From f9158592e1478b2013afc7041d9ed041cf2d2f4a Mon Sep 17 00:00:00 2001 From: David Walter Seikel Date: Mon, 13 Jan 2014 19:47:58 +1000 Subject: Update Irrlicht to 1.8.1. Include actual change markers this time. lol --- .../source/Irrlicht/aesGladman/aescrypt.cpp | 303 +++++++++++++++++++++ 1 file changed, 303 insertions(+) create mode 100644 libraries/irrlicht-1.8.1/source/Irrlicht/aesGladman/aescrypt.cpp (limited to 'libraries/irrlicht-1.8.1/source/Irrlicht/aesGladman/aescrypt.cpp') diff --git a/libraries/irrlicht-1.8.1/source/Irrlicht/aesGladman/aescrypt.cpp b/libraries/irrlicht-1.8.1/source/Irrlicht/aesGladman/aescrypt.cpp new file mode 100644 index 0000000..8d1feee --- /dev/null +++ b/libraries/irrlicht-1.8.1/source/Irrlicht/aesGladman/aescrypt.cpp @@ -0,0 +1,303 @@ +/* + --------------------------------------------------------------------------- + Copyright (c) 2003, Dr Brian Gladman < >, Worcester, UK. + All rights reserved. + + LICENSE TERMS + + The free distribution and use of this software in both source and binary + form is allowed (with or without changes) provided that: + + 1. distributions of this source code include the above copyright + notice, this list of conditions and the following disclaimer; + + 2. distributions in binary form include the above copyright + notice, this list of conditions and the following disclaimer + in the documentation and/or other associated materials; + + 3. the copyright holder's name is not used to endorse products + built using this software without specific written permission. + + ALTERNATIVELY, provided that this notice is retained in full, this product + may be distributed under the terms of the GNU General Public License (GPL), + in which case the provisions of the GPL apply INSTEAD OF those given above. + + DISCLAIMER + + This software is provided 'as is' with no explicit or implied warranties + in respect of its properties, including, but not limited to, correctness + and/or fitness for purpose. + --------------------------------------------------------------------------- + Issue Date: 26/08/2003 + + This file contains the code for implementing encryption and decryption + for AES (Rijndael) for block and key sizes of 16, 24 and 32 bytes. It + can optionally be replaced by code written in assembler using NASM. For + further details see the file aesopt.h +*/ + +#include "aesopt.h" + +#define si(y,x,k,c) (s(y,c) = word_in(x, c) ^ (k)[c]) +#define so(y,x,c) word_out(y, c, s(x,c)) + +#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 +#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) + +#if defined(ENCRYPTION) && !defined(AES_ASM) + +/* Visual C++ .Net v7.1 provides the fastest encryption code when using + Pentium optimization with small code but this is poor for decryption + so we need to control this with the following VC++ pragmas +*/ + +#if defined(_MSC_VER) +#pragma optimize( "s", on ) +#endif + +/* Given the column (c) of the output state variable, the following + macros give the input state variables which are needed in its + computation for each row (r) of the state. All the alternative + macros give the same end values but expand into different ways + of calculating these values. In particular the complex macro + used for dynamically variable block sizes is designed to expand + to a compile time constant whenever