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linux/drivers/gpu/drm/meson/meson_vclk.c
Christian Hewitt bfbc68e4d8 drm/meson: vclk: fix calculation of 59.94 fractional rates 
Playing 4K media with 59.94 fractional rate (typically VP9) causes the screen to lose
sync with the following error reported in the system log:

[   89.610280] Fatal Error, invalid HDMI vclk freq 593406

Modetest shows the following:

3840x2160 59.94 3840 4016 4104 4400 2160 2168 2178 2250 593407 flags: xxxx, xxxx,
drm calculated value -------------------------------------^

Change the fractional rate calculation to stop DIV_ROUND_CLOSEST rounding down which
results in vclk freq failing to match correctly.

Fixes: e5fab2ec9c ("drm/meson: vclk: add support for YUV420 setup")
Signed-off-by: Christian Hewitt <christianshewitt@gmail.com>
Reviewed-by: Neil Armstrong <neil.armstrong@linaro.org>
Link: https://lore.kernel.org/r/20240109230704.4120561-1-christianshewitt@gmail.com
Signed-off-by: Neil Armstrong <neil.armstrong@linaro.org>
Link: https://patchwork.freedesktop.org/patch/msgid/20240109230704.4120561-1-christianshewitt@gmail.com
2024-03-29 17:12:28 +01:00

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// SPDX-License-Identifier: GPL-2.0-or-later
/*
* Copyright (C) 2016 BayLibre, SAS
* Author: Neil Armstrong <narmstrong@baylibre.com>
* Copyright (C) 2015 Amlogic, Inc. All rights reserved.
*/
#include <linux/export.h>
#include <drm/drm_print.h>
#include "meson_drv.h"
#include "meson_vclk.h"
/**
* DOC: Video Clocks
*
* VCLK is the "Pixel Clock" frequency generator from a dedicated PLL.
* We handle the following encodings :
*
* - CVBS 27MHz generator via the VCLK2 to the VENCI and VDAC blocks
* - HDMI Pixel Clocks generation
*
* What is missing :
*
* - Genenate Pixel clocks for 2K/4K 10bit formats
*
* Clock generator scheme :
*
* .. code::
*
* __________ _________ _____
* | | | | | |--ENCI
* | HDMI PLL |-| PLL_DIV |--- VCLK--| |--ENCL
* |__________| |_________| \ | MUX |--ENCP
* --VCLK2-| |--VDAC
* |_____|--HDMI-TX
*
* Final clocks can take input for either VCLK or VCLK2, but
* VCLK is the preferred path for HDMI clocking and VCLK2 is the
* preferred path for CVBS VDAC clocking.
*
* VCLK and VCLK2 have fixed divided clocks paths for /1, /2, /4, /6 or /12.
*
* The PLL_DIV can achieve an additional fractional dividing like
* 1.5, 3.5, 3.75... to generate special 2K and 4K 10bit clocks.
*/
/* HHI Registers */
#define HHI_VID_PLL_CLK_DIV 0x1a0 /* 0x68 offset in data sheet */
#define VID_PLL_EN BIT(19)
#define VID_PLL_BYPASS BIT(18)
#define VID_PLL_PRESET BIT(15)
#define HHI_VIID_CLK_DIV 0x128 /* 0x4a offset in data sheet */
#define VCLK2_DIV_MASK 0xff
#define VCLK2_DIV_EN BIT(16)
#define VCLK2_DIV_RESET BIT(17)
#define CTS_VDAC_SEL_MASK (0xf << 28)
#define CTS_VDAC_SEL_SHIFT 28
#define HHI_VIID_CLK_CNTL 0x12c /* 0x4b offset in data sheet */
#define VCLK2_EN BIT(19)
#define VCLK2_SEL_MASK (0x7 << 16)
#define VCLK2_SEL_SHIFT 16
#define VCLK2_SOFT_RESET BIT(15)
#define VCLK2_DIV1_EN BIT(0)
#define HHI_VID_CLK_DIV 0x164 /* 0x59 offset in data sheet */
#define VCLK_DIV_MASK 0xff
#define VCLK_DIV_EN BIT(16)
#define VCLK_DIV_RESET BIT(17)
#define CTS_ENCP_SEL_MASK (0xf << 24)
#define CTS_ENCP_SEL_SHIFT 24
#define CTS_ENCI_SEL_MASK (0xf << 28)
#define CTS_ENCI_SEL_SHIFT 28
#define HHI_VID_CLK_CNTL 0x17c /* 0x5f offset in data sheet */
#define VCLK_EN BIT(19)
#define VCLK_SEL_MASK (0x7 << 16)
#define VCLK_SEL_SHIFT 16
#define VCLK_SOFT_RESET BIT(15)
#define VCLK_DIV1_EN BIT(0)
#define VCLK_DIV2_EN BIT(1)
#define VCLK_DIV4_EN BIT(2)
#define VCLK_DIV6_EN BIT(3)
#define VCLK_DIV12_EN BIT(4)
#define HHI_VID_CLK_CNTL2 0x194 /* 0x65 offset in data sheet */
#define CTS_ENCI_EN BIT(0)
#define CTS_ENCP_EN BIT(2)
#define CTS_VDAC_EN BIT(4)
#define HDMI_TX_PIXEL_EN BIT(5)
#define HHI_HDMI_CLK_CNTL 0x1cc /* 0x73 offset in data sheet */
#define HDMI_TX_PIXEL_SEL_MASK (0xf << 16)
#define HDMI_TX_PIXEL_SEL_SHIFT 16
#define CTS_HDMI_SYS_SEL_MASK (0x7 << 9)
