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PCAP(3)			   Library Functions Manual		       PCAP(3)

NAME
       pcap - Packet Capture library

SYNOPSIS
       #include	<pcap.h>

       char errbuf[PCAP_ERRBUF_SIZE];

       pcap_t *pcap_open_live(const char *device, int snaplen,
	       int promisc, int	to_ms, char *errbuf)
       pcap_t *pcap_open_dead(int linktype, int	snaplen)
       pcap_t *pcap_open_offline(const char *fname, char *errbuf)
       pcap_dumper_t *pcap_dump_open(pcap_t *p,	const char *fname)

       int pcap_setnonblock(pcap_t *p, int nonblock, char *errbuf);
       int pcap_getnonblock(pcap_t *p, char *errbuf);

       int pcap_findalldevs(pcap_if_t **alldevsp, char *errbuf)
       void pcap_freealldevs(pcap_if_t *alldevs)
       char *pcap_lookupdev(char *errbuf)
       int pcap_lookupnet(const	char *device, bpf_u_int32 *netp,
	       bpf_u_int32 *maskp, char	*errbuf)

       int pcap_dispatch(pcap_t	*p, int	cnt,
	       pcap_handler callback, u_char *user)
       int pcap_loop(pcap_t *p,	int cnt,
	       pcap_handler callback, u_char *user)
       void pcap_dump(u_char *user, struct pcap_pkthdr *h,
	       u_char *sp)

       int pcap_compile(pcap_t *p, struct bpf_program *fp,
	       char *str, int optimize,	bpf_u_int32 netmask)
       int pcap_setfilter(pcap_t *p, struct bpf_program	*fp)
       void pcap_freecode(struct bpf_program *);

       const u_char *pcap_next(pcap_t *p, struct pcap_pkthdr *h)
       int pcap_next_ex(pcap_t *p, struct pcap_pkthdr **pkt_header,
	       const u_char **pkt_data)

       void pcap_breakloop(pcap_t *)

       int pcap_datalink(pcap_t	*p)
       int pcap_list_datalinks(pcap_t *p, int **dlt_buf);
       int pcap_set_datalink(pcap_t *p,	int dlt);
       int pcap_datalink_name_to_val(const char	*name);
       const char *pcap_datalink_val_to_name(int dlt);
       const char *pcap_datalink_val_to_description(int	dlt);
       int pcap_snapshot(pcap_t	*p)
       int pcap_is_swapped(pcap_t *p)
       int pcap_major_version(pcap_t *p)
       int pcap_minor_version(pcap_t *p)
       int pcap_stats(pcap_t *p, struct	pcap_stat *ps)
       FILE *pcap_file(pcap_t *p)
       int pcap_fileno(pcap_t *p)
       int pcap_get_selectable_fd(pcap_t *p)
       void pcap_perror(pcap_t *p, char	*prefix)
       char *pcap_geterr(pcap_t	*p)
       char *pcap_strerror(int error)
       const char *pcap_lib_version(void)

       void pcap_close(pcap_t *p)
       int pcap_dump_flush(pcap_dumper_t *p)
       FILE *pcap_dump_file(pcap_dumper_t *p)
       void pcap_dump_close(pcap_dumper_t *p)

DESCRIPTION
       The  Packet  Capture  library provides a	high level interface to	packet
       capture systems.	All packets on the network, even  those	 destined  for
       other hosts, are	accessible through this	mechanism.

ROUTINES
       NOTE:  errbuf  in  pcap_open_live(),  pcap_open_dead(),	pcap_open_off-
       line(),	pcap_setnonblock(),  pcap_getnonblock(),   pcap_findalldevs(),
       pcap_lookupdev(), and pcap_lookupnet() is assumed to be able to hold at
       least PCAP_ERRBUF_SIZE chars.

