/* * Misc utility routines for WL and Apps * This header file housing the define and function prototype use by * both the wl driver, tools & Apps. * * Copyright (C) 1999-2019, Broadcom. * * Unless you and Broadcom execute a separate written software license * agreement governing use of this software, this software is licensed to you * under the terms of the GNU General Public License version 2 (the "GPL"), * available at http://www.broadcom.com/licenses/GPLv2.php, with the * following added to such license: * * As a special exception, the copyright holders of this software give you * permission to link this software with independent modules, and to copy and * distribute the resulting executable under terms of your choice, provided that * you also meet, for each linked independent module, the terms and conditions of * the license of that module. An independent module is a module which is not * derived from this software. The special exception does not apply to any * modifications of the software. * * Notwithstanding the above, under no circumstances may you combine this * software in any way with any other Broadcom software provided under a license * other than the GPL, without Broadcom's express prior written consent. * * * <> * * $Id: bcmwifi_channels.h 806092 2019-02-21 08:19:13Z $ */ #ifndef _bcmwifi_channels_h_ #define _bcmwifi_channels_h_ /* A chanspec holds the channel number, band, bandwidth and primary 20MHz sideband */ typedef uint16 chanspec_t; typedef uint16 chanspec_band_t; typedef uint16 chanspec_bw_t; typedef uint16 chanspec_subband_t; /* channel defines */ #define CH_80MHZ_APART 16 #define CH_40MHZ_APART 8 #define CH_20MHZ_APART 4 #define CH_10MHZ_APART 2 #define CH_5MHZ_APART 1 /* 2G band channels are 5 Mhz apart */ #define CH_MIN_2G_CHANNEL 1u /* Min channel in 2G band */ #define CH_MAX_2G_CHANNEL 14u /* Max channel in 2G band */ #define CH_MIN_2G_40M_CHANNEL 3u /* Min 40MHz center channel in 2G band */ #define CH_MAX_2G_40M_CHANNEL 11u /* Max 40MHz center channel in 2G band */ /* maximum # channels the s/w supports */ #define MAXCHANNEL 224 /* max # supported channels. The max channel no is above, * this is that + 1 rounded up to a multiple of NBBY (8). * DO NOT MAKE it > 255: channels are uint8's all over */ #define MAXCHANNEL_NUM (MAXCHANNEL - 1) /* max channel number */ #define INVCHANNEL 255 /* error value for a bad channel */ /* channel bitvec */ typedef struct { uint8 vec[MAXCHANNEL/8]; /* bitvec of channels */ } chanvec_t; /* make sure channel num is within valid range */ #define CH_NUM_VALID_RANGE(ch_num) ((ch_num) > 0 && (ch_num) <= MAXCHANNEL_NUM) #define CHSPEC_CTLOVLP(sp1, sp2, sep) \ (ABS(wf_chspec_ctlchan(sp1) - wf_chspec_ctlchan(sp2)) < (sep)) /* All builds use the new 11ac ratespec/chanspec */ #undef D11AC_IOTYPES #define D11AC_IOTYPES #define WL_CHANSPEC_CHAN_MASK 0x00ff #define WL_CHANSPEC_CHAN_SHIFT 0 #define WL_CHANSPEC_CHAN1_MASK 0x000f #define WL_CHANSPEC_CHAN1_SHIFT 0 #define WL_CHANSPEC_CHAN2_MASK 0x00f0 #define WL_CHANSPEC_CHAN2_SHIFT 4 #define WL_CHANSPEC_CTL_SB_MASK 0x0700 #define WL_CHANSPEC_CTL_SB_SHIFT 8 #define WL_CHANSPEC_CTL_SB_LLL 0x0000 #define WL_CHANSPEC_CTL_SB_LLU 0x0100 #define WL_CHANSPEC_CTL_SB_LUL 0x0200 #define WL_CHANSPEC_CTL_SB_LUU 0x0300 #define WL_CHANSPEC_CTL_SB_ULL 0x0400 #define WL_CHANSPEC_CTL_SB_ULU 0x0500 #define WL_CHANSPEC_CTL_SB_UUL 0x0600 #define WL_CHANSPEC_CTL_SB_UUU 0x0700 #define WL_CHANSPEC_CTL_SB_LL WL_CHANSPEC_CTL_SB_LLL #define WL_CHANSPEC_CTL_SB_LU WL_CHANSPEC_CTL_SB_LLU #define WL_CHANSPEC_CTL_SB_UL WL_CHANSPEC_CTL_SB_LUL #define WL_CHANSPEC_CTL_SB_UU WL_CHANSPEC_CTL_SB_LUU #define WL_CHANSPEC_CTL_SB_L WL_CHANSPEC_CTL_SB_LLL #define WL_CHANSPEC_CTL_SB_U WL_CHANSPEC_CTL_SB_LLU #define WL_CHANSPEC_CTL_SB_LOWER WL_CHANSPEC_CTL_SB_LLL #define