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1 // SPDX-License-Identifier: GPL-2.0-or-later
2 /*
3     buffer queues.
4     Copyright (C) 2003-2004  Kevin Thayer <nufan_wfk at yahoo.com>
5     Copyright (C) 2004  Chris Kennedy <c@groovy.org>
6     Copyright (C) 2005-2007  Hans Verkuil <hverkuil@xs4all.nl>
7 
8  */
9 
10 #include "ivtv-driver.h"
11 #include "ivtv-queue.h"
12 
ivtv_buf_copy_from_user(struct ivtv_stream * s,struct ivtv_buffer * buf,const char __user * src,int copybytes)13 int ivtv_buf_copy_from_user(struct ivtv_stream *s, struct ivtv_buffer *buf, const char __user *src, int copybytes)
14 {
15 	if (s->buf_size - buf->bytesused < copybytes)
16 		copybytes = s->buf_size - buf->bytesused;
17 	if (copy_from_user(buf->buf + buf->bytesused, src, copybytes)) {
18 		return -EFAULT;
19 	}
20 	buf->bytesused += copybytes;
21 	return copybytes;
22 }
23 
ivtv_buf_swap(struct ivtv_buffer * buf)24 void ivtv_buf_swap(struct ivtv_buffer *buf)
25 {
26 	int i;
27 
28 	for (i = 0; i < buf->bytesused; i += 4)
29 		swab32s((u32 *)(buf->buf + i));
30 }
31 
ivtv_queue_init(struct ivtv_queue * q)32 void ivtv_queue_init(struct ivtv_queue *q)
33 {
34 	INIT_LIST_HEAD(&q->list);
35 	q->buffers = 0;
36 	q->length = 0;
37 	q->bytesused = 0;
38 }
39 
ivtv_enqueue(struct ivtv_stream * s,struct ivtv_buffer * buf,struct ivtv_queue * q)40 void ivtv_enqueue(struct ivtv_stream *s, struct ivtv_buffer *buf, struct ivtv_queue *q)
41 {
42 	unsigned long flags;
43 
44 	/* clear the buffer if it is going to be enqueued to the free queue */
45 	if (q == &s->q_free) {
46 		buf->bytesused = 0;
47 		buf->readpos = 0;
48 		buf->b_flags = 0;
49 		buf->dma_xfer_cnt = 0;
50 	}
51 	spin_lock_irqsave(&s->qlock, flags);
52 	list_add_tail(&buf->list, &q->list);
53 	q->buffers++;
54 	q->length += s->buf_size;
55 	q->bytesused += buf->bytesused - buf->readpos;
56 	spin_unlock_irqrestore(&s->qlock, flags);
57 }
58 
ivtv_dequeue(struct ivtv_stream * s,struct ivtv_queue * q)59 struct ivtv_buffer *ivtv_dequeue(struct ivtv_stream *s, struct ivtv_queue *q)
60 {
61 	struct ivtv_buffer *buf = NULL;
62 	unsigned long flags;
63 
64 	spin_lock_irqsave(&s->qlock, flags);
65 	if (!list_empty(&q->list)) {
66 		buf = list_entry(q->list.next, struct ivtv_buffer, list);
67 		list_del_init(q->list.next);
68 		q->buffers--;
69 		q->length -= s->buf_size;
70 		q->bytesused -= buf->bytesused - buf->readpos;
71 	}
72 	spin_unlock_irqrestore(&s->qlock, flags);
73 	return buf;
74 }
75 
ivtv_queue_move_buf(struct ivtv_stream * s,struct ivtv_queue * from,struct ivtv_queue * to,int clear)76 static void ivtv_queue_move_buf(struct ivtv_stream *s, struct ivtv_queue *from,
77 		struct ivtv_queue *to, int clear)
78 {
79 	struct ivtv_buffer *buf = list_entry(from->list.next, struct ivtv_buffer, list);
80 
81 	list_move_tail(from->list.next, &to->list);
82 	from->buffers--;
83 	from->length -= s->buf_size;
84 	from->bytesused -= buf->bytesused - buf->readpos;
85 	/* special handling for q_free */
86 	if (clear)
87 		buf->bytesused = buf->readpos = buf->b_flags = buf->dma_xfer_cnt = 0;
88 	to->buffers++;
89 	to->length += s->buf_size;
90 	to->bytesused += buf->bytesused - buf->readpos;
91 }
92 
93 /* Move 'needed_bytes' worth of buffers from queue 'from' into queue 'to'.
