1// SPDX-License-Identifier: GPL-2.0
   2/*
   3 * Copyright (C) 2018 Linus Walleij <linus.walleij@linaro.org>
   4 * Parts of this file were based on the MCDE driver by Marcus Lorentzon
   5 * (C) ST-Ericsson SA 2013
   6 */
   7#include <linux/clk.h>
   8#include <linux/delay.h>
   9#include <linux/dma-buf.h>
  10#include <linux/regulator/consumer.h>
  11#include <linux/media-bus-format.h>
  12
  13#include <drm/drm_device.h>
  14#include <drm/drm_fb_cma_helper.h>
  15#include <drm/drm_fourcc.h>
  16#include <drm/drm_gem_atomic_helper.h>
  17#include <drm/drm_gem_cma_helper.h>
 
  18#include <drm/drm_mipi_dsi.h>
  19#include <drm/drm_simple_kms_helper.h>
  20#include <drm/drm_bridge.h>
  21#include <drm/drm_vblank.h>
  22#include <video/mipi_display.h>
  23
  24#include "mcde_drm.h"
  25#include "mcde_display_regs.h"
  26
  27enum mcde_fifo {
  28	MCDE_FIFO_A,
  29	MCDE_FIFO_B,
  30	/* TODO: implement FIFO C0 and FIFO C1 */
  31};
  32
  33enum mcde_channel {
  34	MCDE_CHANNEL_0 = 0,
  35	MCDE_CHANNEL_1,
  36	MCDE_CHANNEL_2,
  37	MCDE_CHANNEL_3,
  38};
  39
  40enum mcde_extsrc {
  41	MCDE_EXTSRC_0 = 0,
  42	MCDE_EXTSRC_1,
  43	MCDE_EXTSRC_2,
  44	MCDE_EXTSRC_3,
  45	MCDE_EXTSRC_4,
  46	MCDE_EXTSRC_5,
  47	MCDE_EXTSRC_6,
  48	MCDE_EXTSRC_7,
  49	MCDE_EXTSRC_8,
  50	MCDE_EXTSRC_9,
  51};
  52
  53enum mcde_overlay {
  54	MCDE_OVERLAY_0 = 0,
  55	MCDE_OVERLAY_1,
  56	MCDE_OVERLAY_2,
  57	MCDE_OVERLAY_3,
  58	MCDE_OVERLAY_4,
  59	MCDE_OVERLAY_5,
  60};
  61
  62enum mcde_formatter {
  63	MCDE_DSI_FORMATTER_0 = 0,
  64	MCDE_DSI_FORMATTER_1,
  65	MCDE_DSI_FORMATTER_2,
  66	MCDE_DSI_FORMATTER_3,
  67	MCDE_DSI_FORMATTER_4,
  68	MCDE_DSI_FORMATTER_5,
  69	MCDE_DPI_FORMATTER_0,
  70	MCDE_DPI_FORMATTER_1,
  71};
  72
  73void mcde_display_irq(struct mcde *mcde)
  74{
  75	u32 mispp, misovl, mischnl;
  76	bool vblank = false;
  77
  78	/* Handle display IRQs */
  79	mispp = readl(mcde->regs + MCDE_MISPP);
  80	misovl = readl(mcde->regs + MCDE_MISOVL);
  81	mischnl = readl(mcde->regs + MCDE_MISCHNL);
  82
  83	/*
  84	 * Handle IRQs from the DSI link. All IRQs from the DSI links
  85	 * are just latched onto the MCDE IRQ line, so we need to traverse
  86	 * any active DSI masters and check if an IRQ is originating from
  87	 * them.
  88	 *
  89	 * TODO: Currently only one DSI link is supported.
  90	 */
  91	if (!mcde->dpi_output && mcde_dsi_irq(mcde->mdsi)) {
  92		u32 val;
  93
  94		/*
  95		 * In oneshot mode we do not send continuous updates
  96		 * to the display, instead we only push out updates when
  97		 * the update function is called, then we disable the
  98		 * flow on the channel once we get the TE IRQ.
  99		 */
 100		if (mcde->flow_mode == MCDE_COMMAND_ONESHOT_FLOW) {
 101			spin_lock(&mcde->flow_lock);
 102			if (--mcde->flow_active == 0) {
 103				dev_dbg(mcde->dev, "TE0 IRQ\n");
 104				/* Disable FIFO A flow */
 105				val = readl(mcde->regs + MCDE_CRA0);
 106				val &= ~MCDE_CRX0_FLOEN;
 107				writel(val, mcde->regs + MCDE_CRA0);
 108			}
 109			spin_unlock(&mcde->flow_lock);
 110		}
 111	}
 112
 113	/* Vblank from one of the channels */
 114	if (mispp & MCDE_PP_VCMPA) {
 115		dev_dbg(mcde->dev, "chnl A vblank IRQ\n");
 116		vblank = true;
 117	}
 118	if (mispp & MCDE_PP_VCMPB) {
 119		dev_dbg(mcde->dev, "chnl B vblank IRQ\n");
 120		vblank = true;
 121	}
 122	if (mispp & MCDE_PP_VCMPC0)
 123		dev_dbg(mcde->dev, "chnl C0 vblank IRQ\n");
 124	if (mispp & MCDE_PP_VCMPC1)
 125		dev_dbg(mcde->dev, "chnl C1 vblank IRQ\n");
 126	if (mispp & MCDE_PP_VSCC0)
 127		dev_dbg(mcde->dev, "chnl C0 TE IRQ\n");
 128	if (mispp & MCDE_PP_VSCC1)
 129		dev_dbg(mcde->dev, "chnl C1 TE IRQ\n");
 130	writel(mispp, mcde->regs + MCDE_RISPP);
 131
 132	if (vblank)
 133		drm_crtc_handle_vblank(&mcde->pipe.crtc);
 134
 135	if (misovl)
 136		dev_info(mcde->dev, "some stray overlay IRQ %08x\n", misovl);
 137	writel(misovl, mcde->regs + MCDE_RISOVL);
 138
 139	if (mischnl)
 140		dev_info(mcde->dev, "some stray channel error IRQ %08x\n",
 141			 mischnl);
 142	writel(mischnl, mcde->regs + MCDE_RISCHNL);
 143}
 144
 145void mcde_display_disable_irqs(struct mcde *mcde)
 146{
 147	/* Disable all IRQs */
 148	writel(0, mcde->regs + MCDE_IMSCPP);
 149	writel(0, mcde->regs + MCDE_IMSCOVL);
 150	writel(0, mcde->regs + MCDE_IMSCCHNL);
 151
 152	/* Clear any pending IRQs */
 153	writel(0xFFFFFFFF, mcde->regs + MCDE_RISPP);
 154	writel(0xFFFFFFFF, mcde->regs + MCDE_RISOVL);
 155	writel(0xFFFFFFFF, mcde->regs + MCDE_RISCHNL);
 156}
 157
 158static int mcde_display_check(struct drm_simple_display_pipe *pipe,
 159			      struct drm_plane_state *pstate,
 160			      struct drm_crtc_state *cstate)
 161{
 162	const struct drm_display_mode *mode = &cstate->mode;
 163	struct drm_framebuffer *old_fb = pipe->plane.state->fb;
 164	struct drm_framebuffer *fb = pstate->fb;
 165
 166	if (fb) {
 167		u32 offset = drm_fb_cma_get_gem_addr(fb, pstate, 0);
 168
 169		/* FB base address must be dword aligned. */
 170		if (offset & 3) {
 171			DRM_DEBUG_KMS("FB not 32-bit aligned\n");
 172			return -EINVAL;
 173		}
 174
 175		/*
 176		 * There's no pitch register, the mode's hdisplay
 177		 * controls this.
 178		 */
 179		if (fb->pitches[0] != mode->hdisplay * fb->format->cpp[0]) {
 180			DRM_DEBUG_KMS("can't handle pitches\n");
 181			return -EINVAL;
 182		}
 183
 184		/*
 185		 * We can't change the FB format in a flicker-free
 186		 * manner (and only update it during CRTC enable).
 187		 */
 188		if (old_fb && old_fb->format != fb->format)
 189			cstate->mode_changed = true;
 190	}
 191
 192	return 0;
 193}
 194
 195static int mcde_configure_extsrc(struct mcde *mcde, enum mcde_extsrc src,
 196				 u32 format)
 197{
 198	u32 val;
 199	u32 conf;
 200	u32 cr;
 201
 202	switch (src) {
 203	case MCDE_EXTSRC_0:
 204		conf = MCDE_EXTSRC0CONF;
 205		cr = MCDE_EXTSRC0CR;
 206		break;
 207	case MCDE_EXTSRC_1:
 208		conf = MCDE_EXTSRC1CONF;
 209		cr = MCDE_EXTSRC1CR;
 210		break;
 211	case MCDE_EXTSRC_2:
 212		conf = MCDE_EXTSRC2CONF;
 213		cr = MCDE_EXTSRC2CR;
 214		break;
 215	case MCDE_EXTSRC_3:
 216		conf = MCDE_EXTSRC3CONF;
 217		cr = MCDE_EXTSRC3CR;
 218		break;
 219	case MCDE_EXTSRC_4:
 220		conf = MCDE_EXTSRC4CONF;
 221		cr = MCDE_EXTSRC4CR;
 222		break;
 223	case MCDE_EXTSRC_5:
 224		conf = MCDE_EXTSRC5CONF;
 225		cr = MCDE_EXTSRC5CR;
 226		break;
 227	case MCDE_EXTSRC_6:
 228		conf = MCDE_EXTSRC6CONF;
 229		cr = MCDE_EXTSRC6CR;
 230		break;
 231	case MCDE_EXTSRC_7:
 232		conf = MCDE_EXTSRC7CONF;
 233		cr = MCDE_EXTSRC7CR;
 234		break;
 235	case MCDE_EXTSRC_8:
 236		conf = MCDE_EXTSRC8CONF;
 237		cr = MCDE_EXTSRC8CR;
 238		break;
 239	case MCDE_EXTSRC_9:
 240		conf = MCDE_EXTSRC9CONF;
 241		cr = MCDE_EXTSRC9CR;
 242		break;
 243	}
 244
 245	/*
 246	 * Configure external source 0 one buffer (buffer 0)
 247	 * primary overlay ID 0.
 248	 * From mcde_hw.c ovly_update_registers() in the vendor tree
 249	 */
 250	val = 0 << MCDE_EXTSRCXCONF_BUF_ID_SHIFT;
 251	val |= 1 << MCDE_EXTSRCXCONF_BUF_NB_SHIFT;
 252	val |= 0 << MCDE_EXTSRCXCONF_PRI_OVLID_SHIFT;
 253
 