possible but will expand to + conditional clauses on some branches (I am grateful to Frank + Yellin for this construction) +*/ + +#define fwd_var(x,r,c)\ + ( r == 0 ? ( c == 0 ? s(x,0) : c == 1 ? s(x,1) : c == 2 ? s(x,2) : s(x,3))\ + : r == 1 ? ( c == 0 ? s(x,1) : c == 1 ? s(x,2) : c == 2 ? s(x,3) : s(x,0))\ + : r == 2 ? ( c == 0 ? s(x,2) : c == 1 ? s(x,3) : c == 2 ? s(x,0) : s(x,1))\ + : ( c == 0 ? s(x,3) : c == 1 ? s(x,0) : c == 2 ? s(x,1) : s(x,2))) + +#if defined(FT4_SET) +#undef dec_fmvars +#define fwd_rnd(y,x,k,c) (s(y,c) = (k)[c] ^ four_tables(x,t_use(f,n),fwd_var,rf1,c)) +#elif defined(FT1_SET) +#undef dec_fmvars +#define fwd_rnd(y,x,k,c) (s(y,c) = (k)[c] ^ one_table(x,upr,t_use(f,n),fwd_var,rf1,c)) +#else +#define fwd_rnd(y,x,k,c) (s(y,c) = (k)[c] ^ fwd_mcol(no_table(x,t_use(s,box),fwd_var,rf1,c))) +#endif + +#if defined(FL4_SET) +#define fwd_lrnd(y,x,k,c) (s(y,c) = (k)[c] ^ four_tables(x,t_use(f,l),fwd_var,rf1,c)) +#elif defined(FL1_SET) +#define fwd_lrnd(y,x,k,c) (s(y,c) = (k)[c] ^ one_table(x,ups,t_use(f,l),fwd_var,rf1,c)) +#else +#define fwd_lrnd(y,x,k,c) (s(y,c) = (k)[c] ^ no_table(x,t_use(s,box),fwd_var,rf1,c)) +#endif + +aes_rval aes_encrypt(const void *in_blk, void *out_blk, const aes_encrypt_ctx cx[1]) +{ aes_32t locals(b0, b1); + const aes_32t *kp = cx->ks; +#ifdef dec_fmvars + dec_fmvars; /* declare variables for fwd_mcol() if needed */ +#endif + + aes_32t nr = (kp[45] ^ kp[52] ^ kp[53] ? kp[52] : 14); + +#ifdef AES_ERR_CHK + if( (nr != 10 || !(kp[0] | kp[3] | kp[4])) + && (nr != 12 || !(kp[0] | kp[5] | kp[6])) + && (nr != 14 || !(kp[0] | kp[7] | kp[8])) ) + return aes_error; +#endif + + state_in(b0, in_blk, kp); + +#if (ENC_UNROLL == FULL) + + switch(nr) + { + case 14: + round(fwd_rnd, b1, b0, kp + 1 * N_COLS); + round(fwd_rnd, b0, b1, kp + 2 * N_COLS); + kp += 2 * N_COLS; + case 12: + round(fwd_rnd, b1, b0, kp + 1 * N_COLS); + round(fwd_rnd, b0, b1, kp + 2 * N_COLS); + kp += 2 * N_COLS; + case 10: + round(fwd_rnd, b1, b0, kp + 1 * N_COLS); + round(fwd_rnd, b0, b1, kp + 2 * N_COLS); + round(fwd_rnd, b1, b0, kp + 3 * N_COLS); + round(fwd_rnd, b0, b1, kp + 4 * N_COLS); + round(fwd_rnd, b1, b0, kp + 5 * N_COLS); + round(fwd_rnd, b0, b1, kp + 6 * N_COLS); + round(fwd_rnd, b1, b0, kp + 7 * N_COLS); + round(fwd_rnd, b0, b1, kp + 8 * N_COLS); + round(fwd_rnd, b1, b0, kp + 9 * N_COLS); + round(fwd_lrnd, b0, b1, kp +10 * N_COLS); + } + +#else + +#if (ENC_UNROLL == PARTIAL) + { aes_32t rnd; + for(rnd = 0; rnd < (nr >> 1) - 1; ++rnd) + { + kp += N_COLS; + round(fwd_rnd, b1, b0, kp); + kp += N_COLS; + round(fwd_rnd, b0, b1, kp); + } + kp += N_COLS; + round(fwd_rnd, b1, b0, kp); +#else + { aes_32t rnd; + for(rnd = 0; rnd < nr - 1; ++rnd) + { + kp += N_COLS; + round(fwd_rnd, b1, b0, kp); + l_copy(b0, b1); + } +#endif + kp += N_COLS; + round(fwd_lrnd, b0, b1, kp); + } +#endif + + state_out(out_blk, b0); +#ifdef AES_ERR_CHK + return aes_good; +#endif +} + +#endif + +#if defined(DECRYPTION) && !defined(AES_ASM) + +/* Visual C++ .Net v7.1 provides the fastest encryption code when using + Pentium optimization with small code but this is poor for decryption + so we need to control this with the following VC++ pragmas +*/ + +#if defined(_MSC_VER) +#pragma optimize( "t", on ) +#endif + +/* Given the column (c) of the output state variable, the following + macros give the input