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e01b1bfd88
linux/drivers/gpu/drm/msm/dsi/phy/dsi_phy_28nm.c
Hai Li e01b1bfd88 drm/msm/dsi: Updata LNn_CFG4 register settings for 28nm PHY 
The current settings for 28nm PHY data lane CFG4 registers do
not work with certain panels. This change is to modify them to
hw recommended values.

Signed-off-by: Hai Li <hali@codeaurora.org>
Signed-off-by: Rob Clark <robdclark@gmail.com>
2015-10-22 15:39:54 -04:00

165 lines
5.4 KiB
C
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/*
* Copyright (c) 2015, The Linux Foundation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
* only version 2 as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#include "dsi_phy.h"
#include "dsi.xml.h"
static void dsi_28nm_dphy_set_timing(struct msm_dsi_phy *phy,
struct msm_dsi_dphy_timing *timing)
{
void __iomem *base = phy->base;
dsi_phy_write(base + REG_DSI_28nm_PHY_TIMING_CTRL_0,
DSI_28nm_PHY_TIMING_CTRL_0_CLK_ZERO(timing->clk_zero));
dsi_phy_write(base + REG_DSI_28nm_PHY_TIMING_CTRL_1,
DSI_28nm_PHY_TIMING_CTRL_1_CLK_TRAIL(timing->clk_trail));
dsi_phy_write(base + REG_DSI_28nm_PHY_TIMING_CTRL_2,
DSI_28nm_PHY_TIMING_CTRL_2_CLK_PREPARE(timing->clk_prepare));
if (timing->clk_zero & BIT(8))
dsi_phy_write(base + REG_DSI_28nm_PHY_TIMING_CTRL_3,
DSI_28nm_PHY_TIMING_CTRL_3_CLK_ZERO_8);
dsi_phy_write(base + REG_DSI_28nm_PHY_TIMING_CTRL_4,
DSI_28nm_PHY_TIMING_CTRL_4_HS_EXIT(timing->hs_exit));
dsi_phy_write(base + REG_DSI_28nm_PHY_TIMING_CTRL_5,
DSI_28nm_PHY_TIMING_CTRL_5_HS_ZERO(timing->hs_zero));
dsi_phy_write(base + REG_DSI_28nm_PHY_TIMING_CTRL_6,
DSI_28nm_PHY_TIMING_CTRL_6_HS_PREPARE(timing->hs_prepare));
dsi_phy_write(base + REG_DSI_28nm_PHY_TIMING_CTRL_7,
DSI_28nm_PHY_TIMING_CTRL_7_HS_TRAIL(timing->hs_trail));
dsi_phy_write(base + REG_DSI_28nm_PHY_TIMING_CTRL_8,
DSI_28nm_PHY_TIMING_CTRL_8_HS_RQST(timing->hs_rqst));
dsi_phy_write(base + REG_DSI_28nm_PHY_TIMING_CTRL_9,
DSI_28nm_PHY_TIMING_CTRL_9_TA_GO(timing->ta_go) |
DSI_28nm_PHY_TIMING_CTRL_9_TA_SURE(timing->ta_sure));
dsi_phy_write(base + REG_DSI_28nm_PHY_TIMING_CTRL_10,
DSI_28nm_PHY_TIMING_CTRL_10_TA_GET(timing->ta_get));
dsi_phy_write(base + REG_DSI_28nm_PHY_TIMING_CTRL_11,
DSI_28nm_PHY_TIMING_CTRL_11_TRIG3_CMD(0));
}
static void dsi_28nm_phy_regulator_ctrl(struct msm_dsi_phy *phy, bool enable)
{
void __iomem *base = phy->reg_base;
if (!enable) {
dsi_phy_write(base + REG_DSI_28nm_PHY_REGULATOR_CAL_PWR_CFG, 0);
return;
}
dsi_phy_write(base + REG_DSI_28nm_PHY_REGULATOR_CTRL_0, 0x0);
dsi_phy_write(base + REG_DSI_28nm_PHY_REGULATOR_CAL_PWR_CFG, 1);
dsi_phy_write(base + REG_DSI_28nm_PHY_REGULATOR_CTRL_5, 0);
dsi_phy_write(base + REG_DSI_28nm_PHY_REGULATOR_CTRL_3, 0);
dsi_phy_write(base + REG_DSI_28nm_PHY_REGULATOR_CTRL_2, 0x3);