 
 
 254	switch (format) {
 255	case DRM_FORMAT_ARGB8888:
 256		val |= MCDE_EXTSRCXCONF_BPP_ARGB8888 <<
 257			MCDE_EXTSRCXCONF_BPP_SHIFT;
 
 258		break;
 259	case DRM_FORMAT_ABGR8888:
 260		val |= MCDE_EXTSRCXCONF_BPP_ARGB8888 <<
 261			MCDE_EXTSRCXCONF_BPP_SHIFT;
 262		val |= MCDE_EXTSRCXCONF_BGR;
 263		break;
 264	case DRM_FORMAT_XRGB8888:
 265		val |= MCDE_EXTSRCXCONF_BPP_XRGB8888 <<
 266			MCDE_EXTSRCXCONF_BPP_SHIFT;
 
 267		break;
 268	case DRM_FORMAT_XBGR8888:
 269		val |= MCDE_EXTSRCXCONF_BPP_XRGB8888 <<
 270			MCDE_EXTSRCXCONF_BPP_SHIFT;
 271		val |= MCDE_EXTSRCXCONF_BGR;
 272		break;
 273	case DRM_FORMAT_RGB888:
 274		val |= MCDE_EXTSRCXCONF_BPP_RGB888 <<
 275			MCDE_EXTSRCXCONF_BPP_SHIFT;
 
 276		break;
 277	case DRM_FORMAT_BGR888:
 278		val |= MCDE_EXTSRCXCONF_BPP_RGB888 <<
 279			MCDE_EXTSRCXCONF_BPP_SHIFT;
 280		val |= MCDE_EXTSRCXCONF_BGR;
 281		break;
 282	case DRM_FORMAT_ARGB4444:
 283		val |= MCDE_EXTSRCXCONF_BPP_ARGB4444 <<
 284			MCDE_EXTSRCXCONF_BPP_SHIFT;
 
 285		break;
 286	case DRM_FORMAT_ABGR4444:
 287		val |= MCDE_EXTSRCXCONF_BPP_ARGB4444 <<
 288			MCDE_EXTSRCXCONF_BPP_SHIFT;
 289		val |= MCDE_EXTSRCXCONF_BGR;
 290		break;
 291	case DRM_FORMAT_XRGB4444:
 292		val |= MCDE_EXTSRCXCONF_BPP_RGB444 <<
 293			MCDE_EXTSRCXCONF_BPP_SHIFT;
 
 294		break;
 295	case DRM_FORMAT_XBGR4444:
 296		val |= MCDE_EXTSRCXCONF_BPP_RGB444 <<
 297			MCDE_EXTSRCXCONF_BPP_SHIFT;
 298		val |= MCDE_EXTSRCXCONF_BGR;
 299		break;
 300	case DRM_FORMAT_XRGB1555:
 301		val |= MCDE_EXTSRCXCONF_BPP_IRGB1555 <<
 302			MCDE_EXTSRCXCONF_BPP_SHIFT;
 
 303		break;
 304	case DRM_FORMAT_XBGR1555:
 305		val |= MCDE_EXTSRCXCONF_BPP_IRGB1555 <<
 306			MCDE_EXTSRCXCONF_BPP_SHIFT;
 307		val |= MCDE_EXTSRCXCONF_BGR;
 308		break;
 309	case DRM_FORMAT_RGB565:
 310		val |= MCDE_EXTSRCXCONF_BPP_RGB565 <<
 311			MCDE_EXTSRCXCONF_BPP_SHIFT;
 
