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[thirdparty/qemu.git] / hw / dma / etraxfs_dma.c
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1ba13a5d
EI		 1/*
2 * QEMU ETRAX DMA Controller.
3 *
4 * Copyright (c) 2008 Edgar E. Iglesias, Axis Communications AB.
5 *
6 * Permission is hereby granted, free of charge, to any person obtaining a copy
7 * of this software and associated documentation files (the "Software"), to deal
8 * in the Software without restriction, including without limitation the rights
9 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
10 * copies of the Software, and to permit persons to whom the Software is
11 * furnished to do so, subject to the following conditions:
12 *
13 * The above copyright notice and this permission notice shall be included in
14 * all copies or substantial portions of the Software.
15 *
16 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
19 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
21 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
22 * THE SOFTWARE.
23 */
0430891c 24#include "qemu/osdep.h"
83c9f4ca 25#include "hw/hw.h"
022c62cb 26#include "exec/address-spaces.h"
492c30af 27#include "qemu-common.h"
9c17d615 28#include "sysemu/sysemu.h"
1ba13a5d 29
0d09e41a 30#include "hw/cris/etraxfs_dma.h"
1ba13a5d
EI		 31
32#define D(x)
33
c01c07bb
EI		 34#define RW_DATA (0x0 / 4)
35#define RW_SAVED_DATA (0x58 / 4)
36#define RW_SAVED_DATA_BUF (0x5c / 4)
37#define RW_GROUP (0x60 / 4)
38#define RW_GROUP_DOWN (0x7c / 4)
39#define RW_CMD (0x80 / 4)
40#define RW_CFG (0x84 / 4)
41#define RW_STAT (0x88 / 4)
42#define RW_INTR_MASK (0x8c / 4)
43#define RW_ACK_INTR (0x90 / 4)
44#define R_INTR (0x94 / 4)
45#define R_MASKED_INTR (0x98 / 4)
46#define RW_STREAM_CMD (0x9c / 4)
47
48#define DMA_REG_MAX (0x100 / 4)
1ba13a5d
EI		 49
50/* descriptors */
51
52// ------------------------------------------------------------ dma_descr_group
53typedef struct dma_descr_group {
41107bcb 54 uint32_t next;
1ba13a5d
EI		 55 unsigned eol : 1;
56 unsigned tol : 1;
57 unsigned bol : 1;
58 unsigned : 1;
59 unsigned intr : 1;
60 unsigned : 2;
61 unsigned en : 1;
62 unsigned : 7;
63 unsigned dis : 1;
64 unsigned md : 16;
65 struct dma_descr_group *up;
66 union {
67 struct dma_descr_context *context;
68 struct dma_descr_group *group;
69 } down;
70} dma_descr_group;
71
72// ---------------------------------------------------------- dma_descr_context
73typedef struct dma_descr_context {
41107bcb 74 uint32_t next;
1ba13a5d
EI		 75 unsigned eol : 1;
76 unsigned : 3;
77 unsigned intr : 1;
78 unsigned : 1;
79 unsigned store_mode : 1;
80 unsigned en : 1;
81 unsigned : 7;
82 unsigned dis : 1;
83 unsigned md0 : 16;
84 unsigned md1;
85 unsigned md2;
86 unsigned md3;
87 unsigned md4;
41107bcb
EI		 88 uint32_t saved_data;
89 uint32_t saved_data_buf;
1ba13a5d
EI		 90} dma_descr_context;
91
92// ------------------------------------------------------------- dma_descr_data
93typedef struct dma_descr_data {
41107bcb
EI		 94 uint32_t next;
95 uint32_t buf;
1ba13a5d
