Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Larry Finger | 9116 | 84.13% | 73 | 45.91% |
Ping-Ke Shih | 826 | 7.62% | 46 | 28.93% |
Chaoming Li | 437 | 4.03% | 12 | 7.55% |
George | 271 | 2.50% | 3 | 1.89% |
Tzu-En Huang | 65 | 0.60% | 1 | 0.63% |
Joe Perches | 37 | 0.34% | 2 | 1.26% |
Arnd Bergmann | 29 | 0.27% | 2 | 1.26% |
Johannes Berg | 16 | 0.15% | 4 | 2.52% |
Troy Tan | 8 | 0.07% | 1 | 0.63% |
John W. Linville | 4 | 0.04% | 1 | 0.63% |
Hans Ulli Kroll | 3 | 0.03% | 1 | 0.63% |
Stanislaw Gruszka | 3 | 0.03% | 2 | 1.26% |
Gustavo A. R. Silva | 3 | 0.03% | 1 | 0.63% |
Mike McCormack | 3 | 0.03% | 2 | 1.26% |
David S. Miller | 3 | 0.03% | 1 | 0.63% |
Adam Lee | 3 | 0.03% | 1 | 0.63% |
Thomas Huehn | 3 | 0.03% | 1 | 0.63% |
Paul Walmsley | 1 | 0.01% | 1 | 0.63% |
Mark Cave-Ayland | 1 | 0.01% | 1 | 0.63% |
Christophe Jaillet | 1 | 0.01% | 1 | 0.63% |
Julia Lawall | 1 | 0.01% | 1 | 0.63% |
Rusty Russell | 1 | 0.01% | 1 | 0.63% |
Total | 10835 | 159 |
/* SPDX-License-Identifier: GPL-2.0 */ /* Copyright(c) 2009-2012 Realtek Corporation.*/ #ifndef __RTL_WIFI_H__ #define __RTL_WIFI_H__ #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt #include <linux/sched.h> #include <linux/firmware.h> #include <linux/etherdevice.h> #include <linux/vmalloc.h> #include <linux/usb.h> #include <net/mac80211.h> #include <linux/completion.h> #include <linux/bitfield.h> #include "debug.h" #define MASKBYTE0 0xff #define MASKBYTE1 0xff00 #define MASKBYTE2 0xff0000 #define MASKBYTE3 0xff000000 #define MASKHWORD 0xffff0000 #define MASKLWORD 0x0000ffff #define MASKDWORD 0xffffffff #define MASK12BITS 0xfff #define MASKH4BITS 0xf0000000 #define MASKOFDM_D 0xffc00000 #define MASKCCK 0x3f3f3f3f #define MASK4BITS 0x0f #define MASK20BITS 0xfffff #define RFREG_OFFSET_MASK 0xfffff #define MASKBYTE0 0xff #define MASKBYTE1 0xff00 #define MASKBYTE2 0xff0000 #define MASKBYTE3 0xff000000 #define MASKHWORD 0xffff0000 #define MASKLWORD 0x0000ffff #define MASKDWORD 0xffffffff #define MASK12BITS 0xfff #define MASKH4BITS 0xf0000000 #define MASKOFDM_D 0xffc00000 #define MASKCCK 0x3f3f3f3f #define MASK4BITS 0x0f #define MASK20BITS 0xfffff #define RFREG_OFFSET_MASK 0xfffff #define RF_CHANGE_BY_INIT 0 #define RF_CHANGE_BY_IPS BIT(28) #define RF_CHANGE_BY_PS BIT(29) #define RF_CHANGE_BY_HW BIT(30) #define RF_CHANGE_BY_SW BIT(31) #define IQK_ADDA_REG_NUM 16 #define IQK_MAC_REG_NUM 4 #define IQK_THRESHOLD 8 #define MAX_KEY_LEN 61 #define KEY_BUF_SIZE 5 /* QoS related. */ /*aci: 0x00 Best Effort*/ /*aci: 0x01 Background*/ /*aci: 0x10 Video*/ /*aci: 0x11 Voice*/ /*Max: define total number.*/ #define AC0_BE 0 #define AC1_BK 1 #define AC2_VI 2 #define AC3_VO 3 #define AC_MAX 4 #define QOS_QUEUE_NUM 4 #define RTL_MAC80211_NUM_QUEUE 5 #define REALTEK_USB_VENQT_MAX_BUF_SIZE 254 #define RTL_USB_MAX_RX_COUNT 100 #define QBSS_LOAD_SIZE 5 #define MAX_WMMELE_LENGTH 64 #define ASPM_L1_LATENCY 7 #define TOTAL_CAM_ENTRY 32 /*slot time for 11g. */ #define RTL_SLOT_TIME_9 9 #define RTL_SLOT_TIME_20 20 /*related to tcp/ip. */ #define SNAP_SIZE 6 #define PROTOC_TYPE_SIZE 2 /*related with 802.11 frame*/ #define MAC80211_3ADDR_LEN 24 #define MAC80211_4ADDR_LEN 30 #define CHANNEL_MAX_NUMBER (14 + 24 + 21) /* 14 is the max channel no */ #define CHANNEL_MAX_NUMBER_2G 14 #define CHANNEL_MAX_NUMBER_5G 49 /* Please refer to *"phy_GetChnlGroup8812A" and * "Hal_ReadTxPowerInfo8812A" */ #define CHANNEL_MAX_NUMBER_5G_80M 7 #define CHANNEL_GROUP_MAX (3 + 9) /* ch1~3, 4~9, 10~14 = three groups */ #define MAX_PG_GROUP 13 #define CHANNEL_GROUP_MAX_2G 3 #define CHANNEL_GROUP_IDX_5GL 3 #define CHANNEL_GROUP_IDX_5GM 6 #define CHANNEL_GROUP_IDX_5GH 9 #define CHANNEL_GROUP_MAX_5G 9 #define AVG_THERMAL_NUM 8 #define AVG_THERMAL_NUM_88E 4 #define AVG_THERMAL_NUM_8723BE 4 #define MAX_TID_COUNT 9 /* for early mode */ #define FCS_LEN 4 #define EM_HDR_LEN 8 enum rtl8192c_h2c_cmd { H2C_AP_OFFLOAD = 0, H2C_SETPWRMODE = 1, H2C_JOINBSSRPT = 2, H2C_RSVDPAGE = 3, H2C_RSSI_REPORT = 5, H2C_RA_MASK = 6, H2C_MACID_PS_MODE = 7, H2C_P2P_PS_OFFLOAD = 8, H2C_MAC_MODE_SEL = 9, H2C_PWRM = 15, H2C_P2P_PS_CTW_CMD = 24, MAX_H2CCMD }; enum { H2C_BT_PORT_ID = 0x71, }; enum rtl_c2h_evt_v1 { C2H_DBG = 0, C2H_LB = 1, C2H_TXBF = 2, C2H_TX_REPORT = 3, C2H_BT_INFO = 9, C2H_BT_MP = 11, C2H_RA_RPT = 12, C2H_FW_SWCHNL = 0x10, C2H_IQK_FINISH = 0x11, C2H_EXT_V2 = 0xFF, }; enum rtl_c2h_evt_v2 { C2H_V2_CCX_RPT = 0x0F, }; #define GET_C2H_CMD_ID(c2h) ({u8 *__c2h = c2h; __c2h[0]; }) #define GET_C2H_SEQ(c2h) ({u8 *__c2h = c2h; __c2h[1]; }) #define C2H_DATA_OFFSET 2 #define GET_C2H_DATA_PTR(c2h) ({u8 *__c2h = c2h; &__c2h[C2H_DATA_OFFSET]; }) #define GET_TX_REPORT_SN_V1(c2h) (c2h[6]) #define GET_TX_REPORT_ST_V1(c2h) (c2h[0] & 0xC0) #define GET_TX_REPORT_RETRY_V1(c2h) (c2h[2] & 0x3F) #define GET_TX_REPORT_SN_V2(c2h) (c2h[6]) #define GET_TX_REPORT_ST_V2(c2h) (c2h[7] & 0xC0) #define GET_TX_REPORT_RETRY_V2(c2h) (c2h[8] & 0x3F) #define MAX_TX_COUNT 4 #define MAX_REGULATION_NUM 4 #define MAX_RF_PATH_NUM 4 #define MAX_RATE_SECTION_NUM 6 /* = MAX_RATE_SECTION */ #define MAX_2_4G_BANDWIDTH_NUM 4 #define MAX_5G_BANDWIDTH_NUM 4 #define MAX_RF_PATH 4 #define MAX_CHNL_GROUP_24G 6 #define MAX_CHNL_GROUP_5G 14 #define TX_PWR_BY_RATE_NUM_BAND 2 #define TX_PWR_BY_RATE_NUM_RF 4 #define TX_PWR_BY_RATE_NUM_SECTION 12 #define TX_PWR_BY_RATE_NUM_RATE 84 /* >= TX_PWR_BY_RATE_NUM_SECTION */ #define MAX_BASE_NUM_IN_PHY_REG_PG_24G 6 /* MAX_RATE_SECTION */ #define MAX_BASE_NUM_IN_PHY_REG_PG_5G 5 /* MAX_RATE_SECTION -1 */ #define BUFDESC_SEG_NUM 1 /* 0:2 seg, 1: 4 seg, 2: 8 seg */ #define DEL_SW_IDX_SZ 30 /* For now, it's just for 8192ee * but not OK yet, keep it 0 */ #define RTL8192EE_SEG_NUM BUFDESC_SEG_NUM enum rf_tx_num { RF_1TX = 0, RF_2TX, RF_MAX_TX_NUM, RF_TX_NUM_NONIMPLEMENT, }; #define PACKET_NORMAL 0 #define PACKET_DHCP 1 #define PACKET_ARP 2 #define PACKET_EAPOL 3 #define MAX_SUPPORT_WOL_PATTERN_NUM 16 #define RSVD_WOL_PATTERN_NUM 1 #define WKFMCAM_ADDR_NUM 6 #define WKFMCAM_SIZE 24 #define MAX_WOL_BIT_MASK_SIZE 16 /* MIN LEN keeps 13 here */ #define MIN_WOL_PATTERN_SIZE 13 #define MAX_WOL_PATTERN_SIZE 128 #define WAKE_ON_MAGIC_PACKET BIT(0) #define WAKE_ON_PATTERN_MATCH BIT(1) #define WOL_REASON_PTK_UPDATE BIT(0) #define WOL_REASON_GTK_UPDATE BIT(1) #define WOL_REASON_DISASSOC BIT(2) #define WOL_REASON_DEAUTH BIT(3) #define WOL_REASON_AP_LOST BIT(4) #define WOL_REASON_MAGIC_PKT BIT(5) #define WOL_REASON_UNICAST_PKT BIT(6) #define WOL_REASON_PATTERN_PKT BIT(7) #define WOL_REASON_RTD3_SSID_MATCH BIT(8) #define WOL_REASON_REALWOW_V2_WAKEUPPKT BIT(9) #define WOL_REASON_REALWOW_V2_ACKLOST BIT(10) struct rtlwifi_firmware_header { __le16 signature; u8 category; u8 function; __le16 version; u8 subversion; u8 rsvd1; u8 month; u8 date; u8 hour; u8 minute; __le16 ramcodesize; __le16 rsvd2; __le32 svnindex; __le32 rsvd3; __le32 rsvd4; __le32 rsvd5; }; struct txpower_info_2g { u8 index_cck_base[MAX_RF_PATH][MAX_CHNL_GROUP_24G]; u8 index_bw40_base[MAX_RF_PATH][MAX_CHNL_GROUP_24G]; /*If only one tx, only BW20 and OFDM are used.*/ u8 cck_diff[MAX_RF_PATH][MAX_TX_COUNT]; u8 ofdm_diff[MAX_RF_PATH][MAX_TX_COUNT]; u8 bw20_diff[MAX_RF_PATH][MAX_TX_COUNT]; u8 bw40_diff[MAX_RF_PATH][MAX_TX_COUNT]; u8 bw80_diff[MAX_RF_PATH][MAX_TX_COUNT]; u8 bw160_diff[MAX_RF_PATH][MAX_TX_COUNT]; }; struct txpower_info_5g { u8 index_bw40_base[MAX_RF_PATH][MAX_CHNL_GROUP_5G]; /*If only one tx, only BW20, OFDM, BW80 and BW160 are used.*/ u8 ofdm_diff[MAX_RF_PATH][MAX_TX_COUNT]; u8 bw20_diff[MAX_RF_PATH][MAX_TX_COUNT]; u8 bw40_diff[MAX_RF_PATH][MAX_TX_COUNT]; u8 bw80_diff[MAX_RF_PATH][MAX_TX_COUNT]; u8 bw160_diff[MAX_RF_PATH][MAX_TX_COUNT]; }; enum rate_section { CCK = 0, OFDM, HT_MCS0_MCS7, HT_MCS8_MCS15, VHT_1SSMCS0_1SSMCS9, VHT_2SSMCS0_2SSMCS9, MAX_RATE_SECTION, }; enum intf_type { INTF_PCI = 0, INTF_USB = 1, }; enum radio_path { RF90_PATH_A = 0, RF90_PATH_B = 1, RF90_PATH_C = 2, RF90_PATH_D = 3, }; enum radio_mask { RF_MASK_A = BIT(0), RF_MASK_B = BIT(1), RF_MASK_C = BIT(2), RF_MASK_D = BIT(3), }; enum regulation_txpwr_lmt { TXPWR_LMT_FCC = 0, TXPWR_LMT_MKK = 1, TXPWR_LMT_ETSI = 2, TXPWR_LMT_WW = 3, TXPWR_LMT_MAX_REGULATION_NUM = 4 }; enum rt_eeprom_type { EEPROM_93C46, EEPROM_93C56, EEPROM_BOOT_EFUSE, }; enum ttl_status { RTL_STATUS_INTERFACE_START = 0, }; enum hardware_type { HARDWARE_TYPE_RTL8192E, HARDWARE_TYPE_RTL8192U, HARDWARE_TYPE_RTL8192SE, HARDWARE_TYPE_RTL8192SU, HARDWARE_TYPE_RTL8192CE, HARDWARE_TYPE_RTL8192CU, HARDWARE_TYPE_RTL8192DE, HARDWARE_TYPE_RTL8192DU, HARDWARE_TYPE_RTL8723AE, HARDWARE_TYPE_RTL8723U, HARDWARE_TYPE_RTL8188EE, HARDWARE_TYPE_RTL8723BE, HARDWARE_TYPE_RTL8192EE, HARDWARE_TYPE_RTL8821AE, HARDWARE_TYPE_RTL8812AE, HARDWARE_TYPE_RTL8822BE, /* keep it last */ HARDWARE_TYPE_NUM }; #define RTL_HW_TYPE(rtlpriv) (rtl_hal((struct rtl_priv *)rtlpriv)->hw_type) #define IS_NEW_GENERATION_IC(rtlpriv) \ (RTL_HW_TYPE(rtlpriv) >= HARDWARE_TYPE_RTL8192EE) #define IS_HARDWARE_TYPE_8192CE(rtlpriv) \ (RTL_HW_TYPE(rtlpriv) == HARDWARE_TYPE_RTL8192CE) #define IS_HARDWARE_TYPE_8812(rtlpriv) \ (RTL_HW_TYPE(rtlpriv) == HARDWARE_TYPE_RTL8812AE) #define IS_HARDWARE_TYPE_8821(rtlpriv) \ (RTL_HW_TYPE(rtlpriv) == HARDWARE_TYPE_RTL8821AE) #define IS_HARDWARE_TYPE_8723A(rtlpriv) \ (RTL_HW_TYPE(rtlpriv) == HARDWARE_TYPE_RTL8723AE) #define IS_HARDWARE_TYPE_8723B(rtlpriv) \ (RTL_HW_TYPE(rtlpriv) == HARDWARE_TYPE_RTL8723BE) #define IS_HARDWARE_TYPE_8192E(rtlpriv) \ (RTL_HW_TYPE(rtlpriv) == HARDWARE_TYPE_RTL8192EE) #define IS_HARDWARE_TYPE_8822B(rtlpriv) \ (RTL_HW_TYPE(rtlpriv) == HARDWARE_TYPE_RTL8822BE) #define RX_HAL_IS_CCK_RATE(rxmcs) \ ((rxmcs) == DESC_RATE1M || \ (rxmcs) == DESC_RATE2M || \ (rxmcs) == DESC_RATE5_5M || \ (rxmcs) == DESC_RATE11M) enum scan_operation_backup_opt { SCAN_OPT_BACKUP = 0, SCAN_OPT_BACKUP_BAND0 = 0, SCAN_OPT_BACKUP_BAND1, SCAN_OPT_RESTORE, SCAN_OPT_MAX }; /*RF state.