1 /*
2  * Copyright (c) 2013-2021 The Linux Foundation. All rights reserved.
3  * Copyright (c) 2022-2023 Qualcomm Innovation Center, Inc. All rights reserved.
4  *
5  * Permission to use, copy, modify, and/or distribute this software for
6  * any purpose with or without fee is hereby granted, provided that the
7  * above copyright notice and this permission notice appear in all
8  * copies.
9  *
10  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
11  * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
12  * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
13  * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
14  * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
15  * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
16  * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
17  * PERFORMANCE OF THIS SOFTWARE.
18  */
19 
20 /* Include Files */
21 #include "wlan_ipa_main.h"
22 #include "wlan_ipa_core.h"
23 #include "cdp_txrx_ipa.h"
24 #include "qdf_platform.h"
25 
26 /**
27  * wlan_ipa_uc_rt_debug_host_fill - fill rt debug buffer
28  * @ctext: pointer to ipa context.
29  *
30  * If rt debug enabled, periodically called, and fill debug buffer
31  *
32  * Return: none
33  */
wlan_ipa_uc_rt_debug_host_fill(void * ctext)34 static void wlan_ipa_uc_rt_debug_host_fill(void *ctext)
35 {
36 	struct wlan_ipa_priv *ipa_ctx = ctext;
37 	struct uc_rt_debug_info *dump_info = NULL;
38 
39 	if (!ipa_ctx)
40 		return;
41 
42 	qdf_mutex_acquire(&ipa_ctx->rt_debug_lock);
43 	dump_info = &ipa_ctx->rt_bug_buffer[
44 		ipa_ctx->rt_buf_fill_index % WLAN_IPA_UC_RT_DEBUG_BUF_COUNT];
45 
46 	dump_info->time = (uint64_t)qdf_mc_timer_get_system_time();
47 	dump_info->ipa_excep_count = ipa_ctx->stats.num_rx_excep;
48 	dump_info->rx_drop_count = ipa_ctx->ipa_rx_internal_drop_count;
49 	dump_info->net_sent_count = ipa_ctx->ipa_rx_net_send_count;
50 	dump_info->tx_fwd_count = ipa_ctx->ipa_tx_forward;
51 	dump_info->tx_fwd_ok_count = ipa_ctx->stats.num_tx_fwd_ok;
52 	dump_info->rx_discard_count = ipa_ctx->ipa_rx_discard;
53 	dump_info->rx_destructor_call = ipa_ctx->ipa_rx_destructor_count;
54 	ipa_ctx->rt_buf_fill_index++;
55 	qdf_mutex_release(&ipa_ctx->rt_debug_lock);
56 
57 	qdf_mc_timer_start(&ipa_ctx->rt_debug_fill_timer,
58 		WLAN_IPA_UC_RT_DEBUG_FILL_INTERVAL);
59 }
60 
wlan_ipa_uc_rt_debug_host_dump(struct wlan_ipa_priv * ipa_ctx)61 void wlan_ipa_uc_rt_debug_host_dump(struct wlan_ipa_priv *ipa_ctx)
62 {
63 	unsigned int dump_count;
64 	unsigned int dump_index;
65 	struct uc_rt_debug_info *dump_info = NULL;
66 
67 	if (!wlan_ipa_is_rt_debugging_enabled(ipa_ctx->config)) {
68 		ipa_debug("IPA RT debug is not enabled");
69 		return;
70 	}
71 
72 	ipa_info("========= WLAN-IPA DEBUG BUF DUMP ==========\n");
73 	ipa_info("     TM     :   EXEP   :   DROP   :   NETS   :   FWOK"
74 		 ":   TXFD   :   DSTR   :   DSCD\n");
75 
76 	qdf_mutex_acquire(&ipa_ctx->rt_debug_lock);
77 	for (dump_count = 0;
78 		dump_count < WLAN_IPA_UC_RT_DEBUG_BUF_COUNT;
79 		dump_count++) {
80 		dump_index = (ipa_ctx->rt_buf_fill_index + dump_count) %
81 			WLAN_IPA_UC_RT_DEBUG_BUF_COUNT;
82 		dump_info = &ipa_ctx->rt_bug_buffer[dump_index];
83 		ipa_info("%12llu:%10llu:%10llu:%10llu:%10llu:%10llu:%10llu:%10llu\n",
84 			dump_info->time, dump_info->ipa_excep_count,
85 			dump_info->rx_drop_count, dump_info->net_sent_count,
86 			dump_info->tx_fwd_ok_count, dump_info->tx_fwd_count,
87 			dump_info->rx_destructor_call,
88 			dump_info->rx_discard_count);
89 	}
90 	qdf_mutex_release(&ipa_ctx->rt_debug_lock);
91 }
92 
93 /**
94  * wlan_ipa_uc_rt_debug_handler - periodic memory health monitor handler
95  * @ctext: pointer to ipa context.
96  *
97  * periodically called by timer expire
98  * will try to alloc dummy memory and detect out of memory condition
99  * if out of memory detected, dump wlan-ipa stats
100  *
101  * Return: none
102  */
wlan_ipa_uc_rt_debug_handler(void * ctext)103 static void wlan_ipa_uc_rt_debug_handler(void *ctext)
104 {
105 	struct wlan_ipa_priv *ipa_ctx = ctext;
106 	void *dummy_ptr = NULL;
107 
108 	if (!wlan_ipa_is_rt_debugging_enabled(ipa_ctx->config)) {
109 		ipa_debug("IPA RT debug is not enabled");
110 		return;
111 	}
112 
113 	/* Allocate dummy buffer periodically and free immediately. this will
114 	 * proactively detect OOM and if allocation fails dump ipa stats
115 	 */
116 	dummy_ptr = qdf_mem_malloc(WLAN_IPA_UC_DEBUG_DUMMY_MEM_SIZE);
117 	if (!dummy_ptr) {
