473 lines
14 KiB
C
473 lines
14 KiB
C
/*
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* This file is part of the Chelsio T6 Crypto driver for Linux.
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*
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* Copyright (c) 2003-2016 Chelsio Communications, Inc. All rights reserved.
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*
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* This software is available to you under a choice of one of two
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* licenses. You may choose to be licensed under the terms of the GNU
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* General Public License (GPL) Version 2, available from the file
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* COPYING in the main directory of this source tree, or the
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* OpenIB.org BSD license below:
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*
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* Redistribution and use in source and binary forms, with or
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* without modification, are permitted provided that the following
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* conditions are met:
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*
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* - Redistributions of source code must retain the above
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* copyright notice, this list of conditions and the following
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* disclaimer.
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*
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* - Redistributions in binary form must reproduce the above
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* copyright notice, this list of conditions and the following
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* disclaimer in the documentation and/or other materials
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* provided with the distribution.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
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* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
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* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
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* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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* SOFTWARE.
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*
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*/
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#ifndef __CHCR_ALGO_H__
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#define __CHCR_ALGO_H__
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/* Crypto key context */
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#define KEY_CONTEXT_CTX_LEN_S 24
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#define KEY_CONTEXT_CTX_LEN_M 0xff
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#define KEY_CONTEXT_CTX_LEN_V(x) ((x) << KEY_CONTEXT_CTX_LEN_S)
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#define KEY_CONTEXT_CTX_LEN_G(x) \
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(((x) >> KEY_CONTEXT_CTX_LEN_S) & KEY_CONTEXT_CTX_LEN_M)
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#define KEY_CONTEXT_DUAL_CK_S 12
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#define KEY_CONTEXT_DUAL_CK_M 0x1
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#define KEY_CONTEXT_DUAL_CK_V(x) ((x) << KEY_CONTEXT_DUAL_CK_S)
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#define KEY_CONTEXT_DUAL_CK_G(x) \
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(((x) >> KEY_CONTEXT_DUAL_CK_S) & KEY_CONTEXT_DUAL_CK_M)
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#define KEY_CONTEXT_DUAL_CK_F KEY_CONTEXT_DUAL_CK_V(1U)
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#define KEY_CONTEXT_SALT_PRESENT_S 10
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#define KEY_CONTEXT_SALT_PRESENT_M 0x1
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#define KEY_CONTEXT_SALT_PRESENT_V(x) ((x) << KEY_CONTEXT_SALT_PRESENT_S)
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#define KEY_CONTEXT_SALT_PRESENT_G(x) \
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(((x) >> KEY_CONTEXT_SALT_PRESENT_S) & \
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KEY_CONTEXT_SALT_PRESENT_M)
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#define KEY_CONTEXT_SALT_PRESENT_F KEY_CONTEXT_SALT_PRESENT_V(1U)
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#define KEY_CONTEXT_VALID_S 0
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#define KEY_CONTEXT_VALID_M 0x1
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#define KEY_CONTEXT_VALID_V(x) ((x) << KEY_CONTEXT_VALID_S)
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#define KEY_CONTEXT_VALID_G(x) \
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(((x) >> KEY_CONTEXT_VALID_S) & \
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KEY_CONTEXT_VALID_M)
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#define KEY_CONTEXT_VALID_F KEY_CONTEXT_VALID_V(1U)
