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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
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a3c477b33d
Dot clock routing is setup through different registers depending on the DU generation. The code has been designed for Gen2 and hasn't been updated since. This works thanks to good reset default value, but isn't very safe. Fix it. Signed-off-by: Laurent Pinchart <laurent.pinchart+renesas@ideasonboard.com>
252 lines
7.5 KiB
C
252 lines
7.5 KiB
C
/*
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* rcar_du_group.c -- R-Car Display Unit Channels Pair
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*
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* Copyright (C) 2013-2015 Renesas Electronics Corporation
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*
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* Contact: Laurent Pinchart (laurent.pinchart@ideasonboard.com)
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*/
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/*
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* The R8A7779 DU is split in per-CRTC resources (scan-out engine, blending
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* unit, timings generator, ...) and device-global resources (start/stop
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* control, planes, ...) shared between the two CRTCs.
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*
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* The R8A7790 introduced a third CRTC with its own set of global resources.
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* This would be modeled as two separate DU device instances if it wasn't for
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* a handful or resources that are shared between the three CRTCs (mostly
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* related to input and output routing). For this reason the R8A7790 DU must be
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* modeled as a single device with three CRTCs, two sets of "semi-global"
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* resources, and a few device-global resources.
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*
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* The rcar_du_group object is a driver specific object, without any real
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* counterpart in the DU documentation, that models those semi-global resources.
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*/
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#include <linux/clk.h>
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#include <linux/io.h>
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#include "rcar_du_drv.h"
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#include "rcar_du_group.h"
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#include "rcar_du_regs.h"
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u32 rcar_du_group_read(struct rcar_du_group *rgrp, u32 reg)
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{
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return rcar_du_read(rgrp->dev, rgrp->mmio_offset + reg);
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}
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void rcar_du_group_write(struct rcar_du_group *rgrp, u32 reg, u32 data)
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{
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rcar_du_write(rgrp->dev, rgrp->mmio_offset + reg, data);
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}
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static void rcar_du_group_setup_pins(struct rcar_du_group *rgrp)
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{
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u32 defr6 = DEFR6_CODE | DEFR6_ODPM12_DISP;
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if (rgrp->num_crtcs > 1)
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defr6 |= DEFR6_ODPM22_DISP;
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rcar_du_group_write(rgrp, DEFR6, defr6);
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}
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static void rcar_du_group_setup_defr8(struct rcar_du_group *rgrp)
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{
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struct rcar_du_device *rcdu = rgrp->dev;
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unsigned int possible_crtcs =
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rcdu->info->routes[RCAR_DU_OUTPUT_DPAD0].possible_crtcs;
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u32 defr8 = DEFR8_CODE;
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if (rcdu->info->gen < 3) {
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defr8 |= DEFR8_DEFE8;
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/* On Gen2 the DEFR8 register for the first group also controls
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* RGB output routing to DPAD0 and VSPD1 routing to DU0/1/2 for
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* DU instances that support it.
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*/
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if (rgrp->index == 0) {
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if (possible_crtcs > 1)
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defr8 |= DEFR8_DRGBS_DU(rcdu->dpad0_source);
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if (rgrp->dev->vspd1_sink == 2)
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defr8 |= DEFR8_VSCS;
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}
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} else {
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/* On Gen3 VSPD routing can't be configured, but DPAD routing
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* needs to be set despite having a single option available.
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*/
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u32 crtc = ffs(possible_crtcs) - 1;
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if (crtc / 2 == rgrp->index)
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defr8 |= DEFR8_DRGBS_DU(crtc);
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}
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rcar_du_group_write(rgrp, DEFR8, defr8);
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}
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static void rcar_du_group_setup(struct rcar_du_group *rgrp)
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{
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struct rcar_du_device *rcdu = rgrp->dev;
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/* Enable extended features */
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rcar_du_group_write(rgrp, DEFR, DEFR_CODE | DEFR_DEFE);
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if (rcdu->info->gen < 3) {
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rcar_du_group_write(rgrp, DEFR2, DEFR2_CODE | DEFR2_DEFE2G);
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rcar_du_group_write(rgrp, DEFR3, DEFR3_CODE | DEFR3_DEFE3);
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rcar_du_group_write(rgrp, DEFR4, DEFR4_CODE);
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}
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rcar_du_group_write(rgrp, DEFR5, DEFR5_CODE | DEFR5_DEFE5);
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rcar_du_group_setup_pins(rgrp);
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if (rcar_du_has(rgrp->dev, RCAR_DU_FEATURE_EXT_CTRL_REGS)) {
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rcar_du_group_setup_defr8(rgrp);
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/*
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* Configure input dot clock routing. We currently hardcode the
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* configuration to routing DOTCLKINn to DUn. Register fields
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* depend on the DU generation, but the resulting value is 0 in
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* all cases.
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*
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* On Gen2 a single register in the first group controls dot
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* clock selection for all channels, while on Gen3 dot clocks
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* are setup through per-group registers, only available when
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* the group has two channels.