118 		wlan_ipa_uc_rt_debug_host_dump(ipa_ctx);
119 		wlan_ipa_uc_stat_request(ipa_ctx,
120 					 WLAN_IPA_UC_STAT_REASON_DEBUG);
121 	} else {
122 		qdf_mem_free(dummy_ptr);
123 	}
124 
125 	qdf_mc_timer_start(&ipa_ctx->rt_debug_timer,
126 		WLAN_IPA_UC_RT_DEBUG_PERIOD);
127 }
128 
wlan_ipa_uc_rt_debug_destructor(qdf_nbuf_t nbuff)129 void wlan_ipa_uc_rt_debug_destructor(qdf_nbuf_t nbuff)
130 {
131 	/* Make change to get the ipa_ctx on per pdev basis
132 	 * Currently storing the debug count only in global ipa_ctx
133 	 * or to the last enumerated radio ipa_ctx
134 	 */
135 	struct wlan_ipa_priv *ipa_ctx = wlan_ipa_get_obj_context();
136 
137 	if (!ipa_ctx) {
138 		ipa_err("invalid ipa context");
139 		return;
140 	}
141 
142 	ipa_ctx->ipa_rx_destructor_count++;
143 }
144 
wlan_ipa_uc_rt_debug_deinit(struct wlan_ipa_priv * ipa_ctx)145 void wlan_ipa_uc_rt_debug_deinit(struct wlan_ipa_priv *ipa_ctx)
146 {
147 	qdf_mutex_destroy(&ipa_ctx->rt_debug_lock);
148 
149 	if (!wlan_ipa_is_rt_debugging_enabled(ipa_ctx->config)) {
150 		ipa_debug("IPA RT debug is not enabled");
151 		return;
152 	}
153 
154 	if (QDF_TIMER_STATE_STOPPED !=
155 		qdf_mc_timer_get_current_state(&ipa_ctx->rt_debug_fill_timer)) {
156 		qdf_mc_timer_stop(&ipa_ctx->rt_debug_fill_timer);
157 	}
158 	qdf_mc_timer_destroy(&ipa_ctx->rt_debug_fill_timer);
159 
160 	if (QDF_TIMER_STATE_STOPPED !=
161 		qdf_mc_timer_get_current_state(&ipa_ctx->rt_debug_timer)) {
162 		qdf_mc_timer_stop(&ipa_ctx->rt_debug_timer);
163 	}
164 	qdf_mc_timer_destroy(&ipa_ctx->rt_debug_timer);
165 }
166 
wlan_ipa_uc_rt_debug_init(struct wlan_ipa_priv * ipa_ctx)167 void wlan_ipa_uc_rt_debug_init(struct wlan_ipa_priv *ipa_ctx)
168 {
169 	qdf_mutex_create(&ipa_ctx->rt_debug_lock);
170 	ipa_ctx->rt_buf_fill_index = 0;
171 	qdf_mem_zero(ipa_ctx->rt_bug_buffer,
172 		sizeof(struct uc_rt_debug_info) *
173 		WLAN_IPA_UC_RT_DEBUG_BUF_COUNT);
174 	ipa_ctx->ipa_tx_forward = 0;
175 	ipa_ctx->ipa_rx_discard = 0;
176 	ipa_ctx->ipa_rx_net_send_count = 0;
177 	ipa_ctx->ipa_rx_internal_drop_count = 0;
178 	ipa_ctx->ipa_rx_destructor_count = 0;
179 
180 	/* Realtime debug enable on feature enable */
181 	if (!wlan_ipa_is_rt_debugging_enabled(ipa_ctx->config)) {
182 		ipa_debug("IPA RT debug is not enabled");
183 		return;
184 	}
185 
186 	qdf_mc_timer_init(&ipa_ctx->rt_debug_fill_timer, QDF_TIMER_TYPE_SW,
187 		wlan_ipa_uc_rt_debug_host_fill, (void *)ipa_ctx);
188 	qdf_mc_timer_start(&ipa_ctx->rt_debug_fill_timer,
189 		WLAN_IPA_UC_RT_DEBUG_FILL_INTERVAL);
190 
191 	qdf_mc_timer_init(&ipa_ctx->rt_debug_timer, QDF_TIMER_TYPE_SW,
192 		wlan_ipa_uc_rt_debug_handler, (void *)ipa_ctx);
193 	qdf_mc_timer_start(&ipa_ctx->rt_debug_timer,
194 		WLAN_IPA_UC_RT_DEBUG_PERIOD);
195 
196 }
197 
198 /**
199  * wlan_ipa_dump_ipa_ctx() - Dump entries in IPA private context structure
200  * @ipa_ctx: IPA private context structure
201  *
202  * Dump entries in struct ipa_ctx
203  *
204  * Return: none
205  */
wlan_ipa_dump_ipa_ctx(struct wlan_ipa_priv * ipa_ctx)206 static void wlan_ipa_dump_ipa_ctx(struct wlan_ipa_priv *ipa_ctx)
207 {
208 	int i;
209 
210 	/* IPA IPA */
211 	ipa_info("\n==== IPA IPA ====\n"
212 		"num_iface: %d\n"
213 		"rm_state: %d\n"
214 		"rm_lock: %pK\n"
215 		"uc_rm_work: %pK\n"
216 		"uc_op_work: %pK\n"
217 		"wake_lock: %pK\n"
218 		"wake_lock_work: %pK\n"
219 		"wake_lock_released: %d\n"
220 		"tx_ref_cnt: %d\n"
221 		"pm_queue_head----\n"
222 		"\thead: %pK\n"
223 		"\ttail: %pK\n"
224 		"\tqlen: %d\n"
225 		"pm_work: %pK\n"
226 		"pm_lock: %pK\n"
227 		"suspended: %d\n",
228 		ipa_ctx->num_iface,
229 		ipa_ctx->rm_state,
230 		&ipa_ctx->rm_lock,
231 		&ipa_ctx->uc_rm_work,
232 		&ipa_ctx->uc_op_work,
233 		&ipa_ctx->wake_lock,
234 		&ipa_ctx->wake_lock_work,
235 		ipa_ctx->wake_lock_released,
236 		ipa_ctx->tx_ref_cnt.counter,
237 		ipa_ctx->pm_queue_head.head,
238 		ipa_ctx->pm_queue_head.tail,
239 		ipa_ctx->pm_queue_head.qlen,
240 		&ipa_ctx->pm_work,
241 		&ipa_ctx->pm_lock,
242 		ipa_ctx->suspended);
243 
244 	ipa_info("\nq_lock: %pK\n"
245 		"pend_desc_head----\n"
246 		"\tnext: %pK\n"
247 		"\tprev: %pK\n"
248 		"stats: %pK\n"
249 		"curr_prod_bw: %d\n"
250 		"curr_cons_bw: %d\n"
251 		"activated_fw_pipe: %d\n"
252 		"sap_num_connected_sta: %d\n"
253 		"sta_connected: %d\n",
254 		&ipa_ctx->q_lock,
255 		ipa_ctx->pend_desc_head.next,
256 		ipa_ctx->pend_desc_head.prev,
257 		&ipa_ctx->stats,
258 		ipa_ctx->curr_prod_bw,
