net: ethernet: mtk_eth_soc: add support for Wireless Ethernet Dispatch (WED)

+4

drivers/net/ethernet/mediatek/Kconfig

··· 7 7 8 8 if NET_VENDOR_MEDIATEK 9 9 10 + config NET_MEDIATEK_SOC_WED 11 + depends on ARCH_MEDIATEK || COMPILE_TEST 12 + def_bool NET_MEDIATEK_SOC != n 13 + 10 14 config NET_MEDIATEK_SOC 11 15 tristate "MediaTek SoC Gigabit Ethernet support" 12 16 depends on NET_DSA || !NET_DSA

+5

drivers/net/ethernet/mediatek/Makefile

··· 5 5 6 6 obj-$(CONFIG_NET_MEDIATEK_SOC) += mtk_eth.o 7 7 mtk_eth-y := mtk_eth_soc.o mtk_sgmii.o mtk_eth_path.o mtk_ppe.o mtk_ppe_debugfs.o mtk_ppe_offload.o 8 + mtk_eth-$(CONFIG_NET_MEDIATEK_SOC_WED) += mtk_wed.o 9 + ifdef CONFIG_DEBUG_FS 10 + mtk_eth-$(CONFIG_NET_MEDIATEK_SOC_WED) += mtk_wed_debugfs.o 11 + endif 12 + obj-$(CONFIG_NET_MEDIATEK_SOC_WED) += mtk_wed_ops.o 8 13 obj-$(CONFIG_NET_MEDIATEK_STAR_EMAC) += mtk_star_emac.o

+17

drivers/net/ethernet/mediatek/mtk_eth_soc.c

··· 24 24 #include <net/dsa.h> 25 25 26 26 #include "mtk_eth_soc.h" 27 + #include "mtk_wed.h" 27 28 28 29 static int mtk_msg_level = -1; 29 30 module_param_named(msg_level, mtk_msg_level, int, 0); ··· 3169 3168 dev_err(&pdev->dev, "no pctl regmap found\n"); 3170 3169 return PTR_ERR(eth->pctl); 3171 3170 } 3171 + } 3172 + 3173 + for (i = 0;; i++) { 3174 + struct device_node *np = of_parse_phandle(pdev->dev.of_node, 3175 + "mediatek,wed", i); 3176 + static const u32 wdma_regs[] = { 3177 + MTK_WDMA0_BASE, 3178 + MTK_WDMA1_BASE 3179 + }; 3180 + void __iomem *wdma; 3181 + 3182 + if (!np || i >= ARRAY_SIZE(wdma_regs)) 3183 + break; 3184 + 3185 + wdma = eth->base + wdma_regs[i]; 3186 + mtk_wed_add_hw(np, eth, wdma, i); 3172 3187 } 3173 3188 3174 3189 for (i = 0; i < 3; i++) {

+3

drivers/net/ethernet/mediatek/mtk_eth_soc.h

··· 295 295 #define MTK_GDM1_TX_GPCNT 0x2438 296 296 #define MTK_STAT_OFFSET 0x40 297 297 298 + #define MTK_WDMA0_BASE 0x2800 299 + #define MTK_WDMA1_BASE 0x2c00 300 + 298 301 /* QDMA descriptor txd4 */ 299 302 #define TX_DMA_CHKSUM (0x7 << 29) 300 303 #define TX_DMA_TSO BIT(28)

