/** initial concept of DSDT patching by mackerintel Re-Work by Slice 2011. This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . **/ #include "StateGenerator.h" #include "AmlGenerator.h" #include "AcpiPatcher.h" #include "FixBiosDsdt.h" #include "platformdata.h" #include "smbios.h" #include "cpu.h" #include "Self.h" #include "SelfOem.h" #define EBDA_BASE_ADDRESS 0x40E #define HPET_SIGN SIGNATURE_32('H','P','E','T') #define APIC_SIGN SIGNATURE_32('A','P','I','C') #define MCFG_SIGN SIGNATURE_32('M','C','F','G') #define ECDT_SIGN SIGNATURE_32('E','C','D','T') #define DMAR_SIGN SIGNATURE_32('D','M','A','R') #define BGRT_SIGN SIGNATURE_32('B','G','R','T') #define SLIC_SIGN SIGNATURE_32('S','L','I','C') #define APPLE_OEM_ID { 'A', 'P', 'P', 'L', 'E', ' ' } #define APPLE_OEM_TABLE_ID { 'A', 'p', 'p', 'l', 'e', '0', '0', ' ' } #define APPLE_CREATOR_ID { 'L', 'o', 'k', 'i' } #define IGNORE_INDEX (~((UINTN)0)) // index ignored for matching (not ignored for >= 0) #define AUTOMERGE_PASS1 1 // load just those that match existing entries #define AUTOMERGE_PASS2 2 // load the rest CONST CHAR8 oemID[6] = APPLE_OEM_ID; CONST CHAR8 oemTableID[8] = APPLE_OEM_TABLE_ID; CONST CHAR8 creatorID[4] = APPLE_CREATOR_ID; //Global pointers RSDT_TABLE *Rsdt = NULL; XSDT_TABLE *Xsdt = NULL; UINTN *XsdtReplaceSizes = NULL; #define IndexFromEntryPtr(xsdt_or_rsdt, entry_ptr) \ ((UINT32)(((CHAR8*)(entry_ptr) - (CHAR8*)&(xsdt_or_rsdt)->Entry)/sizeof((xsdt_or_rsdt)->Entry))) #define IndexFromRsdtEntryPtr(entry_ptr) IndexFromEntryPtr(Rsdt, entry_ptr) #define IndexFromXsdtEntryPtr(entry_ptr) IndexFromEntryPtr(Xsdt, entry_ptr) #define TableCount(xsdt_or_rsdt) \ (((xsdt_or_rsdt)->Header.Length - sizeof(EFI_ACPI_DESCRIPTION_HEADER)) / sizeof((xsdt_or_rsdt)->Entry)) #define RsdtTableCount() TableCount(Rsdt) #define XsdtTableCount() TableCount(Xsdt) #define RsdtEntryPtrFromIndex(index) (&Rsdt->Entry + index) #define XsdtEntryPtrFromIndex(index) ((UINT64*)((CHAR8*)&Xsdt->Entry + sizeof(UINT64)*(index))) #define RsdtEntryFromIndex(index) (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)*RsdtEntryPtrFromIndex(index) #define XsdtEntryFromIndex(index) (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)ReadUnaligned64(XsdtEntryPtrFromIndex(index)) UINT64 BiosDsdt; UINT32 BiosDsdtLen; UINT8 acpi_cpu_count; CHAR8* acpi_cpu_name[acpi_cpu_max]; UINT8 acpi_cpu_processor_id[acpi_cpu_max]; CHAR8* acpi_cpu_score; UINT64 machineSignature; extern OPER_REGION *gRegions; //----------------------------------- UINT8 pmBlock[] = { /*0070: 0xA5, 0x84, 0x00, 0x00,*/ 0x01, 0x08, 0x00, 0x01, 0xF9, 0x0C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /*0080:*/ 0x06, 0x00, 0x00, 0x00, 0x00, 0xA0, 0x67, 0xBF, 0x00, 0x00, 0x00, 0x00, 0x00, 0xF0, 0x6F, 0xBF, /*0090:*/ 0x00, 0x00, 0x00, 0x00, 0x01, 0x20, 0x00, 0x03, 0x00, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /*00A0:*/ 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x10, 0x00, 0x02, /*00B0:*/ 0x04, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /*00C0:*/ 0x00, 0x00, 0x00, 0x00, 0x01, 0x08, 0x00, 0x00, 0x50, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /*00D0:*/ 0x01, 0x20, 0x00, 0x03, 0x08, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x80, 0x00, 0x01, /*00E0:*/ 0x20, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, /*00F0:*/ 0x00, 0x00, 0x00, 0x00 }; // RehabMan: for stripping trailing spaces static void stripTrailingSpaces(CHAR8* sgn) { CHAR8* lastNonSpace = sgn-1; for (; *sgn; sgn++) { if (*sgn != ' ') { lastNonSpace = sgn; } } lastNonSpace[1] = 0; } void* FindAcpiRsdPtr() { UINTN Address; UINTN Index; // // First Seach 0x0e0000 - 0x0fffff for RSD Ptr // for (Address = 0xe0000; Address < 0xfffff; Address += 0x10) { if (*(UINT64 *)(Address) == EFI_ACPI_3_0_ROOT_SYSTEM_DESCRIPTION_POINTER_SIGNATURE) { return (void *)Address; } } // // Search EBDA // Address = (*(UINT16 *)(UINTN)(EBDA_BASE_ADDRESS)) << 4; if ( Address == 0 ) return 0; // Jief : if Address==0, the first access at *(UINT64 *)(Address + Index) is at address 0. It's supposed to crash. for (Index = 0; Index < 0x400 ; Index += 16) { if (*(UINT64 *)(Address + Index) == EFI_ACPI_3_0_ROOT_SYSTEM_DESCRIPTION_POINTER_SIGNATURE) { return (void *)Address; } } return NULL; } UINT8 Checksum8(void* startPtr, UINT32 len) { UINT8 Value = 0; UINT8 *ptr = (UINT8*)startPtr; UINT8 *endPtr = ptr + len; while (ptr < endPtr) Value += *ptr++; return Value; } void FixChecksum(EFI_ACPI_DESCRIPTION_HEADER* Table) { Table->Checksum = 0; Table->Checksum = (UINT8)(256-Checksum8(Table, Table->Length)); } void SaveMergedXsdtEntrySize(UINT32 Index, UINTN Size) { // manage XsdtReplaceSizes (free existing, store new) if (XsdtReplaceSizes) { if (XsdtReplaceSizes[Index]) { // came from patched table in ACPI/patched, so free original pages gBS->FreePages((EFI_PHYSICAL_ADDRESS)(UINTN)XsdtEntryFromIndex(Index), XsdtReplaceSizes[Index]); XsdtReplaceSizes[Index] = 0; } XsdtReplaceSizes[Index] = EFI_SIZE_TO_PAGES(Size); } } BOOLEAN IsXsdtEntryMerged(UINT32 Index) { if (!XsdtReplaceSizes) { return FALSE; } return 0 != XsdtReplaceSizes[Index]; } UINT32* ScanRSDT2(UINT32 Signature, UINT64 TableId, UINTN MatchIndex) { if (!Rsdt || (0 == Signature && 0 == TableId)) { return NULL; } UINT32 Count = RsdtTableCount(); UINTN MatchingCount = 0; UINT32* Ptr = RsdtEntryPtrFromIndex(0); UINT32* EndPtr = RsdtEntryPtrFromIndex(Count); for (; Ptr < EndPtr; Ptr++) { EFI_ACPI_DESCRIPTION_HEADER* Table = (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)*Ptr; if (!Table) { // skip NULL entry continue; } if (0 == Signature || Table->Signature == Signature) { if ((0 == TableId || Table->OemTableId == TableId) && (IGNORE_INDEX == MatchIndex || MatchingCount == MatchIndex)) { return Ptr; // pointer to the matching entry } ++MatchingCount; } } return NULL; } UINT32* ScanRSDT(UINT32 Signature, UINT64 TableId) { return ScanRSDT2(Signature, TableId, IGNORE_INDEX); } UINT64* ScanXSDT2(UINT32 Signature, UINT64 TableId, UINTN MatchIndex) { if (!Xsdt || (0 == Signature && 0 == TableId)) { return NULL; } UINT32 Count = XsdtTableCount(); UINTN MatchingCount = 0; UINT64* Ptr = XsdtEntryPtrFromIndex(0); UINT64* EndPtr = XsdtEntryPtrFromIndex(Count); for (; Ptr < EndPtr; Ptr++) { EFI_ACPI_DESCRIPTION_HEADER* Table = (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)ReadUnaligned64(Ptr); if (!Table) { // skip NULL entry continue; } if (0 == Signature || Table->Signature == Signature) { if ((0 == TableId || Table->OemTableId == TableId) && (IGNORE_INDEX == MatchIndex || MatchingCount == MatchIndex)) { return Ptr; // pointer to the matching entry } ++MatchingCount; } } return NULL; } UINT64* ScanXSDT(UINT32 Signature, UINT64 TableId) { return ScanXSDT2(Signature, TableId, IGNORE_INDEX); } void AddDropTable(EFI_ACPI_DESCRIPTION_HEADER* Table, UINT32 Index) { CHAR8 sign[5], OTID[9]; sign[4] = 0; OTID[8] = 0; CopyMem(&sign[0], &Table->Signature, 4); CopyMem(&OTID[0], &Table->OemTableId, 8); //DBG(" Found table: %s %s len=%d\n", sign, OTID, (INT32)Table->Length); DBG(" - [%02d]: %s %s len=%d\n", Index, sign, OTID, (INT32)Table->Length); ACPI_DROP_TABLE* DropTable = new ACPI_DROP_TABLE; DropTable->Signature = Table->Signature; DropTable->TableId = Table->OemTableId; DropTable->Length = Table->Length; DropTable->MenuItem.BValue = FALSE; DropTable->Next = gSettings.ACPIDropTables; gSettings.ACPIDropTables = DropTable; } void GetAcpiTablesList() { DbgHeader("GetAcpiTablesList"); GetFadt(); //this is a first call to acpi, we need it to make a pointer to Xsdt gSettings.ACPIDropTables = NULL; DBG("Get Acpi Tables List "); if (Xsdt) { UINT32 Count = XsdtTableCount(); UINT64* Ptr = XsdtEntryPtrFromIndex(0); UINT64* EndPtr = XsdtEntryPtrFromIndex(Count); DBG("from XSDT:\n"); for (; Ptr < EndPtr; Ptr++) { EFI_ACPI_DESCRIPTION_HEADER* Table = (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)ReadUnaligned64(Ptr); if (!Table) { // skip NULL entry continue; } AddDropTable(Table, IndexFromXsdtEntryPtr(Ptr)); } } else if (Rsdt) { DBG("from RSDT:\n"); UINT32 Count = RsdtTableCount(); UINT32* Ptr = RsdtEntryPtrFromIndex(0); UINT32* EndPtr = RsdtEntryPtrFromIndex(Count); for (; Ptr < EndPtr; Ptr++) { EFI_ACPI_DESCRIPTION_HEADER* Table = (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)*Ptr; if (!Table) { // skip NULL entry continue; } AddDropTable(Table, IndexFromRsdtEntryPtr(Ptr)); } } else { DBG(": [!] Error! ACPI not found:\n"); } } void DropTableFromRSDT(UINT32 Signature, UINT64 TableId, UINT32 Length) { if (!Rsdt || (0 == Signature && 0 == TableId)) { return; } CHAR8 sign[5], OTID[9]; sign[4] = 0; OTID[8] = 0; CopyMem(&sign[0], &Signature, 4); CopyMem(&OTID[0], &TableId, 8); DBG("Drop tables from RSDT, SIGN=%s TableID=%s Length=%d\n", sign, OTID, (INT32)Length); UINT32 Count = RsdtTableCount(); //DBG(" Rsdt has tables count=%d\n", Count); UINT32* Ptr = RsdtEntryPtrFromIndex(0); UINT32* EndPtr = RsdtEntryPtrFromIndex(Count); for (; Ptr < EndPtr; Ptr++) { EFI_ACPI_DESCRIPTION_HEADER* Table = (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)*Ptr; if (!Table) { // skip NULL entry continue; } CopyMem(&sign[0], &Table->Signature, 4); CopyMem(&OTID[0], &Table->OemTableId, 8); //DBG(" Found table: %s %s\n", sign, OTID); if (!((Signature && Table->Signature == Signature) && (!TableId || Table->OemTableId == TableId) && (!Length || Table->Length == Length))) { continue; } if (IsXsdtEntryMerged(IndexFromXsdtEntryPtr(Ptr))) { DBG(" attempt to drop already merged table[%d]: %s %s %d ignored\n", IndexFromXsdtEntryPtr(Ptr), sign, OTID, (INT32)Table->Length); continue; } // drop matching table by simply replacing entry with NULL *Ptr = 0; DBG(" Table[%d]: %s %s %d dropped\n", IndexFromXsdtEntryPtr(Ptr), sign, OTID, (INT32)Table->Length); } } void DropTableFromXSDT(UINT32 Signature, UINT64 TableId, UINT32 Length) { if (!Xsdt || (0 == Signature && 0 == TableId)) { return; } CHAR8 sign[5], OTID[9]; sign[4] = 0; OTID[8] = 0; CopyMem(&sign[0], &Signature, 4); CopyMem(&OTID[0], &TableId, 8); DBG("Drop tables from XSDT, SIGN=%s TableID=%s Length=%d\n", sign, OTID, (INT32)Length); UINT32 Count = XsdtTableCount(); //DBG(" Xsdt has tables count=%d\n", Count); UINT64* Ptr = XsdtEntryPtrFromIndex(0); UINT64* EndPtr = XsdtEntryPtrFromIndex(Count); for (; Ptr < EndPtr; Ptr++) { EFI_ACPI_DESCRIPTION_HEADER* Table = (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)ReadUnaligned64(Ptr); if (!Table) { // skip NULL entry continue; } CopyMem(&sign[0], &Table->Signature, 4); CopyMem(&OTID[0], &Table->OemTableId, 8); //DBG(" Found table: %s %s\n", sign, OTID); if (!