*/ enum rf_pwrstate { ERFON, ERFSLEEP, ERFOFF }; struct bb_reg_def { u32 rfintfs; u32 rfintfi; u32 rfintfo; u32 rfintfe; u32 rf3wire_offset; u32 rflssi_select; u32 rftxgain_stage; u32 rfhssi_para1; u32 rfhssi_para2; u32 rfsw_ctrl; u32 rfagc_control1; u32 rfagc_control2; u32 rfrxiq_imbal; u32 rfrx_afe; u32 rftxiq_imbal; u32 rftx_afe; u32 rf_rb; /* rflssi_readback */ u32 rf_rbpi; /* rflssi_readbackpi */ }; enum io_type { IO_CMD_PAUSE_DM_BY_SCAN = 0, IO_CMD_PAUSE_BAND0_DM_BY_SCAN = 0, IO_CMD_PAUSE_BAND1_DM_BY_SCAN = 1, IO_CMD_RESUME_DM_BY_SCAN = 2, }; enum hw_variables { HW_VAR_ETHER_ADDR = 0x0, HW_VAR_MULTICAST_REG = 0x1, HW_VAR_BASIC_RATE = 0x2, HW_VAR_BSSID = 0x3, HW_VAR_MEDIA_STATUS = 0x4, HW_VAR_SECURITY_CONF = 0x5, HW_VAR_BEACON_INTERVAL = 0x6, HW_VAR_ATIM_WINDOW = 0x7, HW_VAR_LISTEN_INTERVAL = 0x8, HW_VAR_CS_COUNTER = 0x9, HW_VAR_DEFAULTKEY0 = 0xa, HW_VAR_DEFAULTKEY1 = 0xb, HW_VAR_DEFAULTKEY2 = 0xc, HW_VAR_DEFAULTKEY3 = 0xd, HW_VAR_SIFS = 0xe, HW_VAR_R2T_SIFS = 0xf, HW_VAR_DIFS = 0x10, HW_VAR_EIFS = 0x11, HW_VAR_SLOT_TIME = 0x12, HW_VAR_ACK_PREAMBLE = 0x13, HW_VAR_CW_CONFIG = 0x14, HW_VAR_CW_VALUES = 0x15, HW_VAR_RATE_FALLBACK_CONTROL = 0x16, HW_VAR_CONTENTION_WINDOW = 0x17, HW_VAR_RETRY_COUNT = 0x18, HW_VAR_TR_SWITCH = 0x19, HW_VAR_COMMAND = 0x1a, HW_VAR_WPA_CONFIG = 0x1b, HW_VAR_AMPDU_MIN_SPACE = 0x1c, HW_VAR_SHORTGI_DENSITY = 0x1d, HW_VAR_AMPDU_FACTOR = 0x1e, HW_VAR_MCS_RATE_AVAILABLE = 0x1f, HW_VAR_AC_PARAM = 0x20, HW_VAR_ACM_CTRL = 0x21, HW_VAR_DIS_REQ_QSIZE = 0x22, HW_VAR_CCX_CHNL_LOAD = 0x23, HW_VAR_CCX_NOISE_HISTOGRAM = 0x24, HW_VAR_CCX_CLM_NHM = 0x25, HW_VAR_TXOPLIMIT = 0x26, HW_VAR_TURBO_MODE = 0x27, HW_VAR_RF_STATE = 0x28, HW_VAR_RF_OFF_BY_HW = 0x29, HW_VAR_BUS_SPEED = 0x2a, HW_VAR_SET_DEV_POWER = 0x2b, HW_VAR_RCR = 0x2c, HW_VAR_RATR_0 = 0x2d, HW_VAR_RRSR = 0x2e, HW_VAR_CPU_RST = 0x2f, HW_VAR_CHECK_BSSID = 0x30, HW_VAR_LBK_MODE = 0x31, HW_VAR_AES_11N_FIX = 0x32, HW_VAR_USB_RX_AGGR = 0x33, HW_VAR_USER_CONTROL_TURBO_MODE = 0x34, HW_VAR_RETRY_LIMIT = 0x35, HW_VAR_INIT_TX_RATE = 0x36, HW_VAR_TX_RATE_REG = 0x37, HW_VAR_EFUSE_USAGE = 0x38, HW_VAR_EFUSE_BYTES = 0x39, HW_VAR_AUTOLOAD_STATUS = 0x3a, HW_VAR_RF_2R_DISABLE = 0x3b, HW_VAR_SET_RPWM = 0x3c, HW_VAR_H2C_FW_PWRMODE = 0x3d, HW_VAR_H2C_FW_JOINBSSRPT = 0x3e, HW_VAR_H2C_FW_MEDIASTATUSRPT = 0x3f, HW_VAR_H2C_FW_P2P_PS_OFFLOAD = 0x40, HW_VAR_FW_PSMODE_STATUS = 0x41, HW_VAR_INIT_RTS_RATE = 0x42, HW_VAR_RESUME_CLK_ON = 0x43, HW_VAR_FW_LPS_ACTION = 0x44, HW_VAR_1X1_RECV_COMBINE = 0x45, HW_VAR_STOP_SEND_BEACON = 0x46, HW_VAR_TSF_TIMER = 0x47, HW_VAR_IO_CMD = 0x48, HW_VAR_RF_RECOVERY = 0x49, HW_VAR_H2C_FW_UPDATE_GTK = 0x4a, HW_VAR_WF_MASK = 0x4b, HW_VAR_WF_CRC = 0x4c, HW_VAR_WF_IS_MAC_ADDR = 0x4d, HW_VAR_H2C_FW_OFFLOAD = 0x4e, HW_VAR_RESET_WFCRC = 0x4f, HW_VAR_HANDLE_FW_C2H = 0x50, HW_VAR_DL_FW_RSVD_PAGE = 0x51, HW_VAR_AID = 0x52, HW_VAR_HW_SEQ_ENABLE = 0x53, HW_VAR_CORRECT_TSF = 0x54, HW_VAR_BCN_VALID = 0x55, HW_VAR_FWLPS_RF_ON = 0x56, HW_VAR_DUAL_TSF_RST = 0x57, HW_VAR_SWITCH_EPHY_WOWLAN = 0x58, HW_VAR_INT_MIGRATION = 0x59, HW_VAR_INT_AC = 0x5a, HW_VAR_RF_TIMING = 0x5b, HAL_DEF_WOWLAN = 0x5c, HW_VAR_MRC = 0x5d, HW_VAR_KEEP_ALIVE = 0x5e, HW_VAR_NAV_UPPER = 0x5f, HW_VAR_MGT_FILTER = 0x60, HW_VAR_CTRL_FILTER = 0x61, HW_VAR_DATA_FILTER = 0x62, }; enum rt_media_status { RT_MEDIA_DISCONNECT = 0, RT_MEDIA_CONNECT = 1 }; enum rt_oem_id { RT_CID_DEFAULT = 0, RT_CID_8187_ALPHA0 = 1, RT_CID_8187_SERCOMM_PS = 2, RT_CID_8187_HW_LED = 3, RT_CID_8187_NETGEAR = 4, RT_CID_WHQL = 5, RT_CID_819X_CAMEO = 6, RT_CID_819X_RUNTOP = 7, RT_CID_819X_SENAO = 8, RT_CID_TOSHIBA = 9, RT_CID_819X_NETCORE = 10, RT_CID_NETTRONIX = 11, RT_CID_DLINK = 12, RT_CID_PRONET = 13, RT_CID_COREGA = 14, RT_CID_819X_ALPHA = 15, RT_CID_819X_SITECOM = 16, RT_CID_CCX = 17, RT_CID_819X_LENOVO = 18, RT_CID_819X_QMI = 19, RT_CID_819X_EDIMAX_BELKIN = 20, RT_CID_819X_SERCOMM_BELKIN = 21, RT_CID_819X_CAMEO1 = 22, RT_CID_819X_MSI = 23, RT_CID_819X_ACER = 24, RT_CID_819X_HP = 27, RT_CID_819X_CLEVO = 28, RT_CID_819X_ARCADYAN_BELKIN = 29, RT_CID_819X_SAMSUNG = 30, RT_CID_819X_WNC_COREGA = 31, RT_CID_819X_FOXCOON = 32, RT_CID_819X_DELL = 33, RT_CID_819X_PRONETS = 34, RT_CID_819X_EDIMAX_ASUS = 35, RT_CID_NETGEAR = 36, RT_CID_PLANEX = 37, RT_CID_CC_C = 38, RT_CID_LENOVO_CHINA = 40, }; enum hw_descs { HW_DESC_OWN, HW_DESC_RXOWN, HW_DESC_TX_NEXTDESC_ADDR, HW_DESC_TXBUFF_ADDR, HW_DESC_RXBUFF_ADDR, HW_DESC_RXPKT_LEN, HW_DESC_RXERO, HW_DESC_RX_PREPARE, }; enum prime_sc { PRIME_CHNL_OFFSET_DONT_CARE = 0, PRIME_CHNL_OFFSET_LOWER = 1, PRIME_CHNL_OFFSET_UPPER = 2, }; enum rf_type { RF_1T1R = 0, RF_1T2R = 1, RF_2T2R = 2, RF_2T2R_GREEN = 3, RF_2T3R = 4, RF_2T4R = 5, RF_3T3R = 6, RF_3T4R = 7, RF_4T4R = 8, }; enum ht_channel_width { HT_CHANNEL_WIDTH_20 = 0, HT_CHANNEL_WIDTH_20_40 = 1, HT_CHANNEL_WIDTH_80 = 2, HT_CHANNEL_WIDTH_MAX, }; /* Ref: 802.11i spec D10.0 7.3.2.25.1 * Cipher Suites Encryption Algorithms */ enum rt_enc_alg { NO_ENCRYPTION = 0, WEP40_ENCRYPTION = 1, TKIP_ENCRYPTION = 2, RSERVED_ENCRYPTION = 3, AESCCMP_ENCRYPTION = 4, WEP104_ENCRYPTION = 5, AESCMAC_ENCRYPTION = 6, /*IEEE802.11w */ }; enum rtl_hal_state { _HAL_STATE_STOP = 0, _HAL_STATE_START = 1, }; enum rtl_desc_rate { DESC_RATE1M = 0x00, DESC_RATE2M = 0x01, DESC_RATE5_5M = 0x02, DESC_RATE11M = 0x03, DESC_RATE6M = 0x04, DESC_RATE9M = 0x05, DESC_RATE12M = 0x06, DESC_RATE18M = 0x07, DESC_RATE24M = 0x08, DESC_RATE36M = 0x09, DESC_RATE48M = 0x0a, DESC_RATE54M = 0x0b, DESC_RATEMCS0 = 0x0c, DESC_RATEMCS1 = 0x0d, DESC_RATEMCS2 = 0x0e, DESC_RATEMCS3 = 0x0f, DESC_RATEMCS4 = 0x10, DESC_RATEMCS5 = 0x11, DESC_RATEMCS6 = 0x12, DESC_RATEMCS7 = 0x13, DESC_RATEMCS8 = 0x14, DESC_RATEMCS9 = 0x15, DESC_RATEMCS10 = 0x16, DESC_RATEMCS11 = 0x17, DESC_RATEMCS12 = 0x18, DESC_RATEMCS13 = 0x19, DESC_RATEMCS14 = 0x1a, DESC_RATEMCS15 = 0x1b, DESC_RATEMCS15_SG = 0x1c, DESC_RATEMCS32 = 0x20, DESC_RATEVHT1SS_MCS0 = 0x2c, DESC_RATEVHT1SS_MCS1 = 0x2d, DESC_RATEVHT1SS_MCS2 = 0x2e, DESC_RATEVHT1SS_MCS3 = 0x2f, DESC_RATEVHT1SS_MCS4 = 0x30, DESC_RATEVHT1SS_MCS5 = 0x31, DESC_RATEVHT1SS_MCS6 = 0x32, DESC_RATEVHT1SS_MCS7 = 0x33, DESC_RATEVHT1SS_MCS8 = 0x34, DESC_RATEVHT1SS_MCS9 = 0x35, DESC_RATEVHT2SS_MCS0 = 0x36, DESC_RATEVHT2SS_MCS1 = 0x37, DESC_RATEVHT2SS_MCS2 = 0x38, DESC_RATEVHT2SS_MCS3 = 0x39, DESC_RATEVHT2SS_MCS4 = 0x3a, DESC_RATEVHT2SS_MCS5 = 0x3b, DESC_RATEVHT2SS_MCS6 = 0x3c, DESC_RATEVHT2SS_MCS7 = 0x3d, DESC_RATEVHT2SS_MCS8 = 0x3e, DESC_RATEVHT2SS_MCS9 = 0x3f, }; enum rtl_var_map { /*reg map */ SYS_ISO_CTRL = 0, SYS_FUNC_EN, SYS_CLK, MAC_RCR_AM, MAC_RCR_AB, MAC_RCR_ACRC32, MAC_RCR_ACF, MAC_RCR_AAP, MAC_HIMR, MAC_HIMRE, MAC_HSISR, /*efuse map */ EFUSE_TEST, EFUSE_CTRL, EFUSE_CLK, EFUSE_CLK_CTRL, EFUSE_PWC_EV12V, EFUSE_FEN_ELDR, EFUSE_LOADER_CLK_EN, EFUSE_ANA8M, EFUSE_HWSET_MAX_SIZE, EFUSE_MAX_SECTION_MAP, EFUSE_REAL_CONTENT_SIZE, EFUSE_OOB_PROTECT_BYTES_LEN, EFUSE_ACCESS, /*CAM map */ RWCAM, WCAMI, RCAMO, CAMDBG, SECR, SEC_CAM_NONE, SEC_CAM_WEP40, SEC_CAM_TKIP, SEC_CAM_AES, SEC_CAM_WEP104, /*IMR map */ RTL_IMR_BCNDMAINT6, /*Beacon DMA Interrupt 6 */ RTL_IMR_BCNDMAINT5, /*Beacon DMA Interrupt 5 */ RTL_IMR_BCNDMAINT4, /*Beacon DMA Interrupt 4 */ RTL_IMR_BCNDMAINT3, /*Beacon DMA Interrupt 3 */ RTL_IMR_BCNDMAINT2, /*Beacon DMA Interrupt 2 */ RTL_IMR_BCNDMAINT1, /*Beacon DMA Interrupt 1 */ RTL_IMR_BCNDOK8, /*Beacon Queue DMA OK Interrup 8 */ RTL_IMR_BCNDOK7, /*Beacon Queue DMA OK Interrup 7 */ RTL_IMR_BCNDOK6, /*Beacon Queue DMA OK Interrup 6 */ RTL_IMR_BCNDOK5, /*Beacon Queue DMA OK Interrup 5 */ RTL_IMR_BCNDOK4, /*Beacon Queue DMA OK Interrup 4 */ RTL_IMR_BCNDOK3, /*Beacon Queue DMA OK Interrup 3 */ RTL_IMR_BCNDOK2, /*Beacon Queue DMA OK Interrup 2 */ RTL_IMR_BCNDOK1, /*Beacon Queue DMA OK Interrup 1 */ RTL_IMR_TIMEOUT2, /*Timeout interrupt 2 */ RTL_IMR_TIMEOUT1, /*Timeout interrupt 1 */ RTL_IMR_TXFOVW, /*Transmit FIFO Overflow */ RTL_IMR_PSTIMEOUT, /*Power save time out interrupt */ RTL_IMR_BCNINT, /*Beacon DMA Interrupt 0 */ RTL_IMR_RXFOVW, /*Receive FIFO Overflow */ RTL_IMR_RDU, /*Receive Descriptor Unavailable */ RTL_IMR_ATIMEND, /*For 92C,ATIM Window End Interrupt */ RTL_IMR_H2CDOK, /*H2C Queue DMA OK Interrupt */ RTL_IMR_BDOK, /*Beacon Queue DMA OK Interrup */ RTL_IMR_HIGHDOK, /*High Queue DMA OK Interrupt */ RTL_IMR_COMDOK, /*Command Queue DMA OK Interrupt*/ RTL_IMR_TBDOK, /*Transmit Beacon OK interrup */ RTL_IMR_MGNTDOK, /*Management Queue DMA OK Interrupt */ RTL_IMR_TBDER, /*For 92C,Transmit Beacon Error Interrupt */ RTL_IMR_BKDOK, /*AC_BK DMA OK Interrupt */ RTL_IMR_BEDOK, /*AC_BE DMA OK Interrupt */ RTL_IMR_VIDOK, /*AC_VI DMA OK Interrupt */ RTL_IMR_VODOK, /*AC_VO DMA Interrupt */ RTL_IMR_ROK, /*Receive DMA OK Interrupt */ RTL_IMR_HSISR_IND, /*HSISR Interrupt*/ RTL_IBSS_INT_MASKS, /*(RTL_IMR_BCNINT | RTL_IMR_TBDOK | * RTL_IMR_TBDER) */ RTL_IMR_C2HCMD, /*fw interrupt*/ /*CCK Rates, TxHT = 0 */ RTL_RC_CCK_RATE1M, RTL_RC_CCK_RATE2M, RTL_RC_CCK_RATE5_5M, RTL_RC_CCK_RATE11M, /*OFDM Rates, TxHT = 0 */ RTL_RC_OFDM_RATE6M, RTL_RC_OFDM_RATE9M, RTL_RC_OFDM_RATE12M, RTL_RC_OFDM_RATE18M, RTL_RC_OFDM_RATE24M, RTL_RC_OFDM_RATE36M, RTL_RC_OFDM_RATE48M, RTL_RC_OFDM_RATE54M, RTL_RC_HT_RATEMCS7, RTL_RC_HT_RATEMCS15, RTL_RC_VHT_RATE_1SS_MCS7, RTL_RC_VHT_RATE_1SS_MCS8, RTL_RC_VHT_RATE_1SS_MCS9, RTL_RC_VHT_RATE_2SS_MCS7, RTL_RC_VHT_RATE_2SS_MCS8, RTL_RC_VHT_RATE_2SS_MCS9, /*keep it last */ RTL_VAR_MAP_MAX, }; /*Firmware PS mode for control LPS.