| blob | bb6528b01cd07e0c42432a739a8ccc2c8e781d46 |
1 // SPDX-License-Identifier: GPL-2.0+
2 #include <linux/clk.h>
3 #include <linux/component.h>
4 #include <linux/delay.h>
5 #include <linux/io.h>
6 #include <linux/mfd/syscon.h>
7 #include <linux/module.h>
8 #include <linux/of.h>
9 #include <linux/platform_device.h>
10 #include <linux/regmap.h>
11 #include <linux/regulator/consumer.h>
12 #include <video/mipi_display.h>
14 #include <drm/drm_atomic_helper.h>
15 #include <drm/drm_bridge.h>
16 #include <drm/drm_device.h>
17 #include <drm/drm_drv.h>
18 #include <drm/drm_encoder.h>
19 #include <drm/drm_mipi_dsi.h>
20 #include <drm/drm_modeset_helper_vtables.h>
21 #include <drm/drm_of.h>
22 #include <drm/drm_panel.h>
23 #include <drm/drm_print.h>
24 #include <drm/drm_probe_helper.h>
29 #define DSI_DEFAULT_LP_FREQ_HZ 19200000
30 #define DSI_DEFAULT_HS_FREQ_HZ 420160000
32 /* PRCMU DSI reset registers */
33 #define PRCM_DSI_SW_RESET 0x324
34 #define PRCM_DSI_SW_RESET_DSI0_SW_RESETN BIT(0)
35 #define PRCM_DSI_SW_RESET_DSI1_SW_RESETN BIT(1)
36 #define PRCM_DSI_SW_RESET_DSI2_SW_RESETN BIT(2)
54 };
57 {
59 }
62 {
64 }
67 {
69 u32 val;
84 }
89 /* Mask off the ACK value and clear status */
96 /* This happens all the time (safe to ignore) */
99 /* This happens all the time (safe to ignore) */
135 DSI_VID_MODE_STS_ERR_LINEWRITE |
136 DSI_VID_MODE_STS_ERR_LONGREAD))
145 }
148 {
152 /* Enable use of the TE signal for all command mode panels */
154 }
158 {
164 }
167 /* MIPI_DSI_FMT_RGB88 etc */
177 }
181 {
189 }
191 #define MCDE_DSI_HOST_IS_READ(type) \
192 ((type == MIPI_DSI_GENERIC_READ_REQUEST_0_PARAM) || \
193 (type == MIPI_DSI_GENERIC_READ_REQUEST_1_PARAM) || \
194 (type == MIPI_DSI_GENERIC_READ_REQUEST_2_PARAM) || \
195 (type == MIPI_DSI_DCS_READ))
199 {
203 u32 loop_counter;
206 u32 val;
214 }
219 }
225 /* Command "nature" */
227 /* MCTL_MAIN_DATA_CTL already set up */
229 else
231 /*
232 * More than 2 bytes will not fit in a single packet, so it's
233 * time to set the "long not short" bit. One byte is used by
234 * the MIPI DCS command leaving just one byte for the payload
235 * in a short package.
236 */
245 /* MIPI DCS command is part of the data */
250 }
257 }
263 }
269 }
273 /* Send command */
278 /* Read command */
281 DSI_DIRECT_CMD_STS_READ_COMPLETED_WITH_ERR))
287 }
289 /* Writing only */
291 DSI_DIRECT_CMD_STS_WRITE_COMPLETED)
298 }
299 }
306 }
310 val);
312 }
315 /* Return number of bytes written */
318 /* OK this is a read command, get the response */
319 u32 rdsz;
320 u32 rddat;
330 }
331 /* FIXME: read more than 4 bytes */
335 }
341 }
347 };
349 /* This sends a direct (short) command to request TE */
351 {
353 u32 val;
357 /* Command "nature" TE request */
363 DSI_DIRECT_CMD_MAIN_SETTINGS_CMD_HEAD_SHIFT;
366 /* Clear TE reveived and error status bits and enables them */
368 DSI_DIRECT_CMD_STS_CLR_ACKNOWLEDGE_WITH_ERR_RECEIVED_CLR,
375 /* Clear and enable no TE or TE missing status */
377 DSI_CMD_MODE_STS_CLR_ERR_TE_MISS_CLR,
384 /* Send this TE request command */
386 }
390 {
391 /* cpp, characters per pixel, number of bytes per pixel */
393 u64 pclk;
394 u64 bpl;
399 u32 val;
407 }
408 /* RGB header and pixel mode */
412 DSI_VID_MAIN_CTL_HEADER_SHIFT;
417 DSI_VID_MAIN_CTL_HEADER_SHIFT;
421 val |= MIPI_DSI_PIXEL_STREAM_3BYTE_18
427 DSI_VID_MAIN_CTL_HEADER_SHIFT;
433 }
435 /* TODO: TVG (test video generator) could be enabled here */
437 /*
438 * During vertical blanking: go to LP mode
439 * Like with the EOL setting, if this is not set, the EOL area will be
440 * filled with NULL or blanking packets in the vblank area.