 312		break;
 313	case DRM_FORMAT_BGR565:
 314		val |= MCDE_EXTSRCXCONF_BPP_RGB565 <<
 315			MCDE_EXTSRCXCONF_BPP_SHIFT;
 316		val |= MCDE_EXTSRCXCONF_BGR;
 317		break;
 318	case DRM_FORMAT_YUV422:
 319		val |= MCDE_EXTSRCXCONF_BPP_YCBCR422 <<
 320			MCDE_EXTSRCXCONF_BPP_SHIFT;
 321		break;
 322	default:
 323		dev_err(mcde->dev, "Unknown pixel format 0x%08x\n",
 324			format);
 325		return -EINVAL;
 326	}
 327	writel(val, mcde->regs + conf);
 328
 329	/* Software select, primary */
 330	val = MCDE_EXTSRCXCR_SEL_MOD_SOFTWARE_SEL;
 331	val |= MCDE_EXTSRCXCR_MULTIOVL_CTRL_PRIMARY;
 332	writel(val, mcde->regs + cr);
 333
 334	return 0;
 335}
 336
 337static void mcde_configure_overlay(struct mcde *mcde, enum mcde_overlay ovl,
 338				   enum mcde_extsrc src,
 339				   enum mcde_channel ch,
 340				   const struct drm_display_mode *mode,
 341				   u32 format, int cpp)
 342{
 343	u32 val;
 344	u32 conf1;
 345	u32 conf2;
 346	u32 crop;
 347	u32 ljinc;
 348	u32 cr;
 349	u32 comp;
 350	u32 pixel_fetcher_watermark;
 351
 352	switch (ovl) {
 353	case MCDE_OVERLAY_0:
 354		conf1 = MCDE_OVL0CONF;
 355		conf2 = MCDE_OVL0CONF2;
 356		crop = MCDE_OVL0CROP;
 357		ljinc = MCDE_OVL0LJINC;
 358		cr = MCDE_OVL0CR;
 359		comp = MCDE_OVL0COMP;
 360		break;
 361	case MCDE_OVERLAY_1:
 362		conf1 = MCDE_OVL1CONF;
 363		conf2 = MCDE_OVL1CONF2;
 364		crop = MCDE_OVL1CROP;
 365		ljinc = MCDE_OVL1LJINC;
 366		cr = MCDE_OVL1CR;
 367		comp = MCDE_OVL1COMP;
 368		break;
 369	case MCDE_OVERLAY_2:
 370		conf1 = MCDE_OVL2CONF;
 371		conf2 = MCDE_OVL2CONF2;
 372		crop = MCDE_OVL2CROP;
 373		ljinc = MCDE_OVL2LJINC;
 374		cr = MCDE_OVL2CR;
 375		comp = MCDE_OVL2COMP;
 376		break;
 377	case MCDE_OVERLAY_3:
 378		conf1 = MCDE_OVL3CONF;
 379		conf2 = MCDE_OVL3CONF2;
 380		crop = MCDE_OVL3CROP;
 381		ljinc = MCDE_OVL3LJINC;
 382		cr = MCDE_OVL3CR;
 383		comp = MCDE_OVL3COMP;
 384		break;
 385	case MCDE_OVERLAY_4:
 386		conf1 = MCDE_OVL4CONF;
 387		conf2 = MCDE_OVL4CONF2;
 388		crop = MCDE_OVL4CROP;
 389		ljinc = MCDE_OVL4LJINC;
 390		cr = MCDE_OVL4CR;
 391		comp = MCDE_OVL4COMP;
 392		break;
 393	case MCDE_OVERLAY_5:
 394		conf1 = MCDE_OVL5CONF;
 395		conf2 = MCDE_OVL5CONF2;
 396		crop = MCDE_OVL5CROP;
 397		ljinc = MCDE_OVL5LJINC;
 398		cr = MCDE_OVL5CR;
 399		comp = MCDE_OVL5COMP;
 400		break;
 401	}
 402
 403	val = mode->hdisplay << MCDE_OVLXCONF_PPL_SHIFT;
 404	val |= mode->vdisplay << MCDE_OVLXCONF_LPF_SHIFT;
 405	/* Use external source 0 that we just configured */
 406	val |= src << MCDE_OVLXCONF_EXTSRC_ID_SHIFT;
 407	writel(val, mcde->regs + conf1);
 408
 409	val = MCDE_OVLXCONF2_BP_PER_PIXEL_ALPHA;
 410	val |= 0xff << MCDE_OVLXCONF2_ALPHAVALUE_SHIFT;
 411	/* OPQ: overlay is opaque */
 412	switch (format) {
 413	case DRM_FORMAT_ARGB8888:
 414	case DRM_FORMAT_ABGR8888:
 415	case DRM_FORMAT_ARGB4444:
 416	case DRM_FORMAT_ABGR4444:
 417	case DRM_FORMAT_XRGB1555:
 418	case DRM_FORMAT_XBGR1555:
 419		/* No OPQ */
 420		break;
 421	case DRM_FORMAT_XRGB8888:
 422	case DRM_FORMAT_XBGR8888:
 423	case DRM_FORMAT_RGB888:
 424	case DRM_FORMAT_BGR888:
 425	case DRM_FORMAT_RGB565:
 426	case DRM_FORMAT_BGR565:
 427	case DRM_FORMAT_YUV422:
 428		val |= MCDE_OVLXCONF2_OPQ;
 429		break;
 430	default:
 431		dev_err(mcde->dev, "Unknown pixel format 0x%08x\n",
 432			format);
 433		break;
 434	}
 435
 436	/*
 437	 * Pixel fetch watermark level is max 0x1FFF pixels.
 438	 * Two basic rules should be followed:
 439	 * 1. The value should be at least 256 bits.
 440	 * 2. The sum of all active overlays pixelfetch watermark level
 441	 *    multiplied with bits per pixel, should be lower than the
 442	 *    size of input_fifo_size in bits.
 443	 * 3. The value should be a multiple of a line (256 bits).
 444	 */
 445	switch (cpp) {
 446	case 2:
 447		pixel_fetcher_watermark = 128;
 448		break;
 449	case 3:
 450		pixel_fetcher_watermark = 96;
 451		break;
 452	case 4:
 453		pixel_fetcher_watermark = 48;
 454		break;
 455	default:
 456		pixel_fetcher_watermark = 48;
 457		break;
 458	}
 459	dev_dbg(mcde->dev, "pixel fetcher watermark level %d pixels\n",
 460		pixel_fetcher_watermark);
 461	val |= pixel_fetcher_watermark << MCDE_OVLXCONF2_PIXELFETCHERWATERMARKLEVEL_SHIFT;
 462	writel(val, mcde->regs + conf2);
 463
 464	/* Number of bytes to fetch per line */
 465	writel(mcde->stride, mcde->regs + ljinc);
 466	/* No cropping */
 467	writel(0, mcde->regs + crop);
 468
 469	/* Set up overlay control register */
 470	val = MCDE_OVLXCR_OVLEN;
 471	val |= MCDE_OVLXCR_COLCCTRL_DISABLED;
 472	val |= MCDE_OVLXCR_BURSTSIZE_8W <<
 473		MCDE_OVLXCR_BURSTSIZE_SHIFT;
 474	val |= MCDE_OVLXCR_MAXOUTSTANDING_8_REQ <<
 475		MCDE_OVLXCR_MAXOUTSTANDING_SHIFT;
 476	/* Not using rotation but set it up anyways */
 477	val |= MCDE_OVLXCR_ROTBURSTSIZE_8W <<
 478		MCDE_OVLXCR_ROTBURSTSIZE_SHIFT;
 479	writel(val, mcde->regs + cr);
 480
 481	/*
 482	 * Set up the overlay compositor to route the overlay out to
 483	 * the desired channel
 484	 */
 485	val = ch << MCDE_OVLXCOMP_CH_ID_SHIFT;
 486	writel(val, mcde->regs + comp);
 487}
 488
 489static void mcde_configure_channel(struct mcde *mcde, enum mcde_channel ch,
 490				   enum mcde_fifo fifo,
 491				   const struct drm_display_mode *mode)
 492{
 493	u32 val;
 494	u32 conf;
 495	u32 sync;
 496	u32 stat;
 497	u32 bgcol;
 498	u32 mux;
 499
 500	switch (ch) {
 501	case MCDE_CHANNEL_0:
 502		conf = MCDE_CHNL0CONF;
 503		sync = MCDE_CHNL0SYNCHMOD;
 504		stat = MCDE_CHNL0STAT;
 505		bgcol = MCDE_CHNL0BCKGNDCOL;
 506		mux = MCDE_CHNL0MUXING;
 507		break;
 508	case MCDE_CHANNEL_1:
 509		conf = MCDE_CHNL1CONF;
 510		sync = MCDE_CHNL1SYNCHMOD;
 511		stat = MCDE_CHNL1STAT;
 512		bgcol = MCDE_CHNL1BCKGNDCOL;
 513		mux = MCDE_CHNL1MUXING;
 514		break;
 515	case MCDE_CHANNEL_2:
 516		conf = MCDE_CHNL2CONF;
 517		sync = MCDE_CHNL2SYNCHMOD;
 518		stat = MCDE_CHNL2STAT;
 519		bgcol = MCDE_CHNL2BCKGNDCOL;
 520		mux = MCDE_CHNL2MUXING;
 521		break;
 522	case MCDE_CHANNEL_3:
 523		conf = MCDE_CHNL3CONF;
 524		sync = MCDE_CHNL3SYNCHMOD;
 525		stat = MCDE_CHNL3STAT;
 526		bgcol = MCDE_CHNL3BCKGNDCOL;
 527		mux = MCDE_CHNL3MUXING;
 528		return;
 529	}
 530
 531	/* Set up channel 0 sync (based on chnl_update_registers()) */
 532	switch (mcde->flow_mode) {
 533	case MCDE_COMMAND_ONESHOT_FLOW:
 534		/* Oneshot is achieved with software sync */
 535		val = MCDE_CHNLXSYNCHMOD_SRC_SYNCH_SOFTWARE
 536			<< MCDE_CHNLXSYNCHMOD_SRC_SYNCH_SHIFT;
 537		break;
 538	case MCDE_COMMAND_TE_FLOW:
 539		val = MCDE_CHNLXSYNCHMOD_SRC_SYNCH_HARDWARE
 540			<< MCDE_CHNLXSYNCHMOD_SRC_SYNCH_SHIFT;
 541		val |= MCDE_CHNLXSYNCHMOD_OUT_SYNCH_SRC_TE0
 542			<< MCDE_CHNLXSYNCHMOD_OUT_SYNCH_SRC_SHIFT;
 543		break;
 544	case MCDE_COMMAND_BTA_TE_FLOW:
 545		val = MCDE_CHNLXSYNCHMOD_SRC_SYNCH_HARDWARE
 546			<< MCDE_CHNLXSYNCHMOD_SRC_SYNCH_SHIFT;
 547		/*
 548		 * TODO:
 549		 * The vendor driver uses the formatter as sync source
 550		 * for BTA TE mode. Test to use TE if you have a panel
 551		 * that uses this mode.
 552		 */
 553		val |= MCDE_CHNLXSYNCHMOD_OUT_SYNCH_SRC_FORMATTER
 554			<< MCDE_CHNLXSYNCHMOD_OUT_SYNCH_SRC_SHIFT;
 555		break;
 556	case MCDE_VIDEO_TE_FLOW:
 557		val = MCDE_CHNLXSYNCHMOD_SRC_SYNCH_HARDWARE
 558			<< MCDE_CHNLXSYNCHMOD_SRC_SYNCH_SHIFT;
 559		val |= MCDE_CHNLXSYNCHMOD_OUT_SYNCH_SRC_TE0
 560			<< MCDE_CHNLXSYNCHMOD_OUT_SYNCH_SRC_SHIFT;
 561		break;
 562	case MCDE_VIDEO_FORMATTER_FLOW:
 563	case MCDE_DPI_FORMATTER_FLOW:
 564		val = MCDE_CHNLXSYNCHMOD_SRC_SYNCH_HARDWARE
 
