39bbca6ffd
fine when a lot of different flows to be ciphered/deciphered are involved. However, when a software crypto driver is used, there are situations where we could benefit from making crypto(9) multi threaded: - a single flow is to be ciphered: only one thread is used to cipher it, - a single ESP flow is to be deciphered: only one thread is used to decipher it. The idea here is to call crypto(9) using a new mode (CRYPTO_F_ASYNC) to dispatch the crypto jobs on multiple threads, if the underlying crypto driver is working in synchronous mode. Another flag is added (CRYPTO_F_ASYNC_KEEPORDER) to make crypto(9) dispatch the crypto jobs in the order they are received (an additional queue/thread is used), so that the packets are reinjected in the network using the same order they were posted. A new sysctl net.inet.ipsec.async_crypto can be used to activate this new behavior (disabled by default). Submitted by: Emeric Poupon <emeric.poupon@stormshield.eu> Reviewed by: ae, jmg, jhb Differential Revision: https://reviews.freebsd.org/D10680 Sponsored by: Stormshield
543 lines
18 KiB
C
543 lines
18 KiB
C
/* $FreeBSD$ */
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/* $OpenBSD: cryptodev.h,v 1.31 2002/06/11 11:14:29 beck Exp $ */
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/*-
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* The author of this code is Angelos D. Keromytis (angelos@cis.upenn.edu)
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* Copyright (c) 2002-2006 Sam Leffler, Errno Consulting
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*
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* This code was written by Angelos D. Keromytis in Athens, Greece, in
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* February 2000. Network Security Technologies Inc. (NSTI) kindly
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* supported the development of this code.
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*
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* Copyright (c) 2000 Angelos D. Keromytis
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*
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* Permission to use, copy, and modify this software with or without fee
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* is hereby granted, provided that this entire notice is included in
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* all source code copies of any software which is or includes a copy or
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* modification of this software.
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*
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* THIS SOFTWARE IS BEING PROVIDED "AS IS", WITHOUT ANY EXPRESS OR
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* IMPLIED WARRANTY. IN PARTICULAR, NONE OF THE AUTHORS MAKES ANY
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* REPRESENTATION OR WARRANTY OF ANY KIND CONCERNING THE
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* MERCHANTABILITY OF THIS SOFTWARE OR ITS FITNESS FOR ANY PARTICULAR
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* PURPOSE.
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*
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* Copyright (c) 2001 Theo de Raadt
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* Copyright (c) 2014 The FreeBSD Foundation
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* All rights reserved.
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*
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* Portions of this software were developed by John-Mark Gurney
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* under sponsorship of the FreeBSD Foundation and
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* Rubicon Communications, LLC (Netgate).
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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*
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. The name of the author may not be used to endorse or promote products
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* derived from this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
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* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
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* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
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* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
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* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
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* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
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* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*
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* Effort sponsored in part by the Defense Advanced Research Projects
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* Agency (DARPA) and Air Force Research Laboratory, Air Force
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* Materiel Command, USAF, under agreement number F30602-01-2-0537.
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*
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*/
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#ifndef _CRYPTO_CRYPTO_H_
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#define _CRYPTO_CRYPTO_H_
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#include <sys/ioccom.h>
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#include <sys/_task.h>
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/* Some initial values */
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#define CRYPTO_DRIVERS_INITIAL 4
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#define CRYPTO_SW_SESSIONS 32
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/* Hash values */
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#define NULL_HASH_LEN 16
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#define MD5_HASH_LEN 16
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#define SHA1_HASH_LEN 20
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#define RIPEMD160_HASH_LEN 20
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#define SHA2_256_HASH_LEN 32
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#define SHA2_384_HASH_LEN 48
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#define SHA2_512_HASH_LEN 64
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#define MD5_KPDK_HASH_LEN 16
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#define SHA1_KPDK_HASH_LEN 20
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#define AES_GMAC_HASH_LEN 16
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/* Maximum hash algorithm result length */
