blob: 5c4315ffeaad57e340295aa19583b49a40bbb411 [file] [log] [blame]
Stephen Warren50709602016-10-21 14:46:47 -06001/*
2 * Copyright (c) 2016, NVIDIA CORPORATION.
3 *
4 * SPDX-License-Identifier: GPL-2.0
5 *
6 * Portions based on U-Boot's rtl8169.c.
7 */
8
9/*
10 * This driver supports the Synopsys Designware Ethernet QOS (Quality Of
11 * Service) IP block. The IP supports multiple options for bus type, clocking/
12 * reset structure, and feature list.
13 *
14 * The driver is written such that generic core logic is kept separate from
15 * configuration-specific logic. Code that interacts with configuration-
16 * specific resources is split out into separate functions to avoid polluting
17 * common code. If/when this driver is enhanced to support multiple
18 * configurations, the core code should be adapted to call all configuration-
19 * specific functions through function pointers, with the definition of those
20 * function pointers being supplied by struct udevice_id eqos_ids[]'s .data
21 * field.
22 *
23 * The following configurations are currently supported:
24 * tegra186:
25 * NVIDIA's Tegra186 chip. This configuration uses an AXI master/DMA bus, an
26 * AHB slave/register bus, contains the DMA, MTL, and MAC sub-blocks, and
27 * supports a single RGMII PHY. This configuration also has SW control over
28 * all clock and reset signals to the HW block.
29 */
30
31#include <common.h>
32#include <clk.h>
33#include <dm.h>
34#include <errno.h>
35#include <memalign.h>
36#include <miiphy.h>
37#include <net.h>
38#include <netdev.h>
39#include <phy.h>
40#include <reset.h>
41#include <wait_bit.h>
42#include <asm/gpio.h>
43#include <asm/io.h>
44
45/* Core registers */
46
47#define EQOS_MAC_REGS_BASE 0x000
48struct eqos_mac_regs {
49 uint32_t configuration; /* 0x000 */
50 uint32_t unused_004[(0x070 - 0x004) / 4]; /* 0x004 */
51 uint32_t q0_tx_flow_ctrl; /* 0x070 */
52 uint32_t unused_070[(0x090 - 0x074) / 4]; /* 0x074 */
53 uint32_t rx_flow_ctrl; /* 0x090 */
54 uint32_t unused_094; /* 0x094 */
55 uint32_t txq_prty_map0; /* 0x098 */
56 uint32_t unused_09c; /* 0x09c */
57 uint32_t rxq_ctrl0; /* 0x0a0 */
58 uint32_t unused_0a4; /* 0x0a4 */
59 uint32_t rxq_ctrl2; /* 0x0a8 */
60 uint32_t unused_0ac[(0x0dc - 0x0ac) / 4]; /* 0x0ac */
61 uint32_t us_tic_counter; /* 0x0dc */
62 uint32_t unused_0e0[(0x11c - 0x0e0) / 4]; /* 0x0e0 */
63 uint32_t hw_feature0; /* 0x11c */
64 uint32_t hw_feature1; /* 0x120 */
65 uint32_t hw_feature2; /* 0x124 */
66 uint32_t unused_128[(0x200 - 0x128) / 4]; /* 0x128 */
67 uint32_t mdio_address; /* 0x200 */
68 uint32_t mdio_data; /* 0x204 */
69 uint32_t unused_208[(0x300 - 0x208) / 4]; /* 0x208 */
70 uint32_t address0_high; /* 0x300 */
71 uint32_t address0_low; /* 0x304 */
72};
73
74#define EQOS_MAC_CONFIGURATION_GPSLCE BIT(23)
75#define EQOS_MAC_CONFIGURATION_CST BIT(21)
76#define EQOS_MAC_CONFIGURATION_ACS BIT(20)
77#define EQOS_MAC_CONFIGURATION_WD BIT(19)
78#define EQOS_MAC_CONFIGURATION_JD BIT(17)
79#define EQOS_MAC_CONFIGURATION_JE BIT(16)
80#define EQOS_MAC_CONFIGURATION_PS BIT(15)
81#define EQOS_MAC_CONFIGURATION_FES BIT(14)
82#define EQOS_MAC_CONFIGURATION_DM BIT(13)
83#define EQOS_MAC_CONFIGURATION_TE BIT(1)
84#define EQOS_MAC_CONFIGURATION_RE BIT(0)
85
86#define EQOS_MAC_Q0_TX_FLOW_CTRL_PT_SHIFT 16
87#define EQOS_MAC_Q0_TX_FLOW_CTRL_PT_MASK 0xffff
88#define EQOS_MAC_Q0_TX_FLOW_CTRL_TFE BIT(1)
89
90#define EQOS_MAC_RX_FLOW_CTRL_RFE BIT(0)
91
92#define EQOS_MAC_TXQ_PRTY_MAP0_PSTQ0_SHIFT 0
93#define EQOS_MAC_TXQ_PRTY_MAP0_PSTQ0_MASK 0xff
94
95#define EQOS_MAC_RXQ_CTRL0_RXQ0EN_SHIFT 0
96#define EQOS_MAC_RXQ_CTRL0_RXQ0EN_MASK 3
97#define EQOS_MAC_RXQ_CTRL0_RXQ0EN_NOT_ENABLED 0
98#define EQOS_MAC_RXQ_CTRL0_RXQ0EN_ENABLED_DCB 2
99
100#define EQOS_MAC_RXQ_CTRL2_PSRQ0_SHIFT 0
101#define EQOS_MAC_RXQ_CTRL2_PSRQ0_MASK 0xff
102
103#define EQOS_MAC_HW_FEATURE1_TXFIFOSIZE_SHIFT 6
104#define EQOS_MAC_HW_FEATURE1_TXFIFOSIZE_MASK 0x1f
105#define EQOS_MAC_HW_FEATURE1_RXFIFOSIZE_SHIFT 0
106#define EQOS_MAC_HW_FEATURE1_RXFIFOSIZE_MASK 0x1f
107
108#define EQOS_MAC_MDIO_ADDRESS_PA_SHIFT 21
109#define EQOS_MAC_MDIO_ADDRESS_RDA_SHIFT 16
110#define EQOS_MAC_MDIO_ADDRESS_CR_SHIFT 8
111#define EQOS_MAC_MDIO_ADDRESS_CR_20_35 2
112#define EQOS_MAC_MDIO_ADDRESS_SKAP BIT(4)
113#define EQOS_MAC_MDIO_ADDRESS_GOC_SHIFT 2
114#define EQOS_MAC_MDIO_ADDRESS_GOC_READ 3
115#define EQOS_MAC_MDIO_ADDRESS_GOC_WRITE 1
116#define EQOS_MAC_MDIO_ADDRESS_C45E BIT(1)
117#define EQOS_MAC_MDIO_ADDRESS_GB BIT(0)
118
119#define EQOS_MAC_MDIO_DATA_GD_MASK 0xffff
120
121#define EQOS_MTL_REGS_BASE 0xd00
122struct eqos_mtl_regs {
123 uint32_t txq0_operation_mode; /* 0xd00 */
124 uint32_t unused_d04; /* 0xd04 */
125 uint32_t txq0_debug; /* 0xd08 */
126 uint32_t unused_d0c[(0xd18 - 0xd0c) / 4]; /* 0xd0c */
127 uint32_t txq0_quantum_weight; /* 0xd18 */
128 uint32_t unused_d1c[(0xd30 - 0xd1c) / 4]; /* 0xd1c */
129 uint32_t rxq0_operation_mode; /* 0xd30 */
130 uint32_t unused_d34; /* 0xd34 */
131 uint32_t rxq0_debug; /* 0xd38 */
132};
133
134#define EQOS_MTL_TXQ0_OPERATION_MODE_TQS_SHIFT 16
135#define EQOS_MTL_TXQ0_OPERATION_MODE_TQS_MASK 0x1ff
136#define EQOS_MTL_TXQ0_OPERATION_MODE_TXQEN_SHIFT 2
137#define EQOS_MTL_TXQ0_OPERATION_MODE_TXQEN_MASK 3
138#define EQOS_MTL_TXQ0_OPERATION_MODE_TXQEN_ENABLED 2
139#define EQOS_MTL_TXQ0_OPERATION_MODE_TSF BIT(1)
140#define EQOS_MTL_TXQ0_OPERATION_MODE_FTQ BIT(0)
141
142#define EQOS_MTL_TXQ0_DEBUG_TXQSTS BIT(4)
143#define EQOS_MTL_TXQ0_DEBUG_TRCSTS_SHIFT 1
144#define EQOS_MTL_TXQ0_DEBUG_TRCSTS_MASK 3
145
146#define EQOS_MTL_RXQ0_OPERATION_MODE_RQS_SHIFT 20
147#define EQOS_MTL_RXQ0_OPERATION_MODE_RQS_MASK 0x3ff
148#define EQOS_MTL_RXQ0_OPERATION_MODE_RFD_SHIFT 14
149#define EQOS_MTL_RXQ0_OPERATION_MODE_RFD_MASK 0x3f
