/** @file Variable operation that will be used by bootmaint Copyright (c) 2004 - 2014, Intel Corporation. All rights reserved.
This program and the accompanying materials are licensed and made available under the terms and conditions of the BSD License which accompanies this distribution. The full text of the license may be found at http://opensource.org/licenses/bsd-license.php THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. **/ #include "BootMaint.h" /** Delete Boot Option that represent a Deleted state in BootOptionMenu. After deleting this boot option, call Var_ChangeBootOrder to make sure BootOrder is in valid state. @retval EFI_SUCCESS If all boot load option EFI Variables corresponding to BM_LOAD_CONTEXT marked for deletion is deleted. @retval EFI_NOT_FOUND If can not find the boot option want to be deleted. @return Others If failed to update the "BootOrder" variable after deletion. **/ EFI_STATUS Var_DelBootOption ( VOID ) { BM_MENU_ENTRY *NewMenuEntry; BM_LOAD_CONTEXT *NewLoadContext; UINT16 BootString[10]; EFI_STATUS Status; UINTN Index; UINTN Index2; Status = EFI_SUCCESS; Index2 = 0; for (Index = 0; Index < BootOptionMenu.MenuNumber; Index++) { NewMenuEntry = BOpt_GetMenuEntry (&BootOptionMenu, (Index - Index2)); if (NULL == NewMenuEntry) { return EFI_NOT_FOUND; } NewLoadContext = (BM_LOAD_CONTEXT *) NewMenuEntry->VariableContext; if (!NewLoadContext->Deleted) { continue; } UnicodeSPrint ( BootString, sizeof (BootString), L"Boot%04x", NewMenuEntry->OptionNumber ); EfiLibDeleteVariable (BootString, &gEfiGlobalVariableGuid); Index2++; // // If current Load Option is the same as BootNext, // must delete BootNext in order to make sure // there will be no panic on next boot // if (NewLoadContext->IsBootNext) { EfiLibDeleteVariable (L"BootNext", &gEfiGlobalVariableGuid); } RemoveEntryList (&NewMenuEntry->Link); BOpt_DestroyMenuEntry (NewMenuEntry); NewMenuEntry = NULL; } BootOptionMenu.MenuNumber -= Index2; Status = Var_ChangeBootOrder (); return Status; } /** After any operation on Boot####, there will be a discrepancy in BootOrder. Since some are missing but in BootOrder, while some are present but are not reflected by BootOrder. Then a function rebuild BootOrder from scratch by content from BootOptionMenu is needed. @retval EFI_SUCCESS The boot order is updated successfully. @return EFI_STATUS other than EFI_SUCCESS if failed to Set the "BootOrder" EFI Variable. **/ EFI_STATUS Var_ChangeBootOrder ( VOID ) { EFI_STATUS Status; BM_MENU_ENTRY *NewMenuEntry; UINT16 *BootOrderList; UINT16 *BootOrderListPtr; UINTN BootOrderListSize; UINTN Index; // BootOrderList = NULL; BootOrderListSize = 0; // // First check whether BootOrder is present in current configuration // BootOrderList = BdsLibGetVariableAndSize ( L"BootOrder", &gEfiGlobalVariableGuid, &BootOrderListSize ); // // If exists, delete it to hold new BootOrder // if (BootOrderList != NULL) { EfiLibDeleteVariable (L"BootOrder", &gEfiGlobalVariableGuid); FreePool(BootOrderList); BootOrderList = NULL; } // // Maybe here should be some check method to ensure that // no new added boot options will be added // but the setup engine now will give only one callback // that is to say, user are granted only one chance to // decide whether the boot option will be added or not // there should be no indictor to show whether this // is a "new" boot option // BootOrderListSize = BootOptionMenu.MenuNumber; if (BootOrderListSize > 0) { BootOrderList = AllocateZeroPool(BootOrderListSize * sizeof (UINT16)); // ASSERT (BootOrderList != NULL); BootOrderListPtr = BootOrderList; // // Get all current used Boot#### from BootOptionMenu. // OptionNumber in each BM_LOAD_OPTION is really its // #### value. // for (Index = 0; Index < BootOrderListSize; Index++) { NewMenuEntry = BOpt_GetMenuEntry (&BootOptionMenu, Index); *BootOrderList = (UINT16) NewMenuEntry->OptionNumber; BootOrderList++; } BootOrderList = BootOrderListPtr; // // After building the BootOrderList, write it back // Status = gRT->SetVariable ( L"BootOrder", &gEfiGlobalVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS | EFI_VARIABLE_NON_VOLATILE, BootOrderListSize * sizeof (UINT16), BootOrderList ); if (EFI_ERROR(Status)) { return Status; } } return EFI_SUCCESS; } /** Delete Load Option that represent a Deleted state in BootOptionMenu. After deleting this Driver option, call Var_ChangeDriverOrder