1 /*
2  * Copyright (c) 2013-2021 The Linux Foundation. All rights reserved.
3  * Copyright (c) 2021-2024 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 /*
21  * NB: Inappropriate references to "HTC" are used in this (and other)
22  * HIF implementations.  HTC is typically the calling layer, but it
23  * theoretically could be some alternative.
24  */
25 
26 /*
27  * This holds all state needed to process a pending send/recv interrupt.
28  * The information is saved here as soon as the interrupt occurs (thus
29  * allowing the underlying CE to re-use the ring descriptor). The
30  * information here is eventually processed by a completion processing
31  * thread.
32  */
33 
34 #ifndef __HIF_MAIN_H__
35 #define __HIF_MAIN_H__
36 
37 #include <qdf_atomic.h>         /* qdf_atomic_read */
38 #include "qdf_lock.h"
39 #include "cepci.h"
40 #include "hif.h"
41 #include "multibus.h"
42 #include "hif_unit_test_suspend_i.h"
43 #ifdef HIF_CE_LOG_INFO
44 #include "qdf_notifier.h"
45 #endif
46 #include "pld_common.h"
47 
48 #define HIF_MIN_SLEEP_INACTIVITY_TIME_MS     50
49 #define HIF_SLEEP_INACTIVITY_TIMER_PERIOD_MS 60
50 
51 #define HIF_MAX_BUDGET 0xFFFF
52 
53 #define HIF_STATS_INC(_handle, _field, _delta) \
54 { \
55 	(_handle)->stats._field += _delta; \
56 }
57 
58 /*
59  * This macro implementation is exposed for efficiency only.
60  * The implementation may change and callers should
61  * consider the targid to be a completely opaque handle.
62  */
63 #define TARGID_TO_PCI_ADDR(targid) (*((A_target_id_t *)(targid)))
64 
65 #ifdef QCA_WIFI_3_0
66 #define DISABLE_L1SS_STATES 1
67 #endif
68 
69 #define MAX_NUM_OF_RECEIVES HIF_NAPI_MAX_RECEIVES
70 
71 #ifdef QCA_WIFI_3_0_ADRASTEA
72 #define ADRASTEA_BU 1
73 #else
74 #define ADRASTEA_BU 0
75 #endif
76 
77 #ifdef QCA_WIFI_3_0
78 #define HAS_FW_INDICATOR 0
79 #else
80 #define HAS_FW_INDICATOR 1
81 #endif
82 
83 
84 #define AR9888_DEVICE_ID (0x003c)
85 #define AR6320_DEVICE_ID (0x003e)
86 #define AR6320_FW_1_1  (0x11)
87 #define AR6320_FW_1_3  (0x13)
88 #define AR6320_FW_2_0  (0x20)
89 #define AR6320_FW_3_0  (0x30)
90 #define AR6320_FW_3_2  (0x32)
91 #define QCA6290_EMULATION_DEVICE_ID (0xabcd)
92 #define QCA6290_DEVICE_ID (0x1100)
93 #define QCN9000_DEVICE_ID (0x1104)
94 #define QCN9224_DEVICE_ID (0x1109)
95 #define QCN6122_DEVICE_ID (0xFFFB)
96 #define QCN9160_DEVICE_ID (0xFFF8)
97 #define QCN6432_DEVICE_ID (0xFFF7)
98 #define QCA6390_EMULATION_DEVICE_ID (0x0108)
99 #define QCA6390_DEVICE_ID (0x1101)
100 /* TODO: change IDs for HastingsPrime */
101 #define QCA6490_EMULATION_DEVICE_ID (0x010a)
102 #define QCA6490_DEVICE_ID (0x1103)
103 #define MANGO_DEVICE_ID (0x110a)
104 #define PEACH_DEVICE_ID (0x110e)
105 
106 /* TODO: change IDs for Moselle */
107 #define QCA6750_EMULATION_DEVICE_ID (0x010c)
108 #define QCA6750_DEVICE_ID (0x1105)
109 
110 /* TODO: change IDs for Hamilton */
111 #define KIWI_DEVICE_ID (0x1107)
112 
113 /*TODO: change IDs for Evros */
114 #define WCN6450_DEVICE_ID (0x1108)
115 
116 #define ADRASTEA_DEVICE_ID_P2_E12 (0x7021)
117 #define AR9887_DEVICE_ID    (0x0050)
118 #define AR900B_DEVICE_ID    (0x0040)
119 #define QCA9984_DEVICE_ID   (0x0046)
120 #define QCA9888_DEVICE_ID   (0x0056)
121 #define QCA8074_DEVICE_ID   (0xffff) /* Todo: replace this with
122 					actual number once available.
