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rtl8812au/core/rtw_rf.c

1385 lines
35 KiB
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2018-06-22 16:48:32 +00:00
/******************************************************************************
*
* Copyright(c) 2007 - 2017 Realtek Corporation.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
*****************************************************************************/
#define _RTW_RF_C_
#include <drv_types.h>
#include <hal_data.h>
u8 center_ch_2g[CENTER_CH_2G_NUM] = {
/* G00 */1, 2,
/* G01 */3, 4, 5,
/* G02 */6, 7, 8,
/* G03 */9, 10, 11,
/* G04 */12, 13,
/* G05 */14
};
u8 center_ch_2g_40m[CENTER_CH_2G_40M_NUM] = {
3,
4,
5,
6,
7,
8,
9,
10,
11,
};
u8 op_chs_of_cch_2g_40m[CENTER_CH_2G_40M_NUM][2] = {
{1, 5}, /* 3 */
{2, 6}, /* 4 */
{3, 7}, /* 5 */
{4, 8}, /* 6 */
{5, 9}, /* 7 */
{6, 10}, /* 8 */
{7, 11}, /* 9 */
{8, 12}, /* 10 */
{9, 13}, /* 11 */
};
u8 center_ch_5g_all[CENTER_CH_5G_ALL_NUM] = {
/* G00 */36, 38, 40,
42,
/* G01 */44, 46, 48,
/* 50, */
/* G02 */52, 54, 56,
58,
/* G03 */60, 62, 64,
/* G04 */100, 102, 104,
106,
/* G05 */108, 110, 112,
/* 114, */
/* G06 */116, 118, 120,
122,
/* G07 */124, 126, 128,
/* G08 */132, 134, 136,
138,
/* G09 */140, 142, 144,
/* G10 */149, 151, 153,
155,
/* G11 */157, 159, 161,
/* 163, */
/* G12 */165, 167, 169,
171,
/* G13 */173, 175, 177
};
u8 center_ch_5g_20m[CENTER_CH_5G_20M_NUM] = {
/* G00 */36, 40,
/* G01 */44, 48,
/* G02 */52, 56,
/* G03 */60, 64,
/* G04 */100, 104,
/* G05 */108, 112,
/* G06 */116, 120,
/* G07 */124, 128,
/* G08 */132, 136,
/* G09 */140, 144,
/* G10 */149, 153,
/* G11 */157, 161,
/* G12 */165, 169,
/* G13 */173, 177
};
u8 center_ch_5g_40m[CENTER_CH_5G_40M_NUM] = {
/* G00 */38,
/* G01 */46,
/* G02 */54,
/* G03 */62,
/* G04 */102,
/* G05 */110,
/* G06 */118,
/* G07 */126,
/* G08 */134,
/* G09 */142,
/* G10 */151,
/* G11 */159,
/* G12 */167,
/* G13 */175
};
u8 center_ch_5g_20m_40m[CENTER_CH_5G_20M_NUM + CENTER_CH_5G_40M_NUM] = {
/* G00 */36, 38, 40,
/* G01 */44, 46, 48,
/* G02 */52, 54, 56,
/* G03 */60, 62, 64,
/* G04 */100, 102, 104,
/* G05 */108, 110, 112,
/* G06 */116, 118, 120,
/* G07 */124, 126, 128,
/* G08 */132, 134, 136,
/* G09 */140, 142, 144,
/* G10 */149, 151, 153,
/* G11 */157, 159, 161,
/* G12 */165, 167, 169,
/* G13 */173, 175, 177
};
u8 op_chs_of_cch_5g_40m[CENTER_CH_5G_40M_NUM][2] = {
{36, 40}, /* 38 */
{44, 48}, /* 46 */
{52, 56}, /* 54 */
{60, 64}, /* 62 */
{100, 104}, /* 102 */
{108, 112}, /* 110 */
{116, 120}, /* 118 */
{124, 128}, /* 126 */
{132, 136}, /* 134 */
{140, 144}, /* 142 */
{149, 153}, /* 151 */
{157, 161}, /* 159 */
{165, 169}, /* 167 */
{173, 177}, /* 175 */
};
u8 center_ch_5g_80m[CENTER_CH_5G_80M_NUM] = {
/* G00 ~ G01*/42,
/* G02 ~ G03*/58,
/* G04 ~ G05*/106,
/* G06 ~ G07*/122,
/* G08 ~ G09*/138,
/* G10 ~ G11*/155,
/* G12 ~ G13*/171
};
u8 op_chs_of_cch_5g_80m[CENTER_CH_5G_80M_NUM][4] = {
{36, 40, 44, 48}, /* 42 */
{52, 56, 60, 64}, /* 58 */
{100, 104, 108, 112}, /* 106 */
{116, 120, 124, 128}, /* 122 */
{132, 136, 140, 144}, /* 138 */
{149, 153, 157, 161}, /* 155 */
{165, 169, 173, 177}, /* 171 */
};
u8 center_ch_5g_160m[CENTER_CH_5G_160M_NUM] = {
/* G00 ~ G03*/50,
/* G04 ~ G07*/114,
/* G10 ~ G13*/163
};
u8 op_chs_of_cch_5g_160m[CENTER_CH_5G_160M_NUM][8] = {
{36, 40, 44, 48, 52, 56, 60, 64}, /* 50 */
{100, 104, 108, 112, 116, 120, 124, 128}, /* 114 */
{149, 153, 157, 161, 165, 169, 173, 177}, /* 163 */
};
struct center_chs_ent_t {
u8 ch_num;
u8 *chs;
};
struct center_chs_ent_t center_chs_2g_by_bw[] = {
{CENTER_CH_2G_NUM, center_ch_2g},
{CENTER_CH_2G_40M_NUM, center_ch_2g_40m},
};
struct center_chs_ent_t center_chs_5g_by_bw[] = {
{CENTER_CH_5G_20M_NUM, center_ch_5g_20m},
{CENTER_CH_5G_40M_NUM, center_ch_5g_40m},
{CENTER_CH_5G_80M_NUM, center_ch_5g_80m},
{CENTER_CH_5G_160M_NUM, center_ch_5g_160m},
};
/*
* Get center channel of smaller bandwidth by @param cch, @param bw, @param offset
* @cch: the given center channel
* @bw: the given bandwidth
* @offset: the given primary SC offset of the given bandwidth
*
* return center channel of smaller bandiwdth if valid, or 0
*/
u8 rtw_get_scch_by_cch_offset(u8 cch, u8 bw, u8 offset)
{
u8 t_cch = 0;
if (bw == CHANNEL_WIDTH_20) {
t_cch = cch;
goto exit;
}
if (offset == HAL_PRIME_CHNL_OFFSET_DONT_CARE) {
rtw_warn_on(1);
goto exit;
}
/* 2.4G, 40MHz */
if (cch >= 3 && cch <= 11 && bw == CHANNEL_WIDTH_40) {
t_cch = (offset == HAL_PRIME_CHNL_OFFSET_UPPER) ? cch + 2 : cch - 2;