WL_CHANSPEC_CTL_SB_UPPER WL_CHANSPEC_CTL_SB_LLU #define WL_CHANSPEC_CTL_SB_NONE WL_CHANSPEC_CTL_SB_LLL #define WL_CHANSPEC_BW_MASK 0x3800u #define WL_CHANSPEC_BW_SHIFT 11u #define WL_CHANSPEC_BW_5 0x0000u #define WL_CHANSPEC_BW_10 0x0800u #define WL_CHANSPEC_BW_20 0x1000u #define WL_CHANSPEC_BW_40 0x1800u #define WL_CHANSPEC_BW_80 0x2000u #define WL_CHANSPEC_BW_160 0x2800u #define WL_CHANSPEC_BW_8080 0x3000u #define WL_CHANSPEC_BAND_MASK 0xc000u #define WL_CHANSPEC_BAND_SHIFT 14u #define WL_CHANSPEC_BAND_2G 0x0000u #define WL_CHANSPEC_BAND_3G 0x4000u #define WL_CHANSPEC_BAND_4G 0x8000u #define WL_CHANSPEC_BAND_5G 0xc000u #define INVCHANSPEC 255u #define MAX_CHANSPEC 0xFFFFu #define WL_CHANNEL_BAND(ch) (((ch) <= CH_MAX_2G_CHANNEL) ? \ WL_CHANSPEC_BAND_2G : WL_CHANSPEC_BAND_5G) /* channel defines */ #define LOWER_20_SB(channel) (((channel) > CH_10MHZ_APART) ? \ ((channel) - CH_10MHZ_APART) : 0) #define UPPER_20_SB(channel) (((channel) < (MAXCHANNEL - CH_10MHZ_APART)) ? \ ((channel) + CH_10MHZ_APART) : 0) /* pass a 80MHz channel number (uint8) to get respective LL, UU, LU, UL */ #define LL_20_SB(channel) (((channel) > 3 * CH_10MHZ_APART) ? ((channel) - 3 * CH_10MHZ_APART) : 0) #define UU_20_SB(channel) (((channel) < (MAXCHANNEL - 3 * CH_10MHZ_APART)) ? \ ((channel) + 3 * CH_10MHZ_APART) : 0) #define LU_20_SB(channel) LOWER_20_SB(channel) #define UL_20_SB(channel) UPPER_20_SB(channel) #define LOWER_40_SB(channel) ((channel) - CH_20MHZ_APART) #define UPPER_40_SB(channel) ((channel) + CH_20MHZ_APART) #define CHSPEC_WLCBANDUNIT(chspec) (CHSPEC_IS5G(chspec) ? BAND_5G_INDEX : BAND_2G_INDEX) #define CH20MHZ_CHSPEC(channel) (chanspec_t)((chanspec_t)(channel) | WL_CHANSPEC_BW_20 | \ (((channel) <= CH_MAX_2G_CHANNEL) ? \ WL_CHANSPEC_BAND_2G : WL_CHANSPEC_BAND_5G)) #define NEXT_20MHZ_CHAN(channel) (((channel) < (MAXCHANNEL - CH_20MHZ_APART)) ? \ ((channel) + CH_20MHZ_APART) : 0) #define CH40MHZ_CHSPEC(channel, ctlsb) (chanspec_t) \ ((channel) | (ctlsb) | WL_CHANSPEC_BW_40 | \ ((channel) <= CH_MAX_2G_CHANNEL ? WL_CHANSPEC_BAND_2G : \ WL_CHANSPEC_BAND_5G)) #define CH80MHZ_CHSPEC(channel, ctlsb) (chanspec_t) \ ((channel) | (ctlsb) | \ WL_CHANSPEC_BW_80 | WL_CHANSPEC_BAND_5G) #define CH160MHZ_CHSPEC(channel, ctlsb) (chanspec_t) \ ((channel) | (ctlsb) | \ WL_CHANSPEC_BW_160 | WL_CHANSPEC_BAND_5G) /* simple MACROs to get different fields of chanspec */ #ifdef WL11AC_80P80 #define CHSPEC_CHANNEL(chspec) wf_chspec_channel(chspec) #else #define CHSPEC_CHANNEL(chspec) ((uint8)((chspec) & WL_CHANSPEC_CHAN_MASK)) #endif // endif #define CHSPEC_CHAN1(chspec) ((chspec) & WL_CHANSPEC_CHAN1_MASK) >> WL_CHANSPEC_CHAN1_SHIFT #define CHSPEC_CHAN2(chspec) ((chspec) & WL_CHANSPEC_CHAN2_MASK) >> WL_CHANSPEC_CHAN2_SHIFT #define CHSPEC_BAND(chspec) ((chspec) & WL_CHANSPEC_BAND_MASK) #define CHSPEC_CTL_SB(chspec) ((chspec) & WL_CHANSPEC_CTL_SB_MASK) #define CHSPEC_BW(chspec) ((chspec) & WL_CHANSPEC_BW_MASK) #ifdef WL11N_20MHZONLY #define CHSPEC_IS20(chspec) 1 #define CHSPEC_IS20_2G(chspec) ((((chspec) & WL_CHANSPEC_BW_MASK) == WL_CHANSPEC_BW_20) && \ CHSPEC_IS2G(chspec)) #ifndef CHSPEC_IS40 #define CHSPEC_IS40(chspec) 0 #endif // endif #ifndef CHSPEC_IS80 #define CHSPEC_IS80(chspec) 0 #endif // endif #ifndef CHSPEC_IS160 #define CHSPEC_IS160(chspec) 0 #endif // endif #ifndef CHSPEC_IS8080 #define CHSPEC_IS8080(chspec) 0 #endif // endif /* see FOREACH_20_SB in !WL11N_20MHZONLY section */ #define FOREACH_20_SB(chspec, channel) \ for (channel = CHSPEC_CHANNEL(chspec); channel; channel = 0) /* see GET_ALL_SB in !WL11N_20MHZONLY section */ #define GET_ALL_SB(chspec, psb) do { \ psb[0] = CHSPEC_CHANNEL(chspec); \ } while (0) #else /* !WL11N_20MHZONLY */ #define CHSPEC_IS20(chspec) (((chspec) & WL_CHANSPEC_BW_MASK) == WL_CHANSPEC_BW_20) #define