//********************************************************************** //********************************************************************** //** ** //** (C)Copyright 1985-2014, American Megatrends, Inc. ** //** ** //** All Rights Reserved. ** //** ** //** 5555 Oakbrook Pkwy, Suite 200, Norcross, GA 30093 ** //** ** //** Phone: (770)-246-8600 ** //** ** //********************************************************************** //********************************************************************** //********************************************************************** // $Header: /Alaska/SOURCE/Modules/CSM/Generic/Core/csm.h 92 9/08/15 2:46p Olegi $ // // $Revision: 92 $ // // $Date: 9/08/15 2:46p $ //********************************************************************** //********************************************************************** // // // Name: CSM.H // // Description: AMI CSM header file. // // //********************************************************************** #ifndef __CSM_HEADER__ #define __CSM_HEADER__ #include "efi.h" #include #include #include #include #include #include #include #include #include #ifdef __cplusplus extern "C" { #endif #pragma pack (1) #define EFI_LEGACY_BIOS_GUID \ { 0x2e3044ac, 0x879f, 0x490f, 0x97, 0x60, 0xbb, 0xdf, 0xaf, 0x69, 0x5f, 0x50 } // //---------------------------------------------------------------------------- // Name: EFI_TO_COMPATIBILITY16_INIT_TABLE // // Description: Data structure passed to Compatibility16InitializeYourself // function. // Fields: // BiosLessThan1MB UINT32 Starting address of memory under 1 MB.The ending address is assumed to be 640 KB or 0x9FFFF. // // HiPmmMemory UINT32 Starting address of the high memory block // // HiPmmMemorySizeInBytes UINT32 Length of high memory block // // ReverseThunkCallSegment UINT16 The segment of the reverse thunk call code // // ReverseThunkCallOffset UINT16 The offset of the reverse thunk call code // // Number820Entries UINT32 The number of E820 entries copied to the Compatibility16 BIOS // // OsMemoryAbove1Mb UINT32 The amount of usable memory above 1 MB, e.g., E820 type 1 memory // // ThunkStart UINT32 The start of thunk code in main memory. Memory cannot be used by BIOS or PMM. // // ThunkSizeInBytes UINT32 The size of the thunk code // // LowPmmMemory UINT32 Starting address of memory below 1MB // // LowPmmMemorySizeInBytes UINT32 Length of low Memory block // // Referrals: Compatibility16InitializeYourself // // Notes: - The address of the ReverseThunkCall code is provided in case // the Compatibility16 code needs to invoke a Compatibility16 // function. It is not used to return from this function or any // other traditional BIOS interface function. These functions simply // do a far return. // - CSM16 must handle cases where PMM pointers are NULL. That indicates // that PMM is not supported for that range. If both pointers are NULL // then PMM is not supported. That covers cases where no add-in cards // are supported and/or memory given to EFI. // - CSM16 must initialize PMM regions to zero prior to usage by OpROMs. // CSM16 can not assume the CSM32 had zeroed out the regions. // - CSM16 must monitor for EBDA size increase after OpROM is initalized // and adjust PMM below 1MB, if required. // - BiosLessThan1MB field is maintained for compatibility with the // previous versions of the specification and the CSM16 should not use this // field. The CSM16 should use LowPmmMemory and LowPmmMemorySizeInBytes fields // for the low memory that can be used for PMM. //---------------------------------------------------------------------------- // typedef struct { UINT32 BiosLessThan1MB; UINT32 HiPmmMemory; UINT32 HiPmmMemorySizeInBytes; UINT16 ReverseThunkCallSegment; UINT16 ReverseThunkCallOffset; UINT32 NumberE820Entries; UINT32 OsMemoryAbove1Mb; UINT32 ThunkStart; UINT32 ThunkSizeInBytes; UINT32 LowPmmMemory; UINT32 LowPmmMemorySizeInBytes; } EFI_TO_COMPATIBILITY16_INIT_TABLE; //**************************************************** // CSM16 related equates //**************************************************** // misc_info bits #define CSM16_HEADLESS_INT19_RETRY_BIT 0x80 #define CSM16_I19_TRAP_BIT 0x40 #define CSM16_I13_HDD_MBR_WP_BIT 0x20 #define CSM16_NO_USB_BOOT_BIT 0x10 #define CSM16_NO_KBC_PRESENT_BIT 