Wireshark Frequently Asked Questions

General Questions

What is Wireshark?

Wireshark® is a network protocol analyzer. It lets you capture and interactively browse the traffic running on a computer network. It has a rich and powerful feature set and is world’s most popular tool of its kind. It runs on most computing platforms including Windows, macOS, Linux, and UNIX. Network professionals, security experts, developers, and educators around the world use it regularly. It is freely available as open source, and is released under the GNU General Public License version 2.

It is developed and maintained by a global team of protocol experts, and it is an example of a disruptive technology.

Wireshark used to be known as Ethereal®. See the next question for details about the name change. If you’re still using Ethereal, it is strongly recommended that you upgrade to Wireshark as Ethereal is unsupported and has known security vulnerabilities.

For more information, please see the About Wireshark page.

What’s up with the name change? Is Wireshark a fork?

In May of 2006, Gerald Combs (the original author of Ethereal) went to work for CACE Technologies (best known for WinPcap). Unfortunately, he had to leave the Ethereal trademarks behind.

This left the project in an awkward position. The only reasonable way to ensure the continued success of the project was to change the name. This is how Wireshark was born.

Wireshark is almost (but not quite) a fork. Normally a "fork" of an open source project results in two names, web sites, development teams, support infrastructures, etc. This is the case with Wireshark except for one notable exception — every member of the core development team is now working on Wireshark. There has been no active development on Ethereal since the name change. Several parts of the Ethereal web site` (such as the mailing lists, source code repository, and build farm) have gone offline.

More information on the name change can be found here:

Where can I get help?

Community support is available on the Q&A site and on the wireshark-users mailing list. Subscription information and archives for all of Wireshark’s mailing lists can be found at https://www.wireshark.org/mailman/listinfo. An IRC channel dedicated to Wireshark can be found at irc://irc.freenode.net/wireshark.

Self-paced and instructor-led training is available at Wireshark University. Wireshark University also offers certification via the Wireshark Certified Network Analyst program.

What kind of shark is Wireshark?

carcharodon photoshopia.

How is Wireshark pronounced, spelled and capitalized?

Wireshark is pronounced as the word wire followed immediately by the word shark. Exact pronunciation and emphasis may vary depending on your locale (e.g. Arkansas).

It’s spelled with a capital W, followed by a lower-case ireshark. It is not a CamelCase word, i.e., WireShark is incorrect.

How much does Wireshark cost?

Wireshark is "free software"; you can download it without paying any license fee. The version of Wireshark you download isn’t a "demo" version, with limitations not present in a "full" version; it is the full version.

The license under which Wireshark is issued is the GNU General Public License version 2. See the GNU GPL FAQ for some more information.

But I just paid someone on eBay for a copy of Wireshark! Did I get ripped off?

That depends. Did they provide any sort of value-added product or service, such as installation support, installation media, training, trace file analysis, or funky-colored shark-themed socks? Probably not.

Wireshark is available for anyone to download, absolutely free, at any time. Paying for a copy implies that you should get something for your money.

Can I use Wireshark commercially?

Yes, if, for example, you mean "I work for a commercial organization; can I use Wireshark to capture and analyze network traffic in our company’s networks or in our customer’s networks?"

If you mean "Can I use Wireshark as part of my commercial product?", see the next entry in the FAQ.

Can I use Wireshark as part of my commercial product?

As noted, Wireshark is licensed under the GNU General Public License, version 2. The GPL imposes conditions on your use of GPL’ed code in your own products; you cannot, for example, make a "derived work" from Wireshark, by making modifications to it, and then sell the resulting derived work and not allow recipients to give away the resulting work. You must also make the changes you’ve made to the Wireshark source available to all recipients of your modified version; those changes must also be licensed under the terms of the GPL. See the GPL FAQ for more details; in particular, note the answer to the question about modifying a GPLed program and selling it commercially, and the question about linking GPLed code with other code to make a proprietary program.

You can combine a GPLed program such as Wireshark and a commercial program as long as they communicate "at arm’s length", as per this item in the GPL FAQ.

We recommend keeping Wireshark and your product completely separate, communicating over sockets or pipes. If you’re loading any part of Wireshark as a DLL, you’re probably doing it wrong.

What protocols are currently supported?

There are currently hundreds of supported protocols and media. Details can be found in the wireshark(1) man page.

Are there any plans to support {your favorite protocol}?

Support for particular protocols is added to Wireshark as a result of people contributing that support; no formal plans for adding support for particular protocols in particular future releases exist.

Can Wireshark read capture files from {your favorite network analyzer}?

Support for particular capture file formats is added to Wireshark as a result of people contributing that support; no formal plans for adding support for particular capture file formats in particular future releases exist.

If a network analyzer writes out files in a format already supported by Wireshark (e.g., in libpcap format), Wireshark may already be able to read them, unless the analyzer has added its own proprietary extensions to that format.

If a network analyzer writes out files in its own format, or has added proprietary extensions to another format, in order to make Wireshark read captures from that network analyzer, we would either have to have a specification for the file format, or the extensions, sufficient to give us enough information to read the parts of the file relevant to Wireshark, or would need at least one capture file in that format AND a detailed textual analysis of the packets in that capture file (showing packet time stamps, packet lengths, and the top-level packet header) in order to reverse-engineer the file format.

