1 /* 2 * Copyright (c) 2014-2018 The Linux Foundation. All rights reserved. 3 * 4 * Permission to use, copy, modify, and/or distribute this software for 5 * any purpose with or without fee is hereby granted, provided that the 6 * above copyright notice and this permission notice appear in all 7 * copies. 8 * 9 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL 10 * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED 11 * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE 12 * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL 13 * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR 14 * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER 15 * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR 16 * PERFORMANCE OF THIS SOFTWARE. 17 */ 18 19 /*=========================================================================== 20 \file wlan_nlink_common.h 21 22 Exports and types for the Netlink Service interface. This header file contains 23 message types and definitions that is shared between the user space service 24 (e.g. logging service) and WLAN kernel module. 25 26 ===========================================================================*/ 27 28 #ifndef WLAN_NLINK_COMMON_H__ 29 #define WLAN_NLINK_COMMON_H__ 30 31 #include <linux/netlink.h> 32 33 #ifdef __KERNEL__ 34 #include <linux/if.h> 35 #else 36 #include <net/if.h> 37 #endif 38 39 /*--------------------------------------------------------------------------- 40 * External Functions 41 *-------------------------------------------------------------------------*/ 42 43 /*--------------------------------------------------------------------------- 44 * Preprocessor Definitions and Constants 45 *-------------------------------------------------------------------------*/ 46 #define WLAN_NL_MAX_PAYLOAD 5120 /* maximum size for netlink message */ 47 #define WLAN_NLINK_PROTO_FAMILY NETLINK_USERSOCK 48 #define WLAN_NLINK_MCAST_GRP_ID 0x01 49 50 /*--------------------------------------------------------------------------- 51 * Type Declarations 52 *-------------------------------------------------------------------------*/ 53 54 /* 55 * The following enum defines the target service within WLAN driver for which the 56 * message is intended for. Each service along with its counterpart 57 * in the user space, define a set of messages they recognize. 58 * Each of this message will have an header of type tAniMsgHdr defined below. 59 * Each Netlink message to/from a kernel module will contain only one 60 * message which is preceded by a tAniMsgHdr. The maximun size (in bytes) of 61 * a netlink message is assumed to be MAX_PAYLOAD bytes. 62 * 63 * +------------+-------+----------+----------+ 64 * |Netlink hdr | Align |tAniMsgHdr| msg body | 65 * +------------+-------+----------|----------+ 66 */ 67 68 /* Message Types */ 69 #define WLAN_SVC_FW_CRASHED_IND 0x100 70 #define WLAN_SVC_LTE_COEX_IND 0x101 71 #define WLAN_SVC_WLAN_AUTO_SHUTDOWN_IND 0x102 72 #define WLAN_SVC_DFS_CAC_START_IND 0x103 73 #define WLAN_SVC_DFS_CAC_END_IND 0x104 74 #define WLAN_SVC_DFS_RADAR_DETECT_IND 0x105 75 #define WLAN_SVC_WLAN_STATUS_IND 0x106 76 #define WLAN_SVC_WLAN_VERSION_IND 0x107 77 #define WLAN_SVC_DFS_ALL_CHANNEL_UNAVAIL_IND 0x108 78 #define WLAN_SVC_WLAN_TP_IND 0x109 79 #define WLAN_SVC_RPS_ENABLE_IND 0x10A 80 #define WLAN_SVC_WLAN_TP_TX_IND 0x10B 81 #define WLAN_SVC_WLAN_AUTO_SHUTDOWN_CANCEL_IND 