#define CTS_HDMI_SYS_DIV_MASK (0x7f)
#define CTS_HDMI_SYS_EN BIT(8)
#define HHI_VDAC_CNTL0 0x2F4 /* 0xbd offset in data sheet */
#define HHI_VDAC_CNTL1 0x2F8 /* 0xbe offset in data sheet */
#define HHI_HDMI_PLL_CNTL 0x320 /* 0xc8 offset in data sheet */
#define HHI_HDMI_PLL_CNTL_EN BIT(30)
#define HHI_HDMI_PLL_CNTL2 0x324 /* 0xc9 offset in data sheet */
#define HHI_HDMI_PLL_CNTL3 0x328 /* 0xca offset in data sheet */
#define HHI_HDMI_PLL_CNTL4 0x32C /* 0xcb offset in data sheet */
#define HHI_HDMI_PLL_CNTL5 0x330 /* 0xcc offset in data sheet */
#define HHI_HDMI_PLL_CNTL6 0x334 /* 0xcd offset in data sheet */
#define HHI_HDMI_PLL_CNTL7 0x338 /* 0xce offset in data sheet */
#define HDMI_PLL_RESET BIT(28)
#define HDMI_PLL_RESET_G12A BIT(29)
#define HDMI_PLL_LOCK BIT(31)
#define HDMI_PLL_LOCK_G12A (3 << 30)
#define FREQ_1000_1001(_freq) DIV_ROUND_CLOSEST(_freq * 1000, 1001)
/* VID PLL Dividers */
enum {
VID_PLL_DIV_1 = 0,
VID_PLL_DIV_2,
VID_PLL_DIV_2p5,
VID_PLL_DIV_3,
VID_PLL_DIV_3p5,
VID_PLL_DIV_3p75,
VID_PLL_DIV_4,
VID_PLL_DIV_5,
VID_PLL_DIV_6,
VID_PLL_DIV_6p25,
VID_PLL_DIV_7,
VID_PLL_DIV_7p5,
VID_PLL_DIV_12,
VID_PLL_DIV_14,
VID_PLL_DIV_15,
};
static void meson_vid_pll_set(struct meson_drm *priv, unsigned int div)
{
unsigned int shift_val = 0;
unsigned int shift_sel = 0;
/* Disable vid_pll output clock */
regmap_update_bits(priv->hhi, HHI_VID_PLL_CLK_DIV, VID_PLL_EN, 0);
regmap_update_bits(priv->hhi, HHI_VID_PLL_CLK_DIV, VID_PLL_PRESET, 0);
switch (div) {
case VID_PLL_DIV_2:
shift_val = 0x0aaa;
shift_sel = 0;
break;
case VID_PLL_DIV_2p5:
shift_val = 0x5294;
shift_sel = 2;
break;
case VID_PLL_DIV_3:
shift_val = 0x0db6;
shift_sel = 0;
break;
case VID_PLL_DIV_3p5:
shift_val = 0x36cc;
shift_sel = 1;
break;
case VID_PLL_DIV_3p75:
shift_val = 0x6666;
shift_sel = 2;
break;
case VID_PLL_DIV_4:
shift_val = 0x0ccc;
shift_sel = 0;
break;
case VID_PLL_DIV_5:
shift_val = 0x739c;
shift_sel = 2;
break;
case VID_PLL_DIV_6:
shift_val = 0x0e38;
shift_sel = 0;
break;
case VID_PLL_DIV_6p25:
shift_val = 0x0000;
shift_sel = 3;
break;
case VID_PLL_DIV_7:
shift_val = 0x3c78;
shift_sel = 1;
break;
case VID_PLL_DIV_7p5:
shift_val = 0x78f0;
shift_sel = 2;
break;
case VID_PLL_DIV_12:
shift_val = 0x0fc0;
shift_sel = 0;
break;
case VID_PLL_DIV_14:
shift_val = 0x3f80;
shift_sel = 1;
break;
case VID_PLL_DIV_15:
shift_val = 0x7f80;
shift_sel = 2;
break;
}
if (div == VID_PLL_DIV_1)
/* Enable vid_pll bypass to HDMI pll */
regmap_update_bits(priv->hhi, HHI_VID_PLL_CLK_DIV,
VID_PLL_BYPASS, VID_PLL_BYPASS);
else {
/* Disable Bypass */
regmap_update_bits(priv->hhi, HHI_VID_PLL_CLK_DIV,
VID_PLL_BYPASS, 0);
/* Clear sel */
regmap_update_bits(priv->hhi, HHI_VID_PLL_CLK_DIV,
3 << 16, 0);
regmap_update_bits(priv->hhi, HHI_VID_PLL_CLK_DIV,
VID_PLL_PRESET, 0);
regmap_update_bits(priv->hhi, HHI_VID_PLL_CLK_DIV,
0x7fff, 0);
/* Setup sel and val */
regmap_update_bits(priv->hhi, HHI_VID_PLL_CLK_DIV,
3 << 16, shift_sel << 16);
regmap_update_bits(priv->hhi, HHI_VID_PLL_CLK_DIV,
VID_PLL_PRESET, VID_PLL_PRESET);
regmap_update_bits(priv->hhi, HHI_VID_PLL_CLK_DIV,
0x7fff, shift_val);
regmap_update_bits(priv->hhi, HHI_VID_PLL_CLK_DIV,
VID_PLL_PRESET, 0);
}
/* Enable the vid_pll output clock */
regmap_update_bits(priv->hhi, HHI_VID_PLL_CLK_DIV,
VID_PLL_EN, VID_PLL_EN);
}
/*
* Setup VCLK2 for 27MHz, and enable clocks for ENCI and VDAC
*
* TOFIX: Refactor into table to also handle HDMI frequency and paths
*/
static void meson_venci_cvbs_clock_config(struct meson_drm *priv)
{
unsigned int val;
/* Setup PLL to output 1.485GHz */
if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXBB)) {
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL, 0x5800023d);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL2, 0x00404e00);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL3, 0x0d5c5091);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL4, 0x801da72c);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL5, 0x71486980);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL6, 0x00000e55);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL, 0x4800023d);