123 					currently defining this to 0xffff for
124 					emulation purpose */
125 #define QCA8074V2_DEVICE_ID (0xfffe) /* Todo: replace this with actual number */
126 #define QCA6018_DEVICE_ID (0xfffd) /* Todo: replace this with actual number */
127 #define QCA5018_DEVICE_ID (0xfffc) /* Todo: replace this with actual number */
128 #define QCA9574_DEVICE_ID (0xfffa)
129 #define QCA5332_DEVICE_ID (0xfff9)
130 /* Genoa */
131 #define QCN7605_DEVICE_ID  (0x1102) /* Genoa PCIe device ID*/
132 #define QCN7605_COMPOSITE  (0x9901)
133 #define QCN7605_STANDALONE  (0x9900)
134 #define QCN7605_STANDALONE_V2  (0x9902)
135 #define QCN7605_COMPOSITE_V2  (0x9903)
136 
137 #define RUMIM2M_DEVICE_ID_NODE0	0xabc0
138 #define RUMIM2M_DEVICE_ID_NODE1	0xabc1
139 #define RUMIM2M_DEVICE_ID_NODE2	0xabc2
140 #define RUMIM2M_DEVICE_ID_NODE3	0xabc3
141 #define RUMIM2M_DEVICE_ID_NODE4	0xaa10
142 #define RUMIM2M_DEVICE_ID_NODE5	0xaa11
143 
144 #define HIF_GET_PCI_SOFTC(scn) ((struct hif_pci_softc *)scn)
145 #define HIF_GET_IPCI_SOFTC(scn) ((struct hif_ipci_softc *)scn)
146 #define HIF_GET_CE_STATE(scn) ((struct HIF_CE_state *)scn)
147 #define HIF_GET_SDIO_SOFTC(scn) ((struct hif_sdio_softc *)scn)
148 #define HIF_GET_USB_SOFTC(scn) ((struct hif_usb_softc *)scn)
149 #define HIF_GET_USB_DEVICE(scn) ((struct HIF_DEVICE_USB *)scn)
150 #define HIF_GET_SOFTC(scn) ((struct hif_softc *)scn)
151 #define GET_HIF_OPAQUE_HDL(scn) ((struct hif_opaque_softc *)scn)
152 
153 #ifdef QCA_WIFI_QCN9224
154 #define NUM_CE_AVAILABLE 16
155 #else
156 #define NUM_CE_AVAILABLE 12
157 #endif
158 /* Add 1 here to store default configuration in index 0 */
159 #define NUM_CE_CONTEXT (NUM_CE_AVAILABLE + 1)
160 
161 #define CE_INTERRUPT_IDX(x) x
162 
163 #ifdef WLAN_64BIT_DATA_SUPPORT
164 #define RRI_ON_DDR_MEM_SIZE CE_COUNT * sizeof(uint64_t)
165 #else
166 #define RRI_ON_DDR_MEM_SIZE CE_COUNT * sizeof(uint32_t)
167 #endif
168 
169 struct ce_int_assignment {
170 	uint8_t msi_idx[NUM_CE_AVAILABLE];
171 };
172 
173 struct hif_ce_stats {
174 	int hif_pipe_no_resrc_count;
175 	int ce_ring_delta_fail_count;
176 };
177 
178 #ifdef HIF_DETECTION_LATENCY_ENABLE
179 /**
180  * struct hif_tasklet_running_info - running info of tasklet
181  * @sched_cpuid: id of cpu on which the tasklet was scheduled
182  * @sched_time: time when the tasklet was scheduled
183  * @exec_time: time when the tasklet was executed
184  */
185 struct hif_tasklet_running_info {
186 	int sched_cpuid;
187 	qdf_time_t sched_time;
188 	qdf_time_t exec_time;
189 };
190 
191 #define HIF_TASKLET_IN_MONITOR CE_COUNT_MAX
192 
193 struct hif_latency_detect {
194 	qdf_timer_t timer;
195 	uint32_t timeout;
196 	bool is_timer_started;
197 	bool enable_detection;
198 	/* threshold when stall happens */
199 	uint32_t threshold;
200 
201 	/*
202 	 * Bitmap to indicate the enablement of latency detection for
203 	 * the tasklets. bit-X represents for tasklet of WLAN_CE_X,
204 	 * latency detection is enabled on the corresponding tasklet
205 	 * when a bit is set.
206 	 * At the same time, this bitmap also indicates the validity of
207 	 * elements in array 'tasklet_info', bit-X represents for index-X,
208 	 * the corresponding element is valid when a bit is set.
209 	 */
210 	qdf_bitmap(tasklet_bmap, HIF_TASKLET_IN_MONITOR);
211 
212 	/*
213 	 * Array to record running info of tasklets, info of tasklet
214 	 * for WLAN_CE_X is stored at index-X.
