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/* SPDX-License-Identifier: GPL-2.0-only */
/**
* Copyright (C) ST-Ericsson SA 2010
* Author: Shujuan Chen <shujuan.chen@stericsson.com> for ST-Ericsson.
* Author: Jonas Linde <jonas.linde@stericsson.com> for ST-Ericsson.
* Author: Joakim Bech <joakim.xx.bech@stericsson.com> for ST-Ericsson.
* Author: Berne Hebark <berne.herbark@stericsson.com> for ST-Ericsson.
* Author: Niklas Hernaeus <niklas.hernaeus@stericsson.com> for ST-Ericsson.
*/
#ifndef _CRYP_H_
#define _CRYP_H_
#include <linux/completion.h>
#include <linux/dmaengine.h>
#include <linux/klist.h>
#include <linux/mutex.h>
#define DEV_DBG_NAME "crypX crypX:"
/* CRYP enable/disable */
enum cryp_crypen {
CRYP_CRYPEN_DISABLE = 0,
CRYP_CRYPEN_ENABLE = 1
};
/* CRYP Start Computation enable/disable */
enum cryp_start {
CRYP_START_DISABLE = 0,
CRYP_START_ENABLE = 1
};
/* CRYP Init Signal enable/disable */
enum cryp_init {
CRYP_INIT_DISABLE = 0,
CRYP_INIT_ENABLE = 1
};
/* Cryp State enable/disable */
enum cryp_state {
CRYP_STATE_DISABLE = 0,
CRYP_STATE_ENABLE = 1
};
/* Key preparation bit enable */
enum cryp_key_prep {
KSE_DISABLED = 0,
KSE_ENABLED = 1
};
/* Key size for AES */
#define CRYP_KEY_SIZE_128 (0)
#define CRYP_KEY_SIZE_192 (1)
#define CRYP_KEY_SIZE_256 (2)
/* AES modes */
enum cryp_algo_mode {
CRYP_ALGO_TDES_ECB,
CRYP_ALGO_TDES_CBC,
CRYP_ALGO_DES_ECB,
CRYP_ALGO_DES_CBC,
CRYP_ALGO_AES_ECB,
CRYP_ALGO_AES_CBC,
CRYP_ALGO_AES_CTR,
CRYP_ALGO_AES_XTS
};
/* Cryp Encryption or Decryption */
enum cryp_algorithm_dir {
CRYP_ALGORITHM_ENCRYPT,
CRYP_ALGORITHM_DECRYPT
};
/* Hardware access method */
enum cryp_mode {
CRYP_MODE_POLLING,
CRYP_MODE_INTERRUPT,
CRYP_MODE_DMA
};
/**
* struct cryp_config -
* @keysize: Key size for AES
* @algomode: AES modes
* @algodir: Cryp Encryption or Decryption
*
* CRYP configuration structure to be passed to set configuration
*/
struct cryp_config {
int keysize;
enum cryp_algo_mode algomode;
enum cryp_algorithm_dir algodir;
};
/**
* struct cryp_protection_config -
* @privilege_access: Privileged cryp state enable/disable
* @secure_access: Secure cryp state enable/disable
*
* Protection configuration structure for setting privilage access
*/
struct cryp_protection_config {
enum cryp_state privilege_access;
enum cryp_state secure_access;
};
/* Cryp status */
enum cryp_status_id {
CRYP_STATUS_BUSY = 0x10,
CRYP_STATUS_OUTPUT_FIFO_FULL = 0x08,
CRYP_STATUS_OUTPUT_FIFO_NOT_EMPTY = 0x04,
CRYP_STATUS_INPUT_FIFO_NOT_FULL = 0x02,
CRYP_STATUS_INPUT_FIFO_EMPTY = 0x01
};
/* Cryp DMA interface */
#define CRYP_DMA_TX_FIFO 0x08
#define CRYP_DMA_RX_FIFO 0x10
enum cryp_dma_req_type {
CRYP_DMA_DISABLE_BOTH,
CRYP_DMA_ENABLE_IN_DATA,
CRYP_DMA_ENABLE_OUT_DATA,
CRYP_DMA_ENABLE_BOTH_DIRECTIONS
};
enum cryp_dma_channel {
CRYP_DMA_RX = 0,
CRYP_DMA_TX
};
/* Key registers */
enum cryp_key_reg_index {
CRYP_KEY_REG_1,
CRYP_KEY_REG_2,
CRYP_KEY_REG_3,
CRYP_KEY_REG_4
};
/* Key register left and right */
struct cryp_key_value {
u32 key_value_left;
u32 key_value_right;
};
/* Cryp Initialization structure */
enum cryp_init_vector_index {
CRYP_INIT_VECTOR_INDEX_0,
CRYP_INIT_VECTOR_INDEX_1
};
/* struct cryp_init_vector_value -
* @init_value_left
* @init_value_right
* */
struct cryp_init_vector_value {
u32 init_value_left;
u32 init_value_right;
};
/**
* struct cryp_device_context - structure for a cryp context.
