Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/usb/rue/@/mips/rmi/dev/sec/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/usb/rue/@/mips/rmi/dev/sec/rmilib.h |
/*- * Copyright (c) 2003-2009 RMI Corporation * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of RMI Corporation, nor the names of its contributors, * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * $FreeBSD: release/9.1.0/sys/mips/rmi/dev/sec/rmilib.h 212763 2010-09-16 20:23:22Z jchandra $ * RMI_BSD */ #ifndef _RMILIB_H_ #define _RMILIB_H_ #include <sys/cdefs.h> #include <mips/rmi/dev/sec/desc.h> #include <mips/rmi/iomap.h> /* #define XLR_SEC_CMD_DEBUG */ #ifdef XLR_SEC_CMD_DEBUG #define DPRINT printf #define XLR_SEC_CMD_DIAG(fmt, args...) { \ DPRINT(fmt, ##args); \ } #define XLR_SEC_CMD_DIAG_SYM_DESC(desc, vec) { \ decode_symkey_desc ((desc), (vec)); \ } #else #define DPRINT(fmt, args...) #define XLR_SEC_CMD_DIAG(fmt, args...) #define XLR_SEC_CMD_DIAG_SYM_DESC(desc, vec) #endif /* #include <mips/include/pmap.h> #define OS_ALLOC_KERNEL(size) kmalloc((size), GFP_KERNEL) #define virt_to_phys(x) vtophys((vm_offset_t)(x)) */ /* * Cryptographic parameter definitions */ #define XLR_SEC_DES_KEY_LENGTH 8 /* Bytes */ #define XLR_SEC_3DES_KEY_LENGTH 24 /* Bytes */ #define XLR_SEC_AES128_KEY_LENGTH 16 /* Bytes */ #define XLR_SEC_AES192_KEY_LENGTH 24 /* Bytes */ #define XLR_SEC_AES256_KEY_LENGTH 32 /* Bytes */ #define XLR_SEC_AES128F8_KEY_LENGTH 32 /* Bytes */ #define XLR_SEC_AES192F8_KEY_LENGTH 48 /* Bytes */ #define XLR_SEC_AES256F8_KEY_LENGTH 64 /* Bytes */ #define XLR_SEC_KASUMI_F8_KEY_LENGTH 16 /* Bytes */ #define XLR_SEC_MAX_CRYPT_KEY_LENGTH XLR_SEC_AES256F8_KEY_LENGTH #define XLR_SEC_DES_IV_LENGTH 8 /* Bytes */ #define XLR_SEC_AES_IV_LENGTH 16 /* Bytes */ #define XLR_SEC_ARC4_IV_LENGTH 0 /* Bytes */ #define XLR_SEC_KASUMI_F8_IV_LENGTH 16 /* Bytes */ #define XLR_SEC_MAX_IV_LENGTH 16 /* Bytes */ #define XLR_SEC_IV_LENGTH_BYTES 8 /* Bytes */ #define XLR_SEC_AES_BLOCK_SIZE 16 /* Bytes */ #define XLR_SEC_DES_BLOCK_SIZE 8 /* Bytes */ #define XLR_SEC_3DES_BLOCK_SIZE 8 /* Bytes */ #define XLR_SEC_MD5_BLOCK_SIZE 64 /* Bytes */ #define XLR_SEC_SHA1_BLOCK_SIZE 64 /* Bytes */ #define XLR_SEC_SHA256_BLOCK_SIZE 64 /* Bytes */ #define XLR_SEC_SHA384_BLOCK_SIZE 128 /* Bytes */ #define XLR_SEC_SHA512_BLOCK_SIZE 128 /* Bytes */ #define XLR_SEC_GCM_BLOCK_SIZE 16 /* XXX: Bytes */ #define XLR_SEC_KASUMI_F9_BLOCK_SIZE 16 /* XXX: Bytes */ #define XLR_SEC_MAX_BLOCK_SIZE 64 /* Max of MD5/SHA */ #define XLR_SEC_MD5_LENGTH 16 /* Bytes */ #define XLR_SEC_SHA1_LENGTH 20 /* Bytes */ #define XLR_SEC_SHA256_LENGTH 32 /* Bytes */ #define XLR_SEC_SHA384_LENGTH 64 /* Bytes */ #define XLR_SEC_SHA512_LENGTH 64 /* Bytes */ #define XLR_SEC_GCM_LENGTH 16 /* Bytes */ #define XLR_SEC_KASUMI_F9_LENGTH 16 /* Bytes */ #define XLR_SEC_KASUMI_F9_RESULT_LENGTH 4 /* Bytes */ #define XLR_SEC_HMAC_LENGTH 64 /* Max of MD5/SHA/SHA256 */ #define XLR_SEC_MAX_AUTH_KEY_LENGTH XLR_SEC_SHA512_BLOCK_SIZE #define XLR_SEC_MAX_RC4_STATE_SIZE 264 /* char s[256], int i, int j */ /* Status code is used by the SRL to indicate status */ typedef unsigned int xlr_sec_status_t; /* * Status codes */ #define XLR_SEC_STATUS_SUCCESS 0 #define XLR_SEC_STATUS_NO_DEVICE -1 #define XLR_SEC_STATUS_TIMEOUT -2 #define XLR_SEC_STATUS_INVALID_PARAMETER -3 #define XLR_SEC_STATUS_DEVICE_FAILED -4 #define XLR_SEC_STATUS_DEVICE_BUSY -5 #define XLR_SEC_STATUS_NO_RESOURCE -6 #define XLR_SEC_STATUS_CANCELLED -7 /* * Flags */ #define XLR_SEC_FLAGS_HIGH_PRIORITY 1 /* Error code is used to indicate any errors */ typedef int xlr_sec_error_t; /* */ #define XLR_SEC_ERR_NONE 0 #define XLR_SEC_ERR_CIPHER_OP -1 #define XLR_SEC_ERR_CIPHER_TYPE -2 #define XLR_SEC_ERR_CIPHER_MODE -3 #define XLR_SEC_ERR_CIPHER_INIT -4 #define XLR_SEC_ERR_DIGEST_TYPE -5 #define XLR_SEC_ERR_DIGEST_INIT -6 #define XLR_SEC_ERR_DIGEST_SRC -7 #define XLR_SEC_ERR_CKSUM_TYPE -8 #define XLR_SEC_ERR_CKSUM_SRC -9 #define XLR_SEC_ERR_ALLOC -10 #define XLR_SEC_ERR_CONTROL_VECTOR -11 #define XLR_SEC_ERR_LOADHMACKEY_MODE -12 #define XLR_SEC_ERR_PADHASH_MODE -13 #define XLR_SEC_ERR_HASHBYTES_MODE -14 #define XLR_SEC_ERR_NEXT_MODE -15 #define XLR_SEC_ERR_PKT_IV_MODE -16 #define XLR_SEC_ERR_LASTWORD_MODE -17 #define XLR_SEC_ERR_PUBKEY_OP -18 #define XLR_SEC_ERR_SYMKEY_MSGSND -19 #define XLR_SEC_ERR_PUBKEY_MSGSND -20 #define XLR_SEC_ERR_SYMKEY_GETSEM -21 #define XLR_SEC_ERR_PUBKEY_GETSEM -22 /* * Descriptor Vector quantities * (helps to identify descriptor type per operation) */ #define XLR_SEC_VECTOR_CIPHER_DES 0x0001 #define XLR_SEC_VECTOR_CIPHER_3DES 0x0002 #define XLR_SEC_VECTOR_CIPHER_AES128 0x0004 #define XLR_SEC_VECTOR_CIPHER_AES192 0x0008 #define XLR_SEC_VECTOR_CIPHER_AES256 0x0010 #define XLR_SEC_VECTOR_CIPHER_ARC4 0x0020 #define XLR_SEC_VECTOR_CIPHER_AES (XLR_SEC_VECTOR_CIPHER_AES128 | \ XLR_SEC_VECTOR_CIPHER_AES192 | \ XLR_SEC_VECTOR_CIPHER_AES256) #define XLR_SEC_VECTOR_CIPHER (XLR_SEC_VECTOR_CIPHER_DES | \ XLR_SEC_VECTOR_CIPHER_3DES | \ XLR_SEC_VECTOR_CIPHER_AES128 | \ XLR_SEC_VECTOR_CIPHER_AES192 | \ XLR_SEC_VECTOR_CIPHER_AES256 | \ XLR_SEC_VECTOR_CIPHER_ARC4) #define XLR_SEC_VECTOR_HMAC 0x0040 #define XLR_SEC_VECTOR_MAC 0x0080 #define XLR_SEC_VECTOR_MODE_CTR_CFB 0x0100 #define XLR_SEC_VECTOR_MODE_ECB_CBC_OFB 0x0200 #define XLR_SEC_VECTOR_MODE_ECB_CBC 0x0400 #define XLR_SEC_VECTOR_STATE 0x0800 #define XLR_SEC_VECTOR_CIPHER_KASUMI_F8 0x01000 #define XLR_SEC_VECTOR_HMAC2 0x02000 #define XLR_SEC_VECTOR_GCM 0x04000 #define XLR_SEC_VECTOR_F9 0x08000 #define XLR_SEC_VECTOR_MODE_F8 0x10000 #define XLR_SEC_VECTOR_CIPHER_ARC4__HMAC \ (XLR_SEC_VECTOR_CIPHER_ARC4 | XLR_SEC_VECTOR_HMAC) #define XLR_SEC_VECTOR_CIPHER_ARC4__STATE \ (XLR_SEC_VECTOR_CIPHER_ARC4 | XLR_SEC_VECTOR_STATE) #define XLR_SEC_VECTOR_CIPHER_ARC4__HMAC__STATE \ (XLR_SEC_VECTOR_CIPHER_ARC4 | XLR_SEC_VECTOR_HMAC | XLR_SEC_VECTOR_STATE) #define XLR_SEC_VECTOR__CIPHER_DES__HMAC__MODE_ECB_CBC \ (XLR_SEC_VECTOR_CIPHER_DES | XLR_SEC_VECTOR_HMAC | XLR_SEC_VECTOR_MODE_ECB_CBC) #define XLR_SEC_VECTOR__CIPHER_DES__MODE_ECB_CBC \ (XLR_SEC_VECTOR_CIPHER_DES | XLR_SEC_VECTOR_MODE_ECB_CBC) #define XLR_SEC_VECTOR__CIPHER_3DES__HMAC__MODE_ECB_CBC \ (XLR_SEC_VECTOR_CIPHER_3DES | XLR_SEC_VECTOR_HMAC | XLR_SEC_VECTOR_MODE_ECB_CBC) #define XLR_SEC_VECTOR__CIPHER_3DES__MODE_ECB_CBC \ (XLR_SEC_VECTOR_CIPHER_3DES | XLR_SEC_VECTOR_MODE_ECB_CBC) #define XLR_SEC_VECTOR__CIPHER_AES128__HMAC__MODE_CTR_CFB \ (XLR_SEC_VECTOR_CIPHER_AES128 | XLR_SEC_VECTOR_HMAC | XLR_SEC_VECTOR_MODE_CTR_CFB) #define XLR_SEC_VECTOR__CIPHER_AES128__MODE_CTR_CFB \ (XLR_SEC_VECTOR_CIPHER_AES128 | XLR_SEC_VECTOR_MODE_CTR_CFB) #define XLR_SEC_VECTOR__CIPHER_AES128__HMAC__MODE_ECB_CBC_OFB \ (XLR_SEC_VECTOR_CIPHER_AES128 | XLR_SEC_VECTOR_HMAC | XLR_SEC_VECTOR_MODE_ECB_CBC_OFB) #define