       pcap_open_live()	is used	to obtain a packet capture descriptor to  look
       at  packets on the network.  device is a	string that specifies the net-
       work device to open; on Linux systems with 2.2 or later kernels,	a  de-
       vice  argument of "any" or NULL can be used to capture packets from all
       interfaces.  snaplen specifies the maximum number of bytes to  capture.
       If  this	value is less than the size of a packet	that is	captured, only
       the first snaplen bytes of that packet will be captured and provided as
       packet data.  A value of	65535 should be	sufficient, on most if not all
       networks, to capture all	the data available from	the  packet.   promisc
       specifies  if  the interface is to be put into promiscuous mode.	 (Note
       that even if this parameter is false, the interface could  well	be  in
       promiscuous mode	for some other reason.)	 For now, this doesn't work on
       the "any" device; if an argument	of "any"  or  NULL  is	supplied,  the
       promisc flag is ignored.	 to_ms specifies the read timeout in millisec-
       onds.  The read timeout is used to arrange that the read	not  necessar-
       ily return immediately when a packet is seen, but that it wait for some
       amount of time to allow more packets to arrive  and  to	read  multiple
       packets from the	OS kernel in one operation.  Not all platforms support
       a read timeout; on platforms that don't,	the read timeout  is  ignored.
       A  zero value for to_ms,	on platforms that support a read timeout, will
       cause a read to wait forever to allow enough packets to arrive, with no
       timeout.	  errbuf  is used to return error or warning text.  It will be
       set to error text when pcap_open_live() fails and returns NULL.	errbuf
       may  also  be set to warning text when pcap_open_live() succeds;	to de-
       tect this case the caller should	store a	zero-length string  in	errbuf
       before  calling pcap_open_live()	and display the	warning	to the user if
       errbuf is no longer a zero-length string.

       pcap_open_dead()	is used	for creating a pcap_t structure	 to  use  when
       calling the other functions in libpcap.	It is typically	used when just
       using libpcap for compiling BPF code.

       pcap_open_offline() is called  to  open	a  ``savefile''	 for  reading.
       fname  specifies	 the  name  of the file	to open. The file has the same
       format as those used by tcpdump(1) and tcpslice(1).  The	name "-" in  a
       synonym for stdin.  errbuf is used to return error text and is only set
       when pcap_open_offline()	fails and returns NULL.

       pcap_dump_open()	is called to open a ``savefile'' for writing. The name
       "-" in a	synonym	for stdout.  NULL is returned on failure.  p is	a pcap
       struct as returned by pcap_open_offline() or  pcap_open_live().	 fname
       specifies  the  name  of	 the  file  to	open.	If  NULL  is returned,
       pcap_geterr() can be used to get	the error text.

       pcap_setnonblock()   puts   a   capture	 descriptor,	opened	  with
       pcap_open_live(), into ``non-blocking'' mode, or	takes it out of	``non-
       blocking'' mode,	depending on whether the nonblock argument is non-zero
       or  zero.  It has no effect on ``savefiles''.  If there is an error, -1
       is returned and errbuf is filled	in with	an appropriate error  message;
       otherwise, 0 is returned.  In ``non-blocking'' mode, an attempt to read
       from the	capture	descriptor with	pcap_dispatch()	will,  if  no  packets
       are  currently  available  to be	read, return 0 immediately rather than
       blocking	waiting	for packets to arrive.	 pcap_loop()  and  pcap_next()
       will not	work in	``non-blocking'' mode.

       pcap_getnonblock()  returns  the	 current ``non-blocking'' state	of the
       capture descriptor; it always returns 0 on ``savefiles''.  If there  is
       an  error,  -1  is returned and errbuf is filled	in with	an appropriate
       error message.

       pcap_findalldevs() constructs a list of network	devices	 that  can  be
       opened  with pcap_open_live().  (Note that there	may be network devices
       that cannot be opened with  pcap_open_live()  by	 the  process  calling
       pcap_findalldevs(),  because,  for example, that	process	might not have
       sufficient privileges to	open them for capturing; if so,	those  devices
       will  not  appear  on the list.)	 alldevsp is set to point to the first
       element of the list; each element of the	list is	of type	pcap_if_t, and
       has the following members:

	      next   if	 not  NULL, a pointer to the next element in the list;
		     NULL for the last element of the list

	      name   a pointer to a string giving a name  for  the  device  to
		     pass to pcap_open_live()

	      description
		     if	 not  NULL, a pointer to a string giving a human-read-
		     able description of the device

	      addresses
		     a pointer to the first element of a list of addresses for
		     the interface

	      flags  interface flags:

		     PCAP_IF_LOOPBACK
			    set	if the interface is a loopback interface

       Each  element  of the list of addresses is of type pcap_addr_t, and has
       the following members:

	      next   if	not NULL, a pointer to the next	element	in  the	 list;
		     NULL for the last element of the list

	      addr   a pointer to a struct sockaddr containing an address

	      netmask
		     if	not NULL, a pointer to a struct	sockaddr that contains
		     the netmask corresponding to the address  pointed	to  by
		     addr

	      broadaddr
		     if	not NULL, a pointer to a struct	sockaddr that contains
		     the  broadcast  address  corresponding  to	 the   address
		     pointed  to by addr; may be null if the interface doesn't
		     support broadcasts

	      dstaddr
		     if	not NULL, a pointer to a struct	sockaddr that contains
		     the  destination  address	corresponding  to  the address
		     pointed to	by addr; may be	null if	the interface isn't  a
		     point-to-point interface

       -1  is  returned	 on failure, in	which case errbuf is filled in with an
       appropriate error message; 0 is returned	on success.

       pcap_freealldevs() is used to  free  a  list  allocated	by  pcap_find-
       alldevs().

       pcap_lookupdev()	returns	a pointer to a network device suitable for use
       with pcap_open_live() and pcap_lookupnet().  If there is	an error, NULL
       is returned and errbuf is filled	in with	an appropriate error message.

       pcap_lookupnet()	is used	to determine the network number	and mask asso-
       ciated with the	network	 device	 device.   Both	 netp  and  maskp  are
       bpf_u_int32  pointers.  A return	of -1 indicates	an error in which case
       errbuf is filled	in with	an appropriate error message.

       pcap_dispatch() is used to collect and process packets.	cnt  specifies
       the maximum number of packets to	process	before returning.  This	is not
       a minimum number; when reading a	live capture, only  one	 bufferful  of
       packets	is read	at a time, so fewer than cnt packets may be processed.
       A cnt of	-1 processes all the packets received in one buffer when read-
       ing  a  live  capture,  or  all	the packets in the file	when reading a
       ``savefile''.  callback specifies a routine to be called	with three ar-
       guments:	 a  u_char  pointer which is passed in from pcap_dispatch(), a
       const struct pcap_pkthdr	pointer	to a structure with the	following mem-
       bers:

	      ts     a	struct timeval containing the time when	the packet was
		     captured

	      caplen a bpf_u_int32 giving the number of	bytes  of  the	packet
		     that are available	from the capture

	      len    a	bpf_u_int32  giving the	length of the packet, in bytes
		     (which might be more than the number of  bytes  available
		     from  the	capture, if the	length of the packet is	larger
		     than the maximum number of	bytes to capture)

       and a const u_char pointer to the first caplen (as given	in the	struct
       pcap_pkthdr a pointer to	which is passed	to the callback	routine) bytes
       of data from the	packet (which won't necessarily	be the entire  packet;
       to  capture  the	 entire	 packet,  you will have	to provide a value for
       snaplen in your call to pcap_open_live()	that is	sufficiently large  to
       get all of the packet's data - a	value of 65535 should be sufficient on
       most if not all networks).

       The number of packets read is returned.	0 is returned  if  no  packets
       were read from a	live capture (if, for example, they were discarded be-
       cause they didn't pass the packet filter, or if,	on platforms that sup-
       port  a read timeout that starts	before any packets arrive, the timeout
       expires before any packets arrive, or if	the file  descriptor  for  the
       capture device is in non-blocking mode and no packets were available to
       be read)	or if no more packets are available in a ``savefile.''	A  re-
       turn   of  -1  indicates	 an  error  in	which  case  pcap_perror()  or
       pcap_geterr() may be used to display the	error text.  A	return	of  -2
       indicates  that	the  loop terminated due to a call to pcap_breakloop()
       before  any  packets  were  processed.	If   your   application	  uses
       pcap_breakloop(),  make	sure  that you explicitly check	for -1 and -2,
       rather than just	checking for a return value < 0.