((Signature && Table->Signature == Signature) && (!TableId || Table->OemTableId == TableId) && (!Length || Table->Length == Length))) { continue; } if (IsXsdtEntryMerged(IndexFromXsdtEntryPtr(Ptr))) { DBG(" attempt to drop already merged table[%d]: %s %s %d ignored\n", IndexFromXsdtEntryPtr(Ptr), sign, OTID, (INT32)Table->Length); continue; } // drop matching table by simply replacing entry with NULL WriteUnaligned64(Ptr, 0); DBG(" Table[%d]: %s %s %d dropped\n", IndexFromXsdtEntryPtr(Ptr), sign, OTID, (INT32)Table->Length); } } // by cecekpawon, edited by Slice, further edits by RehabMan BOOLEAN FixAsciiTableHeader(UINT8 *Str, UINTN Len) { BOOLEAN NonAscii = FALSE; UINT8* StrEnd = Str + Len; for (; Str < StrEnd; Str++) { if (!*Str) continue; // NUL is allowed if (*Str < ' ') { *Str = ' '; NonAscii = TRUE; } else if (*Str > 0x7e) { *Str = '_'; NonAscii = TRUE; } } return NonAscii; } BOOLEAN PatchTableHeader(EFI_ACPI_DESCRIPTION_HEADER *Header) { BOOLEAN Ret1, Ret2, Ret3; if (!(gSettings.FixDsdt & FIX_HEADERS) && !gSettings.FixHeaders) { return FALSE; } Ret1 = FixAsciiTableHeader((UINT8*)&Header->CreatorId, 4); Ret2 = FixAsciiTableHeader((UINT8*)&Header->OemTableId, 8); Ret3 = FixAsciiTableHeader((UINT8*)&Header->OemId, 6); return (Ret1 || Ret2 || Ret3); } void PatchAllTables() { UINT32 Count = XsdtTableCount(); UINT64* Ptr = XsdtEntryPtrFromIndex(0); UINT64* EndPtr = XsdtEntryPtrFromIndex(Count); for (; Ptr < EndPtr; Ptr++) { BOOLEAN Patched = FALSE; EFI_ACPI_DESCRIPTION_HEADER* Table = (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)ReadUnaligned64(Ptr); if (!Table) { // skip NULL entry continue; } if (EFI_ACPI_3_0_FIXED_ACPI_DESCRIPTION_TABLE_SIGNATURE == Table->Signature) { // may be also EFI_ACPI_4_0_MULTIPLE_APIC_DESCRIPTION_TABLE_SIGNATURE? continue; // will be patched elsewhere } //do new table with patched header UINT32 Len = Table->Length; EFI_PHYSICAL_ADDRESS BufferPtr = EFI_SYSTEM_TABLE_MAX_ADDRESS; EFI_STATUS Status = gBS->AllocatePages(AllocateMaxAddress, EfiACPIReclaimMemory, EFI_SIZE_TO_PAGES(Len + 4096), &BufferPtr); if(EFI_ERROR(Status)) { //DBG(" ... not patched\n"); continue; } EFI_ACPI_DESCRIPTION_HEADER* NewTable = (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)BufferPtr; CopyMem(NewTable, Table, Len); if ((gSettings.FixDsdt & FIX_HEADERS) || gSettings.FixHeaders) { // Merged tables already have the header patched, so no need to do it again if (!IsXsdtEntryMerged(IndexFromXsdtEntryPtr(Ptr))) { // table header NOT already patched Patched = PatchTableHeader(NewTable); } } if (NewTable->Signature == EFI_ACPI_4_0_SECONDARY_SYSTEM_DESCRIPTION_TABLE_SIGNATURE) { if (gSettings.DSDTPatchArray.size() > 0) { DBG("Patching SSDTs: %zu patches each\n", gSettings.DSDTPatchArray.size()); // CHAR8 OTID[9]; // OTID[8] = 0; // CopyMem(OTID, &NewTable->OemTableId, 8); // DBG("Patching SSDT %s Length=%d\n", OTID, (INT32)Len); for (UINT32 i = 0; i < gSettings.DSDTPatchArray.size(); i++) { if ( gSettings.DSDTPatchArray[i].PatchDsdtFind.isEmpty() ) { continue; } // DBG("%d. [%s]:", i, gSettings.PatchDsdtLabel[i]); if (!gSettings.DSDTPatchArray[i].PatchDsdtMenuItem.BValue) { // DBG(" disabled\n"); continue; } if ( gSettings.DSDTPatchArray[i].PatchDsdtTgt.isEmpty() ) { Len = FixAny((UINT8*)NewTable, Len, gSettings.DSDTPatchArray[i].PatchDsdtFind, gSettings.DSDTPatchArray[i].PatchDsdtReplace); //DBG(" OK\n"); }else{ //DBG("Patching: renaming in bridge\n"); Len = FixRenameByBridge2((UINT8*)NewTable, Len, gSettings.DSDTPatchArray[i].PatchDsdtTgt, gSettings.DSDTPatchArray[i].PatchDsdtFind, gSettings.DSDTPatchArray[i].PatchDsdtReplace); } } } // fixup length and checksum NewTable->Length = Len; RenameDevices((UINT8*)NewTable); GetBiosRegions((UINT8*)NewTable); //take Regions from SSDT even if they will be dropped Patched = TRUE; } if (NewTable->Signature == MCFG_SIGN && gSettings.FixMCFG) { INTN Len1 = ((Len + 4 - 1) / 16 + 1) * 16 - 4; CopyMem(NewTable, Table, Len1); //Len increased but less than EFI_PAGE NewTable->Length = (UINT32)(UINTN)Len1; Patched = TRUE; } if (Patched) { WriteUnaligned64(Ptr, BufferPtr); FixChecksum(NewTable); } else { gBS->FreePages(BufferPtr, EFI_SIZE_TO_PAGES(Len + 4096)); } } } EFI_STATUS InsertTable(void* TableEntry, UINTN Length) { if (!TableEntry) { return EFI_NOT_FOUND; } EFI_PHYSICAL_ADDRESS BufferPtr = EFI_SYSTEM_TABLE_MAX_ADDRESS; EFI_STATUS Status = gBS->AllocatePages ( AllocateMaxAddress, EfiACPIReclaimMemory, EFI_SIZE_TO_PAGES(Length), &BufferPtr ); //if success insert table pointer into ACPI tables if(!EFI_ERROR(Status)) { // DBG("page is allocated, write SSDT into\n"); EFI_ACPI_DESCRIPTION_HEADER* TableHeader = (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)BufferPtr; CopyMem(TableHeader, TableEntry, Length); // Now is a good time to fix the table header and checksum PatchTableHeader(TableHeader); FixChecksum(TableHeader); //insert into RSDT if (Rsdt) { UINT32* Ptr = RsdtEntryPtrFromIndex(RsdtTableCount()); *Ptr = (UINT32)(UINTN)BufferPtr; Rsdt->Header.Length += sizeof(UINT32); //DBG("Rsdt->Length = %d\n", Rsdt->Header.Length); } //insert into XSDT if (Xsdt) { UINT64* Ptr = XsdtEntryPtrFromIndex(XsdtTableCount()); WriteUnaligned64(Ptr, BufferPtr); Xsdt->Header.Length += sizeof(UINT64); //DBG("Xsdt->Length = %d\n", Xsdt->Header.Length); } } return Status; } UINTN IndexFromFileName(CONST CHAR16* FileName) { // FileName must be as "XXXX-number-..." or "XXXX-number.aml", such as "SSDT-9.aml", or "SSDT-11-SaSsdt.aml" // But just checking for '-' or '.' following the number. // search for '-' UINTN Result = IGNORE_INDEX; CONST CHAR16* temp = FileName; for (; *temp != 0 && *temp != '-'; temp++); if ('-' == *temp && 4 == temp-FileName) { ++temp; if (*temp >= '0' && *temp <= '9') { Result = 0; for (; *temp >= '0' && *temp <= '9'; temp++) { Result *= 10; Result += *temp - '0'; } // a FileName such as "SSDT-4x30s.aml" is not considered as "SSDT-4.aml" if ('.' != *temp && '-' != *temp) Result = IGNORE_INDEX; } } return Result; } EFI_STATUS ReplaceOrInsertTable(void* TableEntry, UINTN Length, UINTN MatchIndex, INTN Pass) { if (!TableEntry) { return EFI_NOT_FOUND; } EFI_PHYSICAL_ADDRESS BufferPtr = EFI_SYSTEM_TABLE_MAX_ADDRESS; EFI_STATUS Status = gBS->AllocatePages ( AllocateMaxAddress, EfiACPIReclaimMemory, EFI_SIZE_TO_PAGES(Length), &BufferPtr ); EFI_ACPI_DESCRIPTION_HEADER* hdr = (EFI_ACPI_DESCRIPTION_HEADER*)TableEntry; //if success insert or replace table pointer into ACPI tables if(!EFI_ERROR(Status)) { Status = EFI_ABORTED; //DBG("page is allocated, write SSDT into\n"); EFI_ACPI_DESCRIPTION_HEADER* TableHeader = (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)BufferPtr; CopyMem(TableHeader, TableEntry, Length); #if 0 //REVIEW: seems as if Rsdt is always NULL for ReplaceOrInsertTable scenarios (macOS/OS X) //insert/modify into RSDT if (Rsdt) { UINT32* Ptr = NULL; if (hdr->Signature != EFI_ACPI_4_0_SECONDARY_SYSTEM_DESCRIPTION_TABLE_SIGNATURE || MatchIndex != IGNORE_INDEX) { // SSDT with target index or non-SSDT, try to find matching entry Ptr = ScanRSDT2(hdr->Signature, hdr->OemTableId, MatchIndex); } if (Ptr) { *Ptr = (UINT32)(UINTN)BufferPtr; Status = EFI_SUCCESS; } else if (AUTOMERGE_PASS2 == Pass) { Ptr = RsdtEntryPtrFromIndex(RsdtTableCount()); *Ptr = (UINT32)(UINTN)BufferPtr; Rsdt->Header.Length += sizeof(UINT32); //DBG("Rsdt->Length = %d\n", Rsdt->Header.Length); Status = EFI_SUCCESS; } } #endif //insert/modify into XSDT if (Xsdt) { UINT64* Ptr = NULL; if (hdr->Signature != EFI_ACPI_4_0_SECONDARY_SYSTEM_DESCRIPTION_TABLE_SIGNATURE || MatchIndex != IGNORE_INDEX) { // SSDT with target index or non-SSDT, try to find matching entry Ptr = ScanXSDT2(hdr->Signature, hdr->OemTableId, MatchIndex); } // Now is a good time to fix the table header and checksum (*MUST* be done after matching) PatchTableHeader(TableHeader); FixChecksum(TableHeader); if (Ptr) { UINT32 Index = IndexFromXsdtEntryPtr(Ptr); DBG("@%llu ", (UINT64)Index); // keep track of new table size in case it needs to be freed later SaveMergedXsdtEntrySize(Index, Length); WriteUnaligned64(Ptr, BufferPtr); Status = EFI_SUCCESS; } else if (AUTOMERGE_PASS2 == Pass) { Ptr = XsdtEntryPtrFromIndex(XsdtTableCount()); WriteUnaligned64(Ptr, BufferPtr); Xsdt->Header.Length += sizeof(UINT64); //DBG("Xsdt->Length = %d\n", Xsdt->Header.Length); Status = EFI_SUCCESS; } } } return Status; } void PreCleanupRSDT() { if (!Rsdt) { return; } //REVIEW: really? // Если адрес RSDT < адреса XSDT и хвост RSDT наползает на XSDT, то подрезаем хвост RSDT до начала XSDT // English: If the RSDT address of the XSDT address and the tail of the RSDT crawls onto the XSDT, then we // trim the RSDT tail before the XSDT starts if ((UINTN)Rsdt < (UINTN)Xsdt && (UINTN)Rsdt + Rsdt->Header.Length > (UINTN)Xsdt) { UINTN v = ((UINTN)Xsdt - (UINTN)Rsdt) & ~3; if ( v > MAX_UINT32 ) panic("((UINTN)Xsdt - (UINTN)Rsdt) & ~3 > MAX_UINT32"); Rsdt->Header.Length = (UINT32)v; DBG("Cropped Rsdt->Header.Length=%d\n", (UINT32)Rsdt->Header.Length); } //REVIEW: why? // terminate RSDT table at first double zero, if present UINT32 Count = RsdtTableCount(); if (Count <= 2) { return; } DBG("PreCleanup RSDT: count=%d, length=%d\n", Count, (UINT32)Rsdt->Header.Length); UINT32* Ptr = RsdtEntryPtrFromIndex(0); UINT32* EndPtr = RsdtEntryPtrFromIndex(Count-1); for (; Ptr < EndPtr; Ptr++) { if (0 == Ptr[0] && 0 == Ptr[1]) { // double zero found, terminate RSDT entry table here DBG("DoubleZero in RSDT