to make sure DriverOrder is in valid state. @retval EFI_SUCCESS Load Option is successfully updated. @retval EFI_NOT_FOUND Fail to find the driver option want to be deleted. @return Other value than EFI_SUCCESS if failed to update "Driver Order" EFI Variable. **/ EFI_STATUS Var_DelDriverOption ( VOID ) { BM_MENU_ENTRY *NewMenuEntry; BM_LOAD_CONTEXT *NewLoadContext; UINT16 DriverString[12]; EFI_STATUS Status; UINTN Index; UINTN Index2; Status = EFI_SUCCESS; Index2 = 0; for (Index = 0; Index < DriverOptionMenu.MenuNumber; Index++) { NewMenuEntry = BOpt_GetMenuEntry (&DriverOptionMenu, (Index - Index2)); if (NULL == NewMenuEntry) { return EFI_NOT_FOUND; } NewLoadContext = (BM_LOAD_CONTEXT *) NewMenuEntry->VariableContext; if (!NewLoadContext->Deleted) { continue; } UnicodeSPrint ( DriverString, sizeof (DriverString), L"Driver%04x", NewMenuEntry->OptionNumber ); EfiLibDeleteVariable (DriverString, &gEfiGlobalVariableGuid); Index2++; RemoveEntryList (&NewMenuEntry->Link); BOpt_DestroyMenuEntry (NewMenuEntry); NewMenuEntry = NULL; } DriverOptionMenu.MenuNumber -= Index2; Status = Var_ChangeDriverOrder (); return Status; } /** After any operation on Driver####, there will be a discrepancy in DriverOrder. Since some are missing but in DriverOrder, while some are present but are not reflected by DriverOrder. Then a function rebuild DriverOrder from scratch by content from DriverOptionMenu is needed. @retval EFI_SUCCESS The driver order is updated successfully. @return Other status than EFI_SUCCESS if failed to set the "DriverOrder" EFI Variable. **/ EFI_STATUS Var_ChangeDriverOrder ( VOID ) { EFI_STATUS Status; BM_MENU_ENTRY *NewMenuEntry; UINT16 *DriverOrderList; UINT16 *DriverOrderListPtr; UINTN DriverOrderListSize; UINTN Index; // DriverOrderList = NULL; DriverOrderListSize = 0; // // First check whether DriverOrder is present in current configuration // DriverOrderList = BdsLibGetVariableAndSize ( L"DriverOrder", &gEfiGlobalVariableGuid, &DriverOrderListSize ); // // If exists, delete it to hold new DriverOrder // if (DriverOrderList != NULL) { EfiLibDeleteVariable (L"DriverOrder", &gEfiGlobalVariableGuid); FreePool(DriverOrderList); DriverOrderList = NULL; } DriverOrderListSize = DriverOptionMenu.MenuNumber; if (DriverOrderListSize > 0) { DriverOrderList = AllocateZeroPool(DriverOrderListSize * sizeof (UINT16)); ASSERT (DriverOrderList != NULL); DriverOrderListPtr = DriverOrderList; // // Get all current used Driver#### from DriverOptionMenu. // OptionNumber in each BM_LOAD_OPTION is really its // #### value. // for (Index = 0; Index < DriverOrderListSize; Index++) { NewMenuEntry = BOpt_GetMenuEntry (&DriverOptionMenu, Index); *DriverOrderList = (UINT16) NewMenuEntry->OptionNumber; DriverOrderList++; } DriverOrderList = DriverOrderListPtr; // // After building the DriverOrderList, write it back // Status = gRT->SetVariable ( L"DriverOrder", &gEfiGlobalVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS | EFI_VARIABLE_NON_VOLATILE, DriverOrderListSize * sizeof (UINT16), DriverOrderList ); if (EFI_ERROR(Status)) { return Status; } } return EFI_SUCCESS; } /** Update the device path of "ConOut", "ConIn" and "ErrOut" based on the new BaudRate, Data Bits, parity and Stop Bits set. **/ /* VOID Var_UpdateAllConsoleOption ( VOID ) { EFI_DEVICE_PATH_PROTOCOL *OutDevicePath; EFI_DEVICE_PATH_PROTOCOL *InpDevicePath; EFI_DEVICE_PATH_PROTOCOL *ErrDevicePath; EFI_STATUS Status; OutDevicePath = EfiLibGetVariable (L"ConOut", &gEfiGlobalVariableGuid); InpDevicePath = EfiLibGetVariable (L"ConIn", &gEfiGlobalVariableGuid); ErrDevicePath = EfiLibGetVariable (L"ErrOut", &gEfiGlobalVariableGuid); if (OutDevicePath != NULL) { ChangeVariableDevicePath (OutDevicePath); Status = gRT->SetVariable ( L"ConOut", &gEfiGlobalVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS | EFI_VARIABLE_NON_VOLATILE, GetDevicePathSize (OutDevicePath), OutDevicePath ); ASSERT (!EFI_ERROR(Status)); } if (InpDevicePath != NULL) { ChangeVariableDevicePath (InpDevicePath); Status = gRT->SetVariable ( L"ConIn", &gEfiGlobalVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS | EFI_VARIABLE_NON_VOLATILE, GetDevicePathSize (InpDevicePath), InpDevicePath ); ASSERT (!EFI_ERROR(Status)); } if (ErrDevicePath != NULL) { ChangeVariableDevicePath (ErrDevicePath); Status = gRT->SetVariable ( L"ErrOut", &gEfiGlobalVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS | EFI_VARIABLE_NON_VOLATILE, GetDevicePathSize (ErrDevicePath), ErrDevicePath ); ASSERT (!EFI_ERROR(Status)); } } */ /** This function delete and build multi-instance device path for specified type of console device. This function clear the EFI variable defined by ConsoleName and gEfiGlobalVariableGuid. It then build the multi-instance device path by appending the device path of the Console (In/Out/Err) instance in ConsoleMenu. Then it scan all corresponding console device by scanning Terminal (built from device supporting Serial I/O instances) devices in TerminalMenu. At last, it save a EFI variable specifed by ConsoleName and gEfiGlobalVariableGuid. @param ConsoleName The name for the console device type. They are usually "ConIn", "ConOut" and "ErrOut". @param ConsoleMenu The console memu which is a list of console devices. @param UpdatePageId The flag specifying which type of console device to be processed. @retval EFI_SUCCESS The function complete successfully. @return The EFI variable can not be saved. See gRT->SetVariable for detail return information. **/ EFI_STATUS Var_UpdateConsoleOption ( IN UINT16 *ConsoleName, IN BM_MENU_OPTION *ConsoleMenu, IN UINT16 UpdatePageId ) { EFI_DEVICE_PATH_PROTOCOL *ConDevicePath; BM_MENU_ENTRY *NewMenuEntry; BM_CONSOLE_CONTEXT *NewConsoleContext; // BM_TERMINAL_CONTEXT *NewTerminalContext; EFI_STATUS Status; // VENDOR_DEVICE_PATH Vendor; // EFI_DEVICE_PATH_PROTOCOL *TerminalDevicePath; UINTN Index; ConDevicePath = EfiLibGetVariable (ConsoleName, &gEfiGlobalVariableGuid); if (ConDevicePath != NULL) { EfiLibDeleteVariable (ConsoleName, &gEfiGlobalVariableGuid); FreePool(ConDevicePath); ConDevicePath = NULL; }; // // First add all console input device from console input menu // for (Index = 0; Index < ConsoleMenu->MenuNumber; Index++) { NewMenuEntry = BOpt_GetMenuEntry (ConsoleMenu, Index); NewConsoleContext = (BM_CONSOLE_CONTEXT *) NewMenuEntry->VariableContext; if (NewConsoleContext->IsActive) { ConDevicePath = AppendDevicePathInstance ( ConDevicePath, NewConsoleContext->DevicePath ); } } /* for (Index = 0; Index < TerminalMenu.MenuNumber; Index++) { NewMenuEntry = BOpt_GetMenuEntry (&TerminalMenu, Index); NewTerminalContext = (BM_TERMINAL_CONTEXT *) NewMenuEntry->VariableContext; if (((NewTerminalContext->IsConIn != 0) && (UpdatePageId == FORM_CON_IN_ID)) || ((NewTerminalContext->IsConOut != 0) && (UpdatePageId == FORM_CON_OUT_ID)) || ((NewTerminalContext->IsStdErr != 0) && (UpdatePageId == FORM_CON_ERR_ID)) ) { Vendor.Header.Type = MESSAGING_DEVICE_PATH; Vendor.Header.SubType = MSG_VENDOR_DP; ASSERT (NewTerminalContext->TerminalType < (sizeof (TerminalTypeGuid) / sizeof (TerminalTypeGuid[0]))); CopyMem( &Vendor.Guid, &TerminalTypeGuid[NewTerminalContext->TerminalType], sizeof (EFI_GUID) ); SetDevicePathNodeLength (&Vendor.Header, sizeof (VENDOR_DEVICE_PATH)); TerminalDevicePath = AppendDevicePathNode ( NewTerminalContext->DevicePath, (EFI_DEVICE_PATH_PROTOCOL *) &Vendor ); ASSERT (TerminalDevicePath != NULL); ChangeTerminalDevicePath (&TerminalDevicePath, TRUE); ConDevicePath = AppendDevicePathInstance ( ConDevicePath, TerminalDevicePath ); } } */ if (ConDevicePath != NULL) { Status = gRT->SetVariable ( ConsoleName, &gEfiGlobalVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS | EFI_VARIABLE_NON_VOLATILE, GetDevicePathSize (ConDevicePath), ConDevicePath ); if (EFI_ERROR(Status)) { return Status; } } return EFI_SUCCESS; } /** This function delete and build multi-instance device path ConIn console device. @retval EFI_SUCCESS The function complete successfully. @return The EFI variable can not be saved. See gRT->SetVariable for detail return information. **/ /* EFI_STATUS Var_UpdateConsoleInpOption ( VOID ) { return Var_UpdateConsoleOption (L"ConIn", &ConsoleInpMenu, FORM_CON_IN_ID); } */ /** This function delete and build multi-instance device path ConOut console device. @retval EFI_SUCCESS The function complete successfully. @return The EFI variable can not be saved. See gRT->SetVariable for detail return information. **/ /* EFI_STATUS Var_UpdateConsoleOutOption ( VOID ) { return Var_UpdateConsoleOption (L"ConOut", &ConsoleOutMenu, FORM_CON_OUT_ID); } */ /** This function delete and build multi-instance device path ErrOut console device. @retval EFI_SUCCESS The function complete successfully. @return The EFI variable can not be