xref: /wlan-driver/qca-wifi-host-cmn/qdf/linux/src/i_qdf_mem.h (revision 5113495b16420b49004c444715d2daae2066e7dc) !
1 /*
2  * Copyright (c) 2014-2021 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  * DOC: i_qdf_mem.h
22  * Linux-specific definitions for QDF memory API's
23  */
24 
25 #ifndef __I_QDF_MEM_H
26 #define __I_QDF_MEM_H
27 
28 #ifdef __KERNEL__
29 #if LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 17)
30 #if LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 33)
31 #include <linux/autoconf.h>
32 #else
33 #include <generated/autoconf.h>
34 #endif
35 #endif
36 #include <linux/slab.h>
37 #include <linux/hardirq.h>
38 #include <linux/vmalloc.h>
39 #include <linux/pci.h> /* pci_alloc_consistent */
40 #include <linux/cache.h> /* L1_CACHE_BYTES */
41 
42 #define __qdf_cache_line_sz L1_CACHE_BYTES
43 #include "queue.h"
44 
45 #else
46 /*
47  * Provide dummy defs for kernel data types, functions, and enums
48  * used in this header file.
49  */
50 #define GFP_KERNEL 0
51 #define GFP_ATOMIC 0
52 #define __GFP_KSWAPD_RECLAIM 0
53 #define __GFP_DIRECT_RECLAIM 0
54 #define kzalloc(size, flags) NULL
55 #define vmalloc(size)        NULL
56 #define kfree(buf)
57 #define vfree(buf)
58 #define pci_alloc_consistent(dev, size, paddr) NULL
59 #define __qdf_mempool_t void*
60 #define QDF_RET_IP NULL
61 #endif /* __KERNEL__ */
62 #include <qdf_status.h>
63 #if (defined(__ANDROID_COMMON_KERNEL__) && \
64 		(LINUX_VERSION_CODE >= KERNEL_VERSION(5, 9, 0)) && \
65 		(defined(MSM_PLATFORM) || defined(QCA_IPA_LL_TX_FLOW_CONTROL)))
66 #include <linux/qcom-iommu-util.h>
67 #endif
68 
69 #if IS_ENABLED(CONFIG_ARM_SMMU)
70 #include <pld_common.h>
71 #ifdef ENABLE_SMMU_S1_TRANSLATION
72 #if (LINUX_VERSION_CODE < KERNEL_VERSION(5, 4, 0))
73 #include <asm/dma-iommu.h>
74 #endif
75 #endif
76 #include <linux/iommu.h>
77 #endif
78 
79 #ifdef __KERNEL__
80 typedef struct mempool_elem {
81 	STAILQ_ENTRY(mempool_elem) mempool_entry;
82 } mempool_elem_t;
83 
84 /**
85  * typedef __qdf_mempool_ctxt_t - Memory pool context
86  * @pool_id: pool identifier
87  * @flags: flags
88  * @elem_size: size of each pool element in bytes
89  * @pool_mem: pool_addr address of the pool created
90  * @mem_size: Total size of the pool in bytes
91  * @free_list: free pool list
92  * @lock: spinlock object
93  * @max_elem: Maximum number of elements in the pool
94  * @free_cnt: Number of free elements available
95  */
96 typedef struct __qdf_mempool_ctxt {
97 	int pool_id;
98 	u_int32_t flags;
99 	size_t elem_size;
100 	void *pool_mem;
101 	u_int32_t mem_size;
102 
103 	STAILQ_HEAD(, mempool_elem) free_list;
104 	spinlock_t lock;
105 	u_int32_t max_elem;
106 	u_int32_t free_cnt;
107 } __qdf_mempool_ctxt_t;
108 
109 typedef struct kmem_cache *qdf_kmem_cache_t;
110 #endif /* __KERNEL__ */
111 
112 #define __page_size ((size_t)PAGE_SIZE)
113 #define __qdf_align(a, mask) ALIGN(a, mask)
114 