table\n"); Rsdt->Header.Length = (UINT32)((CHAR8*)Ptr - (CHAR8*)Rsdt); break; } } DBG("PreCleanup RSDT, corrected RSDT: count=%d, length=%d\n", Count, (UINT32)Rsdt->Header.Length); } void PostCleanupRSDT() { if (!Rsdt) { return; } // remove NULL entries from RSDT table UINT32 Count = RsdtTableCount(); DBG("Cleanup RSDT: count=%d, length=%d\n", Count, (UINT32)Rsdt->Header.Length); UINT32* Source = RsdtEntryPtrFromIndex(0); UINT32* Dest = Source; UINT32* EndPtr = RsdtEntryPtrFromIndex(Count); while (Source < EndPtr) { if (0 == *Source) { // skip NULL entry Source++; continue; } *Dest++ = *Source++; } // fix header length Rsdt->Header.Length = (UINT32)((CHAR8*)Dest - (CHAR8*)Rsdt); Count = RsdtTableCount(); DBG("corrected RSDT: count=%d, length=%d\n", Count, (UINT32)Rsdt->Header.Length); FixChecksum(&Rsdt->Header); } void PreCleanupXSDT() { UINT64 *Ptr, *EndPtr; if (!Xsdt) { return; } //REVIEW: why? // terminate RSDT table at first double zero, if present UINT32 Count = XsdtTableCount(); if (Count <= 2) { return; } DBG("PreCleanup XSDT: count=%d, length=%d\n", Count, (UINT32)Xsdt->Header.Length); Ptr = XsdtEntryPtrFromIndex(0); EndPtr = XsdtEntryPtrFromIndex(Count-1); for (; Ptr < EndPtr; Ptr++) { if (0 == ReadUnaligned64(Ptr+0) && 0 == ReadUnaligned64(Ptr+1)) { // double zero found, terminate XSDT entry table here DBG("DoubleZero in XSDT table\n"); Xsdt->Header.Length = (UINT32)((CHAR8*)Ptr - (CHAR8*)Xsdt); break; } } DBG("PreCleanup XSDT, corrected XSDT: count=%d, length=%d\n", Count, (UINT32)Xsdt->Header.Length); } void PostCleanupXSDT() { UINT64 *Dest, *EndPtr, *Source; if (!Xsdt) { return; } // remove NULL entries from XSDT table UINT32 Count = XsdtTableCount(); DBG("Cleanup XSDT: count=%d, length=%d\n", Count, (UINT32)Xsdt->Header.Length); Source = XsdtEntryPtrFromIndex(0); Dest = Source; EndPtr = XsdtEntryPtrFromIndex(Count); while (Source < EndPtr) { if (0 == *Source) { // skip NULL entry Source++; continue; } WriteUnaligned64(Dest++, ReadUnaligned64(Source++)); } // fix header length Xsdt->Header.Length = (UINT32)((CHAR8*)Dest - (CHAR8*)Xsdt); Count = XsdtTableCount(); DBG("corrected XSDT count=%d, length=%d\n", Count, (UINT32)Xsdt->Header.Length); FixChecksum(&Xsdt->Header); } /** Saves Buffer of Length to disk as OemDir\\DirName\\FileName. */ EFI_STATUS SaveBufferToDisk(void *Buffer, UINTN Length, CONST CHAR16 *DirName, CONST CHAR16 *FileName) { if (DirName == NULL || FileName == NULL) { return EFI_INVALID_PARAMETER; } XStringW PathName = SWPrintf("%ls\\%ls", DirName, FileName); EFI_STATUS Status = egSaveFile(&selfOem.getConfigDir(), PathName.wc_str(), Buffer, Length); // Do not write outside OemDir // if (EFI_ERROR(Status)) { // Status = egSaveFile(NULL, PathName.wc_str(), Buffer, Length); // } return Status; } // // Remembering saved tables // #define SAVED_TABLES_ALLOC_ENTRIES 64 void **mSavedTables = NULL; UINTN mSavedTablesEntries = 0; UINTN mSavedTablesNum = 0; /** Returns TRUE is TableEntry is already saved. */ BOOLEAN IsTableSaved(void *TableEntry) { UINTN Index; if (mSavedTables != NULL) { for (Index = 0; Index < mSavedTablesNum; Index++) { if (mSavedTables[Index] == TableEntry) { return TRUE; } } } return FALSE; } /** Adds TableEntry to mSavedTables if not already there. */ void MarkTableAsSaved(void *TableEntry) { // // If mSavedTables does not exists yet - allocate it // if (mSavedTables == NULL) { //DBG(" Allocaing mSavedTables"); mSavedTablesEntries = SAVED_TABLES_ALLOC_ENTRIES; mSavedTablesNum = 0; mSavedTables = (__typeof__(mSavedTables))AllocateZeroPool(sizeof(*mSavedTables) * mSavedTablesEntries); if (mSavedTables == NULL) { return; } } // // If TableEntry is not in mSavedTables - add it // //DBG(" MarkTableAsSaved %llx", TableEntry); if (IsTableSaved(TableEntry)) { // already saved //DBG(" - already saved\n"); return; } // // If mSavedTables is full - extend it // if (mSavedTablesNum + 1 >= mSavedTablesEntries) { // not enough space //DBG(" - extending mSavedTables from %d", mSavedTablesEntries); mSavedTables = (__typeof__(mSavedTables))ReallocatePool( sizeof(*mSavedTables) * mSavedTablesEntries, sizeof(*mSavedTables) * (mSavedTablesEntries + SAVED_TABLES_ALLOC_ENTRIES), mSavedTables ); if (mSavedTables == NULL) { return; } mSavedTablesEntries = mSavedTablesEntries + SAVED_TABLES_ALLOC_ENTRIES; //DBG(" to %d", mSavedTablesEntries); } // // Add TableEntry to mSavedTables // mSavedTables[mSavedTablesNum] = TableEntry; //DBG(" - added to index %d\n", mSavedTablesNum); mSavedTablesNum++; } #define AML_OP_NAME 0x08 #define AML_OP_PACKAGE 0x12 STATIC CHAR8 NameSSDT[] = {AML_OP_NAME, 'S', 'S', 'D', 'T', AML_OP_PACKAGE}; STATIC CHAR8 NameCSDT[] = {AML_OP_NAME, 'C', 'S', 'D', 'T', AML_OP_PACKAGE}; STATIC CHAR8 NameTSDT[] = {AML_OP_NAME, 'T', 'S', 'D', 'T', AML_OP_PACKAGE}; // OperationRegion (SSDT, SystemMemory, 0xDF5DAC18, 0x038C) STATIC UINT8 NameSSDT2[] = {0x80, 0x53, 0x53, 0x44, 0x54}; // OperationRegion (CSDT, SystemMemory, 0xDF5DBE18, 0x84) STATIC UINT8 NameCSDT2[] = {0x80, 0x43, 0x53, 0x44, 0x54}; //UINT32 get_size(UINT8 * An, UINT32 ); // Let borrow from FixBiosDsdt. static XStringW GenerateFileName(CONST CHAR16* FileNamePrefix, UINTN SsdtCount, UINTN ChildCount, CHAR8 OemTableId[9]) // ChildCount == IGNORE_INDEX indicates normal SSDT // SsdtCount == IGNORE_INDEX indicates dynamic SSDT in DSDT // otherwise is child SSDT from normal SSDT { XStringW FileName; CHAR8 Suffix[10]; // "-" + OemTableId + NUL if (gSettings.NoOemTableId || 0 == OemTableId[0]) { Suffix[0] = 0; } else { Suffix[0] = '-'; CopyMem(Suffix+1, OemTableId, 9); } if (IGNORE_INDEX == ChildCount) { // normal SSDT FileName = SWPrintf("%lsSSDT-%llu%s.aml", FileNamePrefix, SsdtCount, Suffix); } else if (IGNORE_INDEX == SsdtCount) { // dynamic SSDT in DSDT FileName = SWPrintf("%lsSSDT-xDSDT_%llu%s.aml", FileNamePrefix, ChildCount, Suffix); } else { // dynamic SSDT in static SSDT FileName = SWPrintf("%lsSSDT-x%llu_%llu%s.aml", FileNamePrefix, SsdtCount, ChildCount, Suffix); } return FileName; } void DumpChildSsdt(EFI_ACPI_DESCRIPTION_HEADER *TableEntry, CONST CHAR16 *DirName, CONST CHAR16 *FileNamePrefix, UINTN SsdtCount) { EFI_STATUS Status = EFI_SUCCESS; INTN j, k, pacLen, pacCount; CHAR8 Signature[5]; CHAR8 OemTableId[9]; UINTN adr, len; UINT8 *Entry; UINT8 *End; UINT8 *pacBody; INTN ChildCount = 0; if (gSettings.NoDynamicExtract) { return; } Entry = (UINT8*)TableEntry; //first entry is parent SSDT End = Entry + TableEntry->Length; while (Entry < End) { if ((CompareMem(Entry, NameSSDT, sizeof (NameSSDT)) == 0) || (CompareMem(Entry, NameCSDT, sizeof (NameCSDT)) == 0) || (CompareMem(Entry, NameTSDT, sizeof (NameTSDT)) == 0)) { pacLen = get_size(Entry, sizeof (NameSSDT)); pacBody = Entry + sizeof (NameSSDT) + (pacLen > 63 ? 2 : 1); // Our packages are not huge pacCount = *pacBody++; if (pacCount > 0 && pacCount % 3 == 0) { pacCount /= 3; DBG(" (Found hidden SSDT %lld pcs)\n", pacCount); while (pacCount-- > 0) { // Skip text marker and addr type tag pacBody += 1 + 8 + 1 + 1; adr = ReadUnaligned32((UINT32*)(pacBody)); len = 0; pacBody += 4; if (*pacBody == AML_CHUNK_DWORD) { len = ReadUnaligned32((UINT32*)(pacBody + 1)); pacBody += 5; } else if (*pacBody == AML_CHUNK_WORD) { len = ReadUnaligned16((UINT16*)(pacBody + 1)); pacBody += 3; } // Take Signature and OemId for printing CopyMem(&Signature[0], &((EFI_ACPI_DESCRIPTION_HEADER *)adr)->Signature, 4); Signature[4] = 0; CopyMem(&OemTableId[0], &((EFI_ACPI_DESCRIPTION_HEADER *)adr)->OemTableId, 8); OemTableId[8] = 0; stripTrailingSpaces(OemTableId); DBG(" * %llu: '%s', '%s', Rev: %d, Len: %d ", adr, Signature, OemTableId, ((EFI_ACPI_DESCRIPTION_HEADER *)adr)->Revision, ((EFI_ACPI_DESCRIPTION_HEADER *)adr)->Length); for (k = 0; k < 16; k++) { DBG("%02hhX ", ((UINT8*)adr)[k]); } if ((AsciiStrCmp(Signature, "SSDT") == 0) && (len < 0x20000) && DirName != NULL && !IsTableSaved((void*)adr)) { XStringW FileName = GenerateFileName(FileNamePrefix, SsdtCount, ChildCount, OemTableId); len = ((UINT16*)adr)[2]; DBG("Internal length = %llu", len); Status = SaveBufferToDisk((void*)adr, len, DirName, FileName.wc_str()); if (!EFI_ERROR(Status)) { DBG(" -> %ls", FileName.wc_str()); MarkTableAsSaved((void*)adr); ChildCount++; } else { DBG(" -> %s", efiStrError(Status)); } } DBG("\n"); } } Entry += sizeof (NameSSDT) + pacLen; } else if (CompareMem(Entry, NameSSDT2, 5) == 0 || CompareMem(Entry, NameCSDT2, 5) == 0) { adr = ReadUnaligned32((UINT32*)(Entry + 7)); len = 0; j = *(Entry + 11); if (j == 0x0b) { len = ReadUnaligned16((UINT16*)(Entry + 12)); } else if (j == 0x0a) { len = *(Entry + 12); } else { //not a number so skip for security Entry += 5; continue; } if (len > 0) { // Take Signature and OemId for printing CopyMem(&Signature, &((EFI_ACPI_DESCRIPTION_HEADER *)adr)->Signature, 4); Signature[4] = 0; CopyMem(&OemTableId, &((EFI_ACPI_DESCRIPTION_HEADER *)adr)->OemTableId, 8); OemTableId[8] = 0; stripTrailingSpaces(OemTableId); DBG(" * %llu: '%s', '%s', Rev: %d, Len: %d ", adr, Signature, OemTableId, ((EFI_ACPI_DESCRIPTION_HEADER *)adr)->Revision, ((EFI_ACPI_DESCRIPTION_HEADER *)adr)->Length); for(k=0; k<16; k++){ DBG("%02hhX ", ((UINT8*)adr)[k]); } if ((AsciiStrCmp(Signature, "SSDT") == 0) && (len < 0x20000) && DirName != NULL && !IsTableSaved((void*)adr)) { XStringW FileName = GenerateFileName(FileNamePrefix, SsdtCount, ChildCount, OemTableId); Status = SaveBufferToDisk((void*)adr, len, DirName, FileName.wc_str()); if (!EFI_ERROR(Status)) { DBG(" -> %ls", FileName.wc_str()); MarkTableAsSaved((void*)adr); ChildCount++; } else { DBG(" -> %s", efiStrError(Status)); } } DBG("\n"); } Entry += 5; } else { Entry++; } } } /** Saves Table to disk as DirName\\FileName (DirName != NULL) * or just prints basic table data to log (DirName == NULL). */ EFI_STATUS DumpTable(EFI_ACPI_DESCRIPTION_HEADER *TableEntry, CONST CHAR8 *CheckSignature, CONST CHAR16 *DirName, const XStringW& FileName, CONST CHAR16 *FileNamePrefix, INTN *SsdtCount) { EFI_STATUS Status; CHAR8 Signature[5]; CHAR8 OemTableId[9]; // Take Signature and