EI		 96 unsigned eol : 1;
97 unsigned : 2;
98 unsigned out_eop : 1;
99 unsigned intr : 1;
100 unsigned wait : 1;
101 unsigned : 2;
102 unsigned : 3;
103 unsigned in_eop : 1;
104 unsigned : 4;
105 unsigned md : 16;
41107bcb 106 uint32_t after;
1ba13a5d
EI		 107} dma_descr_data;
108
109/* Constants */
110enum {
111 regk_dma_ack_pkt = 0x00000100,
112 regk_dma_anytime = 0x00000001,
113 regk_dma_array = 0x00000008,
114 regk_dma_burst = 0x00000020,
115 regk_dma_client = 0x00000002,
116 regk_dma_copy_next = 0x00000010,
117 regk_dma_copy_up = 0x00000020,
118 regk_dma_data_at_eol = 0x00000001,
119 regk_dma_dis_c = 0x00000010,
120 regk_dma_dis_g = 0x00000020,
121 regk_dma_idle = 0x00000001,
122 regk_dma_intern = 0x00000004,
123 regk_dma_load_c = 0x00000200,
124 regk_dma_load_c_n = 0x00000280,
125 regk_dma_load_c_next = 0x00000240,
126 regk_dma_load_d = 0x00000140,
127 regk_dma_load_g = 0x00000300,
128 regk_dma_load_g_down = 0x000003c0,
129 regk_dma_load_g_next = 0x00000340,
130 regk_dma_load_g_up = 0x00000380,
131 regk_dma_next_en = 0x00000010,
132 regk_dma_next_pkt = 0x00000010,
133 regk_dma_no = 0x00000000,
134 regk_dma_only_at_wait = 0x00000000,
135 regk_dma_restore = 0x00000020,
136 regk_dma_rst = 0x00000001,
137 regk_dma_running = 0x00000004,
138 regk_dma_rw_cfg_default = 0x00000000,
139 regk_dma_rw_cmd_default = 0x00000000,
140 regk_dma_rw_intr_mask_default = 0x00000000,
141 regk_dma_rw_stat_default = 0x00000101,
142 regk_dma_rw_stream_cmd_default = 0x00000000,
143 regk_dma_save_down = 0x00000020,
144 regk_dma_save_up = 0x00000020,
145 regk_dma_set_reg = 0x00000050,
146 regk_dma_set_w_size1 = 0x00000190,
147 regk_dma_set_w_size2 = 0x000001a0,
148 regk_dma_set_w_size4 = 0x000001c0,
149 regk_dma_stopped = 0x00000002,
150 regk_dma_store_c = 0x00000002,
151 regk_dma_store_descr = 0x00000000,
152 regk_dma_store_g = 0x00000004,
153 regk_dma_store_md = 0x00000001,
154 regk_dma_sw = 0x00000008,
155 regk_dma_update_down = 0x00000020,
156 regk_dma_yes = 0x00000001
157};
158
159enum dma_ch_state
160{
4487fd34 161 RST = 1,
1ba13a5d
EI		 162 STOPPED = 2,
163 RUNNING = 4
164};
165
166struct fs_dma_channel
167{
96d7ddde 168 qemu_irq irq;
1ba13a5d
EI		 169 struct etraxfs_dma_client *client;
170
1ba13a5d
EI		 171 /* Internal status. */
172 int stream_cmd_src;
173 enum dma_ch_state state;
174
175 unsigned int input : 1;
176 unsigned int eol : 1;
177
178 struct dma_descr_group current_g;
179 struct dma_descr_context current_c;
180 struct dma_descr_data current_d;
181
66a0a2cb 182 /* Control registers. */
1ba13a5d
EI		 183 uint32_t regs[DMA_REG_MAX];
184};
185
186struct fs_dma_ctrl
187{
9dcb06ce 188 MemoryRegion mmio;
1ba13a5d
EI		 189 int nr_channels;
190 struct fs_dma_channel *channels;
492c30af
AL		 191
192 QEMUBH *bh;
1ba13a5d
EI		 193};
194
c01c07bb
EI		 195static void DMA_run(void *opaque);
196static int channel_out_run(struct fs_dma_ctrl *ctrl, int c);
197
1ba13a5d
EI		 198static inline uint32_t channel_reg(struct fs_dma_ctrl *ctrl, int c, int reg)
199{
200 return ctrl->channels[c].regs[reg];