Note that there is no guarantee that we will be able to reverse-engineer a capture file format.

What devices can Wireshark use to capture packets?

Wireshark can read live data from Ethernet, Token-Ring, FDDI, serial (PPP and SLIP) (if the OS on which it’s running allows Wireshark to do so), 802.11 wireless LAN (if the OS on which it’s running allows Wireshark to do so), ATM connections (if the OS on which it’s running allows Wireshark to do so), and the "any" device supported on Linux by recent versions of libpcap.

See the list of supported capture media on various OSes for details (several items in there say "Unknown", which doesn’t mean "Wireshark can’t capture on them", it means "we don’t know whether it can capture on them"; we expect that it will be able to capture on many of them, but we haven’t tried it ourselves - if you try one of those types and it works, please update the wiki page accordingly.

It can also read a variety of capture file formats, including:

  • pcap, used by libpcap, tcpdump and various other tools

  • Oracle (previously Sun) snoop and atmsnoop captures

  • Finisar (previously Shomiti) Surveyor captures

  • Microsoft Network Monitor captures

  • Novell LANalyzer captures

  • AIX’s iptrace captures

  • Cinco Networks NetXRay captures

  • NETSCOUT (previously Network Associates/Network General) Windows-based Sniffer captures

  • Network General/Network Associates DOS-based Sniffer captures (compressed or uncompressed)

  • LiveAction (previously WildPackets/Savvius) *Peek/EtherHelp/Packet Grabber captures

  • RADCOM’s WAN/LAN analyzer captures

  • Viavi (previously Network Instruments) Observer captures

  • Lucent/Ascend router debug output

  • Toshiba’s ISDN routers dump output

  • captures from HP-UX nettl

  • the output from i4btrace from the ISDN4BSD project

  • traces from the EyeSDN USB S0

  • the IPLog format output from the Cisco Secure Intrusion Detection System

  • pppd logs (pppdump format)

  • the text output from VMS’s TCPIPtrace/TCPtrace/UCX$TRACE utilities

  • the text output from the DBS Etherwatch VMS utility

  • Visual Networks' Visual UpTime traffic capture

  • the output from CoSine L2 debug

  • the output from InfoVista (formerly Accellent) 5Views LAN agents

  • Endace Measurement Systems' ERF format captures

  • Linux Bluez Bluetooth stack hcidump -w traces

  • Catapult DCT2000 .out files

  • Gammu generated text output from Nokia DCT3 phones in Netmonitor mode

  • IBM Series (OS/400) Comm traces (ASCII & UNICODE)

  • Juniper Netscreen snoop files

  • Symbian OS btsnoop files

  • TamoSoft CommView files

  • Textronix K12xx 32bit .rf5 format files

  • Textronix K12 text file format captures

  • Apple PacketLogger files

  • Files from Aethra Telecommunications' PC108 software for their test instruments

  • Citrix NetScaler Trace files

  • Android Logcat binary and text format logs

  • Colasoft Capsa and Packet Builder captures

  • Micropross mplog files

  • Unigraf DPA-400 DisplayPort AUX channel monitor traces

  • 802.15.4 traces from Daintree’s Sensor Network Analyzer

  • MPEG-2 Transport Streams as defined in ISO/IEC 13818-1

  • Log files from the candump utility

  • Logs from the BUSMASTER tool

  • Ixia IxVeriWave raw captures

  • Rabbit Labs CAM Inspector files

  • systemd journal files

  • 3GPP TS 32.423 trace files

so that it can read traces from various network types, as captured by other applications or equipment, even if it cannot itself capture on those network types.

Does Wireshark work on older versions of Windows such as Windows 7?

Each major release branch of Wireshark supports the versions of Windows that are within their product lifecycle at the time of the “.0” release for that branch. For example, Wireshark 3.2.0 was released in December 2019, shortly before Windows 7 reached the end of its extended support in January 2020. As a result, each of the Wireshark 3.2.x releases supports Windows 7, even after January 2020. See the Microsoft Windows section of the User’s Guide and the End Of Life Planning section of the Release Life Cycle wiki page for more details.

Npcap might not work well on Windows 8 and earlier, so you might want to install WinPcap instead.

Installing Wireshark

I installed the Wireshark RPM (or other package); why did it install TShark but not Wireshark?

Many distributions have separate Wireshark packages, one for non-GUI components such as TShark, editcap, dumpcap, etc. and one for the GUI. If this is the case on your system, there’s probably a separate package named “wireshark-qt”. Find it and install it.

Building Wireshark

Why does building Wireshark fail due to missing headers (.h files)?

If this is happening on Linux, it’s likely due to missing development library packages. For example, Debian and Ubuntu ship the GLib library in the libglib2.0-0 package, but ship its header files and other development assets in the libglib2.0-dev package.

We maintain setup scripts (*-setup.sh) for many major distributions in the tools directory of the Wireshark sources that can install the required development packages for you.

Crashes and other fatal errors

I have an XXX network card on my machine; if I try to capture on it, why does my machine crash or reset itself?