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#define KEY_CONTEXT_CK_SIZE_S 6
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#define KEY_CONTEXT_CK_SIZE_M 0xf
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#define KEY_CONTEXT_CK_SIZE_V(x) ((x) << KEY_CONTEXT_CK_SIZE_S)
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#define KEY_CONTEXT_CK_SIZE_G(x) \
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(((x) >> KEY_CONTEXT_CK_SIZE_S) & KEY_CONTEXT_CK_SIZE_M)
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#define KEY_CONTEXT_MK_SIZE_S 2
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#define KEY_CONTEXT_MK_SIZE_M 0xf
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#define KEY_CONTEXT_MK_SIZE_V(x) ((x) << KEY_CONTEXT_MK_SIZE_S)
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#define KEY_CONTEXT_MK_SIZE_G(x) \
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(((x) >> KEY_CONTEXT_MK_SIZE_S) & KEY_CONTEXT_MK_SIZE_M)
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#define KEY_CONTEXT_OPAD_PRESENT_S 11
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#define KEY_CONTEXT_OPAD_PRESENT_M 0x1
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#define KEY_CONTEXT_OPAD_PRESENT_V(x) ((x) << KEY_CONTEXT_OPAD_PRESENT_S)
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#define KEY_CONTEXT_OPAD_PRESENT_G(x) \
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(((x) >> KEY_CONTEXT_OPAD_PRESENT_S) & \
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KEY_CONTEXT_OPAD_PRESENT_M)
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#define KEY_CONTEXT_OPAD_PRESENT_F KEY_CONTEXT_OPAD_PRESENT_V(1U)
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#define CHCR_HASH_MAX_DIGEST_SIZE 64
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#define CHCR_MAX_SHA_DIGEST_SIZE 64
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#define IPSEC_TRUNCATED_ICV_SIZE 12
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#define TLS_TRUNCATED_HMAC_SIZE 10
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#define CBCMAC_DIGEST_SIZE 16
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#define MAX_HASH_NAME 20
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#define SHA1_INIT_STATE_5X4B 5
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#define SHA256_INIT_STATE_8X4B 8
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#define SHA512_INIT_STATE_8X8B 8
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#define SHA1_INIT_STATE SHA1_INIT_STATE_5X4B
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#define SHA224_INIT_STATE SHA256_INIT_STATE_8X4B
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#define SHA256_INIT_STATE SHA256_INIT_STATE_8X4B
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#define SHA384_INIT_STATE SHA512_INIT_STATE_8X8B
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#define SHA512_INIT_STATE SHA512_INIT_STATE_8X8B
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#define DUMMY_BYTES 16
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#define IPAD_DATA 0x36363636
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#define OPAD_DATA 0x5c5c5c5c
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#define TRANSHDR_SIZE(alignedkctx_len)\
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(sizeof(struct ulptx_idata) +\
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sizeof(struct ulp_txpkt) +\
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sizeof(struct fw_crypto_lookaside_wr) +\
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sizeof(struct cpl_tx_sec_pdu) +\
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(alignedkctx_len))
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#define CIPHER_TRANSHDR_SIZE(alignedkctx_len, sge_pairs) \
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(TRANSHDR_SIZE(alignedkctx_len) + sge_pairs +\
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sizeof(struct cpl_rx_phys_dsgl))
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#define HASH_TRANSHDR_SIZE(alignedkctx_len)\
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(TRANSHDR_SIZE(alignedkctx_len) + DUMMY_BYTES)
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#define SEC_CPL_OFFSET (sizeof(struct fw_crypto_lookaside_wr) + \
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sizeof(struct ulp_txpkt) + \
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sizeof(struct ulptx_idata))
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#define FILL_SEC_CPL_OP_IVINSR(id, len, hldr, ofst) \
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htonl( \
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CPL_TX_SEC_PDU_OPCODE_V(CPL_TX_SEC_PDU) | \
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CPL_TX_SEC_PDU_RXCHID_V((id)) | \
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CPL_TX_SEC_PDU_ACKFOLLOWS_V(0) | \
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CPL_TX_SEC_PDU_ULPTXLPBK_V(1) | \
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CPL_TX_SEC_PDU_CPLLEN_V((len)) | \
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CPL_TX_SEC_PDU_PLACEHOLDER_V((hldr)) | \
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CPL_TX_SEC_PDU_IVINSRTOFST_V((ofst)))
