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ebc5d6c7da4621ad937d7e2bc11fb06df79acc58
android_kernel_samsung_sm86…/msm/sde/sde_hw_dspp.c
Prabhanjan Kandula ebc5d6c7da disp: msm: sde: add partial update support for spr block 
This change adds support for regdma accelerated programming of
partial update offsets for SPR hw block and validation of ROI
during atomic check based on SPR hw block limitations.

Change-Id: I9e20af4ba7752e8a4af5e9738612c57603163744
Signed-off-by: Prabhanjan Kandula <pkandula@codeaurora.org>
2020-04-13 11:04:03 -07:00

451 lines
12 KiB
C
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// SPDX-License-Identifier: GPL-2.0-only
/*
* Copyright (c) 2015-2020, The Linux Foundation. All rights reserved.
*/
#include <drm/msm_drm_pp.h>
#include "sde_hw_mdss.h"
#include "sde_hwio.h"
#include "sde_hw_catalog.h"
#include "sde_hw_dspp.h"
#include "sde_hw_color_processing.h"
#include "sde_dbg.h"
#include "sde_ad4.h"
#include "sde_hw_rc.h"
#include "sde_kms.h"
static struct sde_dspp_cfg *_dspp_offset(enum sde_dspp dspp,
struct sde_mdss_cfg *m,
void __iomem *addr,
struct sde_hw_blk_reg_map *b)
{
int i;
if (!m || !addr || !b)
return ERR_PTR(-EINVAL);
for (i = 0; i < m->dspp_count; i++) {
if (dspp == m->dspp[i].id) {
b->base_off = addr;
b->blk_off = m->dspp[i].base;
b->length = m->dspp[i].len;
b->hwversion = m->hwversion;
b->log_mask = SDE_DBG_MASK_DSPP;
return &m->dspp[i];
}
}
return ERR_PTR(-EINVAL);
}
static void dspp_igc(struct sde_hw_dspp *c)
{
int ret = 0;
if (c->cap->sblk->igc.version == SDE_COLOR_PROCESS_VER(0x3, 0x1)) {
ret = reg_dmav1_init_dspp_op_v4(SDE_DSPP_IGC, c->idx);
if (!ret)
c->ops.setup_igc = reg_dmav1_setup_dspp_igcv31;
else
c->ops.setup_igc = sde_setup_dspp_igcv3;
} else if (c->cap->sblk->igc.version ==
SDE_COLOR_PROCESS_VER(0x3, 0x2)) {
c->ops.setup_igc = NULL;
ret = reg_dmav2_init_dspp_op_v4(SDE_DSPP_IGC, c->idx);
if (!ret)
c->ops.setup_igc = reg_dmav2_setup_dspp_igcv32;
}
}
static void dspp_pcc(struct sde_hw_dspp *c)
{
int ret = 0;
if (c->cap->sblk->pcc.version == (SDE_COLOR_PROCESS_VER(0x1, 0x7)))
c->ops.setup_pcc = sde_setup_dspp_pcc_v1_7;
else if (c->cap->sblk->pcc.version ==
(SDE_COLOR_PROCESS_VER(0x4, 0x0))) {
ret = reg_dmav1_init_dspp_op_v4(SDE_DSPP_PCC, c->idx);
if (!ret)
c->ops.setup_pcc = reg_dmav1_setup_dspp_pccv4;
else
c->ops.setup_pcc = sde_setup_dspp_pccv4;
}
}
static void dspp_gc(struct sde_hw_dspp *c)
{
int ret = 0;
if (c->cap->sblk->gc.version == SDE_COLOR_PROCESS_VER(0x1, 8)) {
ret = reg_dmav1_init_dspp_op_v4(SDE_DSPP_GC, c->idx);
if (!ret)
c->ops.setup_gc = reg_dmav1_setup_dspp_gcv18;
/**
* programming for v18 through ahb is same as v17,
* hence assign v17 function
*/
else
c->ops.setup_gc = sde_setup_dspp_gc_v1_7;
}
}
static void dspp_hsic(struct sde_hw_dspp *c)
{
int ret = 0;
if (c->cap->sblk->hsic.version == SDE_COLOR_PROCESS_VER(0x1, 0x7)) {
ret = reg_dmav1_init_dspp_op_v4(SDE_DSPP_HSIC, c->idx);
if (!ret)
c->ops.setup_pa_hsic = reg_dmav1_setup_dspp_pa_hsicv17;
else