CHSPEC_IS20_5G(chspec) ((((chspec) & WL_CHANSPEC_BW_MASK) == WL_CHANSPEC_BW_20) && \ CHSPEC_IS5G(chspec)) #ifndef CHSPEC_IS40 #define CHSPEC_IS40(chspec) (((chspec) & WL_CHANSPEC_BW_MASK) == WL_CHANSPEC_BW_40) #endif // endif #ifndef CHSPEC_IS80 #define CHSPEC_IS80(chspec) (((chspec) & WL_CHANSPEC_BW_MASK) == WL_CHANSPEC_BW_80) #endif // endif #ifndef CHSPEC_IS160 #define CHSPEC_IS160(chspec) (((chspec) & WL_CHANSPEC_BW_MASK) == WL_CHANSPEC_BW_160) #endif // endif #ifndef CHSPEC_IS8080 #define CHSPEC_IS8080(chspec) (((chspec) & WL_CHANSPEC_BW_MASK) == WL_CHANSPEC_BW_8080) #endif // endif /* pass a center channel and get channel offset from it by 10MHz */ #define CH_OFF_10MHZ_MULTIPLES(channel, offset) ((uint8) (((offset) < 0) ? \ (((channel) > (WL_CHANSPEC_CHAN_MASK & ((uint16)((-(offset)) * CH_10MHZ_APART)))) ?\ ((channel) + (offset) * CH_10MHZ_APART) : 0) : \ (((channel) < (uint16)(MAXCHANNEL - (offset) * CH_10MHZ_APART)) ? \ ((channel) + (offset) * CH_10MHZ_APART) : 0))) #if defined(WL11AC_80P80) || defined(WL11AC_160) /* pass a 160MHz center channel to get 20MHz subband channel numbers */ #define LLL_20_SB_160(channel) CH_OFF_10MHZ_MULTIPLES(channel, -7) #define LLU_20_SB_160(channel) CH_OFF_10MHZ_MULTIPLES(channel, -5) #define LUL_20_SB_160(channel) CH_OFF_10MHZ_MULTIPLES(channel, -3) #define LUU_20_SB_160(channel) CH_OFF_10MHZ_MULTIPLES(channel, -1) #define ULL_20_SB_160(channel) CH_OFF_10MHZ_MULTIPLES(channel, 1) #define ULU_20_SB_160(channel) CH_OFF_10MHZ_MULTIPLES(channel, 3) #define UUL_20_SB_160(channel) CH_OFF_10MHZ_MULTIPLES(channel, 5) #define UUU_20_SB_160(channel) CH_OFF_10MHZ_MULTIPLES(channel, 7) /* given an 80p80 channel, return the lower 80MHz sideband */ #define LOWER_80_SB(chspec) (wf_chspec_primary80_channel(chspec) < \ wf_chspec_secondary80_channel(chspec) ? \ wf_chspec_primary80_channel(chspec) : wf_chspec_secondary80_channel(chspec)) /* given an 80p80 channel, return the upper 80MHz sideband */ #define UPPER_80_SB(chspec) (wf_chspec_primary80_channel(chspec) > \ wf_chspec_secondary80_channel(chspec) ? \ wf_chspec_primary80_channel(chspec) : wf_chspec_secondary80_channel(chspec)) /* pass an 80P80 chanspec (not channel) to get 20MHz subnand channel numbers */ #define LLL_20_SB_8080(chspec) CH_OFF_10MHZ_MULTIPLES(LOWER_80_SB(chspec), -3) #define LLU_20_SB_8080(chspec) CH_OFF_10MHZ_MULTIPLES(LOWER_80_SB(chspec), -1) #define LUL_20_SB_8080(chspec) CH_OFF_10MHZ_MULTIPLES(LOWER_80_SB(chspec), 1) #define LUU_20_SB_8080(chspec) CH_OFF_10MHZ_MULTIPLES(LOWER_80_SB(chspec), 3) #define ULL_20_SB_8080(chspec) CH_OFF_10MHZ_MULTIPLES(UPPER_80_SB(chspec), -3) #define ULU_20_SB_8080(chspec) CH_OFF_10MHZ_MULTIPLES(UPPER_80_SB(chspec), -1) #define UUL_20_SB_8080(chspec) CH_OFF_10MHZ_MULTIPLES(UPPER_80_SB(chspec), 1) #define UUU_20_SB_8080(chspec) CH_OFF_10MHZ_MULTIPLES(UPPER_80_SB(chspec), 3) /* get lowest 20MHz sideband of a given chspec * (works with 20, 40, 80, 160, 80p80) */ #define CH_FIRST_20_SB(chspec) ((uint8) (\ CHSPEC_IS160(chspec) ? LLL_20_SB_160(CHSPEC_CHANNEL(chspec)) : (\ CHSPEC_IS8080(chspec) ? LLL_20_SB_8080(chspec) : (\ CHSPEC_IS80(chspec) ? LL_20_SB(CHSPEC_CHANNEL(chspec)) : (\ CHSPEC_IS40(chspec) ? LOWER_20_SB(CHSPEC_CHANNEL(chspec)) : \ CHSPEC_CHANNEL(chspec)))))) /* get upper most 20MHz sideband of a given chspec * (works with 20, 40, 80, 160, 80p80) */ #define CH_LAST_20_SB(chspec) ((uint8) (\ CHSPEC_IS160(chspec) ? UUU_20_SB_160(CHSPEC_CHANNEL(chspec)) : (\ CHSPEC_IS8080(chspec) ? UUU_20_SB_8080(chspec) : (\ CHSPEC_IS80(chspec) ? UU_20_SB(CHSPEC_CHANNEL(chspec)) : (\ CHSPEC_IS40(chspec) ? UPPER_20_SB(CHSPEC_CHANNEL(chspec)) : \ CHSPEC_CHANNEL(chspec)))))) /* call this with chspec and a valid 20MHz sideband of this channel to get the next 20MHz sideband * (works with 80p80 only) * resolves to 0 if called with upper most channel */ #define CH_NEXT_20_SB_IN_8080(chspec, channel) ((uint8) (\ ((uint8) ((channel) + CH_20MHZ_APART) > CH_LAST_20_SB(chspec) ? 