Pcap(3pm) User Contributed Perl Documentation Pcap(3pm)NAMENet::Pcap - Interface to the pcap(3) LBL packet capture library
VERSION
Version 0.18
SYNOPSIS
use Net::Pcap;
my $err = '';
my $dev = pcap_lookupdev(\$err); # find a device
# open the device for live listening
my $pcap = pcap_open_live($dev, 1024, 1, 0, \$err);
# loop over next 10 packets
pcap_loop($pcap, 10, \&process_packet, "just for the demo");
# close the device
pcap_close($pcap);
sub process_packet {
my ($user_data, $header, $packet) = @_;
# do something ...
}
DESCRIPTION
"Net::Pcap" is a Perl binding to the LBL pcap(3) library and its Win32
counterpart, the WinPcap library. Pcap (packet capture) is a portable
API to capture network packet: it allows applications to capture
packets at link-layer, bypassing the normal protocol stack. It also
provides features like kernel-level packet filtering and access to
internal statistics.
Common applications include network statistics collection, security
monitoring, network debugging, etc.
NOTES
Signals handling
Since version 5.7.3, Perl uses a mechanism called "deferred signals" to
delay signals delivery until "safe" points in the interpreter. See
"Deferred Signals (Safe Signals)" in perlipc for a detailed
explanation.
Since "Net::Pcap" version 0.08, released in October 2005, the module
modified the internal variable "PL_signals" to re-enable immediate
signals delivery in Perl 5.8 and later within some XS functions (CPAN-
RT #6320). However, it can create situations where the Perl interpreter
is less stable and can crash (CPAN-RT #43308). Therefore, as of version
0.17, "Net::Pcap" no longer modifies "PL_signals" by itself, but
provides facilities so the user has full control of how signals are
delivered.
First, the "pcap_perl_settings()" function allows one to select how
signals are handled:
pcap_perl_settings(PERL_SIGNALS_UNSAFE);
pcap_loop($pcap, 10, \&process_packet, "");
pcap_perl_settings(PERL_SIGNALS_SAFE);
Then, to easily make code interruptable, "Net::Pcap" provides the
"UNSAFE_SIGNALS" pseudo-bloc:
UNSAFE_SIGNALS {
pcap_loop($pcap, 10, \&process_packet, "");
};
(Stolen from Rafael Garcia-Suarez's "Perl::Unsafe::Signals")
EXPORTS
"Net::Pcap" supports the following "Exporter" tags:
· ":bpf" exports a few BPF related constants:
BPF_ALIGNMENT BPF_MAJOR_VERSION BPF_MAXBUFSIZE BPF_MAXINSNS
BPF_MEMWORDS BPF_MINBUFSIZE BPF_MINOR_VERSION BPF_RELEASE
· ":datalink" exports the data link types macros:
DLT_AIRONET_HEADER DLT_APPLE_IP_OVER_IEEE1394 DLT_ARCNET
DLT_ARCNET_LINUX DLT_ATM_CLIP DLT_ATM_RFC1483 DLT_AURORA
DLT_AX25 DLT_CHAOS DLT_CHDLC DLT_CISCO_IOS DLT_C_HDLC
DLT_DOCSIS DLT_ECONET DLT_EN10MB DLT_EN3MB DLT_ENC DLT_FDDI
DLT_FRELAY DLT_HHDLC DLT_IBM_SN DLT_IBM_SP DLT_IEEE802
DLT_IEEE802_11 DLT_IEEE802_11_RADIO DLT_IEEE802_11_RADIO_AVS
DLT_IPFILTER DLT_IP_OVER_FC DLT_JUNIPER_ATM1 DLT_JUNIPER_ATM2
DLT_JUNIPER_ES DLT_JUNIPER_GGSN DLT_JUNIPER_MFR DLT_JUNIPER_MLFR
DLT_JUNIPER_MLPPP DLT_JUNIPER_MONITOR DLT_JUNIPER_SERVICES
DLT_LINUX_IRDA DLT_LINUX_SLL DLT_LOOP DLT_LTALK DLT_NULL
DLT_OLD_PFLOG DLT_PCI_EXP DLT_PFLOG DLT_PFSYNC DLT_PPP
DLT_PPP_BSDOS DLT_PPP_ETHER DLT_PPP_SERIAL DLT_PRISM_HEADER
DLT_PRONET DLT_RAW DLT_RIO DLT_SLIP DLT_SLIP_BSDOS DLT_SUNATM
DLT_SYMANTEC_FIREWALL DLT_TZSP DLT_USER0 DLT_USER1 DLT_USER2
DLT_USER3 DLT_USER4 DLT_USER5 DLT_USER6 DLT_USER7 DLT_USER8
DLT_USER9 DLT_USER10 DLT_USER11 DLT_USER12 DLT_USER13
DLT_USER14 DLT_USER15
· ":pcap" exports the following "pcap" constants:
