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I spent the last days reading through man pages, documentations and anything else google brought up, but I suppose I'm even more confused now than I was at the beginning.

Here is what I want to do: I want to send and receive data packets with my own layer 3-x protocol(s) via a wireless interface (802.11) on Linux systems with C/C++. So far, so good. I do not require beacons, association or any AP/SSID related stuff. However, for data transmissions I'd like the MAC layer to behave "as usual", meaning unicast packets are ACK'd, retransmissions, backoff etc. I'd also like to enjoy the extended QoS capabilites (802.11e with 4 queues and different access categories). Promiscuous mode on the other hand is not a concern, I require only broadcast packets and packets sent to the specific station.

What would be the right way to go about it? Most of the documentation out there on raw socket access seems to be focused on network sniffing and that does not help. I've been playing around with the monitor mode for some time now, but from what I've read so far, received packets are not ACK'd in monitor mode etc. Without monitor mode, what would be the alternative? Using ad hoc mode and unix raw sockets? Or do I have to fiddle around with the drivers?

I'm not looking for a complete solution, just some good ideas, where to start. I read through the man pages for socket(2), socket(7) and packet(7) but that did not help concerning the behaviour of the MAC layer in different modes.

Thanks in advance.

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You might look and see if there is an open source software solution for generating test traffic - ie, mix of valid and invalid packets in order to see how equipment on the other end handles that. Presumably, this would have the ability to both perform complete usual operations, but also arbitrary variations (in order to introduce the desired errors). If such exists you might be able to either use it or learn from it. –  Chris Stratton May 6 '12 at 21:25
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4 Answers

802.11 is layer 2 (and 1) protocol specification. It was designed in a way, which allows higher-layer protocols to treat it as Ethernet network. Addressing and behaviour is generally the same. So for a layer 3 protocol you should not be concerned about 802.11 at all and write your code as if you were expecting it to run on Ethernet network.

To make it work you should first connect to a wireless network of some sort (which is conceptually equal to plugging a wire into a Ethernet card). Here you may choose ad-hoc (aka IBSS) or infrastructural (aka BSS) network (or PBSS once 802.11ad is approved ;).

Operating cards without any sort of association with network (just spitting out packets on air) is not a good idea for a couple of reasons. Most importantly it's very hardware dependent and unreliable. You can still do it using RF mon (AKA monitor mode) interface on one side and packet injection (using radiotap header) on the other but I don't recommend that. Even if you have a set of identical cards you'll most likely encounter hard to explain and random behaviour at some point. 802.11 NICs are just not designed for this kind of operation and keep different mount of state inside firmware (read about FullMAC vs. SoftMAC cards). Even SoftMAC cards differ significantly. For example theoretically in monitor mode, as you said, card should not ACK received packets. There are cards though that will ACK received frame anyway, because they base their decision exclusively on the fact that said frame is addressed to them. Some cards may even try to ACK all frames they see. Similar thing will happen with retransmissions: some cards will send injected packet only once (that's how it should work). In other NICs, retransmissions are handled by hardware (and firmware) and driver cannot turn it off, so you will get automatic retransmission even with injected data.

Sticking with layer 3 and using existing modes (like ad hoc), will give you all capabilities you want and more (QoS etc.). Ethernet frame that you send to interface will be "translated" by the kernel to 802.11 format with QoS mapping etc.

If you want to find out about MAC behaviour in various modes you'll have to either read the mac80211 code or 802.11 standard itself. http://linuxwireless.org wiki my help you with a few things, but kernel hackers are usually to busy to write documentation other than comments in the code ;)

L3 protocol implementation itself can be also done either in kernel or user mode (using raw sockets). As usual kernel-side will be harder to do, but more powerful.

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Because you want to create own network layer protocol (replacement for IP), the keyword is: "raw ethernet socket". So ignore "Raw IP socket" stuff.

This is where to start:

int sockfd = socket( PF_PACKET, SOCK_RAW, htons(XXX) ); 

Correct man page is: packet(7).

Find more information by googling with the keyword. One quite complete example here.

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It sounds like you are getting the media and transport layers mixed up.

802.11 is what's commonly referred to as a "link", "physical", or "media" layer, meaning it only deals with the transmission of raw datagrams.

Concepts like ACKs, retransmissions, backoff (flow control) apply to the "transport" layer, and those particular terms are strongly associated with TCP/IP.

Implementing your own complete transport layer from scratch is very difficult and almost certainly not what you want to do. If instead you want to use the existing TCP/IP stack on top of your own custom interpretation of 802.11, then you probably want to create a virtual network interface. This would act as an intermediary between TCP/IP and the media layer.

Hopefully this gives you some better context and keywords to look for.

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OP does not mix layers. There are acks and retransmissions 802.11, see www.sss-mag.com/pdf/802_11tut.pdf –  abb May 7 '12 at 8:12
    
My bad, I saw ACKs, retransmissions, and backoffs and associated all of that with transport layer. –  Seth Noble May 7 '12 at 18:25
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Probably you want something like libpcap.

Libpcap allows you to read/inject raw packets from/into a network interface.

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