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-rw-r--r--plugins/Dbx_tree/encryption/HC256/src/HC256.cpp243
-rw-r--r--plugins/Dbx_tree/encryption/HC256/src/HC256.h66
2 files changed, 309 insertions, 0 deletions
diff --git a/plugins/Dbx_tree/encryption/HC256/src/HC256.cpp b/plugins/Dbx_tree/encryption/HC256/src/HC256.cpp
new file mode 100644
index 0000000000..056b4e4dae
--- /dev/null
+++ b/plugins/Dbx_tree/encryption/HC256/src/HC256.cpp
@@ -0,0 +1,243 @@
+/*
+
+dbx_tree: tree database driver for Miranda IM
+
+Copyright 2007-2008 Michael "Protogenes" Kunz,
+
+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.
+
+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.
+
+You should have received a copy of the GNU General Public License
+along with this program; if not, write to the Free Software
+Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+
+*/
+
+#include "HC256.h"
+#include <stdlib.h>
+#include <string.h>
+
+#ifndef _MSC_VER
+ #define rotr(x,n) (((x)>>(n))|((x)<<(32-(n))))
+#else
+ #define rotr(x,n) _lrotr(x,n)
+#endif
+
+#define h1(x,y) { \
+ uint8_t a,b,c,d; \
+ a = (uint8_t) (x); \
+ b = (uint8_t) ((x) >> 8); \
+ c = (uint8_t) ((x) >> 16); \
+ d = (uint8_t) ((x) >> 24); \
+ (y) = Q[a]+Q[256+b]+Q[512+c]+Q[768+d]; \
+}
+#define h2(x,y) { \
+ uint8_t a,b,c,d; \
+ a = (uint8_t) (x); \
+ b = (uint8_t) ((x) >> 8); \
+ c = (uint8_t) ((x) >> 16); \
+ d = (uint8_t) ((x) >> 24); \
+ (y) = P[a]+P[256+b]+P[512+c]+P[768+d]; \
+}
+#define step_A(u,v,a,b,c,d,m){ \
+ uint32_t tem0,tem1,tem2,tem3; \
+ tem0 = rotr((v),23); \
+ tem1 = rotr((c),10); \
+ tem2 = ((v) ^ (c)) & 0x3ff; \
+ (u) += (b)+(tem0^tem1)+Q[tem2]; \
+ (a) = (u); \
+ h1((d),tem3); \
+ (m) ^= tem3 ^ (u) ; \
+}
+#define step_B(u,v,a,b,c,d,m){ \
+ uint32_t tem0,tem1,tem2,tem3; \
+ tem0 = rotr((v),23); \
+ tem1 = rotr((c),10); \
+ tem2 = ((v) ^ (c)) & 0x3ff; \
+ (u) += (b)+(tem0^tem1)+P[tem2]; \
+ (a) = (u); \
+ h2((d),tem3); \
+ (m) ^= tem3 ^ (u) ; \
+}
+
+
+#define f1(x) (rotr((x),7) ^ rotr((x),18) ^ ((x) >> 3))
+#define f2(x) (rotr((x),17) ^ rotr((x),19) ^ ((x) >> 10))
+#define f(a,b,c,d) (f2((a)) + (b) + f1((c)) + (d))
+#define feedback_1(u,v,b,c) { \
+ uint32_t tem0,tem1,tem2; \
+ tem0 = rotr((v),23); \
+ tem1 = rotr((c),10); \
+ tem2 = ((v) ^ (c)) & 0x3ff; \
+ (u) += (b)+(tem0^tem1)+Q[tem2]; \
+}
+#define feedback_2(u,v,b,c) { \
+ uint32_t tem0,tem1,tem2; \
+ tem0 = rotr((v),23); \
+ tem1 = rotr((c),10); \
+ tem2 = ((v) ^ (c)) & 0x3ff; \
+ (u) += (b)+(tem0^tem1)+P[tem2]; \
+}
+
+const wchar_t * HC256::Name()
+{
+ return cName;
+}
+const wchar_t * HC256::Description()
+{
+ return cDescription;
+}
+const uint32_t HC256::BlockSizeBytes()
+{
+ return cBlockSizeBytes;
+}
+const bool HC256::IsStreamCipher()
+{
+ return cIsStreamCipher;
+}
+
+HC256::HC256()
+{
+
+}
+HC256::~HC256()
+{
+
+}
+CCipher::TCipherInterface* HC256::Create()
+{
+ return (new HC256())->m_Interface;
+}
+
+void HC256::SetKey(void* Key, uint32_t KeyLength)
+{
+ uint8_t k[32] = {0};
+
+ for (uint32_t i = 0; i < KeyLength; ++i)
+ {
+ k[i & 0x1f] ^= ((uint8_t *)Key)[i];
+ }
+ CreateTables(k);
+}
+void HC256::Encrypt(void* Data, uint32_t Size, uint32_t Nonce, uint32_t StartByte)