goto exit;
}
/* 5G, 160MHz */
if (cch >= 50 && cch <= 163 && bw == CHANNEL_WIDTH_160) {
t_cch = (offset == HAL_PRIME_CHNL_OFFSET_UPPER) ? cch + 8 : cch - 8;
goto exit;
/* 5G, 80MHz */
} else if (cch >= 42 && cch <= 171 && bw == CHANNEL_WIDTH_80) {
t_cch = (offset == HAL_PRIME_CHNL_OFFSET_UPPER) ? cch + 4 : cch - 4;
goto exit;
/* 5G, 40MHz */
} else if (cch >= 38 && cch <= 175 && bw == CHANNEL_WIDTH_40) {
t_cch = (offset == HAL_PRIME_CHNL_OFFSET_UPPER) ? cch + 2 : cch - 2;
goto exit;
} else {
rtw_warn_on(1);
goto exit;
}
exit:
return t_cch;
}
struct op_chs_ent_t {
u8 ch_num;
u8 *chs;
};
struct op_chs_ent_t op_chs_of_cch_2g_by_bw[] = {
{1, center_ch_2g},
{2, (u8 *)op_chs_of_cch_2g_40m},
};
struct op_chs_ent_t op_chs_of_cch_5g_by_bw[] = {
{1, center_ch_5g_20m},
{2, (u8 *)op_chs_of_cch_5g_40m},
{4, (u8 *)op_chs_of_cch_5g_80m},
{8, (u8 *)op_chs_of_cch_5g_160m},
};
inline u8 center_chs_2g_num(u8 bw)
{
if (bw > CHANNEL_WIDTH_40)
return 0;
return center_chs_2g_by_bw[bw].ch_num;
}
inline u8 center_chs_2g(u8 bw, u8 id)
{
if (bw > CHANNEL_WIDTH_40)
return 0;
if (id >= center_chs_2g_num(bw))
return 0;
return center_chs_2g_by_bw[bw].chs[id];
}
inline u8 center_chs_5g_num(u8 bw)
{
if (bw > CHANNEL_WIDTH_80)
return 0;
return center_chs_5g_by_bw[bw].ch_num;
}
inline u8 center_chs_5g(u8 bw, u8 id)
{
if (bw > CHANNEL_WIDTH_80)
return 0;
if (id >= center_chs_5g_num(bw))
return 0;
return center_chs_5g_by_bw[bw].chs[id];
}
/*
* Get available op channels by @param cch, @param bw
* @cch: the given center channel
* @bw: the given bandwidth
* @op_chs: the pointer to return pointer of op channel array
* @op_ch_num: the pointer to return pointer of op channel number
*
* return valid (1) or not (0)
*/
u8 rtw_get_op_chs_by_cch_bw(u8 cch, u8 bw, u8 **op_chs, u8 *op_ch_num)
{
int i;
struct center_chs_ent_t *c_chs_ent = NULL;
struct op_chs_ent_t *op_chs_ent = NULL;
u8 valid = 1;
if (cch <= 14
&& bw >= CHANNEL_WIDTH_20 && bw <= CHANNEL_WIDTH_40
) {
c_chs_ent = &center_chs_2g_by_bw[bw];
op_chs_ent = &op_chs_of_cch_2g_by_bw[bw];
} else if (cch >= 36 && cch <= 177
&& bw >= CHANNEL_WIDTH_20 && bw <= CHANNEL_WIDTH_160
) {
c_chs_ent = &center_chs_5g_by_bw[bw];
op_chs_ent = &op_chs_of_cch_5g_by_bw[bw];
} else {
valid = 0;
goto exit;
}
for (i = 0; i < c_chs_ent->ch_num; i++)
if (cch == *(c_chs_ent->chs + i))
break;
if (i == c_chs_ent->ch_num) {
valid = 0;
goto exit;
}
*op_chs = op_chs_ent->chs + op_chs_ent->ch_num * i;
*op_ch_num = op_chs_ent->ch_num;
exit:
return valid;
}
u8 rtw_get_ch_group(u8 ch, u8 *group, u8 *cck_group)
{
BAND_TYPE band = BAND_MAX;
s8 gp = -1, cck_gp = -1;
if (ch <= 14) {
band = BAND_ON_2_4G;
if (1 <= ch && ch <= 2)
gp = 0;
else if (3 <= ch && ch <= 5)
gp = 1;
else if (6 <= ch && ch <= 8)
gp = 2;
else if (9 <= ch && ch <= 11)
gp = 3;
else if (12 <= ch && ch <= 14)
gp = 4;
else
band = BAND_MAX;
if (ch == 14)
cck_gp = 5;
else
cck_gp = gp;
} else {
band = BAND_ON_5G;
if (36 <= ch && ch <= 42)
gp = 0;
else if (44 <= ch && ch <= 48)
gp = 1;
else if (50 <= ch && ch <= 58)
gp = 2;
else if (60 <= ch && ch <= 64)
gp = 3;
else if (100 <= ch && ch <= 106)
gp = 4;
else if (108 <= ch && ch <= 114)
gp = 5;
else if (116 <= ch && ch <= 122)
gp = 6;
else if (124 <= ch && ch <= 130)
gp = 7;
else if (132 <= ch && ch <= 138)
gp = 8;
else if (140 <= ch && ch <= 144)
gp = 9;
else if (149 <= ch && ch <= 155)
gp = 10;
else if (157 <= ch && ch <= 161)
gp = 11;
else if (165 <= ch && ch <= 171)
gp = 12;
else if (173 <= ch && ch <= 177)
gp = 13;
else
band = BAND_MAX;
}
if (band == BAND_MAX
|| (band == BAND_ON_2_4G && cck_gp == -1)
|| gp == -1
) {
RTW_WARN("%s invalid channel:%u", __func__, ch);
rtw_warn_on(1);
goto exit;
}
if (group)
*group = gp;
if (cck_group && band == BAND_ON_2_4G)
*cck_group = cck_gp;
exit:
return band;
}
int rtw_ch2freq(int chan)
{
/* see 802.11 17.3.8.3.2 and Annex J
* there are overlapping channel numbers in 5GHz and 2GHz bands */
/*
* RTK: don't consider the overlapping channel numbers: 5G channel <= 14,
* because we don't support it. simply judge from channel number
*/
if (chan >= 1 && chan <= 14) {
if (chan == 14)
return 2484;
else if (chan < 14)
return 2407 + chan * 5;
} else if (chan >= 36 && chan <= 177)
return 5000 + chan * 5;
return 0; /* not supported */
}
int rtw_freq2ch(int freq)
{
/* see 802.11 17.3.8.3.2 and Annex J */
if (freq == 2484)
return 14;
else if (freq < 2484)
return (freq - 2407) / 5;
else if (freq >= 4910 && freq <= 4980)
return (freq - 4000) / 5;
