1 // SPDX-License-Identifier: GPL-2.0 2 /* 3 * Texas Instruments CPDMA Driver 4 * 5 * Copyright (C) 2010 Texas Instruments 6 * 7 */ 8 #include <linux/kernel.h> 9 #include <linux/spinlock.h> 10 #include <linux/device.h> 11 #include <linux/module.h> 12 #include <linux/slab.h> 13 #include <linux/err.h> 14 #include <linux/dma-mapping.h> 15 #include <linux/io.h> 16 #include <linux/delay.h> 17 #include <linux/genalloc.h> 18 #include "davinci_cpdma.h" 19 20 /* DMA Registers */ 21 #define CPDMA_TXIDVER 0x00 22 #define CPDMA_TXCONTROL 0x04 23 #define CPDMA_TXTEARDOWN 0x08 24 #define CPDMA_RXIDVER 0x10 25 #define CPDMA_RXCONTROL 0x14 26 #define CPDMA_SOFTRESET 0x1c 27 #define CPDMA_RXTEARDOWN 0x18 28 #define CPDMA_TX_PRI0_RATE 0x30 29 #define CPDMA_TXINTSTATRAW 0x80 30 #define CPDMA_TXINTSTATMASKED 0x84 31 #define CPDMA_TXINTMASKSET 0x88 32 #define CPDMA_TXINTMASKCLEAR 0x8c 33 #define CPDMA_MACINVECTOR 0x90 34 #define CPDMA_MACEOIVECTOR 0x94 35 #define CPDMA_RXINTSTATRAW 0xa0 36 #define CPDMA_RXINTSTATMASKED 0xa4 37 #define CPDMA_RXINTMASKSET 0xa8 38 #define CPDMA_RXINTMASKCLEAR 0xac 39 #define CPDMA_DMAINTSTATRAW 0xb0 40 #define CPDMA_DMAINTSTATMASKED 0xb4 41 #define CPDMA_DMAINTMASKSET 0xb8 42 #define CPDMA_DMAINTMASKCLEAR 0xbc 43 #define CPDMA_DMAINT_HOSTERR BIT(1) 44 45 /* the following exist only if has_ext_regs is set */ 46 #define CPDMA_DMACONTROL 0x20 47 #define CPDMA_DMASTATUS 0x24 48 #define CPDMA_RXBUFFOFS 0x28 49 #define CPDMA_EM_CONTROL 0x2c 50 51 /* Descriptor mode bits */ 52 #define CPDMA_DESC_SOP BIT(31) 53 #define CPDMA_DESC_EOP BIT(30) 54 #define CPDMA_DESC_OWNER BIT(29) 55 #define CPDMA_DESC_EOQ BIT(28) 56 #define CPDMA_DESC_TD_COMPLETE BIT(27) 57 #define CPDMA_DESC_PASS_CRC BIT(26) 58 #define CPDMA_DESC_TO_PORT_EN BIT(20) 59 #define CPDMA_TO_PORT_SHIFT 16 60 #define CPDMA_DESC_PORT_MASK (BIT(18) | BIT(17) | BIT(16)) 61 #define CPDMA_DESC_CRC_LEN 4 62 63 #define CPDMA_TEARDOWN_VALUE 0xfffffffc 64 65 #define CPDMA_MAX_RLIM_CNT 16384 66 67 struct cpdma_desc { 68 /* hardware fields */ 69 u32 hw_next; 70 u32 hw_buffer; 71 u32 hw_len; 72 u32 hw_mode; 73 /* software fields */ 74 void *sw_token; 75 u32 sw_buffer; 76 u32 sw_len; 77 }; 78 79 struct cpdma_desc_pool { 80 phys_addr_t phys; 81 dma_addr_t hw_addr; 82 void __iomem *iomap; /* ioremap map */ 83 void *cpumap; /* dma_alloc map */ 84 int desc_size, mem_size; 85 int num_desc; 86 struct device *dev; 87 struct gen_pool *gen_pool; 88 }; 89 90 enum cpdma_state { 91 CPDMA_STATE_IDLE, 92 CPDMA_STATE_ACTIVE, 93 CPDMA_STATE_TEARDOWN, 94 }; 95 96 struct cpdma_ctlr { 97 enum cpdma_state state; 98 struct cpdma_params params; 99 struct device *dev; 100 struct cpdma_desc_pool *pool; 101 spinlock_t lock; 102 struct cpdma_chan *channels[2 * CPDMA_MAX_CHANNELS]; 103 int chan_num; 104 int num_rx_desc; /* RX descriptors number */ 105 int num_tx_desc; /* TX descriptors number */ 106 }; 107 108 struct cpdma_chan { 109 struct cpdma_desc __iomem *head, *tail; 110 void __iomem *hdp, *cp, *rxfree; 111 enum cpdma_state state; 112 struct cpdma_ctlr *ctlr; 113 int chan_num; 114 spinlock_t lock; 115 int count; 116 u32 desc_num; 117 u32 mask; 118 cpdma_handler_fn handler; 119 enum dma_data_direction dir; 120 struct cpdma_chan_stats stats; 121 /* offsets into dmaregs */ 122 int int_set, int_clear, td; 123 int weight; 124 u32 rate_factor; 125 u32 rate; 126 }; 127 128 struct cpdma_control_info { 129 u32 reg; 130 u32 shift, mask; 131 int access; 132 #define ACCESS_RO BIT(0) 133 #define ACCESS_WO BIT(1) 134 #define ACCESS_RW (ACCESS_RO | ACCESS_WO) 135 }; 136 137 struct submit_info { 138 struct cpdma_chan *chan; 139 int directed; 140 void *token; 141 void *data_virt; 142 dma_addr_t data_dma; 143 int len; 144 }; 145 146 static struct cpdma_control_info controls[] = { 147 [CPDMA_TX_RLIM] = {CPDMA_DMACONTROL, 8, 0xffff, ACCESS_RW}, 148 [CPDMA_CMD_IDLE] = {CPDMA_DMACONTROL, 3, 1, ACCESS_WO}, 149 [CPDMA_COPY_ERROR_FRAMES] = {CPDMA_DMACONTROL, 4, 1, ACCESS_RW}, 150 [CPDMA_RX_OFF_LEN_UPDATE] = {CPDMA_DMACONTROL, 2, 1, ACCESS_RW}, 151 [CPDMA_RX_OWNERSHIP_FLIP] = {CPDMA_DMACONTROL, 1, 1, ACCESS_RW}, 152 [CPDMA_TX_PRIO_FIXED] = {CPDMA_DMACONTROL, 0, 1, ACCESS_RW}, 153 [CPDMA_STAT_IDLE] = {CPDMA_DMASTATUS, 31, 1, ACCESS_RO}, 154 [CPDMA_STAT_TX_ERR_CODE] = {CPDMA_DMASTATUS, 20, 0xf, ACCESS_RW}, 155 [CPDMA_STAT_TX_ERR_CHAN] = {CPDMA_DMASTATUS, 16, 0x7, ACCESS_RW}, 156 [CPDMA_STAT_RX_ERR_CODE] = {CPDMA_DMASTATUS, 12, 0xf, ACCESS_RW}, 157 [CPDMA_STAT_RX_ERR_CHAN] = {CPDMA_DMASTATUS, 8, 0x7, ACCESS_RW}, 158 [CPDMA_RX_BUFFER_OFFSET] = {CPDMA_RXBUFFOFS, 0, 0xffff, ACCESS_RW}, 159 }; 160 161 #define tx_chan_num(chan) (chan) 162 #define rx_chan_num(chan) ((chan) + CPDMA_MAX_CHANNELS) 163 #define is_rx_chan(chan) ((chan)->chan_num >= CPDMA_MAX_CHANNELS) 164 #define is_tx_chan(chan) (!is_rx_chan(chan)) 165 #define __chan_linear(chan_num) ((chan_num) & (CPDMA_MAX_CHANNELS - 1)) 166 #define chan_linear(chan) __chan_linear((chan)->chan_num) 167 168 /* The following