441 * FIXME: some Samsung phones and display panels such as s6e63m0 use
442 * DSI_VID_MAIN_CTL_REG_BLKLINE_MODE_BLANKING here instead,
443 * figure out how to properly configure that from the panel.
444 */
446 /*
447 * During EOL: go to LP mode. If this is not set, the EOL area will be
448 * filled with NULL or blanking packets.
449 */
451 /* Recovery mode 1 */
453 /* All other fields zero */
456 /* Vertical frame parameters are pretty straight-forward */
458 /* vertical front porch */
461 /* vertical sync active */
464 /* vertical back porch */
469 /*
470 * Horizontal frame parameters:
471 * horizontal resolution is given in pixels but must be re-calculated
472 * into bytes since this is what the hardware expects, these registers
473 * define the payload size of the packet.
474 *
475 * hfp = horizontal front porch in bytes
476 * hbp = horizontal back porch in bytes
477 * hsa = horizontal sync active in bytes
478 *
479 * 6 + 2 is HFP header + checksum
480 */
483 /*
484 * Use sync pulse for sync: explicit HSA time
485 * 6 is HBP header + checksum
486 * 4 is RGB header + checksum
487 */
489 /*
490 * 6 is HBP header + checksum
491 * 4 is HSW packet bytes
492 * 4 is RGB header + checksum
493 */
496 /*
497 * Use event for sync: HBP includes both back porch and sync
498 * 6 is HBP header + checksum
499 * 4 is HSW packet bytes
500 * 4 is RGB header + checksum
501 */
503 /* HSA is not present in this mode and set to 0 */
505 }
509 }
513 }
517 }
521 /* Frame parameters: horizontal sync active */
523 /* horizontal back porch */
525 /* horizontal front porch */
529 /* RGB data length (visible bytes on one scanline) */
534 /*
535 * Calculate the time between two pixels in picoseconds using
536 * the supplied refresh rate and total resolution including
537 * porches and sync.
538 */
539 /* (ps/s) / (pixels/s) = ps/pixels */
543 pclk);
545 /*
546 * How many bytes per line will this update frequency yield?
547 *
548 * Calculate the number of picoseconds for one scanline (1), then
549 * divide by 1000000000000 (2) to get in pixels per second we
550 * want to output.
551 *
552 * Multiply with number of bytes per second at this video display
553 * frequency (3) to get number of bytes transferred during this
554 * time. Notice that we use the frequency the display wants,
555 * not what we actually get from the DSI PLL, which is hs_freq.
556 *
557 * These arithmetics are done in a different order to avoid
558 * overflow.
559 */
562 /* Multiply with bytes per second (3) */
564 /* Pixels per second (2) */
567 /* parallel transactions in all lanes */
573 /*
574 * 6 is header + checksum, header = 4 bytes, checksum = 2 bytes
575 * 4 is short packet for vsync/hsync
576 */
578 /* Set the event packet size to 0 (not used) */
580 /*
581 * FIXME: isn't the hsync width in pixels? The porch and
582 * sync area size is in pixels here, but this -6
583 * seems to be for bytes. It looks like this in the vendor
584 * code though. Is it completely untested?
585 */
590 /* Set the sync pulse packet size to 0 (not used) */
592 /* Specifying payload size in bytes (-4-6 from manual) */
596 blkline_pck);
600 }
602 /*
603 * The line duration is used to scale back the frequency from
604 * the max frequency supported by the HS clock to the desired
605 * update frequency in vrefresh.
606 */
608 /*
609 * The datasheet contains this complex condition to decreasing
610 * the line duration by 1 under very specific circumstances.
611 * Here we also imply that LP is used during burst EOL.
612 */
615 line_duration--;
619 /*
620 * This is the time to perform LP->HS on D-PHY
621 * FIXME: nowhere to get this from: DT property on the DSI?
622 * The manual says this is "system dependent".
623 * values like 48 and 72 seen in the vendor code.
624 */
628 /*
629 * See the manual figure 657 page 2203 for understanding the impact
630 * of the different burst mode settings.
631 */
634 /*
635 * Packet size at EOL for burst mode, this is only used
636 * if DSI_VID_MAIN_CTL_REG_BLKEOL_MODE_LP_0 is NOT set,
637 * but we instead send NULL or blanking packets at EOL.
638 * This is given in number of bytes.
639 *
640 * See the manual page 2198 for the 13 reg_blkeol_pck bits.
641 */
650 blkline_pck);
654 }
661 /* Use the same value for exact burst limit */
663 DSI_VID_VCA_SETTING2_EXACT_BURST_LIMIT_SHIFT;
666 /*
667 * This BLKEOL duration is claimed to be the duration in clock
668 * cycles of the BLLP end-of-line (EOL) period for each line if
669 * DSI_VID_MAIN_CTL_REG_BLKEOL_MODE_LP_0 is set.
670 *
671 * It is hard to trust the manuals' claim that this is in clock
672 * cycles as we mimic the behaviour of the vendor code, which
673 * appears to write a number of bytes that would have been
674 * transferred on a single lane.
