realtek-rtl8188eus-dkms/hal/phydm/phydm_api.c

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37 KiB
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2019-12-17 16:14:15 +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.
*
* The full GNU General Public License is included in this distribution in the
* file called LICENSE.
*
* Contact Information:
* wlanfae <wlanfae@realtek.com>
* Realtek Corporation, No. 2, Innovation Road II, Hsinchu Science Park,
* Hsinchu 300, Taiwan.
*
* Larry Finger <Larry.Finger@lwfinger.net>
*
*****************************************************************************/
/* ************************************************************
* include files
* ************************************************************ */
#include "mp_precomp.h"
#include "phydm_precomp.h"
void
phydm_dynamic_ant_weighting(
void *dm_void
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
#ifdef DYN_ANT_WEIGHTING_SUPPORT
#if (RTL8197F_SUPPORT == 1)
if (dm->support_ic_type & (ODM_RTL8197F))
phydm_dynamic_ant_weighting_8197f(dm);
#endif
#if (RTL8812A_SUPPORT == 1)
if (dm->support_ic_type & (ODM_RTL8812)) {
phydm_dynamic_ant_weighting_8812a(dm);
}
#endif
#if (RTL8822B_SUPPORT == 1)
if (dm->support_ic_type & (ODM_RTL8822B)) {
phydm_dynamic_ant_weighting_8822b(dm);
}
#endif
#endif
}
#ifdef DYN_ANT_WEIGHTING_SUPPORT
void
phydm_dyn_ant_weight_dbg(
void *dm_void,
char input[][16],
u32 *_used,
char *output,
u32 *_out_len,
u32 input_num
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
char help[] = "-h";
u32 var1[10] = {0};
u32 used = *_used;
u32 out_len = *_out_len;
if ((strcmp(input[1], help) == 0)) {
PDM_SNPF(out_len, used, output + used, out_len - used, "echo dis_dym_ant_weighting {0/1}\n");
} else {
PHYDM_SSCANF(input[1], DCMD_DECIMAL, &var1[0]);
if (var1[0] == 1) {
dm->is_disable_dym_ant_weighting = 1;
PDM_SNPF(out_len, used, output + used, out_len - used, "Disable dyn-ant-weighting\n");
} else {
dm->is_disable_dym_ant_weighting = 0;
PDM_SNPF(out_len, used, output + used, out_len - used, "Enable dyn-ant-weighting\n");
}
}
*_used = used;
*_out_len = out_len;
}
#endif
void
phydm_iq_gen_en(
void *dm_void
)
{
#ifdef PHYDM_COMPILE_IC_2SS
struct dm_struct *dm = (struct dm_struct *)dm_void;
u8 i;
#if (ODM_IC_11AC_SERIES_SUPPORT)
if (dm->support_ic_type & ODM_IC_11AC_SERIES) {
for (i = RF_PATH_A; i <= RF_PATH_B; i++) {
odm_set_rf_reg(dm, (enum rf_path)i, 0xEF, BIT(19), 0x1); /*RF mode table write enable*/
odm_set_rf_reg(dm, (enum rf_path)i, 0x33, 0xF, 3); /*Select RX mode*/
odm_set_rf_reg(dm, (enum rf_path)i, 0x3E, 0xfffff, 0x00036); /*Set Table data*/
odm_set_rf_reg(dm, (enum rf_path)i, 0x3F, 0xfffff, 0x5AFCE); /*Set Table data*/
odm_set_rf_reg(dm, (enum rf_path)i, 0xEF, BIT(19), 0x0); /*RF mode table write disable*/
}
}
#endif
#endif
}
void
phydm_dis_cdd(
void *dm_void
)
{
#ifdef PHYDM_COMPILE_IC_2SS
struct dm_struct *dm = (struct dm_struct *)dm_void;
#if (ODM_IC_11AC_SERIES_SUPPORT)
if (dm->support_ic_type & ODM_IC_11AC_SERIES) {
odm_set_bb_reg(dm, 0x808, 0x3ffff00, 0);
odm_set_bb_reg(dm, 0x9ac, 0x1fff, 0);
odm_set_bb_reg(dm, 0x9ac, BIT(13), 1);
}
#endif
#endif
}
void
phydm_pathb_q_matrix_rotate_en(
void *dm_void
)
{
#ifdef PHYDM_COMPILE_IC_2SS
struct dm_struct *dm = (struct dm_struct *)dm_void;
#if (ODM_IC_11AC_SERIES_SUPPORT)
if (dm->support_ic_type & ODM_IC_11AC_SERIES) {
phydm_iq_gen_en(dm);
#ifdef PHYDM_COMMON_API_SUPPORT
if (phydm_api_trx_mode(dm, BB_PATH_AB, BB_PATH_AB, true) == false)
return;
#endif
phydm_dis_cdd(dm);
odm_set_bb_reg(dm, 0x195c, MASKDWORD, 0x40000); /*Set Q matrix r_v11 =1*/
phydm_pathb_q_matrix_rotate(dm, 0);
odm_set_bb_reg(dm, 0x191c, BIT(7), 1); /*Set Q matrix enable*/
}
#endif
#endif
}
void
phydm_pathb_q_matrix_rotate(
void *dm_void,
u16 phase_idx
)
{
#ifdef PHYDM_COMPILE_IC_2SS
struct dm_struct *dm = (struct dm_struct *)dm_void;
u32 phase_table_0[12] = {0x40000, 0x376CF, 0x20000, 0x00000, 0xFE0000, 0xFC8930,
0xFC0000, 0xFC8930, 0xFDFFFF, 0x000000, 0x020000, 0x0376CF};
u32 phase_table_1[12] = {0x00000, 0x1FFFF, 0x376CF, 0x40000, 0x0376CF, 0x01FFFF,
0x000000, 0xFDFFFF, 0xFC8930, 0xFC0000, 0xFC8930, 0xFDFFFF};
if (phase_idx >= 12) {
PHYDM_DBG(dm, ODM_COMP_API, "Phase Set Error: %d\n", phase_idx);
return;
}
#if (ODM_IC_11AC_SERIES_SUPPORT)
if (dm->support_ic_type & ODM_IC_11AC_SERIES) {
odm_set_bb_reg(dm, 0x1954, 0xffffff, phase_table_0[phase_idx]); /*Set Q matrix r_v21*/
odm_set_bb_reg(dm, 0x1950, 0xffffff, phase_table_1[phase_idx]);
