ada6f083b9
MFC after: 1 month
938 lines
28 KiB
Plaintext
938 lines
28 KiB
Plaintext
.\" Copyright (c) 1994, 1996, 1997
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.\" The Regents of the University of California. All rights reserved.
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.\"
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.\" Redistribution and use in source and binary forms, with or without
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.\" modification, are permitted provided that: (1) source code distributions
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.\" retain the above copyright notice and this paragraph in its entirety, (2)
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.\" distributions including binary code include the above copyright notice and
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.\" this paragraph in its entirety in the documentation or other materials
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.\" provided with the distribution, and (3) all advertising materials mentioning
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.\" features or use of this software display the following acknowledgement:
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.\" ``This product includes software developed by the University of California,
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.\" Lawrence Berkeley Laboratory and its contributors.'' Neither the name of
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.\" the University nor the names of its contributors may be used to endorse
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.\" or promote products derived from this software without specific prior
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.\" written permission.
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.\" THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED
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.\" WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF
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.\" MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
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.\"
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.TH PCAP 3PCAP "8 March 2015"
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.SH NAME
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pcap \- Packet Capture library
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.SH SYNOPSIS
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.nf
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.ft B
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#include <pcap/pcap.h>
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.LP
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.ft B
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.ft
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.fi
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.SH DESCRIPTION
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The Packet Capture library
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provides a high level interface to packet capture systems. All packets
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on the network, even those destined for other hosts, are accessible
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through this mechanism.
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It also supports saving captured packets to a ``savefile'', and reading
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packets from a ``savefile''.
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.SS Opening a capture handle for reading
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To open a handle for a live capture, given the name of the network or
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other interface on which the capture should be done, call
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.BR pcap_create (),
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set the appropriate options on the handle, and then activate it with
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.BR pcap_activate ().
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.PP
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To obtain a list of devices that can be opened for a live capture, call
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.BR pcap_findalldevs ();
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to free the list returned by
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.BR pcap_findalldevs (),
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call
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.BR pcap_freealldevs ().
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.BR pcap_lookupdev ()
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will return the first device on that list that is not a ``loopback``
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network interface.
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.PP
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To open a handle for a ``savefile'' from which to read packets, given the
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pathname of the ``savefile'', call
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.BR pcap_open_offline ();
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to set up a handle for a ``savefile'', given a
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.B "FILE\ *"
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referring to a file already opened for reading, call
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.BR pcap_fopen_offline ().
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.PP
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In order to get a ``fake''
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.B pcap_t
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for use in routines that require a
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.B pcap_t
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as an argument, such as routines to open a ``savefile'' for writing and
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to compile a filter expression, call
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.BR pcap_open_dead ().
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.PP
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.BR pcap_create (),
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.BR pcap_open_offline (),
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.BR pcap_fopen_offline (),
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and
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.BR pcap_open_dead ()
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return a pointer to a
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.BR pcap_t ,
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which is the handle used for reading packets from the capture stream or
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the ``savefile'', and for finding out information about the capture
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stream or ``savefile''.
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To close a handle, use
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.BR pcap_close ().
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.PP
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The options that can be set on a capture handle include
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.IP "snapshot length"
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If, when capturing, you capture the entire contents of the packet, that
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requires more CPU time to copy the packet to your application, more disk
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and possibly network bandwidth to write the packet data to a file, and
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more disk space to save the packet. If you don't need the entire
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contents of the packet - for example, if you are only interested in the
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TCP headers of packets - you can set the "snapshot length" for the
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capture to an appropriate value. If the snapshot length is set to
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.IR snaplen ,
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and
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.I snaplen
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is less
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than the size of a packet that is captured, only the first
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.I snaplen
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bytes of that packet will be captured and provided as packet data.
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.IP
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A snapshot length of 65535 should be sufficient, on most if not all
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networks, to capture all the data available from the packet.
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.IP
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The snapshot length is set with
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.BR pcap_set_snaplen ().
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.IP "promiscuous mode"
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On broadcast LANs such as Ethernet, if the network isn't switched, or if
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the adapter is connected to a "mirror port" on a switch to which all
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packets passing through the switch are sent, a network adapter receives
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all packets on the LAN, including unicast or multicast packets not sent
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to a network address that the network adapter isn't configured to
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recognize.
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.IP
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Normally, the adapter will discard those packets; however, many network
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adapters support "promiscuous mode", which is a mode in which all
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packets, even if they are not sent to an address that the adapter
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recognizes, are provided to the host. This is useful for passively
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capturing traffic between two or more other hosts for analysis.
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.IP
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Note that even if an application does not set promiscuous mode, the
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adapter could well be in promiscuous mode for some other reason.
