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/*- * Copyright (c) 1990, 1991, 1993 * The Regents of the University of California. All rights reserved. * * This code is derived from the Stanford/CMU enet packet filter, * (net/enet.c) distributed as part of 4.3BSD, and code contributed * to Berkeley by Steven McCanne and Van Jacobson both of Lawrence * Berkeley Laboratory. * * 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. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``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 REGENTS OR CONTRIBUTORS 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. * * @(#)bpf.h 8.1 (Berkeley) 6/10/93 * @(#)bpf.h 1.34 (LBL) 6/16/96 * * $FreeBSD: release/9.1.0/sys/net/bpf.h 236166 2012-05-28 04:47:46Z delphij $ */ #ifndef _NET_BPF_H_ #define _NET_BPF_H_ /* BSD style release date */ #define BPF_RELEASE 199606 typedef int32_t bpf_int32; typedef u_int32_t bpf_u_int32; typedef int64_t bpf_int64; typedef u_int64_t bpf_u_int64; /* * Alignment macros. BPF_WORDALIGN rounds up to the next * even multiple of BPF_ALIGNMENT. */ #define BPF_ALIGNMENT sizeof(long) #define BPF_WORDALIGN(x) (((x)+(BPF_ALIGNMENT-1))&~(BPF_ALIGNMENT-1)) #define BPF_MAXINSNS 512 #define BPF_MAXBUFSIZE 0x80000 #define BPF_MINBUFSIZE 32 /* * Structure for BIOCSETF. */ struct bpf_program { u_int bf_len; struct bpf_insn *bf_insns; }; /* * Struct returned by BIOCGSTATS. */ struct bpf_stat { u_int bs_recv; /* number of packets received */ u_int bs_drop; /* number of packets dropped */ }; /* * Struct return by BIOCVERSION. This represents the version number of * the filter language described by the instruction encodings below. * bpf understands a program iff kernel_major == filter_major && * kernel_minor >= filter_minor, that is, if the value returned by the * running kernel has the same major number and a minor number equal * equal to or less than the filter being downloaded. Otherwise, the * results are undefined, meaning an error may be returned or packets * may be accepted haphazardly. * It has nothing to do with the source code version. */ struct bpf_version { u_short bv_major; u_short bv_minor; }; /* Current version number of filter architecture. */ #define BPF_MAJOR_VERSION 1 #define BPF_MINOR_VERSION 1 /* * Historically, BPF has supported a single buffering model, first using mbuf * clusters in kernel, and later using malloc(9) buffers in kernel. We now * support multiple buffering modes, which may be queried and set using * BIOCGETBUFMODE and BIOCSETBUFMODE. So as to avoid handling the complexity * of changing modes while sniffing packets, the mode becomes fixed once an * interface has been attached to the BPF descriptor. */ #define BPF_BUFMODE_BUFFER 1 /* Kernel buffers with read(). */ #define BPF_BUFMODE_ZBUF 2 /* Zero-copy buffers. */ /*- * Struct used by BIOCSETZBUF, BIOCROTZBUF: describes up to two zero-copy * buffer as used by BPF. */ struct bpf_zbuf { void *bz_bufa; /* Location of 'a' zero-copy buffer. */ void *bz_bufb; /* Location of 'b' zero-copy buffer. */ size_t bz_buflen; /* Size of zero-copy buffers. */ }; #define BIOCGBLEN _IOR('B', 102, u_int) #define BIOCSBLEN _IOWR('B', 102, u_int) #define BIOCSETF _IOW('B', 103, struct bpf_program) #define BIOCFLUSH _IO('B', 104) #define BIOCPROMISC _IO('B', 105) #define BIOCGDLT _IOR('B', 106, u_int) #define BIOCGETIF _IOR('B', 107, struct ifreq) #define BIOCSETIF _IOW('B', 108, struct ifreq) #define BIOCSRTIMEOUT _IOW('B', 109, struct timeval) #define BIOCGRTIMEOUT _IOR('B', 110, struct timeval) #define BIOCGSTATS _IOR('B', 111, struct bpf_stat) #define BIOCIMMEDIATE _IOW('B', 112, u_int) #define BIOCVERSION _IOR('B', 113, struct bpf_version) #define BIOCGRSIG _IOR('B', 114, u_int) #define BIOCSRSIG _IOW('B', 115, u_int) #define BIOCGHDRCMPLT _IOR('B', 116, u_int) #define BIOCSHDRCMPLT _IOW('B', 117, u_int) #define BIOCGDIRECTION _IOR('B', 118, u_int) #define BIOCSDIRECTION _IOW('B', 119, u_int) #define BIOCSDLT _IOW('B', 120, u_int) #define BIOCGDLTLIST _IOWR('B', 121, struct bpf_dltlist) #define BIOCLOCK _IO('B', 122) #define BIOCSETWF _IOW('B', 123, struct bpf_program) #define BIOCFEEDBACK _IOW('B', 124, u_int) #define BIOCGETBUFMODE _IOR('B', 125, u_int) #define BIOCSETBUFMODE _IOW('B', 126, u_int) #define BIOCGETZMAX _IOR('B', 127, size_t) #define BIOCROTZBUF _IOR('B', 128, struct bpf_zbuf) #define BIOCSETZBUF _IOW('B', 129, struct bpf_zbuf) #define BIOCSETFNR _IOW('B', 130, struct bpf_program) #define BIOCGTSTAMP _IOR('B', 131, u_int) #define BIOCSTSTAMP _IOW('B', 132, u_int) /* Obsolete */ #define BIOCGSEESENT BIOCGDIRECTION #define BIOCSSEESENT BIOCSDIRECTION /* Packet directions */ enum bpf_direction { BPF_D_IN, /* See incoming packets */ BPF_D_INOUT, /* See incoming and outgoing packets */ BPF_D_OUT /* See outgoing packets */ }; /* Time stamping functions */ #define BPF_T_MICROTIME 0x0000 #define BPF_T_NANOTIME 0x0001 #define BPF_T_BINTIME 0x0002 #define BPF_T_NONE 0x0003 #define BPF_T_FORMAT_MASK 0x0003 #define BPF_T_NORMAL 0x0000 #define BPF_T_FAST 0x0100 #define BPF_T_MONOTONIC 0x0200 #define BPF_T_MONOTONIC_FAST (BPF_T_FAST | BPF_T_MONOTONIC) #define BPF_T_FLAG_MASK 0x0300 #define BPF_T_FORMAT(t) ((t) & BPF_T_FORMAT_MASK) #define BPF_T_FLAG(t) ((t) & BPF_T_FLAG_MASK) #define BPF_T_VALID(t) \ ((t) == BPF_T_NONE || (BPF_T_FORMAT(t) != BPF_T_NONE && \ ((t) & ~(BPF_T_FORMAT_MASK | BPF_T_FLAG_MASK)) == 0)) #define BPF_T_MICROTIME_FAST (BPF_T_MICROTIME | BPF_T_FAST) #define BPF_T_NANOTIME_FAST (BPF_T_NANOTIME | BPF_T_FAST) #define BPF_T_BINTIME_FAST (BPF_T_BINTIME | BPF_T_FAST) #define BPF_T_MICROTIME_MONOTONIC (BPF_T_MICROTIME | BPF_T_MONOTONIC) #define BPF_T_NANOTIME_MONOTONIC (BPF_T_NANOTIME | BPF_T_MONOTONIC) #define BPF_T_BINTIME_MONOTONIC (BPF_T_BINTIME | BPF_T_MONOTONIC) #define BPF_T_MICROTIME_MONOTONIC_FAST (BPF_T_MICROTIME | BPF_T_MONOTONIC_FAST) #define BPF_T_NANOTIME_MONOTONIC_FAST (BPF_T_NANOTIME | BPF_T_MONOTONIC_FAST) #define BPF_T_BINTIME_MONOTONIC_FAST (BPF_T_BINTIME | BPF_T_MONOTONIC_FAST) /* * Structure prepended to each packet. */ struct bpf_ts { bpf_int64 bt_sec; /* seconds */ bpf_u_int64 bt_frac; /* fraction */ }; struct bpf_xhdr { struct bpf_ts bh_tstamp; /* time stamp */ bpf_u_int32 bh_caplen; /* length of captured portion */ bpf_u_int32 bh_datalen; /* original length of packet */ u_short bh_hdrlen; /* length of bpf header (this struct plus alignment padding) */ }; /* Obsolete */ struct bpf_hdr { struct timeval bh_tstamp; /* time stamp */ bpf_u_int32 bh_caplen; /* length of captured portion */ bpf_u_int32 bh_datalen; /* original length of packet */ u_short bh_hdrlen; /* length of bpf header (this struct plus alignment padding) */ }; #ifdef _KERNEL #define MTAG_BPF 0x627066 #define MTAG_BPF_TIMESTAMP 0 #endif /* * When using zero-copy BPF buffers, a shared memory header is present * allowing the kernel BPF implementation and user process to synchronize * without using system calls. This structure defines that header. When * accessing these fields, appropriate atomic operation and memory barriers * are required in order not to see stale or out-of-order data; see bpf(4) * for reference code to access these fields from userspace. * * The layout of this structure is critical, and must not be changed; if must * fit in a single page on all architectures. */ struct bpf_zbuf_header { volatile u_int bzh_kernel_gen; /* Kernel generation number. */ volatile u_int bzh_kernel_len; /* Length of data in the buffer. */ volatile u_int bzh_user_gen; /* User generation number. */ u_int _bzh_pad[5]; }; /* * Data-link level type codes. */ #define DLT_NULL 0 /* BSD loopback encapsulation */ #define DLT_EN10MB 1 /* Ethernet (10Mb) */ #define DLT_EN3MB 2 /* Experimental Ethernet (3Mb) */ #define DLT_AX25 3 /* Amateur Radio AX.25 */ #define DLT_PRONET 4 /* Proteon ProNET Token Ring */ #define DLT_CHAOS 5 /* Chaos */ #define DLT_IEEE802 6 /* IEEE 802 Networks */ #define DLT_ARCNET 7 /* ARCNET */ #define DLT_SLIP 8 /* Serial Line IP */ #define DLT_PPP 9 /* Point-to-point Protocol */ #define DLT_FDDI 10 /* FDDI */ #define DLT_ATM_RFC1483 11 /* LLC/SNAP encapsulated atm */ #define DLT_RAW 12 /* raw IP */ /* * These are values from BSD/OS's "bpf.h". * These are not the same as the values from the traditional libpcap * "bpf.h"; however, these values shouldn't be generated by any * OS other than BSD/OS, so the correct values to use here are the * BSD/OS values. * * Platforms that have already assigned these values to other * DLT_ codes, however, should give these codes the values * from that platform, so that programs that use these codes will * continue to compile - even though they won't correctly read * files of these types. */ #define DLT_SLIP_BSDOS 15 /* BSD/OS Serial Line IP */ #define DLT_PPP_BSDOS 16 /* BSD/OS Point-to-point Protocol */ #define DLT_ATM_CLIP 19 /* Linux Classical-IP over ATM */ /* * These values are defined by NetBSD; other platforms should refrain from * using them for other purposes, so that NetBSD savefiles with link * types of 50 or 51 can be read as this