}
#endif
#endif
}
void
phydm_init_trx_antenna_setting(
void *dm_void
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
if (dm->support_ic_type & (ODM_RTL8814A)) {
u8 rx_ant = 0, tx_ant = 0;
rx_ant = (u8)odm_get_bb_reg(dm, ODM_REG(BB_RX_PATH, dm), ODM_BIT(BB_RX_PATH, dm));
tx_ant = (u8)odm_get_bb_reg(dm, ODM_REG(BB_TX_PATH, dm), ODM_BIT(BB_TX_PATH, dm));
dm->tx_ant_status = (tx_ant & 0xf);
dm->rx_ant_status = (rx_ant & 0xf);
} else if (dm->support_ic_type & (ODM_RTL8723D | ODM_RTL8821C | ODM_RTL8710B)) {/* JJ ADD 20161014 */
dm->tx_ant_status = 0x1;
dm->rx_ant_status = 0x1;
}
}
void
phydm_config_ofdm_tx_path(
void *dm_void,
u32 path
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
#if ((RTL8192E_SUPPORT == 1) || (RTL8812A_SUPPORT == 1))
u8 ofdm_tx_path = 0x33;
#endif
#if (RTL8192E_SUPPORT == 1)
if (dm->support_ic_type & (ODM_RTL8192E)) {
if (path == BB_PATH_A) {
odm_set_bb_reg(dm, 0x90c, MASKDWORD, 0x81121111);
/**/
} else if (path == BB_PATH_B) {
odm_set_bb_reg(dm, 0x90c, MASKDWORD, 0x82221222);
/**/
} else if (path == BB_PATH_AB) {
odm_set_bb_reg(dm, 0x90c, MASKDWORD, 0x83321333);
/**/
}
}
#endif
#if (RTL8812A_SUPPORT == 1)
if (dm->support_ic_type & (ODM_RTL8812)) {
if (path == BB_PATH_A) {
ofdm_tx_path = 0x11;
/**/
} else if (path == BB_PATH_B) {
ofdm_tx_path = 0x22;
/**/
} else if (path == BB_PATH_AB) {
ofdm_tx_path = 0x33;
/**/
}
odm_set_bb_reg(dm, 0x80c, 0xff00, ofdm_tx_path);
}
#endif
}
void
phydm_config_ofdm_rx_path(
void *dm_void,
u32 path
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
u8 ofdm_rx_path = 0;
if (dm->support_ic_type & (ODM_RTL8192E)) {
#if (RTL8192E_SUPPORT == 1)
if (path == BB_PATH_A) {
ofdm_rx_path = 1;
/**/
} else if (path == BB_PATH_B) {
ofdm_rx_path = 2;
/**/
} else if (path == BB_PATH_AB) {
ofdm_rx_path = 3;
/**/
}
odm_set_bb_reg(dm, 0xC04, 0xff, (((ofdm_rx_path) << 4) | ofdm_rx_path));
odm_set_bb_reg(dm, 0xD04, 0xf, ofdm_rx_path);
#endif
}
#if (RTL8812A_SUPPORT || RTL8822B_SUPPORT)
else if (dm->support_ic_type & (ODM_RTL8812 | ODM_RTL8822B)) {
if (path == BB_PATH_A) {
ofdm_rx_path = 1;
/**/
} else if (path == BB_PATH_B) {
ofdm_rx_path = 2;
/**/
} else if (path == BB_PATH_AB) {
ofdm_rx_path = 3;
/**/
}
odm_set_bb_reg(dm, 0x808, MASKBYTE0, ((ofdm_rx_path << 4) | ofdm_rx_path));
}
#endif
}
void
phydm_config_cck_rx_antenna_init(
void *dm_void
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
#if (defined(PHYDM_COMPILE_ABOVE_2SS))
/*CCK 2R CCA parameters*/
odm_set_bb_reg(dm, 0xa00, BIT(15), 0x0); /*Disable antenna diversity*/
odm_set_bb_reg(dm, 0xa70, BIT(7), 0); /*Concurrent CCA at LSB & USB*/
odm_set_bb_reg(dm, 0xa74, BIT(8), 0); /*RX path diversity enable*/
odm_set_bb_reg(dm, 0xa14, BIT(7), 0); /*r_en_mrc_antsel*/
odm_set_bb_reg(dm, 0xa20, (BIT(5) | BIT(4)), 1); /*MBC weighting*/
if (dm->support_ic_type & (ODM_RTL8192E | ODM_RTL8197F)) {
odm_set_bb_reg(dm, 0xa08, BIT(28), 1); /*r_cck_2nd_sel_eco*/
/**/
} else if (dm->support_ic_type & ODM_RTL8814A) {
odm_set_bb_reg(dm, 0xa84, BIT(28), 1); /*2R CCA only*/
/**/
}
#endif
}
void
phydm_config_cck_rx_path(
void *dm_void,
enum bb_path path
)
{
#if (defined(PHYDM_COMPILE_ABOVE_2SS))
struct dm_struct *dm = (struct dm_struct *)dm_void;
u8 path_div_select = 0;
u8 cck_path[2] = {0};
u8 en_2R_path = 0;
u8 en_2R_mrc = 0;
u8 i = 0, j =0;
u8 num_enable_path = 0;
u8 cck_mrc_max_path = 2;
for (i = 0; i < 4; i++) {
if (path & BIT(i)) { /*ex: PHYDM_ABCD*/
num_enable_path++;
cck_path[j] = i;
j++;
}
if (num_enable_path >= cck_mrc_max_path)
break;
}
if (num_enable_path > 1) {
path_div_select = 1;
en_2R_path = 1;
en_2R_mrc = 1;
} else {
path_div_select = 0;
en_2R_path = 0;
en_2R_mrc = 0;
}
odm_set_bb_reg(dm, 0xa04, (BIT(27) | BIT(26)), cck_path[0]); /*CCK_1 input signal path*/
odm_set_bb_reg(dm, 0xa04, (BIT(25) | BIT(24)), cck_path[1]); /*CCK_2 input signal path*/
odm_set_bb_reg(dm, 0xa74, BIT(8), path_div_select); /*enable Rx path diversity*/
odm_set_bb_reg(dm, 0xa2c, BIT(18), en_2R_path); /*enable 2R Rx path*/
odm_set_bb_reg(dm, 0xa2c, BIT(22), en_2R_mrc); /*enable 2R MRC*/
#endif
}
void
phydm_config_cck_tx_path(
void *dm_void,
enum bb_path path
)
{
#if (defined(PHYDM_COMPILE_ABOVE_2SS))
struct dm_struct *dm = (struct dm_struct *)dm_void;
if (path == BB_PATH_A)
odm_set_bb_reg(dm, 0xa04, 0xf0000000, 0x8);
else if (path == BB_PATH_B)
odm_set_bb_reg(dm, 0xa04, 0xf0000000, 0x4);
else if (path == BB_PATH_AB)
odm_set_bb_reg(dm, 0xa04, 0xf0000000, 0xc);
#endif
}
void
phydm_config_trx_path(