/* Poll for lock bit */
regmap_read_poll_timeout(priv->hhi, HHI_HDMI_PLL_CNTL, val,
(val & HDMI_PLL_LOCK), 10, 0);
} else if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXM) ||
meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXL)) {
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL, 0x4000027b);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL2, 0x800cb300);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL3, 0xa6212844);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL4, 0x0c4d000c);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL5, 0x001fa729);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL6, 0x01a31500);
/* Reset PLL */
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL,
HDMI_PLL_RESET, HDMI_PLL_RESET);
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL,
HDMI_PLL_RESET, 0);
/* Poll for lock bit */
regmap_read_poll_timeout(priv->hhi, HHI_HDMI_PLL_CNTL, val,
(val & HDMI_PLL_LOCK), 10, 0);
} else if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_G12A)) {
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL, 0x1a0504f7);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL2, 0x00010000);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL3, 0x00000000);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL4, 0x6a28dc00);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL5, 0x65771290);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL6, 0x39272000);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL7, 0x56540000);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL, 0x3a0504f7);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL, 0x1a0504f7);
/* Poll for lock bit */
regmap_read_poll_timeout(priv->hhi, HHI_HDMI_PLL_CNTL, val,
((val & HDMI_PLL_LOCK_G12A) == HDMI_PLL_LOCK_G12A),
10, 0);
}
/* Disable VCLK2 */
regmap_update_bits(priv->hhi, HHI_VIID_CLK_CNTL, VCLK2_EN, 0);
/* Setup vid_pll to /1 */
meson_vid_pll_set(priv, VID_PLL_DIV_1);
/* Setup the VCLK2 divider value to achieve 27MHz */
regmap_update_bits(priv->hhi, HHI_VIID_CLK_DIV,
VCLK2_DIV_MASK, (55 - 1));
/* select vid_pll for vclk2 */
if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_G12A))
regmap_update_bits(priv->hhi, HHI_VIID_CLK_CNTL,
VCLK2_SEL_MASK, (0 << VCLK2_SEL_SHIFT));
else
regmap_update_bits(priv->hhi, HHI_VIID_CLK_CNTL,
VCLK2_SEL_MASK, (4 << VCLK2_SEL_SHIFT));
/* enable vclk2 gate */
regmap_update_bits(priv->hhi, HHI_VIID_CLK_CNTL, VCLK2_EN, VCLK2_EN);
/* select vclk_div1 for enci */
regmap_update_bits(priv->hhi, HHI_VID_CLK_DIV,
CTS_ENCI_SEL_MASK, (8 << CTS_ENCI_SEL_SHIFT));
/* select vclk_div1 for vdac */
regmap_update_bits(priv->hhi, HHI_VIID_CLK_DIV,
CTS_VDAC_SEL_MASK, (8 << CTS_VDAC_SEL_SHIFT));
/* release vclk2_div_reset and enable vclk2_div */
regmap_update_bits(priv->hhi, HHI_VIID_CLK_DIV,
VCLK2_DIV_EN | VCLK2_DIV_RESET, VCLK2_DIV_EN);
/* enable vclk2_div1 gate */
regmap_update_bits(priv->hhi, HHI_VIID_CLK_CNTL,
VCLK2_DIV1_EN, VCLK2_DIV1_EN);
/* reset vclk2 */
regmap_update_bits(priv->hhi, HHI_VIID_CLK_CNTL,
VCLK2_SOFT_RESET, VCLK2_SOFT_RESET);
regmap_update_bits(priv->hhi, HHI_VIID_CLK_CNTL,
VCLK2_SOFT_RESET, 0);
/* enable enci_clk */
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL2,
CTS_ENCI_EN, CTS_ENCI_EN);
/* enable vdac_clk */
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL2,
CTS_VDAC_EN, CTS_VDAC_EN);
}
enum {
/* PLL O1 O2 O3 VP DV EN TX */
/* 4320 /4 /4 /1 /5 /1 => /2 /2 */
MESON_VCLK_HDMI_ENCI_54000 = 0,
/* 4320 /4 /4 /1 /5 /1 => /1 /2 */
MESON_VCLK_HDMI_DDR_54000,
/* 2970 /4 /1 /1 /5 /1 => /1 /2 */
MESON_VCLK_HDMI_DDR_148500,
/* 2970 /2 /2 /2 /5 /1 => /1 /1 */
MESON_VCLK_HDMI_74250,
/* 2970 /1 /2 /2 /5 /1 => /1 /1 */
MESON_VCLK_HDMI_148500,
/* 2970 /1 /1 /1 /5 /2 => /1 /1 */
MESON_VCLK_HDMI_297000,
/* 5940 /1 /1 /2 /5 /1 => /1 /1 */
MESON_VCLK_HDMI_594000,
/* 2970 /1 /1 /1 /5 /1 => /1 /2 */
MESON_VCLK_HDMI_594000_YUV420,
};
struct meson_vclk_params {