150#define EQOS_MTL_RXQ0_OPERATION_MODE_RFA_SHIFT 8
151#define EQOS_MTL_RXQ0_OPERATION_MODE_RFA_MASK 0x3f
152#define EQOS_MTL_RXQ0_OPERATION_MODE_EHFC BIT(7)
153#define EQOS_MTL_RXQ0_OPERATION_MODE_RSF BIT(5)
154
155#define EQOS_MTL_RXQ0_DEBUG_PRXQ_SHIFT 16
156#define EQOS_MTL_RXQ0_DEBUG_PRXQ_MASK 0x7fff
157#define EQOS_MTL_RXQ0_DEBUG_RXQSTS_SHIFT 4
158#define EQOS_MTL_RXQ0_DEBUG_RXQSTS_MASK 3
159
160#define EQOS_DMA_REGS_BASE 0x1000
161struct eqos_dma_regs {
162 uint32_t mode; /* 0x1000 */
163 uint32_t sysbus_mode; /* 0x1004 */
164 uint32_t unused_1008[(0x1100 - 0x1008) / 4]; /* 0x1008 */
165 uint32_t ch0_control; /* 0x1100 */
166 uint32_t ch0_tx_control; /* 0x1104 */
167 uint32_t ch0_rx_control; /* 0x1108 */
168 uint32_t unused_110c; /* 0x110c */
169 uint32_t ch0_txdesc_list_haddress; /* 0x1110 */
170 uint32_t ch0_txdesc_list_address; /* 0x1114 */
171 uint32_t ch0_rxdesc_list_haddress; /* 0x1118 */
172 uint32_t ch0_rxdesc_list_address; /* 0x111c */
173 uint32_t ch0_txdesc_tail_pointer; /* 0x1120 */
174 uint32_t unused_1124; /* 0x1124 */
175 uint32_t ch0_rxdesc_tail_pointer; /* 0x1128 */
176 uint32_t ch0_txdesc_ring_length; /* 0x112c */
177 uint32_t ch0_rxdesc_ring_length; /* 0x1130 */
178};
179
180#define EQOS_DMA_MODE_SWR BIT(0)
181
182#define EQOS_DMA_SYSBUS_MODE_RD_OSR_LMT_SHIFT 16
183#define EQOS_DMA_SYSBUS_MODE_RD_OSR_LMT_MASK 0xf
184#define EQOS_DMA_SYSBUS_MODE_EAME BIT(11)
185#define EQOS_DMA_SYSBUS_MODE_BLEN16 BIT(3)
186#define EQOS_DMA_SYSBUS_MODE_BLEN8 BIT(2)
187#define EQOS_DMA_SYSBUS_MODE_BLEN4 BIT(1)
188
189#define EQOS_DMA_CH0_CONTROL_PBLX8 BIT(16)
190
191#define EQOS_DMA_CH0_TX_CONTROL_TXPBL_SHIFT 16
192#define EQOS_DMA_CH0_TX_CONTROL_TXPBL_MASK 0x3f
193#define EQOS_DMA_CH0_TX_CONTROL_OSP BIT(4)
194#define EQOS_DMA_CH0_TX_CONTROL_ST BIT(0)
195
196#define EQOS_DMA_CH0_RX_CONTROL_RXPBL_SHIFT 16
197#define EQOS_DMA_CH0_RX_CONTROL_RXPBL_MASK 0x3f
198#define EQOS_DMA_CH0_RX_CONTROL_RBSZ_SHIFT 1
199#define EQOS_DMA_CH0_RX_CONTROL_RBSZ_MASK 0x3fff
200#define EQOS_DMA_CH0_RX_CONTROL_SR BIT(0)
201
202/* These registers are Tegra186-specific */
203#define EQOS_TEGRA186_REGS_BASE 0x8800
204struct eqos_tegra186_regs {
205 uint32_t sdmemcomppadctrl; /* 0x8800 */
206 uint32_t auto_cal_config; /* 0x8804 */
207 uint32_t unused_8808; /* 0x8808 */
208 uint32_t auto_cal_status; /* 0x880c */
209};
210
211#define EQOS_SDMEMCOMPPADCTRL_PAD_E_INPUT_OR_E_PWRD BIT(31)
212
213#define EQOS_AUTO_CAL_CONFIG_START BIT(31)
214#define EQOS_AUTO_CAL_CONFIG_ENABLE BIT(29)
215
216#define EQOS_AUTO_CAL_STATUS_ACTIVE BIT(31)
217
218/* Descriptors */
219
220#define EQOS_DESCRIPTOR_WORDS 4
221#define EQOS_DESCRIPTOR_SIZE (EQOS_DESCRIPTOR_WORDS * 4)
222/* We assume ARCH_DMA_MINALIGN >= 16; 16 is the EQOS HW minimum */
223#define EQOS_DESCRIPTOR_ALIGN ARCH_DMA_MINALIGN
224#define EQOS_DESCRIPTORS_TX 4
225#define EQOS_DESCRIPTORS_RX 4
226#define EQOS_DESCRIPTORS_NUM (EQOS_DESCRIPTORS_TX + EQOS_DESCRIPTORS_RX)
227#define EQOS_DESCRIPTORS_SIZE ALIGN(EQOS_DESCRIPTORS_NUM * \
228 EQOS_DESCRIPTOR_SIZE, ARCH_DMA_MINALIGN)
229#define EQOS_BUFFER_ALIGN ARCH_DMA_MINALIGN
230#define EQOS_MAX_PACKET_SIZE ALIGN(1568, ARCH_DMA_MINALIGN)
231#define EQOS_RX_BUFFER_SIZE (EQOS_DESCRIPTORS_RX * EQOS_MAX_PACKET_SIZE)
232
233/*
234 * Warn if the cache-line size is larger than the descriptor size. In such
235 * cases the driver will likely fail because the CPU needs to flush the cache
236 * when requeuing RX buffers, therefore descriptors written by the hardware
237 * may be discarded. Architectures with full IO coherence, such as x86, do not
238 * experience this issue, and hence are excluded from this condition.
239 *
240 * This can be fixed by defining CONFIG_SYS_NONCACHED_MEMORY which will cause
241 * the driver to allocate descriptors from a pool of non-cached memory.
242 */
243#if EQOS_DESCRIPTOR_SIZE < ARCH_DMA_MINALIGN
244#if !defined(CONFIG_SYS_NONCACHED_MEMORY) && \
245 !defined(CONFIG_SYS_DCACHE_OFF) && !defined(CONFIG_X86)
246#warning Cache line size is larger than descriptor size
247#endif
248#endif
249
250struct eqos_desc {
251 u32 des0;
252 u32 des1;
253 u32 des2;
254 u32 des3;
255};
256
257#define EQOS_DESC3_OWN BIT(31)
258#define EQOS_DESC3_FD BIT(29)
259#define EQOS_DESC3_LD BIT(28)
260#define EQOS_DESC3_BUF1V BIT(24)
261
262struct eqos_config {
263 bool reg_access_always_ok;
264};
265
266struct eqos_priv {
267 struct udevice *dev;
268 const struct eqos_config *config;
269 fdt_addr_t regs;
270 struct eqos_mac_regs *mac_regs;
271 struct eqos_mtl_regs *mtl_regs;
272 struct eqos_dma_regs *dma_regs;
273 struct eqos_tegra186_regs *tegra186_regs;
274 struct reset_ctl reset_ctl;
275 struct gpio_desc phy_reset_gpio;
276 struct clk clk_master_bus;
277 struct clk clk_rx;
278 struct clk clk_ptp_ref;
279 struct clk clk_tx;
280 struct clk clk_slave_bus;
281 struct mii_dev *mii;
282 struct phy_device *phy;
283 void *descs;
284 struct eqos_desc *tx_descs;
285 struct eqos_desc *rx_descs;
286 int tx_desc_idx, rx_desc_idx;
287 void *tx_dma_buf;
288 void *rx_dma_buf;
289 void *rx_pkt;
290 bool started;
291 bool reg_access_ok;
292};
293
294/*
295 * TX and RX descriptors are 16 bytes. This causes problems with the cache
296 * maintenance on CPUs where the cache-line size exceeds the size of these
297 * descriptors. What will happen is that when the driver receives a packet
298 * it will be immediately requeued for the hardware to reuse. The CPU will
299 * therefore need to flush the cache-line containing the descriptor, which
300 * will cause all other descriptors in the same cache-line to be flushed
301 * along with it. If one of those descriptors had been written to by the
302 * device those changes (and the associated packet) will be lost.