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#define HASH_MAX_LEN SHA2_512_HASH_LEN /* Keep this updated */
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/* HMAC values */
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#define NULL_HMAC_BLOCK_LEN 64
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#define MD5_HMAC_BLOCK_LEN 64
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#define SHA1_HMAC_BLOCK_LEN 64
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#define RIPEMD160_HMAC_BLOCK_LEN 64
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#define SHA2_256_HMAC_BLOCK_LEN 64
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#define SHA2_384_HMAC_BLOCK_LEN 128
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#define SHA2_512_HMAC_BLOCK_LEN 128
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/* Maximum HMAC block length */
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#define HMAC_MAX_BLOCK_LEN SHA2_512_HMAC_BLOCK_LEN /* Keep this updated */
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#define HMAC_IPAD_VAL 0x36
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#define HMAC_OPAD_VAL 0x5C
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/* HMAC Key Length */
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#define AES_128_GMAC_KEY_LEN 16
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#define AES_192_GMAC_KEY_LEN 24
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#define AES_256_GMAC_KEY_LEN 32
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/* Encryption algorithm block sizes */
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#define NULL_BLOCK_LEN 4 /* IPsec to maintain alignment */
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#define DES_BLOCK_LEN 8
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#define DES3_BLOCK_LEN 8
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#define BLOWFISH_BLOCK_LEN 8
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#define SKIPJACK_BLOCK_LEN 8
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#define CAST128_BLOCK_LEN 8
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#define RIJNDAEL128_BLOCK_LEN 16
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#define AES_BLOCK_LEN 16
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#define AES_ICM_BLOCK_LEN 1
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#define ARC4_BLOCK_LEN 1
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#define CAMELLIA_BLOCK_LEN 16
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#define EALG_MAX_BLOCK_LEN AES_BLOCK_LEN /* Keep this updated */
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/* IV Lengths */
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#define ARC4_IV_LEN 1
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#define AES_GCM_IV_LEN 12
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#define AES_XTS_IV_LEN 8
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#define AES_XTS_ALPHA 0x87 /* GF(2^128) generator polynomial */
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/* Min and Max Encryption Key Sizes */
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#define NULL_MIN_KEY 0
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#define NULL_MAX_KEY 256 /* 2048 bits, max key */
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#define DES_MIN_KEY 8
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#define DES_MAX_KEY DES_MIN_KEY
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#define TRIPLE_DES_MIN_KEY 24
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#define TRIPLE_DES_MAX_KEY TRIPLE_DES_MIN_KEY
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#define BLOWFISH_MIN_KEY 5
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#define BLOWFISH_MAX_KEY 56 /* 448 bits, max key */
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#define CAST_MIN_KEY 5
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#define CAST_MAX_KEY 16
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#define SKIPJACK_MIN_KEY 10
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#define SKIPJACK_MAX_KEY SKIPJACK_MIN_KEY
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#define RIJNDAEL_MIN_KEY 16
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#define RIJNDAEL_MAX_KEY 32
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#define AES_MIN_KEY RIJNDAEL_MIN_KEY
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#define AES_MAX_KEY RIJNDAEL_MAX_KEY
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#define AES_XTS_MIN_KEY (2 * AES_MIN_KEY)
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#define AES_XTS_MAX_KEY (2 * AES_MAX_KEY)
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#define ARC4_MIN_KEY 1
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#define ARC4_MAX_KEY 32
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#define CAMELLIA_MIN_KEY 8
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#define CAMELLIA_MAX_KEY 32
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/* Maximum hash algorithm result length */
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#define AALG_MAX_RESULT_LEN 64 /* Keep this updated */
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#define CRYPTO_ALGORITHM_MIN 1
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#define CRYPTO_DES_CBC 1
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#define CRYPTO_3DES_CBC 2
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#define CRYPTO_BLF_CBC 3
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#define CRYPTO_CAST_CBC 4
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#define CRYPTO_SKIPJACK_CBC 5
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#define CRYPTO_MD5_HMAC 6
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#define CRYPTO_SHA1_HMAC 7
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#define CRYPTO_RIPEMD160_HMAC 8
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#define CRYPTO_MD5_KPDK 9
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#define CRYPTO_SHA1_KPDK 10
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#define CRYPTO_RIJNDAEL128_CBC 11 /* 128 bit blocksize */
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#define CRYPTO_AES_CBC 11 /* 128 bit blocksize -- the same as above */
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#define CRYPTO_ARC4 12
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#define CRYPTO_MD5 13
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#define CRYPTO_SHA1 14
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#define CRYPTO_NULL_HMAC 15
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#define CRYPTO_NULL_CBC 16
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#define CRYPTO_DEFLATE_COMP 17 /* Deflate compression algorithm */
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#define CRYPTO_SHA2_256_HMAC 18
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#define CRYPTO_SHA2_384_HMAC 19
