On Aug 22, 2015, at 1:09 PM, Richard Sharpe <realrichardsharpe@xxxxxxxxx> wrote:
> Also, I now see that sections 9.7.5a.4 and 9.7.5a.5 imply that MCS
> headers are appropriate for an 802.11ad capture,
I'm not so sure about that.
802.11ad-2012 has Clause 21, which says:
The DMG PHY supports three modulation methods:
-- A control modulation using MCS 0 (the control PHY; see 21.4)
-- A single carrier (SC) modulation using MCS 1 to MCS 12 (the SC PHY; see 21.6) and MCS 25 to MCS 31 (the low-power SC PHY; see 21.7)
-- An OFDM modulation using MCS 13 to MCS 24 (the OFDM PHY; see 21.5)
so it has its own MCS values, independent of 11n and 11ac, so there should probably be a DMG field with, among other items, an MCS subfield, containing a value between 0 and 24.
Don't be confused by the name of the "MCS" field; it really *should* have been called the "HT" field, as it has subfields for more than just the MCS, and as its MCS values are specific to the High Throughput PHY - i.e., the 11n PHY. The page for it on the radiotap site says:
The mcs field indicates the MCS rate index as in IEEE_802.11n-2009.
which, if we update it to say "as in Clause 20 of IEEE 802.11-2012", says it has values from 0 to 76, with modulations different from the ones in Clause 21, i.e. the MCS field is *not* appropriate for 11ad.
> so the radiotap
> dissector will need to change to use the frequency set the PHY type.
No, I'd add a DMG field to radiotap, containing, among other values, an mcs subfield, with a Clause 21 MCS value in it.
I'm a software engineer, not an electrical engineer, so I'm not even remotely close to an authority on what radio-layer information would be useful, but a quick look at Clause 21 suggests that it might want to include a flag to indicate whether "Static Tone Pairing" or "Dynamic Tone Pairing" was used.