OemId for printing CopyMem(&Signature[0], &TableEntry->Signature, 4); Signature[4] = 0; CopyMem(&OemTableId[0], &TableEntry->OemTableId, 8); OemTableId[8] = 0; stripTrailingSpaces(OemTableId); DBG(" %llx: '%s', '%s', Rev: %d, Len: %d", (uintptr_t)TableEntry, Signature, OemTableId, TableEntry->Revision, TableEntry->Length); // // Additional checks // if (CheckSignature != NULL && AsciiStrCmp(Signature, CheckSignature) != 0) { DBG(" -> invalid signature, expecting %s\n", CheckSignature); return EFI_INVALID_PARAMETER; } // XSDT checks if (TableEntry->Signature == EFI_ACPI_2_0_EXTENDED_SYSTEM_DESCRIPTION_TABLE_SIGNATURE) { if (TableEntry->Length < sizeof(XSDT_TABLE)) { DBG(" -> invalid length\n"); return EFI_INVALID_PARAMETER; } } // RSDT checks if (TableEntry->Signature == EFI_ACPI_1_0_ROOT_SYSTEM_DESCRIPTION_TABLE_SIGNATURE) { if (TableEntry->Length < sizeof(RSDT_TABLE)) { DBG(" -> invalid length\n"); return EFI_INVALID_PARAMETER; } } // FADT/FACP checks if (TableEntry->Signature == EFI_ACPI_1_0_FIXED_ACPI_DESCRIPTION_TABLE_SIGNATURE) { if (TableEntry->Length < sizeof(EFI_ACPI_1_0_FIXED_ACPI_DESCRIPTION_TABLE)) { DBG(" -> invalid length\n"); return EFI_INVALID_PARAMETER; } } // DSDT checks if (TableEntry->Signature == EFI_ACPI_1_0_DIFFERENTIATED_SYSTEM_DESCRIPTION_TABLE_SIGNATURE) { if (TableEntry->Length < sizeof(EFI_ACPI_DESCRIPTION_HEADER)) { DBG(" -> invalid length\n"); return EFI_INVALID_PARAMETER; } } // SSDT checks if (TableEntry->Signature == EFI_ACPI_1_0_SECONDARY_SYSTEM_DESCRIPTION_TABLE_SIGNATURE) { if (TableEntry->Length < sizeof(EFI_ACPI_DESCRIPTION_HEADER)) { DBG(" -> invalid length\n"); return EFI_INVALID_PARAMETER; } } if (DirName == NULL || IsTableSaved(TableEntry)) { // just debug log dump return EFI_SUCCESS; } if (FileNamePrefix == NULL) { FileNamePrefix = L""; } XStringW ReleaseFileName = FileName; if (ReleaseFileName.isEmpty()) { // take the name from the signature if (TableEntry->Signature == EFI_ACPI_1_0_SECONDARY_SYSTEM_DESCRIPTION_TABLE_SIGNATURE && SsdtCount != NULL) { ReleaseFileName = GenerateFileName(FileNamePrefix, *SsdtCount, IGNORE_INDEX, OemTableId); } else { ReleaseFileName = SWPrintf("%ls%s.aml", FileNamePrefix, Signature); } } DBG(" -> %ls", ReleaseFileName.wc_str()); // Save it Status = SaveBufferToDisk(TableEntry, TableEntry->Length, DirName, ReleaseFileName.wc_str()); MarkTableAsSaved(TableEntry); if (TableEntry->Signature == EFI_ACPI_1_0_SECONDARY_SYSTEM_DESCRIPTION_TABLE_SIGNATURE && SsdtCount != NULL) { DumpChildSsdt(TableEntry, DirName, FileNamePrefix, *SsdtCount); *SsdtCount += 1; } return Status; } /** Saves to disk (DirName != NULL) or prints to log (DirName == NULL) Fadt tables: Dsdt and Facs. */ EFI_STATUS DumpFadtTables(EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE *Fadt, CONST CHAR16 *DirName, CONST CHAR16 *FileNamePrefix, INTN *SsdtCount) { EFI_ACPI_DESCRIPTION_HEADER *TableEntry; EFI_ACPI_2_0_FIRMWARE_ACPI_CONTROL_STRUCTURE *Facs; EFI_STATUS Status = EFI_SUCCESS; UINT64 DsdtAdr; UINT64 FacsAdr; CHAR8 Signature[5]; // // if Fadt->Revision < 3 (EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE_REVISION), then it is Acpi 1.0 // and fields after Flags are not available // DBG(" (Dsdt: %X, Facs: %X", Fadt->Dsdt, Fadt->FirmwareCtrl); // for Acpi 1.0 DsdtAdr = Fadt->Dsdt; FacsAdr = Fadt->FirmwareCtrl; if (Fadt->Header.Revision >= EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE_REVISION) { // Acpi 2.0 or up // may have it in XDsdt or XFirmwareCtrl DBG(", XDsdt: %llx, XFacs: %llx", Fadt->XDsdt, Fadt->XFirmwareCtrl); if (Fadt->XDsdt != 0) { DsdtAdr = Fadt->XDsdt; } if (Fadt->XFirmwareCtrl != 0) { FacsAdr = Fadt->XFirmwareCtrl; } } DBG(")\n"); // // Save Dsdt // if (DsdtAdr != 0) { DBG(" "); TableEntry = (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)DsdtAdr; Status = DumpTable(TableEntry, "DSDT", DirName, L""_XSW, FileNamePrefix, NULL); if (EFI_ERROR(Status)) { DBG(" - %s\n", efiStrError(Status)); return Status; } DBG("\n"); DumpChildSsdt(TableEntry, DirName, FileNamePrefix, IGNORE_INDEX); } // // Save Facs // if (FacsAdr != 0) { // Taking it as structure from Acpi 2.0 just to get Version (it's reserved field in Acpi 1.0 and == 0) Facs = (EFI_ACPI_2_0_FIRMWARE_ACPI_CONTROL_STRUCTURE*)(UINTN)FacsAdr; // Take Signature for printing CopyMem(&Signature[0], &Facs->Signature, 4); Signature[4] = 0; DBG(" %llx: '%s', Ver: %d, Len: %d", (uintptr_t)Facs, Signature, Facs->Version, Facs->Length); // FACS checks if (Facs->Signature != EFI_ACPI_1_0_FIRMWARE_ACPI_CONTROL_STRUCTURE_SIGNATURE) { DBG(" -> invalid signature, expecting FACS\n"); return EFI_INVALID_PARAMETER; } if (Facs->Length < sizeof(EFI_ACPI_1_0_FIRMWARE_ACPI_CONTROL_STRUCTURE)) { DBG(" -> invalid length\n"); return EFI_INVALID_PARAMETER; } if (DirName != NULL && !IsTableSaved(Facs)) { XStringW FileName = SWPrintf("%lsFACS.aml", FileNamePrefix); DBG(" -> %ls", FileName.wc_str()); Status = SaveBufferToDisk(Facs, Facs->Length, DirName, FileName.wc_str()); MarkTableAsSaved(Facs); if (EFI_ERROR(Status)) { DBG(" - %s\n", efiStrError(Status)); return Status; } } DBG("\n"); } return Status; } EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE* GetFadt() { EFI_ACPI_2_0_ROOT_SYSTEM_DESCRIPTION_POINTER *RsdPtr; EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE *FadtPointer = NULL; // EFI_STATUS Status; RsdPtr = (__typeof__(RsdPtr))FindAcpiRsdPtr(); if (RsdPtr == NULL) { /*Status = */EfiGetSystemConfigurationTable (&gEfiAcpi20TableGuid, (void **)&RsdPtr); if (RsdPtr == NULL) { /*Status = */EfiGetSystemConfigurationTable (&gEfiAcpi10TableGuid, (void **)&RsdPtr); if (RsdPtr == NULL) { return NULL; } } } Rsdt = (RSDT_TABLE*)(UINTN)(RsdPtr->RsdtAddress); if (RsdPtr->Revision > 0) { if (Rsdt == NULL || Rsdt->Header.Signature != EFI_ACPI_2_0_ROOT_SYSTEM_DESCRIPTION_TABLE_SIGNATURE) { Xsdt = (XSDT_TABLE *)(UINTN)(RsdPtr->XsdtAddress); } } if (Rsdt == NULL && Xsdt == NULL) { // // Search Acpi 2.0 or newer in UEFI Sys.Tables // RsdPtr = NULL; /*Status = */EfiGetSystemConfigurationTable (&gEfiAcpi20TableGuid, (void**)&RsdPtr); if (RsdPtr != NULL) { DBG("Found UEFI Acpi 2.0 RSDP at %llx\n", (uintptr_t)RsdPtr); Rsdt = (RSDT_TABLE*)(UINTN)(RsdPtr->RsdtAddress); if (RsdPtr->Revision > 0) { if (Rsdt == NULL || Rsdt->Header.Signature != EFI_ACPI_2_0_ROOT_SYSTEM_DESCRIPTION_TABLE_SIGNATURE) { Xsdt = (XSDT_TABLE *)(UINTN)(RsdPtr->XsdtAddress); } } } if (Rsdt == NULL && Xsdt == NULL) { DBG("No RSDT or XSDT found!\n"); return NULL; } } if (Rsdt) { FadtPointer = (EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE*)(UINTN)(Rsdt->Entry); } if (Xsdt) { //overwrite previous find as xsdt priority FadtPointer = (EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE*)(UINTN)(Xsdt->Entry); } return FadtPointer; } /** Saves to disk (DirName != NULL) * or prints to debug log (DirName == NULL) * ACPI tables given by RsdPtr. * Takes tables from Xsdt if present or from Rsdt if Xsdt is not present. */ void DumpTables(void *RsdPtrVoid, CONST CHAR16 *DirName) { EFI_STATUS Status; UINTN Length; INTN SsdtCount; CONST CHAR16 *FileNamePrefix; // // RSDP // Take it as Acpi 2.0, but take care that if RsdPtr->Revision == 0 // then it is actually Acpi 1.0 and fields after RsdtAddress (like XsdtAddress) // are not available // EFI_ACPI_2_0_ROOT_SYSTEM_DESCRIPTION_POINTER* RsdPtr = (EFI_ACPI_2_0_ROOT_SYSTEM_DESCRIPTION_POINTER*)RsdPtrVoid; if (DirName != NULL) { DBG("Saving ACPI tables from RSDP %llx to %ls ...\n", (uintptr_t)RsdPtr, DirName); } else { DBG("Printing ACPI tables from RSDP %llx ...\n", (uintptr_t)RsdPtr); } if (RsdPtr->Signature != EFI_ACPI_1_0_ROOT_SYSTEM_DESCRIPTION_POINTER_SIGNATURE) { DBG(" RsdPrt at %llx has invaid signature 0x%llx - exiting.\n", (uintptr_t)RsdPtr, RsdPtr->Signature); return; } // Take Signature for printing CHAR8 Signature[9]; CopyMem(&Signature[0], &RsdPtr->Signature, 8); Signature[8] = 0; // Take Rsdt and Xsdt Rsdt = NULL; Xsdt = NULL; DBG(" %llx: '%s', Rev: %d", (uintptr_t)RsdPtr, Signature, RsdPtr->Revision); if (RsdPtr->Revision == 0) { // Acpi 1.0 Length = sizeof(EFI_ACPI_1_0_ROOT_SYSTEM_DESCRIPTION_POINTER); DBG(" (Acpi 1.0)"); } else { // Acpi 2.0 or newer Length = RsdPtr->Length; DBG(" (Acpi 2.0 or newer)"); } DBG(", Len: %llu", Length); // // Save RsdPtr // if (DirName != NULL && !IsTableSaved(RsdPtr)) { DBG(" -> RSDP.aml"); Status = SaveBufferToDisk(RsdPtr, Length, DirName, L"RSDP.aml"); MarkTableAsSaved(RsdPtr); if (EFI_ERROR(Status)) { DBG(" - %s\n", efiStrError(Status)); return; } } DBG("\n"); if (RsdPtr->Revision == 0) { // Acpi 1.0 - no Xsdt Rsdt = (RSDT_TABLE*)(UINTN)(RsdPtr->RsdtAddress); DBG(" (Rsdt: %llx)\n", (UINTN)Rsdt); } else { // Acpi 2.0 or newer - may have Xsdt and/or Rsdt Rsdt = (RSDT_TABLE*)(UINTN)(RsdPtr->RsdtAddress); Xsdt = (XSDT_TABLE *)(UINTN)(RsdPtr->XsdtAddress); DBG(" (Xsdt: %llx, Rsdt: %llx)\n", (UINTN)Xsdt, (UINTN)Rsdt); } if (Rsdt == NULL && Xsdt == NULL) { DBG(" No Rsdt and Xsdt - exiting.\n"); return; } FileNamePrefix = L""; // // Save Xsdt // if (Xsdt != NULL) { DBG(" "); Status = DumpTable((EFI_ACPI_DESCRIPTION_HEADER *)Xsdt, "XSDT", DirName, L"XSDT.aml"_XSW, FileNamePrefix, NULL); if (EFI_ERROR(Status)) { DBG(" - %s", efiStrError(Status)); Xsdt = NULL; } DBG("\n"); } // // Save Rsdt // if (Rsdt != NULL) { DBG(" "); Status = DumpTable((EFI_ACPI_DESCRIPTION_HEADER *)Rsdt, "RSDT", DirName, L"RSDT.aml"_XSW, FileNamePrefix, NULL); if (EFI_ERROR(Status)) { DBG(" - %s", efiStrError(Status)); Rsdt = NULL; } DBG("\n"); } // // Check once more since they might be invalid // if (Rsdt == NULL && Xsdt == NULL) { DBG(" No Rsdt and Xsdt - exiting.