       NOTE: when reading a live capture, pcap_dispatch() will not necessarily
       return  when  the  read	times out; on some platforms, the read timeout
       isn't supported,	and, on	other platforms, the timer doesn't start until
       at  least  one packet arrives.  This means that the read	timeout	should
       NOT be used in, for example, an interactive application,	to  allow  the
       packet capture loop to ``poll'' for user	input periodically, as there's
       no guarantee that pcap_dispatch() will return  after  the  timeout  ex-
       pires.

       pcap_loop() is similar to pcap_dispatch() except	it keeps reading pack-
       ets until cnt packets are processed or an error occurs.	 It  does  not
       return  when  live  read	timeouts occur.	 Rather, specifying a non-zero
       read timeout to pcap_open_live()	and then calling  pcap_dispatch()  al-
       lows  the  reception and	processing of any packets that arrive when the
       timeout occurs.	A negative cnt causes pcap_loop() to loop forever  (or
       at  least until an error	occurs).  -1 is	returned on an error; 0	is re-
       turned if cnt is	exhausted; -2 is returned if the loop  terminated  due
       to  a  call  to pcap_breakloop()	before any packets were	processed.  If
       your application	uses pcap_breakloop(), make sure that  you  explicitly
       check for -1 and	-2, rather than	just checking for a return value < 0.

       pcap_next()  reads  the	next packet (by	calling	pcap_dispatch()	with a
       cnt of 1) and returns a u_char pointer to  the  data  in	 that  packet.
       (The  pcap_pkthdr struct	for that packet	is not supplied.)  NULL	is re-
       turned if an error occured, or if no packets were read from a live cap-
       ture (if, for example, they were	discarded because they didn't pass the
       packet filter, or if, on	platforms that support	a  read	 timeout  that
       starts  before any packets arrive, the timeout expires before any pack-
       ets arrive, or if the file descriptor for the capture device is in non-
       blocking	 mode and no packets were available to be read), or if no more
       packets are available in	a ``savefile.''	 Unfortunately,	 there	is  no
       way to determine	whether	an error occured or not.

       pcap_next_ex()  reads the next packet and returns a success/failure in-
       dication:

	      1	     the packet	was read without problems

	      0	     packets are being read from a live	capture, and the time-
		     out expired

	      -1     an	error occurred while reading the packet

	      -2     packets are being read from a ``savefile'', and there are
		     no	more packets to	read from the savefile.

       If the packet was read without problems,	the pointer pointed to by  the
       pkt_header  argument  is	set to point to	the pcap_pkthdr	struct for the
       packet, and the pointer pointed to by the pkt_data argument is  set  to
       point to	the data in the	packet.

       pcap_breakloop()	 sets  a  flag	that  will  force  pcap_dispatch()  or
       pcap_loop() to return rather than looping; they will return the	number
       of  packets  that  have been processed so far, or -2 if no packets have
       been processed so far.

       This routine is safe to use inside a signal handler on UNIX or  a  con-
       sole  control  handler  on  Windows,  as	 it merely sets	a flag that is
       checked within the loop.

       The flag	is checked in loops reading packets from the OS	- a signal  by
       itself will not necessarily terminate those loops - as well as in loops
       processing a set	of packets returned by the OS.	Note that if  you  are
       catching	 signals  on UNIX systems that support restarting system calls
       after a signal, and calling pcap_breakloop() in the signal handler, you
       must specify, when catching those signals, that system calls should NOT
       be restarted by that signal.  Otherwise,	if the	signal	interrupted  a
       call  reading  packets  in a live capture, when your signal handler re-
       turns after calling pcap_breakloop(), the call will be  restarted,  and
       the loop	will not terminate until more packets arrive and the call com-
       pletes.

       Note also that, in a  multi-threaded  application,  if  one  thread  is
       blocked	  in	pcap_dispatch(),    pcap_loop(),    pcap_next(),    or
       pcap_next_ex(), a call to pcap_breakloop() in a different  thread  will
       not unblock that	thread;	you will need to use whatever mechanism	the OS
       provides	for breaking a thread out of blocking calls in	order  to  un-
       block  the  thread, such	as thread cancellation in systems that support
       POSIX threads.