*/ enum _fw_ps_mode { FW_PS_ACTIVE_MODE = 0, FW_PS_MIN_MODE = 1, FW_PS_MAX_MODE = 2, FW_PS_DTIM_MODE = 3, FW_PS_VOIP_MODE = 4, FW_PS_UAPSD_WMM_MODE = 5, FW_PS_UAPSD_MODE = 6, FW_PS_IBSS_MODE = 7, FW_PS_WWLAN_MODE = 8, FW_PS_PM_RADIO_OFF = 9, FW_PS_PM_CARD_DISABLE = 10, }; enum rt_psmode { EACTIVE, /*Active/Continuous access. */ EMAXPS, /*Max power save mode. */ EFASTPS, /*Fast power save mode. */ EAUTOPS, /*Auto power save mode. */ }; /*LED related.*/ enum led_ctl_mode { LED_CTL_POWER_ON = 1, LED_CTL_LINK = 2, LED_CTL_NO_LINK = 3, LED_CTL_TX = 4, LED_CTL_RX = 5, LED_CTL_SITE_SURVEY = 6, LED_CTL_POWER_OFF = 7, LED_CTL_START_TO_LINK = 8, LED_CTL_START_WPS = 9, LED_CTL_STOP_WPS = 10, }; enum rtl_led_pin { LED_PIN_GPIO0, LED_PIN_LED0, LED_PIN_LED1, LED_PIN_LED2 }; /*QoS related.*/ /*acm implementation method.*/ enum acm_method { EACMWAY0_SWANDHW = 0, EACMWAY1_HW = 1, EACMWAY2_SW = 2, }; enum macphy_mode { SINGLEMAC_SINGLEPHY = 0, DUALMAC_DUALPHY, DUALMAC_SINGLEPHY, }; enum band_type { BAND_ON_2_4G = 0, BAND_ON_5G, BAND_ON_BOTH, BANDMAX }; /* aci/aifsn Field. * Ref: WMM spec 2.2.2: WME Parameter Element, p.12. */ union aci_aifsn { u8 char_data; struct { u8 aifsn:4; u8 acm:1; u8 aci:2; u8 reserved:1; } f; /* Field */ }; /*mlme related.*/ enum wireless_mode { WIRELESS_MODE_UNKNOWN = 0x00, WIRELESS_MODE_A = 0x01, WIRELESS_MODE_B = 0x02, WIRELESS_MODE_G = 0x04, WIRELESS_MODE_AUTO = 0x08, WIRELESS_MODE_N_24G = 0x10, WIRELESS_MODE_N_5G = 0x20, WIRELESS_MODE_AC_5G = 0x40, WIRELESS_MODE_AC_24G = 0x80, WIRELESS_MODE_AC_ONLY = 0x100, WIRELESS_MODE_MAX = 0x800 }; #define IS_WIRELESS_MODE_A(wirelessmode) \ (wirelessmode == WIRELESS_MODE_A) #define IS_WIRELESS_MODE_B(wirelessmode) \ (wirelessmode == WIRELESS_MODE_B) #define IS_WIRELESS_MODE_G(wirelessmode) \ (wirelessmode == WIRELESS_MODE_G) #define IS_WIRELESS_MODE_N_24G(wirelessmode) \ (wirelessmode == WIRELESS_MODE_N_24G) #define IS_WIRELESS_MODE_N_5G(wirelessmode) \ (wirelessmode == WIRELESS_MODE_N_5G) enum ratr_table_mode { RATR_INX_WIRELESS_NGB = 0, RATR_INX_WIRELESS_NG = 1, RATR_INX_WIRELESS_NB = 2, RATR_INX_WIRELESS_N = 3, RATR_INX_WIRELESS_GB = 4, RATR_INX_WIRELESS_G = 5, RATR_INX_WIRELESS_B = 6, RATR_INX_WIRELESS_MC = 7, RATR_INX_WIRELESS_A = 8, RATR_INX_WIRELESS_AC_5N = 8, RATR_INX_WIRELESS_AC_24N = 9, }; enum ratr_table_mode_new { RATEID_IDX_BGN_40M_2SS = 0, RATEID_IDX_BGN_40M_1SS = 1, RATEID_IDX_BGN_20M_2SS_BN = 2, RATEID_IDX_BGN_20M_1SS_BN = 3, RATEID_IDX_GN_N2SS = 4, RATEID_IDX_GN_N1SS = 5, RATEID_IDX_BG = 6, RATEID_IDX_G = 7, RATEID_IDX_B = 8, RATEID_IDX_VHT_2SS = 9, RATEID_IDX_VHT_1SS = 10, RATEID_IDX_MIX1 = 11, RATEID_IDX_MIX2 = 12, RATEID_IDX_VHT_3SS = 13, RATEID_IDX_BGN_3SS = 14, }; enum rtl_link_state { MAC80211_NOLINK = 0, MAC80211_LINKING = 1, MAC80211_LINKED = 2, MAC80211_LINKED_SCANNING = 3, }; enum act_category { ACT_CAT_QOS = 1, ACT_CAT_DLS = 2, ACT_CAT_BA = 3, ACT_CAT_HT = 7, ACT_CAT_WMM = 17, }; enum ba_action { ACT_ADDBAREQ = 0, ACT_ADDBARSP = 1, ACT_DELBA = 2, }; enum rt_polarity_ctl { RT_POLARITY_LOW_ACT = 0, RT_POLARITY_HIGH_ACT = 1, }; /* After 8188E, we use V2 reason define. 88C/8723A use V1 reason. */ enum fw_wow_reason_v2 { FW_WOW_V2_PTK_UPDATE_EVENT = 0x01, FW_WOW_V2_GTK_UPDATE_EVENT = 0x02, FW_WOW_V2_DISASSOC_EVENT = 0x04, FW_WOW_V2_DEAUTH_EVENT = 0x08, FW_WOW_V2_FW_DISCONNECT_EVENT = 0x10, FW_WOW_V2_MAGIC_PKT_EVENT = 0x21, FW_WOW_V2_UNICAST_PKT_EVENT = 0x22, FW_WOW_V2_PATTERN_PKT_EVENT = 0x23, FW_WOW_V2_RTD3_SSID_MATCH_EVENT = 0x24, FW_WOW_V2_REALWOW_V2_WAKEUPPKT = 0x30, FW_WOW_V2_REALWOW_V2_ACKLOST = 0x31, FW_WOW_V2_REASON_MAX = 0xff, }; enum wolpattern_type { UNICAST_PATTERN = 0, MULTICAST_PATTERN = 1, BROADCAST_PATTERN = 2, DONT_CARE_DA = 3, UNKNOWN_TYPE = 4, }; enum package_type { PACKAGE_DEFAULT, PACKAGE_QFN68, PACKAGE_TFBGA90, PACKAGE_TFBGA80, PACKAGE_TFBGA79 }; enum rtl_spec_ver { RTL_SPEC_NEW_RATEID = BIT(0), /* use ratr_table_mode_new */ RTL_SPEC_SUPPORT_VHT = BIT(1), /* support VHT */ RTL_SPEC_EXT_C2H = BIT(2), /* extend FW C2H (e.g. TX REPORT) */ }; enum dm_info_query { DM_INFO_FA_OFDM, DM_INFO_FA_CCK, DM_INFO_FA_TOTAL, DM_INFO_CCA_OFDM, DM_INFO_CCA_CCK, DM_INFO_CCA_ALL, DM_INFO_CRC32_OK_VHT, DM_INFO_CRC32_OK_HT, DM_INFO_CRC32_OK_LEGACY, DM_INFO_CRC32_OK_CCK, DM_INFO_CRC32_ERROR_VHT, DM_INFO_CRC32_ERROR_HT, DM_INFO_CRC32_ERROR_LEGACY, DM_INFO_CRC32_ERROR_CCK, DM_INFO_EDCCA_FLAG, DM_INFO_OFDM_ENABLE, DM_INFO_CCK_ENABLE, DM_INFO_CRC32_OK_HT_AGG, DM_INFO_CRC32_ERROR_HT_AGG, DM_INFO_DBG_PORT_0, DM_INFO_CURR_IGI, DM_INFO_RSSI_MIN, DM_INFO_RSSI_MAX, DM_INFO_CLM_RATIO, DM_INFO_NHM_RATIO, DM_INFO_IQK_ALL, DM_INFO_IQK_OK, DM_INFO_IQK_NG, DM_INFO_SIZE, }; enum rx_packet_type { NORMAL_RX, TX_REPORT1, TX_REPORT2, HIS_REPORT, C2H_PACKET, }; struct rtlwifi_tx_info { int sn; unsigned long send_time; }; static inline struct rtlwifi_tx_info *rtl_tx_skb_cb_info(struct sk_buff *skb) { struct ieee80211_tx_info *info = IEEE80211_SKB_CB(skb); BUILD_BUG_ON(sizeof(struct rtlwifi_tx_info) > sizeof(info->status.status_driver_data)); return (struct rtlwifi_tx_info *)(info->status.status_driver_data); } struct octet_string { u8 *octet; u16 length; }; struct rtl_hdr_3addr { __le16 frame_ctl; __le16 duration_id; u8 addr1[ETH_ALEN]; u8 addr2[ETH_ALEN]; u8 addr3[ETH_ALEN]; __le16 seq_ctl; u8 payload[]; } __packed; struct rtl_info_element { u8 id; u8 len; u8 data[]; } __packed; struct rtl_probe_rsp { struct rtl_hdr_3addr header; u32 time_stamp[2]; __le16 beacon_interval; __le16 capability; /*SSID, supported rates, FH params, DS params, * CF params, IBSS params, TIM (if beacon), RSN */ struct rtl_info_element info_element[]; } __packed; /*LED related.*/ /*ledpin Identify how to implement this SW led.*/ struct rtl_led { void *hw; enum rtl_led_pin ledpin; bool ledon; }; struct rtl_led_ctl { bool led_opendrain; struct rtl_led sw_led0; struct rtl_led sw_led1; }; struct rtl_qos_parameters { __le16 cw_min; __le16 cw_max; u8 aifs; u8 flag; __le16 tx_op; } __packed; struct rt_smooth_data { u32 elements[100]; /*array to store values */ u32 index; /*index to current array to store */ u32 total_num; /*num of valid elements */ u32 total_val; /*sum of valid elements */ }; struct false_alarm_statistics { u32 cnt_parity_fail; u32 cnt_rate_illegal; u32 cnt_crc8_fail; u32 cnt_mcs_fail; u32 cnt_fast_fsync_fail; u32 cnt_sb_search_fail; u32 cnt_ofdm_fail; u32 cnt_cck_fail; u32 cnt_all; u32 cnt_ofdm_cca; u32 cnt_cck_cca; u32 cnt_cca_all; u32 cnt_bw_usc; u32 cnt_bw_lsc; }; struct init_gain { u8 xaagccore1; u8 xbagccore1; u8 xcagccore1; u8 xdagccore1; u8 cca; }; struct wireless_stats { u64 txbytesunicast; u64 txbytesmulticast; u64 txbytesbroadcast; u64 rxbytesunicast; u64 txbytesunicast_inperiod; u64 rxbytesunicast_inperiod; u32 txbytesunicast_inperiod_tp; u32 rxbytesunicast_inperiod_tp; u64 txbytesunicast_last; u64 rxbytesunicast_last; long rx_snr_db[4]; /*Correct smoothed ss in Dbm, only used * in driver to report real power now. */ long recv_signal_power; long signal_quality; long last_sigstrength_inpercent; u32 rssi_calculate_cnt; u32 pwdb_all_cnt; /* Transformed, in dbm. Beautified signal * strength for UI, not correct. */ long signal_strength; u8 rx_rssi_percentage[4]; u8 rx_evm_dbm[4]; u8 rx_evm_percentage[2]; u16 rx_cfo_short[4]; u16 rx_cfo_tail[4]; struct rt_smooth_data ui_rssi; struct rt_smooth_data ui_link_quality; }; struct rate_adaptive { u8 rate_adaptive_disabled; u8 ratr_state; u16 reserve; u32 high_rssi_thresh_for_ra; u32 high2low_rssi_thresh_for_ra; u8 low2high_rssi_thresh_for_ra40m; u32 low_rssi_thresh_for_ra40m; u8 low2high_rssi_thresh_for_ra20m; u32 low_rssi_thresh_for_ra20m; u32 upper_rssi_threshold_ratr; u32 middleupper_rssi_threshold_ratr; u32 middle_rssi_threshold_ratr; u32 middlelow_rssi_threshold_ratr; u32 