tc358768.c source code [linux/drivers/gpu/drm/bridge/tc358768.c]

1	// SPDX-License-Identifier: GPL-2.0
2	/*
3	* Copyright (C) 2020 Texas Instruments Incorporated - https://www.ti.com
4	* Author: Peter Ujfalusi <peter.ujfalusi@ti.com>
5	*/
6
7	#include <linux/clk.h>
8	#include <linux/device.h>
9	#include <linux/gpio/consumer.h>
10	#include <linux/i2c.h>
11	#include <linux/kernel.h>
12	#include <linux/math64.h>
13	#include <linux/media-bus-format.h>
14	#include <linux/minmax.h>
15	#include <linux/module.h>
16	#include <linux/regmap.h>
17	#include <linux/regulator/consumer.h>
18	#include <linux/slab.h>
19	#include <linux/units.h>
20
21	#include <drm/drm_atomic_helper.h>
22	#include <drm/drm_drv.h>
23	#include <drm/drm_mipi_dsi.h>
24	#include <drm/drm_of.h>
25	#include <drm/drm_panel.h>
26	#include <video/mipi_display.h>
27	#include <video/videomode.h>
28
29	/ Global (16-bit addressable) /
30	#define TC358768_CHIPID 0x0000
31	#define TC358768_SYSCTL 0x0002
32	#define TC358768_CONFCTL 0x0004
33	#define TC358768_VSDLY 0x0006
34	#define TC358768_DATAFMT 0x0008
35	#define TC358768_GPIOEN 0x000E
36	#define TC358768_GPIODIR 0x0010
37	#define TC358768_GPIOIN 0x0012
38	#define TC358768_GPIOOUT 0x0014
39	#define TC358768_PLLCTL0 0x0016
40	#define TC358768_PLLCTL1 0x0018
41	#define TC358768_CMDBYTE 0x0022
42	#define TC358768_PP_MISC 0x0032
43	#define TC358768_DSITX_DT 0x0050
44	#define TC358768_FIFOSTATUS 0x00F8
45
46	/ Debug (16-bit addressable) /
47	#define TC358768_VBUFCTRL 0x00E0
48	#define TC358768_DBG_WIDTH 0x00E2
49	#define TC358768_DBG_VBLANK 0x00E4
50	#define TC358768_DBG_DATA 0x00E8
51
52	/ TX PHY (32-bit addressable) /
53	#define TC358768_CLW_DPHYCONTTX 0x0100
54	#define TC358768_D0W_DPHYCONTTX 0x0104
55	#define TC358768_D1W_DPHYCONTTX 0x0108
56	#define TC358768_D2W_DPHYCONTTX 0x010C
57	#define TC358768_D3W_DPHYCONTTX 0x0110
58	#define TC358768_CLW_CNTRL 0x0140
59	#define TC358768_D0W_CNTRL 0x0144
60	#define TC358768_D1W_CNTRL 0x0148
61	#define TC358768_D2W_CNTRL 0x014C
62	#define TC358768_D3W_CNTRL 0x0150
63
64	/ TX PPI (32-bit addressable) /
65	#define TC358768_STARTCNTRL 0x0204
66	#define TC358768_DSITXSTATUS 0x0208
67	#define TC358768_LINEINITCNT 0x0210
68	#define TC358768_LPTXTIMECNT 0x0214
69	#define TC358768_TCLK_HEADERCNT 0x0218
70	#define TC358768_TCLK_TRAILCNT 0x021C
71	#define TC358768_THS_HEADERCNT 0x0220
72	#define TC358768_TWAKEUP 0x0224
73	#define TC358768_TCLK_POSTCNT 0x0228
74	#define TC358768_THS_TRAILCNT 0x022C
75	#define TC358768_HSTXVREGCNT 0x0230
76	#define TC358768_HSTXVREGEN 0x0234
77	#define TC358768_TXOPTIONCNTRL 0x0238
78	#define TC358768_BTACNTRL1 0x023C
79
80	/ TX CTRL (32-bit addressable) /
81	#define TC358768_DSI_CONTROL 0x040C
82	#define TC358768_DSI_STATUS 0x0410
83	#define TC358768_DSI_INT 0x0414
84	#define TC358768_DSI_INT_ENA 0x0418
85	#define TC358768_DSICMD_RDFIFO 0x0430
86	#define TC358768_DSI_ACKERR 0x0434
87	#define TC358768_DSI_ACKERR_INTENA 0x0438
88	#define TC358768_DSI_ACKERR_HALT 0x043c
89	#define TC358768_DSI_RXERR 0x0440
90	#define TC358768_DSI_RXERR_INTENA 0x0444
91	#define TC358768_DSI_RXERR_HALT 0x0448
92	#define TC358768_DSI_ERR 0x044C
93	#define TC358768_DSI_ERR_INTENA 0x0450
94	#define TC358768_DSI_ERR_HALT 0x0454
95	#define TC358768_DSI_CONFW 0x0500
96	#define TC358768_DSI_LPCMD 0x0500
97	#define TC358768_DSI_RESET 0x0504
98	#define TC358768_DSI_INT_CLR 0x050C
99	#define TC358768_DSI_START 0x0518
100
101	/ DSITX CTRL (16-bit addressable) /
102	#define TC358768_DSICMD_TX 0x0600
103	#define TC358768_DSICMD_TYPE 0x0602
104	#define TC358768_DSICMD_WC 0x0604
105	#define TC358768_DSICMD_WD0 0x0610
106	#define TC358768_DSICMD_WD1 0x0612
107	#define TC358768_DSICMD_WD2 0x0614
108	#define TC358768_DSICMD_WD3 0x0616
109	#define TC358768_DSI_EVENT 0x0620
110	#define TC358768_DSI_VSW 0x0622
111	#define TC358768_DSI_VBPR 0x0624
112	#define TC358768_DSI_VACT 0x0626
113	#define TC358768_DSI_HSW 0x0628
114	#define TC358768_DSI_HBPR 0x062A
115	#define TC358768_DSI_HACT 0x062C
116
117	/ TC358768_DSI_CONTROL (0x040C) register /
118	#define TC358768_DSI_CONTROL_DIS_MODE BIT(15)
119	#define TC358768_DSI_CONTROL_TXMD BIT(7)
120	#define TC358768_DSI_CONTROL_HSCKMD BIT(5)
121	#define TC358768_DSI_CONTROL_EOTDIS BIT(0)
122
123	/ TC358768_DSI_CONFW (0x0500) register /
124	#define TC358768_DSI_CONFW_MODE_SET (5 << 29)
125	#define TC358768_DSI_CONFW_MODE_CLR (6 << 29)
126	#define TC358768_DSI_CONFW_ADDR_DSI_CONTROL (0x3 << 24)
127
128	static const char * const tc358768_supplies[] = {
129	"vddc", "vddmipi", "vddio"
130	};
131
132	struct tc358768_dsi_output {
133	struct mipi_dsi_device *dev;
134	struct drm_panel *panel;
135	struct drm_bridge *bridge;
136	};
137
138	struct tc358768_priv {
139	struct device *dev;
140	struct regmap *regmap;
141	struct gpio_desc *reset_gpio;
142	struct regulator_bulk_data supplies[ARRAY_SIZE(tc358768_supplies)];
143	struct clk *refclk;
144	int enabled;
145	int error;
146
147	struct mipi_dsi_host dsi_host;
148	struct drm_bridge bridge;
149	struct tc358768_dsi_output output;
150
151	u32 pd_lines; / number of Parallel Port Input Data Lines /
152	u32 dsi_lanes; / number of DSI Lanes /
153	u32 dsi_bpp; / number of Bits Per Pixel over DSI /
154
155	/ Parameters for PLL programming /
156	u32 fbd; / PLL feedback divider /
157	u32 prd; / PLL input divider /
158	u32 frs; / PLL Freqency range for HSCK (post divider) /
159
160	u32 dsiclk; / pll_clk / 2 /
161	u32 pclk; / incoming pclk rate /
162	};
163
164	static inline struct tc358768_priv dsi_host_to_tc358768(struct* mipi_dsi_host
165	*host)
166	{
167	return container_of(host, struct tc358768_priv, dsi_host);
168	}
169
170	static inline struct tc358768_priv bridge_to_tc358768(struct* drm_bridge
171	*bridge)
172	{
173	return container_of(bridge, struct tc358768_priv, bridge);
174	}
175
176	static int tc358768_clear_error(struct tc358768_priv *priv)
177	{
178	int ret = priv->error;
179
180	priv->error = `0`;
181	return ret;