unsigned int pll_freq;
unsigned int phy_freq;
unsigned int vclk_freq;
unsigned int venc_freq;
unsigned int pixel_freq;
unsigned int pll_od1;
unsigned int pll_od2;
unsigned int pll_od3;
unsigned int vid_pll_div;
unsigned int vclk_div;
} params[] = {
[MESON_VCLK_HDMI_ENCI_54000] = {
.pll_freq = 4320000,
.phy_freq = 270000,
.vclk_freq = 54000,
.venc_freq = 54000,
.pixel_freq = 54000,
.pll_od1 = 4,
.pll_od2 = 4,
.pll_od3 = 1,
.vid_pll_div = VID_PLL_DIV_5,
.vclk_div = 1,
},
[MESON_VCLK_HDMI_DDR_54000] = {
.pll_freq = 4320000,
.phy_freq = 270000,
.vclk_freq = 54000,
.venc_freq = 54000,
.pixel_freq = 27000,
.pll_od1 = 4,
.pll_od2 = 4,
.pll_od3 = 1,
.vid_pll_div = VID_PLL_DIV_5,
.vclk_div = 1,
},
[MESON_VCLK_HDMI_DDR_148500] = {
.pll_freq = 2970000,
.phy_freq = 742500,
.vclk_freq = 148500,
.venc_freq = 148500,
.pixel_freq = 74250,
.pll_od1 = 4,
.pll_od2 = 1,
.pll_od3 = 1,
.vid_pll_div = VID_PLL_DIV_5,
.vclk_div = 1,
},
[MESON_VCLK_HDMI_74250] = {
.pll_freq = 2970000,
.phy_freq = 742500,
.vclk_freq = 74250,
.venc_freq = 74250,
.pixel_freq = 74250,
.pll_od1 = 2,
.pll_od2 = 2,
.pll_od3 = 2,
.vid_pll_div = VID_PLL_DIV_5,
.vclk_div = 1,
},
[MESON_VCLK_HDMI_148500] = {
.pll_freq = 2970000,
.phy_freq = 1485000,
.vclk_freq = 148500,
.venc_freq = 148500,
.pixel_freq = 148500,
.pll_od1 = 1,
.pll_od2 = 2,
.pll_od3 = 2,
.vid_pll_div = VID_PLL_DIV_5,
.vclk_div = 1,
},
[MESON_VCLK_HDMI_297000] = {
.pll_freq = 5940000,
.phy_freq = 2970000,
.venc_freq = 297000,
.vclk_freq = 297000,
.pixel_freq = 297000,
.pll_od1 = 2,
.pll_od2 = 1,
.pll_od3 = 1,
.vid_pll_div = VID_PLL_DIV_5,
.vclk_div = 2,
},
[MESON_VCLK_HDMI_594000] = {
.pll_freq = 5940000,
.phy_freq = 5940000,
.venc_freq = 594000,
.vclk_freq = 594000,
.pixel_freq = 594000,
.pll_od1 = 1,
.pll_od2 = 1,
.pll_od3 = 2,
.vid_pll_div = VID_PLL_DIV_5,
.vclk_div = 1,
},
[MESON_VCLK_HDMI_594000_YUV420] = {
.pll_freq = 5940000,
.phy_freq = 2970000,
.venc_freq = 594000,
.vclk_freq = 594000,
.pixel_freq = 297000,
.pll_od1 = 2,
.pll_od2 = 1,
.pll_od3 = 1,
.vid_pll_div = VID_PLL_DIV_5,
.vclk_div = 1,
},
{ /* sentinel */ },
};
static inline unsigned int pll_od_to_reg(unsigned int od)
{
switch (od) {
case 1:
return 0;
case 2:
return 1;
case 4:
return 2;
case 8:
return 3;
}
/* Invalid */
return 0;
}
static void meson_hdmi_pll_set_params(struct meson_drm *priv, unsigned int m,
unsigned int frac, unsigned int od1,
unsigned int od2, unsigned int od3)
{
unsigned int val;
if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXBB)) {
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL, 0x58000200 | m);
if (frac)
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL2,
0x00004000 | frac);
else
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL2,
0x00000000);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL3, 0x0d5c5091);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL4, 0x801da72c);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL5, 0x71486980);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL6, 0x00000e55);
/* Enable and unreset */
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL,
0x7 << 28, HHI_HDMI_PLL_CNTL_EN);
/* Poll for lock bit */
regmap_read_poll_timeout(priv->hhi, HHI_HDMI_PLL_CNTL,
val, (val & HDMI_PLL_LOCK), 10, 0);
} else if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXM) ||
meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXL)) {
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL, 0x40000200 | m);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL2, 0x800cb000 | frac);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL3, 0x860f30c4);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL4, 0x0c8e0000);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL5, 0x001fa729);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL6, 0x01a31500);
/* Reset PLL */
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL,
HDMI_PLL_RESET, HDMI_PLL_RESET);
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL,
HDMI_PLL_RESET, 0);
