forked from Minki/linux
b77e34f5b1
There is a engine status register that can be used to check if the different HW crypto engines are enabled. Check that first and then only try to enable the engines if they are not already on. This has a couple benefits. First we don't need to use match_data for this. Second, this driver can now work on HS devices where the engine control registers are read-only and writing causes a firewall exception. Signed-off-by: Andrew Davis <afd@ti.com> Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
408 lines
12 KiB
C
408 lines
12 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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/*
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* K3 SA2UL crypto accelerator driver
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*
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* Copyright (C) 2018-2020 Texas Instruments Incorporated - http://www.ti.com
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*
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* Authors: Keerthy
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* Vitaly Andrianov
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* Tero Kristo
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*/
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#ifndef _K3_SA2UL_
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#define _K3_SA2UL_
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#include <crypto/aes.h>
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#include <crypto/sha1.h>
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#include <crypto/sha2.h>
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#define SA_ENGINE_STATUS 0x0008
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#define SA_ENGINE_ENABLE_CONTROL 0x1000
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struct sa_tfm_ctx;
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/*
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* SA_ENGINE_ENABLE_CONTROL register bits
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*/
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#define SA_EEC_ENCSS_EN 0x00000001
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#define SA_EEC_AUTHSS_EN 0x00000002
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#define SA_EEC_TRNG_EN 0x00000008
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#define SA_EEC_PKA_EN 0x00000010
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#define SA_EEC_CTXCACH_EN 0x00000080
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#define SA_EEC_CPPI_PORT_IN_EN 0x00000200
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#define SA_EEC_CPPI_PORT_OUT_EN 0x00000800
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/*
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* Encoding used to identify the typo of crypto operation
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* performed on the packet when the packet is returned
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* by SA
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*/
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#define SA_REQ_SUBTYPE_ENC 0x0001
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#define SA_REQ_SUBTYPE_DEC 0x0002
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#define SA_REQ_SUBTYPE_SHIFT 16
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#define SA_REQ_SUBTYPE_MASK 0xffff
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/* Number of 32 bit words in EPIB */
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#define SA_DMA_NUM_EPIB_WORDS 4
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/* Number of 32 bit words in PS data */
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#define SA_DMA_NUM_PS_WORDS 16
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#define NKEY_SZ 3
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#define MCI_SZ 27
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/*
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* Maximum number of simultaeneous security contexts
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* supported by the driver
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*/
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#define SA_MAX_NUM_CTX 512
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/*
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* Assumption: CTX size is multiple of 32
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*/
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#define SA_CTX_SIZE_TO_DMA_SIZE(ctx_sz) \
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((ctx_sz) ? ((ctx_sz) / 32 - 1) : 0)
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#define SA_CTX_ENC_KEY_OFFSET 32
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#define SA_CTX_ENC_AUX1_OFFSET 64
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#define SA_CTX_ENC_AUX2_OFFSET 96
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#define SA_CTX_ENC_AUX3_OFFSET 112
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#define SA_CTX_ENC_AUX4_OFFSET 128
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/* Next Engine Select code in CP_ACE */
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#define SA_ENG_ID_EM1 2 /* Enc/Dec engine with AES/DEC core */
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#define SA_ENG_ID_EM2 3 /* Encryption/Decryption enginefor pass 2 */
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#define SA_ENG_ID_AM1 4 /* Auth. engine with SHA1/MD5/SHA2 core */
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#define SA_ENG_ID_AM2 5 /* Authentication engine for pass 2 */
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#define SA_ENG_ID_OUTPORT2 20 /* Egress module 2 */
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/*
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* Command Label Definitions
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*/
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#define SA_CMDL_OFFSET_NESC 0 /* Next Engine Select Code */
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#define SA_CMDL_OFFSET_LABEL_LEN 1 /* Engine Command Label Length */
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/* 16-bit Length of Data to be processed */
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#define SA_CMDL_OFFSET_DATA_LEN 2
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#define SA_CMDL_OFFSET_DATA_OFFSET 4 /* Stat Data Offset */
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#define SA_CMDL_OFFSET_OPTION_CTRL1 5 /* Option Control Byte 1 */
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#define SA_CMDL_OFFSET_OPTION_CTRL2 6 /* Option Control Byte 2 */
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#define SA_CMDL_OFFSET_OPTION_CTRL3 7 /* Option Control Byte 3 */
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#define SA_CMDL_OFFSET_OPTION_BYTE 8
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#define SA_CMDL_HEADER_SIZE_BYTES 8
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#define SA_CMDL_OPTION_BYTES_MAX_SIZE 72
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#define SA_CMDL_MAX_SIZE_BYTES (SA_CMDL_HEADER_SIZE_BYTES + \
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SA_CMDL_OPTION_BYTES_MAX_SIZE)
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/* SWINFO word-0 flags */
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#define SA_SW_INFO_FLAG_EVICT 0x0001
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#define SA_SW_INFO_FLAG_TEAR 0x0002
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#define SA_SW_INFO_FLAG_NOPD 0x0004
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/*
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* This type represents the various packet types to be processed
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* by the PHP engine in SA.