void *dm_void,
u32 *const dm_value,
u32 *_used,
char *output,
u32 *_out_len
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
u32 used = *_used;
u32 out_len = *_out_len;
/*
dm_value[0]: 0:CCK, 1:OFDM
dm_value[1]: 1:TX, 2:RX
dm_value[2]: 1:path_A, 2:path_B, 3:path_AB
*/
/* CCK */
if (dm_value[0] == 0) {
if (dm_value[1] == 1) { /*TX*/
if (dm_value[2] == 1)
phydm_config_cck_tx_path(dm, BB_PATH_A);
else if (dm_value[2] == 2)
phydm_config_cck_tx_path(dm, BB_PATH_B);
else if (dm_value[2] == 3)
phydm_config_cck_tx_path(dm, BB_PATH_AB);
} else if (dm_value[1] == 2) { /*RX*/
phydm_config_cck_rx_antenna_init(dm);
if (dm_value[2] == 1)
phydm_config_cck_rx_path(dm, BB_PATH_A);
else if (dm_value[2] == 2)
phydm_config_cck_rx_path(dm, BB_PATH_B);
else if (dm_value[2] == 3) {
phydm_config_cck_rx_path(dm, BB_PATH_AB);
}
}
}
/* OFDM */
else if (dm_value[0] == 1) {
if (dm_value[1] == 1) { /*TX*/
phydm_config_ofdm_tx_path(dm, dm_value[2]);
/**/
} else if (dm_value[1] == 2) { /*RX*/
phydm_config_ofdm_rx_path(dm, dm_value[2]);
/**/
}
}
PDM_SNPF(out_len, used, output + used, out_len - used,
"PHYDM Set path [%s] [%s] = [%s%s%s%s]\n",
(dm_value[0] == 1) ? "OFDM" : "CCK",
(dm_value[1] == 1) ? "TX" : "RX",
(dm_value[2] & 0x1) ? "A" : "",
(dm_value[2] & 0x2) ? "B" : "",
(dm_value[2] & 0x4) ? "C" : "",
(dm_value[2] & 0x8) ? "D" : ""
);
}
void
phydm_tx_2path(
void *dm_void
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
PHYDM_DBG(dm, ODM_COMP_API, "%s ======>\n", __func__);
#if (RTL8822B_SUPPORT == 1 || RTL8197F_SUPPORT == 1)
if (dm->support_ic_type & (ODM_RTL8822B | ODM_RTL8197F)) {
phydm_api_trx_mode(dm, BB_PATH_AB, (enum bb_path)dm->rx_ant_status, true);
}
#endif
#if (RTL8812A_SUPPORT == 1 || RTL8192E_SUPPORT == 1)
if (dm->support_ic_type & (ODM_RTL8812 | ODM_RTL8192E)) {
phydm_config_cck_tx_path(dm, BB_PATH_AB);
phydm_config_ofdm_tx_path(dm, BB_PATH_AB);
}
#endif
}
void
phydm_stop_3_wire(
void *dm_void,
u8 set_type
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
if (set_type == PHYDM_SET) {
/*[Stop 3-wires]*/
if (dm->support_ic_type & ODM_IC_11AC_SERIES) {
odm_set_bb_reg(dm, 0xc00, 0xf, 0x4);/* hardware 3-wire off */
odm_set_bb_reg(dm, 0xe00, 0xf, 0x4);/* hardware 3-wire off */
} else {
odm_set_bb_reg(dm, 0x88c, 0xf00000, 0xf); /* 3 wire Disable 88c[23:20]=0xf */
}
} else { /*if (set_type == PHYDM_REVERT)*/
/*[Start 3-wires]*/
if (dm->support_ic_type & ODM_IC_11AC_SERIES) {
odm_set_bb_reg(dm, 0xc00, 0xf, 0x7);/* hardware 3-wire on */
odm_set_bb_reg(dm, 0xe00, 0xf, 0x7);/* hardware 3-wire on */
} else {
odm_set_bb_reg(dm, 0x88c, 0xf00000, 0x0); /* 3 wire enable 88c[23:20]=0x0 */
}
}
}
u8
phydm_stop_ic_trx(
void *dm_void,
u8 set_type
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
struct phydm_api_stuc *api = &dm->api_table;
u32 i;
u8 trx_idle_success = false;
u32 dbg_port_value = 0;
if (set_type == PHYDM_SET) {
/*[Stop TRX]---------------------------------------------------------------------*/
if (phydm_set_bb_dbg_port(dm, BB_DBGPORT_PRIORITY_3, 0x0) == false) /*set debug port to 0x0*/
return PHYDM_SET_FAIL;
for (i = 0; i<10000; i++) {
dbg_port_value = phydm_get_bb_dbg_port_value(dm);
if ((dbg_port_value & (BIT(17) | BIT(3))) == 0) /* PHYTXON && CCA_all */ {
PHYDM_DBG(dm, ODM_COMP_API, "PSD wait for ((%d)) times\n", i);
trx_idle_success = true;
break;
}
}
phydm_release_bb_dbg_port(dm);
if (trx_idle_success) {
api->tx_queue_bitmap = (u8)odm_get_bb_reg(dm, 0x520, 0xff0000);
odm_set_bb_reg(dm, 0x520, 0xff0000, 0xff); /*pause all TX queue*/
if (dm->support_ic_type & ODM_IC_11AC_SERIES) {
odm_set_bb_reg(dm, 0x808, BIT(28), 0); /*disable CCK block*/
odm_set_bb_reg(dm, 0x838, BIT(1), 1); /*disable OFDM RX CCA*/
} else {
/*TBD*/
odm_set_bb_reg(dm, 0x800, BIT(24), 0); /* disable whole CCK block */
api->rx_iqc_reg_1 = odm_get_bb_reg(dm, 0xc14, MASKDWORD);
api->rx_iqc_reg_2 = odm_get_bb_reg(dm, 0xc1c, MASKDWORD);
odm_set_bb_reg(dm, 0xc14, MASKDWORD, 0x0); /* [ Set IQK Matrix = 0 ] equivalent to [ Turn off CCA] */
odm_set_bb_reg(dm, 0xc1c, MASKDWORD, 0x0);
}
} else {
return PHYDM_SET_FAIL;
}
return PHYDM_SET_SUCCESS;
} else { /*if (set_type == PHYDM_REVERT)*/
odm_set_bb_reg(dm, 0x520, 0xff0000, (u32)(api->tx_queue_bitmap)); /*Release all TX queue*/
if (dm->support_ic_type & ODM_IC_11AC_SERIES) {
odm_set_bb_reg(dm, 0x808, BIT(28), 1); /*enable CCK block*/
odm_set_bb_reg(dm, 0x838, BIT(1), 0); /*enable OFDM RX CCA*/
} else {
/*TBD*/
odm_set_bb_reg(dm, 0x800, BIT(24), 1); /* enable whole CCK block */