c->ops.setup_pa_hsic = sde_setup_dspp_pa_hsic_v17;
}
}
static void dspp_memcolor(struct sde_hw_dspp *c)
{
int ret = 0;
if (c->cap->sblk->memcolor.version == SDE_COLOR_PROCESS_VER(0x1, 0x7)) {
ret = reg_dmav1_init_dspp_op_v4(SDE_DSPP_MEMCOLOR, c->idx);
if (!ret) {
c->ops.setup_pa_memcol_skin =
reg_dmav1_setup_dspp_memcol_skinv17;
c->ops.setup_pa_memcol_sky =
reg_dmav1_setup_dspp_memcol_skyv17;
c->ops.setup_pa_memcol_foliage =
reg_dmav1_setup_dspp_memcol_folv17;
c->ops.setup_pa_memcol_prot =
reg_dmav1_setup_dspp_memcol_protv17;
} else {
c->ops.setup_pa_memcol_skin =
sde_setup_dspp_memcol_skin_v17;
c->ops.setup_pa_memcol_sky =
sde_setup_dspp_memcol_sky_v17;
c->ops.setup_pa_memcol_foliage =
sde_setup_dspp_memcol_foliage_v17;
c->ops.setup_pa_memcol_prot =
sde_setup_dspp_memcol_prot_v17;
}
}
}
static void dspp_sixzone(struct sde_hw_dspp *c)
{
int ret = 0;
if (c->cap->sblk->sixzone.version == SDE_COLOR_PROCESS_VER(0x1, 0x7)) {
ret = reg_dmav1_init_dspp_op_v4(SDE_DSPP_SIXZONE, c->idx);
if (!ret)
c->ops.setup_sixzone = reg_dmav1_setup_dspp_sixzonev17;
else
c->ops.setup_sixzone = sde_setup_dspp_sixzone_v17;
}
}
static void dspp_gamut(struct sde_hw_dspp *c)
{
int ret = 0;
if (c->cap->sblk->gamut.version == SDE_COLOR_PROCESS_VER(0x4, 0)) {
ret = reg_dmav1_init_dspp_op_v4(SDE_DSPP_GAMUT, c->idx);
if (!ret)
c->ops.setup_gamut = reg_dmav1_setup_dspp_3d_gamutv4;
else
c->ops.setup_gamut = sde_setup_dspp_3d_gamutv4;
} else if (c->cap->sblk->gamut.version ==
SDE_COLOR_PROCESS_VER(0x4, 1)) {
ret = reg_dmav1_init_dspp_op_v4(SDE_DSPP_GAMUT, c->idx);
if (!ret)
c->ops.setup_gamut = reg_dmav1_setup_dspp_3d_gamutv41;
else
c->ops.setup_gamut = sde_setup_dspp_3d_gamutv41;
} else if (c->cap->sblk->gamut.version ==
SDE_COLOR_PROCESS_VER(0x4, 2)) {
ret = reg_dmav1_init_dspp_op_v4(SDE_DSPP_GAMUT, c->idx);
c->ops.setup_gamut = NULL;
if (!ret)
c->ops.setup_gamut = reg_dmav1_setup_dspp_3d_gamutv42;
} else if (c->cap->sblk->gamut.version ==
SDE_COLOR_PROCESS_VER(0x4, 3)) {
c->ops.setup_gamut = NULL;
ret = reg_dmav2_init_dspp_op_v4(SDE_DSPP_GAMUT, c->idx);
if (!ret)
c->ops.setup_gamut = reg_dmav2_setup_dspp_3d_gamutv43;
}
}
static void dspp_dither(struct sde_hw_dspp *c)
{
if (c->cap->sblk->dither.version == SDE_COLOR_PROCESS_VER(0x1, 0x7))
c->ops.setup_pa_dither = sde_setup_dspp_dither_v1_7;
}
static void dspp_hist(struct sde_hw_dspp *c)
{
if (c->cap->sblk->hist.version == (SDE_COLOR_PROCESS_VER(0x1, 0x7))) {
c->ops.setup_histogram = sde_setup_dspp_hist_v1_7;
c->ops.read_histogram = sde_read_dspp_hist_v1_7;
c->ops.lock_histogram = sde_lock_dspp_hist_v1_7;
}
}
static void dspp_vlut(struct sde_hw_dspp *c)
{
int ret = 0;
if (c->cap->sblk->vlut.version == (SDE_COLOR_PROCESS_VER(0x1, 0x7))) {
c->ops.setup_vlut = sde_setup_dspp_pa_vlut_v1_7;
} else if (c->cap->sblk->vlut.version ==
(SDE_COLOR_PROCESS_VER(0x1, 0x8))) {
ret = reg_dmav1_init_dspp_op_v4(SDE_DSPP_VLUT, c->idx);
if (!ret)
c->ops.setup_vlut = reg_dmav1_setup_dspp_vlutv18;
else
c->ops.setup_vlut = sde_setup_dspp_pa_vlut_v1_8;
}
}