115 #ifdef DISABLE_MEMDEBUG_PANIC
116 #define QDF_MEMDEBUG_PANIC(reason_fmt, args...) \
117 	do { \
118 		/* no-op */ \
119 	} while (false)
120 #else
121 #define QDF_MEMDEBUG_PANIC(reason_fmt, args...) \
122 	QDF_DEBUG_PANIC(reason_fmt, ## args)
123 #endif
124 
125 /**
126  * typedef __dma_data_direction - typedef for dma_data_direction
127  */
128 typedef enum dma_data_direction __dma_data_direction;
129 
130 /**
131  * __qdf_dma_dir_to_os() - Convert DMA data direction to OS specific enum
132  * @qdf_dir: QDF DMA data direction
133  *
134  * Return:
135  * enum dma_data_direction
136  */
137 static inline
__qdf_dma_dir_to_os(qdf_dma_dir_t qdf_dir)138 enum dma_data_direction __qdf_dma_dir_to_os(qdf_dma_dir_t qdf_dir)
139 {
140 	switch (qdf_dir) {
141 	case QDF_DMA_BIDIRECTIONAL:
142 		return DMA_BIDIRECTIONAL;
143 	case QDF_DMA_TO_DEVICE:
144 		return DMA_TO_DEVICE;
145 	case QDF_DMA_FROM_DEVICE:
146 		return DMA_FROM_DEVICE;
147 	default:
148 		return DMA_NONE;
149 	}
150 }
151 
152 
153 /**
154  * __qdf_mem_map_nbytes_single - Map memory for DMA
155  * @osdev: pomter OS device context
156  * @buf: pointer to memory to be dma mapped
157  * @dir: DMA map direction
158  * @nbytes: number of bytes to be mapped.
159  * @phy_addr: pointer to receive physical address.
160  *
161  * Return: success/failure
162  */
__qdf_mem_map_nbytes_single(qdf_device_t osdev,void * buf,qdf_dma_dir_t dir,int nbytes,qdf_dma_addr_t * phy_addr)163 static inline uint32_t __qdf_mem_map_nbytes_single(qdf_device_t osdev,
164 						  void *buf, qdf_dma_dir_t dir,
165 						  int nbytes,
166 						  qdf_dma_addr_t *phy_addr)
167 {
168 	/* assume that the OS only provides a single fragment */
169 	*phy_addr = dma_map_single(osdev->dev, buf, nbytes,
170 					__qdf_dma_dir_to_os(dir));
171 	return dma_mapping_error(osdev->dev, *phy_addr) ?
172 	QDF_STATUS_E_FAILURE : QDF_STATUS_SUCCESS;
173 }
174 
175 #if LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 20)
__qdf_mem_dma_cache_sync(qdf_device_t osdev,qdf_dma_addr_t buf,qdf_dma_dir_t dir,int nbytes)176 static inline void __qdf_mem_dma_cache_sync(qdf_device_t osdev,
177 					    qdf_dma_addr_t buf,
178 					    qdf_dma_dir_t dir,
179 					    int nbytes)
180 {
181 	dma_cache_sync(osdev->dev, buf, nbytes, __qdf_dma_dir_to_os(dir));
182 }
183 #else
__qdf_mem_dma_cache_sync(qdf_device_t osdev,qdf_dma_addr_t buf,qdf_dma_dir_t dir,int nbytes)184 static inline void __qdf_mem_dma_cache_sync(qdf_device_t osdev,
185 					    qdf_dma_addr_t buf,
186 					    qdf_dma_dir_t dir,
187 					    int nbytes)
188 {
189 	dma_sync_single_for_cpu(osdev->dev, buf, nbytes,
190 				__qdf_dma_dir_to_os(dir));
191 }
192 #endif
193 
194 /**
195  * __qdf_mem_unmap_nbytes_single() - un_map memory for DMA
196  *
197  * @osdev: pomter OS device context
198  * @phy_addr: physical address of memory to be dma unmapped
199  * @dir: DMA unmap direction
200  * @nbytes: number of bytes to be unmapped.
