/** @file
  This file defines the SPI Host Controller Protocol.

  Copyright (c) 2017, Intel Corporation. All rights reserved.<BR>
  Copyright (C) 2024 Advanced Micro Devices, Inc. All rights reserved.
  SPDX-License-Identifier: BSD-2-Clause-Patent

  @par Revision Reference:
    This Protocol was introduced in UEFI PI Specification 1.8 A.

**/

#ifndef __SPI_HC_PROTOCOL_H__
#define __SPI_HC_PROTOCOL_H__

#include <Protocol/SpiConfiguration.h>
#include <Protocol/SpiIo.h>

///
/// Global ID for the SPI Host Controller Protocol
///
#define EFI_SPI_HOST_GUID  \
  { 0xc74e5db2, 0xfa96, 0x4ae2,   \
    { 0xb3, 0x99, 0x15, 0x97, 0x7f, 0xe3, 0x0, 0x2d }}

///
/// EDK2-style name
///
#define EFI_SPI_HC_PROTOCOL_GUID  EFI_SPI_HOST_GUID

typedef struct _EFI_SPI_HC_PROTOCOL EFI_SPI_HC_PROTOCOL;

/**
  Assert or deassert the SPI chip select.

  This routine is called at TPL_NOTIFY.
  Update the value of the chip select line for a SPI peripheral. The SPI bus
  layer calls this routine either in the board layer or in the SPI controller
  to manipulate the chip select pin at the start and end of a SPI transaction.

  @param[in] This           Pointer to an EFI_SPI_HC_PROTOCOL structure.
  @param[in] SpiPeripheral  The address of an EFI_SPI_PERIPHERAL data structure
                            describing the SPI peripheral whose chip select pin
                            is to be manipulated. The routine may access the
                            ChipSelectParameter field to gain sufficient
                            context to complete the operati on.
  @param[in] PinValue       The value to be applied to the chip select line of
                            the SPI peripheral.

  @retval EFI_SUCCESS            The chip select was set as requested
  @retval EFI_NOT_READY          Support for the chip select is not properly
                                 initialized
  @retval EFI_INVALID_PARAMETER  The ChipSeLect value or its contents are
                                 invalid

**/
typedef EFI_STATUS
(EFIAPI *EFI_SPI_HC_PROTOCOL_CHIP_SELECT)(
  IN CONST EFI_SPI_HC_PROTOCOL  *This,
  IN CONST EFI_SPI_PERIPHERAL   *SpiPeripheral,
  IN BOOLEAN                    PinValue
  );

/**
  Set up the clock generator to produce the correct clock frequency, phase and
  polarity for a SPI chip.

  This routine is called at TPL_NOTIFY.
  This routine updates the clock generator to generate the correct frequency
  and polarity for the SPI clock.

  @param[in] This           Pointer to an EFI_SPI_HC_PROTOCOL structure.
  @param[in] SpiPeripheral  Pointer to a EFI_SPI_PERIPHERAL data structure from
                            which the routine can access the ClockParameter,
                            ClockPhase and ClockPolarity fields. The routine
                            also has access to the names for the SPI bus and
                            chip which can be used during debugging.
  @param[in] ClockHz        Pointer to the requested clock frequency. The SPI
                            host controller will choose a supported clock
                            frequency which is less then or equal to this
                            value. Specify zero to turn the clock generator
                            off. The actual clock frequency supported by the
                            SPI host controller will be returned.

  @retval EFI_SUCCESS      The clock was set up successfully
  @retval EFI_UNSUPPORTED  The SPI controller was not able to support the
                           frequency requested by ClockHz

**/
typedef EFI_STATUS
(EFIAPI *EFI_SPI_HC_PROTOCOL_CLOCK)(
  IN CONST EFI_SPI_HC_PROTOCOL  *This,
  IN CONST EFI_SPI_PERIPHERAL   *SpiPeripheral,
  IN UINT32                      *ClockHz
  );

/**
  Perform the SPI transaction on the SPI peripheral using the SPI host
  controller.

  This routine is called at TPL_NOTIFY.
  This routine synchronously returns EFI_SUCCESS indicating that the
  asynchronous SPI transaction was started. The routine then waits for
  completion of the SPI transaction prior to returning the final transaction
  status.

  @param[in] This            Pointer to an EFI_SPI_HC_PROTOCOL structure.
  @param[in] BusTransaction  Pointer to a EFI_SPI_BUS_ TRANSACTION containing
                             the description of the SPI transaction to perform.

