soc/mediatek/mt8192: Add ddp driver

Add ddp (display controller) driver that supports overlay, read/write
DMA, etc. The output goes to display interface DSI, DPI or DBI directly.

BUG=b:155713214
BRANCH=none
TEST=Boots correctly on asurada

Signed-off-by: Yongqiang Niu <yongqiang.niu@mediatek.com>
Change-Id: I1ad13175b8304beed9965d609ea3bd721311f154
Reviewed-on: https://review.coreboot.org/c/coreboot/+/46577
Reviewed-by: Hung-Te Lin <hungte@chromium.org>
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
This commit is contained in:
Yongqiang Niu 2020-09-03 17:28:17 +08:00 committed by Hung-Te Lin
parent b169f294b5
commit 92fa1d9663
4 changed files with 482 additions and 0 deletions

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@ -38,6 +38,7 @@ romstage-y += pmif.c pmif_clk.c pmif_spi.c pmif_spmi.c
romstage-y += mt6359p.c romstage-y += mt6359p.c
ramstage-y += ../common/auxadc.c ramstage-y += ../common/auxadc.c
ramstage-y += ../common/ddp.c ddp.c
ramstage-y += dpm.c ramstage-y += dpm.c
ramstage-y += ../common/dsi.c ../common/mtk_mipi_dphy.c ramstage-y += ../common/dsi.c ../common/mtk_mipi_dphy.c
ramstage-y += flash_controller.c ramstage-y += flash_controller.c

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@ -0,0 +1,198 @@
/* SPDX-License-Identifier: GPL-2.0-only */
#include <console/console.h>
#include <device/mmio.h>
#include <edid.h>
#include <soc/addressmap.h>
#include <soc/ddp.h>
static void disp_config_main_path_connection(void)
{
/* ovl0->ovl0_2l */
write32(&mmsys_cfg->mmsys_ovl_mout_en,
(DISP_OVL0_GO_BG | DISP_OVL0_2L_GO_BLEND));
write32(&mmsys_cfg->ovl0_2l_mout_en, OVL0_MOUT_EN_DISP_RDMA0);
write32(&mmsys_cfg->rdma0_sel_in, RDMA0_SEL_IN_OVL0_2L);
write32(&mmsys_cfg->rdma0_sout_sel, RDMA0_SOUT_COLOR0);
write32(&mmsys_cfg->ccorr0_sout_sel, CCORR0_SOUT_AAL0);
write32(&mmsys_cfg->aal0_sel_in, AAL0_SEL_IN_CCORR0);
write32(&mmsys_cfg->dither0_mout_en, DITHER0_MOUT_DSI0);
write32(&mmsys_cfg->dsi0_sel_in, DSI0_SEL_IN_DITHER0);
}
static void disp_config_main_path_mutex(void)
{
write32(&disp_mutex->mutex[0].mod, MUTEX_MOD_MAIN_PATH);
/* Clock source from DSI0 */
write32(&disp_mutex->mutex[0].ctl,
MUTEX_SOF_DSI0 | (MUTEX_SOF_DSI0 << 6));
write32(&disp_mutex->mutex[0].en, BIT(0));
}
static void ovl_bgclr_in_sel(u32 idx)
{
setbits32(&disp_ovl[idx]->datapath_con, BIT(2));
}
static void ovl_layer_smi_id_en(u32 idx)
{
printk(BIOS_INFO, "%s\n", __func__);
setbits32(&disp_ovl[idx]->datapath_con, BIT(0));
}
static void ccorr_config(u32 width, u32 height)