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.IP
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For now, this doesn't work on the "any" device; if an argument of "any"
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or NULL is supplied, the setting of promiscuous mode is ignored.
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.IP
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Promiscuous mode is set with
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.BR pcap_set_promisc ().
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.IP "monitor mode"
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On IEEE 802.11 wireless LANs, even if an adapter is in promiscuous mode,
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it will supply to the host only frames for the network with which it's
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associated. It might also supply only data frames, not management or
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control frames, and might not provide the 802.11 header or radio
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information pseudo-header for those frames.
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.IP
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In "monitor mode", sometimes also called "rfmon mode" (for "Radio
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Frequency MONitor"), the adapter will supply all frames that it
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receives, with 802.11 headers, and might supply a pseudo-header with
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radio information about the frame as well.
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.IP
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Note that in monitor mode the adapter might disassociate from the
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network with which it's associated, so that you will not be able to use
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any wireless networks with that adapter. This could prevent accessing
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files on a network server, or resolving host names or network addresses,
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if you are capturing in monitor mode and are not connected to another
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network with another adapter.
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.IP
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Monitor mode is set with
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.BR pcap_set_rfmon (),
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and
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.BR pcap_can_set_rfmon ()
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can be used to determine whether an adapter can be put into monitor
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mode.
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.IP "read timeout"
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If, when capturing, packets are delivered as soon as they arrive, the
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application capturing the packets will be woken up for each packet as it
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arrives, and might have to make one or more calls to the operating
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system to fetch each packet.
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.IP
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If, instead, packets are not delivered as soon as they arrive, but are
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delivered after a short delay (called a "read timeout"), more than one
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packet can be accumulated before the packets are delivered, so that a
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single wakeup would be done for multiple packets, and each set of calls
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made to the operating system would supply multiple packets, rather than
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a single packet. This reduces the per-packet CPU overhead if packets
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are arriving at a high rate, increasing the number of packets per second
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that can be captured.
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.IP
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The read timeout is required so that an application won't wait for the
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operating system's capture buffer to fill up before packets are
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delivered; if packets are arriving slowly, that wait could take an
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arbitrarily long period of time.
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.IP
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Not all platforms support a read timeout; on platforms that
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don't, the read timeout is ignored. A zero value for the timeout,
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on platforms that support a read timeout,
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will cause a read to wait forever to allow enough packets to
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arrive, with no timeout.
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.IP
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.BR NOTE :
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the read timeout cannot be used to cause calls that read
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packets to return within a limited period of time, because, on some
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platforms, the read timeout isn't supported, and, on other platforms,
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the timer doesn't start until at least one packet arrives. This means
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that the read timeout should
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.B NOT
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be used, for example, in an interactive application to allow the packet
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capture loop to ``poll'' for user input periodically, as there's no
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guarantee that a call reading packets will return after the timeout
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expires even if no packets have arrived.
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.IP
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The read timeout is set with
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.BR pcap_set_timeout ().
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.IP "buffer size"
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Packets that arrive for a capture are stored in a buffer, so that they
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do not have to be read by the application as soon as they arrive. On
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some platforms, the buffer's size can be set; a size that's too small
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could mean that, if too many packets are being captured and the snapshot
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length doesn't limit the amount of data that's buffered, packets could
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be dropped if the buffer fills up before the application can read
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packets from it, while a size that's too large could use more
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non-pageable operating system memory than is necessary to prevent
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packets from being dropped.
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.IP
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The buffer size is set with
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.BR pcap_set_buffer_size ().
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.IP "timestamp type"
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On some platforms, the time stamp given to packets on live captures can
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come from different sources that can have different resolutions or that
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can have different relationships to the time values for the current time
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supplied by routines on the native operating system. See
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.BR pcap-tstamp (@MAN_MISC_INFO@)
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for a list of time stamp types.
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.IP
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The time stamp type is set with
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.BR pcap_set_tstamp_type ().
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.PP
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Reading packets from a network interface may require that you have
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special privileges:
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.TP
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.B Under SunOS 3.x or 4.x with NIT or BPF:
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You must have read access to
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.I /dev/nit
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or
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.IR /dev/bpf* .
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.TP
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.B Under Solaris with DLPI:
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You must have read/write access to the network pseudo device, e.g.
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.IR /dev/le .
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On at least some versions of Solaris, however, this is not sufficient to
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allow
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.I tcpdump
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to capture in promiscuous mode; on those versions of Solaris, you must
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be root, or the application capturing packets
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must be installed setuid to root, in order to capture in promiscuous
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mode. Note that, on many (perhaps all) interfaces, if you don't capture
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in promiscuous mode, you will not see any outgoing packets, so a capture
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not done in promiscuous mode may not be very useful.
