/*++ Copyright (c) 1995-2001 Microsoft Corporation Module Name: sbentry.h Abstract: Contains the OS boot entry and boot options abstractions. Author: Vijay Jayaseelan (vijayj@microsoft.com) 14 Feb 2001 Revision History: None. --*/ #pragma once #include #include #include #include #include // // Allocate & Deallocate routines // typedef void* (* SBEMemAllocateRoutine)(size_t Size); typedef void (* SBEMemFreeRoutine)(void *Memory); extern SBEMemAllocateRoutine AllocRoutine; extern SBEMemFreeRoutine FreeRoutine; #define ARRAY_SIZE(x) (sizeof((x))/sizeof((x)[0])) // // Internal attributes for the boot entry // #define OSBE_ATTRIBUTE_NEW 0x00000001 #define OSBE_ATTRIBUTE_DELETED 0x00000002 #define OSBE_ATTRIBUTE_WINDOWS 0x00000004 #define OSBE_ATTRIBUTE_DIRTY 0x10000000 // // OS_BOOT_ENTRY abstraction // typedef struct _OS_BOOT_ENTRY *POS_BOOT_ENTRY; typedef struct _OS_BOOT_OPTIONS *POS_BOOT_OPTIONS; typedef VOID (* OSBEDeleteMethod)( IN POS_BOOT_ENTRY This ); typedef BOOLEAN (* OSBEFlushMethod)( IN POS_BOOT_ENTRY This ); typedef struct _OS_BOOT_ENTRY { // // Data members // ULONG Version; ULONG Id; WCHAR FriendlyName[MAX_PATH]; WCHAR OsLoaderVolumeName[MAX_PATH]; WCHAR OsLoaderPath[MAX_PATH]; WCHAR BootVolumeName[MAX_PATH]; WCHAR BootPath[MAX_PATH]; WCHAR OsLoadOptions[MAX_PATH]; ULONG Attributes; POS_BOOT_OPTIONS BootOptions; POS_BOOT_ENTRY NextEntry; // // Methods // OSBEDeleteMethod Delete; OSBEFlushMethod Flush; } OS_BOOT_ENTRY; #define OSBE_IS_DIRTY(_osbe) (((POS_BOOT_ENTRY)(_osbe))->Attributes & OSBE_ATTRIBUTE_DIRTY) #define OSBE_IS_NEW(_osbe) (((POS_BOOT_ENTRY)(_osbe))->Attributes & OSBE_ATTRIBUTE_NEW) #define OSBE_IS_DELETED(_osbe) (((POS_BOOT_ENTRY)(_osbe))->Attributes & OSBE_ATTRIBUTE_DELETED) #define OSBE_IS_WINDOWS(_osbe) (((POS_BOOT_ENTRY)(_osbe))->Attributes & OSBE_ATTRIBUTE_WINDOWS) #define OSBE_SET_DIRTY(_osbe) (((POS_BOOT_ENTRY)(_osbe))->Attributes |= OSBE_ATTRIBUTE_DIRTY) #define OSBE_SET_NEW(_osbe) (((POS_BOOT_ENTRY)(_osbe))->Attributes |= OSBE_ATTRIBUTE_NEW) #define OSBE_SET_DELETED(_osbe) (((POS_BOOT_ENTRY)(_osbe))->Attributes |= OSBE_ATTRIBUTE_DELETED) #define OSBE_SET_WINDOWS(_osbe) (((POS_BOOT_ENTRY)(_osbe))->Attributes |= OSBE_ATTRIBUTE_WINDOWS) #define OSBE_RESET_DIRTY(_osbe) (((POS_BOOT_ENTRY)(_osbe))->Attributes &= ~OSBE_ATTRIBUTE_DIRTY) #define OSBE_RESET_NEW(_osbe) (((POS_BOOT_ENTRY)(_osbe))->Attributes &= ~OSBE_ATTRIBUTE_NEW) #define OSBE_RESET_DELETED(_osbe) (((POS_BOOT_ENTRY)(_osbe))->Attributes &= ~OSBE_ATTRIBUTE_DELETED) #define