X-Git-Url: https://git.tcpdump.org/libpcap/blobdiff_plain/68634dadde7d9f044e64ff29e85208f32b1cd584..2f23c057fc71caaea4e57a151d23c0d0fc6c2552:/gencode.c diff --git a/gencode.c b/gencode.c index c2b509cc..535f4a64 100644 --- a/gencode.c +++ b/gencode.c @@ -20,8 +20,8 @@ * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. */ #ifndef lint -static const char rcsid[] = - "@(#) $Header: /tcpdump/master/libpcap/gencode.c,v 1.173 2002-08-05 07:59:43 guy Exp $ (LBL)"; +static const char rcsid[] _U_ = + "@(#) $Header: /tcpdump/master/libpcap/gencode.c,v 1.216 2005-01-12 09:02:55 hannes Exp $ (LBL)"; #endif #ifdef HAVE_CONFIG_H @@ -33,7 +33,6 @@ static const char rcsid[] = #else /* WIN32 */ #include #include -#include #endif /* WIN32 */ /* @@ -59,6 +58,10 @@ static const char rcsid[] = #include #include +#ifdef MSDOS +#include "pcap-dos.h" +#endif + #include "pcap-int.h" #include "ethertype.h" @@ -70,6 +73,10 @@ static const char rcsid[] = #include "ppp.h" #include "sll.h" #include "arcnet.h" +#include "pf.h" +#ifndef offsetof +#define offsetof(s, e) ((size_t)&((s *)0)->e) +#endif #ifdef INET6 #ifndef WIN32 #include /* for "struct addrinfo" */ @@ -93,14 +100,12 @@ static const char rcsid[] = static jmp_buf top_ctx; static pcap_t *bpf_pcap; -/* Hack for updating VLAN offsets. */ -static u_int orig_linktype = -1, orig_nl = -1, orig_nl_nosnap = -1; +/* Hack for updating VLAN, MPLS offsets. */ +static u_int orig_linktype = -1U, orig_nl = -1U, orig_nl_nosnap = -1U; /* XXX */ #ifdef PCAP_FDDIPAD -int pcap_fddipad = PCAP_FDDIPAD; -#else -int pcap_fddipad; +static int pcap_fddipad; #endif /* VARARGS */ @@ -119,7 +124,7 @@ bpf_error(const char *fmt, ...) /* NOTREACHED */ } -static void init_linktype(int); +static void init_linktype(pcap_t *); static int alloc_reg(void); static void free_reg(int); @@ -129,8 +134,10 @@ static struct block *root; /* * We divy out chunks of memory rather than call malloc each time so * we don't have to worry about leaking memory. It's probably - * not a big deal if all this memory was wasted but it this ever + * not a big deal if all this memory was wasted but if this ever * goes into a library that would probably not be a good idea. + * + * XXX - this *is* in a library.... */ #define NCHUNKS 16 #define CHUNK0SIZE 1024 @@ -160,6 +167,8 @@ static struct block *gen_ncmp(bpf_u_int32, bpf_u_int32, bpf_u_int32, static struct block *gen_uncond(int); static inline struct block *gen_true(void); static inline struct block *gen_false(void); +static struct block *gen_ether_linktype(int); +static struct block *gen_linux_sll_linktype(int); static struct block *gen_linktype(int); static struct block *gen_snap(bpf_u_int32, bpf_u_int32, u_int); static struct block *gen_llc(int); @@ -171,6 +180,8 @@ static struct block *gen_ahostop(const u_char *, int); static struct block *gen_ehostop(const u_char *, int); static struct block *gen_fhostop(const u_char *, int); static struct block *gen_thostop(const u_char *, int); +static struct block *gen_wlanhostop(const u_char *, int); +static struct block *gen_ipfchostop(const u_char *, int); static struct block *gen_dnhostop(bpf_u_int32, int, u_int); static struct block *gen_host(bpf_u_int32, bpf_u_int32, int, int); #ifdef INET6 @@ -195,6 +206,7 @@ static struct block *gen_protochain(int, int, int); static struct block *gen_proto(int, int, int); static struct slist *xfer_to_x(struct arth *); static struct slist *xfer_to_a(struct arth *); +static struct block *gen_mac_multicast(int); static struct block *gen_len(int, int); static struct block *gen_msg_abbrev(int type); @@ -204,7 +216,8 @@ newchunk(n) u_int n; { struct chunk *cp; - int k, size; + int k; + size_t size; #ifndef __NetBSD__ /* XXX Round up to nearest long. */ @@ -221,6 +234,8 @@ newchunk(n) bpf_error("out of memory"); size = CHUNK0SIZE << k; cp->m = (void *)malloc(size); + if (cp->m == NULL) + bpf_error("out of memory"); memset((char *)cp->m, 0, size); cp->n_left = size; if (n > size) @@ -329,7 +344,7 @@ pcap_compile(pcap_t *p, struct bpf_program *program, } lex_init(buf ? buf : ""); - init_linktype(pcap_datalink(p)); + init_linktype(p); (void)pcap_parse(); if (n_errors) @@ -566,15 +581,15 @@ gen_ncmp(datasize, offset, mask, jtype, jvalue, reverse) { struct slist *s; struct block *b; - + s = new_stmt(BPF_LD|datasize|BPF_ABS); s->s.k = offset; - + if (mask != 0xffffffff) { s->next = new_stmt(BPF_ALU|BPF_AND|BPF_K); s->next->s.k = mask; } - + b = new_block(JMP(jtype)); b->stmts = s; b->s.k = jvalue; @@ -588,6 +603,12 @@ gen_ncmp(datasize, offset, mask, jtype, jvalue, reverse) * layer. These variables give the necessary offsets. */ +/* + * This is the offset of the beginning of the MAC-layer header. + * It's usually 0, except for ATM LANE. + */ +static u_int off_mac; + /* * "off_linktype" is the offset to information in the link-layer header * giving the packet type. @@ -614,6 +635,12 @@ static u_int off_linktype; */ static int is_atm = 0; +/* + * TRUE if "lane" appeared in the filter; it causes us to generate + * code that assumes LANE rather than LLC-encapsulated traffic in SunATM. + */ +static int is_lane = 0; + /* * These are offsets for the ATM pseudo-header. */ @@ -622,9 +649,10 @@ static u_int off_vci; static u_int off_proto; /* - * This is the offset to the message type for Q.2931 messages. + * This is the offset of the first byte after the ATM pseudo_header, + * or -1 if there is no ATM pseudo-header. */ -static u_int off_msg_type; +static u_int off_payload; /* * These are offsets to the beginning of the network-layer header. @@ -654,32 +682,43 @@ static u_int off_nl_nosnap; static int linktype; static void -init_linktype(type) - int type; +init_linktype(p) + pcap_t *p; { - linktype = type; + linktype = pcap_datalink(p); +#ifdef PCAP_FDDIPAD + pcap_fddipad = p->fddipad; +#endif /* * Assume it's not raw ATM with a pseudo-header, for now. */ + off_mac = 0; is_atm = 0; + is_lane = 0; off_vpi = -1; off_vci = -1; off_proto = -1; - off_msg_type = -1; + off_payload = -1; orig_linktype = -1; orig_nl = -1; orig_nl_nosnap = -1; - switch (type) { + switch (linktype) { case DLT_ARCNET: off_linktype = 2; - off_nl = 6; /* XXX in reality, variable! */ + off_nl = 6; /* XXX in reality, variable! */ off_nl_nosnap = 6; /* no 802.2 LLC */ return; + case DLT_ARCNET_LINUX: + off_linktype = 4; + off_nl = 8; /* XXX in reality, variable! */ + off_nl_nosnap = 8; /* no 802.2 LLC */ + return; + case DLT_EN10MB: off_linktype = 12; off_nl = 14; /* Ethernet II */ @@ -711,7 +750,14 @@ init_linktype(type) off_nl_nosnap = 4; /* no 802.2 LLC */ return; + case DLT_ENC: + off_linktype = 0; + off_nl = 12; + off_nl_nosnap = 12; /* no 802.2 LLC */ + return; + case DLT_PPP: + case DLT_PPP_WITHDIRECTION: case DLT_C_HDLC: /* BSD/OS Cisco HDLC */ case DLT_PPP_SERIAL: /* NetBSD sync/async serial PPP */ off_linktype = 2; @@ -796,11 +842,13 @@ init_linktype(type) * * XXX - the header is actually variable-length. We * assume a 24-byte link-layer header, as appears in - * data frames in networks with no bridges. + * data frames in networks with no bridges. If the + * fromds and tods 802.11 header bits are both set, + * it's actually supposed to be 30 bytes. */ off_linktype = 24; off_nl = 32; /* 802.11+802.2+SNAP */ - off_nl_nosnap = 27; /* 802.22+802.2 */ + off_nl_nosnap = 27; /* 802.11+802.2 */ return; case DLT_PRISM_HEADER: @@ -819,6 +867,49 @@ init_linktype(type) off_nl_nosnap = 144+27; /* Prism+802.11+802.2 */ return; + case DLT_IEEE802_11_RADIO_AVS: + /* + * Same as 802.11, but with an additional header before + * the 802.11 header, containing a bunch of additional + * information including radio-level information. + * + * The header is 64 bytes long, at least in its + * current incarnation. + * + * XXX - same variable-length header problem, only + * more so; this header is also variable-length, + * with the length being the 32-bit big-endian + * number at an offset of 4 from the beginning + * of the radio header. + */ + off_linktype = 64+24; + off_nl = 64+32; /* Radio+802.11+802.2+SNAP */ + off_nl_nosnap = 64+27; /* Radio+802.11+802.2 */ + return; + + case DLT_IEEE802_11_RADIO: + /* + * Same as 802.11, but with an additional header before + * the 802.11 header, containing a bunch of additional + * information including radio-level information. + * + * XXX - same variable-length header problem, only + * even *more* so; this header is also variable-length, + * with the length being the 16-bit number at an offset + * of 2 from the beginning of the radio header, and it's + * device-dependent (different devices might supply + * different amounts of information), so we