sys/net80211/_ieee80211.h

8a1b9b6aSSam Leffler/*-
4d846d26SWarner Losh * SPDX-License-Identifier: BSD-2-Clause
fe267a55SPedro F. Giffuni *
8a1b9b6aSSam Leffler * Copyright (c) 2001 Atsushi Onoe
b032f27cSSam Leffler * Copyright (c) 2002-2008 Sam Leffler, Errno Consulting
8a1b9b6aSSam Leffler * All rights reserved.
8a1b9b6aSSam Leffler *
8a1b9b6aSSam Leffler * Redistribution and use in source and binary forms, with or without
8a1b9b6aSSam Leffler * modification, are permitted provided that the following conditions
8a1b9b6aSSam Leffler * are met:
8a1b9b6aSSam Leffler * 1. Redistributions of source code must retain the above copyright
8a1b9b6aSSam Leffler *    notice, this list of conditions and the following disclaimer.
8a1b9b6aSSam Leffler * 2. Redistributions in binary form must reproduce the above copyright
8a1b9b6aSSam Leffler *    notice, this list of conditions and the following disclaimer in the
8a1b9b6aSSam Leffler *    documentation and/or other materials provided with the distribution.
8a1b9b6aSSam Leffler *
8a1b9b6aSSam Leffler * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
8a1b9b6aSSam Leffler * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
8a1b9b6aSSam Leffler * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
8a1b9b6aSSam Leffler * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
8a1b9b6aSSam Leffler * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
8a1b9b6aSSam Leffler * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
8a1b9b6aSSam Leffler * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
8a1b9b6aSSam Leffler * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
8a1b9b6aSSam Leffler * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
8a1b9b6aSSam Leffler * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
8a1b9b6aSSam Leffler */
8a1b9b6aSSam Leffler#ifndef _NET80211__IEEE80211_H_
8a1b9b6aSSam Leffler#define _NET80211__IEEE80211_H_
8a1b9b6aSSam Leffler
b032f27cSSam Leffler/*
b032f27cSSam Leffler * 802.11 implementation definitions.
b032f27cSSam Leffler *
b032f27cSSam Leffler * NB: this file is used by applications.
b032f27cSSam Leffler */
b032f27cSSam Leffler
b032f27cSSam Leffler/*
b032f27cSSam Leffler * PHY type; mostly used to identify FH phys.
b032f27cSSam Leffler */
8a1b9b6aSSam Lefflerenum ieee80211_phytype {
8a1b9b6aSSam Leffler	IEEE80211_T_DS,			/* direct sequence spread spectrum */
8a1b9b6aSSam Leffler	IEEE80211_T_FH,			/* frequency hopping */
8a1b9b6aSSam Leffler	IEEE80211_T_OFDM,		/* frequency division multiplexing */
8a1b9b6aSSam Leffler	IEEE80211_T_TURBO,		/* high rate OFDM, aka turbo mode */
b032f27cSSam Leffler	IEEE80211_T_HT,			/* high throughput */
54434725SSam Leffler	IEEE80211_T_OFDM_HALF,		/* 1/2 rate OFDM */
54434725SSam Leffler	IEEE80211_T_OFDM_QUARTER,	/* 1/4 rate OFDM */
fdbc9e6eSAdrian Chadd	IEEE80211_T_VHT,		/* VHT PHY */
8a1b9b6aSSam Leffler};
8a1b9b6aSSam Leffler#define	IEEE80211_T_CCK	IEEE80211_T_DS	/* more common nomenclature */
8a1b9b6aSSam Leffler
b032f27cSSam Leffler/*
b032f27cSSam Leffler * PHY mode; this is not really a mode as multi-mode devices
b032f27cSSam Leffler * have multiple PHY's.  Mode is mostly used as a shorthand
b032f27cSSam Leffler * for constraining which channels to consider in setting up
b032f27cSSam Leffler * operation.  Modes used to be used more extensively when
b032f27cSSam Leffler * channels were identified as IEEE channel numbers.
b032f27cSSam Leffler */
8a1b9b6aSSam Lefflerenum ieee80211_phymode {
8a1b9b6aSSam Leffler	IEEE80211_MODE_AUTO	= 0,	/* autoselect */
8a1b9b6aSSam Leffler	IEEE80211_MODE_11A	= 1,	/* 5GHz, OFDM */
8a1b9b6aSSam Leffler	IEEE80211_MODE_11B	= 2,	/* 2GHz, CCK */
8a1b9b6aSSam Leffler	IEEE80211_MODE_11G	= 3,	/* 2GHz, OFDM */
8a1b9b6aSSam Leffler	IEEE80211_MODE_FH	= 4,	/* 2GHz, GFSK */
8a1b9b6aSSam Leffler	IEEE80211_MODE_TURBO_A	= 5,	/* 5GHz, OFDM, 2x clock */
8a1b9b6aSSam Leffler	IEEE80211_MODE_TURBO_G	= 6,	/* 2GHz, OFDM, 2x clock */
68e8e04eSSam Leffler	IEEE80211_MODE_STURBO_A	= 7,	/* 5GHz, OFDM, 2x clock, static */
68e8e04eSSam Leffler	IEEE80211_MODE_11NA	= 8,	/* 5GHz, w/ HT */
68e8e04eSSam Leffler	IEEE80211_MODE_11NG	= 9,	/* 2GHz, w/ HT */
6a76ae21SSam Leffler	IEEE80211_MODE_HALF	= 10,	/* OFDM, 1/2x clock */
6a76ae21SSam Leffler	IEEE80211_MODE_QUARTER	= 11,	/* OFDM, 1/4x clock */
fdbc9e6eSAdrian Chadd	IEEE80211_MODE_VHT_2GHZ	= 12,	/* 2GHz, VHT */
fdbc9e6eSAdrian Chadd	IEEE80211_MODE_VHT_5GHZ	= 13,	/* 5GHz, VHT */
8a1b9b6aSSam Leffler};
fdbc9e6eSAdrian Chadd#define	IEEE80211_MODE_MAX	(IEEE80211_MODE_VHT_5GHZ+1)
88a75510SAndriy Voskoboinyk#define	IEEE80211_MODE_BYTES	howmany(IEEE80211_MODE_MAX, NBBY)
8a1b9b6aSSam Leffler
b032f27cSSam Leffler/*
b032f27cSSam Leffler * Operating mode.  Devices do not necessarily support
b032f27cSSam Leffler * all modes; they indicate which are supported in their
b032f27cSSam Leffler * capabilities.
b032f27cSSam Leffler */
8a1b9b6aSSam Lefflerenum ieee80211_opmode {
8a1b9b6aSSam Leffler	IEEE80211_M_IBSS 	= 0,	/* IBSS (adhoc) station */
b032f27cSSam Leffler	IEEE80211_M_STA		= 1,	/* infrastructure station */
b032f27cSSam Leffler	IEEE80211_M_WDS		= 2,	/* WDS link */
8a1b9b6aSSam Leffler	IEEE80211_M_AHDEMO	= 3,	/* Old lucent compatible adhoc demo */
b032f27cSSam Leffler	IEEE80211_M_HOSTAP	= 4,	/* Software Access Point */
b032f27cSSam Leffler	IEEE80211_M_MONITOR	= 5,	/* Monitor mode */
59aa14a9SRui Paulo	IEEE80211_M_MBSS	= 6,	/* MBSS (Mesh Point) link */
8a1b9b6aSSam Leffler};
59aa14a9SRui Paulo#define	IEEE80211_OPMODE_MAX	(IEEE80211_M_MBSS+1)
8a1b9b6aSSam Leffler
8a1b9b6aSSam Leffler/*
68e8e04eSSam Leffler * 802.11g/802.11n protection mode.