/* Poll for lock bit */
regmap_read_poll_timeout(priv->hhi, HHI_HDMI_PLL_CNTL, val,
(val & HDMI_PLL_LOCK), 10, 0);
} else if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_G12A)) {
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL, 0x0b3a0400 | m);
/* Enable and reset */
/* TODO: add specific macro for g12a here */
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL,
0x3 << 28, 0x3 << 28);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL2, frac);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL3, 0x00000000);
/* G12A HDMI PLL Needs specific parameters for 5.4GHz */
if (m >= 0xf7) {
if (frac < 0x10000) {
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL4,
0x6a685c00);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL5,
0x11551293);
} else {
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL4,
0xea68dc00);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL5,
0x65771290);
}
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL6, 0x39272000);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL7, 0x55540000);
} else {
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL4, 0x0a691c00);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL5, 0x33771290);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL6, 0x39270000);
regmap_write(priv->hhi, HHI_HDMI_PLL_CNTL7, 0x50540000);
}
do {
/* Reset PLL */
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL,
HDMI_PLL_RESET_G12A, HDMI_PLL_RESET_G12A);
/* UN-Reset PLL */
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL,
HDMI_PLL_RESET_G12A, 0);
/* Poll for lock bits */
if (!regmap_read_poll_timeout(priv->hhi,
HHI_HDMI_PLL_CNTL, val,
((val & HDMI_PLL_LOCK_G12A)
== HDMI_PLL_LOCK_G12A),
10, 100))
break;
} while(1);
}
if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXBB))
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL2,
3 << 16, pll_od_to_reg(od1) << 16);
else if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXM) ||
meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXL))
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL3,
3 << 21, pll_od_to_reg(od1) << 21);
else if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_G12A))
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL,
3 << 16, pll_od_to_reg(od1) << 16);
if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXBB))
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL2,
3 << 22, pll_od_to_reg(od2) << 22);
else if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXM) ||
meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXL))
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL3,
3 << 23, pll_od_to_reg(od2) << 23);
else if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_G12A))
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL,
3 << 18, pll_od_to_reg(od2) << 18);
if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXBB))
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL2,
3 << 18, pll_od_to_reg(od3) << 18);
else if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXM) ||
meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXL))
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL3,
3 << 19, pll_od_to_reg(od3) << 19);
else if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_G12A))
regmap_update_bits(priv->hhi, HHI_HDMI_PLL_CNTL,
3 << 20, pll_od_to_reg(od3) << 20);
}
#define XTAL_FREQ 24000
static unsigned int meson_hdmi_pll_get_m(struct meson_drm *priv,
unsigned int pll_freq)
{
/* The GXBB PLL has a /2 pre-multiplier */
if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXBB))
pll_freq /= 2;
return pll_freq / XTAL_FREQ;
}
#define HDMI_FRAC_MAX_GXBB 4096
#define HDMI_FRAC_MAX_GXL 1024
#define HDMI_FRAC_MAX_G12A 131072
static unsigned int meson_hdmi_pll_get_frac(struct meson_drm *priv,
unsigned int m,
unsigned int pll_freq)
{
unsigned int parent_freq = XTAL_FREQ;
unsigned int frac_max = HDMI_FRAC_MAX_GXL;
unsigned int frac_m;
unsigned int frac;
/* The GXBB PLL has a /2 pre-multiplier and a larger FRAC width */