215 	 */
216 	struct hif_tasklet_running_info tasklet_info[HIF_TASKLET_IN_MONITOR];
217 	qdf_time_t credit_request_time;
218 	qdf_time_t credit_report_time;
219 };
220 #endif
221 
222 /*
223  * Note: For MCL, #if defined (HIF_CONFIG_SLUB_DEBUG_ON) needs to be checked
224  * for defined here
225  */
226 #if defined(HIF_CONFIG_SLUB_DEBUG_ON) || defined(HIF_CE_DEBUG_DATA_BUF)
227 
228 #define HIF_CE_MAX_LATEST_HIST 2
229 #define HIF_CE_MAX_LATEST_EVTS 2
230 
231 struct latest_evt_history {
232 	uint64_t irq_entry_ts;
233 	uint64_t bh_entry_ts;
234 	uint64_t bh_resched_ts;
235 	uint64_t bh_exit_ts;
236 	uint64_t bh_work_ts;
237 	int cpu_id;
238 	uint32_t ring_hp;
239 	uint32_t ring_tp;
240 };
241 
242 struct ce_desc_hist {
243 	qdf_atomic_t history_index[CE_COUNT_MAX];
244 	uint8_t ce_id_hist_map[CE_COUNT_MAX];
245 	bool enable[CE_COUNT_MAX];
246 	bool data_enable[CE_COUNT_MAX];
247 	qdf_mutex_t ce_dbg_datamem_lock[CE_COUNT_MAX];
248 	uint32_t hist_index;
249 	uint32_t hist_id;
250 	void *hist_ev[CE_COUNT_MAX];
251 	struct latest_evt_history latest_evts[HIF_CE_MAX_LATEST_HIST][HIF_CE_MAX_LATEST_EVTS];
252 };
253 
254 void hif_record_latest_evt(struct ce_desc_hist *ce_hist,
255 			   uint8_t type,
256 			   int ce_id, uint64_t time,
257 			   uint32_t hp, uint32_t tp);
258 #endif /*defined(HIF_CONFIG_SLUB_DEBUG_ON) || defined(HIF_CE_DEBUG_DATA_BUF)*/
259 
260 /**
261  * struct hif_cfg() - store ini config parameters in hif layer
262  * @ce_status_ring_timer_threshold: ce status ring timer threshold
263  * @ce_status_ring_batch_count_threshold: ce status ring batch count threshold
264  * @disable_wake_irq: disable wake irq
265  */
266 struct hif_cfg {
267 	uint16_t ce_status_ring_timer_threshold;
268 	uint8_t ce_status_ring_batch_count_threshold;
269 	bool disable_wake_irq;
270 };
271 
272 #ifdef DP_UMAC_HW_RESET_SUPPORT
273 /**
274  * struct hif_umac_reset_ctx - UMAC HW reset context at HIF layer
275  * @intr_tq: Tasklet structure
276  * @irq_handler: IRQ handler
277  * @cb_handler: Callback handler
278  * @cb_ctx: Argument to be passed to @cb_handler
279  * @os_irq: Interrupt number for this IRQ
280  * @irq_configured: Whether the IRQ has been configured
281  */
282 struct hif_umac_reset_ctx {
283 	struct tasklet_struct intr_tq;
284 	bool (*irq_handler)(void *cb_ctx);
285 	int (*cb_handler)(void *cb_ctx);
286 	void *cb_ctx;
287 	uint32_t os_irq;
288 	bool irq_configured;
289 };
290 #endif
291 
292 #define MAX_SHADOW_REGS 40
293 
294 #ifdef FEATURE_HIF_DELAYED_REG_WRITE
295 /**
296  * enum hif_reg_sched_delay - ENUM for write sched delay histogram
297  * @HIF_REG_WRITE_SCHED_DELAY_SUB_100us: index for delay < 100us
298  * @HIF_REG_WRITE_SCHED_DELAY_SUB_1000us: index for delay < 1000us
299  * @HIF_REG_WRITE_SCHED_DELAY_SUB_5000us: index for delay < 5000us
300  * @HIF_REG_WRITE_SCHED_DELAY_GT_5000us: index for delay >= 5000us
301  * @HIF_REG_WRITE_SCHED_DELAY_HIST_MAX: Max value (nnsize of histogram array)
302  */
303 enum hif_reg_sched_delay {
304 	HIF_REG_WRITE_SCHED_DELAY_SUB_100us,
305 	HIF_REG_WRITE_SCHED_DELAY_SUB_1000us,
306 	HIF_REG_WRITE_SCHED_DELAY_SUB_5000us,
307 	HIF_REG_WRITE_SCHED_DELAY_GT_5000us,
308 	HIF_REG_WRITE_SCHED_DELAY_HIST_MAX,
309 };
310 
311 /**
312  * struct hif_reg_write_soc_stats - soc stats to keep track of register writes
313  * @enqueues: writes enqueued to delayed work
314  * @dequeues: writes dequeued from delayed work (not written yet)
315  * @coalesces: writes not enqueued since srng is already queued up
316  * @direct: writes not enqueud and writted to register directly
317  * @prevent_l1_fails: prevent l1 API failed
318  * @q_depth: current queue depth in delayed register write queue
319  * @max_q_depth: maximum queue for delayed register write queue
320  * @sched_delay: = kernel work sched delay + bus wakeup delay, histogram
321  * @dequeue_delay: dequeue operation be delayed
322  */
323 struct hif_reg_write_soc_stats {
324 	qdf_atomic_t enqueues;
325 	uint32_t dequeues;
326 	qdf_atomic_t coalesces;
327 	qdf_atomic_t direct;
328 	uint32_t prevent_l1_fails;
