/** Various helper functions. by dmazar **/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "NVRAMDebug.h" #include "Lib.h" // DBG_TO: 0=no debug, 1=serial, 2=console // serial requires // [PcdsFixedAtBuild] // gEfiMdePkgTokenSpaceGuid.PcdDebugPropertyMask|0x07 // gEfiMdePkgTokenSpaceGuid.PcdDebugPrintErrorLevel|0xFFFFFFFF // in package DSC file #define DBG_TO 0 #if DBG_TO == 2 #define DBG(...) AsciiPrint(__VA_ARGS__); #elif DBG_TO == 1 #define DBG(...) DebugPrint(1, __VA_ARGS__); #else #define DBG(...) #endif CHAR16 *EfiMemoryTypeDesc[EfiMaxMemoryType] = { L"reserved", L"LoaderCode", L"LoaderData", L"BS_code", L"BS_data", L"RT_code", L"RT_data", L"available", L"Unusable", L"ACPI_recl", L"ACPI_NVS", L"MemMapIO", L"MemPortIO", L"PAL_code" }; CHAR16 *EfiAllocateTypeDesc[MaxAllocateType] = { L"AllocateAnyPages", L"AllocateMaxAddress", L"AllocateAddress" }; CHAR16 *EfiLocateSearchType[] = { L"AllHandles", L"ByRegisterNotify", L"ByProtocol" }; EFI_GUID gVendorGuid = {0xe62111ab, 0xcf4d, 0x4137, {0x87, 0x5c, 0x88, 0xde, 0xee, 0x34, 0xc3, 0xb3}}; EFI_GUID gEfiConsoleControlProtocolGuid = {0xF42F7782, 0x012E, 0x4C12, {0x99, 0x56, 0x49, 0xF9, 0x43, 0x04, 0xF7, 0x21}}; EFI_GUID gEfiAppleFirmwarePasswordProtocolGuid = {0x8FFEEB3A, 0x4C98, 0x4630, {0x80, 0x3F, 0x74, 0x0F, 0x95, 0x67, 0x09, 0x1D}}; EFI_GUID gEfiGlobalVarGuid = {0x8BE4DF61, 0x93CA, 0x11D2, {0xAA, 0x0D, 0x00, 0xE0, 0x98, 0x03, 0x2B, 0x8C}}; EFI_GUID gDevicePropertiesGuid = {0x91BD12FE, 0xF6C3, 0x44FB, {0xA5, 0xB7, 0x51, 0x22, 0xAB, 0x30, 0x3A, 0xE0}}; EFI_GUID gEfiAppleBootGuid = {0x7C436110, 0xAB2A, 0x4BBB, {0xA8, 0x80, 0xFE, 0x41, 0x99, 0x5C, 0x9F, 0x82}}; EFI_GUID gEfiAppleNvramGuid = {0x4D1EDE05, 0x38C7, 0x4A6A, {0x9C, 0xC6, 0x4B, 0xCC, 0xA8, 0xB3, 0x8C, 0x14}}; EFI_GUID gAppleScreenInfoProtocolGuid = {0xE316E100, 0x0751, 0x4C49, {0x90, 0x56, 0x48, 0x6C, 0x7E, 0x47, 0x29, 0x03}}; EFI_GUID AppleBootKeyPressProtocolGuid = {0x5B213447, 0x6E73, 0x4901, {0xA4, 0xF1, 0xB8, 0x64, 0xF3, 0xB7, 0xA1, 0x72}}; EFI_GUID AppleNetBootProtocolGuid = {0x78EE99FB, 0x6A5E, 0x4186, {0x97, 0xDE, 0xCD, 0x0A, 0xBA, 0x34, 0x5A, 0x74}}; EFI_GUID AppleImageCodecProtocolGuid = {0x0DFCE9F6, 0xC4E3, 0x45EE, {0xA0, 0x6A, 0xA8, 0x61, 0x3B, 0x98, 0xA5, 0x07}}; EFI_GUID gEfiAppleVendorGuid = {0xAC39C713, 0x7E50, 0x423D, {0x88, 0x9D, 0x27, 0x8F, 0xCC, 0x34, 0x22, 0xB6}}; EFI_GUID gAppleEFINVRAMTRBSecureGuid = {0xF68DA75E, 0x1B55, 0x4E70, {0xB4, 0x1B, 0xA7, 0xB7, 0xA5, 0xB7, 0x58, 0xEA}}; EFI_GUID gDataHubOptionsGuid = {0x0021001C, 0x3CE3, 0x41F8, {0x99, 0xC6, 0xEC, 0xF5, 0xDA, 0x75, 0x47, 0x31}}; EFI_GUID gNotifyMouseActivity = {0xF913C2C2, 0x5351, 0x4FDB, {0x93, 