if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXBB)) {
frac_max = HDMI_FRAC_MAX_GXBB;
parent_freq *= 2;
}
if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_G12A))
frac_max = HDMI_FRAC_MAX_G12A;
/* We can have a perfect match !*/
if (pll_freq / m == parent_freq &&
pll_freq % m == 0)
return 0;
frac = div_u64((u64)pll_freq * (u64)frac_max, parent_freq);
frac_m = m * frac_max;
if (frac_m > frac)
return frac_max;
frac -= frac_m;
return min((u16)frac, (u16)(frac_max - 1));
}
static bool meson_hdmi_pll_validate_params(struct meson_drm *priv,
unsigned int m,
unsigned int frac)
{
if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXBB)) {
/* Empiric supported min/max dividers */
if (m < 53 || m > 123)
return false;
if (frac >= HDMI_FRAC_MAX_GXBB)
return false;
} else if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXM) ||
meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXL)) {
/* Empiric supported min/max dividers */
if (m < 106 || m > 247)
return false;
if (frac >= HDMI_FRAC_MAX_GXL)
return false;
} else if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_G12A)) {
/* Empiric supported min/max dividers */
if (m < 106 || m > 247)
return false;
if (frac >= HDMI_FRAC_MAX_G12A)
return false;
}
return true;
}
static bool meson_hdmi_pll_find_params(struct meson_drm *priv,
unsigned int freq,
unsigned int *m,
unsigned int *frac,
unsigned int *od)
{
/* Cycle from /16 to /2 */
for (*od = 16 ; *od > 1 ; *od >>= 1) {
*m = meson_hdmi_pll_get_m(priv, freq * *od);
if (!*m)
continue;
*frac = meson_hdmi_pll_get_frac(priv, *m, freq * *od);
DRM_DEBUG_DRIVER("PLL params for %dkHz: m=%x frac=%x od=%d\n",
freq, *m, *frac, *od);
if (meson_hdmi_pll_validate_params(priv, *m, *frac))
return true;
}
return false;
}
/* pll_freq is the frequency after the OD dividers */
enum drm_mode_status
meson_vclk_dmt_supported_freq(struct meson_drm *priv, unsigned int freq)
{
unsigned int od, m, frac;
/* In DMT mode, path after PLL is always /10 */
freq *= 10;
/* Check against soc revision/package limits */
if (priv->limits) {
if (priv->limits->max_hdmi_phy_freq &&
freq > priv->limits->max_hdmi_phy_freq)
return MODE_CLOCK_HIGH;
}
if (meson_hdmi_pll_find_params(priv, freq, &m, &frac, &od))
return MODE_OK;
return MODE_CLOCK_RANGE;
}
EXPORT_SYMBOL_GPL(meson_vclk_dmt_supported_freq);
/* pll_freq is the frequency after the OD dividers */
static void meson_hdmi_pll_generic_set(struct meson_drm *priv,
unsigned int pll_freq)
{
unsigned int od, m, frac, od1, od2, od3;
if (meson_hdmi_pll_find_params(priv, pll_freq, &m, &frac, &od)) {
/* OD2 goes to the PHY, and needs to be *10, so keep OD3=1 */
od3 = 1;
if (od < 4) {
od1 = 2;
od2 = 1;
} else {
od2 = od / 4;
od1 = od / od2;
}
DRM_DEBUG_DRIVER("PLL params for %dkHz: m=%x frac=%x od=%d/%d/%d\n",
pll_freq, m, frac, od1, od2, od3);
meson_hdmi_pll_set_params(priv, m, frac, od1, od2, od3);
return;
}
DRM_ERROR("Fatal, unable to find parameters for PLL freq %d\n",
pll_freq);
}
enum drm_mode_status
meson_vclk_vic_supported_freq(struct meson_drm *priv, unsigned int phy_freq,
unsigned int vclk_freq)
{
int i;
DRM_DEBUG_DRIVER("phy_freq = %d vclk_freq = %d\n",
phy_freq, vclk_freq);
/* Check against soc revision/package limits */
if (priv->limits) {
if (priv->limits->max_hdmi_phy_freq &&
phy_freq > priv->limits->max_hdmi_phy_freq)
return MODE_CLOCK_HIGH;
}
for (i = 0 ; params[i].pixel_freq ; ++i) {
DRM_DEBUG_DRIVER("i = %d pixel_freq = %d alt = %d\n",
i, params[i].pixel_freq,
FREQ_1000_1001(params[i].pixel_freq));
DRM_DEBUG_DRIVER("i = %d phy_freq = %d alt = %d\n",
i, params[i].phy_freq,
FREQ_1000_1001(params[i].phy_freq/1000)*1000);
/* Match strict frequency */
if (phy_freq == params[i].phy_freq &&
vclk_freq == params[i].vclk_freq)
return MODE_OK;
/* Match 1000/1001 variant */
if (phy_freq == (FREQ_1000_1001(params[i].phy_freq/1000)*1000) &&
vclk_freq == FREQ_1000_1001(params[i].vclk_freq))
return MODE_OK;
}
return MODE_CLOCK_RANGE;
}
EXPORT_SYMBOL_GPL(meson_vclk_vic_supported_freq);