* @cr: control register
* @dmacr: DMA control register
* @imsc: Interrupt mask set/clear register
* @key_1_l: Key 1l register
* @key_1_r: Key 1r register
* @key_2_l: Key 2l register
* @key_2_r: Key 2r register
* @key_3_l: Key 3l register
* @key_3_r: Key 3r register
* @key_4_l: Key 4l register
* @key_4_r: Key 4r register
* @init_vect_0_l: Initialization vector 0l register
* @init_vect_0_r: Initialization vector 0r register
* @init_vect_1_l: Initialization vector 1l register
* @init_vect_1_r: Initialization vector 0r register
* @din: Data in register
* @dout: Data out register
*
* CRYP power management specifc structure.
*/
struct cryp_device_context {
u32 cr;
u32 dmacr;
u32 imsc;
u32 key_1_l;
u32 key_1_r;
u32 key_2_l;
u32 key_2_r;
u32 key_3_l;
u32 key_3_r;
u32 key_4_l;
u32 key_4_r;
u32 init_vect_0_l;
u32 init_vect_0_r;
u32 init_vect_1_l;
u32 init_vect_1_r;
u32 din;
u32 dout;
};
struct cryp_dma {
dma_cap_mask_t mask;
struct completion cryp_dma_complete;
struct dma_chan *chan_cryp2mem;
struct dma_chan *chan_mem2cryp;
struct stedma40_chan_cfg *cfg_cryp2mem;
struct stedma40_chan_cfg *cfg_mem2cryp;
int sg_src_len;
int sg_dst_len;
struct scatterlist *sg_src;
struct scatterlist *sg_dst;
int nents_src;
int nents_dst;
};
/**
* struct cryp_device_data - structure for a cryp device.
* @base: Pointer to virtual base address of the cryp device.
* @phybase: Pointer to physical memory location of the cryp device.
* @dev: Pointer to the devices dev structure.
* @clk: Pointer to the device's clock control.
* @pwr_regulator: Pointer to the device's power control.
* @power_status: Current status of the power.
* @ctx_lock: Lock for current_ctx.
* @current_ctx: Pointer to the currently allocated context.
* @list_node: For inclusion into a klist.
* @dma: The dma structure holding channel configuration.
* @power_state: TRUE = power state on, FALSE = power state off.
* @power_state_spinlock: Spinlock for power_state.
* @restore_dev_ctx: TRUE = saved ctx, FALSE = no saved ctx.
*/
struct cryp_device_data {
struct cryp_register __iomem *base;
phys_addr_t phybase;
struct device *dev;
struct clk *clk;
struct regulator *pwr_regulator;
int power_status;
spinlock_t ctx_lock;
struct cryp_ctx *current_ctx;
struct klist_node list_node;
struct cryp_dma dma;
bool power_state;
spinlock_t power_state_spinlock;
bool restore_dev_ctx;
};
void cryp_wait_until_done(struct cryp_device_data *device_data);
/* Initialization functions */
int cryp_check(struct cryp_device_data *device_data);
void cryp_activity(struct cryp_device_data *device_data,
enum cryp_crypen cryp_crypen);
void cryp_flush_inoutfifo(struct cryp_device_data *device_data);
int cryp_set_configuration(struct cryp_device_data *device_data,
struct cryp_config *cryp_config,
u32 *control_register);
void cryp_configure_for_dma(struct cryp_device_data *device_data,
enum cryp_dma_req_type dma_req);
int cryp_configure_key_values(struct cryp_device_data *device_data,
enum cryp_key_reg_index key_reg_index,
struct cryp_key_value key_value);
int cryp_configure_init_vector(struct cryp_device_data *device_data,
enum cryp_init_vector_index
init_vector_index,
struct cryp_init_vector_value
init_vector_value);
int cryp_configure_protection(struct cryp_device_data *device_data,
struct cryp_protection_config *p_protect_config);
/* Power management funtions */
void cryp_save_device_context(struct cryp_device_data *device_data,
struct cryp_device_context *ctx,
int cryp_mode);
void cryp_restore_device_context(struct cryp_device_data *device_data,
struct cryp_device_context *ctx);
/* Data transfer and status bits. */
int cryp_is_logic_busy(struct cryp_device_data *device_data);
int cryp_get_status(struct cryp_device_data *device_data);
/**
* cryp_write_indata - This routine writes 32 bit data into the data input
* register of the cryptography IP.
* @device_data: Pointer to the device data struct for base address.
* @write_data: Data to write.
*/
int cryp_write_indata(struct cryp_device_data *device_data, u32 write_data);
/**
* cryp_read_outdata - This routine reads the data from the data output
* register of the CRYP logic
* @device_data: Pointer to the device data struct for base address.
* @read_data: Read the data from the output FIFO.
*/
int cryp_read_outdata(struct cryp_device_data *device_data, u32 *read_data);
#endif /* _CRYP_H_ */