saved. See gRT->SetVariable for detail return information. **/ /* EFI_STATUS Var_UpdateErrorOutOption ( VOID ) { return Var_UpdateConsoleOption (L"ErrOut", &ConsoleErrMenu, FORM_CON_ERR_ID); } */ /** This function create a currently loaded Drive Option from the BMM. It then appends this Driver Option to the end of the "DriverOrder" list. It append this Driver Opotion to the end of DriverOptionMenu. @param CallbackData The BMM context data. @param HiiHandle The HII handle associated with the BMM formset. @param DescriptionData The description of this driver option. @param OptionalData The optional load option. @param ForceReconnect If to force reconnect. @retval EFI_OUT_OF_RESOURCES If not enought memory to complete the operation. @retval EFI_SUCCESS If function completes successfully. **/ EFI_STATUS Var_UpdateDriverOption ( IN BMM_CALLBACK_DATA *CallbackData, IN EFI_HII_HANDLE HiiHandle, IN UINT16 *DescriptionData, IN UINT16 *OptionalData, IN UINT8 ForceReconnect ) { UINT16 Index; UINT16 *DriverOrderList; UINT16 *NewDriverOrderList; UINT16 DriverString[12]; UINTN DriverOrderListSize; VOID *Buffer; UINTN BufferSize; UINT8 *Ptr; BM_MENU_ENTRY *NewMenuEntry; BM_LOAD_CONTEXT *NewLoadContext; BOOLEAN OptionalDataExist; EFI_STATUS Status; OptionalDataExist = FALSE; Index = BOpt_GetDriverOptionNumber (); UnicodeSPrint ( DriverString, sizeof (DriverString), L"Driver%04x", Index ); if (*DescriptionData == 0x0000) { StrCpyS (DescriptionData, 12, DriverString); } BufferSize = sizeof (UINT32) + sizeof (UINT16) + StrSize (DescriptionData); BufferSize += GetDevicePathSize (CallbackData->LoadContext->FilePathList); if (*OptionalData != 0x0000) { OptionalDataExist = TRUE; BufferSize += StrSize (OptionalData); } Buffer = AllocateZeroPool(BufferSize); if (NULL == Buffer) { return EFI_OUT_OF_RESOURCES; } NewMenuEntry = BOpt_CreateMenuEntry (BM_LOAD_CONTEXT_SELECT); if (NULL == NewMenuEntry) { FreePool(Buffer); return EFI_OUT_OF_RESOURCES; } NewLoadContext = (BM_LOAD_CONTEXT *) NewMenuEntry->VariableContext; NewLoadContext->Deleted = FALSE; NewLoadContext->LoadOptionSize = BufferSize; Ptr = (UINT8 *) Buffer; NewLoadContext->LoadOption = Ptr; *((UINT32 *) Ptr) = LOAD_OPTION_ACTIVE | (ForceReconnect << 1); NewLoadContext->Attributes = *((UINT32 *) Ptr); NewLoadContext->IsActive = TRUE; NewLoadContext->ForceReconnect = (BOOLEAN) ((NewLoadContext->Attributes & LOAD_OPTION_FORCE_RECONNECT)?1:0); Ptr += sizeof (UINT32); *((UINT16 *) Ptr) = (UINT16) GetDevicePathSize (CallbackData->LoadContext->FilePathList); NewLoadContext->FilePathListLength = *((UINT16 *) Ptr); Ptr += sizeof (UINT16); CopyMem( Ptr, DescriptionData, StrSize (DescriptionData) ); NewLoadContext->Description = AllocateZeroPool(StrSize (DescriptionData)); ASSERT (NewLoadContext->Description != NULL); NewMenuEntry->DisplayString = NewLoadContext->Description; CopyMem( NewLoadContext->Description, (VOID *) Ptr, StrSize (DescriptionData) ); Ptr += StrSize (DescriptionData); CopyMem( Ptr, CallbackData->LoadContext->FilePathList, GetDevicePathSize (CallbackData->LoadContext->FilePathList) ); NewLoadContext->FilePathList = AllocateZeroPool(GetDevicePathSize (CallbackData->LoadContext->FilePathList)); ASSERT (NewLoadContext->FilePathList != NULL); CopyMem( NewLoadContext->FilePathList, (VOID *) Ptr, GetDevicePathSize (CallbackData->LoadContext->FilePathList) ); NewMenuEntry->HelpString = FileDevicePathToStr (NewLoadContext->FilePathList); NewMenuEntry->OptionNumber = Index; NewMenuEntry->DisplayStringToken = GetStringTokenFromDepository ( CallbackData, DriverOptionStrDepository ); NewMenuEntry->DisplayStringToken = HiiSetString (HiiHandle, 0, NewMenuEntry->DisplayString, NULL); NewMenuEntry->HelpStringToken = GetStringTokenFromDepository ( CallbackData, DriverOptionHelpStrDepository ); NewMenuEntry->HelpStringToken = HiiSetString (HiiHandle, 0, NewMenuEntry->HelpString, NULL); if (OptionalDataExist) { Ptr += (UINT8) GetDevicePathSize (CallbackData->LoadContext->FilePathList); CopyMem( Ptr, OptionalData, StrSize (OptionalData) ); } Status = gRT->SetVariable ( DriverString, &gEfiGlobalVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS | EFI_VARIABLE_NON_VOLATILE, BufferSize, Buffer ); if (!EFI_ERROR(Status)) { DriverOrderList = BdsLibGetVariableAndSize ( L"DriverOrder", &gEfiGlobalVariableGuid, &DriverOrderListSize ); NewDriverOrderList = AllocateZeroPool(DriverOrderListSize + sizeof (UINT16)); ASSERT (NewDriverOrderList != NULL); if (DriverOrderList != NULL) { CopyMem(NewDriverOrderList, DriverOrderList, DriverOrderListSize); EfiLibDeleteVariable (L"DriverOrder", &gEfiGlobalVariableGuid); } NewDriverOrderList[DriverOrderListSize / sizeof (UINT16)] = Index; Status = gRT->SetVariable ( L"DriverOrder", &gEfiGlobalVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS | EFI_VARIABLE_NON_VOLATILE, DriverOrderListSize + sizeof (UINT16), NewDriverOrderList ); if (DriverOrderList != NULL) { FreePool(DriverOrderList); } DriverOrderList = NULL; FreePool(NewDriverOrderList); if (!EFI_ERROR(Status)) { InsertTailList (&DriverOptionMenu.Head, &NewMenuEntry->Link); DriverOptionMenu.MenuNumber++; // // Update "change boot order" page used data, append the new add boot // option at the end. // Index = 0; while (CallbackData->BmmFakeNvData.DriverOptionOrder[Index] != 0) { Index++; } CallbackData->BmmFakeNvData.DriverOptionOrder[Index] = (UINT32) (NewMenuEntry->OptionNumber + 1); *DescriptionData = 0x0000; *OptionalData = 0x0000; } } return EFI_SUCCESS; } /** This function create a currently loaded Boot Option from the BMM. It then appends this Boot Option to the end of the "BootOrder" list. It also append this Boot Opotion to the end of BootOptionMenu. @param CallbackData The BMM context data. @param NvRamMap The file explorer formset internal state. @retval EFI_OUT_OF_RESOURCES If not enought memory to complete the operation. @retval EFI_SUCCESS If function completes successfully. **/ EFI_STATUS Var_UpdateBootOption ( IN BMM_CALLBACK_DATA *CallbackData, IN FILE_EXPLORER_NV_DATA *NvRamMap ) { UINT16 *BootOrderList = NULL; UINT16 *NewBootOrderList = NULL; UINTN BootOrderListSize; UINT16 BootString[10]; VOID *Buffer; UINTN BufferSize; UINT8 *Ptr; UINT16 Index; BM_MENU_ENTRY *NewMenuEntry; BM_LOAD_CONTEXT *NewLoadContext; BOOLEAN OptionalDataExist; EFI_STATUS Status; OptionalDataExist = FALSE; Index = BOpt_GetBootOptionNumber () ; UnicodeSPrint (BootString, sizeof (BootString), L"Boot%04x", Index); if (NvRamMap->BootDescriptionData[0] == 0x0000) { StrCpyS (NvRamMap->BootDescriptionData, 10, BootString); } BufferSize = sizeof (UINT32) + sizeof (UINT16) + StrSize (NvRamMap->BootDescriptionData); BufferSize += GetDevicePathSize (CallbackData->LoadContext->FilePathList); if (NvRamMap->BootOptionalData[0] != 0x0000) { OptionalDataExist = TRUE; BufferSize += StrSize (NvRamMap->BootOptionalData); } Buffer = AllocateZeroPool(BufferSize); if (NULL == Buffer) { return EFI_OUT_OF_RESOURCES; } NewMenuEntry = BOpt_CreateMenuEntry (BM_LOAD_CONTEXT_SELECT); if (NULL == NewMenuEntry) { FreePool(Buffer); return EFI_OUT_OF_RESOURCES; } NewLoadContext = (BM_LOAD_CONTEXT *) NewMenuEntry->VariableContext; NewLoadContext->Deleted = FALSE; NewLoadContext->LoadOptionSize = BufferSize; Ptr = (UINT8 *) Buffer; NewLoadContext->LoadOption = Ptr; *((UINT32 *) Ptr) = LOAD_OPTION_ACTIVE; NewLoadContext->Attributes = *((UINT32 *) Ptr); NewLoadContext->IsActive = TRUE; NewLoadContext->ForceReconnect = (BOOLEAN) ((NewLoadContext->Attributes & LOAD_OPTION_FORCE_RECONNECT)?1:0); Ptr += sizeof (UINT32); *((UINT16 *) Ptr) = (UINT16) GetDevicePathSize (CallbackData->LoadContext->FilePathList); NewLoadContext->FilePathListLength = *((UINT16 *) Ptr); Ptr += sizeof (UINT16); CopyMem( Ptr, NvRamMap->BootDescriptionData, StrSize (NvRamMap->BootDescriptionData) ); NewLoadContext->Description = AllocateZeroPool(StrSize (NvRamMap->BootDescriptionData)); ASSERT (NewLoadContext->Description != NULL); NewMenuEntry->DisplayString = NewLoadContext->Description; CopyMem( NewLoadContext->Description, (VOID *) Ptr, StrSize (NvRamMap->BootDescriptionData) ); Ptr += StrSize (NvRamMap->BootDescriptionData); CopyMem( Ptr, CallbackData->LoadContext->FilePathList, GetDevicePathSize (CallbackData->LoadContext->FilePathList) ); NewLoadContext->FilePathList = AllocateZeroPool(GetDevicePathSize (CallbackData->LoadContext->FilePathList)); ASSERT (NewLoadContext->FilePathList != NULL); CopyMem( NewLoadContext->FilePathList, (VOID *) Ptr, GetDevicePathSize (CallbackData->LoadContext->FilePathList) ); NewMenuEntry->HelpString = FileDevicePathToStr (NewLoadContext->FilePathList); NewMenuEntry->OptionNumber = Index; NewMenuEntry->DisplayStringToken = GetStringTokenFromDepository ( CallbackData, BootOptionStrDepository ); NewMenuEntry->DisplayStringToken = HiiSetString (CallbackData->FeHiiHandle, 0, NewMenuEntry->DisplayString, NULL); NewMenuEntry->HelpStringToken = GetStringTokenFromDepository ( CallbackData, BootOptionHelpStrDepository ); NewMenuEntry->HelpStringToken = HiiSetString (CallbackData->FeHiiHandle, 0, NewMenuEntry->HelpString, NULL); if (OptionalDataExist) { Ptr += (UINT8) GetDevicePathSize (CallbackData->LoadContext->FilePathList); CopyMem(Ptr, NvRamMap->BootOptionalData, StrSize (NvRamMap->BootOptionalData)); } Status = gRT->SetVariable ( BootString, &gEfiGlobalVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS | EFI_VARIABLE_NON_VOLATILE, BufferSize, Buffer ); if (!EFI_ERROR(Status)) { BootOrderList = BdsLibGetVariableAndSize ( L"BootOrder", &gEfiGlobalVariableGuid, &BootOrderListSize ); // ASSERT (BootOrderList != NULL); if (BootOrderList != NULL) { NewBootOrderList = AllocateZeroPool(BootOrderListSize + sizeof (UINT16)); // ASSERT (NewBootOrderList != NULL); if (NewBootOrderList != NULL) { CopyMem(NewBootOrderList, BootOrderList, BootOrderListSize); NewBootOrderList[BootOrderListSize / sizeof (UINT16)] = Index; } FreePool(BootOrderList); } Status = gRT->SetVariable ( L"BootOrder", &gEfiGlobalVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS | EFI_VARIABLE_NON_VOLATILE, BootOrderListSize + sizeof (UINT16), NewBootOrderList ); if (!EFI_ERROR(Status)) { FreePool(NewBootOrderList); NewBootOrderList = NULL; InsertTailList (&BootOptionMenu.Head, &NewMenuEntry->Link); BootOptionMenu.MenuNumber++; // // Update "change driver order" page used data, append the new add driver // option at the end. // Index = 0; while (CallbackData->BmmFakeNvData.BootOptionOrder[Index] != 0) { Index++; } CallbackData->BmmFakeNvData.BootOptionOrder[Index] = (UINT32) (NewMenuEntry->OptionNumber + 1); NvRamMap->BootDescriptionData[0] = 0x0000; NvRamMap->BootOptionalData[0] = 0x0000; } } return EFI_SUCCESS; } /** This function update the "BootNext" EFI Variable. If there is no "BootNext" specified in BMM, this EFI Variable is deleted. It also update the BMM context data specified the "BootNext" vaule. @param CallbackData The BMM context data. @retval EFI_SUCCESS The function complete successfully. @return The EFI variable can be saved. See gRT->SetVariable for detail return information. **/ EFI_STATUS Var_UpdateBootNext ( IN BMM_CALLBACK_DATA *CallbackData ) { BM_MENU_ENTRY *NewMenuEntry; BM_LOAD_CONTEXT *NewLoadContext; BMM_FAKE_NV_DATA *CurrentFakeNVMap; UINT16 Index; EFI_STATUS Status; Status = EFI_SUCCESS; CurrentFakeNVMap = &CallbackData->BmmFakeNvData; for (Index = 0; Index < BootOptionMenu.MenuNumber; Index++) { NewMenuEntry = BOpt_GetMenuEntry (&BootOptionMenu, Index); ASSERT (NULL != NewMenuEntry); NewLoadContext = (BM_LOAD_CONTEXT *) NewMenuEntry->VariableContext; NewLoadContext->IsBootNext = FALSE; } if (CurrentFakeNVMap->BootNext == BootOptionMenu.MenuNumber) { EfiLibDeleteVariable (L"BootNext", &gEfiGlobalVariableGuid); return EFI_SUCCESS; } NewMenuEntry = BOpt_GetMenuEntry ( &BootOptionMenu, CurrentFakeNVMap->BootNext ); ASSERT (NewMenuEntry != NULL); NewLoadContext = (BM_LOAD_CONTEXT *) NewMenuEntry->VariableContext; Status = gRT->SetVariable ( L"BootNext", &gEfiGlobalVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS | EFI_VARIABLE_NON_VOLATILE, sizeof (UINT16), &NewMenuEntry->OptionNumber ); NewLoadContext->IsBootNext = TRUE; CallbackData->BmmOldFakeNVData.BootNext = CurrentFakeNVMap->BootNext; return Status; } /** This function update the "BootOrder" EFI Variable based on BMM Formset's NV map. It then refresh BootOptionMenu with the new "BootOrder" list. @param CallbackData The BMM context data. @retval EFI_SUCCESS The function complete successfully. @retval EFI_OUT_OF_RESOURCES Not enough memory to complete the function. @return The EFI variable can not be saved. See gRT->SetVariable for detail return information. **/ EFI_STATUS Var_UpdateBootOrder ( IN BMM_CALLBACK_DATA *CallbackData ) { EFI_STATUS Status; UINT16 Index; UINT16 OrderIndex; UINT16 *BootOrderList; UINTN BootOrderListSize; UINT16 OptionNumber; // BootOrderList = NULL; BootOrderListSize = 0; // // First check whether BootOrder is present in current configuration // BootOrderList = BdsLibGetVariableAndSize ( L"BootOrder", &gEfiGlobalVariableGuid, &BootOrderListSize ); if (BootOrderList == NULL) { return EFI_OUT_OF_RESOURCES; } ASSERT (BootOptionMenu.MenuNumber <= (sizeof (CallbackData->BmmFakeNvData.BootOptionOrder) / sizeof (CallbackData->BmmFakeNvData.BootOptionOrder[0]))); for (OrderIndex = 0; (OrderIndex < BootOptionMenu.MenuNumber) && (CallbackData->BmmFakeNvData.BootOptionOrder[OrderIndex] != 0); OrderIndex++) { for (Index = OrderIndex; Index < BootOrderListSize / sizeof (UINT16); Index++) { if ((BootOrderList[Index] == (UINT16) (CallbackData->BmmFakeNvData.BootOptionOrder[OrderIndex] - 1)) && (OrderIndex != Index)) { OptionNumber = BootOrderList[Index]; CopyMem(&BootOrderList[OrderIndex + 1], &BootOrderList[OrderIndex], (Index - OrderIndex) * sizeof (UINT16)); BootOrderList[OrderIndex] = OptionNumber; } } } Status = gRT->SetVariable ( L"BootOrder", &gEfiGlobalVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS | EFI_VARIABLE_NON_VOLATILE, BootOrderListSize, BootOrderList ); FreePool(BootOrderList); GroupMultipleLegacyBootOption4SameType (); BOpt_FreeMenu (&BootOptionMenu); BOpt_GetBootOptions (CallbackData); return Status; } /** This function update the "DriverOrder" EFI Variable based on BMM Formset's NV map. It then refresh DriverOptionMenu with the new "DriverOrder" list. @param CallbackData The BMM context data. @retval EFI_SUCCESS The function complete successfully. @retval EFI_OUT_OF_RESOURCES Not enough memory to complete the function. @return The EFI variable can not be saved. See gRT->SetVariable for detail return information. **/ EFI_STATUS Var_UpdateDriverOrder ( IN BMM_CALLBACK_DATA *CallbackData ) { EFI_STATUS Status; UINT16 Index; UINT16 *DriverOrderList; UINT16 *NewDriverOrderList; UINTN DriverOrderListSize; // DriverOrderList = NULL; DriverOrderListSize = 0; // // First check whether DriverOrder is present in current configuration // DriverOrderList = BdsLibGetVariableAndSize ( L"DriverOrder", &gEfiGlobalVariableGuid, &DriverOrderListSize ); NewDriverOrderList = AllocateZeroPool(DriverOrderListSize); if (NewDriverOrderList == NULL) { return EFI_OUT_OF_RESOURCES; } // // If exists, delete it to hold new DriverOrder // if (DriverOrderList != NULL) { EfiLibDeleteVariable (L"DriverOrder", &gEfiGlobalVariableGuid); FreePool(DriverOrderList); } ASSERT (DriverOptionMenu.MenuNumber <= (sizeof (CallbackData->BmmFakeNvData.DriverOptionOrder) / sizeof (CallbackData->BmmFakeNvData.DriverOptionOrder[0]))); for (Index = 0; Index < DriverOptionMenu.MenuNumber; Index++) { NewDriverOrderList[Index] = (UINT16) (CallbackData->BmmFakeNvData.DriverOptionOrder[Index] - 1); } Status = gRT->SetVariable ( L"DriverOrder", &gEfiGlobalVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS | EFI_VARIABLE_NON_VOLATILE, DriverOrderListSize, NewDriverOrderList ); if (EFI_ERROR(Status)) { return Status; } BOpt_FreeMenu (&DriverOptionMenu); BOpt_GetDriverOptions (CallbackData); return EFI_SUCCESS; } /** Update the legacy BBS boot option. VAR_LEGACY_DEV_ORDER and gEfiLegacyDevOrderVariableGuid EFI Variable is udpated with the new Legacy Boot order. The EFI Variable of "Boot####" and gEfiGlobalVariableGuid is also updated. @param CallbackData The context data for BMM. @param FormId The form id. @return EFI_SUCCESS The function completed successfully. @retval EFI_NOT_FOUND If VAR_LEGACY_DEV_ORDER and gEfiLegacyDevOrderVariableGuid EFI Variable can be found. @retval EFI_OUT_OF_RESOURCES Fail to allocate memory resource **/ EFI_STATUS Var_UpdateBBSOption ( IN BMM_CALLBACK_DATA *CallbackData, IN EFI_FORM_ID FormId ) { UINTN Index; UINTN Index2; VOID *BootOptionVar; CHAR16 VarName[100]; UINTN OptionSize; EFI_STATUS Status; UINT32 *Attribute; BM_MENU_OPTION *OptionMenu; UINT8 *LegacyDev; UINT8 *VarData; UINTN VarSize; LEGACY_DEV_ORDER_ENTRY *DevOrder; UINT8 *OriginalPtr; UINT8 *DisMap; UINTN Pos; UINTN Bit; UINT16 *NewOrder; UINT16 Tmp; UINT16 *EnBootOption; UINTN EnBootOptionCount; UINT16 *DisBootOption; UINTN DisBootOptionCount; DisMap = NULL; NewOrder = NULL; switch (FormId) { case FORM_SET_FD_ORDER_ID: OptionMenu = (BM_MENU_OPTION *) &LegacyFDMenu; LegacyDev = CallbackData->BmmFakeNvData.LegacyFD; CallbackData->BbsType = BBS_FLOPPY; break; case FORM_SET_HD_ORDER_ID: OptionMenu = (BM_MENU_OPTION *) &LegacyHDMenu; LegacyDev = CallbackData->BmmFakeNvData.LegacyHD; CallbackData->BbsType = BBS_HARDDISK; break; case FORM_SET_CD_ORDER_ID: OptionMenu = (BM_MENU_OPTION *) &LegacyCDMenu; LegacyDev = CallbackData->BmmFakeNvData.LegacyCD; CallbackData->BbsType = BBS_CDROM; break; case