8a1b9b6aSSam Leffler */
8a1b9b6aSSam Lefflerenum ieee80211_protmode {
8a1b9b6aSSam Leffler	IEEE80211_PROT_NONE	= 0,	/* no protection */
8a1b9b6aSSam Leffler	IEEE80211_PROT_CTSONLY	= 1,	/* CTS to self */
8a1b9b6aSSam Leffler	IEEE80211_PROT_RTSCTS	= 2,	/* RTS-CTS */
8a1b9b6aSSam Leffler};
8a1b9b6aSSam Leffler
8a1b9b6aSSam Leffler/*
b032f27cSSam Leffler * Authentication mode.  The open and shared key authentication
b032f27cSSam Leffler * modes are implemented within the 802.11 layer.  802.1x and
b032f27cSSam Leffler * WPA/802.11i are implemented in user mode by setting the
b032f27cSSam Leffler * 802.11 layer into IEEE80211_AUTH_8021X and deferring
b032f27cSSam Leffler * authentication to user space programs.
8a1b9b6aSSam Leffler */
8a1b9b6aSSam Lefflerenum ieee80211_authmode {
8a1b9b6aSSam Leffler	IEEE80211_AUTH_NONE	= 0,
8a1b9b6aSSam Leffler	IEEE80211_AUTH_OPEN	= 1,		/* open */
8a1b9b6aSSam Leffler	IEEE80211_AUTH_SHARED	= 2,		/* shared-key */
8a1b9b6aSSam Leffler	IEEE80211_AUTH_8021X	= 3,		/* 802.1x */
8a1b9b6aSSam Leffler	IEEE80211_AUTH_AUTO	= 4,		/* auto-select/accept */
8a1b9b6aSSam Leffler	/* NB: these are used only for ioctls */
8a1b9b6aSSam Leffler	IEEE80211_AUTH_WPA	= 5,		/* WPA/RSN w/ 802.1x/PSK */
8a1b9b6aSSam Leffler};
8a1b9b6aSSam Leffler
8a1b9b6aSSam Leffler/*
8a1b9b6aSSam Leffler * Roaming mode is effectively who controls the operation
8a1b9b6aSSam Leffler * of the 802.11 state machine when operating as a station.
8a1b9b6aSSam Leffler * State transitions are controlled either by the driver
8a1b9b6aSSam Leffler * (typically when management frames are processed by the
8a1b9b6aSSam Leffler * hardware/firmware), the host (auto/normal operation of
8a1b9b6aSSam Leffler * the 802.11 layer), or explicitly through ioctl requests
8a1b9b6aSSam Leffler * when applications like wpa_supplicant want control.
8a1b9b6aSSam Leffler */
8a1b9b6aSSam Lefflerenum ieee80211_roamingmode {
8a1b9b6aSSam Leffler	IEEE80211_ROAMING_DEVICE= 0,	/* driver/hardware control */
8a1b9b6aSSam Leffler	IEEE80211_ROAMING_AUTO	= 1,	/* 802.11 layer control */
8a1b9b6aSSam Leffler	IEEE80211_ROAMING_MANUAL= 2,	/* application control */
8a1b9b6aSSam Leffler};
8a1b9b6aSSam Leffler
8a1b9b6aSSam Leffler/*
8a1b9b6aSSam Leffler * Channels are specified by frequency and attributes.
8a1b9b6aSSam Leffler */
8a1b9b6aSSam Lefflerstruct ieee80211_channel {
68e8e04eSSam Leffler	uint32_t	ic_flags;	/* see below */
fdbc9e6eSAdrian Chadd	uint16_t	ic_freq;	/* primary centre frequency in MHz */
68e8e04eSSam Leffler	uint8_t		ic_ieee;	/* IEEE channel number */
68e8e04eSSam Leffler	int8_t		ic_maxregpower;	/* maximum regulatory tx power in dBm */
68e8e04eSSam Leffler	int8_t		ic_maxpower;	/* maximum tx power in .5 dBm */
68e8e04eSSam Leffler	int8_t		ic_minpower;	/* minimum tx power in .5 dBm */
3f87f68eSSam Leffler	uint8_t		ic_state;	/* dynamic state */
3f87f68eSSam Leffler	uint8_t		ic_extieee;	/* HT40 extension channel number */
00a7aacaSSam Leffler	int8_t		ic_maxantgain;	/* maximum antenna gain in .5 dBm */
00a7aacaSSam Leffler	uint8_t		ic_pad;
00a7aacaSSam Leffler	uint16_t	ic_devdata;	/* opaque device/driver data */
fdbc9e6eSAdrian Chadd	uint8_t		ic_vht_ch_freq1; /* VHT primary freq1 IEEE value */
fdbc9e6eSAdrian Chadd	uint8_t		ic_vht_ch_freq2; /* VHT secondary 80MHz freq2 IEEE value */
fdbc9e6eSAdrian Chadd	uint16_t	ic_freq2;	/* VHT secondary 80MHz freq2 MHz */
8a1b9b6aSSam Leffler};
8a1b9b6aSSam Leffler
fdbc9e6eSAdrian Chadd/*
fdbc9e6eSAdrian Chadd * Note: for VHT operation we will need significantly more than
fdbc9e6eSAdrian Chadd * IEEE80211_CHAN_MAX channels because of the combinations of
4b1c2487SBjoern A. Zeeb * VHT20, VHT40, VHT80, VHT160, and VHT80+80.