OSBE_RESET_WINDOWS(_osbe) (((POS_BOOT_ENTRY)(_osbe))->Attributes &= ~OSBE_ATTRIBUTE_WINDOWS) // // OS_BOOT_OPTIONS abstraction // typedef VOID (* OSBODeleteMethod)( IN POS_BOOT_OPTIONS This ); typedef POS_BOOT_ENTRY (* OSBOAddNewBootEntryMethod)( IN POS_BOOT_OPTIONS This, IN PCWSTR FriendlyName, IN PCWSTR OsLoaderVolumeName, IN PCWSTR OsLoaderPath, IN PCWSTR BootVolumeName, IN PCWSTR BootPath, IN PCWSTR OsLoadOptions ); typedef BOOLEAN (* OSBODeleteBootEntryMethod)( IN POS_BOOT_OPTIONS This, IN POS_BOOT_ENTRY BootEntry ); typedef BOOLEAN (* OSBOFlushMethod)( IN POS_BOOT_OPTIONS This ); typedef struct _OS_BOOT_OPTIONS { // // Data members // ULONG Version; ULONG Attributes; ULONG Timeout; POS_BOOT_ENTRY CurrentEntry; POS_BOOT_ENTRY BootEntries; ULONG EntryCount; PULONG BootOrder; ULONG BootOrderCount; // // Methods // OSBODeleteMethod Delete; OSBOFlushMethod Flush; OSBOAddNewBootEntryMethod AddNewBootEntry; OSBODeleteBootEntryMethod DeleteBootEntry; } OS_BOOT_OPTIONS; #define OSBO_IS_DIRTY(_osbo) (((POS_BOOT_OPTIONS)(_osbo))->Attributes & OSBE_ATTRIBUTE_DIRTY) #define OSBO_SET_DIRTY(_osbo) (((POS_BOOT_OPTIONS)(_osbo))->Attributes |= OSBE_ATTRIBUTE_DIRTY) #define OSBO_RESET_DIRTY(_osbo) (((POS_BOOT_OPTIONS)(_osbo))->Attributes &= ~OSBE_ATTRIBUTE_DIRTY) // // OS_BOOT_ENTRY Methods // PCWSTR OSBEAddOsLoadOption( IN POS_BOOT_ENTRY This, IN PCWSTR BootOption ); PCWSTR OSBERemoveOsLoadOption( IN POS_BOOT_ENTRY This, IN PCWSTR BootOption ); BOOLEAN OSBEIsOsLoadOptionPresent( IN POS_BOOT_ENTRY This, IN PCWSTR BootOption ); __inline VOID OSBEDelete( IN POS_BOOT_ENTRY This ) { if (This) { (This->Delete)(This); } } __inline BOOLEAN OSBEFlush( IN POS_BOOT_ENTRY This ) { return (This) ? This->Flush(This) : FALSE; } __inline ULONG OSBEGetId( IN POS_BOOT_ENTRY This ) { return (This) ? This->Id : (-1); } __inline PCWSTR OSBEGetFriendlyName( IN POS_BOOT_ENTRY This ) { return (This) ? This->FriendlyName : NULL; } __inline PCWSTR OSBESetFriendlyName( IN POS_BOOT_ENTRY This, IN PCWSTR Name ) { PWSTR NewName = NULL; if (This && Name) { ULONG Size = ARRAY_SIZE(This->FriendlyName); wcsncpy(This->FriendlyName, Name, Size - 1); This->FriendlyName[Size - 1] = UNICODE_NULL; NewName = This->FriendlyName; OSBE_SET_DIRTY(This); OSBO_SET_DIRTY(This->BootOptions); } return NewName; } __inline PCWSTR OSBEGetOsLoaderVolumeName( IN POS_BOOT_ENTRY This ) { return (This) ? This->OsLoaderVolumeName : NULL; } __inline PCWSTR OSBESetOsLoaderVolumeName( IN POS_BOOT_ENTRY This, IN PCWSTR Name ) { PWSTR NewName = NULL; if (This && Name) { ULONG Size = ARRAY_SIZE(This->OsLoaderVolumeName); wcsncpy(This->OsLoaderVolumeName, Name, Size - 1); This->OsLoaderVolumeName[Size - 1] = UNICODE_NULL; NewName = This->OsLoaderVolumeName; OSBE_SET_DIRTY(This); OSBO_SET_DIRTY(This->BootOptions); } return NewName; } __inline PCWSTR OSBEGetOsLoaderPath( IN POS_BOOT_ENTRY This ) { return (This) ? This->OsLoaderPath : NULL; } __inline PCWSTR OSBESetOsLoaderPath( IN POS_BOOT_ENTRY This, IN PCWSTR Name ) { PWSTR NewName = NULL; if (This && Name) { ULONG Size = ARRAY_SIZE(This->OsLoaderPath); wcsncpy(This->OsLoaderPath, Name, Size - 1); This->OsLoaderPath[Size - 1] = UNICODE_NULL; NewName = This->OsLoaderPath; OSBE_SET_DIRTY(This); OSBO_SET_DIRTY(This->BootOptions); } return NewName; } __inline PCWSTR OSBEGetBootVolumeName( IN POS_BOOT_ENTRY This ) { return (This) ? This->BootVolumeName : NULL; } __inline PCWSTR OSBESetBootVolumeName( IN POS_BOOT_ENTRY This, IN PCWSTR Name ) { PWSTR NewName = NULL; if (This && Name) { ULONG Size = ARRAY_SIZE(This->BootVolumeName); wcsncpy(This->BootVolumeName, Name, Size - 1); This->BootVolumeName[Size - 1] = UNICODE_NULL; NewName = This->BootVolumeName; OSBE_SET_DIRTY(This); OSBO_SET_DIRTY(This->BootOptions); } return NewName; } __inline PCWSTR OSBEGetBootPath( IN POS_BOOT_ENTRY This ) { return (This) ? This->BootPath : NULL; } __inline PCWSTR OSBESetBootPath( IN POS_BOOT_ENTRY This, IN PCWSTR Name ) { PWSTR NewName = NULL; if (This && Name) { ULONG Size = ARRAY_SIZE(This->BootPath); wcsncpy(This->BootPath, Name, Size - 1); This->BootPath[Size - 1] = UNICODE_NULL; NewName = This->BootPath; OSBE_SET_DIRTY(This); OSBO_SET_DIRTY(This->BootOptions); } return NewName; } __inline PCWSTR OSBEGetOsLoadOptions( IN POS_BOOT_ENTRY This ) { return (This) ? This->OsLoadOptions : NULL; } __inline PCWSTR OSBESetOsLoadOptions( IN POS_BOOT_ENTRY This, IN PCWSTR LoadOptions ) { WCHAR Buffer[MAX_PATH]; PWSTR NewOptions = NULL; if (This && LoadOptions) { ULONG Size = ARRAY_SIZE(This->OsLoadOptions); wcscpy(Buffer, LoadOptions); _wcsupr(Buffer); wcsncpy(This->OsLoadOptions, Buffer, Size - 1); This->OsLoadOptions[Size - 1] = UNICODE_NULL; NewOptions = This->OsLoadOptions; OSBE_SET_DIRTY(This); OSBO_SET_DIRTY(This->BootOptions); } return NewOptions; } // // OS_BOOT_OPTIONS Methods // __inline BOOLEAN OSBOFlush( IN POS_BOOT_OPTIONS This ) { return (This) ? (This->Flush(This)) : FALSE; } __inline VOID OSBODelete( IN POS_BOOT_OPTIONS This ) { if (This) { This->Delete(This); } } __inline POS_BOOT_ENTRY OSBOAddNewBootEntry( IN POS_BOOT_OPTIONS This, IN