329 	qdf_atomic_t q_depth;
330 	uint32_t max_q_depth;
331 	uint32_t sched_delay[HIF_REG_WRITE_SCHED_DELAY_HIST_MAX];
332 	uint32_t dequeue_delay;
333 };
334 
335 /**
336  * struct hif_reg_write_q_elem - delayed register write queue element
337  * @ce_state: CE state queued for a delayed write
338  * @offset: offset of the CE register
339  * @enqueue_val: register value at the time of delayed write enqueue
340  * @dequeue_val: register value at the time of delayed write dequeue
341  * @valid: whether this entry is valid or not
342  * @enqueue_time: enqueue time (qdf_log_timestamp)
343  * @work_scheduled_time: work scheduled time (qdf_log_timestamp)
344  * @dequeue_time: dequeue time (qdf_log_timestamp)
345  * @cpu_id: record cpuid when schedule work
346  */
347 struct hif_reg_write_q_elem {
348 	struct CE_state *ce_state;
349 	uint32_t offset;
350 	uint32_t enqueue_val;
351 	uint32_t dequeue_val;
352 	uint8_t valid;
353 	qdf_time_t enqueue_time;
354 	qdf_time_t work_scheduled_time;
355 	qdf_time_t dequeue_time;
356 	int cpu_id;
357 };
358 #endif
359 
360 struct hif_softc {
361 	struct hif_opaque_softc osc;
362 	struct hif_config_info hif_config;
363 	struct hif_target_info target_info;
364 	void __iomem *mem;
365 	void __iomem *mem_ce;
366 	void __iomem *mem_cmem;
367 	void __iomem *mem_pmm_base;
368 	enum qdf_bus_type bus_type;
369 	struct hif_bus_ops bus_ops;
370 	void *ce_id_to_state[CE_COUNT_MAX];
371 	qdf_device_t qdf_dev;
372 	bool hif_init_done;
373 	bool request_irq_done;
374 	bool ext_grp_irq_configured;
375 	bool free_irq_done;
376 	uint8_t ce_latency_stats;
377 	/* Packet statistics */
378 	struct hif_ce_stats pkt_stats;
379 	enum hif_target_status target_status;
380 	uint64_t event_enable_mask;
381 
382 	struct targetdef_s *targetdef;
383 	struct ce_reg_def *target_ce_def;
384 	struct hostdef_s *hostdef;
385 	struct host_shadow_regs_s *host_shadow_regs;
386 
387 	bool recovery;
388 	bool notice_send;
389 	bool per_ce_irq;
390 	uint32_t ce_irq_summary;
391 	/* No of copy engines supported */
392 	unsigned int ce_count;
393 	struct ce_int_assignment *int_assignment;
394 	atomic_t active_tasklet_cnt;
395 	atomic_t active_grp_tasklet_cnt;
396 	atomic_t active_oom_work_cnt;
397 	atomic_t link_suspended;
398 	void *vaddr_rri_on_ddr;
399 	atomic_t active_wake_req_cnt;
400 	qdf_dma_addr_t paddr_rri_on_ddr;
401 #ifdef CONFIG_BYPASS_QMI
402 	uint32_t *vaddr_qmi_bypass;
403 	qdf_dma_addr_t paddr_qmi_bypass;
404 #endif
405 	int linkstate_vote;
406 	bool fastpath_mode_on;
407 	atomic_t tasklet_from_intr;
408 	int htc_htt_tx_endpoint;
409 	qdf_dma_addr_t mem_pa;
410 	bool athdiag_procfs_inited;
411 #ifdef FEATURE_NAPI
412 	struct qca_napi_data napi_data;
413 #endif /* FEATURE_NAPI */
414 	/* stores ce_service_max_yield_time in ns */
415 	unsigned long long ce_service_max_yield_time;
416 	uint8_t ce_service_max_rx_ind_flush;
417 	struct hif_driver_state_callbacks callbacks;
418 	uint32_t hif_con_param;
419 #ifdef QCA_NSS_WIFI_OFFLOAD_SUPPORT
420 	uint32_t nss_wifi_ol_mode;
421 #endif
422 	void *hal_soc;
423 	struct hif_ut_suspend_context ut_suspend_ctx;
424 	uint32_t hif_attribute;
425 	int wake_irq;
426 	hif_pm_wake_irq_type wake_irq_type;
427 	void (*initial_wakeup_cb)(void *);
428 	void *initial_wakeup_priv;
429 #ifdef REMOVE_PKT_LOG
430 	/* Handle to pktlog device */
431 	void *pktlog_dev;
432 #endif
433 #ifdef WLAN_FEATURE_DP_EVENT_HISTORY
434 	/* Pointer to the srng event history */
435 	struct hif_event_history *evt_hist[HIF_NUM_INT_CONTEXTS];
436 #endif
437 
438 /*
439  * Note: For MCL, #if defined (HIF_CONFIG_SLUB_DEBUG_ON) needs to be checked
440  * for defined here
441  */
442 #if defined(HIF_CONFIG_SLUB_DEBUG_ON) || defined(HIF_CE_DEBUG_DATA_BUF)
443 	struct ce_desc_hist hif_ce_desc_hist;
444 #endif /*defined(HIF_CONFIG_SLUB_DEBUG_ON) || defined(HIF_CE_DEBUG_DATA_BUF)*/
445 #ifdef IPA_OFFLOAD
446 	qdf_shared_mem_t *ipa_ce_ring;
447 #endif
448 #ifdef IPA_OPT_WIFI_DP
449 	qdf_atomic_t opt_wifi_dp_rtpm_cnt;
450 #endif
451 	struct hif_cfg ini_cfg;
452 #ifdef HIF_CE_LOG_INFO