odm_set_bb_reg(dm, 0xc14, MASKDWORD, api->rx_iqc_reg_1); /* [ Set IQK Matrix = 0 ] equivalent to [ Turn off CCA] */
odm_set_bb_reg(dm, 0xc1c, MASKDWORD, api->rx_iqc_reg_2);
}
return PHYDM_SET_SUCCESS;
}
}
void
phydm_set_ext_switch(
void *dm_void,
u32 *const dm_value,
u32 *_used,
char *output,
u32 *_out_len
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
u32 ext_ant_switch = dm_value[0];
#if (RTL8821A_SUPPORT == 1) || (RTL8881A_SUPPORT == 1)
if (dm->support_ic_type & (ODM_RTL8821 | ODM_RTL8881A)) {
/*Output Pin Settings*/
odm_set_mac_reg(dm, 0x4C, BIT(23), 0); /*select DPDT_P and DPDT_N as output pin*/
odm_set_mac_reg(dm, 0x4C, BIT(24), 1); /*by WLAN control*/
odm_set_bb_reg(dm, 0xCB4, 0xFF, 77); /*DPDT_N = 1b'0*/ /*DPDT_P = 1b'0*/
if (ext_ant_switch == MAIN_ANT) {
odm_set_bb_reg(dm, 0xCB4, (BIT(29) | BIT(28)), 1);
PHYDM_DBG(dm, ODM_COMP_API, "***8821A set ant switch = 2b'01 (Main)\n");
} else if (ext_ant_switch == AUX_ANT) {
odm_set_bb_reg(dm, 0xCB4, BIT(29) | BIT(28), 2);
PHYDM_DBG(dm, ODM_COMP_API, "***8821A set ant switch = 2b'10 (Aux)\n");
}
}
#endif
}
void
phydm_csi_mask_enable(
void *dm_void,
u32 enable
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
u32 reg_value = 0;
reg_value = (enable == FUNC_ENABLE) ? 1 : 0;
if (dm->support_ic_type & ODM_IC_11N_SERIES) {
odm_set_bb_reg(dm, 0xD2C, BIT(28), reg_value);
PHYDM_DBG(dm, ODM_COMP_API, "Enable CSI Mask: Reg 0xD2C[28] = ((0x%x))\n", reg_value);
} else if (dm->support_ic_type & ODM_IC_11AC_SERIES) {
odm_set_bb_reg(dm, 0x874, BIT(0), reg_value);
PHYDM_DBG(dm, ODM_COMP_API, "Enable CSI Mask: Reg 0x874[0] = ((0x%x))\n", reg_value);
}
}
void
phydm_clean_all_csi_mask(
void *dm_void
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
if (dm->support_ic_type & ODM_IC_11N_SERIES) {
odm_set_bb_reg(dm, 0xD40, MASKDWORD, 0);
odm_set_bb_reg(dm, 0xD44, MASKDWORD, 0);
odm_set_bb_reg(dm, 0xD48, MASKDWORD, 0);
odm_set_bb_reg(dm, 0xD4c, MASKDWORD, 0);
} else if (dm->support_ic_type & ODM_IC_11AC_SERIES) {
odm_set_bb_reg(dm, 0x880, MASKDWORD, 0);
odm_set_bb_reg(dm, 0x884, MASKDWORD, 0);
odm_set_bb_reg(dm, 0x888, MASKDWORD, 0);
odm_set_bb_reg(dm, 0x88c, MASKDWORD, 0);
odm_set_bb_reg(dm, 0x890, MASKDWORD, 0);
odm_set_bb_reg(dm, 0x894, MASKDWORD, 0);
odm_set_bb_reg(dm, 0x898, MASKDWORD, 0);
odm_set_bb_reg(dm, 0x89c, MASKDWORD, 0);
}
}
void
phydm_set_csi_mask_reg(
void *dm_void,
u32 tone_idx_tmp,
u8 tone_direction
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
u8 byte_offset, bit_offset;
u32 target_reg;
u8 reg_tmp_value;
u32 tone_num = 64;
u32 tone_num_shift = 0;
u32 csi_mask_reg_p = 0, csi_mask_reg_n = 0;
/* calculate real tone idx*/
if ((tone_idx_tmp % 10) >= 5)
tone_idx_tmp += 10;
tone_idx_tmp = (tone_idx_tmp / 10);
if (dm->support_ic_type & ODM_IC_11N_SERIES) {
tone_num = 64;
csi_mask_reg_p = 0xD40;
csi_mask_reg_n = 0xD48;
} else if (dm->support_ic_type & ODM_IC_11AC_SERIES) {
tone_num = 128;
csi_mask_reg_p = 0x880;
csi_mask_reg_n = 0x890;
}
if (tone_direction == FREQ_POSITIVE) {
if (tone_idx_tmp >= (tone_num - 1))
tone_idx_tmp = (tone_num - 1);
byte_offset = (u8)(tone_idx_tmp >> 3);
bit_offset = (u8)(tone_idx_tmp & 0x7);
target_reg = csi_mask_reg_p + byte_offset;
} else {
tone_num_shift = tone_num;
if (tone_idx_tmp >= tone_num)
tone_idx_tmp = tone_num;
tone_idx_tmp = tone_num - tone_idx_tmp;
byte_offset = (u8)(tone_idx_tmp >> 3);
bit_offset = (u8)(tone_idx_tmp & 0x7);
target_reg = csi_mask_reg_n + byte_offset;
}
reg_tmp_value = odm_read_1byte(dm, target_reg);
PHYDM_DBG(dm, ODM_COMP_API, "Pre Mask tone idx[%d]: Reg0x%x = ((0x%x))\n", (tone_idx_tmp + tone_num_shift), target_reg, reg_tmp_value);
reg_tmp_value |= BIT(bit_offset);
odm_write_1byte(dm, target_reg, reg_tmp_value);
PHYDM_DBG(dm, ODM_COMP_API, "New Mask tone idx[%d]: Reg0x%x = ((0x%x))\n", (tone_idx_tmp + tone_num_shift), target_reg, reg_tmp_value);
}
void
phydm_set_nbi_reg(
void *dm_void,
u32 tone_idx_tmp,
u32 bw
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
u32 nbi_table_128[NBI_TABLE_SIZE_128] = {25, 55, 85, 115, 135, 155, 185, 205, 225, 245, /*1~10*/ /*tone_idx X 10*/
265, 285, 305, 335, 355, 375, 395, 415, 435, 455, /*11~20*/
485, 505, 525, 555, 585, 615, 635
}; /*21~27*/
u32 nbi_table_256[NBI_TABLE_SIZE_256] = { 25, 55, 85, 115, 135, 155, 175, 195, 225, 245, /*1~10*/
265, 285, 305, 325, 345, 365, 385, 405, 425, 445, /*11~20*/
465, 485, 505, 525, 545, 565, 585, 605, 625, 645, /*21~30*/
665, 695, 715, 735, 755, 775, 795, 815, 835, 855, /*31~40*/