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#define FILL_SEC_CPL_CIPHERSTOP_HI(a_start, a_stop, c_start, c_stop_hi) \
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htonl( \
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CPL_TX_SEC_PDU_AADSTART_V((a_start)) | \
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CPL_TX_SEC_PDU_AADSTOP_V((a_stop)) | \
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CPL_TX_SEC_PDU_CIPHERSTART_V((c_start)) | \
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CPL_TX_SEC_PDU_CIPHERSTOP_HI_V((c_stop_hi)))
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#define FILL_SEC_CPL_AUTHINSERT(c_stop_lo, a_start, a_stop, a_inst) \
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htonl( \
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CPL_TX_SEC_PDU_CIPHERSTOP_LO_V((c_stop_lo)) | \
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CPL_TX_SEC_PDU_AUTHSTART_V((a_start)) | \
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CPL_TX_SEC_PDU_AUTHSTOP_V((a_stop)) | \
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CPL_TX_SEC_PDU_AUTHINSERT_V((a_inst)))
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#define FILL_SEC_CPL_SCMD0_SEQNO(ctrl, seq, cmode, amode, opad, size, nivs) \
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htonl( \
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SCMD_SEQ_NO_CTRL_V(0) | \
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SCMD_STATUS_PRESENT_V(0) | \
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SCMD_PROTO_VERSION_V(CHCR_SCMD_PROTO_VERSION_GENERIC) | \
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SCMD_ENC_DEC_CTRL_V((ctrl)) | \
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SCMD_CIPH_AUTH_SEQ_CTRL_V((seq)) | \
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SCMD_CIPH_MODE_V((cmode)) | \
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SCMD_AUTH_MODE_V((amode)) | \
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SCMD_HMAC_CTRL_V((opad)) | \
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SCMD_IV_SIZE_V((size)) | \
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SCMD_NUM_IVS_V((nivs)))
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#define FILL_SEC_CPL_IVGEN_HDRLEN(last, more, ctx_in, mac, ivdrop, len) htonl( \
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SCMD_ENB_DBGID_V(0) | \
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SCMD_IV_GEN_CTRL_V(0) | \
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SCMD_LAST_FRAG_V((last)) | \
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SCMD_MORE_FRAGS_V((more)) | \
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SCMD_TLS_COMPPDU_V(0) | \
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SCMD_KEY_CTX_INLINE_V((ctx_in)) | \
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SCMD_TLS_FRAG_ENABLE_V(0) | \
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SCMD_MAC_ONLY_V((mac)) | \
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SCMD_AADIVDROP_V((ivdrop)) | \
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SCMD_HDR_LEN_V((len)))
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#define FILL_KEY_CTX_HDR(ck_size, mk_size, d_ck, opad, ctx_len) \
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htonl(KEY_CONTEXT_VALID_V(1) | \
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KEY_CONTEXT_CK_SIZE_V((ck_size)) | \
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KEY_CONTEXT_MK_SIZE_V(mk_size) | \
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KEY_CONTEXT_DUAL_CK_V((d_ck)) | \
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KEY_CONTEXT_OPAD_PRESENT_V((opad)) | \
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KEY_CONTEXT_SALT_PRESENT_V(1) | \
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KEY_CONTEXT_CTX_LEN_V((ctx_len)))
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#define FILL_WR_OP_CCTX_SIZE(len, ctx_len) \
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htonl( \
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FW_CRYPTO_LOOKASIDE_WR_OPCODE_V( \
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FW_CRYPTO_LOOKASIDE_WR) | \
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FW_CRYPTO_LOOKASIDE_WR_COMPL_V(0) | \
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FW_CRYPTO_LOOKASIDE_WR_IMM_LEN_V((len)) | \
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FW_CRYPTO_LOOKASIDE_WR_CCTX_LOC_V(1) | \
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FW_CRYPTO_LOOKASIDE_WR_CCTX_SIZE_V((ctx_len)))
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#define FILL_WR_RX_Q_ID(cid, qid, wr_iv) \
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htonl( \
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FW_CRYPTO_LOOKASIDE_WR_RX_CHID_V((cid)) | \
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FW_CRYPTO_LOOKASIDE_WR_RX_Q_ID_V((qid)) | \
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FW_CRYPTO_LOOKASIDE_WR_LCB_V(0) | \
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FW_CRYPTO_LOOKASIDE_WR_IV_V((wr_iv)))
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#define FILL_ULPTX_CMD_DEST(cid) \
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htonl(ULPTX_CMD_V(ULP_TX_PKT) | \