+875

drivers/net/ethernet/mediatek/mtk_wed.c

··· 1 + // SPDX-License-Identifier: GPL-2.0-only 2 + /* Copyright (C) 2021 Felix Fietkau <nbd@nbd.name> */ 3 + 4 + #include <linux/kernel.h> 5 + #include <linux/slab.h> 6 + #include <linux/module.h> 7 + #include <linux/bitfield.h> 8 + #include <linux/dma-mapping.h> 9 + #include <linux/skbuff.h> 10 + #include <linux/of_platform.h> 11 + #include <linux/of_address.h> 12 + #include <linux/mfd/syscon.h> 13 + #include <linux/debugfs.h> 14 + #include <linux/soc/mediatek/mtk_wed.h> 15 + #include "mtk_eth_soc.h" 16 + #include "mtk_wed_regs.h" 17 + #include "mtk_wed.h" 18 + #include "mtk_ppe.h" 19 + 20 + #define MTK_PCIE_BASE(n) (0x1a143000 + (n) * 0x2000) 21 + 22 + #define MTK_WED_PKT_SIZE 1900 23 + #define MTK_WED_BUF_SIZE 2048 24 + #define MTK_WED_BUF_PER_PAGE (PAGE_SIZE / 2048) 25 + 26 + #define MTK_WED_TX_RING_SIZE 2048 27 + #define MTK_WED_WDMA_RING_SIZE 1024 28 + 29 + static struct mtk_wed_hw *hw_list[2]; 30 + static DEFINE_MUTEX(hw_lock); 31 + 32 + static void 33 + wed_m32(struct mtk_wed_device *dev, u32 reg, u32 mask, u32 val) 34 + { 35 + regmap_update_bits(dev->hw->regs, reg, mask | val, val); 36 + } 37 + 38 + static void 39 + wed_set(struct mtk_wed_device *dev, u32 reg, u32 mask) 40 + { 41 + return wed_m32(dev, reg, 0, mask); 42 + } 43 + 44 + static void 45 + wed_clr(struct mtk_wed_device *dev, u32 reg, u32 mask) 46 + { 47 + return wed_m32(dev, reg, mask, 0); 48 + } 49 + 50 + static void 51 + wdma_m32(struct mtk_wed_device *dev, u32 reg, u32 mask, u32 val) 52 + { 53 + wdma_w32(dev, reg, (wdma_r32(dev, reg) & ~mask) | val); 54 + } 55 + 56 + static void 57 + wdma_set(struct mtk_wed_device *dev, u32 reg, u32 mask) 58 + { 59 + wdma_m32(dev, reg, 0, mask); 60 + } 61 + 62 + static u32 63 + mtk_wed_read_reset(struct mtk_wed_device *dev) 64 + { 65 + return wed_r32(dev, MTK_WED_RESET); 66 + } 67 + 68 + static void 69 + mtk_wed_reset(struct mtk_wed_device *dev, u32 mask) 70 + { 71 + u32 status; 72 + 73 + wed_w32(dev, MTK_WED_RESET, mask); 74 + if (readx_poll_timeout(mtk_wed_read_reset, dev, status, 75 + !(status & mask), 0, 1000)) 76 + WARN_ON_ONCE(1); 77 + } 78 + 79 + static struct mtk_wed_hw * 80 + mtk_wed_assign(struct mtk_wed_device *dev) 81 + { 82 + struct mtk_wed_hw *hw; 83 + 84 + hw = hw_list[pci_domain_nr(dev->wlan.pci_dev->bus)]; 85 + if (!hw || hw->wed_dev) 86 + return NULL; 87 + 88 + hw->wed_dev = dev; 89 + return hw; 90 + } 91 + 92 + static int 93 + mtk_wed_buffer_alloc(struct mtk_wed_device *dev) 94 + { 95 + struct mtk_wdma_desc *desc; 96 + dma_addr_t desc_phys; 97 + void **page_list; 98 + int token = dev->wlan.token_start; 99 + int ring_size; 100 + int n_pages; 101 + int i, page_idx; 102 + 103 + ring_size = dev->wlan.nbuf & ~(MTK_WED_BUF_PER_PAGE - 1); 104 + n_pages = ring_size / MTK_WED_BUF_PER_PAGE; 105 + 106 + page_list = kcalloc(n_pages, sizeof(*page_list), GFP_KERNEL); 107 + if (!page_list) 108 + return -ENOMEM; 109 + 110 + dev->buf_ring.size = ring_size; 111 + dev->buf_ring.pages = page_list; 112 + 113 + desc = dma_alloc_coherent(dev->hw->dev, ring_size * sizeof(*desc), 114 + &desc_phys, GFP_KERNEL); 115 + if (!desc) 116 + return -ENOMEM; 117 + 118 + dev->buf_ring.desc = desc; 119 + dev->buf_ring.desc_phys = desc_phys; 120 + 121 + for (i = 0, page_idx = 0; i < ring_size; i += MTK_WED_BUF_PER_PAGE) { 122 + dma_addr_t page_phys, buf_phys; 123 + struct page *page; 124 + void *buf; 125 + int s; 126 + 127 + page = __dev_alloc_pages(GFP_KERNEL, 0); 128 + if (!page) 129 + return -ENOMEM; 130 + 131 + page_phys = dma_map_page(dev->hw->dev, page, 0, PAGE_SIZE, 132 + DMA_BIDIRECTIONAL); 133 + if (dma_mapping_error(dev->hw->dev, page_phys)) { 134 + __free_page(page); 135 + return -ENOMEM; 136 + } 137 + 138 + page_list[page_idx++] = page; 139 + dma_sync_single_for_cpu(dev->hw->dev, page_phys, PAGE_SIZE, 140 + DMA_BIDIRECTIONAL); 141 + 142 + buf = page_to_virt(page); 143 + buf_phys = page_phys; 144 + 145 + for (s = 0; s < MTK_WED_BUF_PER_PAGE; s++) { 146 + u32 txd_size; 147 + 148 + txd_size = dev->wlan.init_buf(buf, buf_phys, token++); 149 + 150 + desc->buf0 = buf_phys; 151 + desc->buf1 = buf_phys + txd_size; 152 + desc->ctrl = FIELD_PREP(MTK_WDMA_DESC_CTRL_LEN0, 153 + txd_size) | 154 + FIELD_PREP(MTK_WDMA_DESC_CTRL_LEN1, 155 + MTK_WED_BUF_SIZE - txd_size) | 156 + MTK_WDMA_DESC_CTRL_LAST_SEG1; 157 + desc->info = 0; 158 + desc++; 159 + 160 + buf += MTK_WED_BUF_SIZE; 161 + buf_phys += MTK_WED_BUF_SIZE; 162 + } 163 + 164 + dma_sync_single_for_device(dev->hw->dev, page_phys, PAGE_SIZE, 165 + DMA_BIDIRECTIONAL); 166 + } 167 + 168 + return 0; 169 + } 170 + 171 + static void 172 + mtk_wed_free_buffer(struct mtk_wed_device *dev) 173 + { 174 + struct mtk_wdma_desc *desc = dev->buf_ring.desc; 175 + void **page_list = dev->buf_ring.pages; 176 + int page_idx; 177 + int i; 178 + 179 + if (!page_list) 180 + return; 181 + 182 + if (!desc) 183 + goto free_pagelist; 184 + 185 + for (i = 0, page_idx = 0; i < dev->buf_ring.size; i += MTK_WED_BUF_PER_PAGE) { 186 + void *page = page_list[page_idx++]; 187 + 188 + if (!page) 189 + break; 190 + 191 + dma_unmap_page(dev->hw->dev, desc[i].buf0, 192 + PAGE_SIZE, DMA_BIDIRECTIONAL); 193 + __free_page(page); 194 + } 195 + 196 + dma_free_coherent(dev->hw->dev, dev->buf_ring.size * sizeof(*desc), 197 + desc, dev->buf_ring.desc_phys); 198 + 199 + free_pagelist: 200 + kfree(page_list); 201 + } 202 + 203 + static void 204 + mtk_wed_free_ring(struct mtk_wed_device *dev, struct mtk_wed_ring *ring) 205 + { 206 + if (!ring->desc) 207 + return; 208 + 209 + dma_free_coherent(dev->hw->dev, ring->size * sizeof(*ring->desc), 210 + ring->desc, ring->desc_phys); 211 + } 212 + 213 + static void 214 + mtk_wed_free_tx_rings(struct mtk_wed_device *dev) 215 + { 216 + int i; 217 + 218 + for (i = 0; i < ARRAY_SIZE(dev->tx_ring); i++) 219 + mtk_wed_free_ring(dev, &dev->tx_ring[i]); 220 + for (i = 0; i < ARRAY_SIZE(dev->tx_wdma); i++) 221 + mtk_wed_free_ring(dev, &dev->tx_wdma[i]); 222 + } 223 + 224 + static void 225 + mtk_wed_set_ext_int(struct mtk_wed_device *dev, bool en) 226 + { 227 + u32 mask = MTK_WED_EXT_INT_STATUS_ERROR_MASK; 228 + 229 + if (!dev->hw->num_flows) 230 + mask &= ~MTK_WED_EXT_INT_STATUS_TKID_WO_PYLD; 231 + 232 + wed_w32(dev, MTK_WED_EXT_INT_MASK, en ? mask : 0); 233 + wed_r32(dev, MTK_WED_EXT_INT_MASK); 234 + } 235 + 236 + static void 237 + mtk_wed_stop(struct mtk_wed_device *dev) 238 + { 239 + regmap_write(dev->hw->mirror, dev->hw->index * 4, 0); 240 + mtk_wed_set_ext_int(dev, false); 241 + 242 + wed_clr(dev, MTK_WED_CTRL, 243 + MTK_WED_CTRL_WDMA_INT_AGENT_EN | 244 + MTK_WED_CTRL_WPDMA_INT_AGENT_EN | 245 + MTK_WED_CTRL_WED_TX_BM_EN | 246 + MTK_WED_CTRL_WED_TX_FREE_AGENT_EN); 247 + wed_w32(dev, MTK_WED_WPDMA_INT_TRIGGER, 0); 248 + wed_w32(dev, MTK_WED_WDMA_INT_TRIGGER, 0); 249 + wdma_w32(dev, MTK_WDMA_INT_MASK, 0); 250 + wdma_w32(dev, MTK_WDMA_INT_GRP2, 0); 251 + wed_w32(dev, MTK_WED_WPDMA_INT_MASK, 0); 252 + 253 + wed_clr(dev, MTK_WED_GLO_CFG, 254 + MTK_WED_GLO_CFG_TX_DMA_EN | 255 + MTK_WED_GLO_CFG_RX_DMA_EN); 256 + wed_clr(dev, MTK_WED_WPDMA_GLO_CFG, 257 + MTK_WED_WPDMA_GLO_CFG_TX_DRV_EN | 258 + MTK_WED_WPDMA_GLO_CFG_RX_DRV_EN); 259 + wed_clr(dev, MTK_WED_WDMA_GLO_CFG, 260 + MTK_WED_WDMA_GLO_CFG_RX_DRV_EN); 261 + } 262 + 263 + static void 264 + mtk_wed_detach(struct mtk_wed_device *dev) 265 + { 266 + struct device_node *wlan_node = dev->wlan.pci_dev->dev.of_node; 267 + struct mtk_wed_hw *hw = dev->hw; 268 + 269 + mutex_lock(&hw_lock); 270 + 271 + mtk_wed_stop(dev); 272 + 273 + wdma_w32(dev, MTK_WDMA_RESET_IDX, MTK_WDMA_RESET_IDX_RX); 274 + wdma_w32(dev, MTK_WDMA_RESET_IDX, 0); 275 + 276 + mtk_wed_reset(dev, MTK_WED_RESET_WED); 277 + 278 + mtk_wed_free_buffer(dev); 279 + mtk_wed_free_tx_rings(dev); 280 + 281 + if (of_dma_is_coherent(wlan_node)) 282 + regmap_update_bits(hw->hifsys, HIFSYS_DMA_AG_MAP, 283 + BIT(hw->index), BIT(hw->index)); 284 + 285 + if (!hw_list[!hw->index]->wed_dev && 286 + hw->eth->dma_dev != hw->eth->dev) 287 + mtk_eth_set_dma_device(hw->eth, hw->eth->dev); 288 + 289 + memset(dev, 0, sizeof(*dev)); 290 + module_put(THIS_MODULE); 291 + 292 + hw->wed_dev = NULL; 293 + mutex_unlock(&hw_lock); 294 + } 295 + 296 + static void 297 + mtk_wed_hw_init_early(struct mtk_wed_device *dev) 298 + { 299 + u32 mask, set; 300 + u32 offset; 301 + 302 + mtk_wed_stop(dev); 303 + mtk_wed_reset(dev, MTK_WED_RESET_WED); 304 + 305 + mask = MTK_WED_WDMA_GLO_CFG_BT_SIZE | 306 + MTK_WED_WDMA_GLO_CFG_DYNAMIC_DMAD_RECYCLE | 307 + MTK_WED_WDMA_GLO_CFG_RX_DIS_FSM_AUTO_IDLE; 308 + set = FIELD_PREP(MTK_WED_WDMA_GLO_CFG_BT_SIZE, 2) | 309 + MTK_WED_WDMA_GLO_CFG_DYNAMIC_SKIP_DMAD_PREP | 310 + MTK_WED_WDMA_GLO_CFG_IDLE_DMAD_SUPPLY; 311 + wed_m32(dev, MTK_WED_WDMA_GLO_CFG, mask, set); 312 + 313 + wdma_set(dev, MTK_WDMA_GLO_CFG, MTK_WDMA_GLO_CFG_RX_INFO_PRERES); 314 + 315 + offset = dev->hw->index ? 