{
struct disp_ccorr_regs *const regs = disp_ccorr;
int enable_relay = 0;
printk(BIOS_INFO, "%s\n", __func__);
write32(&regs->size, width << 16 | height);
if (enable_relay) {
setbits32(&regs->cfg, PQ_RELAY_MODE);
clrbits32(&regs->cfg, PQ_ENGINE_EN);
} else {
clrbits32(&regs->cfg, PQ_RELAY_MODE);
setbits32(&regs->cfg, PQ_ENGINE_EN);
}
write32(&regs->en, PQ_EN);
}
static void aal_config(u32 width, u32 height)
{
struct disp_aal_regs *const regs = disp_aal;
int enable_relay = 1;
printk(BIOS_INFO, "%s\n", __func__);
write32(&regs->size, width << 16 | height);
write32(&regs->output_size, width << 16 | height);
if (enable_relay) {
setbits32(&regs->cfg, PQ_RELAY_MODE);
clrbits32(&regs->cfg, PQ_ENGINE_EN);
} else {
clrbits32(&regs->cfg, PQ_RELAY_MODE);
setbits32(&regs->cfg, PQ_ENGINE_EN);
}
write32(&regs->en, PQ_EN);
}
static void gamma_config(u32 width, u32 height)
{
struct disp_gamma_regs *const regs = disp_gamma;
int enable_relay = 0;
printk(BIOS_INFO, "%s\n", __func__);
write32(&regs->size, width << 16 | height);
if (enable_relay)
setbits32(&regs->cfg, PQ_RELAY_MODE);
else
clrbits32(&regs->cfg, PQ_RELAY_MODE);
write32(&regs->en, PQ_EN);
}
static void postmask_config(u32 width, u32 height)
{
struct disp_postmask_regs *const regs = disp_postmask;
int enable_relay = 1;
printk(BIOS_INFO, "%s\n", __func__);
write32(&regs->size, width << 16 | height);
if (enable_relay)
setbits32(&regs->cfg, PQ_RELAY_MODE);
else
clrbits32(&regs->cfg, PQ_RELAY_MODE);
write32(&regs->en, PQ_EN);
}
static void dither_config(u32 width, u32 height)
{
struct disp_dither_regs *const regs = disp_dither;
int enable_relay = 1;
printk(BIOS_INFO, "%s\n", __func__);
write32(&regs->size, width << 16 | height);
if (enable_relay)
setbits32(&regs->cfg, PQ_RELAY_MODE);
else
clrbits32(&regs->cfg, PQ_RELAY_MODE);
write32(&regs->en, PQ_EN);
}
static void main_disp_path_setup(u32 width, u32 height, u32 vrefresh)
{
u32 idx = 0;
u32 pixel_clk = width * height * vrefresh;
printk(BIOS_INFO, "%s\n", __func__);
for (idx = 0; idx < MAIN_PATH_OVL_NR; idx++) {
ovl_set_roi(idx, width, height, idx ? 0 : 0xff0000ff);
ovl_layer_smi_id_en(idx);
}
rdma_config(width, height, pixel_clk, 5 * KiB);
color_start(width, height);
ccorr_config(width, height);
aal_config(width, height);
gamma_config(width, height);
postmask_config(width, height);
dither_config(width, height);
disp_config_main_path_connection();
disp_config_main_path_mutex();
}
static void disp_clock_on(void)
{
clrbits32(&mmsys_cfg->mmsys_cg_con0, CG_CON0_DISP_ALL);