201}
202
203static inline int channel_stopped(struct fs_dma_ctrl *ctrl, int c)
204{
205 return channel_reg(ctrl, c, RW_CFG) & 2;
206}
207
208static inline int channel_en(struct fs_dma_ctrl *ctrl, int c)
209{
210 return (channel_reg(ctrl, c, RW_CFG) & 1)
211 && ctrl->channels[c].client;
212}
213
a8170e5e 214static inline int fs_channel(hwaddr addr)
1ba13a5d
EI		 215{
216 /* Every channel has a 0x2000 ctrl register map. */
8da3ff18 217 return addr >> 13;
1ba13a5d
EI		 218}
219
d297f464 220#ifdef USE_THIS_DEAD_CODE
1ba13a5d
EI		 221static void channel_load_g(struct fs_dma_ctrl *ctrl, int c)
222{
a8170e5e 223 hwaddr addr = channel_reg(ctrl, c, RW_GROUP);
1ba13a5d
EI		 224
225 /* Load and decode. FIXME: handle endianness. */
226 cpu_physical_memory_read (addr,
227 (void *) &ctrl->channels[c].current_g,
228 sizeof ctrl->channels[c].current_g);
229}
230
231static void dump_c(int ch, struct dma_descr_context *c)
232{
233 printf("%s ch=%d\n", __func__, ch);
41107bcb
EI		 234 printf("next=%x\n", c->next);
235 printf("saved_data=%x\n", c->saved_data);
236 printf("saved_data_buf=%x\n", c->saved_data_buf);
1ba13a5d
EI		 237 printf("eol=%x\n", (uint32_t) c->eol);
238}
239
240static void dump_d(int ch, struct dma_descr_data *d)
241{
242 printf("%s ch=%d\n", __func__, ch);
41107bcb
EI		 243 printf("next=%x\n", d->next);
244 printf("buf=%x\n", d->buf);
245 printf("after=%x\n", d->after);
1ba13a5d
EI		 246 printf("intr=%x\n", (uint32_t) d->intr);
247 printf("out_eop=%x\n", (uint32_t) d->out_eop);
248 printf("in_eop=%x\n", (uint32_t) d->in_eop);
249 printf("eol=%x\n", (uint32_t) d->eol);
250}
d297f464 251#endif
1ba13a5d
EI		 252
253static void channel_load_c(struct fs_dma_ctrl *ctrl, int c)
254{
a8170e5e 255 hwaddr addr = channel_reg(ctrl, c, RW_GROUP_DOWN);
1ba13a5d
EI		 256
257 /* Load and decode. FIXME: handle endianness. */
258 cpu_physical_memory_read (addr,
259 (void *) &ctrl->channels[c].current_c,
260 sizeof ctrl->channels[c].current_c);
261
262 D(dump_c(c, &ctrl->channels[c].current_c));
263 /* I guess this should update the current pos. */
d297f464
EI		 264 ctrl->channels[c].regs[RW_SAVED_DATA] =
265 (uint32_t)(unsigned long)ctrl->channels[c].current_c.saved_data;
1ba13a5d 266 ctrl->channels[c].regs[RW_SAVED_DATA_BUF] =
d297f464 267 (uint32_t)(unsigned long)ctrl->channels[c].current_c.saved_data_buf;
1ba13a5d
EI		 268}
269
270static void channel_load_d(struct fs_dma_ctrl *ctrl, int c)
271{
a8170e5e 272 hwaddr addr = channel_reg(ctrl, c, RW_SAVED_DATA);
1ba13a5d
EI		 273
274 /* Load and decode. FIXME: handle endianness. */
41107bcb 275 D(printf("%s ch=%d addr=" TARGET_FMT_plx "\n", __func__, c, addr));
1ba13a5d
EI		 276 cpu_physical_memory_read (addr,
277 (void *) &ctrl->channels[c].current_d,
278 sizeof ctrl->channels[c].current_d);
279
280 D(dump_d(c, &ctrl->channels[c].current_d));
fa1bdde4 281 ctrl->channels[c].regs[RW_DATA] = addr;
a8303d18
EI		 282}
283
284static void channel_store_c(struct fs_dma_ctrl *ctrl, int c)
285{
a8170e5e 286 hwaddr addr = channel_reg(ctrl, c, RW_GROUP_DOWN);