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#define CRYPTO_SHA2_512_HMAC 20
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#define CRYPTO_CAMELLIA_CBC 21
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#define CRYPTO_AES_XTS 22
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#define CRYPTO_AES_ICM 23 /* commonly known as CTR mode */
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#define CRYPTO_AES_NIST_GMAC 24 /* cipher side */
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#define CRYPTO_AES_NIST_GCM_16 25 /* 16 byte ICV */
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#define CRYPTO_AES_128_NIST_GMAC 26 /* auth side */
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#define CRYPTO_AES_192_NIST_GMAC 27 /* auth side */
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#define CRYPTO_AES_256_NIST_GMAC 28 /* auth side */
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#define CRYPTO_ALGORITHM_MAX 28 /* Keep updated - see below */
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#define CRYPTO_ALGO_VALID(x) ((x) >= CRYPTO_ALGORITHM_MIN && \
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(x) <= CRYPTO_ALGORITHM_MAX)
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/* Algorithm flags */
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#define CRYPTO_ALG_FLAG_SUPPORTED 0x01 /* Algorithm is supported */
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#define CRYPTO_ALG_FLAG_RNG_ENABLE 0x02 /* Has HW RNG for DH/DSA */
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#define CRYPTO_ALG_FLAG_DSA_SHA 0x04 /* Can do SHA on msg */
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/*
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* Crypto driver/device flags. They can set in the crid
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* parameter when creating a session or submitting a key
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* op to affect the device/driver assigned. If neither
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* of these are specified then the crid is assumed to hold
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* the driver id of an existing (and suitable) device that
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* must be used to satisfy the request.
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*/
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#define CRYPTO_FLAG_HARDWARE 0x01000000 /* hardware accelerated */
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#define CRYPTO_FLAG_SOFTWARE 0x02000000 /* software implementation */
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/* NB: deprecated */
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struct session_op {
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u_int32_t cipher; /* ie. CRYPTO_DES_CBC */
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u_int32_t mac; /* ie. CRYPTO_MD5_HMAC */
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u_int32_t keylen; /* cipher key */
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c_caddr_t key;
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int mackeylen; /* mac key */
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c_caddr_t mackey;
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u_int32_t ses; /* returns: session # */
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};
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struct session2_op {
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u_int32_t cipher; /* ie. CRYPTO_DES_CBC */
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u_int32_t mac; /* ie. CRYPTO_MD5_HMAC */
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u_int32_t keylen; /* cipher key */
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c_caddr_t key;
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int mackeylen; /* mac key */
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c_caddr_t mackey;
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u_int32_t ses; /* returns: session # */
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int crid; /* driver id + flags (rw) */
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int pad[4]; /* for future expansion */
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};
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struct crypt_op {
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u_int32_t ses;
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u_int16_t op; /* i.e. COP_ENCRYPT */
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#define COP_ENCRYPT 1
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#define COP_DECRYPT 2
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u_int16_t flags;
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#define COP_F_CIPHER_FIRST 0x0001 /* Cipher before MAC. */
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#define COP_F_BATCH 0x0008 /* Batch op if possible */
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u_int len;
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c_caddr_t src; /* become iov[] inside kernel */
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caddr_t dst;
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caddr_t mac; /* must be big enough for chosen MAC */
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c_caddr_t iv;
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};
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/* op and flags the same as crypt_op */
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struct crypt_aead {
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u_int32_t ses;
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u_int16_t op; /* i.e. COP_ENCRYPT */
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u_int16_t flags;
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u_int len;
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u_int aadlen;
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u_int ivlen;
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c_caddr_t src; /* become iov[] inside kernel */
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caddr_t dst;
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c_caddr_t aad; /* additional authenticated data */
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caddr_t tag; /* must fit for chosen TAG length */
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c_caddr_t iv;
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};
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/*
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* Parameters for looking up a crypto driver/device by
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* device name or by id. The latter are returned for
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* created sessions (crid) and completed key operations.
