/** @file This file defines the EFI SPI Protocol which implements the Intel(R) ICH SPI Host Controller Compatibility Interface. Copyright (c) 2013-2015 Intel Corporation. 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. **/ #ifndef _SPI_H_ #define _SPI_H_ // // Define the SPI protocol GUID // // EDK and EDKII have different GUID formats // #if !defined(EDK_RELEASE_VERSION) || (EDK_RELEASE_VERSION < 0x00020000) #define EFI_SPI_PROTOCOL_GUID \ { \ 0x1156efc6, 0xea32, 0x4396, 0xb5, 0xd5, 0x26, 0x93, 0x2e, 0x83, 0xc3, 0x13 \ } #define EFI_SMM_SPI_PROTOCOL_GUID \ { \ 0xD9072C35, 0xEB8F, 0x43ad, 0xA2, 0x20, 0x34, 0xD4, 0x0E, 0x2A, 0x82, 0x85 \ } #else #define EFI_SPI_PROTOCOL_GUID \ { \ 0x1156efc6, 0xea32, 0x4396, \ { \ 0xb5, 0xd5, 0x26, 0x93, 0x2e, 0x83, 0xc3, 0x13 \ } \ } #define EFI_SMM_SPI_PROTOCOL_GUID \ { \ 0xD9072C35, 0xEB8F, 0x43ad, \ { \ 0xA2, 0x20, 0x34, 0xD4, 0x0E, 0x2A, 0x82, 0x85 \ } \ } #endif // // Extern the GUID for protocol users. // extern EFI_GUID gEfiSpiProtocolGuid; extern EFI_GUID gEfiSmmSpiProtocolGuid; // // Forward reference for ANSI C compatibility // typedef struct _EFI_SPI_PROTOCOL EFI_SPI_PROTOCOL; // // SPI protocol data structures and definitions // // // Number of Prefix Opcodes allowed on the SPI interface // #define SPI_NUM_PREFIX_OPCODE 2 // // Number of Opcodes in the Opcode Menu // #define SPI_NUM_OPCODE 8 #ifdef SERVER_BIOS_FLAG // // SPI default opcode slots // #define SPI_OPCODE_JEDEC_ID_INDEX 0 #endif // SERVER_BIOS_FLAG // // Opcode Type // EnumSpiOpcodeCommand: Command without address // EnumSpiOpcodeRead: Read with address // EnumSpiOpcodeWrite: Write with address // typedef enum { EnumSpiOpcodeReadNoAddr, EnumSpiOpcodeWriteNoAddr, EnumSpiOpcodeRead, EnumSpiOpcodeWrite, EnumSpiOpcodeMax } SPI_OPCODE_TYPE; typedef enum { EnumSpiCycle20MHz, EnumSpiCycle33MHz, EnumSpiCycle66MHz, // not supported by PCH EnumSpiCycle50MHz, EnumSpiCycleMax } SPI_CYCLE_FREQUENCY; typedef enum { EnumSpiRegionAll, EnumSpiRegionBios, EnumSpiRegionMe, EnumSpiRegionGbE, EnumSpiRegionDescriptor, EnumSpiRegionPlatformData, EnumSpiRegionMax } SPI_REGION_TYPE; // // Hardware Sequencing required operations (as listed in CougarPoint EDS Table 5-55: "Hardware // Sequencing Commands and Opcode Requirements" // typedef enum { EnumSpiOperationWriteStatus, EnumSpiOperationProgramData_1_Byte, EnumSpiOperationProgramData_64_Byte, EnumSpiOperationReadData, EnumSpiOperationWriteDisable, EnumSpiOperationReadStatus, EnumSpiOperationWriteEnable, EnumSpiOperationFastRead, EnumSpiOperationEnableWriteStatus, EnumSpiOperationErase_256_Byte, EnumSpiOperationErase_4K_Byte, EnumSpiOperationErase_8K_Byte, EnumSpiOperationErase_64K_Byte, EnumSpiOperationFullChipErase, EnumSpiOperationJedecId, EnumSpiOperationDualOutputFastRead, EnumSpiOperationDiscoveryParameters, EnumSpiOperationOther, EnumSpiOperationMax } SPI_OPERATION; // // Opcode menu entries // Type Operation Type (value to be programmed to the OPTYPE register) // Code The opcode (value to be programmed to the OPMENU register) // Frequency The expected frequency to be used (value to be programmed to the SSFC // Register) // Operation Which Hardware Sequencing required operation this opcode respoinds to. // The required operations are listed in EDS Table 5-55: "Hardware // Sequencing Commands and Opcode Requirements" // If the opcode does not corresponds to any operation listed, use // EnumSpiOperationOther // typedef struct _SPI_OPCODE_MENU_ENTRY { SPI_OPCODE_TYPE Type; UINT8 Code; SPI_CYCLE_FREQUENCY Frequency; SPI_OPERATION Operation; } SPI_OPCODE_MENU_ENTRY; // // Initialization data table loaded to the SPI host controller // VendorId Vendor ID of the SPI device // DeviceId0 Device ID0 of the SPI device // DeviceId1 Device ID1 of the SPI device // PrefixOpcode Prefix opcodes which are loaded into the SPI host controller // OpcodeMenu Opcodes which are loaded into the SPI host controller Opcode Menu // BiosStartOffset The offset of the start of the BIOS image relative to the flash device. // Please note this is a Flash Linear Address, NOT a memory space address. // This value is platform specific and depends on the system flash map. // This value is only used on non Descriptor mode. // BiosSize The the BIOS Image size in flash. This value is platform specific // and depends on the system flash map. Please note BIOS Image size may // be smaller than BIOS Region size (in Descriptor Mode) or the flash size // (in Non Descriptor Mode), and in this case, BIOS Image is supposed to be // placed at the top end of the BIOS Region (in Descriptor Mode) or the flash // (in Non Descriptor Mode) // typedef struct _SPI_INIT_TABLE { UINT8 VendorId; UINT8 