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ULP_TXPKT_DEST_V(0) | \
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ULP_TXPKT_DATAMODIFY_V(0) | \
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ULP_TXPKT_CHANNELID_V((cid)) | \
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ULP_TXPKT_RO_V(1) | \
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ULP_TXPKT_FID_V(0))
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#define KEYCTX_ALIGN_PAD(bs) ({unsigned int _bs = (bs);\
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_bs == SHA1_DIGEST_SIZE ? 12 : 0; })
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#define FILL_PLD_SIZE_HASH_SIZE(payload_sgl_len, sgl_lengths, total_frags) \
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htonl(FW_CRYPTO_LOOKASIDE_WR_PLD_SIZE_V(payload_sgl_len ? \
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sgl_lengths[total_frags] : 0) |\
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FW_CRYPTO_LOOKASIDE_WR_HASH_SIZE_V(0))
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#define FILL_LEN_PKD(calc_tx_flits_ofld, skb) \
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htonl(FW_CRYPTO_LOOKASIDE_WR_LEN16_V(DIV_ROUND_UP((\
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calc_tx_flits_ofld(skb) * 8), 16)))
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#define FILL_CMD_MORE(immdatalen) htonl(ULPTX_CMD_V(ULP_TX_SC_IMM) |\
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ULP_TX_SC_MORE_V((immdatalen) ? 0 : 1))
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#define MAX_NK 8
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#define CRYPTO_MAX_IMM_TX_PKT_LEN 256
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struct algo_param {
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unsigned int auth_mode;
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unsigned int mk_size;
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unsigned int result_size;
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};
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struct hash_wr_param {
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unsigned int opad_needed;
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unsigned int more;
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unsigned int last;
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struct algo_param alg_prm;
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unsigned int sg_len;
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unsigned int bfr_len;
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u64 scmd1;
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};
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enum {
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AES_KEYLENGTH_128BIT = 128,
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AES_KEYLENGTH_192BIT = 192,
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AES_KEYLENGTH_256BIT = 256
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};
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enum {
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KEYLENGTH_3BYTES = 3,
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KEYLENGTH_4BYTES = 4,
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KEYLENGTH_6BYTES = 6,
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KEYLENGTH_8BYTES = 8
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};
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enum {
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NUMBER_OF_ROUNDS_10 = 10,
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NUMBER_OF_ROUNDS_12 = 12,
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NUMBER_OF_ROUNDS_14 = 14,
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};
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/*
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* CCM defines values of 4, 6, 8, 10, 12, 14, and 16 octets,
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* where they indicate the size of the integrity check value (ICV)
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*/
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enum {
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AES_CCM_ICV_4 = 4,
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AES_CCM_ICV_6 = 6,
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AES_CCM_ICV_8 = 8,
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AES_CCM_ICV_10 = 10,
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AES_CCM_ICV_12 = 12,
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AES_CCM_ICV_14 = 14,
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AES_CCM_ICV_16 = 16
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};
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struct hash_op_params {
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unsigned char mk_size;
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unsigned char pad_align;
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unsigned char auth_mode;
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char hash_name[MAX_HASH_NAME];
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unsigned short block_size;