453 	qdf_notif_block hif_recovery_notifier;
454 #endif
455 #if defined(HIF_CPU_PERF_AFFINE_MASK) || \
456 	defined(FEATURE_ENABLE_CE_DP_IRQ_AFFINE)
457 
458 	/* The CPU hotplug event registration handle */
459 	struct qdf_cpuhp_handler *cpuhp_event_handle;
460 #endif
461 	uint32_t irq_unlazy_disable;
462 	/* Should the unlzay support for interrupt delivery be disabled */
463 	/* Flag to indicate whether bus is suspended */
464 	bool bus_suspended;
465 	bool pktlog_init;
466 #ifdef FEATURE_RUNTIME_PM
467 	/* Variable to track the link state change in RTPM */
468 	qdf_atomic_t pm_link_state;
469 #endif
470 #ifdef HIF_DETECTION_LATENCY_ENABLE
471 	struct hif_latency_detect latency_detect;
472 #endif
473 #ifdef FEATURE_RUNTIME_PM
474 	qdf_runtime_lock_t prevent_linkdown_lock;
475 #endif
476 #ifdef SYSTEM_PM_CHECK
477 	qdf_atomic_t sys_pm_state;
478 #endif
479 #if defined(HIF_IPCI) && defined(FEATURE_HAL_DELAYED_REG_WRITE)
480 	qdf_atomic_t dp_ep_vote_access;
481 	qdf_atomic_t ep_vote_access;
482 #endif
483 	/* CMEM address target reserved for host usage */
484 	uint64_t cmem_start;
485 	/* CMEM size target reserved */
486 	uint64_t cmem_size;
487 #ifdef DP_UMAC_HW_RESET_SUPPORT
488 	struct hif_umac_reset_ctx umac_reset_ctx;
489 #endif
490 #ifdef CONFIG_SHADOW_V3
491 	struct pld_shadow_reg_v3_cfg shadow_regs[MAX_SHADOW_REGS];
492 	int num_shadow_registers_configured;
493 #endif
494 #ifdef WLAN_FEATURE_AFFINITY_MGR
495 	/* CPU Affinity info of IRQs */
496 	bool affinity_mgr_supported;
497 	uint64_t time_threshold;
498 	struct hif_cpu_affinity ce_irq_cpu_mask[CE_COUNT_MAX];
499 	struct hif_cpu_affinity irq_cpu_mask[HIF_MAX_GROUP][HIF_MAX_GRP_IRQ];
500 	qdf_cpu_mask allowed_mask;
501 #endif
502 #ifdef FEATURE_DIRECT_LINK
503 	struct qdf_mem_multi_page_t dl_recv_pages;
504 	int dl_recv_pipe_num;
505 #endif
506 #ifdef WLAN_FEATURE_CE_RX_BUFFER_REUSE
507 	struct wbuff_mod_handle *wbuff_handle;
508 #endif
509 #ifdef FEATURE_HIF_DELAYED_REG_WRITE
510 	/* queue(array) to hold register writes */
511 	struct hif_reg_write_q_elem *reg_write_queue;
512 	/* delayed work to be queued into workqueue */
513 	qdf_work_t reg_write_work;
514 	/* workqueue for delayed register writes */
515 	qdf_workqueue_t *reg_write_wq;
516 	/* write index used by caller to enqueue delayed work */
517 	qdf_atomic_t write_idx;
518 	/* read index used by worker thread to dequeue/write registers */
519 	uint32_t read_idx;
520 	struct hif_reg_write_soc_stats wstats;
521 	qdf_atomic_t active_work_cnt;
522 #endif /* FEATURE_HIF_DELAYED_REG_WRITE */
523 };
524 
525 #if defined(NUM_SOC_PERF_CLUSTER) && (NUM_SOC_PERF_CLUSTER > 1)
hif_get_perf_cluster_bitmap(void)526 static inline uint16_t hif_get_perf_cluster_bitmap(void)
527 {
528 	return (BIT(CPU_CLUSTER_TYPE_PERF) | BIT(CPU_CLUSTER_TYPE_PERF2));
529 }
530 #else /* NUM_SOC_PERF_CLUSTER > 1 */
hif_get_perf_cluster_bitmap(void)531 static inline uint16_t hif_get_perf_cluster_bitmap(void)
532 {
533 	return BIT(CPU_CLUSTER_TYPE_PERF);
534 }
535 #endif /* NUM_SOC_PERF_CLUSTER > 1 */
536 
537 static inline
hif_get_hal_handle(struct hif_opaque_softc * hif_hdl)538 void *hif_get_hal_handle(struct hif_opaque_softc *hif_hdl)
539 {
540 	struct hif_softc *sc = (struct hif_softc *)hif_hdl;
541 
542 	if (!sc)
543 		return NULL;
544 
545 	return sc->hal_soc;
546 }
547 
548 /**
549  * hif_get_cmem_info() - get CMEM address and size from HIF handle
550  * @hif_hdl: HIF handle pointer
551  * @cmem_start: pointer for CMEM address
552  * @cmem_size: pointer for CMEM size
553  *
554  * Return: None.
555  */
556 static inline
hif_get_cmem_info(struct hif_opaque_softc * hif_hdl,uint64_t * cmem_start,uint64_t * cmem_size)557 void hif_get_cmem_info(struct hif_opaque_softc *hif_hdl,
558 		       uint64_t *cmem_start,
559 		       uint64_t *cmem_size)
560 {
561 	struct hif_softc *sc = (struct hif_softc *)hif_hdl;
562 
563 	*cmem_start = sc->cmem_start;
564 	*cmem_size = sc->cmem_size;
565 }
566 
567 /**
568  * hif_get_num_active_tasklets() - get the number of active
569  *		tasklets pending to be completed.