else if (freq <= 45000) /* DMG band lower limit */
return (freq - 5000) / 5;
else if (freq >= 58320 && freq <= 64800)
return (freq - 56160) / 2160;
else
return 0;
}
bool rtw_chbw_to_freq_range(u8 ch, u8 bw, u8 offset, u32 *hi, u32 *lo)
{
u8 c_ch;
u32 freq;
u32 hi_ret = 0, lo_ret = 0;
bool valid = _FALSE;
if (hi)
*hi = 0;
if (lo)
*lo = 0;
c_ch = rtw_get_center_ch(ch, bw, offset);
freq = rtw_ch2freq(c_ch);
if (!freq) {
rtw_warn_on(1);
goto exit;
}
if (bw == CHANNEL_WIDTH_80) {
hi_ret = freq + 40;
lo_ret = freq - 40;
} else if (bw == CHANNEL_WIDTH_40) {
hi_ret = freq + 20;
lo_ret = freq - 20;
} else if (bw == CHANNEL_WIDTH_20) {
hi_ret = freq + 10;
lo_ret = freq - 10;
} else
rtw_warn_on(1);
if (hi)
*hi = hi_ret;
if (lo)
*lo = lo_ret;
valid = _TRUE;
exit:
return valid;
}
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const char *const _ch_width_str[CHANNEL_WIDTH_MAX] = {
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"20MHz",
"40MHz",
"80MHz",
"160MHz",
"80_80MHz",
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"5MHz",
"10MHz",
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};
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const u8 _ch_width_to_bw_cap[CHANNEL_WIDTH_MAX] = {
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BW_CAP_20M,
BW_CAP_40M,
BW_CAP_80M,
BW_CAP_160M,
BW_CAP_80_80M,
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BW_CAP_5M,
BW_CAP_10M,
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};
const char *const _band_str[] = {
"2.4G",
"5G",
"BOTH",
"BAND_MAX",
};
const u8 _band_to_band_cap[] = {
BAND_CAP_2G,
BAND_CAP_5G,
0,
0,
};
const u8 _rf_type_to_rf_tx_cnt[] = {
1, /*RF_1T1R*/
1, /*RF_1T2R*/
2, /*RF_2T2R*/
2, /*RF_2T3R*/
2, /*RF_2T4R*/
3, /*RF_3T3R*/
3, /*RF_3T4R*/
4, /*RF_4T4R*/
1, /*RF_TYPE_MAX*/
};
const u8 _rf_type_to_rf_rx_cnt[] = {
1, /*RF_1T1R*/
2, /*RF_1T2R*/
2, /*RF_2T2R*/
3, /*RF_2T3R*/
4, /*RF_2T4R*/
3, /*RF_3T3R*/
4, /*RF_3T4R*/
4, /*RF_4T4R*/
1, /*RF_TYPE_MAX*/
};
const char *const _regd_str[] = {
"NONE",
"FCC",
"MKK",
"ETSI",
"IC",
"KCC",
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"ACMA",
"CHILE",
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"WW",
};
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#if CONFIG_TXPWR_LIMIT
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void _dump_regd_exc_list(void *sel, struct rf_ctl_t *rfctl)
{
struct regd_exc_ent *ent;
_list *cur, *head;
RTW_PRINT_SEL(sel, "regd_exc_num:%u\n", rfctl->regd_exc_num);
if (!rfctl->regd_exc_num)
goto exit;
RTW_PRINT_SEL(sel, "%-7s %-6s %-9s\n", "country", "domain", "regd_name");
head = &rfctl->reg_exc_list;
cur = get_next(head);
while ((rtw_end_of_queue_search(head, cur)) == _FALSE) {
u8 has_country;
ent = LIST_CONTAINOR(cur, struct regd_exc_ent, list);
cur = get_next(cur);
has_country = (ent->country[0] == '\0' && ent->country[1] == '\0') ? 0 : 1;
RTW_PRINT_SEL(sel, " %c%c 0x%02x %s\n"
, has_country ? ent->country[0] : '0'
, has_country ? ent->country[1] : '0'
, ent->domain
, ent->regd_name
);
}
exit:
return;
}
inline void dump_regd_exc_list(void *sel, struct rf_ctl_t *rfctl)
{
_irqL irqL;
_enter_critical_mutex(&rfctl->txpwr_lmt_mutex, &irqL);
_dump_regd_exc_list(sel, rfctl);
_exit_critical_mutex(&rfctl->txpwr_lmt_mutex, &irqL);
}
void rtw_regd_exc_add_with_nlen(struct rf_ctl_t *rfctl, const char *country, u8 domain, const char *regd_name, u32 nlen)
{
struct regd_exc_ent *ent;
_irqL irqL;
if (!regd_name || !nlen) {
rtw_warn_on(1);
goto exit;
}
ent = (struct regd_exc_ent *)rtw_zmalloc(sizeof(struct regd_exc_ent) + nlen + 1);
if (!ent)
goto exit;
_rtw_init_listhead(&ent->list);
if (country)
_rtw_memcpy(ent->country, country, 2);
ent->domain = domain;
_rtw_memcpy(ent->regd_name, regd_name, nlen);
_enter_critical_mutex(&rfctl->txpwr_lmt_mutex, &irqL);
rtw_list_insert_tail(&ent->list, &rfctl->reg_exc_list);
rfctl->regd_exc_num++;
_exit_critical_mutex(&rfctl->txpwr_lmt_mutex, &irqL);
exit:
return;
}
inline void rtw_regd_exc_add(struct rf_ctl_t *rfctl, const char *country, u8 domain, const char *regd_name)
{
rtw_regd_exc_add_with_nlen(rfctl, country, domain, regd_name, strlen(regd_name));
}
struct regd_exc_ent *_rtw_regd_exc_search(struct rf_ctl_t *rfctl, const char *country, u8 domain)
{
struct regd_exc_ent *ent;
_list *cur, *head;
u8 match = 0;
head = &rfctl->reg_exc_list;
cur = get_next(head);
while ((rtw_end_of_queue_search(head, cur)) == _FALSE) {
u8 has_country;
ent = LIST_CONTAINOR(cur, struct regd_exc_ent, list);