make access to common cpdma_ctlr params more readable */ 169 #define dmaregs params.dmaregs 170 #define num_chan params.num_chan 171 172 /* various accessors */ 173 #define dma_reg_read(ctlr, ofs) readl((ctlr)->dmaregs + (ofs)) 174 #define chan_read(chan, fld) readl((chan)->fld) 175 #define desc_read(desc, fld) readl(&(desc)->fld) 176 #define dma_reg_write(ctlr, ofs, v) writel(v, (ctlr)->dmaregs + (ofs)) 177 #define chan_write(chan, fld, v) writel(v, (chan)->fld) 178 #define desc_write(desc, fld, v) writel((u32)(v), &(desc)->fld) 179 180 #define cpdma_desc_to_port(chan, mode, directed) \ 181 do { \ 182 if (!is_rx_chan(chan) && ((directed == 1) || \ 183 (directed == 2))) \ 184 mode |= (CPDMA_DESC_TO_PORT_EN | \ 185 (directed << CPDMA_TO_PORT_SHIFT)); \ 186 } while (0) 187 188 #define CPDMA_DMA_EXT_MAP BIT(16) 189 190 static void cpdma_desc_pool_destroy(struct cpdma_ctlr *ctlr) 191 { 192 struct cpdma_desc_pool *pool = ctlr->pool; 193 194 if (!pool) 195 return; 196 197 WARN(gen_pool_size(pool->gen_pool) != gen_pool_avail(pool->gen_pool), 198 "cpdma_desc_pool size %zd != avail %zd", 199 gen_pool_size(pool->gen_pool), 200 gen_pool_avail(pool->gen_pool)); 201 if (pool->cpumap) 202 dma_free_coherent(ctlr->dev, pool->mem_size, pool->cpumap, 203 pool->phys); 204 } 205 206 /* 207 * Utility constructs for a cpdma descriptor pool. Some devices (e.g. davinci 208 * emac) have dedicated on-chip memory for these descriptors. Some other 209 * devices (e.g. cpsw switches) use plain old memory. Descriptor pools 210 * abstract out these details 211 */ 212 static int cpdma_desc_pool_create(struct cpdma_ctlr *ctlr) 213 { 214 struct cpdma_params *cpdma_params = &ctlr->params; 215 struct cpdma_desc_pool *pool; 216 int ret = -ENOMEM; 217 218 pool = devm_kzalloc(ctlr->dev, sizeof(*pool), GFP_KERNEL); 219 if (!pool) 220 goto gen_pool_create_fail; 221 ctlr->pool = pool; 222 223 pool->mem_size = cpdma_params->desc_mem_size; 224 pool->desc_size = ALIGN(sizeof(struct cpdma_desc), 225 cpdma_params->desc_align); 226 pool->num_desc = pool->mem_size / pool->desc_size; 227 228 if (cpdma_params->descs_pool_size) { 229 /* recalculate memory size required cpdma descriptor pool 230 * basing on number of descriptors specified by user and 231 * if memory size > CPPI internal RAM size (desc_mem_size) 232 * then switch to use DDR 233 */ 234 pool->num_desc = cpdma_params->descs_pool_size; 235 pool->mem_size = pool->desc_size * pool->num_desc; 236 if (pool->mem_size > cpdma_params->desc_mem_size) 237 cpdma_params->desc_mem_phys = 0; 238 } 239 240 pool->gen_pool = devm_gen_pool_create(ctlr->dev, ilog2(pool->desc_size), 241 -1, "cpdma"); 242 if (IS_ERR(pool->gen_pool)) { 243 ret = PTR_ERR(pool->gen_pool); 244 dev_err(ctlr->dev, "pool create failed %d\n", ret); 245 goto gen_pool_create_fail; 246 } 247 248 if (cpdma_params->desc_mem_phys) { 249 pool->phys = cpdma_params->desc_mem_phys; 250 pool->iomap = devm_ioremap(ctlr->dev, pool->phys, 251 pool->mem_size); 252 pool->hw_addr = cpdma_params->desc_hw_addr; 253 } else { 254 pool->cpumap = dma_alloc_coherent(ctlr->dev, pool->mem_size, 255 &pool->hw_addr, GFP_KERNEL); 256 pool->iomap = (void __iomem __force *)pool->cpumap; 257 pool->phys = pool->hw_addr; /* assumes no IOMMU, don't use this value */ 258 } 259 260 if (!pool->iomap) 261 goto gen_pool_create_fail; 262 263 ret = gen_pool_add_virt(pool->gen_pool, (unsigned long)pool->iomap, 264 pool->phys, pool->mem_size, -1); 265 if (ret < 0) { 266 dev_err(ctlr->dev, "pool add failed %d\n", ret); 267 goto gen_pool_add_virt_fail; 268 } 269 270 return 0; 271 272 gen_pool_add_virt_fail: 273 cpdma_desc_pool_destroy(ctlr); 274 gen_pool_create_fail: 275 ctlr->pool = NULL; 276 return ret; 277 } 278 279 static inline dma_addr_t desc_phys(struct cpdma_desc_pool *pool, 280 struct cpdma_desc __iomem *desc) 281 { 282 if (!desc) 283 return 0; 284 return pool->hw_addr + (__force long)desc - (__force long)pool->iomap; 285 } 286 287 static inline struct cpdma_desc __iomem * 288 desc_from_phys(struct cpdma_desc_pool *pool, dma_addr_t dma) 289 { 290 return dma ? pool->iomap + dma - pool->hw_addr : NULL; 291 } 292 293 static struct cpdma_desc __iomem * 294 cpdma_desc_alloc(struct cpdma_desc_pool *pool) 295 { 296 return (struct cpdma_desc __iomem *) 297 gen_pool_alloc(pool->gen_pool, pool->desc_size); 298 } 299 300 static void cpdma_desc_free(struct cpdma_desc_pool *pool, 301 struct cpdma_desc __iomem *desc, int num_desc) 302 { 303 gen_pool_free(pool->gen_pool, (unsigned long)desc, pool->desc_size); 304 } 305 306 static int _cpdma_control_set(struct cpdma_ctlr *ctlr, int control, int value) 307 { 308 struct cpdma_control_info *info = &controls[control]; 309 u32 val; 310 311 if (!ctlr->params.has_ext_regs) 312 return -ENOTSUPP; 313 314 if (ctlr->state != CPDMA_STATE_ACTIVE) 315 return -EINVAL; 316 317 if (control < 0 || control >= ARRAY_SIZE(controls)) 318 return -ENOENT; 319 320 if ((info->access & ACCESS_WO) != ACCESS_WO) 321 return -EPERM; 