DeviceId0; UINT8 DeviceId1; UINT8 PrefixOpcode[SPI_NUM_PREFIX_OPCODE]; SPI_OPCODE_MENU_ENTRY OpcodeMenu[SPI_NUM_OPCODE]; UINTN BiosStartOffset; UINTN BiosSize; } SPI_INIT_TABLE; // // Public Info struct to show current initialized state of the spi interface. // OpcodeIndex must be less then SPI_NUM_OPCODE for operation to be supported. // typedef struct _SPI_INIT_INFO { SPI_INIT_TABLE *InitTable; UINT8 JedecIdOpcodeIndex; UINT8 OtherOpcodeIndex; UINT8 WriteStatusOpcodeIndex; UINT8 ProgramOpcodeIndex; UINT8 ReadOpcodeIndex; UINT8 EraseOpcodeIndex; UINT8 ReadStatusOpcodeIndex; UINT8 FullChipEraseOpcodeIndex; } SPI_INIT_INFO; // // Protocol member functions // typedef EFI_STATUS (EFIAPI *EFI_SPI_INIT) ( IN EFI_SPI_PROTOCOL * This, IN SPI_INIT_TABLE * InitTable ); /*++ Routine Description: Initializes the host controller to execute SPI commands. Arguments: This Pointer to the EFI_SPI_PROTOCOL instance. InitTable Pointer to caller-allocated buffer containing the SPI interface initialization table. Returns: EFI_SUCCESS Opcode initialization on the SPI host controller completed. EFI_ACCESS_DENIED The SPI configuration interface is locked. EFI_OUT_OF_RESOURCES Not enough resource available to initialize the device. EFI_DEVICE_ERROR Device error, operation failed. --*/ typedef EFI_STATUS (EFIAPI *EFI_SPI_LOCK) ( IN EFI_SPI_PROTOCOL * This ); /*++ Routine Description: Lock the SPI Static Configuration Interface. Once locked, the interface is no longer open for configuration changes. The lock state automatically clears on next system reset. Arguments: This Pointer to the EFI_SPI_PROTOCOL instance. Returns: EFI_SUCCESS Lock operation succeed. EFI_DEVICE_ERROR Device error, operation failed. EFI_ACCESS_DENIED The interface has already been locked. --*/ typedef EFI_STATUS (EFIAPI *EFI_SPI_EXECUTE) ( IN EFI_SPI_PROTOCOL * This, IN UINT8 OpcodeIndex, IN UINT8 PrefixOpcodeIndex, IN BOOLEAN DataCycle, IN BOOLEAN Atomic, IN BOOLEAN ShiftOut, IN UINTN Address, IN UINT32 DataByteCount, IN OUT UINT8 *Buffer, IN SPI_REGION_TYPE SpiRegionType ); /*++ Routine Description: Execute SPI commands from the host controller. Arguments: This Pointer to the EFI_SPI_PROTOCOL instance. OpcodeIndex Index of the command in the OpCode Menu. PrefixOpcodeIndex Index of the first command to run when in an atomic cycle sequence. DataCycle TRUE if the SPI cycle contains data Atomic TRUE if the SPI cycle is atomic and interleave cycles are not allowed. ShiftOut If DataByteCount is not zero, TRUE to shift data out and FALSE to shift data in. Address In Descriptor Mode, for Descriptor Region, GbE Region, ME Region and Platform Region, this value specifies the offset from the Region Base; for BIOS Region, this value specifies the offset from the start of the BIOS Image. In Non Descriptor Mode, this value specifies the offset from the start of the BIOS Image. Please note BIOS Image size may be smaller than BIOS Region size (in Descriptor Mode) or the flash size (in Non Descriptor Mode), and in this case, BIOS Image is supposed to be placed at the top end of the BIOS Region (in Descriptor Mode) or the flash (in Non Descriptor Mode) DataByteCount Number of bytes in the data portion of the SPI cycle. Buffer Pointer to caller-allocated buffer containing the dada received or sent during the SPI cycle. SpiRegionType SPI Region type. Values EnumSpiRegionBios, EnumSpiRegionGbE, EnumSpiRegionMe, EnumSpiRegionDescriptor, and EnumSpiRegionPlatformData are only applicable in Descriptor mode. Value EnumSpiRegionAll is applicable to both Descriptor Mode and Non Descriptor Mode, which indicates "SpiRegionOffset" is actually relative to base of the 1st flash device (i.e., it is a Flash Linear Address). Returns: EFI_SUCCESS Command succeed. EFI_INVALID_PARAMETER The parameters specified are not valid. EFI_UNSUPPORTED Command not supported. EFI_DEVICE_ERROR Device error, command aborts abnormally. --*/ typedef EFI_STATUS (EFIAPI *EFI_SPI_INFO) ( IN EFI_SPI_PROTOCOL *This, OUT SPI_INIT_INFO **InitInfoPtr ); /*++ Routine Description: Return info about SPI host controller, to help callers usage of Execute service. If 0xff is returned as an opcode index in init info struct then device does not support the operation. Arguments: This Pointer to the EFI_SPI_PROTOCOL instance. InitInfoPtr Pointer to init info written to this memory location. Returns: EFI_SUCCESS Information returned. EFI_INVALID_PARAMETER Invalid parameter. EFI_NOT_READY Required resources not setup. Others Unexpected error happened. --*/ // // Protocol definition // struct _EFI_SPI_PROTOCOL { EFI_SPI_INIT Init; EFI_SPI_LOCK Lock; EFI_SPI_EXECUTE Execute; EFI_SPI_INFO Info; }; #endif