cur = get_next(cur);
has_country = (ent->country[0] == '\0' && ent->country[1] == '\0') ? 0 : 1;
/* entry has country condition to match */
if (has_country) {
if (!country)
continue;
if (ent->country[0] != country[0]
|| ent->country[1] != country[1])
continue;
}
/* entry has domain condition to match */
if (ent->domain != 0xFF) {
if (domain == 0xFF)
continue;
if (ent->domain != domain)
continue;
}
match = 1;
break;
}
if (match)
return ent;
else
return NULL;
}
inline struct regd_exc_ent *rtw_regd_exc_search(struct rf_ctl_t *rfctl, const char *country, u8 domain)
{
struct regd_exc_ent *ent;
_irqL irqL;
_enter_critical_mutex(&rfctl->txpwr_lmt_mutex, &irqL);
ent = _rtw_regd_exc_search(rfctl, country, domain);
_exit_critical_mutex(&rfctl->txpwr_lmt_mutex, &irqL);
return ent;
}
void rtw_regd_exc_list_free(struct rf_ctl_t *rfctl)
{
struct regd_exc_ent *ent;
_irqL irqL;
_list *cur, *head;
_enter_critical_mutex(&rfctl->txpwr_lmt_mutex, &irqL);
head = &rfctl->reg_exc_list;
cur = get_next(head);
while ((rtw_end_of_queue_search(head, cur)) == _FALSE) {
ent = LIST_CONTAINOR(cur, struct regd_exc_ent, list);
cur = get_next(cur);
rtw_list_delete(&ent->list);
rtw_mfree((u8 *)ent, sizeof(struct regd_exc_ent) + strlen(ent->regd_name) + 1);
}
rfctl->regd_exc_num = 0;
_exit_critical_mutex(&rfctl->txpwr_lmt_mutex, &irqL);
}
void dump_txpwr_lmt(void *sel, _adapter *adapter)
{
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#define TMP_STR_LEN 16
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struct rf_ctl_t *rfctl = adapter_to_rfctl(adapter);
struct hal_spec_t *hal_spec = GET_HAL_SPEC(adapter);
_irqL irqL;
char fmt[16];
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char tmp_str[TMP_STR_LEN];
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s8 *lmt_idx = NULL;
int bw, band, ch_num, tlrs, ntx_idx, rs, i, path;
u8 ch, n, rfpath_num;
_enter_critical_mutex(&rfctl->txpwr_lmt_mutex, &irqL);
_dump_regd_exc_list(sel, rfctl);
RTW_PRINT_SEL(sel, "\n");
if (!rfctl->txpwr_regd_num)
goto release_lock;
lmt_idx = rtw_malloc(sizeof(s8) * RF_PATH_MAX * rfctl->txpwr_regd_num);
if (!lmt_idx) {
RTW_ERR("%s alloc fail\n", __func__);
goto release_lock;
}
RTW_PRINT_SEL(sel, "txpwr_lmt_2g_cck_ofdm_state:0x%02x\n", rfctl->txpwr_lmt_2g_cck_ofdm_state);
#ifdef CONFIG_IEEE80211_BAND_5GHZ
if (IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(adapter))
RTW_PRINT_SEL(sel, "txpwr_lmt_5g_cck_ofdm_state:0x%02x\n", rfctl->txpwr_lmt_5g_cck_ofdm_state);
RTW_PRINT_SEL(sel, "txpwr_lmt_5g_20_40_ref:0x%02x\n", rfctl->txpwr_lmt_5g_20_40_ref);
#endif
RTW_PRINT_SEL(sel, "\n");
for (band = BAND_ON_2_4G; band <= BAND_ON_5G; band++) {
if (!hal_is_band_support(adapter, band))
continue;
rfpath_num = (band == BAND_ON_2_4G ? hal_spec->rfpath_num_2g : hal_spec->rfpath_num_5g);
for (bw = 0; bw < MAX_5G_BANDWIDTH_NUM; bw++) {
if (bw >= CHANNEL_WIDTH_160)
break;
if (band == BAND_ON_2_4G && bw >= CHANNEL_WIDTH_80)
break;
if (band == BAND_ON_2_4G)
ch_num = CENTER_CH_2G_NUM;
else
ch_num = center_chs_5g_num(bw);
if (ch_num == 0) {
rtw_warn_on(1);
break;
}
for (tlrs = TXPWR_LMT_RS_CCK; tlrs < TXPWR_LMT_RS_NUM; tlrs++) {
if (band == BAND_ON_2_4G && tlrs == TXPWR_LMT_RS_VHT)
continue;
if (band == BAND_ON_5G && tlrs == TXPWR_LMT_RS_CCK)
continue;
if (bw > CHANNEL_WIDTH_20 && (tlrs == TXPWR_LMT_RS_CCK || tlrs == TXPWR_LMT_RS_OFDM))
continue;
if (bw > CHANNEL_WIDTH_40 && tlrs == TXPWR_LMT_RS_HT)
continue;
if (tlrs == TXPWR_LMT_RS_VHT && !IS_HARDWARE_TYPE_JAGUAR_AND_JAGUAR2(adapter))
continue;
for (ntx_idx = RF_1TX; ntx_idx < MAX_TX_COUNT; ntx_idx++) {
struct txpwr_lmt_ent *ent;
_list *cur, *head;
if (ntx_idx >= hal_spec->tx_nss_num)
continue;
/* bypass CCK multi-TX is not defined */
if (tlrs == TXPWR_LMT_RS_CCK && ntx_idx > RF_1TX) {
if (band == BAND_ON_2_4G
&& !(rfctl->txpwr_lmt_2g_cck_ofdm_state & (TXPWR_LMT_HAS_CCK_1T << ntx_idx)))
continue;
}
/* bypass OFDM multi-TX is not defined */
if (tlrs == TXPWR_LMT_RS_OFDM && ntx_idx > RF_1TX) {
if (band == BAND_ON_2_4G
&& !(rfctl->txpwr_lmt_2g_cck_ofdm_state & (TXPWR_LMT_HAS_OFDM_1T << ntx_idx)))
continue;
#ifdef CONFIG_IEEE80211_BAND_5GHZ
if (band == BAND_ON_5G
&& !(rfctl->txpwr_lmt_5g_cck_ofdm_state & (TXPWR_LMT_HAS_OFDM_1T << ntx_idx)))
continue;
#endif
}
/* bypass 5G 20M, 40M pure reference */
#ifdef CONFIG_IEEE80211_BAND_5GHZ
if (band == BAND_ON_5G && (bw == CHANNEL_WIDTH_20 || bw == CHANNEL_WIDTH_40)) {
if (rfctl->txpwr_lmt_5g_20_40_ref == TXPWR_LMT_REF_HT_FROM_VHT) {
