// SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause /* Copyright(c) 2026 Realtek Corporation */ #include "chan.h" #include "coex.h" #include "debug.h" #include "efuse.h" #include "mac.h" #include "phy.h" #include "reg.h" #include "rtw8922d.h" #include "rtw8922d_rfk.h" #include "sar.h" #include "util.h" #define RTW8922D_FW_FORMAT_MAX 0 #define RTW8922D_FW_BASENAME "rtw89/rtw8922d_fw" #define RTW8922D_MODULE_FIRMWARE \ RTW89_GEN_MODULE_FWNAME(RTW8922D_FW_BASENAME, RTW8922D_FW_FORMAT_MAX) #define RTW8922DS_FW_FORMAT_MAX 0 #define RTW8922DS_FW_BASENAME "rtw89/rtw8922ds_fw" #define RTW8922DS_MODULE_FIRMWARE \ RTW89_GEN_MODULE_FWNAME(RTW8922DS_FW_BASENAME, RTW8922DS_FW_FORMAT_MAX) static const struct rtw89_hfc_ch_cfg rtw8922d_hfc_chcfg_pcie[] = { {2, 603, 0}, /* ACH 0 */ {0, 601, 0}, /* ACH 1 */ {2, 603, 0}, /* ACH 2 */ {0, 601, 0}, /* ACH 3 */ {2, 603, 0}, /* ACH 4 */ {0, 601, 0}, /* ACH 5 */ {2, 603, 0}, /* ACH 6 */ {0, 601, 0}, /* ACH 7 */ {2, 603, 0}, /* B0MGQ */ {0, 601, 0}, /* B0HIQ */ {2, 603, 0}, /* B1MGQ */ {0, 601, 0}, /* B1HIQ */ {0, 0, 0}, /* FWCMDQ */ {0, 0, 0}, /* BMC */ {0, 0, 0}, /* H2D */ }; static const struct rtw89_hfc_pub_cfg rtw8922d_hfc_pubcfg_pcie = { 613, /* Group 0 */ 0, /* Group 1 */ 613, /* Public Max */ 0, /* WP threshold */ }; static const struct rtw89_hfc_param_ini rtw8922d_hfc_param_ini_pcie[] = { [RTW89_QTA_SCC] = {rtw8922d_hfc_chcfg_pcie, &rtw8922d_hfc_pubcfg_pcie, &rtw89_mac_size.hfc_prec_cfg_c0, RTW89_HCIFC_POH}, [RTW89_QTA_DBCC] = {rtw8922d_hfc_chcfg_pcie, &rtw8922d_hfc_pubcfg_pcie, &rtw89_mac_size.hfc_prec_cfg_c0, RTW89_HCIFC_POH}, [RTW89_QTA_DLFW] = {NULL, NULL, &rtw89_mac_size.hfc_prec_cfg_c2, RTW89_HCIFC_POH}, [RTW89_QTA_INVALID] = {NULL}, }; static const struct rtw89_dle_mem rtw8922d_dle_mem_pcie[] = { [RTW89_QTA_SCC] = {RTW89_QTA_SCC, &rtw89_mac_size.wde_size16_v1, &rtw89_mac_size.ple_size20_v1, &rtw89_mac_size.wde_qt19_v1, &rtw89_mac_size.wde_qt19_v1, &rtw89_mac_size.ple_qt42_v2, &rtw89_mac_size.ple_qt43_v2, &rtw89_mac_size.ple_rsvd_qt9, &rtw89_mac_size.rsvd0_size6, &rtw89_mac_size.rsvd1_size2, &rtw89_mac_size.dle_input18}, [RTW89_QTA_DBCC] = {RTW89_QTA_DBCC, &rtw89_mac_size.wde_size16_v1, &rtw89_mac_size.ple_size20_v1, &rtw89_mac_size.wde_qt19_v1, &rtw89_mac_size.wde_qt19_v1, &rtw89_mac_size.ple_qt42_v2, &rtw89_mac_size.ple_qt43_v2, &rtw89_mac_size.ple_rsvd_qt9, &rtw89_mac_size.rsvd0_size6, &rtw89_mac_size.rsvd1_size2, &rtw89_mac_size.dle_input18}, [RTW89_QTA_DLFW] = {RTW89_QTA_DLFW, &rtw89_mac_size.wde_size18_v1, &rtw89_mac_size.ple_size22_v1, &rtw89_mac_size.wde_qt3, &rtw89_mac_size.wde_qt3, &rtw89_mac_size.ple_qt5_v2, &rtw89_mac_size.ple_qt5_v2, &rtw89_mac_size.ple_rsvd_qt1, &rtw89_mac_size.rsvd0_size6, &rtw89_mac_size.rsvd1_size2, &rtw89_mac_size.dle_input3}, [RTW89_QTA_INVALID] = {RTW89_QTA_INVALID, NULL, NULL, NULL, NULL, NULL, NULL}, }; static const u32 rtw8922d_h2c_regs[RTW89_H2CREG_MAX] = { R_BE_H2CREG_DATA0, R_BE_H2CREG_DATA1, R_BE_H2CREG_DATA2, R_BE_H2CREG_DATA3 }; static const u32 rtw8922d_c2h_regs[RTW89_H2CREG_MAX] = { R_BE_C2HREG_DATA0, R_BE_C2HREG_DATA1, R_BE_C2HREG_DATA2, R_BE_C2HREG_DATA3 }; static const u32 rtw8922d_wow_wakeup_regs[RTW89_WOW_REASON_NUM] = { R_BE_DBG_WOW, R_BE_DBG_WOW, }; static const struct rtw89_page_regs rtw8922d_page_regs = { .hci_fc_ctrl = R_BE_HCI_FC_CTRL, .ch_page_ctrl = R_BE_CH_PAGE_CTRL, .ach_page_ctrl = R_BE_CH0_PAGE_CTRL, .ach_page_info = R_BE_CH0_PAGE_INFO, .pub_page_info3 = R_BE_PUB_PAGE_INFO3, .pub_page_ctrl1 = R_BE_PUB_PAGE_CTRL1, .pub_page_ctrl2 = R_BE_PUB_PAGE_CTRL2, .pub_page_info1 = R_BE_PUB_PAGE_INFO1, .pub_page_info2 = R_BE_PUB_PAGE_INFO2, .wp_page_ctrl1 = R_BE_WP_PAGE_CTRL1, .wp_page_ctrl2 = R_BE_WP_PAGE_CTRL2, .wp_page_info1 = R_BE_WP_PAGE_INFO1, }; static const struct rtw89_reg_imr rtw8922d_imr_dmac_regs[] = { {R_BE_HCI_BUF_IMR, B_BE_HCI_BUF_IMR_CLR, B_BE_HCI_BUF_IMR_SET}, {R_BE_DISP_HOST_IMR, B_BE_DISP_HOST_IMR_CLR_V1, B_BE_DISP_HOST_IMR_SET_V1}, {R_BE_DISP_CPU_IMR, B_BE_DISP_CPU_IMR_CLR_V1, B_BE_DISP_CPU_IMR_SET_V1}, {R_BE_DISP_OTHER_IMR, B_BE_DISP_OTHER_IMR_CLR_V1, B_BE_DISP_OTHER_IMR_SET_V1}, {R_BE_PKTIN_ERR_IMR, B_BE_PKTIN_ERR_IMR_CLR, B_BE_PKTIN_ERR_IMR_SET}, {R_BE_MLO_ERR_IDCT_IMR, B_BE_MLO_ERR_IDCT_IMR_CLR, B_BE_MLO_ERR_IDCT_IMR_SET}, {R_BE_MPDU_TX_ERR_IMR, B_BE_MPDU_TX_ERR_IMR_CLR, B_BE_MPDU_TX_ERR_IMR_SET}, {R_BE_MPDU_RX_ERR_IMR, B_BE_MPDU_RX_ERR_IMR_CLR, B_BE_MPDU_RX_ERR_IMR_SET}, {R_BE_SEC_ERROR_IMR, B_BE_SEC_ERROR_IMR_CLR, B_BE_SEC_ERROR_IMR_SET}, {R_BE_CPUIO_ERR_IMR, B_BE_CPUIO_ERR_IMR_CLR, B_BE_CPUIO_ERR_IMR_SET}, {R_BE_WDE_ERR_IMR, B_BE_WDE_ERR_IMR_CLR, B_BE_WDE_ERR_IMR_SET}, {R_BE_PLE_ERR_IMR, B_BE_PLE_ERR_IMR_CLR, B_BE_PLE_ERR_IMR_SET}, {R_BE_WDRLS_ERR_IMR, B_BE_WDRLS_ERR_IMR_CLR, B_BE_WDRLS_ERR_IMR_SET}, {R_BE_TXPKTCTL_B0_ERRFLAG_IMR, B_BE_TXPKTCTL_B0_ERRFLAG_IMR_CLR, B_BE_TXPKTCTL_B0_ERRFLAG_IMR_SET}, {R_BE_TXPKTCTL_B1_ERRFLAG_IMR, B_BE_TXPKTCTL_B1_ERRFLAG_IMR_CLR, B_BE_TXPKTCTL_B1_ERRFLAG_IMR_SET}, {R_BE_BBRPT_COM_ERR_IMR, B_BE_BBRPT_COM_ERR_IMR_CLR, B_BE_BBRPT_COM_ERR_IMR_SET}, {R_BE_BBRPT_CHINFO_ERR_IMR, B_BE_BBRPT_CHINFO_ERR_IMR_CLR, B_BE_BBRPT_CHINFO_ERR_IMR_SET}, {R_BE_BBRPT_DFS_ERR_IMR, B_BE_BBRPT_DFS_ERR_IMR_CLR, B_BE_BBRPT_DFS_ERR_IMR_SET}, {R_BE_LA_ERRFLAG_IMR, B_BE_LA_ERRFLAG_IMR_CLR, B_BE_LA_ERRFLAG_IMR_SET}, {R_BE_CH_INFO_DBGFLAG_IMR, B_BE_CH_INFO_DBGFLAG_IMR_CLR, B_BE_CH_INFO_DBGFLAG_IMR_SET}, {R_BE_PLRLS_ERR_IMR_V1, B_BE_PLRLS_ERR_IMR_V1_CLR, B_BE_PLRLS_ERR_IMR_V1_SET}, {R_BE_HAXI_IDCT_MSK, B_BE_HAXI_IDCT_MSK_CLR, B_BE_HAXI_IDCT_MSK_SET}, }; static const struct rtw89_imr_table rtw8922d_imr_dmac_table = { .regs = rtw8922d_imr_dmac_regs, .n_regs = ARRAY_SIZE(rtw8922d_imr_dmac_regs), }; static const struct rtw89_reg_imr rtw8922d_imr_cmac_regs[] = { {R_BE_RESP_IMR, B_BE_RESP_IMR_CLR_V1, B_BE_RESP_IMR_SET_V1}, {R_BE_RESP_IMR1, B_BE_RESP_IMR1_CLR, B_BE_RESP_IMR1_SET}, {R_BE_RX_ERROR_FLAG_IMR, B_BE_RX_ERROR_FLAG_IMR_CLR_V1, B_BE_RX_ERROR_FLAG_IMR_SET_V1}, {R_BE_TX_ERROR_FLAG_IMR, B_BE_TX_ERROR_FLAG_IMR_CLR, B_BE_TX_ERROR_FLAG_IMR_SET}, {R_BE_RX_ERROR_FLAG_IMR_1, B_BE_TX_ERROR_FLAG_IMR_1_CLR, B_BE_TX_ERROR_FLAG_IMR_1_SET}, {R_BE_PTCL_IMR1, B_BE_PTCL_IMR1_CLR, B_BE_PTCL_IMR1_SET}, {R_BE_PTCL_IMR0, B_BE_PTCL_IMR0_CLR, B_BE_PTCL_IMR0_SET}, {R_BE_PTCL_IMR_2, B_BE_PTCL_IMR_2_CLR, B_BE_PTCL_IMR_2_SET}, {R_BE_SCHEDULE_ERR_IMR, B_BE_SCHEDULE_ERR_IMR_CLR, B_BE_SCHEDULE_ERR_IMR_SET}, {R_BE_C0_TXPWR_IMR, B_BE_C0_TXPWR_IMR_CLR, B_BE_C0_TXPWR_IMR_SET}, {R_BE_TRXPTCL_ERROR_INDICA_MASK, B_BE_TRXPTCL_ERROR_INDICA_MASK_CLR, B_BE_TRXPTCL_ERROR_INDICA_MASK_SET}, {R_BE_RX_ERR_IMR, B_BE_RX_ERR_IMR_CLR, B_BE_RX_ERR_IMR_SET}, {R_BE_PHYINFO_ERR_IMR_V1, B_BE_PHYINFO_ERR_IMR_V1_CLR, B_BE_PHYINFO_ERR_IMR_V1_SET}, }; static const struct rtw89_imr_table rtw8922d_imr_cmac_table = { .regs = rtw8922d_imr_cmac_regs, .n_regs = ARRAY_SIZE(rtw8922d_imr_cmac_regs), }; static const struct rtw89_rrsr_cfgs rtw8922d_rrsr_cfgs = { .ref_rate = {R_BE_TRXPTCL_RESP_1, B_BE_WMAC_RESP_REF_RATE_SEL, 0}, .rsc = {R_BE_PTCL_RRSR1, B_BE_RSC_MASK, 2}, }; static const struct rtw89_rfkill_regs rtw8922d_rfkill_regs = { .pinmux = {R_BE_GPIO8_15_FUNC_SEL, B_BE_PINMUX_GPIO9_FUNC_SEL_MASK, 0xf}, .mode = {R_BE_GPIO_EXT_CTRL + 2, (B_BE_GPIO_MOD_9 | B_BE_GPIO_IO_SEL_9) >> 16, 0x0}, }; static const struct rtw89_dig_regs rtw8922d_dig_regs = { .seg0_pd_reg = R_SEG0R_PD_BE4, .pd_lower_bound_mask = B_SEG0R_PD_LOWER_BOUND_MSK, .pd_spatial_reuse_en = B_SEG0R_PD_SPATIAL_REUSE_EN_MSK_V1, .bmode_pd_reg = R_BMODE_PDTH_EN_BE4, .bmode_cca_rssi_limit_en = B_BMODE_PDTH_LIMIT_EN_MSK_V1, .bmode_pd_lower_bound_reg = R_BMODE_PDTH_BE4, .bmode_rssi_nocca_low_th_mask = B_BMODE_PDTH_LOWER_BOUND_MSK_V1, .p0_lna_init = {R_PATH0_LNA_INIT_BE4, B_PATH0_LNA_INIT_IDX_BE4}, .p1_lna_init = {R_PATH1_LNA_INIT_BE4, B_PATH1_LNA_INIT_IDX_BE4}, .p0_tia_init = {R_PATH0_TIA_INIT_BE4, B_PATH0_TIA_INIT_IDX_BE4}, .p1_tia_init = {R_PATH1_TIA_INIT_BE4, B_PATH1_TIA_INIT_IDX_BE4}, .p0_rxb_init = {R_PATH0_RXIDX_INIT_BE4, B_PATH0_RXIDX_INIT_BE4}, .p1_rxb_init = {R_PATH1_RXIDX_INIT_BE4, B_PATH1_RXIDX_INIT_BE4}, .p0_p20_pagcugc_en = {R_PATH0_P20_FOLLOW_BY_PAGCUGC_BE4, B_PATH0_P20_FOLLOW_BY_PAGCUGC_EN_MSK}, .p0_s20_pagcugc_en = {R_PATH0_S20_FOLLOW_BY_PAGCUGC_BE4, B_PATH0_S20_FOLLOW_BY_PAGCUGC_EN_MSK}, .p1_p20_pagcugc_en = {R_PATH1_P20_FOLLOW_BY_PAGCUGC_BE4, B_PATH1_P20_FOLLOW_BY_PAGCUGC_EN_MSK}, .p1_s20_pagcugc_en = {R_PATH1_S20_FOLLOW_BY_PAGCUGC_BE4, B_PATH1_S20_FOLLOW_BY_PAGCUGC_EN_MSK}, }; static const struct rtw89_edcca_regs rtw8922d_edcca_regs = { .edcca_level = R_SEG0R_EDCCA_LVL_BE4, .edcca_mask = B_EDCCA_LVL_MSK0, .edcca_p_mask = B_EDCCA_LVL_MSK1, .ppdu_level = R_SEG0R_PPDU_LVL_BE4, .ppdu_mask = B_EDCCA_LVL_MSK1, .p = {{ .rpt_a = R_EDCCA_RPT_A_BE4, .rpt_b = R_EDCCA_RPT_B_BE4, .rpt_sel = R_EDCCA_RPT_SEL_BE4, .rpt_sel_mask = B_EDCCA_RPT_SEL_BE4_MSK, }, { .rpt_a = R_EDCCA_RPT_A_BE4_C1, .rpt_b = R_EDCCA_RPT_A_BE4_C1, .rpt_sel = R_EDCCA_RPT_SEL_BE4_C1, .rpt_sel_mask = B_EDCCA_RPT_SEL_BE4_MSK, }}, .rpt_sel_be = R_EDCCA_RPTREG_SEL_BE4, .rpt_sel_be_mask = B_EDCCA_RPTREG_SEL_BE_MSK, .tx_collision_t2r_st = R_TX_COLLISION_T2R_ST_BE4, .tx_collision_t2r_st_mask = B_TX_COLLISION_T2R_ST_BE_M, }; static const struct rtw89_efuse_block_cfg rtw8922d_efuse_blocks[] = { [RTW89_EFUSE_BLOCK_SYS] = {.offset = 0x00000, .size = 0x310}, [RTW89_EFUSE_BLOCK_RF] = {.offset = 0x10000, .size = 0x240}, [RTW89_EFUSE_BLOCK_HCI_DIG_PCIE_SDIO] = {.offset = 0x20000, .size = 0x4800}, [RTW89_EFUSE_BLOCK_HCI_DIG_USB] = {.offset = 0x30000, .size = 0x890}, [RTW89_EFUSE_BLOCK_HCI_PHY_PCIE] = {.offset = 0x40000, .size = 0x400}, [RTW89_EFUSE_BLOCK_HCI_PHY_USB3] = {.offset = 0x50000, .size = 0x80}, [RTW89_EFUSE_BLOCK_HCI_PHY_USB2] = {.offset = 0x60000, .size = 0x50}, [RTW89_EFUSE_BLOCK_ADIE] = {.offset = 0x70000, .size = 0x10}, }; static void rtw8922d_sel_bt_rx_path(struct rtw89_dev *rtwdev, u8 val, enum rtw89_rf_path rx_path) { if (rx_path == RF_PATH_A) rtw89_phy_write32_mask(rtwdev, R_SEL_GNT_BT_RX_BE4, B_SEL_GNT_BT_RX_PATH0_BE4, val); else if (rx_path == RF_PATH_B) rtw89_phy_write32_mask(rtwdev, R_SEL_GNT_BT_RX_BE4, B_SEL_GNT_BT_RX_PATH1_BE4, val); else rtw89_warn(rtwdev, "[%s] Not support path = %d\n", __func__, rx_path); } static void rtw8922d_sel_bt_rx_phy(struct rtw89_dev *rtwdev, u8 val, enum rtw89_phy_idx phy_idx) { rtw89_phy_write32_idx(rtwdev, R_SEL_GNT_BT_RXPHY_BE4, B_SEL_GNT_BT_RXPHY_BE4, val, phy_idx); } static void rtw8922d_set_gbt_bt_rx_sel(struct rtw89_dev *rtwdev, bool en, enum rtw89_phy_idx phy_idx) { rtw8922d_sel_bt_rx_path(rtwdev, 0x3, RF_PATH_A); rtw8922d_sel_bt_rx_phy(rtwdev, 0x0, RTW89_PHY_0); rtw8922d_sel_bt_rx_path(rtwdev, 0x3, RF_PATH_B); rtw8922d_sel_bt_rx_phy(rtwdev, 0x0, RTW89_PHY_1); } static int rtw8922d_pwr_on_func(struct rtw89_dev *rtwdev) { struct rtw89_hal *hal = &rtwdev->hal; u32 val32; int ret; if (hal->cid != RTL8922D_CID7025) goto begin; switch (hal->cv) { case CHIP_CAV: case CHIP_CBV: rtw89_write32_set(rtwdev, R_BE_SPS_DIG_ON_CTRL1, B_BE_PWM_FORCE); rtw89_write32_set(rtwdev, R_BE_SPS_ANA_ON_CTRL1, B_BE_PWM_FORCE_ANA); break; default: break; } begin: rtw89_write32_clr(rtwdev, R_BE_SYS_PW_CTRL, B_BE_AFSM_WLSUS_EN | B_BE_AFSM_PCIE_SUS_EN); rtw89_write32_set(rtwdev, R_BE_SYS_PW_CTRL, B_BE_DIS_WLBT_PDNSUSEN_SOPC); rtw89_write32_set(rtwdev, R_BE_WLLPS_CTRL, B_BE_DIS_WLBT_LPSEN_LOPC); if (hal->cid != RTL8922D_CID7090) rtw89_write32_clr(rtwdev, R_BE_SYS_PW_CTRL, B_BE_APDM_HPDN); rtw89_write32_clr(rtwdev, R_BE_FWS1ISR, B_BE_FS_WL_HW_RADIO_OFF_INT); rtw89_write32_clr(rtwdev, R_BE_SYS_PW_CTRL, B_BE_APFM_SWLPS); ret = read_poll_timeout(rtw89_read32, val32, val32 & B_BE_RDY_SYSPWR, 1000, 3000000, false, rtwdev, R_BE_SYS_PW_CTRL); if (ret) return ret; rtw89_write32_set(rtwdev, R_BE_SYS_PW_CTRL, B_BE_EN_WLON); rtw89_write32_set(rtwdev, R_BE_WLRESUME_CTRL, B_BE_LPSROP_CMAC0 | B_BE_LPSROP_CMAC1); rtw89_write32_set(rtwdev, R_BE_SYS_PW_CTRL, B_BE_APFN_ONMAC); ret = read_poll_timeout(rtw89_read32, val32, !(val32 & B_BE_APFN_ONMAC), 1000, 3000000, false, rtwdev, R_BE_SYS_PW_CTRL); if (ret) return ret; rtw89_write8_set(rtwdev, R_BE_PLATFORM_ENABLE, B_BE_PLATFORM_EN); rtw89_write32_set(rtwdev, R_BE_HCI_OPT_CTRL, B_BE_HAXIDMA_IO_EN); ret = read_poll_timeout(rtw89_read32, val32, val32 & B_BE_HAXIDMA_IO_ST, 1000, 3000000, false, rtwdev, R_BE_HCI_OPT_CTRL); if (ret) return ret; ret = read_poll_timeout(rtw89_read32, val32, !