static void meson_vclk_set(struct meson_drm *priv, unsigned int pll_base_freq,
unsigned int od1, unsigned int od2, unsigned int od3,
unsigned int vid_pll_div, unsigned int vclk_div,
unsigned int hdmi_tx_div, unsigned int venc_div,
bool hdmi_use_enci, bool vic_alternate_clock)
{
unsigned int m = 0, frac = 0;
/* Set HDMI-TX sys clock */
regmap_update_bits(priv->hhi, HHI_HDMI_CLK_CNTL,
CTS_HDMI_SYS_SEL_MASK, 0);
regmap_update_bits(priv->hhi, HHI_HDMI_CLK_CNTL,
CTS_HDMI_SYS_DIV_MASK, 0);
regmap_update_bits(priv->hhi, HHI_HDMI_CLK_CNTL,
CTS_HDMI_SYS_EN, CTS_HDMI_SYS_EN);
/* Set HDMI PLL rate */
if (!od1 && !od2 && !od3) {
meson_hdmi_pll_generic_set(priv, pll_base_freq);
} else if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXBB)) {
switch (pll_base_freq) {
case 2970000:
m = 0x3d;
frac = vic_alternate_clock ? 0xd02 : 0xe00;
break;
case 4320000:
m = vic_alternate_clock ? 0x59 : 0x5a;
frac = vic_alternate_clock ? 0xe8f : 0;
break;
case 5940000:
m = 0x7b;
frac = vic_alternate_clock ? 0xa05 : 0xc00;
break;
}
meson_hdmi_pll_set_params(priv, m, frac, od1, od2, od3);
} else if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXM) ||
meson_vpu_is_compatible(priv, VPU_COMPATIBLE_GXL)) {
switch (pll_base_freq) {
case 2970000:
m = 0x7b;
frac = vic_alternate_clock ? 0x281 : 0x300;
break;
case 4320000:
m = vic_alternate_clock ? 0xb3 : 0xb4;
frac = vic_alternate_clock ? 0x347 : 0;
break;
case 5940000:
m = 0xf7;
frac = vic_alternate_clock ? 0x102 : 0x200;
break;
}
meson_hdmi_pll_set_params(priv, m, frac, od1, od2, od3);
} else if (meson_vpu_is_compatible(priv, VPU_COMPATIBLE_G12A)) {
switch (pll_base_freq) {
case 2970000:
m = 0x7b;
frac = vic_alternate_clock ? 0x140b4 : 0x18000;
break;
case 4320000:
m = vic_alternate_clock ? 0xb3 : 0xb4;
frac = vic_alternate_clock ? 0x1a3ee : 0;
break;
case 5940000:
m = 0xf7;
frac = vic_alternate_clock ? 0x8148 : 0x10000;
break;
}
meson_hdmi_pll_set_params(priv, m, frac, od1, od2, od3);
}
/* Setup vid_pll divider */
meson_vid_pll_set(priv, vid_pll_div);
/* Set VCLK div */
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL,
VCLK_SEL_MASK, 0);
regmap_update_bits(priv->hhi, HHI_VID_CLK_DIV,
VCLK_DIV_MASK, vclk_div - 1);
/* Set HDMI-TX source */
switch (hdmi_tx_div) {
case 1:
/* enable vclk_div1 gate */
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL,
VCLK_DIV1_EN, VCLK_DIV1_EN);
/* select vclk_div1 for HDMI-TX */
regmap_update_bits(priv->hhi, HHI_HDMI_CLK_CNTL,
HDMI_TX_PIXEL_SEL_MASK, 0);
break;
case 2:
/* enable vclk_div2 gate */
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL,
VCLK_DIV2_EN, VCLK_DIV2_EN);
/* select vclk_div2 for HDMI-TX */
regmap_update_bits(priv->hhi, HHI_HDMI_CLK_CNTL,
HDMI_TX_PIXEL_SEL_MASK, 1 << HDMI_TX_PIXEL_SEL_SHIFT);
break;
case 4:
/* enable vclk_div4 gate */
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL,
VCLK_DIV4_EN, VCLK_DIV4_EN);
/* select vclk_div4 for HDMI-TX */
regmap_update_bits(priv->hhi, HHI_HDMI_CLK_CNTL,
HDMI_TX_PIXEL_SEL_MASK, 2 << HDMI_TX_PIXEL_SEL_SHIFT);
break;
case 6:
/* enable vclk_div6 gate */
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL,
VCLK_DIV6_EN, VCLK_DIV6_EN);
/* select vclk_div6 for HDMI-TX */
regmap_update_bits(priv->hhi, HHI_HDMI_CLK_CNTL,
HDMI_TX_PIXEL_SEL_MASK, 3 << HDMI_TX_PIXEL_SEL_SHIFT);
break;
case 12:
/* enable vclk_div12 gate */
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL,
VCLK_DIV12_EN, VCLK_DIV12_EN);
/* select vclk_div12 for HDMI-TX */
regmap_update_bits(priv->hhi, HHI_HDMI_CLK_CNTL,
HDMI_TX_PIXEL_SEL_MASK, 4 << HDMI_TX_PIXEL_SEL_SHIFT);
break;
}
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL2,
HDMI_TX_PIXEL_EN, HDMI_TX_PIXEL_EN);
/* Set ENCI/ENCP Source */
switch (venc_div) {
case 1:
/* enable vclk_div1 gate */
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL,
VCLK_DIV1_EN, VCLK_DIV1_EN);
if (hdmi_use_enci)
/* select vclk_div1 for enci */
regmap_update_bits(priv->hhi, HHI_VID_CLK_DIV,
CTS_ENCI_SEL_MASK, 0);
else
/* select vclk_div1 for encp */
regmap_update_bits(priv->hhi, HHI_VID_CLK_DIV,