570  * @scn: HIF context
571  *
572  * Returns: the number of tasklets which are active
573  */
hif_get_num_active_tasklets(struct hif_softc * scn)574 static inline int hif_get_num_active_tasklets(struct hif_softc *scn)
575 {
576 	return qdf_atomic_read(&scn->active_tasklet_cnt);
577 }
578 
579 /**
580  * hif_get_num_active_oom_work() - get the number of active
581  *		oom work pending to be completed.
582  * @scn: HIF context
583  *
584  * Returns: the number of oom works which are active
585  */
hif_get_num_active_oom_work(struct hif_softc * scn)586 static inline int hif_get_num_active_oom_work(struct hif_softc *scn)
587 {
588 	return qdf_atomic_read(&scn->active_oom_work_cnt);
589 }
590 
591 /*
592  * Max waiting time during Runtime PM suspend to finish all
593  * the tasks. This is in the multiple of 10ms.
594  */
595 #ifdef PANIC_ON_BUG
596 #define HIF_TASK_DRAIN_WAIT_CNT 200
597 #else
598 #define HIF_TASK_DRAIN_WAIT_CNT 25
599 #endif
600 
601 /**
602  * hif_try_complete_tasks() - Try to complete all the pending tasks
603  * @scn: HIF context
604  *
605  * Try to complete all the pending datapath tasks, i.e. tasklets,
606  * DP group tasklets and works which are queued, in a given time
607  * slot.
608  *
609  * Returns: QDF_STATUS_SUCCESS if all the tasks were completed
610  *	QDF error code, if the time slot exhausted
611  */
612 QDF_STATUS hif_try_complete_tasks(struct hif_softc *scn);
613 
614 #ifdef QCA_NSS_WIFI_OFFLOAD_SUPPORT
hif_is_nss_wifi_enabled(struct hif_softc * sc)615 static inline bool hif_is_nss_wifi_enabled(struct hif_softc *sc)
616 {
617 	return !!(sc->nss_wifi_ol_mode);
618 }
619 #else
hif_is_nss_wifi_enabled(struct hif_softc * sc)620 static inline bool hif_is_nss_wifi_enabled(struct hif_softc *sc)
621 {
622 	return false;
623 }
624 #endif
625 
hif_is_attribute_set(struct hif_softc * sc,uint32_t hif_attrib)626 static inline uint8_t hif_is_attribute_set(struct hif_softc *sc,
627 						uint32_t hif_attrib)
628 {
629 	return sc->hif_attribute == hif_attrib;
630 }
631 
632 #ifdef WLAN_FEATURE_DP_EVENT_HISTORY
hif_set_event_hist_mask(struct hif_opaque_softc * hif_handle)633 static inline void hif_set_event_hist_mask(struct hif_opaque_softc *hif_handle)
634 {
635 	struct hif_softc *scn = (struct hif_softc *)hif_handle;
636 
637 	scn->event_enable_mask = HIF_EVENT_HIST_ENABLE_MASK;
638 }
639 #else
hif_set_event_hist_mask(struct hif_opaque_softc * hif_handle)640 static inline void hif_set_event_hist_mask(struct hif_opaque_softc *hif_handle)
641 {
642 }
643 #endif /* WLAN_FEATURE_DP_EVENT_HISTORY */
644 
645 A_target_id_t hif_get_target_id(struct hif_softc *scn);
646 void hif_dump_pipe_debug_count(struct hif_softc *scn);
647 void hif_display_bus_stats(struct hif_opaque_softc *scn);
648 void hif_clear_bus_stats(struct hif_opaque_softc *scn);
649 bool hif_max_num_receives_reached(struct hif_softc *scn, unsigned int count);
650 void hif_shutdown_device(struct hif_opaque_softc *hif_ctx);
651 int hif_bus_configure(struct hif_softc *scn);
652 void hif_cancel_deferred_target_sleep(struct hif_softc *scn);
653 int hif_config_ce(struct hif_softc *scn);
654 int hif_config_ce_pktlog(struct hif_opaque_softc *hif_ctx);
655 int hif_config_ce_by_id(struct hif_softc *scn, int pipe_num);
656 void hif_unconfig_ce(struct hif_softc *scn);
657 void hif_ce_prepare_config(struct hif_softc *scn);
658 QDF_STATUS hif_ce_open(struct hif_softc *scn);
659 void hif_ce_close(struct hif_softc *scn);
660 int athdiag_procfs_init(void *scn);
661 void athdiag_procfs_remove(void);
662 /* routine to modify the initial buffer count to be allocated on an os
663  * platform basis. Platform owner will need to modify this as needed
664  */
665 qdf_size_t init_buffer_count(qdf_size_t maxSize);
666 
667 irqreturn_t hif_fw_interrupt_handler(int irq, void *arg);
668 int hif_get_device_type(uint32_t device_id,
669 			uint32_t revision_id,
670 			uint32_t *hif_type, uint32_t *target_type);
671 /*These functions are exposed to HDD*/
672 void hif_nointrs(struct hif_softc *scn);
673 void hif_bus_close(struct hif_softc *ol_sc);
674 QDF_STATUS hif_bus_open(struct hif_softc *ol_sc,