303 *
304 * To work around this, we make use of non-cached memory if available. If
305 * descriptors are mapped uncached there's no need to manually flush them
306 * or invalidate them.
307 *
308 * Note that this only applies to descriptors. The packet data buffers do
309 * not have the same constraints since they are 1536 bytes large, so they
310 * are unlikely to share cache-lines.
311 */
312static void *eqos_alloc_descs(unsigned int num)
313{
314#ifdef CONFIG_SYS_NONCACHED_MEMORY
315 return (void *)noncached_alloc(EQOS_DESCRIPTORS_SIZE,
316 EQOS_DESCRIPTOR_ALIGN);
317#else
318 return memalign(EQOS_DESCRIPTOR_ALIGN, EQOS_DESCRIPTORS_SIZE);
319#endif
320}
321
322static void eqos_free_descs(void *descs)
323{
324#ifdef CONFIG_SYS_NONCACHED_MEMORY
325 /* FIXME: noncached_alloc() has no opposite */
326#else
327 free(descs);
328#endif
329}
330
331static void eqos_inval_desc(void *desc)
332{
333#ifndef CONFIG_SYS_NONCACHED_MEMORY
334 unsigned long start = (unsigned long)desc & ~(ARCH_DMA_MINALIGN - 1);
335 unsigned long end = ALIGN(start + EQOS_DESCRIPTOR_SIZE,
336 ARCH_DMA_MINALIGN);
337
338 invalidate_dcache_range(start, end);
339#endif
340}
341
342static void eqos_flush_desc(void *desc)
343{
344#ifndef CONFIG_SYS_NONCACHED_MEMORY
345 flush_cache((unsigned long)desc, EQOS_DESCRIPTOR_SIZE);
346#endif
347}
348
349static void eqos_inval_buffer(void *buf, size_t size)
350{
351 unsigned long start = (unsigned long)buf & ~(ARCH_DMA_MINALIGN - 1);
352 unsigned long end = ALIGN(start + size, ARCH_DMA_MINALIGN);
353
354 invalidate_dcache_range(start, end);
355}
356
357static void eqos_flush_buffer(void *buf, size_t size)
358{
359 flush_cache((unsigned long)buf, size);
360}
361
362static int eqos_mdio_wait_idle(struct eqos_priv *eqos)
363{
364 return wait_for_bit(__func__, &eqos->mac_regs->mdio_address,
365 EQOS_MAC_MDIO_ADDRESS_GB, false, 1000000, true);
366}
367
368static int eqos_mdio_read(struct mii_dev *bus, int mdio_addr, int mdio_devad,
369 int mdio_reg)
370{
371 struct eqos_priv *eqos = bus->priv;
372 u32 val;
373 int ret;
374
375 debug("%s(dev=%p, addr=%x, reg=%d):\n", __func__, eqos->dev, mdio_addr,
376 mdio_reg);
377
378 ret = eqos_mdio_wait_idle(eqos);
379 if (ret) {
380 error("MDIO not idle at entry");
381 return ret;
382 }
383
384 val = readl(&eqos->mac_regs->mdio_address);
385 val &= EQOS_MAC_MDIO_ADDRESS_SKAP |
386 EQOS_MAC_MDIO_ADDRESS_C45E;
387 val |= (mdio_addr << EQOS_MAC_MDIO_ADDRESS_PA_SHIFT) |
388 (mdio_reg << EQOS_MAC_MDIO_ADDRESS_RDA_SHIFT) |
389 (EQOS_MAC_MDIO_ADDRESS_CR_20_35 <<
390 EQOS_MAC_MDIO_ADDRESS_CR_SHIFT) |
391 (EQOS_MAC_MDIO_ADDRESS_GOC_READ <<
392 EQOS_MAC_MDIO_ADDRESS_GOC_SHIFT) |
393 EQOS_MAC_MDIO_ADDRESS_GB;
394 writel(val, &eqos->mac_regs->mdio_address);
395
396 udelay(10);
397
398 ret = eqos_mdio_wait_idle(eqos);
399 if (ret) {
400 error("MDIO read didn't complete");
401 return ret;
402 }
403
404 val = readl(&eqos->mac_regs->mdio_data);
405 val &= EQOS_MAC_MDIO_DATA_GD_MASK;
406
407 debug("%s: val=%x\n", __func__, val);
408
409 return val;
410}
411
412static int eqos_mdio_write(struct mii_dev *bus, int mdio_addr, int mdio_devad,
413 int mdio_reg, u16 mdio_val)
414{
415 struct eqos_priv *eqos = bus->priv;
416 u32 val;
417 int ret;
418
419 debug("%s(dev=%p, addr=%x, reg=%d, val=%x):\n", __func__, eqos->dev,
420 mdio_addr, mdio_reg, mdio_val);
421
422 ret = eqos_mdio_wait_idle(eqos);
423 if (ret) {
424 error("MDIO not idle at entry");
425 return ret;
426 }
427
428 writel(mdio_val, &eqos->mac_regs->mdio_data);
429
430 val = readl(&eqos->mac_regs->mdio_address);
431 val &= EQOS_MAC_MDIO_ADDRESS_SKAP |
432 EQOS_MAC_MDIO_ADDRESS_C45E;
433 val |= (mdio_addr << EQOS_MAC_MDIO_ADDRESS_PA_SHIFT) |
434 (mdio_reg << EQOS_MAC_MDIO_ADDRESS_RDA_SHIFT) |
435 (EQOS_MAC_MDIO_ADDRESS_CR_20_35 <<
436 EQOS_MAC_MDIO_ADDRESS_CR_SHIFT) |
437 (EQOS_MAC_MDIO_ADDRESS_GOC_WRITE <<
438 EQOS_MAC_MDIO_ADDRESS_GOC_SHIFT) |
439 EQOS_MAC_MDIO_ADDRESS_GB;
440 writel(val, &eqos->mac_regs->mdio_address);
441
442 udelay(10);
443
444 ret = eqos_mdio_wait_idle(eqos);
445 if (ret) {
446 error("MDIO read didn't complete");
447 return ret;
448 }
449
450 return 0;
451}
452
453static int eqos_start_clks_tegra186(struct udevice *dev)
454{
455 struct eqos_priv *eqos = dev_get_priv(dev);
456 int ret;
457
458 debug("%s(dev=%p):\n", __func__, dev);
459
460 ret = clk_enable(&eqos->clk_slave_bus);
461 if (ret < 0) {
462 error("clk_enable(clk_slave_bus) failed: %d", ret);
463 goto err;
464 }
465
466 ret = clk_enable(&eqos->clk_master_bus);
467 if (ret < 0) {
468 error("clk_enable(clk_master_bus) failed: %d", ret);
469 goto err_disable_clk_slave_bus;
470 }
471
472 ret = clk_enable(&eqos->clk_rx);
473 if (ret < 0) {
474 error("clk_enable(clk_rx) failed: %d", ret);
475 goto err_disable_clk_master_bus;
476 }
477
478 ret = clk_enable(&eqos->clk_ptp_ref);
479 if (ret < 0) {
480 error("clk_enable(clk_ptp_ref) failed: %d", ret);
481 goto err_disable_clk_rx;
482 }
483
484 ret = clk_set_rate(&eqos->clk_ptp_ref, 125 * 1000 * 1000);
485 if (ret < 0) {
486 error("clk_set_rate(clk_ptp_ref) failed: %d", ret);
487 goto err_disable_clk_ptp_ref;
488 }
489
490 ret = clk_enable(&eqos->clk_tx);
491 if (ret < 0) {
492 error("clk_enable(clk_tx) failed: %d", ret);
493 goto err_disable_clk_ptp_ref;
494 }
495
496 debug("%s: OK\n", __func__);
497 return 0;
498
499err_disable_clk_ptp_ref:
500 clk_disable(&eqos->clk_ptp_ref);
501err_disable_clk_rx:
502 clk_disable(&eqos->clk_rx);
503err_disable_clk_master_bus:
504 clk_disable(&eqos->clk_master_bus);
505err_disable_clk_slave_bus:
506 clk_disable(&eqos->clk_slave_bus);
507err:
508 debug("%s: FAILED: %d\n", __func__, ret);
509 return ret;
510}
511
512void eqos_stop_clks_tegra186(struct udevice *dev)
513{
514 struct eqos_priv *eqos = dev_get_priv(dev);
515
516 debug("%s(dev=%p):\n", __func__, dev);
517
518 clk_disable(&eqos->clk_tx);
519 clk_disable(&eqos->clk_ptp_ref);
520 clk_disable(&eqos->clk_rx);
521 clk_disable(&eqos->clk_master_bus);
522 clk_disable(&eqos->clk_slave_bus);
523
524 debug("%s: OK\n", __func__);
525}
526
527static int eqos_start_resets_tegra186(struct udevice *dev)
528{
529 struct eqos_priv *eqos = dev_get_priv(dev);
530 int ret;
531
532 debug("%s(dev=%p):\n", __func__, dev);
533
534 ret = dm_gpio_set_value(&eqos->phy_reset_gpio, 1);
535 if (ret < 0) {
536 error("dm_gpio_set_value(phy_reset, assert) failed: %d", ret);
537 return ret;
538 }
539
540 udelay(2);
541
542 ret = dm_gpio_set_value(&eqos->phy_reset_gpio, 0);