clrbits32(&mmsys_cfg->mmsys_cg_con1, CG_CON1_DISP_ALL);
clrbits32(&mmsys_cfg->mmsys_cg_con2, CG_CON2_DISP_ALL);
}
void mtk_ddp_init(void)
{
disp_clock_on();
/* Turn off M4U port. */
write32((void *)(SMI_LARB0 + SMI_LARB_PORT_L0_OVL_RDMA0), 0);
}
void mtk_ddp_mode_set(const struct edid *edid)
{
u32 fmt = OVL_INFMT_RGBA8888;
u32 bpp = edid->framebuffer_bits_per_pixel / 8;
u32 width = edid->mode.ha;
u32 height = edid->mode.va;
u32 vrefresh = edid->mode.refresh;
printk(BIOS_INFO, "%s display resolution: %dx%d@%d bpp %d\n",
__func__, width, height, vrefresh, bpp);
if (!vrefresh) {
vrefresh = 60;
printk(BIOS_INFO, "%s invalid vrefresh %d\n",
__func__, vrefresh);
}
main_disp_path_setup(width, height, vrefresh);
rdma_start();
ovl_layer_config(fmt, bpp, width, height);
ovl_bgclr_in_sel(1);
}

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@ -60,6 +60,19 @@ enum {
IOCFG_TL_BASE = IO_PHYS + 0x01F30000, IOCFG_TL_BASE = IO_PHYS + 0x01F30000,
MSDC0_TOP_BASE = IO_PHYS + 0x01F50000, MSDC0_TOP_BASE = IO_PHYS + 0x01F50000,
MSDC0_BASE = IO_PHYS + 0x01F60000, MSDC0_BASE = IO_PHYS + 0x01F60000,
MMSYS_BASE = IO_PHYS + 0x04000000,
DISP_MUTEX_BASE = IO_PHYS + 0x04001000,
SMI_BASE = IO_PHYS + 0x04002000,
SMI_LARB0 = IO_PHYS + 0x04003000,
DISP_OVL0_BASE = IO_PHYS + 0x04005000, /* ovl0 */
DISP_OVL1_BASE = IO_PHYS + 0x04006000, /* ovl0_2l */
DISP_RDMA0_BASE = IO_PHYS + 0x04007000,
DISP_COLOR0_BASE = IO_PHYS + 0x04009000,
DISP_CCORR0_BASE = IO_PHYS + 0x0400A000,
DISP_AAL0_BASE = IO_PHYS + 0x0400B000,
DISP_GAMMA0_BASE = IO_PHYS + 0x0400C000,
DISP_POSTMASK0_BASE = IO_PHYS + 0x0400D000,
DISP_DITHER0_BASE = IO_PHYS + 0x0400E000,
DSI0_BASE = IO_PHYS + 0x04010000, DSI0_BASE = IO_PHYS + 0x04010000,
}; };

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@ -0,0 +1,270 @@
/* SPDX-License-Identifier: GPL-2.0-only */
#ifndef _MT8183_SOC_DDP_H_
#define _MT8183_SOC_DDP_H_
#include <soc/addressmap.h>
#include <soc/ddp_common.h>
#include <types.h>
#define MAIN_PATH_OVL_NR 2
struct mmsys_cfg_regs {
u32 reserved_0x000[64]; /* 0x000 */
u32 mmsys_cg_con0; /* 0x100 */
u32 mmsys_cg_set0; /* 0x104 */
u32 mmsys_cg_clr0; /* 0x108 */
u32 reserved_0x10C; /* 0x10C */
u32 mmsys_cg_con1; /* 0x110 */
u32 mmsys_cg_set1; /* 0x114 */
u32 mmsys_cg_clr1; /* 0x118 */
u32 reserved_0x11C[33]; /* 0x11C */
u32 mmsys_cg_con2; /* 0x1A0 */
u32 mmsys_cg_set2; /* 0x1A4 */
u32 mmsys_cg_clr2; /* 0x1A8 */
u32 reserved_0x1AC[853]; /* 0x1AC */
u32 reserved_0xF00; /* 0xF00 */
u32 mmsys_ovl_mout_en; /* 0xF04 */