259 		ipa_ctx->curr_cons_bw,
260 		ipa_ctx->activated_fw_pipe,
261 		ipa_ctx->sap_num_connected_sta,
262 		(unsigned int)ipa_ctx->sta_connected);
263 
264 	ipa_info("\ntx_pipe_handle: 0x%x\n"
265 		"rx_pipe_handle: 0x%x\n"
266 		"resource_loading: %d\n"
267 		"resource_unloading: %d\n"
268 		"pending_cons_req: %d\n"
269 		"pending_event----\n"
270 		"\tanchor.next: %pK\n"
271 		"\tanchor.prev: %pK\n"
272 		"\tcount: %d\n"
273 		"\tmax_size: %d\n"
274 		"event_lock: %pK\n"
275 		"ipa_tx_packets_diff: %d\n"
276 		"ipa_rx_packets_diff: %d\n"
277 		"ipa_p_tx_packets: %d\n"
278 		"ipa_p_rx_packets: %d\n"
279 		"stat_req_reason: %d\n",
280 		ipa_ctx->tx_pipe_handle,
281 		ipa_ctx->rx_pipe_handle,
282 		ipa_ctx->resource_loading,
283 		ipa_ctx->resource_unloading,
284 		ipa_ctx->pending_cons_req,
285 		ipa_ctx->pending_event.anchor.next,
286 		ipa_ctx->pending_event.anchor.prev,
287 		ipa_ctx->pending_event.count,
288 		ipa_ctx->pending_event.max_size,
289 		&ipa_ctx->event_lock,
290 		ipa_ctx->ipa_tx_packets_diff,
291 		ipa_ctx->ipa_rx_packets_diff,
292 		ipa_ctx->ipa_p_tx_packets,
293 		ipa_ctx->ipa_p_rx_packets,
294 		ipa_ctx->stat_req_reason);
295 
296 	ipa_info("\ncons_pipe_in----\n"
297 		"\tsys: %pK\n"
298 		"\tdl.comp_ring_base_pa: 0x%x\n"
299 		"\tdl.comp_ring_size: %d\n"
300 		"\tdl.ce_ring_base_pa: 0x%x\n"
301 		"\tdl.ce_door_bell_pa: 0x%x\n"
302 		"\tdl.ce_ring_size: %d\n"
303 		"\tdl.num_tx_buffers: %d\n"
304 		"prod_pipe_in----\n"
305 		"\tsys: %pK\n"
306 		"\tul.rdy_ring_base_pa: 0x%x\n"
307 		"\tul.rdy_ring_size: %d\n"
308 		"\tul.rdy_ring_rp_pa: 0x%x\n"
309 		"uc_loaded: %d\n"
310 		"wdi_enabled: %d\n"
311 		"rt_debug_fill_timer: %pK\n"
312 		"rt_debug_lock: %pK\n"
313 		"ipa_lock: %pK\n",
314 		&ipa_ctx->cons_pipe_in.sys,
315 		(unsigned int)ipa_ctx->cons_pipe_in.u.dl.comp_ring_base_pa,
316 		ipa_ctx->cons_pipe_in.u.dl.comp_ring_size,
317 		(unsigned int)ipa_ctx->cons_pipe_in.u.dl.ce_ring_base_pa,
318 		(unsigned int)ipa_ctx->cons_pipe_in.u.dl.ce_door_bell_pa,
319 		ipa_ctx->cons_pipe_in.u.dl.ce_ring_size,
320 		ipa_ctx->cons_pipe_in.u.dl.num_tx_buffers,
321 		&ipa_ctx->prod_pipe_in.sys,
322 		(unsigned int)ipa_ctx->prod_pipe_in.u.ul.rdy_ring_base_pa,
323 		ipa_ctx->prod_pipe_in.u.ul.rdy_ring_size,
324 		(unsigned int)ipa_ctx->prod_pipe_in.u.ul.rdy_ring_rp_pa,
325 		ipa_ctx->uc_loaded,
326 		ipa_ctx->wdi_enabled,
327 		&ipa_ctx->rt_debug_fill_timer,
328 		&ipa_ctx->rt_debug_lock,
329 		&ipa_ctx->ipa_lock);
330 
331 	ipa_info("\nvdev_to_iface----");
332 	for (i = 0; i < WLAN_IPA_MAX_SESSION; i++)
333 		ipa_info("\n\t[%d]=%d", i, ipa_ctx->vdev_to_iface[i]);
334 
335 	QDF_TRACE(QDF_MODULE_ID_IPA, QDF_TRACE_LEVEL_INFO,
336 		"\nvdev_offload_enabled----");
337 	for (i = 0; i < WLAN_IPA_MAX_SESSION; i++)
338 		ipa_info("\n\t[%d]=%d", i, ipa_ctx->vdev_offload_enabled[i]);
339 
340 	QDF_TRACE(QDF_MODULE_ID_IPA, QDF_TRACE_LEVEL_INFO,
341 		"\nassoc_stas_map ----");
342 	for (i = 0; i < WLAN_IPA_MAX_STA_COUNT; i++) {
343 		ipa_info("\n\t[%d]: is_reserved=%d mac: " QDF_MAC_ADDR_FMT, i,
344 			 ipa_ctx->assoc_stas_map[i].is_reserved,
345 			 QDF_MAC_ADDR_REF(
346 				ipa_ctx->assoc_stas_map[i].mac_addr.bytes));
347 	}
348 }
349 
350 /**
351  * wlan_ipa_dump_sys_pipe() - Dump IPA system pipe
352  * @ipa_ctx: IPA private context structure
353  *
354  * Dump entire struct wlan_ipa_sys_pipe
355  *
356  * Return: none
357  */
wlan_ipa_dump_sys_pipe(struct wlan_ipa_priv * ipa_ctx)358 static void wlan_ipa_dump_sys_pipe(struct wlan_ipa_priv *ipa_ctx)
359 {
360 	int i;
361 
362 	/* IPA SYS Pipes */
363 	ipa_info("==== IPA SYS Pipes ====");
364 
365 	for (i = 0; i < WLAN_IPA_MAX_SYSBAM_PIPE; i++) {
366 		struct wlan_ipa_sys_pipe *sys_pipe;
367 		qdf_ipa_sys_connect_params_t *ipa_sys_params;
368 
369 		sys_pipe = &ipa_ctx->sys_pipe[i];
370 		ipa_sys_params = &sys_pipe->ipa_sys_params;
371 
372 		ipa_info("\nsys_pipe[%d]----\n"
373 			"\tconn_hdl: 0x%x\n"
374 			"\tconn_hdl_valid: %d\n"
375 			"\tnat_en: %d\n"
376 			"\thdr_len %d\n"
377 			"\thdr_additional_const_len: %d\n"
378 			"\thdr_ofst_pkt_size_valid: %d\n"
379 			"\thdr_ofst_pkt_size: %d\n"
380 			"\thdr_little_endian: %d\n"
381 			"\tmode: %d\n"
382 			"\tclient: %d\n"
383 			"\tdesc_fifo_sz: %d\n"
384 			"\tpriv: %pK\n"
385 			"\tnotify: %pK\n"
386 			"\tskip_ep_cfg: %d\n"
387 			"\tkeep_ipa_awake: %d\n",
388 			i,
389 			sys_pipe->conn_hdl,
390 			sys_pipe->conn_hdl_valid,
391 			QDF_IPA_SYS_PARAMS_NAT_EN(ipa_sys_params),