322 323 val = dma_reg_read(ctlr, info->reg); 324 val &= ~(info->mask << info->shift); 325 val |= (value & info->mask) << info->shift; 326 dma_reg_write(ctlr, info->reg, val); 327 328 return 0; 329 } 330 331 static int _cpdma_control_get(struct cpdma_ctlr *ctlr, int control) 332 { 333 struct cpdma_control_info *info = &controls[control]; 334 int ret; 335 336 if (!ctlr->params.has_ext_regs) 337 return -ENOTSUPP; 338 339 if (ctlr->state != CPDMA_STATE_ACTIVE) 340 return -EINVAL; 341 342 if (control < 0 || control >= ARRAY_SIZE(controls)) 343 return -ENOENT; 344 345 if ((info->access & ACCESS_RO) != ACCESS_RO) 346 return -EPERM; 347 348 ret = (dma_reg_read(ctlr, info->reg) >> info->shift) & info->mask; 349 return ret; 350 } 351 352 /* cpdma_chan_set_chan_shaper - set shaper for a channel 353 * Has to be called under ctlr lock 354 */ 355 static int cpdma_chan_set_chan_shaper(struct cpdma_chan *chan) 356 { 357 struct cpdma_ctlr *ctlr = chan->ctlr; 358 u32 rate_reg; 359 u32 rmask; 360 int ret; 361 362 if (!chan->rate) 363 return 0; 364 365 rate_reg = CPDMA_TX_PRI0_RATE + 4 * chan->chan_num; 366 dma_reg_write(ctlr, rate_reg, chan->rate_factor); 367 368 rmask = _cpdma_control_get(ctlr, CPDMA_TX_RLIM); 369 rmask |= chan->mask; 370 371 ret = _cpdma_control_set(ctlr, CPDMA_TX_RLIM, rmask); 372 return ret; 373 } 374 375 static int cpdma_chan_on(struct cpdma_chan *chan) 376 { 377 struct cpdma_ctlr *ctlr = chan->ctlr; 378 struct cpdma_desc_pool *pool = ctlr->pool; 379 unsigned long flags; 380 381 spin_lock_irqsave(&chan->lock, flags); 382 if (chan->state != CPDMA_STATE_IDLE) { 383 spin_unlock_irqrestore(&chan->lock, flags); 384 return -EBUSY; 385 } 386 if (ctlr->state != CPDMA_STATE_ACTIVE) { 387 spin_unlock_irqrestore(&chan->lock, flags); 388 return -EINVAL; 389 } 390 dma_reg_write(ctlr, chan->int_set, chan->mask); 391 chan->state = CPDMA_STATE_ACTIVE; 392 if (chan->head) { 393 chan_write(chan, hdp, desc_phys(pool, chan->head)); 394 if (chan->rxfree) 395 chan_write(chan, rxfree, chan->count); 396 } 397 398 spin_unlock_irqrestore(&chan->lock, flags); 399 return 0; 400 } 401 402 /* cpdma_chan_fit_rate - set rate for a channel and check if it's possible. 403 * rmask - mask of rate limited channels 404 * Returns min rate in Kb/s 405 */ 406 static int cpdma_chan_fit_rate(struct cpdma_chan *ch, u32 rate, 407 u32 *rmask, int *prio_mode) 408 { 409 struct cpdma_ctlr *ctlr = ch->ctlr; 410 struct cpdma_chan *chan; 411 u32 old_rate = ch->rate; 412 u32 new_rmask = 0; 413 int rlim = 0; 414 int i; 415 416 for (i = tx_chan_num(0); i < tx_chan_num(CPDMA_MAX_CHANNELS); i++) { 417 chan = ctlr->channels[i]; 418 if (!chan) 419 continue; 420 421 if (chan == ch) 422 chan->rate = rate; 423 424 if (chan->rate) { 425 rlim = 1; 426 new_rmask |= chan->mask; 427 continue; 428 } 429 430 if (rlim) 431 goto err; 432 } 433 434 *rmask = new_rmask; 435 *prio_mode = rlim; 436 return 0; 437 438 err: 439 ch->rate = old_rate; 440 dev_err(ctlr->dev, "Upper cpdma ch%d is not rate limited\n", 441 chan->chan_num); 442 return -EINVAL; 443 } 444 445 static u32 cpdma_chan_set_factors(struct cpdma_ctlr *ctlr, 446 struct cpdma_chan *ch) 447 { 448 u32 delta = UINT_MAX, prev_delta = UINT_MAX, best_delta = UINT_MAX; 449 u32 best_send_cnt = 0, best_idle_cnt = 0; 450 u32 new_rate, best_rate = 0, rate_reg; 451 u64 send_cnt, idle_cnt; 452 u32 min_send_cnt, freq; 453 u64 divident, divisor; 454 455 if (!ch->rate) { 456 ch->rate_factor = 0; 457 goto set_factor; 458 } 459 460 freq = ctlr->params.bus_freq_mhz * 1000 * 32; 461 if (!freq) { 462 dev_err(ctlr->dev, "The bus frequency is not set\n"); 463 return -EINVAL; 464 } 465 466 min_send_cnt = freq - ch->rate; 467 send_cnt = DIV_ROUND_UP(min_send_cnt, ch->rate); 468 while (send_cnt <= CPDMA_MAX_RLIM_CNT) { 469 divident = ch->rate * send_cnt; 470 divisor = min_send_cnt; 471 idle_cnt = DIV_ROUND_CLOSEST_ULL(divident, divisor); 472 473 divident = freq * idle_cnt; 474 divisor = idle_cnt + send_cnt; 475 new_rate = DIV_ROUND_CLOSEST_ULL(divident, divisor); 476 477 delta = new_rate >= ch->rate ? new_rate - ch->rate : delta; 478 if (delta < best_delta) { 479 best_delta = delta; 480 best_send_cnt = send_cnt; 481 best_idle_cnt = idle_cnt; 482 best_rate = new_rate; 483 484 if (!delta) 485 break; 486 } 487 488 if (prev_delta >= delta) { 489 prev_delta = delta; 490 send_cnt++; 491 continue; 492 } 493 494 idle_cnt++; 495 divident = freq * idle_cnt; 496 send_cnt = DIV_ROUND_CLOSEST_ULL(divident, ch->rate); 497 send_cnt -= idle_cnt; 498 prev_delta = UINT_MAX; 499 } 500 501 ch->rate = best_rate; 502 ch->rate_factor = best_send_cnt | (best_idle_cnt << 16); 503 504 set_factor: 505 rate_reg = CPDMA_TX_PRI0_RATE + 4 * ch->chan_num; 506 dma_reg_write(ctlr, rate_reg, ch->rate_factor); 507 return 0; 508 } 509 510 struct cpdma_ctlr *cpdma_ctlr_create(struct cpdma_params *params) 511 { 512 struct cpdma_ctlr *ctlr; 513 514 ctlr = devm_kzalloc(params->dev, sizeof(*ctlr), GFP_KERNEL); 515 if (!ctlr) 516 return NULL; 