0x04000400 : 0; 316 + wed_w32(dev, MTK_WED_WDMA_OFFSET0, 0x2a042a20 + offset); 317 + wed_w32(dev, MTK_WED_WDMA_OFFSET1, 0x29002800 + offset); 318 + 319 + wed_w32(dev, MTK_WED_PCIE_CFG_BASE, MTK_PCIE_BASE(dev->hw->index)); 320 + wed_w32(dev, MTK_WED_WPDMA_CFG_BASE, dev->wlan.wpdma_phys); 321 + } 322 + 323 + static void 324 + mtk_wed_hw_init(struct mtk_wed_device *dev) 325 + { 326 + if (dev->init_done) 327 + return; 328 + 329 + dev->init_done = true; 330 + mtk_wed_set_ext_int(dev, false); 331 + wed_w32(dev, MTK_WED_TX_BM_CTRL, 332 + MTK_WED_TX_BM_CTRL_PAUSE | 333 + FIELD_PREP(MTK_WED_TX_BM_CTRL_VLD_GRP_NUM, 334 + dev->buf_ring.size / 128) | 335 + FIELD_PREP(MTK_WED_TX_BM_CTRL_RSV_GRP_NUM, 336 + MTK_WED_TX_RING_SIZE / 256)); 337 + 338 + wed_w32(dev, MTK_WED_TX_BM_BASE, dev->buf_ring.desc_phys); 339 + 340 + wed_w32(dev, MTK_WED_TX_BM_TKID, 341 + FIELD_PREP(MTK_WED_TX_BM_TKID_START, 342 + dev->wlan.token_start) | 343 + FIELD_PREP(MTK_WED_TX_BM_TKID_END, 344 + dev->wlan.token_start + dev->wlan.nbuf - 1)); 345 + 346 + wed_w32(dev, MTK_WED_TX_BM_BUF_LEN, MTK_WED_PKT_SIZE); 347 + 348 + wed_w32(dev, MTK_WED_TX_BM_DYN_THR, 349 + FIELD_PREP(MTK_WED_TX_BM_DYN_THR_LO, 1) | 350 + MTK_WED_TX_BM_DYN_THR_HI); 351 + 352 + mtk_wed_reset(dev, MTK_WED_RESET_TX_BM); 353 + 354 + wed_set(dev, MTK_WED_CTRL, 355 + MTK_WED_CTRL_WED_TX_BM_EN | 356 + MTK_WED_CTRL_WED_TX_FREE_AGENT_EN); 357 + 358 + wed_clr(dev, MTK_WED_TX_BM_CTRL, MTK_WED_TX_BM_CTRL_PAUSE); 359 + } 360 + 361 + static void 362 + mtk_wed_ring_reset(struct mtk_wdma_desc *desc, int size) 363 + { 364 + int i; 365 + 366 + for (i = 0; i < size; i++) { 367 + desc[i].buf0 = 0; 368 + desc[i].ctrl = cpu_to_le32(MTK_WDMA_DESC_CTRL_DMA_DONE); 369 + desc[i].buf1 = 0; 370 + desc[i].info = 0; 371 + } 372 + } 373 + 374 + static u32 375 + mtk_wed_check_busy(struct mtk_wed_device *dev) 376 + { 377 + if (wed_r32(dev, MTK_WED_GLO_CFG) & MTK_WED_GLO_CFG_TX_DMA_BUSY) 378 + return true; 379 + 380 + if (wed_r32(dev, MTK_WED_WPDMA_GLO_CFG) & 381 + MTK_WED_WPDMA_GLO_CFG_TX_DRV_BUSY) 382 + return true; 383 + 384 + if (wed_r32(dev, MTK_WED_CTRL) & MTK_WED_CTRL_WDMA_INT_AGENT_BUSY) 385 + return true; 386 + 387 + if (wed_r32(dev, MTK_WED_WDMA_GLO_CFG) & 388 + MTK_WED_WDMA_GLO_CFG_RX_DRV_BUSY) 389 + return true; 390 + 391 + if (wdma_r32(dev, MTK_WDMA_GLO_CFG) & 392 + MTK_WED_WDMA_GLO_CFG_RX_DRV_BUSY) 393 + return true; 394 + 395 + if (wed_r32(dev, MTK_WED_CTRL) & 396 + (MTK_WED_CTRL_WED_TX_BM_BUSY | MTK_WED_CTRL_WED_TX_FREE_AGENT_BUSY)) 397 + return true; 398 + 399 + return false; 400 + } 401 + 402 + static int 403 + mtk_wed_poll_busy(struct mtk_wed_device *dev) 404 + { 405 + int sleep = 15000; 406 + int timeout = 100 * sleep; 407 + u32 val; 408 + 409 + return read_poll_timeout(mtk_wed_check_busy, val, !val, sleep, 410 + timeout, false, dev); 411 + } 412 + 413 + static void 414 + mtk_wed_reset_dma(struct mtk_wed_device *dev) 415 + { 416 + bool busy = false; 417 + u32 val; 418 + int i; 419 + 420 + for (i = 0; i < ARRAY_SIZE(dev->tx_ring); i++) { 421 + struct mtk_wdma_desc *desc = dev->tx_ring[i].desc; 422 + 423 + if (!desc) 424 + continue; 425 + 426 + mtk_wed_ring_reset(desc, MTK_WED_TX_RING_SIZE); 427 + } 428 + 429 + if (mtk_wed_poll_busy(dev)) 430 + busy = mtk_wed_check_busy(dev); 431 + 432 + if (busy) { 433 + mtk_wed_reset(dev, MTK_WED_RESET_WED_TX_DMA); 434 + } else { 435 + wed_w32(dev, MTK_WED_RESET_IDX, 436 + MTK_WED_RESET_IDX_TX | 437 + MTK_WED_RESET_IDX_RX); 438 + wed_w32(dev, MTK_WED_RESET_IDX, 0); 439 + } 440 + 441 + wdma_w32(dev, MTK_WDMA_RESET_IDX, MTK_WDMA_RESET_IDX_RX); 442 + wdma_w32(dev, MTK_WDMA_RESET_IDX, 0); 443 + 444 + if (busy) { 445 + mtk_wed_reset(dev, MTK_WED_RESET_WDMA_INT_AGENT); 446 + mtk_wed_reset(dev, MTK_WED_RESET_WDMA_RX_DRV); 447 + } else { 448 + wed_w32(dev, MTK_WED_WDMA_RESET_IDX, 449 + MTK_WED_WDMA_RESET_IDX_RX | MTK_WED_WDMA_RESET_IDX_DRV); 450 + wed_w32(dev, MTK_WED_WDMA_RESET_IDX, 0); 451 + 452 + wed_set(dev, MTK_WED_WDMA_GLO_CFG, 453 + MTK_WED_WDMA_GLO_CFG_RST_INIT_COMPLETE); 454 + 455 + wed_clr(dev, MTK_WED_WDMA_GLO_CFG, 456 + MTK_WED_WDMA_GLO_CFG_RST_INIT_COMPLETE); 457 + } 458 + 459 + for (i = 0; i < 100; i++) { 460 + val = wed_r32(dev, MTK_WED_TX_BM_INTF); 461 + if (FIELD_GET(MTK_WED_TX_BM_INTF_TKFIFO_FDEP, val) == 0x40) 462 + break; 463 + } 464 + 465 + mtk_wed_reset(dev, MTK_WED_RESET_TX_FREE_AGENT); 466 + mtk_wed_reset(dev, MTK_WED_RESET_TX_BM); 467 + 468 + if (busy) { 469 + mtk_wed_reset(dev, MTK_WED_RESET_WPDMA_INT_AGENT); 470 + mtk_wed_reset(dev, MTK_WED_RESET_WPDMA_TX_DRV); 471 + mtk_wed_reset(dev, MTK_WED_RESET_WPDMA_RX_DRV); 472 + } else { 473 + wed_w32(dev, MTK_WED_WPDMA_RESET_IDX, 474 + MTK_WED_WPDMA_RESET_IDX_TX | 475 + MTK_WED_WPDMA_RESET_IDX_RX); 476 + wed_w32(dev, MTK_WED_WPDMA_RESET_IDX, 0); 477 + } 478 + 479 + } 480 + 481 + static int 482 + mtk_wed_ring_alloc(struct mtk_wed_device *dev, struct mtk_wed_ring *ring, 483 + int size) 484 + { 485 + ring->desc = dma_alloc_coherent(dev->hw->dev, 486 + size * sizeof(*ring->desc), 487 + &ring->desc_phys, GFP_KERNEL); 488 + if (!ring->desc) 489 + return -ENOMEM; 490 + 491 + ring->size = size; 492 + mtk_wed_ring_reset(ring->desc, size); 493 + 494 + return 0; 495 + } 496 + 497 + static int 498 + mtk_wed_wdma_ring_setup(struct mtk_wed_device *dev, int idx, int size) 499 + { 500 + struct mtk_wed_ring *wdma = &dev->tx_wdma[idx]; 501 + 502 + if (mtk_wed_ring_alloc(dev, wdma, MTK_WED_WDMA_RING_SIZE)) 503 + return -ENOMEM; 504 + 505 + wdma_w32(dev, MTK_WDMA_RING_RX(idx) + MTK_WED_RING_OFS_BASE, 506 + wdma->desc_phys); 507 + wdma_w32(dev, MTK_WDMA_RING_RX(idx) + MTK_WED_RING_OFS_COUNT, 508 + size); 509 + wdma_w32(dev, MTK_WDMA_RING_RX(idx) + MTK_WED_RING_OFS_CPU_IDX, 0); 510 + 511 + wed_w32(dev, MTK_WED_WDMA_RING_RX(idx) + MTK_WED_RING_OFS_BASE, 512 + wdma->desc_phys); 513 + wed_w32(dev, MTK_WED_WDMA_RING_RX(idx) + MTK_WED_RING_OFS_COUNT, 514 + size); 515 + 516 + return 0; 517 + } 518 + 519 + static void 520 + mtk_wed_start(struct mtk_wed_device *dev, u32 irq_mask) 521 + { 522 + u32 wdma_mask; 523 + u32 val; 524 + int i; 525 + 526 + for (i = 0; i < ARRAY_SIZE(dev->tx_wdma); i++) 527 + if (!dev->tx_wdma[i].desc) 528 + mtk_wed_wdma_ring_setup(dev, i, 16); 529 + 530 + wdma_mask = FIELD_PREP(MTK_WDMA_INT_MASK_RX_DONE, GENMASK(1, 0)); 531 + 532 + mtk_wed_hw_init(dev); 533 + 534 + wed_set(dev, MTK_WED_CTRL, 535 + MTK_WED_CTRL_WDMA_INT_AGENT_EN | 536 + MTK_WED_CTRL_WPDMA_INT_AGENT_EN | 537 + MTK_WED_CTRL_WED_TX_BM_EN | 538 + MTK_WED_CTRL_WED_TX_FREE_AGENT_EN); 539 + 540 + wed_w32(dev, MTK_WED_PCIE_INT_TRIGGER, MTK_WED_PCIE_INT_TRIGGER_STATUS); 541 + 542 + wed_w32(dev, MTK_WED_WPDMA_INT_TRIGGER, 543 + MTK_WED_WPDMA_INT_TRIGGER_RX_DONE | 544 + MTK_WED_WPDMA_INT_TRIGGER_TX_DONE); 545 + 546 + wed_set(dev, MTK_WED_WPDMA_INT_CTRL, 547 + MTK_WED_WPDMA_INT_CTRL_SUBRT_ADV); 548 + 549 + wed_w32(dev, MTK_WED_WDMA_INT_TRIGGER, wdma_mask); 550 + wed_clr(dev, MTK_WED_WDMA_INT_CTRL, wdma_mask); 551 + 552 + wdma_w32(dev, MTK_WDMA_INT_MASK, wdma_mask); 553 + wdma_w32(dev, MTK_WDMA_INT_GRP2, wdma_mask); 554 + 555 + wed_w32(dev, MTK_WED_WPDMA_INT_MASK, irq_mask); 556 + wed_w32(dev, MTK_WED_INT_MASK, irq_mask); 557 + 558 + wed_set(dev, MTK_WED_GLO_CFG, 559 + MTK_WED_GLO_CFG_TX_DMA_EN | 560 + MTK_WED_GLO_CFG_RX_DMA_EN); 561 + wed_set(dev, MTK_WED_WPDMA_GLO_CFG, 562 + MTK_WED_WPDMA_GLO_CFG_TX_DRV_EN | 563 + MTK_WED_WPDMA_GLO_CFG_RX_DRV_EN); 564 + wed_set(dev, MTK_WED_WDMA_GLO_CFG, 565 + MTK_WED_WDMA_GLO_CFG_RX_DRV_EN); 566 + 567 + mtk_wed_set_ext_int(dev, true); 568 + val = dev->wlan.wpdma_phys | 569 + MTK_PCIE_MIRROR_MAP_EN | 570 + FIELD_PREP(MTK_PCIE_MIRROR_MAP_WED_ID, dev->hw->index); 571 + 572 + if (dev->hw->index) 573 + val |= BIT(1); 574 + val |= BIT(0); 575 + regmap_write(dev->hw->mirror, dev->hw->index * 4, val); 576 + 577 + dev->running = true; 578 + } 579 + 580 + static int 581 + mtk_wed_attach(struct mtk_wed_device *dev) 582 + __releases(RCU) 583 + { 584 + struct mtk_wed_hw *hw; 585 + int ret = 0; 586 + 587 + RCU_LOCKDEP_WARN(!rcu_read_lock_held(), 588 + "mtk_wed_attach without holding the RCU read lock"); 589 + 590 + if (pci_domain_nr(dev->wlan.pci_dev->bus) > 1 || 591 + !try_module_get(THIS_MODULE)) 592 + ret = -ENODEV; 593 + 594 + rcu_read_unlock(); 595 + 596 + if (ret) 597 + return ret; 598 + 599 + mutex_lock(&hw_lock); 600 + 601 + hw = mtk_wed_assign(dev); 602 + if (!hw) { 603 + module_put(THIS_MODULE); 604 + ret = -ENODEV; 605 + goto out; 606 + } 607 + 608 + dev_info(&dev->wlan.pci_dev->dev, "attaching wed device %d\n", hw->index); 609 + 610 + dev->hw = hw; 611 + dev->dev = hw->dev; 612 + dev->irq = hw->irq; 613 + dev->wdma_idx = hw->index; 614 + 615 + if (hw->eth->dma_dev == hw->eth->dev && 616 + of_dma_is_coherent(hw->eth->dev->of_node)) 617 + mtk_eth_set_dma_device(hw->eth, hw->dev); 618 + 619 + ret = mtk_wed_buffer_alloc(dev); 620 + if (ret) { 621 + mtk_wed_detach(dev); 622 + goto out; 623 + } 624 + 625 + mtk_wed_hw_init_early(dev); 626 + regmap_update_bits(hw->hifsys, HIFSYS_DMA_AG_MAP, BIT(hw->index), 0); 627 + 628 + out: 629 + mutex_unlock(&hw_lock); 630 + 631 + return ret; 632 + } 633 + 634 + static int 635 + mtk_wed_tx_ring_setup(struct mtk_wed_device *dev, int idx, void __iomem *regs) 636 + { 637 + struct mtk_wed_ring *ring = &dev->tx_ring[idx]; 638 + 639 + /* 640 + * Tx ring redirection: 641 + * Instead of configuring the WLAN PDMA TX ring directly, the WLAN 642 + * driver allocated DMA ring gets configured into WED MTK_WED_RING_TX(n) 643 + * registers. 644 + * 645 + * WED driver posts its own DMA ring as WLAN PDMA TX and configures it 646 + * into MTK_WED_WPDMA_RING_TX(n) registers. 647 + * It gets filled with packets picked up from WED TX ring and from 648 + * WDMA RX. 649 + */ 650 + 651 + BUG_ON(idx > ARRAY_SIZE(dev->tx_ring)); 652 + 653 + if (mtk_wed_ring_alloc(dev, ring, MTK_WED_TX_RING_SIZE)) 654 + return -ENOMEM; 655 + 656 + if (mtk_wed_wdma_ring_setup(dev, idx, MTK_WED_WDMA_RING_SIZE)) 657 + return -ENOMEM; 658 + 659 + ring->reg_base = MTK_WED_RING_TX(idx); 660 + ring->wpdma = regs; 661 + 662 + /* WED -> WPDMA */ 663 + wpdma_tx_w32(dev, idx, MTK_WED_RING_OFS_BASE, ring->desc_phys); 664 + wpdma_tx_w32(dev, idx, MTK_WED_RING_OFS_COUNT, MTK_WED_TX_RING_SIZE); 665 + wpdma_tx_w32(dev, idx, MTK_WED_RING_OFS_CPU_IDX, 0); 666 + 667 + wed_w32(dev, MTK_WED_WPDMA_RING_TX(idx) + MTK_WED_RING_OFS_BASE, 668 + ring->desc_phys); 669 + wed_w32(dev, MTK_WED_WPDMA_RING_TX(idx) + MTK_WED_RING_OFS_COUNT, 670 + MTK_WED_TX_RING_SIZE); 671 + wed_w32(dev, MTK_WED_WPDMA_RING_TX(idx) + MTK_WED_RING_OFS_CPU_IDX, 0); 672 + 673 + return 0; 674 + } 675 + 676 + static int 677 + mtk_wed_txfree_ring_setup(struct mtk_wed_device *dev, void __iomem *regs) 678 + { 679 + struct mtk_wed_ring *ring = &dev->txfree_ring; 680 + int i; 681 + 682 + /* 683 + * For txfree event handling, the same DMA ring is shared between WED 684 + * and WLAN. The WLAN driver accesses the ring index registers through 685 + * WED 686 + */ 687 + ring->reg_base = MTK_WED_RING_RX(1); 688 + ring->wpdma = regs; 689 + 690 + for (i = 0; i < 12; i += 4) { 691 + u32 val = readl(regs + i); 692 + 693 + wed_w32(dev, MTK_WED_RING_RX(1) + i, val); 694 + wed_w32(dev, MTK_WED_WPDMA_RING_RX(1) + i, val); 695 + } 696 + 697 + return 0; 698 + } 699 + 700 + static u32 701 + mtk_wed_irq_get(struct mtk_wed_device *dev, u32 mask) 702 + { 703 + u32 val; 704 + 705 + val = wed_r32(dev, MTK_WED_EXT_INT_STATUS); 706 + wed_w32(dev, MTK_WED_EXT_INT_STATUS, val); 707 + val &= MTK_WED_EXT_INT_STATUS_ERROR_MASK; 708 + if (!dev->hw->num_flows) 709 + val &= ~MTK_WED_EXT_INT_STATUS_TKID_WO_PYLD; 710 + if (val && net_ratelimit()) 711 + pr_err("mtk_wed%d: error status=%08x\n", dev->hw->index, val); 712 + 713 + val = wed_r32(dev, MTK_WED_INT_STATUS); 714 + val &= mask; 715 + wed_w32(dev, MTK_WED_INT_STATUS, val); /* ACK */ 716 + 717 + return val; 718 + } 719 + 720 + static void 721 + mtk_wed_irq_set_mask(struct mtk_wed_device *dev, u32 mask) 722 + { 723 + if (!dev->running) 724 + return; 725 + 726 + mtk_wed_set_ext_int(dev, !!mask); 727 + wed_w32(dev, MTK_WED_INT_MASK, mask); 728 + } 729 + 730 + int mtk_wed_flow_add(int index) 731 + { 732 + struct mtk_wed_hw *hw = hw_list[index]; 733 + int ret; 734 + 735 + if (!hw || !hw->wed_dev) 736 + return -ENODEV; 737 + 738 + if (hw->num_flows) { 739 + hw->num_flows++; 740 + return 0; 741 + } 742 + 743 + mutex_lock(&hw_lock); 744 + if (!hw->wed_dev) { 745 + ret = -ENODEV; 746 + goto out; 747 + } 748 + 749 + ret = hw->wed_dev->wlan.offload_enable(hw->wed_dev); 750 + if (!ret) 751 + hw->num_flows++; 752 + mtk_wed_set_ext_int(hw->wed_dev, true); 753 + 754 + out: 755 + mutex_unlock(&hw_lock); 756 + 757 + return ret; 758 + } 759 + 760 + void mtk_wed_flow_remove(int index) 761 + { 762 + struct mtk_wed_hw *hw = hw_list[index]; 763 + 764 + if (!hw) 765 + return; 766 + 767 + if (--hw->num_flows) 768 + return; 769 + 770 + mutex_lock(&hw_lock); 771 + if (!hw->wed_dev) 772 + goto out; 773 + 774 + hw->wed_dev->wlan.offload_disable(hw->wed_dev); 775 + mtk_wed_set_ext_int(hw->wed_dev, true); 776 + 777 + out: 778 + mutex_unlock(&hw_lock); 779 + } 780 + 781 + void mtk_wed_add_hw(struct device_node *np, struct mtk_eth *eth, 782 + void __iomem *wdma, int index) 783 + { 784 + static const struct mtk_wed_ops wed_ops = { 785 + .attach = mtk_wed_attach, 786 + .tx_ring_setup = mtk_wed_tx_ring_setup, 787 + .txfree_ring_setup = mtk_wed_txfree_ring_setup, 788 + .start = mtk_wed_start, 789 + .stop = mtk_wed_stop, 790 + .reset_dma = mtk_wed_reset_dma, 791 + .reg_read = wed_r32, 792 + .reg_write = wed_w32, 793 + .irq_get = mtk_wed_irq_get, 794 + .irq_set_mask = mtk_wed_irq_set_mask, 795 + .detach = mtk_wed_detach, 796 + }; 797 + struct device_node *eth_np = eth->dev->of_node; 798 + struct platform_device *pdev; 799 + struct mtk_wed_hw *hw; 800 + struct regmap *regs; 801 + int irq; 802 + 803 + if (!np) 804 + return; 805 + 806 + pdev = of_find_device_by_node(np); 807 + if (!pdev) 808 + return; 809 + 810 + get_device(&pdev->dev); 811 + irq = platform_get_irq(pdev, 0); 812 + if (irq < 0) 813 + return; 814 + 815 + regs = syscon_regmap_lookup_by_phandle(np, NULL); 816 + if (!regs) 817 + return; 818 + 819 + rcu_assign_pointer(mtk_soc_wed_ops, &wed_ops); 820 + 821 + mutex_lock(&hw_lock); 822 + 823 + if (WARN_ON(hw_list[index])) 824 + goto unlock; 825 + 826 + hw = kzalloc(sizeof(*hw), GFP_KERNEL); 827 + hw->node = np; 828 + hw->regs = regs; 829 + hw->eth = eth; 830 + hw->dev = &pdev->dev; 831 + hw->wdma = wdma; 832 + hw->index = index; 833 + hw->irq = irq; 834 + hw->mirror = syscon_regmap_lookup_by_phandle(eth_np, 835 + "mediatek,pcie-mirror"); 836 + hw->hifsys = syscon_regmap_lookup_by_phandle(eth_np, 837 + "mediatek,hifsys"); 838 + if (IS_ERR(hw->mirror) || IS_ERR(hw->hifsys)) { 839 + kfree(hw); 840 + goto unlock; 841 + } 842 + 843 + if (!index) { 844 + regmap_write(hw->mirror, 0, 0); 845 + regmap_write(hw->mirror, 4, 0); 846 + } 847 + mtk_wed_hw_add_debugfs(hw); 848 + 849 + hw_list[index] = hw; 850 + 851 + unlock: 852 + mutex_unlock(&hw_lock); 853 + } 854 + 855 + void mtk_wed_exit(void) 856 + { 857 + int i; 858 + 859 + rcu_assign_pointer(mtk_soc_wed_ops, NULL); 860 + 861 + synchronize_rcu(); 862 + 863 + for (i = 0; i < ARRAY_SIZE(hw_list); i++) { 864 + struct mtk_wed_hw *hw; 865 + 866 + hw = hw_list[i]; 867 + if (!hw) 868 + continue; 869 + 870 + hw_list[i] = NULL; 871 + debugfs_remove(hw->debugfs_dir); 872 + put_device(hw->dev); 873 + kfree(hw); 874 + } 875 + }