392 			QDF_IPA_SYS_PARAMS_HDR_LEN(ipa_sys_params),
393 			QDF_IPA_SYS_PARAMS_HDR_ADDITIONAL_CONST_LEN(
394 				ipa_sys_params),
395 			QDF_IPA_SYS_PARAMS_HDR_OFST_PKT_SIZE_VALID(
396 				ipa_sys_params),
397 			QDF_IPA_SYS_PARAMS_HDR_OFST_PKT_SIZE(ipa_sys_params),
398 			QDF_IPA_SYS_PARAMS_HDR_LITTLE_ENDIAN(ipa_sys_params),
399 			QDF_IPA_SYS_PARAMS_MODE(ipa_sys_params),
400 			QDF_IPA_SYS_PARAMS_CLIENT(ipa_sys_params),
401 			QDF_IPA_SYS_PARAMS_DESC_FIFO_SZ(ipa_sys_params),
402 			QDF_IPA_SYS_PARAMS_PRIV(ipa_sys_params),
403 			QDF_IPA_SYS_PARAMS_NOTIFY(ipa_sys_params),
404 			QDF_IPA_SYS_PARAMS_SKIP_EP_CFG(ipa_sys_params),
405 			QDF_IPA_SYS_PARAMS_KEEP_IPA_AWAKE(ipa_sys_params));
406 	}
407 }
408 
409 #ifdef IPA_WDI3_TX_TWO_PIPES
410 static void
wlan_ipa_dump_iface_context_alt_pipe(struct wlan_ipa_iface_context * iface)411 wlan_ipa_dump_iface_context_alt_pipe(struct wlan_ipa_iface_context *iface)
412 {
413 	ipa_info("\talt_pipe: %d\n", iface->alt_pipe);
414 }
415 #else
416 static void
wlan_ipa_dump_iface_context_alt_pipe(struct wlan_ipa_iface_context * iface)417 wlan_ipa_dump_iface_context_alt_pipe(struct wlan_ipa_iface_context *iface)
418 {
419 }
420 #endif
421 
422 /**
423  * wlan_ipa_dump_iface_context() - Dump IPA interface context structure
424  * @ipa_ctx: IPA private context structure
425  *
426  * Dump entire struct wlan_ipa_iface_context
427  *
428  * Return: none
429  */
wlan_ipa_dump_iface_context(struct wlan_ipa_priv * ipa_ctx)430 static void wlan_ipa_dump_iface_context(struct wlan_ipa_priv *ipa_ctx)
431 {
432 	int i;
433 
434 	/* IPA Interface Contexts */
435 	ipa_info("\n==== IPA Interface Contexts ====\n");
436 
437 	for (i = 0; i < WLAN_IPA_MAX_IFACE; i++) {
438 		struct wlan_ipa_iface_context *iface_context;
439 
440 		iface_context = &ipa_ctx->iface_context[i];
441 
442 		ipa_info("\niface_context[%d]----\n"
443 			"\tipa_ctx: %pK\n"
444 			"\tsession_id: %d\n"
445 			"\tcons_client: %d\n"
446 			"\tprod_client: %d\n"
447 			"\tiface_id: %d\n"
448 			"\tinterface_lock: %pK\n"
449 			"\tifa_address: 0x%x\n",
450 			i,
451 			iface_context->ipa_ctx,
452 			iface_context->session_id,
453 			iface_context->cons_client,
454 			iface_context->prod_client,
455 			iface_context->iface_id,
456 			&iface_context->interface_lock,
457 			iface_context->ifa_address);
458 		wlan_ipa_dump_iface_context_alt_pipe(iface_context);
459 	}
460 }
461 
wlan_ipa_dump_info(struct wlan_ipa_priv * ipa_ctx)462 void wlan_ipa_dump_info(struct wlan_ipa_priv *ipa_ctx)
463 {
464 	wlan_ipa_dump_ipa_ctx(ipa_ctx);
465 	wlan_ipa_dump_sys_pipe(ipa_ctx);
466 	wlan_ipa_dump_iface_context(ipa_ctx);
467 }
468 
wlan_ipa_uc_stat_query(struct wlan_ipa_priv * ipa_ctx,uint32_t * ipa_tx_diff,uint32_t * ipa_rx_diff)469 void wlan_ipa_uc_stat_query(struct wlan_ipa_priv *ipa_ctx,
470 			    uint32_t *ipa_tx_diff, uint32_t *ipa_rx_diff)
471 {
472 	*ipa_tx_diff = 0;
473 	*ipa_rx_diff = 0;
474 
475 	qdf_mutex_acquire(&ipa_ctx->ipa_lock);
476 	if (wlan_ipa_is_fw_wdi_activated(ipa_ctx) &&
477 	    (false == ipa_ctx->resource_loading)) {
478 		*ipa_tx_diff = ipa_ctx->ipa_tx_packets_diff;
479 		*ipa_rx_diff = ipa_ctx->ipa_rx_packets_diff;
480 	}
481 	qdf_mutex_release(&ipa_ctx->ipa_lock);
482 }
483 
wlan_ipa_uc_stat_request(struct wlan_ipa_priv * ipa_ctx,uint8_t reason)484 void wlan_ipa_uc_stat_request(struct wlan_ipa_priv *ipa_ctx, uint8_t reason)
485 {
486 	qdf_mutex_acquire(&ipa_ctx->ipa_lock);
487 	if (wlan_ipa_is_fw_wdi_activated(ipa_ctx) &&
488 	    (false == ipa_ctx->resource_loading)) {
489 		ipa_ctx->stat_req_reason = reason;
490 		cdp_ipa_get_stat(ipa_ctx->dp_soc, ipa_ctx->dp_pdev_id);
491 		qdf_mutex_release(&ipa_ctx->ipa_lock);
492 	} else {
493 		qdf_mutex_release(&ipa_ctx->ipa_lock);
494 	}
495 }
496 
497 /**
498  * wlan_ipa_print_session_info - Print IPA session info
499  * @ipa_ctx: IPA context
500  *
501  * Return: None
502  */
wlan_ipa_print_session_info(struct wlan_ipa_priv * ipa_ctx)503 static void wlan_ipa_print_session_info(struct wlan_ipa_priv *ipa_ctx)
504 {
505 	struct wlan_ipa_uc_pending_event *event = NULL, *next = NULL;
506 	struct wlan_ipa_iface_context *iface_context = NULL;
507 	int i;
508 
509 	ipa_info("\n==== IPA SESSION INFO ====\n"
510 		"NUM IFACE: %d\n"
511 		"RM STATE: %d\n"
512 		"ACTIVATED FW PIPE: %d\n"
513 		"SAP NUM STAs: %d\n"
514 		"STA CONNECTED: %d\n"
515 		"CONCURRENT MODE: %s\n"
516 		"RSC LOADING: %d\n"
517 		"RSC UNLOADING: %d\n"
518 		"PENDING CONS REQ: %d\n"