(val32 & B_BE_HAXIDMA_BACKUP_RESTORE_ST), 1000, 3000000, false, rtwdev, R_BE_HCI_OPT_CTRL); if (ret) return ret; rtw89_write32_set(rtwdev, R_BE_HCI_OPT_CTRL, B_BE_HCI_WLAN_IO_EN); ret = read_poll_timeout(rtw89_read32, val32, val32 & B_BE_HCI_WLAN_IO_ST, 1000, 3000000, false, rtwdev, R_BE_HCI_OPT_CTRL); if (ret) return ret; rtw89_write32_clr(rtwdev, R_BE_SYS_SDIO_CTRL, B_BE_PCIE_FORCE_IBX_EN); ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_NORMAL_WRITE, 0x10, 0x10); if (ret) return ret; rtw89_write32_set(rtwdev, R_BE_SYS_ADIE_PAD_PWR_CTRL, B_BE_SYM_PADPDN_WL_RFC1_1P3); ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_ANAPAR_WL, 0x40, 0x40); if (ret) return ret; rtw89_write32_set(rtwdev, R_BE_SYS_ADIE_PAD_PWR_CTRL, B_BE_SYM_PADPDN_WL_RFC0_1P3); ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_ANAPAR_WL, 0x20, 0x20); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_ANAPAR_WL, 0x04, 0x04); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_ANAPAR_WL, 0x08, 0x08); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_ANAPAR_WL, 0, 0x10); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_WL_RFC_S0, 0xEB, 0xFF); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_WL_RFC_S1, 0xEB, 0xFF); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_ANAPAR_WL, 0x01, 0x01); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_ANAPAR_WL, 0x02, 0x02); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_ANAPAR_WL, 0, 0x80); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_XTAL_XMD_2, 0, 0x70); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_SRAM_CTRL, 0, 0x02); if (ret) return ret; rtw89_write32_set(rtwdev, R_BE_PMC_DBG_CTRL2, B_BE_SYSON_DIS_PMCR_BE_WRMSK); rtw89_write32_set(rtwdev, R_BE_SYS_ISO_CTRL, B_BE_ISO_EB2CORE); rtw89_write32_clr(rtwdev, R_BE_SYS_ISO_CTRL, B_BE_PWC_EV2EF_B); mdelay(1); rtw89_write32_clr(rtwdev, R_BE_SYS_ISO_CTRL, B_BE_PWC_EV2EF_S); rtw89_write32_clr(rtwdev, R_BE_PMC_DBG_CTRL2, B_BE_SYSON_DIS_PMCR_BE_WRMSK); rtw89_write32_set(rtwdev, R_BE_DMAC_FUNC_EN, B_BE_MAC_FUNC_EN | B_BE_DMAC_FUNC_EN | B_BE_MPDU_PROC_EN | B_BE_WD_RLS_EN | B_BE_DLE_WDE_EN | B_BE_TXPKT_CTRL_EN | B_BE_STA_SCH_EN | B_BE_DLE_PLE_EN | B_BE_PKT_BUF_EN | B_BE_DMAC_TBL_EN | B_BE_PKT_IN_EN | B_BE_DLE_CPUIO_EN | B_BE_DISPATCHER_EN | B_BE_BBRPT_EN | B_BE_MAC_SEC_EN | B_BE_H_AXIDMA_EN | B_BE_DMAC_MLO_EN | B_BE_PLRLS_EN | B_BE_P_AXIDMA_EN | B_BE_DLE_DATACPUIO_EN | B_BE_LTR_CTL_EN); set_bit(RTW89_FLAG_DMAC_FUNC, rtwdev->flags); rtw89_write32_set(rtwdev, R_BE_CMAC_SHARE_FUNC_EN, B_BE_CMAC_SHARE_EN | B_BE_RESPBA_EN | B_BE_ADDRSRCH_EN | B_BE_BTCOEX_EN); rtw89_write32_set(rtwdev, R_BE_CMAC_FUNC_EN, B_BE_CMAC_EN | B_BE_CMAC_TXEN | B_BE_CMAC_RXEN | B_BE_SIGB_EN | B_BE_PHYINTF_EN | B_BE_CMAC_DMA_EN | B_BE_PTCLTOP_EN | B_BE_SCHEDULER_EN | B_BE_TMAC_EN | B_BE_RMAC_EN | B_BE_TXTIME_EN | B_BE_RESP_PKTCTL_EN); set_bit(RTW89_FLAG_CMAC0_FUNC, rtwdev->flags); rtw89_write32_set(rtwdev, R_BE_FEN_RST_ENABLE, B_BE_FEN_BB_IP_RSTN | B_BE_FEN_BBPLAT_RSTB); return 0; } static int rtw8922d_pwr_off_func(struct rtw89_dev *rtwdev) { u32 val32; int ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_ANAPAR_WL, 0x10, 0x10); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_ANAPAR_WL, 0, 0x08); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_ANAPAR_WL, 0, 0x04); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_WL_RFC_S0, 0, 0x01); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_WL_RFC_S1, 0, 0x01); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_ANAPAR_WL, 0x80, 0x80); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_ANAPAR_WL, 0, 0x02); if (ret) return ret; ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_ANAPAR_WL, 0, 0x01); if (ret) return ret; rtw89_write32_set(rtwdev, R_BE_SYS_PW_CTRL, B_BE_EN_WLON); rtw89_write8_clr(rtwdev, R_BE_FEN_RST_ENABLE, B_BE_FEN_BB_IP_RSTN | B_BE_FEN_BBPLAT_RSTB); rtw89_write32_clr(rtwdev, R_BE_SYS_ADIE_PAD_PWR_CTRL, B_BE_SYM_PADPDN_WL_RFC0_1P3); ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_ANAPAR_WL, 0, 0x20); if (ret) return ret; rtw89_write32_clr(rtwdev, R_BE_SYS_ADIE_PAD_PWR_CTRL, B_BE_SYM_PADPDN_WL_RFC1_1P3); ret = rtw89_mac_write_xtal_si(rtwdev, XTAL_SI_ANAPAR_WL, 0, 0x40); if (ret) return ret; rtw89_write32_clr(rtwdev, R_BE_HCI_OPT_CTRL, B_BE_HAXIDMA_IO_EN); ret = read_poll_timeout(rtw89_read32, val32, !(val32 & B_BE_HAXIDMA_IO_ST), 1000, 3000000, false, rtwdev, R_BE_HCI_OPT_CTRL); if (ret) return ret; ret = read_poll_timeout(rtw89_read32, val32, !(val32 & B_BE_HAXIDMA_BACKUP_RESTORE_ST), 1000, 3000000, false, rtwdev, R_BE_HCI_OPT_CTRL); if (ret) return ret; rtw89_write32_clr(rtwdev, R_BE_HCI_OPT_CTRL, B_BE_HCI_WLAN_IO_EN); ret = read_poll_timeout(rtw89_read32, val32, !(val32 & B_BE_HCI_WLAN_IO_ST), 1000, 3000000, false, rtwdev, R_BE_HCI_OPT_CTRL); if (ret) return ret; rtw89_write32_set(rtwdev, R_BE_SYS_PW_CTRL, B_BE_APFM_OFFMAC); ret = read_poll_timeout(rtw89_read32, val32, !(val32 & B_BE_APFM_OFFMAC), 1000, 3000000, false, rtwdev, R_BE_SYS_PW_CTRL); if (ret) return ret; rtw89_write32(rtwdev, R_BE_WLLPS_CTRL, 0x00015002); rtw89_write32_clr(rtwdev, R_BE_SYS_PW_CTRL, B_BE_XTAL_OFF_A_DIE); rtw89_write32_set(rtwdev, R_BE_SYS_PW_CTRL, B_BE_APFM_SWLPS); rtw89_write32(rtwdev, R_BE_UDM1, 0); return 0; } static void rtw8922d_efuse_parsing_tssi(struct rtw89_dev *rtwdev, struct rtw8922d_efuse *map) { const struct rtw8922d_tssi_offset_6g * const ofst_6g[] = { &map->path_a_tssi_6g, &map->path_b_tssi_6g, }; const struct rtw8922d_tssi_offset * const ofst[] = { &map->path_a_tssi, &map->path_b_tssi, }; struct rtw89_tssi_info *tssi = &rtwdev->tssi; u8 i, j; tssi->thermal[RF_PATH_A] = map->path_a_therm; tssi->thermal[RF_PATH_B] = map->path_b_therm; for (i = 0; i < RF_PATH_NUM_8922D; i++) { memcpy(tssi->tssi_cck[i], ofst[i]->cck_tssi, TSSI_CCK_CH_GROUP_NUM); for (j = 0; j < TSSI_CCK_CH_GROUP_NUM; j++) rtw89_debug(rtwdev, RTW89_DBG_TSSI, "[TSSI][EFUSE] path=%d cck[%d]=0x%x\n", i, j, tssi->tssi_cck[i][j]); memcpy(tssi->tssi_mcs[i], ofst[i]->bw40_tssi, TSSI_MCS_2G_CH_GROUP_NUM); memcpy(tssi->tssi_mcs[i] + TSSI_MCS_2G_CH_GROUP_NUM, ofst[i]->bw40_1s_tssi_5g, TSSI_MCS_5G_CH_GROUP_NUM); memcpy(tssi->tssi_6g_mcs[i], ofst_6g[i]->bw40_1s_tssi_6g, TSSI_MCS_6G_CH_GROUP_NUM); for (j = 0; j < TSSI_MCS_CH_GROUP_NUM; j++) rtw89_debug(rtwdev, RTW89_DBG_TSSI, "[TSSI][EFUSE] path=%d mcs[%d]=0x%x\n", i, j, tssi->tssi_mcs[i][j]); for (j = 0; j < TSSI_MCS_6G_CH_GROUP_NUM; j++) rtw89_debug(rtwdev, RTW89_DBG_TSSI, "[TSSI][EFUSE] path=%d mcs_6g[%d]=0x%x\n", i, j, tssi->tssi_6g_mcs[i][j]); } } static void __rtw8922d_efuse_parsing_gain_offset(struct rtw89_dev *rtwdev, s8 offset[RTW89_GAIN_OFFSET_NR], const s8 *offset_default, const struct rtw8922d_rx_gain *rx_gain, const struct rtw8922d_rx_gain_6g *rx_gain_6g) { int i; u8 t; offset[RTW89_GAIN_OFFSET_2G_CCK] = rx_gain->_2g_cck; offset[RTW89_GAIN_OFFSET_2G_OFDM] = rx_gain->_2g_ofdm; offset[RTW89_GAIN_OFFSET_5G_LOW] = rx_gain->_5g_low; offset[RTW89_GAIN_OFFSET_5G_MID] = rx_gain->_5g_mid; offset[RTW89_GAIN_OFFSET_5G_HIGH] = rx_gain->_5g_high; offset[RTW89_GAIN_OFFSET_6G_L0] = rx_gain_6g->_6g_l0; offset[RTW89_GAIN_OFFSET_6G_L1] = rx_gain_6g->_6g_l1; offset[RTW89_GAIN_OFFSET_6G_M0] = rx_gain_6g->_6g_m0; offset[RTW89_GAIN_OFFSET_6G_M1] = rx_gain_6g->_6g_m1; offset[RTW89_GAIN_OFFSET_6G_H0] = rx_gain_6g->_6g_h0; offset[RTW89_GAIN_OFFSET_6G_H1] = rx_gain_6g->_6g_h1; offset[RTW89_GAIN_OFFSET_6G_UH0] = rx_gain_6g->_6g_uh0; offset[RTW89_GAIN_OFFSET_6G_UH1] = rx_gain_6g->_6g_uh1; for (i = 0; i < RTW89_GAIN_OFFSET_NR; i++) { t = offset[i]; if (t == 0xff) { if (offset_default) { offset[i] = offset_default[i]; continue; } t = 0; } /* transform: sign-bit + U(7,2) to S(8,2) */ if (t & 0x80) offset[i] = (t ^ 0x7f) + 1; else offset[i] = t; } } static void rtw8922d_efuse_parsing_gain_offset(struct rtw89_dev *rtwdev, struct rtw8922d_efuse *map) { struct rtw89_phy_efuse_gain *gain = &rtwdev->efuse_gain; __rtw8922d_efuse_parsing_gain_offset(rtwdev, gain->offset[RF_PATH_A], NULL, &map->rx_gain_a, &map->rx_gain_6g_a); __rtw8922d_efuse_parsing_gain_offset(rtwdev, gain->offset[RF_PATH_B], NULL, &map->rx_gain_b, &map->rx_gain_6g_b); __rtw8922d_efuse_parsing_gain_offset(rtwdev, gain->offset2[RF_PATH_A], gain->offset[RF_PATH_A], &map->rx_gain_a_2, &map->rx_gain_6g_a_2); __rtw8922d_efuse_parsing_gain_offset(rtwdev, gain->offset2[RF_PATH_B], gain->offset[RF_PATH_B], &map->rx_gain_b_2, &map->rx_gain_6g_b_2); gain->offset_valid = true; } static int rtw8922d_read_efuse_pci_sdio(struct rtw89_dev *rtwdev, u8 *log_map) { struct rtw89_efuse *efuse = &rtwdev->efuse; if (rtwdev->hci.type == RTW89_HCI_TYPE_PCIE) ether_addr_copy(efuse->addr, log_map + 0x4104); else ether_addr_copy(efuse->addr, log_map + 0x001A); return 0; } static int rtw8922d_read_efuse_usb(struct rtw89_dev *rtwdev, u8 *log_map) { struct rtw89_efuse *efuse = &rtwdev->efuse; ether_addr_copy(efuse->addr, log_map + 0x0078); return 0; } static int rtw8922d_read_efuse_rf(struct rtw89_dev *rtwdev, u8 *log_map) { struct rtw8922d_efuse *map = (struct rtw8922d_efuse *)log_map; struct rtw89_efuse *efuse = &rtwdev->efuse; efuse->rfe_type = map->rfe_type; efuse->xtal_cap = map->xtal_k; efuse->country_code[0] = map->country_code[0]; efuse->country_code[1] = map->country_code[1]; efuse->bt_setting_2 = map->bt_setting_2; efuse->bt_setting_3 = map->bt_setting_3; rtw8922d_efuse_parsing_tssi(rtwdev, map); rtw8922d_efuse_parsing_gain_offset(rtwdev, map); return 0; } static int rtw8922d_read_efuse(struct rtw89_dev *rtwdev, u8 *log_map, enum rtw89_efuse_block block) { switch (block) { case RTW89_EFUSE_BLOCK_HCI_DIG_PCIE_SDIO: return rtw8922d_read_efuse_pci_sdio(rtwdev, log_map); case RTW89_EFUSE_BLOCK_HCI_DIG_USB: return rtw8922d_read_efuse_usb(rtwdev, log_map); case RTW89_EFUSE_BLOCK_RF: return rtw8922d_read_efuse_rf(rtwdev, log_map); default: return 0; } } static void rtw8922d_phycap_parsing_vco_trim(struct rtw89_dev *rtwdev, u8 *phycap_map) { static const u32 vco_trim_addr[RF_PATH_NUM_8922D] = {0x175E, 0x175F}; struct rtw89_power_trim_info *info = &rtwdev->pwr_trim; u32 addr = rtwdev->chip->phycap_addr; const u32 vco_check_addr = 0x1700; u8 val; val = phycap_map[vco_check_addr - addr]; if (val & BIT(1)) return; info->pg_vco_trim = true; info->vco_trim[0] = u8_get_bits(phycap_map[vco_trim_addr[0] - addr], GENMASK(4, 0)); info->vco_trim[1] = u8_get_bits(phycap_map[vco_trim_addr[1] - addr], GENMASK(4, 0)); } static void rtw8922d_vco_trim(struct rtw89_dev *rtwdev) { struct rtw89_power_trim_info *info = &rtwdev->pwr_trim; if (!info->pg_vco_trim) return; rtw89_write_rf(rtwdev, RF_PATH_A, RR_VCO, RR_VCO_VAL, info->vco_trim[0]); rtw89_write_rf(rtwdev, RF_PATH_B, RR_VCO, RR_VCO_VAL, info->vco_trim[1]); } #define THM_TRIM_POSITIVE_MASK BIT(6) #define THM_TRIM_MAGNITUDE_MASK GENMASK(5, 0) #define THM_TRIM_MAX (15) #define THM_TRIM_MIN (-15) static void rtw8922d_phycap_parsing_thermal_trim(struct rtw89_dev *rtwdev, u8 *phycap_map) { static const u32 thm_trim_addr[RF_PATH_NUM_8922D] = {0x1706, 0x1732}; struct rtw89_power_trim_info *info = &rtwdev->pwr_trim; u32 addr = rtwdev->chip->phycap_addr; bool pg = true; u8 pg_th; s8 val; u8 i; for (i = 0; i < RF_PATH_NUM_8922D; i++) { pg_th = phycap_map[thm_trim_addr[i] - addr]; if (pg_th == 0xff) { memset(info->thermal_trim, 0, sizeof(info->thermal_trim)); pg = false; goto out; } val = u8_get_bits(pg_th, THM_TRIM_MAGNITUDE_MASK); if (!