type on all platforms. */ #define DLT_PPP_SERIAL 50 /* PPP over serial with HDLC encapsulation */ #define DLT_PPP_ETHER 51 /* PPP over Ethernet */ /* * Reserved for the Symantec Enterprise Firewall. */ #define DLT_SYMANTEC_FIREWALL 99 /* * Values between 100 and 103 are used in capture file headers as * link-layer header type LINKTYPE_ values corresponding to DLT_ types * that differ between platforms; don't use those values for new DLT_ * new types. */ /* * Values starting with 104 are used for newly-assigned link-layer * header type values; for those link-layer header types, the DLT_ * value returned by pcap_datalink() and passed to pcap_open_dead(), * and the LINKTYPE_ value that appears in capture files, are the * same. * * DLT_MATCHING_MIN is the lowest such value; DLT_MATCHING_MAX is * the highest such value. */ #define DLT_MATCHING_MIN 104 /* * This value was defined by libpcap 0.5; platforms that have defined * it with a different value should define it here with that value - * a link type of 104 in a save file will be mapped to DLT_C_HDLC, * whatever value that happens to be, so programs will correctly * handle files with that link type regardless of the value of * DLT_C_HDLC. * * The name DLT_C_HDLC was used by BSD/OS; we use that name for source * compatibility with programs written for BSD/OS. * * libpcap 0.5 defined it as DLT_CHDLC; we define DLT_CHDLC as well, * for source compatibility with programs written for libpcap 0.5. */ #define DLT_C_HDLC 104 /* Cisco HDLC */ #define DLT_CHDLC DLT_C_HDLC #define DLT_IEEE802_11 105 /* IEEE 802.11 wireless */ /* * Values between 106 and 107 are used in capture file headers as * link-layer types corresponding to DLT_ types that might differ * between platforms; don't use those values for new DLT_ new types. */ /* * Frame Relay; BSD/OS has a DLT_FR with a value of 11, but that collides * with other values. * DLT_FR and DLT_FRELAY packets start with the Q.922 Frame Relay header * (DLCI, etc.). */ #define DLT_FRELAY 107 /* * OpenBSD DLT_LOOP, for loopback devices; it's like DLT_NULL, except * that the AF_ type in the link-layer header is in network byte order. * * OpenBSD defines it as 12, but that collides with DLT_RAW, so we * define it as 108 here. If OpenBSD picks up this file, it should * define DLT_LOOP as 12 in its version, as per the comment above - * and should not use 108 as a DLT_ value. */ #define DLT_LOOP 108 /* * Values between 109 and 112 are used in capture file headers as * link-layer types corresponding to DLT_ types that might differ * between platforms; don't use those values for new DLT_ new types. */ /* * Encapsulated packets for IPsec; DLT_ENC is 13 in OpenBSD, but that's * DLT_SLIP_BSDOS in NetBSD, so we don't use 13 for it in OSes other * than OpenBSD. */ #define DLT_ENC 109 /* * This is for Linux cooked sockets. */ #define DLT_LINUX_SLL 113 /* * Apple LocalTalk hardware. */ #define DLT_LTALK 114 /* * Acorn Econet. */ #define DLT_ECONET 115 /* * Reserved for use with OpenBSD ipfilter. */ #define DLT_IPFILTER 116 /* * Reserved for use in capture-file headers as a link-layer type * corresponding to OpenBSD DLT_PFLOG; DLT_PFLOG is 17 in OpenBSD, * but that's DLT_LANE8023 in SuSE 6.3, so we can't use 17 for it * in capture-file headers. */ #define DLT_PFLOG 117 /* * Registered for Cisco-internal use. */ #define DLT_CISCO_IOS 118 /* * Reserved for 802.11 cards using the Prism II chips, with a link-layer * header including Prism monitor mode information plus an 802.11 * header. */ #define DLT_PRISM_HEADER 119 /* * Reserved for Aironet 802.11 cards, with an Aironet link-layer header * (see Doug Ambrisko's FreeBSD patches). */ #define DLT_AIRONET_HEADER 120 /* * Reserved for use by OpenBSD's pfsync device. */ #define DLT_PFSYNC 121 /* * Reserved for Siemens HiPath HDLC. XXX */ #define DLT_HHDLC 121 /* * Reserved for RFC 2625 IP-over-Fibre Channel. */ #define DLT_IP_OVER_FC 122 /* * Reserved for Full Frontal ATM on Solaris. */ #define DLT_SUNATM 123 /* * Reserved as per request from Kent Dahlgren <kent@praesum.com> * for private use. */ #define DLT_RIO 124 /* RapidIO */ #define DLT_PCI_EXP 125 /* PCI Express */ #define DLT_AURORA 126 /* Xilinx Aurora link layer */ /* * BSD header for 802.11 plus a number of bits of link-layer information * including radio information. */ #ifndef DLT_IEEE802_11_RADIO #define DLT_IEEE802_11_RADIO 127 #endif /* * Reserved for TZSP encapsulation. */ #define DLT_TZSP 128 /* Tazmen Sniffer Protocol */ /* * Reserved for Linux ARCNET. */ #define DLT_ARCNET_LINUX 129 /* * Juniper-private data link types. */ #define DLT_JUNIPER_MLPPP 130 #define DLT_JUNIPER_MLFR 131 #define DLT_JUNIPER_ES 132 #define DLT_JUNIPER_GGSN 133 #define DLT_JUNIPER_MFR 134 #define DLT_JUNIPER_ATM2 135 #define DLT_JUNIPER_SERVICES 136 #define DLT_JUNIPER_ATM1 137 /* * Apple IP-over-IEEE 1394, as per a request from Dieter Siegmund * <dieter@apple.com>. The header that's presented is an Ethernet-like * header: * * #define FIREWIRE_EUI64_LEN 8 * struct firewire_header { * u_char firewire_dhost[FIREWIRE_EUI64_LEN]; * u_char firewire_shost[FIREWIRE_EUI64_LEN]; * u_short firewire_type; * }; * * with "firewire_type" being an Ethernet type value, rather than, * for example, raw GASP frames being handed up. */ #define DLT_APPLE_IP_OVER_IEEE1394 138 /* * Various SS7 encapsulations, as per a request from Jeff Morriss * <jeff.morriss[AT]ulticom.com> and subsequent discussions. */ #define DLT_MTP2_WITH_PHDR 139 /* pseudo-header with various info, followed by MTP2 */ #define DLT_MTP2 140 /* MTP2, without pseudo-header */ #define DLT_MTP3 141 /* MTP3, without pseudo-header or MTP2 */ #define DLT_SCCP 142 /* SCCP, without pseudo-header or MTP2 or MTP3 */ /* * Reserved for DOCSIS. */ #define DLT_DOCSIS 143 /* * Reserved for Linux IrDA. */ #define DLT_LINUX_IRDA 144 /* * Reserved for IBM SP switch and IBM Next Federation switch. */ #define DLT_IBM_SP 145 #define DLT_IBM_SN 146 /* * Reserved for private use. If you have some link-layer header type * that you want to use within your organization, with the capture files * using that link-layer header type not ever be sent outside your * organization, you can use these values. * * No libpcap release will use these for any purpose, nor will any * tcpdump release use them, either. * * Do *NOT* use these in capture files that you expect anybody not using * your private versions of capture-file-reading tools to read; in * particular, do *NOT* use them in products, otherwise you may find that * people won't be able to use tcpdump, or snort, or Ethereal, or... to * read capture files from your firewall/intrusion detection/traffic * monitoring/etc. appliance, or whatever product uses that DLT_ value, * and you may also find that the developers of those applications will * not accept patches to let them read those files. * * Also, do not use them if somebody might send you a capture using them * for *their* private type and tools using them for *your* private type * would have to read them. * * Instead, ask "tcpdump-workers@tcpdump.org" for a new DLT_ value, * as per the comment above, and use the type you're given. */ #define DLT_USER0 147 #define DLT_USER1 148 #define DLT_USER2 149 #define DLT_USER3 150 #define DLT_USER4 151 #define DLT_USER5 152 #define DLT_USER6 153 #define DLT_USER7 154 #define DLT_USER8 155 #define DLT_USER9 156 #define DLT_USER10 157 #define DLT_USER11 158 #define DLT_USER12 159 #define DLT_USER13 160 #define DLT_USER14 161 #define DLT_USER15 162 /* * For future use with 802.11 captures - defined by AbsoluteValue * Systems to store a number of bits of link-layer information * including radio information: * * http://www.shaftnet.org/~pizza/software/capturefrm.txt * * but it might be used by some non-AVS drivers now or in the * future. */ #define DLT_IEEE802_11_RADIO_AVS 163 /* 802.11 plus AVS radio header */ /* * Juniper-private data link type, as per request from * Hannes Gredler <hannes@juniper.net>. The DLT_s are used * for passing on chassis-internal metainformation such as * QOS profiles, etc.. */ #define DLT_JUNIPER_MONITOR 164 /* * Reserved for BACnet MS/TP. */ #define DLT_BACNET_MS_TP 165 /* * Another PPP variant as per request from Karsten Keil <kkeil@suse.de>. * * This is used in some OSes to allow a kernel socket filter to distinguish * between incoming and outgoing packets, on a socket intended to * supply pppd with outgoing packets so it can do dial-on-demand and * hangup-on-lack-of-demand; incoming packets are filtered out so they * don't cause pppd to hold the connection up (you don't want random * input packets such as port scans, packets from old lost connections, * etc. to force the connection to stay up). * * The first byte of the PPP header (0xff03) is modified to accomodate * the direction - 0x00 = IN, 0x01 = OUT. */ #define DLT_PPP_PPPD 166 /* * Names for backwards compatibility with older versions of some PPP * software; new software should use DLT_PPP_PPPD. */ #define DLT_PPP_WITH_DIRECTION DLT_PPP_PPPD #define DLT_LINUX_PPP_WITHDIRECTION