  @retval EFI_SUCCESS          The transaction completed successfully
  @retval EFI_BAD_BUFFER_SIZE  The BusTransaction->WriteBytes value is invalid,
                               or the BusTransaction->ReadinBytes value is
                               invalid
  @retval EFI_UNSUPPORTED      The BusTransaction-> Transaction Type is
                               unsupported

**/
typedef EFI_STATUS
(EFIAPI *EFI_SPI_HC_PROTOCOL_TRANSACTION)(
  IN CONST EFI_SPI_HC_PROTOCOL  *This,
  IN EFI_SPI_BUS_TRANSACTION    *BusTransaction
  );

///
/// Definitions of SPI Host Controller Attributes.
///
#define HC_SUPPORTS_WRITE_ONLY_OPERATIONS       BIT0
#define HC_SUPPORTS_READ_ONLY_OPERATIONS        BIT1
#define HC_SUPPORTS_WRITE_THEN_READ_OPERATIONS  BIT2
#define HC_TX_FRAME_IN_MOST_SIGNIFICANT_BITS    BIT3
#define HC_RX_FRAME_IN_MOST_SIGNIFICANT_BITS    BIT4
#define HC_SUPPORTS_2_BIT_DATA_BUS_WIDTH        BIT5
#define HC_SUPPORTS_4_BIT_DATA_BUS_WIDTH        BIT6
#define HC_SUPPORTS_8_BIT_DATA_BUS_WIDTH        BIT7
#define HC_TRANSFER_SIZE_INCLUDES_OPCODE        BIT8
#define HC_TRANSFER_SIZE_INCLUDES_ADDRESS       BIT9
///
/// Support a SPI data transaction between the SPI controller and a SPI chip.
///
struct _EFI_SPI_HC_PROTOCOL {
  ///
  /// Host control attributes, may have zero or more of the following set:
  /// * HC_SUPPORTS_WRITE_ONLY_OPERATIONS
  /// * HC_SUPPORTS_READ_ONLY_OPERATIONS
  /// * HC_SUPPORTS_WRITE_THEN_READ_OPERATIONS
  /// * HC_TX_FRAME_IN_MOST_SIGNIFICANT_BITS
  ///   - The SPI host controller requires the transmit frame to be in most
  ///     significant bits instead of least significant bits.The host driver
  ///     will adjust the frames if necessary.
  /// * HC_RX_FRAME_IN_MOST_SIGNIFICANT_BITS
  ///   - The SPI host controller places the receive frame to be in most
  ///     significant bits instead of least significant bits.The host driver
  ///     will adjust the frames to be in the least significant bits if
  ///     necessary.
  /// * HC_SUPPORTS_2_BIT_DATA_BUS_W1DTH
  ///   - The SPI controller supports a 2 - bit data bus
  /// * HC_SUPPORTS_4_B1T_DATA_BUS_WIDTH
  ///   - The SPI controller supports a 4 - bit data bus
  /// * HC_TRANSFER_SIZE_INCLUDES_OPCODE
  ///   - Transfer size includes the opcode byte
  /// * HC_TRANSFER_SIZE_INCLUDES_ADDRESS
  ///   - Transfer size includes the 3 address bytes
  /// The SPI host controller must support full - duplex (receive while
  /// sending) operation.The SPI host controller must support a 1 - bit bus
  /// width.
  ///
  UINT32                             Attributes;

  ///
  /// Mask of frame sizes which the SPI host controller supports. Frame size of
  /// N-bits is supported when bit N-1 is set. The host controller must support
  /// a frame size of 8-bits.
  ///
  UINT32                             FrameSizeSupportMask;

  ///
  /// Maximum transfer size in bytes: 1 - Oxffffffff
  ///
  UINT32                             MaximumTransferBytes;

  ///
  /// Assert or deassert the SPI chip select.
  ///
  EFI_SPI_HC_PROTOCOL_CHIP_SELECT    ChipSelect;

  ///
  /// Set up the clock generator to produce the correct clock frequency, phase
  /// and polarity for a SPI chip.
  ///
  EFI_SPI_HC_PROTOCOL_CLOCK          Clock;

  ///
  /// Perform the SPI transaction on the SPI peripheral using the SPI host
  /// controller.
  ///
  EFI_SPI_HC_PROTOCOL_TRANSACTION    Transaction;
};

extern EFI_GUID  gEfiSpiHcProtocolGuid;

#endif // __SPI_HC_PROTOCOL_H__