diff options
author | Martin Willi <martin@strongswan.org> | 2008-03-13 14:14:44 +0000 |
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committer | Martin Willi <martin@strongswan.org> | 2008-03-13 14:14:44 +0000 |
commit | 552cc11b1f017ce4962fca741f567d098f768574 (patch) | |
tree | 2835ae64c435191e04b5a265b1509c40a2e6766a /src/libstrongswan/plugins/aes | |
parent | 2df655134ca29f7a0b7d90ef4783f85eff1ddfd3 (diff) | |
download | strongswan-552cc11b1f017ce4962fca741f567d098f768574.tar.bz2 strongswan-552cc11b1f017ce4962fca741f567d098f768574.tar.xz |
merged the modularization branch (credentials) back to trunk
Diffstat (limited to 'src/libstrongswan/plugins/aes')
-rw-r--r-- | src/libstrongswan/plugins/aes/Makefile.am | 10 | ||||
-rw-r--r-- | src/libstrongswan/plugins/aes/aes_crypter.c | 1621 | ||||
-rw-r--r-- | src/libstrongswan/plugins/aes/aes_crypter.h | 50 | ||||
-rw-r--r-- | src/libstrongswan/plugins/aes/aes_plugin.c | 60 | ||||
-rw-r--r-- | src/libstrongswan/plugins/aes/aes_plugin.h | 47 |
5 files changed, 1788 insertions, 0 deletions
diff --git a/src/libstrongswan/plugins/aes/Makefile.am b/src/libstrongswan/plugins/aes/Makefile.am new file mode 100644 index 000000000..e73040f27 --- /dev/null +++ b/src/libstrongswan/plugins/aes/Makefile.am @@ -0,0 +1,10 @@ + +INCLUDES = -I$(top_srcdir)/src/libstrongswan + +AM_CFLAGS = -rdynamic + +plugin_LTLIBRARIES = libstrongswan-aes.la + +libstrongswan_aes_la_SOURCES = aes_plugin.h aes_plugin.c aes_crypter.c aes_crypter.h +libstrongswan_aes_la_LDFLAGS = -module + diff --git a/src/libstrongswan/plugins/aes/aes_crypter.c b/src/libstrongswan/plugins/aes/aes_crypter.c new file mode 100644 index 000000000..f0c31cfa2 --- /dev/null +++ b/src/libstrongswan/plugins/aes/aes_crypter.c @@ -0,0 +1,1621 @@ +/* + * Copyright (C) 2001 Dr B. R. Gladman <brg@gladman.uk.net> + * Copyright (C) 2005-2006 Martin Willi + * Copyright (C) 2005 Jan Hutter + * Hochschule fuer Technik Rapperswil + * + * This program is free software; you can redistribute it and/or modify it + * under the terms of the GNU General Public License as published by the + * Free Software Foundation; either version 2 of the License, or (at your + * option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>. + * + * This program is distributed in the hope that it will be useful, but + * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License + * for more details. + * + * $Id$ + */ + +#include "aes_crypter.h" + +/* + * The number of key schedule words for different block and key lengths + * allowing for method of computation which requires the length to be a + * multiple of the key length. This version of AES implementation supports + * all three keylengths 16, 24 and 32 bytes! + * + * Nk = 4 6 8 + * ------------- + * Nb = 4 | 60 60 64 + * 6 | 96 90 96 + * 8 | 120 120 120 + */ +#define AES_KS_LENGTH 120 +#define AES_RC_LENGTH 29 + +#define AES_BLOCK_SIZE 16 + +typedef struct private_aes_crypter_t private_aes_crypter_t; + +/** + * Class implementing the AES symmetric encryption algorithm. + * + * @ingroup crypters + */ +struct private_aes_crypter_t { + + /** + * Public part of this class. + */ + aes_crypter_t public; + + /** + * Number of words in the key input block. + */ + u_int32_t aes_Nkey; + + /** + * The number of cipher rounds. + */ + u_int32_t aes_Nrnd; + + /** + * The encryption key schedule. + */ + u_int32_t aes_e_key[AES_KS_LENGTH]; + + /** + * The decryption key schedule. + */ + u_int32_t aes_d_key[AES_KS_LENGTH]; + + /** + * Key size of this AES cypher object. + */ + u_int32_t key_size; + + /** + * Decrypts a block. + * + * No memory gets allocated. + * + * @param this calling object + * @param[in] in_blk block to decrypt + * @param[out] out_blk decrypted data are written to this location + */ + void (*decrypt_block) (const private_aes_crypter_t *this, const unsigned char in_blk[], unsigned char out_blk[]); + + /** + * Encrypts a block. + * + * No memory gets allocated. + * + * @param this calling object + * @param[in] in_blk block to encrypt + * @param[out] out_blk encrypted data are written to this location + */ + void (*encrypt_block) (const private_aes_crypter_t *this, const unsigned char in_blk[], unsigned char out_blk[]); +}; + + +/* ugly macro stuff */ + +/* 1. Define UNROLL for full loop unrolling in encryption and decryption. + * 2. Define PARTIAL_UNROLL to unroll two loops in encryption and decryption. + * 3. Define FIXED_TABLES for compiled rather than dynamic tables. + * 4. Define FF_TABLES to use tables for field multiplies and inverses. + * Do not enable this without understanding stack space requirements. + * 5. Define ARRAYS to use arrays to hold the local state block. If this + * is not defined, individually declared 32-bit words are used. + * 6. Define FAST_VARIABLE if a high speed variable block implementation + * is needed (essentially three separate fixed block size code sequences) + * 7. Define either ONE_TABLE or FOUR_TABLES for a fast table driven + * version using 1 table (2 kbytes of table space) or 4 tables (8 + * kbytes of table space) for higher speed. + * 8. Define either ONE_LR_TABLE or FOUR_LR_TABLES for a further speed + * increase by using tables for the last rounds but with more table + * space (2 or 8 kbytes extra). + * 9. If neither ONE_TABLE nor FOUR_TABLES is defined, a compact but + * slower version is provided. + * 10. If fast decryption key scheduling is needed define ONE_IM_TABLE + * or FOUR_IM_TABLES for higher speed (2 or 8 kbytes extra). + */ + +#define UNROLL +//#define PARTIAL_UNROLL + +#define FIXED_TABLES +//#define FF_TABLES +//#define ARRAYS +#define FAST_VARIABLE + +//#define ONE_TABLE +#define FOUR_TABLES + +//#define ONE_LR_TABLE +#define FOUR_LR_TABLES + +//#define ONE_IM_TABLE +#define FOUR_IM_TABLES + +#if defined(UNROLL) && defined (PARTIAL_UNROLL) +#error both UNROLL and PARTIAL_UNROLL are defined +#endif + +#if defined(ONE_TABLE) && defined (FOUR_TABLES) +#error both ONE_TABLE and FOUR_TABLES are defined +#endif + +#if defined(ONE_LR_TABLE) && defined (FOUR_LR_TABLES) +#error both ONE_LR_TABLE and FOUR_LR_TABLES are defined +#endif + +#if defined(ONE_IM_TABLE) && defined (FOUR_IM_TABLES) +#error both ONE_IM_TABLE and FOUR_IM_TABLES are defined +#endif + +#if defined(AES_BLOCK_SIZE) && AES_BLOCK_SIZE != 16 && AES_BLOCK_SIZE != 24 && AES_BLOCK_SIZE != 32 +#error an illegal block size has been specified +#endif + +/** + * Rotates bytes within words by n positions, moving bytes + * to higher index positions with wrap around into low positions. + */ +#define upr(x,n) (((x) << 8 * (n)) | ((x) >> (32 - 8 * (n)))) +/** + * Moves bytes by n positions to higher index positions in + * words but without wrap around. + */ +#define ups(x,n) ((x) << 8 * (n)) + +/** + * Extracts a byte from a word. + */ +#define bval(x,n) ((unsigned char)((x) >> 8 * (n))) +#define bytes2word(b0, b1, b2, b3) \ + ((u_int32_t)(b3) << 24 | (u_int32_t)(b2) << 16 | (u_int32_t)(b1) << 8 | (b0)) + + +/* little endian processor without data alignment restrictions: AES_LE_OK */ +/* original code: i386 */ +#if defined(i386) || defined(_I386) || defined(__i386__) || defined(__i386) +#define AES_LE_OK 1 +/* added (tested): alpha --jjo */ +#elif defined(__alpha__)|| defined (__alpha) +#define AES_LE_OK 1 +/* added (tested): ia64 --jjo */ +#elif defined(__ia64__)|| defined (__ia64) +#define AES_LE_OK 1 +#endif + +#ifdef AES_LE_OK +/* little endian processor without data alignment restrictions */ +#define word_in(x) *(u_int32_t*)(x) +#define const_word_in(x) *(const u_int32_t*)(x) +#define word_out(x,v) *(u_int32_t*)(x) = (v) +#define const_word_out(x,v) *(const u_int32_t*)(x) = (v) +#else +/* slower but generic big endian or with data alignment restrictions */ +/* some additional "const" touches to stop "gcc -Wcast-qual" complains --jjo */ +#define word_in(x) ((u_int32_t)(((unsigned char *)(x))[0])|((u_int32_t)(((unsigned char *)(x))[1])<<8)|((u_int32_t)(((unsigned char *)(x))[2])<<16)|((u_int32_t)(((unsigned char *)(x))[3])<<24)) +#define const_word_in(x) ((const u_int32_t)(((const unsigned char *)(x))[0])|((const u_int32_t)(((const unsigned char *)(x))[1])<<8)|((const u_int32_t)(((const unsigned char *)(x))[2])<<16)|((const u_int32_t)(((const unsigned char *)(x))[3])<<24)) +#define word_out(x,v) ((unsigned char *)(x))[0]=(v),((unsigned char *)(x))[1]=((v)>>8),((unsigned char *)(x))[2]=((v)>>16),((unsigned char *)(x))[3]=((v)>>24) +#define const_word_out(x,v) ((const unsigned char *)(x))[0]=(v),((const unsigned char *)(x))[1]=((v)>>8),((const unsigned char *)(x))[2]=((v)>>16),((const unsigned char *)(x))[3]=((v)>>24) +#endif + +// Disable at least some poor combinations of options + +#if !defined(ONE_TABLE) && !defined(FOUR_TABLES) +#define FIXED_TABLES +#undef UNROLL +#undef ONE_LR_TABLE +#undef FOUR_LR_TABLES +#undef ONE_IM_TABLE +#undef FOUR_IM_TABLES +#elif !defined(FOUR_TABLES) +#ifdef FOUR_LR_TABLES +#undef FOUR_LR_TABLES +#define ONE_LR_TABLE +#endif +#ifdef FOUR_IM_TABLES +#undef FOUR_IM_TABLES +#define ONE_IM_TABLE +#endif +#elif !defined(AES_BLOCK_SIZE) +#if defined(UNROLL) +#define PARTIAL_UNROLL +#undef UNROLL +#endif +#endif + +// the finite field modular polynomial and elements + +#define ff_poly 0x011b +#define ff_hi 0x80 + +// multiply four bytes in GF(2^8) by 'x' {02} in parallel + +#define m1 0x80808080 +#define m2 0x7f7f7f7f +#define m3 0x0000001b +#define FFmulX(x) ((((x) & m2) << 1) ^ ((((x) & m1) >> 7) * m3)) + +// The following defines provide alternative definitions of FFmulX that might +// give improved performance if a fast 32-bit multiply is not available. Note +// that a temporary variable u needs to be defined where FFmulX is used. + +// #define FFmulX(x) (u = (x) & m1, u |= (u >> 1), ((x) & m2) << 1) ^ ((u >> 3) | (u >> 6)) +// #define m4 0x1b1b1b1b +// #define FFmulX(x) (u = (x) & m1, ((x) & m2) << 1) ^ ((u - (u >> 7)) & m4) + +// perform column mix operation on four bytes in parallel + +#define fwd_mcol(x) (f2 = FFmulX(x), f2 ^ upr(x ^ f2,3) ^ upr(x,2) ^ upr(x,1)) + +#if defined(FIXED_TABLES) + +// the S-Box table + +static const unsigned char s_box[256] = +{ + 0x63, 0x7c, 0x77, 0x7b, 0xf2, 0x6b, 0x6f, 0xc5, + 0x30, 0x01, 0x67, 0x2b, 0xfe, 0xd7, 0xab, 0x76, + 0xca, 0x82, 0xc9, 0x7d, 0xfa, 0x59, 0x47, 0xf0, + 0xad, 0xd4, 0xa2, 0xaf, 0x9c, 0xa4, 0x72, 0xc0, + 0xb7, 0xfd, 0x93, 0x26, 0x36, 0x3f, 0xf7, 0xcc, + 0x34, 0xa5, 0xe5, 0xf1, 0x71, 0xd8, 0x31, 0x15, + 0x04, 0xc7, 0x23, 0xc3, 0x18, 0x96, 0x05, 0x9a, + 0x07, 0x12, 0x80, 0xe2, 0xeb, 0x27, 0xb2, 0x75, + 0x09, 0x83, 0x2c, 0x1a, 0x1b, 0x6e, 0x5a, 0xa0, + 0x52, 0x3b, 0xd6, 0xb3, 0x29, 0xe3, 0x2f, 0x84, + 0x53, 0xd1, 0x00, 0xed, 0x20, 0xfc, 0xb1, 0x5b, + 0x6a, 0xcb, 0xbe, 0x39, 0x4a, 0x4c, 0x58, 0xcf, + 0xd0, 0xef, 0xaa, 0xfb, 0x43, 0x4d, 0x33, 0x85, + 0x45, 0xf9, 0x02, 0x7f, 0x50, 0x3c, 0x9f, 0xa8, + 0x51, 0xa3, 0x40, 0x8f, 0x92, 0x9d, 0x38, 0xf5, + 0xbc, 0xb6, 0xda, 0x21, 0x10, 0xff, 0xf3, 0xd2, + 0xcd, 0x0c, 0x13, 0xec, 0x5f, 0x97, 0x44, 0x17, + 0xc4, 0xa7, 0x7e, 0x3d, 0x64, 0x5d, 0x19, 0x73, + 0x60, 0x81, 0x4f, 0xdc, 0x22, 0x2a, 0x90, 0x88, + 0x46, 0xee, 0xb8, 0x14, 0xde, 0x5e, 0x0b, 0xdb, + 0xe0, 0x32, 0x3a, 0x0a, 0x49, 0x06, 0x24, 0x5c, + 0xc2, 0xd3, 0xac, 0x62, 0x91, 0x95, 0xe4, 0x79, + 0xe7, 0xc8, 0x37, 0x6d, 0x8d, 0xd5, 0x4e, 0xa9, + 0x6c, 0x56, 0xf4, 0xea, 0x65, 0x7a, 0xae, 0x08, + 0xba, 0x78, 0x25, 0x2e, 0x1c, 0xa6, 0xb4, 0xc6, + 0xe8, 0xdd, 0x74, 0x1f, 0x4b, 0xbd, 0x8b, 0x8a, + 0x70, 0x3e, 0xb5, 0x66, 0x48, 0x03, 0xf6, 0x0e, + 0x61, 0x35, 0x57, 0xb9, 0x86, 0xc1, 0x1d, 0x9e, + 0xe1, 0xf8, 0x98, 0x11, 0x69, 0xd9, 0x8e, 0x94, + 0x9b, 0x1e, 0x87, 0xe9, 0xce, 0x55, 0x28, 0xdf, + 0x8c, 0xa1, 0x89, 0x0d, 0xbf, 0xe6, 0x42, 0x68, + 0x41, 0x99, 0x2d, 0x0f, 0xb0, 0x54, 0xbb, 0x16 +}; + +// the inverse S-Box table + +static const unsigned char inv_s_box[256] = +{ + 0x52, 0x09, 0x6a, 0xd5, 0x30, 0x36, 0xa5, 0x38, + 0xbf, 0x40, 0xa3, 0x9e, 0x81, 0xf3, 0xd7, 0xfb, + 0x7c, 0xe3, 0x39, 0x82, 0x9b, 0x2f, 0xff, 0x87, + 0x34, 0x8e, 0x43, 0x44, 0xc4, 0xde, 0xe9, 0xcb, + 0x54, 0x7b, 0x94, 0x32, 0xa6, 0xc2, 0x23, 0x3d, + 0xee, 0x4c, 0x95, 0x0b, 0x42, 0xfa, 0xc3, 0x4e, + 0x08, 0x2e, 0xa1, 0x66, 0x28, 0xd9, 0x24, 0xb2, + 0x76, 0x5b, 0xa2, 0x49, 0x6d, 0x8b, 0xd1, 0x25, + 0x72, 0xf8, 0xf6, 0x64, 0x86, 0x68, 0x98, 0x16, + 0xd4, 0xa4, 0x5c, 0xcc, 0x5d, 0x65, 0xb6, 0x92, + 0x6c, 0x70, 0x48, 0x50, 0xfd, 0xed, 0xb9, 0xda, + 0x5e, 0x15, 0x46, 0x57, 0xa7, 0x8d, 0x9d, 0x84, + 0x90, 0xd8, 0xab, 0x00, 0x8c, 0xbc, 0xd3, 0x0a, + 0xf7, 0xe4, 0x58, 0x05, 0xb8, 0xb3, 0x45, 0x06, + 0xd0, 0x2c, 0x1e, 0x8f, 0xca, 0x3f, 0x0f, 0x02, + 0xc1, 0xaf, 0xbd, 0x03, 0x01, 0x13, 0x8a, 0x6b, + 0x3a, 0x91, 0x11, 0x41, 0x4f, 0x67, 0xdc, 0xea, + 0x97, 0xf2, 0xcf, 0xce, 0xf0, 0xb4, 0xe6, 0x73, + 0x96, 0xac, 0x74, 0x22, 0xe7, 0xad, 0x35, 0x85, + 0xe2, 0xf9, 0x37, 0xe8, 0x1c, 0x75, 0xdf, 0x6e, + 0x47, 0xf1, 0x1a, 0x71, 0x1d, 0x29, 0xc5, 0x89, + 0x6f, 0xb7, 0x62, 0x0e, 0xaa, 0x18, 0xbe, 0x1b, + 0xfc, 0x56, 0x3e, 0x4b, 0xc6, 0xd2, 0x79, 0x20, + 0x9a, 0xdb, 0xc0, 0xfe, 0x78, 0xcd, 0x5a, 0xf4, + 0x1f, 0xdd, 0xa8, 0x33, 0x88, 0x07, 0xc7, 0x31, + 0xb1, 0x12, 0x10, 0x59, 0x27, 0x80, 0xec, 0x5f, + 0x60, 0x51, 0x7f, 0xa9, 0x19, 0xb5, 0x4a, 0x0d, + 0x2d, 0xe5, 0x7a, 0x9f, 0x93, 0xc9, 0x9c, 0xef, + 0xa0, 0xe0, 0x3b, 0x4d, 0xae, 0x2a, 0xf5, 0xb0, + 0xc8, 0xeb, 0xbb, 0x3c, 0x83, 0x53, 0x99, 0x61, + 0x17, 0x2b, 0x04, 0x7e, 0xba, 0x77, 0xd6, 0x26, + 0xe1, 0x69, 0x14, 0x63, 0x55, 0x21, 0x0c, 0x7d +}; + +#define w0(p) 0x000000##p + +// Number of elements required in this table for different +// block and key lengths is: +// +// Nk = 4 6 8 +// ---------- +// Nb = 4 | 10 8 7 +// 6 | 19 12 11 +// 8 | 29 19 14 +// +// this table can be a table of bytes if the key schedule +// code is adjusted accordingly + +static const u_int32_t rcon_tab[29] = +{ + w0(01), w0(02), w0(04), w0(08), + w0(10), w0(20), w0(40), w0(80), + w0(1b), w0(36), w0(6c), w0(d8), + w0(ab), w0(4d), w0(9a), w0(2f), + w0(5e), w0(bc), w0(63), w0(c6), + w0(97), w0(35), w0(6a), w0(d4), + w0(b3), w0(7d), w0(fa), w0(ef), + w0(c5) +}; + +#undef w0 + +#define r0(p,q,r,s) 0x##p##q##r##s +#define r1(p,q,r,s) 0x##q##r##s##p +#define r2(p,q,r,s) 0x##r##s##p##q +#define r3(p,q,r,s) 0x##s##p##q##r +#define w0(p) 0x000000##p +#define w1(p) 0x0000##p##00 +#define w2(p) 0x00##p##0000 +#define w3(p) 0x##p##000000 + +#if defined(FIXED_TABLES) && (defined(ONE_TABLE) || defined(FOUR_TABLES)) + +// data for forward tables (other than last round) + +#define f_table \ + r(a5,63,63,c6), r(84,7c,7c,f8), r(99,77,77,ee), r(8d,7b,7b,f6),\ + r(0d,f2,f2,ff), r(bd,6b,6b,d6), r(b1,6f,6f,de), r(54,c5,c5,91),\ + r(50,30,30,60), r(03,01,01,02), r(a9,67,67,ce), r(7d,2b,2b,56),\ + r(19,fe,fe,e7), r(62,d7,d7,b5), r(e6,ab,ab,4d), r(9a,76,76,ec),\ + r(45,ca,ca,8f), r(9d,82,82,1f), r(40,c9,c9,89), r(87,7d,7d,fa),\ + r(15,fa,fa,ef), r(eb,59,59,b2), r(c9,47,47,8e), r(0b,f0,f0,fb),\ + r(ec,ad,ad,41), r(67,d4,d4,b3), r(fd,a2,a2,5f), r(ea,af,af,45),\ + r(bf,9c,9c,23), r(f7,a4,a4,53), r(96,72,72,e4), r(5b,c0,c0,9b),\ + r(c2,b7,b7,75), r(1c,fd,fd,e1), r(ae,93,93,3d), r(6a,26,26,4c),\ + r(5a,36,36,6c), r(41,3f,3f,7e), r(02,f7,f7,f5), r(4f,cc,cc,83),\ + r(5c,34,34,68), r(f4,a5,a5,51), r(34,e5,e5,d1), r(08,f1,f1,f9),\ + r(93,71,71,e2), r(73,d8,d8,ab), r(53,31,31,62), r(3f,15,15,2a),\ + r(0c,04,04,08), r(52,c7,c7,95), r(65,23,23,46), r(5e,c3,c3,9d),\ + r(28,18,18,30), r(a1,96,96,37), r(0f,05,05,0a), r(b5,9a,9a,2f),\ + r(09,07,07,0e), r(36,12,12,24), r(9b,80,80,1b), r(3d,e2,e2,df),\ + r(26,eb,eb,cd), r(69,27,27,4e), r(cd,b2,b2,7f), r(9f,75,75,ea),\ + r(1b,09,09,12), r(9e,83,83,1d), r(74,2c,2c,58), r(2e,1a,1a,34),\ + r(2d,1b,1b,36), r(b2,6e,6e,dc), r(ee,5a,5a,b4), r(fb,a0,a0,5b),\ + r(f6,52,52,a4), r(4d,3b,3b,76), r(61,d6,d6,b7), r(ce,b3,b3,7d),\ + r(7b,29,29,52), r(3e,e3,e3,dd), r(71,2f,2f,5e), r(97,84,84,13),\ + r(f5,53,53,a6), r(68,d1,d1,b9), r(00,00,00,00), r(2c,ed,ed,c1),\ + r(60,20,20,40), r(1f,fc,fc,e3), r(c8,b1,b1,79), r(ed,5b,5b,b6),\ + r(be,6a,6a,d4), r(46,cb,cb,8d), r(d9,be,be,67), r(4b,39,39,72),\ + r(de,4a,4a,94), r(d4,4c,4c,98), r(e8,58,58,b0), r(4a,cf,cf,85),\ + r(6b,d0,d0,bb), r(2a,ef,ef,c5), r(e5,aa,aa,4f), r(16,fb,fb,ed),\ + r(c5,43,43,86), r(d7,4d,4d,9a), r(55,33,33,66), r(94,85,85,11),\ + r(cf,45,45,8a), r(10,f9,f9,e9), r(06,02,02,04), r(81,7f,7f,fe),\ + r(f0,50,50,a0), r(44,3c,3c,78), r(ba,9f,9f,25), r(e3,a8,a8,4b),\ + r(f3,51,51,a2), r(fe,a3,a3,5d), r(c0,40,40,80), r(8a,8f,8f,05),\ + r(ad,92,92,3f), r(bc,9d,9d,21), r(48,38,38,70), r(04,f5,f5,f1),\ + r(df,bc,bc,63), r(c1,b6,b6,77), r(75,da,da,af), r(63,21,21,42),\ + r(30,10,10,20), r(1a,ff,ff,e5), r(0e,f3,f3,fd), r(6d,d2,d2,bf),\ + r(4c,cd,cd,81), r(14,0c,0c,18), r(35,13,13,26), r(2f,ec,ec,c3),\ + r(e1,5f,5f,be), r(a2,97,97,35), r(cc,44,44,88), r(39,17,17,2e),\ + r(57,c4,c4,93), r(f2,a7,a7,55), r(82,7e,7e,fc), r(47,3d,3d,7a),\ + r(ac,64,64,c8), r(e7,5d,5d,ba), r(2b,19,19,32), r(95,73,73,e6),\ + r(a0,60,60,c0), r(98,81,81,19), r(d1,4f,4f,9e), r(7f,dc,dc,a3),\ + r(66,22,22,44), r(7e,2a,2a,54), r(ab,90,90,3b), r(83,88,88,0b),\ + r(ca,46,46,8c), r(29,ee,ee,c7), r(d3,b8,b8,6b), r(3c,14,14,28),\ + r(79,de,de,a7), r(e2,5e,5e,bc), r(1d,0b,0b,16), r(76,db,db,ad),\ + r(3b,e0,e0,db), r(56,32,32,64), r(4e,3a,3a,74), r(1e,0a,0a,14),\ + r(db,49,49,92), r(0a,06,06,0c), r(6c,24,24,48), r(e4,5c,5c,b8),\ + r(5d,c2,c2,9f), r(6e,d3,d3,bd), r(ef,ac,ac,43), r(a6,62,62,c4),\ + r(a8,91,91,39), r(a4,95,95,31), r(37,e4,e4,d3), r(8b,79,79,f2),\ + r(32,e7,e7,d5), r(43,c8,c8,8b), r(59,37,37,6e), r(b7,6d,6d,da),\ + r(8c,8d,8d,01), r(64,d5,d5,b1), r(d2,4e,4e,9c), r(e0,a9,a9,49),\ + r(b4,6c,6c,d8), r(fa,56,56,ac), r(07,f4,f4,f3), r(25,ea,ea,cf),\ + r(af,65,65,ca), r(8e,7a,7a,f4), r(e9,ae,ae,47), r(18,08,08,10),\ + r(d5,ba,ba,6f), r(88,78,78,f0), r(6f,25,25,4a), r(72,2e,2e,5c),\ + r(24,1c,1c,38), r(f1,a6,a6,57), r(c7,b4,b4,73), r(51,c6,c6,97),\ + r(23,e8,e8,cb), r(7c,dd,dd,a1), r(9c,74,74,e8), r(21,1f,1f,3e),\ + r(dd,4b,4b,96), r(dc,bd,bd,61), r(86,8b,8b,0d), r(85,8a,8a,0f),\ + r(90,70,70,e0), r(42,3e,3e,7c), r(c4,b5,b5,71), r(aa,66,66,cc),\ + r(d8,48,48,90), r(05,03,03,06), r(01,f6,f6,f7), r(12,0e,0e,1c),\ + r(a3,61,61,c2), r(5f,35,35,6a), r(f9,57,57,ae), r(d0,b9,b9,69),\ + r(91,86,86,17), r(58,c1,c1,99), r(27,1d,1d,3a), r(b9,9e,9e,27),\ + r(38,e1,e1,d9), r(13,f8,f8,eb), r(b3,98,98,2b), r(33,11,11,22),\ + r(bb,69,69,d2), r(70,d9,d9,a9), r(89,8e,8e,07), r(a7,94,94,33),\ + r(b6,9b,9b,2d), r(22,1e,1e,3c), r(92,87,87,15), r(20,e9,e9,c9),\ + r(49,ce,ce,87), r(ff,55,55,aa), r(78,28,28,50), r(7a,df,df,a5),\ + r(8f,8c,8c,03), r(f8,a1,a1,59), r(80,89,89,09), r(17,0d,0d,1a),\ + r(da,bf,bf,65), r(31,e6,e6,d7), r(c6,42,42,84), r(b8,68,68,d0),\ + r(c3,41,41,82), r(b0,99,99,29), r(77,2d,2d,5a), r(11,0f,0f,1e),\ + r(cb,b0,b0,7b), r(fc,54,54,a8), r(d6,bb,bb,6d), r(3a,16,16,2c) + +// data for inverse tables (other than last round) + +#define i_table \ + r(50,a7,f4,51), r(53,65,41,7e), r(c3,a4,17,1a), r(96,5e,27,3a),\ + r(cb,6b,ab,3b), r(f1,45,9d,1f), r(ab,58,fa,ac), r(93,03,e3,4b),\ + r(55,fa,30,20), r(f6,6d,76,ad), r(91,76,cc,88), r(25,4c,02,f5),\ + r(fc,d7,e5,4f), r(d7,cb,2a,c5), r(80,44,35,26), r(8f,a3,62,b5),\ + r(49,5a,b1,de), r(67,1b,ba,25), r(98,0e,ea,45), r(e1,c0,fe,5d),\ + r(02,75,2f,c3), r(12,f0,4c,81), r(a3,97,46,8d), r(c6,f9,d3,6b),\ + r(e7,5f,8f,03), r(95,9c,92,15), r(eb,7a,6d,bf), r(da,59,52,95),\ + r(2d,83,be,d4), r(d3,21,74,58), r(29,69,e0,49), r(44,c8,c9,8e),\ + r(6a,89,c2,75), r(78,79,8e,f4), r(6b,3e,58,99), r(dd,71,b9,27),\ + r(b6,4f,e1,be), r(17,ad,88,f0), r(66,ac,20,c9), r(b4,3a,ce,7d),\ + r(18,4a,df,63), r(82,31,1a,e5), r(60,33,51,97), r(45,7f,53,62),\ + r(e0,77,64,b1), r(84,ae,6b,bb), r(1c,a0,81,fe), r(94,2b,08,f9),\ + r(58,68,48,70), r(19,fd,45,8f), r(87,6c,de,94), r(b7,f8,7b,52),\ + r(23,d3,73,ab), r(e2,02,4b,72), r(57,8f,1f,e3), r(2a,ab,55,66),\ + r(07,28,eb,b2), r(03,c2,b5,2f), r(9a,7b,c5,86), r(a5,08,37,d3),\ + r(f2,87,28,30), r(b2,a5,bf,23), r(ba,6a,03,02), r(5c,82,16,ed),\ + r(2b,1c,cf,8a), r(92,b4,79,a7), r(f0,f2,07,f3), r(a1,e2,69,4e),\ + r(cd,f4,da,65), r(d5,be,05,06), r(1f,62,34,d1), r(8a,fe,a6,c4),\ + r(9d,53,2e,34), r(a0,55,f3,a2), r(32,e1,8a,05), r(75,eb,f6,a4),\ + r(39,ec,83,0b), r(aa,ef,60,40), r(06,9f,71,5e), r(51,10,6e,bd),\ + r(f9,8a,21,3e), r(3d,06,dd,96), r(ae,05,3e,dd), r(46,bd,e6,4d),\ + r(b5,8d,54,91), r(05,5d,c4,71), r(6f,d4,06,04), r(ff,15,50,60),\ + r(24,fb,98,19), r(97,e9,bd,d6), r(cc,43,40,89), r(77,9e,d9,67),\ + r(bd,42,e8,b0), r(88,8b,89,07), r(38,5b,19,e7), r(db,ee,c8,79),\ + r(47,0a,7c,a1), r(e9,0f,42,7c), r(c9,1e,84,f8), r(00,00,00,00),\ + r(83,86,80,09), r(48,ed,2b,32), r(ac,70,11,1e), r(4e,72,5a,6c),\ + r(fb,ff,0e,fd), r(56,38,85,0f), r(1e,d5,ae,3d), r(27,39,2d,36),\ + r(64,d9,0f,0a), r(21,a6,5c,68), r(d1,54,5b,9b), r(3a,2e,36,24),\ + r(b1,67,0a,0c), r(0f,e7,57,93), r(d2,96,ee,b4), r(9e,91,9b,1b),\ + r(4f,c5,c0,80), r(a2,20,dc,61), r(69,4b,77,5a), r(16,1a,12,1c),\ + r(0a,ba,93,e2), r(e5,2a,a0,c0), r(43,e0,22,3c), r(1d,17,1b,12),\ + r(0b,0d,09,0e), r(ad,c7,8b,f2), r(b9,a8,b6,2d), r(c8,a9,1e,14),\ + r(85,19,f1,57), r(4c,07,75,af), r(bb,dd,99,ee), r(fd,60,7f,a3),\ + r(9f,26,01,f7), r(bc,f5,72,5c), r(c5,3b,66,44), r(34,7e,fb,5b),\ + r(76,29,43,8b), r(dc,c6,23,cb), r(68,fc,ed,b6), r(63,f1,e4,b8),\ + r(ca,dc,31,d7), r(10,85,63,42), r(40,22,97,13), r(20,11,c6,84),\ + r(7d,24,4a,85), r(f8,3d,bb,d2), r(11,32,f9,ae), r(6d,a1,29,c7),\ + r(4b,2f,9e,1d), r(f3,30,b2,dc), r(ec,52,86,0d), r(d0,e3,c1,77),\ + r(6c,16,b3,2b), r(99,b9,70,a9), r(fa,48,94,11), r(22,64,e9,47),\ + r(c4,8c,fc,a8), r(1a,3f,f0,a0), r(d8,2c,7d,56), r(ef,90,33,22),\ + r(c7,4e,49,87), r(c1,d1,38,d9), r(fe,a2,ca,8c), r(36,0b,d4,98),\ + r(cf,81,f5,a6), r(28,de,7a,a5), r(26,8e,b7,da), r(a4,bf,ad,3f),\ + r(e4,9d,3a,2c), r(0d,92,78,50), r(9b,cc,5f,6a), r(62,46,7e,54),\ + r(c2,13,8d,f6), r(e8,b8,d8,90), r(5e,f7,39,2e), r(f5,af,c3,82),\ + r(be,80,5d,9f), r(7c,93,d0,69), r(a9,2d,d5,6f), r(b3,12,25,cf),\ + r(3b,99,ac,c8), r(a7,7d,18,10), r(6e,63,9c,e8), r(7b,bb,3b,db),\ + r(09,78,26,cd), r(f4,18,59,6e), r(01,b7,9a,ec), r(a8,9a,4f,83),\ + r(65,6e,95,e6), r(7e,e6,ff,aa), r(08,cf,bc,21), r(e6,e8,15,ef),\ + r(d9,9b,e7,ba), r(ce,36,6f,4a), r(d4,09,9f,ea), r(d6,7c,b0,29),\ + r(af,b2,a4,31), r(31,23,3f,2a), r(30,94,a5,c6), r(c0,66,a2,35),\ + r(37,bc,4e,74), r(a6,ca,82,fc), r(b0,d0,90,e0), r(15,d8,a7,33),\ + r(4a,98,04,f1), r(f7,da,ec,41), r(0e,50,cd,7f), r(2f,f6,91,17),\ + r(8d,d6,4d,76), r(4d,b0,ef,43), r(54,4d,aa,cc), r(df,04,96,e4),\ + r(e3,b5,d1,9e), r(1b,88,6a,4c), r(b8,1f,2c,c1), r(7f,51,65,46),\ + r(04,ea,5e,9d), r(5d,35,8c,01), r(73,74,87,fa), r(2e,41,0b,fb),\ + r(5a,1d,67,b3), r(52,d2,db,92), r(33,56,10,e9), r(13,47,d6,6d),\ + r(8c,61,d7,9a), r(7a,0c,a1,37), r(8e,14,f8,59), r(89,3c,13,eb),\ + r(ee,27,a9,ce), r(35,c9,61,b7), r(ed,e5,1c,e1), r(3c,b1,47,7a),\ + r(59,df,d2,9c), r(3f,73,f2,55), r(79,ce,14,18), r(bf,37,c7,73),\ + r(ea,cd,f7,53), r(5b,aa,fd,5f), r(14,6f,3d,df), r(86,db,44,78),\ + r(81,f3,af,ca), r(3e,c4,68,b9), r(2c,34,24,38), r(5f,40,a3,c2),\ + r(72,c3,1d,16), r(0c,25,e2,bc), r(8b,49,3c,28), r(41,95,0d,ff),\ + r(71,01,a8,39), r(de,b3,0c,08), r(9c,e4,b4,d8), r(90,c1,56,64),\ + r(61,84,cb,7b), r(70,b6,32,d5), r(74,5c,6c,48), r(42,57,b8,d0) + +// generate the required tables in the desired endian format + +#undef r +#define r r0 + +#if defined(ONE_TABLE) +static const u_int32_t ft_tab[256] = + { f_table }; +#elif defined(FOUR_TABLES) +static const u_int32_t ft_tab[4][256] = +{ { f_table }, +#undef r +#define r r1 + { f_table }, +#undef r +#define r r2 + { f_table }, +#undef r +#define r r3 + { f_table } +}; +#endif + +#undef r +#define r r0 +#if defined(ONE_TABLE) +static const u_int32_t it_tab[256] = + { i_table }; +#elif defined(FOUR_TABLES) +static const u_int32_t it_tab[4][256] = +{ { i_table }, +#undef r +#define r r1 + { i_table }, +#undef r +#define r r2 + { i_table }, +#undef r +#define r r3 + { i_table } +}; +#endif + +#endif + +#if defined(FIXED_TABLES) && (defined(ONE_LR_TABLE) || defined(FOUR_LR_TABLES)) + +// data for inverse tables (last round) + +#define li_table \ + w(52), w(09), w(6a), w(d5), w(30), w(36), w(a5), w(38),\ + w(bf), w(40), w(a3), w(9e), w(81), w(f3), w(d7), w(fb),\ + w(7c), w(e3), w(39), w(82), w(9b), w(2f), w(ff), w(87),\ + w(34), w(8e), w(43), w(44), w(c4), w(de), w(e9), w(cb),\ + w(54), w(7b), w(94), w(32), w(a6), w(c2), w(23), w(3d),\ + w(ee), w(4c), w(95), w(0b), w(42), w(fa), w(c3), w(4e),\ + w(08), w(2e), w(a1), w(66), w(28), w(d9), w(24), w(b2),\ + w(76), w(5b), w(a2), w(49), w(6d), w(8b), w(d1), w(25),\ + w(72), w(f8), w(f6), w(64), w(86), w(68), w(98), w(16),\ + w(d4), w(a4), w(5c), w(cc), w(5d), w(65), w(b6), w(92),\ + w(6c), w(70), w(48), w(50), w(fd), w(ed), w(b9), w(da),\ + w(5e), w(15), w(46), w(57), w(a7), w(8d), w(9d), w(84),\ + w(90), w(d8), w(ab), w(00), w(8c), w(bc), w(d3), w(0a),\ + w(f7), w(e4), w(58), w(05), w(b8), w(b3), w(45), w(06),\ + w(d0), w(2c), w(1e), w(8f), w(ca), w(3f), w(0f), w(02),\ + w(c1), w(af), w(bd), w(03), w(01), w(13), w(8a), w(6b),\ + w(3a), w(91), w(11), w(41), w(4f), w(67), w(dc), w(ea),\ + w(97), w(f2), w(cf), w(ce), w(f0), w(b4), w(e6), w(73),\ + w(96), w(ac), w(74), w(22), w(e7), w(ad), w(35), w(85),\ + w(e2), w(f9), w(37), w(e8), w(1c), w(75), w(df), w(6e),\ + w(47), w(f1), w(1a), w(71), w(1d), w(29), w(c5), w(89),\ + w(6f), w(b7), w(62), w(0e), w(aa), w(18), w(be), w(1b),\ + w(fc), w(56), w(3e), w(4b), w(c6), w(d2), w(79), w(20),\ + w(9a), w(db), w(c0), w(fe), w(78), w(cd), w(5a), w(f4),\ + w(1f), w(dd), w(a8), w(33), w(88), w(07), w(c7), w(31),\ + w(b1), w(12), w(10), w(59), w(27), w(80), w(ec), w(5f),\ + w(60), w(51), w(7f), w(a9), w(19), w(b5), w(4a), w(0d),\ + w(2d), w(e5), w(7a), w(9f), w(93), w(c9), w(9c), w(ef),\ + w(a0), w(e0), w(3b), w(4d), w(ae), w(2a), w(f5), w(b0),\ + w(c8), w(eb), w(bb), w(3c), w(83), w(53), w(99), w(61),\ + w(17), w(2b), w(04), w(7e), w(ba), w(77), w(d6), w(26),\ + w(e1), w(69), w(14), w(63), w(55), w(21), w(0c), w(7d), + +// generate the required tables in the desired endian format + +#undef r +#define r(p,q,r,s) w0(q) +#if defined(ONE_LR_TABLE) +static const u_int32_t fl_tab[256] = + { f_table }; +#elif defined(FOUR_LR_TABLES) +static const u_int32_t fl_tab[4][256] = +{ { f_table }, +#undef r +#define r(p,q,r,s) w1(q) + { f_table }, +#undef r +#define r(p,q,r,s) w2(q) + { f_table }, +#undef r +#define r(p,q,r,s) w3(q) + { f_table } +}; +#endif + +#undef w +#define w w0 +#if defined(ONE_LR_TABLE) +static const u_int32_t il_tab[256] = + { li_table }; +#elif defined(FOUR_LR_TABLES) +static const u_int32_t il_tab[4][256] = +{ { li_table }, +#undef w +#define w w1 + { li_table }, +#undef w +#define w w2 + { li_table }, +#undef w +#define w w3 + { li_table } +}; +#endif + +#endif + +#if defined(FIXED_TABLES) && (defined(ONE_IM_TABLE) || defined(FOUR_IM_TABLES)) + +#define m_table \ + r(00,00,00,00), r(0b,0d,09,0e), r(16,1a,12,1c), r(1d,17,1b,12),\ + r(2c,34,24,38), r(27,39,2d,36), r(3a,2e,36,24), r(31,23,3f,2a),\ + r(58,68,48,70), r(53,65,41,7e), r(4e,72,5a,6c), r(45,7f,53,62),\ + r(74,5c,6c,48), r(7f,51,65,46), r(62,46,7e,54), r(69,4b,77,5a),\ + r(b0,d0,90,e0), r(bb,dd,99,ee), r(a6,ca,82,fc), r(ad,c7,8b,f2),\ + r(9c,e4,b4,d8), r(97,e9,bd,d6), r(8a,fe,a6,c4), r(81,f3,af,ca),\ + r(e8,b8,d8,90), r(e3,b5,d1,9e), r(fe,a2,ca,8c), r(f5,af,c3,82),\ + r(c4,8c,fc,a8), r(cf,81,f5,a6), r(d2,96,ee,b4), r(d9,9b,e7,ba),\ + r(7b,bb,3b,db), r(70,b6,32,d5), r(6d,a1,29,c7), r(66,ac,20,c9),\ + r(57,8f,1f,e3), r(5c,82,16,ed), r(41,95,0d,ff), r(4a,98,04,f1),\ + r(23,d3,73,ab), r(28,de,7a,a5), r(35,c9,61,b7), r(3e,c4,68,b9),\ + r(0f,e7,57,93), r(04,ea,5e,9d), r(19,fd,45,8f), r(12,f0,4c,81),\ + r(cb,6b,ab,3b), r(c0,66,a2,35), r(dd,71,b9,27), r(d6,7c,b0,29),\ + r(e7,5f,8f,03), r(ec,52,86,0d), r(f1,45,9d,1f), r(fa,48,94,11),\ + r(93,03,e3,4b), r(98,0e,ea,45), r(85,19,f1,57), r(8e,14,f8,59),\ + r(bf,37,c7,73), r(b4,3a,ce,7d), r(a9,2d,d5,6f), r(a2,20,dc,61),\ + r(f6,6d,76,ad), r(fd,60,7f,a3), r(e0,77,64,b1), r(eb,7a,6d,bf),\ + r(da,59,52,95), r(d1,54,5b,9b), r(cc,43,40,89), r(c7,4e,49,87),\ + r(ae,05,3e,dd), r(a5,08,37,d3), r(b8,1f,2c,c1), r(b3,12,25,cf),\ + r(82,31,1a,e5), r(89,3c,13,eb), r(94,2b,08,f9), r(9f,26,01,f7),\ + r(46,bd,e6,4d), r(4d,b0,ef,43), r(50,a7,f4,51), r(5b,aa,fd,5f),\ + r(6a,89,c2,75), r(61,84,cb,7b), r(7c,93,d0,69), r(77,9e,d9,67),\ + r(1e,d5,ae,3d), r(15,d8,a7,33), r(08,cf,bc,21), r(03,c2,b5,2f),\ + r(32,e1,8a,05), r(39,ec,83,0b), r(24,fb,98,19), r(2f,f6,91,17),\ + r(8d,d6,4d,76), r(86,db,44,78), r(9b,cc,5f,6a), r(90,c1,56,64),\ + r(a1,e2,69,4e), r(aa,ef,60,40), r(b7,f8,7b,52), r(bc,f5,72,5c),\ + r(d5,be,05,06), r(de,b3,0c,08), r(c3,a4,17,1a), r(c8,a9,1e,14),\ + r(f9,8a,21,3e), r(f2,87,28,30), r(ef,90,33,22), r(e4,9d,3a,2c),\ + r(3d,06,dd,96), r(36,0b,d4,98), r(2b,1c,cf,8a), r(20,11,c6,84),\ + r(11,32,f9,ae), r(1a,3f,f0,a0), r(07,28,eb,b2), r(0c,25,e2,bc),\ + r(65,6e,95,e6), r(6e,63,9c,e8), r(73,74,87,fa), r(78,79,8e,f4),\ + r(49,5a,b1,de), r(42,57,b8,d0), r(5f,40,a3,c2), r(54,4d,aa,cc),\ + r(f7,da,ec,41), r(fc,d7,e5,4f), r(e1,c0,fe,5d), r(ea,cd,f7,53),\ + r(db,ee,c8,79), r(d0,e3,c1,77), r(cd,f4,da,65), r(c6,f9,d3,6b),\ + r(af,b2,a4,31), r(a4,bf,ad,3f), r(b9,a8,b6,2d), r(b2,a5,bf,23),\ + r(83,86,80,09), r(88,8b,89,07), r(95,9c,92,15), r(9e,91,9b,1b),\ + r(47,0a,7c,a1), r(4c,07,75,af), r(51,10,6e,bd), r(5a,1d,67,b3),\ + r(6b,3e,58,99), r(60,33,51,97), r(7d,24,4a,85), r(76,29,43,8b),\ + r(1f,62,34,d1), r(14,6f,3d,df), r(09,78,26,cd), r(02,75,2f,c3),\ + r(33,56,10,e9), r(38,5b,19,e7), r(25,4c,02,f5), r(2e,41,0b,fb),\ + r(8c,61,d7,9a), r(87,6c,de,94), r(9a,7b,c5,86), r(91,76,cc,88),\ + r(a0,55,f3,a2), r(ab,58,fa,ac), r(b6,4f,e1,be), r(bd,42,e8,b0),\ + r(d4,09,9f,ea), r(df,04,96,e4), r(c2,13,8d,f6), r(c9,1e,84,f8),\ + r(f8,3d,bb,d2), r(f3,30,b2,dc), r(ee,27,a9,ce), r(e5,2a,a0,c0),\ + r(3c,b1,47,7a), r(37,bc,4e,74), r(2a,ab,55,66), r(21,a6,5c,68),\ + r(10,85,63,42), r(1b,88,6a,4c), r(06,9f,71,5e), r(0d,92,78,50),\ + r(64,d9,0f,0a), r(6f,d4,06,04), r(72,c3,1d,16), r(79,ce,14,18),\ + r(48,ed,2b,32), r(43,e0,22,3c), r(5e,f7,39,2e), r(55,fa,30,20),\ + r(01,b7,9a,ec), r(0a,ba,93,e2), r(17,ad,88,f0), r(1c,a0,81,fe),\ + r(2d,83,be,d4), r(26,8e,b7,da), r(3b,99,ac,c8), r(30,94,a5,c6),\ + r(59,df,d2,9c), r(52,d2,db,92), r(4f,c5,c0,80), r(44,c8,c9,8e),\ + r(75,eb,f6,a4), r(7e,e6,ff,aa), r(63,f1,e4,b8), r(68,fc,ed,b6),\ + r(b1,67,0a,0c), r(ba,6a,03,02), r(a7,7d,18,10), r(ac,70,11,1e),\ + r(9d,53,2e,34), r(96,5e,27,3a), r(8b,49,3c,28), r(80,44,35,26),\ + r(e9,0f,42,7c), r(e2,02,4b,72), r(ff,15,50,60), r(f4,18,59,6e),\ + r(c5,3b,66,44), r(ce,36,6f,4a), r(d3,21,74,58), r(d8,2c,7d,56),\ + r(7a,0c,a1,37), r(71,01,a8,39), r(6c,16,b3,2b), r(67,1b,ba,25),\ + r(56,38,85,0f), r(5d,35,8c,01), r(40,22,97,13), r(4b,2f,9e,1d),\ + r(22,64,e9,47), r(29,69,e0,49), r(34,7e,fb,5b), r(3f,73,f2,55),\ + r(0e,50,cd,7f), r(05,5d,c4,71), r(18,4a,df,63), r(13,47,d6,6d),\ + r(ca,dc,31,d7), r(c1,d1,38,d9), r(dc,c6,23,cb), r(d7,cb,2a,c5),\ + r(e6,e8,15,ef), r(ed,e5,1c,e1), r(f0,f2,07,f3), r(fb,ff,0e,fd),\ + r(92,b4,79,a7), r(99,b9,70,a9), r(84,ae,6b,bb), r(8f,a3,62,b5),\ + r(be,80,5d,9f), r(b5,8d,54,91), r(a8,9a,4f,83), r(a3,97,46,8d) + +#undef r +#define r r0 + +#if defined(ONE_IM_TABLE) +static const u_int32_t im_tab[256] = + { m_table }; +#elif defined(FOUR_IM_TABLES) +static const u_int32_t im_tab[4][256] = +{ { m_table }, +#undef r +#define r r1 + { m_table }, +#undef r +#define r r2 + { m_table }, +#undef r +#define r r3 + { m_table } +}; +#endif + +#endif + +#else + +static int tab_gen = 0; + +static unsigned char s_box[256]; // the S box +static unsigned char inv_s_box[256]; // the inverse S box +static u_int32_t rcon_tab[AES_RC_LENGTH]; // table of round constants + +#if defined(ONE_TABLE) +static u_int32_t ft_tab[256]; +static u_int32_t it_tab[256]; +#elif defined(FOUR_TABLES) +static u_int32_t ft_tab[4][256]; +static u_int32_t it_tab[4][256]; +#endif + +#if defined(ONE_LR_TABLE) +static u_int32_t fl_tab[256]; +static u_int32_t il_tab[256]; +#elif defined(FOUR_LR_TABLES) +static u_int32_t fl_tab[4][256]; +static u_int32_t il_tab[4][256]; +#endif + +#if defined(ONE_IM_TABLE) +static u_int32_t im_tab[256]; +#elif defined(FOUR_IM_TABLES) +static u_int32_t im_tab[4][256]; +#endif + +// Generate the tables for the dynamic table option + +#if !defined(FF_TABLES) + +// It will generally be sensible to use tables to compute finite +// field multiplies and inverses but where memory is scarse this +// code might sometimes be better. + +// return 2 ^ (n - 1) where n is the bit number of the highest bit +// set in x with x in the range 1 < x < 0x00000200. This form is +// used so that locals within FFinv can be bytes rather than words + +static unsigned char hibit(const u_int32_t x) +{ unsigned char r = (unsigned char)((x >> 1) | (x >> 2)); + + r |= (r >> 2); + r |= (r >> 4); + return (r + 1) >> 1; +} + +// return the inverse of the finite field element x + +static unsigned char FFinv(const unsigned char x) +{ unsigned char p1 = x, p2 = 0x1b, n1 = hibit(x), n2 = 0x80, v1 = 1, v2 = 0; + + if(x < 2) return x; + + for(;;) + { + if(!n1) return v1; + + while(n2 >= n1) + { + n2 /= n1; p2 ^= p1 * n2; v2 ^= v1 * n2; n2 = hibit(p2); + } + + if(!n2) return v2; + + while(n1 >= n2) + { + n1 /= n2; p1 ^= p2 * n1; v1 ^= v2 * n1; n1 = hibit(p1); + } + } +} + +// define the finite field multiplies required for Rijndael + +#define FFmul02(x) ((((x) & 0x7f) << 1) ^ ((x) & 0x80 ? 0x1b : 0)) +#define FFmul03(x) ((x) ^ FFmul02(x)) +#define FFmul09(x) ((x) ^ FFmul02(FFmul02(FFmul02(x)))) +#define FFmul0b(x) ((x) ^ FFmul02((x) ^ FFmul02(FFmul02(x)))) +#define FFmul0d(x) ((x) ^ FFmul02(FFmul02((x) ^ FFmul02(x)))) +#define FFmul0e(x) FFmul02((x) ^ FFmul02((x) ^ FFmul02(x))) + +#else + +#define FFinv(x) ((x) ? pow[255 - log[x]]: 0) + +#define FFmul02(x) (x ? pow[log[x] + 0x19] : 0) +#define FFmul03(x) (x ? pow[log[x] + 0x01] : 0) +#define FFmul09(x) (x ? pow[log[x] + 0xc7] : 0) +#define FFmul0b(x) (x ? pow[log[x] + 0x68] : 0) +#define FFmul0d(x) (x ? pow[log[x] + 0xee] : 0) +#define FFmul0e(x) (x ? pow[log[x] + 0xdf] : 0) + +#endif + +// The forward and inverse affine transformations used in the S-box + +#define fwd_affine(x) \ + (w = (u_int32_t)x, w ^= (w<<1)^(w<<2)^(w<<3)^(w<<4), 0x63^(unsigned char)(w^(w>>8))) + +#define inv_affine(x) \ + (w = (u_int32_t)x, w = (w<<1)^(w<<3)^(w<<6), 0x05^(unsigned char)(w^(w>>8))) + +static void gen_tabs(void) +{ u_int32_t i, w; + +#if defined(FF_TABLES) + + unsigned char pow[512], log[256]; + + // log and power tables for GF(2^8) finite field with + // 0x011b as modular polynomial - the simplest primitive + // root is 0x03, used here to generate the tables + + i = 0; w = 1; + do + { + pow[i] = (unsigned char)w; + pow[i + 255] = (unsigned char)w; + log[w] = (unsigned char)i++; + w ^= (w << 1) ^ (w & ff_hi ? ff_poly : 0); + } + while (w != 1); + +#endif + + for(i = 0, w = 1; i < AES_RC_LENGTH; ++i) + { + rcon_tab[i] = bytes2word(w, 0, 0, 0); + w = (w << 1) ^ (w & ff_hi ? ff_poly : 0); + } + + for(i = 0; i < 256; ++i) + { unsigned char b; + + s_box[i] = b = fwd_affine(FFinv((unsigned char)i)); + + w = bytes2word(b, 0, 0, 0); +#if defined(ONE_LR_TABLE) + fl_tab[i] = w; +#elif defined(FOUR_LR_TABLES) + fl_tab[0][i] = w; + fl_tab[1][i] = upr(w,1); + fl_tab[2][i] = upr(w,2); + fl_tab[3][i] = upr(w,3); +#endif + w = bytes2word(FFmul02(b), b, b, FFmul03(b)); +#if defined(ONE_TABLE) + ft_tab[i] = w; +#elif defined(FOUR_TABLES) + ft_tab[0][i] = w; + ft_tab[1][i] = upr(w,1); + ft_tab[2][i] = upr(w,2); + ft_tab[3][i] = upr(w,3); +#endif + inv_s_box[i] = b = FFinv(inv_affine((unsigned char)i)); + + w = bytes2word(b, 0, 0, 0); +#if defined(ONE_LR_TABLE) + il_tab[i] = w; +#elif defined(FOUR_LR_TABLES) + il_tab[0][i] = w; + il_tab[1][i] = upr(w,1); + il_tab[2][i] = upr(w,2); + il_tab[3][i] = upr(w,3); +#endif + w = bytes2word(FFmul0e(b), FFmul09(b), FFmul0d(b), FFmul0b(b)); +#if defined(ONE_TABLE) + it_tab[i] = w; +#elif defined(FOUR_TABLES) + it_tab[0][i] = w; + it_tab[1][i] = upr(w,1); + it_tab[2][i] = upr(w,2); + it_tab[3][i] = upr(w,3); +#endif +#if defined(ONE_IM_TABLE) + im_tab[b] = w; +#elif defined(FOUR_IM_TABLES) + im_tab[0][b] = w; + im_tab[1][b] = upr(w,1); + im_tab[2][b] = upr(w,2); + im_tab[3][b] = upr(w,3); +#endif + + } +} + +#endif + +#define no_table(x,box,vf,rf,c) bytes2word( \ + box[bval(vf(x,0,c),rf(0,c))], \ + box[bval(vf(x,1,c),rf(1,c))], \ + box[bval(vf(x,2,c),rf(2,c))], \ + box[bval(vf(x,3,c),rf(3,c))]) + +#define one_table(x,op,tab,vf,rf,c) \ + ( tab[bval(vf(x,0,c),rf(0,c))] \ + ^ op(tab[bval(vf(x,1,c),rf(1,c))],1) \ + ^ op(tab[bval(vf(x,2,c),rf(2,c))],2) \ + ^ op(tab[bval(vf(x,3,c),rf(3,c))],3)) + +#define four_tables(x,tab,vf,rf,c) \ + ( tab[0][bval(vf(x,0,c),rf(0,c))] \ + ^ tab[1][bval(vf(x,1,c),rf(1,c))] \ + ^ tab[2][bval(vf(x,2,c),rf(2,c))] \ + ^ tab[3][bval(vf(x,3,c),rf(3,c))]) + +#define vf1(x,r,c) (x) +#define rf1(r,c) (r) +#define rf2(r,c) ((r-c)&3) + +#if defined(FOUR_LR_TABLES) +#define ls_box(x,c) four_tables(x,fl_tab,vf1,rf2,c) +#elif defined(ONE_LR_TABLE) +#define ls_box(x,c) one_table(x,upr,fl_tab,vf1,rf2,c) +#else +#define ls_box(x,c) no_table(x,s_box,vf1,rf2,c) +#endif + +#if defined(FOUR_IM_TABLES) +#define inv_mcol(x) four_tables(x,im_tab,vf1,rf1,0) +#elif defined(ONE_IM_TABLE) +#define inv_mcol(x) one_table(x,upr,im_tab,vf1,rf1,0) +#else +#define inv_mcol(x) \ + (f9 = (x),f2 = FFmulX(f9), f4 = FFmulX(f2), f8 = FFmulX(f4), f9 ^= f8, \ + f2 ^= f4 ^ f8 ^ upr(f2 ^ f9,3) ^ upr(f4 ^ f9,2) ^ upr(f9,1)) +#endif + +#define nc (AES_BLOCK_SIZE/4) + +// Initialise the key schedule from the user supplied key. The key +// length is now specified in bytes - 16, 24 or 32 as appropriate. +// This corresponds to bit lengths of 128, 192 and 256 bits, and +// to Nk values of 4, 6 and 8 respectively. + +#define mx(t,f) (*t++ = inv_mcol(*f),f++) +#define cp(t,f) *t++ = *f++ + +#if AES_BLOCK_SIZE == 16 +#define cpy(d,s) cp(d,s); cp(d,s); cp(d,s); cp(d,s) +#define mix(d,s) mx(d,s); mx(d,s); mx(d,s); mx(d,s) +#elif AES_BLOCK_SIZE == 24 +#define cpy(d,s) cp(d,s); cp(d,s); cp(d,s); cp(d,s); \ + cp(d,s); cp(d,s) +#define mix(d,s) mx(d,s); mx(d,s); mx(d,s); mx(d,s); \ + mx(d,s); mx(d,s) +#elif AES_BLOCK_SIZE == 32 +#define cpy(d,s) cp(d,s); cp(d,s); cp(d,s); cp(d,s); \ + cp(d,s); cp(d,s); cp(d,s); cp(d,s) +#define mix(d,s) mx(d,s); mx(d,s); mx(d,s); mx(d,s); \ + mx(d,s); mx(d,s); mx(d,s); mx(d,s) +#else + +#define cpy(d,s) \ +switch(nc) \ +{ case 8: cp(d,s); cp(d,s); \ + case 6: cp(d,s); cp(d,s); \ + case 4: cp(d,s); cp(d,s); \ + cp(d,s); cp(d,s); \ +} + +#define mix(d,s) \ +switch(nc) \ +{ case 8: mx(d,s); mx(d,s); \ + case 6: mx(d,s); mx(d,s); \ + case 4: mx(d,s); mx(d,s); \ + mx(d,s); mx(d,s); \ +} + +#endif + +// y = output word, x = input word, r = row, c = column +// for r = 0, 1, 2 and 3 = column accessed for row r + +#if defined(ARRAYS) +#define s(x,c) x[c] +#else +#define s(x,c) x##c +#endif + +// I am grateful to Frank Yellin for the following constructions +// which, given the column (c) of the output state variable that +// is being computed, return the input state variables which are +// needed for each row (r) of the state + +// For the fixed block size options, compilers reduce these two +// expressions to fixed variable references. For variable block +// size code conditional clauses will sometimes be returned + +#define unused 77 // Sunset Strip + +#define fwd_var(x,r,c) \ + ( r==0 ? \ + ( c==0 ? s(x,0) \ + : c==1 ? s(x,1) \ + : c==2 ? s(x,2) \ + : c==3 ? s(x,3) \ + : c==4 ? s(x,4) \ + : c==5 ? s(x,5) \ + : c==6 ? s(x,6) \ + : s(x,7)) \ + : r==1 ? \ + ( c==0 ? s(x,1) \ + : c==1 ? s(x,2) \ + : c==2 ? s(x,3) \ + : c==3 ? nc==4 ? s(x,0) : s(x,4) \ + : c==4 ? s(x,5) \ + : c==5 ? nc==8 ? s(x,6) : s(x,0) \ + : c==6 ? s(x,7) \ + : s(x,0)) \ + : r==2 ? \ + ( c==0 ? nc==8 ? s(x,3) : s(x,2) \ + : c==1 ? nc==8 ? s(x,4) : s(x,3) \ + : c==2 ? nc==4 ? s(x,0) : nc==8 ? s(x,5) : s(x,4) \ + : c==3 ? nc==4 ? s(x,1) : nc==8 ? s(x,6) : s(x,5) \ + : c==4 ? nc==8 ? s(x,7) : s(x,0) \ + : c==5 ? nc==8 ? s(x,0) : s(x,1) \ + : c==6 ? s(x,1) \ + : s(x,2)) \ + : \ + ( c==0 ? nc==8 ? s(x,4) : s(x,3) \ + : c==1 ? nc==4 ? s(x,0) : nc==8 ? s(x,5) : s(x,4) \ + : c==2 ? nc==4 ? s(x,1) : nc==8 ? s(x,6) : s(x,5) \ + : c==3 ? nc==4 ? s(x,2) : nc==8 ? s(x,7) : s(x,0) \ + : c==4 ? nc==8 ? s(x,0) : s(x,1) \ + : c==5 ? nc==8 ? s(x,1) : s(x,2) \ + : c==6 ? s(x,2) \ + : s(x,3))) + +#define inv_var(x,r,c) \ + ( r==0 ? \ + ( c==0 ? s(x,0) \ + : c==1 ? s(x,1) \ + : c==2 ? s(x,2) \ + : c==3 ? s(x,3) \ + : c==4 ? s(x,4) \ + : c==5 ? s(x,5) \ + : c==6 ? s(x,6) \ + : s(x,7)) \ + : r==1 ? \ + ( c==0 ? nc==4 ? s(x,3) : nc==8 ? s(x,7) : s(x,5) \ + : c==1 ? s(x,0) \ + : c==2 ? s(x,1) \ + : c==3 ? s(x,2) \ + : c==4 ? s(x,3) \ + : c==5 ? s(x,4) \ + : c==6 ? s(x,5) \ + : s(x,6)) \ + : r==2 ? \ + ( c==0 ? nc==4 ? s(x,2) : nc==8 ? s(x,5) : s(x,4) \ + : c==1 ? nc==4 ? s(x,3) : nc==8 ? s(x,6) : s(x,5) \ + : c==2 ? nc==8 ? s(x,7) : s(x,0) \ + : c==3 ? nc==8 ? s(x,0) : s(x,1) \ + : c==4 ? nc==8 ? s(x,1) : s(x,2) \ + : c==5 ? nc==8 ? s(x,2) : s(x,3) \ + : c==6 ? s(x,3) \ + : s(x,4)) \ + : \ + ( c==0 ? nc==4 ? s(x,1) : nc==8 ? s(x,4) : s(x,3) \ + : c==1 ? nc==4 ? s(x,2) : nc==8 ? s(x,5) : s(x,4) \ + : c==2 ? nc==4 ? s(x,3) : nc==8 ? s(x,6) : s(x,5) \ + : c==3 ? nc==8 ? s(x,7) : s(x,0) \ + : c==4 ? nc==8 ? s(x,0) : s(x,1) \ + : c==5 ? nc==8 ? s(x,1) : s(x,2) \ + : c==6 ? s(x,2) \ + : s(x,3))) + +#define si(y,x,k,c) s(y,c) = const_word_in(x + 4 * c) ^ k[c] +#define so(y,x,c) word_out(y + 4 * c, s(x,c)) + +#if defined(FOUR_TABLES) +#define fwd_rnd(y,x,k,c) s(y,c)= (k)[c] ^ four_tables(x,ft_tab,fwd_var,rf1,c) +#define inv_rnd(y,x,k,c) s(y,c)= (k)[c] ^ four_tables(x,it_tab,inv_var,rf1,c) +#elif defined(ONE_TABLE) +#define fwd_rnd(y,x,k,c) s(y,c)= (k)[c] ^ one_table(x,upr,ft_tab,fwd_var,rf1,c) +#define inv_rnd(y,x,k,c) s(y,c)= (k)[c] ^ one_table(x,upr,it_tab,inv_var,rf1,c) +#else +#define fwd_rnd(y,x,k,c) s(y,c) = fwd_mcol(no_table(x,s_box,fwd_var,rf1,c)) ^ (k)[c] +#define inv_rnd(y,x,k,c) s(y,c) = inv_mcol(no_table(x,inv_s_box,inv_var,rf1,c) ^ (k)[c]) +#endif + +#if defined(FOUR_LR_TABLES) +#define fwd_lrnd(y,x,k,c) s(y,c)= (k)[c] ^ four_tables(x,fl_tab,fwd_var,rf1,c) +#define inv_lrnd(y,x,k,c) s(y,c)= (k)[c] ^ four_tables(x,il_tab,inv_var,rf1,c) +#elif defined(ONE_LR_TABLE) +#define fwd_lrnd(y,x,k,c) s(y,c)= (k)[c] ^ one_table(x,ups,fl_tab,fwd_var,rf1,c) +#define inv_lrnd(y,x,k,c) s(y,c)= (k)[c] ^ one_table(x,ups,il_tab,inv_var,rf1,c) +#else +#define fwd_lrnd(y,x,k,c) s(y,c) = no_table(x,s_box,fwd_var,rf1,c) ^ (k)[c] +#define inv_lrnd(y,x,k,c) s(y,c) = no_table(x,inv_s_box,inv_var,rf1,c) ^ (k)[c] +#endif + +#if AES_BLOCK_SIZE == 16 + +#if defined(ARRAYS) +#define locals(y,x) x[4],y[4] +#else +#define locals(y,x) x##0,x##1,x##2,x##3,y##0,y##1,y##2,y##3 +// the following defines prevent the compiler requiring the declaration +// of generated but unused variables in the fwd_var and inv_var macros +#define b04 unused +#define b05 unused +#define b06 unused +#define b07 unused +#define b14 unused +#define b15 unused +#define b16 unused +#define b17 unused +#endif +#define l_copy(y, x) s(y,0) = s(x,0); s(y,1) = s(x,1); \ + s(y,2) = s(x,2); s(y,3) = s(x,3); +#define state_in(y,x,k) si(y,x,k,0); si(y,x,k,1); si(y,x,k,2); si(y,x,k,3) +#define state_out(y,x) so(y,x,0); so(y,x,1); so(y,x,2); so(y,x,3) +#define round(rm,y,x,k) rm(y,x,k,0); rm(y,x,k,1); rm(y,x,k,2); rm(y,x,k,3) + +#elif AES_BLOCK_SIZE == 24 + +#if defined(ARRAYS) +#define locals(y,x) x[6],y[6] +#else +#define locals(y,x) x##0,x##1,x##2,x##3,x##4,x##5, \ + y##0,y##1,y##2,y##3,y##4,y##5 +#define b06 unused +#define b07 unused +#define b16 unused +#define b17 unused +#endif +#define l_copy(y, x) s(y,0) = s(x,0); s(y,1) = s(x,1); \ + s(y,2) = s(x,2); s(y,3) = s(x,3); \ + s(y,4) = s(x,4); s(y,5) = s(x,5); +#define state_in(y,x,k) si(y,x,k,0); si(y,x,k,1); si(y,x,k,2); \ + si(y,x,k,3); si(y,x,k,4); si(y,x,k,5) +#define state_out(y,x) so(y,x,0); so(y,x,1); so(y,x,2); \ + so(y,x,3); so(y,x,4); so(y,x,5) +#define round(rm,y,x,k) rm(y,x,k,0); rm(y,x,k,1); rm(y,x,k,2); \ + rm(y,x,k,3); rm(y,x,k,4); rm(y,x,k,5) +#else + +#if defined(ARRAYS) +#define locals(y,x) x[8],y[8] +#else +#define locals(y,x) x##0,x##1,x##2,x##3,x##4,x##5,x##6,x##7, \ + y##0,y##1,y##2,y##3,y##4,y##5,y##6,y##7 +#endif +#define l_copy(y, x) s(y,0) = s(x,0); s(y,1) = s(x,1); \ + s(y,2) = s(x,2); s(y,3) = s(x,3); \ + s(y,4) = s(x,4); s(y,5) = s(x,5); \ + s(y,6) = s(x,6); s(y,7) = s(x,7); + +#if