543 if (ret < 0) {
544 error("dm_gpio_set_value(phy_reset, deassert) failed: %d", ret);
545 return ret;
546 }
547
548 ret = reset_assert(&eqos->reset_ctl);
549 if (ret < 0) {
550 error("reset_assert() failed: %d", ret);
551 return ret;
552 }
553
554 udelay(2);
555
556 ret = reset_deassert(&eqos->reset_ctl);
557 if (ret < 0) {
558 error("reset_deassert() failed: %d", ret);
559 return ret;
560 }
561
562 debug("%s: OK\n", __func__);
563 return 0;
564}
565
566static int eqos_stop_resets_tegra186(struct udevice *dev)
567{
568 struct eqos_priv *eqos = dev_get_priv(dev);
569
570 reset_assert(&eqos->reset_ctl);
571 dm_gpio_set_value(&eqos->phy_reset_gpio, 1);
572
573 return 0;
574}
575
576static int eqos_calibrate_pads_tegra186(struct udevice *dev)
577{
578 struct eqos_priv *eqos = dev_get_priv(dev);
579 int ret;
580
581 debug("%s(dev=%p):\n", __func__, dev);
582
583 setbits_le32(&eqos->tegra186_regs->sdmemcomppadctrl,
584 EQOS_SDMEMCOMPPADCTRL_PAD_E_INPUT_OR_E_PWRD);
585
586 udelay(1);
587
588 setbits_le32(&eqos->tegra186_regs->auto_cal_config,
589 EQOS_AUTO_CAL_CONFIG_START | EQOS_AUTO_CAL_CONFIG_ENABLE);
590
591 ret = wait_for_bit(__func__, &eqos->tegra186_regs->auto_cal_status,
592 EQOS_AUTO_CAL_STATUS_ACTIVE, true, 10, false);
593 if (ret) {
594 error("calibrate didn't start");
595 goto failed;
596 }
597
598 ret = wait_for_bit(__func__, &eqos->tegra186_regs->auto_cal_status,
599 EQOS_AUTO_CAL_STATUS_ACTIVE, false, 10, false);
600 if (ret) {
601 error("calibrate didn't finish");
602 goto failed;
603 }
604
605 ret = 0;
606
607failed:
608 clrbits_le32(&eqos->tegra186_regs->sdmemcomppadctrl,
609 EQOS_SDMEMCOMPPADCTRL_PAD_E_INPUT_OR_E_PWRD);
610
611 debug("%s: returns %d\n", __func__, ret);
612
613 return ret;
614}
615
616static int eqos_disable_calibration_tegra186(struct udevice *dev)
617{
618 struct eqos_priv *eqos = dev_get_priv(dev);
619
620 debug("%s(dev=%p):\n", __func__, dev);
621
622 clrbits_le32(&eqos->tegra186_regs->auto_cal_config,
623 EQOS_AUTO_CAL_CONFIG_ENABLE);
624
625 return 0;
626}
627
628static ulong eqos_get_tick_clk_rate_tegra186(struct udevice *dev)
629{
630 struct eqos_priv *eqos = dev_get_priv(dev);
631
632 return clk_get_rate(&eqos->clk_slave_bus);
633}
634
635static int eqos_set_full_duplex(struct udevice *dev)
636{
637 struct eqos_priv *eqos = dev_get_priv(dev);
638
639 debug("%s(dev=%p):\n", __func__, dev);
640
641 setbits_le32(&eqos->mac_regs->configuration, EQOS_MAC_CONFIGURATION_DM);
642
643 return 0;
644}
645
646static int eqos_set_half_duplex(struct udevice *dev)
647{
648 struct eqos_priv *eqos = dev_get_priv(dev);
649
650 debug("%s(dev=%p):\n", __func__, dev);
651
652 clrbits_le32(&eqos->mac_regs->configuration, EQOS_MAC_CONFIGURATION_DM);
653
654 /* WAR: Flush TX queue when switching to half-duplex */
655 setbits_le32(&eqos->mtl_regs->txq0_operation_mode,
656 EQOS_MTL_TXQ0_OPERATION_MODE_FTQ);
657
658 return 0;
659}
660
661static int eqos_set_gmii_speed(struct udevice *dev)
662{
663 struct eqos_priv *eqos = dev_get_priv(dev);
664
665 debug("%s(dev=%p):\n", __func__, dev);
666
667 clrbits_le32(&eqos->mac_regs->configuration,
668 EQOS_MAC_CONFIGURATION_PS | EQOS_MAC_CONFIGURATION_FES);
669
670 return 0;
671}
672
673static int eqos_set_mii_speed_100(struct udevice *dev)
674{
675 struct eqos_priv *eqos = dev_get_priv(dev);
676
677 debug("%s(dev=%p):\n", __func__, dev);
678
679 setbits_le32(&eqos->mac_regs->configuration,
680 EQOS_MAC_CONFIGURATION_PS | EQOS_MAC_CONFIGURATION_FES);
681
682 return 0;
683}
684
685static int eqos_set_mii_speed_10(struct udevice *dev)
686{
687 struct eqos_priv *eqos = dev_get_priv(dev);
688
689 debug("%s(dev=%p):\n", __func__, dev);
690
691 clrsetbits_le32(&eqos->mac_regs->configuration,
692 EQOS_MAC_CONFIGURATION_FES, EQOS_MAC_CONFIGURATION_PS);
693
694 return 0;
695}
696
697static int eqos_set_tx_clk_speed_tegra186(struct udevice *dev)
698{
699 struct eqos_priv *eqos = dev_get_priv(dev);
700 ulong rate;
701 int ret;
702
703 debug("%s(dev=%p):\n", __func__, dev);
704
705 switch (eqos->phy->speed) {
706 case SPEED_1000:
707 rate = 125 * 1000 * 1000;
708 break;
709 case SPEED_100:
710 rate = 25 * 1000 * 1000;
711 break;
712 case SPEED_10:
713 rate = 2.5 * 1000 * 1000;
714 break;
715 default:
716 error("invalid speed %d", eqos->phy->speed);
717 return -EINVAL;
718 }
719
720 ret = clk_set_rate(&eqos->clk_tx, rate);
721 if (ret < 0) {
722 error("clk_set_rate(tx_clk, %lu) failed: %d", rate, ret);
723 return ret;
724 }
725
726 return 0;
727}
728
729static int eqos_adjust_link(struct udevice *dev)
730{
731 struct eqos_priv *eqos = dev_get_priv(dev);
732 int ret;
733 bool en_calibration;
734
735 debug("%s(dev=%p):\n", __func__, dev);
736
737 if (eqos->phy->duplex)
738 ret = eqos_set_full_duplex(dev);
739 else
740 ret = eqos_set_half_duplex(dev);
741 if (ret < 0) {
742 error("eqos_set_*_duplex() failed: %d", ret);
743 return ret;
744 }
745
746 switch (eqos->phy->speed) {
747 case SPEED_1000:
748 en_calibration = true;
749 ret = eqos_set_gmii_speed(dev);
750 break;
751 case SPEED_100:
752 en_calibration = true;
753 ret = eqos_set_mii_speed_100(dev);
754 break;
755 case SPEED_10:
756 en_calibration = false;
757 ret = eqos_set_mii_speed_10(dev);
758 break;
759 default:
760 error("invalid speed %d", eqos->phy->speed);
761 return -EINVAL;
762 }
763 if (ret < 0) {
764 error("eqos_set_*mii_speed*() failed: %d", ret);
765 return ret;
766 }
767
768 if (en_calibration) {
769 ret = eqos_calibrate_pads_tegra186(dev);
770 if (ret < 0) {
771 error("eqos_calibrate_pads_tegra186() failed: %d", ret);
772 return ret;
773 }
774 } else {
775 ret = eqos_disable_calibration_tegra186(dev);
776 if (ret < 0) {
777 error("eqos_disable_calibration_tegra186() failed: %d",
778 ret);
779 return ret;
780 }
781 }
782
783 ret = eqos_set_tx_clk_speed_tegra186(dev);
784 if (ret < 0) {
785 error("eqos_set_tx_clk_speed_tegra186() failed: %d", ret);
786 return ret;
787 }
788
789 return 0;
790}
791
792static int eqos_write_hwaddr(struct udevice *dev)
793{
794 struct eth_pdata *plat = dev_get_platdata(dev);
795 struct eqos_priv *eqos = dev_get_priv(dev);
796 uint32_t val;
797
798 /*
799 * This function may be called before start() or after stop(). At that
800 * time, on at least some configurations of the EQoS HW, all clocks to
801 * the EQoS HW block will be stopped, and a reset signal applied. If
802 * any register access is attempted in this state, bus timeouts or CPU
803 * hangs may occur. This check prevents that.