201  *
202  * Return - none
203  */
__qdf_mem_unmap_nbytes_single(qdf_device_t osdev,qdf_dma_addr_t phy_addr,qdf_dma_dir_t dir,int nbytes)204 static inline void __qdf_mem_unmap_nbytes_single(qdf_device_t osdev,
205 						 qdf_dma_addr_t phy_addr,
206 						 qdf_dma_dir_t dir, int nbytes)
207 {
208 	dma_unmap_single(osdev->dev, phy_addr, nbytes,
209 				__qdf_dma_dir_to_os(dir));
210 }
211 #ifdef __KERNEL__
212 
213 typedef __qdf_mempool_ctxt_t *__qdf_mempool_t;
214 
215 /**
216  * __qdf_mempool_init() - Create and initialize memory pool
217  * @osdev: platform device object
218  * @pool_addr: address of the pool created
219  * @elem_cnt: no. of elements in pool
220  * @elem_size: size of each pool element in bytes
221  * @flags: flags
222  *
223  * Return: Handle to memory pool or NULL if allocation failed
224  */
225 int __qdf_mempool_init(qdf_device_t osdev, __qdf_mempool_t *pool_addr,
226 		       int elem_cnt, size_t elem_size, u_int32_t flags);
227 
228 /**
229  * __qdf_mempool_destroy() - Destroy memory pool
230  * @osdev: platform device object
231  * @pool: memory pool
232  *
233  * Returns: none
234  */
235 void __qdf_mempool_destroy(qdf_device_t osdev, __qdf_mempool_t pool);
236 
237 /**
238  * __qdf_mempool_alloc() - Allocate an element memory pool
239  * @osdev: platform device object
240  * @pool: to memory pool
241  *
242  * Return: Pointer to the allocated element or NULL if the pool is empty
243  */
244 void *__qdf_mempool_alloc(qdf_device_t osdev, __qdf_mempool_t pool);
245 
246 /**
247  * __qdf_mempool_free() - Free a memory pool element
248  * @osdev: Platform device object
249  * @pool: Handle to memory pool
250  * @buf: Element to be freed
251  *
252  * Return: none
253  */
254 void __qdf_mempool_free(qdf_device_t osdev, __qdf_mempool_t pool, void *buf);
255 
256 /**
257  * __qdf_kmem_cache_create() - OS abstraction for cache creation
258  * @cache_name: Cache name
259  * @size: Size of the object to be created
260  *
261  * Return: Cache address on successful creation, else NULL
262  */
263 qdf_kmem_cache_t __qdf_kmem_cache_create(const char *cache_name,
264 					 qdf_size_t size);
265 
266 /**
267  * __qdf_kmem_cache_destroy() - OS abstraction for cache destruction
268  * @cache: Cache pointer
269  *
270  * Return: void
271  */
272 void __qdf_kmem_cache_destroy(qdf_kmem_cache_t cache);
273 
274 /**
275  * __qdf_kmem_cache_alloc() - Function to allocation object from a cache
276  * @cache: Cache address
277  *
278  * Return: Object from cache
279  *
280  */
281 void *__qdf_kmem_cache_alloc(qdf_kmem_cache_t cache);
282 
283 /**
284  * __qdf_kmem_cache_free() - Function to free cache object
285  * @cache: Cache address
286  * @node: Object to be returned to cache
287  *
288  * Return: void
289  */
290 void __qdf_kmem_cache_free(qdf_kmem_cache_t cache, void *node);
291 
292 #define QDF_RET_IP ((void *)_RET_IP_)
293 
294 #define __qdf_mempool_elem_size(_pool) ((_pool)->elem_size)
295 #endif
296 
297 /**
298  * __qdf_ioremap() - map bus memory into cpu space
299  * @HOST_CE_ADDRESS: bus address of the memory
300  * @HOST_CE_SIZE: memory size to map
301  */
302 #if (LINUX_VERSION_CODE >= KERNEL_VERSION(5, 6, 0))
303 #define __qdf_ioremap(HOST_CE_ADDRESS, HOST_CE_SIZE) \
304 		   ioremap(HOST_CE_ADDRESS, HOST_CE_SIZE)