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* It is used to identify the corresponding PHP processing function.
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*/
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#define SA_CTX_PE_PKT_TYPE_3GPP_AIR 0 /* 3GPP Air Cipher */
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#define SA_CTX_PE_PKT_TYPE_SRTP 1 /* SRTP */
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#define SA_CTX_PE_PKT_TYPE_IPSEC_AH 2 /* IPSec Authentication Header */
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/* IPSec Encapsulating Security Payload */
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#define SA_CTX_PE_PKT_TYPE_IPSEC_ESP 3
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/* Indicates that it is in data mode, It may not be used by PHP */
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#define SA_CTX_PE_PKT_TYPE_NONE 4
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#define SA_CTX_ENC_TYPE1_SZ 64 /* Encryption SC with Key only */
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#define SA_CTX_ENC_TYPE2_SZ 96 /* Encryption SC with Key and Aux1 */
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#define SA_CTX_AUTH_TYPE1_SZ 64 /* Auth SC with Key only */
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#define SA_CTX_AUTH_TYPE2_SZ 96 /* Auth SC with Key and Aux1 */
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/* Size of security context for PHP engine */
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#define SA_CTX_PHP_PE_CTX_SZ 64
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#define SA_CTX_MAX_SZ (64 + SA_CTX_ENC_TYPE2_SZ + SA_CTX_AUTH_TYPE2_SZ)
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/*
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* Encoding of F/E control in SCCTL
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* Bit 0-1: Fetch PHP Bytes
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* Bit 2-3: Fetch Encryption/Air Ciphering Bytes
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* Bit 4-5: Fetch Authentication Bytes or Encr pass 2
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* Bit 6-7: Evict PHP Bytes
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*
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* where 00 = 0 bytes
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* 01 = 64 bytes
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* 10 = 96 bytes
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* 11 = 128 bytes
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*/
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#define SA_CTX_DMA_SIZE_0 0
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#define SA_CTX_DMA_SIZE_64 1
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#define SA_CTX_DMA_SIZE_96 2
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#define SA_CTX_DMA_SIZE_128 3
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/*
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* Byte offset of the owner word in SCCTL
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* in the security context
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*/
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#define SA_CTX_SCCTL_OWNER_OFFSET 0
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#define SA_CTX_ENC_KEY_OFFSET 32
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#define SA_CTX_ENC_AUX1_OFFSET 64
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#define SA_CTX_ENC_AUX2_OFFSET 96
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#define SA_CTX_ENC_AUX3_OFFSET 112
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#define SA_CTX_ENC_AUX4_OFFSET 128
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#define SA_SCCTL_FE_AUTH_ENC 0x65
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#define SA_SCCTL_FE_ENC 0x8D
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#define SA_ALIGN_MASK (sizeof(u32) - 1)
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#define SA_ALIGNED __aligned(32)
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#define SA_AUTH_SW_CTRL_MD5 1
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#define SA_AUTH_SW_CTRL_SHA1 2
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#define SA_AUTH_SW_CTRL_SHA224 3
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#define SA_AUTH_SW_CTRL_SHA256 4
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#define SA_AUTH_SW_CTRL_SHA384 5
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#define SA_AUTH_SW_CTRL_SHA512 6
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/* SA2UL can only handle maximum data size of 64KB */
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#define SA_MAX_DATA_SZ U16_MAX
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/*
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* SA2UL can provide unpredictable results with packet sizes that fall
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* the following range, so avoid using it.