+{
+ memcpy(X, BackX, sizeof(X));
+ memcpy(Y, BackY, sizeof(Y));
+ memcpy(P, BackP, sizeof(P));
+ memcpy(Q, BackQ, sizeof(Q));
+
+ counter2048 = (Nonce + (Nonce >> 11) + (Nonce >> 22)) & 0x7ff;
+
+ for (uint32_t i = 0; i <= Size - BlockSizeBytes(); i += BlockSizeBytes())
+ {
+ EncryptBlock((uint32_t*)((uint8_t*)Data + i));
+ StartByte += BlockSizeBytes();
+ }
+}
+void HC256::Decrypt(void* Data, uint32_t Size, uint32_t Nonce, uint32_t StartByte)
+{
+ Encrypt(Data, Size, Nonce, StartByte);
+}
+
+inline void HC256::EncryptBlock(uint32_t *Data)
+{
+ uint32_t cc,dd;
+ cc = counter2048 & 0x3ff;
+ dd = (cc + 16) & 0x3ff;
+ if (counter2048 < 1024)
+ {
+ counter2048 = (counter2048 + 16) & 0x7ff;
+ step_A(P[cc+0], P[cc+1], X[0], X[6], X[13],X[4], Data[0]);
+ step_A(P[cc+1], P[cc+2], X[1], X[7], X[14],X[5], Data[1]);
+ step_A(P[cc+2], P[cc+3], X[2], X[8], X[15],X[6], Data[2]);
+ step_A(P[cc+3], P[cc+4], X[3], X[9], X[0], X[7], Data[3]);
+ step_A(P[cc+4], P[cc+5], X[4], X[10],X[1], X[8], Data[4]);
+ step_A(P[cc+5], P[cc+6], X[5], X[11],X[2], X[9], Data[5]);
+ step_A(P[cc+6], P[cc+7], X[6], X[12],X[3], X[10],Data[6]);
+ step_A(P[cc+7], P[cc+8], X[7], X[13],X[4], X[11],Data[7]);
+ step_A(P[cc+8], P[cc+9], X[8], X[14],X[5], X[12],Data[8]);
+ step_A(P[cc+9], P[cc+10],X[9], X[15],X[6], X[13],Data[9]);
+ step_A(P[cc+10],P[cc+11],X[10],X[0], X[7], X[14],Data[10]);
+ step_A(P[cc+11],P[cc+12],X[11],X[1], X[8], X[15],Data[11]);
+ step_A(P[cc+12],P[cc+13],X[12],X[2], X[9], X[0], Data[12]);
+ step_A(P[cc+13],P[cc+14],X[13],X[3], X[10],X[1], Data[13]);
+ step_A(P[cc+14],P[cc+15],X[14],X[4], X[11],X[2], Data[14]);
+ step_A(P[cc+15],P[dd+0], X[15],X[5], X[12],X[3], Data[15]);
+
+ } else {
+
+ counter2048 = (counter2048 + 16) & 0x7ff;
+ step_B(Q[cc+0], Q[cc+1], Y[0], Y[6], Y[13],Y[4], Data[0]);
+ step_B(Q[cc+1], Q[cc+2], Y[1], Y[7], Y[14],Y[5], Data[1]);
+ step_B(Q[cc+2], Q[cc+3], Y[2], Y[8], Y[15],Y[6], Data[2]);
+ step_B(Q[cc+3], Q[cc+4], Y[3], Y[9], Y[0], Y[7], Data[3]);
+ step_B(Q[cc+4], Q[cc+5], Y[4], Y[10],Y[1], Y[8], Data[4]);
+ step_B(Q[cc+5], Q[cc+6], Y[5], Y[11],Y[2], Y[9], Data[5]);
+ step_B(Q[cc+6], Q[cc+7], Y[6], Y[12],Y[3], Y[10],Data[6]);
+ step_B(Q[cc+7], Q[cc+8], Y[7], Y[13],Y[4], Y[11],Data[7]);
+ step_B(Q[cc+8], Q[cc+9], Y[8], Y[14],Y[5], Y[12],Data[8]);
+ step_B(Q[cc+9], Q[cc+10],Y[9], Y[15],Y[6], Y[13],Data[9]);
+ step_B(Q[cc+10],Q[cc+11],Y[10],Y[0], Y[7], Y[14],Data[10]);
+ step_B(Q[cc+11],Q[cc+12],Y[11],Y[1], Y[8], Y[15],Data[11]);
+ step_B(Q[cc+12],Q[cc+13],Y[12],Y[2], Y[9], Y[0], Data[12]);
+ step_B(Q[cc+13],Q[cc+14],Y[13],Y[3], Y[10],Y[1], Data[13]);
+ step_B(Q[cc+14],Q[cc+15],Y[14],Y[4], Y[11],Y[2], Data[14]);
+ step_B(Q[cc+15],Q[dd+0], Y[15],Y[5], Y[12],Y[3], Data[15]);
+ }
+}
+inline void HC256::CreateTables(uint8_t* Key)
+{
+ uint32_t i, j;
+ uint8_t iv[32] = "Miranda NG dbx_tree Protogenes!";
+ //expand the key and iv into P and Q
+ for (i = 0; i < 8; i++)
+ P[i] = Key[i];
+ for (i = 8; i < 16; i++)
+ P[i] = iv[i - 8];
+ for (i = 16; i < 528; i++)
+ P[i] = f(P[i - 2], P[i - 7], P[i - 15], P[i - 16]) + i;
+ for (i = 0; i < 16; i++)