static void dspp_ad(struct sde_hw_dspp *c)
{
if (c->cap->sblk->ad.version == SDE_COLOR_PROCESS_VER(4, 0)) {
c->ops.setup_ad = sde_setup_dspp_ad4;
c->ops.ad_read_intr_resp = sde_read_intr_resp_ad4;
c->ops.validate_ad = sde_validate_dspp_ad4;
}
}
static void dspp_ltm(struct sde_hw_dspp *c)
{
int ret = 0;
if (c->cap->sblk->ltm.version == SDE_COLOR_PROCESS_VER(0x1, 0x0)) {
ret = reg_dmav1_init_ltm_op_v6(SDE_LTM_INIT, c->idx);
if (!ret)
ret = reg_dmav1_init_ltm_op_v6(SDE_LTM_ROI, c->idx);
if (!ret)
ret = reg_dmav1_init_ltm_op_v6(SDE_LTM_VLUT, c->idx);
if (!ret) {
c->ops.setup_ltm_init = reg_dmav1_setup_ltm_initv1;
c->ops.setup_ltm_roi = reg_dmav1_setup_ltm_roiv1;
c->ops.setup_ltm_vlut = reg_dmav1_setup_ltm_vlutv1;
} else {
c->ops.setup_ltm_init = NULL;
c->ops.setup_ltm_roi = NULL;
c->ops.setup_ltm_vlut = NULL;
}
c->ops.setup_ltm_thresh = sde_setup_dspp_ltm_threshv1;
c->ops.setup_ltm_hist_ctrl = sde_setup_dspp_ltm_hist_ctrlv1;
c->ops.setup_ltm_hist_buffer = sde_setup_dspp_ltm_hist_bufferv1;
c->ops.ltm_read_intr_status = sde_ltm_read_intr_status;
}
}
static void dspp_rc(struct sde_hw_dspp *c)
{
int ret = 0;
if (!c) {
SDE_ERROR("invalid arguments\n");
return;
}
if (c->cap->sblk->rc.version == SDE_COLOR_PROCESS_VER(0x1, 0x0)) {
ret = sde_hw_rc_init(c);
if (ret) {
SDE_ERROR("rc init failed, ret %d\n", ret);
return;
}
ret = reg_dmav1_init_dspp_op_v4(SDE_DSPP_RC, c->idx);
if (!ret)
c->ops.setup_rc_data =
sde_hw_rc_setup_data_dma;
else
c->ops.setup_rc_data =
sde_hw_rc_setup_data_ahb;
c->ops.validate_rc_mask = sde_hw_rc_check_mask;
c->ops.setup_rc_mask = sde_hw_rc_setup_mask;
c->ops.validate_rc_pu_roi = sde_hw_rc_check_pu_roi;
c->ops.setup_rc_pu_roi = sde_hw_rc_setup_pu_roi;
}
}
static void dspp_spr(struct sde_hw_dspp *c)
{
int ret = 0;
if (!c) {
SDE_ERROR("invalid arguments\n");
return;
}
c->ops.setup_spr_init_config = NULL;
c->ops.setup_spr_pu_config = NULL;
if (c->cap->sblk->spr.version == SDE_COLOR_PROCESS_VER(0x1, 0x0)) {
ret = reg_dmav1_init_dspp_op_v4(SDE_DSPP_SPR, c->idx);
if (ret) {
SDE_ERROR("regdma init failed for spr, ret %d\n", ret);
return;
}
c->ops.setup_spr_init_config = reg_dmav1_setup_spr_init_cfgv1;
c->ops.setup_spr_pu_config = reg_dmav1_setup_spr_pu_cfgv1;
}
}
static void dspp_demura(struct sde_hw_dspp *c)
{
int ret;
if (c->cap->sblk->demura.version == SDE_COLOR_PROCESS_VER(0x1, 0x0)) {
ret = reg_dmav1_init_dspp_op_v4(SDE_DSPP_DEMURA, c->idx);
c->ops.setup_demura_cfg = NULL;
c->ops.setup_demura_backlight_cfg = NULL;
if (!ret) {
c->ops.setup_demura_cfg = reg_dmav1_setup_demurav1;
c->ops.setup_demura_backlight_cfg =
sde_demura_backlight_cfg;
}
}
}
static void (*dspp_blocks[SDE_DSPP_MAX])(struct sde_hw_dspp *c);
static void _init_dspp_ops(void)
{
dspp_blocks[SDE_DSPP_IGC] = dspp_igc;
dspp_blocks[SDE_DSPP_PCC] = dspp_pcc;
dspp_blocks[SDE_DSPP_GC] = dspp_gc;
dspp_blocks[SDE_DSPP_HSIC] = dspp_hsic;
dspp_blocks[SDE_DSPP_MEMCOLOR] = dspp_memcolor;
dspp_blocks[SDE_DSPP_SIXZONE] = dspp_sixzone;
dspp_blocks[SDE_DSPP_GAMUT] = dspp_gamut;