182	}
183
184	static void tc358768_write(struct tc358768_priv *priv, u32 reg, u32 val)
185	{
186	/ work around https://gcc.gnu.org/bugzilla/show_bug.cgi?id=81715 /
187	int tmpval = val;
188	size_t count = `2`;
189
190	if (priv->error)
191	return;
192
193	/ 16-bit register? /
194	if (reg < `0x100` \|\| reg >= `0x600`)
195	count = `1`;
196
197	priv->error = regmap_bulk_write(map: priv->regmap, reg, val: &tmpval, val_count: count);
198	}
199
200	static void tc358768_read(struct tc358768_priv priv, u32 reg, u32 val)
201	{
202	size_t count = `2`;
203
204	if (priv->error)
205	return;
206
207	/ 16-bit register? /
208	if (reg < `0x100` \|\| reg >= `0x600`) {
209	*val = `0`;
210	count = `1`;
211	}
212
213	priv->error = regmap_bulk_read(map: priv->regmap, reg, val, val_count: count);
214	}
215
216	static void tc358768_update_bits(struct tc358768_priv *priv, u32 reg, u32 mask,
217	u32 val)
218	{
219	u32 tmp, orig;
220
221	tc358768_read(priv, reg, val: &orig);
222
223	if (priv->error)
224	return;
225
226	tmp = orig & ~mask;
227	tmp \|= val & mask;
228	if (tmp != orig)
229	tc358768_write(priv, reg, val: tmp);
230	}
231
232	static int tc358768_sw_reset(struct tc358768_priv *priv)
233	{
234	/ Assert Reset /
235	tc358768_write(priv, TC358768_SYSCTL, val: `1`);
236	/ Release Reset, Exit Sleep /
237	tc358768_write(priv, TC358768_SYSCTL, val: `0`);
238
239	return tc358768_clear_error(priv);
240	}
241
242	static void tc358768_hw_enable(struct tc358768_priv *priv)
243	{
244	int ret;
245
246	if (priv->enabled)
247	return;
248
249	ret = clk_prepare_enable(clk: priv->refclk);
250	if (ret < `0`)
251	dev_err(priv->dev, "error enabling refclk (%d)\n", ret);
252
253	ret = regulator_bulk_enable(ARRAY_SIZE(priv->supplies), consumers: priv->supplies);
254	if (ret < `0`)
255	dev_err(priv->dev, "error enabling regulators (%d)\n", ret);
256
257	if (priv->reset_gpio)
258	usleep_range(min: `200`, max: `300`);
259
260	/*
261	* The RESX is active low (GPIO_ACTIVE_LOW).
262	* DEASSERT (value = 0) the reset_gpio to enable the chip
263	*/
264	gpiod_set_value_cansleep(desc: priv->reset_gpio, value: `0`);
265
266	/ wait for encoder clocks to stabilize /
267	usleep_range(min: `1000`, max: `2000`);
268
269	priv->enabled = true;
270	}
271
272	static void tc358768_hw_disable(struct tc358768_priv *priv)
273	{
274	int ret;
275
276	if (!priv->enabled)
277	return;
278
279	/*
280	* The RESX is active low (GPIO_ACTIVE_LOW).
281	* ASSERT (value = 1) the reset_gpio to disable the chip
282	*/
283	gpiod_set_value_cansleep(desc: priv->reset_gpio, value: `1`);
284
285	ret = regulator_bulk_disable(ARRAY_SIZE(priv->supplies),
286	consumers: priv->supplies);
287	if (ret < `0`)
288	dev_err(priv->dev, "error disabling regulators (%d)\n", ret);
289
290	clk_disable_unprepare(clk: priv->refclk);
291
292	priv->enabled = false;
293	}
294
295	static u32 tc358768_pll_to_pclk(struct tc358768_priv *priv, u32 pll_clk)
296	{
297	return (u32)div_u64(dividend: (u64)pll_clk * priv->dsi_lanes, divisor: priv->dsi_bpp);
298	}
299
300	static u32 tc358768_pclk_to_pll(struct tc358768_priv *priv, u32 pclk)
301	{
302	return (u32)div_u64(dividend: (u64)pclk * priv->dsi_bpp, divisor: priv->dsi_lanes);
303	}
304
305	static int tc358768_calc_pll(struct tc358768_priv *priv,
306	const struct drm_display_mode *mode,
307	bool verify_only)
308	{
309	static const u32 frs_limits[] = {
310	`1000000000`,
311	`500000000`,
312	`250000000`,
313	`125000000`,
314	`62500000`
315	};
316	unsigned long refclk;
317	u32 prd, target_pll, i, max_pll, min_pll;
318	u32 frs, best_diff, best_pll, best_prd, best_fbd;
319
320	target_pll = tc358768_pclk_to_pll(priv, pclk: mode->clock * `1000`);
321
322	/ pll_clk = RefClk * FBD / PRD * (1 / (2^FRS)) /
323
324	for (i = `0`; i < ARRAY_SIZE(frs_limits); i++)
325	if (target_pll >= frs_limits[i])
326	break;
327
328	if (i == ARRAY_SIZE(frs_limits) \|\| i == `0`)
329	return -EINVAL;
330
331	frs = i - `1`;
332	max_pll = frs_limits[i - `1`];
333	min_pll = frs_limits[i];
334
335	refclk = clk_get_rate(clk: priv->refclk);
336
337	best_diff = UINT_MAX;
338	best_pll = `0`;
339	best_prd = `0`;
340	best_fbd = `0`;
341
342	for (prd = `1`; prd <= `16`; ++prd) {
343	u32 divisor = prd * (`1` << frs);
344	u32 fbd;
345
346	for (fbd = `1`; fbd <= `512`; ++fbd) {
347	u32 pll, diff, pll_in;
348
349	pll = (u32)div_u64(dividend: (u64)refclk * fbd, divisor);
350
351	if (pll >= max_pll \|\| pll < min_pll)
352	continue;
353
354	pll_in = (u32)div_u64(dividend: (u64)refclk, divisor: prd);
355	if (pll_in < `4000000`)
356	continue;
357
358	diff = max(pll, target_pll) - min(pll, target_pll);
359
360	if (diff < best_diff) {
361	best_diff = diff;
362	best_pll = pll;
363	best_prd = prd;
364	best_fbd = fbd;
365
366	if (best_diff == `0`)
367	goto found;
368	}
369	}
370	}
371
372	if (best_diff == UINT_MAX) {
373	dev_err(priv->dev, "could not find suitable PLL setup\n");
374	return -EINVAL;
375	}
376
377	found:
378	if (verify_only)
379	return `0`;
380
381	priv->fbd = best_fbd;
382	priv->prd = best_prd;
383	priv->frs = frs;
384	priv->dsiclk = best_pll / `2`;
385	priv->pclk = mode->clock * `1000`;
386
387	return `0`;
388	}
389
390	static int tc358768_dsi_host_attach(struct mipi_dsi_host *host,
391	struct mipi_dsi_device *dev)
392	{
393	struct tc358768_priv *priv = dsi_host_to_tc358768(host);
394	struct drm_bridge *bridge;
395	struct drm_panel *panel;
396	struct device_node *ep;
397	int ret;
398
399	if (dev->lanes > `4`) {
400	dev_err(priv->dev, "unsupported number of data lanes(%u)\n",
401	dev->lanes);
402	return -EINVAL;
403	}
404
405	/*
406	* tc358768 supports both Video and Pulse mode, but the driver only
407	* implements Video (event) mode currently
408	*/
409	if (!(dev->mode_flags & MIPI_DSI_MODE_VIDEO)) {
410	dev_err(priv->dev, "Only MIPI_DSI_MODE_VIDEO is supported\n");
411	return -ENOTSUPP;
412	}
413
414	/*
415	* tc358768 supports RGB888, RGB666, RGB666_PACKED and RGB565, but only
416	* RGB888 is verified.