PCAP_ERRBUF_SIZE PCAP_IF_LOOPBACK
PCAP_VERSION_MAJOR PCAP_VERSION_MINOR
· ":mode" exports the following constants:
MODE_CAPT MODE_MON MODE_STAT
· ":openflag" exports the following constants:
OPENFLAG_PROMISCUOUS OPENFLAG_DATATX_UDP OPENFLAG_NOCAPTURE_RPCAP
· ":source" exports the following constants:
PCAP_SRC_FILE PCAP_SRC_IFLOCAL PCAP_SRC_IFREMOTE
· ":sample" exports the following constants:
PCAP_SAMP_NOSAMP PCAP_SAMP_1_EVERY_N PCAP_SAMP_FIRST_AFTER_N_MS
· ":rpcap" exports the following constants:
RMTAUTH_NULL RMTAUTH_PWD
· ":functions" short names of the functions (without the "pcap_"
prefix) for those which would not cause a clash with an already
defined name. Namely, the following functions are not available in
short form: "open()", "close()", "next()", "dump()", "file()",
"fileno()". Using these short names is now discouraged, and may be
removed in the future.
By default, this module exports the symbols from the ":datalink" and
":pcap" tags, and all the functions, with the same names as the C
library.
FUNCTIONS
All functions defined by "Net::Pcap" are direct mappings to the libpcap
functions. Consult the pcap(3) documentation and source code for more
information.
Arguments that change a parameter, for example "pcap_lookupdev()", are
passed that parameter as a reference. This is to retain compatibility
with previous versions of "Net::Pcap".
Lookup functions
pcap_lookupdev(\$err)
Returns the name of a network device that can be used with
"pcap_open_live()" function. On error, the $err parameter is
filled with an appropriate error message else it is undefined.
Example
$dev = pcap_lookupdev();
pcap_findalldevs(\%devinfo, \$err)
Returns a list of all network device names that can be used with
"pcap_open_live()" function. On error, the $err parameter is
filled with an appropriate error message else it is undefined.
Example
@devs = pcap_findalldevs(\%devinfo, \$err);
for my $dev (@devs) {
print "$dev : $devinfo{$dev}\n"
}
Note
For backward compatibility reasons, this function can also be
called using the following signatures:
@devs = pcap_findalldevs(\$err);
@devs = pcap_findalldevs(\$err, \%devinfo);
The first form was introduced by Marco Carnut in "Net::Pcap"
version 0.05 and kept intact in versions 0.06 and 0.07. The
second form was introduced by Jean-Louis Morel for the Windows
only, ActivePerl port of "Net::Pcap", in versions 0.04.01 and
0.04.02.
The new syntax has been introduced for consistency with the
rest of the Perl API and the C API of libpcap(3), where $err is
always the last argument.
pcap_lookupnet($dev, \$net, \$mask, \$err)
Determine the network number and netmask for the device specified
in $dev. The function returns 0 on success and sets the $net and
$mask parameters with values. On failure it returns -1 and the
$err parameter is filled with an appropriate error message.
Packet capture functions
pcap_open_live($dev, $snaplen, $promisc, $to_ms, \$err)
Returns a packet capture descriptor for looking at packets on the
network. The $dev parameter specifies which network interface to
capture packets from. The $snaplen and $promisc parameters specify
the maximum number of bytes to capture from each packet, and
whether to put the interface into promiscuous mode, respectively.
The $to_ms parameter specifies a read timeout in milliseconds. The
packet descriptor will be undefined if an error occurs, and the
$err parameter will be set with an appropriate error message.