305 #else
306 #define __qdf_ioremap(HOST_CE_ADDRESS, HOST_CE_SIZE) \
307 		   ioremap_nocache(HOST_CE_ADDRESS, HOST_CE_SIZE)
308 #endif
309 
310 /**
311  * __qdf_mem_smmu_s1_enabled() - Return SMMU stage 1 translation enable status
312  * @osdev: parent device instance
313  *
314  * Return: true if smmu s1 enabled, false if smmu s1 is bypassed
315  */
__qdf_mem_smmu_s1_enabled(qdf_device_t osdev)316 static inline bool __qdf_mem_smmu_s1_enabled(qdf_device_t osdev)
317 {
318 	return osdev->smmu_s1_enabled;
319 }
320 
321 #if IS_ENABLED(CONFIG_ARM_SMMU) && defined(ENABLE_SMMU_S1_TRANSLATION)
322 /**
323  * typedef __qdf_iommu_domain_t - abstraction for struct iommu_domain
324  */
325 typedef struct iommu_domain __qdf_iommu_domain_t;
326 
327 #if (LINUX_VERSION_CODE >= KERNEL_VERSION(5, 13, 0))
328 #if IS_ENABLED(CONFIG_QCOM_IOMMU_UTIL)
329 /**
330  * __qdf_iommu_attr_to_os() - Convert qdf iommu attribute to OS mapping
331  *			      configurations bitmap
332  * @attr: QDF iommu attribute
333  *
334  * Return: IOMMU mapping configuration bitmaps
335  */
__qdf_iommu_attr_to_os(enum qdf_iommu_attr attr)336 static inline int __qdf_iommu_attr_to_os(enum qdf_iommu_attr attr)
337 {
338 	switch (attr) {
339 	case QDF_DOMAIN_ATTR_S1_BYPASS:
340 		return QCOM_IOMMU_MAPPING_CONF_S1_BYPASS;
341 	case QDF_DOMAIN_ATTR_ATOMIC:
342 		return QCOM_IOMMU_MAPPING_CONF_ATOMIC;
343 	case QDF_DOMAIN_ATTR_FAST:
344 		return QCOM_IOMMU_MAPPING_CONF_FAST;
345 	default:
346 		return -EINVAL;
347 	}
348 }
349 
350 /**
351  * __qdf_iommu_domain_get_attr() - API to get iommu domain attributes
352  *
353  * @domain: iommu domain
354  * @attr: iommu attribute
355  * @data: data pointer
356  *
357  * Return: 0 for success, and negative values otherwise
358  */
359 static inline int
__qdf_iommu_domain_get_attr(__qdf_iommu_domain_t * domain,enum qdf_iommu_attr attr,void * data)360 __qdf_iommu_domain_get_attr(__qdf_iommu_domain_t *domain,
361 			    enum qdf_iommu_attr attr, void *data)
362 {
363 	int mapping_config;
364 	int mapping_bitmap;
365 	int *value;
366 
367 	mapping_bitmap = __qdf_iommu_attr_to_os(attr);
368 	if (mapping_bitmap < 0)
369 		return -EINVAL;
370 
371 	mapping_config = qcom_iommu_get_mappings_configuration(domain);
372 	if (mapping_config < 0)
373 		return -EINVAL;
374 
375 	value = data;
376 	*value = (mapping_config & mapping_bitmap) ? 1 : 0;
377 
378 	return 0;
379 }
380 #else /* !CONFIG_QCOM_IOMMU_UTIL */
381 static inline int
__qdf_iommu_domain_get_attr(__qdf_iommu_domain_t * domain,enum qdf_iommu_attr attr,void * data)382 __qdf_iommu_domain_get_attr(__qdf_iommu_domain_t *domain,
383 			    enum qdf_iommu_attr attr, void *data)
384 {
385 	return -ENOTSUPP;
386 }
387 #endif /* CONFIG_QCOM_IOMMU_UTIL */
388 #else
389 /**
390  * __qdf_iommu_attr_to_os() - Convert qdf iommu attribute to OS specific enum
391  * @attr: QDF iommu attribute
392  *
393  * Return: enum iommu_attr
394  */
395 static inline
__qdf_iommu_attr_to_os(enum qdf_iommu_attr attr)396 enum iommu_attr __qdf_iommu_attr_to_os(enum qdf_iommu_attr attr)
397 {
398 	switch (attr) {
399 	case QDF_DOMAIN_ATTR_GEOMETRY:
400 		return DOMAIN_ATTR_GEOMETRY;
401 	case QDF_DOMAIN_ATTR_PAGING:
402 		return DOMAIN_ATTR_PAGING;
403 	case QDF_DOMAIN_ATTR_WINDOWS:
404 		return DOMAIN_ATTR_WINDOWS;
405 	case QDF_DOMAIN_ATTR_FSL_PAMU_STASH:
406 		return DOMAIN_ATTR_FSL_PAMU_STASH;
407 	case QDF_DOMAIN_ATTR_FSL_PAMU_ENABLE:
408 		return DOMAIN_ATTR_FSL_PAMU_ENABLE;
409 	case QDF_DOMAIN_ATTR_FSL_PAMUV1:
410 		return DOMAIN_ATTR_FSL_PAMUV1;
411 	case QDF_DOMAIN_ATTR_NESTING:
412 		return DOMAIN_ATTR_NESTING;
413 	case QDF_DOMAIN_ATTR_DMA_USE_FLUSH_QUEUE:
414 		return DOMAIN_ATTR_DMA_USE_FLUSH_QUEUE;
415 	case QDF_DOMAIN_ATTR_CONTEXT_BANK:
416 		return DOMAIN_ATTR_CONTEXT_BANK;
417 	case QDF_DOMAIN_ATTR_NON_FATAL_FAULTS:
418 		return DOMAIN_ATTR_NON_FATAL_FAULTS;
419 	case QDF_DOMAIN_ATTR_S1_BYPASS:
420 		return DOMAIN_ATTR_S1_BYPASS;
421 	case QDF_DOMAIN_ATTR_ATOMIC:
422 		return DOMAIN_ATTR_ATOMIC;
423 	case QDF_DOMAIN_ATTR_SECURE_VMID:
424 		return DOMAIN_ATTR_SECURE_VMID;
425 	case QDF_DOMAIN_ATTR_FAST:
426 		return DOMAIN_ATTR_FAST;
427 	case QDF_DOMAIN_ATTR_PGTBL_INFO:
428 		return DOMAIN_ATTR_PGTBL_INFO;
429 	case QDF_DOMAIN_ATTR_USE_UPSTREAM_HINT:
430 		return DOMAIN_ATTR_USE_UPSTREAM_HINT;
431 	case QDF_DOMAIN_ATTR_EARLY_MAP:
432 		return DOMAIN_ATTR_EARLY_MAP;
433 	case QDF_DOMAIN_ATTR_PAGE_TABLE_IS_COHERENT:
434 		return DOMAIN_ATTR_PAGE_TABLE_IS_COHERENT;
435 	case QDF_DOMAIN_ATTR_PAGE_TABLE_FORCE_COHERENT:
436 		return DOMAIN_ATTR_PAGE_TABLE_FORCE_COHERENT;
437 	case QDF_DOMAIN_ATTR_USE_LLC_NWA:
438 		return DOMAIN_ATTR_USE_LLC_NWA;
439 	case QDF_DOMAIN_ATTR_SPLIT_TABLES:
440 		return DOMAIN_ATTR_SPLIT_TABLES;
441 	case QDF_DOMAIN_ATTR_FAULT_MODEL_NO_CFRE:
442 		return DOMAIN_ATTR_FAULT_MODEL_NO_CFRE;
443 	case QDF_DOMAIN_ATTR_FAULT_MODEL_NO_STALL:
444 		return DOMAIN_ATTR_FAULT_MODEL_NO_STALL;
445 	case QDF_DOMAIN_ATTR_FAULT_MODEL_HUPCF:
446 		return DOMAIN_ATTR_FAULT_MODEL_HUPCF;
447 	default:
448 		return DOMAIN_ATTR_EXTENDED_MAX;
449 	}
450 }
451 
452 /**
453  * __qdf_iommu_domain_get_attr() - API to get iommu domain attributes
454  *
455  * @domain: iommu domain
456  * @attr: iommu attribute
457  * @data: data pointer
458  *
459  * Return: iommu domain attr
460  */
461 static inline int
__qdf_iommu_domain_get_attr(__qdf_iommu_domain_t * domain,enum qdf_iommu_attr attr,void * data)462 __qdf_iommu_domain_get_attr(__qdf_iommu_domain_t *domain,
463 			    enum qdf_iommu_attr attr, void *data)
464 {
465 	return iommu_domain_get_attr(domain, __qdf_iommu_attr_to_os(attr),
466 				     data);
467 }
468 #endif
469 
470 #if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 19, 0))
471 /**
472  * __qdf_dev_get_domain() - get iommu domain from osdev
473  * @osdev: parent device instance
474  *
475  * Return: iommu domain
476  */
477 static inline struct iommu_domain *
__qdf_dev_get_domain(qdf_device_t osdev)478 __qdf_dev_get_domain(qdf_device_t osdev)
479 {
480 	return osdev->domain;
481 }
482 #else
483 static inline struct iommu_domain *
__qdf_dev_get_domain(qdf_device_t osdev)484 __qdf_dev_get_domain(qdf_device_t osdev)
485 {
486 	if (osdev->iommu_mapping)
487 		return osdev->iommu_mapping->domain;
488 
489 	return NULL;
490 }
491 #endif
492 
493 /**
494  * __qdf_mem_paddr_from_dmaaddr() - get actual physical address from dma_addr
495  * @osdev: parent device instance
496  * @dma_addr: dma_addr
497  *
498  * Get actual physical address from dma_addr based on SMMU enablement status.