0x08 #define CSM16_ZIP_HDD_EMUL_BIT 0x04 #define CSM16_FLEXBOOT_ENABLE_BIT 0x02 #define CSM16_FLEXBOOT_ENABLE_SHIFT_CNT 1 #define CSM16_FAST_GATE_A20_BIT 0x01 // rt_cmos_byte bits #define CSM_RT_CMOS_LTE_PONR_BIT 0x02 #define CSM_RT_CMOS_PARITY_BIT 0x08 #define CSM_RT_CMOS_SKIP_GA20_DEACTIVATION_BIT 0x10 #define CSM_RT_CPU_RM_ONBOOT_BIT 0x20 #define CSM_RT_CMOS_PS2_BIT 0x40 #define CSM_RT_CMOS_LTE_BIT 0x80 //**************************************************** // ACPI timer //**************************************************** #define ACPI_TMR_SIGNATURE 0x544D // Signature used is 'TM' #define ACPI_TMR_WIDTH_SHIFT 31 #define ACPI_TMR_SIGNATURE_SHIFT 16 //**************************************************** // Type values //**************************************************** #define STANDARD_IO 0x00 #define STANDARD_MEMORY 0x01 //**************************************************** // PortGranularity values //**************************************************** #define PORT_SIZE_8 0x00 #define PORT_SIZE_16 0x01 #define PORT_SIZE_32 0x02 #define PORT_SIZE_64 0x03 //**************************************************** // DataGranularity values //**************************************************** #define DATA_SIZE_8 0x00 #define DATA_SIZE_16 0x01 #define DATA_SIZE_32 0x02 #define DATA_SIZE_64 0x03 #define EFI_SEGMENT(_Adr) (UINT16)((UINT16) (((UINTN)(_Adr)) >> 4) & 0xf000) #define EFI_OFFSET(_Adr) (UINT16)(((UINT16)((UINTN)_Adr)) & 0xffff) // //---------------------------------------------------------------------------- // Name: SMM_FUNCTION // // Fields: // Function UINT16 Function this Soft SMI is to initiate // Owner UINT16 The definer of the function // //---------------------------------------------------------------------------- // typedef struct { UINT16 Function : 15; UINT16 Owner : 1; } SMM_FUNCTION; //**************************************************************************** // Function values //**************************************************************************** #define INT15_D042 0x0000 #define GET_USB_BOOT_INFO 0x0001 #define DMI_PNP_50_57 0x0002 // // Following is a description of the fields in the above definition. // // INT15_D042 - System Configuration Data functions accessed via INT15 AX=0xD042. // GET_USB_BOOT_INFO - Retrieves USB boot device information for integration with BBS. // DMI_PNP_50_57 - Process the DMI Plug and Play functions 0x50 through // 0x57 via SMM code. // The other values are reserved for future use. // //**************************************************************************** // Owner values //**************************************************************************** #define STANDARD_OWNER 0x0 #define OEM_OWNER 0x1 // // Following is a description of the fields in the above definition. // // STANDARD_OWNER - This document has defined the function. // OEM_OWNER - An agent, other than this document, has defined the function. // // //---------------------------------------------------------------------------- // Name: SMM_ATTRIBUTES // // Fields: // Type UINT16 Access mechanism used to generate the soft SMI // PortGranularity UINT16 Size of "port" in bits // DataGranularity UINT16 Size of data in bits // Reserved UINT16 Reserved for future use // //---------------------------------------------------------------------------- // typedef struct { UINT16 Type : 3; UINT16 PortGranularity : 3; UINT16 DataGranularity : 3; UINT16 Reserved : 7; } SMM_ATTRIBUTES; // //---------------------------------------------------------------------------- // Name: SMM_ENTRY // // Fields: // SmmAttributes SMM_ATTRIBUTES Describes the access mechanism, SmmPort, and SmmData sizes // SmmFunction SMM_FUNCTION Function Soft SMI is to perform // SmmPort UINT16 SmmPort size depends upon SmmAttributes and ranges from 2 bytes to 16 bytes // SmmData UINT16 SmmData size depends upon SmmAttributes and ranges from 2 bytes to 16 bytes // // Referrals: SMM_ATTRIBUTES, SMM_FUNCTION // //---------------------------------------------------------------------------- // typedef struct { SMM_ATTRIBUTES SmmAttributes; SMM_FUNCTION SmmFunction; UINT16 SmmPort; UINT16 SmmData; } SMM_ENTRY; // //---------------------------------------------------------------------------- // Name: SMM_TABLE // // Description: SMM Table definitions; SMM table has a header that provides // the number of entries. Following the header is a variable // length amount of data. // Fields: // NumSmmEntries UINT16 Number of entries represented by SmmEntry // SmmEntry SMM_ENTRY One entry per function // // Referrals: SMM_ENTRY // //---------------------------------------------------------------------------- // typedef struct { UINT16 NumSmmEntries; SMM_ENTRY SmmEntry; } SMM_TABLE; // //---------------------------------------------------------------------------- // Name: LEGACY_DEVICE_FLAGS // // Fields: // A20Kybd UINT32:1 A20 controller by keyboard controller. // A20Port92 UINT32:1 A20 controlled by port 0x92. // Reserved UINT32:30 Reserved for future usage. // // Notes: A20Kybd and A20Port92 are not mutually exclusive. // //---------------------------------------------------------------------------- // typedef struct { UINT32 A20Kybd:1; UINT32 A20Port92:1; UINT32 Reserved:30; } LEGACY_DEVICE_FLAGS; // //---------------------------------------------------------------------------- // Name: DEVICE_PRODUCER_FLOPPY // // Fields: // Address UINT16 I/O address assigned to the floppy // Irq UINT8 IRQ assigned to the floppy. // Dma UINT8 DMA assigned to the floppy. // NumberOfFloppy UINT8 Number of floppies in the system. // //---------------------------------------------------------------------------- // typedef struct { UINT16 Address; UINT8 Irq; UINT8 Dma; UINT8 NumberOfFloppy; } DEVICE_PRODUCER_FLOPPY; typedef enum {FLOPPY_INSERTED, NO_FLOPPY_DISK, NO_FLOPPY_DRIVE} FDD_STATUS; // //---------------------------------------------------------------------------- // Name: DEVICE_PRODUCER_PARALLEL // // Fields: // Address UINT16 I/O address assigned to the parallel port // Irq UINT8 IRQ assigned to the parallel port. // Dma UINT8 DMA assigned to the parallel port. // Mode PARALLEL_MODE Mode of the parallel port. // //---------------------------------------------------------------------------- // //**************************************************************************** // Parallel Mode values //**************************************************************************** #define DEVICE_PARALLEL_MODE_MODE_OUTPUT_ONLY 0x00 #define DEVICE_PARALLEL_MODE_MODE_BIDIRECTIONAL 0x01 #define DEVICE_PARALLEL_MODE_MODE_EPP 0x02 #define DEVICE_PARALLEL_MODE_MODE_ECP 0x03 typedef UINT8 PARALLEL_MODE; typedef struct { UINT16 Address; UINT8 Irq; UINT8 Dma; PARALLEL_MODE Mode; } DEVICE_PRODUCER_PARALLEL; // //---------------------------------------------------------------------------- // Name: DEVICE_PRODUCER_SERIAL // // Fields: // Address UINT16 I/O address assigned to the serial port // Irq UINT8 IRQ assigned to the serial port // Mode SERIAL_MODE Mode of serial port // //---------------------------------------------------------------------------- // //**************************************************************************** // Serial Mode values //**************************************************************************** #define DEVICE_SERIAL_MODE_NORMAL 0x00 #define DEVICE_SERIAL_MODE_IRDA 0x01 #define DEVICE_SERIAL_MODE_ASK_IR 0x02 #define DEVICE_SERIAL_MODE_DUPLEX_HALF 0x00 #define DEVICE_SERIAL_MODE_DUPLEX_FULL 0x10 typedef UINT8 SERIAL_MODE; typedef struct { UINT16 Address; UINT8 Irq; SERIAL_MODE Mode; } DEVICE_PRODUCER_SERIAL; // //---------------------------------------------------------------------------- // Name: DEVICE_PRODUCER_DATA_HEADER // // Fields: // Serial DEVICE_PRODUCER_SERIAL Data for serial port x // Parallel DEVICE_PRODUCER_PARALLEL Data for parallel port x // Floppy DEVICE_PRODUCER_FLOPPY Data for floppy // MousePresent UINT8 Flag to indicate if mouse is present // Flags LEGACY_DEVICE_FLAGS Miscellaneous Boolean state information passed to CSM // // Referrals: DEVICE_PRODUCER_SERIAL, DEVICE_PRODUCER_PARALLEL, // DEVICE_PRODUCER_FLOPPY, LEGACY_DEVICE_FLAGS // //---------------------------------------------------------------------------- // typedef struct { DEVICE_PRODUCER_SERIAL Serial[4]; DEVICE_PRODUCER_PARALLEL Parallel[3]; DEVICE_PRODUCER_FLOPPY Floppy; UINT8 MousePresent; LEGACY_DEVICE_FLAGS Flags; } DEVICE_PRODUCER_DATA_HEADER; // //---------------------------------------------------------------------------- // Name: EFI_TO_COMPATIBILITY16_BOOT_TABLE // // Description: Data structure passed to Compatibility16InitializeYourself // function. // Fields: // MajorVersion UINT16 The EfiCompatibility major version number. // MinorVersion UINT16 The EfiCompatibility minor version number. // AcpiTable UINT32 Location of the RSDT ACPI table. // SmbiosTable UINT32 Location of the SMBIOS table in EFI memory. // SmbiosTableLength UINT32 Length of the SMBIOS table in bytes. // SioData DEVICE_PRODUCER_DATA_HEADER Standard traditional device information. // DevicePathType UINT16 The default boot type. See notes for details. // PciIrqMask UINT16 Mask of which IRQs have been assigned to PCI. // NumberE820Entries UINT32 Number of E820 entries. // HddInfo HDD_INFO Hard disk drive information, including raw Identify Drive data. // NumberBbsEntries UINT32 Number of entries in the BBS table // BbsTable UINT32 Pointer to the BBS table. // SmmTable UINT32 Pointer to the SMM table. // OsMemoryAbove1Mb UINT32 The amount of usable memory above 1 MB, i.e. E820 type 1 memory. // UnconventionalDeviceTable UINT32 Information to boot off an unconventional device like a PARTIES partition. // // Referrals: Compatibility16InitializeYourself, EFI_TO_COMPATIBILITY16_INIT_TABLE, HDD_INFO // // Notes: Following are the defined DevicePathType values: // FD = Floppy // HD = Hard Disk // CDROM = CD-ROM // PCMCIA = PCMCIA // USB = USB // NET = Networks // BEV = BBS BEV devices //---------------------------------------------------------------------------- // //#define MAX_IDE_CONTROLLER 8 #define MAX_IDE_CONTROLLER 12 struct _UD_TABLE; typedef struct { UINT16 MajorVersion; UINT16 MinorVersion; UINT32 AcpiTable; // 4 GB range UINT32 SmbiosTable; // 4 GB range UINT32 SmbiosTableLength; // // Legacy SIO state // DEVICE_PRODUCER_DATA_HEADER SioData; UINT16 DevicePathType; UINT16 PciIrqMask; UINT32 NumberE820Entries; // // Controller & Drive Identify[2] per controller information // HDD_INFO HddInfo[MAX_IDE_CONTROLLER]; UINT32 NumberBbsEntries; UINT32 BbsTable; UINT32 SmmTable; UINT32 OsMemoryAbove1Mb; UINT32 UnconventionalDeviceTable; } EFI_TO_COMPATIBILITY16_BOOT_TABLE; // //---------------------------------------------------------------------------- // Name: EFI_LEGACY_INSTALL_PCI_HANDLER // // Fields: // PciBus UINT8 The PCI bus of the device. // PciDeviceFun UINT8 The PCI device in bits 7:3 and function in bits 2:0. // PciSegment UINT8 The PCI segment of the device. // PciClass UINT8 The PCI class code of the device. // PciSubclass UINT8 The PCI subclass code of the device. // PciInterface UINT8 The PCI interface code of the device. // PrimaryIrq UINT8 The primary device IRQ. // PrimaryReserved UINT8 Reserved. // PrimaryControl UINT16 The primary device control I/O base. // PrimaryBase UINT16 The primary device I/O base. // PrimaryBusMaster UINT16 The primary device bus master I/O base. // SecondaryIrq UINT8 The secondary device IRQ. // SecondaryReserved UINT8 Reserved. // SecondaryControl UINT16 The secondary device control I/O base. // SecondaryBase UINT16 The secondary device I/O base. // SecondaryBusMaster UINT16 The secondary device bus master I/O base. //---------------------------------------------------------------------------- // typedef struct { UINT8 PciBus; UINT8 PciDeviceFun; UINT8 PciSegment; UINT8 PciClass; UINT8 PciSubclass; UINT8 PciInterface; // // Primary section // UINT8 PrimaryIrq; UINT8 PrimaryReserved; UINT16 PrimaryControl; UINT16 PrimaryBase; UINT16 PrimaryBusMaster; // // Secondary section // UINT8 SecondaryIrq; UINT8 SecondaryReserved; UINT16 SecondaryControl; UINT16 SecondaryBase; UINT16 SecondaryBusMaster; } EFI_LEGACY_INSTALL_PCI_HANDLER; // //---------------------------------------------------------------------------- // Name: EFI_DISPATCH_OPROM_TABLE // // Fields: // PnpInstallationCheckSegment UINT16 Segment of the PnpInstallationCheck data structure. // PnpInstallationCheckOffset UINT16 Offset of the PnpInstallationCheck data structure. // OpromSegment UINT16 The segment where the OpROM was placed. Offset is assumed to be 3. // PciBus UINT8 The PCI bus. // PciDeviceFunction UINT8 The PCI device * 0x08 | PCI function. // NumberBbsEntries UINT8 The number of valid BBS table entries upon entry and exit. // BbsTable UINT32 Pointer to