519 		"IPA PIPES DOWN: %d\n"
520 		"IPA UC LOADED: %d\n"
521 		"IPA WDI ENABLED: %d\n"
522 		"NUM SEND MSG: %d\n"
523 		"NUM FREE MSG: %d\n",
524 		ipa_ctx->num_iface,
525 		ipa_ctx->rm_state,
526 		ipa_ctx->activated_fw_pipe,
527 		ipa_ctx->sap_num_connected_sta,
528 		ipa_ctx->sta_connected,
529 		(ipa_ctx->mcc_mode ? "MCC" : "SCC"),
530 		ipa_ctx->resource_loading,
531 		ipa_ctx->resource_unloading,
532 		ipa_ctx->pending_cons_req,
533 		ipa_ctx->ipa_pipes_down,
534 		ipa_ctx->uc_loaded,
535 		ipa_ctx->wdi_enabled,
536 		(unsigned int)ipa_ctx->stats.num_send_msg,
537 		(unsigned int)ipa_ctx->stats.num_free_msg);
538 
539 	for (i = 0; i < WLAN_IPA_MAX_IFACE; i++) {
540 		iface_context = &ipa_ctx->iface_context[i];
541 
542 		if (iface_context->session_id == WLAN_IPA_MAX_SESSION)
543 			continue;
544 
545 		ipa_info("\nIFACE[%d]: mode:%d, offload:%d",
546 			 i, iface_context->device_mode,
547 			 ipa_ctx->vdev_offload_enabled[iface_context->
548 						       session_id]);
549 	}
550 
551 	for (i = 0; i < QDF_IPA_WLAN_EVENT_MAX; i++)
552 		ipa_info("\nEVENT[%d]=%d",
553 			 i, ipa_ctx->stats.event[i]);
554 
555 	i = 0;
556 	qdf_list_peek_front(&ipa_ctx->pending_event,
557 			(qdf_list_node_t **)&event);
558 	while (event) {
559 		ipa_info("PENDING EVENT[%d]: EVT:%s, MAC:"QDF_MAC_ADDR_FMT,
560 			 i, wlan_ipa_wlan_event_to_str(event->type),
561 			 QDF_MAC_ADDR_REF(event->mac_addr));
562 
563 		qdf_list_peek_next(&ipa_ctx->pending_event,
564 				   (qdf_list_node_t *)event,
565 				   (qdf_list_node_t **)&next);
566 		event = next;
567 		next = NULL;
568 		i++;
569 	}
570 }
571 
572 /**
573  * wlan_ipa_print_txrx_stats - Print IPA TX/RX stats
574  * @ipa_ctx: IPA private context structure
575  *
576  * Return: None
577  */
wlan_ipa_print_txrx_stats(struct wlan_ipa_priv * ipa_ctx)578 static void wlan_ipa_print_txrx_stats(struct wlan_ipa_priv *ipa_ctx)
579 {
580 	int i;
581 	struct wlan_ipa_iface_context *iface_context = NULL;
582 
583 	ipa_info("\n==== IPA IPA TX/RX STATS ====\n"
584 		"NUM RM GRANT: %llu\n"
585 		"NUM RM RELEASE: %llu\n"
586 		"NUM RM GRANT IMM: %llu\n"
587 		"NUM CONS PERF REQ: %llu\n"
588 		"NUM PROD PERF REQ: %llu\n"
589 		"NUM RX DROP: %llu\n"
590 		"NUM EXCP PKT: %llu\n"
591 		"NUM TX FWD OK: %llu\n"
592 		"NUM TX FWD ERR: %llu\n"
593 		"NUM TX DESC Q CNT: %llu\n"
594 		"NUM TX DESC ERROR: %llu\n"
595 		"NUM TX COMP CNT: %llu\n"
596 		"NUM TX QUEUED: %llu\n"
597 		"NUM TX DEQUEUED: %llu\n"
598 		"NUM MAX PM QUEUE: %llu\n"
599 		"TX REF CNT: %d\n"
600 		"SUSPENDED: %d\n"
601 		"PEND DESC HEAD: %pK\n"
602 		"TX DESC LIST: %pK\n",
603 		ipa_ctx->stats.num_rm_grant,
604 		ipa_ctx->stats.num_rm_release,
605 		ipa_ctx->stats.num_rm_grant_imm,
606 		ipa_ctx->stats.num_cons_perf_req,
607 		ipa_ctx->stats.num_prod_perf_req,
608 		ipa_ctx->stats.num_rx_drop,
609 		ipa_ctx->stats.num_rx_excep,
610 		ipa_ctx->stats.num_tx_fwd_ok,
611 		ipa_ctx->stats.num_tx_fwd_err,
612 		ipa_ctx->stats.num_tx_desc_q_cnt,
613 		ipa_ctx->stats.num_tx_desc_error,
614 		ipa_ctx->stats.num_tx_comp_cnt,
615 		ipa_ctx->stats.num_tx_queued,
616 		ipa_ctx->stats.num_tx_dequeued,
617 		ipa_ctx->stats.num_max_pm_queue,
618 		ipa_ctx->tx_ref_cnt.counter,
619 		ipa_ctx->suspended,
620 		&ipa_ctx->pend_desc_head,
621 		&ipa_ctx->tx_desc_free_list);
622 
623 	for (i = 0; i < WLAN_IPA_MAX_IFACE; i++) {
624 
625 		iface_context = &ipa_ctx->iface_context[i];
626 		if (iface_context->session_id == WLAN_IPA_MAX_SESSION)
627 			continue;
628 
629 		ipa_info("IFACE[%d]: TX:%llu, TX DROP:%llu, TX ERR:%llu,"
630 			 " TX CAC DROP:%llu, RX IPA EXCEP:%llu",
631 			 i, iface_context->stats.num_tx,
632 			 iface_context->stats.num_tx_drop,
633 			 iface_context->stats.num_tx_err,
634 			 iface_context->stats.num_tx_cac_drop,
635 			 iface_context->stats.num_rx_ipa_excep);
636 	}
637 }
638 
wlan_ipa_print_fw_wdi_stats(struct wlan_ipa_priv * ipa_ctx,struct ipa_uc_fw_stats * uc_fw_stat)639 void wlan_ipa_print_fw_wdi_stats(struct wlan_ipa_priv *ipa_ctx,
640 				 struct ipa_uc_fw_stats *uc_fw_stat)
641 {
642 	ipa_info("\n==== WLAN FW WDI TX STATS ====\n"
643 		"COMP RING SIZE: %d\n"
644 		"COMP RING DBELL IND VAL : %d\n"
645 		"COMP RING DBELL CACHED VAL : %d\n"
646 		"PKTS ENQ : %d\n"
647 		"PKTS COMP : %d\n"
648 		"IS SUSPEND : %d\n",
649 		uc_fw_stat->tx_comp_ring_size,
650 		uc_fw_stat->tx_comp_ring_dbell_ind_val,
651 		uc_fw_stat->tx_comp_ring_dbell_cached_val,
652 		uc_fw_stat->tx_pkts_enqueued,