0x10C 82 #define WLAN_SVC_WLAN_RADIO_INDEX 0x10D 83 #define WLAN_SVC_FW_SHUTDOWN_IND 0x10E 84 #define WLAN_SVC_CORE_MINFREQ 0x10F 85 #define WLAN_SVC_MAX_SSID_LEN 32 86 #define WLAN_SVC_MAX_BSSID_LEN 6 87 #define WLAN_SVC_MAX_STR_LEN 16 88 #define WLAN_SVC_MAX_NUM_CHAN 128 89 #define WLAN_SVC_COUNTRY_CODE_LEN 3 90 91 #define ANI_NL_MSG_BASE 0x10 /* Some arbitrary base */ 92 93 typedef enum eAniNlModuleTypes { 94 ANI_NL_MSG_PUMAC = ANI_NL_MSG_BASE + 0x01, /* PTT Socket App */ 95 ANI_NL_MSG_PTT = ANI_NL_MSG_BASE + 0x07, /* Quarky GUI */ 96 WLAN_NL_MSG_OEM = ANI_NL_MSG_BASE + 0x09, 97 WLAN_NL_MSG_SVC, 98 WLAN_NL_MSG_CNSS_DIAG = ANI_NL_MSG_BASE + 0x0B, /* Value needs to be 27 */ 99 ANI_NL_MSG_LOG, 100 WLAN_NL_MSG_SPECTRAL_SCAN, 101 ANI_NL_MSG_MAX 102 } tAniNlModTypes, tWlanNlModTypes; 103 104 #define WLAN_NL_MSG_BASE ANI_NL_MSG_BASE 105 #define WLAN_NL_MSG_MAX ANI_NL_MSG_MAX 106 107 /* All Netlink messages must contain this header */ 108 typedef struct sAniHdr { 109 unsigned short type; 110 unsigned short length; 111 } tAniHdr, tAniMsgHdr; 112 113 typedef struct sAniNlMsg { 114 struct nlmsghdr nlh; /* Netlink Header */ 115 int radio; /* unit number of the radio */ 116 tAniHdr wmsg; /* Airgo Message Header */ 117 } tAniNlHdr; 118 119 struct radio_index_tlv { 120 unsigned short type; 121 unsigned short length; 122 int radio; 123 }; 124 125 /** 126 * struct svc_channel_info - Channel information 127 * @chan_id: Channel ID 128 * @reserved0: Reserved for padding and future use 129 * @mhz: Primary 20 MHz channel frequency in MHz 130 * @band_center_freq1: Center frequency 1 in MHz 131 * @band_center_freq2: Center frequency 2 in MHz 132 * @info: Channel info 133 * @reg_info_1: Regulatory information field 1 which contains 134 * MIN power, MAX power, reg power and reg class ID 135 * @reg_info_2: Regulatory information field 2 which contains antennamax 136 */ 137 struct svc_channel_info { 138 uint32_t chan_id; 139 uint32_t reserved0; 140 uint32_t mhz; 141 uint32_t band_center_freq1; 142 uint32_t band_center_freq2; 143 uint32_t info; 144 uint32_t reg_info_1; 145 uint32_t reg_info_2; 146 }; 147 148 struct wlan_status_data { 149 uint8_t lpss_support; 150 uint8_t is_on; 151 uint8_t vdev_id; 152 uint8_t is_connected; 153 int8_t rssi; 154 uint8_t ssid_len; 155 uint8_t country_code[WLAN_SVC_COUNTRY_CODE_LEN]; 156 uint32_t vdev_mode; 157 uint32_t freq; 158 uint32_t numChannels; 159 uint8_t channel_list[WLAN_SVC_MAX_NUM_CHAN]; 160 uint8_t ssid[WLAN_SVC_MAX_SSID_LEN]; 161 uint8_t bssid[WLAN_SVC_MAX_BSSID_LEN]; 162 struct svc_channel_info channel_info[WLAN_SVC_MAX_NUM_CHAN]; 163 }; 164 165 struct wlan_version_data { 166 uint32_t chip_id; 167 char chip_name[WLAN_SVC_MAX_STR_LEN]; 168 char chip_from[WLAN_SVC_MAX_STR_LEN]; 169 char host_version[WLAN_SVC_MAX_STR_LEN]; 170 char fw_version[WLAN_SVC_MAX_STR_LEN]; 171 }; 172 173 struct wlan_dfs_info { 174 uint16_t channel; 175 uint8_t country_code[WLAN_SVC_COUNTRY_CODE_LEN]; 176 }; 177 178 /* 179 * Maximim number of queues supported by WLAN driver. Setting an upper 180 * limit. Actual number of queues may be smaller than this value. 