Example
$dev = pcap_lookupdev();
$pcap = pcap_open_live($dev, 1024, 1, 0, \$err)
or die "Can't open device $dev: $err\n";
pcap_open_dead($linktype, $snaplen)
Creates and returns a new packet descriptor to use when calling the
other functions in "libpcap". It is typically used when just using
"libpcap" for compiling BPF code.
Example
$pcap = pcap_open_dead(0, 1024);
pcap_open_offline($filename, \$err)
Return a packet capture descriptor to read from a previously
created "savefile". The returned descriptor is undefined if there
was an error and in this case the $err parameter will be filled.
Savefiles are created using the "pcap_dump_*" commands.
Example
$pcap = pcap_open_offline($dump, \$err)
or die "Can't read '$dump': $err\n";
pcap_loop($pcap, $count, \&callback, $user_data)
Read $count packets from the packet capture descriptor $pcap and
call the perl function &callback with an argument of $user_data.
If $count is negative, then the function loops forever or until an
error occurs. Returns 0 if $count is exhausted, -1 on error, and -2
if the loop terminated due to a call to pcap_breakloop() before any
packets were processed.
The callback function is also passed packet header information and
packet data like so:
sub process_packet {
my ($user_data, $header, $packet) = @_;
...
}
The header information is a reference to a hash containing the
following fields.
· "len" - the total length of the packet.
· "caplen" - the actual captured length of the packet data. This
corresponds to the snapshot length parameter passed to
"open_live()".
· "tv_sec" - seconds value of the packet timestamp.
· "tv_usec" - microseconds value of the packet timestamp.
Example
pcap_loop($pcap, 10, \&process_packet, "user data");
sub process_packet {
my ($user_data, $header, $packet) = @_;
# ...
}
pcap_breakloop($pcap)
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
console control handler on Windows, as it merely sets a flag that
is checked within the loop.
Please see the section on "pcap_breakloop()" in pcap(3) for more
information.
pcap_close($pcap)
Close the packet capture device associated with the descriptor
$pcap.
pcap_dispatch($pcap, $count, \&callback, $user_data)
Collect $count packets and process them with callback function
&callback. if $count is -1, all packets currently buffered are
processed. If $count is 0, process all packets until an error
occurs.
pcap_next($pcap, \%header)
Return the next available packet on the interface associated with
packet descriptor $pcap. Into the %header hash is stored the
received packet header. If not packet is available, the return
value and header is undefined.
pcap_next_ex($pcap, \%header, \$packet)
Reads the next available packet on the interface associated with
packet descriptor $pcap, stores its header in "\%header" and its
data in "\$packet" and returns a success/failure indication:
· 1 means that the packet was read without problems;
· 0 means that packets are being read from a live capture, and
the timeout expired;
· "-1" means that an error occurred while reading the packet;
· "-2" packets are being read from a dump file, and there are no
more packets to read from the savefile.
pcap_compile($pcap, \$filter, $filter_str, $optimize, $netmask)
Compile the filter string contained in $filter_str and store it in
$filter. A description of the filter language can be found in the
libpcap source code, or the manual page for tcpdump(8) . The
filter is optimized if the $optimize variable is true. The netmask
of the network device must be specified in the $netmask parameter.
The function returns 0 if the compilation was successful, or -1 if
there was a problem.
pcap_compile_nopcap($snaplen, $linktype, \$filter, $filter_str,
$optimize, $netmask)
Similar to "compile()" except that instead of passing a $pcap
descriptor, one passes $snaplen and $linktype directly. Returns -1
if there was an error, but the error message is not available.
pcap_setfilter($pcap, $filter)
Associate the compiled filter stored in $filter with the packet
capture descriptor $pcap.
pcap_freecode($filter)
Used to free the allocated memory used by a compiled filter, as
created by "pcap_compile()".
pcap_offline_filter($filter, \%header, $packet)
Check whether $filter matches the packet described by header
%header and packet data $packet. Returns true if the packet
matches.
pcap_setnonblock($pcap, $mode, \$err)
Set the non-blocking mode of a live capture descriptor, depending
on the value of $mode (zero to activate and non-zero to
deactivate). It has no effect on offline descriptors. If there is
an error, it returns -1 and sets $err.