(pg_th & THM_TRIM_POSITIVE_MASK)) val *= -1; if (val <= THM_TRIM_MIN || val >= THM_TRIM_MAX) { val = 0; info->thermal_trim[i] = 0; } else { info->thermal_trim[i] = pg_th; } rtw89_debug(rtwdev, RTW89_DBG_RFK, "[THERMAL][TRIM] path=%d thermal_trim=0x%x (%d)\n", i, pg_th, val); } out: info->pg_thermal_trim = pg; } static void rtw8922d_thermal_trim(struct rtw89_dev *rtwdev) { struct rtw89_power_trim_info *info = &rtwdev->pwr_trim; u8 thermal; int i; for (i = 0; i < RF_PATH_NUM_8922D; i++) { thermal = info->pg_thermal_trim ? info->thermal_trim[i] : 0; rtw89_write_rf(rtwdev, i, RR_TM, RR_TM_TRM, thermal & 0x7f); } } static void rtw8922d_phycap_parsing_pa_bias_trim(struct rtw89_dev *rtwdev, u8 *phycap_map) { static const u32 pabias_trim_addr[RF_PATH_NUM_8922D] = {0x1707, 0x1733}; static const u32 check_pa_pad_trim_addr = 0x1700; struct rtw89_power_trim_info *info = &rtwdev->pwr_trim; u32 addr = rtwdev->chip->phycap_addr; bool pg = true; u8 val; u8 i; val = phycap_map[check_pa_pad_trim_addr - addr]; if (val == 0xff) { pg = false; goto out; } for (i = 0; i < RF_PATH_NUM_8922D; i++) { info->pa_bias_trim[i] = phycap_map[pabias_trim_addr[i] - addr]; rtw89_debug(rtwdev, RTW89_DBG_RFK, "[PA_BIAS][TRIM] path=%d pa_bias_trim=0x%x\n", i, info->pa_bias_trim[i]); } out: info->pg_pa_bias_trim = pg; } static void rtw8922d_pa_bias_trim(struct rtw89_dev *rtwdev) { struct rtw89_power_trim_info *info = &rtwdev->pwr_trim; u8 pabias_2g, pabias_5g; u8 i; if (!info->pg_pa_bias_trim) { rtw89_debug(rtwdev, RTW89_DBG_RFK, "[PA_BIAS][TRIM] no PG, do nothing\n"); return; } for (i = 0; i < RF_PATH_NUM_8922D; i++) { pabias_2g = FIELD_GET(GENMASK(3, 0), info->pa_bias_trim[i]); pabias_5g = FIELD_GET(GENMASK(7, 4), info->pa_bias_trim[i]); rtw89_debug(rtwdev, RTW89_DBG_RFK, "[PA_BIAS][TRIM] path=%d 2G=0x%x 5G=0x%x\n", i, pabias_2g, pabias_5g); rtw89_write_rf(rtwdev, i, RR_BIASA, RR_BIASA_TXG_V1, pabias_2g); rtw89_write_rf(rtwdev, i, RR_BIASA, RR_BIASA_TXA_V1, pabias_5g); } } static void rtw8922d_phycap_parsing_pad_bias_trim(struct rtw89_dev *rtwdev, u8 *phycap_map) { static const u32 pad_bias_trim_addr[RF_PATH_NUM_8922D] = {0x1708, 0x1734}; struct rtw89_power_trim_info *info = &rtwdev->pwr_trim; u32 addr = rtwdev->chip->phycap_addr; u8 i; if (!info->pg_pa_bias_trim) return; for (i = 0; i < RF_PATH_NUM_8922D; i++) { info->pad_bias_trim[i] = phycap_map[pad_bias_trim_addr[i] - addr]; rtw89_debug(rtwdev, RTW89_DBG_RFK, "[PAD_BIAS][TRIM] path=%d pad_bias_trim=0x%x\n", i, info->pad_bias_trim[i]); } } static void rtw8922d_pad_bias_trim(struct rtw89_dev *rtwdev) { struct rtw89_power_trim_info *info = &rtwdev->pwr_trim; u8 pad_bias_2g, pad_bias_5g; u8 i; if (!info->pg_pa_bias_trim) { rtw89_debug(rtwdev, RTW89_DBG_RFK, "[PAD_BIAS][TRIM] no PG, do nothing\n"); return; } for (i = 0; i < RF_PATH_NUM_8922D; i++) { pad_bias_2g = u8_get_bits(info->pad_bias_trim[i], GENMASK(3, 0)); pad_bias_5g = u8_get_bits(info->pad_bias_trim[i], GENMASK(7, 4)); rtw89_debug(rtwdev, RTW89_DBG_RFK, "[PAD_BIAS][TRIM] path=%d 2G=0x%x 5G=0x%x\n", i, pad_bias_2g, pad_bias_5g); rtw89_write_rf(rtwdev, i, RR_BIASA, RR_BIASD_TXG_V1, pad_bias_2g); rtw89_write_rf(rtwdev, i, RR_BIASA, RR_BIASD_TXA_V1, pad_bias_5g); } } static int rtw8922d_read_phycap(struct rtw89_dev *rtwdev, u8 *phycap_map) { rtw8922d_phycap_parsing_vco_trim(rtwdev, phycap_map); rtw8922d_phycap_parsing_thermal_trim(rtwdev, phycap_map); rtw8922d_phycap_parsing_pa_bias_trim(rtwdev, phycap_map); rtw8922d_phycap_parsing_pad_bias_trim(rtwdev, phycap_map); return 0; } static void rtw8922d_power_trim(struct rtw89_dev *rtwdev) { rtw8922d_vco_trim(rtwdev); rtw8922d_thermal_trim(rtwdev); rtw8922d_pa_bias_trim(rtwdev); rtw8922d_pad_bias_trim(rtwdev); } static void rtw8922d_set_channel_mac(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, u8 mac_idx) { u32 sub_carr = rtw89_mac_reg_by_idx(rtwdev, R_BE_TX_SUB_BAND_VALUE, mac_idx); u32 chk_rate = rtw89_mac_reg_by_idx(rtwdev, R_BE_TXRATE_CHK, mac_idx); u32 rf_mod = rtw89_mac_reg_by_idx(rtwdev, R_BE_WMAC_RFMOD, mac_idx); u8 txsb20 = 0, txsb40 = 0, txsb80 = 0; u8 rf_mod_val, chk_rate_mask, sifs; u32 txsb; u32 reg; switch (chan->band_width) { case RTW89_CHANNEL_WIDTH_160: txsb80 = rtw89_phy_get_txsb(rtwdev, chan, RTW89_CHANNEL_WIDTH_80); fallthrough; case RTW89_CHANNEL_WIDTH_80: txsb40 = rtw89_phy_get_txsb(rtwdev, chan, RTW89_CHANNEL_WIDTH_40); fallthrough; case RTW89_CHANNEL_WIDTH_40: txsb20 = rtw89_phy_get_txsb(rtwdev, chan, RTW89_CHANNEL_WIDTH_20); break; default: break; } switch (chan->band_width) { case RTW89_CHANNEL_WIDTH_160: rf_mod_val = BE_WMAC_RFMOD_160M; txsb = u32_encode_bits(txsb20, B_BE_TXSB_20M_MASK) | u32_encode_bits(txsb40, B_BE_TXSB_40M_MASK) | u32_encode_bits(txsb80, B_BE_TXSB_80M_MASK); break; case RTW89_CHANNEL_WIDTH_80: rf_mod_val = BE_WMAC_RFMOD_80M; txsb = u32_encode_bits(txsb20, B_BE_TXSB_20M_MASK) | u32_encode_bits(txsb40, B_BE_TXSB_40M_MASK); break; case RTW89_CHANNEL_WIDTH_40: rf_mod_val = BE_WMAC_RFMOD_40M; txsb = u32_encode_bits(txsb20, B_BE_TXSB_20M_MASK); break; case RTW89_CHANNEL_WIDTH_20: default: rf_mod_val = BE_WMAC_RFMOD_20M; txsb = 0; break; } if (txsb20 <= BE_PRI20_BITMAP_MAX) txsb |= u32_encode_bits(BIT(txsb20), B_BE_PRI20_BITMAP_MASK); rtw89_write8_mask(rtwdev, rf_mod, B_BE_WMAC_RFMOD_MASK, rf_mod_val); rtw89_write32(rtwdev, sub_carr, txsb); switch (chan->band_type) { case RTW89_BAND_2G: chk_rate_mask = B_BE_BAND_MODE; break; case RTW89_BAND_5G: case RTW89_BAND_6G: chk_rate_mask = B_BE_CHECK_CCK_EN | B_BE_RTS_LIMIT_IN_OFDM6; break; default: rtw89_warn(rtwdev, "Invalid band_type:%d\n", chan->band_type); return; } rtw89_write8_clr(rtwdev, chk_rate, B_BE_BAND_MODE | B_BE_CHECK_CCK_EN | B_BE_RTS_LIMIT_IN_OFDM6); rtw89_write8_set(rtwdev, chk_rate, chk_rate_mask); switch (chan->band_width) { case RTW89_CHANNEL_WIDTH_160: sifs = 0x8C; break; case RTW89_CHANNEL_WIDTH_80: sifs = 0x8A; break; case RTW89_CHANNEL_WIDTH_40: sifs = 0x84; break; case RTW89_CHANNEL_WIDTH_20: default: sifs = 0x82; } reg = rtw89_mac_reg_by_idx(rtwdev, R_BE_MUEDCA_EN, mac_idx); rtw89_write32_mask(rtwdev, reg, B_BE_SIFS_MACTXEN_TB_T1_DOT05US_MASK, sifs); } static const u32 rtw8922d_sco_barker_threshold[14] = { 0x1fe4f, 0x1ff5e, 0x2006c, 0x2017b, 0x2028a, 0x20399, 0x204a8, 0x205b6, 0x206c5, 0x207d4, 0x208e3, 0x209f2, 0x20b00, 0x20d8a }; static const u32 rtw8922d_sco_cck_threshold[14] = { 0x2bdac, 0x2bf21, 0x2c095, 0x2c209, 0x2c37e, 0x2c4f2, 0x2c666, 0x2c7db, 0x2c94f, 0x2cac3, 0x2cc38, 0x2cdac, 0x2cf21, 0x2d29e }; static int rtw8922d_ctrl_sco_cck(struct rtw89_dev *rtwdev, u8 primary_ch, enum rtw89_bandwidth bw, enum rtw89_phy_idx phy_idx) { u8 ch_element; if (primary_ch >= 14) return -EINVAL; ch_element = primary_ch - 1; rtw89_phy_write32_idx(rtwdev, R_BK_FC0_INV_BE4, B_BK_FC0_INV_BE4, rtw8922d_sco_barker_threshold[ch_element], phy_idx); rtw89_phy_write32_idx(rtwdev, R_CCK_FC0_INV_BE4, B_CCK_FC0_INV_BE4, rtw8922d_sco_cck_threshold[ch_element], phy_idx); return 0; } static void rtw8922d_ctrl_ch_core(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_phy_idx phy_idx) { u16 central_freq = chan->freq; u16 sco; if (chan->band_type == RTW89_BAND_2G) { rtw89_phy_write32_idx(rtwdev, R_BAND_SEL0_BE4, B_BAND_SEL0_BE4, 1, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BAND_SEL1_BE4, B_BAND_SEL1_BE4, 1, phy_idx); rtw89_phy_write32_idx(rtwdev, R_ENABLE_CCK0_BE4, B_ENABLE_CCK0_BE4, 1, phy_idx); } else { rtw89_phy_write32_idx(rtwdev, R_BAND_SEL0_BE4, B_BAND_SEL0_BE4, 0, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BAND_SEL1_BE4, B_BAND_SEL1_BE4, 0, phy_idx); rtw89_phy_write32_idx(rtwdev, R_ENABLE_CCK0_BE4, B_ENABLE_CCK0_BE4, 0, phy_idx); } rtw89_phy_write32_idx(rtwdev, R_FC0_BE4, B_FC0_BE4, central_freq, phy_idx); sco = phy_div((BIT(0) << 27) + (central_freq / 2), central_freq); rtw89_phy_write32_idx(rtwdev, R_FC0_INV_BE4, B_FC0_INV_BE4, sco, phy_idx); } struct rtw8922d_bb_gain { u32 gain_g[BB_PATH_NUM_8922D]; u32 gain_a[BB_PATH_NUM_8922D]; u32 gain_g_mask; u32 gain_a_mask; }; static const struct rtw89_reg_def rpl_comp_bw160[RTW89_BW20_SC_160M] = { { .addr = 0x241E8, .mask = 0xFF00}, { .addr = 0x241E8, .mask = 0xFF0000}, { .addr = 0x241E8, .mask = 0xFF000000}, { .addr = 0x241EC, .mask = 0xFF}, { .addr = 0x241EC, .mask = 0xFF00}, { .addr = 0x241EC, .mask = 0xFF0000}, { .addr = 0x241EC, .mask = 0xFF000000}, { .addr = 0x241F0, .mask = 0xFF} }; static const struct rtw89_reg_def rpl_comp_bw80[RTW89_BW20_SC_80M] = { { .addr = 0x241F4, .mask = 0xFF}, { .addr = 0x241F4, .mask = 0xFF00}, { .addr = 0x241F4, .mask = 0xFF0000}, { .addr = 0x241F4, .mask = 0xFF000000} }; static const struct rtw89_reg_def rpl_comp_bw40[RTW89_BW20_SC_40M] = { { .addr = 0x241F0, .mask = 0xFF0000}, { .addr = 0x241F0, .mask = 0xFF000000} }; static const struct rtw89_reg_def rpl_comp_bw20[RTW89_BW20_SC_20M] = { { .addr = 0x241F0, .mask = 0xFF00} }; static const struct rtw8922d_bb_gain bb_gain_lna[LNA_GAIN_NUM] = { { .gain_g = {0x2409C, 0x2449C}, .gain_a = {0x2406C, 0x2446C}, .gain_g_mask = 0xFF00, .gain_a_mask = 0xFF}, { .gain_g = {0x2409C, 0x2449C}, .gain_a = {0x2406C, 0x2446C}, .gain_g_mask = 0xFF000000, .gain_a_mask = 0xFF0000}, { .gain_g = {0x240A0, 0x244A0}, .gain_a = {0x24070, 0x24470}, .gain_g_mask = 0xFF00, .gain_a_mask = 0xFF}, { .gain_g = {0x240A0, 0x244A0}, .gain_a = {0x24070, 0x24470}, .gain_g_mask = 0xFF000000, .gain_a_mask = 0xFF0000}, { .gain_g = {0x240A4, 0x244A4}, .gain_a = {0x24074, 0x24474}, .gain_g_mask = 0xFF00, .gain_a_mask = 0xFF}, { .gain_g = {0x240A4, 0x244A4}, .gain_a = {0x24074, 0x24474}, .gain_g_mask = 0xFF000000, .gain_a_mask = 0xFF0000}, { .gain_g = {0x240A8, 0x244A8}, .gain_a = {0x24078, 0x24478}, .gain_g_mask = 0xFF00, .gain_a_mask = 0xFF}, }; static const struct rtw8922d_bb_gain bb_gain_tia[TIA_GAIN_NUM] = { { .gain_g = {0x24054, 0x24454}, .gain_a = {0x24054, 0x24454}, .gain_g_mask = 0x7FC0000, .gain_a_mask = 0x1FF}, { .gain_g = {0x24058, 0x24458}, .gain_a = {0x24054, 0x24454}, .gain_g_mask = 0x1FF, .gain_a_mask = 0x3FE00 }, }; static const struct rtw8922d_bb_gain bb_op1db_lna[LNA_GAIN_NUM] = { { .gain_g = {0x240AC, 0x244AC}, .gain_a = {0x24078, 0x24478}, .gain_g_mask = 0xFF00, .gain_a_mask = 0xFF000000}, { .gain_g = {0x240AC, 0x244AC}, .gain_a = {0x2407C, 0x2447C}, .gain_g_mask = 0xFF0000, .gain_a_mask = 0xFF}, { .gain_g = {0x240AC, 0x244AC}, .gain_a = {0x2407C, 0x2447C}, .gain_g_mask = 0xFF000000, .gain_a_mask = 0xFF00}, { .gain_g = {0x240B0, 0x244B0}, .gain_a = {0x2407C, 0x2447C}, .gain_g_mask = 0xFF, .gain_a_mask = 0xFF0000}, { .gain_g = {0x240B0, 0x244B0}, .gain_a = {0x2407C, 0x2447C}, .gain_g_mask = 0xFF00, .gain_a_mask = 0xFF000000}, { .gain_g = {0x240B0, 0x244B0}, .gain_a = {0x24080, 0x24480}, .gain_g_mask = 0xFF0000, .gain_a_mask = 0xFF}, { .gain_g = {0x240B0, 0x244B0}, .gain_a = {0x24080, 0x24480}, .gain_g_mask = 0xFF000000, .gain_a_mask = 0xFF00}, }; static const struct rtw8922d_bb_gain bb_op1db_tia_lna[TIA_LNA_OP1DB_NUM] = { { .gain_g = {0x240B4, 0x244B4}, .gain_a = {0x24080, 0x24480}, .gain_g_mask = 0xFF0000, .gain_a_mask = 0xFF000000}, { .gain_g = {0x240B4, 0x244B4}, .gain_a = {0x24084, 0x24484}, .gain_g_mask = 0xFF000000, .gain_a_mask = 0xFF}, { .gain_g = {0x240B8, 0x244B8}, .gain_a = {0x24084, 0x24484}, .gain_g_mask = 0xFF, .gain_a_mask = 0xFF00}, { .gain_g = {0x240B8, 0x244B8}, .gain_a = {0x24084, 0x24484}, .gain_g_mask = 0xFF00, .gain_a_mask = 0xFF0000}, { .gain_g = {0x240B8, 0x244B8}, .gain_a = {0x24084, 0x24484}, .gain_g_mask = 0xFF0000, .gain_a_mask = 0xFF000000}, { .gain_g = {0x240B8, 0x244B8}, .gain_a = {0x24088, 0x24488}, .gain_g_mask = 0xFF000000, .gain_a_mask = 0xFF}, { .gain_g = {0x240BC, 0x244BC}, .gain_a = {0x24088, 0x24488}, .gain_g_mask = 0xFF, .gain_a_mask = 0xFF00}, { .gain_g = {0x240BC, 0x244BC}, .gain_a = {0x24088, 0x24488}, .gain_g_mask = 0xFF00, .gain_a_mask = 0xFF0000}, }; static void rtw8922d_set_rpl_gain(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_rf_path path, enum rtw89_phy_idx phy_idx) { const struct rtw89_phy_bb_gain_info_be *gain = &rtwdev->bb_gain.be; u8 gain_band = rtw89_subband_to_gain_band_be(chan->subband_type); u32 reg_path_ofst = 0; u32 mask; s32 val; u32 reg; int i; if (path == RF_PATH_B) reg_path_ofst = 0x400; for (i = 0; i < RTW89_BW20_SC_160M; i++) { reg = rpl_comp_bw160[i].addr | reg_path_ofst; mask = rpl_comp_bw160[i].mask; val = gain->rpl_ofst_160[gain_band][path][i]; rtw89_phy_write32_idx(rtwdev, reg, mask, val, phy_idx); } for (i = 0; i < RTW89_BW20_SC_80M; i++) { reg = rpl_comp_bw80[i].addr | reg_path_ofst; mask = rpl_comp_bw80[i].mask; val = gain->rpl_ofst_80[gain_band][path][i]; rtw89_phy_write32_idx(rtwdev, reg, mask, val, phy_idx); } for (i = 0; i < RTW89_BW20_SC_40M; i++) { reg = rpl_comp_bw40[i].addr | reg_path_ofst; mask = rpl_comp_bw40[i].mask; val = gain->rpl_ofst_40[gain_band][path][i]; rtw89_phy_write32_idx(rtwdev, reg, mask, val, phy_idx); } for (i = 0; i < RTW89_BW20_SC_20M; i++) { reg = rpl_comp_bw20[i].addr | reg_path_ofst; mask = rpl_comp_bw20[i].mask; val = gain->rpl_ofst_20[gain_band][path][i]; rtw89_phy_write32_idx(rtwdev, reg, mask, val, phy_idx); } } static void rtw8922d_set_lna_tia_gain(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_rf_path path, enum rtw89_phy_idx phy_idx) { const struct rtw89_phy_bb_gain_info_be *gain = &rtwdev->bb_gain.be; u8 gain_band = rtw89_subband_to_gain_band_be(chan->subband_type); enum rtw89_phy_bb_bw_be bw_type; u32 mask; s32 val; u32 reg; int i; bw_type = chan->band_width <= RTW89_CHANNEL_WIDTH_40 ? RTW89_BB_BW_20_40 : RTW89_BB_BW_80_160_320; for (i = 0; i < LNA_GAIN_NUM; i++) { if (chan->band_type == RTW89_BAND_2G) { reg = bb_gain_lna[i].gain_g[path]; mask = bb_gain_lna[i].gain_g_mask; } else { reg = bb_gain_lna[i].gain_a[path]; mask = bb_gain_lna[i].gain_a_mask; } val = gain->lna_gain[gain_band][bw_type][path][i]; rtw89_phy_write32_idx(rtwdev, reg, mask, val, phy_idx); } for (i = 0; i < TIA_GAIN_NUM; i++) { if (chan->band_type == RTW89_BAND_2G) { reg = bb_gain_tia[i].gain_g[path]; mask = bb_gain_tia[i].gain_g_mask; } else { reg = bb_gain_tia[i].gain_a[path]; mask = bb_gain_tia[i].gain_a_mask; } val = gain->tia_gain[gain_band][bw_type][path][i]; rtw89_phy_write32_idx(rtwdev, reg, mask, val, phy_idx); } } static void rtw8922d_set_op1db(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_rf_path path, enum rtw89_phy_idx phy_idx) { const struct rtw89_phy_bb_gain_info_be *gain = &rtwdev->bb_gain.be; u8 gain_band = rtw89_subband_to_gain_band_be(chan->subband_type); enum rtw89_phy_bb_bw_be bw_type; u32 mask; s32 val; u32 reg; int i; bw_type = chan->band_width <= RTW89_CHANNEL_WIDTH_40 ? RTW89_BB_BW_20_40 : RTW89_BB_BW_80_160_320; for (i = 0; i < LNA_GAIN_NUM; i++) { if (chan->band_type == RTW89_BAND_2G) { reg = bb_op1db_lna[i].gain_g[path]; mask = bb_op1db_lna[i].gain_g_mask; } else { reg = bb_op1db_lna[i].gain_a[path]; mask = bb_op1db_lna[i].gain_a_mask; } val = gain->lna_op1db[gain_band][bw_type][path][i]; rtw89_phy_write32_idx(rtwdev, reg, mask, val, phy_idx); } for (i = 0; i < TIA_LNA_OP1DB_NUM; i++) { if (chan->band_type == RTW89_BAND_2G) { reg = bb_op1db_tia_lna[i].gain_g[path]; mask = bb_op1db_tia_lna[i].gain_g_mask; } else { reg = bb_op1db_tia_lna[i].gain_a[path]; mask = bb_op1db_tia_lna[i].gain_a_mask; } val = gain->tia_lna_op1db[gain_band][bw_type][path][i]; rtw89_phy_write32_idx(rtwdev, reg, mask, val, phy_idx); } } static void rtw8922d_set_gain(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_rf_path path, enum rtw89_phy_idx phy_idx) { rtw8922d_set_rpl_gain(rtwdev, chan, path, phy_idx); rtw8922d_set_lna_tia_gain(rtwdev, chan, path, phy_idx); rtw8922d_set_op1db(rtwdev, chan, path, phy_idx); } static s8 rtw8922d_get_rx_gain_by_chan(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_rf_path path, bool is_cck) { struct rtw89_phy_efuse_gain *gain = &rtwdev->efuse_gain; enum rtw89_gain_offset band; u8 fc_ch = chan->channel; s8 normal_efuse = 0; if (path > RF_PATH_B) return 0; if (is_cck) { if (fc_ch >= 1 && fc_ch <= 7) return gain->offset[path][RTW89_GAIN_OFFSET_2G_CCK]; else if (fc_ch >= 8 && fc_ch <= 14) return gain->offset2[path][RTW89_GAIN_OFFSET_2G_CCK]; return 0; } band = rtw89_subband_to_gain_offset_band_of_ofdm(chan->subband_type); if (band == RTW89_GAIN_OFFSET_2G_OFDM) { if (fc_ch >= 1 && fc_ch <= 7) normal_efuse = gain->offset[path][band]; else if (fc_ch >= 8 && fc_ch <= 14) normal_efuse = gain->offset2[path][band]; } else if (band == RTW89_GAIN_OFFSET_5G_LOW) { if (fc_ch == 50) normal_efuse = (gain->offset[path][band] + gain->offset2[path][band]) >> 1; else if (fc_ch >= 36 && fc_ch <= 48) normal_efuse = gain->offset[path][band]; else if (fc_ch >= 52 && fc_ch <= 64) normal_efuse = gain->offset2[path][band]; } else if (band == RTW89_GAIN_OFFSET_5G_MID) { if (fc_ch == 122) normal_efuse = (gain->offset[path][band] + gain->offset2[path][band]) >> 1; else if (fc_ch >= 100 && fc_ch <= 120) normal_efuse = gain->offset[path][band]; else if (fc_ch >= 124 && fc_ch <= 144) normal_efuse = gain->offset2[path][band]; } else if (band == RTW89_GAIN_OFFSET_5G_HIGH) { if (fc_ch == 163) normal_efuse = (gain->offset[path][band] + gain->offset2[path][band]) >> 1; else if (fc_ch >= 149 && fc_ch <= 161) normal_efuse = gain->offset[path][band]; else if (fc_ch >= 165 && fc_ch <= 177) normal_efuse = gain->offset2[path][band]; } else if (band == RTW89_GAIN_OFFSET_6G_L0) { if (fc_ch == 15) normal_efuse = (gain->offset[path][band] + gain->offset2[path][band]) >> 1; else if (fc_ch >= 1 && fc_ch <= 13) normal_efuse = gain->offset[path][band]; else if (fc_ch >= 17 && fc_ch <= 29) normal_efuse = gain->offset2[path][band]; } else if (band == RTW89_GAIN_OFFSET_6G_L1) { if (fc_ch == 47) normal_efuse = (gain->offset[path][band] + gain->offset2[path][band]) >> 1; else if (fc_ch >= 33 && fc_ch <= 45) normal_efuse = gain->offset[path][band]; else if (fc_ch >= 49 && fc_ch <= 61) normal_efuse = gain->offset2[path][band]; } else if (band == RTW89_GAIN_OFFSET_6G_M0) { if (fc_ch == 79) normal_efuse = (gain->offset[path][band] + gain->offset2[path][band]) >> 1; else if (fc_ch >= 65 && fc_ch <= 77) normal_efuse = gain->offset[path][band]; else if (fc_ch >= 81 && fc_ch <= 93) normal_efuse = gain->offset2[path][band]; } else if (band == RTW89_GAIN_OFFSET_6G_M1) { if (fc_ch == 111) normal_efuse = (gain->offset[path][band] + gain->offset2[path][band]) >> 1; else if (fc_ch >= 97 && fc_ch <= 109) normal_efuse = gain->offset[path][band]; else if (fc_ch >= 113 && fc_ch <= 125) normal_efuse = gain->offset2[path][band]; } else if (band == RTW89_GAIN_OFFSET_6G_H0) { if (fc_ch == 143) normal_efuse = (gain->offset[path][band] + gain->offset2[path][band]) >> 1; else if (fc_ch >= 129 && fc_ch <= 141) normal_efuse = gain->offset[path][band]; else if (fc_ch >= 145 && fc_ch <= 157) normal_efuse = gain->offset2[path][band]; } else if (band == RTW89_GAIN_OFFSET_6G_H1) { if (fc_ch == 175) normal_efuse = (gain->offset[path][band] + gain->offset2[path][band]) >> 1; else if (fc_ch >= 161 && fc_ch <= 173) normal_efuse = gain->offset[path][band]; else if (fc_ch >= 177 && fc_ch <= 189) normal_efuse = gain->offset2[path][band]; } else if (band == RTW89_GAIN_OFFSET_6G_UH0) { if (fc_ch == 207) normal_efuse = (gain->offset[path][band] + gain->offset2[path][band]) >> 1; else if (fc_ch >= 193 && fc_ch <= 205) normal_efuse = gain->offset[path][band]; else if (fc_ch >= 209 && fc_ch <= 221) normal_efuse = gain->offset2[path][band]; } else if (band == RTW89_GAIN_OFFSET_6G_UH1) { if (fc_ch == 239) normal_efuse = (gain->offset[path][band] + gain->offset2[path][band]) >> 1; else if (fc_ch >= 225 && fc_ch <= 237) normal_efuse = gain->offset[path][band]; else if (fc_ch >= 241 && fc_ch <= 253) normal_efuse = gain->offset2[path][band]; } else { normal_efuse = gain->offset[path][band]; } return normal_efuse; } static void rtw8922d_calc_rx_gain_normal_cck(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_rf_path path, enum rtw89_phy_idx phy_idx, struct rtw89_phy_calc_efuse_gain *calc) { struct rtw89_phy_efuse_gain *gain = &rtwdev->efuse_gain; s8 rx_gain_offset; rx_gain_offset = -rtw8922d_get_rx_gain_by_chan(rtwdev, chan, path, true); if (chan->band_width == RTW89_CHANNEL_WIDTH_40) rx_gain_offset += (3 << 2); /* compensate RPL loss of 3dB */ calc->cck_mean_gain_bias = (rx_gain_offset & 0x3) << 1; calc->cck_rpl_ofst = (rx_gain_offset >> 2) + gain->cck_rpl_base[phy_idx]; } static void rtw8922d_set_rx_gain_normal_cck(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_rf_path path, enum rtw89_phy_idx phy_idx) { struct rtw89_phy_calc_efuse_gain calc = {}; rtw8922d_calc_rx_gain_normal_cck(rtwdev, chan, path, phy_idx, &calc); rtw89_phy_write32_idx(rtwdev, R_GAIN_BIAS_BE4, B_GAIN_BIAS_BW20_BE4, calc.cck_mean_gain_bias, phy_idx); rtw89_phy_write32_idx(rtwdev, R_GAIN_BIAS_BE4, B_GAIN_BIAS_BW40_BE4, calc.cck_mean_gain_bias, phy_idx); rtw89_phy_write32_idx(rtwdev, R_CCK_RPL_OFST_BE4, B_CCK_RPL_OFST_BE4, calc.cck_rpl_ofst, phy_idx); } static void rtw8922d_calc_rx_gain_normal_ofdm(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_rf_path path, enum rtw89_phy_idx phy_idx, struct rtw89_phy_calc_efuse_gain *calc) { struct rtw89_phy_efuse_gain *gain = &rtwdev->efuse_gain; s8 rx_gain_offset; rx_gain_offset = rtw8922d_get_rx_gain_by_chan(rtwdev, chan, path, false); calc->rssi_ofst = (rx_gain_offset + gain->ref_gain_base[phy_idx]) & 0xff; } static void rtw8922d_set_rx_gain_normal_ofdm(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_rf_path path, enum rtw89_phy_idx phy_idx) { static const u32 rssi_ofst_addr[2] = {R_OFDM_OFST_P0_BE4, R_OFDM_OFST_P1_BE4}; static const u32 rssi_ofst_addr_m[2] = {B_OFDM_OFST_P0_BE4, B_OFDM_OFST_P1_BE4}; static const u32 rpl_bias_comp[2] = {R_OFDM_RPL_BIAS_P0_BE4, R_OFDM_RPL_BIAS_P1_BE4}; static const u32 rpl_bias_comp_m[2] = {B_OFDM_RPL_BIAS_P0_BE4, B_OFDM_RPL_BIAS_P1_BE4}; struct rtw89_phy_calc_efuse_gain calc = {}; rtw8922d_calc_rx_gain_normal_ofdm(rtwdev, chan, path, phy_idx, &calc); rtw89_phy_write32_idx(rtwdev, rssi_ofst_addr[path], rssi_ofst_addr_m[path], calc.rssi_ofst, phy_idx); rtw89_phy_write32_idx(rtwdev, rpl_bias_comp[path], rpl_bias_comp_m[path], 0, phy_idx); } static void rtw8922d_set_rx_gain_normal(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_rf_path path, enum rtw89_phy_idx phy_idx) { struct rtw89_phy_efuse_gain *gain = &rtwdev->efuse_gain; if (!gain->offset_valid) return; if (chan->band_type == RTW89_BAND_2G) rtw8922d_set_rx_gain_normal_cck(rtwdev, chan, path, phy_idx); rtw8922d_set_rx_gain_normal_ofdm(rtwdev, chan, path, phy_idx); } static void rtw8922d_calc_rx_gain_normal(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_rf_path path, enum rtw89_phy_idx phy_idx, struct rtw89_phy_calc_efuse_gain *calc) { rtw8922d_calc_rx_gain_normal_ofdm(rtwdev, chan, path, phy_idx, calc); if (chan->band_type != RTW89_BAND_2G) return; rtw8922d_calc_rx_gain_normal_cck(rtwdev, chan, path, phy_idx, calc); } static void rtw8922d_set_cck_parameters(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_phy_idx phy_idx) { u8 regd = rtw89_regd_get(rtwdev, chan->band_type); u8 central_ch = chan->channel; if (central_ch == 14) { rtw89_phy_write32_idx(rtwdev, R_PCOEFF0_BE4, B_PCOEFF01_BE4, 0x3b13ff, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF2_BE4, B_PCOEFF23_BE4, 0x1c42de, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF4_BE4, B_PCOEFF45_BE4, 0xfdb0ad, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF6_BE4, B_PCOEFF67_BE4, 0xf60f6e, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF8_BE4, B_PCOEFF89_BE4, 0xfd8f92, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF10_BE4, B_PCOEFF10_BE4, 0x2d011, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF12_BE4, B_PCOEFF12_BE4, 0x1c02c, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF14_BE4, B_PCOEFF14_BE4, 0xfff00a, phy_idx); return; } if (regd == RTW89_FCC) { rtw89_phy_write32_idx(rtwdev, R_PCOEFF0_BE4, B_PCOEFF01_BE4, 0x39A3BC, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF2_BE4, B_PCOEFF23_BE4, 0x2AA339, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF4_BE4, B_PCOEFF45_BE4, 0x15B202, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF6_BE4, B_PCOEFF67_BE4, 0x0550C7, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF8_BE4, B_PCOEFF89_BE4, 0xfe0009, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF10_BE4, B_PCOEFF10_BE4, 0xfd7fd3, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF12_BE4, B_PCOEFF12_BE4, 0xfeffe2, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF14_BE4, B_PCOEFF14_BE4, 0xffeff8, phy_idx); } else { rtw89_phy_write32_idx(rtwdev, R_PCOEFF0_BE4, B_PCOEFF01_BE4, 0x3d23ff, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF2_BE4, B_PCOEFF23_BE4, 0x29b354, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF4_BE4, B_PCOEFF45_BE4, 0xfc1c8, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF6_BE4, B_PCOEFF67_BE4, 0xfdb053, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF8_BE4, B_PCOEFF89_BE4, 0xf86f9a, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF10_BE4, B_PCOEFF10_BE4, 0xfaef92, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF12_BE4, B_PCOEFF12_BE4, 0xfe5fcc, phy_idx); rtw89_phy_write32_idx(rtwdev, R_PCOEFF14_BE4, B_PCOEFF14_BE4, 0xffdff5, phy_idx); } } static void rtw8922d_ctrl_ch(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_phy_idx phy_idx) { u16 central_freq = chan->freq; u8 band = chan->band_type; u8 chan_idx; if (!central_freq) { rtw89_warn(rtwdev, "Invalid central_freq\n"); return; } rtw8922d_ctrl_ch_core(rtwdev, chan, phy_idx); chan_idx = rtw89_encode_chan_idx(rtwdev, chan->primary_channel, band); rtw89_phy_write32_idx(rtwdev, R_MAC_PIN_SEL_BE4, B_CH_IDX_SEG0, chan_idx, phy_idx); rtw8922d_set_gain(rtwdev, chan, RF_PATH_A, phy_idx); rtw8922d_set_gain(rtwdev, chan, RF_PATH_B, phy_idx); rtw8922d_set_rx_gain_normal(rtwdev, chan, RF_PATH_A, phy_idx); rtw8922d_set_rx_gain_normal(rtwdev, chan, RF_PATH_B, phy_idx); if (band == RTW89_BAND_2G) rtw8922d_set_cck_parameters(rtwdev, chan, phy_idx); } static void rtw8922d_ctrl_bw(struct rtw89_dev *rtwdev, u8 pri_sb, u8 bw, enum rtw89_phy_idx phy_idx) { switch (bw) { default: case RTW89_CHANNEL_WIDTH_20: rtw89_phy_write32_idx(rtwdev, R_BW_BE4, B_BW_BE4, 0x0, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BW_BE4, B_PRISB_BE4, 0x0, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXBW_BE4, B_RXBW_BE4, 0x2, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXBW67_BE4, B_RXBW6_BE4, 0x2, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXBW67_BE4, B_RXBW7_BE4, 0x2, phy_idx); break; case RTW89_CHANNEL_WIDTH_40: rtw89_phy_write32_idx(rtwdev, R_BW_BE4, B_BW_BE4, 0x1, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BW_BE4, B_PRISB_BE4, pri_sb, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXBW_BE4, B_RXBW_BE4, 0x3, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXBW67_BE4, B_RXBW6_BE4, 0x3, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXBW67_BE4, B_RXBW7_BE4, 0x3, phy_idx); break; case RTW89_CHANNEL_WIDTH_80: rtw89_phy_write32_idx(rtwdev, R_BW_BE4, B_BW_BE4, 0x2, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BW_BE4, B_PRISB_BE4, pri_sb, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXBW_BE4, B_RXBW_BE4, 0x4, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXBW67_BE4, B_RXBW6_BE4, 0x4, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXBW67_BE4, B_RXBW7_BE4, 0x4, phy_idx); break; case RTW89_CHANNEL_WIDTH_160: rtw89_phy_write32_idx(rtwdev, R_BW_BE4, B_BW_BE4, 