1 /*
2  * Copyright (c) 2021 The Linux Foundation. All rights reserved.
3  * Copyright (c) 2021-2023 Qualcomm Innovation Center, Inc. All rights reserved.
4  *
5  * Permission to use, copy, modify, and/or distribute this software for any
6  * purpose with or without fee is hereby granted, provided that the above
7  * copyright notice and this permission notice appear in all copies.
8  *
9  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
10  * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
11  * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
12  * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
13  * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
14  * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
15  * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
16  */
17 
18 /**
19  * DOC: contains cp_stats structure definitions
20  */
21 
22 #ifndef _WLAN_CP_STATS_PUBLIC_STRUCTS_H_
23 #define _WLAN_CP_STATS_PUBLIC_STRUCTS_H_
24 
25 #define CTRL_PATH_STATS_MAX_MAC_ADDR 1
26 #define CTRL_PATH_STATS_MAX_PDEV_ID 1
27 #define CTRL_PATH_STATS_MAX_VDEV_ID 1
28 
29 
30 #define INFRA_CP_STATS_MAX_REQ_TWT_DIALOG_ID 1
31 
32 /*
33  * Maximum of 1 TWT session can be supported per vdev.
34  * This can be extended later to support more sessions.
35  * if there is a request to retrieve stats for all existing
36  * TWT sessions then response path can have multiple session
37  * stats.
38  */
39 #define INFRA_CP_STATS_MAX_RESP_TWT_DIALOG_ID 1
40 
41 #ifdef WLAN_SUPPORT_TWT
42 /**
43  * struct twt_infra_cp_stats_event - TWT statistics event structure
44  * @vdev_id: virtual interface id
45  * @peer_macaddr: peer mac address corresponding to a TWT session
46  * @dialog_id: Represents dialog_id of the TWT session
47  * @status:
48  * @num_sp_cycles: Number of TWT service period elapsed so far
49  * @avg_sp_dur_us: Average of actual wake duration observed so far
50  * @min_sp_dur_us: Minimum value of wake duration observed across
51  * @max_sp_dur_us: Maximum value of wake duration observed
52  * @tx_mpdu_per_sp: Average number of MPDU's transmitted successfully
53  * @rx_mpdu_per_sp: Average number of MPDU's received successfully
54  * @tx_bytes_per_sp: Average number of bytes transmitted successfully
55  * @rx_bytes_per_sp: Average number of bytes received successfully
56  */
57 struct twt_infra_cp_stats_event {
58 	uint8_t vdev_id;
59 	struct qdf_mac_addr peer_macaddr;
60 	uint32_t dialog_id;
61 	uint32_t status;
62 	uint32_t num_sp_cycles;
63 	uint32_t avg_sp_dur_us;
64 	uint32_t min_sp_dur_us;
65 	uint32_t max_sp_dur_us;
66 	uint32_t tx_mpdu_per_sp;
67 	uint32_t rx_mpdu_per_sp;
68 	uint32_t tx_bytes_per_sp;
69 	uint32_t rx_bytes_per_sp;
70 };
71 #endif /* WLAN_SUPPORT_TWT */
72 
73 #ifdef CONFIG_WLAN_BMISS
74 /**
75  * struct bmiss_stats_rssi_samples - bmiss rssi samples structure
76  * @rssi: dBm units
77  * @sample_time: timestamp from host/target shared qtimer
78  */
79 struct bmiss_stats_rssi_samples {
80 	int32_t rssi;
81 	uint32_t sample_time;
82 };
83 
84 /**
85  * struct consecutive_bmiss_stats - consecutive bmiss sats structure
86  * @num_of_bmiss_sequences:number of consecutive bmiss > 2
87  * @num_bitmask_wraparound:number of times bitmask wrapped around
88  * @num_bcn_hist_lost:number of beacons history we have lost
89  */
90 struct consecutive_bmiss_stats {
91 	uint32_t num_of_bmiss_sequences;
92 	uint32_t num_bitmask_wraparound;
93 	uint32_t num_bcn_hist_lost;
94 };
95 
96 #define BMISS_STATS_RSSI_SAMPLES_MAX 10
97 /**
98  * struct bmiss_infra_cp_stats_event -  bmiss statistics event structure
99  * @vdev_id: virtual interface id
100  * @peer_macaddr: peer mac address
101  * @num_pre_bmiss: number of pre_bmiss
102  * @rssi_samples: Rssi samples at pre bmiss
103  * @rssi_sample_curr_index: current index of Rssi sampelse at pre bmiss
104  * @num_first_bmiss: number of first bmiss
105  * @num_final_bmiss: number of final bmiss
106  * @num_null_sent_in_first_bmiss: number of null frames sent in first bmiss