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*/
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#define SA_UNSAFE_DATA_SZ_MIN 240
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#define SA_UNSAFE_DATA_SZ_MAX 256
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struct sa_match_data;
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/**
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* struct sa_crypto_data - Crypto driver instance data
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* @base: Base address of the register space
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* @soc_data: Pointer to SoC specific data
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* @pdev: Platform device pointer
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* @sc_pool: security context pool
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* @dev: Device pointer
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* @scid_lock: secure context ID lock
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* @sc_id_start: starting index for SC ID
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* @sc_id_end: Ending index for SC ID
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* @sc_id: Security Context ID
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* @ctx_bm: Bitmap to keep track of Security context ID's
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* @ctx: SA tfm context pointer
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* @dma_rx1: Pointer to DMA rx channel for sizes < 256 Bytes
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* @dma_rx2: Pointer to DMA rx channel for sizes > 256 Bytes
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* @dma_tx: Pointer to DMA TX channel
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*/
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struct sa_crypto_data {
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void __iomem *base;
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const struct sa_match_data *match_data;
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struct platform_device *pdev;
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struct dma_pool *sc_pool;
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struct device *dev;
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spinlock_t scid_lock; /* lock for SC-ID allocation */
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/* Security context data */
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u16 sc_id_start;
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u16 sc_id_end;
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u16 sc_id;
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unsigned long ctx_bm[DIV_ROUND_UP(SA_MAX_NUM_CTX,
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BITS_PER_LONG)];
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struct sa_tfm_ctx *ctx;
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struct dma_chan *dma_rx1;
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struct dma_chan *dma_rx2;
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struct dma_chan *dma_tx;
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};
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/**
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* struct sa_cmdl_param_info: Command label parameters info
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* @index: Index of the parameter in the command label format
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* @offset: the offset of the parameter
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* @size: Size of the parameter
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*/
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struct sa_cmdl_param_info {
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u16 index;
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u16 offset;
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u16 size;
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};
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/* Maximum length of Auxiliary data in 32bit words */
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#define SA_MAX_AUX_DATA_WORDS 8
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/**
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* struct sa_cmdl_upd_info: Command label updation info
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* @flags: flags in command label
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* @submode: Encryption submodes
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* @enc_size: Size of first pass encryption size
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* @enc_size2: Size of second pass encryption size
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* @enc_offset: Encryption payload offset in the packet
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* @enc_iv: Encryption initialization vector for pass2
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* @enc_iv2: Encryption initialization vector for pass2
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* @aad: Associated data
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* @payload: Payload info
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* @auth_size: Authentication size for pass 1
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* @auth_size2: Authentication size for pass 2
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* @auth_offset: Authentication payload offset
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* @auth_iv: Authentication initialization vector
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* @aux_key_info: Authentication aux key information
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* @aux_key: Aux key for authentication
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*/
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struct sa_cmdl_upd_info {
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u16 flags;
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u16 submode;
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struct sa_cmdl_param_info enc_size;
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struct sa_cmdl_param_info enc_size2;
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struct sa_cmdl_param_info enc_offset;
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struct sa_cmdl_param_info enc_iv;
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struct sa_cmdl_param_info enc_iv2;
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struct sa_cmdl_param_info aad;
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struct sa_cmdl_param_info payload;
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struct sa_cmdl_param_info auth_size;
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struct sa_cmdl_param_info auth_size2;
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struct sa_cmdl_param_info auth_offset;
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struct sa_cmdl_param_info auth_iv;
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struct sa_cmdl_param_info aux_key_info;
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u32 aux_key[SA_MAX_AUX_DATA_WORDS];
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};
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/*
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* Number of 32bit words appended after the command label
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* in PSDATA to identify the crypto request context.
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* word-0: Request type
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* word-1: pointer to request
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*/
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#define SA_PSDATA_CTX_WORDS 4
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/* Maximum size of Command label in 32 words */
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#define SA_MAX_CMDL_WORDS (SA_DMA_NUM_PS_WORDS - SA_PSDATA_CTX_WORDS)
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/**
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* struct sa_ctx_info: SA context information
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* @sc: Pointer to security context
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* @sc_phys: Security context physical address that is passed on to SA2UL
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* @sc_id: Security context ID
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* @cmdl_size: Command label size
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* @cmdl: Command label for a particular iteration
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* @cmdl_upd_info: structure holding command label updation info
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* @epib: Extended protocol information block words
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*/
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struct sa_ctx_info {
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u8 *sc;