653 		uc_fw_stat->tx_pkts_completed,
654 		uc_fw_stat->tx_is_suspend);
655 
656 	ipa_info("\n==== WLAN FW WDI RX STATS ====\n"
657 		"IND RING SIZE: %d\n"
658 		"IND RING DBELL IND VAL : %d\n"
659 		"IND RING DBELL CACHED VAL : %d\n"
660 		"RDY IND CACHE VAL : %d\n"
661 		"RFIL IND : %d\n"
662 		"NUM PKT INDICAT : %d\n"
663 		"BUF REFIL : %d\n"
664 		"NUM DROP NO SPC : %d\n"
665 		"NUM DROP NO BUF : %d\n"
666 		"IS SUSPND : %d\n",
667 		uc_fw_stat->rx_ind_ring_size,
668 		uc_fw_stat->rx_ind_ring_dbell_ind_val,
669 		uc_fw_stat->rx_ind_ring_dbell_ind_cached_val,
670 		uc_fw_stat->rx_ind_ring_rd_idx_cached_val,
671 		uc_fw_stat->rx_refill_idx,
672 		uc_fw_stat->rx_num_pkts_indicated,
673 		uc_fw_stat->rx_buf_refilled,
674 		uc_fw_stat->rx_num_ind_drop_no_space,
675 		uc_fw_stat->rx_num_ind_drop_no_buf,
676 		uc_fw_stat->rx_is_suspend);
677 }
678 
679 /**
680  * wlan_ipa_print_ipa_wdi_stats - Print IPA WDI stats
681  * @ipa_ctx: IPA context
682  *
683  * Return: None
684  */
wlan_ipa_print_ipa_wdi_stats(struct wlan_ipa_priv * ipa_ctx)685 static void wlan_ipa_print_ipa_wdi_stats(struct wlan_ipa_priv *ipa_ctx)
686 {
687 	qdf_ipa_hw_stats_wdi_info_data_t ipa_stat;
688 
689 	qdf_ipa_get_wdi_stats(&ipa_stat);
690 
691 	ipa_info("\n==== IPA WDI TX STATS ====\n"
692 		"NUM PROCD : %d\n"
693 		"CE DBELL : 0x%x\n"
694 		"NUM DBELL FIRED : %d\n"
695 		"COMP RNG FULL : %d\n"
696 		"COMP RNG EMPT : %d\n"
697 		"COMP RNG USE HGH : %d\n"
698 		"COMP RNG USE LOW : %d\n"
699 		"BAM FIFO FULL : %d\n"
700 		"BAM FIFO EMPT : %d\n"
701 		"BAM FIFO USE HGH : %d\n"
702 		"BAM FIFO USE LOW : %d\n"
703 		"NUM DBELL : %d\n"
704 		"NUM UNEXP DBELL : %d\n"
705 		"NUM BAM INT HDL : 0x%x\n"
706 		"NUM QMB INT HDL : 0x%x\n",
707 		ipa_stat.tx_ch_stats.num_pkts_processed,
708 		ipa_stat.tx_ch_stats.copy_engine_doorbell_value,
709 		ipa_stat.tx_ch_stats.num_db_fired,
710 		ipa_stat.tx_ch_stats.tx_comp_ring_stats.ringFull,
711 		ipa_stat.tx_ch_stats.tx_comp_ring_stats.ringEmpty,
712 		ipa_stat.tx_ch_stats.tx_comp_ring_stats.ringUsageHigh,
713 		ipa_stat.tx_ch_stats.tx_comp_ring_stats.ringUsageLow,
714 		ipa_stat.tx_ch_stats.bam_stats.bamFifoFull,
715 		ipa_stat.tx_ch_stats.bam_stats.bamFifoEmpty,
716 		ipa_stat.tx_ch_stats.bam_stats.bamFifoUsageHigh,
717 		ipa_stat.tx_ch_stats.bam_stats.bamFifoUsageLow,
718 		ipa_stat.tx_ch_stats.num_db,
719 		ipa_stat.tx_ch_stats.num_unexpected_db,
720 		ipa_stat.tx_ch_stats.num_bam_int_handled,
721 		ipa_stat.tx_ch_stats.num_qmb_int_handled);
722 
723 	ipa_info("\n==== IPA WDI RX STATS ====\n"
724 		"MAX OST PKT : %d\n"
725 		"NUM PKT PRCSD : %d\n"
726 		"RNG RP : 0x%x\n"
727 		"IND RNG FULL : %d\n"
728 		"IND RNG EMPT : %d\n"
729 		"IND RNG USE HGH : %d\n"
730 		"IND RNG USE LOW : %d\n"
731 		"BAM FIFO FULL : %d\n"
732 		"BAM FIFO EMPT : %d\n"
733 		"BAM FIFO USE HGH : %d\n"
734 		"BAM FIFO USE LOW : %d\n"
735 		"NUM DB : %d\n"
736 		"NUM UNEXP DB : %d\n"
737 		"NUM BAM INT HNDL : 0x%x\n",
738 		ipa_stat.rx_ch_stats.max_outstanding_pkts,
739 		ipa_stat.rx_ch_stats.num_pkts_processed,
740 		ipa_stat.rx_ch_stats.rx_ring_rp_value,
741 		ipa_stat.rx_ch_stats.rx_ind_ring_stats.ringFull,
742 		ipa_stat.rx_ch_stats.rx_ind_ring_stats.ringEmpty,
743 		ipa_stat.rx_ch_stats.rx_ind_ring_stats.ringUsageHigh,
744 		ipa_stat.rx_ch_stats.rx_ind_ring_stats.ringUsageLow,
745 		ipa_stat.rx_ch_stats.bam_stats.bamFifoFull,
746 		ipa_stat.rx_ch_stats.bam_stats.bamFifoEmpty,
747 		ipa_stat.rx_ch_stats.bam_stats.bamFifoUsageHigh,
748 		ipa_stat.rx_ch_stats.bam_stats.bamFifoUsageLow,
749 		ipa_stat.rx_ch_stats.num_db,
750 		ipa_stat.rx_ch_stats.num_unexpected_db,
751 		ipa_stat.rx_ch_stats.num_bam_int_handled);
752 }
753 
wlan_ipa_uc_info(struct wlan_ipa_priv * ipa_ctx)754 void wlan_ipa_uc_info(struct wlan_ipa_priv *ipa_ctx)
755 {
756 	wlan_ipa_print_session_info(ipa_ctx);
757 }
758 
wlan_ipa_uc_stat(struct wlan_ipa_priv * ipa_ctx)759 void wlan_ipa_uc_stat(struct wlan_ipa_priv *ipa_ctx)
760 {
761 	/* IPA IPA TX/RX stats */
762 	wlan_ipa_print_txrx_stats(ipa_ctx);
763 	/* IPA WDI stats */
764 	wlan_ipa_print_ipa_wdi_stats(ipa_ctx);
765 	/* WLAN FW WDI stats */
766 	wlan_ipa_uc_stat_request(ipa_ctx, WLAN_IPA_UC_STAT_REASON_DEBUG);
767 }
768 
769 #ifdef FEATURE_METERING
770 
771 #ifdef WDI3_STATS_UPDATE
772 #ifdef WDI3_STATS_BW_MONITOR
773 /**
774  * __wlan_ipa_wdi_meter_notifier_cb() - WLAN to IPA callback handler.
775  * IPA calls to get WLAN stats or set quota limit.