CTS_ENCP_SEL_MASK, 0);
break;
case 2:
/* enable vclk_div2 gate */
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL,
VCLK_DIV2_EN, VCLK_DIV2_EN);
if (hdmi_use_enci)
/* select vclk_div2 for enci */
regmap_update_bits(priv->hhi, HHI_VID_CLK_DIV,
CTS_ENCI_SEL_MASK, 1 << CTS_ENCI_SEL_SHIFT);
else
/* select vclk_div2 for encp */
regmap_update_bits(priv->hhi, HHI_VID_CLK_DIV,
CTS_ENCP_SEL_MASK, 1 << CTS_ENCP_SEL_SHIFT);
break;
case 4:
/* enable vclk_div4 gate */
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL,
VCLK_DIV4_EN, VCLK_DIV4_EN);
if (hdmi_use_enci)
/* select vclk_div4 for enci */
regmap_update_bits(priv->hhi, HHI_VID_CLK_DIV,
CTS_ENCI_SEL_MASK, 2 << CTS_ENCI_SEL_SHIFT);
else
/* select vclk_div4 for encp */
regmap_update_bits(priv->hhi, HHI_VID_CLK_DIV,
CTS_ENCP_SEL_MASK, 2 << CTS_ENCP_SEL_SHIFT);
break;
case 6:
/* enable vclk_div6 gate */
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL,
VCLK_DIV6_EN, VCLK_DIV6_EN);
if (hdmi_use_enci)
/* select vclk_div6 for enci */
regmap_update_bits(priv->hhi, HHI_VID_CLK_DIV,
CTS_ENCI_SEL_MASK, 3 << CTS_ENCI_SEL_SHIFT);
else
/* select vclk_div6 for encp */
regmap_update_bits(priv->hhi, HHI_VID_CLK_DIV,
CTS_ENCP_SEL_MASK, 3 << CTS_ENCP_SEL_SHIFT);
break;
case 12:
/* enable vclk_div12 gate */
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL,
VCLK_DIV12_EN, VCLK_DIV12_EN);
if (hdmi_use_enci)
/* select vclk_div12 for enci */
regmap_update_bits(priv->hhi, HHI_VID_CLK_DIV,
CTS_ENCI_SEL_MASK, 4 << CTS_ENCI_SEL_SHIFT);
else
/* select vclk_div12 for encp */
regmap_update_bits(priv->hhi, HHI_VID_CLK_DIV,
CTS_ENCP_SEL_MASK, 4 << CTS_ENCP_SEL_SHIFT);
break;
}
if (hdmi_use_enci)
/* Enable ENCI clock gate */
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL2,
CTS_ENCI_EN, CTS_ENCI_EN);
else
/* Enable ENCP clock gate */
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL2,
CTS_ENCP_EN, CTS_ENCP_EN);
regmap_update_bits(priv->hhi, HHI_VID_CLK_CNTL, VCLK_EN, VCLK_EN);
}
void meson_vclk_setup(struct meson_drm *priv, unsigned int target,
unsigned int phy_freq, unsigned int vclk_freq,
unsigned int venc_freq, unsigned int dac_freq,
bool hdmi_use_enci)
{
bool vic_alternate_clock = false;
unsigned int freq;
unsigned int hdmi_tx_div;
unsigned int venc_div;
if (target == MESON_VCLK_TARGET_CVBS) {
meson_venci_cvbs_clock_config(priv);
return;
} else if (target == MESON_VCLK_TARGET_DMT) {
/*
* The DMT clock path is fixed after the PLL:
* - automatic PLL freq + OD management
* - vid_pll_div = VID_PLL_DIV_5
* - vclk_div = 2
* - hdmi_tx_div = 1
* - venc_div = 1
* - encp encoder
*/
meson_vclk_set(priv, phy_freq, 0, 0, 0,
VID_PLL_DIV_5, 2, 1, 1, false, false);
return;
}
hdmi_tx_div = vclk_freq / dac_freq;
if (hdmi_tx_div == 0) {
pr_err("Fatal Error, invalid HDMI-TX freq %d\n",
dac_freq);
return;
}
venc_div = vclk_freq / venc_freq;
if (venc_div == 0) {
pr_err("Fatal Error, invalid HDMI venc freq %d\n",
venc_freq);
return;
}
for (freq = 0 ; params[freq].pixel_freq ; ++freq) {
if ((phy_freq == params[freq].phy_freq ||
phy_freq == FREQ_1000_1001(params[freq].phy_freq/1000)*1000) &&
(vclk_freq == params[freq].vclk_freq ||
vclk_freq == FREQ_1000_1001(params[freq].vclk_freq))) {
if (vclk_freq != params[freq].vclk_freq)
vic_alternate_clock = true;
else
vic_alternate_clock = false;
if (freq == MESON_VCLK_HDMI_ENCI_54000 &&
!hdmi_use_enci)
continue;
if (freq == MESON_VCLK_HDMI_DDR_54000 &&
hdmi_use_enci)
continue;
if (freq == MESON_VCLK_HDMI_DDR_148500 &&
dac_freq == vclk_freq)
continue;
if (freq == MESON_VCLK_HDMI_148500 &&
dac_freq != vclk_freq)
continue;
break;
}
}
if (!params[freq].pixel_freq) {
pr_err("Fatal Error, invalid HDMI vclk freq %d\n", vclk_freq);
return;
}
meson_vclk_set(priv, params[freq].pll_freq,
params[freq].pll_od1, params[freq].pll_od2,
params[freq].pll_od3, params[freq].vid_pll_div,
params[freq].vclk_div, hdmi_tx_div, venc_div,
hdmi_use_enci, vic_alternate_clock);
}
EXPORT_SYMBOL_GPL(meson_vclk_setup);
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