417	*/
418	if (dev->format != MIPI_DSI_FMT_RGB888) {
419	dev_warn(priv->dev, "Only MIPI_DSI_FMT_RGB888 tested!\n");
420	return -ENOTSUPP;
421	}
422
423	ret = drm_of_find_panel_or_bridge(np: host->dev->of_node, port: `1`, endpoint: `0`, panel: &panel,
424	bridge: &bridge);
425	if (ret)
426	return ret;
427
428	if (panel) {
429	bridge = drm_panel_bridge_add_typed(panel,
430	DRM_MODE_CONNECTOR_DSI);
431	if (IS_ERR(ptr: bridge))
432	return PTR_ERR(ptr: bridge);
433	}
434
435	priv->output.dev = dev;
436	priv->output.bridge = bridge;
437	priv->output.panel = panel;
438
439	priv->dsi_lanes = dev->lanes;
440	priv->dsi_bpp = mipi_dsi_pixel_format_to_bpp(fmt: dev->format);
441
442	/ get input ep (port0/endpoint0) /
443	ret = -EINVAL;
444	ep = of_graph_get_endpoint_by_regs(parent: host->dev->of_node, port_reg: `0`, reg: `0`);
445	if (ep) {
446	ret = of_property_read_u32(np: ep, propname: "data-lines", out_value: &priv->pd_lines);
447
448	of_node_put(node: ep);
449	}
450
451	if (ret)
452	priv->pd_lines = priv->dsi_bpp;
453
454	drm_bridge_add(bridge: &priv->bridge);
455
456	return `0`;
457	}
458
459	static int tc358768_dsi_host_detach(struct mipi_dsi_host *host,
460	struct mipi_dsi_device *dev)
461	{
462	struct tc358768_priv *priv = dsi_host_to_tc358768(host);
463
464	drm_bridge_remove(bridge: &priv->bridge);
465	if (priv->output.panel)
466	drm_panel_bridge_remove(bridge: priv->output.bridge);
467
468	return `0`;
469	}
470
471	static ssize_t tc358768_dsi_host_transfer(struct mipi_dsi_host *host,
472	const struct mipi_dsi_msg *msg)
473	{
474	struct tc358768_priv *priv = dsi_host_to_tc358768(host);
475	struct mipi_dsi_packet packet;
476	int ret;
477
478	if (!priv->enabled) {
479	dev_err(priv->dev, "Bridge is not enabled\n");
480	return -ENODEV;
481	}
482
483	if (msg->rx_len) {
484	dev_warn(priv->dev, "MIPI rx is not supported\n");
485	return -ENOTSUPP;
486	}
487
488	if (msg->tx_len > `8`) {
489	dev_warn(priv->dev, "Maximum 8 byte MIPI tx is supported\n");
490	return -ENOTSUPP;
491	}
492
493	ret = mipi_dsi_create_packet(packet: &packet, msg);
494	if (ret)
495	return ret;
496
497	if (mipi_dsi_packet_format_is_short(type: msg->type)) {
498	tc358768_write(priv, TC358768_DSICMD_TYPE,
499	val: (`0x10` << `8`) \| (packet.header[`0`] & `0x3f`));
500	tc358768_write(priv, TC358768_DSICMD_WC, val: `0`);
501	tc358768_write(priv, TC358768_DSICMD_WD0,
502	val: (packet.header[`2`] << `8`) \| packet.header[`1`]);
503	} else {
504	int i;
505
506	tc358768_write(priv, TC358768_DSICMD_TYPE,
507	val: (`0x40` << `8`) \| (packet.header[`0`] & `0x3f`));
508	tc358768_write(priv, TC358768_DSICMD_WC, val: packet.payload_length);
509	for (i = `0`; i < packet.payload_length; i += `2`) {
510	u16 val = packet.payload[i];
511
512	if (i + `1` < packet.payload_length)
513	val \|= packet.payload[i + `1`] << `8`;
514
515	tc358768_write(priv, TC358768_DSICMD_WD0 + i, val);
516	}
517	}
518
519	/ start transfer /
520	tc358768_write(priv, TC358768_DSICMD_TX, val: `1`);
521
522	ret = tc358768_clear_error(priv);
523	if (ret)
524	dev_warn(priv->dev, "Software disable failed: %d\n", ret);
525	else
526	ret = packet.size;
527
528	return ret;
529	}
530
531	static const struct mipi_dsi_host_ops tc358768_dsi_host_ops = {
532	.attach = tc358768_dsi_host_attach,
533	.detach = tc358768_dsi_host_detach,
534	.transfer = tc358768_dsi_host_transfer,
535	};
536
537	static int tc358768_bridge_attach(struct drm_bridge *bridge,
538	enum drm_bridge_attach_flags flags)
539	{
540	struct tc358768_priv *priv = bridge_to_tc358768(bridge);
541
542	if (!drm_core_check_feature(dev: bridge->dev, feature: DRIVER_ATOMIC)) {
543	dev_err(priv->dev, "needs atomic updates support\n");
544	return -ENOTSUPP;
545	}
546
547	return drm_bridge_attach(encoder: bridge->encoder, bridge: priv->output.bridge, previous: bridge,
548	flags);
549	}
550
551	static enum drm_mode_status
552	tc358768_bridge_mode_valid(struct drm_bridge *bridge,
553	const struct drm_display_info *info,
554	const struct drm_display_mode *mode)
555	{
556	struct tc358768_priv *priv = bridge_to_tc358768(bridge);
557
558	if (tc358768_calc_pll(priv, mode, verify_only: true))
559	return MODE_CLOCK_RANGE;
560
561	return MODE_OK;
562	}
563
564	static void tc358768_bridge_disable(struct drm_bridge *bridge)
565	{
566	struct tc358768_priv *priv = bridge_to_tc358768(bridge);
567	int ret;
568
569	/ set FrmStop /
570	tc358768_update_bits(priv, TC358768_PP_MISC, BIT(`15`), BIT(`15`));
571
572	/ wait at least for one frame /
573	msleep(msecs: `50`);
574
575	/ clear PP_en /
576	tc358768_update_bits(priv, TC358768_CONFCTL, BIT(`6`), val: `0`);
577
578	/ set RstPtr /
579	tc358768_update_bits(priv, TC358768_PP_MISC, BIT(`14`), BIT(`14`));
580
581	ret = tc358768_clear_error(priv);
582	if (ret)
583	dev_warn(priv->dev, "Software disable failed: %d\n", ret);
584	}
585
586	static void tc358768_bridge_post_disable(struct drm_bridge *bridge)
587	{
588	struct tc358768_priv *priv = bridge_to_tc358768(bridge);