776  * @evt: the IPA event which triggered the callback
777  * @data: data associated with the event
778  *
779  * Return: None
780  */
__wlan_ipa_wdi_meter_notifier_cb(qdf_ipa_wdi_meter_evt_type_t evt,void * data)781 static void __wlan_ipa_wdi_meter_notifier_cb(qdf_ipa_wdi_meter_evt_type_t evt,
782 					     void *data)
783 {
784 	struct wlan_ipa_priv *ipa_ctx = wlan_ipa_get_obj_context();
785 	struct qdf_ipa_inform_wlan_bw *bw_info;
786 	uint8_t bw_level_index;
787 	uint64_t throughput;
788 
789 	if (evt != IPA_INFORM_WLAN_BW)
790 		return;
791 
792 	bw_info = data;
793 	bw_level_index = QDF_IPA_INFORM_WLAN_BW_INDEX(bw_info);
794 	throughput = QDF_IPA_INFORM_WLAN_BW_THROUGHPUT(bw_info);
795 	ipa_debug("bw_info idx:%d tp:%llu", bw_level_index, throughput);
796 
797 	if (bw_level_index == ipa_ctx->curr_bw_level)
798 		return;
799 
800 	if (bw_level_index == WLAN_IPA_BW_LEVEL_LOW) {
801 		cdp_ipa_set_perf_level(ipa_ctx->dp_soc,
802 				       QDF_IPA_CLIENT_WLAN2_CONS,
803 				       ipa_ctx->config->ipa_bw_low);
804 		ipa_ctx->curr_bw_level = WLAN_IPA_BW_LEVEL_LOW;
805 	} else if (bw_level_index == WLAN_IPA_BW_LEVEL_MEDIUM) {
806 		cdp_ipa_set_perf_level(ipa_ctx->dp_soc,
807 				       QDF_IPA_CLIENT_WLAN2_CONS,
808 				       ipa_ctx->config->ipa_bw_medium);
809 		ipa_ctx->curr_bw_level = WLAN_IPA_BW_LEVEL_MEDIUM;
810 	} else if (bw_level_index == WLAN_IPA_BW_LEVEL_HIGH) {
811 		cdp_ipa_set_perf_level(ipa_ctx->dp_soc,
812 				       QDF_IPA_CLIENT_WLAN2_CONS,
813 				       ipa_ctx->config->ipa_bw_high);
814 		ipa_ctx->curr_bw_level = WLAN_IPA_BW_LEVEL_HIGH;
815 	}
816 
817 	ipa_debug("Requested BW level: %d", ipa_ctx->curr_bw_level);
818 }
819 
820 #else
__wlan_ipa_wdi_meter_notifier_cb(qdf_ipa_wdi_meter_evt_type_t evt,void * data)821 static void __wlan_ipa_wdi_meter_notifier_cb(qdf_ipa_wdi_meter_evt_type_t evt,
822 					     void *data)
823 {
824 }
825 #endif
826 
wlan_ipa_update_tx_stats(struct wlan_ipa_priv * ipa_ctx,uint64_t sta_tx,uint64_t ap_tx)827 void wlan_ipa_update_tx_stats(struct wlan_ipa_priv *ipa_ctx, uint64_t sta_tx,
828 			      uint64_t ap_tx)
829 {
830 	qdf_ipa_wdi_tx_info_t tx_stats;
831 
832 	if (!qdf_atomic_read(&ipa_ctx->stats_quota))
833 		return;
834 
835 	QDF_IPA_WDI_TX_INFO_STA_TX_BYTES(&tx_stats) = sta_tx;
836 	QDF_IPA_WDI_TX_INFO_SAP_TX_BYTES(&tx_stats) = ap_tx;
837 
838 	qdf_ipa_wdi_wlan_stats(&tx_stats);
839 }
840 
841 #else
842 
843 /**
844  * wlan_ipa_uc_sharing_stats_request() - Get IPA stats from IPA.
845  * @ipa_ctx: IPA context
846  * @reset_stats: reset stat countis after response
847  *
848  * Return: None
849  */
wlan_ipa_uc_sharing_stats_request(struct wlan_ipa_priv * ipa_ctx,uint8_t reset_stats)850 static void wlan_ipa_uc_sharing_stats_request(struct wlan_ipa_priv *ipa_ctx,
851 					      uint8_t reset_stats)
852 {
853 	qdf_mutex_acquire(&ipa_ctx->ipa_lock);
854 	if (false == ipa_ctx->resource_loading) {
855 		qdf_mutex_release(&ipa_ctx->ipa_lock);
856 		cdp_ipa_uc_get_share_stats(ipa_ctx->dp_soc, ipa_ctx->dp_pdev_id,
857 					   reset_stats);
858 	} else {
859 		qdf_mutex_release(&ipa_ctx->ipa_lock);
860 	}
861 }
862 
863 /**
864  * wlan_ipa_uc_set_quota() - Set quota limit bytes from IPA.
865  * @ipa_ctx: IPA context
866  * @set_quota: when 1, FW starts quota monitoring
867  * @quota_bytes: quota limit in bytes
868  *
869  * Return: None
870  */
wlan_ipa_uc_set_quota(struct wlan_ipa_priv * ipa_ctx,uint8_t set_quota,uint64_t quota_bytes)871 static void wlan_ipa_uc_set_quota(struct wlan_ipa_priv *ipa_ctx,
872 				  uint8_t set_quota,
873 				  uint64_t quota_bytes)
874 {
875 	ipa_info("SET_QUOTA: set_quota=%d, quota_bytes=%llu",
876 		 set_quota, quota_bytes);
877 
878 	qdf_mutex_acquire(&ipa_ctx->ipa_lock);
879 	if (false == ipa_ctx->resource_loading) {
880 		qdf_mutex_release(&ipa_ctx->ipa_lock);
881 		cdp_ipa_uc_set_quota(ipa_ctx->dp_soc, ipa_ctx->dp_pdev_id,
882 				     quota_bytes);
883 	} else {
884 		qdf_mutex_release(&ipa_ctx->ipa_lock);
885 	}
886 }
887 
888 /**
889  * __wlan_ipa_wdi_meter_notifier_cb() - WLAN to IPA callback handler.
890  * IPA calls to get WLAN stats or set quota limit.