if (tlrs == TXPWR_LMT_RS_HT)
continue;
} else if (rfctl->txpwr_lmt_5g_20_40_ref == TXPWR_LMT_REF_VHT_FROM_HT) {
if (tlrs == TXPWR_LMT_RS_VHT && bw <= CHANNEL_WIDTH_40)
continue;
}
}
#endif
/* choose n-SS mapping rate section to get lmt diff value */
if (tlrs == TXPWR_LMT_RS_CCK)
rs = CCK;
else if (tlrs == TXPWR_LMT_RS_OFDM)
rs = OFDM;
else if (tlrs == TXPWR_LMT_RS_HT)
rs = HT_1SS + ntx_idx;
else if (tlrs == TXPWR_LMT_RS_VHT)
rs = VHT_1SS + ntx_idx;
else {
RTW_ERR("%s invalid tlrs %u\n", __func__, tlrs);
continue;
}
RTW_PRINT_SEL(sel, "[%s][%s][%s][%uT]\n"
, band_str(band)
, ch_width_str(bw)
, txpwr_lmt_rs_str(tlrs)
, ntx_idx + 1
);
/* header for limit in db */
RTW_PRINT_SEL(sel, "%3s ", "ch");
head = &rfctl->txpwr_lmt_list;
cur = get_next(head);
while ((rtw_end_of_queue_search(head, cur)) == _FALSE) {
ent = LIST_CONTAINOR(cur, struct txpwr_lmt_ent, list);
cur = get_next(cur);
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sprintf(fmt, "%%%zus%%s ", strlen(ent->regd_name) >= 6 ? 1 : 6 - strlen(ent->regd_name));
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snprintf(tmp_str, TMP_STR_LEN, fmt
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, strcmp(ent->regd_name, rfctl->regd_name) == 0 ? "*" : ""
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, ent->regd_name);
_RTW_PRINT_SEL(sel, "%s", tmp_str);
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}
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sprintf(fmt, "%%%zus%%s ", strlen(regd_str(TXPWR_LMT_WW)) >= 6 ? 1 : 6 - strlen(regd_str(TXPWR_LMT_WW)));
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snprintf(tmp_str, TMP_STR_LEN, fmt
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, strcmp(rfctl->regd_name, regd_str(TXPWR_LMT_WW)) == 0 ? "*" : ""
2018-08-24 20:52:34 +00:00
, regd_str(TXPWR_LMT_WW));
_RTW_PRINT_SEL(sel, "%s", tmp_str);
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/* header for limit offset */
for (path = 0; path < RF_PATH_MAX; path++) {
if (path >= rfpath_num)
break;
_RTW_PRINT_SEL(sel, "|");
head = &rfctl->txpwr_lmt_list;
cur = get_next(head);
while ((rtw_end_of_queue_search(head, cur)) == _FALSE) {
ent = LIST_CONTAINOR(cur, struct txpwr_lmt_ent, list);
cur = get_next(cur);
_RTW_PRINT_SEL(sel, "%3c "
, strcmp(ent->regd_name, rfctl->regd_name) == 0 ? rf_path_char(path) : ' ');
}
_RTW_PRINT_SEL(sel, "%3c "
, strcmp(rfctl->regd_name, regd_str(TXPWR_LMT_WW)) == 0 ? rf_path_char(path) : ' ');
}
_RTW_PRINT_SEL(sel, "\n");
for (n = 0; n < ch_num; n++) {
s8 lmt;
s8 lmt_offset;
u8 base;
if (band == BAND_ON_2_4G)
ch = n + 1;
else
ch = center_chs_5g(bw, n);
if (ch == 0) {
rtw_warn_on(1);
break;
}
/* dump limit in db */
RTW_PRINT_SEL(sel, "%3u ", ch);
head = &rfctl->txpwr_lmt_list;
cur = get_next(head);
while ((rtw_end_of_queue_search(head, cur)) == _FALSE) {
ent = LIST_CONTAINOR(cur, struct txpwr_lmt_ent, list);
cur = get_next(cur);
lmt = phy_get_txpwr_lmt_abs(adapter, ent->regd_name, band, bw, tlrs, ntx_idx, ch, 0);
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if (lmt == hal_spec->txgi_max) {
sprintf(fmt, "%%%zus ", strlen(ent->regd_name) >= 6 ? strlen(ent->regd_name) + 1 : 6);
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snprintf(tmp_str, TMP_STR_LEN, fmt, "NA");
_RTW_PRINT_SEL(sel, "%s", tmp_str);
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} else if (lmt > -hal_spec->txgi_pdbm && lmt < 0) { /* -0.xx */
sprintf(fmt, "%%%zus-0.%%d ", strlen(ent->regd_name) >= 6 ? strlen(ent->regd_name) - 4 : 1);
snprintf(tmp_str, TMP_STR_LEN, fmt, "", (rtw_abs(lmt) % hal_spec->txgi_pdbm) * 100 / hal_spec->txgi_pdbm);
_RTW_PRINT_SEL(sel, "%s", tmp_str);
} else if (lmt % hal_spec->txgi_pdbm) { /* d.xx */
sprintf(fmt, "%%%zud.%%d ", strlen(ent->regd_name) >= 6 ? strlen(ent->regd_name) - 2 : 3);
snprintf(tmp_str, TMP_STR_LEN, fmt, lmt / hal_spec->txgi_pdbm, (rtw_abs(lmt) % hal_spec->txgi_pdbm) * 100 / hal_spec->txgi_pdbm);
_RTW_PRINT_SEL(sel, "%s", tmp_str);
} else { /* d */
sprintf(fmt, "%%%zud ", strlen(ent->regd_name) >= 6 ? strlen(ent->regd_name) + 1 : 6);
snprintf(tmp_str, TMP_STR_LEN, fmt, lmt / hal_spec->txgi_pdbm);
_RTW_PRINT_SEL(sel, "%s", tmp_str);
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}
}
lmt = phy_get_txpwr_lmt_abs(adapter, regd_str(TXPWR_LMT_WW), band, bw, tlrs, ntx_idx, ch, 0);
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if (lmt == hal_spec->txgi_max) {
sprintf(fmt, "%%%zus ", strlen(regd_str(TXPWR_LMT_WW)) >= 6 ? strlen(regd_str(TXPWR_LMT_WW)) + 1 : 6);