can't even + * assume a fixed length for the current version of the + * header. + * + * Therefore, currently, only raw "link[N:M]" filtering is + * supported. + */ + off_linktype = -1; + off_nl = -1; + off_nl_nosnap = -1; + return; + case DLT_ATM_RFC1483: case DLT_ATM_CLIP: /* Linux ATM defines this */ /* @@ -836,13 +927,14 @@ init_linktype(type) * pseudo-header. */ is_atm = 1; - off_linktype = SUNATM_PKT_BEGIN_POS; off_vpi = SUNATM_VPI_POS; off_vci = SUNATM_VCI_POS; off_proto = PROTO_POS; - off_msg_type = SUNATM_PKT_BEGIN_POS+MSG_TYPE_POS; - off_nl = SUNATM_PKT_BEGIN_POS+8; /* 802.2+SNAP */ - off_nl_nosnap = SUNATM_PKT_BEGIN_POS+3; /* 802.2 */ + off_mac = -1; /* LLC-encapsulated, so no MAC-layer header */ + off_payload = SUNATM_PKT_BEGIN_POS; + off_linktype = off_payload; + off_nl = off_payload+8; /* 802.2+SNAP */ + off_nl_nosnap = off_payload+3; /* 802.2 */ return; case DLT_RAW: @@ -868,6 +960,22 @@ init_linktype(type) off_nl_nosnap = 0; /* no 802.2 LLC */ return; + case DLT_IP_OVER_FC: + /* + * RFC 2625 IP-over-Fibre-Channel doesn't really have a + * link-level type field. We set "off_linktype" to the + * offset of the LLC header. + * + * To check for Ethernet types, we assume that SSAP = SNAP + * is being used and pick out the encapsulated Ethernet type. + * XXX - should we generate code to check for SNAP? RFC + * 2625 says SNAP should be used. + */ + off_linktype = 16; + off_nl = 24; /* IPFC+802.2+SNAP */ + off_nl_nosnap = 19; /* IPFC+802.2 */ + return; + case DLT_FRELAY: /* * XXX - we should set this to handle SNAP-encapsulated @@ -877,6 +985,69 @@ init_linktype(type) off_nl = 0; off_nl_nosnap = 0; /* no 802.2 LLC */ return; + + case DLT_APPLE_IP_OVER_IEEE1394: + off_linktype = 16; + off_nl = 18; + off_nl_nosnap = 0; /* no 802.2 LLC */ + return; + + case DLT_LINUX_IRDA: + /* + * Currently, only raw "link[N:M]" filtering is supported. + */ + off_linktype = -1; + off_nl = -1; + off_nl_nosnap = -1; + return; + + case DLT_DOCSIS: + /* + * Currently, only raw "link[N:M]" filtering is supported. + */ + off_linktype = -1; + off_nl = -1; + off_nl_nosnap = -1; + return; + + case DLT_SYMANTEC_FIREWALL: + off_linktype = 6; + off_nl = 44; /* Ethernet II */ + off_nl_nosnap = 44; /* XXX - what does it do with 802.3 packets? */ + return; + + case DLT_PFLOG: + off_linktype = 0; + /* XXX read from header? */ + off_nl = PFLOG_HDRLEN; + off_nl_nosnap = PFLOG_HDRLEN; + return; + + case DLT_JUNIPER_MLPPP: + off_linktype = 4; + off_nl = 4; + off_nl_nosnap = -1; + break; + + case DLT_JUNIPER_ATM1: + off_linktype = 4; /* in reality variable between 4-8 */ + off_nl = 4; + off_nl_nosnap = 14; + return; + + case DLT_JUNIPER_ATM2: + off_linktype = 8; /* in reality variable between 8-12 */ + off_nl = 8; + off_nl_nosnap = 18; + return; + +#ifdef DLT_PFSYNC + case DLT_PFSYNC: + off_linktype = -1; + off_nl = 4; + off_nl_nosnap = 4; + return; +#endif } bpf_error("unknown data link type %d", linktype); /* NOTREACHED */ @@ -918,361 +1089,431 @@ gen_false() ((((y)&0xff)<<24) | (((y)&0xff00)<<8) | (((y)&0xff0000)>>8) | (((y)>>24)&0xff)) static struct block * -gen_linktype(proto) +gen_ether_linktype(proto) register int proto; { - struct block *b0, *b1, *b2; + struct block *b0, *b1; - switch (linktype) { + switch (proto) { - case DLT_EN10MB: - switch (proto) { + case LLCSAP_ISONS: + /* + * OSI protocols always use 802.2 encapsulation. + * XXX - should we check both the DSAP and the + * SSAP, like this, or should we check just the + * DSAP? + */ + b0 = gen_cmp_gt(off_linktype, BPF_H, ETHERMTU); + gen_not(b0); + b1 = gen_cmp(off_linktype + 2, BPF_H, (bpf_int32) + ((LLCSAP_ISONS << 8) | LLCSAP_ISONS)); + gen_and(b0, b1); + return b1; - case LLCSAP_ISONS: - /* - * OSI protocols always use 802.2 encapsulation. - * XXX - should we check both the DSAP and the - * SSAP, like this, or should we check just the - * DSAP? - */ - b0 = gen_cmp_gt(off_linktype, BPF_H, ETHERMTU); - gen_not(b0); - b1 = gen_cmp(off_linktype + 2, BPF_H, (bpf_int32) - ((LLCSAP_ISONS << 8) | LLCSAP_ISONS)); - gen_and(b0, b1); - return b1; + case LLCSAP_IP: + b0 = gen_cmp_gt(off_linktype, BPF_H, ETHERMTU); + gen_not(b0); + b1 = gen_cmp(off_linktype + 2, BPF_H, (bpf_int32) + ((LLCSAP_IP << 8) | LLCSAP_IP)); + gen_and(b0, b1); + return b1; + + case LLCSAP_NETBEUI: + /* + * NetBEUI always uses 802.2 encapsulation. + * XXX - should we check both the DSAP and the + * SSAP, like this, or should we check just the + * DSAP? + */ + b0 = gen_cmp_gt(off_linktype, BPF_H, ETHERMTU); + gen_not(b0); + b1 = gen_cmp(off_linktype + 2, BPF_H, (bpf_int32) + ((LLCSAP_NETBEUI << 8) | LLCSAP_NETBEUI)); + gen_and(b0, b1); + return b1; + + case LLCSAP_IPX: + /* + * Check for; + * + * Ethernet_II frames, which are Ethernet + * frames with a frame type of ETHERTYPE_IPX; + * + * Ethernet_802.3 frames, which are 802.3 + * frames (i.e., the type/length field is + * a length field, <= ETHERMTU, rather than + * a type field) with the first two bytes + * after the Ethernet/802.3 header being + * 0xFFFF; + * + * Ethernet_802.2 frames, which are 802.3 + * frames with an 802.2 LLC header and + * with the IPX LSAP as the DSAP in the LLC + * header; + * + * Ethernet_SNAP frames, which are 802.3 + * frames with an LLC header and a SNAP + * header and with an OUI of 0x000000 + * (encapsulated Ethernet) and a protocol + * ID of ETHERTYPE_IPX in the SNAP header. + * + * XXX - should we generate the same code both + * for tests for LLCSAP_IPX and for ETHERTYPE_IPX? + */ + + /* + * This generates code to check both for the + * IPX LSAP (Ethernet_802.2) and for Ethernet_802.3. + */ + b0 = gen_cmp(off_linktype + 2, BPF_B, (bpf_int32)LLCSAP_IPX); + b1 = gen_cmp(off_linktype + 2, BPF_H, (bpf_int32)0xFFFF); + gen_or(b0, b1); + + /* + * Now we add code to check for SNAP frames with + * ETHERTYPE_IPX, i.e. Ethernet_SNAP. + */ + b0 = gen_snap(0x000000, ETHERTYPE_IPX, 14); + gen_or(b0, b1); + + /* + * Now we generate code to check for 802.3 + * frames in general. + */ + b0 = gen_cmp_gt(off_linktype, BPF_H, ETHERMTU); + gen_not(b0); + + /* + * Now add the check for 802.3 frames before the + * check for Ethernet_802.2 and Ethernet_802.3, + * as those checks should only be done on 802.3 + * frames, not on Ethernet frames. + */ + gen_and(b0, b1); - case LLCSAP_NETBEUI: + /* + * Now add the check for Ethernet_II frames, and + * do that before checking for the other frame + * types. + */ + b0 = gen_cmp(off_linktype, BPF_H, (bpf_int32)ETHERTYPE_IPX); + gen_or(b0, b1); + return b1; + + case ETHERTYPE_ATALK: + case ETHERTYPE_AARP: + /* + * EtherTalk (AppleTalk protocols on Ethernet link + * layer) may use 802.2 encapsulation. + */ + + /* + * Check for 802.2 encapsulation (EtherTalk phase 2?); + * we check for an Ethernet type field less than + * 1500, which means it's an 802.3 length field. + */ + b0 = gen_cmp_gt(off_linktype, BPF_H, ETHERMTU); + gen_not(b0); + + /* + * 802.2-encapsulated ETHERTYPE_ATALK packets are + * SNAP packets with an organization code of + * 0x080007 (Apple, for Appletalk) and a protocol + * type of ETHERTYPE_ATALK (Appletalk). + * + * 802.2-encapsulated ETHERTYPE_AARP packets are + * SNAP packets with an organization code of + * 0x000000 (encapsulated Ethernet) and a protocol + * type of ETHERTYPE_AARP (Appletalk ARP). + */ + if (proto == ETHERTYPE_ATALK) + b1 = gen_snap(0x080007, ETHERTYPE_ATALK, 14); + else /* proto == ETHERTYPE_AARP */ + b1 = gen_snap(0x000000, ETHERTYPE_AARP, 14); + gen_and(b0, b1); + + /* + * Check for Ethernet encapsulation (Ethertalk + * phase 1?); we just check for the Ethernet + * protocol type. + */ + b0 = gen_cmp(off_linktype, BPF_H, (bpf_int32)proto); + + gen_or(b0, b1); + return b1; + + default: + if (proto <= ETHERMTU) { /* - * NetBEUI always uses 802.2 encapsulation. - * XXX - should we check both the DSAP and the - * SSAP, like this, or should we check just the - * DSAP? + * This is an LLC SAP value, so the frames + * that match would be 802.2 frames. + * Check that the frame is an 802.2 frame + * (i.e., that the length/type field is + * a length field, <= ETHERMTU) and + * then check the DSAP. */ b0 = gen_cmp_gt(off_linktype, BPF_H, ETHERMTU); gen_not(b0); - b1 = gen_cmp(off_linktype + 2, BPF_H, (bpf_int32) - ((LLCSAP_NETBEUI << 8) | LLCSAP_NETBEUI)); + b1 = gen_cmp(off_linktype + 2, BPF_B, (bpf_int32)proto); gen_and(b0, b1); return b1; - - case LLCSAP_IPX: + } else { /* - * Check for; - * - * Ethernet_II frames, which are Ethernet - * frames with a frame type of ETHERTYPE_IPX; - * - * Ethernet_802.3 frames, which are 802.3 - * frames (i.e., the type/length field is - * a length field, <= ETHERMTU, rather