94    If 'needed_bytes' == 0, then move all buffers from 'from' into 'to'.
95    If 'steal' != NULL, then buffers may also taken from that queue if
96    needed, but only if 'from' is the free queue.
97 
98    The buffer is automatically cleared if it goes to the free queue. It is
99    also cleared if buffers need to be taken from the 'steal' queue and
100    the 'from' queue is the free queue.
101 
102    When 'from' is q_free, then needed_bytes is compared to the total
103    available buffer length, otherwise needed_bytes is compared to the
104    bytesused value. For the 'steal' queue the total available buffer
105    length is always used.
106 
107    -ENOMEM is returned if the buffers could not be obtained, 0 if all
108    buffers where obtained from the 'from' list and if non-zero then
109    the number of stolen buffers is returned. */
ivtv_queue_move(struct ivtv_stream * s,struct ivtv_queue * from,struct ivtv_queue * steal,struct ivtv_queue * to,int needed_bytes)110 int ivtv_queue_move(struct ivtv_stream *s, struct ivtv_queue *from, struct ivtv_queue *steal,
111 		    struct ivtv_queue *to, int needed_bytes)
112 {
113 	unsigned long flags;
114 	int rc = 0;
115 	int from_free = from == &s->q_free;
116 	int to_free = to == &s->q_free;
117 	int bytes_available, bytes_steal;
118 
119 	spin_lock_irqsave(&s->qlock, flags);
120 	if (needed_bytes == 0) {
121 		from_free = 1;
122 		needed_bytes = from->length;
123 	}
124 
125 	bytes_available = from_free ? from->length : from->bytesused;
126 	bytes_steal = (from_free && steal) ? steal->length : 0;
127 
128 	if (bytes_available + bytes_steal < needed_bytes) {
129 		spin_unlock_irqrestore(&s->qlock, flags);
130 		return -ENOMEM;
131 	}
132 	while (steal && bytes_available < needed_bytes) {
133 		struct ivtv_buffer *buf = list_entry(steal->list.prev, struct ivtv_buffer, list);
134 		u16 dma_xfer_cnt = buf->dma_xfer_cnt;
135 
136 		/* move buffers from the tail of the 'steal' queue to the tail of the
137 		   'from' queue. Always copy all the buffers with the same dma_xfer_cnt
138 		   value, this ensures that you do not end up with partial frame data
139 		   if one frame is stored in multiple buffers. */
140 		while (dma_xfer_cnt == buf->dma_xfer_cnt) {
141 			list_move_tail(steal->list.prev, &from->list);
142 			rc++;
143 			steal->buffers--;
144 			steal->length -= s->buf_size;
145 			steal->bytesused -= buf->bytesused - buf->readpos;
146 			buf->bytesused = buf->readpos = buf->b_flags = buf->dma_xfer_cnt = 0;
147 			from->buffers++;
148 			from->length += s->buf_size;
149 			bytes_available += s->buf_size;
150 			if (list_empty(&steal->list))
151 				break;
152 			buf = list_entry(steal->list.prev, struct ivtv_buffer, list);
153 		}
154 	}
155 	if (from_free) {
156 		u32 old_length = to->length;
157 
158 		while (to->length - old_length < needed_bytes) {
159 			ivtv_queue_move_buf(s, from, to, 1);
160 		}
161 	}
162 	else {
163 		u32 old_bytesused = to->bytesused;
164 
165 		while (to->bytesused - old_bytesused < needed_bytes) {
166 			ivtv_queue_move_buf(s, from, to, to_free);
167 		}
168 	}
169 	spin_unlock_irqrestore(&s->qlock, flags);
170 	return rc;
171 }
172 
ivtv_flush_queues(struct ivtv_stream * s)173 void ivtv_flush_queues(struct ivtv_stream *s)
174 {
175 	ivtv_queue_move(s, &s->q_io, NULL, &s->q_free, 0);
176 	ivtv_queue_move(s, &s->q_full, NULL, &s->q_free, 0);
177 	ivtv_queue_move(s, &s->q_dma, NULL, &s->q_free, 0);