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*/
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struct crypt_find_op {
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int crid; /* driver id + flags */
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char name[32]; /* device/driver name */
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};
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/* bignum parameter, in packed bytes, ... */
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struct crparam {
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caddr_t crp_p;
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u_int crp_nbits;
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};
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#define CRK_MAXPARAM 8
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struct crypt_kop {
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u_int crk_op; /* ie. CRK_MOD_EXP or other */
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u_int crk_status; /* return status */
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u_short crk_iparams; /* # of input parameters */
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u_short crk_oparams; /* # of output parameters */
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u_int crk_crid; /* NB: only used by CIOCKEY2 (rw) */
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struct crparam crk_param[CRK_MAXPARAM];
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};
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#define CRK_ALGORITM_MIN 0
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#define CRK_MOD_EXP 0
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#define CRK_MOD_EXP_CRT 1
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#define CRK_DSA_SIGN 2
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#define CRK_DSA_VERIFY 3
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#define CRK_DH_COMPUTE_KEY 4
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#define CRK_ALGORITHM_MAX 4 /* Keep updated - see below */
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#define CRF_MOD_EXP (1 << CRK_MOD_EXP)
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#define CRF_MOD_EXP_CRT (1 << CRK_MOD_EXP_CRT)
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#define CRF_DSA_SIGN (1 << CRK_DSA_SIGN)
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#define CRF_DSA_VERIFY (1 << CRK_DSA_VERIFY)
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#define CRF_DH_COMPUTE_KEY (1 << CRK_DH_COMPUTE_KEY)
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/*
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* done against open of /dev/crypto, to get a cloned descriptor.
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* Please use F_SETFD against the cloned descriptor.
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*/
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#define CRIOGET _IOWR('c', 100, u_int32_t)
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#define CRIOASYMFEAT CIOCASYMFEAT
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#define CRIOFINDDEV CIOCFINDDEV
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/* the following are done against the cloned descriptor */
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#define CIOCGSESSION _IOWR('c', 101, struct session_op)
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#define CIOCFSESSION _IOW('c', 102, u_int32_t)
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#define CIOCCRYPT _IOWR('c', 103, struct crypt_op)
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#define CIOCKEY _IOWR('c', 104, struct crypt_kop)
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#define CIOCASYMFEAT _IOR('c', 105, u_int32_t)
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#define CIOCGSESSION2 _IOWR('c', 106, struct session2_op)
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#define CIOCKEY2 _IOWR('c', 107, struct crypt_kop)
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#define CIOCFINDDEV _IOWR('c', 108, struct crypt_find_op)
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#define CIOCCRYPTAEAD _IOWR('c', 109, struct crypt_aead)
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struct cryptotstat {
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struct timespec acc; /* total accumulated time */
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struct timespec min; /* min time */
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struct timespec max; /* max time */
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u_int32_t count; /* number of observations */
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};
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struct cryptostats {
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u_int32_t cs_ops; /* symmetric crypto ops submitted */
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u_int32_t cs_errs; /* symmetric crypto ops that failed */
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u_int32_t cs_kops; /* asymetric/key ops submitted */
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u_int32_t cs_kerrs; /* asymetric/key ops that failed */
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u_int32_t cs_intrs; /* crypto swi thread activations */
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u_int32_t cs_rets; /* crypto return thread activations */
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u_int32_t cs_blocks; /* symmetric op driver block */
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u_int32_t cs_kblocks; /* symmetric op driver block */
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/*
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* When CRYPTO_TIMING is defined at compile time and the
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* sysctl debug.crypto is set to 1, the crypto system will
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* accumulate statistics about how long it takes to process
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* crypto requests at various points during processing.
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*/
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struct cryptotstat cs_invoke; /* crypto_dipsatch -> crypto_invoke */
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struct cryptotstat cs_done; /* crypto_invoke -> crypto_done */
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struct cryptotstat cs_cb; /* crypto_done -> callback */
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struct cryptotstat cs_finis; /* callback -> callback return */
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};
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#ifdef _KERNEL
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#if 0
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#define CRYPTDEB(s) do { printf("%s:%d: %s\n", __FILE__, __LINE__, s); \
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} while (0)
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#else
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#define CRYPTDEB(s) do { } while (0)
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#endif
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/* Standard initialization structure beginning */
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struct cryptoini {
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int cri_alg; /* Algorithm to use */
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int cri_klen; /* Key length, in bits */
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int cri_mlen; /* Number of bytes we want from the
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entire hash. 0 means all. */
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caddr_t cri_key; /* key to use */
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u_int8_t cri_iv[EALG_MAX_BLOCK_LEN]; /* IV to use */
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struct cryptoini *cri_next;
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};
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/* Describe boundaries of a single crypto operation */
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struct cryptodesc {
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int crd_skip; /* How many bytes to ignore from start */
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int crd_len; /* How many bytes to process */
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int crd_inject; /* Where to inject results, if applicable */
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int crd_flags;
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#define CRD_F_ENCRYPT 0x01 /* Set when doing encryption */
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#define CRD_F_IV_PRESENT 0x02 /* When encrypting, IV is already in
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place, so don't copy. */
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#define CRD_F_IV_EXPLICIT 0x04 /* IV explicitly provided */
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#define CRD_F_DSA_SHA_NEEDED 0x08 /* Compute SHA-1 of buffer for DSA */
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#define CRD_F_COMP 0x0f /* Set when doing compression */
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#define CRD_F_KEY_EXPLICIT 0x10 /* Key explicitly provided */
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struct cryptoini CRD_INI; /* Initialization/context data */
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#define crd_esn CRD_INI.cri_esn
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#define crd_iv CRD_INI.cri_iv
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#define crd_key CRD_INI.cri_key
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#define crd_alg CRD_INI.cri_alg
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#define crd_klen CRD_INI.cri_klen
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struct cryptodesc *crd_next;
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};
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/* Structure describing complete operation */
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struct cryptop {
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TAILQ_ENTRY(cryptop) crp_next;
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struct task crp_task;
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u_int64_t crp_sid; /* Session ID */
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int crp_ilen; /* Input data total length */
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int crp_olen; /* Result total length */
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int crp_etype; /*
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* Error type (zero means no error).
