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.\" @(#) $Header: /tcpdump/master/libpcap/pcap.3pcap.in,v 1.1 2008-10-21 07:33:01 guy Exp $ .\" .\" Copyright (c) 1994, 1996, 1997 .\" The Regents of the University of California. All rights reserved. .\" .\" Redistribution and use in source and binary forms, with or without .\" modification, are permitted provided that: (1) source code distributions .\" retain the above copyright notice and this paragraph in its entirety, (2) .\" distributions including binary code include the above copyright notice and .\" this paragraph in its entirety in the documentation or other materials .\" provided with the distribution, and (3) all advertising materials mentioning .\" features or use of this software display the following acknowledgement: .\" ``This product includes software developed by the University of California, .\" Lawrence Berkeley Laboratory and its contributors.'' 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 ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED .\" WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF .\" MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. .\" .TH PCAP 3PCAP "4 April 2008" .SH NAME pcap \- Packet Capture library .SH SYNOPSIS .nf .ft B #include <pcap/pcap.h> .LP .ft B .ft .fi .SH 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. It also supports saving captured packets to a ``savefile'', and reading packets from a ``savefile''. .SS Opening a capture handle for reading To open a handle for a live capture, given the name of the network or other interface on which the capture should be done, call .BR pcap_create (), set the appropriate options on the handle, and then activate it with .BR pcap_activate (). .PP To obtain a list of devices that can be opened for a live capture, call .BR pcap_findalldevs (); to free the list returned by .BR pcap_findalldevs (), call .BR pcap_freealldevs (). .BR pcap_lookupdev () will return the first device on that list that is not a ``loopback`` network interface. .PP To open a handle for a ``savefile'' from which to read packets, given the pathname of the ``savefile'', call .BR pcap_open_offline (); to set up a handle for a ``savefile'', given a .B "FILE\ *" referring to a file already opened for reading, call .BR pcap_fopen_offline (). .PP In order to get a ``fake'' .B pcap_t for use in routines that require a .B pcap_t as an argument, such as routines to open a ``savefile'' for writing and to compile a filter expression, call .BR pcap_open_dead (). .PP .BR pcap_create (), .BR pcap_open_offline (), .BR pcap_fopen_offline (), and .BR pcap_open_dead () return a pointer to a .BR pcap_t , which is the handle used for reading packets from the capture stream or the ``savefile'', and for finding out information about the capture stream or ``savefile''. To close a handle, use .BR pcap_close (). .PP The options that can be set on a capture handle include .IP "snapshot length" If, when capturing, you capture the entire contents of the packet, that requires more CPU time to copy the packet to your application, more disk and possibly network bandwidth to write the packet data to a file, and more disk space to save the packet. If you don't need the entire contents of the packet - for example, if you are only interested in the TCP headers of packets - you can set the "snapshot length" for the capture to an appropriate value. If the snapshot length is set to .IR snaplen , and .I snaplen is less than the size of a packet that is captured, only the first .I snaplen bytes of that packet will be captured and provided as packet data. .IP A snapshot length of 65535 should be sufficient, on most if not all networks, to capture all the data available from the packet. .IP The snapshot length is set with .BR pcap_set_snaplen (). .IP "promiscuous mode" On broadcast LANs such as Ethernet, if the network isn't switched, or if the adapter is connected to a "mirror port" on a switch to which all packets passing through the switch are sent, a network adapter receives all packets on the LAN, including unicast or multicast packets not sent to a network address that the network adapter isn't configured to recognize. .IP Normally, the adapter will discard those packets; however, many network adapters support "promiscuous mode", which is a mode in which all packets, even if they are not sent to an address that the adapter