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There is so many structure in Linux wireless driver mac80211. something like struct net_device, struct ieee80211_hw, struct ieee80211_vif and struct ieee80211_local and so on. So many structures that I don't understand what information they contain and when them were initialized. How can I learn about them and the whole architecture of wireless driver? I don't what to do now.

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Hi, Welcome to stackoverflow. Good questions, which get good answers usually have a narrower and more specific question than the one you've asked here, which is very broad and open-ended. –  Flexo Aug 23 '11 at 22:16
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The best I can really suggest from this question is reading the source (lxr.linux.no/#linux+v3.0.3 is very handy), lurking on some of the mailing lists (linuxwireless.org/en/developers/MailingLists) and trying out some changes of your own. If you're able to do that and then pose a more specific question I think you'll get much better answers. –  Flexo Aug 23 '11 at 22:18
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1 Answer

You may want to check out Johannes Berg's (mac80211 maintainer) slides here: http://wireless.kernel.org/en/developers/Documentation/mac80211?action=AttachFile&do=get&target=mac80211.pdf

They may be somewhat outdated but should give you a place to start.

A high level description of the Linux WiFi kernel stack:

  1. It's important to understand there are 2 paths in which userspace communicates with the kernel when we're talking about WiFi:
    • Data path: the data being received is passed from the wireless driver to the netdev core (usually using netif_rx()). From there the net core will pass it through the TCP/IP stack code and will queue it on the relevant sockets from which the userspace process will read it. On the Tx path packets will be sent from the netdev core to the wireless driver using the ndo_start_xmit() callback. The driver registers (like other netdevices such as an ethernet driver) a set of operations callbacks by using the struct net_device_ops.
    • Control path: This path is how userspace controls the WiFi interface/device and performs operations like scan and association. The userspace interface is based on netlink and called nl80211 (see include/uapi/linux/nl80211.h). You can send commands and get events in response.
  2. When you send an nl80211 command it gets initially handled by cfg80211 kernel module (it's code is under net/wireless and the handlers are in net/wireless/nl80211.c). cfg80211 will usually call a lower level driver. In case of Full MAC hardware the specific HW driver is right below cfg80211. The driver below cfg80211 registers a set of ops with cfg80211 by using cfg80211_ops struct. For example see brcmfmac driver (drivers/net/wireless/brcm80211/brcmfmac/wl_cfg80211.c)
  3. For Soft MAC hardware there's mac80211 which is a kernel module implementing the 802.11 MAC layer. So in this case cfg80211 will talk to mac80211 which will in turn use the hardware specific lower level driver. An example of this is iwlwifi (For Intel chips)
  4. mac80211 registers itself with cfg80211 by using the cfg80211_ops (see net/mac80211/cfg.c). The specific HW driver registers itself with mac80211 by using the ieee80211_ops struct (for example drivers/net/wireless/iwlwifi/mvm/mac80211.c)
  5. Initialization of a new NIC you've connected occurs from the bottom up the stack. The HW specific driver will call mac80211's ieee80211_allow_hw() usually after probing the HW. ieee80211_alloc_hw() gets the size of private data struct used by the HW driver. It in turns calls cfg80211 wiphy_new() which does the actual allocation of space sufficient for the wiphy struct, the ieee80211_local struct (which is used by mac80211) and the HW driver private data (the layering is seen in ieee80211_alloc_hw code) ieee80211_hw is an embedded struct within ieee80211_local which is "visible" to the the HW driver. All of these (wiphy, ieee80211_local, ieee80211_hw) represent a single physical device connected.
  6. On top of a single physical device (also referred to as phy) you can set up multiple virtual interfaces. These are essentially what you know as wlan0 or wlan1 which you control with ifconfig. Each such virtual interface is represented by an ieee80211_vif. This struct also contains at the end private structs accessed by the HW driver. Multiple interfaces can be used to run something like a station on wlan0 and an AP on wlan1 (this is possible depending on the HW capabilities)
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