the BBS table. // //---------------------------------------------------------------------------- // #define MAX_EXECUTED_OPROMS 32 typedef struct { IN UINT16 PnpInstallationCheckSegment; IN UINT16 PnpInstallationCheckOffset; IN UINT16 OpromSegment; IN UINT8 PciBus; IN UINT8 PciDeviceFunction; IN OUT UINT8 NumberBbsEntries; UINT32 BbsTable; IN UINT16 FinalLocationSegment; } EFI_DISPATCH_OPROM_TABLE; typedef struct { UINTN Seg; UINTN Bus; UINTN Dev; UINTN Fun; UINTN Flags; UINT8 DiskFrom; UINT8 DiskTo; VOID *RomAddress; UINT32 RomSize; } EXECUTED_PCI_ROM; BOOLEAN Int86 ( IN EFI_LEGACY_BIOS_PROTOCOL *This, IN UINT8 BiosInt, IN EFI_IA32_REGISTER_SET *Regs ); BOOLEAN FarCall86 ( IN EFI_LEGACY_BIOS_PROTOCOL *This, IN UINT16 Segment, IN UINT16 Offset, IN EFI_IA32_REGISTER_SET *Regs, IN VOID *Stack, IN UINTN StackSize ); EFI_STATUS CheckPciRom ( IN EFI_LEGACY_BIOS_PROTOCOL *This, IN EFI_HANDLE PciHandle, OUT VOID **RomImage, OPTIONAL OUT UINTN *RomSize, OPTIONAL OUT UINTN *Flags ); EFI_STATUS InstallPciRom ( IN EFI_LEGACY_BIOS_PROTOCOL *This, IN EFI_HANDLE PciHandle, IN VOID **RomImage, OUT UINTN *Flags, OUT UINT8 *DiskStart, OPTIONAL OUT UINT8 *DiskEnd, OPTIONAL OUT VOID **RomShadowAddress, OPTIONAL OUT UINT32 *ShadowedRomSize OPTIONAL ); EFI_STATUS ShadowAllLegacyOproms ( IN EFI_LEGACY_BIOS_PROTOCOL *This ); EFI_STATUS FindEmbeddedRom( UINT16 ModuleId, UINT16 VendorId, UINT16 DeviceId, VOID **ImageStart, UINTN *ImageSize ); EFI_STATUS GetLegacyRegion ( IN EFI_LEGACY_BIOS_PROTOCOL *This, IN UINTN LegacyMemorySize, IN UINTN Region, IN UINTN Alignment, OUT VOID **LegacyMemoryAddress ); EFI_STATUS CopyLegacyRegion ( IN EFI_LEGACY_BIOS_PROTOCOL *This, IN UINTN LegacyMemorySize, IN VOID *LegacyMemoryAddress, IN VOID *LegacyMemorySourceAddress ); EFI_STATUS UnlockShadow( IN UINT8 *Address, IN UINTN Size, OUT UINT32 *LockUnlockAddr, OUT UINT32 *LockUnlockSize ); EFI_STATUS LockShadow( IN UINT32 LockAddr, IN UINT32 LockSize ); EFI_STATUS RemoveDecodingForShadow( IN UINT32 DecodeAddr ); // //---------------------------------------------------------------------------- // Name: AMIIRQ_HEADER // // Description: AMI IRQ Routing Table Header Structure // //---------------------------------------------------------------------------- // typedef struct { UINT32 dSignature; // '$IRT' signature UINT8 bTotalEntries; // total number of slot entries present in the table UINT8 bUsedEntries; // number of used slot entries in the table UINT16 wExclusiveIRQ; // bitmap of IRQs used exclusively for PCI UINT32 dPtrIRQSlotStart; // pointer to start of IRQ slot entries } AMIIRQ_HEADER; // //---------------------------------------------------------------------------- // Name: EFI_ADDON_PCIBUS_TABLE // // Description: Table that holds the information about the buses generated by // P2P bridges that are not listed in $PIR table // //---------------------------------------------------------------------------- // typedef struct { UINT8 Bus; EFI_LEGACY_PIRQ_ENTRY PirqEntry[4]; } EFI_ADDON_PCIBUS_TABLE; //********************************************************************** // // The following sections is a list of the CSM16 APIs. They do not // require definitions and given here for reference only. (And of course // these headers could be used to prepare the interactive help file.) // //********************************************************************** // //---------------------------------------------------------------------------- // Name: Compatibility16InitializeYourself (Function 0) // // Description: Causes the Compatibility16 code to do any internal initialization // required. The EFI_TO_COMPATIBILITY16_INIT_TABLE pointer is passed // into this function. // Input: // AX = Compatibility16InitializeYourself // ES:BX = Pointer to EFI_TO_COMPATIBILITY16_INIT_TABLE // // Output: Status Codes Returned // // Referrals: EFI_TO_COMPATIBILITY16_INIT_TABLE, EFI_IA32_REGISTER_SET // //---------------------------------------------------------------------------- // // //---------------------------------------------------------------------------- // Name: Compatibility16UpdateBbs (Function 1) // // Description: Causes the Compatibility16 BIOS to perform any drive number // translations to match the boot sequence. // Input: // AX = Compatibility16UpdateBbs // ES:BX = Pointer to EFI_TO_COMPATIBILITY16_BOOT_TABLE // // Output: Status Codes Returned // EFI_SUCCESS 0x0000 // // Referrals: EFI_TO_COMPATIBILITY16_BOOT_TABLE, EFI_IA32_REGISTER_SET // //---------------------------------------------------------------------------- // // //---------------------------------------------------------------------------- // Name: Compatibility16PrepareToBoot (Function 2) // // Description: Allows the Compatibility16 code to perform any final actions // before booting. The Compatibility16 code is read/write. // Input: // AX = Compatibility16PrepareToBoot // ES:BX = Pointer to EFI_TO_COMPATIBILITY16_BOOT_TABLE structure // // Output: Status Codes Returned // // Referrals: EFI_TO_COMPATIBILITY16_BOOT_TABLE, DEVICE_PRODUCER_DATA_HEADER // HDD_INFO, BBS_TABLE, BBS_STATUS_FLAGS, SMM_TABLE, UD_TABLE, // UDC_ATTRIBUTES, EFI_IA32_REGISTER_SET // //---------------------------------------------------------------------------- // // //---------------------------------------------------------------------------- // Name: Compatibility16Boot (Function 3) // // Description: Causes the Compatibility16 BIOS to boot. The Compatibility16 // code is Read/Only. // Input: AX = Compatibility16Boot // // Output: Status Codes Returned // // Referrals: EFI_TO_COMPATIBILITY16_BOOT_TABLE, EFI_IA32_REGISTER_SET // //---------------------------------------------------------------------------- // // //---------------------------------------------------------------------------- // Name: Compatibility16RetrieveLastBootDevice (Function 4) // // Description: Allows the Compatibility16 code to get the last device from // which a boot was attempted. This is stored in CMOS and is // the priority number of the last attempted boot device. // // Input: AX = Compatibility16RetrieveLastBootDevice // // Output: AX = Returned status codes: // EFI_SUCCESS 0x0000 // EFI_ABORTED 0x8015 // BX = Priority number of the boot device // // Referrals: EFI_IA32_REGISTER_SET // //---------------------------------------------------------------------------- // // //---------------------------------------------------------------------------- // Name: Compatibility16DispatchOprom (Function 5) // // Description: Allows the Compatibility16 code rehook INT13, INT18, and/or // INT19 after dispatching a legacy OpROM. // Input: AX = Compatibility16DispatchOprom // ES:BX = Pointer to EFI_DISPATCH_OPROM_TABLE // // Output: AX = Returned status codes // BX = Number of non-BBS-compliant devices found. Equals 0 if // BBS compliant. // // Referrals: EFI_DISPATCH_OPROM_TABLE, EFI_IA32_REGISTER_SET // //---------------------------------------------------------------------------- // // //---------------------------------------------------------------------------- // Name: Compatibility16GetTableAddress (Function 6) // // Description: Finds a free area in the 0xFxxxx or 0xExxxx region of the // specified length and returns the address of that region. // Input: AX = Compatibility16GetTableAddress // BX = Allocation region // 00 = Allocate from either 0xE0000 or 0xF0000 64 KB blocks. // Bit 0 = 1 Allocate from 0xF0000 64 KB block // Bit 1 = 1 Allocate from 0xE0000 64 KB block // CX = Requested length in bytes. // DX = Required address alignment. Bit mapped. First non-zero bit // from the right is the alignment. // // Output: AX = Returned status codes: // EFI_SUCCESS 0x0000 // EFI_OUT_OF_RESOURCES 0x8009 // DS:BX = Address of the region // //---------------------------------------------------------------------------- // // //---------------------------------------------------------------------------- // Name: Compatibility16SetKeyboardLeds (Function 7) // // Description: Enables the EfiCompatibility module to do any nonstandard // processing of keyboard LEDs or state. // Input: AX = Compatibility16SetKeyboardLeds // CL = LED status: // Bit 0 - Scroll Lock 0 = Off // Bit 1 - Num Lock // Bit 2 - Caps Lock // Output: Status Codes Returned // //---------------------------------------------------------------------------- // // //---------------------------------------------------------------------------- // Name: Compatibility16InstallPciHandler (Function 8) // // Description: Enables the EfiCompatibility module to install an interrupt // handler for PCI mass media