875, 895, 915, 935, 955, 975, 995, 1015, 1035, 1055, /*41~50*/
1085, 1105, 1125, 1145, 1175, 1195, 1225, 1255, 1275
}; /*51~59*/
u32 reg_idx = 0;
u32 i;
u8 nbi_table_idx = FFT_128_TYPE;
if (dm->support_ic_type & ODM_IC_11N_SERIES)
nbi_table_idx = FFT_128_TYPE;
else if (dm->support_ic_type & ODM_IC_11AC_1_SERIES)
nbi_table_idx = FFT_256_TYPE;
else if (dm->support_ic_type & ODM_IC_11AC_2_SERIES) {
if (bw == 80)
nbi_table_idx = FFT_256_TYPE;
else /*20M, 40M*/
nbi_table_idx = FFT_128_TYPE;
}
if (nbi_table_idx == FFT_128_TYPE) {
for (i = 0; i < NBI_TABLE_SIZE_128; i++) {
if (tone_idx_tmp < nbi_table_128[i]) {
reg_idx = i + 1;
break;
}
}
} else if (nbi_table_idx == FFT_256_TYPE) {
for (i = 0; i < NBI_TABLE_SIZE_256; i++) {
if (tone_idx_tmp < nbi_table_256[i]) {
reg_idx = i + 1;
break;
}
}
}
if (dm->support_ic_type & ODM_IC_11N_SERIES) {
odm_set_bb_reg(dm, 0xc40, 0x1f000000, reg_idx);
PHYDM_DBG(dm, ODM_COMP_API, "Set tone idx: Reg0xC40[28:24] = ((0x%x))\n", reg_idx);
/**/
} else {
odm_set_bb_reg(dm, 0x87c, 0xfc000, reg_idx);
PHYDM_DBG(dm, ODM_COMP_API, "Set tone idx: Reg0x87C[19:14] = ((0x%x))\n", reg_idx);
/**/
}
}
void
phydm_nbi_enable(
void *dm_void,
u32 enable
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
u32 reg_value = 0;
reg_value = (enable == FUNC_ENABLE) ? 1 : 0;
if (dm->support_ic_type & ODM_IC_11N_SERIES) {
odm_set_bb_reg(dm, 0xc40, BIT(9), reg_value);
PHYDM_DBG(dm, ODM_COMP_API, "Enable NBI Reg0xC40[9] = ((0x%x))\n", reg_value);
} else if (dm->support_ic_type & ODM_IC_11AC_SERIES) {
if (dm->support_ic_type & (ODM_RTL8822B|ODM_RTL8821C)) {
odm_set_bb_reg(dm, 0x87c, BIT(13), reg_value);
odm_set_bb_reg(dm, 0xc20, BIT(28), reg_value);
if (dm->rf_type > RF_1T1R)
odm_set_bb_reg(dm, 0xe20, BIT(28), reg_value);
} else
odm_set_bb_reg(dm, 0x87c, BIT(13), reg_value);
PHYDM_DBG(dm, ODM_COMP_API, "Enable NBI Reg0x87C[13] = ((0x%x))\n", reg_value);
}
}
u8
phydm_calculate_fc(
void *dm_void,
u32 channel,
u32 bw,
u32 second_ch,
u32 *fc_in
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
u32 fc = *fc_in;
u32 start_ch_per_40m[NUM_START_CH_40M] = {36, 44, 52, 60, 100, 108, 116, 124, 132, 140, 149, 157, 165, 173};
u32 start_ch_per_80m[NUM_START_CH_80M] = {36, 52, 100, 116, 132, 149, 165};
u32 *start_ch = &start_ch_per_40m[0];
u32 num_start_channel = NUM_START_CH_40M;
u32 channel_offset = 0;
u32 i;
/*2.4G*/
if (channel <= 14 && channel > 0) {
if (bw == 80)
return PHYDM_SET_FAIL;
fc = 2412 + (channel - 1) * 5;
if (bw == 40 && (second_ch == PHYDM_ABOVE)) {
if (channel >= 10) {
PHYDM_DBG(dm, ODM_COMP_API, "CH = ((%d)), Scnd_CH = ((%d)) Error setting\n", channel, second_ch);
return PHYDM_SET_FAIL;
}
fc += 10;
} else if (bw == 40 && (second_ch == PHYDM_BELOW)) {
if (channel <= 2) {
PHYDM_DBG(dm, ODM_COMP_API, "CH = ((%d)), Scnd_CH = ((%d)) Error setting\n", channel, second_ch);
return PHYDM_SET_FAIL;
}
fc -= 10;
}
}
/*5G*/
else if (channel >= 36 && channel <= 177) {
if (bw != 20) {
if (bw == 40) {
num_start_channel = NUM_START_CH_40M;
start_ch = &start_ch_per_40m[0];
channel_offset = CH_OFFSET_40M;
} else if (bw == 80) {
num_start_channel = NUM_START_CH_80M;
start_ch = &start_ch_per_80m[0];
channel_offset = CH_OFFSET_80M;
}
for (i = 0; i < (num_start_channel - 1); i++) {
if (channel < start_ch[i + 1]) {
channel = start_ch[i] + channel_offset;
break;
}
}
PHYDM_DBG(dm, ODM_COMP_API, "Mod_CH = ((%d))\n", channel);
}
fc = 5180 + (channel - 36) * 5;
} else {
PHYDM_DBG(dm, ODM_COMP_API, "CH = ((%d)) Error setting\n", channel);
return PHYDM_SET_FAIL;
}
*fc_in = fc;
return PHYDM_SET_SUCCESS;
}
u8
phydm_calculate_intf_distance(
void *dm_void,
u32 bw,
u32 fc,
u32 f_interference,
u32 *tone_idx_tmp_in
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
u32 bw_up, bw_low;
u32 int_distance;
u32 tone_idx_tmp;
u8 set_result = PHYDM_SET_NO_NEED;
bw_up = fc + bw / 2;
bw_low = fc - bw / 2;
PHYDM_DBG(dm, ODM_COMP_API, "[f_l, fc, fh] = [ %d, %d, %d ], f_int = ((%d))\n", bw_low, fc, bw_up, f_interference);
if ((f_interference >= bw_low) && (f_interference <= bw_up)) {
int_distance = (fc >= f_interference) ? (fc - f_interference) : (f_interference - fc);
tone_idx_tmp = (int_distance << 5); /* =10*(int_distance /0.3125) */
PHYDM_DBG(dm, ODM_COMP_API, "int_distance = ((%d MHz)) Mhz, tone_idx_tmp = ((%d.%d))\n", int_distance, (tone_idx_tmp / 10), (tone_idx_tmp % 10));
*tone_idx_tmp_in = tone_idx_tmp;
set_result = PHYDM_SET_SUCCESS;
}
return set_result;
}
u8
phydm_csi_mask_setting(