low_rssi_threshold_ratr; u32 ultralow_rssi_threshold_ratr; u32 low_rssi_threshold_ratr_40m; u32 low_rssi_threshold_ratr_20m; u8 ping_rssi_enable; u32 ping_rssi_ratr; u32 ping_rssi_thresh_for_ra; u32 last_ratr; u8 pre_ratr_state; u8 ldpc_thres; bool use_ldpc; bool lower_rts_rate; bool is_special_data; }; struct regd_pair_mapping { u16 reg_dmnenum; u16 reg_5ghz_ctl; u16 reg_2ghz_ctl; }; struct dynamic_primary_cca { u8 pricca_flag; u8 intf_flag; u8 intf_type; u8 dup_rts_flag; u8 monitor_flag; u8 ch_offset; u8 mf_state; }; struct rtl_regulatory { s8 alpha2[2]; u16 country_code; u16 max_power_level; u32 tp_scale; u16 current_rd; u16 current_rd_ext; int16_t power_limit; struct regd_pair_mapping *regpair; }; struct rtl_rfkill { bool rfkill_state; /*0 is off, 1 is on */ }; /*for P2P PS**/ #define P2P_MAX_NOA_NUM 2 enum p2p_role { P2P_ROLE_DISABLE = 0, P2P_ROLE_DEVICE = 1, P2P_ROLE_CLIENT = 2, P2P_ROLE_GO = 3 }; enum p2p_ps_state { P2P_PS_DISABLE = 0, P2P_PS_ENABLE = 1, P2P_PS_SCAN = 2, P2P_PS_SCAN_DONE = 3, P2P_PS_ALLSTASLEEP = 4, /* for P2P GO */ }; enum p2p_ps_mode { P2P_PS_NONE = 0, P2P_PS_CTWINDOW = 1, P2P_PS_NOA = 2, P2P_PS_MIX = 3, /* CTWindow and NoA */ }; struct rtl_p2p_ps_info { enum p2p_ps_mode p2p_ps_mode; /* indicate p2p ps mode */ enum p2p_ps_state p2p_ps_state; /* indicate p2p ps state */ u8 noa_index; /* Identifies instance of Notice of Absence timing. */ /* Client traffic window. A period of time in TU after TBTT. */ u8 ctwindow; u8 opp_ps; /* opportunistic power save. */ u8 noa_num; /* number of NoA descriptor in P2P IE. */ /* Count for owner, Type of client. */ u8 noa_count_type[P2P_MAX_NOA_NUM]; /* Max duration for owner, preferred or min acceptable duration * for client. */ u32 noa_duration[P2P_MAX_NOA_NUM]; /* Length of interval for owner, preferred or max acceptable intervali * of client. */ u32 noa_interval[P2P_MAX_NOA_NUM]; /* schedule in terms of the lower 4 bytes of the TSF timer. */ u32 noa_start_time[P2P_MAX_NOA_NUM]; }; struct p2p_ps_offload_t { u8 offload_en:1; u8 role:1; /* 1: Owner, 0: Client */ u8 ctwindow_en:1; u8 noa0_en:1; u8 noa1_en:1; u8 allstasleep:1; u8 discovery:1; u8 reserved:1; }; #define IQK_MATRIX_REG_NUM 8 #define IQK_MATRIX_SETTINGS_NUM (1 + 24 + 21) struct iqk_matrix_regs { bool iqk_done; long value[1][IQK_MATRIX_REG_NUM]; }; struct phy_parameters { u16 length; u32 *pdata; }; enum hw_param_tab_index { PHY_REG_2T, PHY_REG_1T, PHY_REG_PG, RADIOA_2T, RADIOB_2T, RADIOA_1T, RADIOB_1T, MAC_REG, AGCTAB_2T, AGCTAB_1T, MAX_TAB }; struct rtl_phy { struct bb_reg_def phyreg_def[4]; /*Radio A/B/C/D */ struct init_gain initgain_backup; enum io_type current_io_type; u8 rf_mode; u8 rf_type; u8 current_chan_bw; u8 set_bwmode_inprogress; u8 sw_chnl_inprogress; u8 sw_chnl_stage; u8 sw_chnl_step; u8 current_channel; u8 h2c_box_num; u8 set_io_inprogress; u8 lck_inprogress; /* record for power tracking */ s32 reg_e94; s32 reg_e9c; s32 reg_ea4; s32 reg_eac; s32 reg_eb4; s32 reg_ebc; s32 reg_ec4; s32 reg_ecc; u8 rfpienable; u8 reserve_0; u16 reserve_1; u32 reg_c04, reg_c08, reg_874; u32 adda_backup[16]; u32 iqk_mac_backup[IQK_MAC_REG_NUM]; u32 iqk_bb_backup[10]; bool iqk_initialized; bool rfpath_rx_enable[MAX_RF_PATH]; u8 reg_837; /* Dual mac */ bool need_iqk; struct iqk_matrix_regs iqk_matrix[IQK_MATRIX_SETTINGS_NUM]; bool rfpi_enable; bool iqk_in_progress; u8 pwrgroup_cnt; u8 cck_high_power; /* this is for 88E & 8723A */ u32 mcs_txpwrlevel_origoffset[MAX_PG_GROUP][16]; /* MAX_PG_GROUP groups of pwr diff by rates */ u32 mcs_offset[MAX_PG_GROUP][16]; u32 tx_power_by_rate_offset[TX_PWR_BY_RATE_NUM_BAND] [TX_PWR_BY_RATE_NUM_RF] [TX_PWR_BY_RATE_NUM_RF] [TX_PWR_BY_RATE_NUM_RATE]; u8 txpwr_by_rate_base_24g[TX_PWR_BY_RATE_NUM_RF] [TX_PWR_BY_RATE_NUM_RF] [MAX_BASE_NUM_IN_PHY_REG_PG_24G]; u8 txpwr_by_rate_base_5g[TX_PWR_BY_RATE_NUM_RF] [TX_PWR_BY_RATE_NUM_RF] [MAX_BASE_NUM_IN_PHY_REG_PG_5G]; u8 default_initialgain[4]; /* the current Tx power level */ u8 cur_cck_txpwridx; u8 cur_ofdm24g_txpwridx; u8 cur_bw20_txpwridx; u8 cur_bw40_txpwridx; s8 txpwr_limit_2_4g[MAX_REGULATION_NUM] [MAX_2_4G_BANDWIDTH_NUM] [MAX_RATE_SECTION_NUM] [CHANNEL_MAX_NUMBER_2G] [MAX_RF_PATH_NUM]; s8 txpwr_limit_5g[MAX_REGULATION_NUM] [MAX_5G_BANDWIDTH_NUM] [MAX_RATE_SECTION_NUM] [CHANNEL_MAX_NUMBER_5G] [MAX_RF_PATH_NUM]; u32 rfreg_chnlval[2]; bool apk_done; u32 reg_rf3c[2]; /* pathA / pathB */ u32 backup_rf_0x1a;/*92ee*/ /* bfsync */ u8 framesync; u32 framesync_c34; u8 num_total_rfpath; struct phy_parameters hwparam_tables[MAX_TAB]; u16 rf_pathmap; u8 hw_rof_enable; /*Enable GPIO[9] as WL RF HW PDn source*/ enum rt_polarity_ctl polarity_ctl; }; #define MAX_TID_COUNT 9 #define RTL_AGG_STOP 0 #define RTL_AGG_PROGRESS 1 #define RTL_AGG_START 2 #define RTL_AGG_OPERATIONAL 3 #define RTL_AGG_OFF 0 #define RTL_AGG_ON 1 #define RTL_RX_AGG_START 1 #define RTL_RX_AGG_STOP 0 #define RTL_AGG_EMPTYING_HW_QUEUE_ADDBA 2 #define RTL_AGG_EMPTYING_HW_QUEUE_DELBA 3 struct rtl_ht_agg { u16 txq_id; u16 wait_for_ba; u16 start_idx; u64 bitmap; u32 rate_n_flags; u8 agg_state; u8 rx_agg_state; }; struct rssi_sta { long undec_sm_pwdb; long undec_sm_cck; }; struct rtl_tid_data { struct rtl_ht_agg agg; }; struct rtl_sta_info { struct list_head list; struct rtl_tid_data tids[MAX_TID_COUNT]; /* just used for ap adhoc or mesh*/ struct rssi_sta rssi_stat; u8 rssi_level; u16 wireless_mode; u8 ratr_index; u8 mimo_ps; u8 mac_addr[ETH_ALEN]; } __packed; struct rtl_priv; struct rtl_io { struct device *dev; struct mutex bb_mutex; /*PCI MEM map */ unsigned long pci_mem_end; /*shared mem end */ unsigned long pci_mem_start; /*shared mem start */ /*PCI IO map */ unsigned long pci_base_addr; /*device I/O address */ void (*write8_async)(struct rtl_priv *rtlpriv, u32 addr, u8 val); void (*write16_async)(struct rtl_priv *rtlpriv, u32 addr, u16 val); void (*write32_async)(struct rtl_priv *rtlpriv, u32 addr, u32 val); void (*writen_sync)(struct rtl_priv *rtlpriv, u32 addr, void *buf, u16 len); u8 (*read8_sync)(struct rtl_priv *rtlpriv, u32 addr); u16 (*read16_sync)(struct rtl_priv *rtlpriv, u32 addr); u32 (*read32_sync)(struct rtl_priv *rtlpriv, u32 addr); }; struct rtl_mac { u8 mac_addr[ETH_ALEN]; u8 mac80211_registered; u8 beacon_enabled; u32 tx_ss_num; u32 rx_ss_num; struct ieee80211_supported_band bands[NUM_NL80211_BANDS]; struct ieee80211_hw *hw; struct ieee80211_vif *vif; enum nl80211_iftype opmode; /*Probe Beacon management */ struct rtl_tid_data tids[MAX_TID_COUNT]; enum rtl_link_state link_state; int n_channels; int n_bitrates; bool offchan_delay; u8 p2p; /*using p2p role*/ bool p2p_in_use; /*filters */ u32 rx_conf; u16 rx_mgt_filter; u16 rx_ctrl_filter; u16 rx_data_filter; bool act_scanning; u8 cnt_after_linked; bool skip_scan; /* early mode */ /* skb wait queue */ struct sk_buff_head skb_waitq[MAX_TID_COUNT]; u8 ht_stbc_cap; u8 ht_cur_stbc; /*vht support*/ u8 vht_enable; u8 bw_80; u8 vht_cur_ldpc; u8 vht_cur_stbc; u8 vht_stbc_cap; u8 vht_ldpc_cap; /*RDG*/ bool rdg_en; /*AP*/ u8 bssid[ETH_ALEN] __aligned(2); u32 vendor; u8 mcs[16]; /* 16 bytes mcs for HT rates. */ u32 basic_rates; /* b/g rates */ u8 ht_enable; u8 sgi_40; u8 sgi_20; u8 bw_40; u16 mode; /* wireless mode */ u8 slot_time; u8 short_preamble; u8 use_cts_protect; u8 cur_40_prime_sc; u8 cur_40_prime_sc_bk; u8 cur_80_prime_sc; u64 tsf; u8 retry_short; u8 retry_long; u16 assoc_id; bool hiddenssid; /*IBSS*/ int beacon_interval; /*AMPDU*/ u8 min_space_cfg; /*For Min spacing configurations */ u8 max_mss_density; u8 current_ampdu_factor; u8 current_ampdu_density; /*QOS & EDCA */ struct ieee80211_tx_queue_params edca_param[RTL_MAC80211_NUM_QUEUE]; struct rtl_qos_parameters ac[AC_MAX]; /* counters */ u64 last_txok_cnt; u64 last_rxok_cnt; u32 last_bt_edca_ul; u32 last_bt_edca_dl; }; struct btdm_8723 { bool all_off; bool agc_table_en; bool adc_back_off_on; bool b2_ant_hid_en; bool low_penalty_rate_adaptive; bool rf_rx_lpf_shrink; bool reject_aggre_pkt; bool tra_tdma_on; u8 tra_tdma_nav; u8 tra_tdma_ant; bool tdma_on; u8 tdma_ant; u8 tdma_nav; u8 tdma_dac_swing; u8 fw_dac_swing_lvl; bool ps_tdma_on; u8 ps_tdma_byte[5]; bool pta_on; u32 val_0x6c0; u32 val_0x6c8; u32 val_0x6cc; bool sw_dac_swing_on; u32 sw_dac_swing_lvl; u32 wlan_act_hi; u32 wlan_act_lo; u32 bt_retry_index; bool dec_bt_pwr; bool ignore_wlan_act; }; struct bt_coexist_8723 { u32 high_priority_tx; u32 high_priority_rx; u32 low_priority_tx; u32 low_priority_rx; u8 c2h_bt_info; bool c2h_bt_info_req_sent; bool c2h_bt_inquiry_page; u32 bt_inq_page_start_time; u8 bt_retry_cnt; u8 c2h_bt_info_original; u8 bt_inquiry_page_cnt; struct btdm_8723 btdm; }; struct rtl_hal { struct ieee80211_hw *hw; bool driver_is_goingto_unload; bool up_first_time; bool first_init; bool being_init_adapter; bool bbrf_ready; bool mac_func_enable; bool pre_edcca_enable; struct bt_coexist_8723 hal_coex_8723; enum intf_type interface; u16 hw_type; /*92c or 92d or 92s and so on */ u8 ic_class; u8 oem_id; u32 version; /*version of chip */ u8 state; /*stop 0, start 