This is almost certainly a problem with one or more of:

  • the operating system you’re using;

  • the device driver for the interface you’re using;

  • the libpcap/Npcap library and, if this is Windows, the Npcap device driver;

so:

  • if you are using Windows, see the Npcap support page - check the "Patches, Bug Reports, Questions, Suggestions, etc" section;

  • if you are using some Linux distribution, some version of BSD, or some other UNIX-flavored OS, you should report the problem to the company or organization that produces the OS (in the case of a Linux distribution, report the problem to whoever produces the distribution).

Why does my machine crash or reset itself when I select "Start" from the "Capture" menu or select "Preferences" from the "Edit" menu?

Both of those operations cause Wireshark to try to build a list of the interfaces that it can open; it does so by getting a list of interfaces and trying to open them. There is probably an OS, driver, or, for Windows, Npcap bug that causes the system to crash when this happens; see the previous question.

Capturing packets

When I use Wireshark to capture packets, why do I see only packets to and from my machine, or not see all the traffic I’m expecting to see from or to the machine I’m trying to monitor?

This might be because the interface on which you’re capturing is plugged into an Ethernet or Token Ring switch; on a switched network, unicast traffic between two ports will not necessarily appear on other ports - only broadcast and multicast traffic will be sent to all ports.

Note that even if your machine is plugged into a hub, the "hub" may be a switched hub, in which case you’re still on a switched network.

Note also that on the Linksys Web site, they say that their auto-sensing hubs "broadcast the 10Mb packets to the port that operate at 10Mb only and broadcast the 100Mb packets to the ports that operate at 100Mb only", which would indicate that if you sniff on a 10Mb port, you will not see traffic coming sent to a 100Mb port, and vice versa. This problem has also been reported for Netgear dual-speed hubs, and may exist for other "auto-sensing" or "dual-speed" hubs.

Some switches have the ability to replicate all traffic on all ports to a single port so that you can plug your analyzer into that single port to sniff all traffic. You would have to check the documentation for the switch to see if this is possible and, if so, to see how to do this. See the switch reference page on the Wireshark Wiki for information on some switches. (Note that it’s a Wiki, so you can update or fix that information, or add additional information on those switches or information on new switches, yourself.)

Note also that many firewall/NAT boxes have a switch built into them; this includes many of the "cable/DSL router" boxes. If you have a box of that sort, that has a switch with some number of Ethernet ports into which you plug machines on your network, and another Ethernet port used to connect to a cable or DSL modem, you can, at least, sniff traffic between the machines on your network and the Internet by plugging the Ethernet port on the router going to the modem, the Ethernet port on the modem, and the machine on which you’re running Wireshark into a hub (make sure it’s not a switching hub, and that, if it’s a dual-speed hub, all three of those ports are running at the same speed.

If your machine is not plugged into a switched network or a dual-speed hub, or it is plugged into a switched network but the port is set up to have all traffic replicated to it, the problem might be that the network interface on which you’re capturing doesn’t support "promiscuous" mode, or because your OS can’t put the interface into promiscuous mode. Normally, network interfaces supply to the host only:

  • packets sent to one of that host’s link-layer addresses;

  • broadcast packets;

  • multicast packets sent to a multicast address that the host has configured the interface to accept.

Most network interfaces can also be put in "promiscuous" mode, in which they supply to the host all network packets they see. Wireshark will try to put the interface on which it’s capturing into promiscuous mode unless the "Capture packets in promiscuous mode" option is turned off in the "Capture Options" dialog box, and TShark will try to put the interface on which it’s capturing into promiscuous mode unless the -p option was specified. However, some network interfaces don’t support promiscuous mode, and some OSes might not allow interfaces to be put into promiscuous mode.

If the interface is not running in promiscuous mode, it won’t see any traffic that isn’t intended to be seen by your machine. It will see broadcast packets, and multicast packets sent to a multicast MAC address the interface is set up to receive.

You should ask the vendor of your network interface whether it supports promiscuous mode. If it does, you should ask whoever supplied the driver for the interface (the vendor, or the supplier of the OS you’re running on your machine) whether it supports promiscuous mode with that network interface.

In the case of wireless LAN interfaces, it appears that, when those interfaces are promiscuously sniffing, they’re running in a significantly different mode from the mode that they run in when they’re just acting as network interfaces (to the extent that it would be a significant effort for those drivers to support for promiscuously sniffing and acting as regular network interfaces at the same time), so it may be that Windows drivers for those interfaces don’t support promiscuous mode.

When I capture with Wireshark, why can’t I see any TCP packets other than packets to and from my machine, even though another analyzer on the network sees those packets?

You’re probably not seeing any packets other than unicast packets to or from your machine, and broadcast and multicast packets; a switch will normally send to a port only unicast traffic sent to the MAC address for the interface on that port, and broadcast and multicast traffic - it won’t send to that port unicast traffic sent to a MAC address for some other interface - and a network interface not in promiscuous mode will receive only unicast traffic sent to the MAC address for that interface, broadcast traffic, and multicast traffic sent to a multicast MAC address the interface is set up to receive.