589
590	tc358768_hw_disable(priv);
591	}
592
593	static int tc358768_setup_pll(struct tc358768_priv *priv,
594	const struct drm_display_mode *mode)
595	{
596	u32 fbd, prd, frs;
597	int ret;
598
599	ret = tc358768_calc_pll(priv, mode, verify_only: false);
600	if (ret) {
601	dev_err(priv->dev, "PLL calculation failed: %d\n", ret);
602	return ret;
603	}
604
605	fbd = priv->fbd;
606	prd = priv->prd;
607	frs = priv->frs;
608
609	dev_dbg(priv->dev, "PLL: refclk %lu, fbd %u, prd %u, frs %u\n",
610	clk_get_rate(priv->refclk), fbd, prd, frs);
611	dev_dbg(priv->dev, "PLL: pll_clk: %u, DSIClk %u, HSByteClk %u\n",
612	priv->dsiclk * `2`, priv->dsiclk, priv->dsiclk / `4`);
613	dev_dbg(priv->dev, "PLL: pclk %u (panel: %u)\n",
614	tc358768_pll_to_pclk(priv, priv->dsiclk * `2`),
615	mode->clock * `1000`);
616
617	/ PRD[15:12] FBD[8:0] /
618	tc358768_write(priv, TC358768_PLLCTL0, val: ((prd - `1`) << `12`) \| (fbd - `1`));
619
620	/ FRS[11:10] LBWS[9:8] CKEN[4] RESETB[1] EN[0] /
621	tc358768_write(priv, TC358768_PLLCTL1,
622	val: (frs << `10`) \| (`0x2` << `8`) \| BIT(`1`) \| BIT(`0`));
623
624	/ wait for lock /
625	usleep_range(min: `1000`, max: `2000`);
626
627	/ FRS[11:10] LBWS[9:8] CKEN[4] PLL_CKEN[4] RESETB[1] EN[0] /
628	tc358768_write(priv, TC358768_PLLCTL1,
629	val: (frs << `10`) \| (`0x2` << `8`) \| BIT(`4`) \| BIT(`1`) \| BIT(`0`));
630
631	return tc358768_clear_error(priv);
632	}
633
634	static u32 tc358768_ns_to_cnt(u32 ns, u32 period_ps)
635	{
636	return DIV_ROUND_UP(ns * `1000`, period_ps);
637	}
638
639	static u32 tc358768_ps_to_ns(u32 ps)
640	{
641	return ps / `1000`;
642	}
643
644	static u32 tc358768_dpi_to_ns(u32 val, u32 pclk)
645	{
646	return (u32)div_u64(dividend: (u64)val * NANO, divisor: pclk);
647	}
648
649	/ Convert value in DPI pixel clock units to DSI byte count /
650	static u32 tc358768_dpi_to_dsi_bytes(struct tc358768_priv *priv, u32 val)
651	{
652	u64 m = (u64)val * priv->dsiclk / `4` * priv->dsi_lanes;
653	u64 n = priv->pclk;
654
655	return (u32)div_u64(dividend: m + n - `1`, divisor: n);
656	}
657
658	static u32 tc358768_dsi_bytes_to_ns(struct tc358768_priv *priv, u32 val)
659	{
660	u64 m = (u64)val * NANO;
661	u64 n = priv->dsiclk / `4` * priv->dsi_lanes;
662
663	return (u32)div_u64(dividend: m, divisor: n);
664	}
665
666	static void tc358768_bridge_pre_enable(struct drm_bridge *bridge)
667	{
668	struct tc358768_priv *priv = bridge_to_tc358768(bridge);
669	struct mipi_dsi_device *dsi_dev = priv->output.dev;
670	unsigned long mode_flags = dsi_dev->mode_flags;
671	u32 val, val2, lptxcnt, hact, data_type;
672	s32 raw_val;
673	const struct drm_display_mode *mode;
674	u32 hsbyteclk_ps, dsiclk_ps, ui_ps;
675	u32 dsiclk, hsbyteclk;
676	int ret, i;
677	struct videomode vm;
678	struct device *dev = priv->dev;
679	/ In pixelclock units /
680	u32 dpi_htot, dpi_data_start;
681	/ In byte units /
682	u32 dsi_dpi_htot, dsi_dpi_data_start;
683	u32 dsi_hsw, dsi_hbp, dsi_hact, dsi_hfp;
684	const u32 dsi_hss = `4`; / HSS is a short packet (4 bytes) /
685	/ In hsbyteclk units /
686	u32 dsi_vsdly;
687	const u32 internal_dly = `40`;
688
689	if (mode_flags & MIPI_DSI_CLOCK_NON_CONTINUOUS) {
690	dev_warn_once(dev, "Non-continuous mode unimplemented, falling back to continuous\n");
691	mode_flags &= ~MIPI_DSI_CLOCK_NON_CONTINUOUS;
692	}
693
694	tc358768_hw_enable(priv);
695
696	ret = tc358768_sw_reset(priv);
697	if (ret) {
698	dev_err(dev, "Software reset failed: %d\n", ret);
699	tc358768_hw_disable(priv);
700	return;
701	}
702
703	mode = &bridge->encoder->crtc->state->adjusted_mode;
704	ret = tc358768_setup_pll(priv, mode);
705	if (ret) {
706	dev_err(dev, "PLL setup failed: %d\n", ret);
707	tc358768_hw_disable(priv);
708	return;
709	}
710
711	drm_display_mode_to_videomode(dmode: mode, vm: &vm);
712
713	dsiclk = priv->dsiclk;
714	hsbyteclk = dsiclk / `4`;
715
716	/ Data Format Control Register /
717	val = BIT(`2`) \| BIT(`1`) \| BIT(`0`); / rdswap_en \| dsitx_en \| txdt_en /
718	switch (dsi_dev->format) {
719	case MIPI_DSI_FMT_RGB888:
720	val \|= (`0x3` << `4`);
721	hact = vm.hactive * `3`;
722	data_type = MIPI_DSI_PACKED_PIXEL_STREAM_24;
723	break;
724	case MIPI_DSI_FMT_RGB666:
725	val \|= (`0x4` << `4`);
726	hact = vm.hactive * `3`;
727	data_type = MIPI_DSI_PACKED_PIXEL_STREAM_18;
728	break;
729
730	case MIPI_DSI_FMT_RGB666_PACKED:
731	val \|= (`0x4` << `4`) \| BIT(`3`);
732	hact = vm.hactive * `18` / `8`;
733	data_type = MIPI_DSI_PIXEL_STREAM_3BYTE_18;
734	break;
735
736	case MIPI_DSI_FMT_RGB565:
737	val \|= (`0x5` << `4`);
738	hact = vm.hactive * `2`;
739	data_type = MIPI_DSI_PACKED_PIXEL_STREAM_16;
740	break;
741	default:
742	dev_err(dev, "Invalid data format (%u)\n",
743	dsi_dev->format);
744	tc358768_hw_disable(priv);
745	return;
746	}
747
748	/*
749	* There are three important things to make TC358768 work correctly,
750	* which are not trivial to manage:
751	*
752	* 1. Keep the DPI line-time and the DSI line-time as close to each
753	* other as possible.