\n"); return; } if (Xsdt) { UINT64 *Ptr, *EndPtr; UINT32 Count = XsdtTableCount(); DBG(" Tables in Xsdt: %d\n", Count); if (Count > 100) Count = 100; //it's enough Ptr = XsdtEntryPtrFromIndex(0); EndPtr = XsdtEntryPtrFromIndex(Count); SsdtCount = 0; for (; Ptr < EndPtr; Ptr++) { DBG(" %d.", IndexFromXsdtEntryPtr(Ptr)); EFI_ACPI_DESCRIPTION_HEADER* Table = (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)ReadUnaligned64(Ptr); if (!Table) { DBG(" = 0\n"); // skip NULL entry continue; } if (EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE_SIGNATURE == Table->Signature) { // Fadt - save Dsdt and Facs Status = DumpTable(Table, NULL, DirName, L""_XSW, FileNamePrefix, &SsdtCount); if (EFI_ERROR(Status)) { DBG(" - %s\n", efiStrError(Status)); return; } DBG("\n"); EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE* Fadt = (EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE*)Table; Status = DumpFadtTables(Fadt, DirName, FileNamePrefix, &SsdtCount); if (EFI_ERROR(Status)) { return; } } else { Status = DumpTable(Table, NULL, DirName, L""_XSW, FileNamePrefix, &SsdtCount); if (EFI_ERROR(Status)) { DBG(" - %s\n", efiStrError(Status)); return; } DBG("\n"); } } } // if Xsdt if (Rsdt) { UINT32 *Ptr, *EndPtr; // additional Rsdt tables which are not present in Xsdt will have "RSDT-" prefix, like RSDT-FACS.aml FileNamePrefix = L"RSDT-"; // Take tables from Rsdt // if saved from Xsdt already, then just print debug UINT32 Count = RsdtTableCount(); DBG(" Tables in Rsdt: %d\n", Count); if (Count > 100) Count = 100; //it's enough Ptr = RsdtEntryPtrFromIndex(0); EndPtr = RsdtEntryPtrFromIndex(Count); for (; Ptr < EndPtr; Ptr++) { DBG(" %d.", IndexFromRsdtEntryPtr(Ptr)); EFI_ACPI_DESCRIPTION_HEADER* Table = (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)*Ptr; if (!Table) { DBG(" = 0\n"); // skip NULL entry continue; } if (EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE_SIGNATURE == Table->Signature) { // Fadt - save Dsdt and Facs Status = DumpTable(Table, NULL, DirName, L""_XSW, FileNamePrefix, &SsdtCount); if (EFI_ERROR(Status)) { DBG(" - %s\n", efiStrError(Status)); return; } DBG("\n"); EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE* Fadt = (EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE*)Table; Status = DumpFadtTables(Fadt, DirName, FileNamePrefix, &SsdtCount); if (EFI_ERROR(Status)) { return; } } else { Status = DumpTable(Table, NULL, DirName, L""_XSW, FileNamePrefix, &SsdtCount); if (EFI_ERROR(Status)) { DBG(" - %s\n", efiStrError(Status)); return; } DBG("\n"); } } } // if Rsdt } /** Saves OEM ACPI tables to disk. * Searches BIOS, then UEFI Sys.Tables for Acpi 2.0 or newer tables, then for Acpi 1.0 tables * CloverEFI: * - saves first one found, dump others to log * UEFI: * - saves first one found in UEFI Sys.Tables, dump others to log * * Dumping of other tables to log can be removed if it turns out that there is no value in doing it. */ void SaveOemTables() { // EFI_STATUS Status; void *RsdPtr; XStringW AcpiOriginPath = L"ACPI\\origin"_XSW; BOOLEAN Saved = FALSE; CHAR8 *MemLogStart; UINTN MemLogStartLen; MemLogStartLen = GetMemLogLen(); MemLogStart = GetMemLogBuffer() + MemLogStartLen; // // Search in BIOS // CloverEFI - Save // UEFI - just print to log // // RsdPtr = NULL; RsdPtr = FindAcpiRsdPtr(); if (RsdPtr != NULL) { DBG("Found BIOS RSDP at %llx\n", (UINTN)RsdPtr); if (gFirmwareClover) { // Save it DumpTables(RsdPtr, AcpiOriginPath.wc_str()); Saved = TRUE; } else { // just print to log DumpTables(RsdPtr, NULL); } } // // Search Acpi 2.0 or newer in UEFI Sys.Tables // RsdPtr = NULL; /*Status = */EfiGetSystemConfigurationTable (&gEfiAcpi20TableGuid, &RsdPtr); if (RsdPtr != NULL) { //it may be EFI_SUCCESS but null pointer DBG("Found UEFI Acpi 2.0 RSDP at %llx\n", (UINTN)RsdPtr); // if tables already saved, then just print to log DumpTables(RsdPtr, Saved ? NULL : AcpiOriginPath.wc_str()); Saved = TRUE; } // // Then search Acpi 1.0 UEFI Sys.Tables // RsdPtr = NULL; /*Status = */EfiGetSystemConfigurationTable (&gEfiAcpi10TableGuid, &RsdPtr); if (RsdPtr != NULL) { DBG("Found UEFI Acpi 1.0 RSDP at %llx\n", (UINTN)RsdPtr); // if tables already saved, then just print to log DumpTables(RsdPtr, Saved ? NULL : AcpiOriginPath.wc_str()); // Saved = TRUE; } SaveBufferToDisk(MemLogStart, GetMemLogLen() - MemLogStartLen, AcpiOriginPath.wc_str(), L"DumpLog.txt"); FreePool(mSavedTables); } void SaveOemDsdt(BOOLEAN FullPatch) { EFI_STATUS Status = EFI_NOT_FOUND; EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE *FadtPointer = NULL; EFI_PHYSICAL_ADDRESS dsdt = EFI_SYSTEM_TABLE_MAX_ADDRESS; UINTN Pages; UINT8 *buffer = NULL; UINTN DsdtLen = 0; XStringW OriginDsdt = SWPrintf("ACPI\\origin\\DSDT.aml"); XStringW OriginDsdtFixed = SWPrintf("ACPI\\origin\\DSDT-%x.aml", gSettings.FixDsdt); // constexpr LStringW PathPatched = L"\\EFI\\CL OVER\\ACPI\\patched"; // XStringW PathDsdt; // XStringW AcpiOemPath = SWPrintf("ACPI\\patched"); // PathDsdt.SWPrintf("\\%ls", gSettings.DsdtName.wc_str()); if (FileExists(selfOem.getConfigDir(), SWPrintf("ACPI\\patched\\%ls", gSettings.DsdtName.wc_str()))) { DBG("SaveOemDsdt: DSDT found in Clover volume OEM folder: \\%ls\\ACPI\\patched\\%ls\n", selfOem.getConfigDirFullPath().wc_str(), gSettings.DsdtName.wc_str()); Status = egLoadFile(&selfOem.getConfigDir(), SWPrintf("ACPI\\patched\\%ls", gSettings.DsdtName.wc_str()).wc_str(), &buffer, &DsdtLen); } // Jief : Do not write outside OemPath // if (EFI_ERROR(Status) && FileExists(&self.getSelfRootDir(), SWPrintf("%ls%ls", PathPatched.wc_str(), PathDsdt.wc_str()))) { // DBG("SaveOemDsdt: DSDT found in Clover volume common folder: %ls%ls\n", PathPatched.wc_str(), PathDsdt.wc_str()); // Status = egLoadFile(&self.getSelfRootDir(), SWPrintf("%ls%ls", PathPatched.wc_str(), PathDsdt.wc_str()).wc_str(), &buffer, &DsdtLen); // } if (EFI_ERROR(Status)) { FadtPointer = GetFadt(); if (FadtPointer == NULL) { DBG("Cannot found FADT in BIOS or in UEFI!\n"); //really?! return; } BiosDsdt = FadtPointer->Dsdt; if (FadtPointer->Header.Revision >= EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE_REVISION && FadtPointer->XDsdt != 0) { BiosDsdt = FadtPointer->XDsdt; } buffer = (UINT8*)(UINTN)BiosDsdt; } if (!buffer) { DBG("Cannot found DSDT in BIOS or in files!\n"); return; } DsdtLen = ((EFI_ACPI_DESCRIPTION_HEADER*)buffer)->Length; Pages = EFI_SIZE_TO_PAGES(DsdtLen + DsdtLen / 8); // take some extra space for patches Status = gBS->AllocatePages ( AllocateMaxAddress, EfiBootServicesData, Pages, &dsdt ); //if success insert dsdt pointer into ACPI tables if(!EFI_ERROR(Status)) { CopyMem((void*)(UINTN)dsdt, buffer, DsdtLen); buffer = (UINT8*)(UINTN)dsdt; if (FullPatch) { FixBiosDsdt(buffer, FadtPointer, NullXString8); DsdtLen = ((EFI_ACPI_DESCRIPTION_HEADER*)buffer)->Length; OriginDsdt = OriginDsdtFixed; } Status = egSaveFile(&selfOem.getConfigDir(), OriginDsdt.wc_str(), buffer, DsdtLen); // Jief : do not write outside of OemDir // if (EFI_ERROR(Status)) { // Status = egSaveFile(NULL, OriginDsdt.wc_str(), buffer, DsdtLen); // } if (!EFI_ERROR(Status)) { MsgLog("DSDT saved to %ls\\%ls\n", selfOem.getConfigDirFullPath().wc_str(), OriginDsdt.wc_str()); } else { MsgLog("Saving DSDT to %ls\\%ls failed - %s\n", selfOem.getConfigDirFullPath().wc_str(), OriginDsdt.wc_str(), efiStrError(Status)); } gBS->FreePages(dsdt, Pages); } } BOOLEAN LoadPatchedAML(const EFI_FILE& dir, const XStringW& acpiOemPath, CONST CHAR16* PartName, UINTN Pass) { // pass1 prefilter based on file names (optimization that avoids loading same files twice) UINTN Index = IGNORE_INDEX; if (AUTOMERGE_PASS1 == Pass) { Index = IndexFromFileName(PartName); // gSettings.AutoMerge always true in this case // file names such as: ECDT.aml, SSDT-0.aml, SSDT-1-CpuPm.aml, attempt merge on pass1 // others: no attempt for merge // special case for SSDT.aml: no attempt to merge if (0 == StriCmp(PartName, L"SSDT.aml") || (8 != StrLen(PartName) && IGNORE_INDEX == Index)) { DBG("ignore on pass 1\n"); return FALSE; } } UINT8 *buffer = NULL; UINTN bufferLen = 0; EFI_STATUS Status = egLoadFile(&dir, SWPrintf("%ls\\%ls", acpiOemPath.wc_str(), PartName).wc_str(), &buffer, &bufferLen); if (!EFI_ERROR(Status)) { if (buffer) { EFI_ACPI_DESCRIPTION_HEADER* TableHeader = (EFI_ACPI_DESCRIPTION_HEADER*)buffer; if (TableHeader->Length > 500 * kilo) { DBG("wrong table\n"); return FALSE; } } DBG("size=%lld ", (UINT64)bufferLen); if (!gSettings.AutoMerge) { // Note: with AutoMerge=false, Pass is only AUTOMERGE_PASS2 here Status = InsertTable(buffer, bufferLen); } else { Status = ReplaceOrInsertTable(buffer, bufferLen, Index, Pass); } FreePool(buffer); } DBG("... %s\n", efiStrError(Status)); return !EFI_ERROR(Status); } #define BVALUE_ATTEMPTED 2 // special value for MenuItem.BValue to avoid excessive log output void LoadAllPatchedAML(const XStringW& acpiPathUnderOem, UINTN Pass) { if (!gSettings.AutoMerge && AUTOMERGE_PASS1 == Pass) { // nothing to do in this case, since AutoMerge=false -> no tables ever merged return; } if (ACPIPatchedAML) { DbgHeader("ACPIPatchedAML"); if (gSettings.AutoMerge) { DBG("AutoMerge pass %llu\n", Pass); } //DBG("Start: Processing Patched AML(s): "); if (gSettings.SortedACPICount) { UINTN Index; DBG("Sorted\n"); for (Index = 0; Index < gSettings.SortedACPICount; Index++) { ACPI_PATCHED_AML *ACPIPatchedAMLTmp; for (ACPIPatchedAMLTmp = ACPIPatchedAML; ACPIPatchedAMLTmp; ACPIPatchedAMLTmp = ACPIPatchedAMLTmp->Next) { if (0 == StriCmp(ACPIPatchedAMLTmp->FileName, gSettings.SortedACPI[Index]) && ACPIPatchedAMLTmp->MenuItem.BValue) { if (BVALUE_ATTEMPTED != ACPIPatchedAMLTmp->MenuItem.BValue) DBG("Disabled: %ls, skip\n", ACPIPatchedAMLTmp->FileName); ACPIPatchedAMLTmp->MenuItem.BValue = BVALUE_ATTEMPTED; break; } } if (!ACPIPatchedAMLTmp) { // NULL when not disabled DBG("Inserting table[%llu]:%ls from %ls\\%ls: ", Index, gSettings.SortedACPI[Index], selfOem.getConfigDirFullPath().wc_str(), acpiPathUnderOem.wc_str()); if (LoadPatchedAML(selfOem.getConfigDir(), acpiPathUnderOem, gSettings.SortedACPI[Index], Pass)) { // avoid inserting table again on second pass for (ACPI_PATCHED_AML* temp2 = ACPIPatchedAML; temp2; temp2 = temp2->Next) { if (0 == StriCmp(temp2->FileName, gSettings.SortedACPI[Index])) { temp2->MenuItem.BValue = BVALUE_ATTEMPTED; break; } } } } } } else { ACPI_PATCHED_AML *ACPIPatchedAMLTmp; DBG("Unsorted\n"); for (ACPIPatchedAMLTmp = ACPIPatchedAML; ACPIPatchedAMLTmp; ACPIPatchedAMLTmp = ACPIPatchedAMLTmp->Next) { if (!ACPIPatchedAMLTmp->MenuItem.BValue) { DBG("Inserting %ls from %ls\\%ls: ", ACPIPatchedAMLTmp->FileName, selfOem.getConfigDirFullPath().wc_str(), acpiPathUnderOem.wc_str()); if (LoadPatchedAML(selfOem.getConfigDir(), acpiPathUnderOem, ACPIPatchedAMLTmp->FileName, Pass)) { // avoid inserting table again on second pass ACPIPatchedAMLTmp->MenuItem.BValue = BVALUE_ATTEMPTED; } } else { if (BVALUE_ATTEMPTED != ACPIPatchedAMLTmp->MenuItem.BValue) DBG("Disabled: %ls, skip\n", ACPIPatchedAMLTmp->FileName); ACPIPatchedAMLTmp->MenuItem.BValue = BVALUE_ATTEMPTED; } } } //DBG("End: Processing Patched AML(s)\n"); } } EFI_STATUS PatchACPI(IN REFIT_VOLUME *Volume, const XString8& OSVersion) { EFI_STATUS Status = EFI_SUCCESS; UINTN Index; EFI_ACPI_2_0_ROOT_SYSTEM_DESCRIPTION_POINTER *RsdPointer = NULL; EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE *FadtPointer = NULL; EFI_ACPI_4_0_FIXED_ACPI_DESCRIPTION_TABLE *newFadt = NULL; // EFI_ACPI_HIGH_PRECISION_EVENT_TIMER_TABLE_HEADER *Hpet = NULL; EFI_ACPI_4_0_FIRMWARE_ACPI_CONTROL_STRUCTURE *Facs = NULL; EFI_PHYSICAL_ADDRESS dsdt = EFI_SYSTEM_TABLE_MAX_ADDRESS; //0xFE000000; EFI_PHYSICAL_ADDRESS BufferPtr; SSDT_TABLE *Ssdt = NULL; UINT8 *buffer = NULL; UINTN bufferLen = 0; // constexpr LStringW PathPatched = L"\\EFI\\CL OVER\\ACPI\\patched"; // XStringW PathDsdt; // = L"\\DSDT.aml"; // CHAR16* PatchedAPIC = L"\\EFI\\CL OVER\\ACPI\\origin\\APIC-p.aml"; UINT32* rf = NULL; UINT64* xf = NULL; UINT64 XDsdt; //save values if present UINT64 XFirmwareCtrl; // EFI_FILE *RootDir; UINT32 eCntR; //, eCntX; UINT32 *pEntryR; CHAR8 *pEntry; EFI_ACPI_DESCRIPTION_HEADER *TableHeader; // -===== APIC =====- EFI_ACPI_DESCRIPTION_HEADER *ApicTable; // EFI_ACPI_2_0_MULTIPLE_APIC_DESCRIPTION_TABLE_HEADER *ApicHeader; EFI_ACPI_2_0_PROCESSOR_LOCAL_APIC_STRUCTURE *ProcLocalApic; EFI_ACPI_2_0_LOCAL_APIC_NMI_STRUCTURE *LocalApicNMI; // UINTN ApicLen; UINTN ApicCPUNum; UINT8 *SubTable; BOOLEAN DsdtLoaded = FALSE; BOOLEAN NeedUpdate = FALSE; OPER_REGION *tmpRegion; // XStringW AcpiOemPath = SWPrintf("%ls\\ACPI\\patched", OEMPath.wc_str()); DbgHeader("PatchACPI"); //try to find in SystemTable for(Index = 0; Index < gST->NumberOfTableEntries; Index++) { if(CompareGuid (&gST->ConfigurationTable[Index].VendorGuid, &gEfiAcpi20TableGuid)) { // Acpi 2.0 RsdPointer = (EFI_ACPI_2_0_ROOT_SYSTEM_DESCRIPTION_POINTER*)gST->ConfigurationTable[Index].VendorTable; break; } else if(CompareGuid (&gST->ConfigurationTable[Index].VendorGuid, &gEfiAcpi10TableGuid)) { // Acpi 1.0 - RSDT only RsdPointer = (EFI_ACPI_2_0_ROOT_SYSTEM_DESCRIPTION_POINTER*)gST->ConfigurationTable[Index].VendorTable; continue; } } if (!RsdPointer) { return EFI_UNSUPPORTED; } Rsdt = (RSDT_TABLE*)(UINTN)RsdPointer->RsdtAddress; // DBG("RSDT 0x%llx\n", Rsdt); rf = ScanRSDT(EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE_SIGNATURE, 0); if(rf) { FadtPointer = (EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE*)(UINTN)(*rf); // DBG("FADT from RSDT: 0x%llx\n", FadtPointer); } Xsdt = NULL; if (RsdPointer->Revision >=2 && (RsdPointer->XsdtAddress < (UINT64)(UINTN)-1)) { Xsdt = (XSDT_TABLE*)(UINTN)RsdPointer->XsdtAddress; // DBG("XSDT 0x%llx\n", Xsdt); xf = ScanXSDT(EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE_SIGNATURE, 0); if(xf) { //Slice - change priority. First Xsdt, second Rsdt if (*xf) { FadtPointer = (EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE*)(UINTN)(*xf); // DBG("FADT from XSDT: 0x%llx\n", FadtPointer); } else { *xf = (UINT64)(UINTN)FadtPointer; // DBG("reuse FADT\n"); //never happens } } } if(!xf && Rsdt) { DBG("Xsdt is not found! Creating new one\n"); //We should make here ACPI20 RSDP with all needed subtables based on ACPI10 BufferPtr = EFI_SYSTEM_TABLE_MAX_ADDRESS; Status = gBS->AllocatePages(AllocateMaxAddress, EfiACPIReclaimMemory, 1, &BufferPtr); if(!EFI_ERROR(Status)) { if (RsdPointer->Revision == 0) { // Acpi 1.0 RsdPtr, but we need Acpi 2.0 EFI_ACPI_2_0_ROOT_SYSTEM_DESCRIPTION_POINTER *NewRsdPointer; DBG("RsdPointer is Acpi 1.0 - creating new one Acpi 2.0\n"); // add new pointer to the beginning of a new buffer NewRsdPointer = (EFI_ACPI_2_0_ROOT_SYSTEM_DESCRIPTION_POINTER*)(UINTN)BufferPtr; // and Xsdt will come after it BufferPtr += 0x30; // DBG("::pointers %llx %llx\n", NewRsdPointer, RsdPointer); // Signature, Checksum, OemId, Reserved/Revision, RsdtAddress CopyMem(NewRsdPointer, RsdPointer, sizeof(EFI_ACPI_1_0_ROOT_SYSTEM_DESCRIPTION_POINTER)); NewRsdPointer->Revision = 2; NewRsdPointer->Length = sizeof(EFI_ACPI_2_0_ROOT_SYSTEM_DESCRIPTION_POINTER); RsdPointer = NewRsdPointer; NeedUpdate = TRUE; // gBS->InstallConfigurationTable(&gEfiAcpiTableGuid, RsdPointer); // DBG("first install success\n"); // gBS->InstallConfigurationTable(&gEfiAcpi10TableGuid, RsdPointer); DBG("RsdPointer Acpi 2.0 installed\n"); } Xsdt = (XSDT_TABLE*)(UINTN)BufferPtr; // DBG("XSDT = 0x%llx\n", uintptr_t(Xsdt)); Xsdt->Header.Signature = 0x54445358; //EFI_ACPI_2_0_EXTENDED_SYSTEM_DESCRIPTION_TABLE_SIGNATURE eCntR = (Rsdt->Header.Length - sizeof (EFI_ACPI_DESCRIPTION_HEADER)) / sizeof(UINT32); Xsdt->Header.Length = eCntR * sizeof(UINT64) + sizeof (EFI_ACPI_DESCRIPTION_HEADER); Xsdt->Header.Revision = 1; CopyMem(&Xsdt->Header.OemId, &FadtPointer->Header.OemId, 6); // Xsdt->Header.OemTableId = Rsdt->Header.OemTableId; CopyMem(&Xsdt->Header.OemTableId, &Rsdt->Header.OemTableId, 8); Xsdt->Header.OemRevision = Rsdt->Header.OemRevision; Xsdt->Header.CreatorId = Rsdt->Header.CreatorId; Xsdt->Header.CreatorRevision = Rsdt->Header.CreatorRevision; pEntryR = (UINT32*)(&(Rsdt->Entry)); pEntry = (CHAR8*)(&(Xsdt->Entry)); DBG("RSDT entries = %d\n", eCntR); for (Index = 0; Index < eCntR; Index ++) { UINT64 *pEntryX = (UINT64 *)pEntry; // DBG("RSDT entry = 0x%X\n", *pEntryR); if (*pEntryR != 0) { *pEntryX = 0; CopyMem(pEntryX, pEntryR, sizeof(UINT32)); pEntryR++; pEntry += sizeof(UINT64); } else { DBG("RSDT entry %llu = 0 ... skip it\n", Index); Xsdt->Header.Length -= sizeof(UINT64); pEntryR++; } } } } if (Xsdt) { //Now we need no more Rsdt Rsdt = NULL; RsdPointer->RsdtAddress = 0; //and we want to reallocate Xsdt BufferPtr = EFI_SYSTEM_TABLE_MAX_ADDRESS; Status = gBS->AllocatePages(AllocateMaxAddress, EfiACPIReclaimMemory, 1, &BufferPtr); if(!EFI_ERROR(Status)) { CopyMem((void*)(UINTN)BufferPtr, Xsdt, Xsdt->Header.Length); Xsdt = (XSDT_TABLE*)(UINTN)BufferPtr; } // DBG("Finishing RsdPointer\n"); RsdPointer->XsdtAddress = (UINT64)(UINTN)Xsdt; RsdPointer->Checksum = 0; RsdPointer->Checksum = (UINT8)(256-Checksum8((CHAR8*)RsdPointer, 20)); RsdPointer->ExtendedChecksum = 0; RsdPointer->ExtendedChecksum = (UINT8)(256-Checksum8((CHAR8*)RsdPointer, RsdPointer->Length)); DBG("Xsdt reallocation done\n"); } // DBG("FADT pointer = %X\n", (UINTN)FadtPointer); if(!FadtPointer) { return EFI_NOT_FOUND; } //Slice - then we do FADT patch no matter if we don't have DSDT.aml BufferPtr = EFI_SYSTEM_TABLE_MAX_ADDRESS; Status = gBS->AllocatePages(AllocateMaxAddress, EfiACPIReclaimMemory, 1, &BufferPtr); if(!EFI_ERROR(Status)) { UINT32 oldLength = ((EFI_ACPI_DESCRIPTION_HEADER*)FadtPointer)->Length; newFadt = (EFI_ACPI_4_0_FIXED_ACPI_DESCRIPTION_TABLE*)(UINTN)BufferPtr; DBG("old FADT length=%X\n", oldLength); CopyMem(newFadt, FadtPointer, oldLength); //old data newFadt->Header.Length = 0xF4; CopyMem(newFadt->Header.OemId, BiosVendor.c_str(), 6); if (newFadt->Header.Revision < EFI_ACPI_4_0_FIXED_ACPI_DESCRIPTION_TABLE_REVISION) { newFadt->Header.Revision = EFI_ACPI_4_0_FIXED_ACPI_DESCRIPTION_TABLE_REVISION; } newFadt->Reserved0 = 0; //ACPIspec said it should be 0, while 1 is possible, but no more //should correct headers if needed and if asked PatchTableHeader((EFI_ACPI_DESCRIPTION_HEADER*)newFadt); if (gSettings.smartUPS==TRUE) { newFadt->PreferredPmProfile = 3; } else { newFadt->PreferredPmProfile = gMobile?2:1; //as calculated before } if (gSettings.EnableC6 || gSettings.EnableISS) { newFadt->CstCnt = 0x85; //as in Mac } if (gSettings.EnableC2) newFadt->PLvl2Lat = 0x65; if (gSettings.C3Latency > 0) { newFadt->PLvl3Lat = gSettings.C3Latency; } else if (gSettings.EnableC4) { newFadt->PLvl3Lat = 0x3E9; } if (gSettings.C3Latency == 0) { gSettings.C3Latency = newFadt->PLvl3Lat; } newFadt->IaPcBootArch = 0x3; if (gSettings.NoASPM) { newFadt->IaPcBootArch |= 0x10; // disable ASPM } newFadt->Flags |= 0x420; //Reset Register Supported and SleepButton active newFadt->Flags &= ~0x10010; //RTC_STS not valid and PowerButton disable XDsdt = newFadt->XDsdt; //save values if present XFirmwareCtrl = newFadt->XFirmwareCtrl; CopyMem(&newFadt->ResetReg, pmBlock, 0x80); //but these common values are not specific, so adjust //ACPIspec said that if Xdsdt !=0 then Dsdt must be =0. But real Mac no! Both values present if (BiosDsdt) { newFadt->XDsdt = BiosDsdt; newFadt->Dsdt = (UINT32)BiosDsdt; } else if (newFadt->Dsdt) { newFadt->XDsdt = (UINT64)(newFadt->Dsdt); } else if (XDsdt) { newFadt->Dsdt = (UINT32)XDsdt; } if (newFadt->FirmwareCtrl) { Facs = (EFI_ACPI_4_0_FIRMWARE_ACPI_CONTROL_STRUCTURE*)(UINTN)newFadt->FirmwareCtrl; newFadt->XFirmwareCtrl = (UINT64)(UINTN)(Facs); } else if (newFadt->XFirmwareCtrl) { newFadt->FirmwareCtrl = (UINT32)XFirmwareCtrl; Facs = (EFI_ACPI_4_0_FIRMWARE_ACPI_CONTROL_STRUCTURE*)(UINTN)XFirmwareCtrl; } //patch for FACS included here Facs->Version = EFI_ACPI_4_0_FIRMWARE_ACPI_CONTROL_STRUCTURE_VERSION; if (GlobalConfig.SignatureFixup) { DBG(" SignatureFixup: 0x%X -> 0x%llX\n", Facs->HardwareSignature, machineSignature); Facs->HardwareSignature = (UINT32)machineSignature; } else { DBG(" SignatureFixup: 0x%X -> 0x0\n", Facs->HardwareSignature); Facs->HardwareSignature = 0x0; } Facs->Flags = 0; //dont' support S4BIOS, as well as 64bit wake // if ((gSettings.ResetAddr == 0) && ((oldLength < 0x80) || (newFadt->ResetReg.Address == 0))) { newFadt->ResetReg.Address = 0x64; newFadt->ResetValue = 0xFE; gSettings.ResetAddr = 0x64; gSettings.ResetVal = 0xFE; } else if (gSettings.ResetAddr != 0) { newFadt->ResetReg.Address = gSettings.ResetAddr; newFadt->ResetValue = gSettings.ResetVal; } newFadt->XPm1aEvtBlk.Address = (UINT64)(newFadt->Pm1aEvtBlk); newFadt->XPm1bEvtBlk.Address = (UINT64)(newFadt->Pm1bEvtBlk); newFadt->XPm1aCntBlk.Address = (UINT64)(newFadt->Pm1aCntBlk); newFadt->XPm1bCntBlk.Address = (UINT64)(newFadt->Pm1bCntBlk); newFadt->XPm2CntBlk.Address = (UINT64)(newFadt->Pm2CntBlk); newFadt->XPmTmrBlk.Address = (UINT64)(newFadt->PmTmrBlk); newFadt->XGpe0Blk.Address = (UINT64)(newFadt->Gpe0Blk); newFadt->XGpe1Blk.Address = (UINT64)(newFadt->Gpe1Blk); FadtPointer = (EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE*)newFadt; //We are sure that Fadt is the first entry in RSDT/XSDT table if (Rsdt!