107  * @num_null_failed_in_first_bmiss: number of failed null frames in first bmiss
108  * @num_null_sent_in_final_bmiss: number of null frames sent in final bmiss
109  * @num_null_failed_in_final_bmiss: number of failed null frames in final bmiss
110  * @cons_bmiss_stats: consecutive bmiss status
111  */
112 struct bmiss_infra_cp_stats_event  {
113 	uint8_t vdev_id;
114 	struct qdf_mac_addr peer_macaddr;
115 	uint32_t num_pre_bmiss;
116 	struct bmiss_stats_rssi_samples rssi_samples[BMISS_STATS_RSSI_SAMPLES_MAX];
117 	uint32_t rssi_sample_curr_index;
118 	uint32_t num_first_bmiss;
119 	uint32_t num_final_bmiss;
120 	uint32_t num_null_sent_in_first_bmiss;
121 	uint32_t num_null_failed_in_first_bmiss;
122 	uint32_t num_null_sent_in_final_bmiss;
123 	uint32_t num_null_failed_in_final_bmiss;
124 	struct consecutive_bmiss_stats cons_bmiss_stats;
125 };
126 #endif /* CONFIG_WLAN_BMISS */
127 
128 #ifdef WLAN_CONFIG_TELEMETRY_AGENT
129 /**
130  * struct ctrl_path_pmlo_telemetry_stats_struct - pmlo telemetry
131  * stats struct
132  * @pdev_id: pdev_id for identifying the PHY
133  * @dl_inbss_airtime_ac_be: ac_be airtime in dl inbss
134  * @dl_inbss_airtime_ac_bk: ac_bk airtime in dl inbss
135  * @dl_inbss_airtime_ac_vi: ac_vi airtime in dl inbss
136  * @dl_inbss_airtime_ac_vo: ac_vo airtime in dl inbss
137  * @ul_inbss_airtime_ac_be: ac_be airtime in ul inbss
138  * @ul_inbss_airtime_ac_bk: ac_bk airtime in ul inbss
139  * @ul_inbss_airtime_ac_vi: ac_vi airtime in ul inbss
140  * @ul_inbss_airtime_ac_vo: ac_vo airtime in ul inbss
141  * @estimated_air_time_ac_be: ac_be estimated air time
142  * @estimated_air_time_ac_bk: ac_bk estimated air time
143  * @estimated_air_time_ac_vi: ac_vi estimated air time
144  * @estimated_air_time_ac_vo: ac_vo estimated air time
145  * @avg_chan_lat_per_ac: array for Average channel latency per AC,
146  * units in micro seconds.
147  * @link_obss_airtime: Percentage of OBSS used air time per link,
148  * units in percentage.
149  * @link_idle_airtime: Idle/free airtime per link, units in percentage.
150  * @ul_inbss_airtime_non_ac: ul inBSS airtime occupied by non-AC traffic,
151  * units in percentage.
152  * @dl_inbss_airtime_non_ac: dl inBSS airtime occupied by non-AC traffic,
153  * units in percentage.
154  */
155 struct ctrl_path_pmlo_telemetry_stats_struct {
156 	uint32_t pdev_id;
157 	uint32_t dl_inbss_airtime_ac_be : 8,
158 		 dl_inbss_airtime_ac_bk : 8,
159 		 dl_inbss_airtime_ac_vi : 8,
160 		 dl_inbss_airtime_ac_vo : 8;
161 	uint32_t ul_inbss_airtime_ac_be : 8,
162 		 ul_inbss_airtime_ac_bk : 8,
163 		 ul_inbss_airtime_ac_vi : 8,
164 		 ul_inbss_airtime_ac_vo : 8;
165 	uint32_t estimated_air_time_ac_be : 8,
166 		 estimated_air_time_ac_bk : 8,
167 		 estimated_air_time_ac_vi : 8,
168 		 estimated_air_time_ac_vo : 8;
169 	uint32_t avg_chan_lat_per_ac[WIFI_AC_MAX];
170 	uint32_t link_obss_airtime : 8,
171 		 link_idle_airtime : 8,
172 		 ul_inbss_airtime_non_ac : 8,
173 		 dl_inbss_airtime_non_ac : 8;
174 };
175 #endif
176 
177 /**
178  * struct group_id_0: stats for group id 0
179  * @group_transmitted_frame_count: group transmitted frame count
180  * @failed_count: failed count
181  * @group_received_frame_count: group received frame count
182  * @fcs_error_count: fcs error count
183  * @transmitted_frame_count: transmitted frame count
184  */
185 struct group_id_0 {
186 	uint32_t group_transmitted_frame_count;
187 	uint32_t failed_count;
188 	uint32_t group_received_frame_count;
189 	uint32_t fcs_error_count;
190 	uint32_t transmitted_frame_count;
191 };
192 
193 /**
194  * struct group_id_1: stats of group id 1
195  * @rts_success_count: rts success count
196  * @rts_failure_count: rts failure count
197  * @ack_failure_count: ack failure count
198  */
199 struct group_id_1 {
200 	uint32_t rts_success_count;
201 	uint32_t rts_failure_count;
202 	uint32_t ack_failure_count;
203 };
204 
205 /**
206  * struct group_id_stats : stats for group provided group id