XLR_SEC_VECTOR__CIPHER_AES128__MODE_ECB_CBC_OFB \ (XLR_SEC_VECTOR_CIPHER_AES128 | XLR_SEC_VECTOR_MODE_ECB_CBC_OFB) #define XLR_SEC_VECTOR__CIPHER_AES192__HMAC__MODE_CTR_CFB \ (XLR_SEC_VECTOR_CIPHER_AES192 | XLR_SEC_VECTOR_HMAC | XLR_SEC_VECTOR_MODE_CTR_CFB) #define XLR_SEC_VECTOR__CIPHER_AES192__MODE_CTR_CFB \ (XLR_SEC_VECTOR_CIPHER_AES192 | XLR_SEC_VECTOR_MODE_CTR_CFB) #define XLR_SEC_VECTOR__CIPHER_AES192__HMAC__MODE_ECB_CBC_OFB \ (XLR_SEC_VECTOR_CIPHER_AES192 | XLR_SEC_VECTOR_HMAC | XLR_SEC_VECTOR_MODE_ECB_CBC_OFB) #define XLR_SEC_VECTOR__CIPHER_AES192__MODE_ECB_CBC_OFB \ (XLR_SEC_VECTOR_CIPHER_AES192 | XLR_SEC_VECTOR_MODE_ECB_CBC_OFB) #define XLR_SEC_VECTOR__CIPHER_AES256__HMAC__MODE_CTR_CFB \ (XLR_SEC_VECTOR_CIPHER_AES256 | XLR_SEC_VECTOR_HMAC | XLR_SEC_VECTOR_MODE_CTR_CFB) #define XLR_SEC_VECTOR__CIPHER_AES256__MODE_CTR_CFB \ (XLR_SEC_VECTOR_CIPHER_AES256 | XLR_SEC_VECTOR_MODE_CTR_CFB) #define XLR_SEC_VECTOR__CIPHER_AES256__HMAC__MODE_ECB_CBC_OFB \ (XLR_SEC_VECTOR_CIPHER_AES256 | XLR_SEC_VECTOR_HMAC | XLR_SEC_VECTOR_MODE_ECB_CBC_OFB) #define XLR_SEC_VECTOR__CIPHER_AES256__MODE_ECB_CBC_OFB \ (XLR_SEC_VECTOR_CIPHER_AES256 | XLR_SEC_VECTOR_MODE_ECB_CBC_OFB) #define XLR_SEC_VECTOR__CIPHER_AES128__HMAC__MODE_F8 \ (XLR_SEC_VECTOR_CIPHER_AES128 | XLR_SEC_VECTOR_HMAC | XLR_SEC_VECTOR_MODE_F8) #define XLR_SEC_VECTOR__CIPHER_AES128__MODE_F8 \ (XLR_SEC_VECTOR_CIPHER_AES128 | XLR_SEC_VECTOR_MODE_F8) #define XLR_SEC_VECTOR__CIPHER_AES192__HMAC__MODE_F8 \ (XLR_SEC_VECTOR_CIPHER_AES192 | XLR_SEC_VECTOR_HMAC | XLR_SEC_VECTOR_MODE_F8) #define XLR_SEC_VECTOR__CIPHER_AES192__MODE_F8 \ (XLR_SEC_VECTOR_CIPHER_AES192 | XLR_SEC_VECTOR_MODE_F8) #define XLR_SEC_VECTOR__CIPHER_AES256__HMAC__MODE_F8 \ (XLR_SEC_VECTOR_CIPHER_AES256 | XLR_SEC_VECTOR_HMAC | XLR_SEC_VECTOR_MODE_F8) #define XLR_SEC_VECTOR__CIPHER_AES256__MODE_F8 \ (XLR_SEC_VECTOR_CIPHER_AES256 | XLR_SEC_VECTOR_MODE_F8) #define XLR_SEC_VECTOR_CIPHER_KASUMI_F8__F9 \ (XLR_SEC_VECTOR_CIPHER_KASUMI_F8 | XLR_SEC_VECTOR_F9) #define XLR_SEC_VECTOR_CIPHER_KASUMI_F8__HMAC \ (XLR_SEC_VECTOR_CIPHER_KASUMI_F8 | XLR_SEC_VECTOR_HMAC) #define XLR_SEC_VECTOR_CIPHER_KASUMI_F8__HMAC2 \ (XLR_SEC_VECTOR_CIPHER_KASUMI_F8 | XLR_SEC_VECTOR_HMAC2) #define XLR_SEC_VECTOR_CIPHER_KASUMI_F8__GCM \ (XLR_SEC_VECTOR_CIPHER_KASUMI_F8 | XLR_SEC_VECTOR_GCM) #define XLR_SEC_VECTOR_CIPHER_ARC4__HMAC2 \ (XLR_SEC_VECTOR_CIPHER_ARC4 | XLR_SEC_VECTOR_HMAC2) #define XLR_SEC_VECTOR_CIPHER_ARC4__HMAC2__STATE \ (XLR_SEC_VECTOR_CIPHER_ARC4 | XLR_SEC_VECTOR_HMAC2 | XLR_SEC_VECTOR_STATE) #define XLR_SEC_VECTOR__CIPHER_DES__HMAC2__MODE_ECB_CBC \ (XLR_SEC_VECTOR_CIPHER_DES | XLR_SEC_VECTOR_HMAC2 | XLR_SEC_VECTOR_MODE_ECB_CBC) #define XLR_SEC_VECTOR__CIPHER_3DES__HMAC2__MODE_ECB_CBC \ (XLR_SEC_VECTOR_CIPHER_3DES | XLR_SEC_VECTOR_HMAC2 | XLR_SEC_VECTOR_MODE_ECB_CBC) #define XLR_SEC_VECTOR__CIPHER_AES128__HMAC2__MODE_CTR_CFB \ (XLR_SEC_VECTOR_CIPHER_AES128 | XLR_SEC_VECTOR_HMAC2 | XLR_SEC_VECTOR_MODE_CTR_CFB) #define XLR_SEC_VECTOR__CIPHER_AES128__HMAC2__MODE_ECB_CBC_OFB \ (XLR_SEC_VECTOR_CIPHER_AES128 | XLR_SEC_VECTOR_HMAC2 | XLR_SEC_VECTOR_MODE_ECB_CBC_OFB) #define XLR_SEC_VECTOR__CIPHER_AES192__HMAC2__MODE_CTR_CFB \ (XLR_SEC_VECTOR_CIPHER_AES192 | XLR_SEC_VECTOR_HMAC2 | XLR_SEC_VECTOR_MODE_CTR_CFB) #define XLR_SEC_VECTOR__CIPHER_AES192__HMAC2__MODE_ECB_CBC_OFB \ (XLR_SEC_VECTOR_CIPHER_AES192 | XLR_SEC_VECTOR_HMAC2 | XLR_SEC_VECTOR_MODE_ECB_CBC_OFB) #define XLR_SEC_VECTOR__CIPHER_AES256__HMAC2__MODE_CTR_CFB \ (XLR_SEC_VECTOR_CIPHER_AES256 | XLR_SEC_VECTOR_HMAC2 | XLR_SEC_VECTOR_MODE_CTR_CFB) #define XLR_SEC_VECTOR__CIPHER_AES256__HMAC2__MODE_ECB_CBC_OFB \ (XLR_SEC_VECTOR_CIPHER_AES256 | XLR_SEC_VECTOR_HMAC2 | XLR_SEC_VECTOR_MODE_ECB_CBC_OFB) #define XLR_SEC_VECTOR__CIPHER_AES128__HMAC2__MODE_F8 \ (XLR_SEC_VECTOR_CIPHER_AES128 | XLR_SEC_VECTOR_HMAC2 | XLR_SEC_VECTOR_MODE_F8) #define XLR_SEC_VECTOR__CIPHER_AES192__HMAC2__MODE_F8 \ (XLR_SEC_VECTOR_CIPHER_AES192 | XLR_SEC_VECTOR_HMAC2 | XLR_SEC_VECTOR_MODE_F8) #define XLR_SEC_VECTOR__CIPHER_AES256__HMAC2__MODE_F8 \ (XLR_SEC_VECTOR_CIPHER_AES256 | XLR_SEC_VECTOR_HMAC2 | XLR_SEC_VECTOR_MODE_F8) #define XLR_SEC_VECTOR_CIPHER_ARC4__GCM \ (XLR_SEC_VECTOR_CIPHER_ARC4 | XLR_SEC_VECTOR_GCM) #define XLR_SEC_VECTOR_CIPHER_ARC4__GCM__STATE \ (XLR_SEC_VECTOR_CIPHER_ARC4 | XLR_SEC_VECTOR_GCM | XLR_SEC_VECTOR_STATE) #define XLR_SEC_VECTOR__CIPHER_DES__GCM__MODE_ECB_CBC \ (XLR_SEC_VECTOR_CIPHER_DES | XLR_SEC_VECTOR_GCM | XLR_SEC_VECTOR_MODE_ECB_CBC) #define XLR_SEC_VECTOR__CIPHER_3DES__GCM__MODE_ECB_CBC \ (XLR_SEC_VECTOR_CIPHER_3DES | XLR_SEC_VECTOR_GCM | XLR_SEC_VECTOR_MODE_ECB_CBC) #define XLR_SEC_VECTOR__CIPHER_AES128__GCM__MODE_CTR_CFB \ (XLR_SEC_VECTOR_CIPHER_AES128 | XLR_SEC_VECTOR_GCM | XLR_SEC_VECTOR_MODE_CTR_CFB) #define XLR_SEC_VECTOR__CIPHER_AES128__GCM__MODE_ECB_CBC_OFB \ (XLR_SEC_VECTOR_CIPHER_AES128 | XLR_SEC_VECTOR_GCM | XLR_SEC_VECTOR_MODE_ECB_CBC_OFB) #define XLR_SEC_VECTOR__CIPHER_AES192__GCM__MODE_CTR_CFB \ (XLR_SEC_VECTOR_CIPHER_AES192 | XLR_SEC_VECTOR_GCM | XLR_SEC_VECTOR_MODE_CTR_CFB) #define XLR_SEC_VECTOR__CIPHER_AES192__GCM__MODE_ECB_CBC_OFB \ (XLR_SEC_VECTOR_CIPHER_AES192 | XLR_SEC_VECTOR_GCM | XLR_SEC_VECTOR_MODE_ECB_CBC_OFB) #define XLR_SEC_VECTOR__CIPHER_AES256__GCM__MODE_CTR_CFB \ (XLR_SEC_VECTOR_CIPHER_AES256 | XLR_SEC_VECTOR_GCM | XLR_SEC_VECTOR_MODE_CTR_CFB) #define XLR_SEC_VECTOR__CIPHER_AES256__GCM__MODE_ECB_CBC_OFB \ (XLR_SEC_VECTOR_CIPHER_AES256 | XLR_SEC_VECTOR_GCM | XLR_SEC_VECTOR_MODE_ECB_CBC_OFB) #define XLR_SEC_VECTOR__CIPHER_AES128__GCM__MODE_F8 \ (XLR_SEC_VECTOR_CIPHER_AES128 | XLR_SEC_VECTOR_GCM | XLR_SEC_VECTOR_MODE_F8) #define XLR_SEC_VECTOR__CIPHER_AES192__GCM__MODE_F8 \ (XLR_SEC_VECTOR_CIPHER_AES192 | XLR_SEC_VECTOR_GCM | XLR_SEC_VECTOR_MODE_F8) #define XLR_SEC_VECTOR__CIPHER_AES256__GCM__MODE_F8 \ (XLR_SEC_VECTOR_CIPHER_AES256 | XLR_SEC_VECTOR_GCM | XLR_SEC_VECTOR_MODE_F8) #define XLR_SEC_VECTOR_CIPHER_ARC4__F9 \ (XLR_SEC_VECTOR_CIPHER_ARC4 | XLR_SEC_VECTOR_F9) #define XLR_SEC_VECTOR_CIPHER_ARC4__F9__STATE \ (XLR_SEC_VECTOR_CIPHER_ARC4 | XLR_SEC_VECTOR_F9 | XLR_SEC_VECTOR_STATE) #define XLR_SEC_VECTOR__CIPHER_DES__F9__MODE_ECB_CBC \ (XLR_SEC_VECTOR_CIPHER_DES | XLR_SEC_VECTOR_F9 | XLR_SEC_VECTOR_MODE_ECB_CBC) #define XLR_SEC_VECTOR__CIPHER_3DES__F9__MODE_ECB_CBC \ (XLR_SEC_VECTOR_CIPHER_3DES | XLR_SEC_VECTOR_F9 | XLR_SEC_VECTOR_MODE_ECB_CBC) #define XLR_SEC_VECTOR__CIPHER_AES128__F9__MODE_CTR_CFB \ (XLR_SEC_VECTOR_CIPHER_AES128 | XLR_SEC_VECTOR_F9 | XLR_SEC_VECTOR_MODE_CTR_CFB) #define XLR_SEC_VECTOR__CIPHER_AES128__F9__MODE_ECB_CBC_OFB \ (XLR_SEC_VECTOR_CIPHER_AES128 | XLR_SEC_VECTOR_F9 | XLR_SEC_VECTOR_MODE_ECB_CBC_OFB) #define XLR_SEC_VECTOR__CIPHER_AES192__F9__MODE_CTR_CFB \ (XLR_SEC_VECTOR_CIPHER_AES192 | XLR_SEC_VECTOR_F9 | XLR_SEC_VECTOR_MODE_CTR_CFB) #define