1 */ u8 board_type; u8 package_type; u8 external_pa; u8 pa_mode; u8 pa_type_2g; u8 pa_type_5g; u8 lna_type_2g; u8 lna_type_5g; u8 external_pa_2g; u8 external_lna_2g; u8 external_pa_5g; u8 external_lna_5g; u8 type_glna; u8 type_gpa; u8 type_alna; u8 type_apa; u8 rfe_type; /*firmware */ u32 fwsize; u8 *pfirmware; u16 fw_version; u16 fw_subversion; bool h2c_setinprogress; u8 last_hmeboxnum; bool fw_ready; /*Reserve page start offset except beacon in TxQ. */ u8 fw_rsvdpage_startoffset; u8 h2c_txcmd_seq; u8 current_ra_rate; /* FW Cmd IO related */ u16 fwcmd_iomap; u32 fwcmd_ioparam; bool set_fwcmd_inprogress; u8 current_fwcmd_io; struct p2p_ps_offload_t p2p_ps_offload; bool fw_clk_change_in_progress; bool allow_sw_to_change_hwclc; u8 fw_ps_state; /**/ bool driver_going2unload; /*AMPDU init min space*/ u8 minspace_cfg; /*For Min spacing configurations */ /* Dual mac */ enum macphy_mode macphymode; enum band_type current_bandtype; /* 0:2.4G, 1:5G */ enum band_type current_bandtypebackup; enum band_type bandset; /* dual MAC 0--Mac0 1--Mac1 */ u32 interfaceindex; /* just for DualMac S3S4 */ u8 macphyctl_reg; bool earlymode_enable; u8 max_earlymode_num; /* Dual mac*/ bool during_mac0init_radiob; bool during_mac1init_radioa; bool reloadtxpowerindex; /* True if IMR or IQK have done * for 2.4G in scan progress */ bool load_imrandiqk_setting_for2g; bool disable_amsdu_8k; bool master_of_dmsp; bool slave_of_dmsp; u16 rx_tag;/*for 92ee*/ u8 rts_en; /*for wowlan*/ bool wow_enable; bool enter_pnp_sleep; bool wake_from_pnp_sleep; bool wow_enabled; time64_t last_suspend_sec; u32 wowlan_fwsize; u8 *wowlan_firmware; u8 hw_rof_enable; /*Enable GPIO[9] as WL RF HW PDn source*/ bool real_wow_v2_enable; bool re_init_llt_table; }; struct rtl_security { /*default 0 */ bool use_sw_sec; bool being_setkey; bool use_defaultkey; /*Encryption Algorithm for Unicast Packet */ enum rt_enc_alg pairwise_enc_algorithm; /*Encryption Algorithm for Brocast/Multicast */ enum rt_enc_alg group_enc_algorithm; /*Cam Entry Bitmap */ u32 hwsec_cam_bitmap; u8 hwsec_cam_sta_addr[TOTAL_CAM_ENTRY][ETH_ALEN]; /*local Key buffer, indx 0 is for * pairwise key 1-4 is for agoup key. */ u8 key_buf[KEY_BUF_SIZE][MAX_KEY_LEN]; u8 key_len[KEY_BUF_SIZE]; /*The pointer of Pairwise Key, * it always points to KeyBuf[4] */ u8 *pairwise_key; }; #define ASSOCIATE_ENTRY_NUM 33 struct fast_ant_training { u8 bssid[6]; u8 antsel_rx_keep_0; u8 antsel_rx_keep_1; u8 antsel_rx_keep_2; u32 ant_sum[7]; u32 ant_cnt[7]; u32 ant_ave[7]; u8 fat_state; u32 train_idx; u8 antsel_a[ASSOCIATE_ENTRY_NUM]; u8 antsel_b[ASSOCIATE_ENTRY_NUM]; u8 antsel_c[ASSOCIATE_ENTRY_NUM]; u32 main_ant_sum[ASSOCIATE_ENTRY_NUM]; u32 aux_ant_sum[ASSOCIATE_ENTRY_NUM]; u32 main_ant_cnt[ASSOCIATE_ENTRY_NUM]; u32 aux_ant_cnt[ASSOCIATE_ENTRY_NUM]; u8 rx_idle_ant; bool becomelinked; }; struct dm_phy_dbg_info { s8 rx_snrdb[4]; u64 num_qry_phy_status; u64 num_qry_phy_status_cck; u64 num_qry_phy_status_ofdm; u16 num_qry_beacon_pkt; u16 num_non_be_pkt; s32 rx_evm[4]; }; struct rtl_dm { /*PHY status for Dynamic Management */ long entry_min_undec_sm_pwdb; long undec_sm_cck; long undec_sm_pwdb; /*out dm */ long entry_max_undec_sm_pwdb; s32 ofdm_pkt_cnt; bool dm_initialgain_enable; bool dynamic_txpower_enable; bool current_turbo_edca; bool is_any_nonbepkts; /*out dm */ bool is_cur_rdlstate; bool txpower_trackinginit; bool disable_framebursting; bool cck_inch14; bool txpower_tracking; bool useramask; bool rfpath_rxenable[4]; bool inform_fw_driverctrldm; bool current_mrc_switch; u8 txpowercount; u8 powerindex_backup[6]; u8 thermalvalue_rxgain; u8 thermalvalue_iqk; u8 thermalvalue_lck; u8 thermalvalue; u8 last_dtp_lvl; u8 thermalvalue_avg[AVG_THERMAL_NUM]; u8 thermalvalue_avg_index; u8 tm_trigger; bool done_txpower; u8 dynamic_txhighpower_lvl; /*Tx high power level */ u8 dm_flag; /*Indicate each dynamic mechanism's status. */ u8 dm_flag_tmp; u8 dm_type; u8 dm_rssi_sel; u8 txpower_track_control; bool interrupt_migration; bool disable_tx_int; s8 ofdm_index[MAX_RF_PATH]; u8 default_ofdm_index; u8 default_cck_index; s8 cck_index; s8 delta_power_index[MAX_RF_PATH]; s8 delta_power_index_last[MAX_RF_PATH]; s8 power_index_offset[MAX_RF_PATH]; s8 absolute_ofdm_swing_idx[MAX_RF_PATH]; s8 remnant_ofdm_swing_idx[MAX_RF_PATH]; s8 remnant_cck_idx; bool modify_txagc_flag_path_a; bool modify_txagc_flag_path_b; bool one_entry_only; struct dm_phy_dbg_info dbginfo; /* Dynamic ATC switch */ bool atc_status; bool large_cfo_hit; bool is_freeze; int cfo_tail[2]; int cfo_ave_pre; int crystal_cap; u8 cfo_threshold; u32 packet_count; u32 packet_count_pre; u8 tx_rate; /*88e tx power tracking*/ u8 swing_idx_ofdm[MAX_RF_PATH]; u8 swing_idx_ofdm_cur; u8 swing_idx_ofdm_base[MAX_RF_PATH]; bool swing_flag_ofdm; u8 swing_idx_cck; u8 swing_idx_cck_cur; u8 swing_idx_cck_base; bool swing_flag_cck; s8 swing_diff_2g; s8 swing_diff_5g; /* DMSP */ bool supp_phymode_switch; /* DulMac */ struct fast_ant_training fat_table; u8 resp_tx_path; u8 path_sel; u32 patha_sum; u32 pathb_sum; u32 patha_cnt; u32 pathb_cnt; u8 pre_channel; u8 *p_channel; u8 linked_interval; u64 last_tx_ok_cnt; u64 last_rx_ok_cnt; }; #define EFUSE_MAX_LOGICAL_SIZE 512 struct rtl_efuse { const struct rtl_efuse_ops *efuse_ops; bool autoload_ok; bool bootfromefuse; u16 max_physical_size; u8 efuse_map[2][EFUSE_MAX_LOGICAL_SIZE]; u16 efuse_usedbytes; u8 efuse_usedpercentage; u8 autoload_failflag; u8 autoload_status; short epromtype; u16 eeprom_vid; u16 eeprom_did; u16 eeprom_svid; u16 eeprom_smid; u8 eeprom_oemid; u16 eeprom_channelplan; u8 eeprom_version; u8 board_type; u8 external_pa; u8 dev_addr[6]; u8 wowlan_enable; u8 antenna_div_cfg; u8 antenna_div_type; bool txpwr_fromeprom; u8 eeprom_crystalcap; u8 eeprom_tssi[2]; u8 eeprom_tssi_5g[3][2]; /* for 5GL/5GM/5GH band. */ u8 eeprom_pwrlimit_ht20[CHANNEL_GROUP_MAX]; u8 eeprom_pwrlimit_ht40[CHANNEL_GROUP_MAX]; u8 eeprom_chnlarea_txpwr_cck[MAX_RF_PATH][CHANNEL_GROUP_MAX_2G]; u8 eeprom_chnlarea_txpwr_ht40_1s[MAX_RF_PATH][CHANNEL_GROUP_MAX]; u8 eprom_chnl_txpwr_ht40_2sdf[MAX_RF_PATH][CHANNEL_GROUP_MAX]; u8 internal_pa_5g[2]; /* pathA / pathB */ u8 eeprom_c9; u8 eeprom_cc; /*For power group */ u8 eeprom_pwrgroup[2][3]; u8 pwrgroup_ht20[2][CHANNEL_MAX_NUMBER]; u8 pwrgroup_ht40[2][CHANNEL_MAX_NUMBER]; u8 txpwrlevel_cck[MAX_RF_PATH][CHANNEL_MAX_NUMBER_2G]; /*For HT 40MHZ pwr */ u8 txpwrlevel_ht40_1s[MAX_RF_PATH][CHANNEL_MAX_NUMBER]; /*For HT 40MHZ pwr */ u8 txpwrlevel_ht40_2s[MAX_RF_PATH][CHANNEL_MAX_NUMBER]; /*--------------------------------------------------------* * 8192CE\8192SE\8192DE\8723AE use the following 4 arrays, * other ICs (8188EE\8723BE\8192EE\8812AE...) * define new arrays in Windows code. * BUT, in linux code, we use the same array for all ICs. * * The Correspondance relation between two arrays is: * txpwr_cckdiff[][] == CCK_24G_Diff[][] * txpwr_ht20diff[][] == BW20_24G_Diff[][] * txpwr_ht40diff[][] == BW40_24G_Diff[][] * txpwr_legacyhtdiff[][] == OFDM_24G_Diff[][] * * Sizes of these arrays are decided by the larger ones. */ s8 txpwr_cckdiff[MAX_RF_PATH][CHANNEL_MAX_NUMBER]; s8 txpwr_ht20diff[MAX_RF_PATH][CHANNEL_MAX_NUMBER]; s8 txpwr_ht40diff[MAX_RF_PATH][CHANNEL_MAX_NUMBER]; s8 txpwr_legacyhtdiff[MAX_RF_PATH][CHANNEL_MAX_NUMBER]; u8 txpwr_5g_bw40base[MAX_RF_PATH][CHANNEL_MAX_NUMBER]; u8 txpwr_5g_bw80base[MAX_RF_PATH][CHANNEL_MAX_NUMBER_5G_80M]; s8 txpwr_5g_ofdmdiff[MAX_RF_PATH][MAX_TX_COUNT]; s8 txpwr_5g_bw20diff[MAX_RF_PATH][MAX_TX_COUNT]; s8 txpwr_5g_bw40diff[MAX_RF_PATH][MAX_TX_COUNT]; s8 txpwr_5g_bw80diff[MAX_RF_PATH][MAX_TX_COUNT]; u8 txpwr_safetyflag; /* Band edge enable flag */ u16 eeprom_txpowerdiff; u8 antenna_txpwdiff[3]; u8 eeprom_regulatory; u8 eeprom_thermalmeter; u8 thermalmeter[2]; /*ThermalMeter, index 0 for RFIC0, 1 for RFIC1 */ u16 tssi_13dbm; u8 crystalcap; /* CrystalCap. */ u8 delta_iqk; u8 delta_lck; u8 legacy_ht_txpowerdiff; /*Legacy to HT rate power diff */ bool apk_thermalmeterignore; bool b1x1_recvcombine; bool b1ss_support; /*channel plan */ u8 channel_plan; }; struct rtl_efuse_ops { int (*efuse_onebyte_read)(struct ieee80211_hw *hw, u16 addr, u8 *data); void (*efuse_logical_map_read)(struct ieee80211_hw *hw, u8 type, u16 offset, u32 *value); }; struct rtl_tx_report { atomic_t sn; u16 last_sent_sn; unsigned long last_sent_time; u16 last_recv_sn; struct sk_buff_head queue; }; struct rtl_ps_ctl { bool pwrdomain_protect; bool in_powersavemode; bool rfchange_inprogress; bool swrf_processing; bool hwradiooff; /* just for PCIE ASPM * If it supports ASPM, Offset[560h] = 0x40, * otherwise Offset[560h] = 0x00. */ bool support_aspm; bool support_backdoor; /*for LPS */ enum rt_psmode dot11_psmode; /*Power save mode configured. */ bool swctrl_lps; bool leisure_ps; bool fwctrl_lps; u8 fwctrl_psmode; /*For Fw control LPS mode */ u8 reg_fwctrl_lps; /*Record Fw PS mode status. */ bool fw_current_inpsmode; u8 reg_max_lps_awakeintvl; bool report_linked; bool low_power_enable;/*for 32k*/ /*for IPS */ bool inactiveps; u32 rfoff_reason; /*RF OFF Level */ u32 cur_ps_level; u32 reg_rfps_level; /*just for PCIE ASPM */ u8 const_amdpci_aspm; bool pwrdown_mode; enum rf_pwrstate inactive_pwrstate; enum rf_pwrstate rfpwr_state; /*cur power state */ /* for SW LPS*/ bool sw_ps_enabled; bool state; bool state_inap; bool multi_buffered; u16 nullfunc_seq; unsigned int dtim_counter; unsigned int sleep_ms; unsigned long last_sleep_jiffies; unsigned long last_awake_jiffies; unsigned long last_delaylps_stamp_jiffies; unsigned long last_dtim; unsigned long last_beacon; unsigned long last_action; unsigned long last_slept; /*For P2P PS */ struct rtl_p2p_ps_info p2p_ps_info; u8 pwr_mode; u8 smart_ps; /* wake up on line */ u8 wo_wlan_mode; u8 arp_offload_enable; u8 gtk_offload_enable; /* Used for WOL, indicates the reason for waking event.