0 : \ ((channel) == LUU_20_SB_8080(chspec) ? ULL_20_SB_8080(chspec) : \ (channel) + CH_20MHZ_APART)))) /* call this with chspec and a valid 20MHz sideband of this channel to get the next 20MHz sideband * (works with 20, 40, 80, 160, 80p80) * resolves to 0 if called with upper most channel */ #define CH_NEXT_20_SB(chspec, channel) ((uint8) (\ (CHSPEC_IS8080(chspec) ? CH_NEXT_20_SB_IN_8080((chspec), (channel)) : \ ((uint8) ((channel) + CH_20MHZ_APART) > CH_LAST_20_SB(chspec) ? 0 : \ ((channel) + CH_20MHZ_APART))))) #else /* WL11AC_80P80, WL11AC_160 */ #define LLL_20_SB_160(channel) 0 #define LLU_20_SB_160(channel) 0 #define LUL_20_SB_160(channel) 0 #define LUU_20_SB_160(channel) 0 #define ULL_20_SB_160(channel) 0 #define ULU_20_SB_160(channel) 0 #define UUL_20_SB_160(channel) 0 #define UUU_20_SB_160(channel) 0 #define LOWER_80_SB(chspec) 0 #define UPPER_80_SB(chspec) 0 #define LLL_20_SB_8080(chspec) 0 #define LLU_20_SB_8080(chspec) 0 #define LUL_20_SB_8080(chspec) 0 #define LUU_20_SB_8080(chspec) 0 #define ULL_20_SB_8080(chspec) 0 #define ULU_20_SB_8080(chspec) 0 #define UUL_20_SB_8080(chspec) 0 #define UUU_20_SB_8080(chspec) 0 /* get lowest 20MHz sideband of a given chspec * (works with 20, 40, 80) */ #define CH_FIRST_20_SB(chspec) ((uint8) (\ CHSPEC_IS80(chspec) ? LL_20_SB(CHSPEC_CHANNEL(chspec)) : (\ CHSPEC_IS40(chspec) ? LOWER_20_SB(CHSPEC_CHANNEL(chspec)) : \ CHSPEC_CHANNEL(chspec)))) /* get upper most 20MHz sideband of a given chspec * (works with 20, 40, 80, 160, 80p80) */ #define CH_LAST_20_SB(chspec) ((uint8) (\ CHSPEC_IS80(chspec) ? UU_20_SB(CHSPEC_CHANNEL(chspec)) : (\ CHSPEC_IS40(chspec) ? UPPER_20_SB(CHSPEC_CHANNEL(chspec)) : \ CHSPEC_CHANNEL(chspec)))) /* call this with chspec and a valid 20MHz sideband of this channel to get the next 20MHz sideband * (works with 20, 40, 80, 160, 80p80) * resolves to 0 if called with upper most channel */ #define CH_NEXT_20_SB(chspec, channel) ((uint8) (\ ((uint8) ((channel) + CH_20MHZ_APART) > CH_LAST_20_SB(chspec) ? 0 : \ ((channel) + CH_20MHZ_APART)))) #endif /* WL11AC_80P80, WL11AC_160 */ /* Iterator for 20MHz side bands of a chanspec: (chanspec_t chspec, uint8 channel) * 'chspec' chanspec_t of interest (used in loop, better to pass a resolved value than a macro) * 'channel' must be a variable (not an expression). */ #define FOREACH_20_SB(chspec, channel) \ for (channel = CH_FIRST_20_SB(chspec); channel; \ channel = CH_NEXT_20_SB((chspec), channel)) /* Uses iterator to populate array with all side bands involved (sorted lower to upper). * 'chspec' chanspec_t of interest * 'psb' pointer to uint8 array of enough size to hold all side bands for the given chspec */ #define GET_ALL_SB(chspec, psb) do { \ uint8 channel, idx = 0; \ chanspec_t chspec_local = chspec; \ FOREACH_20_SB(chspec_local, channel) \ (psb)[idx++] = channel; \ } while (0) /* given a chanspec of any bw, tests if primary20 SB is in lower 20, 40, 80 respectively */ #define IS_CTL_IN_L20(chspec) !((chspec) & WL_CHANSPEC_CTL_SB_U) /* CTL SB is in low 20 of any 40 */ #define IS_CTL_IN_L40(chspec) !((chspec) & WL_CHANSPEC_CTL_SB_UL) /* in low 40 of any 80 */ #define IS_CTL_IN_L80(chspec) !