recognizes, are provided to the host. This is useful for passively capturing traffic between two or more other hosts for analysis. .IP Note that even if an application does not set promiscuous mode, the adapter could well be in promiscuous mode for some other reason. .IP For now, this doesn't work on the "any" device; if an argument of "any" or NULL is supplied, the setting of promiscuous mode is ignored. .IP Promiscuous mode is set with .BR pcap_set_promisc (). .IP "monitor mode" On IEEE 802.11 wireless LANs, even if an adapter is in promiscuous mode, it will supply to the host only frames for the network with which it's associated. It might also supply only data frames, not management or control frames, and might not provide the 802.11 header or radio information pseudo-header for those frames. .IP In "monitor mode", sometimes also called "rfmon mode" (for "Radio Frequency MONitor"), the adapter will supply all frames that it receives, with 802.11 headers, and might supply a pseudo-header with radio information about the frame as well. .IP Note that in monitor mode the adapter might disassociate from the network with which it's associated, so that you will not be able to use any wireless networks with that adapter. This could prevent accessing files on a network server, or resolving host names or network addresses, if you are capturing in monitor mode and are not connected to another network with another adapter. .IP Monitor mode is set with .BR pcap_set_rfmon (), and .BR pcap_can_set_rfmon () can be used to determine whether an adapter can be put into monitor mode. .IP "read timeout" If, when capturing, packets are delivered as soon as they arrive, the application capturing the packets will be woken up for each packet as it arrives, and might have to make one or more calls to the operating system to fetch each packet. .IP If, instead, packets are not delivered as soon as they arrive, but are delivered after a short delay (called a "read timeout"), more than one packet can be accumulated before the packets are delivered, so that a single wakeup would be done for multiple packets, and each set of calls made to the operating system would supply multiple packets, rather than a single packet. This reduces the per-packet CPU overhead if packets are arriving at a high rate, increasing the number of packets per second that can be captured. .IP The read timeout is required so that an application won't wait for the operating system's capture buffer to fill up before packets are delivered; if packets are arriving slowly, that wait could take an arbitrarily long period of time. .IP Not all platforms support a read timeout; on platforms that don't, the read timeout is ignored. A zero value for the timeout, on platforms that support a read timeout, will cause a read to wait forever to allow enough packets to arrive, with no timeout. .IP .BR NOTE : the read timeout cannot be used to cause calls that read packets to return within a limited period of time, because, 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 .B NOT be used, for example, in an interactive application to allow the packet capture loop to ``poll'' for user input periodically, as there's no guarantee that a call reading packets will return after the timeout expires even if no packets have arrived. .IP The read timeout is set with .BR pcap_set_timeout (). .IP "buffer size" Packets that arrive for a capture are stored in a buffer, so that they do not have to be read by the application as soon as they arrive. On some platforms, the buffer's size can be set; a size that's too small could mean that, if too many packets are being captured and the snapshot length doesn't limit the amount of data that's buffered, packets could be dropped if the buffer fills up before the application can read packets from it, while a size that's too large could use more non-pageable operating system memory than is necessary to prevent packets from being dropped. .IP The buffer size is set with .BR pcap_set_buffer_size (). .IP "timestamp type" On some platforms, the time stamp given to packets on live captures can come from different sources that can have different resolutions or that can have different relationships to the time values for the current time supplied by routines on the native operating system. See .BR pcap-tstamp (@MAN_MISC_INFO@) for a list of time stamp types. .IP The time