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*/
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if ((rcdu->info->gen < 3 && rgrp->index == 0) ||
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(rcdu->info->gen == 3 && rgrp->num_crtcs > 1))
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rcar_du_group_write(rgrp, DIDSR, DIDSR_CODE);
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}
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if (rcdu->info->gen >= 3)
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rcar_du_group_write(rgrp, DEFR10, DEFR10_CODE | DEFR10_DEFE10);
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/* Use DS1PR and DS2PR to configure planes priorities and connects the
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* superposition 0 to DU0 pins. DU1 pins will be configured dynamically.
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*/
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rcar_du_group_write(rgrp, DORCR, DORCR_PG1D_DS1 | DORCR_DPRS);
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/* Apply planes to CRTCs association. */
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mutex_lock(&rgrp->lock);
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rcar_du_group_write(rgrp, DPTSR, (rgrp->dptsr_planes << 16) |
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rgrp->dptsr_planes);
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mutex_unlock(&rgrp->lock);
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}
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/*
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* rcar_du_group_get - Acquire a reference to the DU channels group
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*
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* Acquiring the first reference setups core registers. A reference must be held
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* before accessing any hardware registers.
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*
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* This function must be called with the DRM mode_config lock held.
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*
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* Return 0 in case of success or a negative error code otherwise.
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*/
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int rcar_du_group_get(struct rcar_du_group *rgrp)
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{
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if (rgrp->use_count)
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goto done;
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rcar_du_group_setup(rgrp);
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done:
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rgrp->use_count++;
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return 0;
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}
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/*
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* rcar_du_group_put - Release a reference to the DU
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*
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* This function must be called with the DRM mode_config lock held.
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*/
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void rcar_du_group_put(struct rcar_du_group *rgrp)
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{
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--rgrp->use_count;
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}
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static void __rcar_du_group_start_stop(struct rcar_du_group *rgrp, bool start)
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{
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rcar_du_group_write(rgrp, DSYSR,
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(rcar_du_group_read(rgrp, DSYSR) & ~(DSYSR_DRES | DSYSR_DEN)) |
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(start ? DSYSR_DEN : DSYSR_DRES));
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}
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void rcar_du_group_start_stop(struct rcar_du_group *rgrp, bool start)
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{
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/* Many of the configuration bits are only updated when the display
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* reset (DRES) bit in DSYSR is set to 1, disabling *both* CRTCs. Some
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* of those bits could be pre-configured, but others (especially the
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* bits related to plane assignment to display timing controllers) need
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* to be modified at runtime.
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*
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* Restart the display controller if a start is requested. Sorry for the
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* flicker. It should be possible to move most of the "DRES-update" bits
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* setup to driver initialization time and minimize the number of cases
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* when the display controller will have to be restarted.
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*/
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if (start) {
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if (rgrp->used_crtcs++ != 0)
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__rcar_du_group_start_stop(rgrp, false);
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__rcar_du_group_start_stop(rgrp, true);
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} else {
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if (--rgrp->used_crtcs == 0)
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__rcar_du_group_start_stop(rgrp, false);
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}
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}
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void rcar_du_group_restart(struct rcar_du_group *rgrp)
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{
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rgrp->need_restart = false;
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__rcar_du_group_start_stop(rgrp, false);
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__rcar_du_group_start_stop(rgrp, true);
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}
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int rcar_du_set_dpad0_vsp1_routing(struct rcar_du_device *rcdu)
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{
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int ret;
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if (!rcar_du_has(rcdu, RCAR_DU_FEATURE_EXT_CTRL_REGS))
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return 0;
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/* RGB output routing to DPAD0 and VSP1D routing to DU0/1/2 are
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* configured in the DEFR8 register of the first group. As this function
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* can be called with the DU0 and DU1 CRTCs disabled, we need to enable
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* the first group clock before accessing the register.
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*/
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ret = clk_prepare_enable(rcdu->crtcs[0].clock);
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if (ret < 0)
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return ret;
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rcar_du_group_setup_defr8(&rcdu->groups[0]);
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clk_disable_unprepare(rcdu->crtcs[0].clock);
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return 0;
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}
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int rcar_du_group_set_routing(struct rcar_du_group *rgrp)
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{
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struct rcar_du_crtc *crtc0 = &rgrp->dev->crtcs[rgrp->index * 2];
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u32 dorcr = rcar_du_group_read(rgrp, DORCR);
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dorcr &= ~(DORCR_PG2T | DORCR_DK2S | DORCR_PG2D_MASK);
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/* Set the DPAD1 pins sources. Select CRTC 0 if explicitly requested and
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* CRTC 1 in all other cases to avoid cloning CRTC 0 to DPAD0 and DPAD1
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* by default.
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*/
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if (crtc0->outputs & BIT(RCAR_DU_OUTPUT_DPAD1))
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dorcr |= DORCR_PG2D_DS1;
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else
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dorcr |= DORCR_PG2T | DORCR_DK2S | DORCR_PG2D_DS2;
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rcar_du_group_write(rgrp, DORCR, dorcr);
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return rcar_du_set_dpad0_vsp1_routing(rgrp->dev);
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}
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