#include "commonheaders.h" const unsigned char IV[] = "PSKhell@MIRANDA!"; // generate KeyA pair, return public key as ASCII LPSTR __cdecl cpp_init_keya(HANDLE context, int features) { pCNTX ptr = get_context_on_id(context); if (!ptr) return NULL; pSIMDATA p = (pSIMDATA)cpp_alloc_pdata(ptr); int send_features = FEATURES; if (p->KeyP) send_features |= FEATURES_PSK; SAFE_DELETE(p->dh); if (features & FEATURES_NEWPG) { Integer p0("0x865734026113B4DF0082CED84C197718516088FBDA406CFDFD7F033694E11E46F01C8F01E0E5AE6B09F6284691C7DD30A5BA8A74BA4B780198624B84BC8DAF6E0DFF874C0440ABB5C043C82E9E9C9E6F1A470B6A2A6BCEAC9460C43B1BB1331DF0FFD898DB74D22E8A71DB2659F1B0F52F337718D233DED611DA25AEAA90F3BE0C42FA9E541D0487DF58A77E2F44D295AD0C54C369CE260C969CA12F690EAAFAEEF8676C631AF29A3DE3389D3000B94EFA775E31FCA879AEB00A4D05EEF50D4C084A049EB12EF4CDFBD48E36B29CEAF8978D535D6C70BB274D1FEA02ABD521D2EF482A76326C17AF597FCB9B8BF37D9110E22AB0746D6A9779DF5133822E3F15"); Integer q0("0xF1515160E1BFC7636338C13AD5BA775318E287147A1F96B73CF0FB4D97EFFB9D1FCDCF31AB9D92C4F49C9F8D50F06E697D2313E2EBAC7781312A51F458D66FFC687960CAA86BDF150A36ED53D79FBDB4F501FD25E37C181B45F9555D7F1C6124CAB29A822AD1E7BF5DA93C2FDB12A61919B5E5359793CBB16E71516919040A7F"); Integer g0("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p->dh = new DH(p0, q0, g0); } else { Integer p0("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nteger g0("0x12A567BC9ABCDEF1234567823BCDEF1E"); p->dh = new DH(p0, g0); } BYTE priv1[KEYSIZE]; // private key of 2048 bit BYTE publ1[KEYSIZE + 2]; // public key of 2048 bit + faetures field memset(priv1, 0, sizeof(priv1)); memset(publ1, 0, sizeof(publ1)); AutoSeededRandomPool autorng; p->dh->GenerateKeyPair(autorng, priv1, publ1); SAFE_FREE(p->PubA); p->PubA = (PBYTE)malloc(KEYSIZE); memcpy(p->PubA, publ1, KEYSIZE); SAFE_FREE(p->KeyA); p->KeyA = (PBYTE)malloc(KEYSIZE); memcpy(p->KeyA, priv1, KEYSIZE); if (p->KeyP) { // encrypt PUBLIC use PSK string ciphered; CFB_Mode::Encryption enc(p->KeyP, Tiger::DIGESTSIZE, IV); StreamTransformationFilter cbcEncryptor(enc, new StringSink(ciphered)); cbcEncryptor.Put(publ1, KEYSIZE); cbcEncryptor.MessageEnd(); memcpy(publ1, ciphered.data(), ciphered.length()); #if defined(_DEBUG) || defined(NETLIB_LOG) Sent_NetLog("cpp_init_keya: %d %d", KEYSIZE, ciphered.length()); #endif } memcpy((PVOID)&publ1[KEYSIZE], (PVOID)&send_features, 2); mir_free(ptr->tmp); if (ptr->mode & MODE_BASE64 || features & FEATURES_NEWPG) ptr->tmp = mir_base64_encode(publ1, KEYSIZE + 2); else { char *base16 = base16encode((LPSTR)&publ1, KEYSIZE + 2); ptr->tmp = mir_strdup(base16); free(base16); } return ptr->tmp; } // store KeyB int __cdecl cpp_init_keyb(HANDLE context, LPCSTR key) { pCNTX ptr = get_context_on_id(context); if (!ptr) return 0; pSIMDATA p = (pSIMDATA)cpp_alloc_pdata(ptr); unsigned clen = (unsigned)rtrim(key); ptr->features = 0; LPSTR pub_binary; if ((clen == KEYSIZE * 2) || (clen == (KEYSIZE + 2) * 2)) pub_binary = base16decode(key, &clen); else pub_binary = (LPSTR)mir_base64_decode(key, &clen); if (!pub_binary || (clen != KEYSIZE && clen != KEYSIZE + 2)) { #if defined(_DEBUG) || defined(NETLIB_LOG) Sent_NetLog("cpp_init_keyb: error bad_keyb"); #endif ptr->error = ERROR_BAD_KEYB; mir_free(pub_binary); return 0; } if (clen == KEYSIZE + 2) memcpy((PVOID)&ptr->features, (PVOID)(pub_binary + KEYSIZE), 2); if (p->KeyP) { if (!(ptr->features & FEATURES_PSK)) { // if NO PSK on other side #if defined(_DEBUG) || defined(NETLIB_LOG) Sent_NetLog("cpp_init_keyb: error no_psk"); #endif ptr->error = ERROR_NO_PSK; return 0; } ptr->error = ERROR_BAD_PSK; try { // decrypt PUBLIC use PSK string unciphered; CFB_Mode::Decryption dec(p->KeyP, Tiger::DIGESTSIZE, IV); StreamTransformationFilter cbcDecryptor(dec, new StringSink(unciphered)); cbcDecryptor.Put((PBYTE)pub_binary, KEYSIZE); cbcDecryptor.MessageEnd(); memcpy(pub_binary, unciphered.data(), unciphered.length()); } catch (...) { #if defined(_DEBUG) || defined(NETLIB_LOG) Sent_NetLog("cpp_init_keyb: error bad_psk"); #endif return 0; } } mir_free(p->KeyB); p->KeyB = (PBYTE)pub_binary; if (p->PubA && memcmp(p->PubA, p->KeyB, KEYSIZE) == 0) { #if defined(_DEBUG) || defined(NETLIB_LOG) Sent_NetLog("cpp_init_keyb: error bad_keyb keya==keyb"); #endif mir_free(p->KeyB); ptr->error = ERROR_BAD_KEYB; return 0; } ptr->error = ERROR_NONE; return 1; } // calculate secret key, return true or false int __cdecl cpp_calc_keyx(HANDLE context) { pCNTX ptr = get_context_on_id(context); if (!ptr) return 0; pSIMDATA p = (pSIMDATA)cpp_alloc_pdata(ptr); if (!p->KeyA) { ptr->error = ERROR_NO_KEYA; return 0; } if (!p->KeyB) { ptr->error = ERROR_NO_KEYB; return 0; } ptr->error = ERROR_NONE; BYTE agreeVal[KEYSIZE]; memset(agreeVal, 0, sizeof(agreeVal)); BYTE agr = p->dh->Agree(agreeVal, p->KeyA, p->KeyB, true); // calculate key if (agr) { // not needed anymore SAFE_FREE(p->PubA); SAFE_FREE(p->KeyA); mir_free(p->KeyB); p->KeyB = 0; BYTE buffer[Tiger::DIGESTSIZE]; // buffer for hash memset(buffer, 0, sizeof(buffer)); // do this only if key exchanged is ok // we use a 192bit key (24*8) Tiger().CalculateDigest(buffer, agreeVal, KEYSIZE); // calculate hash // store key SAFE_FREE(p->KeyX); p->KeyX = (PBYTE)malloc(Tiger::DIGESTSIZE); memcpy(p->KeyX, buffer, Tiger::DIGESTSIZE); } return (int)agr; } // create pre-shared key from password int __cdecl cpp_init_keyp(HANDLE context, LPCSTR password) { pCNTX ptr = get_context_on_id(context); if (!ptr) return 0; pSIMDATA p = (pSIMDATA)cpp_alloc_pdata(ptr); BYTE buffer[Tiger::DIGESTSIZE]; // buffer for hash memset(buffer, 0, sizeof(buffer)); // calculate hash Tiger().CalculateDigest(buffer, (PBYTE)password, strlen(password)); // store pre-shared key SAFE_FREE(p->KeyP); p->KeyP = (PBYTE)malloc(Tiger::DIGESTSIZE); memcpy(p->KeyP, buffer, Tiger::DIGESTSIZE); return 1; }