207  * @counter_stats: stats for group id 0
208  * @mac_stats: stats for group id 1
209  */
210 struct group_id_stats {
211 	struct group_id_0 counter_stats;
212 	struct group_id_1 mac_stats;
213 };
214 
215 /**
216  * struct cp_sta_stats - cp sta stats
217  * @sta_stats_group_id: group id
218  * @group: group for group stats
219  */
220 struct cp_sta_stats {
221 	uint8_t sta_stats_group_id;
222 	struct group_id_stats group;
223 };
224 
225 /**
226  * struct infra_cp_stats_event - Event structure to store stats
227  * @action: action for which this response was received
228  *          (get/reset/start/stop)
229  * @request_id: request cookie sent to Firmware in the command
230  * @status: status of the infra_cp_stats command processing
231  * @num_twt_infra_cp_stats: number of twt_infra_cp_stats buffers
232  *                          available
233  * @twt_infra_cp_stats: pointer to TWT session statistics structures
234  * @bmiss_infra_cp_stats: pointer to beacon miss statistics
235  * @telemetry_stats: pointer to pmlo telemetry stats struct
236  * @sta_stats: pointer to RRM sta stats struct
237  *
238  * This structure is used to store the statistics information
239  * extracted from firmware event(wmi_pdev_cp_fwstats_eventid)
240  */
241 struct infra_cp_stats_event {
242 	uint32_t action;
243 	uint32_t request_id;
244 	uint32_t status;
245 #ifdef WLAN_SUPPORT_TWT
246 	uint32_t num_twt_infra_cp_stats;
247 	struct twt_infra_cp_stats_event *twt_infra_cp_stats;
248 #endif
249 #ifdef CONFIG_WLAN_BMISS
250 	struct bmiss_infra_cp_stats_event *bmiss_infra_cp_stats;
251 #endif
252 #ifdef WLAN_CONFIG_TELEMETRY_AGENT
253 	struct ctrl_path_pmlo_telemetry_stats_struct *telemetry_stats;
254 #endif
255 	struct cp_sta_stats *sta_stats;
256 	/* Extend with other required infra_cp_stats structs */
257 };
258 
259 enum infra_cp_stats_action {
260 	ACTION_REQ_CTRL_PATH_STAT_GET = 0,
261 	ACTION_REQ_CTRL_PATH_STAT_RESET,
262 	ACTION_REQ_CTRL_PATH_STAT_START,
263 	ACTION_REQ_CTRL_PATH_STAT_STOP,
264 	ACTION_REQ_CTRL_PATH_STAT_PERIODIC_PUBLISH,
265 };
266 
267 enum infra_cp_stats_id {
268 	TYPE_REQ_CTRL_PATH_PDEV_TX_STAT = 0,
269 	TYPE_REQ_CTRL_PATH_VDEV_EXTD_STAT,
270 	TYPE_REQ_CTRL_PATH_MEM_STAT,
271 	TYPE_REQ_CTRL_PATH_TWT_STAT,
272 	TYPE_REQ_CTRL_PATH_BMISS_STAT,
273 	TYPE_REQ_CTRL_PATH_PMLO_STAT,
274 	TYPE_REQ_CTRL_PATH_RRM_STA_STAT,
275 };
276 
277 /**
278  * struct infra_cp_stats_cmd_info - details of infra cp stats request
279  * @stats_id: ID of the statistics type requested
280  * @action: action to be performed (get/reset/start/stop)
281  * @request_cookie: osif request cookie
282  * @request_id: request id cookie to FW
283  * @num_pdev_ids: number of pdev ids in the request
284  * @pdev_id: array of pdev_ids
285  * @num_vdev_ids: number of vdev ids in the request
286  * @vdev_id: array of vdev_ids
287  * @num_mac_addr_list: number of mac addresses in the request
288  * @peer_mac_addr: array of mac addresses
289  * @dialog_id: This is a TWT specific field. only one dialog_id
290  *             can be specified for TWT stats. 0 to 254 are
291  *             valid dialog_id's representing a single TWT session.
292  *             255 represents all twt sessions
293  * @infra_cp_stats_resp_cb: callback function to handle the response
294  * @stat_periodicity: WMI ctrl-path stats event periodicity
295  */
296 struct infra_cp_stats_cmd_info {
297 	enum infra_cp_stats_id stats_id;
298 	enum infra_cp_stats_action action;
299 	void *request_cookie;
300 	uint32_t request_id;
301 	uint32_t num_pdev_ids;
302 	uint32_t pdev_id[CTRL_PATH_STATS_MAX_PDEV_ID];
303 	uint32_t num_vdev_ids;
304 	uint32_t vdev_id[CTRL_PATH_STATS_MAX_VDEV_ID];
305 	uint32_t num_mac_addr_list;
306 	uint8_t peer_mac_addr[CTRL_PATH_STATS_MAX_MAC_ADDR][QDF_MAC_ADDR_SIZE];
307 #ifdef WLAN_SUPPORT_TWT
308 	uint32_t dialog_id;
309 #endif
310 	void (*infra_cp_stats_resp_cb)(struct infra_cp_stats_event *ev,
311 				       void *cookie);
312 	uint32_t stat_periodicity;
313 };
314 #endif
315