fdbc9e6eSAdrian Chadd */
fdbc9e6eSAdrian Chadd#define	IEEE80211_CHAN_MAX	1024
88a75510SAndriy Voskoboinyk#define	IEEE80211_CHAN_BYTES	howmany(IEEE80211_CHAN_MAX, NBBY)
8a1b9b6aSSam Leffler#define	IEEE80211_CHAN_ANY	0xffff	/* token for ``any channel'' */
8a1b9b6aSSam Leffler#define	IEEE80211_CHAN_ANYC \
8a1b9b6aSSam Leffler	((struct ieee80211_channel *) IEEE80211_CHAN_ANY)
8a1b9b6aSSam Leffler
8a1b9b6aSSam Leffler/* channel attributes */
76df2375SSam Leffler#define	IEEE80211_CHAN_PRIV0	0x00000001 /* driver private bit 0 */
76df2375SSam Leffler#define	IEEE80211_CHAN_PRIV1	0x00000002 /* driver private bit 1 */
76df2375SSam Leffler#define	IEEE80211_CHAN_PRIV2	0x00000004 /* driver private bit 2 */
76df2375SSam Leffler#define	IEEE80211_CHAN_PRIV3	0x00000008 /* driver private bit 3 */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_TURBO	0x00000010 /* Turbo channel */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_CCK	0x00000020 /* CCK channel */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_OFDM	0x00000040 /* OFDM channel */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_2GHZ	0x00000080 /* 2 GHz spectrum channel. */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_5GHZ	0x00000100 /* 5 GHz spectrum channel */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_PASSIVE	0x00000200 /* Only passive scan allowed */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_DYN	0x00000400 /* Dynamic CCK-OFDM channel */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_GFSK	0x00000800 /* GFSK channel (FHSS PHY) */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_GSM	0x00001000 /* 900 MHz spectrum channel */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_STURBO	0x00002000 /* 11a static turbo channel only */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_HALF	0x00004000 /* Half rate channel */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_QUARTER	0x00008000 /* Quarter rate channel */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_HT20	0x00010000 /* HT 20 channel */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_HT40U	0x00020000 /* HT 40 channel w/ ext above */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_HT40D	0x00040000 /* HT 40 channel w/ ext below */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_DFS	0x00080000 /* DFS required */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_4MSXMIT	0x00100000 /* 4ms limit on frame length */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_NOADHOC	0x00200000 /* adhoc mode not allowed */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_NOHOSTAP	0x00400000 /* hostap mode not allowed */
3f87f68eSSam Leffler#define	IEEE80211_CHAN_11D	0x00800000 /* 802.11d required */
fdbc9e6eSAdrian Chadd#define	IEEE80211_CHAN_VHT20	0x01000000 /* VHT20 channel */
fdbc9e6eSAdrian Chadd#define	IEEE80211_CHAN_VHT40U	0x02000000 /* VHT40 channel, ext above */
fdbc9e6eSAdrian Chadd#define	IEEE80211_CHAN_VHT40D	0x04000000 /* VHT40 channel, ext below */
fdbc9e6eSAdrian Chadd#define	IEEE80211_CHAN_VHT80	0x08000000 /* VHT80 channel */
4b1c2487SBjoern A. Zeeb#define	IEEE80211_CHAN_VHT160	0x10000000 /* VHT160 channel */
4b1c2487SBjoern A. Zeeb#define	IEEE80211_CHAN_VHT80P80	0x20000000 /* VHT80+80 channel */
f0ab3d36SAdrian Chadd/* XXX note: 0x80000000 is used in src/sbin/ifconfig/ifieee80211.c :( */
68e8e04eSSam Leffler
68e8e04eSSam Leffler#define	IEEE80211_CHAN_HT40	(IEEE80211_CHAN_HT40U | IEEE80211_CHAN_HT40D)
68e8e04eSSam Leffler#define	IEEE80211_CHAN_HT	(IEEE80211_CHAN_HT20 | IEEE80211_CHAN_HT40)
8a1b9b6aSSam Leffler
fdbc9e6eSAdrian Chadd#define	IEEE80211_CHAN_VHT40	(IEEE80211_CHAN_VHT40U | IEEE80211_CHAN_VHT40D)
fdbc9e6eSAdrian Chadd#define	IEEE80211_CHAN_VHT	(IEEE80211_CHAN_VHT20 | IEEE80211_CHAN_VHT40 \
4b1c2487SBjoern A. Zeeb				| IEEE80211_CHAN_VHT80 | IEEE80211_CHAN_VHT160 \
4b1c2487SBjoern A. Zeeb				| IEEE80211_CHAN_VHT80P80)
fdbc9e6eSAdrian Chadd
3d13a955SSam Leffler#define	IEEE80211_CHAN_BITS \
3d13a955SSam Leffler	"\20\1PRIV0\2PRIV2\3PRIV3\4PRIV4\5TURBO\6CCK\7OFDM\0102GHZ\0115GHZ" \
3d13a955SSam Leffler	"\12PASSIVE\13DYN\14GFSK\15GSM\16STURBO\17HALF\20QUARTER\21HT20" \
f0ab3d36SAdrian Chadd	"\22HT40U\23HT40D\24DFS\0254MSXMIT\26NOADHOC\27NOHOSTAP\03011D" \
4b1c2487SBjoern A. Zeeb	"\031VHT20\032VHT40U\033VHT40D\034VHT80\035VHT160\036VHT80P80"
3d13a955SSam Leffler
8a1b9b6aSSam Leffler/*
8a1b9b6aSSam Leffler * Useful combinations of channel characteristics.
8a1b9b6aSSam Leffler */
8a1b9b6aSSam Leffler#define	IEEE80211_CHAN_FHSS \
8a1b9b6aSSam Leffler	(IEEE80211_CHAN_2GHZ | IEEE80211_CHAN_GFSK)
8a1b9b6aSSam Leffler#define	IEEE80211_CHAN_A \
8a1b9b6aSSam Leffler	(IEEE80211_CHAN_5GHZ | IEEE80211_CHAN_OFDM)
8a1b9b6aSSam Leffler#define	IEEE80211_CHAN_B \
8a1b9b6aSSam Leffler	(IEEE80211_CHAN_2GHZ | IEEE80211_CHAN_CCK)
8a1b9b6aSSam Leffler#define	IEEE80211_CHAN_PUREG \
8a1b9b6aSSam Leffler	(IEEE80211_CHAN_2GHZ | IEEE80211_CHAN_OFDM)
8a1b9b6aSSam Leffler#define	IEEE80211_CHAN_G \
8a1b9b6aSSam Leffler	(IEEE80211_CHAN_2GHZ | IEEE80211_CHAN_DYN)
68e8e04eSSam Leffler#define IEEE80211_CHAN_108A \
8fed2e04SSam Leffler	(IEEE80211_CHAN_A | IEEE80211_CHAN_TURBO)
8a1b9b6aSSam Leffler#define	IEEE80211_CHAN_108G \
8fed2e04SSam Leffler	(IEEE80211_CHAN_PUREG | IEEE80211_CHAN_TURBO)
68e8e04eSSam Leffler#define	IEEE80211_CHAN_ST \
68e8e04eSSam Leffler	(IEEE80211_CHAN_108A | IEEE80211_CHAN_STURBO)
8a1b9b6aSSam Leffler
047f1635SSam Leffler#define	IEEE80211_CHAN_ALL \