 
 565			<< MCDE_CHNLXSYNCHMOD_SRC_SYNCH_SHIFT;
 566		val |= MCDE_CHNLXSYNCHMOD_OUT_SYNCH_SRC_FORMATTER
 567			<< MCDE_CHNLXSYNCHMOD_OUT_SYNCH_SRC_SHIFT;
 568		break;
 569	default:
 570		dev_err(mcde->dev, "unknown flow mode %d\n",
 571			mcde->flow_mode);
 572		return;
 573	}
 574
 575	writel(val, mcde->regs + sync);
 576
 577	/* Set up pixels per line and lines per frame */
 578	val = (mode->hdisplay - 1) << MCDE_CHNLXCONF_PPL_SHIFT;
 579	val |= (mode->vdisplay - 1) << MCDE_CHNLXCONF_LPF_SHIFT;
 580	writel(val, mcde->regs + conf);
 581
 582	/*
 583	 * Normalize color conversion:
 584	 * black background, OLED conversion disable on channel
 585	 */
 586	val = MCDE_CHNLXSTAT_CHNLBLBCKGND_EN |
 587		MCDE_CHNLXSTAT_CHNLRD;
 588	writel(val, mcde->regs + stat);
 589	writel(0, mcde->regs + bgcol);
 590
 591	/* Set up muxing: connect the channel to the desired FIFO */
 592	switch (fifo) {
 593	case MCDE_FIFO_A:
 594		writel(MCDE_CHNLXMUXING_FIFO_ID_FIFO_A,
 595		       mcde->regs + mux);
 596		break;
 597	case MCDE_FIFO_B:
 598		writel(MCDE_CHNLXMUXING_FIFO_ID_FIFO_B,
 599		       mcde->regs + mux);
 600		break;
 601	}
 602
 603	/*
 604	 * If using DPI configure the sync event.
 605	 * TODO: this is for LCD only, it does not cover TV out.
 606	 */
 607	if (mcde->dpi_output) {
 608		u32 stripwidth;
 609
 610		stripwidth = 0xF000 / (mode->vdisplay * 4);
 611		dev_info(mcde->dev, "stripwidth: %d\n", stripwidth);
 612
 613		val = MCDE_SYNCHCONF_HWREQVEVENT_ACTIVE_VIDEO |
 614			(mode->hdisplay - 1 - stripwidth) << MCDE_SYNCHCONF_HWREQVCNT_SHIFT |
 615			MCDE_SYNCHCONF_SWINTVEVENT_ACTIVE_VIDEO |
 616			(mode->hdisplay - 1 - stripwidth) << MCDE_SYNCHCONF_SWINTVCNT_SHIFT;
 617
 618		switch (fifo) {
 619		case MCDE_FIFO_A:
 620			writel(val, mcde->regs + MCDE_SYNCHCONFA);
 621			break;
 622		case MCDE_FIFO_B:
 623			writel(val, mcde->regs + MCDE_SYNCHCONFB);
 624			break;
 625		}
 626	}
 627}
 628
 629static void mcde_configure_fifo(struct mcde *mcde, enum mcde_fifo fifo,
 630				enum mcde_formatter fmt,
 631				int fifo_wtrmrk)
 632{
 633	u32 val;
 634	u32 ctrl;
 635	u32 cr0, cr1;
 636
 637	switch (fifo) {
 638	case MCDE_FIFO_A:
 639		ctrl = MCDE_CTRLA;
 640		cr0 = MCDE_CRA0;
 641		cr1 = MCDE_CRA1;
 642		break;
 643	case MCDE_FIFO_B:
 644		ctrl = MCDE_CTRLB;
 645		cr0 = MCDE_CRB0;
 646		cr1 = MCDE_CRB1;
 647		break;
 648	}
 649
 650	val = fifo_wtrmrk << MCDE_CTRLX_FIFOWTRMRK_SHIFT;
 
 
 
