xref: /linux/drivers/misc/mei/dma-ring.c (revision 6fdcba32711044c35c0e1b094cbd8f3f0b4472c9)
1 // SPDX-License-Identifier: GPL-2.0
2 /*
3  * Copyright(c) 2016-2018 Intel Corporation. All rights reserved.
4  */
5 #include <linux/dma-mapping.h>
6 #include <linux/mei.h>
7 
8 #include "mei_dev.h"
9 
10 /**
11  * mei_dmam_dscr_alloc() - allocate a managed coherent buffer
12  *     for the dma descriptor
13  * @dev: mei_device
14  * @dscr: dma descriptor
15  *
16  * Return:
17  * * 0       - on success or zero allocation request
18  * * -EINVAL - if size is not power of 2
19  * * -ENOMEM - of allocation has failed
20  */
21 static int mei_dmam_dscr_alloc(struct mei_device *dev,
22 			       struct mei_dma_dscr *dscr)
23 {
24 	if (!dscr->size)
25 		return 0;
26 
27 	if (WARN_ON(!is_power_of_2(dscr->size)))
28 		return -EINVAL;
29 
30 	if (dscr->vaddr)
31 		return 0;
32 
33 	dscr->vaddr = dmam_alloc_coherent(dev->dev, dscr->size, &dscr->daddr,
34 					  GFP_KERNEL);
35 	if (!dscr->vaddr)
36 		return -ENOMEM;
37 
38 	return 0;
39 }
40 
41 /**
42  * mei_dmam_dscr_free() - free a managed coherent buffer
43  *     from the dma descriptor
44  * @dev: mei_device
45  * @dscr: dma descriptor
46  */
47 static void mei_dmam_dscr_free(struct mei_device *dev,
48 			       struct mei_dma_dscr *dscr)
49 {
50 	if (!dscr->vaddr)
51 		return;
52 
53 	dmam_free_coherent(dev->dev, dscr->size, dscr->vaddr, dscr->daddr);
54 	dscr->vaddr = NULL;
55 }
56 
57 /**
58  * mei_dmam_ring_free() - free dma ring buffers
59  * @dev: mei device
60  */
61 void mei_dmam_ring_free(struct mei_device *dev)
62 {
63 	int i;
64 
65 	for (i = 0; i < DMA_DSCR_NUM; i++)
66 		mei_dmam_dscr_free(dev, &dev->dr_dscr[i]);
67 }
68 
69 /**
70  * mei_dmam_ring_alloc() - allocate dma ring buffers
71  * @dev: mei device
72  *
73  * Return: -ENOMEM on allocation failure 0 otherwise
74  */
75 int mei_dmam_ring_alloc(struct mei_device *dev)
76 {
77 	int i;
78 
79 	for (i = 0; i < DMA_DSCR_NUM; i++)
80 		if (mei_dmam_dscr_alloc(dev, &dev->dr_dscr[i]))
81 			goto err;
82 
83 	return 0;
84 
85 err:
86 	mei_dmam_ring_free(dev);
87 	return -ENOMEM;
88 }
89 
90 /**
91  * mei_dma_ring_is_allocated() - check if dma ring is allocated
92  * @dev: mei device
93  *
94  * Return: true if dma ring is allocated
95  */
96 bool mei_dma_ring_is_allocated(struct mei_device *dev)
97 {
98 	return !!dev->dr_dscr[DMA_DSCR_HOST].vaddr;
99 }
100 
101 static inline
102 struct hbm_dma_ring_ctrl *mei_dma_ring_ctrl(struct mei_device *dev)
103 {
104 	return (struct hbm_dma_ring_ctrl *)dev->dr_dscr[DMA_DSCR_CTRL].vaddr;
105 }
106 
107 /**
108  * mei_dma_ring_reset() - reset the dma control block
109  * @dev: mei device
110  */
111 void mei_dma_ring_reset(struct mei_device *dev)
112 {
113 	struct hbm_dma_ring_ctrl *ctrl = mei_dma_ring_ctrl(dev);
114 
115 	if (!ctrl)
116 		return;
117 
118 	memset(ctrl, 0, sizeof(*ctrl));
119 }
120 
121 /**
122  * mei_dma_copy_from() - copy from dma ring into buffer
123  * @dev: mei device
124  * @buf: data buffer
125  * @offset: offset in slots.
126  * @n: number of slots to copy.
127  */
128 static size_t mei_dma_copy_from(struct mei_device *dev, unsigned char *buf,
129 				u32 offset, u32 n)
130 {
131 	unsigned char *dbuf = dev->dr_dscr[DMA_DSCR_DEVICE].vaddr;
132 
133 	size_t b_offset = offset << 2;
134 	size_t b_n = n << 2;
135 
136 	memcpy(buf, dbuf + b_offset, b_n);
137 
138 	return b_n;
139 }
140 
141 /**
142  * mei_dma_copy_to() - copy to a buffer to the dma ring
143  * @dev: mei device
144  * @buf: data buffer
145  * @offset: offset in slots.
