HEADER TableHeader; 2163 UINT32 LabelLength; 2164 // 2165 // Check NULL Label 2166 // 2167 if (Label == NULL) { 2168 return EFI_INVALID_PARAMETER; 2169 } 2170 // 2171 // Check empty Label 2172 // 2173 if (Label[0] == '\0') { 2174 return EFI_INVALID_PARAMETER; 2175 } 2176 2177 // 2178 // Check that the script is initialized and synced without adding an entry to the script. 2179 // The code must search for the label first before it knows if a new entry needs 2180 // to be added. 2181 // 2182 Script = S3BootScriptGetEntryAddAddress (0); 2183 if (Script == NULL) { 2184 return RETURN_OUT_OF_RESOURCES; 2185 } 2186 2187 // 2188 // Check the header and search for existing label. 2189 // 2190 Script = mS3BootScriptTablePtr->TableBase; 2191 CopyMem ((VOID*)&TableHeader, Script, sizeof(EFI_BOOT_SCRIPT_TABLE_HEADER)); 2192 if (TableHeader.OpCode != S3_BOOT_SCRIPT_LIB_TABLE_OPCODE) { 2193 return EFI_INVALID_PARAMETER; 2194 } 2195 StartAddress = (UINTN) Script; 2196 TableLength = mS3BootScriptTablePtr->TableLength; 2197 Script = Script + TableHeader.Length; 2198 while ((UINTN) Script < (UINTN) (StartAddress + TableLength)) { 2199 2200 CopyMem ((VOID*)&ScriptHeader, Script, sizeof(EFI_BOOT_SCRIPT_COMMON_HEADER)); 2201 if (ScriptHeader.OpCode == S3_BOOT_SCRIPT_LIB_LABEL_OPCODE) { 2202 if (AsciiStrCmp ((CHAR8 *)(UINTN)(Script+sizeof(EFI_BOOT_SCRIPT_INFORMATION)), Label) == 0) { 2203 (*Position) = Script; 2204 return EFI_SUCCESS; 2205 } 2206 } 2207 Script = Script + ScriptHeader.Length; 2208 } 2209 if (CreateIfNotFound) { 2210 LabelLength = (UINT32)AsciiStrSize(Label); 2211 return S3BootScriptLabelInternal (BeforeOrAfter,Position, LabelLength, Label); 2212 } else { 2213 return EFI_NOT_FOUND; 2214 } 2215 } 2216 2217 /** 2218 Compare two positions in the boot script table and return their relative position. 2219 @param Position1 The positions in the boot script table to compare 2220 @param Position2 The positions in the boot script table to compare 2221 @param RelativePosition On return, points to the result of the comparison 2222 2223 @retval EFI_SUCCESS The operation succeeded. A record was added into the 2224 specified script table. 2225 @retval EFI_INVALID_PARAMETER The parameter is illegal or the given boot script is not supported. 2226 If the opcode is unknow or not supported because of the PCD 2227 Feature Flags. 2228 @retval EFI_OUT_OF_RESOURCES There is insufficient memory to store the boot script. 2229 2230 **/ 2231 RETURN_STATUS 2232 EFIAPI 2233 S3BootScriptCompare ( 2234 IN UINT8 *Position1, 2235 IN UINT8 *Position2, 2236 OUT UINTN *RelativePosition 2237 ) 2238 { 2239 UINT8* Script; 2240 UINT32 TableLength; 2241 2242 if (RelativePosition == NULL) { 2243 return EFI_INVALID_PARAMETER; 2244 } 2245 2246 // 2247 // Check that the script is initialized and synced without adding an entry to the script. 2248 // 2249 Script = S3BootScriptGetEntryAddAddress (0); 2250 if (Script == NULL) { 2251 return RETURN_OUT_OF_RESOURCES; 2252 } 2253 Script = mS3BootScriptTablePtr->TableBase; 2254 2255 // 2256 // mS3BootScriptTablePtr->TableLength does not include the termination node, so add it up 2257 // 2258 TableLength = mS3BootScriptTablePtr->TableLength + sizeof (EFI_BOOT_SCRIPT_TERMINATE); 2259 if (Position1 < Script || Position1 > Script+TableLength) { 2260 return EFI_INVALID_PARAMETER; 2261 } 2262 if (Position2 < Script || Position2 > Script+TableLength) { 2263 return EFI_INVALID_PARAMETER; 2264 } 2265 *RelativePosition = (Position1 < Position2)?-1:((Position1 == Position2)?0:1); 2266 2267 return EFI_SUCCESS; 2268 } 2269 2270