void *dm_void,
u32 enable,
u32 channel,
u32 bw,
u32 f_interference,
u32 second_ch
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
u32 fc = 2412;
u8 tone_direction;
u32 tone_idx_tmp;
u8 set_result = PHYDM_SET_SUCCESS;
if (enable == FUNC_DISABLE) {
set_result = PHYDM_SET_SUCCESS;
phydm_clean_all_csi_mask(dm);
} else {
PHYDM_DBG(dm, ODM_COMP_API, "[Set CSI MASK_] CH = ((%d)), BW = ((%d)), f_intf = ((%d)), Scnd_CH = ((%s))\n",
channel, bw, f_interference, (((bw == 20) || (channel > 14)) ? "Don't care" : (second_ch == PHYDM_ABOVE) ? "H" : "L"));
/*calculate fc*/
if (phydm_calculate_fc(dm, channel, bw, second_ch, &fc) == PHYDM_SET_FAIL)
set_result = PHYDM_SET_FAIL;
else {
/*calculate interference distance*/
if (phydm_calculate_intf_distance(dm, bw, fc, f_interference, &tone_idx_tmp) == PHYDM_SET_SUCCESS) {
tone_direction = (f_interference >= fc) ? FREQ_POSITIVE : FREQ_NEGATIVE;
phydm_set_csi_mask_reg(dm, tone_idx_tmp, tone_direction);
set_result = PHYDM_SET_SUCCESS;
} else
set_result = PHYDM_SET_NO_NEED;
}
}
if (set_result == PHYDM_SET_SUCCESS)
phydm_csi_mask_enable(dm, enable);
else
phydm_csi_mask_enable(dm, FUNC_DISABLE);
return set_result;
}
u8
phydm_nbi_setting(
void *dm_void,
u32 enable,
u32 channel,
u32 bw,
u32 f_interference,
u32 second_ch
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
u32 fc = 2412;
u32 tone_idx_tmp;
u8 set_result = PHYDM_SET_SUCCESS;
if (enable == FUNC_DISABLE)
set_result = PHYDM_SET_SUCCESS;
else {
PHYDM_DBG(dm, ODM_COMP_API, "[Set NBI] CH = ((%d)), BW = ((%d)), f_intf = ((%d)), Scnd_CH = ((%s))\n",
channel, bw, f_interference, (((second_ch == PHYDM_DONT_CARE) || (bw == 20) || (channel > 14)) ? "Don't care" : (second_ch == PHYDM_ABOVE) ? "H" : "L"));
/*calculate fc*/
if (phydm_calculate_fc(dm, channel, bw, second_ch, &fc) == PHYDM_SET_FAIL)
set_result = PHYDM_SET_FAIL;
else {
/*calculate interference distance*/
if (phydm_calculate_intf_distance(dm, bw, fc, f_interference, &tone_idx_tmp) == PHYDM_SET_SUCCESS) {
phydm_set_nbi_reg(dm, tone_idx_tmp, bw);
set_result = PHYDM_SET_SUCCESS;
} else
set_result = PHYDM_SET_NO_NEED;
}
}
if (set_result == PHYDM_SET_SUCCESS)
phydm_nbi_enable(dm, enable);
else
phydm_nbi_enable(dm, FUNC_DISABLE);
return set_result;
}
void
phydm_api_debug(
void *dm_void,
u32 function_map,
u32 *const dm_value,
u32 *_used,
char *output,
u32 *_out_len
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
u32 used = *_used;
u32 out_len = *_out_len;
u32 channel = dm_value[1];
u32 bw = dm_value[2];
u32 f_interference = dm_value[3];
u32 second_ch = dm_value[4];
u8 set_result = 0;
/*PHYDM_API_NBI*/
/*-------------------------------------------------------------------------------------------------------------------------------*/
if (function_map == PHYDM_API_NBI) {
if (dm_value[0] == 100) {
PDM_SNPF(out_len, used, output + used,
out_len - used,
"[HELP-NBI] EN(on=1, off=2) CH BW(20/40/80) f_intf(Mhz) Scnd_CH(L=1, H=2)\n");
return;
} else if (dm_value[0] == FUNC_ENABLE) {
PDM_SNPF(out_len, used, output + used,
out_len - used,
"[Enable NBI] CH = ((%d)), BW = ((%d)), f_intf = ((%d)), Scnd_CH = ((%s))\n",
channel, bw, f_interference,
((second_ch == PHYDM_DONT_CARE) || (bw == 20) || (channel > 14)) ? "Don't care" : ((second_ch == PHYDM_ABOVE) ? "H" : "L"));
set_result = phydm_nbi_setting(dm, FUNC_ENABLE, channel, bw, f_interference, second_ch);
} else if (dm_value[0] == FUNC_DISABLE) {
PDM_SNPF(out_len, used, output + used,
out_len - used, "[Disable NBI]\n");
set_result = phydm_nbi_setting(dm, FUNC_DISABLE, channel, bw, f_interference, second_ch);
} else
set_result = PHYDM_SET_FAIL;
PDM_SNPF(out_len, used, output + used, out_len - used,
"[NBI set result: %s]\n",
(set_result == PHYDM_SET_SUCCESS) ? "Success" : ((set_result == PHYDM_SET_NO_NEED) ? "No need" : "Error"));
}
/*PHYDM_CSI_MASK*/
/*-------------------------------------------------------------------------------------------------------------------------------*/
else if (function_map == PHYDM_API_CSI_MASK) {
if (dm_value[0] == 100) {
PDM_SNPF(out_len, used, output + used,
out_len - used,
"[HELP-CSI MASK] EN(on=1, off=2) CH BW(20/40/80) f_intf(Mhz) Scnd_CH(L=1, H=2)\n");
return;
} else if (dm_value[0] == FUNC_ENABLE) {
PDM_SNPF(out_len, used, output + used,
out_len - used,
"[Enable CSI MASK] CH = ((%d)), BW = ((%d)), f_intf = ((%d)), Scnd_CH = ((%s))\n",
channel, bw, f_interference,
(channel > 14) ? "Don't care" : (((second_ch == PHYDM_DONT_CARE) || (bw == 20) || (channel > 14)) ? "H" : "L"));