((chspec) & WL_CHANSPEC_CTL_SB_ULL) /* in low 80 of 80p80/160 */ #endif /* !WL11N_20MHZONLY */ /* ULB introduced macros. Remove once ULB is cleaned from phy code */ #define CHSPEC_IS2P5(chspec) 0 #define CHSPEC_IS5(chspec) 0 #define CHSPEC_IS10(chspec) 0 #define CHSPEC_ISLE20(chspec) (CHSPEC_IS20(chspec)) #define CHSPEC_BW_LE20(chspec) (CHSPEC_IS20(chspec)) #define BW_LE40(bw) ((bw) == WL_CHANSPEC_BW_20 || ((bw) == WL_CHANSPEC_BW_40)) #define BW_LE80(bw) (BW_LE40(bw) || ((bw) == WL_CHANSPEC_BW_80)) #define BW_LE160(bw) (BW_LE80(bw) || ((bw) == WL_CHANSPEC_BW_160)) #define CHSPEC_IS5G(chspec) (((chspec) & WL_CHANSPEC_BAND_MASK) == WL_CHANSPEC_BAND_5G) #define CHSPEC_IS2G(chspec) (((chspec) & WL_CHANSPEC_BAND_MASK) == WL_CHANSPEC_BAND_2G) #define CHSPEC_SB_UPPER(chspec) \ ((((chspec) & WL_CHANSPEC_CTL_SB_MASK) == WL_CHANSPEC_CTL_SB_UPPER) && \ (((chspec) & WL_CHANSPEC_BW_MASK) == WL_CHANSPEC_BW_40)) #define CHSPEC_SB_LOWER(chspec) \ ((((chspec) & WL_CHANSPEC_CTL_SB_MASK) == WL_CHANSPEC_CTL_SB_LOWER) && \ (((chspec) & WL_CHANSPEC_BW_MASK) == WL_CHANSPEC_BW_40)) #define CHSPEC2WLC_BAND(chspec) (CHSPEC_IS5G(chspec) ? WLC_BAND_5G : WLC_BAND_2G) /** * Number of chars needed for wf_chspec_ntoa() destination character buffer. */ #define CHANSPEC_STR_LEN 20 /* * This function returns TRUE if both the chanspec can co-exist in PHY. * Addition to primary20 channel, the function checks for side band for 2g 40 channels */ extern bool wf_chspec_coexist(chanspec_t chspec1, chanspec_t chspec2); #define CHSPEC_IS_BW_160_WIDE(chspec) (CHSPEC_BW(chspec) == WL_CHANSPEC_BW_160 ||\ CHSPEC_BW(chspec) == WL_CHANSPEC_BW_8080) /* BW inequality comparisons, LE (<=), GE (>=), LT (<), GT (>), comparisons can be made * as simple numeric comparisons, with the exception that 160 is the same BW as 80+80, * but have different numeric values; (WL_CHANSPEC_BW_160 < WL_CHANSPEC_BW_8080). * * The LT/LE/GT/GE macros check first checks whether both chspec bandwidth and bw are 160 wide. * If both chspec bandwidth and bw is not 160 wide, then the comparison is made. */ #define CHSPEC_BW_GE(chspec, bw) \ ((CHSPEC_IS_BW_160_WIDE(chspec) &&\ ((bw) == WL_CHANSPEC_BW_160 || (bw) == WL_CHANSPEC_BW_8080)) ||\ (CHSPEC_BW(chspec) >= (bw))) #define CHSPEC_BW_LE(chspec, bw) \ ((CHSPEC_IS_BW_160_WIDE(chspec) &&\ ((bw) == WL_CHANSPEC_BW_160 || (bw) == WL_CHANSPEC_BW_8080)) ||\ (CHSPEC_BW(chspec) <= (bw))) #define CHSPEC_BW_GT(chspec, bw) \ (!(CHSPEC_IS_BW_160_WIDE(chspec) &&\ ((bw) == WL_CHANSPEC_BW_160 || (bw) == WL_CHANSPEC_BW_8080)) &&\ (CHSPEC_BW(chspec) > (bw))) #define CHSPEC_BW_LT(chspec, bw) \ (!(CHSPEC_IS_BW_160_WIDE(chspec) &&\ ((bw) == WL_CHANSPEC_BW_160 || (bw) == WL_CHANSPEC_BW_8080)) &&\ (CHSPEC_BW(chspec) < (bw))) /* Legacy Chanspec defines * These are the defines for the previous format of the chanspec_t */ #define WL_LCHANSPEC_CHAN_MASK 0x00ff #define WL_LCHANSPEC_CHAN_SHIFT 0 #define WL_LCHANSPEC_CTL_SB_MASK 0x0300 #define WL_LCHANSPEC_CTL_SB_SHIFT 8 #define WL_LCHANSPEC_CTL_SB_LOWER 0x0100 #define WL_LCHANSPEC_CTL_SB_UPPER 0x0200 #define WL_LCHANSPEC_CTL_SB_NONE 0x0300 #define WL_LCHANSPEC_BW_MASK 0x0C00 #define WL_LCHANSPEC_BW_SHIFT 10 #define WL_LCHANSPEC_BW_10 0x0400 #define WL_LCHANSPEC_BW_20 0x0800 #define WL_LCHANSPEC_BW_40 0x0C00 #define WL_LCHANSPEC_BAND_MASK 0xf000 #define WL_LCHANSPEC_BAND_SHIFT 12 #define WL_LCHANSPEC_BAND_5G 0x1000 #define WL_LCHANSPEC_BAND_2G 0x2000 #define LCHSPEC_CHANNEL(chspec) ((uint8)((chspec) & WL_LCHANSPEC_CHAN_MASK)) #define LCHSPEC_BAND(chspec) ((chspec) & WL_LCHANSPEC_BAND_MASK) #define LCHSPEC_CTL_SB(chspec) ((chspec) & WL_LCHANSPEC_CTL_SB_MASK) #define LCHSPEC_BW(chspec) ((chspec) & WL_LCHANSPEC_BW_MASK) #define LCHSPEC_IS10(chspec) (((chspec) & WL_LCHANSPEC_BW_MASK) == WL_LCHANSPEC_BW_10) #define LCHSPEC_IS20(chspec) (((chspec) & WL_LCHANSPEC_BW_MASK) == WL_LCHANSPEC_BW_20) #define LCHSPEC_IS40(chspec) (((chspec) & WL_LCHANSPEC_BW_MASK) == WL_LCHANSPEC_BW_40) #define LCHSPEC_IS5G(chspec) (((chspec) & WL_LCHANSPEC_BAND_MASK) == WL_LCHANSPEC_BAND_5G) #define LCHSPEC_IS2G(chspec) (((chspec) & WL_LCHANSPEC_BAND_MASK) == WL_LCHANSPEC_BAND_2G) #define LCHSPEC_SB_UPPER(chspec) \ ((((chspec) & WL_LCHANSPEC_CTL_SB_MASK) == WL_LCHANSPEC_CTL_SB_UPPER) && \ (((chspec) & WL_LCHANSPEC_BW_MASK) == WL_LCHANSPEC_BW_40)) #define LCHSPEC_SB_LOWER(chspec) \ ((((chspec) & WL_LCHANSPEC_CTL_SB_MASK) == WL_LCHANSPEC_CTL_SB_LOWER) && \ (((chspec) & WL_LCHANSPEC_BW_MASK) == WL_LCHANSPEC_BW_40)) #define LCHSPEC_CREATE(chan, band, bw, sb) ((uint16)((chan) | (sb) | (bw) | (band))) #define CH20MHZ_LCHSPEC(channel) \ (chanspec_t)((chanspec_t)(channel) | WL_LCHANSPEC_BW_20 | \ WL_LCHANSPEC_CTL_SB_NONE | (((channel) <= CH_MAX_2G_CHANNEL) ? \ WL_LCHANSPEC_BAND_2G : WL_LCHANSPEC_BAND_5G)) #define GET_ALL_EXT wf_get_all_ext /* * WF_CHAN_FACTOR_* constants are used to calculate channel frequency * given a channel number. * chan_freq = chan_factor * 500Mhz + chan_number * 5 */ /** * Channel Factor for the starting frequence of 2.4 GHz channels. * The value corresponds to 2407 MHz. */ #define WF_CHAN_FACTOR_2_4_G 4814 /* 2.4 GHz band, 2407 MHz */ /** * Channel Factor for the starting frequence of 5 GHz channels. * The value corresponds to 5000 MHz. */ #define WF_CHAN_FACTOR_5_G 10000 /* 5 GHz band, 5000 MHz */ /** * Channel Factor for the starting frequence of 4.9 GHz channels. * The value corresponds to 4000 MHz. */ #define WF_CHAN_FACTOR_4_G 8000 /* 4.9 GHz band for Japan */ #define WLC_2G_25MHZ_OFFSET 5 /* 2.4GHz band channel offset */ /** * No of sub-band vlaue of the specified Mhz chanspec */ #define WF_NUM_SIDEBANDS_40MHZ 2 #define WF_NUM_SIDEBANDS_80MHZ 4 #define WF_NUM_SIDEBANDS_8080MHZ 4 #define WF_NUM_SIDEBANDS_160MHZ 8 /** * Return the chanspec bandwidth in MHz * Bandwidth of 160 MHz will be returned for 80+80MHz chanspecs. * * @param chspec chanspec_t * * @return bandwidth of chspec in MHz units */ extern uint wf_bw_chspec_to_mhz(chanspec_t chspec); /** * Convert chanspec to ascii string * * @param chspec chanspec format * @param buf ascii string of chanspec * * @return pointer to buf with room for at least CHANSPEC_STR_LEN bytes * Original chanspec in case of error * * @see CHANSPEC_STR_LEN */ extern char * wf_chspec_ntoa_ex(chanspec_t chspec, char *buf); /** * Convert chanspec to ascii string * * @param chspec chanspec format * @param buf ascii string of chanspec * * @return pointer to buf with room for at least CHANSPEC_STR_LEN bytes * NULL in case of error * * @see CHANSPEC_STR_LEN */ extern char * wf_chspec_ntoa(chanspec_t chspec, char *buf); /** * Convert ascii string to chanspec * * @param a pointer to input string * * @return >= 0 if successful or 0 otherwise */ extern chanspec_t wf_chspec_aton(const char *a); /** * Verify the chanspec fields are valid. * * Verify the chanspec is using a legal set field values, i.e. that the chanspec * specified a band, bw, primary_sb, and channel and that the combination could be * legal given some set of circumstances. * * @param chanspec input chanspec to verify * * @return TRUE if the chanspec is malformed, FALSE if it looks good. */ extern bool wf_chspec_malformed(chanspec_t chanspec); /** * Verify the chanspec specifies a valid channel according to 802.11. * * @param chanspec input chanspec to verify * * @return TRUE if the chanspec is a valid 802.11 channel */ extern bool wf_chspec_valid(chanspec_t chanspec); /** * Return the primary 20MHz channel. * * This function returns the channel number of the primary 20MHz channel. For * 20MHz channels this is just the channel number. For 40MHz or wider channels * it is the primary 20MHz channel specified by the chanspec. * * @param chspec input chanspec * * @return Returns the channel number of the primary 20MHz channel */ extern uint8 wf_chspec_primary20_chan(chanspec_t chspec); /* alias for old function name */ #define wf_chspec_ctlchan(c) wf_chspec_primary20_chan(c) /** * Return the bandwidth string. * * This function returns the bandwidth string for the passed chanspec. * * @param chspec input chanspec * * @return Returns the bandwidth string: * "5", "10", "20", "40", "80", "160", "80+80" */ extern const char *wf_chspec_to_bw_str(chanspec_t chspec); /** * Create a 20MHz chanspec for the given band. */ chanspec_t wf_create_20MHz_chspec(uint channel, chanspec_band_t band); /** * Return the primary 20MHz chanspec. * * This function returns the chanspec of the primary 20MHz channel. For 20MHz * channels this is just the chanspec. For 40MHz or wider channels it is the * chanspec of the primary 20MHZ channel specified by the chanspec. * * @param chspec input chanspec * * @return Returns the chanspec of the primary 20MHz channel */ extern chanspec_t wf_chspec_primary20_chspec(chanspec_t chspec); /* alias for old function name */ #define wf_chspec_ctlchspec(c) wf_chspec_primary20_chspec(c) /** * Return the primary 40MHz chanspec. * * This function returns the chanspec for the primary 40MHz of an 80MHz or wider channel. * The primary 20MHz channel of the returned 40MHz chanspec is the same as the primary 20MHz * channel of the input chanspec. */ extern chanspec_t wf_chspec_primary40_chspec(chanspec_t chspec); /* * Return the channel number for a given frequency and base frequency. * The returned channel number is relative to the given base frequency. * If the given base frequency is zero, a base frequency of 5 GHz is assumed for * frequencies from 5 - 6 GHz, and 2.407 GHz is assumed for 2.4 - 2.5 GHz. * * Frequency is specified in MHz. * The base frequency is specified as (start_factor * 500 kHz). * Constants WF_CHAN_FACTOR_2_4_G, WF_CHAN_FACTOR_5_G are defined for * 2.4 GHz and 5 GHz bands. * * The returned channel will be in the range [1, 14] in the 2.4 GHz band * and [0, 200] otherwise. * -1 is returned if the start_factor is WF_CHAN_FACTOR_2_4_G and the * frequency is not a 2.4 GHz channel, or if the frequency is not and even * multiple of 5 MHz from the base frequency to the base plus 1 GHz. * * Reference 802.11-2016, section 17.3.8.3 and section 16.3.6.3 * * @param freq frequency in MHz * @param start_factor base frequency in 500 kHz units, e.g. 10000 for 5 GHz * * @return Returns a channel number * * @see WF_CHAN_FACTOR_2_4_G * @see WF_CHAN_FACTOR_5_G */ extern int wf_mhz2channel(uint freq, uint start_factor); /** * Return the center frequency in MHz of the given channel and base frequency. * * Return the center frequency in MHz of the given channel and base frequency. * The channel number is interpreted relative to the given base frequency. * * The valid channel range is [1, 14] in the 2.4 GHz band and [0, 200] otherwise. * The base frequency is specified as (start_factor * 500 kHz). * Constants WF_CHAN_FACTOR_2_4_G, WF_CHAN_FACTOR_5_G are defined for * 2.4 GHz and 5 GHz bands. * The channel range of [1, 14] is only checked for a start_factor of * WF_CHAN_FACTOR_2_4_G (4814). * Odd start_factors produce channels on .5 MHz boundaries, in which case * the answer is rounded down to an integral MHz. * -1 is returned for an out of range channel. * * Reference 802.11-2016, section 17.3.8.3 and section 16.3.6.3 * * @param channel input channel number * @param start_factor base frequency in 500 kHz units, e.g. 10000 for 5 GHz * * @return Returns a frequency in MHz * * @see WF_CHAN_FACTOR_2_4_G * @see WF_CHAN_FACTOR_5_G */ extern int wf_channel2mhz(uint channel, uint start_factor); /** * Returns the chanspec 80Mhz channel corresponding to the following input * parameters * * primary_channel - primary 20Mhz channel * center_channel - center frequecny of the 80Mhz channel * * The center_channel can be one of {42, 58, 106, 122, 138, 155} * * returns INVCHANSPEC in case of error */ extern chanspec_t wf_chspec_80(uint8 center_channel, uint8 primary_channel); /** * Convert ctl chan and bw to chanspec * * @param ctl_ch channel * @param bw bandwidth * * @return > 0 if successful or 0 otherwise * */ extern uint16 