 651
 652	/*
 653	 * Select the formatter to use for this FIFO
 654	 *
 655	 * The register definitions imply that different IDs should be used
 656	 * by the DSI formatters depending on if they are in VID or CMD
 657	 * mode, and the manual says they are dedicated but identical.
 658	 * The vendor code uses them as it seems fit.
 659	 */
 660	switch (fmt) {
 661	case MCDE_DSI_FORMATTER_0:
 662		val |= MCDE_CTRLX_FORMTYPE_DSI << MCDE_CTRLX_FORMTYPE_SHIFT;
 663		val |= MCDE_CTRLX_FORMID_DSI0VID << MCDE_CTRLX_FORMID_SHIFT;
 664		break;
 665	case MCDE_DSI_FORMATTER_1:
 666		val |= MCDE_CTRLX_FORMTYPE_DSI << MCDE_CTRLX_FORMTYPE_SHIFT;
 667		val |= MCDE_CTRLX_FORMID_DSI0CMD << MCDE_CTRLX_FORMID_SHIFT;
 668		break;
 669	case MCDE_DSI_FORMATTER_2:
 670		val |= MCDE_CTRLX_FORMTYPE_DSI << MCDE_CTRLX_FORMTYPE_SHIFT;
 671		val |= MCDE_CTRLX_FORMID_DSI1VID << MCDE_CTRLX_FORMID_SHIFT;
 672		break;
 673	case MCDE_DSI_FORMATTER_3:
 674		val |= MCDE_CTRLX_FORMTYPE_DSI << MCDE_CTRLX_FORMTYPE_SHIFT;
 675		val |= MCDE_CTRLX_FORMID_DSI1CMD << MCDE_CTRLX_FORMID_SHIFT;
 676		break;
 677	case MCDE_DSI_FORMATTER_4:
 678		val |= MCDE_CTRLX_FORMTYPE_DSI << MCDE_CTRLX_FORMTYPE_SHIFT;
 679		val |= MCDE_CTRLX_FORMID_DSI2VID << MCDE_CTRLX_FORMID_SHIFT;
 680		break;
 681	case MCDE_DSI_FORMATTER_5:
 682		val |= MCDE_CTRLX_FORMTYPE_DSI << MCDE_CTRLX_FORMTYPE_SHIFT;
 683		val |= MCDE_CTRLX_FORMID_DSI2CMD << MCDE_CTRLX_FORMID_SHIFT;
 684		break;
 685	case MCDE_DPI_FORMATTER_0:
 686		val |= MCDE_CTRLX_FORMTYPE_DPITV << MCDE_CTRLX_FORMTYPE_SHIFT;
 687		val |= MCDE_CTRLX_FORMID_DPIA << MCDE_CTRLX_FORMID_SHIFT;
 688		break;
 689	case MCDE_DPI_FORMATTER_1:
 690		val |= MCDE_CTRLX_FORMTYPE_DPITV << MCDE_CTRLX_FORMTYPE_SHIFT;
 691		val |= MCDE_CTRLX_FORMID_DPIB << MCDE_CTRLX_FORMID_SHIFT;
 692		break;
 693	}
 694	writel(val, mcde->regs + ctrl);
 695
 696	/* Blend source with Alpha 0xff on FIFO */
 697	val = MCDE_CRX0_BLENDEN |
 698		0xff << MCDE_CRX0_ALPHABLEND_SHIFT;
 699	writel(val, mcde->regs + cr0);
 700
 701	spin_lock(&mcde->fifo_crx1_lock);
 702	val = readl(mcde->regs + cr1);
 703	/*
 704	 * Set-up from mcde_fmtr_dsi.c, fmtr_dsi_enable_video()
 705	 * FIXME: a different clock needs to be selected for TV out.
 706	 */
 707	if (mcde->dpi_output) {
 708		struct drm_connector *connector = drm_panel_bridge_connector(mcde->bridge);
 709		u32 bus_format;
 710
 711		/* Assume RGB888 24 bit if we have no further info */
 712		if (!connector->display_info.num_bus_formats) {
 713			dev_info(mcde->dev, "panel does not specify bus format, assume RGB888\n");
 714			bus_format = MEDIA_BUS_FMT_RGB888_1X24;
 715		} else {
 716			bus_format = connector->display_info.bus_formats[0];
 717		}
 718
 719		/*
 720		 * Set up the CDWIN and OUTBPP for the LCD
 721		 *
 722		 * FIXME: fill this in if you know the correspondance between the MIPI
 723		 * DPI specification and the media bus formats.
 724		 */
 725		val &= ~MCDE_CRX1_CDWIN_MASK;
 726		val &= ~MCDE_CRX1_OUTBPP_MASK;
 727		switch (bus_format) {
 728		case MEDIA_BUS_FMT_RGB888_1X24:
 729			val |= MCDE_CRX1_CDWIN_24BPP << MCDE_CRX1_CDWIN_SHIFT;
 730			val |= MCDE_CRX1_OUTBPP_24BPP << MCDE_CRX1_OUTBPP_SHIFT;
 731			break;
 732		default:
 733			dev_err(mcde->dev, "unknown bus format, assume RGB888\n");
 734			val |= MCDE_CRX1_CDWIN_24BPP << MCDE_CRX1_CDWIN_SHIFT;
 735			val |= MCDE_CRX1_OUTBPP_24BPP << MCDE_CRX1_OUTBPP_SHIFT;
 736			break;
 737		}
 738	} else {
 739		/* Use the MCDE clock for DSI */
 740		val &= ~MCDE_CRX1_CLKSEL_MASK;
 741		val |= MCDE_CRX1_CLKSEL_MCDECLK << MCDE_CRX1_CLKSEL_SHIFT;
 742	}
 743	writel(val, mcde->regs + cr1);
 744	spin_unlock(&mcde->fifo_crx1_lock);
 745};
 746
 747static void mcde_configure_dsi_formatter(struct mcde *mcde,
 748					 enum mcde_formatter fmt,
 749					 u32 formatter_frame,
 750					 int pkt_size)
 751{
 752	u32 val;
 753	u32 conf0;
 754	u32 frame;
 755	u32 pkt;
 756	u32 sync;
 757	u32 cmdw;
 758	u32 delay0, delay1;
 759
 760	switch (fmt) {
 761	case MCDE_DSI_FORMATTER_0:
 762		conf0 = MCDE_DSIVID0CONF0;
 763		frame = MCDE_DSIVID0FRAME;
 764		pkt = MCDE_DSIVID0PKT;
 765		sync = MCDE_DSIVID0SYNC;
 766		cmdw = MCDE_DSIVID0CMDW;
 767		delay0 = MCDE_DSIVID0DELAY0;
 768		delay1 = MCDE_DSIVID0DELAY1;
 769		break;
 770	case MCDE_DSI_FORMATTER_1:
 771		conf0 = MCDE_DSIVID1CONF0;
 772		frame = MCDE_DSIVID1FRAME;
 773		pkt = MCDE_DSIVID1PKT;
 774		sync = MCDE_DSIVID1SYNC;
 775		cmdw = MCDE_DSIVID1CMDW;
 776		delay0 = MCDE_DSIVID1DELAY0;
 777		delay1 = MCDE_DSIVID1DELAY1;
 778		break;
 779	case MCDE_DSI_FORMATTER_2:
 780		conf0 = MCDE_DSIVID2CONF0;
 781		frame = MCDE_DSIVID2FRAME;
 782		pkt = MCDE_DSIVID2PKT;
 783		sync = MCDE_DSIVID2SYNC;
 784		cmdw = MCDE_DSIVID2CMDW;
 785		delay0 = MCDE_DSIVID2DELAY0;
 786		delay1 = MCDE_DSIVID2DELAY1;
 787		break;
 788	default:
 789		dev_err(mcde->dev, "tried to configure a non-DSI formatter as DSI\n");
 790		return;
 791	}
 792
 793	/*
 794	 * Enable formatter
 795	 * 8 bit commands and DCS commands (notgen = not generic)
 796	 */
 797	val = MCDE_DSICONF0_CMD8 | MCDE_DSICONF0_DCSVID_NOTGEN;
 798	if (mcde->mdsi->mode_flags & MIPI_DSI_MODE_VIDEO)
 799		val |= MCDE_DSICONF0_VID_MODE_VID;
 800	switch (mcde->mdsi->format) {
 801	case MIPI_DSI_FMT_RGB888:
 802		val |= MCDE_DSICONF0_PACKING_RGB888 <<
 803			MCDE_DSICONF0_PACKING_SHIFT;
 804		break;
 805	case MIPI_DSI_FMT_RGB666:
 806		val |= MCDE_DSICONF0_PACKING_RGB666 <<
 807			MCDE_DSICONF0_PACKING_SHIFT;
 808		break;
 809	case MIPI_DSI_FMT_RGB666_PACKED:
 810		dev_err(mcde->dev,
 811			"we cannot handle the packed RGB666 format\n");
 812		val |= MCDE_DSICONF0_PACKING_RGB666 <<
 813			MCDE_DSICONF0_PACKING_SHIFT;
 814		break;
 815	case MIPI_DSI_FMT_RGB565:
 816		val |= MCDE_DSICONF0_PACKING_RGB565 <<
 817			MCDE_DSICONF0_PACKING_SHIFT;
 818		break;
 819	default:
 820		dev_err(mcde->dev, "unknown DSI format\n");
 821		return;
 822	}
 823	writel(val, mcde->regs + conf0);
 824
 825	writel(formatter_frame, mcde->regs + frame);
 826	writel(pkt_size, mcde->regs + pkt);
 827	writel(0, mcde->regs + sync);
 828	/* Define the MIPI command: we want to write into display memory */
 829	val = MIPI_DCS_WRITE_MEMORY_CONTINUE <<
 830		MCDE_DSIVIDXCMDW_CMDW_CONTINUE_SHIFT;
 831	val |= MIPI_DCS_WRITE_MEMORY_START <<
 832		MCDE_DSIVIDXCMDW_CMDW_START_SHIFT;
 833	writel(val, mcde->regs + cmdw);
 834
 835	/*
 836	 * FIXME: the vendor driver has some hack around this value in
 837	 * CMD mode with autotrig.
 838	 */
 839	writel(0, mcde->regs + delay0);
 840	writel(0, mcde->regs + delay1);
 841}
 842
 843static void mcde_enable_fifo(struct mcde *mcde, enum mcde_fifo fifo)
 844{
 845	u32 val;
 846	u32 cr;
 847
 848	switch (fifo) {
 849	case MCDE_FIFO_A:
 850		cr = MCDE_CRA0;
 851		break;
 852	case MCDE_FIFO_B:
 853		cr = MCDE_CRB0;
 854		break;
 855	default:
 856		dev_err(mcde->dev, "cannot enable FIFO %c\n",