       Note that pcap_next() will, on some  platforms,	loop  reading  packets
       from  the OS; that loop will not	necessarily be terminated by a signal,
       so pcap_breakloop() should be used to terminate packet processing  even
       if pcap_next() is being used.

       pcap_breakloop()	 does  not  guarantee  that no further packets will be
       processed by pcap_dispatch() or pcap_loop() after it is called; at most
       one more	packet might be	processed.

       If  -2  is  returned  from  pcap_dispatch() or pcap_loop(), the flag is
       cleared,	so a subsequent	call will resume reading packets.  If a	 posi-
       tive  number is returned, the flag is not cleared, so a subsequent call
       will return -2 and clear	the flag.

       pcap_dump()  outputs  a	packet	to  the	  ``savefile''	 opened	  with
       pcap_dump_open().  Note that its	calling	arguments are suitable for use
       with pcap_dispatch() or pcap_loop().  If	called directly, the user  pa-
       rameter is of type pcap_dumper_t	as returned by pcap_dump_open().

       pcap_compile() is used to compile the string str	into a filter program.
       program is a pointer to a  bpf_program  struct  and  is	filled	in  by
       pcap_compile().	 optimize controls whether optimization	on the result-
       ing code	is performed.  netmask specifies the IPv4 netmask of the  net-
       work on which packets are being captured; it is used only when checking
       for IPv4	broadcast addresses in the filter program.  If the netmask  of
       the network on which packets are	being captured isn't known to the pro-
       gram, or	if packets are being captured on the Linux "any" pseudo-inter-
       face  that  can	capture	 on more than one network, a value of 0	can be
       supplied; tests for IPv4	broadcast addreses won't  be  done  correctly,
       but  all	 other tests in	the filter program will	be OK.	A return of -1
       indicates an error in which case	pcap_geterr() may be used  to  display
       the error text.

       pcap_compile_nopcap()  is similar to pcap_compile() except that instead
       of passing a pcap structure, one	passes the snaplen  and	 linktype  ex-
       plicitly.   It  is intended to be used for compiling filters for	direct
       BPF usage, without necessarily having called pcap_open().  A return  of
       -1  indicates  an  error;  the  error  text is unavailable.  (pcap_com-
       pile_nopcap() is	a wrapper around pcap_open_dead(), pcap_compile(), and
       pcap_close();  the  latter three	routines can be	used directly in order
       to get the error	text for a compilation error.)

       pcap_setfilter()	is used	to specify a filter program.  fp is a  pointer
       to  a  bpf_program  struct,  usually  the result	of a call to pcap_com-
       pile().	-1 is returned on failure, in which case pcap_geterr() may  be
       used to display the error text; 0 is returned on	success.

       pcap_freecode()	is  used  to  free up allocated	memory pointed to by a
       bpf_program struct generated by pcap_compile() when that	BPF program is
       no longer needed, for example after it has been made the	filter program
       for a pcap structure by a call to pcap_setfilter().

       pcap_datalink() returns the link	layer type; link layer	types  it  can
       return include:

	    DLT_NULL
		 BSD loopback encapsulation; the link layer header is a	4-byte
		 field,	in host	 byte  order,  containing  a  PF_  value  from
		 socket.h for the network-layer	protocol of the	packet.

		 Note  that  ``host  byte order'' is the byte order of the ma-
		 chine on which	the packets are	captured, and the  PF_	values
		 are  for  the OS of the machine on which the packets are cap-
		 tured;	if a live capture is being done, ``host	 byte  order''
		 is  the  byte order of	the machine capturing the packets, and
		 the PF_ values	are those of the OS of the  machine  capturing
		 the  packets,	but  if	a ``savefile'' is being	read, the byte
		 order and PF_ values are not necessarily those	of the machine
		 reading the capture file.