499  * IF SMMU Stage 1 translation is enabled, DMA APIs return IO virtual address
500  * (IOVA) otherwise returns physical address. So get SMMU physical address
501  * mapping from IOVA.
502  *
503  * Return: dmaable physical address
504  */
505 static inline unsigned long
__qdf_mem_paddr_from_dmaaddr(qdf_device_t osdev,qdf_dma_addr_t dma_addr)506 __qdf_mem_paddr_from_dmaaddr(qdf_device_t osdev,
507 			     qdf_dma_addr_t dma_addr)
508 {
509 	struct iommu_domain *domain;
510 
511 	if (__qdf_mem_smmu_s1_enabled(osdev)) {
512 		domain = __qdf_dev_get_domain(osdev);
513 		if (domain)
514 			return iommu_iova_to_phys(domain, dma_addr);
515 	}
516 
517 	return dma_addr;
518 }
519 #else
520 static inline unsigned long
__qdf_mem_paddr_from_dmaaddr(qdf_device_t osdev,qdf_dma_addr_t dma_addr)521 __qdf_mem_paddr_from_dmaaddr(qdf_device_t osdev,
522 			     qdf_dma_addr_t dma_addr)
523 {
524 	return dma_addr;
525 }
526 #endif
527 
528 /**
529  * __qdf_os_mem_dma_get_sgtable() - Returns DMA memory scatter gather table
530  * @dev: device instance
531  * @sgt: scatter gather table pointer
532  * @cpu_addr: HLOS virtual address
533  * @dma_addr: dma/iova
534  * @size: allocated memory size
535  *
536  * Return: physical address
537  */
538 static inline int
__qdf_os_mem_dma_get_sgtable(struct device * dev,void * sgt,void * cpu_addr,qdf_dma_addr_t dma_addr,size_t size)539 __qdf_os_mem_dma_get_sgtable(struct device *dev, void *sgt, void *cpu_addr,
540 			     qdf_dma_addr_t dma_addr, size_t size)
541 {
542 	return dma_get_sgtable(dev, (struct sg_table *)sgt, cpu_addr, dma_addr,
543 				size);
544 }
545 
546 /**
547  * __qdf_os_mem_free_sgtable() - Free a previously allocated sg table
548  * @sgt: the mapped sg table header
549  *
550  * Return: None
551  */
552 static inline void
__qdf_os_mem_free_sgtable(struct sg_table * sgt)553 __qdf_os_mem_free_sgtable(struct sg_table *sgt)
554 {
555 	sg_free_table(sgt);
556 }
557 
558 /**
559  * __qdf_dma_get_sgtable_dma_addr()-Assigns DMA address to scatterlist elements
560  * @sgt: scatter gather table pointer
561  *
562  * Return: None
563  */
564 static inline void
__qdf_dma_get_sgtable_dma_addr(struct sg_table * sgt)565 __qdf_dma_get_sgtable_dma_addr(struct sg_table *sgt)
566 {
567 	struct scatterlist *sg;
568 	int i;
569 
570 	for_each_sg(sgt->sgl, sg, sgt->nents, i) {
571 		if (!sg)
572 			break;
573 
574 		sg->dma_address = sg_phys(sg);
575 	}
576 }
577 
578 /**
579  * __qdf_mem_get_dma_addr() - Return dma addr based on SMMU translation status
580  * @osdev: parent device instance
581  * @mem_info: Pointer to allocated memory information
582  *
583  * Based on smmu stage 1 translation enablement status, return corresponding dma
584  * address from qdf_mem_info_t. If stage 1 translation enabled, return
585  * IO virtual address otherwise return physical address.