146  * @n: number of slots to copy.
147  */
148 static size_t mei_dma_copy_to(struct mei_device *dev, unsigned char *buf,
149 			      u32 offset, u32 n)
150 {
151 	unsigned char *hbuf = dev->dr_dscr[DMA_DSCR_HOST].vaddr;
152 
153 	size_t b_offset = offset << 2;
154 	size_t b_n = n << 2;
155 
156 	memcpy(hbuf + b_offset, buf, b_n);
157 
158 	return b_n;
159 }
160 
161 /**
162  * mei_dma_ring_read() - read data from the ring
163  * @dev: mei device
164  * @buf: buffer to read into: may be NULL in case of droping the data.
165  * @len: length to read.
166  */
167 void mei_dma_ring_read(struct mei_device *dev, unsigned char *buf, u32 len)
168 {
169 	struct hbm_dma_ring_ctrl *ctrl = mei_dma_ring_ctrl(dev);
170 	u32 dbuf_depth;
171 	u32 rd_idx, rem, slots;
172 
173 	if (WARN_ON(!ctrl))
174 		return;
175 
176 	dev_dbg(dev->dev, "reading from dma %u bytes\n", len);
177 
178 	if (!len)
179 		return;
180 
181 	dbuf_depth = dev->dr_dscr[DMA_DSCR_DEVICE].size >> 2;
182 	rd_idx = READ_ONCE(ctrl->dbuf_rd_idx) & (dbuf_depth - 1);
183 	slots = mei_data2slots(len);
184 
185 	/* if buf is NULL we drop the packet by advancing the pointer.*/
186 	if (!buf)
187 		goto out;
188 
189 	if (rd_idx + slots > dbuf_depth) {
190 		buf += mei_dma_copy_from(dev, buf, rd_idx, dbuf_depth - rd_idx);
191 		rem = slots - (dbuf_depth - rd_idx);
192 		rd_idx = 0;
193 	} else {
194 		rem = slots;
195 	}
196 
197 	mei_dma_copy_from(dev, buf, rd_idx, rem);
198 out:
199 	WRITE_ONCE(ctrl->dbuf_rd_idx, ctrl->dbuf_rd_idx + slots);
200 }
201 
202 static inline u32 mei_dma_ring_hbuf_depth(struct mei_device *dev)
203 {
204 	return dev->dr_dscr[DMA_DSCR_HOST].size >> 2;
205 }
206 
207 /**
208  * mei_dma_ring_empty_slots() - calaculate number of empty slots in dma ring
209  * @dev: mei_device
210  *
211  * Return: number of empty slots
212  */
213 u32 mei_dma_ring_empty_slots(struct mei_device *dev)
214 {
215 	struct hbm_dma_ring_ctrl *ctrl = mei_dma_ring_ctrl(dev);
216 	u32 wr_idx, rd_idx, hbuf_depth, empty;
217 
218 	if (!mei_dma_ring_is_allocated(dev))
219 		return 0;
220 
221 	if (WARN_ON(!ctrl))
222 		return 0;
223 
224 	/* easier to work in slots */
225 	hbuf_depth = mei_dma_ring_hbuf_depth(dev);
226 	rd_idx = READ_ONCE(ctrl->hbuf_rd_idx);
227 	wr_idx = READ_ONCE(ctrl->hbuf_wr_idx);
228 
229 	if (rd_idx > wr_idx)
230 		empty = rd_idx - wr_idx;
231 	else
232 		empty = hbuf_depth - (wr_idx - rd_idx);
233 
234 	return empty;
235 }
236 
237 /**
238  * mei_dma_ring_write - write data to dma ring host buffer
239  *
240  * @dev: mei_device
241  * @buf: data will be written
242  * @len: data length
243  */
244 void mei_dma_ring_write(struct mei_device *dev, unsigned char *buf, u32 len)
245 {
246 	struct hbm_dma_ring_ctrl *ctrl = mei_dma_ring_ctrl(dev);
247 	u32 hbuf_depth;
248 	u32 wr_idx, rem, slots;
249 
250 	if (WARN_ON(!ctrl))
251 		return;
252 
253 	dev_dbg(dev->dev, "writing to dma %u bytes\n", len);
254 	hbuf_depth = mei_dma_ring_hbuf_depth(dev);
255 	wr_idx = READ_ONCE(ctrl->hbuf_wr_idx) & (hbuf_depth - 1);
256 	slots = mei_data2slots(len);
257 
258 	if (wr_idx + slots > hbuf_depth) {
259 		buf += mei_dma_copy_to(dev, buf, wr_idx, hbuf_depth - wr_idx);
260 		rem = slots - (hbuf_depth - wr_idx);
261 		wr_idx = 0;
262 	} else {
263 		rem = slots;
264 	}
265 
266 	mei_dma_copy_to(dev, buf, wr_idx, rem);
267 
268 	WRITE_ONCE(ctrl->hbuf_wr_idx, ctrl->hbuf_wr_idx + slots);
269 }
270