 857			'A' + fifo);
 858		return;
 859	}
 860
 861	spin_lock(&mcde->flow_lock);
 862	val = readl(mcde->regs + cr);
 863	val |= MCDE_CRX0_FLOEN;
 864	writel(val, mcde->regs + cr);
 865	mcde->flow_active++;
 866	spin_unlock(&mcde->flow_lock);
 867}
 868
 869static void mcde_disable_fifo(struct mcde *mcde, enum mcde_fifo fifo,
 870			      bool wait_for_drain)
 871{
 872	int timeout = 100;
 873	u32 val;
 874	u32 cr;
 875
 876	switch (fifo) {
 877	case MCDE_FIFO_A:
 878		cr = MCDE_CRA0;
 879		break;
 880	case MCDE_FIFO_B:
 881		cr = MCDE_CRB0;
 882		break;
 883	default:
 884		dev_err(mcde->dev, "cannot disable FIFO %c\n",
 885			'A' + fifo);
 886		return;
 887	}
 888
 889	spin_lock(&mcde->flow_lock);
 890	val = readl(mcde->regs + cr);
 891	val &= ~MCDE_CRX0_FLOEN;
 892	writel(val, mcde->regs + cr);
 893	mcde->flow_active = 0;
 894	spin_unlock(&mcde->flow_lock);
 895
 896	if (!wait_for_drain)
 897		return;
 898
 899	/* Check that we really drained and stopped the flow */
 900	while (readl(mcde->regs + cr) & MCDE_CRX0_FLOEN) {
 901		usleep_range(1000, 1500);
 902		if (!--timeout) {
 903			dev_err(mcde->dev,
 904				"FIFO timeout while clearing FIFO %c\n",
 905				'A' + fifo);
 906			return;
 907		}
 908	}
 909}
 910
 911/*
 912 * This drains a pipe i.e. a FIFO connected to a certain channel
 913 */
 914static void mcde_drain_pipe(struct mcde *mcde, enum mcde_fifo fifo,
 915			    enum mcde_channel ch)
 916{
 917	u32 val;
 918	u32 ctrl;
 919	u32 synsw;
 920
 921	switch (fifo) {
 922	case MCDE_FIFO_A:
 923		ctrl = MCDE_CTRLA;
 924		break;
 925	case MCDE_FIFO_B:
 926		ctrl = MCDE_CTRLB;
 927		break;
 928	}
 929
 930	switch (ch) {
 931	case MCDE_CHANNEL_0:
 932		synsw = MCDE_CHNL0SYNCHSW;
 933		break;
 934	case MCDE_CHANNEL_1:
 935		synsw = MCDE_CHNL1SYNCHSW;
 936		break;
 937	case MCDE_CHANNEL_2:
 938		synsw = MCDE_CHNL2SYNCHSW;
 939		break;
 940	case MCDE_CHANNEL_3:
 941		synsw = MCDE_CHNL3SYNCHSW;
 942		return;
 943	}
 944
 945	val = readl(mcde->regs + ctrl);
 946	if (!(val & MCDE_CTRLX_FIFOEMPTY)) {
 947		dev_err(mcde->dev, "Channel A FIFO not empty (handover)\n");
 948		/* Attempt to clear the FIFO */
 949		mcde_enable_fifo(mcde, fifo);
 950		/* Trigger a software sync out on respective channel (0-3) */
 951		writel(MCDE_CHNLXSYNCHSW_SW_TRIG, mcde->regs + synsw);
 952		/* Disable FIFO A flow again */
 953		mcde_disable_fifo(mcde, fifo, true);
 954	}
 955}
 956
 957static int mcde_dsi_get_pkt_div(int ppl, int fifo_size)
 958{
 959	/*
 960	 * DSI command mode line packets should be split into an even number of
 961	 * packets smaller than or equal to the fifo size.
 962	 */
 963	int div;
 964	const int max_div = DIV_ROUND_UP(MCDE_MAX_WIDTH, fifo_size);
 965
 966	for (div = 1; div < max_div; div++)
 967		if (ppl % div == 0 && ppl / div <= fifo_size)
 968			return div;
 969	return 1;
 970}
 971
 972static void mcde_setup_dpi(struct mcde *mcde, const struct drm_display_mode *mode,
 973			   int *fifo_wtrmrk_lvl)
 974{
 975	struct drm_connector *connector = drm_panel_bridge_connector(mcde->bridge);
 976	u32 hsw, hfp, hbp;
 977	u32 vsw, vfp, vbp;
 978	u32 val;
 979
 980	/* FIXME: we only support LCD, implement TV out */
 981	hsw = mode->hsync_end - mode->hsync_start;
 982	hfp = mode->hsync_start - mode->hdisplay;
 983	hbp = mode->htotal - mode->hsync_end;
 984	vsw = mode->vsync_end - mode->vsync_start;
 985	vfp = mode->vsync_start - mode->vdisplay;
 986	vbp = mode->vtotal - mode->vsync_end;
 987
 988	dev_info(mcde->dev, "output on DPI LCD from channel A\n");
 989	/* Display actual values */
 990	dev_info(mcde->dev, "HSW: %d, HFP: %d, HBP: %d, VSW: %d, VFP: %d, VBP: %d\n",
 991		 hsw, hfp, hbp, vsw, vfp, vbp);
 992
 993	/*
 994	 * The pixel fetcher is 128 64-bit words deep = 1024 bytes.
 995	 * One overlay of 32bpp (4 cpp) assumed, fetch 160 pixels.
 996	 * 160 * 4 = 640 bytes.
 997	 */
 998	*fifo_wtrmrk_lvl = 640;
 999
1000	/* Set up the main control, watermark level at 7 */
1001	val = 7 << MCDE_CONF0_IFIFOCTRLWTRMRKLVL_SHIFT;
1002
1003	/*
1004	 * This sets up the internal silicon muxing of the DPI
1005	 * lines. This is how the silicon connects out to the
1006	 * external pins, then the pins need to be further
1007	 * configured into "alternate functions" using pin control
1008	 * to actually get the signals out.
1009	 *
1010	 * FIXME: this is hardcoded to the only setting found in
1011	 * the wild. If we need to use different settings for
1012	 * different DPI displays, make this parameterizable from
1013	 * the device tree.
1014	 */
1015	/* 24 bits DPI: connect Ch A LSB to D[0:7] */
1016	val |= 0 << MCDE_CONF0_OUTMUX0_SHIFT;
1017	/* 24 bits DPI: connect Ch A MID to D[8:15] */
1018	val |= 1 << MCDE_CONF0_OUTMUX1_SHIFT;
1019	/* Don't care about this muxing */
1020	val |= 0 << MCDE_CONF0_OUTMUX2_SHIFT;
1021	/* Don't care about this muxing */
1022	val |= 0 << MCDE_CONF0_OUTMUX3_SHIFT;
1023	/* 24 bits DPI: connect Ch A MSB to D[32:39] */
1024	val |= 2 << MCDE_CONF0_OUTMUX4_SHIFT;
1025	/* Syncmux bits zero: DPI channel A */
1026	writel(val, mcde->regs + MCDE_CONF0);
1027
1028	/* This hammers us into LCD mode */
1029	writel(0, mcde->regs + MCDE_TVCRA);
1030
1031	/* Front porch and sync width */
1032	val = (vsw << MCDE_TVBL1_BEL1_SHIFT);
1033	val |= (vfp << MCDE_TVBL1_BSL1_SHIFT);
1034	writel(val, mcde->regs + MCDE_TVBL1A);
1035	/* The vendor driver sets the same value into TVBL2A */
1036	writel(val, mcde->regs + MCDE_TVBL2A);
1037
1038	/* Vertical back porch */
1039	val = (vbp << MCDE_TVDVO_DVO1_SHIFT);
1040	/* The vendor drivers sets the same value into TVDVOA */
1041	val |= (vbp << MCDE_TVDVO_DVO2_SHIFT);
1042	writel(val, mcde->regs + MCDE_TVDVOA);
1043
1044	/* Horizontal back porch, as 0 = 1 cycle we need to subtract 1 */
1045	writel((hbp - 1), mcde->regs + MCDE_TVTIM1A);
1046
1047	/* Horizongal sync width and horizonal front porch, 0 = 1 cycle */
1048	val = ((hsw - 1) << MCDE_TVLBALW_LBW_SHIFT);
1049	val |= ((hfp - 1) << MCDE_TVLBALW_ALW_SHIFT);
1050	writel(val, mcde->regs + MCDE_TVLBALWA);
1051
1052	/* Blank some TV registers we don't use */
1053	writel(0, mcde->regs + MCDE_TVISLA);
1054	writel(0, mcde->regs + MCDE_TVBLUA);
1055
1056	/* Set up sync inversion etc */
1057	val = 0;
1058	if (mode->flags & DRM_MODE_FLAG_NHSYNC)
1059		val |= MCDE_LCDTIM1B_IHS;
1060	if (mode->flags & DRM_MODE_FLAG_NVSYNC)
1061		val |= MCDE_LCDTIM1B_IVS;
1062	if (connector->display_info.bus_flags & DRM_BUS_FLAG_DE_LOW)
1063		val |= MCDE_LCDTIM1B_IOE;
1064	if (connector->display_info.bus_flags & DRM_BUS_FLAG_PIXDATA_DRIVE_NEGEDGE)
1065		val |= MCDE_LCDTIM1B_IPC;
1066	writel(val, mcde->regs + MCDE_LCDTIM1A);
1067}
1068
1069static void mcde_setup_dsi(struct mcde *mcde, const struct drm_display_mode *mode,
1070			   int cpp, int *fifo_wtrmrk_lvl, int *dsi_formatter_frame,
1071			   int *dsi_pkt_size)
1072{
 