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unsigned short word_size;
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unsigned short ipad_size;
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};
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struct phys_sge_pairs {
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__be16 len[8];
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__be64 addr[8];
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};
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struct phys_sge_parm {
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unsigned int nents;
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unsigned int obsize;
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unsigned short qid;
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unsigned char align;
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};
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struct crypto_result {
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struct completion completion;
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int err;
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};
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static const u32 sha1_init[SHA1_DIGEST_SIZE / 4] = {
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SHA1_H0, SHA1_H1, SHA1_H2, SHA1_H3, SHA1_H4,
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};
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static const u32 sha224_init[SHA256_DIGEST_SIZE / 4] = {
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SHA224_H0, SHA224_H1, SHA224_H2, SHA224_H3,
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SHA224_H4, SHA224_H5, SHA224_H6, SHA224_H7,
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};
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static const u32 sha256_init[SHA256_DIGEST_SIZE / 4] = {
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SHA256_H0, SHA256_H1, SHA256_H2, SHA256_H3,
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SHA256_H4, SHA256_H5, SHA256_H6, SHA256_H7,
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};
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static const u64 sha384_init[SHA512_DIGEST_SIZE / 8] = {
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SHA384_H0, SHA384_H1, SHA384_H2, SHA384_H3,
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SHA384_H4, SHA384_H5, SHA384_H6, SHA384_H7,
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};
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static const u64 sha512_init[SHA512_DIGEST_SIZE / 8] = {
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SHA512_H0, SHA512_H1, SHA512_H2, SHA512_H3,
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SHA512_H4, SHA512_H5, SHA512_H6, SHA512_H7,
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};
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static inline void copy_hash_init_values(char *key, int digestsize)
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{
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u8 i;
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__be32 *dkey = (__be32 *)key;
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u64 *ldkey = (u64 *)key;
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__be64 *sha384 = (__be64 *)sha384_init;
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__be64 *sha512 = (__be64 *)sha512_init;
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switch (digestsize) {
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case SHA1_DIGEST_SIZE:
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for (i = 0; i < SHA1_INIT_STATE; i++)
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dkey[i] = cpu_to_be32(sha1_init[i]);
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break;
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case SHA224_DIGEST_SIZE:
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for (i = 0; i < SHA224_INIT_STATE; i++)
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dkey[i] = cpu_to_be32(sha224_init[i]);
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break;
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case SHA256_DIGEST_SIZE:
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for (i = 0; i < SHA256_INIT_STATE; i++)
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dkey[i] = cpu_to_be32(sha256_init[i]);
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break;
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case SHA384_DIGEST_SIZE:
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for (i = 0; i < SHA384_INIT_STATE; i++)
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ldkey[i] = be64_to_cpu(sha384[i]);
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break;
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case SHA512_DIGEST_SIZE:
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for (i = 0; i < SHA512_INIT_STATE; i++)
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ldkey[i] = be64_to_cpu(sha512[i]);
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break;
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}
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}
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static const u8 sgl_lengths[20] = {
