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I have a Wi-Fi capture (.pcap) that I'm analysing and have run across what appear to me to be inconsistencies between the 802.11 spec and Wireshark's interpretation of the data. Specifically what I'm trying to pull apart is the 2-byte 802.11 Frame Control field.

Taken from http://www4.ncsu.edu/~aliu3/802.bmp, the format of the Frame Control field's subfields are as follows:

Frame control subfields.

And below is a Wireshark screen cap of the packet that has me confused:

Confusing Frame Control in Wireshark

So as per the Wireshark screenshot, the flags portion (last 8 bits) of the Frame Control field is 0x22, which is fine. How the Version/Type/Subtype being 0x08 matches up with Wireshark's description of the frame is what has me confused.

0x08 = 0000 1000b, which I thought would translate to Version = 00, Type = 00 (which I thought meant management not data frame) and Subtype = 1000 (which I thought would be a beacon frame). So I would expect this frame to be a management frame and more specifically, a beacon frame. Wireshark however reports it as a Data frame. The second thing that is confusing me is where Wireshark is even pulling 0x20 from in the line Type/Subtype: Data (0x20).

Can anyone clarify my interpretation of the 802.11 spec/Wireshark capture for me and why the two aren't consistent?

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My best guess is that this byte is interpreted in reverse, just like Ethernet frames are transmitted LSB first. Thus you'd get: subtype = 0000b, type = 10b / 0x2, version = 00b, and a reasonable way to represent type and subtype together would be type << 4 & subtype, i.e. 0x20 in this case. I'd be happy to have this confirmed or denied by someone knowledgeable, though. –  legoscia Oct 3 '12 at 10:47

2 Answers 2

up vote 8 down vote accepted

The data frame in you example is 0x08 because of the layout of that byte of the frame control (FC). 0x08 = 00001000 - The first 4 bits (0000) are the subtype. 0000 is the subtype of this frame - The next 2 bits (10) is the type, which is 2 decimal and thus a data type frame - The last 2 bits (00) are the version, which is 0

The table below translates the hex value of the subtype-type-version byte of the FC for several frame types. A compare of the QoS data to the normal data frame might really help get this down pat. Mind you the table might have an error or two, as I just whipped it up.

You are right that 1000 is a beacon frame, you just were looking at the wrong bits.

enter image description here

You have a radiotap header, you can get the dec representation of the type like so from the pcap API:

int type = pkt_data[20] >> 2;
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This is a common error, and has certainly bitten me several times.

It is down to the Byte Ordering.

When you have a multi-byte number to represent, the question arises as to Which byte do you put/send first ?

Natural (human) byte order is to put the big part first, then the smaller parts after it, Left-to-right, also called Big Endian. Note that the Bits in each byte are never the wrong way around from a programmers' point of view.

e.g. 1234 decimal requires 2 bytes, 04D2 hex. Do you write/send 04 D2, or D2 04 ? The first is Big-endian, the second is Little-endian.

To confuse it more, the mechanisms involved may use different byte-orders.

There is the Network Byte Order, in this case Little-endian, the Architecture byte order (can be different for each CPU architecture) and the data may be in a buffer, so it will vary depending on whether you read the buffer top-to-bottom, or bottom-to-top.

It doesn't help that the explanation of which bits do what can also be 'backwards', as in your original post.

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