	    DLT_EN10MB
		 Ethernet (10Mb, 100Mb,	1000Mb,	and up)

	    DLT_IEEE802
		 IEEE 802.5 Token Ring

	    DLT_ARCNET
		 ARCNET

	    DLT_SLIP
		 SLIP; the link	layer header contains, in order:

		      a	 1-byte	 flag,	which is 0 for packets received	by the
		      machine and 1 for	packets	sent by	the machine;

		      a	1-byte field, the upper	4 bits of which	 indicate  the
		      type of packet, as per RFC 1144:

			   0x40	an unmodified IP datagram (TYPE_IP);

			   0x70	an   uncompressed-TCP	IP   datagram  (UNCOM-
				PRESSED_TCP), with that	byte being  the	 first
				byte  of  the  raw IP header on	the wire, con-
				taining	the connection number in the  protocol
				field;

			   0x80	a compressed-TCP IP datagram (COMPRESSED_TCP),
				with that byte being the  first	 byte  of  the
				compressed TCP/IP datagram header;

		      for  UNCOMPRESSED_TCP,  the  rest	 of  the  modified  IP
		      header, and for COMPRESSED_TCP,  the  compressed	TCP/IP
		      datagram header;

		 for a total of	16 bytes; the uncompressed IP datagram follows
		 the header.

	    DLT_PPP
		 PPP; if the first 2 bytes are 0xff  and  0x03,	 it's  PPP  in
		 HDLC-like  framing,  with  the	PPP header following those two
		 bytes,	otherwise it's PPP without framing, and	the packet be-
		 gins with the PPP header.

	    DLT_FDDI
		 FDDI

	    DLT_ATM_RFC1483
		 RFC 1483 LLC/SNAP-encapsulated	ATM; the packet	begins with an
		 IEEE 802.2 LLC	header.

	    DLT_RAW
		 raw IP; the packet begins with	an IP header.

	    DLT_PPP_SERIAL
		 PPP in	HDLC-like framing, as per RFC 1662, or Cisco PPP  with
		 HDLC  framing,	 as  per  section 4.3.1	of RFC 1547; the first
		 byte will be 0xFF for PPP in HDLC-like	framing, and  will  be
		 0x0F or 0x8F for Cisco	PPP with HDLC framing.

	    DLT_PPP_ETHER
		 PPPoE;	 the  packet  begins  with  a PPPoE header, as per RFC
		 2516.

	    DLT_C_HDLC
		 Cisco PPP with	HDLC framing, as  per  section	4.3.1  of  RFC
		 1547.

	    DLT_IEEE802_11
		 IEEE 802.11 wireless LAN

	    DLT_FRELAY
		 Frame Relay

	    DLT_LOOP
		 OpenBSD  loopback  encapsulation;  the	link layer header is a
		 4-byte	field, in network byte order, containing a  PF_	 value
		 from OpenBSD's	socket.h for the network-layer protocol	of the
		 packet.

		 Note that, if a ``savefile'' is being read, those PF_	values
		 are  not necessarily those of the machine reading the capture
		 file.

	    DLT_LINUX_SLL
		 Linux "cooked"	capture	encapsulation; the link	 layer	header
		 contains, in order:

		      a	 2-byte	"packet	type", in network byte order, which is
		      one of:

			   0	packet was sent	to us by somebody else

			   1	packet was broadcast by	somebody else

			   2	packet was multicast, but  not	broadcast,  by
				somebody else

			   3	packet	was  sent by somebody else to somebody
				else

			   4	packet was sent	by us

		      a	2-byte field, in  network  byte	 order,	 containing  a
		      Linux ARPHRD_ value for the link layer device type;

		      a	 2-byte	 field,	 in network byte order,	containing the
		      length of	the link layer address of the  sender  of  the
		      packet (which could be 0);

		      an  8-byte  field	containing that	number of bytes	of the
		      link layer header	(if there are more than	8 bytes,  only
		      the first	8 are present);

		      a	 2-byte	field containing an Ethernet protocol type, in
		      network byte order, or containing	 1  for	 Novell	 802.3
		      frames  without  an 802.2	LLC header or 4	for frames be-
		      ginning with an 802.2 LLC	header.

	    DLT_LTALK
		 Apple LocalTalk; the packet begins  with  an  AppleTalk  LLAP
		 header.