754	* 2. TC358768 goes to LP mode after each line's active area. The DSI
755	* HFP period has to be long enough for entering and exiting LP mode.
756	* But it is not clear how to calculate this.
757	* 3. VSDly (video start delay) has to be long enough to ensure that the
758	* DSI TX does not start transmitting until we have started receiving
759	* pixel data from the DPI input. It is not clear how to calculate
760	* this either.
761	*/
762
763	dpi_htot = vm.hactive + vm.hfront_porch + vm.hsync_len + vm.hback_porch;
764	dpi_data_start = vm.hsync_len + vm.hback_porch;
765
766	dev_dbg(dev, "dpi horiz timing (pclk): %u + %u + %u + %u = %u\n",
767	vm.hsync_len, vm.hback_porch, vm.hactive, vm.hfront_porch,
768	dpi_htot);
769
770	dev_dbg(dev, "dpi horiz timing (ns): %u + %u + %u + %u = %u\n",
771	tc358768_dpi_to_ns(vm.hsync_len, vm.pixelclock),
772	tc358768_dpi_to_ns(vm.hback_porch, vm.pixelclock),
773	tc358768_dpi_to_ns(vm.hactive, vm.pixelclock),
774	tc358768_dpi_to_ns(vm.hfront_porch, vm.pixelclock),
775	tc358768_dpi_to_ns(dpi_htot, vm.pixelclock));
776
777	dev_dbg(dev, "dpi data start (ns): %u + %u = %u\n",
778	tc358768_dpi_to_ns(vm.hsync_len, vm.pixelclock),
779	tc358768_dpi_to_ns(vm.hback_porch, vm.pixelclock),
780	tc358768_dpi_to_ns(dpi_data_start, vm.pixelclock));
781
782	dsi_dpi_htot = tc358768_dpi_to_dsi_bytes(priv, val: dpi_htot);
783	dsi_dpi_data_start = tc358768_dpi_to_dsi_bytes(priv, val: dpi_data_start);
784
785	if (dsi_dev->mode_flags & MIPI_DSI_MODE_VIDEO_SYNC_PULSE) {
786	dsi_hsw = tc358768_dpi_to_dsi_bytes(priv, val: vm.hsync_len);
787	dsi_hbp = tc358768_dpi_to_dsi_bytes(priv, val: vm.hback_porch);
788	} else {
789	/ HBP is included in HSW in event mode /
790	dsi_hbp = `0`;
791	dsi_hsw = tc358768_dpi_to_dsi_bytes(priv,
792	val: vm.hsync_len +
793	vm.hback_porch);
794
795	/*
796	* The pixel packet includes the actual pixel data, and:
797	* DSI packet header = 4 bytes
798	* DCS code = 1 byte
799	* DSI packet footer = 2 bytes
800	*/
801	dsi_hact = hact + `4` + `1` + `2`;
802
803	dsi_hfp = dsi_dpi_htot - dsi_hact - dsi_hsw - dsi_hss;
804
805	/*
806	* Here we should check if HFP is long enough for entering LP
807	* and exiting LP, but it's not clear how to calculate that.
808	* Instead, this is a naive algorithm that just adjusts the HFP
809	* and HSW so that HFP is (at least) roughly 2/3 of the total
810	* blanking time.
811	*/
812	if (dsi_hfp < (dsi_hfp + dsi_hsw + dsi_hss) * `2` / `3`) {
813	u32 old_hfp = dsi_hfp;
814	u32 old_hsw = dsi_hsw;
815	u32 tot = dsi_hfp + dsi_hsw + dsi_hss;
816
817	dsi_hsw = tot / `3`;
818
819	/*
820	* Seems like sometimes HSW has to be divisible by num-lanes, but
821	* not always...
822	*/
823	dsi_hsw = roundup(dsi_hsw, priv->dsi_lanes);
824
825	dsi_hfp = dsi_dpi_htot - dsi_hact - dsi_hsw - dsi_hss;
826
827	dev_dbg(dev,
828	"hfp too short, adjusting dsi hfp and dsi hsw from %u, %u to %u, %u\n",
829	old_hfp, old_hsw, dsi_hfp, dsi_hsw);
830	}
831
832	dev_dbg(dev,
833	"dsi horiz timing (bytes): %u, %u + %u + %u + %u = %u\n",
834	dsi_hss, dsi_hsw, dsi_hbp, dsi_hact, dsi_hfp,
835	dsi_hss + dsi_hsw + dsi_hbp + dsi_hact + dsi_hfp);
836
837	dev_dbg(dev, "dsi horiz timing (ns): %u + %u + %u + %u + %u = %u\n",
838	tc358768_dsi_bytes_to_ns(priv, dsi_hss),
839	tc358768_dsi_bytes_to_ns(priv, dsi_hsw),
840	tc358768_dsi_bytes_to_ns(priv, dsi_hbp),
841	tc358768_dsi_bytes_to_ns(priv, dsi_hact),
842	tc358768_dsi_bytes_to_ns(priv, dsi_hfp),
843	tc358768_dsi_bytes_to_ns(priv, dsi_hss + dsi_hsw +
844	dsi_hbp + dsi_hact + dsi_hfp));
845	}
846
847	/ VSDly calculation /
848
849	/ Start with the HW internal delay /
850	dsi_vsdly = internal_dly;
851
852	/ Convert to byte units as the other variables are in byte units /
853	dsi_vsdly *= priv->dsi_lanes;
854
855	/ Do we need more delay, in addition to the internal? /
856	if (dsi_dpi_data_start > dsi_vsdly + dsi_hss + dsi_hsw + dsi_hbp) {
857	dsi_vsdly = dsi_dpi_data_start - dsi_hss - dsi_hsw - dsi_hbp;
858	dsi_vsdly = roundup(dsi_vsdly, priv->dsi_lanes);
859	}
860
861	dev_dbg(dev, "dsi data start (bytes) %u + %u + %u + %u = %u\n",
862	dsi_vsdly, dsi_hss, dsi_hsw, dsi_hbp,
863	dsi_vsdly + dsi_hss + dsi_hsw + dsi_hbp);
864
865	dev_dbg(dev, "dsi data start (ns) %u + %u + %u + %u = %u\n",
866	tc358768_dsi_bytes_to_ns(priv, dsi_vsdly),
867	tc358768_dsi_bytes_to_ns(priv, dsi_hss),
868	tc358768_dsi_bytes_to_ns(priv, dsi_hsw),
869	tc358768_dsi_bytes_to_ns(priv, dsi_hbp),
870	tc358768_dsi_bytes_to_ns(priv, dsi_vsdly + dsi_hss + dsi_hsw + dsi_hbp));
871
872	/ Convert back to hsbyteclk /
873	dsi_vsdly /= priv->dsi_lanes;
874
875	/*
876	* The docs say that there is an internal delay of 40 cycles.
877	* However, we get underflows if we follow that rule. If we
878	* instead ignore the internal delay, things work. So either
879	* the docs are wrong or the calculations are wrong.