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.IP
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In newer versions of Solaris, you must have been given the
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.B net_rawaccess
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privilege; this is both necessary and sufficient to give you access to the
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network pseudo-device - there is no need to change the privileges on
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that device. A user can be given that privilege by, for example, adding
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that privilege to the user's
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.B defaultpriv
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key with the
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.B usermod (1M)
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command.
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.TP
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.B Under HP-UX with DLPI:
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You must be root or the application capturing packets must be installed
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setuid to root.
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.TP
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.B Under IRIX with snoop:
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You must be root or the application capturing packets must be installed
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setuid to root.
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.TP
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.B Under Linux:
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You must be root or the application capturing packets must be installed
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setuid to root (unless your distribution has a kernel
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that supports capability bits such as CAP_NET_RAW and code to allow
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those capability bits to be given to particular accounts and to cause
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those bits to be set on a user's initial processes when they log in, in
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which case you must have CAP_NET_RAW in order to capture and
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CAP_NET_ADMIN to enumerate network devices with, for example, the
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.B \-D
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flag).
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.TP
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.B Under ULTRIX and Digital UNIX/Tru64 UNIX:
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Any user may capture network traffic.
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However, no user (not even the super-user) can capture in promiscuous
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mode on an interface unless the super-user has enabled promiscuous-mode
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operation on that interface using
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.IR pfconfig (8),
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and no user (not even the super-user) can capture unicast traffic
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received by or sent by the machine on an interface unless the super-user
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has enabled copy-all-mode operation on that interface using
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.IR pfconfig ,
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so
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.I useful
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packet capture on an interface probably requires that either
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promiscuous-mode or copy-all-mode operation, or both modes of
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operation, be enabled on that interface.
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.TP
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.B Under BSD (this includes Mac OS X):
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You must have read access to
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.I /dev/bpf*
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on systems that don't have a cloning BPF device, or to
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.I /dev/bpf
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on systems that do.
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On BSDs with a devfs (this includes Mac OS X), this might involve more
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than just having somebody with super-user access setting the ownership
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or permissions on the BPF devices - it might involve configuring devfs
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to set the ownership or permissions every time the system is booted,
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if the system even supports that; if it doesn't support that, you might
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have to find some other way to make that happen at boot time.
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.PP
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Reading a saved packet file doesn't require special privileges.
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.PP
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The packets read from the handle may include a ``pseudo-header''
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containing various forms of packet meta-data, and probably includes a
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link-layer header whose contents can differ for different network
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interfaces. To determine the format of the packets supplied by the
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handle, call
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.BR pcap_datalink ();
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.I http://www.tcpdump.org/linktypes.html
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lists the values it returns and describes the packet formats that
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correspond to those values.
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.PP
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Do
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.B NOT
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assume that the packets for a given capture or ``savefile`` will have
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any given link-layer header type, such as
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.B DLT_EN10MB
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for Ethernet. For example, the "any" device on Linux will have a
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link-layer header type of
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.B DLT_LINUX_SLL
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even if all devices on the system at the time the "any" device is opened
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have some other data link type, such as
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.B DLT_EN10MB
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for Ethernet.
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.PP
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To obtain the
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.B "FILE\ *"
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corresponding to a
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.B pcap_t
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opened for a ``savefile'', call
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.BR pcap_file ().
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.TP
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.B Routines
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.RS
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.TP
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.BR pcap_create (3PCAP)
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get a
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.B pcap_t
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for live capture
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.TP
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.BR pcap_activate (3PCAP)
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activate a
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.B pcap_t
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for live capture
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.TP
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.BR pcap_findalldevs (3PCAP)
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get a list of devices that can be opened for a live capture
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.TP
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.BR pcap_freealldevs (3PCAP)
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free list of devices
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.TP
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.BR pcap_lookupdev (3PCAP)
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get first non-loopback device on that list
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.TP
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.BR pcap_open_offline (3PCAP)
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open a
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.B pcap_t
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for a ``savefile'', given a pathname
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.TP
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.BR pcap_open_offline_with_tstamp_precision (3PCAP)
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open a
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.B pcap_t
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for a ``savefile'', given a pathname, and specify the precision to
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provide for packet time stamps
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.TP