than - * a type field) with the first two bytes - * after the Ethernet/802.3 header being - * 0xFFFF; - * - * Ethernet_802.2 frames, which are 802.3 - * frames with an 802.2 LLC header and - * with the IPX LSAP as the DSAP in the LLC - * header; - * - * Ethernet_SNAP frames, which are 802.3 - * frames with an LLC header and a SNAP - * header and with an OUI of 0x000000 - * (encapsulated Ethernet) and a protocol - * ID of ETHERTYPE_IPX in the SNAP header. - * - * XXX - should we generate the same code both - * for tests for LLCSAP_IPX and for ETHERTYPE_IPX? + * This is an Ethernet type, so compare + * the length/type field with it (if + * the frame is an 802.2 frame, the length + * field will be <= ETHERMTU, and, as + * "proto" is > ETHERMTU, this test + * will fail and the frame won't match, + * which is what we want). */ + return gen_cmp(off_linktype, BPF_H, (bpf_int32)proto); + } + } +} - /* - * This generates code to check both for the - * IPX LSAP (Ethernet_802.2) and for Ethernet_802.3. - */ - b0 = gen_cmp(off_linktype + 2, BPF_B, - (bpf_int32)LLCSAP_IPX); - b1 = gen_cmp(off_linktype + 2, BPF_H, - (bpf_int32)0xFFFF); - gen_or(b0, b1); +static struct block * +gen_linux_sll_linktype(proto) + register int proto; +{ + struct block *b0, *b1; - /* - * Now we add code to check for SNAP frames with - * ETHERTYPE_IPX, i.e. Ethernet_SNAP. - */ - b0 = gen_snap(0x000000, ETHERTYPE_IPX, 14); - gen_or(b0, b1); + switch (proto) { - /* - * Now we generate code to check for 802.3 - * frames in general. - */ - b0 = gen_cmp_gt(off_linktype, BPF_H, ETHERMTU); - gen_not(b0); + case LLCSAP_IP: + b0 = gen_cmp(off_linktype, BPF_H, LINUX_SLL_P_802_2); + b1 = gen_cmp(off_linktype + 2, BPF_H, (bpf_int32) + ((LLCSAP_IP << 8) | LLCSAP_IP)); + gen_and(b0, b1); + return b1; - /* - * Now add the check for 802.3 frames before the - * check for Ethernet_802.2 and Ethernet_802.3, - * as those checks should only be done on 802.3 - * frames, not on Ethernet frames. - */ - gen_and(b0, b1); + case LLCSAP_ISONS: + /* + * OSI protocols always use 802.2 encapsulation. + * XXX - should we check both the DSAP and the + * SSAP, like this, or should we check just the + * DSAP? + */ + b0 = gen_cmp(off_linktype, BPF_H, LINUX_SLL_P_802_2); + b1 = gen_cmp(off_linktype + 2, BPF_H, (bpf_int32) + ((LLCSAP_ISONS << 8) | LLCSAP_ISONS)); + gen_and(b0, b1); + return b1; + + case LLCSAP_NETBEUI: + /* + * NetBEUI always uses 802.2 encapsulation. + * XXX - should we check both the DSAP and the + * LSAP, like this, or should we check just the + * DSAP? + */ + b0 = gen_cmp(off_linktype, BPF_H, LINUX_SLL_P_802_2); + b1 = gen_cmp(off_linktype + 2, BPF_H, (bpf_int32) + ((LLCSAP_NETBEUI << 8) | LLCSAP_NETBEUI)); + gen_and(b0, b1); + return b1; + + case LLCSAP_IPX: + /* + * Ethernet_II frames, which are Ethernet + * frames with a frame type of ETHERTYPE_IPX; + * + * Ethernet_802.3 frames, which have a frame + * type of LINUX_SLL_P_802_3; + * + * Ethernet_802.2 frames, which are 802.3 + * frames with an 802.2 LLC header (i.e, have + * a frame type of LINUX_SLL_P_802_2) and + * with the IPX LSAP as the DSAP in the LLC + * header; + * + * Ethernet_SNAP frames, which are 802.3 + * frames with an LLC header and a SNAP + * header and with an OUI of 0x000000 + * (encapsulated Ethernet) and a protocol + * ID of ETHERTYPE_IPX in the SNAP header. + * + * First, do the checks on LINUX_SLL_P_802_2 + * frames; generate the check for either + * Ethernet_802.2 or Ethernet_SNAP frames, and + * then put a check for LINUX_SLL_P_802_2 frames + * before it. + */ + b0 = gen_cmp(off_linktype + 2, BPF_B, + (bpf_int32)LLCSAP_IPX); + b1 = gen_snap(0x000000, ETHERTYPE_IPX, + off_linktype + 2); + gen_or(b0, b1); + b0 = gen_cmp(off_linktype, BPF_H, LINUX_SLL_P_802_2); + gen_and(b0, b1); + + /* + * Now check for 802.3 frames and OR that with + * the previous test. + */ + b0 = gen_cmp(off_linktype, BPF_H, LINUX_SLL_P_802_3); + gen_or(b0, b1); + + /* + * Now add the check for Ethernet_II frames, and + * do that before checking for the other frame + * types. + */ + b0 = gen_cmp(off_linktype, BPF_H, + (bpf_int32)ETHERTYPE_IPX); + gen_or(b0, b1); + return b1; + + case ETHERTYPE_ATALK: + case ETHERTYPE_AARP: + /* + * EtherTalk (AppleTalk protocols on Ethernet link + * layer) may use 802.2 encapsulation. + */ + + /* + * Check for 802.2 encapsulation (EtherTalk phase 2?); + * we check for the 802.2 protocol type in the + * "Ethernet type" field. + */ + b0 = gen_cmp(off_linktype, BPF_H, LINUX_SLL_P_802_2); + + /* + * 802.2-encapsulated ETHERTYPE_ATALK packets are + * SNAP packets with an organization code of + * 0x080007 (Apple, for Appletalk) and a protocol + * type of ETHERTYPE_ATALK (Appletalk). + * + * 802.2-encapsulated ETHERTYPE_AARP packets are + * SNAP packets with an organization code of + * 0x000000 (encapsulated Ethernet) and a protocol + * type of ETHERTYPE_AARP (Appletalk ARP). + */ + if (proto == ETHERTYPE_ATALK) + b1 = gen_snap(0x080007, ETHERTYPE_ATALK, + off_linktype + 2); + else /* proto == ETHERTYPE_AARP */ + b1 = gen_snap(0x000000, ETHERTYPE_AARP, + off_linktype + 2); + gen_and(b0, b1); + + /* + * Check for Ethernet encapsulation (Ethertalk + * phase 1?); we just check for the Ethernet + * protocol type. + */ + b0 = gen_cmp(off_linktype, BPF_H, (bpf_int32)proto); + + gen_or(b0, b1); + return b1; + default: + if (proto <= ETHERMTU) { /* - * Now add the check for Ethernet_II frames, and - * do that before checking for the other frame - * types. + * This is an LLC SAP value, so the frames + * that match would be 802.2 frames. + * Check for the 802.2 protocol type + * in the "Ethernet type" field, and + * then check the DSAP. */ b0 = gen_cmp(off_linktype, BPF_H, - (bpf_int32)ETHERTYPE_IPX); - gen_or(b0, b1); + LINUX_SLL_P_802_2); + b1 = gen_cmp(off_linktype + 2, BPF_B, + (bpf_int32)proto); + gen_and(b0, b1); return b1; - - case ETHERTYPE_ATALK: - case ETHERTYPE_AARP: + } else { /* - * EtherTalk (AppleTalk protocols on Ethernet link - * layer) may use 802.2 encapsulation. + * This is an Ethernet type, so compare + * the length/type field with it (if + * the frame is an 802.2 frame, the length + * field will be <= ETHERMTU, and, as + * "proto" is > ETHERMTU, this test + * will fail and the frame won't match, + * which is what we want). */ + return gen_cmp(off_linktype, BPF_H, + (bpf_int32)proto); + } + } +} - /* - * Check for 802.2 encapsulation (EtherTalk phase 2?); - * we check for an Ethernet type field less than - * 1500, which means it's an 802.3 length field. - */ - b0 = gen_cmp_gt(off_linktype, BPF_H, ETHERMTU); - gen_not(b0); +static struct block * +gen_linktype(proto) + register int proto; +{ + struct block *b0, *b1, *b2; - /* - * 802.2-encapsulated ETHERTYPE_ATALK packets are - * SNAP packets with an organization code of - * 0x080007 (Apple, for Appletalk) and a protocol - * type of ETHERTYPE_ATALK (Appletalk). - * - * 802.2-encapsulated ETHERTYPE_AARP packets are - * SNAP packets with an organization code of - * 0x000000 (encapsulated Ethernet) and a protocol - * type of ETHERTYPE_AARP (Appletalk ARP). - */ - if (proto == ETHERTYPE_ATALK) - b1 = gen_snap(0x080007, ETHERTYPE_ATALK, 14); - else /* proto == ETHERTYPE_AARP */ - b1 = gen_snap(0x000000, ETHERTYPE_AARP, 14); - gen_and(b0, b1); + switch (linktype) { - /* - * Check for Ethernet encapsulation (Ethertalk - * phase 1?); we just check for the Ethernet - * protocol type. - */ - b0 = gen_cmp(off_linktype, BPF_H, (bpf_int32)proto); + case DLT_EN10MB: + return gen_ether_linktype(proto); + /*NOTREACHED*/ + break; - gen_or(b0, b1); - return b1; + case DLT_C_HDLC: + switch (proto) { + + case LLCSAP_ISONS: + proto = (proto << 8 | LLCSAP_ISONS); + /* fall through */ default: - if (proto <= ETHERMTU) { - /* - * This is an LLC SAP value, so the frames - * that match would be 802.2 frames. - * Check that the frame is an 802.2 frame - * (i.e., that the length/type field is - * a length field, <= ETHERMTU) and - * then check the DSAP. - */ - b0 = gen_cmp_gt(off_linktype, BPF_H, ETHERMTU); - gen_not(b0); - b1 = gen_cmp(off_linktype + 2, BPF_B, - (bpf_int32)proto); - gen_and(b0, b1); - return b1; - } else { - /* - * This is an Ethernet type, so compare - * the length/type field with it (if - * the frame is an 802.2 frame, the length - * field will be <= ETHERMTU, and, as - * "proto" is > ETHERMTU, this test - * will fail and the frame won't match, - * which is what we want). - */ - return gen_cmp(off_linktype, BPF_H, - (bpf_int32)proto); - } + return gen_cmp(off_linktype, BPF_H, (bpf_int32)proto); + /*NOTREACHED*/ + break; } break; case DLT_IEEE802_11: case