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snprintf(tmp_str, TMP_STR_LEN, fmt, "NA");
_RTW_PRINT_SEL(sel, "%s", tmp_str);
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} else if (lmt > -hal_spec->txgi_pdbm && lmt < 0) { /* -0.xx */
sprintf(fmt, "%%%zus-0.%%d ", strlen(regd_str(TXPWR_LMT_WW)) >= 6 ? strlen(regd_str(TXPWR_LMT_WW)) - 4 : 1);
snprintf(tmp_str, TMP_STR_LEN, fmt, "", (rtw_abs(lmt) % hal_spec->txgi_pdbm) * 100 / hal_spec->txgi_pdbm);
_RTW_PRINT_SEL(sel, "%s", tmp_str);
} else if (lmt % hal_spec->txgi_pdbm) { /* d.xx */
sprintf(fmt, "%%%zud.%%d ", strlen(regd_str(TXPWR_LMT_WW)) >= 6 ? strlen(regd_str(TXPWR_LMT_WW)) - 2 : 3);
snprintf(tmp_str, TMP_STR_LEN, fmt, lmt / hal_spec->txgi_pdbm, (rtw_abs(lmt) % hal_spec->txgi_pdbm) * 100 / hal_spec->txgi_pdbm);
_RTW_PRINT_SEL(sel, "%s", tmp_str);
} else { /* d */
sprintf(fmt, "%%%zud ", strlen(regd_str(TXPWR_LMT_WW)) >= 6 ? strlen(regd_str(TXPWR_LMT_WW)) + 1 : 6);
snprintf(tmp_str, TMP_STR_LEN, fmt, lmt / hal_spec->txgi_pdbm);
_RTW_PRINT_SEL(sel, "%s", tmp_str);
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}
/* dump limit offset of each path */
for (path = RF_PATH_A; path < RF_PATH_MAX; path++) {
if (path >= rfpath_num)
break;
base = PHY_GetTxPowerByRateBase(adapter, band, path, rs);
_RTW_PRINT_SEL(sel, "|");
head = &rfctl->txpwr_lmt_list;
cur = get_next(head);
i = 0;
while ((rtw_end_of_queue_search(head, cur)) == _FALSE) {
ent = LIST_CONTAINOR(cur, struct txpwr_lmt_ent, list);
cur = get_next(cur);
lmt_offset = phy_get_txpwr_lmt(adapter, ent->regd_name, band, bw, path, rs, ntx_idx, ch, 0);
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if (lmt_offset == hal_spec->txgi_max) {
*(lmt_idx + i * RF_PATH_MAX + path) = hal_spec->txgi_max;
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_RTW_PRINT_SEL(sel, "%3s ", "NA");
} else {
*(lmt_idx + i * RF_PATH_MAX + path) = lmt_offset + base;
_RTW_PRINT_SEL(sel, "%3d ", lmt_offset);
}
i++;
}
lmt_offset = phy_get_txpwr_lmt(adapter, regd_str(TXPWR_LMT_WW), band, bw, path, rs, ntx_idx, ch, 0);
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if (lmt_offset == hal_spec->txgi_max)
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_RTW_PRINT_SEL(sel, "%3s ", "NA");
else
_RTW_PRINT_SEL(sel, "%3d ", lmt_offset);
}
/* compare limit_idx of each path, print 'x' when mismatch */
if (rfpath_num > 1) {
for (i = 0; i < rfctl->txpwr_regd_num; i++) {
for (path = 0; path < RF_PATH_MAX; path++) {
if (path >= rfpath_num)
break;
if (*(lmt_idx + i * RF_PATH_MAX + path) != *(lmt_idx + i * RF_PATH_MAX + ((path + 1) % rfpath_num)))
break;
}
if (path >= rfpath_num)
_RTW_PRINT_SEL(sel, " ");
else
_RTW_PRINT_SEL(sel, "x");
}
}
_RTW_PRINT_SEL(sel, "\n");
}
RTW_PRINT_SEL(sel, "\n");
}
} /* loop for rate sections */
} /* loop for bandwidths */
} /* loop for bands */
if (lmt_idx)
rtw_mfree(lmt_idx, sizeof(s8) * RF_PATH_MAX * rfctl->txpwr_regd_num);
release_lock:
_exit_critical_mutex(&rfctl->txpwr_lmt_mutex, &irqL);
}
/* search matcing first, if not found, alloc one */
void rtw_txpwr_lmt_add_with_nlen(struct rf_ctl_t *rfctl, const char *regd_name, u32 nlen
, u8 band, u8 bw, u8 tlrs, u8 ntx_idx, u8 ch_idx, s8 lmt)
{
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struct hal_spec_t *hal_spec = GET_HAL_SPEC(dvobj_get_primary_adapter(rfctl_to_dvobj(rfctl)));
2018-06-22 16:48:32 +00:00
struct txpwr_lmt_ent *ent;
_irqL irqL;
_list *cur, *head;
s8 pre_lmt;
if (!regd_name || !nlen) {
rtw_warn_on(1);
goto exit;
}
_enter_critical_mutex(&rfctl->txpwr_lmt_mutex, &irqL);
/* search for existed entry */
head = &rfctl->txpwr_lmt_list;
cur = get_next(head);
while ((rtw_end_of_queue_search(head, cur)) == _FALSE) {
ent = LIST_CONTAINOR(cur, struct txpwr_lmt_ent, list);
cur = get_next(cur);
if (strlen(ent->regd_name) == nlen
&& _rtw_memcmp(ent->regd_name, regd_name, nlen) == _TRUE)
goto chk_lmt_val;
}
/* alloc new one */
ent = (struct txpwr_lmt_ent *)rtw_zvmalloc(sizeof(struct txpwr_lmt_ent) + nlen + 1);
if (!ent)
goto release_lock;
_rtw_init_listhead(&ent->list);
_rtw_memcpy(ent->regd_name, regd_name, nlen);
{
u8 j, k, l, m;
for (j = 0; j < MAX_2_4G_BANDWIDTH_NUM; ++j)
for (k = 0; k < TXPWR_LMT_RS_NUM_2G; ++k)
for (m = 0; m < CENTER_CH_2G_NUM; ++m)
for (l = 0; l < MAX_TX_COUNT; ++l)
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ent->lmt_2g[j][k][m][l] = hal_spec->txgi_max;
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#ifdef CONFIG_IEEE80211_BAND_5GHZ