675 *
676 * See the manual figure 657 page 2203 and page 2198 for the 13
677 * reg_blkeol_duration bits.
678 *
679 * FIXME: should this also be set up also for non-burst mode
680 * according to figure 565 page 2202?
681 */
685 blkeol_duration);
690 DSI_VID_PCK_TIME_BLKEOL_DURATION_SHIFT;
693 /* Max burst limit, this is given in bytes */
697 DSI_VID_VCA_SETTING1_MAX_BURST_LIMIT_SHIFT;
699 }
701 /* Maximum line limit */
705 DSI_VID_VCA_SETTING2_MAX_LINE_LIMIT_SHIFT;
708 }
711 {
713 u32 val;
716 /* No integration mode */
719 /* Enable the DSI port, from drivers/video/mcde/dsilink_v2.c */
721 DSI_MCTL_MAIN_DATA_CTL_BTA_EN |
722 DSI_MCTL_MAIN_DATA_CTL_READ_EN |
723 DSI_MCTL_MAIN_DATA_CTL_REG_TE_EN;
728 /* Set a high command timeout, clear other fields */
732 /*
733 * UI_X4 is described as "unit interval times four"
734 * I guess since DSI packets are 4 bytes wide, one unit
735 * is one byte.
736 */
745 /*
746 * Enable clocking: 0x0f (something?) between each burst,
747 * enable the second lane if needed, enable continuous clock if
748 * needed, enable switch into ULPM (ultra-low power mode) on
749 * all the lines.
750 */
757 DSI_MCTL_MAIN_PHY_CTL_DAT1_ULPM_EN |
758 DSI_MCTL_MAIN_PHY_CTL_DAT2_ULPM_EN;
768 /* High PHY timeout */
775 DSI_MCTL_MAIN_EN_CKLANE_EN |
776 DSI_MCTL_MAIN_EN_DAT1_EN |
777 DSI_MCTL_MAIN_EN_IF1_EN;
782 /* Wait for the PLL to lock and the clock and data lines to come up */
785 DSI_MCTL_MAIN_STS_CLKLANE_READY |
786 DSI_MCTL_MAIN_STS_DAT1_READY;
790 /* Sleep for a millisecond */
795 }
796 }
798 /* TODO needed? */
800 /* Command mode, clear IF1 ID */
802 /*
803 * If we enable low-power mode here, with
804 * val |= DSI_CMD_MODE_CTL_IF1_LP_EN
805 * then display updates become really slow.
806 */
810 /* Wait for DSI PHY to initialize */
813 }
817 {
819 u32 val;
822 /* Enable video mode */
826 }
829 };
832 {
835 u32 val;
838 /* Copy maximum clock frequencies */
841 else
845 else
848 /* Enable LP (Low Power, Energy Save, ES) and HS (High Speed) clocks */
861 /* Start clocks */
865 else
871 else
876 /* Put IF1 into video mode */
881 /* Disable command mode on IF1 */
886 /* Enable some error interrupts */
892 /* Command mode, clear IF1 ID */
894 /*
895 * If we enable low-power mode here with
896 * val |= DSI_CMD_MODE_CTL_IF1_LP_EN
897 * the display updates become really slow.
898 */
901 }
902 }
907 {
913 }
918 );
922 }
925 {
926 u32 val;
929 /*
930 * Wait until we get out of command mode
931 * CSM = Command State Machine
932 */
936 /* Sleep for a millisecond */
942 }
943 }
944 }
947 {
948 u32 val;
951 /* Wait until we get out og video mode */
955 /* Sleep for a millisecond */
961 }
962 }
963 }
966 {
968 u32 val;
970 /* Disable all error interrupts */
974 /* Stop video mode */
980 /* Stop command mode */
982 }
984 /* Stop clocks */
987 }
990 {
998 }
1000 /* Attach the DSI bridge to the output (panel etc) bridge */
1005 }
1008 }
1016 };
1020 {
1032 }
1034 /* If the display attached before binding, set this up */
1038 /* Obtain the clocks */
1043 }
1049 }
1051 /* Assert RESET through the PRCMU, active low */
1052 /* FIXME: which DSI block? */
1058 /* De-assert RESET again */
1060 PRCM_DSI_SW_RESET_DSI0_SW_RESETN,
1061 PRCM_DSI_SW_RESET_DSI0_SW_RESETN);
1063 /* Start up the hardware */
1066 /* Look for a panel as a child to this node */
1079 }
1080 }
1081 }
1084 DRM_MODE_CONNECTOR_DSI);
1088 }
1092 /* TODO: AV8100 HDMI encoder goes here for example */
1098 }
1102 /* Create a bridge for this DSI channel */
1107 /* TODO: first come first serve, use a list */
1113 }
1117 {
1124 }
1129 };
1132 {
1137 u32 dsi_id;
1146 /* Get a handle on the PRCMU so we can do reset */
1152 }
1159 }
1171 }
1176 }
1179 {
1186 }
1189 {
1191 },
1192 {},
1193 };
1199 },
1202 };