675 	enum qdf_bus_type bus_type);
676 QDF_STATUS hif_enable_bus(struct hif_softc *ol_sc, struct device *dev,
677 	void *bdev, const struct hif_bus_id *bid, enum hif_enable_type type);
678 void hif_disable_bus(struct hif_softc *scn);
679 void hif_bus_prevent_linkdown(struct hif_softc *scn, bool flag);
680 int hif_bus_get_context_size(enum qdf_bus_type bus_type);
681 void hif_read_phy_mem_base(struct hif_softc *scn, qdf_dma_addr_t *bar_value);
682 uint32_t hif_get_conparam(struct hif_softc *scn);
683 struct hif_driver_state_callbacks *hif_get_callbacks_handle(
684 							struct hif_softc *scn);
685 bool hif_is_driver_unloading(struct hif_softc *scn);
686 bool hif_is_load_or_unload_in_progress(struct hif_softc *scn);
687 bool hif_is_recovery_in_progress(struct hif_softc *scn);
688 bool hif_is_target_ready(struct hif_softc *scn);
689 
690 /**
691  * hif_get_bandwidth_level() - API to get the current bandwidth level
692  * @hif_handle: HIF Context
693  *
694  * Return: PLD bandwidth level
695  */
696 int hif_get_bandwidth_level(struct hif_opaque_softc *hif_handle);
697 
698 void hif_wlan_disable(struct hif_softc *scn);
699 int hif_target_sleep_state_adjust(struct hif_softc *scn,
700 					 bool sleep_ok,
701 					 bool wait_for_it);
702 
703 #ifdef DP_MEM_PRE_ALLOC
704 void *hif_mem_alloc_consistent_unaligned(struct hif_softc *scn,
705 					 qdf_size_t size,
706 					 qdf_dma_addr_t *paddr,
707 					 uint32_t ring_type,
708 					 uint8_t *is_mem_prealloc);
709 
710 void hif_mem_free_consistent_unaligned(struct hif_softc *scn,
711 				       qdf_size_t size,
712 				       void *vaddr,
713 				       qdf_dma_addr_t paddr,
714 				       qdf_dma_context_t memctx,
715 				       uint8_t is_mem_prealloc);
716 
717 /**
718  * hif_prealloc_get_multi_pages() - gets pre-alloc DP multi-pages memory
719  * @scn: HIF context
720  * @desc_type: descriptor type
721  * @elem_size: single element size
722  * @elem_num: total number of elements should be allocated
723  * @pages: multi page information storage
724  * @cacheable: coherent memory or cacheable memory
725  *
726  * Return: None
727  */
728 void hif_prealloc_get_multi_pages(struct hif_softc *scn, uint32_t desc_type,
729 				  qdf_size_t elem_size, uint16_t elem_num,
730 				  struct qdf_mem_multi_page_t *pages,
731 				  bool cacheable);
732 
733 /**
734  * hif_prealloc_put_multi_pages() - puts back pre-alloc DP multi-pages memory
735  * @scn: HIF context
736  * @desc_type: descriptor type
737  * @pages: multi page information storage
738  * @cacheable: coherent memory or cacheable memory
739  *
740  * Return: None
741  */
742 void hif_prealloc_put_multi_pages(struct hif_softc *scn, uint32_t desc_type,
743 				  struct qdf_mem_multi_page_t *pages,
744 				  bool cacheable);
745 #else
746 static inline
hif_mem_alloc_consistent_unaligned(struct hif_softc * scn,qdf_size_t size,qdf_dma_addr_t * paddr,uint32_t ring_type,uint8_t * is_mem_prealloc)747 void *hif_mem_alloc_consistent_unaligned(struct hif_softc *scn,
748 					 qdf_size_t size,
749 					 qdf_dma_addr_t *paddr,
750 					 uint32_t ring_type,
751 					 uint8_t *is_mem_prealloc)
752 {
753 	return qdf_mem_alloc_consistent(scn->qdf_dev,
754 					scn->qdf_dev->dev,
755 					size,
756 					paddr);
757 }
758 
759 static inline
hif_mem_free_consistent_unaligned(struct hif_softc * scn,qdf_size_t size,void * vaddr,qdf_dma_addr_t paddr,qdf_dma_context_t memctx,uint8_t is_mem_prealloc)760 void hif_mem_free_consistent_unaligned(struct hif_softc *scn,
761 				       qdf_size_t size,
762 				       void *vaddr,
763 				       qdf_dma_addr_t paddr,
764 				       qdf_dma_context_t memctx,
765 				       uint8_t is_mem_prealloc)
766 {
767 	return qdf_mem_free_consistent(scn->qdf_dev, scn->qdf_dev->dev,
768 				       size, vaddr, paddr, memctx);
769 }
770 
771 static inline
hif_prealloc_get_multi_pages(struct hif_softc * scn,uint32_t desc_type,qdf_size_t elem_size,uint16_t elem_num,struct qdf_mem_multi_page_t * pages,bool cacheable)772 void hif_prealloc_get_multi_pages(struct hif_softc *scn, uint32_t desc_type,