state variables which are needed in its + computation for each row (r) of the state. All the alternative + macros give the same end values but expand into different ways + of calculating these values. In particular the complex macro + used for dynamically variable block sizes is designed to expand + to a compile time constant whenever possible but will expand to + conditional clauses on some branches (I am grateful to Frank + Yellin for this construction) +*/ + +#define inv_var(x,r,c)\ + ( r == 0 ? ( c == 0 ? s(x,0) : c == 1 ? s(x,1) : c == 2 ? s(x,2) : s(x,3))\ + : r == 1 ? ( c == 0 ? s(x,3) : c == 1 ? s(x,0) : c == 2 ? s(x,1) : s(x,2))\ + : r == 2 ? ( c == 0 ? s(x,2) : c == 1 ? s(x,3) : c == 2 ? s(x,0) : s(x,1))\ + : ( c == 0 ? s(x,1) : c == 1 ? s(x,2) : c == 2 ? s(x,3) : s(x,0))) + +#if defined(IT4_SET) +#undef dec_imvars +#define inv_rnd(y,x,k,c) (s(y,c) = (k)[c] ^ four_tables(x,t_use(i,n),inv_var,rf1,c)) +#elif defined(IT1_SET) +#undef dec_imvars +#define inv_rnd(y,x,k,c) (s(y,c) = (k)[c] ^ one_table(x,upr,t_use(i,n),inv_var,rf1,c)) +#else +#define inv_rnd(y,x,k,c) (s(y,c) = inv_mcol((k)[c] ^ no_table(x,t_use(i,box),inv_var,rf1,c))) +#endif + +#if defined(IL4_SET) +#define inv_lrnd(y,x,k,c) (s(y,c) = (k)[c] ^ four_tables(x,t_use(i,l),inv_var,rf1,c)) +#elif defined(IL1_SET) +#define inv_lrnd(y,x,k,c) (s(y,c) = (k)[c] ^ one_table(x,ups,t_use(i,l),inv_var,rf1,c)) +#else +#define inv_lrnd(y,x,k,c) (s(y,c) = (k)[c] ^ no_table(x,t_use(i,box),inv_var,rf1,c)) +#endif + +aes_rval aes_decrypt(const void *in_blk, void *out_blk, const aes_decrypt_ctx cx[1]) +{ aes_32t locals(b0, b1); +#ifdef dec_imvars + dec_imvars; /* declare variables for inv_mcol() if needed */ +#endif + + aes_32t nr = (cx->ks[45] ^ cx->ks[52] ^ cx->ks[53] ? cx->ks[52] : 14); + const aes_32t *kp = cx->ks + nr * N_COLS; + +#ifdef AES_ERR_CHK + if( (nr != 10 || !(cx->ks[0] | cx->ks[3] | cx->ks[4])) + && (nr != 12 || !(cx->ks[0] | cx->ks[5] | cx->ks[6])) + && (nr != 14 || !(cx->ks[0] | cx->ks[7] | cx->ks[8])) ) + return aes_error; +#endif + + state_in(b0, in_blk, kp); + +#if (DEC_UNROLL == FULL) + + switch(nr) + { + case 14: + round(inv_rnd, b1, b0, kp - 1 * N_COLS); + round(inv_rnd, b0, b1, kp - 2 * N_COLS); + kp -= 2 * N_COLS; + case 12: + round(inv_rnd, b1, b0, kp - 1 * N_COLS); + round(inv_rnd, b0, b1, kp - 2 * N_COLS); + kp -= 2 * N_COLS; + case 10: + round(inv_rnd, b1, b0, kp - 1 * N_COLS); + round(inv_rnd, b0, b1, kp - 2 * N_COLS); + round(inv_rnd, b1, b0, kp - 3 * N_COLS); + round(inv_rnd, b0, b1, kp - 4 * N_COLS); + round(inv_rnd, b1, b0, kp - 5 * N_COLS); + round(inv_rnd, b0, b1, kp - 6 * N_COLS); + round(inv_rnd, b1, b0, kp - 7 * N_COLS); + round(inv_rnd, b0, b1, kp - 8 * N_COLS); + round(inv_rnd, b1, b0, kp - 9 * N_COLS); + round(inv_lrnd, b0, b1, kp - 10 * N_COLS); + } + +#else + +#if (DEC_UNROLL == PARTIAL) + { aes_32t rnd; + for(rnd = 0; rnd < (nr >> 1) - 1; ++rnd) + { + kp -= N_COLS; + round(inv_rnd, b1, b0, kp); + kp -= N_COLS; + round(inv_rnd, b0, b1, kp); + } + kp -= N_COLS; + round(inv_rnd, b1, b0, kp); +#else + { aes_32t rnd; + for(rnd = 0; rnd < nr - 1; ++rnd) + { + kp -= N_COLS; + round(inv_rnd, b1, b0, kp); + l_copy(b0, b1); + } +#endif + kp -= N_COLS; + round(inv_lrnd, b0, b1, kp); + } +#endif + + state_out(out_blk, b0); +#ifdef AES_ERR_CHK + return aes_good; +#endif +} + +#endif + -- cgit v1.1