set_result = phydm_csi_mask_setting(dm, FUNC_ENABLE, channel, bw, f_interference, second_ch);
} else if (dm_value[0] == FUNC_DISABLE) {
PDM_SNPF(out_len, used, output + used,
out_len - used, "[Disable CSI MASK]\n");
set_result = phydm_csi_mask_setting(dm, FUNC_DISABLE, channel, bw, f_interference, second_ch);
} else
set_result = PHYDM_SET_FAIL;
PDM_SNPF(out_len, used, output + used, out_len - used,
"[CSI MASK set result: %s]\n",
(set_result == PHYDM_SET_SUCCESS) ? "Success" : ((set_result == PHYDM_SET_NO_NEED) ? "No need" : "Error"));
}
*_used = used;
*_out_len = out_len;
}
void
phydm_stop_ck320(
void *dm_void,
u8 enable
) {
struct dm_struct *dm = (struct dm_struct *)dm_void;
u32 reg_value = enable ? 1 : 0;
if (dm->support_ic_type & ODM_IC_11AC_SERIES) {
odm_set_bb_reg(dm, 0x8b4, BIT(6), reg_value);
/**/
} else {
if (dm->support_ic_type & ODM_IC_N_2SS) { /*N-2SS*/
odm_set_bb_reg(dm, 0x87c, BIT(29), reg_value);
/**/
} else { /*N-1SS*/
odm_set_bb_reg(dm, 0x87c, BIT(31), reg_value);
/**/
}
}
}
boolean
phydm_set_bb_txagc_offset(
void *dm_void,
s8 power_offset, /*(unit: dB)*/
u8 add_half_db /*(+0.5 dB)*/
) {
struct dm_struct *dm = (struct dm_struct *)dm_void;
s8 power_idx = power_offset * 2;
boolean set_success = false;
PHYDM_DBG(dm, ODM_COMP_API, "power_offset=%d, add_half_db =%d\n", power_offset, add_half_db);
#if ODM_IC_11AC_SERIES_SUPPORT
if (dm->support_ic_type & ODM_IC_11AC_SERIES) {
if (power_offset > -16 || power_offset < 15) {
if (add_half_db)
power_idx += 1;
power_idx &= 0x3f;
PHYDM_DBG(dm, ODM_COMP_API, "Reg_idx =0x%x\n", power_idx);
odm_set_bb_reg(dm, 0x8b4, 0x3f, power_idx);
set_success = true;
} else {
pr_debug("[Warning] TX AGC Offset Setting error!");
}
}
#endif
#if ODM_IC_11N_SERIES_SUPPORT
if (dm->support_ic_type & ODM_IC_11N_SERIES) {
if (power_offset > -8 || power_offset < 7) {
if (add_half_db)
power_idx += 1;
power_idx &= 0x1f;
PHYDM_DBG(dm, ODM_COMP_API, "Reg_idx =0x%x\n", power_idx);
odm_set_bb_reg(dm, 0x80c, 0x1f00, power_idx);
odm_set_bb_reg(dm, 0x80c, 0x3e000, power_idx);
set_success = true;
} else {
pr_debug("[Warning] TX AGC Offset Setting error!");
}
}
#endif
return set_success;
}
#ifdef PHYDM_COMMON_API_SUPPORT
boolean
phydm_api_set_txagc(
void *dm_void,
u32 power_index,
enum rf_path path,
u8 hw_rate,
boolean is_single_rate
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
boolean ret = false;
u8 i;
#if ((RTL8822B_SUPPORT == 1) || (RTL8821C_SUPPORT == 1))
if (dm->support_ic_type & (ODM_RTL8822B | ODM_RTL8821C)) {
if (is_single_rate) {
#if (RTL8822B_SUPPORT == 1)
if (dm->support_ic_type == ODM_RTL8822B)
ret = phydm_write_txagc_1byte_8822b(dm, power_index, path, hw_rate);
#endif
#if (RTL8821C_SUPPORT == 1)
if (dm->support_ic_type == ODM_RTL8821C)
ret = phydm_write_txagc_1byte_8821c(dm, power_index, path, hw_rate);
#endif
#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
set_current_tx_agc(dm->priv, path, hw_rate, (u8)power_index);
#endif
} else {
#if (RTL8822B_SUPPORT == 1)
if (dm->support_ic_type == ODM_RTL8822B)
ret = config_phydm_write_txagc_8822b(dm, power_index, path, hw_rate);
#endif
#if (RTL8821C_SUPPORT == 1)
if (dm->support_ic_type == ODM_RTL8821C)
ret = config_phydm_write_txagc_8821c(dm, power_index, path, hw_rate);
#endif
#if (DM_ODM_SUPPORT_TYPE & ODM_AP)
for (i = 0; i < 4; i++)
set_current_tx_agc(dm->priv, path, (hw_rate + i), (u8)power_index);
#endif
}
}
#endif
#if (RTL8197F_SUPPORT == 1)
if (dm->support_ic_type & ODM_RTL8197F)
ret = config_phydm_write_txagc_8197f(dm, power_index, path, hw_rate);
#endif
return ret;
}
u8
phydm_api_get_txagc(
void *dm_void,
enum rf_path path,
u8 hw_rate
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
u8 ret = 0;
#if (RTL8822B_SUPPORT == 1)
if (dm->support_ic_type & ODM_RTL8822B)
ret = config_phydm_read_txagc_8822b(dm, path, hw_rate);
#endif
#if (RTL8197F_SUPPORT == 1)
if (dm->support_ic_type & ODM_RTL8197F)
ret = config_phydm_read_txagc_8197f(dm, path, hw_rate);
#endif
#if (RTL8821C_SUPPORT == 1)
if (dm->support_ic_type & ODM_RTL8821C)
ret = config_phydm_read_txagc_8821c(dm, path, hw_rate);
#endif
return ret;
}
boolean
phydm_api_switch_bw_channel(
void *dm_void,
u8 central_ch,
u8 primary_ch_idx,
enum channel_width bandwidth
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
boolean ret = false;
#if (RTL8822B_SUPPORT == 1)
if (dm->support_ic_type & ODM_RTL8822B)
ret = config_phydm_switch_channel_bw_8822b(dm, central_ch, primary_ch_idx, bandwidth);
#endif