u32 reserved_0xF08; /* 0xF08 */
u32 reserved_0xF0C; /* 0xF0C */
u32 reserved_0xF10; /* 0xF10 */
u32 reserved_0xF14; /* 0xF14 */
u32 ovl0_2l_mout_en; /* 0xF18 */
u32 ovl0_mout_en; /* 0xF1C */
u32 reserved_0xF20; /* 0xF20 */
u32 reserved_0xF24; /* 0xF24 */
u32 reserved_0xF28; /* 0xF28 */
u32 rdma0_sel_in; /* 0xF2C */
u32 rdma0_sout_sel; /* 0xF30 */
u32 ccorr0_sout_sel; /* 0xF34 */
u32 aal0_sel_in; /* 0xF38 */
u32 dither0_mout_en; /* 0xF3C*/
u32 dsi0_sel_in; /* 0xF40*/
};
check_member(mmsys_cfg_regs, mmsys_cg_con0, 0x100);
check_member(mmsys_cfg_regs, mmsys_cg_con1, 0x110);
check_member(mmsys_cfg_regs, mmsys_cg_con2, 0x1A0);
check_member(mmsys_cfg_regs, mmsys_ovl_mout_en, 0xF04);
check_member(mmsys_cfg_regs, ovl0_2l_mout_en, 0xF18);
check_member(mmsys_cfg_regs, dsi0_sel_in, 0xF40);
static struct mmsys_cfg_regs *const mmsys_cfg =
(void *)MMSYS_BASE;
/* DISP_REG_CONFIG_MMSYS_CG_CON0
Configures free-run clock gating 0
0: Enable clock
1: Clock gating */
enum {
CG_CON0_DISP_MUTEX0 = BIT(0),
CG_CON0_DISPSYS_CONFIG = BIT(1),
CG_CON0_DISP_OVL0 = BIT(2),
CG_CON0_DISP_RDMA0 = BIT(3),
CG_CON0_DISP_OVL0_2L = BIT(4),
CG_CON0_DISP_AAL0 = BIT(8),
CG_CON0_DISP_CCORR0 = BIT(9),
CG_CON0_DISP_DITHER0 = BIT(10),
CG_CON0_SMI_INFRA = BIT(11),
CG_CON0_DISP_GAMMA0 = BIT(12),
CG_CON0_DISP_POSTMASK0 = BIT(13),
CG_CON0_DISP_DSI0 = BIT(15),
CG_CON0_DISP_COLOR0 = BIT(16),
CG_CON0_SMI_COMMON = BIT(17),
CG_CON0_SMI_GALS = BIT(27),
CG_CON0_DISP_ALL = CG_CON0_SMI_INFRA |
CG_CON0_SMI_COMMON |
CG_CON0_SMI_GALS |
CG_CON0_DISP_MUTEX0 |
CG_CON0_DISPSYS_CONFIG |
CG_CON0_DISP_OVL0 |
CG_CON0_DISP_RDMA0 |
CG_CON0_DISP_OVL0_2L |
CG_CON0_DISP_AAL0 |
CG_CON0_DISP_CCORR0 |
CG_CON0_DISP_DITHER0 |
CG_CON0_DISP_GAMMA0 |
CG_CON0_DISP_POSTMASK0 |
CG_CON0_DISP_DSI0 |
CG_CON0_DISP_COLOR0,
CG_CON0_ALL = 0xffffffff
};
/* DISP_REG_CONFIG_MMSYS_CG_CON1
Configures free-run clock gating 1
0: Enable clock
1: Clock gating */
enum {
CG_CON1_SMI_IOMMU = BIT(0),
CG_CON1_DISP_ALL = CG_CON1_SMI_IOMMU,
CG_CON1_ALL = 0xffffffff
};
enum {
CG_CON2_DSI_DSI0 = BIT(0),
CG_CON2_DPI_DPI0 = BIT(8),
CG_CON2_MM_26MHZ = BIT(24),
CG_CON2_DISP_ALL = CG_CON2_DSI_DSI0 |
CG_CON2_MM_26MHZ,
CG_CON2_ALL = 0xffffffff
};
enum {
DISP_OVL0_GO_BLEND = BIT(0),
DISP_OVL0_GO_BG = BIT(1),
DISP_OVL0_2L_GO_BLEND = BIT(2),
DISP_OVL0_2L_GO_BG = BIT(3),
OVL0_MOUT_EN_DISP_RDMA0 = BIT(0),
DITHER0_MOUT_DSI0 = BIT(0),
};
enum {
RDMA0_SEL_IN_OVL0_2L = 0x3,
RDMA0_SOUT_COLOR0 = 0x1,
CCORR0_SOUT_AAL0 = 0x1,
AAL0_SEL_IN_CCORR0 = 0x1,
DSI0_SEL_IN_DITHER0 = 0x1,
};