In non-blocking mode, an attempt to read from the capture
descriptor with "pcap_dispatch()" will, if no packets are currently
available to be read, return 0 immediately rather than blocking
waiting for packets to arrive. "pcap_loop()" and "pcap_next()"
will not work in non-blocking mode.
pcap_getnonblock($pcap, \$err)
Returns the non-blocking state of the capture descriptor $pcap.
Always returns 0 on savefiles. If there is an error, it returns -1
and sets $err.
Savefile commands
pcap_dump_open($pcap, $filename)
Open a savefile for writing and return a descriptor for doing so.
If $filename is "-" data is written to standard output. On error,
the return value is undefined and "pcap_geterr()" can be used to
retrieve the error text.
pcap_dump($dumper, \%header, $packet)
Dump the packet described by header %header and packet data $packet
to the savefile associated with $dumper. The packet header has the
same format as that passed to the "pcap_loop()" callback.
Example
my $dump_file = 'network.dmp';
my $dev = pcap_lookupdev();
my $pcap = pcap_open_live($dev, 1024, 1, 0, \$err);
my $dumper = pcap_dump_open($pcap, $dump_file);
pcap_loop($pcap, 10, \&process_packet, '');
pcap_dump_close($dumper);
sub process_packet {
my ($user_data, $header, $packet) = @_;
pcap_dump($dumper, $header, $packet);
}
pcap_dump_file($dumper)
Returns the filehandle associated with a savefile opened with
"pcap_dump_open()".
pcap_dump_flush($dumper)
Flushes the output buffer to the corresponding save file, so that
any packets written with "pcap_dump()" but not yet written to the
save file will be written. Returns -1 on error, 0 on success.
pcap_dump_close($dumper)
Close the savefile associated with the descriptor $dumper.
Status functions
pcap_datalink($pcap)
Returns the link layer type associated with the given pcap
descriptor.
Example
$linktype = pcap_datalink($pcap);
pcap_set_datalink($pcap, $linktype)
Sets the data link type of the given pcap descriptor to the type
specified by $linktype. Returns -1 on failure.
pcap_datalink_name_to_val($name)
Translates a data link type name, which is a "DLT_" name with the
"DLT_" part removed, to the corresponding data link type value. The
translation is case-insensitive. Returns -1 on failure.
Example
$linktype = pcap_datalink_name_to_val('LTalk'); # returns DLT_LTALK
pcap_datalink_val_to_name($linktype)
Translates a data link type value to the corresponding data link
type name.
Example
$name = pcap_datalink_val_to_name(DLT_LTALK); # returns 'LTALK'
pcap_datalink_val_to_description($linktype)
Translates a data link type value to a short description of that
data link type.
Example
$descr = pcap_datalink_val_to_description(DLT_LTALK); # returns 'Localtalk'
pcap_snapshot($pcap)
Returns the snapshot length (snaplen) specified in the call to
"pcap_open_live()".
pcap_is_swapped($pcap)
This function returns true if the endianness of the currently open
savefile is different from the endianness of the machine.
pcap_major_version($pcap)
Return the major version number of the pcap library used to write
the currently open savefile.
pcap_minor_version($pcap)
Return the minor version of the pcap library used to write the
currently open savefile.
pcap_stats($pcap, \%stats)
Returns a hash containing information about the status of packet
capture device $pcap. The hash contains the following fields.
This function is supported only on live captures, not on savefiles;
no statistics are stored in savefiles, so no statistics are
available when reading from a savefile.
· "ps_recv" - the number of packets received by the packet
capture software.
· "ps_drop" - the number of packets dropped by the packet capture
software.
· "ps_ifdrop" - the number of packets dropped by the network
interface.
pcap_file($pcap)
Returns the filehandle associated with a savefile opened with
"pcap_open_offline()" or "undef" if the device was opened with
"pcap_open_live()".
pcap_fileno($pcap)
Returns the file number of the network device opened with
"pcap_open_live()".
pcap_get_selectable_fd($pcap)
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 descriptor
exists, or -1, if no such descriptor exists. Some network devices
opened with "pcap_open_live()" do not support "select()" or
"poll()", so -1 is returned for those devices. See pcap(3) for
more details.