517 518 ctlr->state = CPDMA_STATE_IDLE; 519 ctlr->params = *params; 520 ctlr->dev = params->dev; 521 ctlr->chan_num = 0; 522 spin_lock_init(&ctlr->lock); 523 524 if (cpdma_desc_pool_create(ctlr)) 525 return NULL; 526 /* split pool equally between RX/TX by default */ 527 ctlr->num_tx_desc = ctlr->pool->num_desc / 2; 528 ctlr->num_rx_desc = ctlr->pool->num_desc - ctlr->num_tx_desc; 529 530 if (WARN_ON(ctlr->num_chan > CPDMA_MAX_CHANNELS)) 531 ctlr->num_chan = CPDMA_MAX_CHANNELS; 532 return ctlr; 533 } 534 535 int cpdma_ctlr_start(struct cpdma_ctlr *ctlr) 536 { 537 struct cpdma_chan *chan; 538 unsigned long flags; 539 int i, prio_mode; 540 541 spin_lock_irqsave(&ctlr->lock, flags); 542 if (ctlr->state != CPDMA_STATE_IDLE) { 543 spin_unlock_irqrestore(&ctlr->lock, flags); 544 return -EBUSY; 545 } 546 547 if (ctlr->params.has_soft_reset) { 548 unsigned timeout = 10 * 100; 549 550 dma_reg_write(ctlr, CPDMA_SOFTRESET, 1); 551 while (timeout) { 552 if (dma_reg_read(ctlr, CPDMA_SOFTRESET) == 0) 553 break; 554 udelay(10); 555 timeout--; 556 } 557 WARN_ON(!timeout); 558 } 559 560 for (i = 0; i < ctlr->num_chan; i++) { 561 writel(0, ctlr->params.txhdp + 4 * i); 562 writel(0, ctlr->params.rxhdp + 4 * i); 563 writel(0, ctlr->params.txcp + 4 * i); 564 writel(0, ctlr->params.rxcp + 4 * i); 565 } 566 567 dma_reg_write(ctlr, CPDMA_RXINTMASKCLEAR, 0xffffffff); 568 dma_reg_write(ctlr, CPDMA_TXINTMASKCLEAR, 0xffffffff); 569 570 dma_reg_write(ctlr, CPDMA_TXCONTROL, 1); 571 dma_reg_write(ctlr, CPDMA_RXCONTROL, 1); 572 573 ctlr->state = CPDMA_STATE_ACTIVE; 574 575 prio_mode = 0; 576 for (i = 0; i < ARRAY_SIZE(ctlr->channels); i++) { 577 chan = ctlr->channels[i]; 578 if (chan) { 579 cpdma_chan_set_chan_shaper(chan); 580 cpdma_chan_on(chan); 581 582 /* off prio mode if all tx channels are rate limited */ 583 if (is_tx_chan(chan) && !chan->rate) 584 prio_mode = 1; 585 } 586 } 587 588 _cpdma_control_set(ctlr, CPDMA_TX_PRIO_FIXED, prio_mode); 589 _cpdma_control_set(ctlr, CPDMA_RX_BUFFER_OFFSET, 0); 590 591 spin_unlock_irqrestore(&ctlr->lock, flags); 592 return 0; 593 } 594 595 int cpdma_ctlr_stop(struct cpdma_ctlr *ctlr) 596 { 597 unsigned long flags; 598 int i; 599 600 spin_lock_irqsave(&ctlr->lock, flags); 601 if (ctlr->state != CPDMA_STATE_ACTIVE) { 602 spin_unlock_irqrestore(&ctlr->lock, flags); 603 return -EINVAL; 604 } 605 606 ctlr->state = CPDMA_STATE_TEARDOWN; 607 spin_unlock_irqrestore(&ctlr->lock, flags); 608 609 for (i = 0; i < ARRAY_SIZE(ctlr->channels); i++) { 610 if (ctlr->channels[i]) 611 cpdma_chan_stop(ctlr->channels[i]); 612 } 613 614 spin_lock_irqsave(&ctlr->lock, flags); 615 dma_reg_write(ctlr, CPDMA_RXINTMASKCLEAR, 0xffffffff); 616 dma_reg_write(ctlr, CPDMA_TXINTMASKCLEAR, 0xffffffff); 617 618 dma_reg_write(ctlr, CPDMA_TXCONTROL, 0); 619 dma_reg_write(ctlr, CPDMA_RXCONTROL, 0); 620 621 ctlr->state = CPDMA_STATE_IDLE; 622 623 spin_unlock_irqrestore(&ctlr->lock, flags); 624 return 0; 625 } 626 627 int cpdma_ctlr_destroy(struct cpdma_ctlr *ctlr) 628 { 629 int ret = 0, i; 630 631 if (!ctlr) 632 return -EINVAL; 633 634 if (ctlr->state != CPDMA_STATE_IDLE) 635 cpdma_ctlr_stop(ctlr); 636 637 for (i = 0; i < ARRAY_SIZE(ctlr->channels); i++) 638 cpdma_chan_destroy(ctlr->channels[i]); 639 640 cpdma_desc_pool_destroy(ctlr); 641 return ret; 642 } 643 644 int cpdma_ctlr_int_ctrl(struct cpdma_ctlr *ctlr, bool enable) 645 { 646 unsigned long flags; 647 int i; 648 649 spin_lock_irqsave(&ctlr->lock, flags); 650 if (ctlr->state != CPDMA_STATE_ACTIVE) { 651 spin_unlock_irqrestore(&ctlr->lock, flags); 652 return -EINVAL; 653 } 654 655 for (i = 0; i < ARRAY_SIZE(ctlr->channels); i++) { 656 if (ctlr->channels[i]) 657 cpdma_chan_int_ctrl(ctlr->channels[i], enable); 658 } 659 660 spin_unlock_irqrestore(&ctlr->lock, flags); 661 return 0; 662 } 663 664 void cpdma_ctlr_eoi(struct cpdma_ctlr *ctlr, u32 value) 665 { 666 dma_reg_write(ctlr, CPDMA_MACEOIVECTOR, value); 667 } 668 669 u32 cpdma_ctrl_rxchs_state(struct cpdma_ctlr *ctlr) 670 { 671 return dma_reg_read(ctlr, CPDMA_RXINTSTATMASKED); 672 } 673 674 u32 cpdma_ctrl_txchs_state(struct cpdma_ctlr *ctlr) 675 { 676 return dma_reg_read(ctlr, CPDMA_TXINTSTATMASKED); 677 } 678 679 static void cpdma_chan_set_descs(struct cpdma_ctlr *ctlr, 680 int rx, int desc_num, 681 int per_ch_desc) 682 { 683 struct cpdma_chan *chan, *most_chan = NULL; 684 int desc_cnt = desc_num; 685 int most_dnum = 0; 686 int min, max, i; 687 688 if (!desc_num) 689 return; 690 691 if (rx) { 692 min = rx_chan_num(0); 693 max = rx_chan_num(CPDMA_MAX_CHANNELS); 694 } else { 695 min = tx_chan_num(0); 696 max = tx_chan_num(CPDMA_MAX_CHANNELS); 697 } 698 699 for (i = min; i < max; i++) { 700 chan = ctlr->channels[i]; 701 if (!chan) 702 continue; 703 704 if (chan->weight) 705 chan->desc_num = (chan->weight * desc_num) / 100; 706 else 707 chan->desc_num = per_ch_desc; 708 709 desc_cnt -= chan->desc_num; 710 711 if (most_dnum < chan->desc_num) { 712 most_dnum = chan->desc_num; 713 most_chan = chan; 714 } 715 } 716 /* use remains */ 717 if (most_chan) 718 most_chan->desc_num += desc_cnt; 719 } 720 721 /** 722 * cpdma_chan_split_pool - Splits ctrl pool between all channels. 