a8303d18
EI		 287
288 /* Encode and store. FIXME: handle endianness. */
41107bcb 289 D(printf("%s ch=%d addr=" TARGET_FMT_plx "\n", __func__, c, addr));
a8303d18
EI		 290 D(dump_d(c, &ctrl->channels[c].current_d));
291 cpu_physical_memory_write (addr,
292 (void *) &ctrl->channels[c].current_c,
293 sizeof ctrl->channels[c].current_c);
1ba13a5d
EI		 294}
295
296static void channel_store_d(struct fs_dma_ctrl *ctrl, int c)
297{
a8170e5e 298 hwaddr addr = channel_reg(ctrl, c, RW_SAVED_DATA);
1ba13a5d 299
a8303d18 300 /* Encode and store. FIXME: handle endianness. */
41107bcb 301 D(printf("%s ch=%d addr=" TARGET_FMT_plx "\n", __func__, c, addr));
1ba13a5d
EI		 302 cpu_physical_memory_write (addr,
303 (void *) &ctrl->channels[c].current_d,
304 sizeof ctrl->channels[c].current_d);
305}
306
307static inline void channel_stop(struct fs_dma_ctrl *ctrl, int c)
308{
309 /* FIXME: */
310}
311
312static inline void channel_start(struct fs_dma_ctrl *ctrl, int c)
313{
314 if (ctrl->channels[c].client)
315 {
316 ctrl->channels[c].eol = 0;
317 ctrl->channels[c].state = RUNNING;
c01c07bb
EI		 318 if (!ctrl->channels[c].input)
319 channel_out_run(ctrl, c);
1ba13a5d
EI		 320 } else
321 printf("WARNING: starting DMA ch %d with no client\n", c);
1ab5f75c
EI		 322
323 qemu_bh_schedule_idle(ctrl->bh);
1ba13a5d
EI		 324}
325
326static void channel_continue(struct fs_dma_ctrl *ctrl, int c)
327{
328 if (!channel_en(ctrl, c)
329 || channel_stopped(ctrl, c)
330 || ctrl->channels[c].state != RUNNING
331 /* Only reload the current data descriptor if it has eol set. */
332 || !ctrl->channels[c].current_d.eol) {
333 D(printf("continue failed ch=%d state=%d stopped=%d en=%d eol=%d\n",
334 c, ctrl->channels[c].state,
335 channel_stopped(ctrl, c),
336 channel_en(ctrl,c),
337 ctrl->channels[c].eol));
338 D(dump_d(c, &ctrl->channels[c].current_d));
339 return;
340 }
341
342 /* Reload the current descriptor. */
343 channel_load_d(ctrl, c);
344
345 /* If the current descriptor cleared the eol flag and we had already
346 reached eol state, do the continue. */
347 if (!ctrl->channels[c].current_d.eol && ctrl->channels[c].eol) {
41107bcb 348 D(printf("continue %d ok %x\n", c,
1ba13a5d
EI		 349 ctrl->channels[c].current_d.next));
350 ctrl->channels[c].regs[RW_SAVED_DATA] =
d297f464 351 (uint32_t)(unsigned long)ctrl->channels[c].current_d.next;
1ba13a5d 352 channel_load_d(ctrl, c);
c01c07bb
EI		 353 ctrl->channels[c].regs[RW_SAVED_DATA_BUF] =
354 (uint32_t)(unsigned long)ctrl->channels[c].current_d.buf;
355
1ba13a5d
EI		 356 channel_start(ctrl, c);
357 }
a8303d18 358 ctrl->channels[c].regs[RW_SAVED_DATA_BUF] =
d297f464 359 (uint32_t)(unsigned long)ctrl->channels[c].current_d.buf;
1ba13a5d
EI		 360}
361
362static void channel_stream_cmd(struct fs_dma_ctrl *ctrl, int c, uint32_t v)
363{
364 unsigned int cmd = v & ((1 << 10) - 1);
365
d27b2e50
EI		 366 D(printf("%s ch=%d cmd=%x\n",
367 __func__, c, cmd));
1ba13a5d
EI		 368 if (cmd & regk_dma_load_d) {
369 channel_load_d(ctrl, c);
370 if (cmd & regk_dma_burst)
371 channel_start(ctrl, c);