047f1635SSam Leffler	(IEEE80211_CHAN_2GHZ | IEEE80211_CHAN_5GHZ | IEEE80211_CHAN_GFSK | \
68e8e04eSSam Leffler	 IEEE80211_CHAN_CCK | IEEE80211_CHAN_OFDM | IEEE80211_CHAN_DYN | \
d1abf1f4SSam Leffler	 IEEE80211_CHAN_HALF | IEEE80211_CHAN_QUARTER | \
fdbc9e6eSAdrian Chadd	 IEEE80211_CHAN_HT | IEEE80211_CHAN_VHT)
047f1635SSam Leffler#define	IEEE80211_CHAN_ALLTURBO \
68e8e04eSSam Leffler	(IEEE80211_CHAN_ALL | IEEE80211_CHAN_TURBO | IEEE80211_CHAN_STURBO)
047f1635SSam Leffler
8a1b9b6aSSam Leffler#define	IEEE80211_IS_CHAN_FHSS(_c) \
8a1b9b6aSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_FHSS) == IEEE80211_CHAN_FHSS)
8a1b9b6aSSam Leffler#define	IEEE80211_IS_CHAN_A(_c) \
8a1b9b6aSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_A) == IEEE80211_CHAN_A)
8a1b9b6aSSam Leffler#define	IEEE80211_IS_CHAN_B(_c) \
8a1b9b6aSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_B) == IEEE80211_CHAN_B)
8a1b9b6aSSam Leffler#define	IEEE80211_IS_CHAN_PUREG(_c) \
8a1b9b6aSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_PUREG) == IEEE80211_CHAN_PUREG)
8a1b9b6aSSam Leffler#define	IEEE80211_IS_CHAN_G(_c) \
8a1b9b6aSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_G) == IEEE80211_CHAN_G)
efefac40SSam Leffler#define	IEEE80211_IS_CHAN_ANYG(_c) \
efefac40SSam Leffler	(IEEE80211_IS_CHAN_PUREG(_c) || IEEE80211_IS_CHAN_G(_c))
68e8e04eSSam Leffler#define	IEEE80211_IS_CHAN_ST(_c) \
68e8e04eSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_ST) == IEEE80211_CHAN_ST)
68e8e04eSSam Leffler#define	IEEE80211_IS_CHAN_108A(_c) \
68e8e04eSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_108A) == IEEE80211_CHAN_108A)
8a1b9b6aSSam Leffler#define	IEEE80211_IS_CHAN_108G(_c) \
8a1b9b6aSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_108G) == IEEE80211_CHAN_108G)
8a1b9b6aSSam Leffler
8a1b9b6aSSam Leffler#define	IEEE80211_IS_CHAN_2GHZ(_c) \
8a1b9b6aSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_2GHZ) != 0)
8a1b9b6aSSam Leffler#define	IEEE80211_IS_CHAN_5GHZ(_c) \
8a1b9b6aSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_5GHZ) != 0)
68e8e04eSSam Leffler#define	IEEE80211_IS_CHAN_PASSIVE(_c) \
68e8e04eSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_PASSIVE) != 0)
8a1b9b6aSSam Leffler#define	IEEE80211_IS_CHAN_OFDM(_c) \
f3ab1589SSam Leffler	(((_c)->ic_flags & (IEEE80211_CHAN_OFDM | IEEE80211_CHAN_DYN)) != 0)
8a1b9b6aSSam Leffler#define	IEEE80211_IS_CHAN_CCK(_c) \
f3ab1589SSam Leffler	(((_c)->ic_flags & (IEEE80211_CHAN_CCK | IEEE80211_CHAN_DYN)) != 0)
64f3cab0SAdrian Chadd#define	IEEE80211_IS_CHAN_DYN(_c) \
64f3cab0SAdrian Chadd	(((_c)->ic_flags & IEEE80211_CHAN_DYN) == IEEE80211_CHAN_DYN)
8a1b9b6aSSam Leffler#define	IEEE80211_IS_CHAN_GFSK(_c) \
8a1b9b6aSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_GFSK) != 0)
68e8e04eSSam Leffler#define	IEEE80211_IS_CHAN_TURBO(_c) \
68e8e04eSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_TURBO) != 0)
68e8e04eSSam Leffler#define	IEEE80211_IS_CHAN_STURBO(_c) \
68e8e04eSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_STURBO) != 0)
68e8e04eSSam Leffler#define	IEEE80211_IS_CHAN_DTURBO(_c) \
68e8e04eSSam Leffler	(((_c)->ic_flags & \
68e8e04eSSam Leffler	(IEEE80211_CHAN_TURBO | IEEE80211_CHAN_STURBO)) == IEEE80211_CHAN_TURBO)
41b3c790SSam Leffler#define	IEEE80211_IS_CHAN_HALF(_c) \
41b3c790SSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_HALF) != 0)
41b3c790SSam Leffler#define	IEEE80211_IS_CHAN_QUARTER(_c) \
41b3c790SSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_QUARTER) != 0)
ca4ac7aeSSam Leffler#define	IEEE80211_IS_CHAN_FULL(_c) \
ca4ac7aeSSam Leffler	(((_c)->ic_flags & (IEEE80211_CHAN_QUARTER | IEEE80211_CHAN_HALF)) == 0)
ca4ac7aeSSam Leffler#define	IEEE80211_IS_CHAN_GSM(_c) \
ca4ac7aeSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_GSM) != 0)
68e8e04eSSam Leffler#define	IEEE80211_IS_CHAN_HT(_c) \
68e8e04eSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_HT) != 0)
68e8e04eSSam Leffler#define	IEEE80211_IS_CHAN_HT20(_c) \
68e8e04eSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_HT20) != 0)
68e8e04eSSam Leffler#define	IEEE80211_IS_CHAN_HT40(_c) \
68e8e04eSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_HT40) != 0)
68e8e04eSSam Leffler#define	IEEE80211_IS_CHAN_HT40U(_c) \
68e8e04eSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_HT40U) != 0)
68e8e04eSSam Leffler#define	IEEE80211_IS_CHAN_HT40D(_c) \
68e8e04eSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_HT40D) != 0)
68e8e04eSSam Leffler#define	IEEE80211_IS_CHAN_HTA(_c) \
68e8e04eSSam Leffler	(IEEE80211_IS_CHAN_5GHZ(_c) && \
68e8e04eSSam Leffler	 ((_c)->ic_flags & IEEE80211_CHAN_HT) != 0)
68e8e04eSSam Leffler#define	IEEE80211_IS_CHAN_HTG(_c) \
68e8e04eSSam Leffler	(IEEE80211_IS_CHAN_2GHZ(_c) && \
68e8e04eSSam Leffler	 ((_c)->ic_flags & IEEE80211_CHAN_HT) != 0)
3f87f68eSSam Leffler#define	IEEE80211_IS_CHAN_DFS(_c) \
3f87f68eSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_DFS) != 0)
3f87f68eSSam Leffler#define	IEEE80211_IS_CHAN_NOADHOC(_c) \
3f87f68eSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_NOADHOC) != 0)
3f87f68eSSam Leffler#define	IEEE80211_IS_CHAN_NOHOSTAP(_c) \
3f87f68eSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_NOHOSTAP) != 0)
3f87f68eSSam Leffler#define	IEEE80211_IS_CHAN_11D(_c) \
3f87f68eSSam Leffler	(((_c)->ic_flags & IEEE80211_CHAN_11D) != 0)
8a1b9b6aSSam Leffler
fdbc9e6eSAdrian Chadd#define	IEEE80211_IS_CHAN_VHT(_c) \