723 * Has to be called under ctlr lock 724 */ 725 int cpdma_chan_split_pool(struct cpdma_ctlr *ctlr) 726 { 727 int tx_per_ch_desc = 0, rx_per_ch_desc = 0; 728 int free_rx_num = 0, free_tx_num = 0; 729 int rx_weight = 0, tx_weight = 0; 730 int tx_desc_num, rx_desc_num; 731 struct cpdma_chan *chan; 732 int i; 733 734 if (!ctlr->chan_num) 735 return 0; 736 737 for (i = 0; i < ARRAY_SIZE(ctlr->channels); i++) { 738 chan = ctlr->channels[i]; 739 if (!chan) 740 continue; 741 742 if (is_rx_chan(chan)) { 743 if (!chan->weight) 744 free_rx_num++; 745 rx_weight += chan->weight; 746 } else { 747 if (!chan->weight) 748 free_tx_num++; 749 tx_weight += chan->weight; 750 } 751 } 752 753 if (rx_weight > 100 || tx_weight > 100) 754 return -EINVAL; 755 756 tx_desc_num = ctlr->num_tx_desc; 757 rx_desc_num = ctlr->num_rx_desc; 758 759 if (free_tx_num) { 760 tx_per_ch_desc = tx_desc_num - (tx_weight * tx_desc_num) / 100; 761 tx_per_ch_desc /= free_tx_num; 762 } 763 if (free_rx_num) { 764 rx_per_ch_desc = rx_desc_num - (rx_weight * rx_desc_num) / 100; 765 rx_per_ch_desc /= free_rx_num; 766 } 767 768 cpdma_chan_set_descs(ctlr, 0, tx_desc_num, tx_per_ch_desc); 769 cpdma_chan_set_descs(ctlr, 1, rx_desc_num, rx_per_ch_desc); 770 771 return 0; 772 } 773 774 775 /* cpdma_chan_set_weight - set weight of a channel in percentage. 776 * Tx and Rx channels have separate weights. That is 100% for RX 777 * and 100% for Tx. The weight is used to split cpdma resources 778 * in correct proportion required by the channels, including number 779 * of descriptors. The channel rate is not enough to know the 780 * weight of a channel as the maximum rate of an interface is needed. 781 * If weight = 0, then channel uses rest of descriptors leaved by 782 * weighted channels. 783 */ 784 int cpdma_chan_set_weight(struct cpdma_chan *ch, int weight) 785 { 786 struct cpdma_ctlr *ctlr = ch->ctlr; 787 unsigned long flags, ch_flags; 788 int ret; 789 790 spin_lock_irqsave(&ctlr->lock, flags); 791 spin_lock_irqsave(&ch->lock, ch_flags); 792 if (ch->weight == weight) { 793 spin_unlock_irqrestore(&ch->lock, ch_flags); 794 spin_unlock_irqrestore(&ctlr->lock, flags); 795 return 0; 796 } 797 ch->weight = weight; 798 spin_unlock_irqrestore(&ch->lock, ch_flags); 799 800 /* re-split pool using new channel weight */ 801 ret = cpdma_chan_split_pool(ctlr); 802 spin_unlock_irqrestore(&ctlr->lock, flags); 803 return ret; 804 } 805 806 /* cpdma_chan_get_min_rate - get minimum allowed rate for channel 807 * Should be called before cpdma_chan_set_rate. 808 * Returns min rate in Kb/s 809 */ 810 u32 cpdma_chan_get_min_rate(struct cpdma_ctlr *ctlr) 811 { 812 unsigned int divident, divisor; 813 814 divident = ctlr->params.bus_freq_mhz * 32 * 1000; 815 divisor = 1 + CPDMA_MAX_RLIM_CNT; 816 817 return DIV_ROUND_UP(divident, divisor); 818 } 819 820 /* cpdma_chan_set_rate - limits bandwidth for transmit channel. 821 * The bandwidth * limited channels have to be in order beginning from lowest. 822 * ch - transmit channel the bandwidth is configured for 823 * rate - bandwidth in Kb/s, if 0 - then off shaper 824 */ 825 int cpdma_chan_set_rate(struct cpdma_chan *ch, u32 rate) 826 { 827 unsigned long flags, ch_flags; 828 struct cpdma_ctlr *ctlr; 829 int ret, prio_mode; 830 u32 rmask; 831 832 if (!ch || !is_tx_chan(ch)) 833 return -EINVAL; 834 835 if (ch->rate == rate) 836 return rate; 837 838 ctlr = ch->ctlr; 839 spin_lock_irqsave(&ctlr->lock, flags); 840 spin_lock_irqsave(&ch->lock, ch_flags); 841 842 ret = cpdma_chan_fit_rate(ch, rate, &rmask, &prio_mode); 843 if (ret) 844 goto err; 845 846 ret = cpdma_chan_set_factors(ctlr, ch); 847 if (ret) 848 goto err; 849 850 spin_unlock_irqrestore(&ch->lock, ch_flags); 851 852 /* on shapers */ 853 _cpdma_control_set(ctlr, CPDMA_TX_RLIM, rmask); 854 _cpdma_control_set(ctlr, CPDMA_TX_PRIO_FIXED, prio_mode); 855 spin_unlock_irqrestore(&ctlr->lock, flags); 856 return ret; 857 858 err: 859 spin_unlock_irqrestore(&ch->lock, ch_flags); 860 spin_unlock_irqrestore(&ctlr->lock, flags); 861 return ret; 862 } 863 864 u32 cpdma_chan_get_rate(struct cpdma_chan *ch) 865 { 866 unsigned long flags; 867 u32 rate; 868 869 spin_lock_irqsave(&ch->lock, flags); 870 rate = ch->rate; 871 spin_unlock_irqrestore(&ch->lock, flags); 872 873 return rate; 874 } 875 876 struct cpdma_chan *cpdma_chan_create(struct cpdma_ctlr *ctlr, int chan_num, 877 cpdma_handler_fn handler, int rx_type) 878 { 879 int offset = chan_num * 4; 880 struct cpdma_chan *chan; 881 unsigned long flags; 882 883 chan_num = rx_type ? rx_chan_num(chan_num) : tx_chan_num(chan_num); 884 885 if (__chan_linear(chan_num) >= ctlr->num_chan) 886 return ERR_PTR(-EINVAL); 887 888 chan = devm_kzalloc(ctlr->dev, sizeof(*chan), GFP_KERNEL); 889 if (!chan) 890 return ERR_PTR(-ENOMEM); 891 892 