+128

drivers/net/ethernet/mediatek/mtk_wed.h

··· 1 + // SPDX-License-Identifier: GPL-2.0-only 2 + /* Copyright (C) 2021 Felix Fietkau <nbd@nbd.name> */ 3 + 4 + #ifndef __MTK_WED_PRIV_H 5 + #define __MTK_WED_PRIV_H 6 + 7 + #include <linux/soc/mediatek/mtk_wed.h> 8 + #include <linux/debugfs.h> 9 + #include <linux/regmap.h> 10 + 11 + struct mtk_eth; 12 + 13 + struct mtk_wed_hw { 14 + struct device_node *node; 15 + struct mtk_eth *eth; 16 + struct regmap *regs; 17 + struct regmap *hifsys; 18 + struct device *dev; 19 + void __iomem *wdma; 20 + struct regmap *mirror; 21 + struct dentry *debugfs_dir; 22 + struct mtk_wed_device *wed_dev; 23 + u32 debugfs_reg; 24 + u32 num_flows; 25 + char dirname[5]; 26 + int irq; 27 + int index; 28 + }; 29 + 30 + 31 + #ifdef CONFIG_NET_MEDIATEK_SOC_WED 32 + static inline void 33 + wed_w32(struct mtk_wed_device *dev, u32 reg, u32 val) 34 + { 35 + regmap_write(dev->hw->regs, reg, val); 36 + } 37 + 38 + static inline u32 39 + wed_r32(struct mtk_wed_device *dev, u32 reg) 40 + { 41 + unsigned int val; 42 + 43 + regmap_read(dev->hw->regs, reg, &val); 44 + 45 + return val; 46 + } 47 + 48 + static inline void 49 + wdma_w32(struct mtk_wed_device *dev, u32 reg, u32 val) 50 + { 51 + writel(val, dev->hw->wdma + reg); 52 + } 53 + 54 + static inline u32 55 + wdma_r32(struct mtk_wed_device *dev, u32 reg) 56 + { 57 + return readl(dev->hw->wdma + reg); 58 + } 59 + 60 + static inline u32 61 + wpdma_tx_r32(struct mtk_wed_device *dev, int ring, u32 reg) 62 + { 63 + if (!dev->tx_ring[ring].wpdma) 64 + return 0; 65 + 66 + return readl(dev->tx_ring[ring].wpdma + reg); 67 + } 68 + 69 + static inline void 70 + wpdma_tx_w32(struct mtk_wed_device *dev, int ring, u32 reg, u32 val) 71 + { 72 + if (!dev->tx_ring[ring].wpdma) 73 + return; 74 + 75 + writel(val, dev->tx_ring[ring].wpdma + reg); 76 + } 77 + 78 + static inline u32 79 + wpdma_txfree_r32(struct mtk_wed_device *dev, u32 reg) 80 + { 81 + if (!dev->txfree_ring.wpdma) 82 + return 0; 83 + 84 + return readl(dev->txfree_ring.wpdma + reg); 85 + } 86 + 87 + static inline void 88 + wpdma_txfree_w32(struct mtk_wed_device *dev, u32 reg, u32 val) 89 + { 90 + if (!dev->txfree_ring.wpdma) 91 + return; 92 + 93 + writel(val, dev->txfree_ring.wpdma + reg); 94 + } 95 + 96 + void mtk_wed_add_hw(struct device_node *np, struct mtk_eth *eth, 97 + void __iomem *wdma, int index); 98 + void mtk_wed_exit(void); 99 + int mtk_wed_flow_add(int index); 100 + void mtk_wed_flow_remove(int index); 101 + #else 102 + static inline void 103 + mtk_wed_add_hw(struct device_node *np, struct mtk_eth *eth, 104 + void __iomem *wdma, int index) 105 + { 106 + } 107 + static inline void 108 + mtk_wed_exit(void) 109 + { 110 + } 111 + static inline int mtk_wed_flow_add(int index) 112 + { 113 + return -EINVAL; 114 + } 115 + static inline void mtk_wed_flow_remove(int index) 116 + { 117 + } 118 + #endif 119 + 120 + #ifdef CONFIG_DEBUG_FS 121 + void mtk_wed_hw_add_debugfs(struct mtk_wed_hw *hw); 122 + #else 123 + static inline void mtk_wed_hw_add_debugfs(struct mtk_wed_hw *hw) 124 + { 125 + } 126 + #endif 127 + 128 + #endif

+175

drivers/net/ethernet/mediatek/mtk_wed_debugfs.c

··· 1 + // SPDX-License-Identifier: GPL-2.0-only 2 + /* Copyright (C) 2021 Felix Fietkau <nbd@nbd.name> */ 3 + 4 + #include <linux/seq_file.h> 5 + #include "mtk_wed.h" 6 + #include "mtk_wed_regs.h" 7 + 8 + struct reg_dump { 9 + const char *name; 10 + u16 offset; 11 + u8 type; 12 + u8 base; 13 + }; 14 + 15 + enum { 16 + DUMP_TYPE_STRING, 17 + DUMP_TYPE_WED, 18 + DUMP_TYPE_WDMA, 19 + DUMP_TYPE_WPDMA_TX, 20 + DUMP_TYPE_WPDMA_TXFREE, 21 + }; 22 + 23 + #define DUMP_STR(_str) { _str, 0, DUMP_TYPE_STRING } 24 + #define DUMP_REG(_reg, ...) { #_reg, MTK_##_reg, __VA_ARGS__ } 25 + #define DUMP_RING(_prefix, _base, ...) \ 26 + { _prefix " BASE", _base, __VA_ARGS__ }, \ 27 + { _prefix " CNT", _base + 0x4, __VA_ARGS__ }, \ 28 + { _prefix " CIDX", _base + 0x8, __VA_ARGS__ }, \ 29 + { _prefix " DIDX", _base + 0xc, __VA_ARGS__ } 30 + 31 + #define DUMP_WED(_reg) DUMP_REG(_reg, DUMP_TYPE_WED) 32 + #define DUMP_WED_RING(_base) DUMP_RING(#_base, MTK_##_base, DUMP_TYPE_WED) 33 + 34 + #define DUMP_WDMA(_reg) DUMP_REG(_reg, DUMP_TYPE_WDMA) 35 + #define DUMP_WDMA_RING(_base) DUMP_RING(#_base, MTK_##_base, DUMP_TYPE_WDMA) 36 + 37 + #define DUMP_WPDMA_TX_RING(_n) DUMP_RING("WPDMA_TX" #_n, 0, DUMP_TYPE_WPDMA_TX, _n) 38 + #define DUMP_WPDMA_TXFREE_RING DUMP_RING("WPDMA_RX1", 0, DUMP_TYPE_WPDMA_TXFREE) 39 + 40 + static void 41 + print_reg_val(struct seq_file *s, const char *name, u32 val) 42 + { 43 + seq_printf(s, "%-32s %08x\n", name, val); 44 + } 45 + 46 + static void 47 + dump_wed_regs(struct seq_file *s, struct mtk_wed_device *dev, 48 + const struct reg_dump *regs, int n_regs) 49 + { 50 + const struct reg_dump *cur; 51 + u32 val; 52 + 53 + for (cur = regs; cur < &regs[n_regs]; cur++) { 54 + switch (cur->type) { 55 + case DUMP_TYPE_STRING: 56 + seq_printf(s, "%s======== %s:\n", 57 + cur > regs ? "\n" : "", 58 + cur->name); 59 + continue; 60 + case DUMP_TYPE_WED: 61 + val = wed_r32(dev, cur->offset); 62 + break; 63 + case DUMP_TYPE_WDMA: 64 + val = wdma_r32(dev, cur->offset); 65 + break; 66 + case DUMP_TYPE_WPDMA_TX: 67 + val = wpdma_tx_r32(dev, cur->base, cur->offset); 68 + break; 69 + case DUMP_TYPE_WPDMA_TXFREE: 70 + val = wpdma_txfree_r32(dev, cur->offset); 71 + break; 72 + } 73 + print_reg_val(s, cur->name, val); 74 + } 75 + } 76 + 77 + 78 + static int 79 + wed_txinfo_show(struct seq_file *s, void *data) 80 + { 81 + static const struct reg_dump regs[] = { 82 + DUMP_STR("WED TX"), 83 + DUMP_WED(WED_TX_MIB(0)), 84 + DUMP_WED_RING(WED_RING_TX(0)), 85 + 86 + DUMP_WED(WED_TX_MIB(1)), 87 + DUMP_WED_RING(WED_RING_TX(1)), 88 + 89 + DUMP_STR("WPDMA TX"), 90 + DUMP_WED(WED_WPDMA_TX_MIB(0)), 91 + DUMP_WED_RING(WED_WPDMA_RING_TX(0)), 92 + DUMP_WED(WED_WPDMA_TX_COHERENT_MIB(0)), 93 + 94 + DUMP_WED(WED_WPDMA_TX_MIB(1)), 95 + DUMP_WED_RING(WED_WPDMA_RING_TX(1)), 96 + DUMP_WED(WED_WPDMA_TX_COHERENT_MIB(1)), 97 + 98 + DUMP_STR("WPDMA TX"), 99 + DUMP_WPDMA_TX_RING(0), 100 + DUMP_WPDMA_TX_RING(1), 101 + 102 + DUMP_STR("WED WDMA RX"), 103 + DUMP_WED(WED_WDMA_RX_MIB(0)), 104 + DUMP_WED_RING(WED_WDMA_RING_RX(0)), 105 + DUMP_WED(WED_WDMA_RX_THRES(0)), 106 + DUMP_WED(WED_WDMA_RX_RECYCLE_MIB(0)), 107 + DUMP_WED(WED_WDMA_RX_PROCESSED_MIB(0)), 108 + 109 + DUMP_WED(WED_WDMA_RX_MIB(1)), 110 + DUMP_WED_RING(WED_WDMA_RING_RX(1)), 111 + DUMP_WED(WED_WDMA_RX_THRES(1)), 112 + DUMP_WED(WED_WDMA_RX_RECYCLE_MIB(1)), 113 + DUMP_WED(WED_WDMA_RX_PROCESSED_MIB(1)), 114 + 115 + DUMP_STR("WDMA RX"), 116 + DUMP_WDMA(WDMA_GLO_CFG), 117 + DUMP_WDMA_RING(WDMA_RING_RX(0)), 118 + DUMP_WDMA_RING(WDMA_RING_RX(1)), 119 + }; 120 + struct mtk_wed_hw *hw = s->private; 121 + struct mtk_wed_device *dev = hw->wed_dev; 122 + 123 + if (!dev) 124 + return 0; 125 + 126 + dump_wed_regs(s, dev, regs, ARRAY_SIZE(regs)); 127 + 128 + return 0; 129 + } 130 + DEFINE_SHOW_ATTRIBUTE(wed_txinfo); 131 + 132 + 133 + static int 134 + mtk_wed_reg_set(void *data, u64 val) 135 + { 136 + struct mtk_wed_hw *hw = data; 137 + 138 + regmap_write(hw->regs, hw->debugfs_reg, val); 139 + 140 + return 0; 141 + } 142 + 143 + static int 144 + mtk_wed_reg_get(void *data, u64 *val) 145 + { 146 + struct mtk_wed_hw *hw = data; 147 + unsigned int regval; 148 + int ret; 149 + 150 + ret = regmap_read(hw->regs, hw->debugfs_reg, &regval); 151 + if (ret) 152 + return ret; 153 + 154 + *val = regval; 155 + 156 + return 0; 157 + } 158 + 159 + DEFINE_DEBUGFS_ATTRIBUTE(fops_regval, mtk_wed_reg_get, mtk_wed_reg_set, 160 + "0x%08llx\n"); 161 + 162 + void mtk_wed_hw_add_debugfs(struct mtk_wed_hw *hw) 163 + { 164 + struct dentry *dir; 165 + 166 + snprintf(hw->dirname, sizeof(hw->dirname), "wed%d", hw->index); 167 + dir = debugfs_create_dir(hw->dirname, NULL); 168 + if (!dir) 169 + return; 170 + 171 + hw->debugfs_dir = dir; 172 + debugfs_create_u32("regidx", 0600, dir, &hw->debugfs_reg); 173 + debugfs_create_file_unsafe("regval", 0600, dir, hw, &fops_regval); 174 + debugfs_create_file_unsafe("txinfo", 0400, dir, hw, &wed_txinfo_fops); 175 + }