devices that do not have an OpROM // associated with them. An example is SATA // // Input: AX = Compatibility16InstallPciHandler // ES:BX = Pointer to EFI_LEGACY_INSTALL_PCI_HANDLER structure // // Output: Status Codes Returned // // Referrals: EFI_LEGACY_INSTALL_PCI_HANDLER // //---------------------------------------------------------------------------- // #define MAX_DRIVE_NAME 32 typedef struct _DRIVE_DISPLAY_NAME { UINT8 DriveName[MAX_DRIVE_NAME]; } DRIVE_DISPLAY_NAME; typedef struct _IDE_CONTROLLER_INFO_STRUC { UINT16 BusDevFun; // Bus, Device and Function number UINT8 ControllerNo; // Controller number for IDE controller } IDE_CONTROLLER_INFO_STRUC; typedef struct { UINT8 ThunkCode[0x4000]; // 12KB = 4KB of code + 8KB of stack UINT8 InterruptRedirectionCode[24]; // 3 bytes of code per interrupt EFI_TO_COMPATIBILITY16_INIT_TABLE Csm16InitTable; EFI_TO_COMPATIBILITY16_BOOT_TABLE Csm16BootTable; EFI_LEGACY_INSTALL_PCI_HANDLER PciHandler; EFI_DISPATCH_OPROM_TABLE DispatchOpromTable; DRIVE_DISPLAY_NAME DriveDisplayName[2*MAX_IDE_CONTROLLER]; } THUNK_MEMORY; #define MAX_E820_ENTRIES 256 typedef enum { MemRangeAvl = 1, MemRangeRes = 2, MemRangeAcpiReclaim = 3, MemRangeAcpiNVS = 4 } E820_MEMORY_TYPE; #define E820_EXTATTR_ADDRESS_RANGE_ENABLED 1 #define E820_EXTATTR_ADDRESS_RANGE_NONVOLATILE 2 typedef struct { UINT64 Adr; UINT64 Len; E820_MEMORY_TYPE Type; UINT32 ExtendedAttr; } E820_ENTRY; #define PMM_TABLE_SIZE 0x1000 #define PMM_SYSTEM_HANDLE 0x24494D41 // Handle used by AMIBIOS 'AMI$' #define EFI_MEMORY_HANDLE 0x24494645 // Handle used by EFI Memory 'EFI$' typedef struct { UINT32 StartAddress; // Start address of the memory block UINT32 Size; // Size of the memory block in bytes UINT32 Handle; // Associated handle UINT8 Reserved[4]; // Reserved for future use } MEMORY_ALLOCATION_ENTRY; typedef struct { UINT32 Signature; UINT8 Revision; UINT8 Length; UINT16 NextHeaderOffset; UINT8 Reserved; UINT8 Checksum; UINT32 DevId; UINT16 MfgPtr; UINT16 ProductNamePtr; UINT8 Class; UINT8 SubClass; UINT8 Interface; UINT8 DevIndicators; UINT16 BCV; UINT16 DisconnectVector; UINT16 BEV; UINT16 Reserved1; UINT16 StaticResourceVector; } PCI_PNP_EXPANSION_HEADER; #define MAX_BCV_OPROMS 32 typedef struct { UINT8 *Address; UINT8 *Data; UINT8 *rtData; UINT8 *rtDataAddr; UINT32 rtDataSize; BOOLEAN isEbda; UINT32 ebdaOffset; } SAVED_PCI_ROM; typedef struct { UINT8 irq_num; UINT32 irq_adr; } IVT_SAVE_RESTORE; // //---------------------------------------------------------------------------- // Name: BIOS_INFO // // Description: // This structure is not specified in CSM specification. It defines the useful // fields for the global variable to be used throughout POST. // // Fields: // iBios EFI_LEGACY_BIOS_PROTOCOL LegacyBios instance pointer // iRegion EFI_LEGACY_REGION_PROTOCOL LegacyRegion instance pointer // iBiosPlatform EFI_LEGACY_BIOS_PLATFORM_PROTOCOL LegacyPlatform instance pointer // iInterrupt EFI_LEGACY_INTERRUPT_PROTOCOL LegacyInterrupt instance pointer // i8259 EFI_LEGACY_8259_PROTOCOL Legacy8259 instance pointer // hBios EFI_HANDLE // hImage EFI_HANDLE This driver LoadedImage handle // hVga EFI_HANDLE Video controller handle // Csm16Header EFI_COMPATIBILITY16_TABLE Pointer to CSM16 header // Thunk THUNK_MEMORY Pointer to thunk memory area // Csm16EntrySeg UINT16 CSM16 entry point segment // Csm16EntryOfs UINT16 CSM16 entry point offset // BbsTable BBS_TABLE BBS table pointer // BbsEntriesNo UINT8 Number of BBS entries // HddCount UINT8 Number of hard disks in the system // E820Map E820_ENTRY E820 memory map entries // NumberE820Entries UINT16 Number of E820 entries populated // //---------------------------------------------------------------------------- // typedef struct { EFI_LEGACY_BIOS_PROTOCOL iBios; EFI_LEGACY_REGION_PROTOCOL *iRegion; EFI_LEGACY_BIOS_PLATFORM_PROTOCOL *iBiosPlatform; EFI_LEGACY_INTERRUPT_PROTOCOL *iInterrupt; EFI_LEGACY_8259_PROTOCOL *i8259; EFI_HANDLE hBios; EFI_HANDLE hImage; EFI_HANDLE hVga; EFI_COMPATIBILITY16_TABLE *Csm16Header; THUNK_MEMORY *Thunk; UINT16 Csm16EntrySeg; UINT16 Csm16EntryOfs; BBS_TABLE *BbsTable; UINT8 BbsEntriesNo; UINT8 HddCount; E820_ENTRY E820Map[MAX_E820_ENTRIES]; UINT16 NumberE820Entries; } BIOS_INFO; typedef struct { EFI_HANDLE hImage; EFI_HANDLE