586  *
587  * Return: dma address
588  */
__qdf_mem_get_dma_addr(qdf_device_t osdev,qdf_mem_info_t * mem_info)589 static inline qdf_dma_addr_t __qdf_mem_get_dma_addr(qdf_device_t osdev,
590 						    qdf_mem_info_t *mem_info)
591 {
592 	if (__qdf_mem_smmu_s1_enabled(osdev))
593 		return (qdf_dma_addr_t)mem_info->iova;
594 	else
595 		return (qdf_dma_addr_t)mem_info->pa;
596 }
597 
598 /**
599  * __qdf_mem_get_dma_addr_ptr() - Return DMA address storage pointer
600  * @osdev: parent device instance
601  * @mem_info: Pointer to allocated memory information
602  *
603  * Based on smmu stage 1 translation enablement status, return corresponding
604  * dma address pointer from qdf_mem_info_t structure. If stage 1 translation
605  * enabled, return pointer to IO virtual address otherwise return pointer to
606  * physical address
607  *
608  * Return: dma address storage pointer
609  */
610 static inline qdf_dma_addr_t *
__qdf_mem_get_dma_addr_ptr(qdf_device_t osdev,qdf_mem_info_t * mem_info)611 __qdf_mem_get_dma_addr_ptr(qdf_device_t osdev,
612 			   qdf_mem_info_t *mem_info)
613 {
614 	if (__qdf_mem_smmu_s1_enabled(osdev))
615 		return (qdf_dma_addr_t *)(&mem_info->iova);
616 	else
617 		return (qdf_dma_addr_t *)(&mem_info->pa);
618 }
619 
620 /**
621  * __qdf_update_mem_map_table() - Update DMA memory map info
622  * @osdev: Parent device instance
623  * @mem_info: Pointer to shared memory information
624  * @dma_addr: dma address
625  * @mem_size: memory size allocated
626  *
627  * Store DMA shared memory information
628  *
629  * Return: none
630  */
__qdf_update_mem_map_table(qdf_device_t osdev,qdf_mem_info_t * mem_info,qdf_dma_addr_t dma_addr,uint32_t mem_size)631 static inline void __qdf_update_mem_map_table(qdf_device_t osdev,
632 					      qdf_mem_info_t *mem_info,
633 					      qdf_dma_addr_t dma_addr,
634 					      uint32_t mem_size)
635 {
636 	mem_info->pa = __qdf_mem_paddr_from_dmaaddr(osdev, dma_addr);
637 	mem_info->iova = dma_addr;
638 	mem_info->size = mem_size;
639 }
640 
641 /**
642  * __qdf_mem_get_dma_size() - Return DMA memory size
643  * @osdev: parent device instance
644  * @mem_info: Pointer to allocated memory information
645  *
646  * Return: DMA memory size
647  */
648 static inline uint32_t
__qdf_mem_get_dma_size(qdf_device_t osdev,qdf_mem_info_t * mem_info)649 __qdf_mem_get_dma_size(qdf_device_t osdev,
650 		       qdf_mem_info_t *mem_info)
651 {
652 	return mem_info->size;
653 }
654 
655 /**
656  * __qdf_mem_set_dma_size() - Set DMA memory size
657  * @osdev: parent device instance
658  * @mem_info: Pointer to allocated memory information
659  * @mem_size: memory size allocated
660  *
661  * Return: none
662  */
663 static inline void
__qdf_mem_set_dma_size(qdf_device_t osdev,qdf_mem_info_t * mem_info,uint32_t mem_size)664 __qdf_mem_set_dma_size(qdf_device_t osdev,
665 		       qdf_mem_info_t *mem_info,
666 		       uint32_t mem_size)
667 {
668 	mem_info->size = mem_size;
669 }
670 
671 /**
672  * __qdf_mem_get_dma_pa() - Return DMA physical address
673  * @osdev: parent device instance
674  * @mem_info: Pointer to allocated memory information
675  *
676  * Return: DMA physical address
677  */
678 static inline qdf_dma_addr_t
__qdf_mem_get_dma_pa(qdf_device_t osdev,qdf_mem_info_t * mem_info)679 __qdf_mem_get_dma_pa(qdf_device_t osdev,
680 		     qdf_mem_info_t *mem_info)
681 {
682 	return mem_info->pa;
683 }
684 
685 /**
686  * __qdf_mem_set_dma_pa() - Set DMA physical address
687  * @osdev: parent device instance
688  * @mem_info: Pointer to allocated memory information
689  * @dma_pa: DMA phsical address
690  *
691  * Return: none
692  */
693 static inline void
__qdf_mem_set_dma_pa(qdf_device_t osdev,qdf_mem_info_t * mem_info,qdf_dma_addr_t dma_pa)694 __qdf_mem_set_dma_pa(qdf_device_t osdev,
695 		     qdf_mem_info_t *mem_info,
696 		     qdf_dma_addr_t dma_pa)
697 {
698 	mem_info->pa = dma_pa;
699 }
700 
701 
702 /**
703  * __qdf_mem_alloc_consistent() - allocates consistent qdf memory
704  * @osdev: OS device handle
705  * @dev: Pointer to device handle
706  * @size: Size to be allocated
707  * @paddr: Physical address
708  * @func: Function name of the call site
709  * @line: line numbe rof the call site
710  *
711  * Return: pointer of allocated memory or null if memory alloc fails
712  */
713 void *__qdf_mem_alloc_consistent(qdf_device_t osdev, void *dev,
714 				 qdf_size_t size, qdf_dma_addr_t *paddr,
715 				 const char *func, uint32_t line);
716 
717 /**
718  * __qdf_mem_malloc() - allocates QDF memory
719  * @size: Number of bytes of memory to allocate.
