#ifndef _UAPI_QCEDEV__H
#define _UAPI_QCEDEV__H
#include <linux/types.h>
#include <linux/ioctl.h>
#include "fips_status.h"
#define QCEDEV_MAX_SHA_BLOCK_SIZE 64
#define QCEDEV_MAX_BEARER 31
#define QCEDEV_MAX_KEY_SIZE 64
#define QCEDEV_MAX_IV_SIZE 32
#define QCEDEV_MAX_BUFFERS 16
#define QCEDEV_MAX_SHA_DIGEST 32
#define QCEDEV_USE_PMEM 1
#define QCEDEV_NO_PMEM 0
#define QCEDEV_AES_KEY_128 16
#define QCEDEV_AES_KEY_192 24
#define QCEDEV_AES_KEY_256 32
/**
*qcedev_oper_enum: Operation types
* @QCEDEV_OPER_ENC: Encrypt
* @QCEDEV_OPER_DEC: Decrypt
* @QCEDEV_OPER_ENC_NO_KEY: Encrypt. Do not need key to be specified by
* user. Key already set by an external processor.
* @QCEDEV_OPER_DEC_NO_KEY: Decrypt. Do not need the key to be specified by
* user. Key already set by an external processor.
*/
enum qcedev_oper_enum {
QCEDEV_OPER_DEC = 0,
QCEDEV_OPER_ENC = 1,
QCEDEV_OPER_DEC_NO_KEY = 2,
QCEDEV_OPER_ENC_NO_KEY = 3,
QCEDEV_OPER_LAST
};
/**
*qcedev_oper_enum: Cipher algorithm types
* @QCEDEV_ALG_DES: DES
* @QCEDEV_ALG_3DES: 3DES
* @QCEDEV_ALG_AES: AES
*/
enum qcedev_cipher_alg_enum {
QCEDEV_ALG_DES = 0,
QCEDEV_ALG_3DES = 1,
QCEDEV_ALG_AES = 2,
QCEDEV_ALG_LAST
};
/**
*qcedev_cipher_mode_enum : AES mode
* @QCEDEV_AES_MODE_CBC: CBC
* @QCEDEV_AES_MODE_ECB: ECB
* @QCEDEV_AES_MODE_CTR: CTR
* @QCEDEV_AES_MODE_XTS: XTS
* @QCEDEV_AES_MODE_CCM: CCM
* @QCEDEV_DES_MODE_CBC: CBC
* @QCEDEV_DES_MODE_ECB: ECB
*/
enum qcedev_cipher_mode_enum {
QCEDEV_AES_MODE_CBC = 0,
QCEDEV_AES_MODE_ECB = 1,
QCEDEV_AES_MODE_CTR = 2,
QCEDEV_AES_MODE_XTS = 3,
QCEDEV_AES_MODE_CCM = 4,
QCEDEV_DES_MODE_CBC = 5,
QCEDEV_DES_MODE_ECB = 6,
QCEDEV_AES_DES_MODE_LAST
};
/**
*enum qcedev_sha_alg_enum : Secure Hashing Algorithm
* @QCEDEV_ALG_SHA1: Digest returned: 20 bytes (160 bits)
* @QCEDEV_ALG_SHA256: Digest returned: 32 bytes (256 bit)
* @QCEDEV_ALG_SHA1_HMAC: HMAC returned 20 bytes (160 bits)
* @QCEDEV_ALG_SHA256_HMAC: HMAC returned 32 bytes (256 bit)
* @QCEDEV_ALG_AES_CMAC: Configurable MAC size
*/
enum qcedev_sha_alg_enum {
QCEDEV_ALG_SHA1 = 0,
QCEDEV_ALG_SHA256 = 1,
QCEDEV_ALG_SHA1_HMAC = 2,
QCEDEV_ALG_SHA256_HMAC = 3,
QCEDEV_ALG_AES_CMAC = 4,
QCEDEV_ALG_SHA_ALG_LAST
};
/**
* struct buf_info - Buffer information
* @offset: Offset from the base address of the buffer
* (Used when buffer is allocated using PMEM)
* @vaddr: Virtual buffer address pointer
* @len: Size of the buffer
*/
struct buf_info {
union {
uint32_t offset;
uint8_t *vaddr;
};
uint32_t len;
};
/**
* struct qcedev_vbuf_info - Source and destination Buffer information
* @src: Array of buf_info for input/source
* @dst: Array of buf_info for output/destination
*/
struct qcedev_vbuf_info {
struct buf_info src[QCEDEV_MAX_BUFFERS];
struct buf_info dst[QCEDEV_MAX_BUFFERS];
};
/**
* struct qcedev_pmem_info - Stores PMEM buffer information
* @fd_src: Handle to /dev/adsp_pmem used to allocate
* memory for input/src buffer
* @src: Array of buf_info for input/source
* @fd_dst: Handle to /dev/adsp_pmem used to allocate
* memory for output/dst buffer
* @dst: Array of buf_info for output/destination
* @pmem_src_offset: The offset from input/src buffer
* (allocated by PMEM)
*/
struct qcedev_pmem_info {
int fd_src;
struct buf_info src[QCEDEV_MAX_BUFFERS];
int fd_dst;
struct buf_info dst[QCEDEV_MAX_BUFFERS];
};
/**
* struct qcedev_cipher_op_req - Holds the ciphering request information
* @use_pmem (IN): Flag to indicate if buffer source is PMEM
* QCEDEV_USE_PMEM/QCEDEV_NO_PMEM
* @pmem (IN): Stores PMEM buffer information.