DLT_PRISM_HEADER: + case DLT_IEEE802_11_RADIO: case DLT_FDDI: case DLT_IEEE802: case DLT_ATM_RFC1483: case DLT_ATM_CLIP: + case DLT_IP_OVER_FC: return gen_llc(proto); + /*NOTREACHED*/ break; case DLT_SUNATM: /* - * Check for LLC encapsulation and then check the protocol. - * XXX - also check for LANE and then check for an Ethernet - * type? + * If "is_lane" is set, check for a LANE-encapsulated + * version of this protocol, otherwise check for an + * LLC-encapsulated version of this protocol. + * + * We assume LANE means Ethernet, not Token Ring. */ - b0 = gen_atmfield_code(A_PROTOTYPE, PT_LLC, BPF_JEQ, 0); - b1 = gen_llc(proto); - gen_and(b0, b1); - return b1; - - case DLT_LINUX_SLL: - switch (proto) { - - case LLCSAP_ISONS: + if (is_lane) { /* - * OSI protocols always use 802.2 encapsulation. - * XXX - should we check both the DSAP and the - * LSAP, like this, or should we check just the - * DSAP? + * Check that the packet doesn't begin with an + * LE Control marker. (We've already generated + * a test for LANE.) */ - b0 = gen_cmp(off_linktype, BPF_H, LINUX_SLL_P_802_2); - b1 = gen_cmp(off_linktype + 2, BPF_H, (bpf_int32) - ((LLCSAP_ISONS << 8) | LLCSAP_ISONS)); - gen_and(b0, b1); - return b1; + b0 = gen_cmp(SUNATM_PKT_BEGIN_POS, BPF_H, 0xFF00); + gen_not(b0); - case LLCSAP_NETBEUI: /* - * NetBEUI always uses 802.2 encapsulation. - * XXX - should we check both the DSAP and the - * LSAP, like this, or should we check just the - * DSAP? + * Now generate an Ethernet test. */ - b0 = gen_cmp(off_linktype, BPF_H, LINUX_SLL_P_802_2); - b1 = gen_cmp(off_linktype + 2, BPF_H, (bpf_int32) - ((LLCSAP_NETBEUI << 8) | LLCSAP_NETBEUI)); + b1 = gen_ether_linktype(proto); gen_and(b0, b1); return b1; - - case LLCSAP_IPX: - /* - * Ethernet_II frames, which are Ethernet - * frames with a frame type of ETHERTYPE_IPX; - * - * Ethernet_802.3 frames, which have a frame - * type of LINUX_SLL_P_802_3; - * - * Ethernet_802.2 frames, which are 802.3 - * frames with an 802.2 LLC header (i.e, have - * a frame type of LINUX_SLL_P_802_2) and - * with the IPX LSAP as the DSAP in the LLC - * header; - * - * Ethernet_SNAP frames, which are 802.3 - * frames with an LLC header and a SNAP - * header and with an OUI of 0x000000 - * (encapsulated Ethernet) and a protocol - * ID of ETHERTYPE_IPX in the SNAP header. - * - * First, do the checks on LINUX_SLL_P_802_2 - * frames; generate the check for either - * Ethernet_802.2 or Ethernet_SNAP frames, and - * then put a check for LINUX_SLL_P_802_2 frames - * before it. - */ - b0 = gen_cmp(off_linktype + 2, BPF_B, - (bpf_int32)LLCSAP_IPX); - b1 = gen_snap(0x000000, ETHERTYPE_IPX, - off_linktype + 2); - gen_or(b0, b1); - b0 = gen_cmp(off_linktype, BPF_H, LINUX_SLL_P_802_2); - gen_and(b0, b1); - - /* - * Now check for 802.3 frames and OR that with - * the previous test. - */ - b0 = gen_cmp(off_linktype, BPF_H, LINUX_SLL_P_802_3); - gen_or(b0, b1); - - /* - * Now add the check for Ethernet_II frames, and - * do that before checking for the other frame - * types. - */ - b0 = gen_cmp(off_linktype, BPF_H, - (bpf_int32)ETHERTYPE_IPX); - gen_or(b0, b1); - return b1; - - case ETHERTYPE_ATALK: - case ETHERTYPE_AARP: - /* - * EtherTalk (AppleTalk protocols on Ethernet link - * layer) may use 802.2 encapsulation. - */ - - /* - * Check for 802.2 encapsulation (EtherTalk phase 2?); - * we check for the 802.2 protocol type in the - * "Ethernet type" field. - */ - b0 = gen_cmp(off_linktype, BPF_H, LINUX_SLL_P_802_2); - + } else { /* - * 802.2-encapsulated ETHERTYPE_ATALK packets are - * SNAP packets with an organization code of - * 0x080007 (Apple, for Appletalk) and a protocol - * type of ETHERTYPE_ATALK (Appletalk). - * - * 802.2-encapsulated ETHERTYPE_AARP packets are - * SNAP packets with an organization code of - * 0x000000 (encapsulated Ethernet) and a protocol - * type of ETHERTYPE_AARP (Appletalk ARP). + * Check for LLC encapsulation and then check the + * protocol. */ - if (proto == ETHERTYPE_ATALK) - b1 = gen_snap(0x080007, ETHERTYPE_ATALK, - off_linktype + 2); - else /* proto == ETHERTYPE_AARP */ - b1 = gen_snap(0x000000, ETHERTYPE_AARP, - off_linktype + 2); + b0 = gen_atmfield_code(A_PROTOTYPE, PT_LLC, BPF_JEQ, 0); + b1 = gen_llc(proto); gen_and(b0, b1); - - /* - * Check for Ethernet encapsulation (Ethertalk - * phase 1?); we just check for the Ethernet - * protocol type. - */ - b0 = gen_cmp(off_linktype, BPF_H, (bpf_int32)proto); - - gen_or(b0, b1); return b1; - - default: - if (proto <= ETHERMTU) { - /* - * This is an LLC SAP value, so the frames - * that match would be 802.2 frames. - * Check for the 802.2 protocol type - * in the "Ethernet type" field, and - * then check the DSAP. - */ - b0 = gen_cmp(off_linktype, BPF_H, - LINUX_SLL_P_802_2); - b1 = gen_cmp(off_linktype + 2, BPF_B, - (bpf_int32)proto); - gen_and(b0, b1); - return b1; - } else { - /* - * This is an Ethernet type, so compare - * the length/type field with it (if - * the frame is an 802.2 frame, the length - * field will be <= ETHERMTU, and, as - * "proto" is > ETHERMTU, this test - * will fail and the frame won't match, - * which is what we want). - */ - return gen_cmp(off_linktype, BPF_H, - (bpf_int32)proto); - } } + + case DLT_LINUX_SLL: + return gen_linux_sll_linktype(proto); + /*NOTREACHED*/ break; case DLT_SLIP: @@ -1296,9 +1537,11 @@ gen_linktype(proto) default: return gen_false(); /* always false */ } + /*NOTREACHED*/ break; case DLT_PPP: + case DLT_PPP_WITHDIRECTION: case DLT_PPP_SERIAL: case DLT_PPP_ETHER: /* @@ -1308,7 +1551,7 @@ gen_linktype(proto) switch (proto) { case ETHERTYPE_IP: - proto = PPP_IP; /* XXX was 0x21 */ + proto = PPP_IP; break; #ifdef INET6 @@ -1403,9 +1646,13 @@ gen_linktype(proto) case DLT_NULL: case DLT_LOOP: + case DLT_ENC: /* * For DLT_NULL, the link-layer header is a 32-bit - * word containing an AF_ value in *host* byte order. + * word containing an AF_ value in *host* byte order, + * and for DLT_ENC, the link-layer header begins + * with a 32-bit work containing an AF_ value in + * host byte order. * * In addition, if we're reading a saved capture file, * the host byte order in the capture may not be the @@ -1443,7 +1690,7 @@ gen_linktype(proto) return gen_false(); } - if (linktype == DLT_NULL) { + if (linktype == DLT_NULL || linktype == DLT_ENC) { /* * The AF_ value is in host byte order, but * the BPF interpreter will convert it to @@ -1463,38 +1710,66 @@ gen_linktype(proto) } return (gen_cmp(0, BPF_W, (bpf_int32)proto)); + case DLT_PFLOG: + /* + * af field is host byte order in contrast to the rest of + * the packet. + */ + if (proto == ETHERTYPE_IP) + return (gen_cmp(offsetof(struct pfloghdr, af), BPF_B, + (bpf_int32)AF_INET)); +#ifdef INET6 + else if (proto == ETHERTYPE_IPV6) + return (gen_cmp(offsetof(struct pfloghdr, af), BPF_B, + (bpf_int32)AF_INET6)); +#endif /* INET6 */ + else + return gen_false(); + /*NOTREACHED*/ + break; + case DLT_ARCNET: + case DLT_ARCNET_LINUX: /* * XXX should we check for first fragment if the protocol * uses PHDS? */ - switch(proto) { + switch (proto) { + default: return gen_false(); + #ifdef INET6 case ETHERTYPE_IPV6: - return(gen_cmp(2, BPF_B, - (bpf_int32)htonl(ARCTYPE_INET6))); + return (gen_cmp(off_linktype, BPF_B, + (bpf_int32)ARCTYPE_INET6)); #endif /* INET6 */ + case ETHERTYPE_IP: - b0 = gen_cmp(2, BPF_B, (bpf_int32)htonl(ARCTYPE_IP)); - b1 = gen_cmp(2, BPF_B, - (bpf_int32)htonl(ARCTYPE_IP_OLD)); + b0 = gen_cmp(off_linktype, BPF_B, + (bpf_int32)ARCTYPE_IP); + b1 = gen_cmp(off_linktype, BPF_B, + (bpf_int32)ARCTYPE_IP_OLD); gen_or(b0, b1); - return(b1); + return (b1); + case ETHERTYPE_ARP: - b0 = gen_cmp(2, BPF_B, (bpf_int32)htonl(ARCTYPE_ARP)); - b1 = gen_cmp(2, BPF_B, - (bpf_int32)htonl(ARCTYPE_ARP_OLD)); + b0 = gen_cmp(off_linktype, BPF_B, + (bpf_int32)ARCTYPE_ARP); + b1 = gen_cmp(off_linktype, BPF_B, + (bpf_int32)ARCTYPE_ARP_OLD); gen_or(b0, b1); - return(b1); + return (b1); + case ETHERTYPE_REVARP: - return(gen_cmp(2, BPF_B, - (bpf_int32)htonl(ARCTYPE_REVARP))); + return (gen_cmp(off_linktype, BPF_B, + (bpf_int32)ARCTYPE_REVARP)); + case ETHERTYPE_ATALK: - return(gen_cmp(2, BPF_B, - (bpf_int32)htonl(ARCTYPE_ATALK))); + return (gen_cmp(off_linktype, BPF_B, + (bpf_int32)ARCTYPE_ATALK)); } + /*NOTREACHED*/ break; case DLT_LTALK: @@ -1504,6 +1779,7 @@ gen_linktype(proto) default: return gen_false(); } + /*NOTREACHED*/ break; case DLT_FRELAY: @@ -1549,7 +1825,26 @@ gen_linktype(proto) default: return gen_false(); } + /*NOTREACHED*/ break; + + case DLT_JUNIPER_MLPPP: + case DLT_JUNIPER_ATM1: + case DLT_JUNIPER_ATM2: + /* just lets verify the magic number for now - + * we may