tegrakernel/kernel/nvidia/drivers/spi/aon-spi-messages.h

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2022-02-16 09:13:02 -06:00
/*
* Copyright (c) 2016, NVIDIA CORPORATION. All rights reserved.
*
* NVIDIA CORPORATION and its licensors retain all intellectual property
* and proprietary rights in and to this software, related documentation
* and any modifications thereto. Any use, reproduction, disclosure or
* distribution of this software and related documentation without an express
* license agreement from NVIDIA CORPORATION is strictly prohibited.
*/
#ifndef _AON_SPI_MESSAGES_H_
#define _AON_SPI_MESSAGES_H_
#include <linux/types.h>
#define TEGRA_IVC_ALIGN 64
/* 24640 is emperically derived by observing the max len transactions
* touch.
*/
#define AON_SPI_MAX_DATA_SIZE 24640
/* All the enums and the fields inside the structs described in this header
* file supports only uX type, where X can be 8,16,32. For inter CPU commun-
* ication, it is more stable to use this type.
*/
/* This enum represents the types of spi requests assocaited
* with AON.
*/
enum aon_spi_request_type {
AON_SPI_REQUEST_TYPE_INIT = 1,
AON_SPI_REQUEST_TYPE_SETUP = 2,
AON_SPI_REQUEST_TYPE_XFER = 3,
AON_SPI_REQUEST_TYPE_SUSPEND = 4,
AON_SPI_REQUEST_TYPE_RESUME = 5,
};
/*
* This enum indicates the status of the request from CCPLEX.
*/
enum aon_spi_status {
AON_SPI_STATUS_OK = 0,
AON_SPI_STATUS_ERROR = 1,
};
/* This enum represents whether the current SPI transaction
* is a read or write. Also indicates whether the current
* message is the first or last in the context of a big xfer
* split into multiple xfers.
*/
enum aon_spi_xfer_flag {
AON_SPI_XFER_FLAG_WRITE = BIT(1),
AON_SPI_XFER_FLAG_READ = BIT(2),
AON_SPI_XFER_FIRST_MSG = BIT(3),
AON_SPI_XFER_LAST_MSG = BIT(4),
AON_SPI_XFER_HANDLE_CACHE = BIT(5),
};
/* This struct is used to setup the SPI client setup for AON
* SPI controller.
* Fields:
* cs_setup_clk_count: CS pin setup clock count
* cs_hold_clk_count: CS pin hold clock count
* cs_inactive_cycles: CS pin inactive clock count
* set_rx_tap_delay: Specify if the SPI device need to set
RX tap delay
* spi_max_clk_rate: Specify the default clock rate of SPI client
* spi_no_dma: Flag to indicate pio or dma mode
*/
struct aon_spi_setup_request {
u32 cs_setup_clk_count;
u32 cs_hold_clk_count;
u32 cs_inactive_cycles;
u32 spi_max_clk_rate;
u8 chip_select;
u8 set_rx_tap_delay;
bool spi_no_dma;
};
/* This struct indicates the parameters for SPI xfer from CCPLEX to SPE.
* Fields:
* spi_clk_rate: Specify clock rate for current transfer
* flags: Indicate first/last message
* length: Current transfer length
* tx_buf_offset: Offset in the data field of the aon_spi_xfer_request
* struct for tx_buf contents. The buffer memory need to
* be aligned for DMA transfer
* rx_buf_offset: Offset in the data field of the aon_spi_xfer_request
* struct for rx_buf. The buffer memory need to be
* aligned for DMA transfer
* chip_select: Chip select of the slave device
* bits_per_word: Select bits_per_word
* tx_nbits: Number of bits used for writing
* rx_nbits: Number of bits used for reading
*
* When SPI can transfer in 1x,2x or 4x. It can get this tranfer information
* from device through tx_nbits and rx_nbits. In Bi-direction, these
* two should both be set. User can set transfer mode with SPI_NBITS_SINGLE(1x)
* SPI_NBITS_DUAL(2x) and SPI_NBITS_QUAD(4x) to support these three transfer.
*/
struct aon_spi_xfer_params {
u32 spi_clk_rate;
/* enum aon_spi_xfer_flag */
u16 flags;
u16 length;
u16 tx_buf_offset;
u16 rx_buf_offset;
u16 mode;
u8 chip_select;
u8 bits_per_word;
u8 tx_nbits;
u8 rx_nbits;
};
/* This struct indicates the contents of the xfer request from CCPLEX to SPE
* for the AON SPI controller.
*
* Fields:
* xfers; Paramters for the current transfers.
* data: Buffer that holds the data for the current SPI ransaction.
* The size is aligned to the size of the cache line.
*/
struct aon_spi_xfer_request {
union {
struct aon_spi_xfer_params xfers;
u8 align_t[TEGRA_IVC_ALIGN - sizeof(u32)];
};
u8 data[AON_SPI_MAX_DATA_SIZE];
};
/* This structure indicates the contents of the response from the remote CPU
* i.e SPE for the previously requested transaction via CCPLEX proxy driver.
*
* Fields:
* data: This just matches the data field in the xfer request struct.
* All the response is stored in this buf and can be accessed by
* the offset fields known in the xfer params.
*/
struct aon_spi_xfer_response {
union {
u8 align_t[TEGRA_IVC_ALIGN - sizeof(u32)];
};
u8 data[AON_SPI_MAX_DATA_SIZE];
};
/* This structure indicates the current SPI request from CCPLEX to SPE for the
* AON SPI controller.
*
* Fields:
* req_type: Indicates the type of request. Supports init, setup and xfer.
* data: Union of structs of all the request types.
*/
struct aon_spi_request {
/* enum aon_spi_request_type */
u32 req_type;
union {
struct aon_spi_setup_request setup;
struct aon_spi_xfer_request xfer;
} data;
};
/* This structure indicates the response for the SPI request from SPE to CCPLEX
* for the AON SPI controller.
*
* Fields:
* status: Response in regard to the request i.e success/failure.
* data: Union of structs of all the response types.
*/
struct aon_spi_response {
u32 status;
union {
struct aon_spi_xfer_response xfer;
} data;
};
#endif