fdbc9e6eSAdrian Chadd	(((_c)->ic_flags & IEEE80211_CHAN_VHT) != 0)
94338935SAdrian Chadd#define	IEEE80211_IS_CHAN_VHT_2GHZ(_c) \
94338935SAdrian Chadd	(IEEE80211_IS_CHAN_2GHZ(_c) && \
94338935SAdrian Chadd	 ((_c)->ic_flags & IEEE80211_CHAN_VHT) != 0)
94338935SAdrian Chadd#define	IEEE80211_IS_CHAN_VHT_5GHZ(_c) \
94338935SAdrian Chadd	(IEEE80211_IS_CHAN_5GHZ(_c) && \
94338935SAdrian Chadd	 ((_c)->ic_flags & IEEE80211_CHAN_VHT) != 0)
fdbc9e6eSAdrian Chadd#define	IEEE80211_IS_CHAN_VHT20(_c) \
fdbc9e6eSAdrian Chadd	(((_c)->ic_flags & IEEE80211_CHAN_VHT20) != 0)
fdbc9e6eSAdrian Chadd#define	IEEE80211_IS_CHAN_VHT40(_c) \
fdbc9e6eSAdrian Chadd	(((_c)->ic_flags & IEEE80211_CHAN_VHT40) != 0)
fdbc9e6eSAdrian Chadd#define	IEEE80211_IS_CHAN_VHT40U(_c) \
fdbc9e6eSAdrian Chadd	(((_c)->ic_flags & IEEE80211_CHAN_VHT40U) != 0)
fdbc9e6eSAdrian Chadd#define	IEEE80211_IS_CHAN_VHT40D(_c) \
fdbc9e6eSAdrian Chadd	(((_c)->ic_flags & IEEE80211_CHAN_VHT40D) != 0)
fdbc9e6eSAdrian Chadd#define	IEEE80211_IS_CHAN_VHTA(_c) \
fdbc9e6eSAdrian Chadd	(IEEE80211_IS_CHAN_5GHZ(_c) && \
fdbc9e6eSAdrian Chadd	 ((_c)->ic_flags & IEEE80211_CHAN_VHT) != 0)
fdbc9e6eSAdrian Chadd#define	IEEE80211_IS_CHAN_VHTG(_c) \
fdbc9e6eSAdrian Chadd	(IEEE80211_IS_CHAN_2GHZ(_c) && \
fdbc9e6eSAdrian Chadd	 ((_c)->ic_flags & IEEE80211_CHAN_VHT) != 0)
fdbc9e6eSAdrian Chadd#define	IEEE80211_IS_CHAN_VHT80(_c) \
fdbc9e6eSAdrian Chadd	(((_c)->ic_flags & IEEE80211_CHAN_VHT80) != 0)
fdbc9e6eSAdrian Chadd#define	IEEE80211_IS_CHAN_VHT160(_c) \
fdbc9e6eSAdrian Chadd	(((_c)->ic_flags & IEEE80211_CHAN_VHT160) != 0)
4b1c2487SBjoern A. Zeeb#define	IEEE80211_IS_CHAN_VHT80P80(_c) \
4b1c2487SBjoern A. Zeeb	(((_c)->ic_flags & IEEE80211_CHAN_VHT80P80) != 0)
fdbc9e6eSAdrian Chadd
b54b1babSAndrew Thompson#define	IEEE80211_CHAN2IEEE(_c)		(_c)->ic_ieee
b54b1babSAndrew Thompson
3f87f68eSSam Leffler/* dynamic state */
3f87f68eSSam Leffler#define	IEEE80211_CHANSTATE_RADAR	0x01	/* radar detected */
3f87f68eSSam Leffler#define	IEEE80211_CHANSTATE_CACDONE	0x02	/* CAC completed */
998c561fSSam Leffler#define	IEEE80211_CHANSTATE_CWINT	0x04	/* interference detected */
3f87f68eSSam Leffler#define	IEEE80211_CHANSTATE_NORADAR	0x10	/* post notify on radar clear */
3f87f68eSSam Leffler
3f87f68eSSam Leffler#define	IEEE80211_IS_CHAN_RADAR(_c) \
3f87f68eSSam Leffler	(((_c)->ic_state & IEEE80211_CHANSTATE_RADAR) != 0)
3f87f68eSSam Leffler#define	IEEE80211_IS_CHAN_CACDONE(_c) \
3f87f68eSSam Leffler	(((_c)->ic_state & IEEE80211_CHANSTATE_CACDONE) != 0)
998c561fSSam Leffler#define	IEEE80211_IS_CHAN_CWINT(_c) \
998c561fSSam Leffler	(((_c)->ic_state & IEEE80211_CHANSTATE_CWINT) != 0)
3f87f68eSSam Leffler
8a1b9b6aSSam Leffler/* ni_chan encoding for FH phy */
8a1b9b6aSSam Leffler#define	IEEE80211_FH_CHANMOD	80
8a1b9b6aSSam Leffler#define	IEEE80211_FH_CHAN(set,pat)	(((set)-1)*IEEE80211_FH_CHANMOD+(pat))
8a1b9b6aSSam Leffler#define	IEEE80211_FH_CHANSET(chan)	((chan)/IEEE80211_FH_CHANMOD+1)
8a1b9b6aSSam Leffler#define	IEEE80211_FH_CHANPAT(chan)	((chan)%IEEE80211_FH_CHANMOD)
8a1b9b6aSSam Leffler
b337fbc4SSam Leffler#define	IEEE80211_TID_SIZE	(WME_NUM_TID+1)	/* WME TID's +1 for non-QoS */
b337fbc4SSam Leffler#define	IEEE80211_NONQOS_TID	WME_NUM_TID	/* index for non-QoS sta */
b337fbc4SSam Leffler
8a1b9b6aSSam Leffler/*
b032f27cSSam Leffler * The 802.11 spec says at most 2007 stations may be
b032f27cSSam Leffler * associated at once.  For most AP's this is way more
b032f27cSSam Leffler * than is feasible so we use a default of 128.  This
b032f27cSSam Leffler * number may be overridden by the driver and/or by
b032f27cSSam Leffler * user configuration but may not be less than IEEE80211_AID_MIN.
b032f27cSSam Leffler */
b032f27cSSam Leffler#define	IEEE80211_AID_DEF		128
b032f27cSSam Leffler#define	IEEE80211_AID_MIN		16
b032f27cSSam Leffler
b032f27cSSam Leffler/*
8a1b9b6aSSam Leffler * 802.11 rate set.
8a1b9b6aSSam Leffler */
8a1b9b6aSSam Leffler#define	IEEE80211_RATE_SIZE	8		/* 802.11 standard */
8a1b9b6aSSam Leffler#define	IEEE80211_RATE_MAXSIZE	15		/* max rates we'll handle */
8a1b9b6aSSam Leffler
8a1b9b6aSSam Lefflerstruct ieee80211_rateset {
68e8e04eSSam Leffler	uint8_t		rs_nrates;
68e8e04eSSam Leffler	uint8_t		rs_rates[IEEE80211_RATE_MAXSIZE];
8a1b9b6aSSam Leffler};
8a1b9b6aSSam Leffler
68e8e04eSSam Leffler/*
b032f27cSSam Leffler * 802.11n variant of ieee80211_rateset.  Instead of
68e8e04eSSam Leffler * legacy rates the entries are MCS rates.  We define
68e8e04eSSam Leffler * the structure such that it can be used interchangeably
68e8e04eSSam Leffler * with an ieee80211_rateset (modulo structure size).
68e8e04eSSam Leffler */
f136f45fSBernhard Schmidt#define	IEEE80211_HTRATE_MAXSIZE	77
68e8e04eSSam Leffler
68e8e04eSSam Lefflerstruct ieee80211_htrateset {
68e8e04eSSam Leffler	uint8_t		rs_nrates;
68e8e04eSSam Leffler	uint8_t		rs_rates[IEEE80211_HTRATE_MAXSIZE];
68e8e04eSSam Leffler};
68e8e04eSSam Leffler
f0ee92d5SSam Leffler#define	IEEE80211_RATE_MCS	0x80
f0ee92d5SSam Leffler
68e8e04eSSam Leffler/*
b032f27cSSam Leffler * Per-mode transmit parameters/controls visible to user space.
b032f27cSSam Leffler * These can be used to set fixed transmit rate for all operating
b032f27cSSam Leffler * modes or on a per-client basis according to the capabilities
b032f27cSSam Leffler * of the client (e.g. an 11b client associated to an 11g ap).
b032f27cSSam Leffler *
b032f27cSSam Leffler * MCS are distinguished from legacy rates by or'ing in 0x80.