TCP doesn’t use broadcast or multicast, so you will only see your own TCP traffic, but UDP services may use broadcast or multicast so you’ll see some UDP traffic - however, this is not a problem with TCP traffic, it’s a problem with unicast traffic, as you also won’t see all UDP traffic between other machines.

I.e., this is probably the same question as this earlier one; see the response to that question.

Why am I only seeing ARP packets when I try to capture traffic?

You’re probably on a switched network, and running Wireshark on a machine that’s not sending traffic to the switch and not being sent any traffic from other machines on the switch. ARP packets are often broadcast packets, which are sent to all switch ports.

I.e., this is probably the same question as this earlier one; see the response to that question.

Why am I not seeing any traffic when I try to capture traffic?

Is the machine running Wireshark sending out any traffic on the network interface on which you’re capturing, or receiving any traffic on that network, or is there any broadcast traffic on the network or multicast traffic to a multicast group to which the machine running Wireshark belongs?

If not, this may just be a problem with promiscuous sniffing, either due to running on a switched network or a dual-speed hub, or due to problems with the interface not supporting promiscuous mode; see the response to this earlier question.

Otherwise, on Windows, see the response to this question and, on a UNIX-flavored OS, see the response to this question.

How do I put an interface into promiscuous mode?

By not disabling promiscuous mode when running Wireshark or TShark.

Note, however, that:

  • the form of promiscuous mode that libpcap (the library that programs such as tcpdump, Wireshark, etc. use to do packet capture) turns on will not necessarily be shown if you run ifconfig on the interface on a UNIX system;

  • some network interfaces might not support promiscuous mode, and some drivers might not allow promiscuous mode to be turned on - see this earlier question for more information on that;

  • the fact that you’re not seeing any traffic, or are only seeing broadcast traffic, or aren’t seeing any non-broadcast traffic other than traffic to or from the machine running Wireshark, does not mean that promiscuous mode isn’t on - see this earlier question for more information on that.

I.e., this is probably the same question as this earlier one; see the response to that question.

I can set a display filter just fine; why don’t capture filters work?

Capture filters currently use a different syntax than display filters. Here’s the corresponding section from the wireshark(1) man page:

"Display filters in Wireshark are very powerful; more fields are filterable in Wireshark than in other protocol analyzers, and the syntax you can use to create your filters is richer. As Wireshark progresses, expect more and more protocol fields to be allowed in display filters.

Packet capturing is performed with the pcap library. The capture filter syntax follows the rules of the pcap library. This syntax is different from the display filter syntax."

The capture filter syntax used by libpcap can be found in the tcpdump(8) man page.

How can I capture packets with CRC errors?

Wireshark can capture only the packets that the packet capture library - libpcap on UNIX-flavored OSes, and the Npcap port to Windows of libpcap on Windows - can capture, and libpcap/Npcap can capture only the packets that the OS’s raw packet capture mechanism (or the Npcap driver, and the underlying OS networking code and network interface drivers, on Windows) will allow it to capture.

Unless the OS always supplies packets with errors such as invalid CRCs to the raw packet capture mechanism, or can be configured to do so, invalid CRCs to the raw packet capture mechanism, Wireshark - and other programs that capture raw packets, such as tcpdump - cannot capture those packets. You will have to determine whether your OS needs to be so configured and, if so, can be so configured, configure it if necessary and possible, and make whatever changes to libpcap and the packet capture program you’re using are necessary, if any, to support capturing those packets.

Most OSes probably do not support capturing packets with invalid CRCs on Ethernet, and probably do not support it on most other link-layer types. Some drivers on some OSes do support it, such as some Ethernet drivers on FreeBSD; in those OSes, you might always get those packets, or you might only get them if you capture in promiscuous mode (you’d have to determine which is the case).

Note that libpcap does not currently supply to programs that use it an indication of whether the packet’s CRC was invalid (because the drivers themselves do not supply that information to the raw packet capture mechanism); therefore, Wireshark will not indicate which packets had CRC errors unless the FCS was captured (see the next question) and you’re using Wireshark 0.9.15 and later, in which case Wireshark will check the CRC and indicate whether it’s correct or not.

How can I capture entire frames, including the FCS?

Wireshark can only capture data that the packet capture library - libpcap on UNIX-flavored OSes, and the Npcap port to Windows of libpcap on Windows - can capture, and libpcap/Npcap can capture only the data that the OS’s raw packet capture mechanism (or the Npcap driver, and the underlying OS networking code and network interface drivers, on Windows) will allow it to capture.

For any particular link-layer network type, unless the OS supplies the FCS of a frame as part of the frame, or can be configured to do so, Wireshark - and other programs that capture raw packets, such as tcpdump - cannot capture the FCS of a frame. You will have to determine whether your OS needs to be so configured and, if so, can be so configured, configure it if necessary and possible, and make whatever changes to libpcap and the packet capture program you’re using are necessary, if any, to support capturing the FCS of a frame.

Most OSes do not support capturing the FCS of a frame on Ethernet, and probably do not support it on most other link-layer types. Some drivers on some OSes do support it, such as some (all?) Ethernet drivers on NetBSD and possibly the driver for Apple’s gigabit Ethernet interface in macOS; in those OSes, you might always get the FCS, or you might only get the FCS if you capture in promiscuous mode (you’d have to determine which is the case).