have up to 6 different encapsulations on the wire + * and need a lot of heuristics to figure out that the payload + * might be; + * + * FIXME encapsulation specific BPF_ filters + */ + return gen_mcmp(0, BPF_W, 0x4d474300, 0xffffff00); /* compare the magic number */ + + case DLT_LINUX_IRDA: + bpf_error("IrDA link-layer type filtering not implemented"); + + case DLT_DOCSIS: + bpf_error("DOCSIS link-layer type filtering not implemented"); } /* @@ -1562,7 +1857,7 @@ gen_linktype(proto) * * Therefore, if "off_linktype" is -1, there's an error. */ - if (off_linktype == -1) + if (off_linktype == (u_int)-1) abort(); /* @@ -1594,7 +1889,7 @@ gen_snap(orgcode, ptype, offset) snapblock[0] = LLCSAP_SNAP; /* DSAP = SNAP */ snapblock[1] = LLCSAP_SNAP; /* SSAP = SNAP */ - snapblock[2] = 0x03; /* control = UI */ + snapblock[2] = 0x03; /* control = UI */ snapblock[3] = (orgcode >> 16); /* upper 8 bits of organization code */ snapblock[4] = (orgcode >> 8); /* middle 8 bits of organization code */ snapblock[5] = (orgcode >> 0); /* lower 8 bits of organization code */ @@ -1615,6 +1910,10 @@ gen_llc(proto) */ switch (proto) { + case LLCSAP_IP: + return gen_cmp(off_linktype, BPF_H, (long) + ((LLCSAP_IP << 8) | LLCSAP_IP)); + case LLCSAP_ISONS: return gen_cmp(off_linktype, BPF_H, (long) ((LLCSAP_ISONS << 8) | LLCSAP_ISONS)); @@ -1784,10 +2083,10 @@ gen_ehostop(eaddr, dir) switch (dir) { case Q_SRC: - return gen_bcmp(6, 6, eaddr); + return gen_bcmp(off_mac + 6, 6, eaddr); case Q_DST: - return gen_bcmp(0, 6, eaddr); + return gen_bcmp(off_mac + 0, 6, eaddr); case Q_AND: b0 = gen_ehostop(eaddr, Q_SRC); @@ -1882,6 +2181,348 @@ gen_thostop(eaddr, dir) /* NOTREACHED */ } +/* + * Like gen_ehostop, but for DLT_IEEE802_11 (802.11 wireless LAN) + */ +static struct block * +gen_wlanhostop(eaddr, dir) + register const u_char *eaddr; + register int dir; +{ + register struct block *b0, *b1, *b2; + register struct slist *s; + + switch (dir) { + case Q_SRC: + /* + * Oh, yuk. + * + * For control frames, there is no SA. + * + * For management frames, SA is at an + * offset of 10 from the beginning of + * the packet. + * + * For data frames, SA is at an offset + * of 10 from the beginning of the packet + * if From DS is clear, at an offset of + * 16 from the beginning of the packet + * if From DS is set and To DS is clear, + * and an offset of 24 from the beginning + * of the packet if From DS is set and To DS + * is set. + */ + + /* + * Generate the tests to be done for data frames + * with From DS set. + * + * First, check for To DS set, i.e. check "link[1] & 0x01". + */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = 1; + b1 = new_block(JMP(BPF_JSET)); + b1->s.k = 0x01; /* To DS */ + b1->stmts = s; + + /* + * If To DS is set, the SA is at 24. + */ + b0 = gen_bcmp(24, 6, eaddr); + gen_and(b1, b0); + + /* + * Now, check for To DS not set, i.e. check + * "!(link[1] & 0x01)". + */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = 1; + b2 = new_block(JMP(BPF_JSET)); + b2->s.k = 0x01; /* To DS */ + b2->stmts = s; + gen_not(b2); + + /* + * If To DS is not set, the SA is at 16. + */ + b1 = gen_bcmp(16, 6, eaddr); + gen_and(b2, b1); + + /* + * Now OR together the last two checks. That gives + * the complete set of checks for data frames with + * From DS set. + */ + gen_or(b1, b0); + + /* + * Now check for From DS being set, and AND that with + * the ORed-together checks. + */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = 1; + b1 = new_block(JMP(BPF_JSET)); + b1->s.k = 0x02; /* From DS */ + b1->stmts = s; + gen_and(b1, b0); + + /* + * Now check for data frames with From DS not set. + */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = 1; + b2 = new_block(JMP(BPF_JSET)); + b2->s.k = 0x02; /* From DS */ + b2->stmts = s; + gen_not(b2); + + /* + * If From DS isn't set, the SA is at 10. + */ + b1 = gen_bcmp(10, 6, eaddr); + gen_and(b2, b1); + + /* + * Now OR together the checks for data frames with + * From DS not set and for data frames with From DS + * set; that gives the checks done for data frames. + */ + gen_or(b1, b0); + + /* + * Now check for a data frame. + * I.e, check "link[0] & 0x08". + */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = 0; + b1 = new_block(JMP(BPF_JSET)); + b1->s.k = 0x08; + b1->stmts = s; + + /* + * AND that with the checks done for data frames. + */ + gen_and(b1, b0); + + /* + * If the high-order bit of the type value is 0, this + * is a management frame. + * I.e, check "!(link[0] & 0x08)". + */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = 0; + b2 = new_block(JMP(BPF_JSET)); + b2->s.k = 0x08; + b2->stmts = s; + gen_not(b2); + + /* + * For management frames, the SA is at 10. + */ + b1 = gen_bcmp(10, 6, eaddr); + gen_and(b2, b1); + + /* + * OR that with the checks done for data frames. + * That gives the checks done for management and + * data frames. + */ + gen_or(b1, b0); + + /* + * If the low-order bit of the type value is 1, + * this is either a control frame or a frame + * with a reserved type, and thus not a + * frame with an SA. + * + * I.e., check "!(link[0] & 0x04)". + */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = 0; + b1 = new_block(JMP(BPF_JSET)); + b1->s.k = 0x04; + b1->stmts = s; + gen_not(b1); + + /* + * AND that with the checks for data and management + * frames. + */ + gen_and(b1, b0); + return b0; + + case Q_DST: + /* + * Oh, yuk. + * + * For control frames, there is no DA. + * + * For management frames, DA is at an + * offset of 4 from the beginning of + * the packet. + * + * For data frames, DA is at an offset + * of 4 from the beginning of the packet + * if To DS is clear and at an offset of + * 16 from the beginning of the packet + * if To DS is set. + */ + + /* + * Generate the tests to be done for data frames. + * + * First, check for To DS set, i.e. "link[1] & 0x01". + */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = 1; + b1 = new_block(JMP(BPF_JSET)); + b1->s.k = 0x01; /* To DS */ + b1->stmts = s; + + /* + * If To DS is set, the DA is at 16. + */ + b0 = gen_bcmp(16, 6, eaddr); + gen_and(b1, b0); + + /* + * Now, check for To DS not set, i.e. check + * "!(link[1] & 0x01)". + */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = 1; + b2 = new_block(JMP(BPF_JSET)); + b2->s.k = 0x01; /* To DS */ + b2->stmts = s; + gen_not(b2); + + /* + * If To DS is not set, the DA is at 4. + */ + b1 = gen_bcmp(4, 6, eaddr); + gen_and(b2, b1); + + /* + * Now OR together the last two checks. That gives + * the complete set of checks for data frames. + */ + gen_or(b1, b0); + + /* + * Now check for a data frame. + * I.e, check "link[0] & 0x08". + */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = 0; + b1 = new_block(JMP(BPF_JSET)); + b1->s.k = 0x08; + b1->stmts = s; + + /* + * AND that with the checks done for data frames. + */ + gen_and(b1, b0); + + /* + * If the high-order bit of the type value is 0, this + * is a management frame. + * I.e, check "!(link[0] & 0x08)". + */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = 0; + b2 = new_block(JMP(BPF_JSET)); + b2->s.k = 0x08; + b2->stmts = s; + gen_not(b2); + + /* + * For management frames, the DA is at 4. + */ + b1 = gen_bcmp(4, 6, eaddr); + gen_and(b2, b1); + + /* + * OR that with the checks done for data frames. + * That gives the checks done for management and + * data frames. + */ + gen_or(b1, b0); + + /* + * If the low-order bit of the type value is 1, + * this is either a control frame or a frame + * with a reserved type, and thus not a + * frame with an SA. + * + * I.e., check "!