dsi_phy_write(base + REG_DSI_28nm_PHY_REGULATOR_CTRL_1, 0x9);
dsi_phy_write(base + REG_DSI_28nm_PHY_REGULATOR_CTRL_0, 0x7);
dsi_phy_write(base + REG_DSI_28nm_PHY_REGULATOR_CTRL_4, 0x20);
}
static int dsi_28nm_phy_enable(struct msm_dsi_phy *phy, int src_pll_id,
const unsigned long bit_rate, const unsigned long esc_rate)
{
struct msm_dsi_dphy_timing *timing = &phy->timing;
int i;
void __iomem *base = phy->base;
DBG("");
if (msm_dsi_dphy_timing_calc(timing, bit_rate, esc_rate)) {
dev_err(&phy->pdev->dev,
"%s: D-PHY timing calculation failed\n", __func__);
return -EINVAL;
}
dsi_phy_write(base + REG_DSI_28nm_PHY_STRENGTH_0, 0xff);
dsi_28nm_phy_regulator_ctrl(phy, true);
dsi_phy_write(base + REG_DSI_28nm_PHY_LDO_CNTRL, 0x00);
dsi_28nm_dphy_set_timing(phy, timing);
dsi_phy_write(base + REG_DSI_28nm_PHY_CTRL_1, 0x00);
dsi_phy_write(base + REG_DSI_28nm_PHY_CTRL_0, 0x5f);
dsi_phy_write(base + REG_DSI_28nm_PHY_STRENGTH_1, 0x6);
for (i = 0; i < 4; i++) {
dsi_phy_write(base + REG_DSI_28nm_PHY_LN_CFG_0(i), 0);
dsi_phy_write(base + REG_DSI_28nm_PHY_LN_CFG_1(i), 0);
dsi_phy_write(base + REG_DSI_28nm_PHY_LN_CFG_2(i), 0);
dsi_phy_write(base + REG_DSI_28nm_PHY_LN_CFG_3(i), 0);
dsi_phy_write(base + REG_DSI_28nm_PHY_LN_CFG_4(i), 0);
dsi_phy_write(base + REG_DSI_28nm_PHY_LN_TEST_DATAPATH(i), 0);
dsi_phy_write(base + REG_DSI_28nm_PHY_LN_DEBUG_SEL(i), 0);
dsi_phy_write(base + REG_DSI_28nm_PHY_LN_TEST_STR_0(i), 0x1);
dsi_phy_write(base + REG_DSI_28nm_PHY_LN_TEST_STR_1(i), 0x97);
}
dsi_phy_write(base + REG_DSI_28nm_PHY_LNCK_CFG_4, 0);
dsi_phy_write(base + REG_DSI_28nm_PHY_LNCK_CFG_1, 0xc0);
dsi_phy_write(base + REG_DSI_28nm_PHY_LNCK_TEST_STR0, 0x1);
dsi_phy_write(base + REG_DSI_28nm_PHY_LNCK_TEST_STR1, 0xbb);
dsi_phy_write(base + REG_DSI_28nm_PHY_CTRL_0, 0x5f);
msm_dsi_phy_set_src_pll(phy, src_pll_id,
REG_DSI_28nm_PHY_GLBL_TEST_CTRL,
DSI_28nm_PHY_GLBL_TEST_CTRL_BITCLK_HS_SEL);
return 0;
}
static void dsi_28nm_phy_disable(struct msm_dsi_phy *phy)
{
dsi_phy_write(phy->base + REG_DSI_28nm_PHY_CTRL_0, 0);
dsi_28nm_phy_regulator_ctrl(phy, false);
/*
* Wait for the registers writes to complete in order to
* ensure that the phy is completely disabled
*/
wmb();
}
const struct msm_dsi_phy_cfg dsi_phy_28nm_hpm_cfgs = {
.type = MSM_DSI_PHY_28NM_HPM,
.src_pll_truthtable = { {true, true}, {false, true} },
.reg_cfg = {
.num = 1,
.regs = {
{"vddio", 1800000, 1800000, 100000, 100},
},
},
.ops = {
.enable = dsi_28nm_phy_enable,
.disable = dsi_28nm_phy_disable,
},
};
const struct msm_dsi_phy_cfg dsi_phy_28nm_lp_cfgs = {
.type = MSM_DSI_PHY_28NM_LP,
.src_pll_truthtable = { {true, true}, {true, true} },
.reg_cfg = {
.num = 1,
.regs = {
{"vddio", 1800000, 1800000, 100000, 100},
},
},
.ops = {
.enable = dsi_28nm_phy_enable,
.disable = dsi_28nm_phy_disable,
},
};
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