891  * @evt: the IPA event which triggered the callback
892  * @data: data associated with the event
893  *
894  * Return: None
895  */
__wlan_ipa_wdi_meter_notifier_cb(qdf_ipa_wdi_meter_evt_type_t evt,void * data)896 static void __wlan_ipa_wdi_meter_notifier_cb(qdf_ipa_wdi_meter_evt_type_t evt,
897 					     void *data)
898 {
899 	struct wlan_ipa_priv *ipa_ctx = wlan_ipa_get_obj_context();
900 	struct wlan_ipa_iface_context *iface_ctx;
901 	qdf_ipa_get_wdi_sap_stats_t *wdi_sap_stats;
902 	qdf_ipa_set_wifi_quota_t *ipa_set_quota;
903 	QDF_STATUS status;
904 
905 	ipa_debug("event=%d", evt);
906 
907 	iface_ctx = wlan_ipa_get_iface(ipa_ctx, QDF_STA_MODE);
908 	if (!iface_ctx) {
909 		ipa_err_rl("IPA uC share stats failed - no iface");
910 		return;
911 	}
912 
913 	switch (evt) {
914 	case IPA_GET_WDI_SAP_STATS:
915 		/* fill-up ipa_get_wdi_sap_stats structure after getting
916 		 * ipa_uc_fw_stats from FW
917 		 */
918 		wdi_sap_stats = data;
919 
920 		qdf_event_reset(&ipa_ctx->ipa_uc_sharing_stats_comp);
921 		wlan_ipa_uc_sharing_stats_request(ipa_ctx,
922 			QDF_IPA_GET_WDI_SAP_STATS_RESET_STATS(wdi_sap_stats));
923 		status = qdf_wait_for_event_completion(
924 			&ipa_ctx->ipa_uc_sharing_stats_comp,
925 			IPA_UC_SHARING_STATES_WAIT_TIME);
926 		if (!QDF_IS_STATUS_SUCCESS(status)) {
927 			ipa_err("IPA uC share stats request timed out");
928 			QDF_IPA_GET_WDI_SAP_STATS_STATS_VALID(wdi_sap_stats)
929 				= 0;
930 		} else {
931 			QDF_IPA_GET_WDI_SAP_STATS_STATS_VALID(wdi_sap_stats)
932 				= 1;
933 
934 			QDF_IPA_GET_WDI_SAP_STATS_IPV4_RX_PACKETS(wdi_sap_stats)
935 				= ipa_ctx->ipa_sharing_stats.ipv4_rx_packets;
936 			QDF_IPA_GET_WDI_SAP_STATS_IPV4_RX_BYTES(wdi_sap_stats)
937 				= ipa_ctx->ipa_sharing_stats.ipv4_rx_bytes;
938 			QDF_IPA_GET_WDI_SAP_STATS_IPV6_RX_PACKETS(wdi_sap_stats)
939 				= ipa_ctx->ipa_sharing_stats.ipv6_rx_packets;
940 			QDF_IPA_GET_WDI_SAP_STATS_IPV6_RX_BYTES(wdi_sap_stats)
941 				= ipa_ctx->ipa_sharing_stats.ipv6_rx_bytes;
942 			QDF_IPA_GET_WDI_SAP_STATS_IPV4_TX_PACKETS(wdi_sap_stats)
943 				= ipa_ctx->ipa_sharing_stats.ipv4_tx_packets;
944 			QDF_IPA_GET_WDI_SAP_STATS_IPV4_TX_BYTES(wdi_sap_stats)
945 				= ipa_ctx->ipa_sharing_stats.ipv4_tx_bytes;
946 			QDF_IPA_GET_WDI_SAP_STATS_IPV6_TX_PACKETS(wdi_sap_stats)
947 				= ipa_ctx->ipa_sharing_stats.ipv6_tx_packets;
948 			QDF_IPA_GET_WDI_SAP_STATS_IPV6_TX_BYTES(wdi_sap_stats)
949 				= ipa_ctx->ipa_sharing_stats.ipv6_tx_bytes;
950 		}
951 		break;
952 
953 	case IPA_SET_WIFI_QUOTA:
954 		/* get ipa_set_wifi_quota structure from IPA and pass to FW
955 		 * through quota_exceeded field in ipa_uc_fw_stats
956 		 */
957 		ipa_set_quota = data;
958 
959 		qdf_event_reset(&ipa_ctx->ipa_uc_set_quota_comp);
960 		wlan_ipa_uc_set_quota(ipa_ctx, ipa_set_quota->set_quota,
961 				      ipa_set_quota->quota_bytes);
962 
963 		status = qdf_wait_for_event_completion(
964 				&ipa_ctx->ipa_uc_set_quota_comp,
965 				IPA_UC_SET_QUOTA_WAIT_TIME);
966 		if (!QDF_IS_STATUS_SUCCESS(status)) {
967 			ipa_err("IPA uC set quota request timed out");
968 			QDF_IPA_SET_WIFI_QUOTA_SET_VALID(ipa_set_quota)	= 0;
969 		} else {
970 			QDF_IPA_SET_WIFI_QUOTA_BYTES(ipa_set_quota) =
971 				((uint64_t)(ipa_ctx->ipa_quota_rsp.quota_hi)
972 				  <<32)|ipa_ctx->ipa_quota_rsp.quota_lo;
973 			QDF_IPA_SET_WIFI_QUOTA_SET_VALID(ipa_set_quota)	=
974 				ipa_ctx->ipa_quota_rsp.success;
975 		}
976 		break;
977 
978 	default:
979 		break;
980 	}
981 }
982 
wlan_ipa_uc_op_metering(struct wlan_ipa_priv * ipa_ctx,struct op_msg_type * op_msg)983 QDF_STATUS wlan_ipa_uc_op_metering(struct wlan_ipa_priv *ipa_ctx,
984 				   struct op_msg_type *op_msg)
985 {
986 	struct op_msg_type *msg = op_msg;
987 	struct ipa_uc_sharing_stats *uc_sharing_stats;
988 	struct ipa_uc_quota_rsp *uc_quota_rsp;
989 	struct ipa_uc_quota_ind *uc_quota_ind;
990 	struct wlan_ipa_iface_context *iface_ctx;
991 	uint64_t quota_bytes;
992 
993 	if (msg->op_code == WLAN_IPA_UC_OPCODE_SHARING_STATS) {
994 		/* fill-up ipa_uc_sharing_stats structure from FW */
995 		uc_sharing_stats = (struct ipa_uc_sharing_stats *)
996 			     ((uint8_t *)op_msg + sizeof(struct op_msg_type));
997 
998 		memcpy(&ipa_ctx->ipa_sharing_stats, uc_sharing_stats,
999 		       sizeof(struct ipa_uc_sharing_stats));
1000 
1001 		qdf_event_set(&ipa_ctx->ipa_uc_sharing_stats_comp);
1002 	} else if (msg->op_code == WLAN_IPA_UC_OPCODE_QUOTA_RSP) {
1003 		/* received set quota response */
1004 		uc_quota_rsp = (struct ipa_uc_quota_rsp *)
1005 			     ((uint8_t *)op_msg + sizeof(struct op_msg_type));
1006 
1007 		memcpy(&ipa_ctx->ipa_quota_rsp, uc_quota_rsp,
1008 		       sizeof(struct ipa_uc_quota_rsp));
1009 
1010 		qdf_event_set(&ipa_ctx->ipa_uc_set_quota_comp);
1011 	} else if (msg->op_code == WLAN_IPA_UC_OPCODE_QUOTA_IND) {
1012 		/* hit quota limit */
1013 		uc_quota_ind = (struct ipa_uc_quota_ind *)
1014 			     ((uint8_t *)op_msg + sizeof(struct op_msg_type));
1015 
1016 		ipa_ctx->ipa_quota_ind.quota_bytes =
1017 					uc_quota_ind->quota_bytes;
1018 
1019 		/* send quota exceeded indication to IPA */
1020 		iface_ctx = wlan_ipa_get_iface(ipa_ctx, QDF_STA_MODE);
1021 		quota_bytes = uc_quota_ind->quota_bytes;
1022 		if (iface_ctx)
1023 			qdf_ipa_broadcast_wdi_quota_reach_ind(
1024 							iface_ctx->dev->ifindex,
1025 							quota_bytes);
1026 		else
1027 			ipa_err("Failed quota_reach_ind: NULL interface");
1028 	} else {
1029 		return QDF_STATUS_E_INVAL;
1030 	}
1031 
1032 	return QDF_STATUS_SUCCESS;
1033 }
1034 #endif /* WDI3_STATS_UPDATE */
1035 
wlan_ipa_wdi_meter_notifier_cb(qdf_ipa_wdi_meter_evt_type_t evt,void * data)1036 void wlan_ipa_wdi_meter_notifier_cb(qdf_ipa_wdi_meter_evt_type_t evt,
1037 				    void *data)
1038 {
1039 	struct qdf_op_sync *op_sync;
1040 
1041 	if (qdf_op_protect(&op_sync))
1042 		return;
1043 
1044 	__wlan_ipa_wdi_meter_notifier_cb(evt, data);
1045 
1046 	qdf_op_unprotect(op_sync);
1047 }
1048 #endif /* FEATURE_METERING */
1049