0x44, 0x70, 0xFF, 0xED, 0xB8, 0x42, 0x25}}; EFI_GUID gEfiDataHubProtocolGuid = {0xae80d021, 0x618e, 0x11d4, {0xbc, 0xd7, 0x00, 0x80, 0xc7, 0x3c, 0x88, 0x81}}; EFI_GUID gEfiMiscSubClassGuid = {0x772484B2, 0x7482, 0x4b91, {0x9F, 0x9A, 0xAD, 0x43, 0xF8, 0x1C, 0x58, 0x81}}; EFI_GUID gEfiProcessorSubClassGuid = {0x26fdeb7e, 0xb8af, 0x4ccf, {0xaa, 0x97, 0x02, 0x63, 0x3c, 0xe4, 0x8c, 0xa7}}; EFI_GUID gEfiMemorySubClassGuid = {0x4E8F4EBB, 0x64B9, 0x4e05, {0x9B, 0x18, 0x4C, 0xFE, 0x49, 0x23, 0x50, 0x97}}; EFI_GUID gMsgLogProtocolGuid = {0x511CE018, 0x0018, 0x4002, {0x20, 0x12, 0x17, 0x38, 0x05, 0x01, 0x02, 0x03}}; EFI_GUID gEfiLegacy8259ProtocolGuid = {0x38321dba, 0x4fe0, 0x4e17, {0x8a, 0xec, 0x41, 0x30, 0x55, 0xea, 0xed, 0xc1}}; MAP_EFI_GUID_STR EfiGuidStrMap[] = { {NULL, L"Tmp buffer AE074D26-6E9E-11E1-A5B8-9BFC4824019B"}, /* {&gEfiFileInfoGuid, L"gEfiFileInfoGuid"}, {&gEfiFileSystemInfoGuid, L"gEfiFileSystemInfoGuid"}, {&gEfiFileSystemVolumeLabelInfoIdGuid, L"gEfiFileSystemVolumeLabelInfoIdGuid"}, {&gEfiLoadedImageProtocolGuid, L"gEfiLoadedImageProtocolGuid"}, {&gEfiDevicePathProtocolGuid, L"gEfiDevicePathProtocolGuid"}, {&gEfiSimpleFileSystemProtocolGuid, L"gEfiSimpleFileSystemProtocolGuid"}, {&gEfiBlockIoProtocolGuid, L"gEfiBlockIoProtocolGuid"}, {&gEfiBlockIo2ProtocolGuid, L"gEfiBlockIo2ProtocolGuid"}, {&gEfiDiskIoProtocolGuid, L"gEfiDiskIoProtocolGuid"}, {&gEfiDiskIo2ProtocolGuid, L"gEfiDiskIo2ProtocolGuid"}, {&gEfiGraphicsOutputProtocolGuid, L"gEfiGraphicsOutputProtocolGuid"}, {&gEfiConsoleControlProtocolGuid, L"gEfiConsoleControlProtocolGuid"}, {&gEfiAppleFirmwarePasswordProtocolGuid, L"gEfiAppleFirmwarePasswordProtocolGuid"}, {&gEfiGlobalVarGuid, L"gEfiGlobalVarGuid"}, {&gDevicePropertiesGuid, L"gDevicePropertiesGuid"}, {&gEfiAppleBootGuid, L"gEfiAppleBootGuid"}, {&gEfiAppleNvramGuid, L"gEfiAppleNvramGuid"}, {&gAppleScreenInfoProtocolGuid, L"gAppleScreenInfoProtocolGuid"}, {&AppleBootKeyPressProtocolGuid, L"AppleBootKeyPressProtocolGuid"}, {&AppleNetBootProtocolGuid, L"AppleNetBootProtocolGuid"}, {&AppleImageCodecProtocolGuid, L"AppleImageCodecProtocolGuid"}, {&gEfiAppleVendorGuid, L"gEfiAppleVendorGuid"}, {&gAppleEFINVRAMTRBSecureGuid, L"gAppleEFINVRAMTRBSecureGuid"}, {&gDataHubOptionsGuid, L"gDataHubOptionsGuid"}, {&gNotifyMouseActivity, L"gNotifyMouseActivity"}, {&gEfiDataHubProtocolGuid, L"gEfiDataHubProtocolGuid"}, {&gEfiMiscSubClassGuid, L"gEfiMiscSubClassGuid"}, {&gEfiProcessorSubClassGuid, L"gEfiProcessorSubClassGuid"}, {&gEfiMemorySubClassGuid, L"gEfiMemorySubClassGuid"}, {&gMsgLogProtocolGuid, L"gMsgLogProtocolGuid"}, {&gEfiLegacy8259ProtocolGuid, L"gEfiLegacy8259ProtocolGuid"}, */ {NULL, NULL} }; /** Returns GUID as string, with friendly name for known guids. */ CHAR16* EFIAPI GuidStr(IN EFI_GUID *Guid) { UINTN i; CHAR16 *Str = NULL; for(i = 1; EfiGuidStrMap[i].Guid != NULL; i++) { if (CompareGuid(EfiGuidStrMap[i].Guid, Guid)) { Str = EfiGuidStrMap[i].Str; break; } } if (Str == NULL) { UnicodeSPrint(EfiGuidStrMap[0].Str, 47 * 2, L"%g", Guid); Str = EfiGuidStrMap[0].Str; } return Str; } /** Returns pointer to last Char in String or NULL. */ CHAR16* EFIAPI GetStrLastChar(IN CHAR16 *String) { CHAR16 *Pos; if (String == NULL || *String == L'\0') { return NULL; } // go to end Pos = String; while (*Pos != L'\0') { Pos++; } Pos--; return Pos; } /** Returns pointer to last occurence of Char in String or NULL. */ CHAR16* EFIAPI GetStrLastCharOccurence(IN CHAR16 *String, IN CHAR16 Char) { CHAR16 *Pos; if (String == NULL || *String == L'\0') { return NULL; } // go to end Pos = String; while (*Pos != L'\0') { Pos++; } // search for Char while (*Pos != Char && Pos != String) { Pos--; } return (*Pos == Char) ? Pos : NULL; } /** Returns upper case version of char - valid only for ASCII chars in unicode. */ CHAR16 EFIAPI ToUpperChar(IN CHAR16 Chr) { CHAR8 C; if (Chr > 0xFF) return Chr; C = (CHAR8)Chr; return ((C >= 'a' && C <= 'z') ? C - ('a' - 'A') : C); } /** Returns 0 if two strings are equal, !=0 otherwise. Compares just first 8 bits of chars (valid for ASCII), case insensitive.. */ UINTN EFIAPI StrCmpiBasic(IN CHAR16 *String1, IN CHAR16 *String2) { CHAR16 Chr1; CHAR16 Chr2; if (String1 == NULL || String2 == NULL) { return 1; } if (*String1 == L'\0' && *String2 == L'\0') { return 0; } if (*String1 == L'\0' || *String2 == L'\0') { return 1; } Chr1 = ToUpperChar(*String1); Chr2 = ToUpperChar(*String2); while ((*String1 != L'\0') && (Chr1 == Chr2)) { String1++; String2++; Chr1 = ToUpperChar(*String1); Chr2 = ToUpperChar(*String2); } return Chr1 - Chr2; } /** Returns the first occurrence of a Null-terminated Unicode SearchString * in a Null-terminated Unicode String. * Compares just first 8 bits of chars (valid for ASCII), case insensitive. * Copied from MdePkg/Library/BaseLib/String.c and modified */ CHAR16* EFIAPI StrStriBasic( IN CONST CHAR16 *String, IN CONST CHAR16 *SearchString ) { CONST CHAR16 *FirstMatch; CONST CHAR16 *SearchStringTmp; if (*SearchString == L'\0') { return (CHAR16 *) String; } while (*String != L'\0') { SearchStringTmp = SearchString; FirstMatch = String; while ((ToUpperChar(*String) == ToUpperChar(*SearchStringTmp)) && (*String != L'\0')) { String++; SearchStringTmp++; } if (*SearchStringTmp == L'\0') { return (CHAR16 *) FirstMatch; } if (*String == L'\0') { return NULL; } String = FirstMatch + 1; } return NULL; } /** Returns TRUE if String1 starts with String2, FALSE otherwise. Compares just first 8 bits of chars (valid for ASCII), case insensitive.. */ BOOLEAN EFIAPI StriStartsWithBasic(IN CHAR16 *String1, IN CHAR16 *String2) { CHAR16 Chr1; CHAR16 Chr2; BOOLEAN Result; if (String1 == NULL || String2 == NULL) { return FALSE; } if (*String1 == L'\0' && *String2 == L'\0') { return TRUE; } if (*String1 == L'\0' || *String2 == L'\0') { return FALSE; } Chr1 = ToUpperChar(*String1); Chr2 = ToUpperChar(*String2); while ((Chr1 != L'\0') && (Chr2 != L'\0') && (Chr1 == Chr2)) { String1++; String2++; Chr1 = ToUpperChar(*String1); Chr2 = ToUpperChar(*String2); } Result = ((Chr1 == L'\0') && (Chr2 == L'\0')) || ((Chr1 != L'\0') && (Chr2 == L'\0')); return Result; } VOID EFIAPI FixMemMap( IN UINTN MemoryMapSize, IN EFI_MEMORY_DESCRIPTOR *MemoryMap, IN UINTN DescriptorSize, IN UINT32 DescriptorVersion ) { UINTN NumEntries; UINTN Index; EFI_MEMORY_DESCRIPTOR *Desc; UINTN BlockSize; UINTN PhysicalEnd; DBG("FixMemMap: Size=%d, Addr=%p, DescSize=%d\n", MemoryMapSize, MemoryMap, DescriptorSize); DBGnvr("FixMemMap ...\n"); Desc = MemoryMap; NumEntries = MemoryMapSize / DescriptorSize; for (Index = 0; Index < NumEntries; Index++) { BlockSize = EFI_PAGES_TO_SIZE((UINTN)Desc->NumberOfPages); PhysicalEnd = Desc->PhysicalStart + BlockSize; // // Some UEFIs end up with "reserved" area with EFI_MEMORY_RUNTIME flag set // when Intel HD3000 or HD4000 is used. We will remove that flag here. // if ((Desc->Attribute & EFI_MEMORY_RUNTIME) != 0 && Desc->Type == EfiReservedMemoryType) { DBGnvr(" %s as RT: %lx (0x%x) - Att: %lx", EfiMemoryTypeDesc[Desc->Type], Desc->PhysicalStart, Desc->NumberOfPages, Desc->Attribute); Desc->Attribute = Desc->Attribute & (~EFI_MEMORY_RUNTIME); DBGnvr(" -> %lx\n", Desc->Attribute); /* This one is not working - blocks during DefragmentRuntimeServices() DBGnvr(" %s as RT: %lx (0x%x) - %s", EfiMemoryTypeDesc[Desc->Type], Desc->PhysicalStart, Desc->NumberOfPages, EfiMemoryTypeDesc[Desc->Type]); Desc->Type = EfiMemoryMappedIO; DBGnvr(" -> %s\n", EfiMemoryTypeDesc[Desc->Type]); */ /* Another possible solution - mark the range as MMIO. DBGnvr(" %s as RT: %lx (0x%x) - %s", EfiMemoryTypeDesc[Desc->Type], Desc->PhysicalStart, Desc->NumberOfPages, EfiMemoryTypeDesc[Desc->Type]); Desc->Type = EfiRuntimeServicesData; DBGnvr(" -> %s\n", EfiMemoryTypeDesc[Desc->Type]); */ } // // Fix by Slice - fixes sleep/wake on GB boards. // // if ((Desc->PhysicalStart >= 0x9e000) && (Desc->PhysicalStart < 0xa0000)) { if ((Desc->PhysicalStart < 0xa0000) && (PhysicalEnd >= 0x9e000)) { Desc->Type = EfiACPIMemoryNVS; Desc->Attribute = 0; } #if 0 if ((Desc->PhysicalStart < 0x100000) && (PhysicalEnd >= 0xE0000)) { Desc->Type = EfiACPIMemoryNVS; Desc->Attribute = 0; } #endif // // Also do some checking // if ((Desc->Attribute & EFI_MEMORY_RUNTIME) != 0) { // // block with RT flag. // if it is not RT or MMIO, then report to log // if (Desc->Type != EfiRuntimeServicesCode && Desc->Type != EfiRuntimeServicesData && Desc->Type != EfiMemoryMappedIO && Desc->Type != EfiMemoryMappedIOPortSpace ) { DBGnvr(" %s with RT flag: %lx (0x%x) - ???\n", EfiMemoryTypeDesc[Desc->Type], Desc->PhysicalStart, Desc->NumberOfPages); } } else { // // block without RT flag. // if it is RT or MMIO, then report to log // if (Desc->Type == EfiRuntimeServicesCode || Desc->Type == EfiRuntimeServicesData || Desc->Type == EfiMemoryMappedIO || Desc->Type == EfiMemoryMappedIOPortSpace ) { DBGnvr(" %s without RT flag: %lx (0x%x) - ???\n", EfiMemoryTypeDesc[Desc->Type], Desc->PhysicalStart, Desc->NumberOfPages); } } Desc = NEXT_MEMORY_DESCRIPTOR(Desc, DescriptorSize); } } VOID EFIAPI ShrinkMemMap( IN UINTN *MemoryMapSize, IN EFI_MEMORY_DESCRIPTOR *MemoryMap, IN UINTN DescriptorSize, IN UINT32 DescriptorVersion ) { UINTN SizeFromDescToEnd; UINT64 Bytes; EFI_MEMORY_DESCRIPTOR *PrevDesc; EFI_MEMORY_DESCRIPTOR *Desc; BOOLEAN CanBeJoined; BOOLEAN HasEntriesToRemove; PrevDesc = MemoryMap; Desc = NEXT_MEMORY_DESCRIPTOR(PrevDesc, DescriptorSize); SizeFromDescToEnd = *MemoryMapSize - DescriptorSize; *MemoryMapSize = DescriptorSize; HasEntriesToRemove = FALSE; while (SizeFromDescToEnd > 0) { Bytes = (((UINTN) PrevDesc->NumberOfPages) * EFI_PAGE_SIZE); CanBeJoined = FALSE; if ((Desc->Attribute == PrevDesc->Attribute) && (PrevDesc->PhysicalStart + Bytes == Desc->PhysicalStart)) { if (Desc->Type == EfiBootServicesCode || Desc->Type == EfiBootServicesData //|| Desc->Type == EfiConventionalMemory //|| Desc->Type == EfiLoaderCode //|| Desc->Type == EfiLoaderData ) { CanBeJoined = PrevDesc->Type == EfiBootServicesCode || PrevDesc->Type == EfiBootServicesData //|| PrevDesc->Type == EfiConventionalMemory //|| PrevDesc->Type == EfiLoaderCode //|| PrevDesc->Type == EfiLoaderData ; } } if (CanBeJoined) { // two entries are the same/similar - join them PrevDesc->NumberOfPages += Desc->NumberOfPages; HasEntriesToRemove = TRUE; } else { // can not be joined - we need to move to next *MemoryMapSize += DescriptorSize; PrevDesc = NEXT_MEMORY_DESCRIPTOR(PrevDesc, DescriptorSize); if (HasEntriesToRemove) { // have entries between PrevDesc and Desc which are joined to PrevDesc // we need to copy [Desc, end of list] to