Versions of Wireshark prior to 0.9.15 will not treat an Ethernet FCS in a captured packet as an FCS. 0.9.15 and later will attempt to determine whether there’s an FCS at the end of the frame and, if it thinks there is, will display it as such, and will check whether it’s the correct CRC-32 value or not.

I’m capturing packets on a machine on a VLAN; why don’t the packets I’m capturing have VLAN tags?

You might be capturing on what might be called a "VLAN interface" - the way a particular OS makes VLANs plug into the networking stack might, for example, be to have a network device object for the physical interface, which takes VLAN packets, strips off the VLAN header and constructs an Ethernet header, and passes that packet to an internal network device object for the VLAN, which then passes the packets onto various higher-level protocol implementations.

In order to see the raw Ethernet packets, rather than "de-VLANized" packets, you would have to capture not on the virtual interface for the VLAN, but on the interface corresponding to the physical network device, if possible. See the Wireshark Wiki item on VLAN capturing for details.

Why does Wireshark hang after I stop a capture?

The most likely reason for this is that Wireshark is trying to look up an IP address in the capture to convert it to a name (so that, for example, it can display the name in the source address or destination address columns), and that lookup process is taking a very long time.

Wireshark calls a routine in the OS of the machine on which it’s running to convert of IP addresses to the corresponding names. That routine probably does one or more of:

  • a search of a system file listing IP addresses and names;

  • a lookup using DNS;

  • on UNIX systems, a lookup using NIS;

  • on Windows systems, a NetBIOS-over-TCP query.

If a DNS server that’s used in an address lookup is not responding, the lookup will fail, but will only fail after a timeout while the system routine waits for a reply.

In addition, on Windows systems, if the DNS lookup of the address fails, either because the server isn’t responding or because there are no records in the DNS that could be used to map the address to a name, a NetBIOS-over-TCP query will be made. That query involves sending a message to the NetBIOS-over-TCP name service on that machine, asking for the name and other information about the machine. If the machine isn’t running software that responds to those queries - for example, many non-Windows machines wouldn’t be running that software - the lookup will only fail after a timeout. Those timeouts can cause the lookup to take a long time.

If you disable network address-to-name translation - for example, by turning off the "Enable network name resolution" option in the "Capture Options" dialog box for starting a network capture - the lookups of the address won’t be done, which may speed up the process of reading the capture file after the capture is stopped. You can make that setting the default by selecting "Preferences" from the "Edit" menu, turning off the "Enable network name resolution" option in the "Name resolution" options in the preferences dialog box, and using the "Save" button in that dialog box; note that this will save all your current preference settings.

If Wireshark hangs when reading a capture even with network name resolution turned off, there might, for example, be a bug in one of Wireshark’s dissectors for a protocol causing it to loop infinitely. If you’re not running the most recent release of Wireshark, you should first upgrade to that release, as, if there’s a bug of that sort, it might’ve been fixed in a release after the one you’re running. If the hang occurs in the most recent release of Wireshark, the bug should be reported to the Wireshark developers' mailing list at wireshark-dev@wireshark.org.

On UNIX-flavored OSes, please try to force Wireshark to dump core, by sending it a SIGABRT signal (usually signal 6) with the kill command, and then get a stack trace if you have a debugger installed. A stack trace can be obtained by using your debugger (gdb in this example), the Wireshark binary, and the resulting core file. Here’s an example of how to use the gdb command backtrace to do so.

$ gdb wireshark core
(gdb) backtrace
..... prints the stack trace
(gdb) quit
$

The core dump file may be named "wireshark.core" rather than "core" on some platforms (e.g., BSD systems).

Also, if at all possible, please send a copy of the capture file that caused the problem. When capturing packets, Wireshark normally writes captured packets to a temporary file, which will probably be in /tmp or /var/tmp on UNIX-flavored OSes, \TEMP on the main system disk (normally \Documents and Settings\`your login name `\Local Settings\Temp on the main system disk on Windows XP and Server 2003, and \Users\your login name\AppData\Local\Temp on the main system disk on Windows Vista and later, so the capture file will probably be there. If you are capturing on a single interface, it will have a name of the form, wireshark_<iface>_YYYYmmddHHMMSS_XXXXXX.<fmt>, where <fmt> is the capture file format (pcap or pcapng), and <iface> is the actual name of the interface you are capturing on; otherwise, if you are capturing on multiple interfaces, it will have a name of the form, wireshark_<N>_interfaces_YYYYmmddHHMMSS_XXXXXX.<fmt>, where <N> is the number of simultaneous interfaces you are capturing on. Please don’t send a trace file greater than 1 MB when compressed; instead, make it available via FTP or HTTP, or say it’s available but leave it up to a developer to ask for it. If the trace file contains sensitive information (e.g., passwords), then please do not send it.

Capturing packets on Windows

I’m running Wireshark on Windows; why does some network interface on my machine not show up in the list of interfaces in the "Interface:" field in the dialog box popped up by "Capture→Start", and/or why does Wireshark give me an error if I try to capture on that interface?