for (j = 0; j < MAX_5G_BANDWIDTH_NUM; ++j)
for (k = 0; k < TXPWR_LMT_RS_NUM_5G; ++k)
for (m = 0; m < CENTER_CH_5G_ALL_NUM; ++m)
for (l = 0; l < MAX_TX_COUNT; ++l)
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ent->lmt_5g[j][k][m][l] = hal_spec->txgi_max;
2018-06-22 16:48:32 +00:00
#endif
}
rtw_list_insert_tail(&ent->list, &rfctl->txpwr_lmt_list);
rfctl->txpwr_regd_num++;
chk_lmt_val:
if (band == BAND_ON_2_4G)
pre_lmt = ent->lmt_2g[bw][tlrs][ch_idx][ntx_idx];
#ifdef CONFIG_IEEE80211_BAND_5GHZ
else if (band == BAND_ON_5G)
pre_lmt = ent->lmt_5g[bw][tlrs - 1][ch_idx][ntx_idx];
#endif
else
goto release_lock;
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if (pre_lmt != hal_spec->txgi_max)
2018-06-22 16:48:32 +00:00
RTW_PRINT("duplicate txpwr_lmt for [%s][%s][%s][%s][%uT][%d]\n"
, regd_name, band_str(band), ch_width_str(bw), txpwr_lmt_rs_str(tlrs), ntx_idx + 1
, band == BAND_ON_2_4G ? ch_idx + 1 : center_ch_5g_all[ch_idx]);
lmt = rtw_min(pre_lmt, lmt);
if (band == BAND_ON_2_4G)
ent->lmt_2g[bw][tlrs][ch_idx][ntx_idx] = lmt;
#ifdef CONFIG_IEEE80211_BAND_5GHZ
else if (band == BAND_ON_5G)
ent->lmt_5g[bw][tlrs - 1][ch_idx][ntx_idx] = lmt;
#endif
if (0)
RTW_PRINT("%s, %4s, %6s, %7s, %uT, ch%3d = %d\n"
, regd_name, band_str(band), ch_width_str(bw), txpwr_lmt_rs_str(tlrs), ntx_idx + 1
, band == BAND_ON_2_4G ? ch_idx + 1 : center_ch_5g_all[ch_idx]
, lmt);
release_lock:
_exit_critical_mutex(&rfctl->txpwr_lmt_mutex, &irqL);
exit:
return;
}
inline void rtw_txpwr_lmt_add(struct rf_ctl_t *rfctl, const char *regd_name
, u8 band, u8 bw, u8 tlrs, u8 ntx_idx, u8 ch_idx, s8 lmt)
{
rtw_txpwr_lmt_add_with_nlen(rfctl, regd_name, strlen(regd_name)
, band, bw, tlrs, ntx_idx, ch_idx, lmt);
}
struct txpwr_lmt_ent *_rtw_txpwr_lmt_get_by_name(struct rf_ctl_t *rfctl, const char *regd_name)
{
struct txpwr_lmt_ent *ent;
_list *cur, *head;
u8 found = 0;
head = &rfctl->txpwr_lmt_list;
cur = get_next(head);
while ((rtw_end_of_queue_search(head, cur)) == _FALSE) {
ent = LIST_CONTAINOR(cur, struct txpwr_lmt_ent, list);
cur = get_next(cur);
if (strcmp(ent->regd_name, regd_name) == 0) {
found = 1;
break;
}
}
if (found)
return ent;
return NULL;
}
inline struct txpwr_lmt_ent *rtw_txpwr_lmt_get_by_name(struct rf_ctl_t *rfctl, const char *regd_name)
{
struct txpwr_lmt_ent *ent;
_irqL irqL;
_enter_critical_mutex(&rfctl->txpwr_lmt_mutex, &irqL);
ent = _rtw_txpwr_lmt_get_by_name(rfctl, regd_name);
_exit_critical_mutex(&rfctl->txpwr_lmt_mutex, &irqL);
return ent;
}
void rtw_txpwr_lmt_list_free(struct rf_ctl_t *rfctl)
{
struct txpwr_lmt_ent *ent;
_irqL irqL;
_list *cur, *head;
_enter_critical_mutex(&rfctl->txpwr_lmt_mutex, &irqL);
head = &rfctl->txpwr_lmt_list;
cur = get_next(head);
while ((rtw_end_of_queue_search(head, cur)) == _FALSE) {
ent = LIST_CONTAINOR(cur, struct txpwr_lmt_ent, list);
cur = get_next(cur);
if (ent->regd_name == rfctl->regd_name)
rfctl->regd_name = regd_str(TXPWR_LMT_NONE);
rtw_list_delete(&ent->list);
rtw_vmfree((u8 *)ent, sizeof(struct txpwr_lmt_ent) + strlen(ent->regd_name) + 1);
}
rfctl->txpwr_regd_num = 0;
_exit_critical_mutex(&rfctl->txpwr_lmt_mutex, &irqL);
}
#endif /* CONFIG_TXPWR_LIMIT */
int rtw_ch_to_bb_gain_sel(int ch)
{
int sel = -1;
if (ch >= 1 && ch <= 14)
sel = BB_GAIN_2G;
#ifdef CONFIG_IEEE80211_BAND_5GHZ
else if (ch >= 36 && ch < 48)
sel = BB_GAIN_5GLB1;
else if (ch >= 52 && ch <= 64)
sel = BB_GAIN_5GLB2;
else if (ch >= 100 && ch <= 120)
sel = BB_GAIN_5GMB1;
else if (ch >= 124 && ch <= 144)
sel = BB_GAIN_5GMB2;
else if (ch >= 149 && ch <= 177)
sel = BB_GAIN_5GHB;
#endif
return sel;
}
s8 rtw_rf_get_kfree_tx_gain_offset(_adapter *padapter, u8 path, u8 ch)
{
s8 kfree_offset = 0;
#ifdef CONFIG_RF_POWER_TRIM
struct kfree_data_t *kfree_data = GET_KFREE_DATA(padapter);
s8 bb_gain_sel = rtw_ch_to_bb_gain_sel(ch);
if (bb_gain_sel < BB_GAIN_2G || bb_gain_sel >= BB_GAIN_NUM) {
rtw_warn_on(1);
goto exit;
}
if (kfree_data->flag & KFREE_FLAG_ON) {
kfree_offset = kfree_data->bb_gain[bb_gain_sel][path];
if (IS_HARDWARE_TYPE_8723D(padapter))
RTW_INFO("%s path:%s, ch:%u, bb_gain_sel:%d, kfree_offset:%d\n"
, __func__, (path == 0)?"S1":"S0",
ch, bb_gain_sel, kfree_offset);
else
RTW_INFO("%s path:%u, ch:%u, bb_gain_sel:%d, kfree_offset:%d\n"
, __func__, path, ch, bb_gain_sel, kfree_offset);
}
exit:
#endif /* CONFIG_RF_POWER_TRIM */
return kfree_offset;
}
void rtw_rf_set_tx_gain_offset(_adapter *adapter, u8 path, s8 offset)
{
#if defined(CONFIG_RTL8821A)