PrevDesc + 1 CopyMem(PrevDesc, Desc, SizeFromDescToEnd); Desc = PrevDesc; } HasEntriesToRemove = FALSE; } // move to next Desc = NEXT_MEMORY_DESCRIPTOR(Desc, DescriptorSize); SizeFromDescToEnd -= DescriptorSize; } } VOID EFIAPI PrintMemMap( IN UINTN MemoryMapSize, IN EFI_MEMORY_DESCRIPTOR *MemoryMap, IN UINTN DescriptorSize, IN UINT32 DescriptorVersion ) { #if DBG_TO UINTN NumEntries; UINTN Index; UINT64 Bytes; EFI_MEMORY_DESCRIPTOR *Desc; Desc = MemoryMap; NumEntries = MemoryMapSize / DescriptorSize; DBG("MEMMAP: Size=%d, Addr=%p, DescSize=%d, DescVersion: 0x%x\n", MemoryMapSize, MemoryMap, DescriptorSize, DescriptorVersion); DBG("Type Start End VStart # Pages Attributes\n"); for (Index = 0; Index < NumEntries; Index++) { Bytes = (((UINTN) Desc->NumberOfPages) * EFI_PAGE_SIZE); DBG("%-12s %lX-%lX %lX %lX %lX\n", EfiMemoryTypeDesc[Desc->Type], Desc->PhysicalStart, Desc->PhysicalStart + Bytes - 1, Desc->VirtualStart, Desc->NumberOfPages, Desc->Attribute ); Desc = NEXT_MEMORY_DESCRIPTOR(Desc, DescriptorSize); //if ((Index + 1) % 16 == 0) { // WaitForKeyPress(L"press a key to continue\n"); //} } //WaitForKeyPress(L"End: press a key to continue\n"); #endif } VOID EFIAPI PrintSystemTable(IN EFI_SYSTEM_TABLE *ST) { UINTN Index; DBG("SysTable: %p\n", ST); DBG("- FirmwareVendor: %p, %s\n", ST->FirmwareVendor, ST->FirmwareVendor); DBG("- ConsoleInHandle: %p, ConIn: %p\n", ST->ConsoleInHandle, ST->ConIn); DBG("- RuntimeServices: %p, BootServices: %p, ConfigurationTable: %p\n", ST->RuntimeServices, ST->BootServices, ST->ConfigurationTable); DBG("RT:\n"); DBG("- GetVariable: %p, SetVariable: %p\n", ST->RuntimeServices->GetVariable, ST->RuntimeServices->SetVariable); DBGnvr("SysTable: %p\n", ST); DBGnvr("- FirmwareVendor: %p, %s\n", ST->FirmwareVendor, ST->FirmwareVendor); DBGnvr("- ConsoleInHandle: %p, ConIn: %p\n", ST->ConsoleInHandle, ST->ConIn); DBGnvr("- RuntimeServices: %p, BootServices: %p, ConfigurationTable: %p\n", ST->RuntimeServices, ST->BootServices, ST->ConfigurationTable); DBGnvr("RT GetVariable: %p, SetVariable: %p\n", ST->RuntimeServices->GetVariable, ST->RuntimeServices->SetVariable); for(Index = 0; Index < ST->NumberOfTableEntries; Index++) { DBGnvr("ConfTab: %p\n", ST->ConfigurationTable[Index].VendorTable); } } VOID WaitForKeyPress(CHAR16 *Message) { EFI_STATUS Status; UINTN index; EFI_INPUT_KEY key; Print(Message); do { Status = gST->ConIn->ReadKeyStroke (gST->ConIn, &key); } while(Status == EFI_SUCCESS); gBS->WaitForEvent(1, &gST->ConIn->WaitForKey, &index); do { Status = gST->ConIn->ReadKeyStroke (gST->ConIn, &key); } while(Status == EFI_SUCCESS); } /** Returns file path from FilePathProto in allocated memory. Mem should be released by caler.