/* $OpenBSD: print-gre.c,v 1.25 2019/04/05 00:59:24 dlg Exp $ */ /* * Copyright (c) 2002 Jason L. Wright (jason@thought.net) * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /* * tcpdump filter for GRE - Generic Routing Encapsulation * RFC1701 (GRE), RFC1702 (GRE IPv4), and RFC2637 (Enhanced GRE) */ #include #include #include #include #include #include #include #include #include #include "interface.h" #include "addrtoname.h" #include "extract.h" #define GRE_CP 0x8000 /* checksum present */ #define GRE_RP 0x4000 /* routing present */ #define GRE_KP 0x2000 /* key present */ #define GRE_SP 0x1000 /* sequence# present */ #define GRE_sP 0x0800 /* source routing */ #define GRE_RECRS 0x0700 /* recursion count */ #define GRE_AP 0x0080 /* acknowledgment# present */ #define GRE_VERS 0x0007 /* protocol version */ /* source route entry types */ #define GRESRE_IP 0x0800 /* IP */ #define GRESRE_ASN 0xfffe /* ASN */ #define NVGRE_VSID_MASK 0xffffff00U #define NVGRE_VSID_SHIFT 8 #define NVGRE_FLOWID_MASK 0x000000ffU #define NVGRE_FLOWID_SHIFT 0 #define GRE_WCCP 0x883e #define ERSPAN_II 0x88be #define ERSPAN_III 0x22eb struct wccp_redirect { uint8_t flags; #define WCCP_D (1 << 7) #define WCCP_A (1 << 6) uint8_t ServiceId; uint8_t AltBucket; uint8_t PriBucket; }; void gre_print_0(const u_char *, u_int); void gre_print_1(const u_char *, u_int); void gre_print_pptp(const u_char *, u_int, uint16_t); void gre_print_eoip(const u_char *, u_int, uint16_t); void gre_print_erspan2(const u_char *, u_int); void gre_print_erspan3(const u_char *, u_int); void gre_sre_print(u_int16_t, u_int8_t, u_int8_t, const u_char *, u_int); void gre_sre_ip_print(u_int8_t, u_int8_t, const u_char *, u_int); void gre_sre_asn_print(u_int8_t, u_int8_t, const u_char *, u_int); void gre_print(const u_char *p, u_int length) { uint16_t vers; int l; l = snapend - p; if (l < sizeof(vers)) { printf("[|gre]"); return; } vers = EXTRACT_16BITS(p) & GRE_VERS; switch (vers) { case 0: gre_print_0(p, length); break; case 1: gre_print_1(p, length); break; default: printf("gre-unknown-version=%u", vers); break; } } void gre_print_0(const u_char *p, u_int length) { uint16_t flags, proto; u_int l; l = snapend - p; flags = EXTRACT_16BITS(p); p += sizeof(flags); l -= sizeof(flags); length -= sizeof(flags); printf("gre"); if (vflag) { printf(" [%s%s%s%s%s]", (flags & GRE_CP) ? "C" : "", (flags & GRE_RP) ? "R" : "", (flags & GRE_KP) ? "K" : "", (flags & GRE_SP) ? "S" : "", (flags & GRE_sP) ? "s" : ""); } if (l < sizeof(proto)) goto trunc; proto = EXTRACT_16BITS(p); p += sizeof(proto); l -= sizeof(proto); length -= sizeof(proto); if (vflag) printf(" %04x", proto); if ((flags & GRE_CP) | (flags & GRE_RP)) { if (l < 2) goto trunc; if ((flags & GRE_CP) && vflag) printf(" sum 0x%x", EXTRACT_16BITS(p)); p += 2; l -= 2; length -= 2; if (l < 2) goto trunc; if (flags & GRE_RP) printf(" off 0x%x", EXTRACT_16BITS(p)); p += 2; l -= 2; length -= 2; } if (flags & GRE_KP) { uint32_t key, vsid; if (l < sizeof(key)) goto trunc; key = EXTRACT_32BITS(p); p += sizeof(key); l -= sizeof(key); length -= sizeof(key); /* maybe NVGRE, or key entropy? */ vsid = (key & NVGRE_VSID_MASK) >> NVGRE_VSID_SHIFT; printf(" key=%u|%u+%02x", key, vsid, (key & NVGRE_FLOWID_MASK) >> NVGRE_FLOWID_SHIFT); } if (flags & GRE_SP) { if (l < 4) goto trunc; printf(" seq %u", EXTRACT_32BITS(p)); p += 4; l -= 4; length -= 4; } if (flags & GRE_RP) { for (;;) { u_int16_t af; u_int8_t sreoff; u_int8_t srelen; if (l < 4) goto trunc; af = EXTRACT_16BITS(p); sreoff = *(p + 2); srelen = *(p + 3); p += 4; l -= 4; length -= 4; if (af == 0 && srelen == 0) break; gre_sre_print(af, sreoff, srelen, p, l); if (l < srelen) goto trunc; p += srelen; l -= srelen; length -= srelen; } } printf(" "); switch (proto) { case 0: printf("keep-alive"); break; case GRE_WCCP: { printf("wccp "); if (l == 0) return; if (*p >> 4 != 4) { struct wccp_redirect *wccp; if (l < sizeof(*wccp)) { printf("[|wccp]"); return; } wccp = (struct wccp_redirect *)p; printf("D:%c A:%c SId:%u Alt:%u Pri:%u", (wccp->flags & WCCP_D) ? '1' : '0', (wccp->flags & WCCP_A) ? '1' : '0', wccp->ServiceId, wccp->AltBucket, wccp->PriBucket); p += sizeof(*wccp); l -= sizeof(*wccp); printf(": "); } /* FALLTHROUGH */ } case ETHERTYPE_IP: ip_print(p, length); break; case ETHERTYPE_IPV6: ip6_print(p, length); break; case ETHERTYPE_MPLS: case ETHERTYPE_MPLS_MCAST: mpls_print(p, length); break; case ETHERTYPE_TRANSETHER: ether_tryprint(p, length, 0); break; case ERSPAN_II: gre_print_erspan2(p, length); break; case 0x2000: cdp_print(p, length, l, 0); break; default: printf("unknown-proto-%04x", proto); } return; trunc: printf("[|gre]"); } void gre_print_1(const u_char *p, u_int length) { uint16_t flags, proto; int l; l = snapend - p; flags = EXTRACT_16BITS(p); p += sizeof(flags); l -= sizeof(flags); length -= sizeof(flags); if (l < sizeof(proto)) goto trunc; proto = EXTRACT_16BITS(p); p += sizeof(proto); l -= sizeof(proto); length -= sizeof(proto); switch (proto) { case ETHERTYPE_PPP: gre_print_pptp(p, length, flags); break; case 0x6400: /* MikroTik RouterBoard Ethernet over IP (EoIP) */ gre_print_eoip(p, length, flags); break; default: printf("unknown-gre1-proto-%04x", proto); break; } return; trunc: printf("[|gre1]"); } void gre_print_pptp(const u_char *p, u_int length, uint16_t flags) { uint16_t len; int l; l = snapend - p; printf("pptp"); if (vflag) { printf(" [%s%s%s%s%s%s]", (flags & GRE_CP) ? "C" : "", (flags & GRE_RP) ? "R" : "", (flags & GRE_KP) ? "K" : "", (flags & GRE_SP) ? "S" : "", (flags & GRE_sP) ? "s" : "", (flags & GRE_AP) ? "A" : ""); } if (flags & GRE_CP) { printf(" cpset!"); return; } if (flags & GRE_RP) { printf(" rpset!"); return; } if ((flags & GRE_KP) == 0) { printf(" kpunset!"); return; } if (flags & GRE_sP) { printf(" spset!"); return; } /* GRE_KP */ if (l < sizeof(len)) goto