AES_BLOCK_SIZE == 32 + +#define state_in(y,x,k) si(y,x,k,0); si(y,x,k,1); si(y,x,k,2); si(y,x,k,3); \ + si(y,x,k,4); si(y,x,k,5); si(y,x,k,6); si(y,x,k,7) +#define state_out(y,x) so(y,x,0); so(y,x,1); so(y,x,2); so(y,x,3); \ + so(y,x,4); so(y,x,5); so(y,x,6); so(y,x,7) +#define round(rm,y,x,k) rm(y,x,k,0); rm(y,x,k,1); rm(y,x,k,2); rm(y,x,k,3); \ + rm(y,x,k,4); rm(y,x,k,5); rm(y,x,k,6); rm(y,x,k,7) +#else + +#define state_in(y,x,k) \ +switch(nc) \ +{ case 8: si(y,x,k,7); si(y,x,k,6); \ + case 6: si(y,x,k,5); si(y,x,k,4); \ + case 4: si(y,x,k,3); si(y,x,k,2); \ + si(y,x,k,1); si(y,x,k,0); \ +} + +#define state_out(y,x) \ +switch(nc) \ +{ case 8: so(y,x,7); so(y,x,6); \ + case 6: so(y,x,5); so(y,x,4); \ + case 4: so(y,x,3); so(y,x,2); \ + so(y,x,1); so(y,x,0); \ +} + +#if defined(FAST_VARIABLE) + +#define round(rm,y,x,k) \ +switch(nc) \ +{ case 8: rm(y,x,k,7); rm(y,x,k,6); \ + rm(y,x,k,5); rm(y,x,k,4); \ + rm(y,x,k,3); rm(y,x,k,2); \ + rm(y,x,k,1); rm(y,x,k,0); \ + break; \ + case 6: rm(y,x,k,5); rm(y,x,k,4); \ + rm(y,x,k,3); rm(y,x,k,2); \ + rm(y,x,k,1); rm(y,x,k,0); \ + break; \ + case 4: rm(y,x,k,3); rm(y,x,k,2); \ + rm(y,x,k,1); rm(y,x,k,0); \ + break; \ +} +#else + +#define round(rm,y,x,k) \ +switch(nc) \ +{ case 8: rm(y,x,k,7); rm(y,x,k,6); \ + case 6: rm(y,x,k,5); rm(y,x,k,4); \ + case 4: rm(y,x,k,3); rm(y,x,k,2); \ + rm(y,x,k,1); rm(y,x,k,0); \ +} + +#endif + +#endif +#endif + +/** + * Implementation of private_aes_crypter_t.encrypt_block. + */ +static void encrypt_block(const private_aes_crypter_t *this, const unsigned char in_blk[], unsigned char out_blk[]) +{ u_int32_t locals(b0, b1); + const u_int32_t *kp = this->aes_e_key; + +#if !defined(ONE_TABLE) && !defined(FOUR_TABLES) + u_int32_t f2; +#endif + + state_in(b0, in_blk, kp); kp += nc; + +#if defined(UNROLL) + + switch(this->aes_Nrnd) + { + case 14: round(fwd_rnd, b1, b0, kp ); + round(fwd_rnd, b0, b1, kp + nc ); kp += 2 * nc; + case 12: round(fwd_rnd, b1, b0, kp ); + round(fwd_rnd, b0, b1, kp + nc ); kp += 2 * nc; + case 10: round(fwd_rnd, b1, b0, kp ); + round(fwd_rnd, b0, b1, kp + nc); + round(fwd_rnd, b1, b0, kp + 2 * nc); + round(fwd_rnd, b0, b1, kp + 3 * nc); + round(fwd_rnd, b1, b0, kp + 4 * nc); + round(fwd_rnd, b0, b1, kp + 5 * nc); + round(fwd_rnd, b1, b0, kp + 6 * nc); + round(fwd_rnd, b0, b1, kp + 7 * nc); + round(fwd_rnd, b1, b0, kp + 8 * nc); + round(fwd_lrnd, b0, b1, kp + 9 * nc); + } + +#elif defined(PARTIAL_UNROLL) + { u_int32_t rnd; + + for(rnd = 0; rnd < (this->aes_Nrnd >> 1) - 1; ++rnd) + { + round(fwd_rnd, b1, b0, kp); + round(fwd_rnd, b0, b1, kp + nc); kp += 2 * nc; + } + + round(fwd_rnd, b1, b0, kp); + round(fwd_lrnd, b0, b1, kp + nc); + } +#else + { u_int32_t rnd; + + for(rnd = 0; rnd < this->aes_Nrnd - 1; ++rnd) + { + round(fwd_rnd, b1, b0, kp); + l_copy(b0, b1); kp += nc; + } + + round(fwd_lrnd, b0, b1, kp); + } +#endif + + state_out(out_blk, b0); +} + +/** + * Implementation of private_aes_crypter_t.decrypt_block. + */ +static void decrypt_block(const private_aes_crypter_t *this, const unsigned char in_blk[], unsigned char out_blk[]) +{ u_int32_t locals(b0, b1); + const u_int32_t *kp = this->aes_d_key; + +#if !defined(ONE_TABLE) && !defined(FOUR_TABLES) + u_int32_t f2, f4, f8, f9; +#endif + + state_in(b0, in_blk, kp); kp += nc; + +#if defined(UNROLL) + + switch(this->aes_Nrnd) + { + case 14: round(inv_rnd, b1, b0, kp ); + round(inv_rnd, b0, b1, kp + nc ); kp += 2 * nc; + case 12: round(inv_rnd, b1, b0, kp ); + round(inv_rnd, b0, b1, kp + nc ); kp += 2 * nc; + case 10: round(inv_rnd, b1, b0, kp ); + round(inv_rnd, b0, b1, kp + nc); + round(inv_rnd, b1, b0, kp + 2 * nc); + round(inv_rnd, b0, b1, kp + 3 * nc); + round(inv_rnd, b1, b0, kp + 4 * nc); + round(inv_rnd, b0, b1, kp + 5 * nc); + round(inv_rnd, b1, b0, kp + 6 * nc); + round(inv_rnd, b0, b1, kp + 7 * nc); + round(inv_rnd, b1, b0, kp + 8 * nc); + round(inv_lrnd, b0, b1, kp + 9 * nc); + } + +#elif defined(PARTIAL_UNROLL) + { u_int32_t rnd; + + for(rnd = 0; rnd < (this->aes_Nrnd >> 1) - 1; ++rnd) + { + round(inv_rnd, b1, b0, kp); + round(inv_rnd, b0, b1, kp + nc); kp += 2 * nc; + } + + round(inv_rnd, b1, b0, kp); + round(inv_lrnd, b0, b1, kp + nc); + } +#else + { u_int32_t rnd; + + for(rnd = 0; rnd < this->aes_Nrnd - 1; ++rnd) + { + round(inv_rnd, b1, b0, kp); + l_copy(b0, b1); kp += nc; + } + + round(inv_lrnd, b0, b1, kp); + } +#endif + + state_out(out_blk, b0); +} + +/** + * Implementation of crypter_t.decrypt. + */ +static status_t decrypt (private_aes_crypter_t *this, chunk_t data, chunk_t iv, chunk_t *decrypted) +{ + int ret, pos; + const u_int32_t *iv_i; + u_int8_t *in, *out; + + ret = data.len; + if (((data.len) % 16) != 0) + { + /* data length must be padded to a multiple of blocksize */ + return INVALID_ARG; + } + + decrypted->ptr = malloc(data.len); + if (decrypted->ptr == NULL) + { + return OUT_OF_RES; + } + decrypted->len = data.len; + + in = data.ptr; + out = decrypted->ptr; + + pos=data.len-16; + in+=pos; + out+=pos; + while(pos>=0) { + this->decrypt_block(this,in,out); + if (pos==0) + iv_i=(const u_int32_t*) (iv.ptr); + else + iv_i=(const u_int32_t*) (in-16); + *((u_int32_t *)(&out[ 0])) ^= iv_i[0]; + *((u_int32_t *)(&out[ 4])) ^= iv_i[1]; + *((u_int32_t *)(&out[ 8])) ^= iv_i[2]; + *((u_int32_t *)(&out[12])) ^= iv_i[3]; + in-=16; + out-=16; + pos-=16; + } + + return SUCCESS; +} + + +/** + * Implementation of crypter_t.decrypt. + */ +static status_t encrypt (private_aes_crypter_t *this, chunk_t data, chunk_t iv, chunk_t *encrypted) +{ + int ret, pos; + const u_int32_t *iv_i; + u_int8_t *in, *out; + + ret = data.len; + if (((data.len) % 16) != 0) + { + /* data length must be padded to a multiple of blocksize */ + return INVALID_ARG; + } + + encrypted->ptr = malloc(data.len); + if (encrypted->ptr == NULL) + { + return OUT_OF_RES; + } + encrypted->len = data.len; + + in = data.ptr; + out = encrypted->ptr; + + pos=0; + while(pos<data.len) + { + if (pos==0) + iv_i=(const u_int32_t*) iv.ptr; + else + iv_i=(const u_int32_t*) (out-16); + *((u_int32_t *)(&out[ 0])) = iv_i[0]^*((const u_int32_t *)(&in[ 0])); + *((u_int32_t *)(&out[ 4])) = iv_i[1]^*((const u_int32_t *)(&in[ 4])); + *((u_int32_t *)(&out[ 8])) = iv_i[2]^*((const u_int32_t *)(&in[ 8])); + *((u_int32_t *)(&out[12])) = iv_i[3]^*((const u_int32_t *)(&in[12])); + this->encrypt_block(this,out,out); + in+=16; + out+=16; + pos+=16; + } + return SUCCESS; +} + +/** + * Implementation of crypter_t.get_block_size. + */ +static size_t get_block_size (private_aes_crypter_t *this) +{ + return AES_BLOCK_SIZE; +} + +/** + * Implementation of crypter_t.get_key_size. + */ +static size_t get_key_size (private_aes_crypter_t *this) +{ + return this->key_size; +} + +/** + * Implementation of crypter_t.set_key. + */ +static status_t set_key (private_aes_crypter_t *this, chunk_t key) +{ + u_int32_t *kf, *kt, rci, f = 0; + u_int8_t *in_key = key.ptr; + + if (key.len != this->key_size) + { + return INVALID_ARG; + } + + this->aes_Nrnd = (this->aes_Nkey > (nc) ? this->aes_Nkey : (nc)) + 6; + + this->aes_e_key[0] = const_word_in(in_key ); + this->aes_e_key[1] = const_word_in(in_key + 4); + this->aes_e_key[2] = const_word_in(in_key + 8); + this->aes_e_key[3] = const_word_in(in_key + 12); + + kf = this->aes_e_key; + kt = kf + nc * (this->aes_Nrnd + 1) - this->aes_Nkey; + rci = 0; + + switch(this->aes_Nkey) + { + case 4: do + { kf[4] = kf[0] ^ ls_box(kf[3],3) ^ rcon_tab[rci++]; + kf[5] = kf[1] ^ kf[4]; + kf[6] = kf[2] ^ kf[5]; + kf[7] = kf[3] ^ kf[6]; + kf += 4; + } + while(kf < kt); + break; + + case 6: this->aes_e_key[4] = const_word_in(in_key + 16); + this->aes_e_key[5] = const_word_in(in_key + 20); + do + { kf[ 6] = kf[0] ^ ls_box(kf[5],3) ^ rcon_tab[rci++]; + kf[ 7] = kf[1] ^ kf[ 6]; + kf[ 8] = kf[2] ^ kf[ 7]; + kf[ 9] = kf[3] ^ kf[ 8]; + kf[10] = kf[4] ^ kf[ 9]; + kf[11] = kf[5] ^ kf[10]; + kf += 6; + } + while(kf < kt); + break; + + case 8: this->aes_e_key[4] = const_word_in(in_key + 16); + this->aes_e_key[5] = const_word_in(in_key + 20); + this->aes_e_key[6] = const_word_in(in_key + 24); + this->aes_e_key[7] = const_word_in(in_key + 28); + do + { kf[ 8] = kf[0] ^ ls_box(kf[7],3) ^ rcon_tab[rci++]; + kf[ 9] = kf[1] ^ kf[ 8]; + kf[10] = kf[2] ^ kf[ 9]; + kf[11] = kf[3] ^ kf[10]; + kf[12] = kf[4] ^ ls_box(kf[11],0); + kf[13] = kf[5] ^ kf[12]; + kf[14] = kf[6] ^ kf[13]; + kf[15] = kf[7] ^ kf[14]; + kf += 8; + } + while (kf < kt); + break; + } + + if(!f) + { + u_int32_t i; + + kt = this->aes_d_key + nc * this->aes_Nrnd; + kf = this->aes_e_key; + + cpy(kt, kf); kt -= 2 * nc; + + for(i = 1; i < this->aes_Nrnd; ++i) + { +#if defined(ONE_TABLE) || defined(FOUR_TABLES) +#if !defined(ONE_IM_TABLE) && !defined(FOUR_IM_TABLES) + u_int32_t f2, f4, f8, f9; +#endif + mix(kt, kf); +#else + cpy(kt, kf); +#endif + kt -= 2 * nc; + } + cpy(kt, kf); + } + + return SUCCESS; +} + +/** + * Implementation of crypter_t.destroy and aes_crypter_t.destroy. + */ +static void destroy (private_aes_crypter_t *this) +{ + free(this); +} + +/* + * Described in header + */ +aes_crypter_t *aes_crypter_create(encryption_algorithm_t algo, size_t key_size) +{ + private_aes_crypter_t *this; + + if (algo != ENCR_AES_CBC) + { + return NULL; + } + + this = malloc_thing(private_aes_crypter_t); + + #if !defined(FIXED_TABLES) + if(!tab_gen) { gen_tabs(); tab_gen = 1; } + #endif + + this->key_size = key_size; + switch(key_size) + { + case 32: /* bytes */ + this->aes_Nkey = 8; + break; + case 24: /* bytes */ + this->aes_Nkey = 6; + break; + case 16: /* bytes */ + this->aes_Nkey = 4; + break; + default: + free(this); + return NULL; + } + + /* functions of crypter_t interface */ + this->public.crypter_interface.encrypt = (status_t (*) (crypter_t *, chunk_t,chunk_t, chunk_t *)) encrypt; + this->public.crypter_interface.decrypt = (status_t (*) (crypter_t *, chunk_t , chunk_t, chunk_t *)) decrypt; + this->public.crypter_interface.get_block_size = (size_t (*) (crypter_t *)) get_block_size; + this->public.crypter_interface.get_key_size = (size_t (*) (crypter_t *)) get_key_size; + this->public.crypter_interface.set_key = (status_t (*) (crypter_t *,chunk_t)) set_key; + this->public.crypter_interface.destroy = (void (*) (crypter_t *)) destroy; + + /* private functions */ + this->decrypt_block = decrypt_block; + this->encrypt_block = encrypt_block; + + return &(this->public); +} diff --git a/src/libstrongswan/plugins/aes/aes_crypter.h b/src/libstrongswan/plugins/aes/aes_crypter.h new file mode 100644 index 000000000..e42a6bc5b --- /dev/null +++ b/src/libstrongswan/plugins/aes/aes_crypter.h @@ -0,0 +1,50 @@ +/* + * Copyright (C) 2005-2008 Martin Willi + * Copyright (C) 2005 Jan Hutter + * Hochschule fuer Technik Rapperswil + * + * This program is free software; you can redistribute it and/or modify it + * under the terms of the GNU General Public License as published by the + * Free Software Foundation; either version 2 of the License, or (at your + * option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>. + * + * This program is distributed in the hope that it will be useful, but + * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License + * for more details. + */ + +/** + * @defgroup aes_crypter aes_crypter + * @{ @ingroup aes_p + */ + +#ifndef AES_CRYPTER_H_ +#define AES_CRYPTER_H_ + +typedef struct aes_crypter_t aes_crypter_t; + +#include <crypto/crypters/crypter.h> + +/** + * Class implementing the AES encryption algorithm. + */ +struct aes_crypter_t { + + /** + * The crypter_t interface. + */ + crypter_t crypter_interface; +}; + +/** + * Constructor to create aes_crypter_t objects. + * + * @param key_size key size in bytes + * @param algo algorithm to implement + * @return aes_crypter_t object, NULL if not supported + */ +aes_crypter_t *aes_crypter_create(encryption_algorithm_t algo, + size_t key_size); + +#endif /* AES_CRYPTER_H_ @}*/ diff --git a/src/libstrongswan/plugins/aes/aes_plugin.c b/src/libstrongswan/plugins/aes/aes_plugin.c new file mode 100644 index 000000000..590948f07 --- /dev/null +++ b/src/libstrongswan/plugins/aes/aes_plugin.c @@ -0,0 +1,60 @@ +/* + * Copyright (C) 2008 Martin Willi + * Hochschule fuer Technik Rapperswil + * + * This program is free software; you can redistribute it and/or modify it + * under the terms of the GNU General Public License as published by the + * Free Software Foundation; either version 2 of the License, or (at your + * option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>. + * + * This program is distributed in the hope that it will be useful, but + * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License + * for more details. + * + * $Id$ + */ + +#include "aes_plugin.h" + +#include <library.h> +#include "aes_crypter.h" + +typedef struct private_aes_plugin_t private_aes_plugin_t; + +/** + * private data of aes_plugin + */ +struct private_aes_plugin_t { + + /** + * public functions + */ + aes_plugin_t public; +}; + +/** + * Implementation of aes_plugin_t.destroy + */ +static void destroy(private_aes_plugin_t *this) +{ + lib->crypto->remove_crypter(lib->crypto, + (crypter_constructor_t)aes_crypter_create); + free(this); +} + +/* + * see header file + */ +plugin_t *plugin_create() +{ + private_aes_plugin_t *this = malloc_thing(private_aes_plugin_t); + + this->public.plugin.destroy = (void(*)(plugin_t*))destroy; + + lib->crypto->add_crypter(lib->crypto, ENCR_AES_CBC, + (crypter_constructor_t)aes_crypter_create); + + return &this->public.plugin; +} + diff --git a/src/libstrongswan/plugins/aes/aes_plugin.h b/src/libstrongswan/plugins/aes/aes_plugin.h new file mode 100644 index 000000000..4cf0bc15e --- /dev/null +++ b/src/libstrongswan/plugins/aes/aes_plugin.h @@ -0,0 +1,47 @@ +/* + * Copyright (C) 2008 Martin Willi + * Hochschule fuer Technik Rapperswil + * + * This program is free software; you can redistribute it and/or modify it + * under the terms of the GNU General Public License as published by the + * Free Software Foundation; either version 2 of the License, or (at your + * option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>. + * + * This program is distributed in the hope that it will be useful, but + * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY + * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License + * for more details. + */ + +/** + * @defgroup aes_p aes + * @ingroup plugins + * + * @defgroup aes_plugin aes_plugin + * @{ @ingroup aes_p + */ + +#ifndef AES_PLUGIN_H_ +#define AES_PLUGIN_H_ + +#include <plugins/plugin.h> + +typedef struct aes_plugin_t aes_plugin_t; + +/** + * Plugin implementing AES based algorithms in software. + */ +struct aes_plugin_t { + + /** + * implements plugin interface + */ + plugin_t plugin; +}; + +/** + * Create a aes_plugin instance. + */ +plugin_t *plugin_create(); + +#endif /* AES_PLUGIN_H_ @}*/ |