804 *
805 * A simple solution to this problem would be to not implement
806 * write_hwaddr(), since start() always writes the MAC address into HW
807 * anyway. However, it is desirable to implement write_hwaddr() to
808 * support the case of SW that runs subsequent to U-Boot which expects
809 * the MAC address to already be programmed into the EQoS registers,
810 * which must happen irrespective of whether the U-Boot user (or
811 * scripts) actually made use of the EQoS device, and hence
812 * irrespective of whether start() was ever called.
813 *
814 * Note that this requirement by subsequent SW is not valid for
815 * Tegra186, and is likely not valid for any non-PCI instantiation of
816 * the EQoS HW block. This function is implemented solely as
817 * future-proofing with the expectation the driver will eventually be
818 * ported to some system where the expectation above is true.
819 */
820 if (!eqos->config->reg_access_always_ok && !eqos->reg_access_ok)
821 return 0;
822
823 /* Update the MAC address */
824 val = (plat->enetaddr[5] << 8) |
825 (plat->enetaddr[4]);
826 writel(val, &eqos->mac_regs->address0_high);
827 val = (plat->enetaddr[3] << 24) |
828 (plat->enetaddr[2] << 16) |
829 (plat->enetaddr[1] << 8) |
830 (plat->enetaddr[0]);
831 writel(val, &eqos->mac_regs->address0_low);
832
833 return 0;
834}
835
836static int eqos_start(struct udevice *dev)
837{
838 struct eqos_priv *eqos = dev_get_priv(dev);
839 int ret, i;
840 ulong rate;
841 u32 val, tx_fifo_sz, rx_fifo_sz, tqs, rqs, pbl;
842 ulong last_rx_desc;
843
844 debug("%s(dev=%p):\n", __func__, dev);
845
846 eqos->tx_desc_idx = 0;
847 eqos->rx_desc_idx = 0;
848
849 ret = eqos_start_clks_tegra186(dev);
850 if (ret < 0) {
851 error("eqos_start_clks_tegra186() failed: %d", ret);
852 goto err;
853 }
854
855 ret = eqos_start_resets_tegra186(dev);
856 if (ret < 0) {
857 error("eqos_start_resets_tegra186() failed: %d", ret);
858 goto err_stop_clks;
859 }
860
861 udelay(10);
862
863 eqos->reg_access_ok = true;
864
865 ret = wait_for_bit(__func__, &eqos->dma_regs->mode,
866 EQOS_DMA_MODE_SWR, false, 10, false);
867 if (ret) {
868 error("EQOS_DMA_MODE_SWR stuck");
869 goto err_stop_resets;
870 }
871
872 ret = eqos_calibrate_pads_tegra186(dev);
873 if (ret < 0) {
874 error("eqos_calibrate_pads_tegra186() failed: %d", ret);
875 goto err_stop_resets;
876 }
877
878 rate = eqos_get_tick_clk_rate_tegra186(dev);
879 val = (rate / 1000000) - 1;
880 writel(val, &eqos->mac_regs->us_tic_counter);
881
882 eqos->phy = phy_connect(eqos->mii, 0, dev, 0);
883 if (!eqos->phy) {
884 error("phy_connect() failed");
885 goto err_stop_resets;
886 }
887 ret = phy_config(eqos->phy);
888 if (ret < 0) {
889 error("phy_config() failed: %d", ret);
890 goto err_shutdown_phy;
891 }
892 ret = phy_startup(eqos->phy);
893 if (ret < 0) {
894 error("phy_startup() failed: %d", ret);
895 goto err_shutdown_phy;
896 }
897
898 if (!eqos->phy->link) {
899 error("No link");
900 goto err_shutdown_phy;
901 }
902
903 ret = eqos_adjust_link(dev);
904 if (ret < 0) {
905 error("eqos_adjust_link() failed: %d", ret);
906 goto err_shutdown_phy;
907 }
908
909 /* Configure MTL */
910
911 /* Enable Store and Forward mode for TX */
912 /* Program Tx operating mode */
913 setbits_le32(&eqos->mtl_regs->txq0_operation_mode,
914 EQOS_MTL_TXQ0_OPERATION_MODE_TSF |
915 (EQOS_MTL_TXQ0_OPERATION_MODE_TXQEN_ENABLED <<
916 EQOS_MTL_TXQ0_OPERATION_MODE_TXQEN_SHIFT));
917
918 /* Transmit Queue weight */
919 writel(0x10, &eqos->mtl_regs->txq0_quantum_weight);
920
921 /* Enable Store and Forward mode for RX, since no jumbo frame */
922 setbits_le32(&eqos->mtl_regs->rxq0_operation_mode,
923 EQOS_MTL_RXQ0_OPERATION_MODE_RSF);
924
925 /* Transmit/Receive queue fifo size; use all RAM for 1 queue */
926 val = readl(&eqos->mac_regs->hw_feature1);
927 tx_fifo_sz = (val >> EQOS_MAC_HW_FEATURE1_TXFIFOSIZE_SHIFT) &
928 EQOS_MAC_HW_FEATURE1_TXFIFOSIZE_MASK;
929 rx_fifo_sz = (val >> EQOS_MAC_HW_FEATURE1_RXFIFOSIZE_SHIFT) &
930 EQOS_MAC_HW_FEATURE1_RXFIFOSIZE_MASK;
931
932 /*
933 * r/tx_fifo_sz is encoded as log2(n / 128). Undo that by shifting.
934 * r/tqs is encoded as (n / 256) - 1.
935 */
936 tqs = (128 << tx_fifo_sz) / 256 - 1;
937 rqs = (128 << rx_fifo_sz) / 256 - 1;
938
939 clrsetbits_le32(&eqos->mtl_regs->txq0_operation_mode,
940 EQOS_MTL_TXQ0_OPERATION_MODE_TQS_MASK <<
941 EQOS_MTL_TXQ0_OPERATION_MODE_TQS_SHIFT,
942 tqs << EQOS_MTL_TXQ0_OPERATION_MODE_TQS_SHIFT);
943 clrsetbits_le32(&eqos->mtl_regs->rxq0_operation_mode,
944 EQOS_MTL_RXQ0_OPERATION_MODE_RQS_MASK <<
945 EQOS_MTL_RXQ0_OPERATION_MODE_RQS_SHIFT,
946 rqs << EQOS_MTL_RXQ0_OPERATION_MODE_RQS_SHIFT);
947
948 /* Flow control used only if each channel gets 4KB or more FIFO */
949 if (rqs >= ((4096 / 256) - 1)) {
950 u32 rfd, rfa;
951
952 setbits_le32(&eqos->mtl_regs->rxq0_operation_mode,
953 EQOS_MTL_RXQ0_OPERATION_MODE_EHFC);
954
955 /*
956 * Set Threshold for Activating Flow Contol space for min 2
957 * frames ie, (1500 * 1) = 1500 bytes.
958 *
959 * Set Threshold for Deactivating Flow Contol for space of
960 * min 1 frame (frame size 1500bytes) in receive fifo
961 */
962 if (rqs == ((4096 / 256) - 1)) {
963 /*
964 * This violates the above formula because of FIFO size
965 * limit therefore overflow may occur inspite of this.