=NULL) { Rsdt->Entry = (UINT32)(UINTN)newFadt; } if (Xsdt!=NULL) { Xsdt->Entry = (UINT64)((UINT32)(UINTN)newFadt); } FixChecksum(&FadtPointer->Header); if (gSettings.SlpSmiEnable) { UINT32 *SlpSmiEn = (UINT32*)((UINTN)(newFadt->Pm1aEvtBlk) + 0x30); UINT32 Value = *SlpSmiEn; Value &= ~ bit(4); *SlpSmiEn = Value; } } //Get regions from BIOS DSDT if ((gSettings.FixDsdt & FIX_REGIONS) != 0) { GetBiosRegions((UINT8*)(UINTN)(newFadt->Dsdt)); } // DBG("DSDT finding\n"); if (!Volume) { DBG("Volume not found!\n"); return EFI_NOT_FOUND; } // RootDir = Volume->RootDir; Status = EFI_NOT_FOUND; XStringW acpiPath = SWPrintf("ACPI\\patched\\%ls", gSettings.DsdtName.wc_str()); if ( selfOem.oemDirExists() ) { if ( FileExists(&selfOem.getOemDir(), acpiPath) ) { DBG("DSDT found in Clover volume OEM folder: %ls\\%ls\n", selfOem.getOemFullPath().wc_str(), acpiPath.wc_str()); Status = egLoadFile(&selfOem.getOemDir(), acpiPath.wc_str(), &buffer, &bufferLen); //REVIEW: memory leak... buffer } } //Slice: the idea was from past // first priority DSDT.aml from the root of booted volume. It allows to keep different DSDT for different systems // second priority is DSDT from OEM folder // third priority is /EFI/CLOVER/ACPI/patched/DSDT*.aml choosen from GUI. XStringW PathDsdt = SWPrintf("\\%ls", gSettings.DsdtName.wc_str()); if (EFI_ERROR(Status) && FileExists(Volume->RootDir, PathDsdt)) { DBG("DSDT found in booted volume\n"); Status = egLoadFile(Volume->RootDir, PathDsdt.wc_str(), &buffer, &bufferLen); } // Jief : may I suggest to remove that. Loading from outside of OemPath might be confusing if ( EFI_ERROR(Status) && FileExists(&self.getCloverDir(), acpiPath) ) { DBG("DSDT found in Clover volume: %ls\\%ls\n", self.getCloverDirFullPath().wc_str(), acpiPath.wc_str()); Status = egLoadFile(&self.getCloverDir(), acpiPath.wc_str(), &buffer, &bufferLen); } // //apply DSDT loaded from a file into buffer //else FADT will contain old BIOS DSDT // DsdtLoaded = FALSE; if (!EFI_ERROR(Status)) { // if we will apply fixes, allocate additional space bufferLen = bufferLen + bufferLen / 8; dsdt = EFI_SYSTEM_TABLE_MAX_ADDRESS; Status = gBS->AllocatePages ( AllocateMaxAddress, EfiACPIReclaimMemory, EFI_SIZE_TO_PAGES(bufferLen), &dsdt ); //if success insert dsdt pointer into ACPI tables if(!EFI_ERROR(Status)) { // DBG("page is allocated, write DSDT into\n"); CopyMem((void*)(UINTN)dsdt, buffer, bufferLen); //once we copied buffer to other place we can free the buffer FadtPointer->Dsdt = (UINT32)dsdt; FadtPointer->XDsdt = dsdt; FixChecksum(&FadtPointer->Header); DsdtLoaded = TRUE; } } if(buffer) FreePool(buffer); //the buffer is allocated if egLoadFile() is success. Else the pointer must be nullptr if (!DsdtLoaded) { // allocate space for fixes TableHeader = (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)FadtPointer->Dsdt; bufferLen = TableHeader->Length; // DBG("DSDT len = 0x%X", bufferLen); // bufferLen = bufferLen + bufferLen / 8; // DBG(" new len = 0x%X\n", bufferLen); //Slice: new buffer is greater then origin by 12.5%. It is dirty hack but we live with it // there will be the sense reallocate buffer if one patch requires increasing the buffer // this is headache to predict how many new bytes we need. dsdt = EFI_SYSTEM_TABLE_MAX_ADDRESS; Status = gBS->AllocatePages(AllocateMaxAddress, EfiACPIReclaimMemory, EFI_SIZE_TO_PAGES(bufferLen + bufferLen / 8), &dsdt); //if success insert dsdt pointer into ACPI tables if(!EFI_ERROR(Status)) { CopyMem((void*)(UINTN)dsdt, TableHeader, bufferLen); //can't free TableHeader because we are not allocate it FadtPointer->Dsdt = (UINT32)dsdt; FadtPointer->XDsdt = dsdt; FixChecksum(&FadtPointer->Header); } } // dropDSM = 0xFFFF; //by default we drop all OEM _DSM. They have no sense for us. // if (defDSM) { // dropDSM = gSettings.DropOEM_DSM; //if set by user // } if (gSettings.DebugDSDT) { DBG("Output DSDT before patch to %ls\\ACPI\\origin\\DSDT-or.aml\n", selfOem.getConfigDirFullPath().wc_str()); Status = egSaveFile(&selfOem.getConfigDir(), L"ACPI\\origin\\DSDT-or.aml", (UINT8*)(UINTN)FadtPointer->XDsdt, bufferLen); } //native DSDT or loaded we want to apply autoFix to this // if (gSettings.FixDsdt) { //fix even with zero mask because we want to know PCIRootUID and count(?) DBG("Apply DsdtFixMask=0x%08X\n", gSettings.FixDsdt); // DBG(" drop _DSM mask=0x%04hX\n", dropDSM); FixBiosDsdt((UINT8*)(UINTN)FadtPointer->XDsdt, FadtPointer, OSVersion); if (gSettings.DebugDSDT) { for (Index=0; Index < 60; Index++) { XStringW DsdtPatchedName = SWPrintf("ACPI\\origin\\DSDT-pa%llu.aml", Index); if(!FileExists(&selfOem.getConfigDir(), DsdtPatchedName)){ Status = egSaveFile(&selfOem.getConfigDir(), DsdtPatchedName.wc_str(), (UINT8*)(UINTN)FadtPointer->XDsdt, bufferLen); if (!EFI_ERROR(Status)) { break; } } } if (EFI_ERROR(Status)) { DBG("...saving DSDT failed with status=%s\n", efiStrError(Status)); } } // handle unusual situations with XSDT and RSDT PreCleanupRSDT(); PreCleanupXSDT(); // XsdtReplaceSizes array is used to keep track of allocations for the merged tables, // as those tables may need to be freed if patched later. XsdtReplaceSizes = (__typeof__(XsdtReplaceSizes))AllocateZeroPool(XsdtTableCount() * sizeof(*XsdtReplaceSizes)); // Load merged ACPI files from ACPI/patched LoadAllPatchedAML(L"ACPI\\patched"_XSW, AUTOMERGE_PASS1); // Drop tables if (gSettings.ACPIDropTables) { ACPI_DROP_TABLE *DropTable; DbgHeader("ACPIDropTables"); for (DropTable = gSettings.ACPIDropTables; DropTable; DropTable = DropTable->Next) { if (DropTable->MenuItem.BValue) { //DBG("Attempting to drop \"%4.4a\" (%8.8X) \"%8.8a\" (%16.16lX) L=%d\n", &(DropTable->Signature), DropTable->Signature, &(DropTable->TableId), DropTable->TableId, DropTable->Length); DropTableFromXSDT(DropTable->Signature, DropTable->TableId, DropTable->Length); DropTableFromRSDT(DropTable->Signature, DropTable->TableId, DropTable->Length); } } } if (gSettings.DropSSDT) { DbgHeader("DropSSDT"); //special case if we set into menu drop all SSDT DropTableFromXSDT(EFI_ACPI_4_0_SECONDARY_SYSTEM_DESCRIPTION_TABLE_SIGNATURE, 0, 0); DropTableFromRSDT(EFI_ACPI_4_0_SECONDARY_SYSTEM_DESCRIPTION_TABLE_SIGNATURE, 0, 0); } //It's time to fix headers of all remaining ACPI tables. // The bug reported by TheRacerMaster and https://alextjam.es/debugging-appleacpiplatform/ // Workaround proposed by cecekpawon, revised by Slice PatchAllTables(); // Load add-on ACPI files from ACPI/patched LoadAllPatchedAML(L"ACPI\\patched"_XSW, AUTOMERGE_PASS2); if (XsdtReplaceSizes) { FreePool(XsdtReplaceSizes); XsdtReplaceSizes = NULL; } //Slice - this is a time to patch MADT table. // DBG("Fool proof: size of APIC NMI = %d\n", sizeof(EFI_ACPI_2_0_LOCAL_APIC_NMI_STRUCTURE)); // DBG("----------- size of APIC DESC = %d\n", sizeof(EFI_ACPI_2_0_MULTIPLE_APIC_DESCRIPTION_TABLE_HEADER)); // DBG("----------- size of APIC PROC = %d\n", sizeof(EFI_ACPI_2_0_PROCESSOR_LOCAL_APIC_STRUCTURE)); ApicCPUNum = 0; // 2. For absent NMI subtable xf = ScanXSDT(APIC_SIGN, 0); if (xf) { ApicTable = (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)(*xf); // ApicLen = ApicTable->Length; ProcLocalApic = (EFI_ACPI_2_0_PROCESSOR_LOCAL_APIC_STRUCTURE *)(UINTN)(*xf + sizeof(EFI_ACPI_2_0_MULTIPLE_APIC_DESCRIPTION_TABLE_HEADER)); while ((ProcLocalApic->Type == EFI_ACPI_4_0_PROCESSOR_LOCAL_APIC) && (ProcLocalApic->Length == 8)) { if (ProcLocalApic->Flags & EFI_ACPI_4_0_LOCAL_APIC_ENABLED) { ApicCPUNum++; } ProcLocalApic++; if (ApicCPUNum > 16) { DBG("Out of control with CPU numbers\n"); break; } } //fool proof if ((ApicCPUNum == 0) || (ApicCPUNum > 16)) { ApicCPUNum = gCPUStructure.Threads; } DBG("ApicCPUNum=%llu\n", ApicCPUNum); //reallocate table if (gSettings.PatchNMI) { BufferPtr = EFI_SYSTEM_TABLE_MAX_ADDRESS; Status=gBS->AllocatePages(AllocateMaxAddress, EfiACPIReclaimMemory, 1, &BufferPtr); if(!EFI_ERROR(Status)) { //save old table and drop it from XSDT CopyMem((void*)(UINTN)BufferPtr, ApicTable, ApicTable->Length); DropTableFromXSDT(APIC_SIGN, 0, 0); ApicTable = (EFI_ACPI_DESCRIPTION_HEADER*)(UINTN)BufferPtr; ApicTable->Revision = EFI_ACPI_4_0_MULTIPLE_APIC_DESCRIPTION_TABLE_REVISION; CopyMem(&ApicTable->OemId, oemID, 6); CopyMem(&ApicTable->OemTableId, oemTableID, 8); ApicTable->OemRevision = 0x00000001; CopyMem(&ApicTable->CreatorId, creatorID, 4); SubTable = (UINT8*)((UINTN)BufferPtr + sizeof(EFI_ACPI_2_0_MULTIPLE_APIC_DESCRIPTION_TABLE_HEADER)); Index = 0; while (*SubTable != EFI_ACPI_4_0_LOCAL_APIC_NMI) { DBG("Found subtable in MADT: type=%d\n", *SubTable); if (*SubTable == EFI_ACPI_4_0_PROCESSOR_LOCAL_APIC) { ProcLocalApic = (EFI_ACPI_2_0_PROCESSOR_LOCAL_APIC_STRUCTURE *)SubTable; // macOS assumes that the first processor from DSDT is always enabled, without checking MADT table // here we're trying to assign first IDs found in DSDT to enabled processors in MADT, such that macOS assumption to be true if (ProcLocalApic->Flags & EFI_ACPI_4_0_LOCAL_APIC_ENABLED) { if (ProcLocalApic->AcpiProcessorId != acpi_cpu_processor_id[Index]) { DBG("AcpiProcessorId changed: 0x%02hhX to 0x%02hhX\n", ProcLocalApic->AcpiProcessorId, acpi_cpu_processor_id[Index]); ProcLocalApic->AcpiProcessorId = acpi_cpu_processor_id[Index]; } else { DBG("AcpiProcessorId: 0x%02hhX\n", ProcLocalApic->AcpiProcessorId); } Index++; } } bufferLen = (UINTN)SubTable[1]; SubTable += bufferLen; if (((UINTN)SubTable - (UINTN)BufferPtr) >= ApicTable->Length) { break; } } if (*SubTable == EFI_ACPI_4_0_LOCAL_APIC_NMI) { DBG("LocalApicNMI is already present, no patch needed\n"); } else { LocalApicNMI = (EFI_ACPI_2_0_LOCAL_APIC_NMI_STRUCTURE*)((UINTN)ApicTable + ApicTable->Length); for (Index = 0; Index < ApicCPUNum; Index++) { LocalApicNMI->Type = EFI_ACPI_4_0_LOCAL_APIC_NMI; LocalApicNMI->Length = sizeof(EFI_ACPI_4_0_LOCAL_APIC_NMI_STRUCTURE); LocalApicNMI->AcpiProcessorId = acpi_cpu_processor_id[Index]; LocalApicNMI->Flags = 5; LocalApicNMI->LocalApicLint = 1; LocalApicNMI++; ApicTable->Length += sizeof(EFI_ACPI_4_0_LOCAL_APIC_NMI_STRUCTURE); } DBG("ApicTable new Length=%d\n", ApicTable->Length); // insert corrected MADT } Status = InsertTable(ApicTable, ApicTable->Length); if (!EFI_ERROR(Status)) { DBG("New APIC table successfully inserted\n"); } /* Status = egSaveFile(&self.getSelfRootDir(), PatchedAPIC, (UINT8 *)ApicTable, ApicTable->Length); if (EFI_ERROR(Status)) { Status = egSaveFile(NULL, PatchedAPIC, (UINT8 *)ApicTable, ApicTable->Length); } if (!EFI_ERROR(Status)) { DBG("Patched APIC table saved into efi/clover/acpi/origin/APIC-p.aml \n"); } */ } } } else { DBG("No APIC table Found !!!