* Refer struct qcedev_pmem_info
* @vbuf (IN/OUT): Stores Source and destination Buffer information
* Refer to struct qcedev_vbuf_info
* @data_len (IN): Total Length of input/src and output/dst in bytes
* @in_place_op (IN): Indicates whether the operation is inplace where
* source == destination
* When using PMEM allocated memory, must set this to 1
* @enckey (IN): 128 bits of confidentiality key
* enckey[0] bit 127-120, enckey[1] bit 119-112,..
* enckey[15] bit 7-0
* @encklen (IN): Length of the encryption key(set to 128 bits/16
* bytes in the driver)
* @iv (IN/OUT): Initialisation vector data
* This is updated by the driver, incremented by
* number of blocks encrypted/decrypted.
* @ivlen (IN): Length of the IV
* @byteoffset (IN): Offset in the Cipher BLOCK (applicable and to be set
* for AES-128 CTR mode only)
* @alg (IN): Type of ciphering algorithm: AES/DES/3DES
* @mode (IN): Mode use when using AES algorithm: ECB/CBC/CTR
* Apllicabel when using AES algorithm only
* @op (IN): Type of operation: QCEDEV_OPER_DEC/QCEDEV_OPER_ENC or
* QCEDEV_OPER_ENC_NO_KEY/QCEDEV_OPER_DEC_NO_KEY
*
*If use_pmem is set to 0, the driver assumes that memory was not allocated
* via PMEM, and kernel will need to allocate memory and copy data from user
* space buffer (data_src/dta_dst) and process accordingly and copy data back
* to the user space buffer
*
* If use_pmem is set to 1, the driver assumes that memory was allocated via
* PMEM.
* The kernel driver will use the fd_src to determine the kernel virtual address
* base that maps to the user space virtual address base for the buffer
* allocated in user space.
* The final input/src and output/dst buffer pointer will be determined
* by adding the offsets to the kernel virtual addr.
*
* If use of hardware key is supported in the target, user can configure the
* key paramters (encklen, enckey) to use the hardware key.
* In order to use the hardware key, set encklen to 0 and set the enckey
* data array to 0.
*/
struct qcedev_cipher_op_req {
uint8_t use_pmem;
union {
struct qcedev_pmem_info pmem;
struct qcedev_vbuf_info vbuf;
};
uint32_t entries;
uint32_t data_len;
uint8_t in_place_op;
uint8_t enckey[QCEDEV_MAX_KEY_SIZE];
uint32_t encklen;
uint8_t iv[QCEDEV_MAX_IV_SIZE];
uint32_t ivlen;
uint32_t byteoffset;
enum qcedev_cipher_alg_enum alg;
enum qcedev_cipher_mode_enum mode;
enum qcedev_oper_enum op;
};
/**
* struct qcedev_sha_op_req - Holds the hashing request information
* @data (IN): Array of pointers to the data to be hashed
* @entries (IN): Number of buf_info entries in the data array
* @data_len (IN): Length of data to be hashed
* @digest (IN/OUT): Returns the hashed data information
* @diglen (OUT): Size of the hashed/digest data
* @authkey (IN): Pointer to authentication key for HMAC
* @authklen (IN): Size of the authentication key
* @alg (IN): Secure Hash algorithm
*/
struct qcedev_sha_op_req {
struct buf_info data[QCEDEV_MAX_BUFFERS];
uint32_t entries;
uint32_t data_len;
uint8_t digest[QCEDEV_MAX_SHA_DIGEST];
uint32_t diglen;
uint8_t *authkey;
uint32_t authklen;
enum qcedev_sha_alg_enum alg;
};
/**
* struct qfips_verify_t - Holds data for FIPS Integrity test
* @kernel_size (IN): Size of kernel Image
* @kernel (IN): pointer to buffer containing the kernel Image
*/
struct qfips_verify_t {
unsigned kernel_size;
void *kernel;
};
struct file;
extern long qcedev_ioctl(struct file *file,
unsigned cmd, unsigned long arg);
#define QCEDEV_IOC_MAGIC 0x87
#define QCEDEV_IOCTL_ENC_REQ \
_IOWR(QCEDEV_IOC_MAGIC, 1, struct qcedev_cipher_op_req)
#define QCEDEV_IOCTL_DEC_REQ \
_IOWR(QCEDEV_IOC_MAGIC, 2, struct qcedev_cipher_op_req)
#define QCEDEV_IOCTL_SHA_INIT_REQ \
_IOWR(QCEDEV_IOC_MAGIC, 3, struct qcedev_sha_op_req)
#define QCEDEV_IOCTL_SHA_UPDATE_REQ \
_IOWR(QCEDEV_IOC_MAGIC, 4, struct qcedev_sha_op_req)
#define QCEDEV_IOCTL_SHA_FINAL_REQ \
_IOWR(QCEDEV_IOC_MAGIC, 5, struct qcedev_sha_op_req)
#define QCEDEV_IOCTL_GET_SHA_REQ \
_IOWR(QCEDEV_IOC_MAGIC, 6, struct qcedev_sha_op_req)
#define QCEDEV_IOCTL_LOCK_CE \
_IO(QCEDEV_IOC_MAGIC, 7)
#define QCEDEV_IOCTL_UNLOCK_CE \
_IO(QCEDEV_IOC_MAGIC, 8)
#define QCEDEV_IOCTL_GET_CMAC_REQ \
_IOWR(QCEDEV_IOC_MAGIC, 9, struct qcedev_sha_op_req)
#define QCEDEV_IOCTL_UPDATE_FIPS_STATUS \
_IOWR(QCEDEV_IOC_MAGIC, 10, enum fips_status)
#define QCEDEV_IOCTL_QUERY_FIPS_STATUS \
_IOR(QCEDEV_IOC_MAGIC, 11, enum fips_status)
#endif /* _UAPI_QCEDEV__H */