 
 
 
 
 
 
1073	u32 formatter_ppl = mode->hdisplay; /* pixels per line */
1074	u32 formatter_lpf = mode->vdisplay; /* lines per frame */
1075	int formatter_frame;
 
1076	int formatter_cpp;
1077	int fifo_wtrmrk;
 
1078	u32 pkt_div;
1079	int pkt_size;
1080	u32 val;
1081
1082	dev_info(mcde->dev, "output in %s mode, format %dbpp\n",
 
 
 
 
 
 
 
 
 
1083		 (mcde->mdsi->mode_flags & MIPI_DSI_MODE_VIDEO) ?
1084		 "VIDEO" : "CMD",
1085		 mipi_dsi_pixel_format_to_bpp(mcde->mdsi->format));
1086	formatter_cpp =
1087		mipi_dsi_pixel_format_to_bpp(mcde->mdsi->format) / 8;
1088	dev_info(mcde->dev, "Overlay CPP: %d bytes, DSI formatter CPP %d bytes\n",
1089		 cpp, formatter_cpp);
1090
1091	/* Set up the main control, watermark level at 7 */
1092	val = 7 << MCDE_CONF0_IFIFOCTRLWTRMRKLVL_SHIFT;
1093
1094	/*
1095	 * This is the internal silicon muxing of the DPI
1096	 * (parallell display) lines. Since we are not using
1097	 * this at all (we are using DSI) these are just
1098	 * dummy values from the vendor tree.
1099	 */
1100	val |= 3 << MCDE_CONF0_OUTMUX0_SHIFT;
1101	val |= 3 << MCDE_CONF0_OUTMUX1_SHIFT;
1102	val |= 0 << MCDE_CONF0_OUTMUX2_SHIFT;
1103	val |= 4 << MCDE_CONF0_OUTMUX3_SHIFT;
1104	val |= 5 << MCDE_CONF0_OUTMUX4_SHIFT;
1105	writel(val, mcde->regs + MCDE_CONF0);
1106
1107	/* Calculations from mcde_fmtr_dsi.c, fmtr_dsi_enable_video() */
1108
1109	/*
1110	 * Set up FIFO A watermark level:
1111	 * 128 for LCD 32bpp video mode
1112	 * 48  for LCD 32bpp command mode
1113	 * 128 for LCD 16bpp video mode
1114	 * 64  for LCD 16bpp command mode
1115	 * 128 for HDMI 32bpp
1116	 * 192 for HDMI 16bpp
1117	 */
1118	fifo_wtrmrk = mode->hdisplay;
1119	if (mcde->mdsi->mode_flags & MIPI_DSI_MODE_VIDEO) {
1120		fifo_wtrmrk = min(fifo_wtrmrk, 128);
1121		pkt_div = 1;
1122	} else {
1123		fifo_wtrmrk = min(fifo_wtrmrk, 48);
1124		/* The FIFO is 640 entries deep on this v3 hardware */
1125		pkt_div = mcde_dsi_get_pkt_div(mode->hdisplay, 640);
1126	}
1127	dev_dbg(mcde->dev, "FIFO watermark after flooring: %d bytes\n",
1128		fifo_wtrmrk);
1129	dev_dbg(mcde->dev, "Packet divisor: %d bytes\n", pkt_div);
1130
1131	/* NOTE: pkt_div is 1 for video mode */
1132	pkt_size = (formatter_ppl * formatter_cpp) / pkt_div;
1133	/* Commands CMD8 need one extra byte */
1134	if (!(mcde->mdsi->mode_flags & MIPI_DSI_MODE_VIDEO))
1135		pkt_size++;
1136
1137	dev_dbg(mcde->dev, "DSI packet size: %d * %d bytes per line\n",
1138		pkt_size, pkt_div);
1139	dev_dbg(mcde->dev, "Overlay frame size: %u bytes\n",
1140		mode->hdisplay * mode->vdisplay * cpp);
1141	/* NOTE: pkt_div is 1 for video mode */
1142	formatter_frame = pkt_size * pkt_div * formatter_lpf;
1143	dev_dbg(mcde->dev, "Formatter frame size: %u bytes\n", formatter_frame);
1144
1145	*fifo_wtrmrk_lvl = fifo_wtrmrk;
1146	*dsi_pkt_size = pkt_size;
1147	*dsi_formatter_frame = formatter_frame;
1148}
1149
1150static void mcde_display_enable(struct drm_simple_display_pipe *pipe,
1151				struct drm_crtc_state *cstate,
1152				struct drm_plane_state *plane_state)
1153{
1154	struct drm_crtc *crtc = &pipe->crtc;
1155	struct drm_plane *plane = &pipe->plane;
1156	struct drm_device *drm = crtc->dev;
1157	struct mcde *mcde = to_mcde(drm);
1158	const struct drm_display_mode *mode = &cstate->mode;
1159	struct drm_framebuffer *fb = plane->state->fb;
1160	u32 format = fb->format->format;
1161	int dsi_pkt_size;
1162	int fifo_wtrmrk;
1163	int cpp = fb->format->cpp[0];
1164	u32 dsi_formatter_frame;
1165	u32 val;
1166	int ret;
1167
1168	/* This powers up the entire MCDE block and the DSI hardware */
1169	ret = regulator_enable(mcde->epod);
1170	if (ret) {
1171		dev_err(drm->dev, "can't re-enable EPOD regulator\n");
1172		return;
1173	}
1174
1175	dev_info(drm->dev, "enable MCDE, %d x %d format %p4cc\n",
1176		 mode->hdisplay, mode->vdisplay, &format);
1177
1178
1179	/* Clear any pending interrupts */
1180	mcde_display_disable_irqs(mcde);
1181	writel(0, mcde->regs + MCDE_IMSCERR);
1182	writel(0xFFFFFFFF, mcde->regs + MCDE_RISERR);
1183
1184	if (mcde->dpi_output)
1185		mcde_setup_dpi(mcde, mode, &fifo_wtrmrk);
1186	else
1187		mcde_setup_dsi(mcde, mode, cpp, &fifo_wtrmrk,
1188			       &dsi_formatter_frame, &dsi_pkt_size);
1189
1190	mcde->stride = mode->hdisplay * cpp;
1191	dev_dbg(drm->dev, "Overlay line stride: %u bytes\n",
1192		 mcde->stride);
 
 
 
1193
1194	/* Drain the FIFO A + channel 0 pipe so we have a clean slate */
1195	mcde_drain_pipe(mcde, MCDE_FIFO_A, MCDE_CHANNEL_0);
1196
1197	/*
1198	 * We set up our display pipeline:
1199	 * EXTSRC 0 -> OVERLAY 0 -> CHANNEL 0 -> FIFO A -> DSI FORMATTER 0
1200	 *
1201	 * First configure the external source (memory) on external source 0
1202	 * using the desired bitstream/bitmap format
1203	 */
1204	mcde_configure_extsrc(mcde, MCDE_EXTSRC_0, format);
1205
1206	/*
1207	 * Configure overlay 0 according to format and mode and take input
1208	 * from external source 0 and route the output of this overlay to
1209	 * channel 0
1210	 */
1211	mcde_configure_overlay(mcde, MCDE_OVERLAY_0, MCDE_EXTSRC_0,
1212			       MCDE_CHANNEL_0, mode, format, cpp);
1213
1214	/*
1215	 * Configure pixel-per-line and line-per-frame for channel 0 and then
1216	 * route channel 0 to FIFO A
1217	 */
1218	mcde_configure_channel(mcde, MCDE_CHANNEL_0, MCDE_FIFO_A, mode);
1219
1220	if (mcde->dpi_output) {
1221		unsigned long lcd_freq;
1222
1223		/* Configure FIFO A to use DPI formatter 0 */
1224		mcde_configure_fifo(mcde, MCDE_FIFO_A, MCDE_DPI_FORMATTER_0,
1225				    fifo_wtrmrk);
1226
1227		/* Set up and enable the LCD clock */
1228		lcd_freq = clk_round_rate(mcde->fifoa_clk, mode->clock * 1000);
1229		ret = clk_set_rate(mcde->fifoa_clk, lcd_freq);
1230		if (ret)
1231			dev_err(mcde->dev, "failed to set LCD clock rate %lu Hz\n",
1232				lcd_freq);
1233		ret = clk_prepare_enable(mcde->fifoa_clk);
1234		if (ret) {
1235			dev_err(mcde->dev, "failed to enable FIFO A DPI clock\n");
1236			return;
1237		}
1238		dev_info(mcde->dev, "LCD FIFO A clk rate %lu Hz\n",
1239			 clk_get_rate(mcde->fifoa_clk));
1240	} else {
1241		/* Configure FIFO A to use DSI formatter 0 */
1242		mcde_configure_fifo(mcde, MCDE_FIFO_A, MCDE_DSI_FORMATTER_0,
1243				    fifo_wtrmrk);
1244
1245		/*
1246		 * This brings up the DSI bridge which is tightly connected
1247		 * to the MCDE DSI formatter.
1248		 */
1249		mcde_dsi_enable(mcde->bridge);
1250
1251		/* Configure the DSI formatter 0 for the DSI panel output */
1252		mcde_configure_dsi_formatter(mcde, MCDE_DSI_FORMATTER_0,
1253					     dsi_formatter_frame, dsi_pkt_size);
1254	}
1255
1256	switch (mcde->flow_mode) {
1257	case MCDE_COMMAND_TE_FLOW:
1258	case MCDE_COMMAND_BTA_TE_FLOW:
1259	case MCDE_VIDEO_TE_FLOW:
1260		/* We are using TE in some combination */
1261		if (mode->flags & DRM_MODE_FLAG_NVSYNC)
1262			val = MCDE_VSCRC_VSPOL;
1263		else
1264			val = 0;
1265		writel(val, mcde->regs + MCDE_VSCRC0);
1266		/* Enable VSYNC capture on TE0 */
1267		val = readl(mcde->regs + MCDE_CRC);
1268		val |= MCDE_CRC_SYCEN0;
1269		writel(val, mcde->regs + MCDE_CRC);
1270		break;
1271	default:
1272		/* No TE capture */
1273		break;
1274	}
1275
1276	drm_crtc_vblank_on(crtc);
1277
1278	/*
1279	 * If we're using oneshot mode we don't start the flow
1280	 * until each time the display is given an update, and
1281	 * then we disable it immediately after. For all other
1282	 * modes (command or video) we start the FIFO flow
1283	 * right here. This is necessary for the hardware to
1284	 * behave right.
1285	 */
1286	if (mcde->flow_mode != MCDE_COMMAND_ONESHOT_FLOW) {
1287		mcde_enable_fifo(mcde, MCDE_FIFO_A);
1288		dev_dbg(mcde->dev, "started MCDE video FIFO flow\n");
1289	}
1290
1291	/* Enable MCDE with automatic clock gating */
1292	val = readl(mcde->regs + MCDE_CR);
1293	val |= MCDE_CR_MCDEEN | MCDE_CR_AUTOCLKG_EN;
1294	writel(val, mcde->regs + MCDE_CR);
1295
1296	dev_info(drm->dev, "MCDE display is enabled\n");
1297}
1298
1299static void mcde_display_disable(struct drm_simple_display_pipe *pipe)
1300{
1301	struct drm_crtc *crtc = &pipe->crtc;
1302	struct drm_device *drm = crtc->dev;
1303	struct mcde *mcde = to_mcde(drm);
1304	struct drm_pending_vblank_event *event;
1305	int ret;
1306
1307	drm_crtc_vblank_off(crtc);
 