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* All error codes except EAGAIN
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* indicate possible data corruption (as in,
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* the data have been touched). On all
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* errors, the crp_sid may have changed
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* (reset to a new one), so the caller
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* should always check and use the new
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* value on future requests.
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*/
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int crp_flags;
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#define CRYPTO_F_IMBUF 0x0001 /* Input/output are mbuf chains */
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#define CRYPTO_F_IOV 0x0002 /* Input/output are uio */
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#define CRYPTO_F_BATCH 0x0008 /* Batch op if possible */
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#define CRYPTO_F_CBIMM 0x0010 /* Do callback immediately */
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#define CRYPTO_F_DONE 0x0020 /* Operation completed */
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#define CRYPTO_F_CBIFSYNC 0x0040 /* Do CBIMM if op is synchronous */
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#define CRYPTO_F_ASYNC 0x0080 /* Dispatch crypto jobs on several threads
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* if op is synchronous
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*/
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#define CRYPTO_F_ASYNC_KEEPORDER 0x0100 /*
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* Dispatch the crypto jobs in the same
|
|
* order there are submitted. Applied only
|
|
* if CRYPTO_F_ASYNC flags is set
|
|
*/
|
|
|
|
caddr_t crp_buf; /* Data to be processed */
|
|
caddr_t crp_opaque; /* Opaque pointer, passed along */
|
|
struct cryptodesc *crp_desc; /* Linked list of processing descriptors */
|
|
|
|
int (*crp_callback)(struct cryptop *); /* Callback function */
|
|
|
|
struct bintime crp_tstamp; /* performance time stamp */
|
|
uint32_t crp_seq; /* used for ordered dispatch */
|
|
uint32_t crp_retw_id; /*
|
|
* the return worker to be used,
|
|
* used for ordered dispatch
|
|
*/
|
|
};
|
|
|
|
#define CRYPTOP_ASYNC(crp) \
|
|
(((crp)->crp_flags & CRYPTO_F_ASYNC) && \
|
|
CRYPTO_SESID2CAPS((crp)->crp_sid) & CRYPTOCAP_F_SYNC)
|
|
#define CRYPTOP_ASYNC_KEEPORDER(crp) \
|
|
(CRYPTOP_ASYNC(crp) && \
|
|
(crp)->crp_flags & CRYPTO_F_ASYNC_KEEPORDER)
|
|
|
|
#define CRYPTO_BUF_CONTIG 0x0
|
|
#define CRYPTO_BUF_IOV 0x1
|
|
#define CRYPTO_BUF_MBUF 0x2
|
|
|
|
#define CRYPTO_OP_DECRYPT 0x0
|
|
#define CRYPTO_OP_ENCRYPT 0x1
|
|
|
|
/*
|
|
* Hints passed to process methods.