372 }
373
374 if (cmd & regk_dma_load_c) {
375 channel_load_c(ctrl, c);
376 }
377}
378
379static void channel_update_irq(struct fs_dma_ctrl *ctrl, int c)
380{
381 D(printf("%s %d\n", __func__, c));
382 ctrl->channels[c].regs[R_INTR] &=
383 ~(ctrl->channels[c].regs[RW_ACK_INTR]);
384
385 ctrl->channels[c].regs[R_MASKED_INTR] =
386 ctrl->channels[c].regs[R_INTR]
387 & ctrl->channels[c].regs[RW_INTR_MASK];
388
389 D(printf("%s: chan=%d masked_intr=%x\n", __func__,
390 c,
391 ctrl->channels[c].regs[R_MASKED_INTR]));
392
96d7ddde 393 qemu_set_irq(ctrl->channels[c].irq,
7a3161ba 394 !!ctrl->channels[c].regs[R_MASKED_INTR]);
1ba13a5d
EI		 395}
396
1ab5f75c 397static int channel_out_run(struct fs_dma_ctrl *ctrl, int c)
1ba13a5d
EI		 398{
399 uint32_t len;
400 uint32_t saved_data_buf;
401 unsigned char buf[2 * 1024];
402
73a511de
LP		 403 struct dma_context_metadata meta;
404 bool send_context = true;
405
1ab5f75c
EI		 406 if (ctrl->channels[c].eol)
407 return 0;
408
409 do {
73a511de 410 bool out_eop;
41107bcb 411 D(printf("ch=%d buf=%x after=%x\n",
c968ef8d
EI		 412 c,
413 (uint32_t)ctrl->channels[c].current_d.buf,
41107bcb 414 (uint32_t)ctrl->channels[c].current_d.after));
c968ef8d 415
73a511de
LP		 416 if (send_context) {
417 if (ctrl->channels[c].client->client.metadata_push) {
418 meta.metadata = ctrl->channels[c].current_d.md;
419 ctrl->channels[c].client->client.metadata_push(
420 ctrl->channels[c].client->client.opaque,
421 &meta);
422 }
423 send_context = false;
424 }
425
c01c07bb
EI		 426 channel_load_d(ctrl, c);
427 saved_data_buf = channel_reg(ctrl, c, RW_SAVED_DATA_BUF);
ea0f49a7
EI		 428 len = (uint32_t)(unsigned long)
429 ctrl->channels[c].current_d.after;
c968ef8d
EI		 430 len -= saved_data_buf;
431
432 if (len > sizeof buf)
433 len = sizeof buf;
434 cpu_physical_memory_read (saved_data_buf, buf, len);
435
73a511de
LP		 436 out_eop = ((saved_data_buf + len) ==
437 ctrl->channels[c].current_d.after) &&
438 ctrl->channels[c].current_d.out_eop;
439
440 D(printf("channel %d pushes %x %u bytes eop=%u\n", c,
441 saved_data_buf, len, out_eop));
c968ef8d
EI		 442
443 if (ctrl->channels[c].client->client.push)
444 ctrl->channels[c].client->client.push(
445 ctrl->channels[c].client->client.opaque,
73a511de 446 buf, len, out_eop);
c968ef8d
EI		 447 else
448 printf("WARNING: DMA ch%d dataloss,"
449 " no attached client.\n", c);
450
451 saved_data_buf += len;
452
ea0f49a7
EI		 453 if (saved_data_buf == (uint32_t)(unsigned long)
454 ctrl->channels[c].current_d.after) {
c968ef8d
EI		 455 /* Done. Step to next. */
456 if (ctrl->channels[c].current_d.out_eop) {
73a511de 457 send_context = true;
c968ef8d
EI		 458 }
459 if (ctrl->channels[c].current_d.intr) {
c968ef8d 460 /* data intr. */
c01c07bb
EI		 461 D(printf("signal intr %d eol=%d\n",
462 len, ctrl->channels[c].current_d.eol));
c968ef8d
EI		 463 ctrl->channels[c].regs[R_INTR] |= (1 << 2);
464 channel_update_irq(ctrl, c);
465 }
c01c07bb 466 channel_store_d(ctrl, c);
c968ef8d
EI		 467 if (ctrl->channels[c].current_d.eol) {