spin_lock_irqsave(&ctlr->lock, flags); 893 if (ctlr->channels[chan_num]) { 894 spin_unlock_irqrestore(&ctlr->lock, flags); 895 devm_kfree(ctlr->dev, chan); 896 return ERR_PTR(-EBUSY); 897 } 898 899 chan->ctlr = ctlr; 900 chan->state = CPDMA_STATE_IDLE; 901 chan->chan_num = chan_num; 902 chan->handler = handler; 903 chan->rate = 0; 904 chan->weight = 0; 905 906 if (is_rx_chan(chan)) { 907 chan->hdp = ctlr->params.rxhdp + offset; 908 chan->cp = ctlr->params.rxcp + offset; 909 chan->rxfree = ctlr->params.rxfree + offset; 910 chan->int_set = CPDMA_RXINTMASKSET; 911 chan->int_clear = CPDMA_RXINTMASKCLEAR; 912 chan->td = CPDMA_RXTEARDOWN; 913 chan->dir = DMA_FROM_DEVICE; 914 } else { 915 chan->hdp = ctlr->params.txhdp + offset; 916 chan->cp = ctlr->params.txcp + offset; 917 chan->int_set = CPDMA_TXINTMASKSET; 918 chan->int_clear = CPDMA_TXINTMASKCLEAR; 919 chan->td = CPDMA_TXTEARDOWN; 920 chan->dir = DMA_TO_DEVICE; 921 } 922 chan->mask = BIT(chan_linear(chan)); 923 924 spin_lock_init(&chan->lock); 925 926 ctlr->channels[chan_num] = chan; 927 ctlr->chan_num++; 928 929 cpdma_chan_split_pool(ctlr); 930 931 spin_unlock_irqrestore(&ctlr->lock, flags); 932 return chan; 933 } 934 935 int cpdma_chan_get_rx_buf_num(struct cpdma_chan *chan) 936 { 937 unsigned long flags; 938 int desc_num; 939 940 spin_lock_irqsave(&chan->lock, flags); 941 desc_num = chan->desc_num; 942 spin_unlock_irqrestore(&chan->lock, flags); 943 944 return desc_num; 945 } 946 947 int cpdma_chan_destroy(struct cpdma_chan *chan) 948 { 949 struct cpdma_ctlr *ctlr; 950 unsigned long flags; 951 952 if (!chan) 953 return -EINVAL; 954 ctlr = chan->ctlr; 955 956 spin_lock_irqsave(&ctlr->lock, flags); 957 if (chan->state != CPDMA_STATE_IDLE) 958 cpdma_chan_stop(chan); 959 ctlr->channels[chan->chan_num] = NULL; 960 ctlr->chan_num--; 961 devm_kfree(ctlr->dev, chan); 962 cpdma_chan_split_pool(ctlr); 963 964 spin_unlock_irqrestore(&ctlr->lock, flags); 965 return 0; 966 } 967 968 int cpdma_chan_get_stats(struct cpdma_chan *chan, 969 struct cpdma_chan_stats *stats) 970 { 971 unsigned long flags; 972 if (!chan) 973 return -EINVAL; 974 spin_lock_irqsave(&chan->lock, flags); 975 memcpy(stats, &chan->stats, sizeof(*stats)); 976 spin_unlock_irqrestore(&chan->lock, flags); 977 return 0; 978 } 979 980 static void __cpdma_chan_submit(struct cpdma_chan *chan, 981 struct cpdma_desc __iomem *desc) 982 { 983 struct cpdma_ctlr *ctlr = chan->ctlr; 984 struct cpdma_desc __iomem *prev = chan->tail; 985 struct cpdma_desc_pool *pool = ctlr->pool; 986 dma_addr_t desc_dma; 987 u32 mode; 988 989 desc_dma = desc_phys(pool, desc); 990 991 /* simple case - idle channel */ 992 if (!chan->head) { 993 chan->stats.head_enqueue++; 994 chan->head = desc; 995 chan->tail = desc; 996 if (chan->state == CPDMA_STATE_ACTIVE) 997 chan_write(chan, hdp, desc_dma); 998 return; 999 } 1000 1001 /* first chain the descriptor at the tail of the list */ 1002 desc_write(prev, hw_next, desc_dma); 1003 chan->tail = desc; 1004 chan->stats.tail_enqueue++; 1005 1006 /* next check if EOQ has been triggered already */ 1007 mode = desc_read(prev, hw_mode); 1008 if (((mode & (CPDMA_DESC_EOQ | CPDMA_DESC_OWNER)) == CPDMA_DESC_EOQ) && 1009 (chan->state == CPDMA_STATE_ACTIVE)) { 1010 desc_write(prev, hw_mode, mode & ~CPDMA_DESC_EOQ); 1011 chan_write(chan, hdp, desc_dma); 1012 chan->stats.misqueued++; 1013 } 1014 } 1015 1016 static int cpdma_chan_submit_si(struct submit_info *si) 1017 { 1018 struct cpdma_chan *chan = si->chan; 1019 struct cpdma_ctlr *ctlr = chan->ctlr; 1020 int len = si->len; 1021 int swlen = len; 1022 struct cpdma_desc __iomem *desc; 1023 dma_addr_t buffer; 1024 u32 mode; 1025 int ret; 1026 1027 if (chan->count >= chan->desc_num) { 1028 chan->stats.desc_alloc_fail++; 1029 return -ENOMEM; 1030 } 1031 1032 desc = cpdma_desc_alloc(ctlr->pool); 1033 if (!desc) { 1034 chan->stats.desc_alloc_fail++; 1035 return -ENOMEM; 1036 } 1037 1038 if (len < ctlr->params.min_packet_size) { 1039 len = ctlr->params.min_packet_size; 1040 chan->stats.runt_transmit_buff++; 1041 } 1042 1043 mode = CPDMA_DESC_OWNER | CPDMA_DESC_SOP | CPDMA_DESC_EOP; 1044 cpdma_desc_to_port(chan, mode, si->directed); 1045 1046 if (si->data_dma) { 1047 buffer = si->data_dma; 1048 dma_sync_single_for_device(ctlr->dev, buffer, len, chan->dir); 1049 swlen |= CPDMA_DMA_EXT_MAP; 1050 } else { 1051 buffer = dma_map_single(ctlr->dev, si->data_virt, len, chan->dir); 1052 ret = dma_mapping_error(ctlr->dev, buffer); 1053 if (ret) { 1054 cpdma_desc_free(ctlr->pool, desc, 1); 1055 return -EINVAL; 1056 } 1057 } 1058 1059 /* Relaxed IO accessors can be used here as there is read barrier 1060 * at the end of write sequence. 