966 */
967 rfd = 0x3; /* Full-3K */
968 rfa = 0x1; /* Full-1.5K */
969 } else if (rqs == ((8192 / 256) - 1)) {
970 rfd = 0x6; /* Full-4K */
971 rfa = 0xa; /* Full-6K */
972 } else if (rqs == ((16384 / 256) - 1)) {
973 rfd = 0x6; /* Full-4K */
974 rfa = 0x12; /* Full-10K */
975 } else {
976 rfd = 0x6; /* Full-4K */
977 rfa = 0x1E; /* Full-16K */
978 }
979
980 clrsetbits_le32(&eqos->mtl_regs->rxq0_operation_mode,
981 (EQOS_MTL_RXQ0_OPERATION_MODE_RFD_MASK <<
982 EQOS_MTL_RXQ0_OPERATION_MODE_RFD_SHIFT) |
983 (EQOS_MTL_RXQ0_OPERATION_MODE_RFA_MASK <<
984 EQOS_MTL_RXQ0_OPERATION_MODE_RFA_SHIFT),
985 (rfd <<
986 EQOS_MTL_RXQ0_OPERATION_MODE_RFD_SHIFT) |
987 (rfa <<
988 EQOS_MTL_RXQ0_OPERATION_MODE_RFA_SHIFT));
989 }
990
991 /* Configure MAC */
992
993 clrsetbits_le32(&eqos->mac_regs->rxq_ctrl0,
994 EQOS_MAC_RXQ_CTRL0_RXQ0EN_MASK <<
995 EQOS_MAC_RXQ_CTRL0_RXQ0EN_SHIFT,
996 EQOS_MAC_RXQ_CTRL0_RXQ0EN_ENABLED_DCB <<
997 EQOS_MAC_RXQ_CTRL0_RXQ0EN_SHIFT);
998
999 /* Set TX flow control parameters */
1000 /* Set Pause Time */
1001 setbits_le32(&eqos->mac_regs->q0_tx_flow_ctrl,
1002 0xffff << EQOS_MAC_Q0_TX_FLOW_CTRL_PT_SHIFT);
1003 /* Assign priority for TX flow control */
1004 clrbits_le32(&eqos->mac_regs->txq_prty_map0,
1005 EQOS_MAC_TXQ_PRTY_MAP0_PSTQ0_MASK <<
1006 EQOS_MAC_TXQ_PRTY_MAP0_PSTQ0_SHIFT);
1007 /* Assign priority for RX flow control */
1008 clrbits_le32(&eqos->mac_regs->rxq_ctrl2,
1009 EQOS_MAC_RXQ_CTRL2_PSRQ0_MASK <<
1010 EQOS_MAC_RXQ_CTRL2_PSRQ0_SHIFT);
1011 /* Enable flow control */
1012 setbits_le32(&eqos->mac_regs->q0_tx_flow_ctrl,
1013 EQOS_MAC_Q0_TX_FLOW_CTRL_TFE);
1014 setbits_le32(&eqos->mac_regs->rx_flow_ctrl,
1015 EQOS_MAC_RX_FLOW_CTRL_RFE);
1016
1017 clrsetbits_le32(&eqos->mac_regs->configuration,
1018 EQOS_MAC_CONFIGURATION_GPSLCE |
1019 EQOS_MAC_CONFIGURATION_WD |
1020 EQOS_MAC_CONFIGURATION_JD |
1021 EQOS_MAC_CONFIGURATION_JE,
1022 EQOS_MAC_CONFIGURATION_CST |
1023 EQOS_MAC_CONFIGURATION_ACS);
1024
1025 eqos_write_hwaddr(dev);
1026
1027 /* Configure DMA */
1028
1029 /* Enable OSP mode */
1030 setbits_le32(&eqos->dma_regs->ch0_tx_control,
1031 EQOS_DMA_CH0_TX_CONTROL_OSP);
1032
1033 /* RX buffer size. Must be a multiple of bus width */
1034 clrsetbits_le32(&eqos->dma_regs->ch0_rx_control,
1035 EQOS_DMA_CH0_RX_CONTROL_RBSZ_MASK <<
1036 EQOS_DMA_CH0_RX_CONTROL_RBSZ_SHIFT,
1037 EQOS_MAX_PACKET_SIZE <<
1038 EQOS_DMA_CH0_RX_CONTROL_RBSZ_SHIFT);
1039
1040 setbits_le32(&eqos->dma_regs->ch0_control,
1041 EQOS_DMA_CH0_CONTROL_PBLX8);
1042
1043 /*
1044 * Burst length must be < 1/2 FIFO size.
1045 * FIFO size in tqs is encoded as (n / 256) - 1.
1046 * Each burst is n * 8 (PBLX8) * 16 (AXI width) == 128 bytes.
1047 * Half of n * 256 is n * 128, so pbl == tqs, modulo the -1.
1048 */
1049 pbl = tqs + 1;
1050 if (pbl > 32)
1051 pbl = 32;
1052 clrsetbits_le32(&eqos->dma_regs->ch0_tx_control,
1053 EQOS_DMA_CH0_TX_CONTROL_TXPBL_MASK <<
1054 EQOS_DMA_CH0_TX_CONTROL_TXPBL_SHIFT,
1055 pbl << EQOS_DMA_CH0_TX_CONTROL_TXPBL_SHIFT);
1056
1057 clrsetbits_le32(&eqos->dma_regs->ch0_rx_control,
1058 EQOS_DMA_CH0_RX_CONTROL_RXPBL_MASK <<
1059 EQOS_DMA_CH0_RX_CONTROL_RXPBL_SHIFT,
1060 8 << EQOS_DMA_CH0_RX_CONTROL_RXPBL_SHIFT);
1061
1062 /* DMA performance configuration */
1063 val = (2 << EQOS_DMA_SYSBUS_MODE_RD_OSR_LMT_SHIFT) |
1064 EQOS_DMA_SYSBUS_MODE_EAME | EQOS_DMA_SYSBUS_MODE_BLEN16 |
1065 EQOS_DMA_SYSBUS_MODE_BLEN8 | EQOS_DMA_SYSBUS_MODE_BLEN4;
1066 writel(val, &eqos->dma_regs->sysbus_mode);
1067
1068 /* Set up descriptors */
1069
1070 memset(eqos->descs, 0, EQOS_DESCRIPTORS_SIZE);
1071 for (i = 0; i < EQOS_DESCRIPTORS_RX; i++) {
1072 struct eqos_desc *rx_desc = &(eqos->rx_descs[i]);
1073 rx_desc->des0 = (u32)(ulong)(eqos->rx_dma_buf +
1074 (i * EQOS_MAX_PACKET_SIZE));
1075 rx_desc->des3 |= EQOS_DESC3_OWN | EQOS_DESC3_BUF1V;
1076 }
1077 flush_cache((unsigned long)eqos->descs, EQOS_DESCRIPTORS_SIZE);
1078
1079 writel(0, &eqos->dma_regs->ch0_txdesc_list_haddress);
1080 writel((ulong)eqos->tx_descs, &eqos->dma_regs->ch0_txdesc_list_address);
1081 writel(EQOS_DESCRIPTORS_TX - 1,
1082 &eqos->dma_regs->ch0_txdesc_ring_length);
1083
1084 writel(0, &eqos->dma_regs->ch0_rxdesc_list_haddress);
1085 writel((ulong)eqos->rx_descs, &eqos->dma_regs->ch0_rxdesc_list_address);
1086 writel(EQOS_DESCRIPTORS_RX - 1,
1087 &eqos->dma_regs->ch0_rxdesc_ring_length);
1088
1089 /* Enable everything */
1090
1091 setbits_le32(&eqos->mac_regs->configuration,
1092 EQOS_MAC_CONFIGURATION_TE | EQOS_MAC_CONFIGURATION_RE);
1093
1094 setbits_le32(&eqos->dma_regs->ch0_tx_control,
1095 EQOS_DMA_CH0_TX_CONTROL_ST);
1096 setbits_le32(&eqos->dma_regs->ch0_rx_control,
1097 EQOS_DMA_CH0_RX_CONTROL_SR);
1098
1099 /* TX tail pointer not written until we need to TX a packet */
1100 /*
1101 * Point RX tail pointer at last descriptor. Ideally, we'd point at the
1102 * first descriptor, implying all descriptors were available. However,
1103 * that's not distinguishable from none of the descriptors being
1104 * available.