|
|
*/
|
|
#define CRYPTO_HINT_MORE 0x1 /* more ops coming shortly */
|
|
|
|
struct cryptkop {
|
|
TAILQ_ENTRY(cryptkop) krp_next;
|
|
|
|
u_int krp_op; /* ie. CRK_MOD_EXP or other */
|
|
u_int krp_status; /* return status */
|
|
u_short krp_iparams; /* # of input parameters */
|
|
u_short krp_oparams; /* # of output parameters */
|
|
u_int krp_crid; /* desired device, etc. */
|
|
u_int32_t krp_hid;
|
|
struct crparam krp_param[CRK_MAXPARAM]; /* kvm */
|
|
int (*krp_callback)(struct cryptkop *);
|
|
};
|
|
|
|
/*
|
|
* Session ids are 64 bits. The lower 32 bits contain a "local id" which
|
|
* is a driver-private session identifier. The upper 32 bits contain a
|
|
* "hardware id" used by the core crypto code to identify the driver and
|
|
* a copy of the driver's capabilities that can be used by client code to
|
|
* optimize operation.
|
|
*/
|
|
#define CRYPTO_SESID2HID(_sid) (((_sid) >> 32) & 0x00ffffff)
|
|
#define CRYPTO_SESID2CAPS(_sid) (((_sid) >> 32) & 0xff000000)
|
|
#define CRYPTO_SESID2LID(_sid) (((u_int32_t) (_sid)) & 0xffffffff)
|
|
|
|
MALLOC_DECLARE(M_CRYPTO_DATA);
|
|
|
|
extern int crypto_newsession(u_int64_t *sid, struct cryptoini *cri, int hard);
|
|
extern int crypto_freesession(u_int64_t sid);
|
|
#define CRYPTOCAP_F_HARDWARE CRYPTO_FLAG_HARDWARE
|
|
#define CRYPTOCAP_F_SOFTWARE CRYPTO_FLAG_SOFTWARE
|
|
#define CRYPTOCAP_F_SYNC 0x04000000 /* operates synchronously */
|
|
extern int32_t crypto_get_driverid(device_t dev, int flags);
|
|
extern int crypto_find_driver(const char *);
|
|
extern device_t crypto_find_device_byhid(int hid);
|
|
extern int crypto_getcaps(int hid);
|
|
extern int crypto_register(u_int32_t driverid, int alg, u_int16_t maxoplen,
|
|
u_int32_t flags);
|
|
extern int crypto_kregister(u_int32_t, int, u_int32_t);
|
|
extern int crypto_unregister(u_int32_t driverid, int alg);
|
|
extern int crypto_unregister_all(u_int32_t driverid);
|
|
extern int crypto_dispatch(struct cryptop *crp);
|
|
extern int crypto_kdispatch(struct cryptkop *);
|
|
#define CRYPTO_SYMQ 0x1
|
|
#define CRYPTO_ASYMQ 0x2
|
|
extern int crypto_unblock(u_int32_t, int);
|
|
extern void crypto_done(struct cryptop *crp);
|
|
extern void crypto_kdone(struct cryptkop *);
|
|
extern int crypto_getfeat(int *);
|
|
|
|
extern void crypto_freereq(struct cryptop *crp);
|
|
extern struct cryptop *crypto_getreq(int num);
|
|
|
|
extern int crypto_usercrypto; /* userland may do crypto requests */
|
|
extern int crypto_userasymcrypto; /* userland may do asym crypto reqs */
|
|
extern int crypto_devallowsoft; /* only use hardware crypto */
|
|
|
|
/*
|
|
* Crypto-related utility routines used mainly by drivers.
|
|
*
|
|
* XXX these don't really belong here; but for now they're
|
|
* kept apart from the rest of the system.
|
|
*/
|
|
struct uio;
|
|
extern void cuio_copydata(struct uio* uio, int off, int len, caddr_t cp);
|
|
extern void cuio_copyback(struct uio* uio, int off, int len, c_caddr_t cp);
|
|
extern int cuio_getptr(struct uio *uio, int loc, int *off);
|
|
extern int cuio_apply(struct uio *uio, int off, int len,
|
|
int (*f)(void *, void *, u_int), void *arg);
|
|
|
|
struct mbuf;
|
|
struct iovec;
|
|
extern int crypto_mbuftoiov(struct mbuf *mbuf, struct iovec **iovptr,
|
|
int *cnt, int *allocated);
|
|
|
|
extern void crypto_copyback(int flags, caddr_t buf, int off, int size,
|
|
c_caddr_t in);
|
|
extern void crypto_copydata(int flags, caddr_t buf, int off, int size,
|
|
caddr_t out);
|
|
extern int crypto_apply(int flags, caddr_t buf, int off, int len,
|
|
int (*f)(void *, void *, u_int), void *arg);
|
|
#endif /* _KERNEL */
|
|
#endif /* _CRYPTO_CRYPTO_H_ */
|