880	*
881	* As a temporary fix, add the internal delay here, to counter
882	* the subtraction when writing the register.
883	*/
884	dsi_vsdly += internal_dly;
885
886	/ Clamp to the register max /
887	if (dsi_vsdly - internal_dly > `0x3ff`) {
888	dev_warn(dev, "VSDly too high, underflows likely\n");
889	dsi_vsdly = `0x3ff` + internal_dly;
890	}
891
892	/ VSDly[9:0] /
893	tc358768_write(priv, TC358768_VSDLY, val: dsi_vsdly - internal_dly);
894
895	tc358768_write(priv, TC358768_DATAFMT, val);
896	tc358768_write(priv, TC358768_DSITX_DT, val: data_type);
897
898	/ Enable D-PHY (HiZ->LP11) /
899	tc358768_write(priv, TC358768_CLW_CNTRL, val: `0x0000`);
900	/ Enable lanes /
901	for (i = `0`; i < dsi_dev->lanes; i++)
902	tc358768_write(priv, TC358768_D0W_CNTRL + i * `4`, val: `0x0000`);
903
904	/ DSI Timings /
905	hsbyteclk_ps = (u32)div_u64(PICO, divisor: hsbyteclk);
906	dsiclk_ps = (u32)div_u64(PICO, divisor: dsiclk);
907	ui_ps = dsiclk_ps / `2`;
908	dev_dbg(dev, "dsiclk: %u ps, ui %u ps, hsbyteclk %u ps\n", dsiclk_ps,
909	ui_ps, hsbyteclk_ps);
910
911	/ LP11 > 100us for D-PHY Rx Init /
912	val = tc358768_ns_to_cnt(ns: `100` * `1000`, period_ps: hsbyteclk_ps) - `1`;
913	dev_dbg(dev, "LINEINITCNT: %u\n", val);
914	tc358768_write(priv, TC358768_LINEINITCNT, val);
915
916	/ LPTimeCnt > 50ns /
917	val = tc358768_ns_to_cnt(ns: `50`, period_ps: hsbyteclk_ps) - `1`;
918	lptxcnt = val;
919	dev_dbg(dev, "LPTXTIMECNT: %u\n", val);
920	tc358768_write(priv, TC358768_LPTXTIMECNT, val);
921
922	/ 38ns < TCLK_PREPARE < 95ns /
923	val = tc358768_ns_to_cnt(ns: `65`, period_ps: hsbyteclk_ps) - `1`;
924	dev_dbg(dev, "TCLK_PREPARECNT %u\n", val);
925	/ TCLK_PREPARE + TCLK_ZERO > 300ns /
926	val2 = tc358768_ns_to_cnt(ns: `300` - tc358768_ps_to_ns(ps: `2` * ui_ps),
927	period_ps: hsbyteclk_ps) - `2`;
928	dev_dbg(dev, "TCLK_ZEROCNT %u\n", val2);
929	val \|= val2 << `8`;
930	tc358768_write(priv, TC358768_TCLK_HEADERCNT, val);
931
932	/ TCLK_TRAIL > 60ns AND TEOT <= 105 ns + 12UI /*
933	raw_val = tc358768_ns_to_cnt(ns: `60` + tc358768_ps_to_ns(ps: `2` * ui_ps), period_ps: hsbyteclk_ps) - `5`;
934	val = clamp(raw_val, `0`, `127`);
935	dev_dbg(dev, "TCLK_TRAILCNT: %u\n", val);
936	tc358768_write(priv, TC358768_TCLK_TRAILCNT, val);
937
938	/ 40ns + 4UI < THS_PREPARE < 85ns + 6UI /
939	val = `50` + tc358768_ps_to_ns(ps: `4` * ui_ps);
940	val = tc358768_ns_to_cnt(ns: val, period_ps: hsbyteclk_ps) - `1`;
941	dev_dbg(dev, "THS_PREPARECNT %u\n", val);
942	/ THS_PREPARE + THS_ZERO > 145ns + 10UI /*
943	raw_val = tc358768_ns_to_cnt(ns: `145` - tc358768_ps_to_ns(ps: `3` * ui_ps), period_ps: hsbyteclk_ps) - `10`;
944	val2 = clamp(raw_val, `0`, `127`);
945	dev_dbg(dev, "THS_ZEROCNT %u\n", val2);
946	val \|= val2 << `8`;
947	tc358768_write(priv, TC358768_THS_HEADERCNT, val);
948
949	/ TWAKEUP > 1ms in lptxcnt steps /
950	val = tc358768_ns_to_cnt(ns: `1020000`, period_ps: hsbyteclk_ps);
951	val = val / (lptxcnt + `1`) - `1`;
952	dev_dbg(dev, "TWAKEUP: %u\n", val);
953	tc358768_write(priv, TC358768_TWAKEUP, val);
954
955	/ TCLK_POSTCNT > 60ns + 52UI /*
956	val = tc358768_ns_to_cnt(ns: `60` + tc358768_ps_to_ns(ps: `52` * ui_ps),
957	period_ps: hsbyteclk_ps) - `3`;
958	dev_dbg(dev, "TCLK_POSTCNT: %u\n", val);
959	tc358768_write(priv, TC358768_TCLK_POSTCNT, val);
960
961	/ max(60ns + 4UI, 8UI) < THS_TRAILCNT < 105ns + 12UI /*
962	raw_val = tc358768_ns_to_cnt(ns: `60` + tc358768_ps_to_ns(ps: `18` * ui_ps),
963	period_ps: hsbyteclk_ps) - `4`;
964	val = clamp(raw_val, `0`, `15`);
965	dev_dbg(dev, "THS_TRAILCNT: %u\n", val);
966	tc358768_write(priv, TC358768_THS_TRAILCNT, val);
967
968	val = BIT(`0`);
969	for (i = `0`; i < dsi_dev->lanes; i++)
970	val \|= BIT(i + `1`);
971	tc358768_write(priv, TC358768_HSTXVREGEN, val);
972
973	tc358768_write(priv, TC358768_TXOPTIONCNTRL,
974	val: (mode_flags & MIPI_DSI_CLOCK_NON_CONTINUOUS) ? `0` : BIT(`0`));
975
976	/ TXTAGOCNT[26:16] RXTASURECNT[10:0] /
977	val = tc358768_ps_to_ns(ps: (lptxcnt + `1`) * hsbyteclk_ps * `4`);
978	val = tc358768_ns_to_cnt(ns: val, period_ps: hsbyteclk_ps) / `4` - `1`;
979	dev_dbg(dev, "TXTAGOCNT: %u\n", val);
980	val2 = tc358768_ns_to_cnt(ns: tc358768_ps_to_ns(ps: (lptxcnt + `1`) * hsbyteclk_ps),
981	period_ps: hsbyteclk_ps) - `2`;
982	dev_dbg(dev, "RXTASURECNT: %u\n", val2);
983	val = val << `16` \| val2;
984	tc358768_write(priv, TC358768_BTACNTRL1, val);
985
986	/ START[0] /
987	tc358768_write(priv, TC358768_STARTCNTRL, val: `1`);
988
989	if (dsi_dev->mode_flags & MIPI_DSI_MODE_VIDEO_SYNC_PULSE) {
990	/ Set pulse mode /
991	tc358768_write(priv, TC358768_DSI_EVENT, val: `0`);
992
993	/ vact /
994	tc358768_write(priv, TC358768_DSI_VACT, val: vm.vactive);
995
996	/ vsw /
997	tc358768_write(priv, TC358768_DSI_VSW, val: vm.vsync_len);
998
999	/ vbp /
1000	tc358768_write(priv, TC358768_DSI_VBPR, val: vm.vback_porch);
1001	} else {
1002	/ Set event mode /
1003	tc358768_write(priv, TC358768_DSI_EVENT, val: `1`);
1004
1005	/ vact /