FORM_SET_NET_ORDER_ID: OptionMenu = (BM_MENU_OPTION *) &LegacyNETMenu; LegacyDev = CallbackData->BmmFakeNvData.LegacyNET; CallbackData->BbsType = BBS_EMBED_NETWORK; break; default: ASSERT (FORM_SET_BEV_ORDER_ID == CallbackData->BmmPreviousPageId); OptionMenu = (BM_MENU_OPTION *) &LegacyBEVMenu; LegacyDev = CallbackData->BmmFakeNvData.LegacyBEV; CallbackData->BbsType = BBS_BEV_DEVICE; break; } DisMap = CallbackData->BmmOldFakeNVData.DisableMap; Status = EFI_SUCCESS; // // Update the Variable "LegacyDevOrder" // VarData = (UINT8 *) BdsLibGetVariableAndSize ( VAR_LEGACY_DEV_ORDER, &gEfiLegacyDevOrderVariableGuid, &VarSize ); if (VarData == NULL) { return EFI_NOT_FOUND; } OriginalPtr = VarData; DevOrder = (LEGACY_DEV_ORDER_ENTRY *) VarData; while (VarData < OriginalPtr + VarSize) { if (DevOrder->BbsType == CallbackData->BbsType) { break; } VarData += sizeof (BBS_TYPE) + DevOrder->Length; DevOrder = (LEGACY_DEV_ORDER_ENTRY *) VarData; } if (VarData >= OriginalPtr + VarSize) { FreePool(OriginalPtr); return EFI_NOT_FOUND; } NewOrder = AllocateZeroPool(DevOrder->Length - sizeof (DevOrder->Length)); if (NewOrder == NULL) { FreePool(OriginalPtr); return EFI_OUT_OF_RESOURCES; } for (Index = 0; Index < OptionMenu->MenuNumber; Index++) { if (0xFF == LegacyDev[Index]) { break; } NewOrder[Index] = LegacyDev[Index]; } // // Only the enable/disable state of each boot device with same device type can be changed, // so we can count on the index information in DevOrder. // DisMap bit array is the only reliable source to check a device's en/dis state, // so we use DisMap to set en/dis state of each item in NewOrder array // for (Index2 = 0; Index2 < OptionMenu->MenuNumber; Index2++) { Tmp = (UINT16) (DevOrder->Data[Index2] & 0xFF); Pos = Tmp / 8; Bit = 7 - (Tmp % 8); if ((DisMap[Pos] & (1 << Bit)) != 0) { NewOrder[Index] = (UINT16) (0xFF00 | Tmp); Index++; } } CopyMem( DevOrder->Data, NewOrder, DevOrder->Length - sizeof (DevOrder->Length) ); FreePool(NewOrder); Status = gRT->SetVariable ( VAR_LEGACY_DEV_ORDER, &gEfiLegacyDevOrderVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_NON_VOLATILE, VarSize, OriginalPtr ); // // Update BootOrder and Boot####.Attribute // // 1. Re-order the Option Number in BootOrder according to Legacy Dev Order // ASSERT (OptionMenu->MenuNumber == DevOrder->Length / sizeof (UINT16) - 1); OrderLegacyBootOption4SameType ( DevOrder->Data, DevOrder->Length / sizeof (UINT16) - 1, &EnBootOption, &EnBootOptionCount, &DisBootOption, &DisBootOptionCount ); // // 2. Deactivate the DisBootOption and activate the EnBootOption // for (Index = 0; Index < DisBootOptionCount; Index++) { UnicodeSPrint (VarName, sizeof (VarName), L"Boot%04x", DisBootOption[Index]); BootOptionVar = BdsLibGetVariableAndSize ( VarName, &gEfiGlobalVariableGuid, &OptionSize ); if (BootOptionVar != NULL) { Attribute = (UINT32 *) BootOptionVar; *Attribute &= ~LOAD_OPTION_ACTIVE; Status = gRT->SetVariable ( VarName, &gEfiGlobalVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS | EFI_VARIABLE_NON_VOLATILE, OptionSize, BootOptionVar ); FreePool(BootOptionVar); } } for (Index = 0; Index < EnBootOptionCount; Index++) { UnicodeSPrint (VarName, sizeof (VarName), L"Boot%04x", EnBootOption[Index]); BootOptionVar = BdsLibGetVariableAndSize ( VarName, &gEfiGlobalVariableGuid, &OptionSize ); if (BootOptionVar != NULL) { Attribute = (UINT32 *) BootOptionVar; *Attribute |= LOAD_OPTION_ACTIVE; Status = gRT->SetVariable ( VarName, &gEfiGlobalVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS | EFI_VARIABLE_NON_VOLATILE, OptionSize, BootOptionVar ); FreePool(BootOptionVar); } } BOpt_GetBootOptions (CallbackData); FreePool(OriginalPtr); FreePool(EnBootOption); FreePool(DisBootOption); return Status; } /** Update the Text Mode of Console. @param CallbackData The context data for BMM. @retval EFI_SUCCSS If the Text Mode of Console is updated. @return Other value if the Text Mode of Console is not updated. **/ EFI_STATUS Var_UpdateConMode ( IN BMM_CALLBACK_DATA *CallbackData ) { EFI_STATUS Status; UINTN Mode; CONSOLE_OUT_MODE ModeInfo; Mode = CallbackData->BmmFakeNvData.ConsoleOutMode; Status = gST->ConOut->QueryMode (gST->ConOut, Mode, &(ModeInfo.Column), &(ModeInfo.Row)); if (!EFI_ERROR(Status)) { PcdSet32 (PcdSetupConOutColumn, (UINT32) ModeInfo.Column); PcdSet32 (PcdSetupConOutRow, (UINT32) ModeInfo.Row); } return EFI_SUCCESS; }