DLT_PPP_PPPD /* * Juniper-private data link type, as per request from * Hannes Gredler <hannes@juniper.net>. The DLT_s are used * for passing on chassis-internal metainformation such as * QOS profiles, cookies, etc.. */ #define DLT_JUNIPER_PPPOE 167 #define DLT_JUNIPER_PPPOE_ATM 168 #define DLT_GPRS_LLC 169 /* GPRS LLC */ #define DLT_GPF_T 170 /* GPF-T (ITU-T G.7041/Y.1303) */ #define DLT_GPF_F 171 /* GPF-F (ITU-T G.7041/Y.1303) */ /* * Requested by Oolan Zimmer <oz@gcom.com> for use in Gcom's T1/E1 line * monitoring equipment. */ #define DLT_GCOM_T1E1 172 #define DLT_GCOM_SERIAL 173 /* * Juniper-private data link type, as per request from * Hannes Gredler <hannes@juniper.net>. The DLT_ is used * for internal communication to Physical Interface Cards (PIC) */ #define DLT_JUNIPER_PIC_PEER 174 /* * Link types requested by Gregor Maier <gregor@endace.com> of Endace * Measurement Systems. They add an ERF header (see * http://www.endace.com/support/EndaceRecordFormat.pdf) in front of * the link-layer header. */ #define DLT_ERF_ETH 175 /* Ethernet */ #define DLT_ERF_POS 176 /* Packet-over-SONET */ /* * Requested by Daniele Orlandi <daniele@orlandi.com> for raw LAPD * for vISDN (http://www.orlandi.com/visdn/). Its link-layer header * includes additional information before the LAPD header, so it's * not necessarily a generic LAPD header. */ #define DLT_LINUX_LAPD 177 /* * Juniper-private data link type, as per request from * Hannes Gredler <hannes@juniper.net>. * The DLT_ are used for prepending meta-information * like interface index, interface name * before standard Ethernet, PPP, Frelay & C-HDLC Frames */ #define DLT_JUNIPER_ETHER 178 #define DLT_JUNIPER_PPP 179 #define DLT_JUNIPER_FRELAY 180 #define DLT_JUNIPER_CHDLC 181 /* * Multi Link Frame Relay (FRF.16) */ #define DLT_MFR 182 /* * Juniper-private data link type, as per request from * Hannes Gredler <hannes@juniper.net>. * The DLT_ is used for internal communication with a * voice Adapter Card (PIC) */ #define DLT_JUNIPER_VP 183 /* * Arinc 429 frames. * DLT_ requested by Gianluca Varenni <gianluca.varenni@cacetech.com>. * Every frame contains a 32bit A429 label. * More documentation on Arinc 429 can be found at * http://www.condoreng.com/support/downloads/tutorials/ARINCTutorial.pdf */ #define DLT_A429 184 /* * Arinc 653 Interpartition Communication messages. * DLT_ requested by Gianluca Varenni <gianluca.varenni@cacetech.com>. * Please refer to the A653-1 standard for more information. */ #define DLT_A653_ICM 185 /* * USB packets, beginning with a USB setup header; requested by * Paolo Abeni <paolo.abeni@email.it>. */ #define DLT_USB 186 /* * Bluetooth HCI UART transport layer (part H:4); requested by * Paolo Abeni. */ #define DLT_BLUETOOTH_HCI_H4 187 /* * IEEE 802.16 MAC Common Part Sublayer; requested by Maria Cruz * <cruz_petagay@bah.com>. */ #define DLT_IEEE802_16_MAC_CPS 188 /* * USB packets, beginning with a Linux USB header; requested by * Paolo Abeni <paolo.abeni@email.it>. */ #define DLT_USB_LINUX 189 /* * Controller Area Network (CAN) v. 2.0B packets. * DLT_ requested by Gianluca Varenni <gianluca.varenni@cacetech.com>. * Used to dump CAN packets coming from a CAN Vector board. * More documentation on the CAN v2.0B frames can be found at * http://www.can-cia.org/downloads/?269 */ #define DLT_CAN20B 190 /* * IEEE 802.15.4, with address fields padded, as is done by Linux * drivers; requested by Juergen Schimmer. */ #define DLT_IEEE802_15_4_LINUX 191 /* * Per Packet Information encapsulated packets. * DLT_ requested by Gianluca Varenni <gianluca.varenni@cacetech.com>. */ #define DLT_PPI 192 /* * Header for 802.16 MAC Common Part Sublayer plus a radiotap radio header; * requested by Charles Clancy. */ #define DLT_IEEE802_16_MAC_CPS_RADIO 193 /* * Juniper-private data link type, as per request from * Hannes Gredler <hannes@juniper.net>. * The DLT_ is used for internal communication with a * integrated service module (ISM). */ #define DLT_JUNIPER_ISM 194 /* * IEEE 802.15.4, exactly as it appears in the spec (no padding, no * nothing); requested by Mikko Saarnivala <mikko.saarnivala@sensinode.com>. */ #define DLT_IEEE802_15_4 195 /* * Various link-layer types, with a pseudo-header, for SITA * (http://www.sita.aero/); requested by Fulko Hew (fulko.hew@gmail.com). */ #define DLT_SITA 196 /* * Various link-layer types, with a pseudo-header, for Endace DAG cards; * encapsulates Endace ERF records. Requested by Stephen Donnelly * <stephen@endace.com>. */ #define DLT_ERF 