1006	tc358768_write(priv, TC358768_DSI_VACT, val: vm.vactive);
1007
1008	/ vsw (+ vbp) /
1009	tc358768_write(priv, TC358768_DSI_VSW,
1010	val: vm.vsync_len + vm.vback_porch);
1011
1012	/ vbp (not used in event mode) /
1013	tc358768_write(priv, TC358768_DSI_VBPR, val: `0`);
1014	}
1015
1016	/ hsw (bytes) /
1017	tc358768_write(priv, TC358768_DSI_HSW, val: dsi_hsw);
1018
1019	/ hbp (bytes) /
1020	tc358768_write(priv, TC358768_DSI_HBPR, val: dsi_hbp);
1021
1022	/ hact (bytes) /
1023	tc358768_write(priv, TC358768_DSI_HACT, val: hact);
1024
1025	/ VSYNC polarity /
1026	tc358768_update_bits(priv, TC358768_CONFCTL, BIT(`5`),
1027	val: (mode->flags & DRM_MODE_FLAG_PVSYNC) ? BIT(`5`) : `0`);
1028
1029	/ HSYNC polarity /
1030	tc358768_update_bits(priv, TC358768_PP_MISC, BIT(`0`),
1031	val: (mode->flags & DRM_MODE_FLAG_PHSYNC) ? BIT(`0`) : `0`);
1032
1033	/ Start DSI Tx /
1034	tc358768_write(priv, TC358768_DSI_START, val: `0x1`);
1035
1036	/ Configure DSI_Control register /
1037	val = TC358768_DSI_CONFW_MODE_CLR \| TC358768_DSI_CONFW_ADDR_DSI_CONTROL;
1038	val \|= TC358768_DSI_CONTROL_TXMD \| TC358768_DSI_CONTROL_HSCKMD \|
1039	`0x3` << `1` \| TC358768_DSI_CONTROL_EOTDIS;
1040	tc358768_write(priv, TC358768_DSI_CONFW, val);
1041
1042	val = TC358768_DSI_CONFW_MODE_SET \| TC358768_DSI_CONFW_ADDR_DSI_CONTROL;
1043	val \|= (dsi_dev->lanes - `1`) << `1`;
1044
1045	val \|= TC358768_DSI_CONTROL_TXMD;
1046
1047	if (!(mode_flags & MIPI_DSI_CLOCK_NON_CONTINUOUS))
1048	val \|= TC358768_DSI_CONTROL_HSCKMD;
1049
1050	if (dsi_dev->mode_flags & MIPI_DSI_MODE_NO_EOT_PACKET)
1051	val \|= TC358768_DSI_CONTROL_EOTDIS;
1052
1053	tc358768_write(priv, TC358768_DSI_CONFW, val);
1054
1055	val = TC358768_DSI_CONFW_MODE_CLR \| TC358768_DSI_CONFW_ADDR_DSI_CONTROL;
1056	val \|= TC358768_DSI_CONTROL_DIS_MODE; / DSI mode /
1057	tc358768_write(priv, TC358768_DSI_CONFW, val);
1058
1059	ret = tc358768_clear_error(priv);
1060	if (ret) {
1061	dev_err(dev, "Bridge pre_enable failed: %d\n", ret);
1062	tc358768_bridge_disable(bridge);
1063	tc358768_bridge_post_disable(bridge);
1064	}
1065	}
1066
1067	static void tc358768_bridge_enable(struct drm_bridge *bridge)
1068	{
1069	struct tc358768_priv *priv = bridge_to_tc358768(bridge);
1070	int ret;
1071
1072	if (!priv->enabled) {
1073	dev_err(priv->dev, "Bridge is not enabled\n");
1074	return;
1075	}
1076
1077	/ clear FrmStop and RstPtr /
1078	tc358768_update_bits(priv, TC358768_PP_MISC, mask: `0x3` << `14`, val: `0`);
1079
1080	/ set PP_en /
1081	tc358768_update_bits(priv, TC358768_CONFCTL, BIT(`6`), BIT(`6`));
1082
1083	ret = tc358768_clear_error(priv);
1084	if (ret) {
1085	dev_err(priv->dev, "Bridge enable failed: %d\n", ret);
1086	tc358768_bridge_disable(bridge);
1087	tc358768_bridge_post_disable(bridge);
1088	}
1089	}
1090
1091	#define MAX_INPUT_SEL_FORMATS 1
1092
1093	static u32 *
1094	tc358768_atomic_get_input_bus_fmts(struct drm_bridge *bridge,
1095	struct drm_bridge_state *bridge_state,
1096	struct drm_crtc_state *crtc_state,
1097	struct drm_connector_state *conn_state,
1098	u32 output_fmt,
1099	unsigned int *num_input_fmts)
1100	{
1101	struct tc358768_priv *priv = bridge_to_tc358768(bridge);
1102	u32 *input_fmts;
1103
1104	*num_input_fmts = `0`;
1105
1106	input_fmts = kcalloc(MAX_INPUT_SEL_FORMATS, size: sizeof(*input_fmts),
1107	GFP_KERNEL);
1108	if (!input_fmts)
1109	return NULL;
1110
1111	switch (priv->pd_lines) {
1112	case `16`:
1113	input_fmts[`0`] = MEDIA_BUS_FMT_RGB565_1X16;
1114	break;
1115	case `18`:
1116	input_fmts[`0`] = MEDIA_BUS_FMT_RGB666_1X18;
1117	break;
1118	default:
1119	case `24`:
1120	input_fmts[`0`] = MEDIA_BUS_FMT_RGB888_1X24;
1121	break;
1122	}
1123
1124	*num_input_fmts = MAX_INPUT_SEL_FORMATS;
1125
1126	return input_fmts;
1127	}
1128
1129	static bool tc358768_mode_fixup(struct drm_bridge *bridge,
1130	const struct drm_display_mode *mode,
1131	struct drm_display_mode *adjusted_mode)
1132	{
1133	/ Default to positive sync /
1134
1135	if (!(adjusted_mode->flags &
1136	(DRM_MODE_FLAG_PHSYNC \| DRM_MODE_FLAG_NHSYNC)))
1137	adjusted_mode->flags \|= DRM_MODE_FLAG_PHSYNC;
1138
1139	if (!(adjusted_mode->flags &
1140	(DRM_MODE_FLAG_PVSYNC \| DRM_MODE_FLAG_NVSYNC)))
1141	adjusted_mode->flags \|= DRM_MODE_FLAG_PVSYNC;
1142
1143	return true;
1144	}
1145
1146	static const struct drm_bridge_funcs tc358768_bridge_funcs = {
1147	.attach = tc358768_bridge_attach,
1148	.mode_valid = tc358768_bridge_mode_valid,
1149	.mode_fixup = tc358768_mode_fixup,
1150	.pre_enable = tc358768_bridge_pre_enable,
1151	.enable = tc358768_bridge_enable,
1152	.disable = tc358768_bridge_disable,
1153	.post_disable = tc358768_bridge_post_disable,
1154
1155	.atomic_duplicate_state = drm_atomic_helper_bridge_duplicate_state,
1156	.atomic_destroy_state = drm_atomic_helper_bridge_destroy_state,
1157	.atomic_reset = drm_atomic_helper_bridge_reset,
1158	.atomic_get_input_bus_fmts = tc358768_atomic_get_input_bus_fmts,
1159	};
1160
1161	static const struct drm_bridge_timings default_tc358768_timings = {