68e8e04eSSam Leffler */
b032f27cSSam Lefflerstruct ieee80211_txparam {
b032f27cSSam Leffler	uint8_t		ucastrate;	/* ucast data rate (legacy/MCS|0x80) */
b032f27cSSam Leffler	uint8_t		mgmtrate;	/* mgmt frame rate (legacy/MCS|0x80) */
b032f27cSSam Leffler	uint8_t		mcastrate;	/* multicast rate (legacy/MCS|0x80) */
b032f27cSSam Leffler	uint8_t		maxretry;	/* max unicast data retry count */
b032f27cSSam Leffler};
b032f27cSSam Leffler
b032f27cSSam Leffler/*
b032f27cSSam Leffler * Per-mode roaming state visible to user space.  There are two
b032f27cSSam Leffler * thresholds that control whether roaming is considered; when
b032f27cSSam Leffler * either is exceeded the 802.11 layer will check the scan cache
b032f27cSSam Leffler * for another AP.  If the cache is stale then a scan may be
b032f27cSSam Leffler * triggered.
b032f27cSSam Leffler */
b032f27cSSam Lefflerstruct ieee80211_roamparam {
b032f27cSSam Leffler	int8_t		rssi;		/* rssi thresh (.5 dBm) */
b032f27cSSam Leffler	uint8_t		rate;		/* tx rate thresh (.5 Mb/s or MCS) */
b032f27cSSam Leffler	uint16_t	pad;		/* reserve */
b032f27cSSam Leffler};
b032f27cSSam Leffler
b032f27cSSam Leffler/*
b032f27cSSam Leffler * Regulatory Information.
b032f27cSSam Leffler */
b032f27cSSam Lefflerstruct ieee80211_regdomain {
b032f27cSSam Leffler	uint16_t	regdomain;	/* SKU */
b032f27cSSam Leffler	uint16_t	country;	/* ISO country code */
b032f27cSSam Leffler	uint8_t		location;	/* I (indoor), O (outdoor), other */
b032f27cSSam Leffler	uint8_t		ecm;		/* Extended Channel Mode */
b032f27cSSam Leffler	char		isocc[2];	/* country code string */
b032f27cSSam Leffler	short		pad[2];
b032f27cSSam Leffler};
b032f27cSSam Leffler
b032f27cSSam Leffler/*
b032f27cSSam Leffler * MIMO antenna/radio state.
b032f27cSSam Leffler */
617f8b10SAdrian Chadd#define	IEEE80211_MAX_CHAINS		4
864ab114SAdrian Chadd/*
617f8b10SAdrian Chadd * This is the number of sub-channels for a channel.
617f8b10SAdrian Chadd * 0 - pri20
617f8b10SAdrian Chadd * 1 - sec20 (HT40, VHT40)
617f8b10SAdrian Chadd * 2 - sec40 (VHT80)
617f8b10SAdrian Chadd * 3 - sec80 (VHT80+80, VHT160)
864ab114SAdrian Chadd */
617f8b10SAdrian Chadd#define	IEEE80211_MAX_CHAIN_PRISEC	4
617f8b10SAdrian Chadd#define	IEEE80211_MAX_EVM_DWORDS	16	/* 16 pilots, 4 chains */
617f8b10SAdrian Chadd#define	IEEE80211_MAX_EVM_PILOTS	16	/* 468 subcarriers, 16 pilots */
617f8b10SAdrian Chadd
617f8b10SAdrian Chaddstruct ieee80211_mimo_chan_info {
617f8b10SAdrian Chadd	int8_t	rssi[IEEE80211_MAX_CHAIN_PRISEC];
617f8b10SAdrian Chadd	int8_t	noise[IEEE80211_MAX_CHAIN_PRISEC];
617f8b10SAdrian Chadd};
617f8b10SAdrian Chadd
b032f27cSSam Lefflerstruct ieee80211_mimo_info {
617f8b10SAdrian Chadd	struct ieee80211_mimo_chan_info ch[IEEE80211_MAX_CHAINS];
617f8b10SAdrian Chadd	uint32_t	evm[IEEE80211_MAX_EVM_DWORDS];
68e8e04eSSam Leffler};
e4ce50a4SAdrian Chadd
e4ce50a4SAdrian Chadd/*
e4ce50a4SAdrian Chadd * ic_caps/iv_caps: device driver capabilities
e4ce50a4SAdrian Chadd */
e4ce50a4SAdrian Chadd/* 0x2e available */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_STA		0x00000001	/* CAPABILITY: STA available */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_8023ENCAP	0x00000002	/* CAPABILITY: 802.3 encap */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_FF		0x00000040	/* CAPABILITY: ATH FF avail */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_TURBOP	0x00000080	/* CAPABILITY: ATH Turbo avail*/
e4ce50a4SAdrian Chadd#define	IEEE80211_C_IBSS	0x00000100	/* CAPABILITY: IBSS available */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_PMGT	0x00000200	/* CAPABILITY: Power mgmt */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_HOSTAP	0x00000400	/* CAPABILITY: HOSTAP avail */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_AHDEMO	0x00000800	/* CAPABILITY: Old Adhoc Demo */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_SWRETRY	0x00001000	/* CAPABILITY: sw tx retry */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_TXPMGT	0x00002000	/* CAPABILITY: tx power mgmt */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_SHSLOT	0x00004000	/* CAPABILITY: short slottime */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_SHPREAMBLE	0x00008000	/* CAPABILITY: short preamble */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_MONITOR	0x00010000	/* CAPABILITY: monitor mode */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_DFS		0x00020000	/* CAPABILITY: DFS/radar avail*/
e4ce50a4SAdrian Chadd#define	IEEE80211_C_MBSS	0x00040000	/* CAPABILITY: MBSS available */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_SWSLEEP	0x00080000	/* CAPABILITY: do sleep here */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_SWAMSDUTX	0x00100000	/* CAPABILITY: software A-MSDU TX */
8379e8dbSAdrian Chadd#define	IEEE80211_C_UAPSD	0x00200000	/* CAPABILITY: U-APSD */
e4ce50a4SAdrian Chadd/* 0x7c0000 available */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_WPA1	0x00800000	/* CAPABILITY: WPA1 avail */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_WPA2	0x01000000	/* CAPABILITY: WPA2 avail */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_WPA		0x01800000	/* CAPABILITY: WPA1+WPA2 avail*/
e4ce50a4SAdrian Chadd#define	IEEE80211_C_BURST	0x02000000	/* CAPABILITY: frame bursting */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_WME		0x04000000	/* CAPABILITY: WME avail */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_WDS		0x08000000	/* CAPABILITY: 4-addr support */
e4ce50a4SAdrian Chadd/* 0x10000000 reserved */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_BGSCAN	0x20000000	/* CAPABILITY: bg scanning */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_TXFRAG	0x40000000	/* CAPABILITY: tx fragments */
e4ce50a4SAdrian Chadd#define	IEEE80211_C_TDMA	0x80000000	/* CAPABILITY: TDMA avail */
e4ce50a4SAdrian Chadd/* XXX protection/barker? */
e4ce50a4SAdrian Chadd
e4ce50a4SAdrian Chadd#define	IEEE80211_C_OPMODE \
e4ce50a4SAdrian Chadd	(IEEE80211_C_STA | IEEE80211_C_IBSS | IEEE80211_C_HOSTAP | \
e4ce50a4SAdrian Chadd	 IEEE80211_C_AHDEMO | IEEE80211_C_MONITOR | IEEE80211_C_WDS | \
e4ce50a4SAdrian Chadd	 IEEE80211_C_TDMA | IEEE80211_C_MBSS)
e4ce50a4SAdrian Chadd
e4ce50a4SAdrian Chadd#define	IEEE80211_C_BITS \
e4ce50a4SAdrian Chadd	"\20\1STA\002803ENCAP\7FF\10TURBOP\11IBSS\12PMGT" \
e4ce50a4SAdrian Chadd	"\13HOSTAP\14AHDEMO\15SWRETRY\16TXPMGT\17SHSLOT\20SHPREAMBLE" \
e4ce50a4SAdrian Chadd	"\21MONITOR\22DFS\23MBSS\30WPA1\31WPA2\32BURST\33WME\34WDS\36BGSCAN" \
e4ce50a4SAdrian Chadd	"\37TXFRAG\40TDMA"
e4ce50a4SAdrian Chadd
e4ce50a4SAdrian Chadd/*
e4ce50a4SAdrian Chadd * ic_htcaps/iv_htcaps: HT-specific device/driver capabilities
e4ce50a4SAdrian Chadd *
e4ce50a4SAdrian Chadd * NB: the low 16-bits are the 802.11 definitions, the upper
e4ce50a4SAdrian Chadd *     16-bits are used to define s/w/driver capabilities.