1061 */ 1062 writel_relaxed(0, &desc->hw_next); 1063 writel_relaxed(buffer, &desc->hw_buffer); 1064 writel_relaxed(len, &desc->hw_len); 1065 writel_relaxed(mode | len, &desc->hw_mode); 1066 writel_relaxed((uintptr_t)si->token, &desc->sw_token); 1067 writel_relaxed(buffer, &desc->sw_buffer); 1068 writel_relaxed(swlen, &desc->sw_len); 1069 desc_read(desc, sw_len); 1070 1071 __cpdma_chan_submit(chan, desc); 1072 1073 if (chan->state == CPDMA_STATE_ACTIVE && chan->rxfree) 1074 chan_write(chan, rxfree, 1); 1075 1076 chan->count++; 1077 return 0; 1078 } 1079 1080 int cpdma_chan_idle_submit(struct cpdma_chan *chan, void *token, void *data, 1081 int len, int directed) 1082 { 1083 struct submit_info si; 1084 unsigned long flags; 1085 int ret; 1086 1087 si.chan = chan; 1088 si.token = token; 1089 si.data_virt = data; 1090 si.data_dma = 0; 1091 si.len = len; 1092 si.directed = directed; 1093 1094 spin_lock_irqsave(&chan->lock, flags); 1095 if (chan->state == CPDMA_STATE_TEARDOWN) { 1096 spin_unlock_irqrestore(&chan->lock, flags); 1097 return -EINVAL; 1098 } 1099 1100 ret = cpdma_chan_submit_si(&si); 1101 spin_unlock_irqrestore(&chan->lock, flags); 1102 return ret; 1103 } 1104 1105 int cpdma_chan_idle_submit_mapped(struct cpdma_chan *chan, void *token, 1106 dma_addr_t data, int len, int directed) 1107 { 1108 struct submit_info si; 1109 unsigned long flags; 1110 int ret; 1111 1112 si.chan = chan; 1113 si.token = token; 1114 si.data_virt = NULL; 1115 si.data_dma = data; 1116 si.len = len; 1117 si.directed = directed; 1118 1119 spin_lock_irqsave(&chan->lock, flags); 1120 if (chan->state == CPDMA_STATE_TEARDOWN) { 1121 spin_unlock_irqrestore(&chan->lock, flags); 1122 return -EINVAL; 1123 } 1124 1125 ret = cpdma_chan_submit_si(&si); 1126 spin_unlock_irqrestore(&chan->lock, flags); 1127 return ret; 1128 } 1129 1130 int cpdma_chan_submit(struct cpdma_chan *chan, void *token, void *data, 1131 int len, int directed) 1132 { 1133 struct submit_info si; 1134 unsigned long flags; 1135 int ret; 1136 1137 si.chan = chan; 1138 si.token = token; 1139 si.data_virt = data; 1140 si.data_dma = 0; 1141 si.len = len; 1142 si.directed = directed; 1143 1144 spin_lock_irqsave(&chan->lock, flags); 1145 if (chan->state != CPDMA_STATE_ACTIVE) { 1146 spin_unlock_irqrestore(&chan->lock, flags); 1147 return -EINVAL; 1148 } 1149 1150 ret = cpdma_chan_submit_si(&si); 1151 spin_unlock_irqrestore(&chan->lock, flags); 1152 return ret; 1153 } 1154 1155 int cpdma_chan_submit_mapped(struct cpdma_chan *chan, void *token, 1156 dma_addr_t data, int len, int directed) 1157 { 1158 struct submit_info si; 1159 unsigned long flags; 1160 int ret; 1161 1162 si.chan = chan; 1163 si.token = token; 1164 si.data_virt = NULL; 1165 si.data_dma = data; 1166 si.len = len; 1167 si.directed = directed; 1168 1169 spin_lock_irqsave(&chan->lock, flags); 1170 if (chan->state != CPDMA_STATE_ACTIVE) { 1171 spin_unlock_irqrestore(&chan->lock, flags); 1172 return -EINVAL; 1173 } 1174 1175 ret = cpdma_chan_submit_si(&si); 1176 spin_unlock_irqrestore(&chan->lock, flags); 1177 return ret; 1178 } 1179 1180 bool cpdma_check_free_tx_desc(struct cpdma_chan *chan) 1181 { 1182 struct cpdma_ctlr *ctlr = chan->ctlr; 1183 struct cpdma_desc_pool *pool = ctlr->pool; 1184 bool free_tx_desc; 1185 unsigned long flags; 1186 1187 spin_lock_irqsave(&chan->lock, flags); 1188 free_tx_desc = (chan->count < chan->desc_num) && 1189 gen_pool_avail(pool->gen_pool); 1190 spin_unlock_irqrestore(&chan->lock, flags); 1191 return free_tx_desc; 1192 } 1193 1194 static void __cpdma_chan_free(struct cpdma_chan *chan, 1195 struct cpdma_desc __iomem *desc, 1196 int outlen, int status) 1197 { 1198 struct cpdma_ctlr *ctlr = chan->ctlr; 1199 struct cpdma_desc_pool *pool = ctlr->pool; 1200 dma_addr_t buff_dma; 1201 int origlen; 1202 uintptr_t token; 1203 1204 token = desc_read(desc, sw_token); 1205 origlen = desc_read(desc, sw_len); 1206 1207 buff_dma = desc_read(desc, sw_buffer); 1208 if (origlen & CPDMA_DMA_EXT_MAP) { 1209 origlen &= ~CPDMA_DMA_EXT_MAP; 1210 dma_sync_single_for_cpu(ctlr->dev, buff_dma, origlen, 1211 chan->dir); 1212 } else { 1213 dma_unmap_single(ctlr->dev, buff_dma, origlen, chan->dir); 1214 } 1215 1216 cpdma_desc_free(pool, desc, 1); 1217 (*chan->handler)((void *)token, outlen, status); 1218 } 1219 1220 static int __cpdma_chan_process(struct cpdma_chan *chan) 1221 { 1222 struct cpdma_ctlr *ctlr = chan->ctlr; 1223 struct cpdma_desc __iomem *desc; 1224 int status, outlen; 1225 int cb_status = 0; 1226 struct cpdma_desc_pool *pool = ctlr->pool; 1227 dma_addr_t desc_dma; 1228 unsigned long flags; 1229 1230 spin_lock_irqsave(&chan->lock, flags); 1231 1232 desc = chan->head; 1233 if (!desc) { 1234 chan->stats.empty_dequeue++; 1235 status = -ENOENT; 1236 goto unlock_ret; 1237 } 1238 desc_dma = desc_phys(pool, desc); 1239 1240 status = desc_read(desc, hw_mode); 1241 outlen = status & 0x7ff; 1242 if (status & CPDMA_DESC_OWNER) { 1243 chan->stats.busy_dequeue++; 1244 status = -EBUSY; 1245 goto unlock_ret; 1246 } 1247 1248 if (status & CPDMA_DESC_PASS_CRC) 1249 outlen -= CPDMA_DESC_CRC_LEN; 1250 1251 status = status & (CPDMA_DESC_EOQ | CPDMA_DESC_TD_COMPLETE | 1252 CPDMA_DESC_PORT_MASK | CPDMA_RX_VLAN_ENCAP); 1253 1254 chan->head = desc_from_phys(pool, desc_read(desc, hw_next)); 1255 