*/ u32 wakeup_reason; }; struct rtl_stats { u8 psaddr[ETH_ALEN]; u32 mac_time[2]; s8 rssi; u8 signal; u8 noise; u8 rate; /* hw desc rate */ u8 received_channel; u8 control; u8 mask; u8 freq; u16 len; u64 tsf; u32 beacon_time; u8 nic_type; u16 length; u8 signalquality; /*in 0-100 index. */ /* Real power in dBm for this packet, * no beautification and aggregation. */ s32 recvsignalpower; s8 rxpower; /*in dBm Translate from PWdB */ u8 signalstrength; /*in 0-100 index. */ u16 hwerror:1; u16 crc:1; u16 icv:1; u16 shortpreamble:1; u16 antenna:1; u16 decrypted:1; u16 wakeup:1; u32 timestamp_low; u32 timestamp_high; bool shift; u8 rx_drvinfo_size; u8 rx_bufshift; bool isampdu; bool isfirst_ampdu; bool rx_is40mhzpacket; u8 rx_packet_bw; u32 rx_pwdb_all; u8 rx_mimo_signalstrength[4]; /*in 0~100 index */ s8 rx_mimo_signalquality[4]; u8 rx_mimo_evm_dbm[4]; u16 cfo_short[4]; /* per-path's Cfo_short */ u16 cfo_tail[4]; s8 rx_mimo_sig_qual[4]; u8 rx_pwr[4]; /* per-path's pwdb */ u8 rx_snr[4]; /* per-path's SNR */ u8 bandwidth; u8 bt_coex_pwr_adjust; bool packet_matchbssid; bool is_cck; bool is_ht; bool packet_toself; bool packet_beacon; /*for rssi */ s8 cck_adc_pwdb[4]; /*for rx path selection */ bool is_vht; bool is_short_gi; u8 vht_nss; u8 packet_report_type; u32 macid; u32 bt_rx_rssi_percentage; u32 macid_valid_entry[2]; }; struct rt_link_detect { /* count for roaming */ u32 bcn_rx_inperiod; u32 roam_times; u32 num_tx_in4period[4]; u32 num_rx_in4period[4]; u32 num_tx_inperiod; u32 num_rx_inperiod; bool busytraffic; bool tx_busy_traffic; bool rx_busy_traffic; bool higher_busytraffic; bool higher_busyrxtraffic; u32 tidtx_in4period[MAX_TID_COUNT][4]; u32 tidtx_inperiod[MAX_TID_COUNT]; bool higher_busytxtraffic[MAX_TID_COUNT]; }; struct rtl_tcb_desc { u8 packet_bw:2; u8 multicast:1; u8 broadcast:1; u8 rts_stbc:1; u8 rts_enable:1; u8 cts_enable:1; u8 rts_use_shortpreamble:1; u8 rts_use_shortgi:1; u8 rts_sc:1; u8 rts_bw:1; u8 rts_rate; u8 use_shortgi:1; u8 use_shortpreamble:1; u8 use_driver_rate:1; u8 disable_ratefallback:1; u8 use_spe_rpt:1; u8 ratr_index; u8 mac_id; u8 hw_rate; u8 last_inipkt:1; u8 cmd_or_init:1; u8 queue_index; /* early mode */ u8 empkt_num; /* The max value by HW */ u32 empkt_len[10]; bool tx_enable_sw_calc_duration; }; struct rtl_wow_pattern { u8 type; u16 crc; u32 mask[4]; }; /* struct to store contents of interrupt vectors */ struct rtl_int { u32 inta; u32 intb; u32 intc; u32 intd; }; struct rtl_hal_ops { int (*init_sw_vars)(struct ieee80211_hw *hw); void (*deinit_sw_vars)(struct ieee80211_hw *hw); void (*read_chip_version)(struct ieee80211_hw *hw); void (*read_eeprom_info)(struct ieee80211_hw *hw); void (*interrupt_recognized)(struct ieee80211_hw *hw, struct rtl_int *intvec); int (*hw_init)(struct ieee80211_hw *hw); void (*hw_disable)(struct ieee80211_hw *hw); void (*hw_suspend)(struct ieee80211_hw *hw); void (*hw_resume)(struct ieee80211_hw *hw); void (*enable_interrupt)(struct ieee80211_hw *hw); void (*disable_interrupt)(struct ieee80211_hw *hw); int (*set_network_type)(struct ieee80211_hw *hw, enum nl80211_iftype type); void (*set_chk_bssid)(struct ieee80211_hw *hw, bool check_bssid); void (*set_bw_mode)(struct ieee80211_hw *hw, enum nl80211_channel_type ch_type); u8 (*switch_channel)(struct ieee80211_hw *hw); void (*set_qos)(struct ieee80211_hw *hw, int aci); void (*set_bcn_reg)(struct ieee80211_hw *hw); void (*set_bcn_intv)(struct ieee80211_hw *hw); void (*update_interrupt_mask)(struct ieee80211_hw *hw, u32 add_msr, u32 rm_msr); void (*get_hw_reg)(struct ieee80211_hw *hw, u8 variable, u8 *val); void (*set_hw_reg)(struct ieee80211_hw *hw, u8 variable, u8 *val); void (*update_rate_tbl)(struct ieee80211_hw *hw, struct ieee80211_sta *sta, u8 rssi_leve, bool update_bw); void (*pre_fill_tx_bd_desc)(struct ieee80211_hw *hw, u8 *tx_bd_desc, u8 *desc, u8 queue_index, struct sk_buff *skb, dma_addr_t addr); void (*update_rate_mask)(struct ieee80211_hw *hw, u8 rssi_level); u16 (*rx_desc_buff_remained_cnt)(struct ieee80211_hw *hw, u8 queue_index); void (*rx_check_dma_ok)(struct ieee80211_hw *hw, u8 *header_desc, u8 queue_index); void (*fill_tx_desc)(struct ieee80211_hw *hw, struct ieee80211_hdr *hdr, u8 *pdesc_tx, u8 *pbd_desc_tx, struct ieee80211_tx_info *info, struct ieee80211_sta *sta, struct sk_buff *skb, u8 hw_queue, struct rtl_tcb_desc *ptcb_desc); void (*fill_fake_txdesc)(struct ieee80211_hw *hw, u8 *pdesc, u32 buffer_len, bool bsspspoll); void (*fill_tx_cmddesc)(struct ieee80211_hw *hw, u8 *pdesc, bool firstseg, bool lastseg, struct sk_buff *skb); void (*fill_tx_special_desc)(struct ieee80211_hw *hw, u8 *pdesc, u8 *pbd_desc, struct sk_buff *skb, u8 hw_queue); bool (*query_rx_desc)(struct ieee80211_hw *hw, struct rtl_stats *stats, struct ieee80211_rx_status *rx_status, u8 *pdesc, struct sk_buff *skb); void (*set_channel_access)(struct ieee80211_hw *hw); bool (*radio_onoff_checking)(struct ieee80211_hw *hw, u8 *valid); void (*dm_watchdog)(struct ieee80211_hw *hw); void (*scan_operation_backup)(struct ieee80211_hw *hw, u8 operation); bool (*set_rf_power_state)(struct ieee80211_hw *hw, enum rf_pwrstate rfpwr_state); void (*led_control)(struct ieee80211_hw *hw, enum led_ctl_mode ledaction); void (*set_desc)(struct ieee80211_hw *hw, u8 *pdesc, bool istx, u8 desc_name, u8 *val); u64 (*get_desc)(struct ieee80211_hw *hw, u8 *pdesc, bool istx, u8 desc_name); bool (*is_tx_desc_closed)(struct ieee80211_hw *hw, u8 hw_queue, u16 index); void (*tx_polling)(struct ieee80211_hw *hw, u8 hw_queue); void (*enable_hw_sec)(struct ieee80211_hw *hw); void (*set_key)(struct ieee80211_hw *hw, u32 key_index, u8 *macaddr, bool is_group, u8 enc_algo, bool is_wepkey, bool clear_all); void (*init_sw_leds)(struct ieee80211_hw *hw); void (*deinit_sw_leds)(struct ieee80211_hw *hw); u32 (*get_bbreg)(struct ieee80211_hw *hw, u32 regaddr, u32 bitmask); void (*set_bbreg)(struct ieee80211_hw *hw, u32 regaddr, u32 bitmask, u32 data); u32 (*get_rfreg)(struct ieee80211_hw *hw, enum radio_path rfpath, u32 regaddr, u32 bitmask); void (*set_rfreg)(struct ieee80211_hw *hw, enum radio_path rfpath, u32 regaddr, u32 bitmask, u32 data); void (*linked_set_reg)(struct ieee80211_hw *hw); void (*chk_switch_dmdp)(struct ieee80211_hw *hw); void (*dualmac_easy_concurrent)(struct ieee80211_hw *hw); void (*dualmac_switch_to_dmdp)(struct ieee80211_hw *hw); bool (*phy_rf6052_config)(struct ieee80211_hw *hw); void (*phy_rf6052_set_cck_txpower)(struct ieee80211_hw *hw, u8 *powerlevel); void (*phy_rf6052_set_ofdm_txpower)(struct ieee80211_hw *hw, u8 *ppowerlevel, u8 channel); bool (*config_bb_with_headerfile)(struct ieee80211_hw *hw, u8 configtype); bool (*config_bb_with_pgheaderfile)(struct ieee80211_hw *hw, u8 configtype); void (*phy_lc_calibrate)(struct ieee80211_hw *hw, bool is2t); void (*phy_set_bw_mode_callback)(struct ieee80211_hw *hw); void (*dm_dynamic_txpower)(struct ieee80211_hw *hw); void (*c2h_command_handle)(struct ieee80211_hw *hw); void (*bt_wifi_media_status_notify)(struct ieee80211_hw *hw, bool mstate); void (*bt_coex_off_before_lps)(struct ieee80211_hw *hw); void (*fill_h2c_cmd)(struct ieee80211_hw *hw, u8 element_id, u32 cmd_len, u8 *p_cmdbuffer); void (*set_default_port_id_cmd)(struct ieee80211_hw *hw); bool (*get_btc_status)(void); bool (*is_fw_header)(struct rtlwifi_firmware_header *hdr); void (*add_wowlan_pattern)(struct ieee80211_hw *hw, struct rtl_wow_pattern *rtl_pattern, u8 index); u16 (*get_available_desc)(struct ieee80211_hw *hw, u8 q_idx); void (*c2h_ra_report_handler)(struct ieee80211_hw *hw, u8 *cmd_buf, u8 cmd_len); }; struct rtl_intf_ops { /*com */ void (*read_efuse_byte)(struct ieee80211_hw *hw, u16 _offset, u8 *pbuf); int (*adapter_start)(struct ieee80211_hw *hw); void (*adapter_stop)(struct ieee80211_hw *hw); bool (*check_buddy_priv)(struct ieee80211_hw *hw, struct rtl_priv **buddy_priv); int (*adapter_tx)(struct ieee80211_hw *hw, struct ieee80211_sta *sta, struct sk_buff *skb, struct rtl_tcb_desc *ptcb_desc); void (*flush)(struct ieee80211_hw *hw, u32 queues, bool drop); int (*reset_trx_ring)(struct ieee80211_hw *hw); bool (*waitq_insert)(struct ieee80211_hw *hw, struct ieee80211_sta *sta, struct sk_buff *skb); /*pci */ void (*disable_aspm)(struct ieee80211_hw *hw); void (*enable_aspm)(struct ieee80211_hw *hw); /*usb */ }; struct rtl_mod_params { /* default: 0,0 */ u64 debug_mask; /* default: 0 = using hardware encryption */ bool sw_crypto; /* default: 0 = DBG_EMERG (0)*/ int debug_level; /* default: 1 = using no linked power save */ bool inactiveps; /* default: 1 = using linked sw power save */ bool swctrl_lps; /* default: 1 = using linked fw power save */ bool fwctrl_lps; /* default: 0 = not using MSI interrupts mode * submodules should set their own default value */ bool msi_support; /* default: 0 = dma 32 */ bool dma64; /* default: 1 = enable aspm */ int aspm_support; /* default 0: 1 means disable */ bool disable_watchdog; /* default 0: 1 means do not disable interrupts */ bool int_clear; /* select antenna */ int ant_sel; }; struct rtl_hal_usbint_cfg { /* data - rx */ u32 in_ep_num; u32 rx_urb_num; u32 rx_max_size; /* op - rx */ void (*usb_rx_hdl)(struct ieee80211_hw *, struct sk_buff *); void (*usb_rx_segregate_hdl)(struct ieee80211_hw *, struct sk_buff *, struct sk_buff_head *); /* tx */ void (*usb_tx_cleanup)(struct ieee80211_hw *, struct sk_buff *); int (*usb_tx_post_hdl)(struct ieee80211_hw *, struct urb *, struct sk_buff *); struct sk_buff *(*usb_tx_aggregate_hdl)(struct ieee80211_hw *, struct sk_buff_head *); /* endpoint mapping */ int (*usb_endpoint_mapping)(struct ieee80211_hw *hw); u16 (*usb_mq_to_hwq)(__le16 fc, u16 mac80211_queue_index); }; struct rtl_hal_cfg { u8 bar_id; bool write_readback; char *name; char *alt_fw_name; struct rtl_hal_ops *ops; struct rtl_mod_params *mod_params; struct rtl_hal_usbint_cfg *usb_interface_cfg; enum rtl_spec_ver spec_ver; /*this map used for some registers or vars * defined int HAL but used in MAIN */ u32 maps[RTL_VAR_MAP_MAX]; }; struct rtl_locks { /* mutex */ struct mutex conf_mutex; struct mutex ips_mutex; /* mutex for enter/leave IPS */ struct mutex lps_mutex; /* mutex for enter/leave LPS */ /*spin lock */ spinlock_t irq_th_lock; spinlock_t h2c_lock; spinlock_t rf_ps_lock; spinlock_t rf_lock; spinlock_t waitq_lock; spinlock_t entry_list_lock; spinlock_t usb_lock; spinlock_t scan_list_lock; /* lock for the scan list */ /*FW clock change */ spinlock_t fw_ps_lock; /*Dual mac*/ spinlock_t cck_and_rw_pagea_lock; spinlock_t iqk_lock; }; struct rtl_works { struct ieee80211_hw *hw; /*timer */ struct timer_list watchdog_timer; struct timer_list dualmac_easyconcurrent_retrytimer; struct timer_list fw_clockoff_timer; struct timer_list fast_antenna_training_timer; /*task */ struct tasklet_struct irq_tasklet; struct tasklet_struct irq_prepare_bcn_tasklet; /*work queue */ struct workqueue_struct *rtl_wq; struct delayed_work watchdog_wq; struct delayed_work ips_nic_off_wq; struct delayed_work c2hcmd_wq; /* For SW LPS */ struct delayed_work ps_work; struct delayed_work ps_rfon_wq; struct delayed_work fwevt_wq; struct work_struct lps_change_work; struct work_struct fill_h2c_cmd; struct work_struct update_beacon_work; }; struct rtl_debug { /* add for debug */ struct dentry *debugfs_dir; char debugfs_name[20]; }; #define MIMO_PS_STATIC 0 #define MIMO_PS_DYNAMIC 1 #define MIMO_PS_NOLIMIT 3 struct rtl_dualmac_easy_concurrent_ctl { enum band_type currentbandtype_backfordmdp; bool close_bbandrf_for_dmsp; bool change_to_dmdp; bool change_to_dmsp; bool switch_in_process; }; struct rtl_dmsp_ctl { bool activescan_for_slaveofdmsp; bool scan_for_anothermac_fordmsp; bool scan_for_itself_fordmsp; bool writedig_for_anothermacofdmsp; u32 curdigvalue_for_anothermacofdmsp; bool changecckpdstate_for_anothermacofdmsp; u8 curcckpdstate_for_anothermacofdmsp; bool changetxhighpowerlvl_for_anothermacofdmsp; u8 curtxhighlvl_for_anothermacofdmsp; long rssivalmin_for_anothermacofdmsp; }; struct ps_t { u8 pre_ccastate; u8 cur_ccasate; u8 pre_rfstate; u8 cur_rfstate; u8 initialize; long rssi_val_min; }; struct dig_t { u32 rssi_lowthresh; u32 rssi_highthresh; u32 fa_lowthresh; u32 fa_highthresh; long last_min_undec_pwdb_for_dm; long rssi_highpower_lowthresh; long rssi_highpower_highthresh; u32 recover_cnt; u32 pre_igvalue; u32 cur_igvalue; long rssi_val; u8 dig_enable_flag; u8 dig_ext_port_stage; u8 dig_algorithm; u8 dig_twoport_algorithm; u8 dig_dbgmode; u8 dig_slgorithm_switch; u8 cursta_cstate; u8 presta_cstate; u8 curmultista_cstate; u8 stop_dig; s8 back_val; s8 back_range_max; s8 back_range_min; u8 rx_gain_max; u8 rx_gain_min; u8 min_undec_pwdb_for_dm; u8 rssi_val_min; u8 pre_cck_cca_thres; u8 cur_cck_cca_thres; u8 pre_cck_pd_state; u8 cur_cck_pd_state; u8 pre_cck_fa_state; u8 cur_cck_fa_state; u8 pre_ccastate; u8 cur_ccasate; u8 large_fa_hit; u8 forbidden_igi; u8 dig_state; u8 dig_highpwrstate; u8 cur_sta_cstate; u8 pre_sta_cstate; u8 cur_ap_cstate; u8 pre_ap_cstate; u8 cur_pd_thstate; u8 pre_pd_thstate; u8 cur_cs_ratiostate; u8 pre_cs_ratiostate; u8 backoff_enable_flag; s8 backoffval_range_max; s8 backoffval_range_min; u8 dig_min_0; u8 dig_min_1; u8 bt30_cur_igi; bool media_connect_0; bool media_connect_1; u32 antdiv_rssi_max; u32 rssi_max; }; struct rtl_global_var { /* from this list we can get * other adapter's rtl_priv */ struct list_head glb_priv_list; spinlock_t glb_list_lock; }; #define IN_4WAY_TIMEOUT_TIME (30 * MSEC_PER_SEC) /* 30 seconds */ struct rtl_btc_info { u8 bt_type; u8 btcoexist; u8 ant_num; u8 single_ant_path; u8 ap_num; bool in_4way; unsigned long in_4way_ts; }; struct bt_coexist_info { struct rtl_btc_ops *btc_ops; struct rtl_btc_info btc_info; /* btc context */ void *btc_context; void *wifi_only_context; /* EEPROM BT info. */ u8 eeprom_bt_coexist; u8 eeprom_bt_type; u8 eeprom_bt_ant_num; u8 eeprom_bt_ant_isol; u8 eeprom_bt_radio_shared; u8 bt_coexistence; u8 bt_ant_num; u8 bt_coexist_type; u8 bt_state; u8 bt_cur_state; /* 0:on, 1:off */ u8 bt_ant_isolation; /* 0:good, 1:bad */ u8 bt_pape_ctrl; /* 0:SW, 1:SW/HW dynamic */ u8 bt_service; u8 bt_radio_shared_type; u8 bt_rfreg_origin_1e; u8 bt_rfreg_origin_1f; u8 bt_rssi_state; u32 ratio_tx; u32 ratio_pri; u32 bt_edca_ul; u32 bt_edca_dl; bool init_set; bool bt_busy_traffic; bool bt_traffic_mode_set; bool bt_non_traffic_mode_set; bool fw_coexist_all_off; bool sw_coexist_all_off; bool hw_coexist_all_off; u32 cstate; u32 previous_state; u32 cstate_h; u32 previous_state_h; u8 bt_pre_rssi_state; u8 bt_pre_rssi_state1; u8 reg_bt_iso; u8 reg_bt_sco; bool balance_on; u8 bt_active_zero_cnt; bool cur_bt_disabled; bool pre_bt_disabled; u8 bt_profile_case; u8 bt_profile_action; bool bt_busy; bool hold_for_bt_operation; u8 lps_counter; }; struct rtl_btc_ops { void (*btc_init_variables)(struct rtl_priv *rtlpriv); void (*btc_init_variables_wifi_only)(struct rtl_priv *rtlpriv); void (*btc_deinit_variables)(struct rtl_priv *rtlpriv); void (*btc_init_hal_vars)(struct rtl_priv *rtlpriv); void (*btc_power_on_setting)(struct rtl_priv *rtlpriv); void (*btc_init_hw_config)(struct rtl_priv *rtlpriv); void (*btc_init_hw_config_wifi_only)(struct rtl_priv *rtlpriv); void (*btc_ips_notify)(struct rtl_priv *rtlpriv, u8 type); void (*btc_lps_notify)(struct rtl_priv *rtlpriv, u8 type); void (*btc_scan_notify)(struct rtl_priv *rtlpriv, u8 scantype); void (*btc_scan_notify_wifi_only)(struct rtl_priv *rtlpriv, u8 scantype); void (*btc_connect_notify)(struct rtl_priv *rtlpriv, u8 action); void (*btc_mediastatus_notify)(struct rtl_priv *rtlpriv, enum rt_media_status mstatus); void (*btc_periodical)(struct rtl_priv *rtlpriv); void (*btc_halt_notify)(struct rtl_priv *rtlpriv); void (*btc_btinfo_notify)(struct rtl_priv *rtlpriv, u8 *tmp_buf, u8 length); void (*btc_btmpinfo_notify)(struct rtl_priv *rtlpriv, u8 *tmp_buf, u8 length); bool (*btc_is_limited_dig)(struct rtl_priv *rtlpriv); bool (*btc_is_disable_edca_turbo)(struct rtl_priv *rtlpriv); bool (*btc_is_bt_disabled)(struct rtl_priv *rtlpriv); void (*btc_special_packet_notify)(struct rtl_priv *rtlpriv, u8 pkt_type); void (*btc_switch_band_notify)(struct rtl_priv *rtlpriv, u8 type, bool scanning); void (*btc_switch_band_notify_wifi_only)(struct rtl_priv *rtlpriv, u8 type, bool scanning); void (*btc_display_bt_coex_info)(struct rtl_priv *rtlpriv, struct seq_file *m); void (*btc_record_pwr_mode)(struct rtl_priv *rtlpriv, u8 *buf, u8 len); u8 (*btc_get_lps_val)(struct rtl_priv *rtlpriv); u8 (*btc_get_rpwm_val)(struct rtl_priv *rtlpriv); bool (*btc_is_bt_ctrl_lps)(struct rtl_priv *rtlpriv); void (*btc_get_ampdu_cfg)(struct rtl_priv *rtlpriv, u8 *reject_agg, u8 *ctrl_agg_size, u8 *agg_size); bool (*btc_is_bt_lps_on)(struct rtl_priv *rtlpriv); }; struct proxim { bool proxim_on; void *proximity_priv; int (*proxim_rx)(struct ieee80211_hw *hw, struct rtl_stats *status, struct sk_buff *skb); u8 (*proxim_get_var)(struct ieee80211_hw *hw, u8 type); }; struct rtl_c2hcmd { struct list_head list; u8 tag; u8 len; u8 *val; }; struct rtl_bssid_entry { struct list_head list; u8 bssid[ETH_ALEN]; u32 age; }; struct rtl_scan_list { int num; struct list_head list; /* sort by age */ }; struct rtl_priv { struct ieee80211_hw *hw; struct completion firmware_loading_complete; struct list_head list; struct rtl_priv *buddy_priv; struct rtl_global_var *glb_var; struct rtl_dualmac_easy_concurrent_ctl easy_concurrent_ctl; struct rtl_dmsp_ctl dmsp_ctl; struct rtl_locks locks; struct rtl_works works; struct rtl_mac mac80211; struct rtl_hal rtlhal; struct rtl_regulatory regd; struct rtl_rfkill rfkill; struct rtl_io io; struct rtl_phy phy; struct rtl_dm dm; struct rtl_security sec; struct rtl_efuse efuse; struct rtl_led_ctl ledctl; struct rtl_tx_report tx_report; struct rtl_scan_list scan_list; struct rtl_ps_ctl psc; struct rate_adaptive ra; struct dynamic_primary_cca primarycca; struct wireless_stats stats; struct rt_link_detect link_info; struct false_alarm_statistics falsealm_cnt; struct rtl_rate_priv *rate_priv; /* sta entry list for ap adhoc or mesh */ struct list_head entry_list; /* c2hcmd list for kthread level access */ struct sk_buff_head c2hcmd_queue; struct rtl_debug dbg; int max_fw_size; /* hal_cfg : for diff cards * intf_ops : for diff interrface usb/pcie */ struct rtl_hal_cfg *cfg; const struct rtl_intf_ops *intf_ops; /* this var will be set by set_bit, * and was used to indicate status of * interface or hardware */ unsigned long status; /* tables for dm */ struct dig_t dm_digtable; struct ps_t dm_pstable; u32 reg_874; u32 reg_c70; u32 reg_85c; u32 reg_a74; bool reg_init; /* true if regs saved */ bool bt_operation_on; __le32 *usb_data; int usb_data_index; bool initialized; bool enter_ps; /* true when entering PS */ u8 rate_mask[5]; /* intel Proximity, should be alloc mem * in intel Proximity module and can only * be used in intel Proximity mode */ struct proxim proximity; /*for bt coexist use*/ struct bt_coexist_info btcoexist; /* separate 92ee from other ICs, * 92ee use new trx flow. */ bool use_new_trx_flow; #ifdef CONFIG_PM struct wiphy_wowlan_support wowlan; #endif /* This must be the last item so * that it points to the data allocated * beyond this structure like: * rtl_pci_priv or rtl_usb_priv */ u8 priv[0] __aligned(sizeof(void *)); }; #define rtl_priv(hw) (((struct rtl_priv *)(hw)->priv)) #define rtl_mac(rtlpriv) (&((rtlpriv)->mac80211)) #define rtl_hal(rtlpriv) (&((rtlpriv)->rtlhal)) #define rtl_efuse(rtlpriv) (&((rtlpriv)->efuse)) #define rtl_psc(rtlpriv) (&((rtlpriv)->psc)) /* Bluetooth Co-existence Related */ enum bt_ant_num { ANT_X2 = 0, ANT_X1 = 1, }; enum bt_ant_path { ANT_MAIN = 0, ANT_AUX = 1, }; enum bt_co_type { BT_2WIRE = 0, BT_ISSC_3WIRE = 1, BT_ACCEL = 2, BT_CSR_BC4 = 3, BT_CSR_BC8 = 4, BT_RTL8756 = 5, BT_RTL8723A = 6, BT_RTL8821A = 7, BT_RTL8723B = 8, BT_RTL8192E = 9, BT_RTL8812A = 11, }; enum bt_cur_state { BT_OFF = 0, BT_ON = 1, }; enum bt_service_type { BT_SCO = 0, BT_A2DP = 1, BT_HID = 2, BT_HID_IDLE = 3, BT_SCAN = 4, BT_IDLE = 5, BT_OTHER_ACTION = 6, BT_BUSY = 7, BT_OTHERBUSY = 8, BT_PAN = 9, }; enum bt_radio_shared { BT_RADIO_SHARED = 0, BT_RADIO_INDIVIDUAL = 1, }; /**************************************** * mem access macro define start * Call endian free function when * 1. Read/write packet content. * 2. Before write integer to IO. * 3. After read integer from IO. ****************************************/ #define N_BYTE_ALIGMENT(__value, __aligment) ((__aligment == 1) ? \ (__value) : (((__value + __aligment - 1) / __aligment) * __aligment)) /* mem access macro define end */ #define byte(x, n) ((x >> (8 * n)) & 0xff) #define packet_get_type(_packet) (EF1BYTE((_packet).octet[0]) & 0xFC) #define RTL_WATCH_DOG_TIME 2000 #define MSECS(t) msecs_to_jiffies(t) #define WLAN_FC_GET_VERS(fc) (le16_to_cpu(fc) & IEEE80211_FCTL_VERS) #define WLAN_FC_GET_TYPE(fc) (le16_to_cpu(fc) & IEEE80211_FCTL_FTYPE) #define WLAN_FC_GET_STYPE(fc) (le16_to_cpu(fc) & IEEE80211_FCTL_STYPE) #define WLAN_FC_MORE_DATA(fc) (le16_to_cpu(fc) & IEEE80211_FCTL_MOREDATA) #define rtl_dm(rtlpriv) (&((rtlpriv)->dm)) #define RT_RF_OFF_LEVL_ASPM BIT(0) /*PCI ASPM */ #define RT_RF_OFF_LEVL_CLK_REQ BIT(1) /*PCI clock request */ #define RT_RF_OFF_LEVL_PCI_D3 BIT(2) /*PCI D3 mode */ /*NIC halt, re-initialize hw parameters*/ #define RT_RF_OFF_LEVL_HALT_NIC BIT(3) #define RT_RF_OFF_LEVL_FREE_FW BIT(4) /*FW free, re-download the FW */ #define RT_RF_OFF_LEVL_FW_32K BIT(5) /*FW in 32k */ /*Always enable ASPM and Clock Req in initialization.*/ #define RT_RF_PS_LEVEL_ALWAYS_ASPM BIT(6) /* no matter RFOFF or SLEEP we set PS_ASPM_LEVL*/ #define RT_PS_LEVEL_ASPM BIT(7) /*When LPS is on, disable 2R if no packet is received or transmittd.*/ #define RT_RF_LPS_DISALBE_2R BIT(30) #define RT_RF_LPS_LEVEL_ASPM BIT(31) /*LPS with ASPM */ #define RT_IN_PS_LEVEL(ppsc, _ps_flg) \ ((ppsc->cur_ps_level & _ps_flg) ? true : false) #define RT_CLEAR_PS_LEVEL(ppsc, _ps_flg) \ (ppsc->cur_ps_level &= (~(_ps_flg))) #define RT_SET_PS_LEVEL(ppsc, _ps_flg) \ (ppsc->cur_ps_level |= _ps_flg) #define FILL_OCTET_STRING(_os, _octet, _len) \ (_os).octet = (u8 *)(_octet); \ (_os).length = (_len); #define CP_MACADDR(des, src) \ ((des)[0] = (src)[0], (des)[1] = (src)[1],\ (des)[2] = (src)[2], (des)[3] = (src)[3],\ (des)[4] = (src)[4], (des)[5] = (src)[5]) #define LDPC_HT_ENABLE_RX BIT(0) #define LDPC_HT_ENABLE_TX BIT(1) #define LDPC_HT_TEST_TX_ENABLE BIT(2) #define LDPC_HT_CAP_TX BIT(3) #define STBC_HT_ENABLE_RX BIT(0) #define STBC_HT_ENABLE_TX BIT(1) #define STBC_HT_TEST_TX_ENABLE BIT(2) #define STBC_HT_CAP_TX BIT(3) #define LDPC_VHT_ENABLE_RX BIT(0) #define LDPC_VHT_ENABLE_TX BIT(1) #define LDPC_VHT_TEST_TX_ENABLE BIT(2) #define LDPC_VHT_CAP_TX BIT(3) #define STBC_VHT_ENABLE_RX BIT(0) #define STBC_VHT_ENABLE_TX BIT(1) #define STBC_VHT_TEST_TX_ENABLE BIT(2) #define STBC_VHT_CAP_TX BIT(3) extern u8 channel5g[CHANNEL_MAX_NUMBER_5G]; extern u8 channel5g_80m[CHANNEL_MAX_NUMBER_5G_80M]; static inline u8 rtl_read_byte(struct rtl_priv *rtlpriv, u32 addr) { return rtlpriv->io.read8_sync(rtlpriv, addr); } static inline u16 rtl_read_word(struct rtl_priv *rtlpriv, u32 addr) { return rtlpriv->io.read16_sync(rtlpriv, addr); } static inline u32 rtl_read_dword(struct rtl_priv *rtlpriv, u32 addr) { return rtlpriv->io.read32_sync(rtlpriv, addr); } static inline void rtl_write_byte(struct rtl_priv *rtlpriv, u32 addr, u8 val8) { rtlpriv->io.write8_async(rtlpriv, addr, val8); if (rtlpriv->cfg->write_readback) rtlpriv->io.read8_sync(rtlpriv, addr); } static inline void rtl_write_byte_with_val32(struct ieee80211_hw *hw, u32 addr, u32 val8) { struct rtl_priv *rtlpriv = rtl_priv(hw); rtl_write_byte(rtlpriv, addr, (u8)val8); } static inline void rtl_write_word(struct rtl_priv *rtlpriv, u32 addr, u16 val16) { rtlpriv->io.write16_async(rtlpriv, addr, val16); if (rtlpriv->cfg->write_readback) rtlpriv->io.read16_sync(rtlpriv, addr); } static inline void rtl_write_dword(struct rtl_priv *rtlpriv, u32 addr, u32 val32) { rtlpriv->io.write32_async(rtlpriv, addr, val32); if (rtlpriv->cfg->write_readback) rtlpriv->io.read32_sync(rtlpriv, addr); } static inline u32 rtl_get_bbreg(struct ieee80211_hw *hw, u32 regaddr, u32 bitmask) { struct rtl_priv *rtlpriv = hw->priv; return rtlpriv->cfg->ops->get_bbreg(hw, regaddr, bitmask); } static inline void rtl_set_bbreg(struct ieee80211_hw *hw, u32 regaddr, u32 bitmask, u32 data) { struct rtl_priv *rtlpriv = hw->priv; rtlpriv->cfg->ops->set_bbreg(hw, regaddr, bitmask, data); } static inline void rtl_set_bbreg_with_dwmask(struct ieee80211_hw *hw, u32 regaddr, u32 data) { rtl_set_bbreg(hw, regaddr, 0xffffffff, data); } static inline u32 rtl_get_rfreg(struct ieee80211_hw *hw, enum radio_path rfpath, u32 regaddr, u32 bitmask) { struct rtl_priv *rtlpriv = hw->priv; return rtlpriv->cfg->ops->get_rfreg(hw, rfpath, regaddr, bitmask); } static inline void rtl_set_rfreg(struct ieee80211_hw *hw, enum radio_path rfpath, u32 regaddr, u32 bitmask, u32 data) { struct rtl_priv *rtlpriv = hw->priv; rtlpriv->cfg->ops->set_rfreg(hw, rfpath, regaddr, bitmask, data); } static inline bool is_hal_stop(struct rtl_hal *rtlhal) { return (_HAL_STATE_STOP == rtlhal->state); } static inline void set_hal_start(struct rtl_hal *rtlhal) { rtlhal->state = _HAL_STATE_START; } static inline void set_hal_stop(struct rtl_hal *rtlhal) { rtlhal->state = _HAL_STATE_STOP; } static inline u8 get_rf_type(struct rtl_phy *rtlphy) { return rtlphy->rf_type; } static inline struct ieee80211_hdr *rtl_get_hdr(struct sk_buff *skb) { return (struct ieee80211_hdr *)(skb->data); } static inline __le16 rtl_get_fc(struct sk_buff *skb) { return rtl_get_hdr(skb)->frame_control; } static inline u16 rtl_get_tid(struct sk_buff *skb) { return ieee80211_get_tid(rtl_get_hdr(skb)); } static inline struct ieee80211_sta *get_sta(struct ieee80211_hw *hw, struct ieee80211_vif *vif, const u8 *bssid) { return ieee80211_find_sta(vif, bssid); } static inline struct ieee80211_sta *rtl_find_sta(struct ieee80211_hw *hw, u8 *mac_addr) { struct rtl_mac *mac = rtl_mac(rtl_priv(hw)); return ieee80211_find_sta(mac->vif, mac_addr); } #endif
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