e4ce50a4SAdrian Chadd */
e4ce50a4SAdrian Chadd#define	IEEE80211_HTC_AMPDU	0x00010000	/* CAPABILITY: A-MPDU tx */
e4ce50a4SAdrian Chadd#define	IEEE80211_HTC_AMSDU	0x00020000	/* CAPABILITY: A-MSDU tx */
e4ce50a4SAdrian Chadd/* NB: HT40 is implied by IEEE80211_HTCAP_CHWIDTH40 */
e4ce50a4SAdrian Chadd#define	IEEE80211_HTC_HT	0x00040000	/* CAPABILITY: HT operation */
e4ce50a4SAdrian Chadd#define	IEEE80211_HTC_SMPS	0x00080000	/* CAPABILITY: MIMO power save*/
e4ce50a4SAdrian Chadd#define	IEEE80211_HTC_RIFS	0x00100000	/* CAPABILITY: RIFS support */
e4ce50a4SAdrian Chadd#define	IEEE80211_HTC_RXUNEQUAL	0x00200000	/* CAPABILITY: RX unequal MCS */
e4ce50a4SAdrian Chadd#define	IEEE80211_HTC_RXMCS32	0x00400000	/* CAPABILITY: MCS32 support */
e4ce50a4SAdrian Chadd#define	IEEE80211_HTC_TXUNEQUAL	0x00800000	/* CAPABILITY: TX unequal MCS */
e4ce50a4SAdrian Chadd#define	IEEE80211_HTC_TXMCS32	0x01000000	/* CAPABILITY: MCS32 support */
c5bba9daSAndriy Voskoboinyk#define	IEEE80211_HTC_TXLDPC	0x02000000	/* CAPABILITY: TX using LDPC */
ebb9b256SAdrian Chadd#define	IEEE80211_HTC_RX_AMSDU_AMPDU	0x04000000	/* CAPABILITY: RX A-MSDU in A-MPDU */
ebb9b256SAdrian Chadd#define	IEEE80211_HTC_TX_AMSDU_AMPDU	0x08000000	/* CAPABILITY: TX A-MSDU in A-MPDU */
e4ce50a4SAdrian Chadd
e4ce50a4SAdrian Chadd#define	IEEE80211_C_HTCAP_BITS \
e4ce50a4SAdrian Chadd	"\20\1LDPC\2CHWIDTH40\5GREENFIELD\6SHORTGI20\7SHORTGI40\10TXSTBC" \
ebb9b256SAdrian Chadd	"\21AMPDU\22AMSDU\23HT\24SMPS\25RIFS\32TXLDPC\33RXAMSDUAMPDU" \
ebb9b256SAdrian Chadd	"\34TXAMSDUAMPDU"
e4ce50a4SAdrian Chadd
617f8b10SAdrian Chadd/*
c7f5f140SAdrian Chadd * AKM (key management) suite capability list.
c7f5f140SAdrian Chadd *
c7f5f140SAdrian Chadd * These represent what's in 802.11-2016 - Table 9-133 - AKM Suite Selectors.
c7f5f140SAdrian Chadd * Note that they do not match what the table values are, in case other key
c7f5f140SAdrian Chadd * management suites want to be added with different OUIs.
c7f5f140SAdrian Chadd */
c7f5f140SAdrian Chadd#define	IEEE80211_KEYMGMT_RSN_UNSPEC_802_1X		0x00000001 /* RSN suite 1 */
c7f5f140SAdrian Chadd#define	IEEE80211_KEYMGMT_RSN_PSK_OVER_802_1X		0x00000002 /* RSN suite 2 */
c7f5f140SAdrian Chadd#define	IEEE80211_KEYMGMT_RSN_FT_OVER_802_1X		0x00000004 /* RSN suite 3 */
c7f5f140SAdrian Chadd#define	IEEE80211_KEYMGMT_RSN_FT_PSK			0x00000008 /* RSN suite 4 */
c7f5f140SAdrian Chadd#define	IEEE80211_KEYMGMT_RSN_802_1X_SHA256		0x00000010 /* RSN suite 5 */
c7f5f140SAdrian Chadd#define	IEEE80211_KEYMGMT_RSN_PSK_SHA256		0x00000020 /* RSN suite 6 */
c7f5f140SAdrian Chadd#define	IEEE80211_KEYMGMT_RSN_TPK_HANDSHAKE		0x00000040 /* RSN suite 7 */
c7f5f140SAdrian Chadd#define	IEEE80211_KEYMGMT_RSN_SAE			0x00000080 /* RSN suite 8 */
c7f5f140SAdrian Chadd#define	IEEE80211_KEYMGMT_RSN_FT_SAE			0x00000100 /* RSN suite 9 */
c7f5f140SAdrian Chadd#define	IEEE80211_KEYMGMT_RSN_APPEERKEY_SHA256		0x00000200 /* RSN suite 10 */
c7f5f140SAdrian Chadd#define	IEEE80211_KEYMGMT_RSN_802_1X_SUITE_B		0x00000400 /* RSN suite 11 */
c7f5f140SAdrian Chadd#define	IEEE80211_KEYMGMT_RSN_802_1X_SUITE_B_192	0x00000800 /* RSN suite 12 */
c7f5f140SAdrian Chadd#define	IEEE80211_KEYMGMT_RSN_FT_802_1X_SHA384		0x00001000 /* RSN suite 13 */
c7f5f140SAdrian Chadd
c7f5f140SAdrian Chadd/*
617f8b10SAdrian Chadd * RX status notification - which fields are valid.
617f8b10SAdrian Chadd */
617f8b10SAdrian Chadd#define	IEEE80211_R_NF		0x00000001	/* global NF value valid */
617f8b10SAdrian Chadd#define	IEEE80211_R_RSSI	0x00000002	/* global RSSI value valid */
617f8b10SAdrian Chadd#define	IEEE80211_R_C_CHAIN	0x00000004	/* RX chain count valid */
617f8b10SAdrian Chadd#define	IEEE80211_R_C_NF	0x00000008	/* per-chain NF value valid */
617f8b10SAdrian Chadd#define	IEEE80211_R_C_RSSI	0x00000010	/* per-chain RSSI value valid */
617f8b10SAdrian Chadd#define	IEEE80211_R_C_EVM	0x00000020	/* per-chain EVM valid */
617f8b10SAdrian Chadd#define	IEEE80211_R_C_HT40	0x00000040	/* RX'ed packet is 40mhz, pilots 4,5 valid */
617f8b10SAdrian Chadd#define	IEEE80211_R_FREQ	0x00000080	/* Freq value populated, MHz */
617f8b10SAdrian Chadd#define	IEEE80211_R_IEEE	0x00000100	/* IEEE value populated */
617f8b10SAdrian Chadd#define	IEEE80211_R_BAND	0x00000200	/* Frequency band populated */
617f8b10SAdrian Chadd#define	IEEE80211_R_TSF32	0x00004000	/* 32 bit TSF */
617f8b10SAdrian Chadd#define	IEEE80211_R_TSF64	0x00008000	/* 64 bit TSF */
617f8b10SAdrian Chadd#define	IEEE80211_R_TSF_START	0x00010000	/* TSF is sampled at start of frame */
617f8b10SAdrian Chadd#define	IEEE80211_R_TSF_END	0x00020000	/* TSF is sampled at end of frame */
617f8b10SAdrian Chadd
617f8b10SAdrian Chadd/*
617f8b10SAdrian Chadd * RX status notification - describe the packet.