1105 */
1106 last_rx_desc = (ulong)&(eqos->rx_descs[(EQOS_DESCRIPTORS_RX - 1)]);
1107 writel(last_rx_desc, &eqos->dma_regs->ch0_rxdesc_tail_pointer);
1108
1109 eqos->started = true;
1110
1111 debug("%s: OK\n", __func__);
1112 return 0;
1113
1114err_shutdown_phy:
1115 phy_shutdown(eqos->phy);
1116 eqos->phy = NULL;
1117err_stop_resets:
1118 eqos_stop_resets_tegra186(dev);
1119err_stop_clks:
1120 eqos_stop_clks_tegra186(dev);
1121err:
1122 error("FAILED: %d", ret);
1123 return ret;
1124}
1125
1126void eqos_stop(struct udevice *dev)
1127{
1128 struct eqos_priv *eqos = dev_get_priv(dev);
1129 int i;
1130
1131 debug("%s(dev=%p):\n", __func__, dev);
1132
1133 if (!eqos->started)
1134 return;
1135 eqos->started = false;
1136 eqos->reg_access_ok = false;
1137
1138 /* Disable TX DMA */
1139 clrbits_le32(&eqos->dma_regs->ch0_tx_control,
1140 EQOS_DMA_CH0_TX_CONTROL_ST);
1141
1142 /* Wait for TX all packets to drain out of MTL */
1143 for (i = 0; i < 1000000; i++) {
1144 u32 val = readl(&eqos->mtl_regs->txq0_debug);
1145 u32 trcsts = (val >> EQOS_MTL_TXQ0_DEBUG_TRCSTS_SHIFT) &
1146 EQOS_MTL_TXQ0_DEBUG_TRCSTS_MASK;
1147 u32 txqsts = val & EQOS_MTL_TXQ0_DEBUG_TXQSTS;
1148 if ((trcsts != 1) && (!txqsts))
1149 break;
1150 }
1151
1152 /* Turn off MAC TX and RX */
1153 clrbits_le32(&eqos->mac_regs->configuration,
1154 EQOS_MAC_CONFIGURATION_TE | EQOS_MAC_CONFIGURATION_RE);
1155
1156 /* Wait for all RX packets to drain out of MTL */
1157 for (i = 0; i < 1000000; i++) {
1158 u32 val = readl(&eqos->mtl_regs->rxq0_debug);
1159 u32 prxq = (val >> EQOS_MTL_RXQ0_DEBUG_PRXQ_SHIFT) &
1160 EQOS_MTL_RXQ0_DEBUG_PRXQ_MASK;
1161 u32 rxqsts = (val >> EQOS_MTL_RXQ0_DEBUG_RXQSTS_SHIFT) &
1162 EQOS_MTL_RXQ0_DEBUG_RXQSTS_MASK;
1163 if ((!prxq) && (!rxqsts))
1164 break;
1165 }
1166
1167 /* Turn off RX DMA */
1168 clrbits_le32(&eqos->dma_regs->ch0_rx_control,
1169 EQOS_DMA_CH0_RX_CONTROL_SR);
1170
1171 if (eqos->phy) {
1172 phy_shutdown(eqos->phy);
1173 eqos->phy = NULL;
1174 }
1175 eqos_stop_resets_tegra186(dev);
1176 eqos_stop_clks_tegra186(dev);
1177
1178 debug("%s: OK\n", __func__);
1179}
1180
1181int eqos_send(struct udevice *dev, void *packet, int length)
1182{
1183 struct eqos_priv *eqos = dev_get_priv(dev);
1184 struct eqos_desc *tx_desc;
1185 int i;
1186
1187 debug("%s(dev=%p, packet=%p, length=%d):\n", __func__, dev, packet,
1188 length);
1189
1190 memcpy(eqos->tx_dma_buf, packet, length);
1191 eqos_flush_buffer(eqos->tx_dma_buf, length);
1192
1193 tx_desc = &(eqos->tx_descs[eqos->tx_desc_idx]);
1194 eqos->tx_desc_idx++;
1195 eqos->tx_desc_idx %= EQOS_DESCRIPTORS_TX;
1196
1197 tx_desc->des0 = (ulong)eqos->tx_dma_buf;
1198 tx_desc->des1 = 0;
1199 tx_desc->des2 = length;
1200 /*
1201 * Make sure that if HW sees the _OWN write below, it will see all the
1202 * writes to the rest of the descriptor too.
1203 */
1204 mb();
1205 tx_desc->des3 = EQOS_DESC3_OWN | EQOS_DESC3_FD | EQOS_DESC3_LD | length;
1206 eqos_flush_desc(tx_desc);
1207
1208 writel((ulong)(tx_desc + 1), &eqos->dma_regs->ch0_txdesc_tail_pointer);
1209
1210 for (i = 0; i < 1000000; i++) {
1211 eqos_inval_desc(tx_desc);
1212 if (!(readl(&tx_desc->des3) & EQOS_DESC3_OWN))
1213 return 0;
1214 udelay(1);
1215 }
1216
1217 debug("%s: TX timeout\n", __func__);
1218
1219 return -ETIMEDOUT;
1220}
1221
1222int eqos_recv(struct udevice *dev, int flags, uchar **packetp)
1223{
1224 struct eqos_priv *eqos = dev_get_priv(dev);
1225 struct eqos_desc *rx_desc;
1226 int length;
1227
1228 debug("%s(dev=%p, flags=%x):\n", __func__, dev, flags);
1229
1230 rx_desc = &(eqos->rx_descs[eqos->rx_desc_idx]);
1231 if (rx_desc->des3 & EQOS_DESC3_OWN) {
1232 debug("%s: RX packet not available\n", __func__);
1233 return -EAGAIN;
1234 }
1235
1236 *packetp = eqos->rx_dma_buf +
1237 (eqos->rx_desc_idx * EQOS_MAX_PACKET_SIZE);
1238 length = rx_desc->des3 & 0x7fff;
1239 debug("%s: *packetp=%p, length=%d\n", __func__, *packetp, length);
1240
1241 eqos_inval_buffer(*packetp, length);
1242
1243 return length;
1244}
1245
1246int eqos_free_pkt(struct udevice *dev, uchar *packet, int length)
1247{
1248 struct eqos_priv *eqos = dev_get_priv(dev);
1249 uchar *packet_expected;
1250 struct eqos_desc *rx_desc;
1251
1252 debug("%s(packet=%p, length=%d)\n", __func__, packet, length);
1253
1254 packet_expected = eqos->rx_dma_buf +
1255 (eqos->rx_desc_idx * EQOS_MAX_PACKET_SIZE);
1256 if (packet != packet_expected) {
1257 debug("%s: Unexpected packet (expected %p)\n", __func__,
1258 packet_expected);
1259 return -EINVAL;
1260 }
1261
1262 rx_desc = &(eqos->rx_descs[eqos->rx_desc_idx]);
1263 rx_desc->des0 = (u32)(ulong)packet;
1264 rx_desc->des1 = 0;
1265 rx_desc->des2 = 0;
1266 /*
1267 * Make sure that if HW sees the _OWN write below, it will see all the
1268 * writes to the rest of the descriptor too.
1269 */
1270 mb();
1271 rx_desc->des3 |= EQOS_DESC3_OWN | EQOS_DESC3_BUF1V;
1272 eqos_flush_desc(rx_desc);
1273
1274 writel((ulong)rx_desc, &eqos->dma_regs->ch0_rxdesc_tail_pointer);
1275
1276 eqos->rx_desc_idx++;
1277 eqos->rx_desc_idx %= EQOS_DESCRIPTORS_RX;
1278
1279 return 0;
1280}
1281
1282static int eqos_probe_resources_core(struct udevice *dev)
1283{
1284 struct eqos_priv *eqos = dev_get_priv(dev);
1285 int ret;
1286
1287 debug("%s(dev=%p):\n", __func__, dev);
1288
1289 eqos->descs = eqos_alloc_descs(EQOS_DESCRIPTORS_TX +
1290 EQOS_DESCRIPTORS_RX);
1291 if (!eqos->descs) {
1292 debug("%s: eqos_alloc_descs() failed\n", __func__);
1293 ret = -ENOMEM;
1294 goto err;
1295 }
1296 eqos->tx_descs = (struct eqos_desc *)eqos->descs;
1297 eqos->rx_descs = (eqos->tx_descs + EQOS_DESCRIPTORS_TX);
1298 debug("%s: tx_descs=%p, rx_descs=%p\n", __func__, eqos->tx_descs,
1299 eqos->rx_descs);
1300
1301 eqos->tx_dma_buf = memalign(EQOS_BUFFER_ALIGN, EQOS_MAX_PACKET_SIZE);
1302 if (!eqos->tx_dma_buf) {
1303 debug("%s: memalign(tx_dma_buf) failed\n", __func__);
1304 ret = -ENOMEM;
1305 goto err_free_descs;
1306 }
1307 debug("%s: rx_dma_buf=%p\n", __func__, eqos->rx_dma_buf);
1308
1309 eqos->rx_dma_buf = memalign(EQOS_BUFFER_ALIGN, EQOS_RX_BUFFER_SIZE);
1310 if (!eqos->rx_dma_buf) {
1311 debug("%s: memalign(rx_dma_buf) failed\n", __func__);
1312 ret = -ENOMEM;
1313 goto err_free_tx_dma_buf;
1314 }
1315 debug("%s: tx_dma_buf=%p\n", __func__, eqos->tx_dma_buf);
1316
1317 eqos->rx_pkt = malloc(EQOS_MAX_PACKET_SIZE);
1318 if (!eqos->rx_pkt) {
1319 debug("%s: malloc(rx_pkt) failed\n", __func__);
1320 ret = -ENOMEM;