+8

drivers/net/ethernet/mediatek/mtk_wed_ops.c

··· 1 + // SPDX-License-Identifier: GPL-2.0-only 2 + /* Copyright (C) 2020 Felix Fietkau <nbd@nbd.name> */ 3 + 4 + #include <linux/kernel.h> 5 + #include <linux/soc/mediatek/mtk_wed.h> 6 + 7 + const struct mtk_wed_ops __rcu *mtk_soc_wed_ops; 8 + EXPORT_SYMBOL_GPL(mtk_soc_wed_ops);

+251

drivers/net/ethernet/mediatek/mtk_wed_regs.h

··· 1 + // SPDX-License-Identifier: GPL-2.0-only 2 + /* Copyright (C) 2020 Felix Fietkau <nbd@nbd.name> */ 3 + 4 + #ifndef __MTK_WED_REGS_H 5 + #define __MTK_WED_REGS_H 6 + 7 + #define MTK_WDMA_DESC_CTRL_LEN1 GENMASK(14, 0) 8 + #define MTK_WDMA_DESC_CTRL_LAST_SEG1 BIT(15) 9 + #define MTK_WDMA_DESC_CTRL_BURST BIT(16) 10 + #define MTK_WDMA_DESC_CTRL_LEN0 GENMASK(29, 16) 11 + #define MTK_WDMA_DESC_CTRL_LAST_SEG0 BIT(30) 12 + #define MTK_WDMA_DESC_CTRL_DMA_DONE BIT(31) 13 + 14 + struct mtk_wdma_desc { 15 + __le32 buf0; 16 + __le32 ctrl; 17 + __le32 buf1; 18 + __le32 info; 19 + } __packed __aligned(4); 20 + 21 + #define MTK_WED_RESET 0x008 22 + #define MTK_WED_RESET_TX_BM BIT(0) 23 + #define MTK_WED_RESET_TX_FREE_AGENT BIT(4) 24 + #define MTK_WED_RESET_WPDMA_TX_DRV BIT(8) 25 + #define MTK_WED_RESET_WPDMA_RX_DRV BIT(9) 26 + #define MTK_WED_RESET_WPDMA_INT_AGENT BIT(11) 27 + #define MTK_WED_RESET_WED_TX_DMA BIT(12) 28 + #define MTK_WED_RESET_WDMA_RX_DRV BIT(17) 29 + #define MTK_WED_RESET_WDMA_INT_AGENT BIT(19) 30 + #define MTK_WED_RESET_WED BIT(31) 31 + 32 + #define MTK_WED_CTRL 0x00c 33 + #define MTK_WED_CTRL_WPDMA_INT_AGENT_EN BIT(0) 34 + #define MTK_WED_CTRL_WPDMA_INT_AGENT_BUSY BIT(1) 35 + #define MTK_WED_CTRL_WDMA_INT_AGENT_EN BIT(2) 36 + #define MTK_WED_CTRL_WDMA_INT_AGENT_BUSY BIT(3) 37 + #define MTK_WED_CTRL_WED_TX_BM_EN BIT(8) 38 + #define MTK_WED_CTRL_WED_TX_BM_BUSY BIT(9) 39 + #define MTK_WED_CTRL_WED_TX_FREE_AGENT_EN BIT(10) 40 + #define MTK_WED_CTRL_WED_TX_FREE_AGENT_BUSY BIT(11) 41 + #define MTK_WED_CTRL_RESERVE_EN BIT(12) 42 + #define MTK_WED_CTRL_RESERVE_BUSY BIT(13) 43 + #define MTK_WED_CTRL_FINAL_DIDX_READ BIT(24) 44 + #define MTK_WED_CTRL_MIB_READ_CLEAR BIT(28) 45 + 46 + #define MTK_WED_EXT_INT_STATUS 0x020 47 + #define MTK_WED_EXT_INT_STATUS_TF_LEN_ERR BIT(0) 48 + #define MTK_WED_EXT_INT_STATUS_TKID_WO_PYLD BIT(1) 49 + #define MTK_WED_EXT_INT_STATUS_TKID_TITO_INVALID BIT(4) 50 + #define MTK_WED_EXT_INT_STATUS_TX_FBUF_LO_TH BIT(8) 51 + #define MTK_WED_EXT_INT_STATUS_TX_FBUF_HI_TH BIT(9) 52 + #define MTK_WED_EXT_INT_STATUS_RX_FBUF_LO_TH BIT(12) 53 + #define MTK_WED_EXT_INT_STATUS_RX_FBUF_HI_TH BIT(13) 54 + #define MTK_WED_EXT_INT_STATUS_RX_DRV_R_RESP_ERR BIT(16) 55 + #define MTK_WED_EXT_INT_STATUS_RX_DRV_W_RESP_ERR BIT(17) 56 + #define MTK_WED_EXT_INT_STATUS_RX_DRV_COHERENT BIT(18) 57 + #define MTK_WED_EXT_INT_STATUS_RX_DRV_INIT_WDMA_EN BIT(19) 58 + #define MTK_WED_EXT_INT_STATUS_RX_DRV_BM_DMAD_COHERENT BIT(20) 59 + #define MTK_WED_EXT_INT_STATUS_TX_DRV_R_RESP_ERR BIT(21) 60 + #define MTK_WED_EXT_INT_STATUS_TX_DRV_W_RESP_ERR BIT(22) 61 + #define MTK_WED_EXT_INT_STATUS_RX_DRV_DMA_RECYCLE BIT(24) 62 + #define MTK_WED_EXT_INT_STATUS_ERROR_MASK (MTK_WED_EXT_INT_STATUS_TF_LEN_ERR | \ 63 + MTK_WED_EXT_INT_STATUS_TKID_WO_PYLD | \ 64 + MTK_WED_EXT_INT_STATUS_TKID_TITO_INVALID | \ 65 + MTK_WED_EXT_INT_STATUS_RX_DRV_R_RESP_ERR | \ 66 + MTK_WED_EXT_INT_STATUS_RX_DRV_W_RESP_ERR | \ 67 + MTK_WED_EXT_INT_STATUS_RX_DRV_INIT_WDMA_EN | \ 68 + MTK_WED_EXT_INT_STATUS_TX_DRV_R_RESP_ERR | \ 69 + MTK_WED_EXT_INT_STATUS_TX_DRV_W_RESP_ERR) 70 + 71 + #define MTK_WED_EXT_INT_MASK 0x028 72 + 73 + #define MTK_WED_STATUS 0x060 74 + #define MTK_WED_STATUS_TX GENMASK(15, 8) 75 + 76 + #define MTK_WED_TX_BM_CTRL 0x080 77 + #define MTK_WED_TX_BM_CTRL_VLD_GRP_NUM GENMASK(6, 0) 78 + #define MTK_WED_TX_BM_CTRL_RSV_GRP_NUM GENMASK(22, 16) 79 + #define MTK_WED_TX_BM_CTRL_PAUSE BIT(28) 80 + 81 + #define MTK_WED_TX_BM_BASE 0x084 82 + 83 + #define MTK_WED_TX_BM_TKID 0x088 84 + #define MTK_WED_TX_BM_TKID_START GENMASK(15, 0) 85 + #define MTK_WED_TX_BM_TKID_END GENMASK(31, 16) 86 + 87 + #define MTK_WED_TX_BM_BUF_LEN 0x08c 88 + 89 + #define MTK_WED_TX_BM_INTF 0x09c 90 + #define MTK_WED_TX_BM_INTF_TKID GENMASK(15, 0) 91 + #define MTK_WED_TX_BM_INTF_TKFIFO_FDEP GENMASK(23, 16) 92 + #define MTK_WED_TX_BM_INTF_TKID_VALID BIT(28) 93 + #define MTK_WED_TX_BM_INTF_TKID_READ BIT(29) 94 + 95 + #define MTK_WED_TX_BM_DYN_THR 0x0a0 96 + #define MTK_WED_TX_BM_DYN_THR_LO GENMASK(6, 0) 97 + #define MTK_WED_TX_BM_DYN_THR_HI GENMASK(22, 16) 98 + 99 + #define MTK_WED_INT_STATUS 0x200 100 + #define MTK_WED_INT_MASK 0x204 101 + 102 + #define MTK_WED_GLO_CFG 0x208 103 + #define MTK_WED_GLO_CFG_TX_DMA_EN BIT(0) 104 + #define MTK_WED_GLO_CFG_TX_DMA_BUSY BIT(1) 105 + #define MTK_WED_GLO_CFG_RX_DMA_EN BIT(2) 106 + #define MTK_WED_GLO_CFG_RX_DMA_BUSY BIT(3) 107 + #define MTK_WED_GLO_CFG_RX_BT_SIZE GENMASK(5, 4) 108 + #define MTK_WED_GLO_CFG_TX_WB_DDONE BIT(6) 109 + #define MTK_WED_GLO_CFG_BIG_ENDIAN BIT(7) 110 + #define MTK_WED_GLO_CFG_DIS_BT_SIZE_ALIGN BIT(8) 111 + #define MTK_WED_GLO_CFG_TX_BT_SIZE_LO BIT(9) 112 + #define MTK_WED_GLO_CFG_MULTI_DMA_EN GENMASK(11, 10) 113 + #define MTK_WED_GLO_CFG_FIFO_LITTLE_ENDIAN BIT(12) 114 + #define MTK_WED_GLO_CFG_MI_DEPTH_RD GENMASK(21, 13) 115 + #define MTK_WED_GLO_CFG_TX_BT_SIZE_HI GENMASK(23, 22) 116 + #define MTK_WED_GLO_CFG_SW_RESET BIT(24) 117 + #define MTK_WED_GLO_CFG_FIRST_TOKEN_ONLY BIT(26) 118 + #define MTK_WED_GLO_CFG_OMIT_RX_INFO BIT(27) 119 + #define MTK_WED_GLO_CFG_OMIT_TX_INFO BIT(28) 120 + #define MTK_WED_GLO_CFG_BYTE_SWAP BIT(29) 121 + #define MTK_WED_GLO_CFG_RX_2B_OFFSET