XLR_SEC_VECTOR__CIPHER_AES192__F9__MODE_ECB_CBC_OFB \ (XLR_SEC_VECTOR_CIPHER_AES192 | XLR_SEC_VECTOR_F9 | XLR_SEC_VECTOR_MODE_ECB_CBC_OFB) #define XLR_SEC_VECTOR__CIPHER_AES256__F9__MODE_CTR_CFB \ (XLR_SEC_VECTOR_CIPHER_AES256 | XLR_SEC_VECTOR_F9 | XLR_SEC_VECTOR_MODE_CTR_CFB) #define XLR_SEC_VECTOR__CIPHER_AES256__F9__MODE_ECB_CBC_OFB \ (XLR_SEC_VECTOR_CIPHER_AES256 | XLR_SEC_VECTOR_F9 | XLR_SEC_VECTOR_MODE_ECB_CBC_OFB) #define XLR_SEC_VECTOR__CIPHER_AES128__F9__MODE_F8 \ (XLR_SEC_VECTOR_CIPHER_AES128 | XLR_SEC_VECTOR_F9 | XLR_SEC_VECTOR_MODE_F8) #define XLR_SEC_VECTOR__CIPHER_AES192__F9__MODE_F8 \ (XLR_SEC_VECTOR_CIPHER_AES192 | XLR_SEC_VECTOR_F9 | XLR_SEC_VECTOR_MODE_F8) #define XLR_SEC_VECTOR__CIPHER_AES256__F9__MODE_F8 \ (XLR_SEC_VECTOR_CIPHER_AES256 | XLR_SEC_VECTOR_F9 | XLR_SEC_VECTOR_MODE_F8) /* * Cipher Modes */ typedef enum { XLR_SEC_CIPHER_MODE_NONE = 0, XLR_SEC_CIPHER_MODE_PASS = 1, XLR_SEC_CIPHER_MODE_ECB, XLR_SEC_CIPHER_MODE_CBC, XLR_SEC_CIPHER_MODE_OFB, XLR_SEC_CIPHER_MODE_CTR, XLR_SEC_CIPHER_MODE_CFB, XLR_SEC_CIPHER_MODE_F8 } XLR_SEC_CIPHER_MODE; typedef enum { XLR_SEC_CIPHER_OP_NONE = 0, XLR_SEC_CIPHER_OP_ENCRYPT = 1, XLR_SEC_CIPHER_OP_DECRYPT } XLR_SEC_CIPHER_OP; typedef enum { XLR_SEC_CIPHER_TYPE_UNSUPPORTED = -1, XLR_SEC_CIPHER_TYPE_NONE = 0, XLR_SEC_CIPHER_TYPE_DES, XLR_SEC_CIPHER_TYPE_3DES, XLR_SEC_CIPHER_TYPE_AES128, XLR_SEC_CIPHER_TYPE_AES192, XLR_SEC_CIPHER_TYPE_AES256, XLR_SEC_CIPHER_TYPE_ARC4, XLR_SEC_CIPHER_TYPE_KASUMI_F8 } XLR_SEC_CIPHER_TYPE; typedef enum { XLR_SEC_CIPHER_INIT_OK = 1, /* Preserve old Keys */ XLR_SEC_CIPHER_INIT_NK /* Load new Keys */ } XLR_SEC_CIPHER_INIT; /* * Hash Modes */ typedef enum { XLR_SEC_DIGEST_TYPE_UNSUPPORTED = -1, XLR_SEC_DIGEST_TYPE_NONE = 0, XLR_SEC_DIGEST_TYPE_MD5, XLR_SEC_DIGEST_TYPE_SHA1, XLR_SEC_DIGEST_TYPE_SHA256, XLR_SEC_DIGEST_TYPE_SHA384, XLR_SEC_DIGEST_TYPE_SHA512, XLR_SEC_DIGEST_TYPE_GCM, XLR_SEC_DIGEST_TYPE_KASUMI_F9, XLR_SEC_DIGEST_TYPE_HMAC_MD5, XLR_SEC_DIGEST_TYPE_HMAC_SHA1, XLR_SEC_DIGEST_TYPE_HMAC_SHA256, XLR_SEC_DIGEST_TYPE_HMAC_SHA384, XLR_SEC_DIGEST_TYPE_HMAC_SHA512, XLR_SEC_DIGEST_TYPE_HMAC_AES_CBC, XLR_SEC_DIGEST_TYPE_HMAC_AES_XCBC } XLR_SEC_DIGEST_TYPE; typedef enum { XLR_SEC_DIGEST_INIT_OLDKEY = 1, /* Preserve old key HMAC key stored in * ID registers (moot if HASH.HMAC == * 0) */ XLR_SEC_DIGEST_INIT_NEWKEY /* Load new HMAC key from memory ctrl * section to ID registers */ } XLR_SEC_DIGEST_INIT; typedef enum { XLR_SEC_DIGEST_SRC_DMA = 1, /* DMA channel */ XLR_SEC_DIGEST_SRC_CPHR /* Cipher if word count exceeded * Cipher_Offset; else DMA */ } XLR_SEC_DIGEST_SRC; /* * Checksum Modes */ typedef enum { XLR_SEC_CKSUM_TYPE_NOP = 1, XLR_SEC_CKSUM_TYPE_IP } XLR_SEC_CKSUM_TYPE; typedef enum { XLR_SEC_CKSUM_SRC_DMA = 1, XLR_SEC_CKSUM_SRC_CIPHER } XLR_SEC_CKSUM_SRC; /* * Packet Modes */ typedef enum { XLR_SEC_LOADHMACKEY_MODE_OLD = 1, XLR_SEC_LOADHMACKEY_MODE_LOAD } XLR_SEC_LOADHMACKEY_MODE; typedef enum { XLR_SEC_PADHASH_PADDED = 1, XLR_SEC_PADHASH_PAD } XLR_SEC_PADHASH_MODE; typedef enum { XLR_SEC_HASHBYTES_ALL8 = 1, XLR_SEC_HASHBYTES_MSB, XLR_SEC_HASHBYTES_MSW } XLR_SEC_HASHBYTES_MODE; typedef enum { XLR_SEC_NEXT_FINISH = 1, XLR_SEC_NEXT_DO } XLR_SEC_NEXT_MODE; typedef enum { XLR_SEC_PKT_IV_OLD = 1, XLR_SEC_PKT_IV_NEW } XLR_SEC_PKT_IV_MODE; typedef enum { XLR_SEC_LASTWORD_128 = 1, XLR_SEC_LASTWORD_96MASK, XLR_SEC_LASTWORD_64MASK, XLR_SEC_LASTWORD_32MASK } XLR_SEC_LASTWORD_MODE; typedef enum { XLR_SEC_CFB_MASK_REGULAR_CTR = 0, XLR_SEC_CFB_MASK_CCMP, XLR_SEC_CFB_MASK_GCM_WITH_SCI, XLR_SEC_CFB_MASK_GCM_WITHOUT_SCI } XLR_SEC_CFB_MASK_MODE; /* * Public Key */ typedef enum { RMIPK_BLKWIDTH_512 = 1, RMIPK_BLKWIDTH_1024 } RMIPK_BLKWIDTH_MODE; typedef enum { RMIPK_LDCONST_OLD = 1, RMIPK_LDCONST_NEW } RMIPK_LDCONST_MODE; typedef struct xlr_sec_io_s { unsigned int command; unsigned int result_status; unsigned int flags; unsigned int session_num; unsigned int use_callback; unsigned int time_us; unsigned int user_context[2]; /* usable for anything by caller */ unsigned int command_context; /* Context (ID) of this command). */ unsigned char initial_vector[XLR_SEC_MAX_IV_LENGTH]; unsigned char crypt_key[XLR_SEC_MAX_CRYPT_KEY_LENGTH]; unsigned char mac_key[XLR_SEC_MAX_AUTH_KEY_LENGTH]; XLR_SEC_CIPHER_OP cipher_op; XLR_SEC_CIPHER_MODE cipher_mode; XLR_SEC_CIPHER_TYPE cipher_type; XLR_SEC_CIPHER_INIT cipher_init; unsigned int cipher_offset; XLR_SEC_DIGEST_TYPE digest_type; XLR_SEC_DIGEST_INIT digest_init; XLR_SEC_DIGEST_SRC digest_src; unsigned int digest_offset; XLR_SEC_CKSUM_TYPE cksum_type; XLR_SEC_CKSUM_SRC cksum_src; unsigned int cksum_offset; XLR_SEC_LOADHMACKEY_MODE pkt_hmac; XLR_SEC_PADHASH_MODE pkt_hash; XLR_SEC_HASHBYTES_MODE pkt_hashbytes; XLR_SEC_NEXT_MODE pkt_next; XLR_SEC_PKT_IV_MODE pkt_iv; XLR_SEC_LASTWORD_MODE pkt_lastword; unsigned int nonce; unsigned int cfb_mask; unsigned int iv_offset; unsigned short pad_type; unsigned short rc4_key_len; unsigned int num_packets; unsigned int num_fragments; uint64_t source_buf; unsigned int source_buf_size; uint64_t dest_buf; unsigned int dest_buf_size; uint64_t auth_dest; uint64_t cksum_dest; unsigned short rc4_loadstate; unsigned short rc4_savestate; uint64_t rc4_state; } xlr_sec_io_t, *xlr_sec_io_pt; #define XLR_SEC_SESSION(sid) ((sid) & 0x000007ff) #define XLR_SEC_SID(crd,ses) (((crd) << 28) | ((ses) & 0x7ff)) /* * Length values for cryptography */ /* #define XLR_SEC_DES_KEY_LENGTH 8 #define XLR_SEC_3DES_KEY_LENGTH 24 #define XLR_SEC_MAX_CRYPT_KEY_LENGTH XLR_SEC_3DES_KEY_LENGTH #define XLR_SEC_IV_LENGTH 8 #define XLR_SEC_AES_IV_LENGTH 16 #define XLR_SEC_MAX_IV_LENGTH XLR_SEC_AES_IV_LENGTH */ #define SEC_MAX_FRAG_LEN 16000 struct xlr_sec_command { uint16_t session_num; struct cryptop *crp; struct cryptodesc *enccrd, *maccrd; xlr_sec_io_t op; }; struct xlr_sec_session { uint32_t sessionid; int hs_used; int hs_mlen; struct xlr_sec_command cmd; void *desc_ptr; uint8_t multi_frag_flag; }; /* * Holds data specific to rmi security accelerators */ struct xlr_sec_softc { device_t sc_dev; /* device backpointer */ struct mtx sc_mtx; /* per-instance lock */ int32_t sc_cid; struct xlr_sec_session *sc_sessions; int sc_nsessions; xlr_reg_t *mmio; }; /* union xlr_sec_operand_t { struct mbuf *m; struct uio *io; void *buf; }xlr_sec_operand; */ /* this is passed to packet setup to optimize */ #define XLR_SEC_SETUP_OP_CIPHER 0x00000001 #define XLR_SEC_SETUP_OP_HMAC 0x00000002 #define XLR_SEC_SETUP_OP_CIPHER_HMAC (XLR_SEC_SETUP_OP_CIPHER | XLR_SEC_SETUP_OP_HMAC) /* this is passed to control_setup to update w/preserving existing keys */ #define XLR_SEC_SETUP_OP_PRESERVE_HMAC_KEY 0x80000000 #define XLR_SEC_SETUP_OP_PRESERVE_CIPHER_KEY 0x40000000 #define XLR_SEC_SETUP_OP_UPDATE_KEYS 0x00000010 #define XLR_SEC_SETUP_OP_FLIP_3DES_KEY 