	    DLT_PFLOG
		 OpenBSD pflog;	the link layer header contains,	in order:

		      a	1-byte header length, in host byte order;

		      a	4-byte PF_ value, in host byte order;

		      a	 2-byte	 action	 code, in network byte order, which is
		      one of:

			   0	passed

			   1	dropped

			   2	scrubbed

		      a	2-byte reason code, in network byte  order,  which  is
		      one of:

			   0	match

			   1	bad offset

			   2	fragment

			   3	short

			   4	normalize

			   5	memory

		      a	16-character interface name;

		      a	 16-character ruleset name (only meaningful if subrule
		      is set);

		      a	4-byte rule number, in network byte order;

		      a	4-byte subrule number, in network byte order;

		      a	1-byte direction, in network byte order, which is  one
		      of:

			   0	incoming or outgoing

			   1	incoming

			   2	outgoing

	    DLT_PRISM_HEADER
		 Prism monitor mode information	followed by an 802.11 header.

	    DLT_IP_OVER_FC
		 RFC  2625  IP-over-Fibre  Channel, with the link-layer	header
		 being the Network_Header as described in that RFC.

	    DLT_SUNATM
		 SunATM	devices; the link layer	header contains, in order:

		      a	1-byte flag field, containing a	direction flag in  the
		      uppermost	 bit,  which is	set for	packets	transmitted by
		      the machine and clear for	packets	received  by  the  ma-
		      chine,  and  a  4-byte  traffic  type in the low-order 4
		      bits, which is one of:

			   0	raw traffic

			   1	LANE traffic

			   2	LLC-encapsulated traffic

			   3	MARS traffic

			   4	IFMP traffic

			   5	ILMI traffic

			   6	Q.2931 traffic

		      a	1-byte VPI value;

		      a	2-byte VCI field, in network byte order.

	    DLT_IEEE802_11_RADIO
		 link-layer information	followed by an	802.11	header	-  see
		 http://www.shaftnet.org/~pizza/software/capturefrm.txt	 for a
		 description of	the link-layer information.

	    DLT_ARCNET_LINUX
		 ARCNET, with no exception frames, reassembled packets	rather
		 than raw frames, and an extra 16-bit offset field between the
		 destination host and type bytes.

	    DLT_LINUX_IRDA
		 Linux-IrDA packets, with a DLT_LINUX_SLL header  followed  by
		 the IrLAP header.

       pcap_list_datalinks()  is used to get a list of the supported data link
       types  of  the  interface  associated   with   the   pcap   descriptor.
       pcap_list_datalinks()  allocates	 an  array  to	hold the list and sets
       *dlt_buf.  The caller is	responsible for	freeing	the array.  -1 is  re-
       turned  on failure; otherwise, the number of data link types in the ar-
       ray is returned.

       pcap_set_datalink() is used to set the current data link	 type  of  the
       pcap  descriptor	to the type specified by dlt.  -1 is returned on fail-
       ure.

       pcap_datalink_name_to_val() translates a	data link type name, which  is
       a  DLT_ name with the DLT_ removed, to the corresponding	data link type
       value.  The translation is case-insensitive.  -1	is returned  on	 fail-
       ure.

       pcap_datalink_val_to_name()  translates	a  data	link type value	to the
       corresponding data link type name.  NULL	is returned on failure.

       pcap_datalink_val_to_description() translates a data link type value to
       a  short	description of that data link type.  NULL is returned on fail-
       ure.

       pcap_list_datalinks() is	used to	get a list of the supported data  link
       types   of   the	  interface   associated  with	the  pcap  descriptor.
       pcap_list_datalinks() allocates an array	to  hold  the  list  and  sets
       *dlt_buf.   The caller is responsible for freeing the array.  -1	is re-
       turned on failure; otherwise, the number	of data	link types in the  ar-
       ray is returned.

       pcap_set_datalink()  is	used  to set the current data link type	of the
       pcap descriptor to the type specified by	dlt.  -1 is returned on	 fail-
       ure.

       pcap_snapshot()	  returns   the	  snapshot   length   specified	  when
       pcap_open_live()	was called.

       pcap_is_swapped() returns true if the current ``savefile'' uses a  dif-
       ferent byte order than the current system.

       pcap_major_version() returns the	major number of	the file format	of the
       savefile; pcap_minor_version() returns the minor	 number	 of  the  file
       format  of the savefile.	 The version number is stored in the header of
       the savefile.

       pcap_file() returns the standard	I/O stream of the ``savefile,''	 if  a
       ``savefile'' was	opened with pcap_open_offline(), or NULL, if a network
       device was opened with pcap_open_live().