468 D(printf("channel %d EOL\n", c));
469 ctrl->channels[c].eol = 1;
470
471 /* Mark the context as disabled. */
472 ctrl->channels[c].current_c.dis = 1;
473 channel_store_c(ctrl, c);
474
475 channel_stop(ctrl, c);
476 } else {
477 ctrl->channels[c].regs[RW_SAVED_DATA] =
ea0f49a7
EI		 478 (uint32_t)(unsigned long)ctrl->
479 channels[c].current_d.next;
c968ef8d
EI		 480 /* Load new descriptor. */
481 channel_load_d(ctrl, c);
482 saved_data_buf = (uint32_t)(unsigned long)
483 ctrl->channels[c].current_d.buf;
484 }
485
c968ef8d
EI		 486 ctrl->channels[c].regs[RW_SAVED_DATA_BUF] =
487 saved_data_buf;
488 D(dump_d(c, &ctrl->channels[c].current_d));
1ba13a5d 489 }
a8303d18 490 ctrl->channels[c].regs[RW_SAVED_DATA_BUF] = saved_data_buf;
1ab5f75c
EI		 491 } while (!ctrl->channels[c].eol);
492 return 1;
1ba13a5d
EI		 493}
494
495static int channel_in_process(struct fs_dma_ctrl *ctrl, int c,
496 unsigned char *buf, int buflen, int eop)
497{
498 uint32_t len;
499 uint32_t saved_data_buf;
500
501 if (ctrl->channels[c].eol == 1)
502 return 0;
503
c01c07bb 504 channel_load_d(ctrl, c);
1ba13a5d 505 saved_data_buf = channel_reg(ctrl, c, RW_SAVED_DATA_BUF);
ea0f49a7 506 len = (uint32_t)(unsigned long)ctrl->channels[c].current_d.after;
1ba13a5d
EI		 507 len -= saved_data_buf;
508
509 if (len > buflen)
510 len = buflen;
511
512 cpu_physical_memory_write (saved_data_buf, buf, len);
513 saved_data_buf += len;
514
d297f464 515 if (saved_data_buf ==
ea0f49a7 516 (uint32_t)(unsigned long)ctrl->channels[c].current_d.after
1ba13a5d
EI		 517 || eop) {
518 uint32_t r_intr = ctrl->channels[c].regs[R_INTR];
519
520 D(printf("in dscr end len=%d\n",
521 ctrl->channels[c].current_d.after
522 - ctrl->channels[c].current_d.buf));
41107bcb 523 ctrl->channels[c].current_d.after = saved_data_buf;
1ba13a5d
EI		 524
525 /* Done. Step to next. */
526 if (ctrl->channels[c].current_d.intr) {
527 /* TODO: signal eop to the client. */
528 /* data intr. */
529 ctrl->channels[c].regs[R_INTR] |= 3;
530 }
531 if (eop) {
532 ctrl->channels[c].current_d.in_eop = 1;
533 ctrl->channels[c].regs[R_INTR] |= 8;
534 }
535 if (r_intr != ctrl->channels[c].regs[R_INTR])
536 channel_update_irq(ctrl, c);
537
538 channel_store_d(ctrl, c);
539 D(dump_d(c, &ctrl->channels[c].current_d));
540
541 if (ctrl->channels[c].current_d.eol) {
542 D(printf("channel %d EOL\n", c));
543 ctrl->channels[c].eol = 1;
a8303d18
EI		 544
545 /* Mark the context as disabled. */
546 ctrl->channels[c].current_c.dis = 1;
547 channel_store_c(ctrl, c);
548
1ba13a5d
EI		 549 channel_stop(ctrl, c);
550 } else {
551 ctrl->channels[c].regs[RW_SAVED_DATA] =
ea0f49a7
EI		 552 (uint32_t)(unsigned long)ctrl->
553 channels[c].current_d.next;
1ba13a5d
EI		 554 /* Load new descriptor. */
555 channel_load_d(ctrl, c);
ea0f49a7 556 saved_data_buf = (uint32_t)(unsigned long)
a8303d18 557 ctrl->channels[c].current_d.buf;
1ba13a5d
EI		 558 }
559 }
560
561 ctrl->channels[c].regs[RW_SAVED_DATA_BUF] = saved_data_buf;
562 return len;
563}
564
1ab5f75c 565static inline int channel_in_run(struct fs_dma_ctrl *ctrl, int c)