0x00000020 /* * Message Ring Specifics */ #define SEC_MSGRING_WORDSIZE 2 /* * * * rwR 31 30 29 27 26 24 23 21 20 18 * | NA | RSA0Out | Rsa0In | Pipe3Out | Pipe3In | ... * * 17 15 14 12 11 9 8 6 5 3 2 0 * | Pipe2Out | Pipe2In | Pipe1In | Pipe1In | Pipe0Out | Pipe0In | * * DMA CREDIT REG - * NUMBER OF CREDITS PER PIPE */ #define SEC_DMA_CREDIT_RSA0_OUT_FOUR 0x20000000 #define SEC_DMA_CREDIT_RSA0_OUT_TWO 0x10000000 #define SEC_DMA_CREDIT_RSA0_OUT_ONE 0x08000000 #define SEC_DMA_CREDIT_RSA0_IN_FOUR 0x04000000 #define SEC_DMA_CREDIT_RSA0_IN_TWO 0x02000000 #define SEC_DMA_CREDIT_RSA0_IN_ONE 0x01000000 #define SEC_DMA_CREDIT_PIPE3_OUT_FOUR 0x00800000 #define SEC_DMA_CREDIT_PIPE3_OUT_TWO 0x00400000 #define SEC_DMA_CREDIT_PIPE3_OUT_ONE 0x00200000 #define SEC_DMA_CREDIT_PIPE3_IN_FOUR 0x00100000 #define SEC_DMA_CREDIT_PIPE3_IN_TWO 0x00080000 #define SEC_DMA_CREDIT_PIPE3_IN_ONE 0x00040000 #define SEC_DMA_CREDIT_PIPE2_OUT_FOUR 0x00020000 #define SEC_DMA_CREDIT_PIPE2_OUT_TWO 0x00010000 #define SEC_DMA_CREDIT_PIPE2_OUT_ONE 0x00008000 #define SEC_DMA_CREDIT_PIPE2_IN_FOUR 0x00004000 #define SEC_DMA_CREDIT_PIPE2_IN_TWO 0x00002000 #define SEC_DMA_CREDIT_PIPE2_IN_ONE 0x00001000 #define SEC_DMA_CREDIT_PIPE1_OUT_FOUR 0x00000800 #define SEC_DMA_CREDIT_PIPE1_OUT_TWO 0x00000400 #define SEC_DMA_CREDIT_PIPE1_OUT_ONE 0x00000200 #define SEC_DMA_CREDIT_PIPE1_IN_FOUR 0x00000100 #define SEC_DMA_CREDIT_PIPE1_IN_TWO 0x00000080 #define SEC_DMA_CREDIT_PIPE1_IN_ONE 0x00000040 #define SEC_DMA_CREDIT_PIPE0_OUT_FOUR 0x00000020 #define SEC_DMA_CREDIT_PIPE0_OUT_TWO 0x00000010 #define SEC_DMA_CREDIT_PIPE0_OUT_ONE 0x00000008 #define SEC_DMA_CREDIT_PIPE0_IN_FOUR 0x00000004 #define SEC_DMA_CREDIT_PIPE0_IN_TWO 0x00000002 #define SEC_DMA_CREDIT_PIPE0_IN_ONE 0x00000001 /* * Currently, FOUR credits per PIPE * 0x24924924 */ #define SEC_DMA_CREDIT_CONFIG SEC_DMA_CREDIT_RSA0_OUT_FOUR | \ SEC_DMA_CREDIT_RSA0_IN_FOUR | \ SEC_DMA_CREDIT_PIPE3_OUT_FOUR | \ SEC_DMA_CREDIT_PIPE3_IN_FOUR | \ SEC_DMA_CREDIT_PIPE2_OUT_FOUR | \ SEC_DMA_CREDIT_PIPE2_IN_FOUR | \ SEC_DMA_CREDIT_PIPE1_OUT_FOUR | \ SEC_DMA_CREDIT_PIPE1_IN_FOUR | \ SEC_DMA_CREDIT_PIPE0_OUT_FOUR | \ SEC_DMA_CREDIT_PIPE0_IN_FOUR /* * CONFIG2 * 31 5 4 3 * | NA | PIPE3_DEF_DBL_ISS | PIPE2_DEF_DBL_ISS | ... * * 2 1 0 * ... | PIPE1_DEF_DBL_ISS | PIPE0_DEF_DBL_ISS | ROUND_ROBIN_MODE | * * DBL_ISS - mode for SECENG and DMA controller which slows down transfers * (to be conservativei; 0=Disable,1=Enable). * ROUND_ROBIN - mode where SECENG dispatches operations to PIPE0-PIPE3 * and all messages are sent to PIPE0. * */ #define SEC_CFG2_PIPE3_DBL_ISS_ON 0x00000010 #define SEC_CFG2_PIPE3_DBL_ISS_OFF 0x00000000 #define SEC_CFG2_PIPE2_DBL_ISS_ON 0x00000008 #define SEC_CFG2_PIPE2_DBL_ISS_OFF 0x00000000 #define SEC_CFG2_PIPE1_DBL_ISS_ON 0x00000004 #define SEC_CFG2_PIPE1_DBL_ISS_OFF 0x00000000 #define SEC_CFG2_PIPE0_DBL_ISS_ON 0x00000002 #define SEC_CFG2_PIPE0_DBL_ISS_OFF 0x00000000 #define SEC_CFG2_ROUND_ROBIN_ON 0x00000001 #define SEC_CFG2_ROUND_ROBIN_OFF 0x00000000 enum sec_pipe_config { SEC_PIPE_CIPHER_KEY0_L0 = 