\n"); } if (gCPUStructure.Threads >= gCPUStructure.Cores) { ApicCPUNum = gCPUStructure.Threads; } else { ApicCPUNum = gCPUStructure.Cores; } // } /* At this moment we have CPU numbers from DSDT - acpi_cpu_num and from CPU characteristics gCPUStructure Also we had the number from APIC table ApicCPUNum What to choose? Since rev745 I will return to acpi_cpu_count global variable */ if (acpi_cpu_count) { ApicCPUNum = acpi_cpu_count; } if (gSettings.GeneratePStates || gSettings.GeneratePluginType) { Status = EFI_NOT_FOUND; Ssdt = generate_pss_ssdt(ApicCPUNum); if (Ssdt) { Status = InsertTable(Ssdt, Ssdt->Length); } if(EFI_ERROR(Status)){ DBG("GeneratePStates failed: Status=%s\n", efiStrError(Status)); } } if (gSettings.GenerateCStates) { Status = EFI_NOT_FOUND; Ssdt = generate_cst_ssdt(FadtPointer, ApicCPUNum); if (Ssdt) { Status = InsertTable(Ssdt, Ssdt->Length); } if(EFI_ERROR(Status)){ DBG("GenerateCStates failed Status=%s\n", efiStrError(Status)); } } // remove NULL entries from RSDT and XSDT PostCleanupRSDT(); PostCleanupXSDT(); if (NeedUpdate) { gBS->InstallConfigurationTable(&gEfiAcpiTableGuid, RsdPointer); gBS->InstallConfigurationTable(&gEfiAcpi10TableGuid, RsdPointer); } //free regions? while (gRegions) { tmpRegion = gRegions->next; FreePool(gRegions); gRegions = tmpRegion; } return EFI_SUCCESS; } /** * Searches for TableName in PathPatched dirs and loads it * to Buffer if found. Buffer is allocated here and should be released * by caller. */ EFI_STATUS LoadAcpiTable ( CONST CHAR16 *PathPatched, CONST CHAR16 *TableName, UINT8 **Buffer, UINTN *BufferLen ) { EFI_STATUS Status; Status = EFI_NOT_FOUND; // checking \EFI\ACPI\patched dir XStringW TmpStr = SWPrintf("%ls\\%ls", PathPatched, TableName); if (FileExists(&self.getCloverDir(), TmpStr)) { DBG("found %ls\n", TmpStr.wc_str()); Status = egLoadFile(&self.getCloverDir(), TmpStr.wc_str(), Buffer, BufferLen); } return Status; } /** * Searches for DSDT in AcpiOemPath or PathPatched dirs and inserts it * to FadtPointer if found. */ EFI_STATUS LoadAndInjectDSDT(CONST CHAR16 *PathPatched, EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE *FadtPointer) { EFI_STATUS Status; UINT8 *Buffer = NULL; UINTN BufferLen = 0; EFI_PHYSICAL_ADDRESS Dsdt; // load if exists Status = LoadAcpiTable(PathPatched, gSettings.DsdtName.wc_str(), &Buffer, &BufferLen); if (!EFI_ERROR(Status)) { // loaded - allocate EfiACPIReclaim DBG("Loaded DSDT at \\%ls\\%ls\\%ls\n", self.getCloverDirFullPath().wc_str(), PathPatched, gSettings.DsdtName.wc_str()); Dsdt = EFI_SYSTEM_TABLE_MAX_ADDRESS; //0xFE000000; Status = gBS->AllocatePages ( AllocateMaxAddress, EfiACPIReclaimMemory, EFI_SIZE_TO_PAGES(BufferLen), &Dsdt ); if(!EFI_ERROR(Status)) { // copy DSDT into EfiACPIReclaim block CopyMem((void*)(UINTN)Dsdt, Buffer, BufferLen); // update FADT FadtPointer->Dsdt = (UINT32)Dsdt; FadtPointer->XDsdt = Dsdt; FixChecksum(&FadtPointer->Header); DBG("DSDT at 0x%llX injected to FADT 0x%llx\n", Dsdt, (UINTN)FadtPointer); } if(Buffer) FreePool(Buffer); } return Status; } /** * Searches for TableName in AcpiOemPath or PathPatched dirs and inserts it * to Rsdt and/or Xsdt (globals) if found. */ EFI_STATUS LoadAndInjectAcpiTable(CONST CHAR16 *PathPatched, CONST CHAR16 *TableName) { EFI_STATUS Status; UINT8 *Buffer = NULL; UINTN BufferLen = 0; EFI_ACPI_DESCRIPTION_HEADER *TableHeader = NULL; // load if exists Status = LoadAcpiTable(PathPatched, TableName, &Buffer, &BufferLen); if(!EFI_ERROR(Status)) { if (Buffer) { // if this is SLIC, then remove previous SLIC if it is there TableHeader = (EFI_ACPI_DESCRIPTION_HEADER*)Buffer; if (TableHeader->Signature == SLIC_SIGN) { DropTableFromXSDT(SLIC_SIGN, 0, 0); DropTableFromRSDT(SLIC_SIGN, 0, 0); } } // loaded - insert it into XSDT/RSDT Status = InsertTable(Buffer, BufferLen); if(!EFI_ERROR(Status)) { DBG("Table %ls inserted.\n", TableName); // if this was SLIC, then update IDs in XSDT/RSDT if (TableHeader->Signature == SLIC_SIGN) { if (Rsdt) { DBG("SLIC: Rsdt OEMid '%6.6s', TabId '%8.8s'", (CHAR8*)&Rsdt->Header.OemId, (CHAR8*)&Rsdt->Header.OemTableId); CopyMem(&Rsdt->Header.OemId, &TableHeader->OemId, 6); Rsdt->Header.OemTableId = TableHeader->OemTableId; DBG(" to OEMid '%6.6s', TabId '%8.8s'\n", (CHAR8*)&Rsdt->Header.OemId, (CHAR8*)&Rsdt->Header.OemTableId); } if (Xsdt) { DBG("SLIC: Xsdt OEMid '%6.6s', TabId '%8.8s'", (CHAR8*)&Xsdt->Header.OemId, (CHAR8*)&Xsdt->Header.OemTableId); CopyMem(&Xsdt->Header.OemId, &TableHeader->OemId, 6); Xsdt->Header.OemTableId = TableHeader->OemTableId; DBG(" to OEMid '%6.6s', TabId '%8.8s'\n", (CHAR8*)&Xsdt->Header.OemId, (CHAR8*)&Xsdt->Header.OemTableId); } } } else { DBG("Insert return status %s\n", efiStrError(Status)); } FreePool(Buffer); } // if table loaded return Status; } /** * Patches UEFI ACPI tables with tables found in OsSubdir. */ EFI_STATUS PatchACPI_OtherOS(CONST CHAR16* OsSubdir, BOOLEAN DropSSDT) { EFI_ACPI_2_0_ROOT_SYSTEM_DESCRIPTION_POINTER *RsdPointer; EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE *FadtPointer; EFI_STATUS Status; // = EFI_SUCCESS; // UINTN Index; REFIT_DIR_ITER DirIter; EFI_FILE_INFO *DirEntry; // // Search for RSDP in UEFI SystemTable/ConfigTable (first Acpi 2.0, then 1.0) // RsdPointer = NULL; Status = EfiGetSystemConfigurationTable (&gEfiAcpi20TableGuid, (void **) &RsdPointer); if (RsdPointer != NULL) { DBG("OtherOS: Found Acpi 2.0 RSDP 0x%llX\n", (uintptr_t)RsdPointer); } else { Status = EfiGetSystemConfigurationTable (&gEfiAcpi10TableGuid, (void **) &RsdPointer); if (RsdPointer != NULL) { DBG("Found Acpi 1.0 RSDP 0x%llX\n", (uintptr_t)RsdPointer); } } // if RSDP not found - quit if (!RsdPointer) { return Status; } // // Find RSDT and/or XSDT // Rsdt = (RSDT_TABLE*)(UINTN)(RsdPointer->RsdtAddress); if (Rsdt != NULL && Rsdt->Header.Signature != EFI_ACPI_2_0_ROOT_SYSTEM_DESCRIPTION_TABLE_SIGNATURE) { Rsdt = NULL; } DBG("RSDT at 0x%llX\n", (UINTN)Rsdt); // check for XSDT Xsdt = NULL; if (RsdPointer->Revision >=2 && (RsdPointer->XsdtAddress < (UINT64)((UINTN)(-1)))) { Xsdt = (XSDT_TABLE*)(UINTN)RsdPointer->XsdtAddress; if (Xsdt != NULL && Xsdt->Header.Signature != EFI_ACPI_2_0_EXTENDED_SYSTEM_DESCRIPTION_TABLE_SIGNATURE) { Xsdt = NULL; } } DBG("XSDT at 0x%llX\n", (UINTN)Xsdt); // if RSDT and XSDT not found - quit if (Rsdt == NULL && Xsdt == NULL) { return EFI_UNSUPPORTED; } // // Take FADT (FACP) from XSDT or RSDT (always first entry) // FadtPointer = NULL; if (Xsdt) { FadtPointer = (EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE*)(UINTN)(Xsdt->Entry); } else if (Rsdt) { FadtPointer = (EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE*)(UINTN)(Rsdt->Entry); } DBG("FADT pointer = 0x%llX\n", (UINTN)FadtPointer); // if not found - quit if(FadtPointer == NULL) { return EFI_NOT_FOUND; } // // Inject/drop tables // // prepare dirs that will be searched for custom ACPI tables XStringW PathPatched; if ( selfOem.oemDirExists() ) { PathPatched = SWPrintf("%ls\\ACPI\\%ls", selfOem.getOemPathRelToSelfDir().wc_str(), OsSubdir); if ( !FileExists(&self.getCloverDir(), PathPatched) ) { PathPatched.setEmpty(); } } if ( PathPatched.isEmpty() ) { PathPatched = SWPrintf("ACPI\\%ls", OsSubdir); if (!FileExists(&self.getCloverDir(), PathPatched)) { DBG("Dir '\\%ls\\%ls' not found. No patching will be done.\n", self.getCloverDirFullPath().wc_str(), PathPatched.wc_str()); return EFI_NOT_FOUND; } } // // Inject DSDT // /* Status = */LoadAndInjectDSDT(PathPatched.wc_str(), FadtPointer); // // Drop SSDT if requested. Not until now // /* if (DropSSDT) { DropTableFromXSDT(EFI_ACPI_4_0_SECONDARY_SYSTEM_DESCRIPTION_TABLE_SIGNATURE, 0, 0); DropTableFromRSDT(EFI_ACPI_4_0_SECONDARY_SYSTEM_DESCRIPTION_TABLE_SIGNATURE, 0, 0); } */ if (gSettings.ACPIDropTables) { ACPI_DROP_TABLE *DropTable; DbgHeader("ACPIDropTables"); for (DropTable = gSettings.ACPIDropTables; DropTable; DropTable = DropTable->Next) { // only for tables that have OtherOS true if (DropTable->OtherOS && DropTable->MenuItem.BValue) { //DBG("Attempting to drop \"%4.4a\" (%8.8X) \"%8.8a\" (%16.16lX) L=%d\n", &(DropTable->Signature), DropTable->Signature, &(DropTable->TableId), DropTable->TableId, DropTable->Length); DropTableFromXSDT(DropTable->Signature, DropTable->TableId, DropTable->Length); DropTableFromRSDT(DropTable->Signature, DropTable->TableId, DropTable->Length); } } } // // find and inject other ACPI tables // DirIterOpen(&self.getCloverDir(), PathPatched.wc_str(), &DirIter); while (DirIterNext(&DirIter, 2, L"*.aml", &DirEntry)) { if (DirEntry->FileName[0] == L'.') { continue; } if (StrStr(DirEntry->FileName, L"DSDT")) { continue; } LoadAndInjectAcpiTable(PathPatched.wc_str(), DirEntry->FileName); } /*Status = */DirIterClose(&DirIter); // remove NULL entries from RSDT and XSDT PostCleanupRSDT(); PostCleanupXSDT(); return EFI_SUCCESS; }