BIT(31) 122 + 123 + #define MTK_WED_RESET_IDX 0x20c 124 + #define MTK_WED_RESET_IDX_TX GENMASK(3, 0) 125 + #define MTK_WED_RESET_IDX_RX GENMASK(17, 16) 126 + 127 + #define MTK_WED_TX_MIB(_n) (0x2a0 + (_n) * 4) 128 + 129 + #define MTK_WED_RING_TX(_n) (0x300 + (_n) * 0x10) 130 + 131 + #define MTK_WED_RING_RX(_n) (0x400 + (_n) * 0x10) 132 + 133 + #define MTK_WED_WPDMA_INT_TRIGGER 0x504 134 + #define MTK_WED_WPDMA_INT_TRIGGER_RX_DONE BIT(1) 135 + #define MTK_WED_WPDMA_INT_TRIGGER_TX_DONE GENMASK(5, 4) 136 + 137 + #define MTK_WED_WPDMA_GLO_CFG 0x508 138 + #define MTK_WED_WPDMA_GLO_CFG_TX_DRV_EN BIT(0) 139 + #define MTK_WED_WPDMA_GLO_CFG_TX_DRV_BUSY BIT(1) 140 + #define MTK_WED_WPDMA_GLO_CFG_RX_DRV_EN BIT(2) 141 + #define MTK_WED_WPDMA_GLO_CFG_RX_DRV_BUSY BIT(3) 142 + #define MTK_WED_WPDMA_GLO_CFG_RX_BT_SIZE GENMASK(5, 4) 143 + #define MTK_WED_WPDMA_GLO_CFG_TX_WB_DDONE BIT(6) 144 + #define MTK_WED_WPDMA_GLO_CFG_BIG_ENDIAN BIT(7) 145 + #define MTK_WED_WPDMA_GLO_CFG_DIS_BT_SIZE_ALIGN BIT(8) 146 + #define MTK_WED_WPDMA_GLO_CFG_TX_BT_SIZE_LO BIT(9) 147 + #define MTK_WED_WPDMA_GLO_CFG_MULTI_DMA_EN GENMASK(11, 10) 148 + #define MTK_WED_WPDMA_GLO_CFG_FIFO_LITTLE_ENDIAN BIT(12) 149 + #define MTK_WED_WPDMA_GLO_CFG_MI_DEPTH_RD GENMASK(21, 13) 150 + #define MTK_WED_WPDMA_GLO_CFG_TX_BT_SIZE_HI GENMASK(23, 22) 151 + #define MTK_WED_WPDMA_GLO_CFG_SW_RESET BIT(24) 152 + #define MTK_WED_WPDMA_GLO_CFG_FIRST_TOKEN_ONLY BIT(26) 153 + #define MTK_WED_WPDMA_GLO_CFG_OMIT_RX_INFO BIT(27) 154 + #define MTK_WED_WPDMA_GLO_CFG_OMIT_TX_INFO BIT(28) 155 + #define MTK_WED_WPDMA_GLO_CFG_BYTE_SWAP BIT(29) 156 + #define MTK_WED_WPDMA_GLO_CFG_RX_2B_OFFSET BIT(31) 157 + 158 + #define MTK_WED_WPDMA_RESET_IDX 0x50c 159 + #define MTK_WED_WPDMA_RESET_IDX_TX GENMASK(3, 0) 160 + #define MTK_WED_WPDMA_RESET_IDX_RX GENMASK(17, 16) 161 + 162 + #define MTK_WED_WPDMA_INT_CTRL 0x520 163 + #define MTK_WED_WPDMA_INT_CTRL_SUBRT_ADV BIT(21) 164 + 165 + #define MTK_WED_WPDMA_INT_MASK 0x524 166 + 167 + #define MTK_WED_PCIE_CFG_BASE 0x560 168 + 169 + #define MTK_WED_PCIE_INT_TRIGGER 0x570 170 + #define MTK_WED_PCIE_INT_TRIGGER_STATUS BIT(16) 171 + 172 + #define MTK_WED_WPDMA_CFG_BASE 0x580 173 + 174 + #define MTK_WED_WPDMA_TX_MIB(_n) (0x5a0 + (_n) * 4) 175 + #define MTK_WED_WPDMA_TX_COHERENT_MIB(_n) (0x5d0 + (_n) * 4) 176 + 177 + #define MTK_WED_WPDMA_RING_TX(_n) (0x600 + (_n) * 0x10) 178 + #define MTK_WED_WPDMA_RING_RX(_n) (0x700 + (_n) * 0x10) 179 + #define MTK_WED_WDMA_RING_RX(_n) (0x900 + (_n) * 0x10) 180 + #define MTK_WED_WDMA_RX_THRES(_n) (0x940 + (_n) * 0x4) 181 + 182 + #define MTK_WED_WDMA_GLO_CFG 0xa04 183 + #define MTK_WED_WDMA_GLO_CFG_TX_DRV_EN BIT(0) 184 + #define MTK_WED_WDMA_GLO_CFG_RX_DRV_EN BIT(2) 185 + #define MTK_WED_WDMA_GLO_CFG_RX_DRV_BUSY BIT(3) 186 + #define MTK_WED_WDMA_GLO_CFG_BT_SIZE GENMASK(5, 4) 187 + #define MTK_WED_WDMA_GLO_CFG_TX_WB_DDONE BIT(6) 188 + #define MTK_WED_WDMA_GLO_CFG_RX_DIS_FSM_AUTO_IDLE BIT(13) 189 + #define MTK_WED_WDMA_GLO_CFG_WCOMPLETE_SEL BIT(16) 190 + #define MTK_WED_WDMA_GLO_CFG_INIT_PHASE_RXDMA_BYPASS BIT(17) 191 + #define MTK_WED_WDMA_GLO_CFG_INIT_PHASE_BYPASS BIT(18) 192 + #define MTK_WED_WDMA_GLO_CFG_FSM_RETURN_IDLE BIT(19) 193 + #define MTK_WED_WDMA_GLO_CFG_WAIT_COHERENT BIT(20) 194 + #define MTK_WED_WDMA_GLO_CFG_AXI_W_AFTER_AW BIT(21) 195 + #define MTK_WED_WDMA_GLO_CFG_IDLE_DMAD_SUPPLY_SINGLE_W BIT(22) 196 + #define MTK_WED_WDMA_GLO_CFG_IDLE_DMAD_SUPPLY BIT(23) 197 + #define MTK_WED_WDMA_GLO_CFG_DYNAMIC_SKIP_DMAD_PREP BIT(24) 198 + #define MTK_WED_WDMA_GLO_CFG_DYNAMIC_DMAD_RECYCLE BIT(25) 199 + #define MTK_WED_WDMA_GLO_CFG_RST_INIT_COMPLETE BIT(26) 200 + #define MTK_WED_WDMA_GLO_CFG_RXDRV_CLKGATE_BYPASS BIT(30) 201 + 202 + #define MTK_WED_WDMA_RESET_IDX 0xa08 203 + #define MTK_WED_WDMA_RESET_IDX_RX GENMASK(17, 16) 204 + #define MTK_WED_WDMA_RESET_IDX_DRV GENMASK(25, 24) 205 + 206 + #define MTK_WED_WDMA_INT_TRIGGER 0xa28 207 + #define MTK_WED_WDMA_INT_TRIGGER_RX_DONE GENMASK(17, 16) 208 + 209 + #define MTK_WED_WDMA_INT_CTRL 0xa2c 210 + #define MTK_WED_WDMA_INT_CTRL_POLL_SRC_SEL GENMASK(17, 16) 211 + 212 + #define MTK_WED_WDMA_OFFSET0 0xaa4 213 + #define MTK_WED_WDMA_OFFSET1 0xaa8 214 + 215 + #define MTK_WED_WDMA_RX_MIB(_n) (0xae0 + (_n) * 4) 216 + #define MTK_WED_WDMA_RX_RECYCLE_MIB(_n) (0xae8 + (_n) * 4) 217 + #define MTK_WED_WDMA_RX_PROCESSED_MIB(_n) (0xaf0 + (_n) * 4) 218 + 219 + #define MTK_WED_RING_OFS_BASE 0x00 220 + #define MTK_WED_RING_OFS_COUNT 0x04 221 + #define MTK_WED_RING_OFS_CPU_IDX 0x08 222 + #define MTK_WED_RING_OFS_DMA_IDX 0x0c 223 + 224 + #define MTK_WDMA_RING_RX(_n) (0x100 + (_n) * 0x10) 225 + 226 + #define MTK_WDMA_GLO_CFG 0x204 227 + #define MTK_WDMA_GLO_CFG_RX_INFO_PRERES GENMASK(28, 26) 228 + 229 + #define MTK_WDMA_RESET_IDX 0x208 230 + #define MTK_WDMA_RESET_IDX_TX GENMASK(3, 0) 231 + #define MTK_WDMA_RESET_IDX_RX GENMASK(17, 16) 232 + 233 + #define MTK_WDMA_INT_MASK 0x228 234 + #define MTK_WDMA_INT_MASK_TX_DONE GENMASK(3, 0) 235 + #define MTK_WDMA_INT_MASK_RX_DONE GENMASK(17, 16) 236 + #define MTK_WDMA_INT_MASK_TX_DELAY BIT(28) 237 + #define MTK_WDMA_INT_MASK_TX_COHERENT BIT(29) 238 + #define MTK_WDMA_INT_MASK_RX_DELAY BIT(30) 239 + #define MTK_WDMA_INT_MASK_RX_COHERENT BIT(31) 240 + 241 + #define MTK_WDMA_INT_GRP1 0x250 242 + #define MTK_WDMA_INT_GRP2 0x254 243 + 244 + #define MTK_PCIE_MIRROR_MAP(n) ((n) ? 0x4 : 0x0) 245 + #define MTK_PCIE_MIRROR_MAP_EN BIT(0) 246 + #define MTK_PCIE_MIRROR_MAP_WED_ID BIT(1) 247 + 248 + /* DMA channel mapping */ 249 + #define HIFSYS_DMA_AG_MAP 0x008 250 + 251 + #endif