       pcap_stats() returns 0 and fills	in a pcap_stat struct. The values rep-
       resent  packet  statistics from the start of the	run to the time	of the
       call. If	there is an error or the  underlying  packet  capture  doesn't
       support packet statistics, -1 is	returned and the error text can	be ob-
       tained with pcap_perror() or pcap_geterr().  pcap_stats() is  supported
       only  on	 live captures,	not on ``savefiles''; no statistics are	stored
       in ``savefiles'', so no statistics are available	when  reading  from  a
       ``savefile''.

       pcap_fileno()  returns  the  file descriptor number from	which captured
       packets are read, if a network device was opened	with pcap_open_live(),
       or -1, if a ``savefile''	was opened with	pcap_open_offline().

       pcap_get_selectable_fd()	returns, on UNIX, a file descriptor number for
       a file descriptor on which one can do a select()	or poll() to wait  for
       it  to be possible to read packets without blocking, if such a descrip-
       tor exists, or -1, if no	such descriptor	exists.	 Some network  devices
       opened with pcap_open_live() do not support select() or poll() (for ex-
       ample, regular network devices on FreeBSD 4.3 and 4.4, and  Endace  DAG
       devices), so -1 is returned for those devices.

       Note  that  on most versions of most BSDs (including Mac	OS X) select()
       and  poll()  do	not  work  correctly  on  BPF  devices;	  pcap_get_se-
       lectable_fd()  will  return a file descriptor on	most of	those versions
       (the exceptions being FreeBSD 4.3 and 4.4), a simple select() or	poll()
       will  not return	even after a timeout specified in pcap_open_live() ex-
       pires.  To work around this,  an	 application  that  uses  select()  or
       poll()  to wait for packets to arrive must put the pcap_t in non-block-
       ing mode, and must arrange that the select() or poll() have  a  timeout
       less  than  or  equal to	the timeout specified in pcap_open_live(), and
       must try	to read	packets	after  that  timeout  expires,	regardless  of
       whether	select()  or poll() indicated that the file descriptor for the
       pcap_t is ready to be read or not.  (That workaround will not  work  in
       FreeBSD	4.3 and	later; however,	in FreeBSD 4.6 and later, select() and
       poll() work correctly on	BPF devices, so	the  workaround	 isn't	neces-
       sary, although it does no harm.)

       pcap_get_selectable_fd()	is not available on Windows.

       pcap_perror() prints the	text of	the last pcap library error on stderr,
       prefixed	by prefix.

       pcap_geterr() returns the error text pertaining to the  last  pcap  li-
       brary  error.   NOTE:  the pointer it returns will no longer point to a
       valid error message string after	the pcap_t passed to it	is closed; you
       must use	or copy	the string before closing the pcap_t.

       pcap_strerror() is provided in case strerror(1) isn't available.

       pcap_lib_version()  returns  a  pointer	to a string giving information
       about the version of the	libpcap	library	being used; note that it  con-
       tains more information than just	a version number.

       pcap_close()  closes  the  files	 associated with p and deallocates re-
       sources.

       pcap_dump_file()	returns	the standard I/O stream	 of  the  ``savefile''
       opened by pcap_dump_open().

       pcap_dump_flush()  flushes  the	output	buffer to the ``savefile,'' so
       that any	packets	written	with pcap_dump() but not yet  written  to  the
       ``savefile'' will be written.  -1 is returned on	error, 0 on success.

       pcap_dump_close() closes	the ``savefile.''

SEE ALSO
       tcpdump(1), tcpslice(1)

AUTHORS
       The original authors are:

       Van  Jacobson,  Craig  Leres  and  Steven  McCanne, all of the Lawrence
       Berkeley	National Laboratory, University	of California, Berkeley, CA.

       The current version is available	from "The Tcpdump Group"'s Web site at

	      http://www.tcpdump.org/

BUGS
       Please send problems, bugs, questions, desirable	enhancements, etc. to:

	      tcpdump-workers@tcpdump.org

       Please send source code contributions, etc. to:

	      patches@tcpdump.org

			       27 February 2004			       PCAP(3)

NAME | SYNOPSIS | DESCRIPTION | ROUTINES | SEE ALSO | AUTHORS | BUGS

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