1321 goto err_free_rx_dma_buf;
1322 }
1323 debug("%s: rx_pkt=%p\n", __func__, eqos->rx_pkt);
1324
1325 debug("%s: OK\n", __func__);
1326 return 0;
1327
1328err_free_rx_dma_buf:
1329 free(eqos->rx_dma_buf);
1330err_free_tx_dma_buf:
1331 free(eqos->tx_dma_buf);
1332err_free_descs:
1333 eqos_free_descs(eqos->descs);
1334err:
1335
1336 debug("%s: returns %d\n", __func__, ret);
1337 return ret;
1338}
1339
1340static int eqos_remove_resources_core(struct udevice *dev)
1341{
1342 struct eqos_priv *eqos = dev_get_priv(dev);
1343
1344 debug("%s(dev=%p):\n", __func__, dev);
1345
1346 free(eqos->rx_pkt);
1347 free(eqos->rx_dma_buf);
1348 free(eqos->tx_dma_buf);
1349 eqos_free_descs(eqos->descs);
1350
1351 debug("%s: OK\n", __func__);
1352 return 0;
1353}
1354
1355static int eqos_probe_resources_tegra186(struct udevice *dev)
1356{
1357 struct eqos_priv *eqos = dev_get_priv(dev);
1358 int ret;
1359
1360 debug("%s(dev=%p):\n", __func__, dev);
1361
1362 ret = reset_get_by_name(dev, "eqos", &eqos->reset_ctl);
1363 if (ret) {
1364 error("reset_get_by_name(rst) failed: %d", ret);
1365 return ret;
1366 }
1367
1368 ret = gpio_request_by_name(dev, "phy-reset-gpios", 0,
1369 &eqos->phy_reset_gpio,
1370 GPIOD_IS_OUT | GPIOD_IS_OUT_ACTIVE);
1371 if (ret) {
1372 error("gpio_request_by_name(phy reset) failed: %d", ret);
1373 goto err_free_reset_eqos;
1374 }
1375
1376 ret = clk_get_by_name(dev, "slave_bus", &eqos->clk_slave_bus);
1377 if (ret) {
1378 error("clk_get_by_name(slave_bus) failed: %d", ret);
1379 goto err_free_gpio_phy_reset;
1380 }
1381
1382 ret = clk_get_by_name(dev, "master_bus", &eqos->clk_master_bus);
1383 if (ret) {
1384 error("clk_get_by_name(master_bus) failed: %d", ret);
1385 goto err_free_clk_slave_bus;
1386 }
1387
1388 ret = clk_get_by_name(dev, "rx", &eqos->clk_rx);
1389 if (ret) {
1390 error("clk_get_by_name(rx) failed: %d", ret);
1391 goto err_free_clk_master_bus;
1392 }
1393
1394 ret = clk_get_by_name(dev, "ptp_ref", &eqos->clk_ptp_ref);
1395 if (ret) {
1396 error("clk_get_by_name(ptp_ref) failed: %d", ret);
1397 goto err_free_clk_rx;
1398 return ret;
1399 }
1400
1401 ret = clk_get_by_name(dev, "tx", &eqos->clk_tx);
1402 if (ret) {
1403 error("clk_get_by_name(tx) failed: %d", ret);
1404 goto err_free_clk_ptp_ref;
1405 }
1406
1407 debug("%s: OK\n", __func__);
1408 return 0;
1409
1410err_free_clk_ptp_ref:
1411 clk_free(&eqos->clk_ptp_ref);
1412err_free_clk_rx:
1413 clk_free(&eqos->clk_rx);
1414err_free_clk_master_bus:
1415 clk_free(&eqos->clk_master_bus);
1416err_free_clk_slave_bus:
1417 clk_free(&eqos->clk_slave_bus);
1418err_free_gpio_phy_reset:
1419 dm_gpio_free(dev, &eqos->phy_reset_gpio);
1420err_free_reset_eqos:
1421 reset_free(&eqos->reset_ctl);
1422
1423 debug("%s: returns %d\n", __func__, ret);
1424 return ret;
1425}
1426
1427static int eqos_remove_resources_tegra186(struct udevice *dev)
1428{
1429 struct eqos_priv *eqos = dev_get_priv(dev);
1430
1431 debug("%s(dev=%p):\n", __func__, dev);
1432
1433 clk_free(&eqos->clk_tx);
1434 clk_free(&eqos->clk_ptp_ref);
1435 clk_free(&eqos->clk_rx);
1436 clk_free(&eqos->clk_slave_bus);
1437 clk_free(&eqos->clk_master_bus);
1438 dm_gpio_free(dev, &eqos->phy_reset_gpio);
1439 reset_free(&eqos->reset_ctl);
1440
1441 debug("%s: OK\n", __func__);
1442 return 0;
1443}
1444
1445static int eqos_probe(struct udevice *dev)
1446{
1447 struct eqos_priv *eqos = dev_get_priv(dev);
1448 int ret;
1449
1450 debug("%s(dev=%p):\n", __func__, dev);
1451
1452 eqos->dev = dev;
1453 eqos->config = (void *)dev_get_driver_data(dev);
1454
Simon Glassba1dea42017-05-17 17:18:05 -06001455 eqos->regs = devfdt_get_addr(dev);
Stephen Warren50709602016-10-21 14:46:47 -06001456 if (eqos->regs == FDT_ADDR_T_NONE) {
Simon Glassba1dea42017-05-17 17:18:05 -06001457 error("devfdt_get_addr() failed");
Stephen Warren50709602016-10-21 14:46:47 -06001458 return -ENODEV;
1459 }
1460 eqos->mac_regs = (void *)(eqos->regs + EQOS_MAC_REGS_BASE);
1461 eqos->mtl_regs = (void *)(eqos->regs + EQOS_MTL_REGS_BASE);
1462 eqos->dma_regs = (void *)(eqos->regs + EQOS_DMA_REGS_BASE);
1463 eqos->tegra186_regs = (void *)(eqos->regs + EQOS_TEGRA186_REGS_BASE);
1464
1465 ret = eqos_probe_resources_core(dev);
1466 if (ret < 0) {
1467 error("eqos_probe_resources_core() failed: %d", ret);
1468 return ret;
1469 }
1470
1471 ret = eqos_probe_resources_tegra186(dev);
1472 if (ret < 0) {
1473 error("eqos_probe_resources_tegra186() failed: %d", ret);
1474 goto err_remove_resources_core;
1475 }
1476
1477 eqos->mii = mdio_alloc();
1478 if (!eqos->mii) {
1479 error("mdio_alloc() failed");
1480 goto err_remove_resources_tegra;
1481 }
1482 eqos->mii->read = eqos_mdio_read;
1483 eqos->mii->write = eqos_mdio_write;
1484 eqos->mii->priv = eqos;
1485 strcpy(eqos->mii->name, dev->name);
1486
1487 ret = mdio_register(eqos->mii);
1488 if (ret < 0) {
1489 error("mdio_register() failed: %d", ret);
1490 goto err_free_mdio;
1491 }
1492
1493 debug("%s: OK\n", __func__);
1494 return 0;
1495
1496err_free_mdio:
1497 mdio_free(eqos->mii);
1498err_remove_resources_tegra:
1499 eqos_remove_resources_tegra186(dev);
1500err_remove_resources_core:
1501 eqos_remove_resources_core(dev);
1502
1503 debug("%s: returns %d\n", __func__, ret);
1504 return ret;
1505}
1506
1507static int eqos_remove(struct udevice *dev)
1508{
1509 struct eqos_priv *eqos = dev_get_priv(dev);
1510
1511 debug("%s(dev=%p):\n", __func__, dev);
1512
1513 mdio_unregister(eqos->mii);
1514 mdio_free(eqos->mii);
1515 eqos_remove_resources_tegra186(dev);
1516 eqos_probe_resources_core(dev);
1517
1518 debug("%s: OK\n", __func__);
1519 return 0;
1520}
1521
1522static const struct eth_ops eqos_ops = {
1523 .start = eqos_start,
1524 .stop = eqos_stop,
1525 .send = eqos_send,
1526 .recv = eqos_recv,
1527 .free_pkt = eqos_free_pkt,
1528 .write_hwaddr = eqos_write_hwaddr,
1529};
1530
1531static const struct eqos_config eqos_tegra186_config = {
1532 .reg_access_always_ok = false,
1533};
1534
1535static const struct udevice_id eqos_ids[] = {
1536 {
1537 .compatible = "nvidia,tegra186-eqos",
1538 .data = (ulong)&eqos_tegra186_config
1539 },
1540 { }
1541};
1542
1543U_BOOT_DRIVER(eth_eqos) = {
1544 .name = "eth_eqos",
1545 .id = UCLASS_ETH,
1546 .of_match = eqos_ids,
1547 .probe = eqos_probe,
1548 .remove = eqos_remove,
1549 .ops = &eqos_ops,
1550 .priv_auto_alloc_size = sizeof(struct eqos_priv),
1551 .platdata_auto_alloc_size = sizeof(struct eth_pdata),
1552};