#if (RTL8197F_SUPPORT == 1)
if (dm->support_ic_type & ODM_RTL8197F)
ret = config_phydm_switch_channel_bw_8197f(dm, central_ch, primary_ch_idx, bandwidth);
#endif
#if (RTL8821C_SUPPORT == 1)
if (dm->support_ic_type & ODM_RTL8821C)
ret = config_phydm_switch_channel_bw_8821c(dm, central_ch, primary_ch_idx, bandwidth);
#endif
return ret;
}
boolean
phydm_api_trx_mode(
void *dm_void,
enum bb_path tx_path,
enum bb_path rx_path,
boolean is_tx2_path
)
{
struct dm_struct *dm = (struct dm_struct *)dm_void;
boolean ret = false;
#if (RTL8822B_SUPPORT == 1)
if (dm->support_ic_type & ODM_RTL8822B)
ret = config_phydm_trx_mode_8822b(dm, tx_path, rx_path, is_tx2_path);
#endif
#if (RTL8197F_SUPPORT == 1)
if (dm->support_ic_type & ODM_RTL8197F)
ret = config_phydm_trx_mode_8197f(dm, tx_path, rx_path, is_tx2_path);
#endif
return ret;
}
#endif
#if (DM_ODM_SUPPORT_TYPE == ODM_WIN)
void
phydm_normal_driver_rx_sniffer(
struct dm_struct *dm,
u8 *desc,
PRT_RFD_STATUS rt_rfd_status,
u8 *drv_info,
u8 phy_status
)
{
#if (defined(CONFIG_PHYDM_RX_SNIFFER_PARSING))
u32 *msg;
u16 seq_num;
struct phydm_fat_struct *fat_tab = &dm->dm_fat_table;
if (rt_rfd_status->packet_report_type != NORMAL_RX)
return;
if (!dm->is_linked) {
if (rt_rfd_status->is_hw_error)
return;
}
if (!(fat_tab->fat_state == FAT_TRAINING_STATE))
return;
if (phy_status == true) {
if ((dm->rx_pkt_type == type_block_ack) || (dm->rx_pkt_type == type_rts) || (dm->rx_pkt_type == type_cts))
seq_num = 0;
else
seq_num = rt_rfd_status->seq_num;
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, "%04d , %01s, rate=0x%02x, L=%04d , %s , %s",
seq_num,
/*rt_rfd_status->mac_id,*/
((rt_rfd_status->is_crc) ? "C" : (rt_rfd_status->is_ampdu) ? "A" : "_"),
rt_rfd_status->data_rate,
rt_rfd_status->length,
((rt_rfd_status->band_width == 0) ? "20M" : ((rt_rfd_status->band_width == 1) ? "40M" : "80M")),
((rt_rfd_status->is_ldpc) ? "LDP" : "BCC"));
if (dm->rx_pkt_type == type_asoc_req) {
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , [%s]", "AS_REQ");
/**/
} else if (dm->rx_pkt_type == type_asoc_rsp) {
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , [%s]", "AS_RSP");
/**/
} else if (dm->rx_pkt_type == type_probe_req) {
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , [%s]", "PR_REQ");
/**/
} else if (dm->rx_pkt_type == type_probe_rsp) {
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , [%s]", "PR_RSP");
/**/
} else if (dm->rx_pkt_type == type_deauth) {
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , [%s]", "DEAUTH");
/**/
} else if (dm->rx_pkt_type == type_beacon) {
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , [%s]", "BEACON");
/**/
} else if (dm->rx_pkt_type == type_block_ack_req) {
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , [%s]", "BA_REQ");
/**/
} else if (dm->rx_pkt_type == type_rts) {
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , [%s]", "__RTS_");
/**/
} else if (dm->rx_pkt_type == type_cts) {
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , [%s]", "__CTS_");
/**/
} else if (dm->rx_pkt_type == type_ack) {
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , [%s]", "__ACK_");
/**/
} else if (dm->rx_pkt_type == type_block_ack) {
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , [%s]", "__BA__");
/**/
} else if (dm->rx_pkt_type == type_data) {
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , [%s]", "_DATA_");
/**/
} else if (dm->rx_pkt_type == type_data_ack) {
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , [%s]", "Data_Ack");
/**/
} else if (dm->rx_pkt_type == type_qos_data) {
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , [%s]", "QoS_Data");
/**/
} else {
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , [0x%x]", dm->rx_pkt_type);
/**/
}
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , [RSSI=%d,%d,%d,%d ]",
dm->rssi_a,
dm->rssi_b,
dm->rssi_c,
dm->rssi_d);
msg = (u32 *)drv_info;
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, " , P-STS[28:0]=%08x-%08x-%08x-%08x-%08x-%08x-%08x\n",
msg[6], msg[5], msg[4], msg[3], msg[2], msg[1], msg[1]);
} else {
PHYDM_DBG_F(dm, ODM_COMP_SNIFFER, "%04d , %01s, rate=0x%02x, L=%04d , %s , %s\n",
rt_rfd_status->seq_num,
/*rt_rfd_status->mac_id,*/
((rt_rfd_status->is_crc) ? "C" : (rt_rfd_status->is_ampdu) ? "A" : "_"),
rt_rfd_status->data_rate,
rt_rfd_status->length,
((rt_rfd_status->band_width == 0) ? "20M" : ((rt_rfd_status->band_width == 1) ? "40M" : "80M")),
((rt_rfd_status->is_ldpc) ? "LDP" : "BCC"));
}
#endif
}
#endif