1162	.input_bus_flags = DRM_BUS_FLAG_PIXDATA_SAMPLE_POSEDGE
1163	\| DRM_BUS_FLAG_SYNC_SAMPLE_NEGEDGE
1164	\| DRM_BUS_FLAG_DE_HIGH,
1165	};
1166
1167	static bool tc358768_is_reserved_reg(unsigned int reg)
1168	{
1169	switch (reg) {
1170	case `0x114` ... `0x13f`:
1171	case `0x200`:
1172	case `0x20c`:
1173	case `0x400` ... `0x408`:
1174	case `0x41c` ... `0x42f`:
1175	return true;
1176	default:
1177	return false;
1178	}
1179	}
1180
1181	static bool tc358768_writeable_reg(struct device dev, unsigned* int reg)
1182	{
1183	if (tc358768_is_reserved_reg(reg))
1184	return false;
1185
1186	switch (reg) {
1187	case TC358768_CHIPID:
1188	case TC358768_FIFOSTATUS:
1189	case TC358768_DSITXSTATUS ... (TC358768_DSITXSTATUS + `2`):
1190	case TC358768_DSI_CONTROL ... (TC358768_DSI_INT_ENA + `2`):
1191	case TC358768_DSICMD_RDFIFO ... (TC358768_DSI_ERR_HALT + `2`):
1192	return false;
1193	default:
1194	return true;
1195	}
1196	}
1197
1198	static bool tc358768_readable_reg(struct device dev, unsigned* int reg)
1199	{
1200	if (tc358768_is_reserved_reg(reg))
1201	return false;
1202
1203	switch (reg) {
1204	case TC358768_STARTCNTRL:
1205	case TC358768_DSI_CONFW ... (TC358768_DSI_CONFW + `2`):
1206	case TC358768_DSI_INT_CLR ... (TC358768_DSI_INT_CLR + `2`):
1207	case TC358768_DSI_START ... (TC358768_DSI_START + `2`):
1208	case TC358768_DBG_DATA:
1209	return false;
1210	default:
1211	return true;
1212	}
1213	}
1214
1215	static const struct regmap_config tc358768_regmap_config = {
1216	.name = "tc358768",
1217	.reg_bits = `16`,
1218	.val_bits = `16`,
1219	.max_register = TC358768_DSI_HACT,
1220	.cache_type = REGCACHE_NONE,
1221	.writeable_reg = tc358768_writeable_reg,
1222	.readable_reg = tc358768_readable_reg,
1223	.reg_format_endian = REGMAP_ENDIAN_BIG,
1224	.val_format_endian = REGMAP_ENDIAN_BIG,
1225	};
1226
1227	static const struct i2c_device_id tc358768_i2c_ids[] = {
1228	{ "tc358768", `0` },
1229	{ "tc358778", `0` },
1230	{ }
1231	};
1232	MODULE_DEVICE_TABLE(i2c, tc358768_i2c_ids);
1233
1234	static const struct of_device_id tc358768_of_ids[] = {
1235	{ .compatible = "toshiba,tc358768", },
1236	{ .compatible = "toshiba,tc358778", },
1237	{ }
1238	};
1239	MODULE_DEVICE_TABLE(of, tc358768_of_ids);
1240
1241	static int tc358768_get_regulators(struct tc358768_priv *priv)
1242	{
1243	int i, ret;
1244
1245	for (i = `0`; i < ARRAY_SIZE(priv->supplies); ++i)
1246	priv->supplies[i].supply = tc358768_supplies[i];
1247
1248	ret = devm_regulator_bulk_get(dev: priv->dev, ARRAY_SIZE(priv->supplies),
1249	consumers: priv->supplies);
1250	if (ret < `0`)
1251	dev_err(priv->dev, "failed to get regulators: %d\n", ret);
1252
1253	return ret;
1254	}
1255
1256	static int tc358768_i2c_probe(struct i2c_client *client)
1257	{
1258	struct tc358768_priv *priv;
1259	struct device *dev = &client->dev;
1260	struct device_node *np = dev->of_node;
1261	int ret;
1262
1263	if (!np)
1264	return -ENODEV;
1265
1266	priv = devm_kzalloc(dev, size: sizeof(*priv), GFP_KERNEL);
1267	if (!priv)
1268	return -ENOMEM;
1269
1270	dev_set_drvdata(dev, data: priv);
1271	priv->dev = dev;
1272
1273	ret = tc358768_get_regulators(priv);
1274	if (ret)
1275	return ret;
1276
1277	priv->refclk = devm_clk_get(dev, id: "refclk");
1278	if (IS_ERR(ptr: priv->refclk))
1279	return PTR_ERR(ptr: priv->refclk);
1280
1281	/*
1282	* RESX is low active, to disable tc358768 initially (keep in reset)
1283	* the gpio line must be LOW. This is the ASSERTED state of
1284	* GPIO_ACTIVE_LOW (GPIOD_OUT_HIGH == ASSERTED).
1285	*/
1286	priv->reset_gpio = devm_gpiod_get_optional(dev, con_id: "reset",
1287	flags: GPIOD_OUT_HIGH);
1288	if (IS_ERR(ptr: priv->reset_gpio))
1289	return PTR_ERR(ptr: priv->reset_gpio);
1290
1291	priv->regmap = devm_regmap_init_i2c(client, &tc358768_regmap_config);
1292	if (IS_ERR(ptr: priv->regmap)) {
1293	dev_err(dev, "Failed to init regmap\n");
1294	return PTR_ERR(ptr: priv->regmap);
1295	}
1296
1297	priv->dsi_host.dev = dev;
1298	priv->dsi_host.ops = &tc358768_dsi_host_ops;
1299
1300	priv->bridge.funcs = &tc358768_bridge_funcs;
1301	priv->bridge.timings = &default_tc358768_timings;
1302	priv->bridge.of_node = np;
1303
1304	i2c_set_clientdata(client, data: priv);
1305
1306	return mipi_dsi_host_register(host: &priv->dsi_host);
1307	}
1308
1309	static void tc358768_i2c_remove(struct i2c_client *client)
1310	{
1311	struct tc358768_priv *priv = i2c_get_clientdata(client);
1312
1313	mipi_dsi_host_unregister(host: &priv->dsi_host);
1314	}
1315
1316	static struct i2c_driver tc358768_driver = {
1317	.driver = {
1318	.name = "tc358768",
1319	.of_match_table = tc358768_of_ids,
1320	},
1321	.id_table = tc358768_i2c_ids,
1322	.probe = tc358768_i2c_probe,
1323	.remove = tc358768_i2c_remove,
1324	};
1325	module_i2c_driver(tc358768_driver);
1326
1327	MODULE_AUTHOR("Peter Ujfalusi <peter.ujfalusi@ti.com>");
1328	MODULE_DESCRIPTION("TC358768AXBG/TC358778XBG DSI bridge");
1329	MODULE_LICENSE("GPL v2");
1330

source code of linux/drivers/gpu/drm/bridge/tc358768.c