1308
1309	/* Disable FIFO A flow */
1310	mcde_disable_fifo(mcde, MCDE_FIFO_A, true);
1311
1312	if (mcde->dpi_output) {
1313		clk_disable_unprepare(mcde->fifoa_clk);
1314	} else {
1315		/* This disables the DSI bridge */
1316		mcde_dsi_disable(mcde->bridge);
1317	}
1318
1319	event = crtc->state->event;
1320	if (event) {
1321		crtc->state->event = NULL;
1322
1323		spin_lock_irq(&crtc->dev->event_lock);
1324		drm_crtc_send_vblank_event(crtc, event);
1325		spin_unlock_irq(&crtc->dev->event_lock);
1326	}
1327
1328	ret = regulator_disable(mcde->epod);
1329	if (ret)
1330		dev_err(drm->dev, "can't disable EPOD regulator\n");
1331	/* Make sure we are powered down (before we may power up again) */
1332	usleep_range(50000, 70000);
1333
1334	dev_info(drm->dev, "MCDE display is disabled\n");
1335}
1336
1337static void mcde_start_flow(struct mcde *mcde)
1338{
1339	/* Request a TE ACK only in TE+BTA mode */
1340	if (mcde->flow_mode == MCDE_COMMAND_BTA_TE_FLOW)
1341		mcde_dsi_te_request(mcde->mdsi);
1342
1343	/* Enable FIFO A flow */
1344	mcde_enable_fifo(mcde, MCDE_FIFO_A);
1345
1346	/*
1347	 * If oneshot mode is enabled, the flow will be disabled
1348	 * when the TE0 IRQ arrives in the interrupt handler. Otherwise
1349	 * updates are continuously streamed to the display after this
1350	 * point.
1351	 */
1352
1353	if (mcde->flow_mode == MCDE_COMMAND_ONESHOT_FLOW) {
1354		/* Trigger a software sync out on channel 0 */
1355		writel(MCDE_CHNLXSYNCHSW_SW_TRIG,
1356		       mcde->regs + MCDE_CHNL0SYNCHSW);
1357
1358		/*
1359		 * Disable FIFO A flow again: since we are using TE sync we
1360		 * need to wait for the FIFO to drain before we continue
1361		 * so repeated calls to this function will not cause a mess
1362		 * in the hardware by pushing updates will updates are going
1363		 * on already.
1364		 */
1365		mcde_disable_fifo(mcde, MCDE_FIFO_A, true);
 
1366	}
1367
1368	dev_dbg(mcde->dev, "started MCDE FIFO flow\n");
 
 
 
 
 
 
 
 
 
 
 
 
 
1369}
1370
1371static void mcde_set_extsrc(struct mcde *mcde, u32 buffer_address)
1372{
1373	/* Write bitmap base address to register */
1374	writel(buffer_address, mcde->regs + MCDE_EXTSRCXA0);
1375	/*
1376	 * Base address for next line this is probably only used
1377	 * in interlace modes.
1378	 */
1379	writel(buffer_address + mcde->stride, mcde->regs + MCDE_EXTSRCXA1);
1380}
1381
1382static void mcde_display_update(struct drm_simple_display_pipe *pipe,
1383				struct drm_plane_state *old_pstate)
1384{
1385	struct drm_crtc *crtc = &pipe->crtc;
1386	struct drm_device *drm = crtc->dev;
1387	struct mcde *mcde = to_mcde(drm);
1388	struct drm_pending_vblank_event *event = crtc->state->event;
1389	struct drm_plane *plane = &pipe->plane;
1390	struct drm_plane_state *pstate = plane->state;
1391	struct drm_framebuffer *fb = pstate->fb;
1392
1393	/*
1394	 * Handle any pending event first, we need to arm the vblank
1395	 * interrupt before sending any update to the display so we don't
1396	 * miss the interrupt.
1397	 */
1398	if (event) {
1399		crtc->state->event = NULL;
1400
1401		spin_lock_irq(&crtc->dev->event_lock);
1402		/*
1403		 * Hardware must be on before we can arm any vblank event,
1404		 * this is not a scanout controller where there is always
1405		 * some periodic update going on, it is completely frozen
1406		 * until we get an update. If MCDE output isn't yet enabled,
1407		 * we just send a vblank dummy event back.
1408		 */
1409		if (crtc->state->active && drm_crtc_vblank_get(crtc) == 0) {
1410			dev_dbg(mcde->dev, "arm vblank event\n");
1411			drm_crtc_arm_vblank_event(crtc, event);
1412		} else {
1413			dev_dbg(mcde->dev, "insert fake vblank event\n");
1414			drm_crtc_send_vblank_event(crtc, event);
1415		}
1416
1417		spin_unlock_irq(&crtc->dev->event_lock);
1418	}
1419
1420	/*
1421	 * We do not start sending framebuffer updates before the
1422	 * display is enabled. Update events will however be dispatched
1423	 * from the DRM core before the display is enabled.
1424	 */
1425	if (fb) {
1426		mcde_set_extsrc(mcde, drm_fb_cma_get_gem_addr(fb, pstate, 0));
1427		dev_info_once(mcde->dev, "first update of display contents\n");
1428		/*
1429		 * Usually the flow is already active, unless we are in
1430		 * oneshot mode, then we need to kick the flow right here.
1431		 */
1432		if (mcde->flow_active == 0)
1433			mcde_start_flow(mcde);
1434	} else {
1435		/*
1436		 * If an update is receieved before the MCDE is enabled
1437		 * (before mcde_display_enable() is called) we can't really
1438		 * do much with that buffer.
1439		 */
1440		dev_info(mcde->dev, "ignored a display update\n");
1441	}
1442}
1443
1444static int mcde_display_enable_vblank(struct drm_simple_display_pipe *pipe)
1445{
1446	struct drm_crtc *crtc = &pipe->crtc;
1447	struct drm_device *drm = crtc->dev;
1448	struct mcde *mcde = to_mcde(drm);
1449	u32 val;
1450
1451	/* Enable all VBLANK IRQs */
1452	val = MCDE_PP_VCMPA |
1453		MCDE_PP_VCMPB |
1454		MCDE_PP_VSCC0 |
1455		MCDE_PP_VSCC1 |
1456		MCDE_PP_VCMPC0 |
1457		MCDE_PP_VCMPC1;
1458	writel(val, mcde->regs + MCDE_IMSCPP);
1459
1460	return 0;
1461}
1462
1463static void mcde_display_disable_vblank(struct drm_simple_display_pipe *pipe)
1464{
1465	struct drm_crtc *crtc = &pipe->crtc;
1466	struct drm_device *drm = crtc->dev;
1467	struct mcde *mcde = to_mcde(drm);
1468
1469	/* Disable all VBLANK IRQs */
1470	writel(0, mcde->regs + MCDE_IMSCPP);
1471	/* Clear any pending IRQs */
1472	writel(0xFFFFFFFF, mcde->regs + MCDE_RISPP);
1473}
1474
1475static struct drm_simple_display_pipe_funcs mcde_display_funcs = {
1476	.check = mcde_display_check,
1477	.enable = mcde_display_enable,
1478	.disable = mcde_display_disable,
1479	.update = mcde_display_update,
1480	.enable_vblank = mcde_display_enable_vblank,
1481	.disable_vblank = mcde_display_disable_vblank,
1482	.prepare_fb = drm_gem_simple_display_pipe_prepare_fb,
1483};
1484
1485int mcde_display_init(struct drm_device *drm)
1486{
1487	struct mcde *mcde = to_mcde(drm);
1488	int ret;
1489	static const u32 formats[] = {
1490		DRM_FORMAT_ARGB8888,
1491		DRM_FORMAT_ABGR8888,
1492		DRM_FORMAT_XRGB8888,
1493		DRM_FORMAT_XBGR8888,
1494		DRM_FORMAT_RGB888,
1495		DRM_FORMAT_BGR888,
1496		DRM_FORMAT_ARGB4444,
1497		DRM_FORMAT_ABGR4444,
1498		DRM_FORMAT_XRGB4444,
1499		DRM_FORMAT_XBGR4444,
1500		/* These are actually IRGB1555 so intensity bit is lost */
1501		DRM_FORMAT_XRGB1555,
1502		DRM_FORMAT_XBGR1555,
1503		DRM_FORMAT_RGB565,
1504		DRM_FORMAT_BGR565,
1505		DRM_FORMAT_YUV422,
1506	};
1507
1508	ret = mcde_init_clock_divider(mcde);
1509	if (ret)
1510		return ret;
 
 
1511
1512	ret = drm_simple_display_pipe_init(drm, &mcde->pipe,
1513					   &mcde_display_funcs,
1514					   formats, ARRAY_SIZE(formats),
1515					   NULL,
1516					   mcde->connector);
1517	if (ret)
1518		return ret;
1519
1520	return 0;
1521}
1522EXPORT_SYMBOL_GPL(mcde_display_init);