(link[0] & 0x04)". + */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = 0; + b1 = new_block(JMP(BPF_JSET)); + b1->s.k = 0x04; + b1->stmts = s; + gen_not(b1); + + /* + * AND that with the checks for data and management + * frames. + */ + gen_and(b1, b0); + return b0; + + case Q_AND: + b0 = gen_wlanhostop(eaddr, Q_SRC); + b1 = gen_wlanhostop(eaddr, Q_DST); + gen_and(b0, b1); + return b1; + + case Q_DEFAULT: + case Q_OR: + b0 = gen_wlanhostop(eaddr, Q_SRC); + b1 = gen_wlanhostop(eaddr, Q_DST); + gen_or(b0, b1); + return b1; + } + abort(); + /* NOTREACHED */ +} + +/* + * Like gen_ehostop, but for RFC 2625 IP-over-Fibre-Channel. + * (We assume that the addresses are IEEE 48-bit MAC addresses, + * as the RFC states.) + */ +static struct block * +gen_ipfchostop(eaddr, dir) + register const u_char *eaddr; + register int dir; +{ + register struct block *b0, *b1; + + switch (dir) { + case Q_SRC: + return gen_bcmp(10, 6, eaddr); + + case Q_DST: + return gen_bcmp(2, 6, eaddr); + + case Q_AND: + b0 = gen_ipfchostop(eaddr, Q_SRC); + b1 = gen_ipfchostop(eaddr, Q_DST); + gen_and(b0, b1); + return b1; + + case Q_DEFAULT: + case Q_OR: + b0 = gen_ipfchostop(eaddr, Q_SRC); + b1 = gen_ipfchostop(eaddr, Q_DST); + gen_or(b0, b1); + return b1; + } + abort(); + /* NOTREACHED */ +} + /* * This is quite tricky because there may be pad bytes in front of the * DECNET header, and then there are two possible data packet formats that @@ -1938,7 +2579,7 @@ gen_dnhostop(addr, dir, base_off) return b1; case Q_ISO: - bpf_error("ISO host filtering not implemented"); + bpf_error("ISO host filtering not implemented"); default: abort(); @@ -1986,7 +2627,7 @@ gen_host(addr, mask, proto, dir) case Q_DEFAULT: b0 = gen_host(addr, mask, Q_IP, dir); - if (off_linktype != -1) { + if (off_linktype != (u_int)-1) { b1 = gen_host(addr, mask, Q_ARP, dir); gen_or(b0, b1); b0 = gen_host(addr, mask, Q_RARP, dir); @@ -2224,9 +2865,27 @@ gen_gateway(eaddr, alist, proto, dir) b0 = gen_fhostop(eaddr, Q_OR); else if (linktype == DLT_IEEE802) b0 = gen_thostop(eaddr, Q_OR); + else if (linktype == DLT_IEEE802_11) + b0 = gen_wlanhostop(eaddr, Q_OR); + else if (linktype == DLT_SUNATM && is_lane) { + /* + * Check that the packet doesn't begin with an + * LE Control marker. (We've already generated + * a test for LANE.) + */ + b1 = gen_cmp(SUNATM_PKT_BEGIN_POS, BPF_H, 0xFF00); + gen_not(b1); + + /* + * Now check the MAC address. + */ + b0 = gen_ehostop(eaddr, Q_OR); + gen_and(b1, b0); + } else if (linktype == DLT_IP_OVER_FC) + b0 = gen_ipfchostop(eaddr, Q_OR); else bpf_error( - "'gateway' supported only on ethernet, FDDI or token ring"); + "'gateway' supported only on ethernet/FDDI/token ring/802.11/Fibre Channel"); b1 = gen_host(**alist++, 0xffffffff, proto, Q_OR); while (*alist) { @@ -2247,9 +2906,7 @@ struct block * gen_proto_abbrev(proto) int proto; { -#ifdef INET6 struct block *b0; -#endif struct block *b1; switch (proto) { @@ -2396,31 +3053,91 @@ gen_proto_abbrev(proto) break; case Q_ISO: - b1 = gen_linktype(LLCSAP_ISONS); + b1 = gen_linktype(LLCSAP_ISONS); break; case Q_ESIS: - b1 = gen_proto(ISO9542_ESIS, Q_ISO, Q_DEFAULT); + b1 = gen_proto(ISO9542_ESIS, Q_ISO, Q_DEFAULT); break; case Q_ISIS: - b1 = gen_proto(ISO10589_ISIS, Q_ISO, Q_DEFAULT); + b1 = gen_proto(ISO10589_ISIS, Q_ISO, Q_DEFAULT); + break; + + case Q_ISIS_L1: /* all IS-IS Level1 PDU-Types */ + b0 = gen_proto(ISIS_L1_LAN_IIH, Q_ISIS, Q_DEFAULT); + b1 = gen_proto(ISIS_PTP_IIH, Q_ISIS, Q_DEFAULT); /* FIXME extract the circuit-type bits */ + gen_or(b0, b1); + b0 = gen_proto(ISIS_L1_LSP, Q_ISIS, Q_DEFAULT); + gen_or(b0, b1); + b0 = gen_proto(ISIS_L1_CSNP, Q_ISIS, Q_DEFAULT); + gen_or(b0, b1); + b0 = gen_proto(ISIS_L1_PSNP, Q_ISIS, Q_DEFAULT); + gen_or(b0, b1); + break; + + case Q_ISIS_L2: /* all IS-IS Level2 PDU-Types */ + b0 = gen_proto(ISIS_L2_LAN_IIH, Q_ISIS, Q_DEFAULT); + b1 = gen_proto(ISIS_PTP_IIH, Q_ISIS, Q_DEFAULT); /* FIXME extract the circuit-type bits */ + gen_or(b0, b1); + b0 = gen_proto(ISIS_L2_LSP, Q_ISIS, Q_DEFAULT); + gen_or(b0, b1); + b0 = gen_proto(ISIS_L2_CSNP, Q_ISIS, Q_DEFAULT); + gen_or(b0, b1); + b0 = gen_proto(ISIS_L2_PSNP, Q_ISIS, Q_DEFAULT); + gen_or(b0, b1); + break; + + case Q_ISIS_IIH: /* all IS-IS Hello PDU-Types */ + b0 = gen_proto(ISIS_L1_LAN_IIH, Q_ISIS, Q_DEFAULT); + b1 = gen_proto(ISIS_L2_LAN_IIH, Q_ISIS, Q_DEFAULT); + gen_or(b0, b1); + b0 = gen_proto(ISIS_PTP_IIH, Q_ISIS, Q_DEFAULT); + gen_or(b0, b1); + break; + + case Q_ISIS_LSP: + b0 = gen_proto(ISIS_L1_LSP, Q_ISIS, Q_DEFAULT); + b1 = gen_proto(ISIS_L2_LSP, Q_ISIS, Q_DEFAULT); + gen_or(b0, b1); + break; + + case Q_ISIS_SNP: + b0 = gen_proto(ISIS_L1_CSNP, Q_ISIS, Q_DEFAULT); + b1 = gen_proto(ISIS_L2_CSNP, Q_ISIS, Q_DEFAULT); + gen_or(b0, b1); + b0 = gen_proto(ISIS_L1_PSNP, Q_ISIS, Q_DEFAULT); + gen_or(b0, b1); + b0 = gen_proto(ISIS_L2_PSNP, Q_ISIS, Q_DEFAULT); + gen_or(b0, b1); + break; + + case Q_ISIS_CSNP: + b0 = gen_proto(ISIS_L1_CSNP, Q_ISIS, Q_DEFAULT); + b1 = gen_proto(ISIS_L2_CSNP, Q_ISIS, Q_DEFAULT); + gen_or(b0, b1); + break; + + case Q_ISIS_PSNP: + b0 = gen_proto(ISIS_L1_PSNP, Q_ISIS, Q_DEFAULT); + b1 = gen_proto(ISIS_L2_PSNP, Q_ISIS, Q_DEFAULT); + gen_or(b0, b1); break; case Q_CLNP: - b1 = gen_proto(ISO8473_CLNP, Q_ISO, Q_DEFAULT); + b1 = gen_proto(ISO8473_CLNP, Q_ISO, Q_DEFAULT); break; case Q_STP: - b1 = gen_linktype(LLCSAP_8021D); + b1 = gen_linktype(LLCSAP_8021D); break; case Q_IPX: - b1 = gen_linktype(LLCSAP_IPX); + b1 = gen_linktype(LLCSAP_IPX); break; case Q_NETBEUI: - b1 = gen_linktype(LLCSAP_NETBEUI); + b1 = gen_linktype(LLCSAP_NETBEUI); break; default: @@ -2526,7 +3243,23 @@ gen_port(port, ip_proto, dir) { struct block *b0, *b1, *tmp; - /* ether proto ip */ + /* + * ether proto ip + * + * For FDDI, RFC 1188 says that SNAP encapsulation is used, + * not LLC encapsulation with LLCSAP_IP. + * + * For IEEE 802 networks - which includes 802.5 token ring + * (which is what DLT_IEEE802 means) and 802.11 - RFC 1042 + * says that SNAP encapsulation is used, not LLC encapsulation + * with LLCSAP_IP. + * + * For LLC-encapsulated ATM/"Classical IP", RFC 1483 and + * RFC 2225 say that SNAP encapsulation is used, not LLC + * encapsulation with LLCSAP_IP. + * + * So we always check for ETHERTYPE_IP. + */ b0 = gen_linktype(ETHERTYPE_IP); switch (ip_proto) { @@ -2991,6 +3724,21 @@ gen_proto(v, proto, dir) /*FALLTHROUGH*/ #endif case Q_IP: + /* + * For FDDI, RFC 1188 says that SNAP encapsulation is used, + * not LLC encapsulation with LLCSAP_IP. + * + * For IEEE 802 networks - which includes 802.5 token ring + * (which is what DLT_IEEE802 means) and 802.11 - RFC 1042 + * says that SNAP encapsulation is used, not LLC encapsulation + * with LLCSAP_IP. + * + * For LLC-encapsulated ATM/"Classical IP", RFC 1483 and + * RFC 2225 say that SNAP encapsulation is used, not LLC + * encapsulation with LLCSAP_IP. + * + * So we always check for ETHERTYPE_IP. + */ b0 = gen_linktype(ETHERTYPE_IP); #ifndef CHASE_CHAIN b1 = gen_cmp(off_nl + 9, BPF_B, (bpf_int32)v); @@ -3023,8 +3771,20 @@ gen_proto(v, proto, dir) * XXX - what about SNAP-encapsulated frames? */ return gen_cmp(2, BPF_H, (0x03<<8) | v); + /*NOTREACHED*/ break; + case DLT_C_HDLC: + /* + * Cisco uses an Ethertype lookalike - for OSI, + * it's 0xfefe. + */ + b0 = gen_linktype(LLCSAP_ISONS<<8 | LLCSAP_ISONS); + /* OSI in C-HDLC is stuffed with a fudge byte */ + b1 = gen_cmp(off_nl_nosnap+1, BPF_B, (long)v); + gen_and(b0, b1); + return b1; + default: b0 = gen_linktype(LLCSAP_ISONS); b1 = gen_cmp(off_nl_nosnap, BPF_B, (long)v); @@ -3032,6 +3792,16 @@ gen_proto(v, proto, dir) return b1; } + case Q_ISIS: + b0 = gen_proto(ISO10589_ISIS, Q_ISO, Q_DEFAULT); + /* + * 4 is the offset of the PDU type relative to the IS-IS + * header. + */ + b1 = gen_cmp(off_nl_nosnap+4, BPF_B, (long)v); + gen_and(b0, b1); + return b1; + case Q_ARP: bpf_error("arp does not encapsulate another protocol"); /* NOTREACHED */ @@ -3195,20 +3965,57 @@ gen_scode(name, q) free(eaddr); return b; - case DLT_IEEE802: + case DLT_IEEE802: + eaddr = pcap_ether_hostton(name); + if (eaddr == NULL) + bpf_error( + "unknown token ring host '%s'", name); + b = gen_thostop(eaddr, dir); + free(eaddr); + return b; + + case DLT_IEEE802_11: + eaddr = pcap_ether_hostton(name); + if (eaddr == NULL) + bpf_error( + "unknown 802.11 host '%s'", name); + b = gen_wlanhostop(eaddr, dir); + free(eaddr); + return b; + + case DLT_IP_OVER_FC: + eaddr = pcap_ether_hostton(name); + if (eaddr == NULL) + bpf_error( + "unknown Fibre Channel host '%s'", name); + b = gen_ipfchostop(eaddr, dir); + free(eaddr); + return b; + + case DLT_SUNATM: + if (!is_lane) + break; + + /* + * Check that the packet doesn't begin + * with an LE Control marker. (We've + * already generated a test for LANE.) + */ + tmp = gen_cmp(SUNATM_PKT_BEGIN_POS, BPF_H, + 0xFF00); + gen_not(tmp); + eaddr = pcap_ether_hostton(name); if (eaddr == NULL) bpf_error( - "unknown token ring host '%s'", name); - b = gen_thostop(eaddr, dir); + "unknown ether host '%s'", name); + b = gen_ehostop(eaddr, dir); + gen_and(tmp, b); free(eaddr); return b; - - default: - bpf_error( - "only ethernet/FDDI/token ring supports link-level host name"); - break; } + + bpf_error("only ethernet/FDDI/token ring/802.11/ATM LANE/Fibre Channel supports link-level host name"); } else if (proto == Q_DECNET) { unsigned short dn_addr = __pcap_nametodnaddr(name); /* @@ -3222,7 +4029,7 @@ gen_scode(name, q) if (alist == NULL || *alist == NULL) bpf_error("unknown host '%s'", name); tproto = proto; - if (off_linktype == -1 && tproto == Q_DEFAULT) + if (off_linktype == (u_int)-1 && tproto == Q_DEFAULT) tproto = Q_IP; b = gen_host(**alist++, 0xffffffff, tproto, dir); while (*alist) { @@ -3405,6 +4212,7 @@ gen_mcode(s1, s2, masklen, q) bpf_error("Mask syntax for networks only"); /* NOTREACHED */ } + /* NOTREACHED */ } struct block * @@ -3558,6 +4366,8 @@ gen_ecode(eaddr, q) register const u_char *eaddr; struct qual q; { + struct block *b, *tmp; + if ((q.addr == Q_HOST || q.addr == Q_DEFAULT) && q.proto == Q_LINK) { if (linktype == DLT_EN10MB) return gen_ehostop(eaddr, (int)q.dir); @@ -3565,7 +4375,27 @@ gen_ecode(eaddr, q) return gen_fhostop(eaddr, (int)q.dir); if (linktype == DLT_IEEE802) return gen_thostop(eaddr, (int)q.dir); - bpf_error("ethernet addresses supported only on ethernet, FDDI or token ring"); + if (linktype == DLT_IEEE802_11) + return gen_wlanhostop(eaddr, (int)q.dir); + if (linktype == DLT_SUNATM && is_lane) { + /* + * Check that the packet doesn't begin with an + * LE Control marker. (We've already generated + * a test for LANE.) + */ + tmp = gen_cmp(SUNATM_PKT_BEGIN_POS, BPF_H, 0xFF00); + gen_not(tmp); + + /* + * Now check the MAC address. + */ + b = gen_ehostop(eaddr, (int)q.dir); + gen_and(tmp, b); + return b; + } + if (linktype == DLT_IP_OVER_FC) + return gen_ipfchostop(eaddr, (int)q.dir); + bpf_error("ethernet addresses supported only on ethernet/FDDI/token ring/802.11/ATM LANE/Fibre Channel"); } bpf_error("ethernet address used in non-ether expression"); /* NOTREACHED */ @@ -3639,6 +4469,14 @@ gen_load(proto, index, size) bpf_error("unsupported index operation"); case Q_LINK: + /* + * XXX - what about ATM LANE? Should the index be + * relative to the beginning of the AAL5 frame, so + * that 0 refers to the beginning of the LE Control + * field, or relative to the beginning of the LAN + * frame, so that 0 refers, for Ethernet LANE, to + * the beginning of the destination address? + */ s = xfer_to_x(index); tmp = new_stmt(BPF_LD|BPF_IND|size); sappend(s, tmp); @@ -3967,7 +4805,7 @@ gen_broadcast(proto) case Q_DEFAULT: case Q_LINK: - if (linktype == DLT_ARCNET) + if (linktype == DLT_ARCNET || linktype == DLT_ARCNET_LINUX) return gen_ahostop(abroadcast, Q_DST); if (linktype == DLT_EN10MB) return gen_ehostop(ebroadcast, Q_DST); @@ -3975,6 +4813,26 @@ gen_broadcast(proto) return gen_fhostop(ebroadcast, Q_DST); if (linktype == DLT_IEEE802) return gen_thostop(ebroadcast, Q_DST); + if (linktype == DLT_IEEE802_11) + return gen_wlanhostop(ebroadcast, Q_DST); + if (linktype == DLT_IP_OVER_FC) + return gen_ipfchostop(ebroadcast, Q_DST); + if (linktype == DLT_SUNATM && is_lane) { + /* + * Check that the packet doesn't begin with an + * LE Control marker. (We've already generated + * a test for LANE.) + */ + b1 = gen_cmp(SUNATM_PKT_BEGIN_POS, BPF_H, 0xFF00); + gen_not(b1); + + /* + * Now check the MAC address. + */ + b0 = gen_ehostop(ebroadcast, Q_DST); + gen_and(b1, b0); + return b0; + } bpf_error("not a broadcast link"); break; @@ -3988,47 +4846,204 @@ gen_broadcast(proto) gen_and(b0, b2); return b2; } - bpf_error("only ether/ip broadcast filters supported"); + bpf_error("only link-layer/IP broadcast filters supported"); + /* NOTREACHED */ +} + +/* + * Generate code to test the low-order bit of a MAC address (that's + * the bottom bit of the *first* byte). + */ +static struct block * +gen_mac_multicast(offset) + int offset; +{ + register struct block *b0; + register struct slist *s; + + /* link[offset] & 1 != 0 */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = offset; + b0 = new_block(JMP(BPF_JSET)); + b0->s.k = 1; + b0->stmts = s; + return b0; } struct block * gen_multicast(proto) int proto; { - register struct block *b0, *b1; + register struct block *b0, *b1, *b2; register struct slist *s; switch (proto) { case Q_DEFAULT: case Q_LINK: - if (linktype == DLT_ARCNET) + if (linktype == DLT_ARCNET || linktype == DLT_ARCNET_LINUX) /* all ARCnet multicasts use the same address */ return gen_ahostop(abroadcast, Q_DST); if (linktype == DLT_EN10MB) { /* ether[0] & 1 != 0 */ - s = new_stmt(BPF_LD|BPF_B|BPF_ABS); - s->s.k = 0; - b0 = new_block(JMP(BPF_JSET)); - b0->s.k = 1; - b0->stmts = s; - return b0; + return gen_mac_multicast(0); } if (linktype == DLT_FDDI) { - /* XXX TEST THIS: MIGHT NOT PORT PROPERLY XXX */ + /* + * XXX TEST THIS: MIGHT NOT PORT PROPERLY XXX + * + * XXX - was that referring to bit-order issues? + */ /* fddi[1] & 1 != 0 */ + return gen_mac_multicast(1); + } + + if (linktype == DLT_IEEE802) { + /* tr[2] & 1 != 0 */ + return gen_mac_multicast(2); + } + + if (linktype == DLT_IEEE802_11) { + /* + * Oh, yuk. + * + * For control frames, there is no DA. + * + * For management frames, DA is at an + * offset of 4 from the beginning of + * the packet. + * + * For data frames, DA is at an offset + * of 4 from the beginning of the packet + * if To DS is clear and at an offset of + * 16 from the beginning of the packet + * if To DS is set. + */ + + /* + * Generate the tests to be done for data frames. + * + * First, check for To DS set, i.e. "link[1] & 0x01". + */ s = new_stmt(BPF_LD|BPF_B|BPF_ABS); s->s.k = 1; - b0 = new_block(JMP(BPF_JSET)); - b0->s.k = 1; - b0->stmts = s; + b1 = new_block(JMP(BPF_JSET)); + b1->s.k = 0x01; /* To DS */ + b1->stmts = s; + + /* + * If To DS is set, the DA is at 16. + */ + b0 = gen_mac_multicast(16); + gen_and(b1, b0); + + /* + * Now, check for To DS not set, i.e. check + * "!(link[1] & 0x01)". + */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = 1; + b2 = new_block(JMP(BPF_JSET)); + b2->s.k = 0x01; /* To DS */ + b2->stmts = s; + gen_not(b2); + + /* + * If To DS is not set, the DA is at 4. + */ + b1 = gen_mac_multicast(4); + gen_and(b2, b1); + + /* + * Now OR together the last two checks. That gives + * the complete set of checks for data frames. + */ + gen_or(b1, b0); + + /* + * Now check for a data frame. + * I.e, check "link[0] & 0x08". + */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = 0; + b1 = new_block(JMP(BPF_JSET)); + b1->s.k = 0x08; + b1->stmts = s; + + /* + * AND that with the checks done for data frames. + */ + gen_and(b1, b0); + + /* + * If the high-order bit of the type value is 0, this + * is a management frame. + * I.e, check "!(link[0] & 0x08)". + */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = 0; + b2 = new_block(JMP(BPF_JSET)); + b2->s.k = 0x08; + b2->stmts = s; + gen_not(b2); + + /* + * For management frames, the DA is at 4. + */ + b1 = gen_mac_multicast(4); + gen_and(b2, b1); + + /* + * OR that with the checks done for data frames. + * That gives the checks done for management and + * data frames. + */ + gen_or(b1, b0); + + /* + * If the low-order bit of the type value is 1, + * this is either a control frame or a frame + * with a reserved type, and thus not a + * frame with an SA. + * + * I.e., check "!(link[0] & 0x04)". + */ + s = new_stmt(BPF_LD|BPF_B|BPF_ABS); + s->s.k = 0; + b1 = new_block(JMP(BPF_JSET)); + b1->s.k = 0x04; + b1->stmts = s; + gen_not(b1); + + /* + * AND that with the checks for data and management + * frames. + */ + gen_and(b1, b0); return b0; } - /* TODO - check how token ring handles multicast */ - /* if (linktype == DLT_IEEE802) ... */ + if (linktype == DLT_IP_OVER_FC) { + b0 = gen_mac_multicast(2); + return b0; + } + + if (linktype == DLT_SUNATM && is_lane) { + /* + * Check that the packet doesn't begin with an + * LE Control marker. (We've already generated + * a test for LANE.) + */ + b1 = gen_cmp(SUNATM_PKT_BEGIN_POS, BPF_H, 0xFF00); + gen_not(b1); + + /* ether[off_mac] & 1 != 0 */ + b0 = gen_mac_multicast(off_mac); + gen_and(b1, b0); + return b0; + } /* Link not known to support multicasts */ break; @@ -4048,7 +5063,8 @@ gen_multicast(proto) return b1; #endif /* INET6 */ } - bpf_error("only IP multicast filters supported on ethernet/FDDI"); + bpf_error("link-layer multicast filters supported only on ethernet/FDDI/token ring/ARCNET/802.11/ATM LANE/Fibre Channel"); + /* NOTREACHED */ } /* @@ -4067,15 +5083,64 @@ gen_inbound(dir) */ switch (linktype) { case DLT_SLIP: - case DLT_PPP: b0 = gen_relation(BPF_JEQ, gen_load(Q_LINK, gen_loadi(0), 1), gen_loadi(0), dir); break; + case DLT_LINUX_SLL: + if (dir) { + /* + * Match packets sent by this machine. + */ + b0 = gen_cmp(0, BPF_H, LINUX_SLL_OUTGOING); + } else { + /* + * Match packets sent to this machine. + * (No broadcast or multicast packets, or + * packets sent to some other machine and + * received promiscuously.) + * + * XXX - packets sent to other machines probably + * shouldn't be matched, but what about broadcast + * or multicast packets we received? + */ + b0 = gen_cmp(0, BPF_H, LINUX_SLL_HOST); + } + break; + + case DLT_PFLOG: + b0 = gen_cmp(offsetof(struct pfloghdr, dir), BPF_B, + (bpf_int32)((dir == 0) ? PF_IN : PF_OUT)); + break; + + case