181 */ 182 #define WLAN_SVC_IFACE_NUM_QUEUES 6 183 184 /** 185 * struct wlan_rps_data - structure to send RPS info to cnss-daemon 186 * @ifname: interface name for which the RPS data belongs to 187 * @num_queues: number of rx queues for which RPS data is being sent 188 * @cpu_map_list: array of cpu maps for different rx queues supported by 189 * the wlan driver 190 * 191 * The structure specifies the format of data exchanged between wlan 192 * driver and cnss-daemon. On receipt of the data, cnss-daemon is expected 193 * to apply the 'cpu_map' for each rx queue belonging to the interface 'ifname' 194 */ 195 struct wlan_rps_data { 196 char ifname[IFNAMSIZ]; 197 uint16_t num_queues; 198 uint16_t cpu_map_list[WLAN_SVC_IFACE_NUM_QUEUES]; 199 }; 200 201 /** 202 * enum wlan_tp_level - indicates wlan throughput level 203 * @WLAN_SVC_TP_NONE: used for initialization 204 * @WLAN_SVC_TP_LOW: used to identify low throughput level 205 * @WLAN_SVC_TP_MEDIUM: used to identify medium throughput level 206 * @WLAN_SVC_TP_HIGH: used to identify high throughput level 207 * 208 * The different throughput levels are determined on the basis of # of tx and 209 * rx packets and other threshold values. For example, if the # of total 210 * packets sent or received by the driver is greater than 500 in the last 100ms 211 * , the driver has a high throughput requirement. The driver may tweak certain 212 * system parameters based on the throughput level. 213 */ 214 enum wlan_tp_level { 215 WLAN_SVC_TP_NONE, 216 WLAN_SVC_TP_LOW, 217 WLAN_SVC_TP_MEDIUM, 218 WLAN_SVC_TP_HIGH, 219 }; 220 221 /** 222 * struct wlan_core_minfreq - msg to [re]set the min freq of a set of cores 223 * @magic: signature token: 0xBABA 224 * @reserved: unused for now 225 * @coremask: bitmap of cores (16 bits) bit0=CORE0, bit1=CORE1, ... 226 * coremask is ONLY valid for set command 227 * valid values: 0xf0, or 0x0f 228 * @freq: frequency in KH 229 * > 0: "set to the given frequency" 230 * == 0: "free; remove the lock" 231 * 232 * Msg structure passed by the driver to cnss-daemon. 233 * 234 * Semantical Alert: 235 * There can be only one outstanding lock, even for different masks. 236 */ 237 #define WLAN_CORE_MINFREQ_MAGIC 0xBABA 238 struct wlan_core_minfreq { 239 uint16_t magic; 240 uint16_t reserved; 241 uint16_t coremask; 242 uint16_t freq; 243 }; 244 245 /* Indication to enable TCP delayed ack in TPUT indication */ 246 #define TCP_DEL_ACK_IND (1 << 0) 247 #define TCP_DEL_ACK_IND_MASK 0x1 248 /* Indication to enable TCP advance window scaling in TPUT indication */ 249 #define TCP_ADV_WIN_SCL (1 << 1) 250 #define TCP_ADV_WIN_SCL_MASK 0x2 251 252 /* TCP limit output bytes for low and high TPUT */ 253 #define TCP_LIMIT_OUTPUT_BYTES_LOW 506072 254 #define TCP_LIMIT_OUTPUT_BYTES_HI 4048579 255 256 /* TCP window scale for low and high TPUT */ 257 #define WIN_SCALE_LOW 2 258 #define WIN_SCALE_HI 1 259 260 /* TCP DEL ACK value for low and high TPUT */ 261 #define TCP_DEL_ACK_LOW 0 262 #define TCP_DEL_ACK_HI 20 263 264 /** 265 * struct wlan_rx_tp_data - msg to TCP delayed ack and advance window scaling 266 * @level: Throughput level. 267 * @rx_tp_flags: Bit map of flags, for which this indcation will take 268 * effect, bit map for TCP_ADV_WIN_SCL and TCP_DEL_ACK_IND. 269 */ 270 struct wlan_rx_tp_data { 271 enum wlan_tp_level level; 272 uint16_t rx_tp_flags; 273 }; 274 275 /** 276 * struct wlan_tx_tp_data - msg to TCP for Tx Dir 277 * @level: Throughput level. 278 * @tcp_limit_output: Tcp limit output flag. 279 * 280 */ 281 struct wlan_tx_tp_data { 282 enum wlan_tp_level level; 283 bool tcp_limit_output; 284 }; 285 286 #endif /* WLAN_NLINK_COMMON_H__ */ 287