trunc; len = EXTRACT_16BITS(p); p += sizeof(len); l -= sizeof(len); length -= sizeof(len); if (vflag) printf(" len %u", EXTRACT_16BITS(p)); if (l < 2) goto trunc; printf(" callid %u", EXTRACT_16BITS(p)); p += 2; l -= 2; length -= 2; if (flags & GRE_SP) { if (l < 4) goto trunc; printf(" seq %u", EXTRACT_32BITS(p)); p += 4; l -= 4; length -= 4; } if (flags & GRE_AP) { if (l < 4) goto trunc; printf(" ack %u", EXTRACT_32BITS(p)); p += 4; l -= 4; length -= 4; } if ((flags & GRE_SP) == 0) return; if (length < len) { (void)printf(" truncated-pptp - %d bytes missing!", len - length); len = length; } printf(": "); ppp_hdlc_print(p, len); return; trunc: printf("[|pptp]"); } void gre_print_eoip(const u_char *p, u_int length, uint16_t flags) { uint16_t len, id; int l; l = snapend - p; printf("eoip"); flags &= ~GRE_VERS; if (flags != GRE_KP) { printf(" unknown-eoip-flags-%04x!", flags); return; } if (l < sizeof(len)) goto trunc; len = EXTRACT_16BITS(p); p += sizeof(len); l -= sizeof(len); length -= sizeof(len); if (l < sizeof(id)) goto trunc; id = EXTRACT_LE_16BITS(p); p += sizeof(id); l -= sizeof(id); length -= sizeof(id); if (vflag) printf(" len=%u tunnel-id=%u", len, id); else printf(" %u", id); if (length < len) { (void)printf(" truncated-eoip - %d bytes missing!", len - length); len = length; } printf(": "); if (len == 0) printf("keepalive"); else ether_tryprint(p, len, 0); return; trunc: printf("[|eoip]"); } #define ERSPAN2_VER_SHIFT 28 #define ERSPAN2_VER_MASK (0xfU << ERSPAN2_VER_SHIFT) #define ERSPAN2_VER (0x1U << ERSPAN2_VER_SHIFT) #define ERSPAN2_VLAN_SHIFT 16 #define ERSPAN2_VLAN_MASK (0xfffU << ERSPAN2_VLAN_SHIFT) #define ERSPAN2_COS_SHIFT 13 #define ERSPAN2_COS_MASK (0x7U << ERSPAN2_COS_SHIFT) #define ERSPAN2_EN_SHIFT 11 #define ERSPAN2_EN_MASK (0x3U << ERSPAN2_EN_SHIFT) #define ERSPAN2_EN_NONE (0x0U << ERSPAN2_EN_SHIFT) #define ERSPAN2_EN_ISL (0x1U << ERSPAN2_EN_SHIFT) #define ERSPAN2_EN_DOT1Q (0x2U << ERSPAN2_EN_SHIFT) #define ERSPAN2_EN_VLAN (0x3U << ERSPAN2_EN_SHIFT) #define ERSPAN2_T_SHIFT 10 #define ERSPAN2_T_MASK (0x1U << ERSPAN2_T_SHIFT) #define ERSPAN2_SID_SHIFT 0 #define ERSPAN2_SID_MASK (0x3ffU << ERSPAN2_SID_SHIFT) #define ERSPAN2_INDEX_SHIFT 0 #define ERSPAN2_INDEX_MASK (0xfffffU << ERSPAN2_INDEX_SHIFT) void gre_print_erspan2(const u_char *bp, u_int len) { uint32_t hdr, ver, vlan, cos, en, sid, index; u_int l; printf("erspan"); l = snapend - bp; if (l < sizeof(hdr)) goto trunc; hdr = EXTRACT_32BITS(bp); bp += sizeof(hdr); l -= sizeof(hdr); len -= sizeof(hdr); ver = hdr & ERSPAN2_VER_MASK; if (ver != ERSPAN2_VER) { ver >>= ERSPAN2_VER_SHIFT; printf(" erspan-unknown-version-%x", ver); return; } if (vflag) printf(" II"); sid = (hdr & ERSPAN2_SID_MASK) >> ERSPAN2_SID_SHIFT; printf(" session %u", sid); en = hdr & ERSPAN2_EN_MASK; vlan = (hdr & ERSPAN2_VLAN_MASK) >> ERSPAN2_VLAN_SHIFT; switch (en) { case ERSPAN2_EN_NONE: break; case ERSPAN2_EN_ISL: printf(" isl %u", vlan); break; case ERSPAN2_EN_DOT1Q: printf(" vlan %u", vlan); break; case ERSPAN2_EN_VLAN: printf(" vlan payload"); break; } if (vflag) { cos = (hdr & ERSPAN2_COS_MASK) >> ERSPAN2_COS_SHIFT; printf(" cos %u", cos); if (hdr & ERSPAN2_T_MASK) printf(" truncated"); } if (l < sizeof(hdr)) goto trunc; hdr = EXTRACT_32BITS(bp); bp += sizeof(hdr); l -= sizeof(hdr); len -= sizeof(hdr); if (vflag) { index = (hdr & ERSPAN2_INDEX_MASK) >> ERSPAN2_INDEX_SHIFT; printf(" index %u", index); } printf(": "); ether_tryprint(bp, len, 0); return; trunc: printf(" [|erspan]"); } void gre_sre_print(u_int16_t af, u_int8_t sreoff, u_int8_t srelen, const u_char *bp, u_int len) { switch (af) { case GRESRE_IP: printf(" (rtaf=ip"); gre_sre_ip_print(sreoff, srelen, bp, len); printf(")"); break; case GRESRE_ASN: printf(" (rtaf=asn"); gre_sre_asn_print(sreoff, srelen, bp, len); printf(")"); break; default: printf(" (rtaf=0x%x)", af); } } void gre_sre_ip_print(u_int8_t sreoff, u_int8_t srelen, const u_char *bp, u_int len) { struct in_addr a; const u_char *up = bp; if (sreoff & 3) { printf(" badoffset=%u", sreoff); return; } if (srelen & 3) { printf(" badlength=%u", srelen); return; } if (sreoff >= srelen) { printf(" badoff/len=%u/%u", sreoff, srelen); return; } for (;;) { if (len < 4 || srelen == 0) return; memcpy(&a, bp, sizeof(a)); printf(" %s%s", ((bp - up) == sreoff) ? "*" : "", inet_ntoa(a)); bp += 4; len -= 4; srelen -= 4; } } void gre_sre_asn_print(u_int8_t sreoff, u_int8_t srelen, const u_char *bp, u_int len) { const u_char *up = bp; if (sreoff & 1) { printf(" badoffset=%u", sreoff); return; } if (srelen & 1) { printf(" badlength=%u", srelen); return; } if (sreoff >= srelen) { printf(" badoff/len=%u/%u", sreoff, srelen); return; } for (;;) { if (len < 2 || srelen == 0) return; printf(" %s%x", ((bp - up) == sreoff) ? "*" : "", EXTRACT_16BITS(bp)); bp += 2; len -= 2; srelen -= 2; } } struct vxlan_header { uint16_t flags; #define VXLAN_I 0x0800 uint16_t proto; uint32_t vni; #define VXLAN_VNI_SHIFT 8 #define VXLAN_VNI_MASK (0xffffffU << VXLAN_VNI_SHIFT) #define VXLAN_VNI_RESERVED (~VXLAN_VNI_MASK) }; void vxlan_print(const u_char *p, u_int length) { const struct vxlan_header *vh; uint16_t flags, proto; uint32_t vni; size_t l; l = snapend - p; if (l < sizeof(*vh)) { printf("[|vxlan]"); return; } vh = (const struct vxlan_header *)p; flags = ntohs(vh->flags); if (flags & ~VXLAN_I) { printf("vxlan-invalid-flags %04x", flags); return; } proto = ntohs(vh->proto); if (proto != 0) { printf("vxlan-invalid-proto %04x", proto); return; } vni = ntohl(vh->vni); if (flags & VXLAN_I) { if (vni & VXLAN_VNI_RESERVED) { printf("vxlan-vni-reserved %02x", vni & VXLAN_VNI_RESERVED); return; } printf("vxlan %u: ", vni >> VXLAN_VNI_SHIFT); } else { if (vh->vni != 0) { printf("vxlan-invalid-vni %08x\n", vni); return; } printf("vxlan: "); } p += sizeof(*vh); length -= sizeof(*vh); ether_tryprint(p, length, 0); }