0x3, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BW_BE4, B_PRISB_BE4, pri_sb, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXBW_BE4, B_RXBW_BE4, 0x5, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXBW67_BE4, B_RXBW6_BE4, 0x5, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXBW67_BE4, B_RXBW7_BE4, 0x5, phy_idx); break; } } static const u16 spur_nbi_a[] = {6400}; static const u16 spur_csi[] = {6400}; static u32 rtw8922d_spur_freq(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, bool nbi_or_csi, enum rtw89_rf_path path) { static const u16 cbw[RTW89_CHANNEL_WIDTH_ORDINARY_NUM] = { 20, 40, 80, 160, 320, }; u16 freq_lower, freq_upper, freq; const u16 *spur_freq; int spur_freq_nr, i; if (rtwdev->hal.aid != RTL8922D_AID7060) return 0; if (nbi_or_csi && path == RF_PATH_A) { spur_freq = spur_nbi_a; spur_freq_nr = ARRAY_SIZE(spur_nbi_a); } else if (!nbi_or_csi) { spur_freq = spur_csi; spur_freq_nr = ARRAY_SIZE(spur_csi); } else { return 0; } if (chan->band_width >= RTW89_CHANNEL_WIDTH_ORDINARY_NUM) return 0; freq_lower = chan->freq - cbw[chan->band_width] / 2; freq_upper = chan->freq + cbw[chan->band_width] / 2; for (i = 0; i < spur_freq_nr; i++) { freq = spur_freq[i]; if (freq >= freq_lower && freq <= freq_upper) return freq; } return 0; } #define CARRIER_SPACING_312_5 312500 /* 312.5 kHz */ #define CARRIER_SPACING_78_125 78125 /* 78.125 kHz */ #define MAX_TONE_NUM 2048 static void rtw8922d_set_csi_tone_idx(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_phy_idx phy_idx) { s32 freq_diff, csi_idx, csi_tone_idx; u32 spur_freq; spur_freq = rtw8922d_spur_freq(rtwdev, chan, false, RF_PATH_AB); if (spur_freq == 0) { rtw89_phy_write32_idx(rtwdev, R_CSI_WGT_BE4, B_CSI_WGT_EN_BE4, 0, phy_idx); return; } freq_diff = (spur_freq - chan->freq) * 1000000; csi_idx = s32_div_u32_round_closest(freq_diff, CARRIER_SPACING_78_125); s32_div_u32_round_down(csi_idx, MAX_TONE_NUM, &csi_tone_idx); rtw89_phy_write32_idx(rtwdev, R_CSI_WGT_BE4, B_CSI_WGT_IDX_BE4, csi_tone_idx, phy_idx); rtw89_phy_write32_idx(rtwdev, R_CSI_WGT_BE4, B_CSI_WGT_EN_BE4, 1, phy_idx); } static const struct rtw89_nbi_reg_def rtw8922d_nbi_reg_def[] = { [RF_PATH_A] = { .notch1_idx = {0x241A0, 0xFF}, .notch1_frac_idx = {0x241A0, 0xC00}, .notch1_en = {0x241A0, 0x1000}, .notch2_idx = {0x241AC, 0xFF}, .notch2_frac_idx = {0x241AC, 0xC00}, .notch2_en = {0x241AC, 0x1000}, }, [RF_PATH_B] = { .notch1_idx = {0x245A0, 0xFF}, .notch1_frac_idx = {0x245A0, 0xC00}, .notch1_en = {0x245A0, 0x1000}, .notch2_idx = {0x245AC, 0xFF}, .notch2_frac_idx = {0x245AC, 0xC00}, .notch2_en = {0x245AC, 0x1000}, }, }; static void rtw8922d_set_nbi_tone_idx(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_rf_path path, enum rtw89_phy_idx phy_idx) { const struct rtw89_nbi_reg_def *nbi = &rtw8922d_nbi_reg_def[path]; s32 nbi_frac_idx, nbi_frac_tone_idx; s32 nbi_idx, nbi_tone_idx; bool notch2_chk = false; u32 spur_freq, fc; s32 freq_diff; spur_freq = rtw8922d_spur_freq(rtwdev, chan, true, path); if (spur_freq == 0) { rtw89_phy_write32_idx(rtwdev, nbi->notch1_en.addr, nbi->notch1_en.mask, 0, phy_idx); rtw89_phy_write32_idx(rtwdev, nbi->notch2_en.addr, nbi->notch2_en.mask, 0, phy_idx); return; } fc = chan->freq; if (chan->band_width == RTW89_CHANNEL_WIDTH_160) { fc = (spur_freq > fc) ? fc + 40 : fc - 40; if ((fc > spur_freq && chan->channel < chan->primary_channel) || (fc < spur_freq && chan->channel > chan->primary_channel)) notch2_chk = true; } freq_diff = (spur_freq - fc) * 1000000; nbi_idx = s32_div_u32_round_down(freq_diff, CARRIER_SPACING_312_5, &nbi_frac_idx); if (chan->band_width == RTW89_CHANNEL_WIDTH_20) { s32_div_u32_round_down(nbi_idx + 32, 64, &nbi_tone_idx); } else { u16 tone_para = (chan->band_width == RTW89_CHANNEL_WIDTH_40) ? 128 : 256; s32_div_u32_round_down(nbi_idx, tone_para, &nbi_tone_idx); } nbi_frac_tone_idx = s32_div_u32_round_closest(nbi_frac_idx, CARRIER_SPACING_78_125); if (chan->band_width == RTW89_CHANNEL_WIDTH_160 && notch2_chk) { rtw89_phy_write32_idx(rtwdev, nbi->notch2_idx.addr, nbi->notch2_idx.mask, nbi_tone_idx, phy_idx); rtw89_phy_write32_idx(rtwdev, nbi->notch2_frac_idx.addr, nbi->notch2_frac_idx.mask, nbi_frac_tone_idx, phy_idx); rtw89_phy_write32_idx(rtwdev, nbi->notch2_en.addr, nbi->notch2_en.mask, 0, phy_idx); rtw89_phy_write32_idx(rtwdev, nbi->notch2_en.addr, nbi->notch2_en.mask, 1, phy_idx); rtw89_phy_write32_idx(rtwdev, nbi->notch1_en.addr, nbi->notch1_en.mask, 0, phy_idx); } else { rtw89_phy_write32_idx(rtwdev, nbi->notch1_idx.addr, nbi->notch1_idx.mask, nbi_tone_idx, phy_idx); rtw89_phy_write32_idx(rtwdev, nbi->notch1_frac_idx.addr, nbi->notch1_frac_idx.mask, nbi_frac_tone_idx, phy_idx); rtw89_phy_write32_idx(rtwdev, nbi->notch1_en.addr, nbi->notch1_en.mask, 0, phy_idx); rtw89_phy_write32_idx(rtwdev, nbi->notch1_en.addr, nbi->notch1_en.mask, 1, phy_idx); rtw89_phy_write32_idx(rtwdev, nbi->notch2_en.addr, nbi->notch2_en.mask, 0, phy_idx); } } static void rtw8922d_spur_elimination(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_phy_idx phy_idx) { rtw8922d_set_csi_tone_idx(rtwdev, chan, phy_idx); rtw8922d_set_nbi_tone_idx(rtwdev, chan, RF_PATH_A, phy_idx); rtw8922d_set_nbi_tone_idx(rtwdev, chan, RF_PATH_B, phy_idx); } static const u32 bbrst_mask[2] = {B_BE_FEN_BBPLAT_RSTB, B_BE_FEN_BB1PLAT_RSTB}; static const u32 glbrst_mask[2] = {B_BE_FEN_BB_IP_RSTN, B_BE_FEN_BB1_IP_RSTN}; static const u32 chip_top_bitmask[2] = {0xffff, 0xffff0000}; static void rtw8922d_bb_preinit(struct rtw89_dev *rtwdev, enum rtw89_phy_idx phy_idx) { rtw89_write32_mask(rtwdev, R_BE_FEN_RST_ENABLE, glbrst_mask[phy_idx], 0x0); rtw89_write32_mask(rtwdev, R_BE_FEN_RST_ENABLE, bbrst_mask[phy_idx], 0x0); rtw89_write32_mask(rtwdev, R_BE_DMAC_SYS_CR32B, chip_top_bitmask[phy_idx], 0x74F9); rtw89_write32_mask(rtwdev, R_BE_FEN_RST_ENABLE, glbrst_mask[phy_idx], 0x1); rtw89_phy_write32_idx(rtwdev, R_RSTB_ASYNC_BE4, B_RSTB_ASYNC_BE4, 0, phy_idx); rtw89_write32_mask(rtwdev, R_BE_FEN_RST_ENABLE, bbrst_mask[phy_idx], 0x1); } static void rtw8922d_bb_postinit(struct rtw89_dev *rtwdev, enum rtw89_phy_idx phy_idx) { rtw89_phy_write32_idx_clr(rtwdev, R_SHAPER_COEFF_BE4, B_SHAPER_COEFF_BE4, phy_idx); rtw89_phy_write32_idx_set(rtwdev, R_SHAPER_COEFF_BE4, B_SHAPER_COEFF_BE4, phy_idx); } static void rtw8922d_bb_reset_en(struct rtw89_dev *rtwdev, enum rtw89_band band, bool en, enum rtw89_phy_idx phy_idx) { if (en) rtw89_phy_write32_idx(rtwdev, R_RSTB_ASYNC_BE4, B_RSTB_ASYNC_BE4, 1, phy_idx); else rtw89_phy_write32_idx(rtwdev, R_RSTB_ASYNC_BE4, B_RSTB_ASYNC_BE4, 0, phy_idx); } static int rtw8922d_ctrl_tx_path_tmac(struct rtw89_dev *rtwdev, enum rtw89_rf_path tx_path, enum rtw89_phy_idx phy_idx) { struct rtw89_reg2_def path_com_cr[] = { {0x11A00, 0x21C86900}, {0x11A04, 0x00E4E433}, {0x11A08, 0x39390CC9}, {0x11A10, 0x10CC0000}, {0x11A14, 0x00240393}, {0x11A18, 0x201C8600}, {0x11B38, 0x39393FDB}, {0x11B3C, 0x00E4E4FF}, }; int ret = 0; u32 reg; int i; rtw89_phy_write32_idx(rtwdev, R_TXINFO_PATH_BE4, B_TXINFO_PATH_EN_BE4, 0x0, phy_idx); rtw89_phy_write32_idx(rtwdev, R_TXINFO_PATH_BE4, B_TXINFO_PATH_MA_BE4, 0x0, phy_idx); rtw89_phy_write32_idx(rtwdev, R_TXINFO_PATH_BE4, B_TXINFO_PATH_MB_BE4, 0x0, phy_idx); if (phy_idx == RTW89_PHY_1 && !rtwdev->dbcc_en) return 0; if (tx_path == RF_PATH_A) { path_com_cr[1].data = 0x40031; path_com_cr[2].data = 0x1000C48; path_com_cr[5].data = 0x200; path_com_cr[6].data = 0x1000C48; path_com_cr[7].data = 0x40031; } else if (tx_path == RF_PATH_B) { path_com_cr[1].data = 0x40032; path_com_cr[2].data = 0x1000C88; path_com_cr[5].data = 0x400; path_com_cr[6].data = 0x1000C88; path_com_cr[7].data = 0x40032; } else if (tx_path == RF_PATH_AB) { path_com_cr[1].data = 0x00E4E433; path_com_cr[2].data = 0x39390CC9; path_com_cr[5].data = 0x201C8600; path_com_cr[6].data = 0x1010CC9; path_com_cr[7].data = 0x40433; } else { ret = -EINVAL; } for (i = 0; i < ARRAY_SIZE(path_com_cr); i++) { reg = rtw89_mac_reg_by_idx(rtwdev, path_com_cr[i].addr, phy_idx); rtw89_write32(rtwdev, reg, path_com_cr[i].data); } return ret; } static void rtw8922d_bb_reset(struct rtw89_dev *rtwdev, enum rtw89_phy_idx phy_idx) { } static void rtw8922d_tssi_reset(struct rtw89_dev *rtwdev, enum rtw89_rf_path path, enum rtw89_phy_idx phy_idx) { if (rtwdev->mlo_dbcc_mode == MLO_1_PLUS_1_1RF) { if (phy_idx == RTW89_PHY_0) { rtw89_phy_write32_mask(rtwdev, R_TXPWR_RSTB0_BE4, B_TXPWR_RSTB0_BE4, 0x0); rtw89_phy_write32_mask(rtwdev, R_TXPWR_RSTB0_BE4, B_TXPWR_RSTB0_BE4, 0x1); } else { rtw89_phy_write32_mask(rtwdev, R_TXPWR_RSTB1_BE4, B_TXPWR_RSTB1_BE4, 0x0); rtw89_phy_write32_mask(rtwdev, R_TXPWR_RSTB1_BE4, B_TXPWR_RSTB1_BE4, 0x1); } } else { rtw89_phy_write32_mask(rtwdev, R_TXPWR_RSTB0_BE4, B_TXPWR_RSTB0_BE4, 0x0); rtw89_phy_write32_mask(rtwdev, R_TXPWR_RSTB0_BE4, B_TXPWR_RSTB0_BE4, 0x1); rtw89_phy_write32_mask(rtwdev, R_TXPWR_RSTB1_BE4, B_TXPWR_RSTB1_BE4, 0x0); rtw89_phy_write32_mask(rtwdev, R_TXPWR_RSTB1_BE4, B_TXPWR_RSTB1_BE4, 0x1); } } static int rtw8922d_ctrl_rx_path_tmac(struct rtw89_dev *rtwdev, enum rtw89_rf_path rx_path, enum rtw89_phy_idx phy_idx) { enum rtw89_rf_path_bit path; if (rx_path == RF_PATH_A) path = RF_A; else if (rx_path == RF_PATH_B) path = RF_B; else path = RF_AB; rtw89_phy_write32_idx(rtwdev, R_ANT_RX_BE4, B_ANT_RX_BE4, path, phy_idx); rtw89_phy_write32_idx(rtwdev, R_ANT_RX_1RCCA_BE4, B_ANT_RX_1RCCA_BE4, path, phy_idx); if (rx_path == RF_PATH_AB) { rtw89_phy_write32_idx(rtwdev, R_RXCH_BCC0_BE4, B_RXCH_MCS4_BE4, 8, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXCH_BCC1_BE4, B_RXCH_MCS5_BE4, 4, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXCH_BCC1_BE4, B_RXCH_MCS6_BE4, 3, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXCH_BCC1_BE4, B_RXCH_MCS7_BE4, 7, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXCH_BCC1_BE4, B_RXCH_MCS8_BE4, 2, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXCH_BCC1_BE4, B_RXCH_MCS9_BE4, 2, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_AWGN00_BE4, B_RX_AWGN04_BE4, 4, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_AWGN00_BE4, B_RX_AWGN07_BE4, 2, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_AWGN01_BE4, B_RX_AWGN09_BE4, 0, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_AWGN02_BE4, B_RX_AWGN11_BE4, 1, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_LDPC00_BE4, B_RX_LDPC04_BE4, 8, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_LDPC00_BE4, B_RX_LDPC05_BE4, 5, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_LDPC00_BE4, B_RX_LDPC06_BE4, 3, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_LDPC00_BE4, B_RX_LDPC07_BE4, 5, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_LDPC00_BE4, B_RX_LDPC08_BE4, 1, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_LDPC01_BE4, B_RX_LDPC09_BE4, 2, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_LDPC02_BE4, B_RX_LDPC10_BE4, 4, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_LDPC02_BE4, B_RX_LDPC11_BE4, 2, phy_idx); } else { rtw89_phy_write32_idx(rtwdev, R_RXCH_BCC0_BE4, B_RXCH_MCS4_BE4, 13, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXCH_BCC1_BE4, B_RXCH_MCS5_BE4, 15, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXCH_BCC1_BE4, B_RXCH_MCS6_BE4, 6, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXCH_BCC1_BE4, B_RXCH_MCS7_BE4, 15, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXCH_BCC1_BE4, B_RXCH_MCS8_BE4, 4, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXCH_BCC1_BE4, B_RXCH_MCS9_BE4, 15, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_AWGN00_BE4, B_RX_AWGN04_BE4, 9, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_AWGN00_BE4, B_RX_AWGN07_BE4, 3, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_AWGN01_BE4, B_RX_AWGN09_BE4, 1, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_AWGN02_BE4, B_RX_AWGN11_BE4, 0, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_LDPC00_BE4, B_RX_LDPC04_BE4, 9, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_LDPC00_BE4, B_RX_LDPC05_BE4, 8, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_LDPC00_BE4, B_RX_LDPC06_BE4, 6, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_LDPC00_BE4, B_RX_LDPC07_BE4, 16, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_LDPC00_BE4, B_RX_LDPC08_BE4, 4, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_LDPC01_BE4, B_RX_LDPC09_BE4, 9, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_LDPC02_BE4, B_RX_LDPC10_BE4, 9, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RX_LDPC02_BE4, B_RX_LDPC11_BE4, 7, phy_idx); } return 0; } static void rtw8922d_set_digital_pwr_comp(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, u8 nss, enum rtw89_rf_path path, enum rtw89_phy_idx phy_idx) { #define DIGITAL_PWR_COMP_REG_NUM 22 static const u32 pw_comp_cr[2] = {R_RX_PATH0_TBL0_BE4, R_RX_PATH1_TBL0_BE4}; const __le32 (*pwr_comp_val)[2][RTW89_TX_COMP_BAND_NR] [BB_PATH_NUM_8922D][DIGITAL_PWR_COMP_REG_NUM]; struct rtw89_fw_elm_info *elm_info = &rtwdev->fw.elm_info; const struct rtw89_fw_element_hdr *txcomp_elm = elm_info->tx_comp; const __le32 *digital_pwr_comp; u32 addr, val; u32 i; if (sizeof(*pwr_comp_val) != le32_to_cpu(txcomp_elm->size)) { rtw89_debug(rtwdev, RTW89_DBG_UNEXP, "incorrect power comp size %d\n", le32_to_cpu(txcomp_elm->size)); return; } pwr_comp_val = (const void *)txcomp_elm->u.common.contents; digital_pwr_comp = (*pwr_comp_val)[nss][chan->tx_comp_band][path]; addr = pw_comp_cr[path]; for (i = 0; i < DIGITAL_PWR_COMP_REG_NUM; i++, addr += 4) { val = le32_to_cpu(digital_pwr_comp[i]); rtw89_phy_write32_idx(rtwdev, addr, MASKDWORD, val, phy_idx); } } static void rtw8922d_digital_pwr_comp(struct rtw89_dev *rtwdev, enum rtw89_phy_idx phy_idx) { const struct rtw89_chan *chan0 = rtw89_mgnt_chan_get(rtwdev, 0); const struct rtw89_chan *chan1 = rtw89_mgnt_chan_get(rtwdev, 1); if (rtwdev->mlo_dbcc_mode == MLO_1_PLUS_1_1RF) { rtw8922d_set_digital_pwr_comp(rtwdev, chan0, 0, RF_PATH_A, RTW89_PHY_0); rtw8922d_set_digital_pwr_comp(rtwdev, chan1, 0, RF_PATH_B, RTW89_PHY_1); } else { rtw8922d_set_digital_pwr_comp(rtwdev, chan0, 1, RF_PATH_A, phy_idx); rtw8922d_set_digital_pwr_comp(rtwdev, chan0, 1, RF_PATH_B, phy_idx); } } static int rtw8922d_ctrl_mlo(struct rtw89_dev *rtwdev, enum rtw89_mlo_dbcc_mode mode, bool pwr_comp) { const struct rtw89_chan *chan1; u32 reg0, reg1; u8 cck_phy_idx; if (mode == MLO_2_PLUS_0_1RF) { rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xBBBB); udelay(1); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_BB_CLK_BE4, 0x3); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xAFFF); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xEBAD); udelay(1); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_BB_CLK_BE4, 0x0); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xEAAD); } else if (mode == MLO_0_PLUS_2_1RF) { rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xBBBB); udelay(1); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_BB_CLK_BE4, 0x3); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xAFFF); udelay(1); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xEFFF); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_BB_CLK_BE4, 0x0); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xEEFF); } else if ((mode == MLO_1_PLUS_1_1RF) || (mode == DBCC_LEGACY)) { rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xBBBB); udelay(1); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_BB_CLK_BE4, 0x3); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xAFFF); udelay(1); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_BB_CLK_BE4, 0x0); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0x3AAB); } else { rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0x6180); udelay(1); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_BB_CLK_BE4, 0x3); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0x180); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_BB_CLK_BE4, 0x0); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0x0); } if (pwr_comp) rtw8922d_digital_pwr_comp(rtwdev, RTW89_PHY_0); reg0 = R_BBWRAP_ELMSR_BE4; reg1 = rtw89_mac_reg_by_idx(rtwdev, reg0, 1); if (mode == MLO_2_PLUS_0_1RF) { rtw89_phy_write32_mask(rtwdev, R_SYS_DBCC_BE4, B_SYS_DBCC_24G_BAND_SEL_BE4, RTW89_PHY_0); rtw89_write32_mask(rtwdev, reg0, B_BBWRAP_ELMSR_EN_BE4, 0); rtw89_write32_mask(rtwdev, reg1, B_BBWRAP_ELMSR_EN_BE4, 0); } else if (mode == MLO_0_PLUS_2_1RF) { rtw89_phy_write32_mask(rtwdev, R_SYS_DBCC_BE4, B_SYS_DBCC_24G_BAND_SEL_BE4, RTW89_PHY_0); rtw89_write32_mask(rtwdev, reg0, B_BBWRAP_ELMSR_EN_BE4, 0); rtw89_write32_mask(rtwdev, reg1, B_BBWRAP_ELMSR_EN_BE4, 0); } else if ((mode == MLO_1_PLUS_1_1RF) || (mode == DBCC_LEGACY)) { chan1 = rtw89_mgnt_chan_get(rtwdev, 1); cck_phy_idx = chan1->band_type == RTW89_BAND_2G ? RTW89_PHY_1 : RTW89_PHY_0; rtw89_phy_write32_mask(rtwdev, R_SYS_DBCC_BE4, B_SYS_DBCC_24G_BAND_SEL_BE4, cck_phy_idx); rtw89_write32_mask(rtwdev, reg0, B_BBWRAP_ELMSR_EN_BE4, 0x3); rtw89_write32_mask(rtwdev, reg1, B_BBWRAP_ELMSR_EN_BE4, 0x3); } else { rtw89_phy_write32_mask(rtwdev, R_SYS_DBCC_BE4, B_SYS_DBCC_24G_BAND_SEL_BE4, RTW89_PHY_0); rtw89_write32_mask(rtwdev, reg0, B_BBWRAP_ELMSR_EN_BE4, 0); rtw89_write32_mask(rtwdev, reg1, B_BBWRAP_ELMSR_EN_BE4, 0); } udelay(1); return 0; } static void rtw8922d_bb_sethw(struct rtw89_dev *rtwdev) { struct rtw89_phy_efuse_gain *gain = &rtwdev->efuse_gain; struct rtw89_hal *hal = &rtwdev->hal; enum rtw89_phy_idx phy_idx; u32 reg; reg = rtw89_mac_reg_by_idx(rtwdev, R_BE_PWR_BOOST, RTW89_PHY_0); rtw89_write32_clr(rtwdev, reg, B_BE_PWR_CTRL_SEL); reg = rtw89_mac_reg_by_idx(rtwdev, R_BE_PWR_BOOST, RTW89_PHY_1); rtw89_write32_clr(rtwdev, reg, B_BE_PWR_CTRL_SEL); if (hal->cid == RTL8922D_CID7090) { reg = rtw89_mac_reg_by_idx(rtwdev, R_PWR_BOOST_BE4, RTW89_PHY_0); rtw89_write32_set(rtwdev, reg, B_PWR_BOOST_BE4); reg = rtw89_mac_reg_by_idx(rtwdev, R_PWR_BOOST_BE4, RTW89_PHY_1); rtw89_write32_set(rtwdev, reg, B_PWR_BOOST_BE4); } rtw89_phy_write32_mask(rtwdev, R_TX_ERROR_SEL_BE4, B_TX_ERROR_PSDU_BE4, 0); rtw89_phy_write32_mask(rtwdev, R_TX_ERROR_SEL_BE4, B_TX_ERROR_NSYM_BE4, 1); rtw89_phy_write32_mask(rtwdev, R_TX_ERROR_SEL_BE4, B_TX_ERROR_LSIG_BE4, 1); rtw89_phy_write32_mask(rtwdev, R_TX_ERROR_SEL_BE4, B_TX_ERROR_TXINFO_BE4, 1); rtw89_phy_write32_mask(rtwdev, R_TXERRCT_EN_BE4, B_TXERRCT_EN_BE4, 0); rtw89_phy_write32_mask(rtwdev, R_TXERRCT1_EN_BE4, B_TXERRCT1_EN_BE4, 0); rtw89_phy_write32_idx(rtwdev, R_IMR_TX_ERROR_BE4, B_IMR_TX_ERROR_BE4, 1, RTW89_PHY_0); rtw89_phy_write32_idx(rtwdev, R_IMR_TX_ERROR_BE4, B_IMR_TX_ERROR_BE4, 1, RTW89_PHY_1); rtw8922d_ctrl_mlo(rtwdev, rtwdev->mlo_dbcc_mode, false); /* read these registers after loading BB parameters */ for (phy_idx = RTW89_PHY_0; phy_idx < RTW89_PHY_NUM; phy_idx++) { gain->ref_gain_base[phy_idx] = rtw89_phy_read32_idx(rtwdev, R_OFDM_OFST_P0_BE4, B_OFDM_OFST_P0_BE4, phy_idx); gain->cck_rpl_base[phy_idx] = rtw89_phy_read32_idx(rtwdev, R_CCK_RPL_OFST_BE4, B_CCK_RPL_OFST_BE4, phy_idx); } } static void rtw8922d_set_channel_bb(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_phy_idx phy_idx) { struct rtw89_hal *hal = &rtwdev->hal; bool cck_en = chan->band_type == RTW89_BAND_2G; u8 pri_sb = chan->pri_sb_idx; u32 val; rtw89_phy_bb_wrap_set_rfsi_ct_opt(rtwdev, phy_idx); rtw8922d_ctrl_ch(rtwdev, chan, phy_idx); rtw8922d_ctrl_bw(rtwdev, pri_sb, chan->band_width, phy_idx); rtw89_phy_bb_wrap_set_rfsi_bandedge_ch(rtwdev, chan, phy_idx); if (cck_en) rtw8922d_ctrl_sco_cck(rtwdev, chan->primary_channel, chan->band_width, phy_idx); rtw8922d_spur_elimination(rtwdev, chan, phy_idx); if (hal->cid == RTL8922D_CID7025) { if (chan->band_width == RTW89_CHANNEL_WIDTH_160) val = 0x1f9; else if (chan->band_width == RTW89_CHANNEL_WIDTH_80) val = 0x1f5; else val = 0x1e2; rtw89_phy_write32_idx(rtwdev, R_AWGN_DET_BE4, B_AWGN_DET_BE4, val, phy_idx); } rtw8922d_tssi_reset(rtwdev, RF_PATH_AB, phy_idx); } static void rtw8922d_pre_set_channel_bb(struct rtw89_dev *rtwdev, enum rtw89_phy_idx phy_idx) { if (!rtwdev->dbcc_en) return; rtw89_phy_write32_mask(rtwdev, R_SYS_DBCC_BE4, B_SYS_DBCC_BE4, 0x0); if (phy_idx == RTW89_PHY_0) { rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xBBBB); fsleep(1); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_BB_CLK_BE4, 0x3); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xAFFF); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xEBAD); fsleep(1); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_BB_CLK_BE4, 0x0); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xEAAD); } else { rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xBBBB); fsleep(1); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_BB_CLK_BE4, 0x3); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xAFFF); fsleep(1); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xEFFF); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_BB_CLK_BE4, 0x0); rtw89_phy_write32_mask(rtwdev, R_EMLSR_SWITCH_BE4, B_EMLSR_SWITCH_BE4, 0xEEFF); } fsleep(1); } static void rtw8922d_post_set_channel_bb(struct rtw89_dev *rtwdev, enum rtw89_mlo_dbcc_mode mode, enum rtw89_phy_idx phy_idx) { if (!rtwdev->dbcc_en) return; rtw8922d_ctrl_mlo(rtwdev, mode, true); } static void rtw8922d_set_channel(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_mac_idx mac_idx, enum rtw89_phy_idx phy_idx) { rtw8922d_set_channel_mac(rtwdev, chan, mac_idx); rtw8922d_set_channel_bb(rtwdev, chan, phy_idx); rtw8922d_set_channel_rf(rtwdev, chan, phy_idx); } static void __rtw8922d_dack_reset(struct rtw89_dev *rtwdev, enum rtw89_rf_path path) { rtw89_phy_write32_mask(rtwdev, 0x3c000 + (path << 8), BIT(17), 0x0); rtw89_phy_write32_mask(rtwdev, 0x3c000 + (path << 8), BIT(17), 0x1); } static void rtw8922d_dack_reset(struct rtw89_dev *rtwdev) { __rtw8922d_dack_reset(rtwdev, RF_PATH_A); __rtw8922d_dack_reset(rtwdev, RF_PATH_B); } static void rtw8922d_hal_reset(struct rtw89_dev *rtwdev, enum rtw89_phy_idx phy_idx, enum rtw89_mac_idx mac_idx, enum rtw89_band band, u32 *tx_en, bool enter) { if (enter) { rtw89_chip_stop_sch_tx(rtwdev, mac_idx, tx_en, RTW89_SCH_TX_SEL_ALL); rtw89_mac_cfg_ppdu_status(rtwdev, mac_idx, false); rtw8922d_dack_reset(rtwdev); rtw8922d_tssi_cont_en_phyidx(rtwdev, false, phy_idx); fsleep(40); rtw8922d_bb_reset_en(rtwdev, band, false, phy_idx); } else { rtw89_mac_cfg_ppdu_status(rtwdev, mac_idx, true); rtw8922d_tssi_cont_en_phyidx(rtwdev, true, phy_idx); rtw8922d_bb_reset_en(rtwdev, band, true, phy_idx); rtw89_chip_resume_sch_tx(rtwdev, mac_idx, *tx_en); } } static void rtw8922d_set_channel_help(struct rtw89_dev *rtwdev, bool enter, struct rtw89_channel_help_params *p, const struct rtw89_chan *chan, enum rtw89_mac_idx mac_idx, enum rtw89_phy_idx phy_idx) { if (enter) { rtw8922d_pre_set_channel_bb(rtwdev, phy_idx); rtw8922d_pre_set_channel_rf(rtwdev, phy_idx); } rtw8922d_hal_reset(rtwdev, phy_idx, mac_idx, chan->band_type, &p->tx_en, enter); if (!enter) { rtw8922d_post_set_channel_bb(rtwdev, rtwdev->mlo_dbcc_mode, phy_idx); rtw8922d_post_set_channel_rf(rtwdev, phy_idx); } } static void rtw8922d_rfk_init(struct rtw89_dev *rtwdev) { struct rtw89_rfk_mcc_info *rfk_mcc = &rtwdev->rfk_mcc; struct rtw89_lck_info *lck = &rtwdev->lck; rtwdev->is_tssi_mode[RF_PATH_A] = false; rtwdev->is_tssi_mode[RF_PATH_B] = false; memset(rfk_mcc, 0, sizeof(*rfk_mcc)); memset(lck, 0, sizeof(*lck)); } static void __rtw8922d_rfk_init_late(struct rtw89_dev *rtwdev, enum rtw89_phy_idx phy_idx, const struct rtw89_chan *chan) { rtw8922d_rfk_mlo_ctrl(rtwdev); rtw89_phy_rfk_pre_ntfy_and_wait(rtwdev, phy_idx, 5); if (!test_bit(RTW89_FLAG_SER_HANDLING, rtwdev->flags)) rtw89_phy_rfk_rxdck_and_wait(rtwdev, phy_idx, chan, false, 128); if (phy_idx == RTW89_PHY_0) rtw89_phy_rfk_dack_and_wait(rtwdev, phy_idx, chan, 58); } static void rtw8922d_rfk_init_late(struct rtw89_dev *rtwdev) { const struct rtw89_chan *chan = rtw89_chan_get(rtwdev, RTW89_CHANCTX_0); __rtw8922d_rfk_init_late(rtwdev, RTW89_PHY_0, chan); if (rtwdev->dbcc_en) __rtw8922d_rfk_init_late(rtwdev, RTW89_PHY_1, chan); } static void _wait_rx_mode(struct rtw89_dev *rtwdev, u8 kpath) { u32 rf_mode; u8 path; int ret; for (path = 0; path < RF_PATH_NUM_8922D; path++) { if (!