stamp type is set with .BR pcap_set_tstamp_type (). .PP Reading packets from a network interface may require that you have special privileges: .TP .B Under SunOS 3.x or 4.x with NIT or BPF: You must have read access to .I /dev/nit or .IR /dev/bpf* . .TP .B Under Solaris with DLPI: You must have read/write access to the network pseudo device, e.g. .IR /dev/le . On at least some versions of Solaris, however, this is not sufficient to allow .I tcpdump to capture in promiscuous mode; on those versions of Solaris, you must be root, or the application capturing packets must be installed setuid to root, in order to capture in promiscuous mode. Note that, on many (perhaps all) interfaces, if you don't capture in promiscuous mode, you will not see any outgoing packets, so a capture not done in promiscuous mode may not be very useful. .IP In newer versions of Solaris, you must have been given the .B net_rawaccess privilege; this is both necessary and sufficient to give you access to the network pseudo-device - there is no need to change the privileges on that device. A user can be given that privilege by, for example, adding that privilege to the user's .B defaultpriv key with the .B usermod (1M) command. .TP .B Under HP-UX with DLPI: You must be root or the application capturing packets must be installed setuid to root. .TP .B Under IRIX with snoop: You must be root or the application capturing packets must be installed setuid to root. .TP .B Under Linux: You must be root or the application capturing packets must be installed setuid to root (unless your distribution has a kernel that supports capability bits such as CAP_NET_RAW and code to allow those capability bits to be given to particular accounts and to cause those bits to be set on a user's initial processes when they log in, in which case you must have CAP_NET_RAW in order to capture and CAP_NET_ADMIN to enumerate network devices with, for example, the .B \-D flag). .TP .B Under ULTRIX and Digital UNIX/Tru64 UNIX: Any user may capture network traffic. However, no user (not even the super-user) can capture in promiscuous mode on an interface unless the super-user has enabled promiscuous-mode operation on that interface using .IR pfconfig (8), and no user (not even the super-user) can capture unicast traffic received by or sent by the machine on an interface unless the super-user has enabled copy-all-mode operation on that interface using .IR pfconfig , so .I useful packet capture on an interface probably requires that either promiscuous-mode or copy-all-mode operation, or both modes of operation, be enabled on that interface. .TP .B Under BSD (this includes Mac OS X): You must have read access to .I /dev/bpf* on systems that don't have a cloning BPF device, or to .I /dev/bpf on systems that do. On BSDs with a devfs (this includes Mac OS X), this might involve more than just having somebody with super-user access setting the ownership or permissions on the BPF devices - it might involve configuring devfs to set the ownership or permissions every time the system is booted, if the system even supports that; if it doesn't support that, you might have to find some other way to make that happen at boot time. .PP Reading a saved packet file doesn't require special privileges. .PP The packets read from the handle may include a ``pseudo-header'' containing various forms of packet meta-data, and probably includes a link-layer header whose contents can differ for different network interfaces. To determine the format of the packets supplied by the handle, call .BR pcap_datalink (); .I http://www.tcpdump.org/linktypes.html lists the values it returns and describes the packet formats that correspond to those values. .PP To obtain the .B "FILE\ *" corresponding to a .B pcap_t opened for a ``savefile'', call .BR pcap_file (). .TP .B Routines .RS .TP .BR pcap_create (3PCAP) get a .B pcap_t for live capture .TP .BR pcap_activate (3PCAP) activate a .B pcap_t for live capture .TP .BR pcap_findalldevs (3PCAP) get a list of devices that can be opened for a live capture .TP .BR pcap_freealldevs (3PCAP) free list of devices .TP .BR pcap_lookupdev (3PCAP) get first non-loopback device on that list .TP .BR pcap_open_offline (3PCAP) open a .B pcap_t for a ``savefile'', given a pathname .TP .BR pcap_fopen_offline (3PCAP) open a .B pcap_t for a ``savefile'', given a .B "FILE\ *" .TP .BR pcap_open_dead (3PCAP) create a ``fake'' .B pcap_t .TP .BR pcap_close (3PCAP) close a .B pcap_t .TP .BR pcap_set_snaplen (3PCAP) set the snapshot length for a not-yet-activated .B pcap_t for live capture .TP .BR pcap_snapshot (3PCAP) get the snapshot length for a .B pcap_t .TP .BR pcap_set_promisc (3PCAP) set promiscuous mode for a not-yet-activated .B pcap_t for live capture .TP .BR pcap_set_rfmon (3PCAP) set monitor mode for a not-yet-activated .B pcap_t for live capture .TP .BR pcap_can_set_rfmon (3PCAP) determine whether monitor mode can be set for a .B pcap_t for live capture .TP .BR pcap_set_timeout (3PCAP) set read timeout for a not-yet-activated .B pcap_t for live capture .TP .BR pcap_set_buffer_size (3PCAP) set buffer size for a not-yet-activated .B pcap_t for live capture .TP .BR pcap_set_tstamp_type (3PCAP) set time stamp type for a not-yet-activated .B pcap_t for live capture .TP .BR pcap_list_tstamp_types (3PCAP) get list of available time stamp types for a not-yet-activated .B pcap_t for live capture .TP .BR pcap_free_tstamp_types (3PCAP) free list of available time stamp types .TP .BR pcap_tstamp_type_val_to_name (3PCAP) get name for a time stamp type .TP .BR pcap_tstamp_type_val_to_description (3PCAP) get description for a time stamp type .TP .BR pcap_tstamp_name_to_val (3PCAP) get time stamp type corresponding to a name .TP .BR pcap_datalink (3PCAP) get link-layer header type for a .B pcap_t .TP .BR pcap_file (3PCAP) get the .B "FILE\ *" for a .B pcap_t opened for a ``savefile'' .TP .BR pcap_is_swapped (3PCAP) determine whether a ``savefile'' being read came from a machine with the opposite byte order .TP .BR pcap_major_version (3PCAP) .PD 0 .TP .BR pcap_minor_version (3PCAP) get the major and minor version of the file format version for a ``savefile'' .PD .RE .SS Selecting a link-layer header type for a live capture Some devices may provide more than one link-layer header type. To obtain a list of all link-layer header types provided by a device, call .BR pcap_list_datalinks () on an activated .B pcap_t for the device. To free a list of link-layer header types, call .BR pcap_free_datalinks (). To set the link-layer header type for a device, call .BR pcap_set_datalink (). This should be done after the device has been activated but before any packets are read and before any filters are compiled or installed. .TP .B Routines .RS .TP .BR pcap_list_datalinks (3PCAP) get a list of link-layer header types for a device .TP .BR pcap_free_datalinks (3PCAP) free list of link-layer header types .TP .BR pcap_set_datalink (3PCAP) set link-layer header type for a device .TP .BR pcap_datalink_val_to_name (3PCAP) get name for a link-layer header type .TP .BR pcap_datalink_val_to_description (3PCAP) get description for a link-layer header type .TP .BR pcap_datalink_name_to_val (3PCAP) get link-layer header type corresponding to a name .RE .SS Reading packets Packets are read with .BR pcap_dispatch () or .BR pcap_loop (), which process one or more packets, calling a callback routine for each packet, or with .BR pcap_next () or .BR pcap_next_ex (), which return the next packet. The callback for .BR pcap_dispatch () and .BR pcap_loop () is supplied a pointer to a .IR "struct pcap_pkthdr" , which includes the following members: .RS .TP .B ts a .I struct timeval containing the time when the packet was captured .TP .B caplen a .I bpf_u_int32 giving the number of bytes of the packet that are available from the capture .TP .B len a .I 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). .RE .PP .BR pcap_next_ex () supplies that pointer through a pointer argument. .BR pcap_next () is passed an argument that points to a .I struct pcap_pkthdr structure, and fills it in. .PP The callback is also supplied a .I const u_char pointer to the first .B caplen (as given in the .I struct pcap_pkthdr a pointer to which is passed to the callback routine) bytes of data from the packet. This won't necessarily be the entire packet; to capture the entire packet, you will have to provide a value for .I snaplen in your call to .BR pcap_set_snaplen () 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). When reading from a ``savefile'', the snapshot length specified when the capture was performed will limit the amount of packet data available. .BR pcap_next () returns that pointer; .BR pcap_next_ex () supplies that pointer through a pointer argument. .PP To force