178 	ivtv_queue_move(s, &s->q_predma, NULL, &s->q_free, 0);
179 }
180 
ivtv_stream_alloc(struct ivtv_stream * s)181 int ivtv_stream_alloc(struct ivtv_stream *s)
182 {
183 	struct ivtv *itv = s->itv;
184 	int SGsize = sizeof(struct ivtv_sg_host_element) * s->buffers;
185 	int i;
186 
187 	if (s->buffers == 0)
188 		return 0;
189 
190 	IVTV_DEBUG_INFO("Allocate %s%s stream: %d x %d buffers (%dkB total)\n",
191 		s->dma != DMA_NONE ? "DMA " : "",
192 		s->name, s->buffers, s->buf_size, s->buffers * s->buf_size / 1024);
193 
194 	s->sg_pending = kzalloc(SGsize, GFP_KERNEL|__GFP_NOWARN);
195 	if (s->sg_pending == NULL) {
196 		IVTV_ERR("Could not allocate sg_pending for %s stream\n", s->name);
197 		return -ENOMEM;
198 	}
199 	s->sg_pending_size = 0;
200 
201 	s->sg_processing = kzalloc(SGsize, GFP_KERNEL|__GFP_NOWARN);
202 	if (s->sg_processing == NULL) {
203 		IVTV_ERR("Could not allocate sg_processing for %s stream\n", s->name);
204 		kfree(s->sg_pending);
205 		s->sg_pending = NULL;
206 		return -ENOMEM;
207 	}
208 	s->sg_processing_size = 0;
209 
210 	s->sg_dma = kzalloc(sizeof(struct ivtv_sg_element),
211 					GFP_KERNEL|__GFP_NOWARN);
212 	if (s->sg_dma == NULL) {
213 		IVTV_ERR("Could not allocate sg_dma for %s stream\n", s->name);
214 		kfree(s->sg_pending);
215 		s->sg_pending = NULL;
216 		kfree(s->sg_processing);
217 		s->sg_processing = NULL;
218 		return -ENOMEM;
219 	}
220 	if (ivtv_might_use_dma(s)) {
221 		s->sg_handle = dma_map_single(&itv->pdev->dev, s->sg_dma,
222 					      sizeof(struct ivtv_sg_element),
223 					      DMA_TO_DEVICE);
224 		ivtv_stream_sync_for_cpu(s);
225 	}
226 
227 	/* allocate stream buffers. Initially all buffers are in q_free. */
228 	for (i = 0; i < s->buffers; i++) {
229 		struct ivtv_buffer *buf = kzalloc(sizeof(struct ivtv_buffer),
230 						GFP_KERNEL|__GFP_NOWARN);
231 
232 		if (buf == NULL)
233 			break;
234 		buf->buf = kmalloc(s->buf_size + 256, GFP_KERNEL|__GFP_NOWARN);
235 		if (buf->buf == NULL) {
236 			kfree(buf);
237 			break;
238 		}
239 		INIT_LIST_HEAD(&buf->list);
240 		if (ivtv_might_use_dma(s)) {
241 			buf->dma_handle = dma_map_single(&s->itv->pdev->dev,
242 				buf->buf, s->buf_size + 256, s->dma);
243 			ivtv_buf_sync_for_cpu(s, buf);
244 		}
245 		ivtv_enqueue(s, buf, &s->q_free);
246 	}
247 	if (i == s->buffers)
248 		return 0;
249 	IVTV_ERR("Couldn't allocate buffers for %s stream\n", s->name);
250 	ivtv_stream_free(s);
251 	return -ENOMEM;
252 }
253 
ivtv_stream_free(struct ivtv_stream * s)254 void ivtv_stream_free(struct ivtv_stream *s)
255 {
256 	struct ivtv_buffer *buf;
257 
258 	/* move all buffers to q_free */
259 	ivtv_flush_queues(s);
260 
261 	/* empty q_free */
262 	while ((buf = ivtv_dequeue(s, &s->q_free))) {
263 		if (ivtv_might_use_dma(s))
264 			dma_unmap_single(&s->itv->pdev->dev, buf->dma_handle,
265 					 s->buf_size + 256, s->dma);
266 		kfree(buf->buf);
267 		kfree(buf);
268 	}
269 
270 	/* Free SG Array/Lists */
271 	if (s->sg_dma != NULL) {
272 		if (s->sg_handle != IVTV_DMA_UNMAPPED) {
273 			dma_unmap_single(&s->itv->pdev->dev, s->sg_handle,
274 					 sizeof(struct ivtv_sg_element),
275 					 DMA_TO_DEVICE);
276 			s->sg_handle = IVTV_DMA_UNMAPPED;
277 		}
278 		kfree(s->sg_pending);
279 		kfree(s->sg_processing);
280 		kfree(s->sg_dma);
281 		s->sg_pending = NULL;
282 		s->sg_processing = NULL;
283 		s->sg_dma = NULL;
284 		s->sg_pending_size = 0;
285 		s->sg_processing_size = 0;
286 	}
287 }
288