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.BR pcap_fopen_offline (3PCAP)
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open a
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.B pcap_t
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for a ``savefile'', given a
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.B "FILE\ *"
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.TP
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.BR pcap_fopen_offline_with_tstamp_precision (3PCAP)
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open a
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.B pcap_t
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for a ``savefile'', given a
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.BR "FILE\ *" ,
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and specify the precision to provide for packet time stamps
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.TP
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.BR pcap_open_dead (3PCAP)
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create a ``fake''
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.B pcap_t
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.TP
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.BR pcap_close (3PCAP)
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close a
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.B pcap_t
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.TP
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.BR pcap_set_snaplen (3PCAP)
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set the snapshot length for a not-yet-activated
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.B pcap_t
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for live capture
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.TP
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.BR pcap_snapshot (3PCAP)
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get the snapshot length for a
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.B pcap_t
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.TP
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.BR pcap_set_promisc (3PCAP)
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set promiscuous mode for a not-yet-activated
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.B pcap_t
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for live capture
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.TP
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.BR pcap_set_rfmon (3PCAP)
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set monitor mode for a not-yet-activated
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.B pcap_t
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for live capture
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.TP
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.BR pcap_can_set_rfmon (3PCAP)
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determine whether monitor mode can be set for a
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.B pcap_t
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for live capture
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.TP
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.BR pcap_set_timeout (3PCAP)
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set read timeout for a not-yet-activated
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.B pcap_t
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for live capture
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.TP
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.BR pcap_set_buffer_size (3PCAP)
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set buffer size for a not-yet-activated
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.B pcap_t
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for live capture
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.TP
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.BR pcap_set_tstamp_type (3PCAP)
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set time stamp type for a not-yet-activated
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.B pcap_t
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for live capture
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.TP
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.BR pcap_list_tstamp_types (3PCAP)
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get list of available time stamp types for a not-yet-activated
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.B pcap_t
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for live capture
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.TP
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.BR pcap_free_tstamp_types (3PCAP)
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free list of available time stamp types
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.TP
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.BR pcap_tstamp_type_val_to_name (3PCAP)
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get name for a time stamp type
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.TP
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.BR pcap_tstamp_type_val_to_description (3PCAP)
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get description for a time stamp type
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.TP
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.BR pcap_tstamp_type_name_to_val (3PCAP)
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get time stamp type corresponding to a name
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.TP
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.BR pcap_set_tstamp_precision (3PCAP)
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set time stamp precision for a not-yet-activated
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.B pcap_t
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for live capture
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.TP
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.BR pcap_get_tstamp_precision (3PCAP)
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get the time stamp precision of a
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.B pcap_t
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for live capture
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.TP
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.BR pcap_datalink (3PCAP)
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get link-layer header type for a
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.B pcap_t
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.TP
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.BR pcap_file (3PCAP)
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get the
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.B "FILE\ *"
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for a
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.B pcap_t
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opened for a ``savefile''
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.TP
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.BR pcap_is_swapped (3PCAP)
|
|
determine whether a ``savefile'' being read came from a machine with the
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opposite byte order
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.TP
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.BR pcap_major_version (3PCAP)
|
|
.PD 0
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.TP
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.BR pcap_minor_version (3PCAP)
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|
get the major and minor version of the file format version for a
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``savefile''
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.PD
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.RE
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.SS Selecting a link-layer header type for a live capture
|
|
Some devices may provide more than one link-layer header type. To
|
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obtain a list of all link-layer header types provided by a device, call
|
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.BR pcap_list_datalinks ()
|
|
on an activated
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.B pcap_t
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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
|
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.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
|
|
The callback is also supplied a
|
|
.I const u_char
|
|
pointer to the first
|
|
.B caplen
|
|
(as given in the
|
|
.I struct pcap_pkthdr
|
|
mentioned above)
|
|
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.
|
|
.PP
|
|
.BR pcap_next ()
|
|
is passed an argument that points to a
|
|
.I struct pcap_pkthdr
|
|
structure, and fills it in with the time stamp and length values for the
|
|
packet. It returns a
|
|
.I const u_char
|
|
to the first
|
|
.B caplen
|
|
bytes of the packet on success, and NULL on error.
|
|
.PP
|
|
.BR pcap_next_ex ()
|
|
is passed two pointer arguments, one of which points to a
|
|
.IR struct pcap_pkthdr *
|
|
and one of which points to a
|
|
.IR "const u_char" *.
|
|
It sets the first pointer to point to a
|
|
.I struct pcap_pkthdr
|
|
structure with the time stamp and length values for the packet, and sets
|
|
the second pointer to point to the first
|
|
.B caplen
|
|
bytes of the packet.
|
|
.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. Note that the wait might, or might
|
|
not, terminate even if no packets are available; applications should be
|
|
prepared for this to happen, but must not rely on it happening.
|
|
.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 any of a set of
|
|
descriptors to be ready to read. 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. Note that, just as an attempt to read packets from a
|
|
.B pcap_t
|
|
may not return any packets if the read timeout expires, a
|
|
.BR select (),
|
|
.BR poll (),
|
|
or other such call may, if the read timeout expires, indicate that a
|
|
descriptor is ready to read even if there are no packets available to
|
|
read.
|
|
.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_lib_version ().
|
|
.TP
|
|
.B Routines
|
|
.RS
|
|
.TP
|
|
.BR pcap_lib_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
|