the loop in .BR pcap_dispatch () or .BR pcap_loop () to terminate, call .BR pcap_breakloop (). .PP By default, when reading packets from an interface opened for a live capture, .BR pcap_dispatch (), .BR pcap_next (), and .BR pcap_next_ex () will, if no packets are currently available to be read, block waiting for packets to become available. On some, but .I not all, platforms, if a read timeout was specified, the wait will terminate after the read timeout expires; applications should be prepared for this, as it happens on some platforms, but should not rely on it, as it does not happen on other platforms. .PP A handle can be put into ``non-blocking mode'', so that those routines will, rather than blocking, return an indication that no packets are available to read. Call .BR pcap_setnonblock () to put a handle into non-blocking mode or to take it out of non-blocking mode; call .BR pcap_getnonblock () to determine whether a handle is in non-blocking mode. Note that non-blocking mode does not work correctly in Mac OS X 10.6. .PP Non-blocking mode is often combined with routines such as .BR select (2) or .BR poll (2) or other routines a platform offers to wait for the availability of data on any of a set of descriptors. To obtain, for a handle, a descriptor that can be used in those routines, call .BR pcap_get_selectable_fd (). Not all handles have such a descriptor available; .BR pcap_get_selectable_fd () will return \-1 if no such descriptor exists. In addition, for various reasons, one or more of those routines will not work properly with the descriptor; the documentation for .BR pcap_get_selectable_fd () gives details. .TP .B Routines .RS .TP .BR pcap_dispatch (3PCAP) read a bufferful of packets from a .B pcap_t open for a live capture or the full set of packets from a .B pcap_t open for a ``savefile'' .TP .BR pcap_loop (3PCAP) read packets from a .B pcap_t until an interrupt or error occurs .TP .BR pcap_next (3PCAP) read the next packet from a .B pcap_t without an indication whether an error occurred .TP .BR pcap_next_ex (3PCAP) read the next packet from a .B pcap_t with an error indication on an error .TP .BR pcap_breakloop (3PCAP) prematurely terminate the loop in .BR pcap_dispatch () or .BR pcap_loop () .TP .BR pcap_setnonblock (3PCAP) set or clear non-blocking mode on a .B pcap_t .TP .BR pcap_getnonblock (3PCAP) get the state of non-blocking mode for a .B pcap_t .TP .BR pcap_get_selectable_fd (3PCAP) attempt to get a descriptor for a .B pcap_t that can be used in calls such as .BR select (2) and .BR poll (2) .RE .SS Filters In order to cause only certain packets to be returned when reading packets, a filter can be set on a handle. For a live capture, the filtering will be performed in kernel mode, if possible, to avoid copying ``uninteresting'' packets from the kernel to user mode. .PP A filter can be specified as a text string; the syntax and semantics of the string are as described by .BR pcap-filter (@MAN_MISC_INFO@). A filter string is compiled into a program in a pseudo-machine-language by .BR pcap_compile () and the resulting program can be made a filter for a handle with .BR pcap_setfilter (). The result of .BR pcap_compile () can be freed with a call to .BR pcap_freecode (). .BR pcap_compile () may require a network mask for certain expressions in the filter string; .BR pcap_lookupnet () can be used to find the network address and network mask for a given capture device. .PP A compiled filter can also be applied directly to a packet that has been read using .BR pcap_offline_filter (). .TP .B Routines .RS .TP .BR pcap_compile (3PCAP) compile filter expression to a pseudo-machine-language code program .TP .BR pcap_freecode (3PCAP) free a filter program .TP .BR pcap_setfilter (3PCAP) set filter for a .B pcap_t .TP .BR pcap_lookupnet (3PCAP) get network address and network mask for a capture device .TP .BR pcap_offline_filter (3PCAP) apply a filter program to a packet .RE .SS Incoming and outgoing packets By default, libpcap will attempt to capture both packets sent by the machine and packets received by the machine. To limit it to capturing only packets received by the machine or, if possible, only packets sent by the machine, call .BR pcap_setdirection (). .TP .BR Routines .RS .TP .BR pcap_setdirection (3PCAP) specify whether to capture incoming packets, outgoing packets, or both .RE .SS Capture statistics To