struct disp_mutex_regs {
u32 inten;
u32 intsta;
u32 reserved0[6];
struct {
u32 en;
u32 dummy;
u32 rst;
u32 ctl;
u32 mod;
u32 reserved[3];
} mutex[12];
};
static struct disp_mutex_regs *const disp_mutex = (void *)DISP_MUTEX_BASE;
enum {
MUTEX_MOD_DISP_OVL0 = BIT(0),
MUTEX_MOD_DISP_OVL0_2L = BIT(1),
MUTEX_MOD_DISP_RDMA0 = BIT(2),
MUTEX_MOD_DISP_COLOR0 = BIT(4),
MUTEX_MOD_DISP_CCORR0 = BIT(5),
MUTEX_MOD_DISP_AAL0 = BIT(6),
MUTEX_MOD_DISP_GAMMA0 = BIT(7),
MUTEX_MOD_DISP_POSTMASK0 = BIT(8),
MUTEX_MOD_DISP_DITHER0 = BIT(9),
MUTEX_MOD_MAIN_PATH = MUTEX_MOD_DISP_OVL0 |
MUTEX_MOD_DISP_OVL0_2L |
MUTEX_MOD_DISP_RDMA0 |
MUTEX_MOD_DISP_COLOR0 |
MUTEX_MOD_DISP_CCORR0 |
MUTEX_MOD_DISP_AAL0 |
MUTEX_MOD_DISP_GAMMA0 |
MUTEX_MOD_DISP_POSTMASK0 |
MUTEX_MOD_DISP_DITHER0,
};
enum {
MUTEX_SOF_SINGLE_MODE = 0,
MUTEX_SOF_DSI0 = 1,
MUTEX_SOF_DPI0 = 2,
};
struct disp_ccorr_regs {
u32 en;
u32 reset;
u32 inten;
u32 intsta;
u32 status;
u32 reserved0[3];
u32 cfg;
u32 reserved1[3];
u32 size;
u32 reserved2[27];
u32 shadow;
};
check_member(disp_ccorr_regs, shadow, 0xA0);
struct disp_gamma_regs {
u32 en;
u32 reset;
u32 inten;
u32 intsta;
u32 status;
u32 reserved0[3];
u32 cfg;
u32 reserved1[3];
u32 size;
};
check_member(disp_gamma_regs, size, 0x30);
struct disp_aal_regs {
u32 en;
u32 reset;
u32 inten;
u32 intsta;
u32 status;
u32 reserved0[3];
u32 cfg;
u32 reserved1[3];
u32 size;
u32 reserved2[47];
u32 shadow;
u32 reserved3[249];
u32 output_size;
};
check_member(disp_aal_regs, shadow, 0xF0);
check_member(disp_aal_regs, output_size, 0x4D8);
struct disp_postmask_regs {
u32 en;
u32 reset;
u32 inten;
u32 intsta;
u32 reserved0[4];
u32 cfg;
u32 reserved1[3];
u32 size;
};
check_member(disp_postmask_regs, size, 0x30);
struct disp_dither_regs {
u32 en;
u32 reset;
u32 inten;
u32 intsta;
u32 status;
u32 reserved0[3];
u32 cfg;
u32 reserved1[3];
u32 size;
u32 reserved2[51];
u32 shadow;
};
check_member(disp_dither_regs, shadow, 0x100);
enum {
PQ_EN = BIT(0),
PQ_RELAY_MODE = BIT(0),
PQ_ENGINE_EN = BIT(1),
};
static struct disp_ccorr_regs *const disp_ccorr = (void *)DISP_CCORR0_BASE;
static struct disp_aal_regs *const disp_aal = (void *)DISP_AAL0_BASE;
static struct disp_gamma_regs *const disp_gamma = (void *)DISP_GAMMA0_BASE;
static struct disp_dither_regs *const disp_dither = (void *)DISP_DITHER0_BASE;
static struct disp_postmask_regs *const disp_postmask = (void *)DISP_POSTMASK0_BASE;
enum {
SMI_LARB_PORT_L0_OVL_RDMA0 = 0x388,
};
void mtk_ddp_init(void);
void mtk_ddp_mode_set(const struct edid *edid);
#endif