Error handling
pcap_geterr($pcap)
Returns an error message for the last error associated with the
packet capture device $pcap.
pcap_strerror($errno)
Returns a string describing error number $errno.
pcap_perror($pcap, $prefix)
Prints the text of the last error associated with descriptor $pcap
on standard error, prefixed by $prefix.
Information
pcap_lib_version()
Returns the name and version of the "pcap" library the module was
linked against.
Perl specific functions
The following functions are specific to the Perl binding of libpcap.
pcap_perl_settings($setting)
Modify internal behaviour of the Perl interpreter.
· "PERL_SIGNALS_SAFE", "PERL_SIGNALS_UNSAFE" respectively enable
safe or unsafe signals delivery. Returns the previous value of
"PL_signals". See "Signals handling".
Example:
local $SIG{ALRM} = sub { pcap_breakloop() };
alarm 60;
pcap_perl_settings(PERL_SIGNALS_UNSAFE);
pcap_loop($pcap, 10, \&process_packet, "");
pcap_perl_settings(PERL_SIGNALS_SAFE);
WinPcap specific functions
The following functions are only available with WinPcap, the Win32 port
of the Pcap library. If a called function is not available, it will
cleanly "croak()".
pcap_createsrcstr(\$source, $type, $host, $port, $name, \$err)
Accepts a set of strings (host name, port, ...), and stores the
complete source string according to the new format (e.g.
"rpcap://1.2.3.4/eth0") in $source.
This function is provided in order to help the user creating the
source string according to the new format. An unique source string
is used in order to make easy for old applications to use the
remote facilities. Think about tcpdump(1), for example, which has
only one way to specify the interface on which the capture has to
be started. However, GUI-based programs can find more useful to
specify hostname, port and interface name separately. In that case,
they can use this function to create the source string before
passing it to the "pcap_open()" function.
Returns 0 if everything is fine, -1 if some errors occurred. The
string containing the complete source is returned in the $source
variable.
pcap_parsesrcstr($source, \$type, \$host, \$port, \$name, \$err)
Parse the source string and stores the pieces in which the source
can be split in the corresponding variables.
This call is the other way round of "pcap_createsrcstr()". It
accepts a null-terminated string and it returns the parameters
related to the source. This includes:
· the type of the source (file, WinPcap on a remote adapter,
WinPcap on local adapter), which is determined by the source
prefix ("PCAP_SRC_IF_STRING" and so on);
· the host on which the capture has to be started (only for
remote captures);
· the raw name of the source (file name, name of the remote
adapter, name of the local adapter), without the source prefix.
The string returned does not include the type of the source
itself (i.e. the string returned does not include "file://" or
"rpcap://" or such).
The user can omit some parameters in case it is not interested in
them.
Returns 0 if everything is fine, -1 if some errors occurred. The
requested values (host name, network port, type of the source) are
returned into the proper variables passed by reference.
pcap_open($source, $snaplen, $flags, $read_timeout, \$auth, \$err)
Open a generic source in order to capture / send (WinPcap only)
traffic.
The "pcap_open()" replaces all the "pcap_open_xxx()" functions with
a single call.
This function hides the differences between the different
"pcap_open_xxx()" functions so that the programmer does not have to
manage different opening function. In this way, the true "open()"
function is decided according to the source type, which is included
into the source string (in the form of source prefix).
Returns a pointer to a pcap descriptor which can be used as a
parameter to the following calls ("compile()" and so on) and that
specifies an opened WinPcap session. In case of problems, it
returns "undef" and the $err variable keeps the error message.
pcap_setbuff($pcap, $dim)
Sets the size of the kernel buffer associated with an adapter.
$dim specifies the size of the buffer in bytes. The return value
is 0 when the call succeeds, -1 otherwise.
If an old buffer was already created with a previous call to
"setbuff()", it is deleted and its content is discarded.