hBios; EFI_LEGACY_BIOS_PLATFORM_PROTOCOL iBiosPlatform; } PLATFORM_BIOS_INFO; EFI_STATUS BspUpdatePrt( IN EFI_LEGACY_BIOS_PROTOCOL *This, IN VOID *RoutingTable ); typedef struct _OEMINT_FUNC { UINT16 interrupt; UINT16 funcoffset; } OEMINT_FUNC; typedef struct _OEM16_FUNC { UINT16 funcID; UINT16 funcOffset; } OEM16_FUNC; typedef struct _LEGACY16_TO_EFI_DATA_TABLE_EXT { LEGACY16_TO_EFI_DATA_TABLE_STRUC PublicData; UINT16 RbMinBusArrayOfs; UINT8 RbArrayCount; } LEGACY16_TO_EFI_DATA_TABLE_EXT; typedef struct { struct { UINT16 Offset; UINT16 Segment; } FarCall; EFI_IA32_REGISTER_SET Regs; struct { UINT32 Stack; UINT32 StackSize; } StackData; BOOLEAN isFarCall; //if false, then INT86. UINT8 BiosInt; } AMI_CSM_THUNK_DATA; EFI_STATUS Get16BitFuncAddress (UINT16, UINT32*); UINTN CopyLegacyTable(VOID*, UINT16, UINT16, UINT16); EFI_STATUS GetEmbeddedRom(UINT16, UINT16, UINT16, VOID**, UINTN*); EFI_STATUS GetBbsTable (BBS_TABLE**, UINT8*); EFI_STATUS AddBbsEntry(BBS_TABLE*); EFI_STATUS InsertBbsEntryAt(EFI_LEGACY_BIOS_EXT_PROTOCOL*, BBS_TABLE*, UINT8*); EFI_STATUS RemoveBbsEntryAt(EFI_LEGACY_BIOS_EXT_PROTOCOL*, UINT8); EFI_STATUS AllocateEbda(EFI_LEGACY_BIOS_EXT_PROTOCOL*, UINT8, UINT32*, UINT32*); EFI_STATUS UnlockShadow(UINT8*, UINTN, UINT32*, UINT32*); EFI_STATUS LockShadow(UINT32, UINT32); EFI_STATUS InitCompatibility16(BIOS_INFO*, EFI_SYSTEM_TABLE*); EFI_STATUS InitializeThunk(BIOS_INFO*); EFI_STATUS InitializeLegacyMemory(BIOS_INFO*); EFI_STATUS PrepareToBoot(EFI_LEGACY_BIOS_PROTOCOL*, UINT16*, struct _BBS_TABLE**); EFI_STATUS LegacyBoot(EFI_LEGACY_BIOS_PROTOCOL*, BBS_BBS_DEVICE_PATH*, UINT32, VOID*); EFI_STATUS GetBbsInfo(EFI_LEGACY_BIOS_PROTOCOL*, UINT16*, HDD_INFO**, UINT16*, BBS_TABLE**); EFI_STATUS UpdateKeyboardLedStatus(EFI_LEGACY_BIOS_PROTOCOL*, UINT8); EFI_STATUS EnableDisableNmi(); //EFI_STATUS GetAtaAtapiInfo(HDD_INFO**); VOID HaltApsBeforeBoot(); VOID InstallLegacyMassStorageDevices(); VOID GetExtendedMemSize(UINT32*); UINT32 UpdateE820Map(E820_ENTRY *); EFI_STATUS UpdateCsm16Configuration(EFI_TO_COMPATIBILITY16_BOOT_TABLE*); EFI_STATUS InitCsmBoard(EFI_HANDLE, EFI_SYSTEM_TABLE*); EFI_STATUS InitCsmSimpleIn(EFI_HANDLE, EFI_SYSTEM_TABLE*); EFI_STATUS UpdateCmos(); EFI_STATUS InitializePortingHooks (BIOS_INFO*); OEM16_FUNC* InitializeOemInt(UINT16*); UINTN InitializeOem16(UINT16*); FDD_STATUS GetFDDStatus(); VOID AllConnectedCallback (EFI_EVENT, VOID*); EFI_STATUS GetPlatformEmbeddedRom(UINT16, UINT16, UINT16, VOID**, UINTN*); EFI_STATUS GetComPortResource(UINT8, UINT16*, UINT8*); EFI_STATUS GetLptResource(UINT16*, UINT8*); VOID UpdatePciLastBusCallback(EFI_EVENT, VOID*); EFI_STATUS GetPlatformPciEmbeddedRom(EFI_PCI_IO_PROTOCOL*, VOID**, UINTN*); EFI_STATUS CheckOemPciSiblings(EFI_PCI_IO_PROTOCOL*, EXECUTED_PCI_ROM*); EFI_STATUS EnableOemPciSiblings(EFI_PCI_IO_PROTOCOL*); EFI_STATUS InstallIsaRom(EFI_LEGACY_BIOS_EXT_PROTOCOL*, UINTN); EFI_STATUS GetShadowRamAddress(UINT32*, UINT32, UINT32, UINT32); // SD class/subclass defined in PCI.H in 4.6.3.7 #ifndef PCI_CL_SYSTEM_PERIPHERALS #define PCI_CL_SYSTEM_PERIPHERALS 0x08 #endif #ifndef PCI_CL_SYSTEM_PERIPHERALS_SCL_SD #define PCI_CL_SYSTEM_PERIPHERALS_SCL_SD 0x05 #endif VOID DisconnectSerialIO(); VOID ConnectSerialIO(); EFI_STATUS LockConsole(); EFI_STATUS UnlockConsole(); BOOLEAN IsAMICSM16(EFI_COMPATIBILITY16_TABLE*); UINT8 ChecksumCSM16Header(EFI_COMPATIBILITY16_TABLE*); EFI_STATUS GetSystemMemoryMap(EFI_MEMORY_DESCRIPTOR**, UINTN*,UINTN*); EFI_STATUS ClearFreeMemory(EFI_PHYSICAL_ADDRESS,EFI_PHYSICAL_ADDRESS); EFI_STATUS Csm16Configuration(CSM16_CONFIGURATION_ACTION, CSM16_FEATURE, UINT32*); EFI_STATUS AllocateHiMemPmmBlock(UINTN, UINTN*); VOID FreePmmBeforeBoot (EFI_EVENT, VOID*); #pragma pack () /****** DO NOT WRITE BELOW THIS LINE *******/ #ifdef __cplusplus } #endif #endif //********************************************************************** //********************************************************************** //** ** //** (C)Copyright 1985-2014, American Megatrends, Inc. ** //** ** //** All Rights Reserved. ** //** ** //** 5555 Oakbrook Pkwy, Suite 200, Norcross, GA 30093 ** //** ** //** Phone: (770)-246-8600 ** //** ** //********************************************************************** //**********************************************************************