brcm80211: removed unused functions

Removed brcmu_bitcount, brcmu_mhz2channel, brcmu_chspec_ctlchan.

Reported-by: Johannes Berg <johannes@sipsolutions.net>
Reviewed-by: Roland Vossen <rvossen@broadcom.com>
Reviewed-by: Arend van Spriel <arend@broadcom.com>
Signed-off-by: Arend van Spriel <arend@broadcom.com>
Signed-off-by: John W. Linville <linville@tuxdriver.com>
This commit is contained in:
Alwin Beukers 2011-10-12 20:51:25 +02:00 коммит произвёл John W. Linville
Родитель a718e2fed1
Коммит f53b170f46
5 изменённых файлов: 0 добавлений и 138 удалений

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@ -30,8 +30,6 @@
#define BRCMS_STF_SS_STBC_RX(wlc) (BRCMS_ISNPHY(wlc->band) && \ #define BRCMS_STF_SS_STBC_RX(wlc) (BRCMS_ISNPHY(wlc->band) && \
NREV_GT(wlc->band->phyrev, 3) && NREV_LE(wlc->band->phyrev, 6)) NREV_GT(wlc->band->phyrev, 3) && NREV_LE(wlc->band->phyrev, 6))
#define BRCMS_BITSCNT(x) brcmu_bitcount((u8 *)&(x), sizeof(u8))
#define NSTS_1 1 #define NSTS_1 1
#define NSTS_2 2 #define NSTS_2 2
#define NSTS_3 3 #define NSTS_3 3

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@ -584,17 +584,3 @@ u8 brcmu_mw_to_qdbm(u16 mw)
} }
EXPORT_SYMBOL(brcmu_mw_to_qdbm); EXPORT_SYMBOL(brcmu_mw_to_qdbm);
uint brcmu_bitcount(u8 *bitmap, uint length)
{
uint bitcount = 0, i;
u8 tmp;
for (i = 0; i < length; i++) {
tmp = bitmap[i];
while (tmp) {
bitcount++;
tmp &= (tmp - 1);
}
}
return bitcount;
}
EXPORT_SYMBOL(brcmu_bitcount);

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@ -41,96 +41,3 @@ bool brcmu_chspec_malformed(u16 chanspec)
return false; return false;
} }
EXPORT_SYMBOL(brcmu_chspec_malformed); EXPORT_SYMBOL(brcmu_chspec_malformed);
/*
* This function returns the channel number that control traffic is being sent
* on, for legacy channels this is just the channel number, for 40MHZ channels
* it is the upper or lower 20MHZ sideband depending on the chanspec selected.
*/
u8 brcmu_chspec_ctlchan(u16 chspec)
{
u8 ctl_chan;
/* Is there a sideband ? */
if (CHSPEC_CTL_SB(chspec) == WL_CHANSPEC_CTL_SB_NONE) {
return CHSPEC_CHANNEL(chspec);
} else {
/*
* we only support 40MHZ with sidebands. chanspec channel holds
* the centre frequency, use that and the side band information
* to reconstruct the control channel number
*/
if (CHSPEC_CTL_SB(chspec) == WL_CHANSPEC_CTL_SB_UPPER)
/*
* control chan is the upper 20 MHZ SB of the
* 40MHZ channel
*/
ctl_chan = upper_20_sb(CHSPEC_CHANNEL(chspec));
else
/*
* control chan is the lower 20 MHZ SB of the
* 40MHZ channel
*/
ctl_chan = lower_20_sb(CHSPEC_CHANNEL(chspec));
}
return ctl_chan;
}
EXPORT_SYMBOL(brcmu_chspec_ctlchan);
/*
* 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 REVma, section 17.3.8.3, and 802.11B section 18.4.6.2
*/
int brcmu_mhz2channel(uint freq, uint start_factor)
{
int ch = -1;
uint base;
int offset;
/* take the default channel start frequency */
if (start_factor == 0) {
if (freq >= 2400 && freq <= 2500)
start_factor = WF_CHAN_FACTOR_2_4_G;
else if (freq >= 5000 && freq <= 6000)
start_factor = WF_CHAN_FACTOR_5_G;
}
if (freq == 2484 && start_factor == WF_CHAN_FACTOR_2_4_G)
return 14;
base = start_factor / 2;
/* check that the frequency is in 1GHz range of the base */
if ((freq < base) || (freq > base + 1000))
return -1;
offset = freq - base;
ch = offset / 5;
/* check that frequency is a 5MHz multiple from the base */
if (offset != (ch * 5))
return -1;
/* restricted channel range check for 2.4G */
if (start_factor == WF_CHAN_FACTOR_2_4_G && (ch < 1 || ch > 13))
return -1;
return ch;
}
EXPORT_SYMBOL(brcmu_mhz2channel);

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@ -218,6 +218,5 @@ extern u8 brcmu_mw_to_qdbm(u16 mw);
extern uint brcmu_mkiovar(char *name, char *data, uint datalen, extern uint brcmu_mkiovar(char *name, char *data, uint datalen,
char *buf, uint len); char *buf, uint len);
extern uint brcmu_bitcount(u8 *bitmap, uint bytelength);
#endif /* _BRCMU_UTILS_H_ */ #endif /* _BRCMU_UTILS_H_ */

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@ -176,34 +176,6 @@ static inline bool ac_bitmap_tst(u8 bitmap, int prec)
*/ */
extern bool brcmu_chspec_malformed(u16 chanspec); extern bool brcmu_chspec_malformed(u16 chanspec);
/*
* This function returns the channel number that control traffic is being sent
* on, for legacy channels this is just the channel number, for 40MHZ channels
* it is the upper or lower 20MHZ sideband depending on the chanspec selected.
*/
extern u8 brcmu_chspec_ctlchan(u16 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 REVma, section 17.3.8.3, and 802.11B section 18.4.6.2
*/
extern int brcmu_mhz2channel(uint freq, uint start_factor);
/* Enumerate crypto algorithms */ /* Enumerate crypto algorithms */
#define CRYPTO_ALGO_OFF 0 #define CRYPTO_ALGO_OFF 0
#define CRYPTO_ALGO_WEP1 1 #define CRYPTO_ALGO_WEP1 1