"open_live()" creates a 1 MB buffer by default.
pcap_setmode($pcap, $mode)
Sets the working mode of the interface $pcap to $mode. Valid
values for $mode are "MODE_CAPT" (default capture mode) and
"MODE_STAT" (statistical mode).
pcap_setmintocopy($pcap_t, $size)
Changes the minimum amount of data in the kernel buffer that causes
a read from the application to return (unless the timeout expires).
pcap_getevent($pcap)
Returns the "Win32::Event" object associated with the interface
$pcap. Can be used to wait until the driver's buffer contains some
data without performing a read. See Win32::Event.
pcap_sendpacket($pcap, $packet)
Send a raw packet to the network. $pcap is the interface that will
be used to send the packet, $packet contains the data of the packet
to send (including the various protocol headers). The MAC CRC
doesn't need to be included, because it is transparently calculated
and added by the network interface driver. The return value is 0 if
the packet is successfully sent, -1 otherwise.
pcap_sendqueue_alloc($memsize)
This function allocates and returns a send queue, i.e. a buffer
containing a set of raw packets that will be transmitted on the
network with "sendqueue_transmit()".
$memsize is the size, in bytes, of the queue, therefore it
determines the maximum amount of data that the queue will contain.
This memory is automatically deallocated when the queue ceases to
exist.
pcap_sendqueue_queue($queue, \%header, $packet)
Adds a packet at the end of the send queue pointed by $queue. The
packet header %header has the same format as that passed to the
"loop()" callback. $ackekt is a buffer with the data of the packet.
The %headerr header structure is the same used by WinPcap and
libpcap to store the packets in a file, therefore sending a capture
file is straightforward. "Raw packet" means that the sending
application will have to include the protocol headers, since every
packet is sent to the network as is. The CRC of the packets needs
not to be calculated, because it will be transparently added by the
network interface.
pcap_sendqueue_transmit($pcap, $queue, $sync)
This function transmits the content of a queue to the wire. $pcapt
is the interface on which the packets will be sent, $queue is to a
"send_queue" containing the packets to send, $sync determines if
the send operation must be synchronized: if it is non-zero, the
packets are sent respecting the timestamps, otherwise they are sent
as fast as possible.
The return value is the amount of bytes actually sent. If it is
smaller than the size parameter, an error occurred during the send.
The error can be caused by a driver/adapter problem or by an
inconsistent/bogus send queue.
CONSTANTS
"Net::Pcap" exports by default the names of several constants in order
to ease the development of programs. See "EXPORTS" for details about
which constants are exported.
Here are the descriptions of a few data link types. See pcap(3) for a
more complete description and semantics associated with each data link.
· "DLT_NULL" - BSD loopback encapsulation
· "DLT_EN10MB" - Ethernet (10Mb, 100Mb, 1000Mb, and up)
· "DLT_RAW" - raw IP
· "DLT_IEEE802" - IEEE 802.5 Token Ring
· "DLT_IEEE802_11" - IEEE 802.11 wireless LAN
· "DLT_FRELAY" - Frame Relay
· "DLT_FDDI" - FDDI
· "DLT_SLIP" - Serial Line IP
· "DLT_PPP" - PPP (Point-to-point Protocol)
· "DLT_PPP_SERIAL" - PPP over serial with HDLC encapsulation
· "DLT_PPP_ETHER" - PPP over Ethernet
· "DLT_IP_OVER_FC" - RFC 2625 IP-over-Fibre Channel
· "DLT_AX25" - Amateur Radio AX.25
· "DLT_LINUX_IRDA" - Linux-IrDA
· "DLT_LTALK" - Apple LocalTalk
· "DLT_APPLE_IP_OVER_IEEE1394" - Apple IP-over-IEEE 1394 (a.k.a.
Firewire)
DIAGNOSTICS
"arg%d not a scalar ref"
"arg%d not a hash ref"
"arg%d not a reference"
(F) These errors occur if you forgot to give a reference to a
function which expect one or more of its arguments to be
references.
BUGS
Please report any bugs or feature requests to
"bug-Net-Pcap@rt.cpan.org", or through the web interface at
<http://rt.cpan.org/Dist/Display.html?Queue=Net-Pcap>. I will be
notified, and then you'll automatically be notified of progress on your
bug as I make changes.
Currently known bugs:
· the "ps_recv" field is not correctly set; see t/07-stats.t
· "pcap_file()" seems to always returns "undef" for live connection
and causes segmentation fault for dump files; see t/10-fileno.t
· "pcap_fileno()" is documented to return -1 when called on save
file, but seems to always return an actual file number. See
t/10-fileno.t
· "pcap_dump_file()" seems to corrupt something somewhere, and makes
scripts dump core. See t/05-dump.t
EXAMPLES
See the eg/ and t/ directories of the "Net::Pcap" distribution for
examples on using this module.