617f8b10SAdrian Chadd */
617f8b10SAdrian Chadd#define	IEEE80211_RX_F_STBC		0x00000001
617f8b10SAdrian Chadd#define	IEEE80211_RX_F_LDPC		0x00000002
617f8b10SAdrian Chadd#define	IEEE80211_RX_F_AMSDU		0x00000004 /* This is the start of an decap AMSDU list */
617f8b10SAdrian Chadd#define	IEEE80211_RX_F_AMSDU_MORE	0x00000008 /* This is another decap AMSDU frame in the batch */
617f8b10SAdrian Chadd#define	IEEE80211_RX_F_AMPDU		0x00000010 /* This is the start of an decap AMPDU list */
617f8b10SAdrian Chadd#define	IEEE80211_RX_F_AMPDU_MORE	0x00000020 /* This is another decap AMPDU frame in the batch */
617f8b10SAdrian Chadd#define	IEEE80211_RX_F_FAIL_FCSCRC	0x00000040 /* Failed CRC/FCS */
617f8b10SAdrian Chadd#define	IEEE80211_RX_F_FAIL_MIC		0x00000080 /* Failed MIC check */
617f8b10SAdrian Chadd#define	IEEE80211_RX_F_DECRYPTED	0x00000100 /* Hardware decrypted */
617f8b10SAdrian Chadd#define	IEEE80211_RX_F_IV_STRIP		0x00000200 /* Decrypted; IV stripped */
*d688c203SBjoern A. Zeeb#define	IEEE80211_RX_F_MMIC_STRIP	0x00000400 /* Decrypted; [Micheal] MIC ([M]MIC) stripped */
617f8b10SAdrian Chadd#define	IEEE80211_RX_F_SHORTGI		0x00000800 /* This is a short-GI frame */
617f8b10SAdrian Chadd#define	IEEE80211_RX_F_CCK		0x00001000
617f8b10SAdrian Chadd#define	IEEE80211_RX_F_OFDM		0x00002000
617f8b10SAdrian Chadd#define	IEEE80211_RX_F_HT		0x00004000
617f8b10SAdrian Chadd#define	IEEE80211_RX_F_VHT		0x00008000
617f8b10SAdrian Chadd
617f8b10SAdrian Chadd/* Channel width */
617f8b10SAdrian Chadd#define	IEEE80211_RX_FW_20MHZ		1
617f8b10SAdrian Chadd#define	IEEE80211_RX_FW_40MHZ		2
617f8b10SAdrian Chadd#define	IEEE80211_RX_FW_80MHZ		3
a9cc796fSBjoern A. Zeeb#define	IEEE80211_RX_FW_160MHZ		4
617f8b10SAdrian Chadd
617f8b10SAdrian Chadd/* PHY type */
617f8b10SAdrian Chadd#define	IEEE80211_RX_FP_11B		1
617f8b10SAdrian Chadd#define	IEEE80211_RX_FP_11G		2
617f8b10SAdrian Chadd#define	IEEE80211_RX_FP_11A		3
617f8b10SAdrian Chadd#define	IEEE80211_RX_FP_11NA		4
617f8b10SAdrian Chadd#define	IEEE80211_RX_FP_11NG		5
617f8b10SAdrian Chadd
617f8b10SAdrian Chaddstruct ieee80211_rx_stats {
617f8b10SAdrian Chadd	uint32_t r_flags;		/* IEEE80211_R_* flags */
617f8b10SAdrian Chadd	uint32_t c_pktflags;		/* IEEE80211_RX_F_* flags */
617f8b10SAdrian Chadd
617f8b10SAdrian Chadd	uint64_t c_rx_tsf;		/* 32 or 64 bit TSF */
617f8b10SAdrian Chadd
617f8b10SAdrian Chadd	/* All DWORD aligned */
617f8b10SAdrian Chadd	int16_t c_nf_ctl[IEEE80211_MAX_CHAINS];	/* per-chain NF */
617f8b10SAdrian Chadd	int16_t c_nf_ext[IEEE80211_MAX_CHAINS];	/* per-chain NF */
617f8b10SAdrian Chadd	int16_t c_rssi_ctl[IEEE80211_MAX_CHAINS];	/* per-chain RSSI */
617f8b10SAdrian Chadd	int16_t c_rssi_ext[IEEE80211_MAX_CHAINS];	/* per-chain RSSI */
617f8b10SAdrian Chadd
617f8b10SAdrian Chadd	/* 32 bits */
4a22cd6cSBjoern A. Zeeb	int8_t c_nf;			/* global NF */
4a22cd6cSBjoern A. Zeeb	int8_t c_rssi;			/* global RSSI */
617f8b10SAdrian Chadd	uint8_t c_chain;		/* number of RX chains involved */
617f8b10SAdrian Chadd	uint8_t c_rate;			/* legacy; 11n rate code; VHT MCS */
617f8b10SAdrian Chadd
617f8b10SAdrian Chadd	/* 32 bits */
617f8b10SAdrian Chadd	uint16_t c_freq;		/* Frequency, MHz */
617f8b10SAdrian Chadd	uint8_t c_ieee;			/* Channel */
617f8b10SAdrian Chadd	uint8_t c_width;		/* channel width, FW flags above */
617f8b10SAdrian Chadd
9a669553SBjoern A. Zeeb	/* 32 bits */
9a669553SBjoern A. Zeeb	uint32_t c_band;		/* Band; XXX we do not have a real band. */
9a669553SBjoern A. Zeeb
617f8b10SAdrian Chadd	/* Force alignment to DWORD */
617f8b10SAdrian Chadd	union {
617f8b10SAdrian Chadd		uint8_t evm[IEEE80211_MAX_CHAINS][IEEE80211_MAX_EVM_PILOTS];
617f8b10SAdrian Chadd		    /* per-chain, per-pilot EVM values */
617f8b10SAdrian Chadd		uint32_t __aln[8];
617f8b10SAdrian Chadd	} evm;
617f8b10SAdrian Chadd
617f8b10SAdrian Chadd	/* 32 bits */
a9cc796fSBjoern A. Zeeb	uint8_t c_phytype;		/* PHY type, FW flags above */
617f8b10SAdrian Chadd	uint8_t c_vhtnss;		/* VHT - number of spatial streams */
617f8b10SAdrian Chadd	uint8_t c_pad2[2];
617f8b10SAdrian Chadd};
617f8b10SAdrian Chadd
617f8b10SAdrian Chaddstruct ieee80211_rx_params {
617f8b10SAdrian Chadd	struct ieee80211_rx_stats params;
617f8b10SAdrian Chadd};
617f8b10SAdrian Chadd
8a1b9b6aSSam Leffler#endif /* _NET80211__IEEE80211_H_ */