+ P[i] = P[i + 512];
+ for (i = 16; i < 1024; i++)
+ P[i] = f(P[i - 2], P[i - 7], P[i - 15], P[i - 16]) + 512 + i;
+ for (i = 0; i < 16; i++)
+ Q[i] = P[1024 - 16 + i];
+ for (i = 16; i < 32; i++)
+ Q[i] = f(Q[i - 2], Q[i - 7], Q[i - 15], Q[i - 16]) + 1520 + i;
+ for (i = 0; i < 16; i++)
+ Q[i] = Q[i + 16];
+ for (i = 16; i < 1024;i++)
+ Q[i] = f(Q[i - 2], Q[i - 7], Q[i - 15], Q[i - 16]) + 1536 + i;
+ //run the cipher 4096 steps without generating output
+ for (i = 0; i < 2; i++)
+ {
+ for (j = 0; j < 10; j++)
+ feedback_1(P[j], P[j + 1], P[(j - 10) & 0x3ff], P[(j - 3) & 0x3ff]);
+ for (j = 10; j < 1023; j++)
+ feedback_1(P[j], P[j + 1], P[j - 10], P[j - 3]);
+ feedback_1(P[1023], P[0], P[1013], P[1020]);
+ for (j = 0; j < 10; j++)
+ feedback_2(Q[j], Q[j+1], Q[(j-10) & 0x3ff], Q[(j - 3) & 0x3ff]);
+ for (j = 10; j < 1023; j++)
+ feedback_2(Q[j], Q[j + 1], Q[j - 10], Q[j - 3]);
+ feedback_2(Q[1023], Q[0], Q[1013], Q[1020]);
+ }
+ //initialize counter2048, and tables X and Y
+ counter2048 = 0;
+ for (i = 0; i < 16; i++)
+ X[i] = P[1008 + i];
+ for (i = 0; i < 16; i++)
+ Y[i] = Q[1008 + i];
+}
+
+extern "C" __declspec(dllexport) const TCipherInfo* CipherInfo(void * Reserved)
+{
+ return &HC256::cCipherInfo;
+}
diff --git a/plugins/Dbx_tree/encryption/HC256/src/HC256.h b/plugins/Dbx_tree/encryption/HC256/src/HC256.h
new file mode 100644
index 0000000000..d4acb3195f
--- /dev/null
+++ b/plugins/Dbx_tree/encryption/HC256/src/HC256.h
@@ -0,0 +1,66 @@
+/*
+
+dbx_tree: tree database driver for Miranda IM
+
+Copyright 2007-2008 Michael "Protogenes" Kunz,
+
+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.
+
+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.
+
+You should have received a copy of the GNU General Public License
+along with this program; if not, write to the Free Software
+Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+
+*/
+
+#pragma once
+
+#include "Cipher.h"
+
+class HC256 : public CCipher
+{
+private:
+ uint32_t counter2048;
+ uint32_t P[1024], Q[1024];
+ uint32_t X[16], Y[16];
+
+ uint32_t BackP[1024], BackQ[1024];
+ uint32_t BackX[16], BackY[16];
+
+ void EncryptBlock(uint32_t *Data);
+ void CreateTables(uint8_t* Key);
+
+ static const wchar_t* cName;
+ static const wchar_t* cDescription;
+ static const uint32_t cBlockSizeBytes = 64;
+ static const bool cIsStreamCipher = true;
+
+public:
+
+ const wchar_t * __cdecl Name();
+ const wchar_t * __cdecl Description();
+ const uint32_t __cdecl BlockSizeBytes();
+ const bool __cdecl IsStreamCipher();
+
+ static const TCipherInfo cCipherInfo;
+
+ HC256();
+ ~HC256();
+ static CCipher::TCipherInterface* __cdecl Create();
+
+ void __cdecl SetKey(void* Key, uint32_t KeyLength);
+ void __cdecl Encrypt(void* Data, uint32_t Size, uint32_t Nonce, uint32_t StartByte);
+ void __cdecl Decrypt(void* Data, uint32_t Size, uint32_t Nonce, uint32_t StartByte);
+
+};
+
+const wchar_t* HC256::cName = L"HC-256";
+const wchar_t* HC256::cDescription = L"Streamcipher - 512bit step, very fast, Hongjun Wu 2005";
+const TCipherInfo HC256::cCipherInfo = {sizeof(TCipherInfo), 'HC25', cName, cDescription, &HC256::Create};