+131

include/linux/soc/mediatek/mtk_wed.h

··· 1 + #ifndef __MTK_WED_H 2 + #define __MTK_WED_H 3 + 4 + #include <linux/kernel.h> 5 + #include <linux/rcupdate.h> 6 + #include <linux/regmap.h> 7 + #include <linux/pci.h> 8 + 9 + #define MTK_WED_TX_QUEUES 2 10 + 11 + struct mtk_wed_hw; 12 + struct mtk_wdma_desc; 13 + 14 + struct mtk_wed_ring { 15 + struct mtk_wdma_desc *desc; 16 + dma_addr_t desc_phys; 17 + int size; 18 + 19 + u32 reg_base; 20 + void __iomem *wpdma; 21 + }; 22 + 23 + struct mtk_wed_device { 24 + #ifdef CONFIG_NET_MEDIATEK_SOC_WED 25 + const struct mtk_wed_ops *ops; 26 + struct device *dev; 27 + struct mtk_wed_hw *hw; 28 + bool init_done, running; 29 + int wdma_idx; 30 + int irq; 31 + 32 + struct mtk_wed_ring tx_ring[MTK_WED_TX_QUEUES]; 33 + struct mtk_wed_ring txfree_ring; 34 + struct mtk_wed_ring tx_wdma[MTK_WED_TX_QUEUES]; 35 + 36 + struct { 37 + int size; 38 + void **pages; 39 + struct mtk_wdma_desc *desc; 40 + dma_addr_t desc_phys; 41 + } buf_ring; 42 + 43 + /* filled by driver: */ 44 + struct { 45 + struct pci_dev *pci_dev; 46 + 47 + u32 wpdma_phys; 48 + 49 + u16 token_start; 50 + unsigned int nbuf; 51 + 52 + u32 (*init_buf)(void *ptr, dma_addr_t phys, int token_id); 53 + int (*offload_enable)(struct mtk_wed_device *wed); 54 + void (*offload_disable)(struct mtk_wed_device *wed); 55 + } wlan; 56 + #endif 57 + }; 58 + 59 + struct mtk_wed_ops { 60 + int (*attach)(struct mtk_wed_device *dev); 61 + int (*tx_ring_setup)(struct mtk_wed_device *dev, int ring, 62 + void __iomem *regs); 63 + int (*txfree_ring_setup)(struct mtk_wed_device *dev, 64 + void __iomem *regs); 65 + void (*detach)(struct mtk_wed_device *dev); 66 + 67 + void (*stop)(struct mtk_wed_device *dev); 68 + void (*start)(struct mtk_wed_device *dev, u32 irq_mask); 69 + void (*reset_dma)(struct mtk_wed_device *dev); 70 + 71 + u32 (*reg_read)(struct mtk_wed_device *dev, u32 reg); 72 + void (*reg_write)(struct mtk_wed_device *dev, u32 reg, u32 val); 73 + 74 + u32 (*irq_get)(struct mtk_wed_device *dev, u32 mask); 75 + void (*irq_set_mask)(struct mtk_wed_device *dev, u32 mask); 76 + }; 77 + 78 + extern const struct mtk_wed_ops __rcu *mtk_soc_wed_ops; 79 + 80 + static inline int 81 + mtk_wed_device_attach(struct mtk_wed_device *dev) 82 + { 83 + int ret = -ENODEV; 84 + 85 + #ifdef CONFIG_NET_MEDIATEK_SOC_WED 86 + rcu_read_lock(); 87 + dev->ops = rcu_dereference(mtk_soc_wed_ops); 88 + if (dev->ops) 89 + ret = dev->ops->attach(dev); 90 + else 91 + rcu_read_unlock(); 92 + 93 + if (ret) 94 + dev->ops = NULL; 95 + #endif 96 + 97 + return ret; 98 + } 99 + 100 + #ifdef CONFIG_NET_MEDIATEK_SOC_WED 101 + #define mtk_wed_device_active(_dev) !!(_dev)->ops 102 + #define mtk_wed_device_detach(_dev) (_dev)->ops->detach(_dev) 103 + #define mtk_wed_device_start(_dev, _mask) (_dev)->ops->start(_dev, _mask) 104 + #define mtk_wed_device_tx_ring_setup(_dev, _ring, _regs) \ 105 + (_dev)->ops->tx_ring_setup(_dev, _ring, _regs) 106 + #define mtk_wed_device_txfree_ring_setup(_dev, _regs) \ 107 + (_dev)->ops->txfree_ring_setup(_dev, _regs) 108 + #define mtk_wed_device_reg_read(_dev, _reg) \ 109 + (_dev)->ops->reg_read(_dev, _reg) 110 + #define mtk_wed_device_reg_write(_dev, _reg, _val) \ 111 + (_dev)->ops->reg_write(_dev, _reg, _val) 112 + #define mtk_wed_device_irq_get(_dev, _mask) \ 113 + (_dev)->ops->irq_get(_dev, _mask) 114 + #define mtk_wed_device_irq_set_mask(_dev, _mask) \ 115 + (_dev)->ops->irq_set_mask(_dev, _mask) 116 + #else 117 + static inline bool mtk_wed_device_active(struct mtk_wed_device *dev) 118 + { 119 + return false; 120 + } 121 + #define mtk_wed_device_detach(_dev) do {} while (0) 122 + #define mtk_wed_device_start(_dev, _mask) do {} while (0) 123 + #define mtk_wed_device_tx_ring_setup(_dev, _ring, _regs) -ENODEV 124 + #define mtk_wed_device_txfree_ring_setup(_dev, _ring, _regs) -ENODEV 125 + #define mtk_wed_device_reg_read(_dev, _reg) 0 126 + #define mtk_wed_device_reg_write(_dev, _reg, _val) do {} while (0) 127 + #define mtk_wed_device_irq_get(_dev, _mask) 0 128 + #define mtk_wed_device_irq_set_mask(_dev, _mask) do {} while (0) 129 + #endif 130 + 131 + #endif