(kpath & BIT(path))) continue; ret = read_poll_timeout_atomic(rtw89_read_rf, rf_mode, rf_mode != 2, 2, 5000, false, rtwdev, path, 0x00, RR_MOD_MASK); rtw89_debug(rtwdev, RTW89_DBG_RFK, "[RFK] Wait S%d to Rx mode!! (ret = %d)\n", path, ret); } } static void __rtw8922d_tssi_enable(struct rtw89_dev *rtwdev, enum rtw89_phy_idx phy_idx) { u8 path; for (path = RF_PATH_A; path <= RF_PATH_B; path++) { u32 addr_ofst = (phy_idx << 12) + (path << 8); rtw89_phy_write32_mask(rtwdev, R_TSSI_DCK_MOV_AVG_LEN_P0_BE4 + addr_ofst, B_TSSI_DCK_MOV_AVG_LEN_P0_BE4, 0x4); rtw89_phy_write32_clr(rtwdev, R_USED_TSSI_TRK_ON_P0_BE4 + addr_ofst, B_USED_TSSI_TRK_ON_P0_BE4); rtw89_phy_write32_set(rtwdev, R_USED_TSSI_TRK_ON_P0_BE4 + addr_ofst, B_USED_TSSI_TRK_ON_P0_BE4); rtw89_phy_write32_clr(rtwdev, R_TSSI_EN_P0_BE4 + addr_ofst, B_TSSI_EN_P0_BE4); rtw89_phy_write32_mask(rtwdev, R_TSSI_EN_P0_BE4 + addr_ofst, B_TSSI_EN_P0_BE4, 0x3); } } static void __rtw8922d_tssi_disable(struct rtw89_dev *rtwdev, enum rtw89_phy_idx phy_idx) { u8 path; for (path = RF_PATH_A; path <= RF_PATH_B; path++) { u32 addr_ofst = (phy_idx << 12) + (path << 8); rtw89_phy_write32_clr(rtwdev, R_TSSI_DCK_MOV_AVG_LEN_P0_BE4 + addr_ofst, B_TSSI_DCK_MOV_AVG_LEN_P0_BE4); rtw89_phy_write32_clr(rtwdev, R_USED_TSSI_TRK_ON_P0_BE4 + addr_ofst, B_USED_TSSI_TRK_ON_P0_BE4); rtw89_phy_write32_clr(rtwdev, R_TSSI_EN_P0_BE4 + addr_ofst, B_TSSI_EN_P0_BE4); } } static void rtw8922d_rfk_tssi(struct rtw89_dev *rtwdev, enum rtw89_phy_idx phy_idx, const struct rtw89_chan *chan, enum rtw89_tssi_mode tssi_mode, unsigned int ms) { int ret; ret = rtw89_phy_rfk_tssi_and_wait(rtwdev, phy_idx, chan, tssi_mode, ms); if (ret) { rtwdev->is_tssi_mode[RF_PATH_A] = false; rtwdev->is_tssi_mode[RF_PATH_B] = false; } else { rtwdev->is_tssi_mode[RF_PATH_A] = true; rtwdev->is_tssi_mode[RF_PATH_B] = true; } } static void rtw8922d_rfk_channel(struct rtw89_dev *rtwdev, struct rtw89_vif_link *rtwvif_link) { enum rtw89_chanctx_idx chanctx_idx = rtwvif_link->chanctx_idx; const struct rtw89_chan *chan = rtw89_chan_get(rtwdev, chanctx_idx); enum rtw89_phy_idx phy_idx = rtwvif_link->phy_idx; u8 phy_map = rtw89_btc_phymap(rtwdev, phy_idx, RF_AB, chanctx_idx); u32 tx_en; rtw89_btc_ntfy_wl_rfk(rtwdev, phy_map, BTC_WRFKT_CHLK, BTC_WRFK_START); rtw89_chip_stop_sch_tx(rtwdev, phy_idx, &tx_en, RTW89_SCH_TX_SEL_ALL); _wait_rx_mode(rtwdev, RF_AB); rtw89_phy_rfk_pre_ntfy_and_wait(rtwdev, phy_idx, 5); rtw89_phy_rfk_txgapk_and_wait(rtwdev, phy_idx, chan, 54); rtw89_phy_rfk_txiqk_and_wait(rtwdev, phy_idx, chan, 45); rtw89_phy_rfk_iqk_and_wait(rtwdev, phy_idx, chan, 84); rtw8922d_rfk_tssi(rtwdev, phy_idx, chan, RTW89_TSSI_NORMAL, 20); rtw89_phy_rfk_cim3k_and_wait(rtwdev, phy_idx, chan, 44); rtw89_phy_rfk_dpk_and_wait(rtwdev, phy_idx, chan, 68); rtw89_phy_rfk_rxdck_and_wait(rtwdev, RTW89_PHY_0, chan, true, 32); rtw89_chip_resume_sch_tx(rtwdev, phy_idx, tx_en); rtw89_btc_ntfy_wl_rfk(rtwdev, phy_map, BTC_WRFKT_CHLK, BTC_WRFK_STOP); } static void rtw8922d_rfk_band_changed(struct rtw89_dev *rtwdev, enum rtw89_phy_idx phy_idx, const struct rtw89_chan *chan) { } static void rtw8922d_rfk_scan(struct rtw89_dev *rtwdev, struct rtw89_vif_link *rtwvif_link, bool start) { if (start) __rtw8922d_tssi_disable(rtwdev, rtwvif_link->phy_idx); else __rtw8922d_tssi_enable(rtwdev, rtwvif_link->phy_idx); } static void rtw8922d_rfk_track(struct rtw89_dev *rtwdev) { rtw8922d_lck_track(rtwdev); } static const struct rtw89_reg_def rtw8922d_txpwr_ref[][3] = { {{ .addr = R_TXAGC_REF_DBM_PATH0_TBL0_BE4, .mask = B_TXAGC_OFDM_REF_DBM_PATH0_TBL0_BE4 }, { .addr = R_TXAGC_REF_DBM_PATH0_TBL0_BE4, .mask = B_TXAGC_CCK_REF_DBM_PATH0_TBL0_BE4 }, { .addr = R_TSSI_K_OFDM_PATH0_TBL0_BE4, .mask = B_TSSI_K_OFDM_PATH0_TBL0_BE4 } }, {{ .addr = R_TXAGC_REF_DBM_PATH0_TBL1_BE4, .mask = B_TXAGC_OFDM_REF_DBM_PATH0_TBL1_BE4 }, { .addr = R_TXAGC_REF_DBM_PATH0_TBL1_BE4, .mask = B_TXAGC_CCK_REF_DBM_PATH0_TBL1_BE4 }, { .addr = R_TSSI_K_OFDM_PATH0_TBL1_BE4, .mask = B_TSSI_K_OFDM_PATH0_TBL1_BE4 } }, }; static void rtw8922d_set_txpwr_diff(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_phy_idx phy_idx) { s16 pwr_ofst = rtw89_phy_ant_gain_pwr_offset(rtwdev, chan); const struct rtw89_chip_info *chip = rtwdev->chip; static const u32 path_ofst[] = {0x0, 0x100}; const struct rtw89_reg_def *txpwr_ref; s16 tssi_k_ofst = abs(pwr_ofst); s16 ofst_dec[RF_PATH_NUM_8922D]; s16 tssi_k[RF_PATH_NUM_8922D]; s16 pwr_ref_ofst; s16 pwr_ref = 16; u8 i; pwr_ref <<= chip->txpwr_factor_rf; pwr_ref_ofst = pwr_ref - rtw89_phy_txpwr_bb_to_rf(rtwdev, abs(pwr_ofst)); ofst_dec[RF_PATH_A] = pwr_ofst > 0 ? pwr_ref : pwr_ref_ofst; ofst_dec[RF_PATH_B] = pwr_ofst > 0 ? pwr_ref_ofst : pwr_ref; tssi_k[RF_PATH_A] = pwr_ofst > 0 ? 0 : tssi_k_ofst; tssi_k[RF_PATH_B] = pwr_ofst > 0 ? tssi_k_ofst : 0; for (i = 0; i < RF_PATH_NUM_8922D; i++) { txpwr_ref = rtw8922d_txpwr_ref[phy_idx]; rtw89_phy_write32_mask(rtwdev, txpwr_ref[0].addr + path_ofst[i], txpwr_ref[0].mask, ofst_dec[i]); rtw89_phy_write32_mask(rtwdev, txpwr_ref[1].addr + path_ofst[i], txpwr_ref[1].mask, ofst_dec[i]); rtw89_phy_write32_mask(rtwdev, txpwr_ref[2].addr + path_ofst[i], txpwr_ref[2].mask, tssi_k[i]); } } static void rtw8922d_set_txpwr_ref(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_phy_idx phy_idx) { s16 ref_ofdm = 0; s16 ref_cck = 0; rtw89_debug(rtwdev, RTW89_DBG_TXPWR, "[TXPWR] set txpwr reference\n"); rtw8922d_set_txpwr_diff(rtwdev, chan, phy_idx); rtw89_mac_txpwr_write32_mask(rtwdev, phy_idx, R_BE_PWR_REF_CTRL, B_BE_PWR_REF_CTRL_OFDM, ref_ofdm); rtw89_mac_txpwr_write32_mask(rtwdev, phy_idx, R_BE_PWR_REF_CTRL, B_BE_PWR_REF_CTRL_CCK, ref_cck); } static void rtw8922d_set_txpwr_sar_diff(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_phy_idx phy_idx) { struct rtw89_sar_parm sar_parm = { .center_freq = chan->freq, .force_path = true, }; s16 sar_rf; s8 sar_mac; if (phy_idx != RTW89_PHY_0) return; sar_parm.path = RF_PATH_A; sar_mac = rtw89_query_sar(rtwdev, &sar_parm); sar_rf = rtw89_phy_txpwr_mac_to_rf(rtwdev, sar_mac); rtw89_phy_write32_mask(rtwdev, R_P0_TXPWRB_BE4, B_TXPWRB_MAX_BE, sar_rf); sar_parm.path = RF_PATH_B; sar_mac = rtw89_query_sar(rtwdev, &sar_parm); sar_rf = rtw89_phy_txpwr_mac_to_rf(rtwdev, sar_mac); rtw89_phy_write32_mask(rtwdev, R_P1_TXPWRB_BE4, B_TXPWRB_MAX_BE, sar_rf); } static void rtw8922d_set_txpwr(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan, enum rtw89_phy_idx phy_idx) { rtw89_phy_set_txpwr_byrate(rtwdev, chan, phy_idx); rtw89_phy_set_txpwr_offset(rtwdev, chan, phy_idx); rtw89_phy_set_txpwr_limit(rtwdev, chan, phy_idx); rtw89_phy_set_txpwr_limit_ru(rtwdev, chan, phy_idx); rtw8922d_set_txpwr_ref(rtwdev, chan, phy_idx); rtw8922d_set_txpwr_sar_diff(rtwdev, chan, phy_idx); } static void rtw8922d_set_txpwr_ctrl(struct rtw89_dev *rtwdev, enum rtw89_phy_idx phy_idx) { const struct rtw89_chan *chan = rtw89_mgnt_chan_get(rtwdev, phy_idx); rtw8922d_set_txpwr_ref(rtwdev, chan, phy_idx); } static void rtw8922d_ctrl_trx_path(struct rtw89_dev *rtwdev, enum rtw89_rf_path tx_path, u8 tx_nss, enum rtw89_rf_path rx_path, u8 rx_nss) { enum rtw89_phy_idx phy_idx; for (phy_idx = RTW89_PHY_0; phy_idx <= RTW89_PHY_1; phy_idx++) { rtw8922d_ctrl_tx_path_tmac(rtwdev, tx_path, phy_idx); rtw8922d_ctrl_rx_path_tmac(rtwdev, rx_path, phy_idx); rtw8922d_tssi_reset(rtwdev, rx_path, phy_idx); } } static void rtw8922d_ctrl_nbtg_bt_tx(struct rtw89_dev *rtwdev, bool en, enum rtw89_phy_idx phy_idx) { if (en) { rtw89_phy_write32_idx(rtwdev, R_FORCE_FIR_A, B_FORCE_FIR_A, 0x3, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXBY_WBADC_A, B_RXBY_WBADC_A, 0xf, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BT_RXBY_WBADC_A, B_BT_RXBY_WBADC_A, 0x0, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BT_SHARE_A, B_BT_TRK_OFF_A, 0x0, phy_idx); rtw89_phy_write32_idx(rtwdev, R_OP1DB_A, B_OP1DB_A, 0x80, phy_idx); rtw89_phy_write32_idx(rtwdev, R_OP1DB1_A, B_TIA10_A, 0x8080, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BACKOFF_A, B_LNA_IBADC_A, 0x34, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BKOFF_A, B_BKOFF_IBADC_A, 0x34, phy_idx); rtw89_phy_write32_idx(rtwdev, R_FORCE_FIR_B, B_FORCE_FIR_B, 0x3, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXBY_WBADC_B, B_RXBY_WBADC_B, 0xf, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BT_RXBY_WBADC_B, B_BT_RXBY_WBADC_B, 0x0, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BT_SHARE_B, B_BT_TRK_OFF_B, 0x0, phy_idx); rtw89_phy_write32_idx(rtwdev, R_LNA_TIA, B_TIA1_B, 0x80, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BACKOFF_B, B_LNA_IBADC_B, 0x34, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BKOFF_B, B_BKOFF_IBADC_B, 0x34, phy_idx); } else { rtw89_phy_write32_idx(rtwdev, R_FORCE_FIR_A, B_FORCE_FIR_A, 0x0, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXBY_WBADC_A, B_RXBY_WBADC_A, 0x0, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BT_RXBY_WBADC_A, B_BT_RXBY_WBADC_A, 0x1, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BT_SHARE_A, B_BT_TRK_OFF_A, 0x1, phy_idx); rtw89_phy_write32_idx(rtwdev, R_OP1DB_A, B_OP1DB_A, 0x1a, phy_idx); rtw89_phy_write32_idx(rtwdev, R_OP1DB1_A, B_TIA10_A, 0x2a2a, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BACKOFF_A, B_LNA_IBADC_A, 0x7a6, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BKOFF_A, B_BKOFF_IBADC_A, 0x26, phy_idx); rtw89_phy_write32_idx(rtwdev, R_FORCE_FIR_B, B_FORCE_FIR_B, 0x0, phy_idx); rtw89_phy_write32_idx(rtwdev, R_RXBY_WBADC_B, B_RXBY_WBADC_B, 0x0, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BT_RXBY_WBADC_B, B_BT_RXBY_WBADC_B, 0x1, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BT_SHARE_B, B_BT_TRK_OFF_B, 0x1, phy_idx); rtw89_phy_write32_idx(rtwdev, R_LNA_TIA, B_TIA1_B, 0x2a, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BACKOFF_B, B_LNA_IBADC_B, 0x7a6, phy_idx); rtw89_phy_write32_idx(rtwdev, R_BKOFF_B, B_BKOFF_IBADC_B, 0x26, phy_idx); } } static void rtw8922d_bb_cfg_txrx_path(struct rtw89_dev *rtwdev) { const struct rtw89_chan *chan = rtw89_chan_get(rtwdev, RTW89_CHANCTX_0); enum rtw89_band band = chan->band_type; struct rtw89_hal *hal = &rtwdev->hal; u8 ntx_path = RF_PATH_AB; u8 nrx_path = RF_PATH_AB; u32 tx_en0, tx_en1; u8 rx_nss = 2; if (hal->antenna_tx == RF_A) ntx_path = RF_PATH_A; else if (hal->antenna_tx == RF_B) ntx_path = RF_PATH_B; if (hal->antenna_rx == RF_A) nrx_path = RF_PATH_A; else if (hal->antenna_rx == RF_B) nrx_path = RF_PATH_B; if (nrx_path != RF_PATH_AB) rx_nss = 1; rtw8922d_hal_reset(rtwdev, RTW89_PHY_0, RTW89_MAC_0, band, &tx_en0, true); if (rtwdev->dbcc_en) rtw8922d_hal_reset(rtwdev, RTW89_PHY_1, RTW89_MAC_1, band, &tx_en1, true); rtw8922d_ctrl_trx_path(rtwdev, ntx_path, 2, nrx_path, rx_nss); rtw8922d_hal_reset(rtwdev, RTW89_PHY_0, RTW89_MAC_0, band, &tx_en0, false); if (rtwdev->dbcc_en) rtw8922d_hal_reset(rtwdev, RTW89_PHY_1, RTW89_MAC_1, band, &tx_en1, false); } static u8 rtw8922d_get_thermal(struct rtw89_dev *rtwdev, enum rtw89_rf_path rf_path) { u8 val; rtw89_phy_write32_mask(rtwdev, R_TC_EN_BE4, B_TC_EN_BE4, 0x1); rtw89_phy_write32_mask(rtwdev, R_TC_EN_BE4, B_TC_TRIG_BE4, 0x0); rtw89_phy_write32_mask(rtwdev, R_TC_EN_BE4, B_TC_TRIG_BE4, 0x1); fsleep(100); val = rtw89_phy_read32_mask(rtwdev, R_TC_VAL_BE4, B_TC_VAL_BE4); return val; } static u32 rtw8922d_chan_to_rf18_val(struct rtw89_dev *rtwdev, const struct rtw89_chan *chan) { u32 val = u32_encode_bits(chan->channel, RR_CFGCH_CH); switch (chan->band_type) { case RTW89_BAND_2G: default: break; case RTW89_BAND_5G: val |= u32_encode_bits(CFGCH_BAND1_5G, RR_CFGCH_BAND1) | u32_encode_bits(CFGCH_BAND0_5G, RR_CFGCH_BAND0); break; case RTW89_BAND_6G: val |= u32_encode_bits(CFGCH_BAND1_6G, RR_CFGCH_BAND1) | u32_encode_bits(CFGCH_BAND0_6G, RR_CFGCH_BAND0); break; } switch (chan->band_width) { case RTW89_CHANNEL_WIDTH_5: case RTW89_CHANNEL_WIDTH_10: case RTW89_CHANNEL_WIDTH_20: default: break; case RTW89_CHANNEL_WIDTH_40: val |= u32_encode_bits(CFGCH_BW_V2_40M, RR_CFGCH_BW_V2); break; case RTW89_CHANNEL_WIDTH_80: val |= u32_encode_bits(CFGCH_BW_V2_80M, RR_CFGCH_BW_V2); break; case RTW89_CHANNEL_WIDTH_160: val |= u32_encode_bits(CFGCH_BW_V2_160M, RR_CFGCH_BW_V2); break; case RTW89_CHANNEL_WIDTH_320: val |= u32_encode_bits(CFGCH_BW_V2_320M, RR_CFGCH_BW_V2); break; } return val; } static void rtw8922d_btc_set_rfe(struct rtw89_dev *rtwdev) { } static void rtw8922d_btc_init_cfg(struct rtw89_dev *rtwdev) { /* offload to firmware */ } static void rtw8922d_btc_set_wl_txpwr_ctrl(struct rtw89_dev *rtwdev, u32 txpwr_val) { u16 ctrl_all_time = u32_get_bits(txpwr_val, GENMASK(15, 0)); u16 ctrl_gnt_bt = u32_get_bits(txpwr_val, GENMASK(31, 16)); switch (ctrl_all_time) { case 0xffff: rtw89_mac_txpwr_write32_mask(rtwdev, RTW89_PHY_0, R_BE_PWR_RATE_CTRL, B_BE_FORCE_PWR_BY_RATE_EN, 0x0); rtw89_mac_txpwr_write32_mask(rtwdev, RTW89_PHY_0, R_BE_PWR_RATE_CTRL, B_BE_FORCE_PWR_BY_RATE_VAL, 0x0); break; default: rtw89_mac_txpwr_write32_mask(rtwdev, RTW89_PHY_0, R_BE_PWR_RATE_CTRL, B_BE_FORCE_PWR_BY_RATE_VAL, ctrl_all_time); rtw89_mac_txpwr_write32_mask(rtwdev, RTW89_PHY_0, R_BE_PWR_RATE_CTRL, B_BE_FORCE_PWR_BY_RATE_EN, 0x1); break; } switch (ctrl_gnt_bt) { case 0xffff: rtw89_mac_txpwr_write32_mask(rtwdev, RTW89_PHY_0, R_BE_PWR_REG_CTRL, B_BE_PWR_BT_EN, 0x0); rtw89_mac_txpwr_write32_mask(rtwdev, RTW89_PHY_0, R_BE_PWR_COEX_CTRL, B_BE_PWR_BT_VAL, 0x0); break; default: rtw89_mac_txpwr_write32_mask(rtwdev, RTW89_PHY_0, R_BE_PWR_COEX_CTRL, B_BE_PWR_BT_VAL, ctrl_gnt_bt); rtw89_mac_txpwr_write32_mask(rtwdev, RTW89_PHY_0, R_BE_PWR_REG_CTRL, B_BE_PWR_BT_EN, 0x1); break; } } static s8 rtw8922d_btc_get_bt_rssi(struct rtw89_dev *rtwdev, s8 val) { return clamp_t(s8, val, -100, 0) + 100; } static const struct rtw89_btc_rf_trx_para_v9 rtw89_btc_8922d_rf_ul_v9[] = { /* * 0 -> original * 1 -> for BT-connected ACI issue && BTG co-rx * 2 ~ 4 ->reserved for shared-antenna * 5 ~ 8 ->for non-shared-antenna free-run */ {{15, 15}, {0, 0}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, {{15, 15}, {2, 2}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, {{15, 15}, {0, 0}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, {{15, 15}, {0, 0}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, {{15, 15}, {0, 