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dma_addr_t sc_phys;
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u16 sc_id;
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u16 cmdl_size;
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u32 cmdl[SA_MAX_CMDL_WORDS];
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struct sa_cmdl_upd_info cmdl_upd_info;
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/* Store Auxiliary data such as K2/K3 subkeys in AES-XCBC */
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u32 epib[SA_DMA_NUM_EPIB_WORDS];
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};
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/**
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* struct sa_tfm_ctx: TFM context structure
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* @dev_data: struct sa_crypto_data pointer
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* @enc: struct sa_ctx_info for encryption
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* @dec: struct sa_ctx_info for decryption
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* @keylen: encrption/decryption keylength
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* @iv_idx: Initialization vector index
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* @key: encryption key
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* @fallback: SW fallback algorithm
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*/
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struct sa_tfm_ctx {
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struct sa_crypto_data *dev_data;
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struct sa_ctx_info enc;
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struct sa_ctx_info dec;
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struct sa_ctx_info auth;
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int keylen;
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int iv_idx;
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u32 key[AES_KEYSIZE_256 / sizeof(u32)];
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u8 authkey[SHA512_BLOCK_SIZE];
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struct crypto_shash *shash;
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/* for fallback */
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union {
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struct crypto_skcipher *skcipher;
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struct crypto_ahash *ahash;
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struct crypto_aead *aead;
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} fallback;
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};
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/**
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* struct sa_sha_req_ctx: Structure used for sha request
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* @dev_data: struct sa_crypto_data pointer
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* @cmdl: Complete command label with psdata and epib included
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* @fallback_req: SW fallback request container
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*/
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struct sa_sha_req_ctx {
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struct sa_crypto_data *dev_data;
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u32 cmdl[SA_MAX_CMDL_WORDS + SA_PSDATA_CTX_WORDS];
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struct ahash_request fallback_req;
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};
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enum sa_submode {
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SA_MODE_GEN = 0,
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SA_MODE_CCM,
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SA_MODE_GCM,
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SA_MODE_GMAC
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};
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/* Encryption algorithms */
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enum sa_ealg_id {
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SA_EALG_ID_NONE = 0, /* No encryption */
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SA_EALG_ID_NULL, /* NULL encryption */
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SA_EALG_ID_AES_CTR, /* AES Counter mode */
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SA_EALG_ID_AES_F8, /* AES F8 mode */
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SA_EALG_ID_AES_CBC, /* AES CBC mode */
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SA_EALG_ID_DES_CBC, /* DES CBC mode */
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SA_EALG_ID_3DES_CBC, /* 3DES CBC mode */
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SA_EALG_ID_CCM, /* Counter with CBC-MAC mode */
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SA_EALG_ID_GCM, /* Galois Counter mode */
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SA_EALG_ID_AES_ECB,
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SA_EALG_ID_LAST
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};
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/* Authentication algorithms */
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enum sa_aalg_id {
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SA_AALG_ID_NONE = 0, /* No Authentication */
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SA_AALG_ID_NULL = SA_EALG_ID_LAST, /* NULL Authentication */
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SA_AALG_ID_MD5, /* MD5 mode */
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SA_AALG_ID_SHA1, /* SHA1 mode */
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SA_AALG_ID_SHA2_224, /* 224-bit SHA2 mode */
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SA_AALG_ID_SHA2_256, /* 256-bit SHA2 mode */
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SA_AALG_ID_SHA2_512, /* 512-bit SHA2 mode */
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SA_AALG_ID_HMAC_MD5, /* HMAC with MD5 mode */
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SA_AALG_ID_HMAC_SHA1, /* HMAC with SHA1 mode */
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SA_AALG_ID_HMAC_SHA2_224, /* HMAC with 224-bit SHA2 mode */
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SA_AALG_ID_HMAC_SHA2_256, /* HMAC with 256-bit SHA2 mode */
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SA_AALG_ID_GMAC, /* Galois Message Auth. Code mode */
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SA_AALG_ID_CMAC, /* Cipher-based Mes. Auth. Code mode */
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SA_AALG_ID_CBC_MAC, /* Cipher Block Chaining */
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SA_AALG_ID_AES_XCBC /* AES Extended Cipher Block Chaining */
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};
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/*
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* Mode control engine algorithms used to index the
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* mode control instruction tables
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*/
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enum sa_eng_algo_id {
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SA_ENG_ALGO_ECB = 0,
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SA_ENG_ALGO_CBC,
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SA_ENG_ALGO_CFB,
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SA_ENG_ALGO_OFB,
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SA_ENG_ALGO_CTR,
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SA_ENG_ALGO_F8,
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SA_ENG_ALGO_F8F9,
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SA_ENG_ALGO_GCM,
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SA_ENG_ALGO_GMAC,
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SA_ENG_ALGO_CCM,
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SA_ENG_ALGO_CMAC,
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SA_ENG_ALGO_CBCMAC,
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SA_NUM_ENG_ALGOS
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};
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/**
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* struct sa_eng_info: Security accelerator engine info
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* @eng_id: Engine ID
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* @sc_size: security context size
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*/
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struct sa_eng_info {
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u8 eng_id;
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u16 sc_size;
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};
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#endif /* _K3_SA2UL_ */
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