get statistics about packets received and dropped in a live capture, call .BR pcap_stats (). .TP .B Routines .RS .TP .BR pcap_stats (3PCAP) get capture statistics .RE .SS Opening a handle for writing captured packets To open a ``savefile`` to which to write packets, given the pathname the ``savefile'' should have, call .BR pcap_dump_open (). To open a ``savefile`` to which to write packets, given the pathname the ``savefile'' should have, call .BR pcap_dump_open (); to set up a handle for a ``savefile'', given a .B "FILE\ *" referring to a file already opened for writing, call .BR pcap_dump_fopen (). They each return pointers to a .BR pcap_dumper_t , which is the handle used for writing packets to the ``savefile''. If it succeeds, it will have created the file if it doesn't exist and truncated the file if it does exist. To close a .BR pcap_dumper_t , call .BR pcap_dump_close (). .TP .B Routines .RS .TP .BR pcap_dump_open (3PCAP) open a .B pcap_dumper_t for a ``savefile``, given a pathname .TP .BR pcap_dump_fopen (3PCAP) open a .B pcap_dumper_t for a ``savefile``, given a .B "FILE\ *" .TP .BR pcap_dump_close (3PCAP) close a .B pcap_dumper_t .TP .BR pcap_dump_file (3PCAP) get the .B "FILE\ *" for a .B pcap_dumper_t opened for a ``savefile'' .RE .SS Writing packets To write a packet to a .BR pcap_dumper_t , call .BR pcap_dump (). Packets written with .BR pcap_dump () may be buffered, rather than being immediately written to the ``savefile''. Closing the .B pcap_dumper_t will cause all buffered-but-not-yet-written packets to be written to the ``savefile''. To force all packets written to the .BR pcap_dumper_t , and not yet written to the ``savefile'' because they're buffered by the .BR pcap_dumper_t , to be written to the ``savefile'', without closing the .BR pcap_dumper_t , call .BR pcap_dump_flush (). .TP .B Routines .RS .TP .BR pcap_dump (3PCAP) write packet to a .B pcap_dumper_t .TP .BR pcap_dump_flush (3PCAP) flush buffered packets written to a .B pcap_dumper_t to the ``savefile'' .TP .BR pcap_dump_ftell (3PCAP) get current file position for a .B pcap_dumper_t .RE .SS Injecting packets If you have the required privileges, you can inject packets onto a network with a .B pcap_t for a live capture, using .BR pcap_inject () or .BR pcap_sendpacket (). (The two routines exist for compatibility with both OpenBSD and WinPcap; they perform the same function, but have different return values.) .TP .B Routines .RS .TP .BR pcap_inject (3PCAP) .PD 0 .TP .BR pcap_sendpacket (3PCAP) transmit a packet .PD .RE .SS Reporting errors Some routines return error or warning status codes; to convert them to a string, use .BR pcap_statustostr (). .TP .B Routines .RS .TP .BR pcap_statustostr (3PCAP) get a string for an error or warning status code .RE .SS Getting library version information To get a string giving version information about libpcap, call .BR pcap_library_version (). .TP .B Routines .RS .TP .BR pcap_library_version (3PCAP) get library version string .RE .SH BACKWARDS COMPATIBILITY .PP In versions of libpcap prior to 1.0, the .B pcap.h header file was not in a .B pcap directory on most platforms; if you are writing an application that must work on versions of libpcap prior to 1.0, include .BR <pcap.h> , which will include .B <pcap/pcap.h> for you, rather than including .BR <pcap/pcap.h> . .PP .BR pcap_create () and .BR pcap_activate () were not available in versions of libpcap prior to 1.0; if you are writing an application that must work on versions of libpcap prior to 1.0, either use .BR pcap_open_live () to get a handle for a live capture or, if you want to be able to use the additional capabilities offered by using .BR pcap_create () and .BR pcap_activate (), use an .BR autoconf (1) script or some other configuration script to check whether the libpcap 1.0 APIs are available and use them only if they are. .SH SEE ALSO autoconf(1), tcpdump(1), tcpslice(1), pcap-filter(@MAN_MISC_INFO@), pfconfig(8), usermod(1M) .SH AUTHORS The original authors of libpcap are: .LP Van Jacobson, Craig Leres and Steven McCanne, all of the Lawrence Berkeley National Laboratory, University of California, Berkeley, CA. .LP The current version is available from "The Tcpdump Group"'s Web site at .LP .RS .I http://www.tcpdump.org/ .RE .SH BUGS Please send problems, bugs, questions, desirable enhancements, etc. to: .LP .RS tcpdump-workers@lists.tcpdump.org .RE