DLT_PPP_WITHDIRECTION: + if (dir) { + /* match outgoing packets */ + b0 = gen_cmp(0, BPF_B, PPP_WITHDIRECTION_OUT); + } else { + /* match incoming packets */ + b0 = gen_cmp(0, BPF_B, PPP_WITHDIRECTION_IN); + } + break; + + case DLT_JUNIPER_MLPPP: + case DLT_JUNIPER_ATM1: + case DLT_JUNIPER_ATM2: + /* juniper flags (including direction) are stored + * the byte after the 3-byte magic number */ + if (dir) { + /* match outgoing packets */ + b0 = gen_mcmp(3, BPF_B, 0, 0x01); + } else { + /* match incoming packets */ + b0 = gen_mcmp(3, BPF_B, 1, 0x01); + } + break; + default: - bpf_error("inbound/outbound not supported on linktype %d\n", + bpf_error("inbound/outbound not supported on linktype %d", linktype); b0 = NULL; /* NOTREACHED */ @@ -4083,13 +5148,123 @@ gen_inbound(dir) return (b0); } +/* PF firewall log matched interface */ +struct block * +gen_pf_ifname(const char *ifname) +{ + struct block *b0; + u_int len, off; + + if (linktype == DLT_PFLOG) { + len = sizeof(((struct pfloghdr *)0)->ifname); + off = offsetof(struct pfloghdr, ifname); + } else { + bpf_error("ifname not supported on linktype 0x%x", linktype); + /* NOTREACHED */ + } + if (strlen(ifname) >= len) { + bpf_error("ifname interface names can only be %d characters", + len-1); + /* NOTREACHED */ + } + b0 = gen_bcmp(off, strlen(ifname), (const u_char *)ifname); + return (b0); +} + +/* PF firewall log matched interface */ +struct block * +gen_pf_ruleset(char *ruleset) +{ + struct block *b0; + + if (linktype != DLT_PFLOG) { + bpf_error("ruleset not supported on linktype 0x%x", linktype); + /* NOTREACHED */ + } + if (strlen(ruleset) >= sizeof(((struct pfloghdr *)0)->ruleset)) { + bpf_error("ruleset names can only be %ld characters", + (long)(sizeof(((struct pfloghdr *)0)->ruleset) - 1)); + /* NOTREACHED */ + } + b0 = gen_bcmp(offsetof(struct pfloghdr, ruleset), + strlen(ruleset), (const u_char *)ruleset); + return (b0); +} + +/* PF firewall log rule number */ +struct block * +gen_pf_rnr(int rnr) +{ + struct block *b0; + + if (linktype == DLT_PFLOG) { + b0 = gen_cmp(offsetof(struct pfloghdr, rulenr), BPF_W, + (bpf_int32)rnr); + } else { + bpf_error("rnr not supported on linktype 0x%x", linktype); + /* NOTREACHED */ + } + + return (b0); +} + +/* PF firewall log sub-rule number */ +struct block * +gen_pf_srnr(int srnr) +{ + struct block *b0; + + if (linktype != DLT_PFLOG) { + bpf_error("srnr not supported on linktype 0x%x", linktype); + /* NOTREACHED */ + } + + b0 = gen_cmp(offsetof(struct pfloghdr, subrulenr), BPF_W, + (bpf_int32)srnr); + return (b0); +} + +/* PF firewall log reason code */ +struct block * +gen_pf_reason(int reason) +{ + struct block *b0; + + if (linktype == DLT_PFLOG) { + b0 = gen_cmp(offsetof(struct pfloghdr, reason), BPF_B, + (bpf_int32)reason); + } else { + bpf_error("reason not supported on linktype 0x%x", linktype); + /* NOTREACHED */ + } + + return (b0); +} + +/* PF firewall log action */ +struct block * +gen_pf_action(int action) +{ + struct block *b0; + + if (linktype == DLT_PFLOG) { + b0 = gen_cmp(offsetof(struct pfloghdr, action), BPF_B, + (bpf_int32)action); + } else { + bpf_error("action not supported on linktype 0x%x", linktype); + /* NOTREACHED */ + } + + return (b0); +} + struct block * gen_acode(eaddr, q) register const u_char *eaddr; struct qual q; { if ((q.addr == Q_HOST || q.addr == Q_DEFAULT) && q.proto == Q_LINK) { - if (linktype == DLT_ARCNET) + if (linktype == DLT_ARCNET || linktype == DLT_ARCNET_LINUX) return gen_ahostop(eaddr, (int)q.dir); } bpf_error("ARCnet address used in non-arc expression"); @@ -4168,7 +5343,78 @@ gen_vlan(vlan_num) if (vlan_num >= 0) { struct block *b1; - b1 = gen_cmp(orig_nl, BPF_H, (bpf_int32)vlan_num); + b1 = gen_mcmp(orig_nl, BPF_H, (bpf_int32)vlan_num, 0x0fff); + gen_and(b0, b1); + b0 = b1; + } + + return (b0); +} + +/* + * support for MPLS + */ +struct block * +gen_mpls(label_num) + int label_num; +{ + struct block *b0; + + /* + * Change the offsets to point to the type and data fields within + * the MPLS packet. This is somewhat of a kludge. + */ + if (orig_nl == (u_int)-1) { + orig_linktype = off_linktype; /* save original values */ + orig_nl = off_nl; + orig_nl_nosnap = off_nl_nosnap; + + switch (linktype) { + + case DLT_EN10MB: + off_linktype = 16; + off_nl_nosnap = 18; + off_nl = 18; + + b0 = gen_cmp(orig_linktype, BPF_H, (bpf_int32)ETHERTYPE_MPLS); + break; + + case DLT_PPP: + off_linktype = 6; + off_nl_nosnap = 8; + off_nl = 8; + + b0 = gen_cmp(orig_linktype, BPF_H, (bpf_int32)PPP_MPLS_UCAST); + break; + + case DLT_C_HDLC: + off_linktype = 6; + off_nl_nosnap = 8; + off_nl = 8; + + b0 = gen_cmp(orig_linktype, BPF_H, (bpf_int32)ETHERTYPE_MPLS); + break; + + /* FIXME add other DLT_s ... + * for Frame-Relay/and ATM this may get messy due to SNAP headers + * leave it for now */ + + default: + bpf_error("no MPLS support for data link type %d", + linktype); + /*NOTREACHED*/ + } + } else { + bpf_error("'mpls' can't be combined with 'vlan' or another 'mpls'"); + /*NOTREACHED*/ + } + + /* If a specific MPLS label is requested, check it */ + if (label_num >= 0) { + struct block *b1; + + label_num = label_num << 12; /* label is shifted 12 bits on the wire */ + b1 = gen_mcmp(orig_nl, BPF_W, (bpf_int32)label_num, 0xfffff000); /* only compare the first 20 bits */ gen_and(b0, b1); b0 = b1; } @@ -4190,7 +5436,7 @@ gen_atmfield_code(atmfield, jvalue, jtype, reverse) case A_VPI: if (!is_atm) bpf_error("'vpi' supported only on raw ATM"); - if (off_vpi == -1) + if (off_vpi == (u_int)-1) abort(); b0 = gen_ncmp(BPF_B, off_vpi, 0xffffffff, (u_int)jtype, (u_int)jvalue, reverse); @@ -4199,30 +5445,30 @@ gen_atmfield_code(atmfield, jvalue, jtype, reverse) case A_VCI: if (!is_atm) bpf_error("'vci' supported only on raw ATM"); - if (off_vci == -1) + if (off_vci == (u_int)-1) abort(); b0 = gen_ncmp(BPF_H, off_vci, 0xffffffff, (u_int)jtype, (u_int)jvalue, reverse); break; case A_PROTOTYPE: - if (off_proto == -1) + if (off_proto == (u_int)-1) abort(); /* XXX - this isn't on FreeBSD */ b0 = gen_ncmp(BPF_B, off_proto, 0x0f, (u_int)jtype, (u_int)jvalue, reverse); break; case A_MSGTYPE: - if (off_msg_type == -1) + if (off_payload == (u_int)-1) abort(); - b0 = gen_ncmp(BPF_B, off_msg_type, 0xffffffff, + b0 = gen_ncmp(BPF_B, off_payload + MSG_TYPE_POS, 0xffffffff, (u_int)jtype, (u_int)jvalue, reverse); break; case A_CALLREFTYPE: if (!is_atm) bpf_error("'callref' supported only on raw ATM"); - if (off_proto == -1) + if (off_proto == (u_int)-1) abort(); b0 = gen_ncmp(BPF_B, off_proto, 0xffffffff, (u_int)jtype, (u_int)jvalue, reverse); @@ -4301,6 +5547,24 @@ gen_atmtype_abbrev(type) if (!is_atm) bpf_error("'lane' supported only on raw ATM"); b1 = gen_atmfield_code(A_PROTOTYPE, PT_LANE, BPF_JEQ, 0); + + /* + * Arrange that all subsequent tests assume LANE + * rather than LLC-encapsulated packets, and set + * the offsets appropriately for LANE-encapsulated + * Ethernet. + * + * "off_mac" is the offset of the Ethernet header, + * which is 2 bytes past the ATM pseudo-header + * (skipping the pseudo-header and 2-byte LE Client + * field). The other offsets are Ethernet offsets + * relative to "off_mac". + */ + is_lane = 1; + off_mac = off_payload + 2; /* MAC header */ + off_linktype = off_mac + 12; + off_nl = off_mac + 14; /* Ethernet II */ + off_nl_nosnap = off_mac + 17; /* 802.3+802.2 */ break; case A_LLC: @@ -4308,6 +5572,7 @@ gen_atmtype_abbrev(type) if (!is_atm) bpf_error("'llc' supported only on raw ATM"); b1 = gen_atmfield_code(A_PROTOTYPE, PT_LLC, BPF_JEQ, 0); + is_lane = 0; break; default: @@ -4334,15 +5599,15 @@ gen_msg_abbrev(type) break; case A_CALLPROCEED: - b1 = gen_atmfield_code(A_MSGTYPE, CALL_PROCEED, BPF_JEQ, 0); + b1 = gen_atmfield_code(A_MSGTYPE, CALL_PROCEED, BPF_JEQ, 0); break; case A_CONNECT: b1 = gen_atmfield_code(A_MSGTYPE, CONNECT, BPF_JEQ, 0); - break; + break; case A_CONNECTACK: - b1 = gen_atmfield_code(A_MSGTYPE, CONNECT_ACK, BPF_JEQ, 0); + b1 = gen_atmfield_code(A_MSGTYPE, CONNECT_ACK, BPF_JEQ, 0); break; case A_RELEASE: @@ -4350,7 +5615,7 @@ gen_msg_abbrev(type) break; case A_RELEASE_DONE: - b1 = gen_atmfield_code(A_MSGTYPE, RELEASE_DONE, BPF_JEQ, 0); + b1 = gen_atmfield_code(A_MSGTYPE, RELEASE_DONE, BPF_JEQ, 0); break; default: @@ -4377,9 +5642,9 @@ gen_atmmulti_abbrev(type) if (!is_atm) bpf_error("'oamf4' supported only on raw ATM"); /* OAM F4 type */ - b0 = gen_atmfield_code(A_VCI, 3, BPF_JEQ, 0); + b0 = gen_atmfield_code(A_VCI, 3, BPF_JEQ, 0); b1 = gen_atmfield_code(A_VCI, 4, BPF_JEQ, 0); - gen_or(b0, b1); + gen_or(b0, b1); b0 = gen_atmfield_code(A_VPI, 0, BPF_JEQ, 0); gen_and(b0, b1); break;