Wireshark relies on the Npcap library, the Npcap device driver, and the facilities that come with the OS on which it’s running in order to do captures.

Therefore, if the OS, the Npcap library, or the Npcap driver don’t support capturing on a particular network interface device, Wireshark won’t be able to capture on that device.

If an interface doesn’t show up in the list of interfaces in the "Interface:" field, and you know the name of the interface, try entering that name in the "Interface:" field and capturing on that device.

If the attempt to capture on it succeeds, the interface is somehow not being reported by the mechanism Wireshark uses to get a list of interfaces. Try listing the interfaces with WinDump; see the WinDump Web site for information on using WinDump.

You would run WinDump with the -D flag; if it lists the interface, please report this to wireshark-dev@wireshark.org giving full details of the problem, including

  • the operating system you’re using, and the version of that operating system;

  • the type of network device you’re using;

  • the output of WinDump.

If WinDump does not list the interface, this is almost certainly a problem with one or more of:

  • the operating system you’re using;

  • the device driver for the interface you’re using;

  • the Npcap library and/or the Npcap device driver;

so first check the Npcap User’s Guide to see if your problem is mentioned there. If not, then see the main Npcap page - check the "Patches, Bug Reports, Questions, Suggestions, etc" section.

If you are having trouble capturing on a particular network interface, first try capturing on that device with WinDump; see the WinDump Web site for information on using WinDump.

If you can capture on the interface with WinDump, send mail to wireshark-users@wireshark.org giving full details of the problem, including

  • the operating system you’re using, and the version of that operating system;

  • the type of network device you’re using;

  • the error message you get from Wireshark.

If you cannot capture on the interface with WinDump, this is almost certainly a problem with one or more of:

  • the operating system you’re using;

  • the device driver for the interface you’re using;

  • the Npcap library and/or the Npcap device driver;

so first check the Npcap User’s Guide to see if your problem is mentioned there. If not, then see the main Npcap page - check the "Patches, Bug Reports, Questions, Suggestions, etc" section.

You may also want to ask the wireshark-users@wireshark.org and the dev@nmap.org mailing lists to see if anybody happens to know about the problem and know a workaround or fix for the problem. (Note that you will have to subscribe to that list in order to be allowed to mail to it; see the Npcap support page for information on the mailing list.) In your mail, please give full details of the problem, as described above, and also indicate that the problem occurs with WinDump, not just with Wireshark.

I’m running Wireshark on Windows; why do no network interfaces show up in the list of interfaces in the "Interface:" field in the dialog box popped up by "Capture→Start"?

This is really the same question as a previous one; see the response to that question.

I’m running Wireshark on Windows; why am I not seeing any traffic being sent by the machine running Wireshark?

If you are running some form of VPN client software, it might be causing this problem; people have seen this problem when they have Check Point’s VPN software installed on their machine. If that’s the cause of the problem, you will have to remove the VPN software in order to have Wireshark (or any other application using Npcap) see outgoing packets; unfortunately, neither we nor the Npcap developers know any way to make Npcap and the VPN software work well together.

Also, some drivers for Windows (especially some wireless network interface drivers) apparently do not, when running in promiscuous mode, arrange that outgoing packets are delivered to the software that requested that the interface run promiscuously; try turning promiscuous mode off.

When I capture on Windows in promiscuous mode, I can see packets other than those sent to or from my machine; however, those packets show up with a "Short Frame" indication, unlike packets to or from my machine. What should I do to arrange that I see those packets in their entirety?

In at least some cases, this appears to be the result of PGPnet running on the network interface on which you’re capturing; turn it off on that interface.

I’m trying to capture 802.11 traffic on Windows; why am I not seeing any packets?

At least some 802.11 card drivers on Windows appear not to see any packets if they’re running in promiscuous mode. Try turning promiscuous mode off; you’ll only be able to see packets sent by and received by your machine, not third-party traffic, and it’ll look like Ethernet traffic and won’t include any management or control frames, but that’s a limitation of the card drivers.

See the archived MicroLogix’s list of cards supported with WinPcap for information on support of various adapters and drivers with WinPcap.

I’m trying to capture 802.11 traffic on Windows; why am I seeing packets received by the machine on which I’m capturing traffic, but not packets sent by that machine?

This appears to be another problem with promiscuous mode; try turning it off.

I’m trying to capture Ethernet VLAN traffic on Windows, and I’m capturing on a "raw" Ethernet device rather than a "VLAN interface", so that I can see the VLAN headers; why am I seeing packets received by the machine on which I’m capturing traffic, but not packets sent by that machine?

The way the Windows networking code works probably means that packets are sent on a "VLAN interface" rather than the "raw" device, so packets sent by the machine will only be seen when you capture on the "VLAN interface". If so, you will be unable to see outgoing packets when capturing on the "raw" device, so you are stuck with a choice between seeing VLAN headers and seeing outgoing packets.

Capturing packets on UN*Xes

I’m running Wireshark on a UNIX-flavored OS; why does some network interface on my machine not show up in the list of interfaces in the "Interface:" field in the dialog box popped up by "Capture→Start", and/or why does Wireshark give me an error if I try to capture on that interface?