PCWSTR FriendlyName, IN PCWSTR OsLoaderVolumeName, IN PCWSTR OsLoaderPath, IN PCWSTR BootVolumeName, IN PCWSTR BootPath, IN PCWSTR OsLoadOptions ) { POS_BOOT_ENTRY Entry = NULL; if (This) { Entry = This->AddNewBootEntry(This, FriendlyName, OsLoaderVolumeName, OsLoaderPath, BootVolumeName, BootPath, OsLoadOptions); OSBO_SET_DIRTY(This); } return Entry; } __inline POS_BOOT_ENTRY OSBOGetActiveBootEntry( IN POS_BOOT_OPTIONS This ) { POS_BOOT_ENTRY Entry = NULL; if (This) { Entry = This->CurrentEntry; } return Entry; } BOOLEAN OSBODeleteBootEntry( IN POS_BOOT_OPTIONS This, IN POS_BOOT_ENTRY BootEntry ); POS_BOOT_ENTRY OSBOSetActiveBootEntry( IN POS_BOOT_OPTIONS This, IN POS_BOOT_ENTRY BootEntry ); POS_BOOT_ENTRY OSBOGetFirstBootEntry( IN POS_BOOT_OPTIONS This, IN PULONG Index ); POS_BOOT_ENTRY OSBOGetNextBootEntry( IN POS_BOOT_OPTIONS This, IN PULONG Index ); ULONG OSBOGetBootEntryCount( IN POS_BOOT_OPTIONS This ); ULONG OSBOGetOrderedBootEntryCount( IN POS_BOOT_OPTIONS This ); ULONG OSBOGetBootEntryIdByOrder( IN POS_BOOT_OPTIONS This, IN ULONG Index ); POS_BOOT_ENTRY OSBOFindBootEntry( IN POS_BOOT_OPTIONS This, IN ULONG Id ); ULONG OSBOFindBootEntryOrder( IN POS_BOOT_OPTIONS This, IN ULONG Id ); __inline ULONG OSBOGetTimeOut( IN POS_BOOT_OPTIONS This ) { return (This) ? This->Timeout : 0; } __inline ULONG OSBOSetTimeOut( IN POS_BOOT_OPTIONS This, IN ULONG Timeout ) { ULONG OldTimeout = 0; if (This) { OldTimeout = This->Timeout; This->Timeout = Timeout; OSBE_SET_DIRTY(This); } return OldTimeout; } __inline ULONG OSBOGetBootEntryCount( IN POS_BOOT_OPTIONS This ) { ULONG Count = 0; if (This) { Count = This->EntryCount; } return Count; } __inline ULONG OSBOGetOrderedBootEntryCount( IN POS_BOOT_OPTIONS This ) { ULONG Count = 0; if (This) { Count = This->BootOrderCount; } return Count; } __inline ULONG OSBOGetBootEntryIdByOrder( IN POS_BOOT_OPTIONS This, IN ULONG Index ) { ULONG Entry = -1; if (Index < OSBOGetOrderedBootEntryCount(This)) { Entry = This->BootOrder[Index]; } return Entry; } __inline BOOLEAN OSBOLibraryInit( SBEMemAllocateRoutine AllocFunction, SBEMemFreeRoutine FreeFunction ) { BOOLEAN Result = FALSE; if (AllocFunction && FreeFunction) { AllocRoutine = AllocFunction; FreeRoutine = FreeFunction; Result = TRUE; } return Result; } // // memory allocation & deallocation routines // __inline void* __cdecl SBE_MALLOC( IN size_t Size ) { return AllocRoutine ? AllocRoutine(Size) : NULL; } __inline void __cdecl SBE_FREE( IN void *Memory ) { if (Memory && FreeRoutine) { FreeRoutine(Memory); } }