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u8 write_value;
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#endif
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u8 target_path = 0;
u32 val32 = 0;
if (IS_HARDWARE_TYPE_8723D(adapter)) {
target_path = RF_PATH_A; /*in 8723D case path means S0/S1*/
if (path == PPG_8723D_S1)
RTW_INFO("kfree gain_offset 0x55:0x%x ",
rtw_hal_read_rfreg(adapter, target_path, 0x55, 0xffffffff));
else if (path == PPG_8723D_S0)
RTW_INFO("kfree gain_offset 0x65:0x%x ",
rtw_hal_read_rfreg(adapter, target_path, 0x65, 0xffffffff));
} else {
target_path = path;
RTW_INFO("kfree gain_offset 0x55:0x%x ", rtw_hal_read_rfreg(adapter, target_path, 0x55, 0xffffffff));
}
switch (rtw_get_chip_type(adapter)) {
#ifdef CONFIG_RTL8723D
case RTL8723D:
write_value = RF_TX_GAIN_OFFSET_8723D(offset);
if (path == PPG_8723D_S1)
rtw_hal_write_rfreg(adapter, target_path, 0x55, 0x0f8000, write_value);
else if (path == PPG_8723D_S0)
rtw_hal_write_rfreg(adapter, target_path, 0x65, 0x0f8000, write_value);
break;
#endif /* CONFIG_RTL8723D */
#ifdef CONFIG_RTL8703B
case RTL8703B:
write_value = RF_TX_GAIN_OFFSET_8703B(offset);
rtw_hal_write_rfreg(adapter, target_path, 0x55, 0x0fc000, write_value);
break;
#endif /* CONFIG_RTL8703B */
#ifdef CONFIG_RTL8188F
case RTL8188F:
write_value = RF_TX_GAIN_OFFSET_8188F(offset);
rtw_hal_write_rfreg(adapter, target_path, 0x55, 0x0fc000, write_value);
break;
#endif /* CONFIG_RTL8188F */
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#ifdef CONFIG_RTL8188GTV
case RTL8188GTV:
write_value = RF_TX_GAIN_OFFSET_8188GTV(offset);
rtw_hal_write_rfreg(adapter, target_path, 0x55, 0x0fc000, write_value);
break;
#endif /* CONFIG_RTL8188GTV */
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#ifdef CONFIG_RTL8192E
case RTL8192E:
write_value = RF_TX_GAIN_OFFSET_8192E(offset);
rtw_hal_write_rfreg(adapter, target_path, 0x55, 0x0f8000, write_value);
break;
#endif /* CONFIG_RTL8188F */
#ifdef CONFIG_RTL8821A
case RTL8821:
write_value = RF_TX_GAIN_OFFSET_8821A(offset);
rtw_hal_write_rfreg(adapter, target_path, 0x55, 0x0f8000, write_value);
break;
#endif /* CONFIG_RTL8821A */
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#if defined(CONFIG_RTL8814A) || defined(CONFIG_RTL8822B) || defined(CONFIG_RTL8821C) || defined(CONFIG_RTL8192F)
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case RTL8814A:
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case RTL8822B:
case RTL8821C:
case RTL8192F:
RTW_INFO("\nkfree by PhyDM on the sw CH. path %d\n", path);
break;
#endif /* CONFIG_RTL8814A || CONFIG_RTL8822B || CONFIG_RTL8821C */
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default:
rtw_warn_on(1);
break;
}
if (IS_HARDWARE_TYPE_8723D(adapter)) {
if (path == PPG_8723D_S1)
val32 = rtw_hal_read_rfreg(adapter, target_path, 0x55, 0xffffffff);
else if (path == PPG_8723D_S0)
val32 = rtw_hal_read_rfreg(adapter, target_path, 0x65, 0xffffffff);
} else {
val32 = rtw_hal_read_rfreg(adapter, target_path, 0x55, 0xffffffff);
}
RTW_INFO(" after :0x%x\n", val32);
}
void rtw_rf_apply_tx_gain_offset(_adapter *adapter, u8 ch)
{
HAL_DATA_TYPE *hal_data = GET_HAL_DATA(adapter);
s8 kfree_offset = 0;
s8 tx_pwr_track_offset = 0; /* TODO: 8814A should consider tx pwr track when setting tx gain offset */
s8 total_offset;
int i, total = 0;
if (IS_HARDWARE_TYPE_8723D(adapter))
total = 2; /* S1 and S0 */
else
total = hal_data->NumTotalRFPath;
for (i = 0; i < total; i++) {
kfree_offset = rtw_rf_get_kfree_tx_gain_offset(adapter, i, ch);
total_offset = kfree_offset + tx_pwr_track_offset;
rtw_rf_set_tx_gain_offset(adapter, i, total_offset);
}
}
inline u8 rtw_is_dfs_range(u32 hi, u32 lo)
{
return rtw_is_range_overlap(hi, lo, 5720 + 10, 5260 - 10);
}
u8 rtw_is_dfs_ch(u8 ch)
{
u32 hi, lo;
if (!rtw_chbw_to_freq_range(ch, CHANNEL_WIDTH_20, HAL_PRIME_CHNL_OFFSET_DONT_CARE, &hi, &lo))
return 0;
return rtw_is_dfs_range(hi, lo);
}
u8 rtw_is_dfs_chbw(u8 ch, u8 bw, u8 offset)
{
u32 hi, lo;
if (!rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo))
return 0;
return rtw_is_dfs_range(hi, lo);
}
bool rtw_is_long_cac_range(u32 hi, u32 lo, u8 dfs_region)
{
return (dfs_region == PHYDM_DFS_DOMAIN_ETSI && rtw_is_range_overlap(hi, lo, 5650, 5600)) ? _TRUE : _FALSE;
}
bool rtw_is_long_cac_ch(u8 ch, u8 bw, u8 offset, u8 dfs_region)
{
u32 hi, lo;
if (rtw_chbw_to_freq_range(ch, bw, offset, &hi, &lo) == _FALSE)
return _FALSE;
return rtw_is_long_cac_range(hi, lo, dfs_region) ? _TRUE : _FALSE;
}