0}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, {{15, 15}, {1, 1}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, {{ 6, 6}, {1, 1}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, {{13, 13}, {1, 1}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, {{13, 13}, {1, 1}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, }; static const struct rtw89_btc_rf_trx_para_v9 rtw89_btc_8922d_rf_dl_v9[] = { /* * 0 -> original * 1 -> for BT-connected ACI issue && BTG co-rx * 2 ~ 4 ->reserved for shared-antenna * 5 ~ 8 ->for non-shared-antenna free-run */ {{15, 15}, {0, 0}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, {{15, 15}, {2, 2}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, {{15, 15}, {0, 0}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, {{15, 15}, {0, 0}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, {{15, 15}, {0, 0}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, {{15, 15}, {1, 1}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, {{15, 15}, {1, 1}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, {{15, 15}, {1, 1}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, {{15, 15}, {1, 1}, {0, 0}, {7, 7}, {0, 0}, {0, 0}}, }; static const u8 rtw89_btc_8922d_wl_rssi_thres[BTC_WL_RSSI_THMAX] = {60, 50, 40, 30}; static const u8 rtw89_btc_8922d_bt_rssi_thres[BTC_BT_RSSI_THMAX] = {50, 40, 30, 20}; static const struct rtw89_btc_fbtc_mreg rtw89_btc_8922d_mon_reg[] = { RTW89_DEF_FBTC_MREG(REG_MAC, 4, 0xe300), RTW89_DEF_FBTC_MREG(REG_MAC, 4, 0xe330), RTW89_DEF_FBTC_MREG(REG_MAC, 4, 0xe334), RTW89_DEF_FBTC_MREG(REG_MAC, 4, 0xe338), RTW89_DEF_FBTC_MREG(REG_MAC, 4, 0xe344), RTW89_DEF_FBTC_MREG(REG_MAC, 4, 0xe348), RTW89_DEF_FBTC_MREG(REG_MAC, 4, 0xe34c), RTW89_DEF_FBTC_MREG(REG_MAC, 4, 0xe350), RTW89_DEF_FBTC_MREG(REG_MAC, 4, 0xe354), RTW89_DEF_FBTC_MREG(REG_MAC, 4, 0xe35c), RTW89_DEF_FBTC_MREG(REG_MAC, 4, 0xe370), RTW89_DEF_FBTC_MREG(REG_MAC, 4, 0xe380), }; static void rtw8922d_btc_update_bt_cnt(struct rtw89_dev *rtwdev) { /* Feature move to firmware */ } static void rtw8922d_btc_wl_s1_standby(struct rtw89_dev *rtwdev, bool state) { /* Feature move to firmware */ } static void rtw8922d_btc_set_wl_rx_gain(struct rtw89_dev *rtwdev, u32 level) { /* Feature move to firmware */ } static void rtw8922d_fill_freq_with_ppdu(struct rtw89_dev *rtwdev, struct rtw89_rx_phy_ppdu *phy_ppdu, struct ieee80211_rx_status *status) { u8 chan_idx = phy_ppdu->chan_idx; enum nl80211_band band; u8 ch; if (chan_idx == 0) return; rtw89_decode_chan_idx(rtwdev, chan_idx, &ch, &band); status->freq = ieee80211_channel_to_frequency(ch, band); status->band = band; } static void rtw8922d_query_ppdu(struct rtw89_dev *rtwdev, struct rtw89_rx_phy_ppdu *phy_ppdu, struct ieee80211_rx_status *status) { u8 path; u8 *rx_power = phy_ppdu->rssi; if (!status->signal) status->signal = RTW89_RSSI_RAW_TO_DBM(max(rx_power[RF_PATH_A], rx_power[RF_PATH_B])); for (path = 0; path < rtwdev->chip->rf_path_num; path++) { status->chains |= BIT(path); status->chain_signal[path] = RTW89_RSSI_RAW_TO_DBM(rx_power[path]); } if (phy_ppdu->valid) rtw8922d_fill_freq_with_ppdu(rtwdev, phy_ppdu, status); } static void rtw8922d_convert_rpl_to_rssi(struct rtw89_dev *rtwdev, struct rtw89_rx_phy_ppdu *phy_ppdu) { /* Mapping to BW: 5, 10, 20, 40, 80, 160, 80_80 */ static const u8 bw_compensate[] = {0, 0, 0, 6, 12, 18, 0}; u8 *rssi = phy_ppdu->rssi; u8 compensate = 0; u8 i; if (phy_ppdu->bw_idx < ARRAY_SIZE(bw_compensate)) compensate = bw_compensate[phy_ppdu->bw_idx]; for (i = 0; i < RF_PATH_NUM_8922D; i++) { if (!(phy_ppdu->rx_path_en & BIT(i))) { rssi[i] = 0; phy_ppdu->rpl_path[i] = 0; phy_ppdu->rpl_fd[i] = 0; } if (phy_ppdu->ie != RTW89_CCK_PKT && rssi[i]) rssi[i] += compensate; phy_ppdu->rpl_path[i] = rssi[i]; } } static void rtw8922d_phy_rpt_to_rssi(struct rtw89_dev *rtwdev, struct rtw89_rx_desc_info *desc_info, struct ieee80211_rx_status *rx_status) { if (desc_info->rssi <= 0x1 || (desc_info->rssi >> 2) > MAX_RSSI) return; rx_status->signal = (desc_info->rssi >> 2) - MAX_RSSI; } static int rtw8922d_mac_enable_bb_rf(struct rtw89_dev *rtwdev) { return 0; } static int rtw8922d_mac_disable_bb_rf(struct rtw89_dev *rtwdev) { return 0; } static const struct rtw89_chanctx_listener rtw8922d_chanctx_listener = { .callbacks[RTW89_CHANCTX_CALLBACK_TAS] = rtw89_tas_chanctx_cb, }; #ifdef CONFIG_PM static const struct wiphy_wowlan_support rtw_wowlan_stub_8922d = { .flags = WIPHY_WOWLAN_MAGIC_PKT | WIPHY_WOWLAN_DISCONNECT | WIPHY_WOWLAN_NET_DETECT, .n_patterns = RTW89_MAX_PATTERN_NUM, .pattern_max_len = RTW89_MAX_PATTERN_SIZE, .pattern_min_len = 1, .max_nd_match_sets = RTW89_SCANOFLD_MAX_SSID, }; #endif static const struct rtw89_chip_ops rtw8922d_chip_ops = { .enable_bb_rf = rtw8922d_mac_enable_bb_rf, .disable_bb_rf = rtw8922d_mac_disable_bb_rf, .bb_preinit = rtw8922d_bb_preinit, .bb_postinit = rtw8922d_bb_postinit, .bb_reset = rtw8922d_bb_reset, .bb_sethw = rtw8922d_bb_sethw, .read_rf = rtw89_phy_read_rf_v3, .write_rf = rtw89_phy_write_rf_v3, .set_channel = rtw8922d_set_channel, .set_channel_help = rtw8922d_set_channel_help, .read_efuse = rtw8922d_read_efuse, .read_phycap = rtw8922d_read_phycap, .fem_setup = NULL, .rfe_gpio = NULL, .rfk_hw_init = rtw8922d_rfk_hw_init, .rfk_init = rtw8922d_rfk_init, .rfk_init_late = rtw8922d_rfk_init_late, .rfk_channel = rtw8922d_rfk_channel, .rfk_band_changed = rtw8922d_rfk_band_changed, .rfk_scan = rtw8922d_rfk_scan, .rfk_track = rtw8922d_rfk_track, .power_trim = rtw8922d_power_trim, .set_txpwr = rtw8922d_set_txpwr, .set_txpwr_ctrl = rtw8922d_set_txpwr_ctrl, .init_txpwr_unit = NULL, .get_thermal = rtw8922d_get_thermal, .chan_to_rf18_val = rtw8922d_chan_to_rf18_val, .ctrl_btg_bt_rx = rtw8922d_set_gbt_bt_rx_sel, .query_ppdu = rtw8922d_query_ppdu, .convert_rpl_to_rssi = rtw8922d_convert_rpl_to_rssi, .phy_rpt_to_rssi = rtw8922d_phy_rpt_to_rssi, .ctrl_nbtg_bt_tx = rtw8922d_ctrl_nbtg_bt_tx, .cfg_txrx_path = rtw8922d_bb_cfg_txrx_path, .set_txpwr_ul_tb_offset = NULL, .digital_pwr_comp = rtw8922d_digital_pwr_comp, .calc_rx_gain_normal = rtw8922d_calc_rx_gain_normal, .pwr_on_func = rtw8922d_pwr_on_func, .pwr_off_func = rtw8922d_pwr_off_func, .query_rxdesc = rtw89_core_query_rxdesc_v3, .fill_txdesc = rtw89_core_fill_txdesc_v3, .fill_txdesc_fwcmd = rtw89_core_fill_txdesc_fwcmd_v2, .get_ch_dma = {rtw89_core_get_ch_dma_v1, NULL, NULL,}, .cfg_ctrl_path = rtw89_mac_cfg_ctrl_path_v2, .mac_cfg_gnt = rtw89_mac_cfg_gnt_v3, .stop_sch_tx = rtw89_mac_stop_sch_tx_v2, .resume_sch_tx = rtw89_mac_resume_sch_tx_v2, .h2c_dctl_sec_cam = rtw89_fw_h2c_dctl_sec_cam_v3, .h2c_default_cmac_tbl = rtw89_fw_h2c_default_cmac_tbl_be, .h2c_assoc_cmac_tbl = rtw89_fw_h2c_assoc_cmac_tbl_be, .h2c_ampdu_cmac_tbl = rtw89_fw_h2c_ampdu_cmac_tbl_be, .h2c_txtime_cmac_tbl = rtw89_fw_h2c_txtime_cmac_tbl_be, .h2c_punctured_cmac_tbl = rtw89_fw_h2c_punctured_cmac_tbl_be, .h2c_default_dmac_tbl = rtw89_fw_h2c_default_dmac_tbl_v3, .h2c_update_beacon = rtw89_fw_h2c_update_beacon_be, .h2c_ba_cam = rtw89_fw_h2c_ba_cam_v1, .h2c_wow_cam_update = rtw89_fw_h2c_wow_cam_update_v1, .btc_set_rfe = rtw8922d_btc_set_rfe, .btc_init_cfg = rtw8922d_btc_init_cfg, .btc_set_wl_pri = NULL, .btc_set_wl_txpwr_ctrl = rtw8922d_btc_set_wl_txpwr_ctrl, .btc_get_bt_rssi = rtw8922d_btc_get_bt_rssi, .btc_update_bt_cnt = rtw8922d_btc_update_bt_cnt, .btc_wl_s1_standby = rtw8922d_btc_wl_s1_standby, .btc_set_wl_rx_gain = rtw8922d_btc_set_wl_rx_gain, .btc_set_policy = rtw89_btc_set_policy_v1, }; const struct rtw89_chip_info rtw8922d_chip_info = { .chip_id = RTL8922D, .chip_gen = RTW89_CHIP_BE, .ops = &rtw8922d_chip_ops, .mac_def = &rtw89_mac_gen_be, .phy_def = &rtw89_phy_gen_be_v1, .fw_def = { .fw_basename = RTW8922D_FW_BASENAME, .fw_format_max = RTW8922D_FW_FORMAT_MAX, .fw_b_aid = RTL8922D_AID7102, }, .try_ce_fw = false, .bbmcu_nr = 0, .needed_fw_elms = RTW89_BE_GEN_DEF_NEEDED_FW_ELEMENTS_V1, .fw_blacklist = &rtw89_fw_blacklist_default, .fifo_size = 393216, .small_fifo_size = false, .dle_scc_rsvd_size = 0, .max_amsdu_limit = 11000, .max_vht_mpdu_cap = IEEE80211_VHT_CAP_MAX_MPDU_LENGTH_7991, .max_eht_mpdu_cap = IEEE80211_EHT_MAC_CAP0_MAX_MPDU_LEN_7991, .max_tx_agg_num = 128, .max_rx_agg_num = 256, .dis_2g_40m_ul_ofdma = false, .rsvd_ple_ofst = 0x5f800, .hfc_param_ini = {rtw8922d_hfc_param_ini_pcie, NULL, NULL}, .dle_mem = {rtw8922d_dle_mem_pcie, NULL, NULL, NULL}, .wde_qempty_acq_grpnum = 8, .wde_qempty_mgq_grpsel = 8, .rf_base_addr = {0x3e000, 0x3f000}, .thermal_th = {0xac, 0xad}, .pwr_on_seq = NULL, .pwr_off_seq = NULL, .bb_table = NULL, .bb_gain_table = NULL, .rf_table = {}, .nctl_table = NULL, .nctl_post_table = &rtw8922d_nctl_post_defs_tbl, .dflt_parms = NULL, /* load parm from fw */ .rfe_parms_conf = NULL, /* load parm from fw */ .chanctx_listener = &rtw8922d_chanctx_listener, .txpwr_factor_bb = 3, .txpwr_factor_rf = 2, .txpwr_factor_mac = 1, .dig_table = NULL, .dig_regs = &rtw8922d_dig_regs, .tssi_dbw_table = NULL, .support_macid_num = 64, .support_link_num = 2, .support_chanctx_num = 2, .support_rnr = true, .support_bands = BIT(NL80211_BAND_2GHZ) | BIT(NL80211_BAND_5GHZ) | BIT(NL80211_BAND_6GHZ), .support_bandwidths = BIT(NL80211_CHAN_WIDTH_20) | BIT(NL80211_CHAN_WIDTH_40) | BIT(NL80211_CHAN_WIDTH_80) | BIT(NL80211_CHAN_WIDTH_160), .support_unii4 = true, .support_ant_gain = false, .support_tas = false, .support_sar_by_ant = true, .support_noise = false, .ul_tb_waveform_ctrl = false, .ul_tb_pwr_diff = false, .rx_freq_frome_ie = false, .hw_sec_hdr = true, .hw_mgmt_tx_encrypt = true, .hw_tkip_crypto = true, .hw_mlo_bmc_crypto = true, .rf_path_num = 2, .tx_nss = 2, .rx_nss = 2, .acam_num = 128, .bcam_num = 16, .scam_num = 32, .bacam_num = 24, .bacam_dynamic_num = 8, .bacam_ver = RTW89_BACAM_V1, .addrcam_ver = 1, .ppdu_max_usr = 16, .sec_ctrl_efuse_size = 4, .physical_efuse_size = 0x1300, .logical_efuse_size = 0x70000, .limit_efuse_size = 0x40000, .dav_phy_efuse_size = 0, .dav_log_efuse_size = 0, .efuse_blocks = rtw8922d_efuse_blocks, .phycap_addr = 0x1700, .phycap_size = 0x60, .para_ver = 0x3ff, .wlcx_desired = 0x09150000, .scbd = 0x1, .mailbox = 0x1, .afh_guard_ch = 6, .wl_rssi_thres = rtw89_btc_8922d_wl_rssi_thres, .bt_rssi_thres = rtw89_btc_8922d_bt_rssi_thres, .rssi_tol = 2, .mon_reg_num = ARRAY_SIZE(rtw89_btc_8922d_mon_reg), .mon_reg = rtw89_btc_8922d_mon_reg, .rf_para_ulink_v9 = rtw89_btc_8922d_rf_ul_v9, .rf_para_dlink_v9 = rtw89_btc_8922d_rf_dl_v9, .rf_para_ulink_num_v9 = ARRAY_SIZE(rtw89_btc_8922d_rf_ul_v9), .rf_para_dlink_num_v9 = ARRAY_SIZE(rtw89_btc_8922d_rf_dl_v9), .ps_mode_supported = BIT(RTW89_PS_MODE_RFOFF) | BIT(RTW89_PS_MODE_CLK_GATED) | BIT(RTW89_PS_MODE_PWR_GATED), .low_power_hci_modes = 0, .h2c_cctl_func_id = H2C_FUNC_MAC_CCTLINFO_UD_G7, .hci_func_en_addr = R_BE_HCI_FUNC_EN, .h2c_desc_size = sizeof(struct rtw89_rxdesc_short_v3), .txwd_body_size = sizeof(struct rtw89_txwd_body_v2), .txwd_info_size = sizeof(struct rtw89_txwd_info_v2), .h2c_ctrl_reg = R_BE_H2CREG_CTRL, .h2c_counter_reg = {R_BE_UDM1 + 1, B_BE_UDM1_HALMAC_H2C_DEQ_CNT_MASK >> 8}, .h2c_regs = rtw8922d_h2c_regs, .c2h_ctrl_reg = R_BE_C2HREG_CTRL, .c2h_counter_reg = {R_BE_UDM1 + 1, B_BE_UDM1_HALMAC_C2H_ENQ_CNT_MASK >> 8}, .c2h_regs = rtw8922d_c2h_regs, .page_regs = &rtw8922d_page_regs, .wow_reason_reg = rtw8922d_wow_wakeup_regs, .cfo_src_fd = true, .cfo_hw_comp = true, .dcfo_comp = NULL, .dcfo_comp_sft = 0, .nhm_report = NULL, .nhm_th = NULL, .imr_info = NULL, .imr_dmac_table = &rtw8922d_imr_dmac_table, .imr_cmac_table = &rtw8922d_imr_cmac_table, .rrsr_cfgs = &rtw8922d_rrsr_cfgs, .bss_clr_vld = {R_BSS_CLR_VLD_BE4, B_BSS_CLR_VLD_BE4}, .bss_clr_map_reg = R_BSS_CLR_MAP_BE4, .rfkill_init = &rtw8922d_rfkill_regs, .rfkill_get = {R_BE_GPIO_EXT_CTRL, B_BE_GPIO_IN_9}, .btc_sb = {{{R_BE_SCOREBOARD_0, R_BE_SCOREBOARD_0_BT_DATA}, {R_BE_SCOREBOARD_1, R_BE_SCOREBOARD_1_BT_DATA}}}, .dma_ch_mask = BIT(RTW89_DMA_ACH1) | BIT(RTW89_DMA_ACH3) | BIT(RTW89_DMA_ACH5) | BIT(RTW89_DMA_ACH7) | BIT(RTW89_DMA_B0HI) | BIT(RTW89_DMA_B1HI), .edcca_regs = &rtw8922d_edcca_regs, #ifdef CONFIG_PM .wowlan_stub = &rtw_wowlan_stub_8922d, #endif .xtal_info = NULL, .default_quirks = BIT(RTW89_QUIRK_THERMAL_PROT_120C), }; EXPORT_SYMBOL(rtw8922d_chip_info); static const struct rtw89_fw_def rtw8922de_vs_fw_def = { .fw_basename = RTW8922DS_FW_BASENAME, .fw_format_max = RTW8922DS_FW_FORMAT_MAX, .fw_b_aid = RTL8922D_AID7060, }; const struct rtw89_chip_variant rtw8922de_vs_variant = { .no_mcs_12_13 = true, .fw_min_ver_code = RTW89_FW_VER_CODE(0, 0, 0, 0), .fw_def_override = &rtw8922de_vs_fw_def, }; EXPORT_SYMBOL(rtw8922de_vs_variant); MODULE_FIRMWARE(RTW8922D_MODULE_FIRMWARE); MODULE_FIRMWARE(RTW8922DS_MODULE_FIRMWARE); MODULE_AUTHOR("Realtek Corporation"); MODULE_DESCRIPTION("Realtek 802.11be wireless 8922D driver"); MODULE_LICENSE("Dual BSD/GPL");