1ba13a5d 566{
1ab5f75c 567 if (ctrl->channels[c].client->client.pull) {
1ba13a5d
EI		 568 ctrl->channels[c].client->client.pull(
569 ctrl->channels[c].client->client.opaque);
1ab5f75c
EI		 570 return 1;
571 } else
572 return 0;
1ba13a5d
EI		 573}
574
a8170e5e 575static uint32_t dma_rinvalid (void *opaque, hwaddr addr)
1ba13a5d 576{
41107bcb 577 hw_error("Unsupported short raccess. reg=" TARGET_FMT_plx "\n", addr);
1ba13a5d
EI		 578 return 0;
579}
580
9dcb06ce 581static uint64_t
a8170e5e 582dma_read(void *opaque, hwaddr addr, unsigned int size)
1ba13a5d
EI		 583{
584 struct fs_dma_ctrl *ctrl = opaque;
585 int c;
586 uint32_t r = 0;
587
9dcb06ce
EI		 588 if (size != 4) {
589 dma_rinvalid(opaque, addr);
590 }
591
e6320485 592 /* Make addr relative to this channel and bounded to nr regs. */
8da3ff18 593 c = fs_channel(addr);
e6320485 594 addr &= 0xff;
c01c07bb 595 addr >>= 2;
1ba13a5d 596 switch (addr)
a8303d18 597 {
1ba13a5d
EI		 598 case RW_STAT:
599 r = ctrl->channels[c].state & 7;
600 r |= ctrl->channels[c].eol << 5;
601 r |= ctrl->channels[c].stream_cmd_src << 8;
602 break;
603
a8303d18 604 default:
1ba13a5d 605 r = ctrl->channels[c].regs[addr];
41107bcb 606 D(printf ("%s c=%d addr=" TARGET_FMT_plx "\n",
d27b2e50 607 __func__, c, addr));
a8303d18
EI		 608 break;
609 }
1ba13a5d
EI		 610 return r;
611}
612
613static void
a8170e5e 614dma_winvalid (void *opaque, hwaddr addr, uint32_t value)
1ba13a5d 615{
41107bcb 616 hw_error("Unsupported short waccess. reg=" TARGET_FMT_plx "\n", addr);
1ba13a5d
EI		 617}
618
4487fd34
EI		 619static void
620dma_update_state(struct fs_dma_ctrl *ctrl, int c)
621{
d11cf8cc
EI		 622 if (ctrl->channels[c].regs[RW_CFG] & 2)
623 ctrl->channels[c].state = STOPPED;
624 if (!(ctrl->channels[c].regs[RW_CFG] & 1))
625 ctrl->channels[c].state = RST;
4487fd34
EI		 626}
627
1ba13a5d 628static void
a8170e5e 629dma_write(void *opaque, hwaddr addr,
9dcb06ce 630 uint64_t val64, unsigned int size)
1ba13a5d
EI		 631{
632 struct fs_dma_ctrl *ctrl = opaque;
9dcb06ce 633 uint32_t value = val64;
1ba13a5d
EI		 634 int c;
635
9dcb06ce
EI		 636 if (size != 4) {
637 dma_winvalid(opaque, addr, value);
638 }
639
e6320485 640 /* Make addr relative to this channel and bounded to nr regs. */
8da3ff18 641 c = fs_channel(addr);
e6320485 642 addr &= 0xff;
c01c07bb 643 addr >>= 2;
1ba13a5d 644 switch (addr)
a8303d18 645 {
1ba13a5d 646 case RW_DATA:
fa1bdde4 647 ctrl->channels[c].regs[addr] = value;
1ba13a5d
EI		 648 break;
649
650 case RW_CFG:
651 ctrl->channels[c].regs[addr] = value;
4487fd34 652 dma_update_state(ctrl, c);
1ba13a5d
EI		 653 break;
654 case RW_CMD:
655 /* continue. */
4487fd34
EI		 656 if (value & ~1)
657 printf("Invalid store to ch=%d RW_CMD %x\n",
658 c, value);
1ba13a5d
EI		 659 ctrl->channels[c].regs[addr] = value;
660 channel_continue(ctrl, c);
661 break;
662
663 case RW_SAVED_DATA:
664 case RW_SAVED_DATA_BUF:
665 case RW_GROUP:
666 case RW_GROUP_DOWN:
667 ctrl->channels[c].regs[addr] = value;
668 break;
669
670 case RW_ACK_INTR:
671 case RW_INTR_MASK:
672 ctrl->channels[c].regs[addr] = value;
673 channel_update_irq(ctrl, c);
674 if (addr == RW_ACK_INTR)
675 ctrl->channels[c].regs[RW_ACK_INTR] = 0;
676 break;
677
678 case RW_STREAM_CMD:
4487fd34
EI		 679 if (value & ~1023)
680 printf("Invalid store to ch=%d "
681 "RW_STREAMCMD %x\n",
682 c, value);
1ba13a5d 683 ctrl->channels[c].regs[addr] = value;
d27b2e50 684 D(printf("stream_cmd ch=%d\n", c));
1ba13a5d
EI		 685 channel_stream_cmd(ctrl, c, value);
686 break;
687
a8303d18 688 default:
41107bcb
EI		 689 D(printf ("%s c=%d " TARGET_FMT_plx "\n",
690 __func__, c, addr));
a8303d18 691 break;
1ba13a5d
EI		 692 }
693}
694
9dcb06ce
EI		 695static const MemoryRegionOps dma_ops = {
696 .read = dma_read,
697 .write = dma_write,
698 .endianness = DEVICE_NATIVE_ENDIAN,
699 .valid = {
700 .min_access_size = 1,
701 .max_access_size = 4
702 }
1ba13a5d
EI		 703};
704
1ab5f75c 705static int etraxfs_dmac_run(void *opaque)
1ba13a5d
EI		 706{
707 struct fs_dma_ctrl *ctrl = opaque;
708 int i;
709 int p = 0;
710
711 for (i = 0;
712 i < ctrl->nr_channels;
713 i++)
714 {
715 if (ctrl->channels[i].state == RUNNING)
716 {
1ab5f75c
EI		 717 if (ctrl->channels[i].input) {
718 p += channel_in_run(ctrl, i);
719 } else {
720 p += channel_out_run(ctrl, i);
721 }
1ba13a5d
EI		 722 }
723 }
1ab5f75c 724 return p;
1ba13a5d
EI		 725}
726
727int etraxfs_dmac_input(struct etraxfs_dma_client *client,
728 void *buf, int len, int eop)
729{
730 return channel_in_process(client->ctrl, client->channel,
731 buf, len, eop);
732}
733
734/* Connect an IRQ line with a channel. */
735void etraxfs_dmac_connect(void *opaque, int c, qemu_irq *line, int input)
736{
737 struct fs_dma_ctrl *ctrl = opaque;
96d7ddde 738 ctrl->channels[c].irq = *line;
1ba13a5d
EI		 739 ctrl->channels[c].input = input;
740}
741
742void etraxfs_dmac_connect_client(void *opaque, int c,
743 struct etraxfs_dma_client *cl)
744{
745 struct fs_dma_ctrl *ctrl = opaque;
746 cl->ctrl = ctrl;
747 cl->channel = c;
748 ctrl->channels[c].client = cl;
749}
750
751
492c30af 752static void DMA_run(void *opaque)
fa1bdde4 753{
492c30af 754 struct fs_dma_ctrl *etraxfs_dmac = opaque;
1ab5f75c
EI		 755 int p = 1;
756
1354869c 757 if (runstate_is_running())
1ab5f75c
EI		 758 p = etraxfs_dmac_run(etraxfs_dmac);
759
760 if (p)
761 qemu_bh_schedule_idle(etraxfs_dmac->bh);
fa1bdde4
EI		 762}
763
a8170e5e 764void *etraxfs_dmac_init(hwaddr base, int nr_channels)
1ba13a5d
EI		 765{
766 struct fs_dma_ctrl *ctrl = NULL;
1ba13a5d 767
7267c094 768 ctrl = g_malloc0(sizeof *ctrl);
1ba13a5d 769
492c30af 770 ctrl->bh = qemu_bh_new(DMA_run, ctrl);
492c30af 771
1ba13a5d 772 ctrl->nr_channels = nr_channels;
7267c094 773 ctrl->channels = g_malloc0(sizeof ctrl->channels[0] * nr_channels);
1ba13a5d 774
2c9b15ca 775 memory_region_init_io(&ctrl->mmio, NULL, &dma_ops, ctrl, "etraxfs-dma",
9dcb06ce
EI		 776 nr_channels * 0x2000);
777 memory_region_add_subregion(get_system_memory(), base, &ctrl->mmio);
778
1ba13a5d 779 return ctrl;
1ba13a5d 780}
Mirror of https://git.qemu.org/git/qemu.git