You may need to run Wireshark from an account with sufficient privileges to capture packets, such as the super-user account, or may need to give your account sufficient privileges to capture packets. Only those interfaces that Wireshark can open for capturing show up in that list; if you don’t have sufficient privileges to capture on any interfaces, no interfaces will show up in the list. See the Wireshark Wiki item on capture privileges for details on how to give a particular account or account group capture privileges on platforms where that can be done.

If you are running Wireshark from an account with sufficient privileges, then note that Wireshark relies on the libpcap library, and on the facilities that come with the OS on which it’s running in order to do captures. On some OSes, those facilities aren’t present by default; see the Wireshark Wiki item on adding capture support for details.

And, even if you’re running with an account that has sufficient privileges to capture, and capture support is present in your OS, if the OS or the libpcap library don’t support capturing on a particular network interface device or particular types of devices, Wireshark won’t be able to capture on that device.

On Solaris, note that libpcap 0.6.2 and earlier didn’t support Token Ring interfaces; the current version, 0.7.2, does support Token Ring, and the current version of Wireshark works with libpcap 0.7.2 and later.

If an interface doesn’t show up in the list of interfaces in the "Interface:" field, and you know the name of the interface, try entering that name in the "Interface:" field and capturing on that device.

If the attempt to capture on it succeeds, the interface is somehow not being reported by the mechanism Wireshark uses to get a list of interfaces; please report this to wireshark-dev@wireshark.org giving full details of the problem, including

  • the operating system you’re using, and the version of that operating system (for Linux, give both the version number of the kernel and the name and version number of the distribution you’re using);

  • the type of network device you’re using.

If you are having trouble capturing on a particular network interface, and you’ve made sure that (on platforms that require it) you’ve arranged that packet capture support is present, as per the above, first try capturing on that device with tcpdump.

If you can capture on the interface with tcpdump, send mail to wireshark-users@wireshark.org giving full details of the problem, including

  • the operating system you’re using, and the version of that operating system (for Linux, give both the version number of the kernel and the name and version number of the distribution you’re using);

  • the type of network device you’re using;

  • the error message you get from Wireshark.

If you cannot capture on the interface with tcpdump, this is almost certainly a problem with one or more of:

  • the operating system you’re using;

  • the device driver for the interface you’re using;

  • the libpcap library;

so you should report the problem to the company or organization that produces the OS (in the case of a Linux distribution, report the problem to whoever produces the distribution).

You may also want to ask the wireshark-users@wireshark.org and the tcpdump-workers@lists.tcpdump.org mailing lists to see if anybody happens to know about the problem and know a workaround or fix for the problem. In your mail, please give full details of the problem, as described above, and also indicate that the problem occurs with tcpdump not just with Wireshark.

I’m running Wireshark on a UNIX-flavored OS; why do no network interfaces show up in the list of interfaces in the "Interface:" field in the dialog box popped up by "Capture→Start"?

This is really the same question as the previous one; see the response to that question.

I’m capturing packets on Linux; why do the time stamps have only 100ms resolution, rather than 1us resolution?

Wireshark gets time stamps from libpcap/Npcap, and libpcap/Npcap get them from the OS kernel, so Wireshark - and any other program using libpcap, such as tcpdump - is at the mercy of the time stamping code in the OS for time stamps.

At least on x86-based machines, Linux can get high-resolution time stamps on newer processors with the Time Stamp Counter (TSC) register; for example, Intel x86 processors, starting with the Pentium Pro, and including all x86 processors since then, have had a TSC, and other vendors probably added the TSC at some point to their families of x86 processors. The Linux kernel must be configured with the CONFIG_X86_TSC option enabled in order to use the TSC. Make sure this option is enabled in your kernel.

In addition, some Linux distributions may have bugs in their versions of the kernel that cause packets not to be given high-resolution time stamps even if the TSC is enabled. See, for example, bug 61111 for Red Hat Linux 7.2. If your distribution has a bug such as this, you may have to run a standard kernel from kernel.org in order to get high-resolution time stamps.

Capturing packets on wireless LANs

How can I capture raw 802.11 frames, including non-data (management, beacon) frames?

That depends on the operating system on which you’re running, and on the 802.11 interface on which you’re capturing.

This would probably require that you capture in promiscuous mode or in the mode called "monitor mode" or "RFMON mode". On some platforms, or with some cards, this might require that you capture in monitor mode - promiscuous mode might not be sufficient. If you want to capture traffic on networks other than the one with which you’re associated, you will have to capture in monitor mode.

Not all operating systems support capturing non-data packets and, even on operating systems that do support it, not all drivers, and thus not all interfaces, support it. Even on those that do, monitor mode might not be supported by the operating system or by the drivers for all interfaces.

NOTE: an interface running in monitor mode will, on most if not all platforms, not be able to act as a regular network interface; putting it into monitor mode will, in effect, take your machine off of whatever network it’s on as long as the interface is in monitor mode, allowing it only to passively capture packets.

This means that you should disable name resolution when capturing in monitor mode; otherwise, when Wireshark (or TShark, or tcpdump) tries to display IP addresses as host names, it will probably block for a long time trying to resolve the name because it will not be able to communicate with any DNS or NIS servers.