197 /* * Special header prepended to Ethernet packets when capturing from a * u10 Networks board. Requested by Phil Mulholland * <phil@u10networks.com>. */ #define DLT_RAIF1 198 /* * IPMB packet for IPMI, beginning with the I2C slave address, followed * by the netFn and LUN, etc.. Requested by Chanthy Toeung * <chanthy.toeung@ca.kontron.com>. */ #define DLT_IPMB 199 /* * Juniper-private data link type, as per request from * Hannes Gredler <hannes@juniper.net>. * The DLT_ is used for capturing data on a secure tunnel interface. */ #define DLT_JUNIPER_ST 200 /* * Bluetooth HCI UART transport layer (part H:4), with pseudo-header * that includes direction information; requested by Paolo Abeni. */ #define DLT_BLUETOOTH_HCI_H4_WITH_PHDR 201 /* * AX.25 packet with a 1-byte KISS header; see * * http://www.ax25.net/kiss.htm * * as per Richard Stearn <richard@rns-stearn.demon.co.uk>. */ #define DLT_AX25_KISS 202 /* * LAPD packets from an ISDN channel, starting with the address field, * with no pseudo-header. * Requested by Varuna De Silva <varunax@gmail.com>. */ #define DLT_LAPD 203 /* * Variants of various link-layer headers, with a one-byte direction * pseudo-header prepended - zero means "received by this host", * non-zero (any non-zero value) means "sent by this host" - as per * Will Barker <w.barker@zen.co.uk>. */ #define DLT_PPP_WITH_DIR 204 /* PPP - don't confuse with DLT_PPP_WITH_DIRECTION */ #define DLT_C_HDLC_WITH_DIR 205 /* Cisco HDLC */ #define DLT_FRELAY_WITH_DIR 206 /* Frame Relay */ #define DLT_LAPB_WITH_DIR 207 /* LAPB */ /* * 208 is reserved for an as-yet-unspecified proprietary link-layer * type, as requested by Will Barker. */ /* * IPMB with a Linux-specific pseudo-header; as requested by Alexey Neyman * <avn@pigeonpoint.com>. */ #define DLT_IPMB_LINUX 209 /* * FlexRay automotive bus - http://www.flexray.com/ - as requested * by Hannes Kaelber <hannes.kaelber@x2e.de>. */ #define DLT_FLEXRAY 210 /* * Media Oriented Systems Transport (MOST) bus for multimedia * transport - http://www.mostcooperation.com/ - as requested * by Hannes Kaelber <hannes.kaelber@x2e.de>. */ #define DLT_MOST 211 /* * Local Interconnect Network (LIN) bus for vehicle networks - * http://www.lin-subbus.org/ - as requested by Hannes Kaelber * <hannes.kaelber@x2e.de>. */ #define DLT_LIN 212 /* * X2E-private data link type used for serial line capture, * as requested by Hannes Kaelber <hannes.kaelber@x2e.de>. */ #define DLT_X2E_SERIAL 213 /* * X2E-private data link type used for the Xoraya data logger * family, as requested by Hannes Kaelber <hannes.kaelber@x2e.de>. */ #define DLT_X2E_XORAYA 214 /* * IEEE 802.15.4, exactly as it appears in the spec (no padding, no * nothing), but with the PHY-level data for non-ASK PHYs (4 octets * of 0 as preamble, one octet of SFD, one octet of frame length+ * reserved bit, and then the MAC-layer data, starting with the * frame control field). * * Requested by Max Filippov <jcmvbkbc@gmail.com>. */ #define DLT_IEEE802_15_4_NONASK_PHY 215 /* * David Gibson <david@gibson.dropbear.id.au> requested this for * captures from the Linux kernel /dev/input/eventN devices. This * is used to communicate keystrokes and mouse movements from the * Linux kernel to display systems, such as Xorg. */ #define DLT_LINUX_EVDEV 216 /* * GSM Um and Abis interfaces, preceded by a "gsmtap" header. * * Requested by Harald Welte <laforge@gnumonks.org>. */ #define DLT_GSMTAP_UM 217 #define DLT_GSMTAP_ABIS 218 /* * MPLS, with an MPLS label as the link-layer header. * Requested by Michele Marchetto <michele@openbsd.org> on behalf * of OpenBSD. */ #define DLT_MPLS 219 /* * USB packets, beginning with a Linux USB header, with the USB header * padded to 64 bytes; required for memory-mapped access. */ #define DLT_USB_LINUX_MMAPPED 220 /* * DECT packets, with a pseudo-header; requested by * Matthias Wenzel <tcpdump@mazzoo.de>. */ #define DLT_DECT 221 /* * From: "Lidwa, Eric (GSFC-582.0)[SGT INC]" <eric.lidwa-1@nasa.gov> * Date: Mon, 11 May 2009 11:18:30 -0500 * * DLT_AOS. We need it for AOS Space Data Link Protocol. * I have already written dissectors for but need an OK from * legal before I can submit a patch. * */ #define DLT_AOS 222 /* * Wireless HART (Highway Addressable Remote Transducer) * From the HART Communication Foundation * IES/PAS 62591 * * Requested by Sam Roberts <vieuxtech@gmail.com>. */ #define DLT_WIHART 223 /* * Fibre Channel FC-2 frames, beginning with a Frame_Header. * Requested by Kahou Lei <kahou82@gmail.com>. */ #define DLT_FC_2 224 /* * Fibre Channel FC-2 frames, beginning with an encoding of the * SOF, and ending with an encoding of the EOF. * * The encodings represent the frame delimiters as 4-byte sequences * representing the corresponding ordered sets, with K28.5 * represented as 0xBC, and the D symbols as the corresponding * byte values; for example, SOFi2, which is K28.5 - D21.5 - D1.2 - D21.2, * is represented as 0xBC 0xB5 0x55 0x55. * * Requested by Kahou Lei <kahou82@gmail.com>. */ #define DLT_FC_2_WITH_FRAME_DELIMS 225 /* * Solaris ipnet pseudo-header; requested by Darren Reed <Darren.Reed@Sun.COM>. * * The pseudo-header starts with a one-byte version number; for version 2, * the pseudo-header is: * * struct dl_ipnetinfo { * u_int8_t dli_version; * u_int8_t dli_family; * u_int16_t dli_htype; * u_int32_t dli_pktlen; * u_int32_t dli_ifindex; * u_int32_t dli_grifindex; * u_int32_t dli_zsrc; * u_int32_t dli_zdst; * }; * * dli_version is 2 for the current version of the pseudo-header. * * dli_family is a Solaris address family value, so it's 2 for IPv4 * and 26 for IPv6. * * dli_htype is a "hook type" - 0 for incoming packets, 1 for outgoing * packets, and 2 for packets arriving from another zone on the same * machine. * * dli_pktlen is the length of the packet data following the pseudo-header * (so the captured length minus dli_pktlen is the length of the * pseudo-header, assuming the entire pseudo-header was captured). * * dli_ifindex is the interface index of the interface on which the * packet arrived. * * dli_grifindex is the group interface index number (for IPMP interfaces). * * dli_zsrc is the zone identifier for the source of the packet. * * dli_zdst is the zone identifier for the destination of the packet. * * A zone number of 0 is the global zone; a zone number of 0xffffffff * means that the packet arrived from another host on the network, not * from another zone on the same machine. * * An IPv4 or IPv6 datagram follows the pseudo-header; dli_family indicates * which of those it is. */ #define DLT_IPNET 226 /* * CAN (Controller Area Network) frames, with a pseudo-header as supplied * by Linux SocketCAN. See Documentation/networking/can.txt in the Linux * source. * * Requested by Felix Obenhuber <felix@obenhuber.de>. */ #define DLT_CAN_SOCKETCAN 227 /* * Raw IPv4/IPv6; different from DLT_RAW in that the DLT_ value specifies * whether it's v4 or v6. Requested by Darren Reed <Darren.Reed@Sun.COM>. */ #define DLT_IPV4 228 #define DLT_IPV6 229 /* * IEEE 802.15.4, exactly as it appears in the spec (no padding, no * nothing), and with no FCS at the end of the frame; requested by * Jon Smirl <jonsmirl@gmail.com>. */ #define DLT_IEEE802_15_4_NOFCS 230 /* * Raw D-Bus: * * http://www.freedesktop.org/wiki/Software/dbus * * messages: * * http://dbus.freedesktop.org/doc/dbus-specification.html#message-protocol-messages * * starting with the endianness flag, followed by the message type, etc., * but without the authentication handshake before the message sequence: * * http://dbus.freedesktop.org/doc/dbus-specification.html#auth-protocol * * Requested by Martin Vidner <martin@vidner.net>. */ #define DLT_DBUS 231 /* * Juniper-private data link type, as per request from * Hannes Gredler <hannes@juniper.net>. */ #define DLT_JUNIPER_VS 232 #define DLT_JUNIPER_SRX_E2E 233 #define DLT_JUNIPER_FIBRECHANNEL 234 /* * DVB-CI (DVB Common Interface for communication between a PC Card * module and a DVB receiver). See * * http://www.kaiser.cx/pcap-dvbci.html * * for the specification. * * Requested by Martin Kaiser <martin@kaiser.cx>. */ #define DLT_DVB_CI 235 /* * Variant of 3GPP TS 27.010 multiplexing protocol (similar to, but * *not* the same as, 27.010). Requested by Hans-Christoph Schemmel * <hans-christoph.schemmel@cinterion.com>. */ #define DLT_MUX27010 236 /* * STANAG 5066 D_PDUs. Requested by M. Baris Demiray * <barisdemiray@gmail.com>. */ #define DLT_STANAG_5066_D_PDU 237 /* * Juniper-private data link type, as per request from * Hannes Gredler <hannes@juniper.net>. */ #define DLT_JUNIPER_ATM_CEMIC 238 /* * NetFilter LOG messages * (payload of netlink NFNL_SUBSYS_ULOG/NFULNL_MSG_PACKET packets) * * Requested by Jakub Zawadzki <darkjames-ws@darkjames.pl> */ #define DLT_NFLOG 239 /* * Hilscher Gesellschaft fuer Systemautomation mbH link-layer type * for Ethernet packets with a 4-byte pseudo-header and always * with the payload including the FCS, as supplied by their * netANALYZER hardware and software. * * Requested by Holger P. Frommer <HPfrommer@hilscher.com> */ #define DLT_NETANALYZER 240 /* * Hilscher Gesellschaft fuer Systemautomation mbH link-layer type * for Ethernet packets with a 4-byte pseudo-header and FCS and * with the Ethernet header preceded by 7 bytes of preamble and * 1 byte of SFD, as supplied by their netANALYZER hardware and * software. * * Requested by Holger P. Frommer <HPfrommer@hilscher.com> */ #define DLT_NETANALYZER_TRANSPARENT 241 /* * IP-over-Infiniband, as specified by RFC 4391. * * Requested by Petr Sumbera <petr.sumbera@oracle.com>. */ #define DLT_IPOIB 242 #define DLT_MATCHING_MAX 242 /* highest value in the "matching" range */ /* * DLT and savefile link type values are split into a class and * a member of that class. A class value of 0 indicates a regular * DLT_/LINKTYPE_ value. */ #define DLT_CLASS(x) ((x) & 0x03ff0000) /* * The instruction encodings. */ /* instruction classes */ #define BPF_CLASS(code) ((code) & 0x07) #define BPF_LD 0x00 #define BPF_LDX 0x01 #define BPF_ST 0x02 #define BPF_STX 0x03 #define BPF_ALU 0x04 #define BPF_JMP 0x05 #define BPF_RET 0x06 #define BPF_MISC 0x07 /* ld/ldx fields */ #define BPF_SIZE(code) ((code) & 0x18) #define BPF_W 0x00 #define BPF_H 0x08 #define BPF_B 0x10 #define BPF_MODE(code) ((code) & 0xe0) #define BPF_IMM 0x00 #define BPF_ABS 0x20 #define BPF_IND 0x40 #define BPF_MEM 0x60 #define BPF_LEN 0x80 #define BPF_MSH 0xa0 /* alu/jmp fields */ #define BPF_OP(code) ((code) & 0xf0) #define BPF_ADD 0x00 #define BPF_SUB 0x10 #define BPF_MUL 0x20 #define BPF_DIV 0x30 #define BPF_OR 0x40 #define BPF_AND 0x50 #define BPF_LSH 0x60 #define BPF_RSH 0x70 #define BPF_NEG 0x80 #define BPF_JA 0x00 #define BPF_JEQ 0x10 #define BPF_JGT 0x20 #define BPF_JGE 0x30 #define BPF_JSET 0x40 #define BPF_SRC(code) ((code) & 0x08) #define BPF_K 0x00 #define BPF_X 0x08 /* ret - BPF_K and BPF_X also apply */ #define BPF_RVAL(code) ((code) & 0x18) #define BPF_A 0x10 /* misc */ #define BPF_MISCOP(code) ((code) & 0xf8) #define BPF_TAX 0x00 #define BPF_TXA 0x80 /* * The instruction data structure. */ struct bpf_insn { u_short code; u_char jt; u_char jf; bpf_u_int32 k; }; /* * Macros for insn array initializers. */ #define BPF_STMT(code, k) { (u_short)(code), 0, 0, k } #define BPF_JUMP(code, k, jt, jf) { (u_short)(code), jt, jf, k } /* * Structure to retrieve available DLTs for the interface. */ struct bpf_dltlist { u_int bfl_len; /* number of bfd_list array */ u_int *bfl_list; /* array of DLTs */ }; #ifdef _KERNEL #ifdef MALLOC_DECLARE MALLOC_DECLARE(M_BPF); #endif #ifdef SYSCTL_DECL SYSCTL_DECL(_net_bpf); #endif /* * Rotate the packet buffers in descriptor d. Move the store buffer into the * hold slot, and the free buffer ino the store slot. Zero the length of the * new store buffer. Descriptor lock should be held. */ #define ROTATE_BUFFERS(d) do { \ (d)->bd_hbuf = (d)->bd_sbuf; \ (d)->bd_hlen = (d)->bd_slen; \ (d)->bd_sbuf = (d)->bd_fbuf; \ (d)->bd_slen = 0; \ (d)->bd_fbuf = NULL; \ bpf_bufheld(d); \ } while (0) /* * Descriptor associated with each attached hardware interface. */ struct bpf_if { LIST_ENTRY(bpf_if) bif_next; /* list of all interfaces */ LIST_HEAD(, bpf_d) bif_dlist; /* descriptor list */ u_int bif_dlt; /* link layer type */ u_int bif_hdrlen; /* length of link header */ struct ifnet *bif_ifp; /* corresponding interface */ struct mtx bif_mtx; /* mutex for interface */ }; void bpf_bufheld(struct bpf_d *d); int bpf_validate(const struct bpf_insn *, int); void bpf_tap(struct bpf_if *, u_char *, u_int); void bpf_mtap(struct bpf_if *, struct mbuf *); void bpf_mtap2(struct bpf_if *, void *, u_int, struct mbuf *); void bpfattach(struct ifnet *, u_int, u_int); void bpfattach2(struct ifnet *, u_int, u_int, struct bpf_if **); void bpfdetach(struct ifnet *); void bpfilterattach(int); u_int bpf_filter(const struct bpf_insn *, u_char *, u_int, u_int); static __inline int bpf_peers_present(struct bpf_if *bpf) { if (!LIST_EMPTY(&bpf->bif_dlist)) return (1); return (0); } #define BPF_TAP(_ifp,_pkt,_pktlen) do { \ if (bpf_peers_present((_ifp)->if_bpf)) \ bpf_tap((_ifp)->if_bpf, (_pkt), (_pktlen)); \ } while (0) #define BPF_MTAP(_ifp,_m) do { \ if (bpf_peers_present((_ifp)->if_bpf)) { \ M_ASSERTVALID(_m); \ bpf_mtap((_ifp)->if_bpf, (_m)); \ } \ } while (0) #define BPF_MTAP2(_ifp,_data,_dlen,_m) do { \ if (bpf_peers_present((_ifp)->if_bpf)) { \ M_ASSERTVALID(_m); \ bpf_mtap2((_ifp)->if_bpf,(_data),(_dlen),(_m)); \ } \ } while (0) #endif /* * Number of scratch memory words (for BPF_LD|BPF_MEM and BPF_ST). */ #define BPF_MEMWORDS 16 #endif /* _NET_BPF_H_ */