773 				  qdf_size_t elem_size, uint16_t elem_num,
774 				  struct qdf_mem_multi_page_t *pages,
775 				  bool cacheable)
776 {
777 	qdf_mem_multi_pages_alloc(scn->qdf_dev, pages,
778 				  elem_size, elem_num, 0, cacheable);
779 }
780 
781 static inline
hif_prealloc_put_multi_pages(struct hif_softc * scn,uint32_t desc_type,struct qdf_mem_multi_page_t * pages,bool cacheable)782 void hif_prealloc_put_multi_pages(struct hif_softc *scn, uint32_t desc_type,
783 				  struct qdf_mem_multi_page_t *pages,
784 				  bool cacheable)
785 {
786 	qdf_mem_multi_pages_free(scn->qdf_dev, pages, 0,
787 				 cacheable);
788 }
789 #endif
790 
791 /**
792  * hif_get_rx_ctx_id() - Returns NAPI instance ID based on CE ID
793  * @ctx_id: Rx CE context ID
794  * @hif_hdl: HIF Context
795  *
796  * Return: Rx instance ID
797  */
798 int hif_get_rx_ctx_id(int ctx_id, struct hif_opaque_softc *hif_hdl);
799 void hif_ramdump_handler(struct hif_opaque_softc *scn);
800 #ifdef HIF_USB
801 void hif_usb_get_hw_info(struct hif_softc *scn);
802 void hif_usb_ramdump_handler(struct hif_opaque_softc *scn);
803 #else
hif_usb_get_hw_info(struct hif_softc * scn)804 static inline void hif_usb_get_hw_info(struct hif_softc *scn) {}
hif_usb_ramdump_handler(struct hif_opaque_softc * scn)805 static inline void hif_usb_ramdump_handler(struct hif_opaque_softc *scn) {}
806 #endif
807 
808 /**
809  * hif_wake_interrupt_handler() - interrupt handler for standalone wake irq
810  * @irq: the irq number that fired
811  * @context: the opaque pointer passed to request_irq()
812  *
813  * Return: an irq return type
814  */
815 irqreturn_t hif_wake_interrupt_handler(int irq, void *context);
816 
817 #if defined(HIF_SNOC)
818 bool hif_is_target_register_access_allowed(struct hif_softc *hif_sc);
819 #elif defined(HIF_IPCI)
820 static inline bool
hif_is_target_register_access_allowed(struct hif_softc * hif_sc)821 hif_is_target_register_access_allowed(struct hif_softc *hif_sc)
822 {
823 	return !(hif_sc->recovery);
824 }
825 #else
826 static inline
hif_is_target_register_access_allowed(struct hif_softc * hif_sc)827 bool hif_is_target_register_access_allowed(struct hif_softc *hif_sc)
828 {
829 	return true;
830 }
831 #endif
832 
833 #ifdef ADRASTEA_RRI_ON_DDR
834 void hif_uninit_rri_on_ddr(struct hif_softc *scn);
835 #else
836 static inline
hif_uninit_rri_on_ddr(struct hif_softc * scn)837 void hif_uninit_rri_on_ddr(struct hif_softc *scn) {}
838 #endif
839 void hif_cleanup_static_buf_to_target(struct hif_softc *scn);
840 
841 #ifdef FEATURE_RUNTIME_PM
842 /**
843  * hif_runtime_prevent_linkdown() - prevent or allow a runtime pm from occurring
844  * @scn: hif context
845  * @is_get: prevent linkdown if true otherwise allow
846  *
847  * this api should only be called as part of bus prevent linkdown
848  */
849 void hif_runtime_prevent_linkdown(struct hif_softc *scn, bool is_get);
850 #else
851 static inline
hif_runtime_prevent_linkdown(struct hif_softc * scn,bool is_get)852 void hif_runtime_prevent_linkdown(struct hif_softc *scn, bool is_get)
853 {
854 }
855 #endif
856 
857 #ifdef HIF_HAL_REG_ACCESS_SUPPORT
858 void hif_reg_window_write(struct hif_softc *scn,
859 			  uint32_t offset, uint32_t value);
860 uint32_t hif_reg_window_read(struct hif_softc *scn, uint32_t offset);
861 #endif
862 
863 #ifdef FEATURE_HIF_DELAYED_REG_WRITE
864 void hif_delayed_reg_write(struct hif_softc *scn, uint32_t ctrl_addr,
865 			   uint32_t val);
866 #endif
867 
868 #if defined(HIF_IPCI) && defined(FEATURE_HAL_DELAYED_REG_WRITE)
hif_is_ep_vote_access_disabled(struct hif_softc * scn)869 static inline bool hif_is_ep_vote_access_disabled(struct hif_softc *scn)
870 {
871 	if ((qdf_atomic_read(&scn->dp_ep_vote_access) ==
872 	     HIF_EP_VOTE_ACCESS_DISABLE) &&
873 	    (qdf_atomic_read(&scn->ep_vote_access) ==
874 	     HIF_EP_VOTE_ACCESS_DISABLE))
875 		return true;
876 
877 	return false;
878 }
879 #else
hif_is_ep_vote_access_disabled(struct hif_softc * scn)880 static inline bool hif_is_ep_vote_access_disabled(struct hif_softc *scn)
881 {
882 	return false;
883 }
884 #endif
885 #endif /* __HIF_MAIN_H__ */
886