How do I capture on an 802.11 device in monitor mode?

Whether you will be able to capture in monitor mode depends on the operating system, adapter, and driver you’re using. See the previous question for information on monitor mode, including a link to the Wireshark Wiki page that gives details on 802.11 capturing.

Viewing traffic

Why am I seeing lots of packets with incorrect TCP checksums?

If the packets that have incorrect TCP checksums are all being sent by the machine on which Wireshark is running, this is probably because the network interface on which you’re capturing does TCP checksum offloading. That means that the TCP checksum is added to the packet by the network interface, not by the OS’s TCP/IP stack; when capturing on an interface, packets being sent by the host on which you’re capturing are directly handed to the capture interface by the OS, which means that they are handed to the capture interface without a TCP checksum being added to them.

The only way to prevent this from happening would be to disable TCP checksum offloading, but

  1. that might not even be possible on some OSes;

  2. that could reduce networking performance significantly.

However, you can disable the check that Wireshark does of the TCP checksum, so that it won’t report any packets as having TCP checksum errors, and so that it won’t refuse to do TCP reassembly due to a packet having an incorrect TCP checksum. That can be set as an Wireshark preference by selecting "Preferences" from the "Edit" menu, opening up the "Protocols" list in the left-hand pane of the "Preferences" dialog box, selecting "TCP", from that list, turning off the "Check the validity of the TCP checksum when possible" option, clicking "Save" if you want to save that setting in your preference file, and clicking "OK".

It can also be set on the Wireshark or TShark command line with a -o tcp.check_checksum:false command-line flag, or manually set in your preferences file by adding a tcp.check_checksum:false line.

I’ve just installed Wireshark, and the traffic on my local LAN is boring. Where can I find more interesting captures?

We have a collection of strange and exotic sample capture files at https://gitlab.com/wireshark/wireshark/-/wikis/SampleCaptures

Why doesn’t Wireshark correctly identify RTP packets? It shows them only as UDP.

Wireshark can identify a UDP datagram as containing a packet of a particular protocol running atop UDP only if

  1. The protocol in question has a particular standard port number, and the UDP source or destination port number is that port

  2. Packets of that protocol can be identified by looking for a "signature" of some type in the packet - i.e., some data that, if Wireshark finds it in some particular part of a packet, means that the packet is almost certainly a packet of that type.

  3. Some other traffic earlier in the capture indicated that, for example, UDP traffic between two particular addresses and ports will be RTP traffic.

RTP doesn’t have a standard port number, so 1) doesn’t work; it doesn’t, as far as I know, have any "signature", so 2) doesn’t work.

That leaves 3). If there’s RTSP traffic that sets up an RTP session, then, at least in some cases, the RTSP dissector will set things up so that subsequent RTP traffic will be identified. Currently, that’s the only place we do that; there may be other places.

However, there will always be places where Wireshark is simply incapable of deducing that a given UDP flow is RTP; a mechanism would be needed to allow the user to specify that a given conversation should be treated as RTP. As of Wireshark 0.8.16, such a mechanism exists; if you select a UDP or TCP packet, the right mouse button menu will have a "Decode As…​" menu item, which will pop up a dialog box letting you specify that the source port, the destination port, or both the source and destination ports of the packet should be dissected as some particular protocol.

Why doesn’t Wireshark show Yahoo Messenger packets in captures that contain Yahoo Messenger traffic?

Wireshark only recognizes as Yahoo Messenger traffic packets to or from TCP port 3050 that begin with "YPNS", "YHOO", or "YMSG". TCP segments that start with the middle of a Yahoo Messenger packet that takes more than one TCP segment will not be recognized as Yahoo Messenger packets (even if the TCP segment also contains the beginning of another Yahoo Messenger packet).

Filtering traffic

I saved a filter and tried to use its name to filter the display; why do I get an "Unexpected end of filter string" error?

You cannot use the name of a saved display filter as a filter. To filter the display, you can enter a display filter expression - not the name of a saved display filter - in the "Filter:" box at the bottom of the display, and type the <Enter> key or press the "Apply" button (that does not require you to have a saved filter), or, if you want to use a saved filter, you can press the "Filter:" button, select the filter in the dialog box that pops up, and press the "OK" button.

How can I search for, or filter, packets that have a particular string anywhere in them?

If you want to do this when capturing, you can’t. That’s a feature that would be hard to implement in capture filters without changes to the capture filter code, which, on many platforms, is in the OS kernel and, on other platforms, is in the libpcap library.

After capture, you can search for text by selecting Edit→Find Packet…​ and making sure String is selected. Alternately, you can use the "contains" display filter operator or "matches" operator if it’s supported on your system.

How do I filter a capture to see traffic for virus XXX?

For some viruses/worms there might be a capture filter to recognize the virus traffic. Check the CaptureFilters page on the Wireshark Wiki to see if anybody’s added such a filter.

Note that Wireshark was not designed to be an intrusion detection system; you might be able to use it as an IDS, but in most cases software designed to be an IDS, such as Snort or Prelude, will probably work better.

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