0x00, SEC_PIPE_CIPHER_KEY0_HI, SEC_PIPE_CIPHER_KEY1_LO, SEC_PIPE_CIPHER_KEY1_HI, SEC_PIPE_CIPHER_KEY2_LO, SEC_PIPE_CIPHER_KEY2_HI, SEC_PIPE_CIPHER_KEY3_LO, SEC_PIPE_CIPHER_KEY3_HI, SEC_PIPE_HMAC_KEY0_LO, SEC_PIPE_HMAC_KEY0_HI, SEC_PIPE_HMAC_KEY1_LO, SEC_PIPE_HMAC_KEY1_HI, SEC_PIPE_HMAC_KEY2_LO, SEC_PIPE_HMAC_KEY2_HI, SEC_PIPE_HMAC_KEY3_LO, SEC_PIPE_HMAC_KEY3_HI, SEC_PIPE_HMAC_KEY4_LO, SEC_PIPE_HMAC_KEY4_HI, SEC_PIPE_HMAC_KEY5_LO, SEC_PIPE_HMAC_KEY5_HI, SEC_PIPE_HMAC_KEY6_LO, SEC_PIPE_HMAC_KEY6_HI, SEC_PIPE_HMAC_KEY7_LO, SEC_PIPE_HMAC_KEY7_HI, SEC_PIPE_NCFBM_LO, SEC_PIPE_NCFBM_HI, SEC_PIPE_INSTR_LO, SEC_PIPE_INSTR_HI, SEC_PIPE_RSVD0, SEC_PIPE_RSVD1, SEC_PIPE_RSVD2, SEC_PIPE_RSVD3, SEC_PIPE_DF_PTRS0, SEC_PIPE_DF_PTRS1, SEC_PIPE_DF_PTRS2, SEC_PIPE_DF_PTRS3, SEC_PIPE_DF_PTRS4, SEC_PIPE_DF_PTRS5, SEC_PIPE_DF_PTRS6, SEC_PIPE_DF_PTRS7, SEC_PIPE_DU_DATA_IN_LO, SEC_PIPE_DU_DATA_IN_HI, SEC_PIPE_DU_DATA_IN_CTRL, SEC_PIPE_DU_DATA_OUT_LO, SEC_PIPE_DU_DATA_OUT_HI, SEC_PIPE_DU_DATA_OUT_CTRL, SEC_PIPE_STATE0, SEC_PIPE_STATE1, SEC_PIPE_STATE2, SEC_PIPE_STATE3, SEC_PIPE_STATE4, SEC_PIPE_INCLUDE_MASK0, SEC_PIPE_INCLUDE_MASK1, SEC_PIPE_INCLUDE_MASK2, SEC_PIPE_INCLUDE_MASK3, SEC_PIPE_INCLUDE_MASK4, SEC_PIPE_EXCLUDE_MASK0, SEC_PIPE_EXCLUDE_MASK1, SEC_PIPE_EXCLUDE_MASK2, SEC_PIPE_EXCLUDE_MASK3, SEC_PIPE_EXCLUDE_MASK4, }; enum sec_pipe_base_config { SEC_PIPE0_BASE = 0x00, SEC_PIPE1_BASE = 0x40, SEC_PIPE2_BASE = 0x80, SEC_PIPE3_BASE = 0xc0 }; enum sec_rsa_config { SEC_RSA_PIPE0_DU_DATA_IN_LO = 0x100, SEC_RSA_PIPE0_DU_DATA_IN_HI, SEC_RSA_PIPE0_DU_DATA_IN_CTRL, SEC_RSA_PIPE0_DU_DATA_OUT_LO, SEC_RSA_PIPE0_DU_DATA_OUT_HI, SEC_RSA_PIPE0_DU_DATA_OUT_CTRL, SEC_RSA_RSVD0, SEC_RSA_RSVD1, SEC_RSA_PIPE0_STATE0, SEC_RSA_PIPE0_STATE1, SEC_RSA_PIPE0_STATE2, SEC_RSA_PIPE0_INCLUDE_MASK0, SEC_RSA_PIPE0_INCLUDE_MASK1, SEC_RSA_PIPE0_INCLUDE_MASK2, SEC_RSA_PIPE0_EXCLUDE_MASK0, SEC_RSA_PIPE0_EXCLUDE_MASK1, SEC_RSA_PIPE0_EXCLUDE_MASK2, SEC_RSA_PIPE0_EVENT_CTR }; enum sec_config { SEC_DMA_CREDIT = 0x140, SEC_CONFIG1, SEC_CONFIG2, SEC_CONFIG3, }; enum sec_debug_config { SEC_DW0_DESCRIPTOR0_LO = 0x180, SEC_DW0_DESCRIPTOR0_HI, SEC_DW0_DESCRIPTOR1_LO, SEC_DW0_DESCRIPTOR1_HI, SEC_DW1_DESCRIPTOR0_LO, SEC_DW1_DESCRIPTOR0_HI, SEC_DW1_DESCRIPTOR1_LO, SEC_DW1_DESCRIPTOR1_HI, SEC_DW2_DESCRIPTOR0_LO, SEC_DW2_DESCRIPTOR0_HI, SEC_DW2_DESCRIPTOR1_LO, SEC_DW2_DESCRIPTOR1_HI, SEC_DW3_DESCRIPTOR0_LO, SEC_DW3_DESCRIPTOR0_HI, SEC_DW3_DESCRIPTOR1_LO, SEC_DW3_DESCRIPTOR1_HI, SEC_STATE0, SEC_STATE1, SEC_STATE2, SEC_INCLUDE_MASK0, SEC_INCLUDE_MASK1, SEC_INCLUDE_MASK2, SEC_EXCLUDE_MASK0, SEC_EXCLUDE_MASK1, SEC_EXCLUDE_MASK2, SEC_EVENT_CTR }; enum sec_msgring_bucket_config { SEC_BIU_CREDITS = 0x308, SEC_MSG_BUCKET0_SIZE = 0x320, SEC_MSG_BUCKET1_SIZE, SEC_MSG_BUCKET2_SIZE, SEC_MSG_BUCKET3_SIZE, SEC_MSG_BUCKET4_SIZE, SEC_MSG_BUCKET5_SIZE, SEC_MSG_BUCKET6_SIZE, SEC_MSG_BUCKET7_SIZE, }; enum sec_msgring_credit_config { SEC_CC_CPU0_0 = 0x380, SEC_CC_CPU1_0 = 0x388, SEC_CC_CPU2_0 = 0x390, SEC_CC_CPU3_0 = 0x398, SEC_CC_CPU4_0 = 0x3a0, SEC_CC_CPU5_0 = 0x3a8, SEC_CC_CPU6_0 = 0x3b0, SEC_CC_CPU7_0 = 0x3b8 }; enum sec_engine_id { SEC_PIPE0, SEC_PIPE1, SEC_PIPE2, SEC_PIPE3, SEC_RSA }; enum sec_cipher { SEC_AES256_MODE_HMAC, SEC_AES256_MODE, SEC_AES256_HMAC, SEC_AES256, SEC_AES192_MODE_HMAC, SEC_AES192_MODE, SEC_AES192_HMAC, SEC_AES192, SEC_AES128_MODE_HMAC, SEC_AES128_MODE, SEC_AES128_HMAC, SEC_AES128, SEC_DES_HMAC, SEC_DES, SEC_3DES, SEC_3DES_HMAC, SEC_HMAC }; enum sec_msgrng_msg_ctrl_config { SEC_EOP = 5, SEC_SOP = 6, }; void xlr_sec_init(struct xlr_sec_softc *sc); int xlr_sec_setup(struct xlr_sec_session *ses, struct xlr_sec_command *cmd, symkey_desc_pt desc); symkey_desc_pt xlr_sec_allocate_desc(void *); #endif