wf_channel2chspec(uint ctl_ch, uint bw); extern uint wf_channel2freq(uint channel); extern uint wf_freq2channel(uint freq); /* * Returns the 80+80 MHz chanspec corresponding to the following input parameters * * primary_20mhz - Primary 20 MHz channel * chan0_80MHz - center channel number of one frequency segment * chan1_80MHz - center channel number of the other frequency segment * * Parameters chan0_80MHz and chan1_80MHz are channel numbers in {42, 58, 106, 122, 138, 155}. * The primary channel must be contained in one of the 80MHz channels. This routine * will determine which frequency segment is the primary 80 MHz segment. * * Returns INVCHANSPEC in case of error. * * Refer to 802.11-2016 section 22.3.14 "Channelization". */ extern chanspec_t wf_chspec_get8080_chspec(uint8 primary_20mhz, uint8 chan0_80Mhz, uint8 chan1_80Mhz); /** * Returns the center channel of the primary 80 MHz sub-band of the provided chanspec * * @param chspec input chanspec * * @return center channel number of the primary 80MHz sub-band of the input. * Will return the center channel of an input 80MHz chspec. * Will return INVCHANNEL if the chspec is malformed or less than 80MHz bw. */ extern uint8 wf_chspec_primary80_channel(chanspec_t chanspec); /** * Returns the center channel of the secondary 80 MHz sub-band of the provided chanspec * * @param chspec input chanspec * * @return center channel number of the secondary 80MHz sub-band of the input. * Will return INVCHANNEL if the chspec is malformed or bw is not greater than 80MHz. */ extern uint8 wf_chspec_secondary80_channel(chanspec_t chanspec); /** * Returns the chanspec for the primary 80MHz sub-band of an 160MHz or 80+80 channel * * @param chspec input chanspec * * @return An 80MHz chanspec describing the primary 80MHz sub-band of the input. * Will return an input 80MHz chspec as is. * Will return INVCHANSPEC if the chspec is malformed or less than 80MHz bw. */ extern chanspec_t wf_chspec_primary80_chspec(chanspec_t chspec); /** * Returns the chanspec for the secondary 80MHz sub-band of an 160MHz or 80+80 channel * The sideband in the chanspec is always set to WL_CHANSPEC_CTL_SB_LL since this sub-band * does not contain the primary 20MHz channel. * * @param chspec input chanspec * * @return An 80MHz chanspec describing the secondary 80MHz sub-band of the input. * Will return INVCHANSPEC if the chspec is malformed or bw is not greater than 80MHz. */ extern chanspec_t wf_chspec_secondary80_chspec(chanspec_t chspec); /* * For 160MHz or 80P80 chanspec, set ch[0]/ch[1] to be the low/high 80 Mhz channels * * For 20/40/80MHz chanspec, set ch[0] to be the center freq, and chan[1]=-1 */ extern void wf_chspec_get_80p80_channels(chanspec_t chspec, uint8 *ch); #ifdef WL11AC_80P80 /* * This function returns the centre chanel for the given chanspec. * In case of 80+80 chanspec it returns the primary 80 Mhz centre channel */ extern uint8 wf_chspec_channel(chanspec_t chspec); #endif // endif extern chanspec_t wf_channel_create_chspec_frm_opclass(uint8 opclass, uint8 channel); extern int wf_channel_create_opclass_frm_chspec(chanspec_t chspec); /* Populates array with all 20MHz side bands of a given chanspec_t in the following order: * primary20, ext20, two ext40s, four ext80s. * 'chspec' is the chanspec of interest * 'pext' must point to an uint8 array of long enough to hold all side bands of the given chspec * * Works with 20, 40, 80, 80p80 and 160MHz chspec */ extern void wf_get_all_ext(chanspec_t chspec, uint8 *chan_ptr); /* * Given two chanspecs, returns true if they overlap. * (Overlap: At least one 20MHz subband is common between the two chanspecs provided) */ extern bool wf_chspec_overlap(chanspec_t chspec0, chanspec_t chspec1); extern uint8 channel_bw_to_width(chanspec_t chspec); #endif /* _bcmwifi_channels_h_ */