dspp_blocks[SDE_DSPP_DITHER] = dspp_dither;
dspp_blocks[SDE_DSPP_HIST] = dspp_hist;
dspp_blocks[SDE_DSPP_VLUT] = dspp_vlut;
dspp_blocks[SDE_DSPP_AD] = dspp_ad;
dspp_blocks[SDE_DSPP_LTM] = dspp_ltm;
dspp_blocks[SDE_DSPP_RC] = dspp_rc;
dspp_blocks[SDE_DSPP_SPR] = dspp_spr;
dspp_blocks[SDE_DSPP_DEMURA] = dspp_demura;
}
static void _setup_dspp_ops(struct sde_hw_dspp *c, unsigned long features)
{
int i = 0;
if (!c->cap->sblk)
return;
for (i = 0; i < SDE_DSPP_MAX; i++) {
if (!test_bit(i, &features))
continue;
if (dspp_blocks[i])
dspp_blocks[i](c);
}
}
static struct sde_hw_blk_ops sde_hw_ops = {
.start = NULL,
.stop = NULL,
};
struct sde_hw_dspp *sde_hw_dspp_init(enum sde_dspp idx,
void __iomem *addr,
struct sde_mdss_cfg *m)
{
struct sde_hw_dspp *c;
struct sde_dspp_cfg *cfg;
int rc;
char buf[256];
if (!addr || !m)
return ERR_PTR(-EINVAL);
c = kzalloc(sizeof(*c), GFP_KERNEL);
if (!c)
return ERR_PTR(-ENOMEM);
cfg = _dspp_offset(idx, m, addr, &c->hw);
if (IS_ERR_OR_NULL(cfg)) {
kfree(c);
return ERR_PTR(-EINVAL);
}
/* Populate DSPP Top HW block */
c->hw_top.base_off = addr;
c->hw_top.blk_off = m->dspp_top.base;
c->hw_top.length = m->dspp_top.len;
c->hw_top.hwversion = m->hwversion;
c->hw_top.log_mask = SDE_DBG_MASK_DSPP;
/* Assign ops */
c->idx = idx;
c->cap = cfg;
_init_dspp_ops();
_setup_dspp_ops(c, c->cap->features);
rc = sde_hw_blk_init(&c->base, SDE_HW_BLK_DSPP, idx, &sde_hw_ops);
if (rc) {
SDE_ERROR("failed to init hw blk %d\n", rc);
goto blk_init_error;
}
sde_dbg_reg_register_dump_range(SDE_DBG_NAME, cfg->name, c->hw.blk_off,
c->hw.blk_off + c->hw.length, c->hw.xin_id);
if ((cfg->sblk->ltm.id == SDE_DSPP_LTM) && cfg->sblk->ltm.base) {
sde_dbg_reg_register_dump_range(SDE_DBG_NAME, "LTM",
c->hw.blk_off + cfg->sblk->ltm.base,
c->hw.blk_off + cfg->sblk->ltm.base + 0xC4,
c->hw.xin_id);
}
if ((cfg->sblk->rc.id == SDE_DSPP_RC) && cfg->sblk->rc.base) {
snprintf(buf, ARRAY_SIZE(buf), "%s_%d", "rc", c->idx - DSPP_0);
sde_dbg_reg_register_dump_range(SDE_DBG_NAME, buf,
c->hw.blk_off + cfg->sblk->rc.base,
c->hw.blk_off + cfg->sblk->rc.base +
cfg->sblk->rc.len, c->hw.xin_id);
}
if ((cfg->sblk->spr.id == SDE_DSPP_SPR) && cfg->sblk->spr.base) {
snprintf(buf, ARRAY_SIZE(buf), "%s_%d", "spr", c->idx - DSPP_0);
sde_dbg_reg_register_dump_range(SDE_DBG_NAME, buf,
c->hw.blk_off + cfg->sblk->spr.base,
c->hw.blk_off + cfg->sblk->spr.base +
cfg->sblk->spr.len, c->hw.xin_id);
}
if ((cfg->sblk->demura.id == SDE_DSPP_DEMURA) &&
cfg->sblk->demura.base) {
snprintf(buf, ARRAY_SIZE(buf), "%s_%d", "demura",
c->idx - DSPP_0);
sde_dbg_reg_register_dump_range(SDE_DBG_NAME, buf,
c->hw.blk_off + cfg->sblk->demura.base,
c->hw.blk_off + cfg->sblk->demura.base +
cfg->sblk->demura.len, c->hw.xin_id);
}
return c;
blk_init_error:
kzfree(c);
return ERR_PTR(rc);
}
void sde_hw_dspp_destroy(struct sde_hw_dspp *dspp)
{
if (dspp) {
reg_dmav1_deinit_dspp_ops(dspp->idx);
reg_dmav1_deinit_ltm_ops(dspp->idx);
sde_hw_blk_destroy(&dspp->base);
}
kfree(dspp);
}
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