chan_write(chan, cp, desc_dma); 1256 chan->count--; 1257 chan->stats.good_dequeue++; 1258 1259 if ((status & CPDMA_DESC_EOQ) && chan->head) { 1260 chan->stats.requeue++; 1261 chan_write(chan, hdp, desc_phys(pool, chan->head)); 1262 } 1263 1264 spin_unlock_irqrestore(&chan->lock, flags); 1265 if (unlikely(status & CPDMA_DESC_TD_COMPLETE)) 1266 cb_status = -ENOSYS; 1267 else 1268 cb_status = status; 1269 1270 __cpdma_chan_free(chan, desc, outlen, cb_status); 1271 return status; 1272 1273 unlock_ret: 1274 spin_unlock_irqrestore(&chan->lock, flags); 1275 return status; 1276 } 1277 1278 int cpdma_chan_process(struct cpdma_chan *chan, int quota) 1279 { 1280 int used = 0, ret = 0; 1281 1282 if (chan->state != CPDMA_STATE_ACTIVE) 1283 return -EINVAL; 1284 1285 while (used < quota) { 1286 ret = __cpdma_chan_process(chan); 1287 if (ret < 0) 1288 break; 1289 used++; 1290 } 1291 return used; 1292 } 1293 1294 int cpdma_chan_start(struct cpdma_chan *chan) 1295 { 1296 struct cpdma_ctlr *ctlr = chan->ctlr; 1297 unsigned long flags; 1298 int ret; 1299 1300 spin_lock_irqsave(&ctlr->lock, flags); 1301 ret = cpdma_chan_set_chan_shaper(chan); 1302 spin_unlock_irqrestore(&ctlr->lock, flags); 1303 if (ret) 1304 return ret; 1305 1306 ret = cpdma_chan_on(chan); 1307 if (ret) 1308 return ret; 1309 1310 return 0; 1311 } 1312 1313 int cpdma_chan_stop(struct cpdma_chan *chan) 1314 { 1315 struct cpdma_ctlr *ctlr = chan->ctlr; 1316 struct cpdma_desc_pool *pool = ctlr->pool; 1317 unsigned long flags; 1318 int ret; 1319 unsigned timeout; 1320 1321 spin_lock_irqsave(&chan->lock, flags); 1322 if (chan->state == CPDMA_STATE_TEARDOWN) { 1323 spin_unlock_irqrestore(&chan->lock, flags); 1324 return -EINVAL; 1325 } 1326 1327 chan->state = CPDMA_STATE_TEARDOWN; 1328 dma_reg_write(ctlr, chan->int_clear, chan->mask); 1329 1330 /* trigger teardown */ 1331 dma_reg_write(ctlr, chan->td, chan_linear(chan)); 1332 1333 /* wait for teardown complete */ 1334 timeout = 100 * 100; /* 100 ms */ 1335 while (timeout) { 1336 u32 cp = chan_read(chan, cp); 1337 if ((cp & CPDMA_TEARDOWN_VALUE) == CPDMA_TEARDOWN_VALUE) 1338 break; 1339 udelay(10); 1340 timeout--; 1341 } 1342 WARN_ON(!timeout); 1343 chan_write(chan, cp, CPDMA_TEARDOWN_VALUE); 1344 1345 /* handle completed packets */ 1346 spin_unlock_irqrestore(&chan->lock, flags); 1347 do { 1348 ret = __cpdma_chan_process(chan); 1349 if (ret < 0) 1350 break; 1351 } while ((ret & CPDMA_DESC_TD_COMPLETE) == 0); 1352 spin_lock_irqsave(&chan->lock, flags); 1353 1354 /* remaining packets haven't been tx/rx'ed, clean them up */ 1355 while (chan->head) { 1356 struct cpdma_desc __iomem *desc = chan->head; 1357 dma_addr_t next_dma; 1358 1359 next_dma = desc_read(desc, hw_next); 1360 chan->head = desc_from_phys(pool, next_dma); 1361 chan->count--; 1362 chan->stats.teardown_dequeue++; 1363 1364 /* issue callback without locks held */ 1365 spin_unlock_irqrestore(&chan->lock, flags); 1366 __cpdma_chan_free(chan, desc, 0, -ENOSYS); 1367 spin_lock_irqsave(&chan->lock, flags); 1368 } 1369 1370 chan->state = CPDMA_STATE_IDLE; 1371 spin_unlock_irqrestore(&chan->lock, flags); 1372 return 0; 1373 } 1374 1375 int cpdma_chan_int_ctrl(struct cpdma_chan *chan, bool enable) 1376 { 1377 unsigned long flags; 1378 1379 spin_lock_irqsave(&chan->lock, flags); 1380 if (chan->state != CPDMA_STATE_ACTIVE) { 1381 spin_unlock_irqrestore(&chan->lock, flags); 1382 return -EINVAL; 1383 } 1384 1385 dma_reg_write(chan->ctlr, enable ? chan->int_set : chan->int_clear, 1386 chan->mask); 1387 spin_unlock_irqrestore(&chan->lock, flags); 1388 1389 return 0; 1390 } 1391 1392 int cpdma_control_get(struct cpdma_ctlr *ctlr, int control) 1393 { 1394 unsigned long flags; 1395 int ret; 1396 1397 spin_lock_irqsave(&ctlr->lock, flags); 1398 ret = _cpdma_control_get(ctlr, control); 1399 spin_unlock_irqrestore(&ctlr->lock, flags); 1400 1401 return ret; 1402 } 1403 1404 int cpdma_control_set(struct cpdma_ctlr *ctlr, int control, int value) 1405 { 1406 unsigned long flags; 1407 int ret; 1408 1409 spin_lock_irqsave(&ctlr->lock, flags); 1410 ret = _cpdma_control_set(ctlr, control, value); 1411 spin_unlock_irqrestore(&ctlr->lock, flags); 1412 1413 return ret; 1414 } 1415 1416 int cpdma_get_num_rx_descs(struct cpdma_ctlr *ctlr) 1417 { 1418 return ctlr->num_rx_desc; 1419 } 1420 1421 int cpdma_get_num_tx_descs(struct cpdma_ctlr *ctlr) 1422 { 1423 return ctlr->num_tx_desc; 1424 } 1425 1426 int cpdma_set_num_rx_descs(struct cpdma_ctlr *ctlr, int num_rx_desc) 1427 { 1428 unsigned long flags; 1429 int temp, ret; 1430 1431 spin_lock_irqsave(&ctlr->lock, flags); 1432 1433 temp = ctlr->num_rx_desc; 1434 ctlr->num_rx_desc = num_rx_desc; 1435 ctlr->num_tx_desc = ctlr->pool->num_desc - ctlr->num_rx_desc; 1436 ret = cpdma_chan_split_pool(ctlr); 1437 if (ret) { 1438 ctlr->num_rx_desc = temp; 1439 ctlr->num_tx_desc = ctlr->pool->num_desc - ctlr->num_rx_desc; 1440 } 1441 1442 spin_unlock_irqrestore(&ctlr->lock, flags); 1443 1444 return ret; 1445 } 1446