*/ CHAR16 * EFIAPI FileDevicePathToText(EFI_DEVICE_PATH_PROTOCOL *FilePathProto) { EFI_STATUS Status; FILEPATH_DEVICE_PATH *FilePath; CHAR16 FilePathText[256]; // possible problem: if filepath is bigger CHAR16 *OutFilePathText; UINTN Size; UINTN SizeAll; UINTN i; FilePathText[0] = L'\0'; i = 4; SizeAll = 0; //DBG("FilePathProto->Type: %d, SubType: %d, Length: %d\n", FilePathProto->Type, FilePathProto->SubType, DevicePathNodeLength(FilePathProto)); while (FilePathProto != NULL && FilePathProto->Type != END_DEVICE_PATH_TYPE && i > 0) { if (FilePathProto->Type == MEDIA_DEVICE_PATH && FilePathProto->SubType == MEDIA_FILEPATH_DP) { FilePath = (FILEPATH_DEVICE_PATH *) FilePathProto; Size = (DevicePathNodeLength(FilePathProto) - 4) / 2; if (SizeAll + Size < 256) { if (SizeAll > 0 && FilePathText[SizeAll / 2 - 2] != L'\\') { StrCatS(FilePathText, 256, L"\\"); } StrCatS(FilePathText, 256, FilePath->PathName); SizeAll = StrSize(FilePathText); } } FilePathProto = NextDevicePathNode(FilePathProto); //DBG("FilePathProto->Type: %d, SubType: %d, Length: %d\n", FilePathProto->Type, FilePathProto->SubType, DevicePathNodeLength(FilePathProto)); i--; //DBG("FilePathText: %s\n", FilePathText); } OutFilePathText = NULL; Size = StrSize(FilePathText); if (Size > 2) { // we are allocating mem here - should be released by caller Status = gBS->AllocatePool(EfiBootServicesData, Size, (VOID*)&OutFilePathText); if (Status == EFI_SUCCESS) { StrCpyS(OutFilePathText, Size/sizeof(CHAR16), FilePathText); } else { OutFilePathText = NULL; } } return OutFilePathText; } /** Helper function that calls GetMemoryMap(), allocates space for mem map and returns it. */ EFI_STATUS EFIAPI GetMemoryMapAlloc ( IN EFI_GET_MEMORY_MAP GetMemoryMapFunction, OUT UINTN *MemoryMapSize, OUT EFI_MEMORY_DESCRIPTOR **MemoryMap, OUT UINTN *MapKey, OUT UINTN *DescriptorSize, OUT UINT32 *DescriptorVersion ) { EFI_STATUS Status; *MemoryMapSize = 0; *MemoryMap = NULL; Status = GetMemoryMapFunction(MemoryMapSize, *MemoryMap, MapKey, DescriptorSize, DescriptorVersion); if (Status == EFI_BUFFER_TOO_SMALL) { // OK. Space needed for mem map is in MemoryMapSize // Important: next AllocatePool can increase mem map size - we must add some space for this *MemoryMapSize += 256; *MemoryMap = AllocatePool(*MemoryMapSize); Status = GetMemoryMapFunction(MemoryMapSize, *MemoryMap, MapKey, DescriptorSize, DescriptorVersion); if (EFI_ERROR(Status)) { FreePool(*MemoryMap); } } return Status; } /** Alloctes Pages from the top of mem, up to address specified in Memory. Returns allocated address in Memory. */ EFI_STATUS EFIAPI AllocatePagesFromTop( IN EFI_MEMORY_TYPE MemoryType, IN UINTN Pages, IN OUT EFI_PHYSICAL_ADDRESS *Memory ) { EFI_STATUS Status; UINTN MemoryMapSize; EFI_MEMORY_DESCRIPTOR *MemoryMap; UINTN MapKey; UINTN DescriptorSize; UINT32 DescriptorVersion; EFI_MEMORY_DESCRIPTOR *MemoryMapEnd; EFI_MEMORY_DESCRIPTOR *Desc; Status = GetMemoryMapAlloc(gBS->GetMemoryMap, &MemoryMapSize, &MemoryMap, &MapKey, &DescriptorSize, &DescriptorVersion); /* MemoryMapSize = 0; MemoryMap = NULL; Status = gBS->GetMemoryMap(&MemoryMapSize, MemoryMap, &MapKey, &DescriptorSize, &DescriptorVersion); if (Status == EFI_BUFFER_TOO_SMALL) { MemoryMapSize += 256; // allocating pool can increase future mem map size MemoryMap = AllocatePool(MemoryMapSize); Status = gBS->GetMemoryMap(&MemoryMapSize, MemoryMap, &MapKey, &DescriptorSize, &DescriptorVersion); if (EFI_ERROR(Status)) { FreePool(*MemoryMap); } } */ if (EFI_ERROR(Status)) { return Status; } Status = EFI_NOT_FOUND; //DBG("Search for Pages=%x, TopAddr=%lx\n", Pages, *Memory); //DBG("MEMMAP: Size=%d, Addr=%p, DescSize=%d, DescVersion: 0x%x\n", MemoryMapSize, MemoryMap, DescriptorSize, DescriptorVersion); //DBG("Type Start End VStart # Pages Attributes\n"); MemoryMapEnd = NEXT_MEMORY_DESCRIPTOR(MemoryMap, MemoryMapSize); Desc = PREV_MEMORY_DESCRIPTOR(MemoryMapEnd, DescriptorSize); for ( ; Desc >= MemoryMap; Desc = PREV_MEMORY_DESCRIPTOR(Desc, DescriptorSize)) { /* DBG("%-12s %lX-%lX %lX %lX %lX\n", EfiMemoryTypeDesc[Desc->Type], Desc->PhysicalStart, Desc->PhysicalStart + EFI_PAGES_TO_SIZE(Desc->NumberOfPages) - 1, Desc->VirtualStart, Desc->NumberOfPages, Desc->Attribute ); */ if ( (Desc->Type == EfiConventionalMemory) // free mem && (Pages <= Desc->NumberOfPages) // contains enough space && (Desc->PhysicalStart + EFI_PAGES_TO_SIZE(Pages) <= *Memory) // contains space below specified Memory ) { // free block found if (Desc->PhysicalStart + EFI_PAGES_TO_SIZE((UINTN)Desc->NumberOfPages) <= *Memory) { // the whole block is unded Memory - allocate from the top of the block *Memory = Desc->PhysicalStart + EFI_PAGES_TO_SIZE((UINTN)Desc->NumberOfPages - Pages); //DBG("found the whole block under top mem, allocating at %lx\n", *Memory); } else { // the block contains enough pages under Memory, but spans above it - allocate below Memory. *Memory = *Memory - EFI_PAGES_TO_SIZE(Pages); //DBG("found the whole block under top mem, allocating at %lx\n", *Memory); } Status = gBS->AllocatePages(AllocateAddress, MemoryType, Pages, Memory); //DBG("Alloc Pages=%x, Addr=%lx, Status=%r\n", Pages, *Memory, Status); break; } } // release mem FreePool(MemoryMap); return Status; }