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0, 1, 2, 3, 4, 4, 5, 6, 7, 7, 8, 9, 10, 10, 11, 12, 13, 13, 14, 15
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};
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/* Number of len fields(8) * size of one addr field */
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#define PHYSDSGL_MAX_LEN_SIZE 16
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static inline u16 get_space_for_phys_dsgl(unsigned int sgl_entr)
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{
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/* len field size + addr field size */
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return ((sgl_entr >> 3) + ((sgl_entr % 8) ?
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1 : 0)) * PHYSDSGL_MAX_LEN_SIZE +
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(sgl_entr << 3) + ((sgl_entr % 2 ? 1 : 0) << 3);
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}
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/* The AES s-transform matrix (s-box). */
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static const u8 aes_sbox[256] = {
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99, 124, 119, 123, 242, 107, 111, 197, 48, 1, 103, 43, 254, 215,
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171, 118, 202, 130, 201, 125, 250, 89, 71, 240, 173, 212, 162, 175,
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156, 164, 114, 192, 183, 253, 147, 38, 54, 63, 247, 204, 52, 165,
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229, 241, 113, 216, 49, 21, 4, 199, 35, 195, 24, 150, 5, 154, 7,
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18, 128, 226, 235, 39, 178, 117, 9, 131, 44, 26, 27, 110, 90,
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160, 82, 59, 214, 179, 41, 227, 47, 132, 83, 209, 0, 237, 32,
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252, 177, 91, 106, 203, 190, 57, 74, 76, 88, 207, 208, 239, 170,
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251, 67, 77, 51, 133, 69, 249, 2, 127, 80, 60, 159, 168, 81,
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163, 64, 143, 146, 157, 56, 245, 188, 182, 218, 33, 16, 255, 243,
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210, 205, 12, 19, 236, 95, 151, 68, 23, 196, 167, 126, 61, 100,
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93, 25, 115, 96, 129, 79, 220, 34, 42, 144, 136, 70, 238, 184,
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20, 222, 94, 11, 219, 224, 50, 58, 10, 73, 6, 36, 92, 194,
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211, 172, 98, 145, 149, 228, 121, 231, 200, 55, 109, 141, 213, 78,
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169, 108, 86, 244, 234, 101, 122, 174, 8, 186, 120, 37, 46, 28, 166,
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180, 198, 232, 221, 116, 31, 75, 189, 139, 138, 112, 62, 181, 102,
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72, 3, 246, 14, 97, 53, 87, 185, 134, 193, 29, 158, 225, 248,
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152, 17, 105, 217, 142, 148, 155, 30, 135, 233, 206, 85, 40, 223,
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140, 161, 137, 13, 191, 230, 66, 104, 65, 153, 45, 15, 176, 84,
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187, 22
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};
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static u32 aes_ks_subword(const u32 w)
|
|
{
|
|
u8 bytes[4];
|
|
|
|
*(u32 *)(&bytes[0]) = w;
|
|
bytes[0] = aes_sbox[bytes[0]];
|
|
bytes[1] = aes_sbox[bytes[1]];
|
|
bytes[2] = aes_sbox[bytes[2]];
|
|
bytes[3] = aes_sbox[bytes[3]];
|
|
return *(u32 *)(&bytes[0]);
|
|
}
|
|
|
|
static u32 round_constant[11] = {
|
|
0x01000000, 0x02000000, 0x04000000, 0x08000000,
|
|
0x10000000, 0x20000000, 0x40000000, 0x80000000,
|
|
0x1B000000, 0x36000000, 0x6C000000
|
|
};
|
|
|
|
/* dec_key - OUTPUT - Reverse round key
|
|
* key - INPUT - key
|
|
* keylength - INPUT - length of the key in number of bits
|
|
*/
|
|
static inline void get_aes_decrypt_key(unsigned char *dec_key,
|
|
const unsigned char *key,
|
|
unsigned int keylength)
|
|
{
|
|
u32 temp;
|
|
u32 w_ring[MAX_NK];
|
|
int i, j, k;
|
|
u8 nr, nk;
|
|
|
|
switch (keylength) {
|
|
case AES_KEYLENGTH_128BIT:
|
|
nk = KEYLENGTH_4BYTES;
|
|
nr = NUMBER_OF_ROUNDS_10;
|
|
break;
|
|
|
|
case AES_KEYLENGTH_192BIT:
|
|
nk = KEYLENGTH_6BYTES;
|
|
nr = NUMBER_OF_ROUNDS_12;
|
|
break;
|
|
case AES_KEYLENGTH_256BIT:
|
|
nk = KEYLENGTH_8BYTES;
|
|
nr = NUMBER_OF_ROUNDS_14;
|
|
break;
|
|
default:
|
|
return;
|
|
}
|
|
for (i = 0; i < nk; i++ )
|
|
w_ring[i] = be32_to_cpu(*(u32 *)&key[4 * i]);
|
|
|
|
i = 0;
|
|
temp = w_ring[nk - 1];
|
|
while(i + nk < (nr + 1) * 4) {
|
|
if(!(i % nk)) {
|
|
/* RotWord(temp) */
|
|
temp = (temp << 8) | (temp >> 24);
|
|
temp = aes_ks_subword(temp);
|
|
temp ^= round_constant[i / nk];
|
|
}
|
|
else if (nk == 8 && (i % 4 == 0))
|
|
temp = aes_ks_subword(temp);
|
|
w_ring[i % nk] ^= temp;
|
|
temp = w_ring[i % nk];
|
|
i++;
|
|
}
|
|
i--;
|
|
for (k = 0, j = i % nk; k < nk; k++) {
|
|
*((u32 *)dec_key + k) = htonl(w_ring[j]);
|
|
j--;
|
|
if(j < 0)
|
|
j += nk;
|
|
}
|
|
}
|
|
|
|
#endif /* __CHCR_ALGO_H__ */
|