720  *
721  * @func: Function name of the call site
722  * @line: line numbe rof the call site
723  *
724  * This function will dynamicallly allocate the specified number of bytes of
725  * memory.
726  *
727  * Return:
728  * Upon successful allocate, returns a non-NULL pointer to the allocated
729  * memory.  If this function is unable to allocate the amount of memory
730  * specified (for any reason) it returns NULL.
731  */
732 void *__qdf_mem_malloc(qdf_size_t size, const char *func, uint32_t line);
733 
734 /**
735  * __qdf_mem_free() - free QDF memory
736  * @ptr: Pointer to the starting address of the memory to be freed.
737  *
738  * This function will free the memory pointed to by 'ptr'.
739  * Return: None
740  */
741 void __qdf_mem_free(void *ptr);
742 
743 /**
744  * __qdf_mem_valloc() - QDF virtual memory allocation API
745  * @size: Number of bytes of virtual memory to allocate.
746  * @func: Caller function name
747  * @line: Line number
748  *
749  * Return: A valid memory location on success, or NULL on failure
750  */
751 void *__qdf_mem_valloc(size_t size, const char *func, uint32_t line);
752 
753 /**
754  * __qdf_mem_vfree() - QDF API to free virtual memory
755  * @ptr: Pointer to the virtual memory to free
756  *
757  * Return: None
758  */
759 void __qdf_mem_vfree(void *ptr);
760 
761 /**
762  * __qdf_mem_virt_to_phys() - Convert virtual address to physical
763  * @vaddr: virtual address
764  *
765  * Return: physical address
766  */
767 #define __qdf_mem_virt_to_phys(vaddr) virt_to_phys(vaddr)
768 
769 #ifdef QCA_WIFI_MODULE_PARAMS_FROM_INI
770 /**
771  * __qdf_untracked_mem_malloc() - allocates non-QDF memory
772  * @size: Number of bytes of memory to allocate.
773  * @func: Function name of the call site
774  * @line: line number of the call site
775  *
776  * This function will dynamically allocate the specified number of bytes of
777  * memory. Memory allocated is not tracked by qdf memory debug framework.
778  *
779  * Return:
780  * Upon successful allocation, returns a non-NULL pointer to the allocated
781  * memory.  If this function is unable to allocate the amount of memory
782  * specified (for any reason) it returns NULL.
783  */
784 void *__qdf_untracked_mem_malloc(qdf_size_t size, const char *func,
785 				 uint32_t line);
786 
787 /**
788  * __qdf_untracked_mem_free() - free non-QDF memory
789  * @ptr: Pointer to the starting address of the memory to be freed.
790  *
791  * This function will free the memory pointed to by 'ptr'.
792  * Return: None
793  */
794 
795 void __qdf_untracked_mem_free(void *ptr);
796 #endif
797 
798 /**
799  * __qdf_mem_free_consistent() - free consistent qdf memory
800  * @osdev: OS device handle
801  * @dev: Pointer to device handle
802  * @size: Size to be allocated
803  * @vaddr: virtual address
804  * @paddr: Physical address
805  * @memctx: Pointer to DMA context
806  *
807  * Return: none
808  */
809 void __qdf_mem_free_consistent(qdf_device_t osdev, void *dev,
810 			       qdf_size_t size, void *vaddr,
811 			       qdf_dma_addr_t paddr, qdf_dma_context_t memctx);
812 
813 #endif /* __I_QDF_MEM_H */
814