SEE ALSO
Perl Modules
the NetPacket or Net::Frame modules to assemble and disassemble
packets.
Net::Pcap::Reassemble for reassembly of TCP/IP fragments.
POE::Component::Pcap for using "Net::Pcap" within POE-based programs.
AnyEvent::Pcap for using "Net::Pcap" within AnyEvent-based programs.
Net::Packet or NetPacket for decoding and creating network packets.
Net::Pcap::Easy is a module which provides an easier, more Perl-ish API
than "Net::Pcap" and integrates some facilities from Net::Netmask and
NetPacket.
Base Libraries
pcap(3), tcpdump(8)
The source code for the pcap(3) library is available from
<http://www.tcpdump.org/>
The source code and binary for the Win32 version of the pcap library,
WinPcap, is available from <http://www.winpcap.org/>
Articles
Hacking Linux Exposed: Sniffing with Net::Pcap to stealthily managing
iptables rules remotely,
<http://www.hackinglinuxexposed.com/articles/20030730.html>
PerlMonks node about Net::Pcap, <http://perlmonks.org/?node_id=170648>
AUTHORS
Current maintainer is Sébastien Aperghis-Tramoni (SAPER) with the help
of Tim Wilde (TWILDE).
Complete list of authors & contributors:
· Bo Adler (BOADLER) <thumper (at) alumni.caltech.edu>
· Craig Davison
· David Farrell
· David N. Blank-Edelman <dnb (at) ccs.neu.edu>
· James Rouzier (ROUZIER)
· Jean-Louis Morel (JLMOREL) <jl_morel (at) bribes.org>
· Marco Carnut (KCARNUT) <kiko (at) tempest.com.br>
· Patrice Auffret (GOMOR)
· Peter Lister (PLISTER) <p.lister (at) cranfield.ac.uk>
· Rafaël Garcia-Suarez (RGARCIA)
· Sébastien Aperghis-Tramoni (SAPER) <sebastien (at) aperghis.net>
· Tim Potter (TIMPOTTER) <tpot (at) frungy.org>
· Tim Wilde (TWILDE)
HISTORY
The original version of "Net::Pcap", version 0.01, was written by Peter
Lister using SWIG.
Version 0.02 was created by Bo Adler with a few bugfixes but not
uploaded to CPAN. It could be found at:
<http://www.buttsoft.com/~thumper/software/perl/Net-Pcap/>
Versions 0.03 and 0.04 were created by Tim Potter who entirely rewrote
"Net::Pcap" using XS and wrote the documentation, with the help of
David N. Blank-Edelman for testing and general polishing.
Version 0.05 was released by Marco Carnut with fixes to make it work
with Cygwin and WinPcap.
Version 0.04.02 was independently created by Jean-Louis Morel but not
uploaded on the CPAN. It can be found here:
<http://www.bribes.org/perl/wnetpcap.html>
Based on Tim Potter's version 0.04, it included fixes for WinPcap and
added wrappers for several new libpcap functions as well as WinPcap
specific functions.
ACKNOWLEDGEMENTS
To Paul Johnson for his module Devel::Cover and his patience for
helping me using it with XS code, which revealed very useful for
writing more tests.
To the beta-testers: Jean-Louis Morel, Max Maischen, Philippe Bruhat,
David Morel, Scott Lanning, Rafael Garcia-Suarez, Karl Y. Pradene.
COPYRIGHT & LICENSE
Copyright (C) 2005-2016 Sébastien Aperghis-Tramoni and contributors.
All rights reserved.
Copyright (C) 2003 Marco Carnut. All rights reserved.
Copyright (C) 1999, 2000 Tim Potter. All rights reserved.
Copyright (C) 1998 Bo Adler. All rights reserved.
Copyright (C) 1997 Peter Lister. All rights reserved.
This program is free software; you can redistribute it and/or modify it
under the same terms as Perl itself.
perl v5.26.0 2017-07-22 Pcap(3pm)