Commit 937f941c authored by Stephen Boyd's avatar Stephen Boyd Committed by Rob Clark

drm/msm/dp: Use qmp phy for DP PLL and PHY

Make the necessary changes to the DP driver to use the qmp phy from the
common phy framework instead of rolling our own in the drm subsystem.
This also removes the PLL code and adds proper includes so things build.

Cc: Jeykumar Sankaran <jsanka@codeaurora.org>
Cc: Chandan Uddaraju <chandanu@codeaurora.org>
Cc: Vara Reddy <varar@codeaurora.org>
Cc: Tanmay Shah <tanmay@codeaurora.org>
Cc: Bjorn Andersson <bjorn.andersson@linaro.org>
Cc: Manu Gautam <mgautam@codeaurora.org>
Cc: Sandeep Maheswaram <sanm@codeaurora.org>
Cc: Douglas Anderson <dianders@chromium.org>
Cc: Sean Paul <seanpaul@chromium.org>
Cc: Jonathan Marek <jonathan@marek.ca>
Cc: Dmitry Baryshkov <dmitry.baryshkov@linaro.org>
Cc: Rob Clark <robdclark@chromium.org>
Signed-off-by: default avatarStephen Boyd <swboyd@chromium.org>
Signed-off-by: default avatarRob Clark <robdclark@chromium.org>
parent ab205927
...@@ -111,8 +111,6 @@ msm-$(CONFIG_DRM_MSM_DP)+= dp/dp_aux.o \ ...@@ -111,8 +111,6 @@ msm-$(CONFIG_DRM_MSM_DP)+= dp/dp_aux.o \
dp/dp_panel.o \ dp/dp_panel.o \
dp/dp_parser.o \ dp/dp_parser.o \
dp/dp_power.o \ dp/dp_power.o \
dp/dp_pll.o \
dp/dp_pll_10nm.o \
dp/dp_audio.o dp/dp_audio.o
msm-$(CONFIG_DRM_FBDEV_EMULATION) += msm_fbdev.o msm-$(CONFIG_DRM_FBDEV_EMULATION) += msm_fbdev.o
......
...@@ -4,6 +4,7 @@ ...@@ -4,6 +4,7 @@
*/ */
#include <linux/delay.h> #include <linux/delay.h>
#include <drm/drm_print.h>
#include "dp_reg.h" #include "dp_reg.h"
#include "dp_aux.h" #include "dp_aux.h"
...@@ -380,8 +381,7 @@ static ssize_t dp_aux_transfer(struct drm_dp_aux *dp_aux, ...@@ -380,8 +381,7 @@ static ssize_t dp_aux_transfer(struct drm_dp_aux *dp_aux,
if (aux->native) { if (aux->native) {
aux->retry_cnt++; aux->retry_cnt++;
if (!(aux->retry_cnt % retry_count)) if (!(aux->retry_cnt % retry_count))
dp_catalog_aux_update_cfg(aux->catalog, dp_catalog_aux_update_cfg(aux->catalog);
PHY_AUX_CFG1);
dp_catalog_aux_reset(aux->catalog); dp_catalog_aux_reset(aux->catalog);
} }
usleep_range(400, 500); /* at least 400us to next try */ usleep_range(400, 500); /* at least 400us to next try */
...@@ -438,7 +438,7 @@ void dp_aux_reconfig(struct drm_dp_aux *dp_aux) ...@@ -438,7 +438,7 @@ void dp_aux_reconfig(struct drm_dp_aux *dp_aux)
aux = container_of(dp_aux, struct dp_aux_private, dp_aux); aux = container_of(dp_aux, struct dp_aux_private, dp_aux);
dp_catalog_aux_update_cfg(aux->catalog, PHY_AUX_CFG1); dp_catalog_aux_update_cfg(aux->catalog);
dp_catalog_aux_reset(aux->catalog); dp_catalog_aux_reset(aux->catalog);
} }
...@@ -453,7 +453,6 @@ void dp_aux_init(struct drm_dp_aux *dp_aux) ...@@ -453,7 +453,6 @@ void dp_aux_init(struct drm_dp_aux *dp_aux)
aux = container_of(dp_aux, struct dp_aux_private, dp_aux); aux = container_of(dp_aux, struct dp_aux_private, dp_aux);
dp_catalog_aux_setup(aux->catalog);
dp_catalog_aux_enable(aux->catalog, true); dp_catalog_aux_enable(aux->catalog, true);
aux->retry_cnt = 0; aux->retry_cnt = 0;
} }
......
...@@ -8,8 +8,11 @@ ...@@ -8,8 +8,11 @@
#include <linux/rational.h> #include <linux/rational.h>
#include <linux/delay.h> #include <linux/delay.h>
#include <linux/iopoll.h> #include <linux/iopoll.h>
#include <linux/phy/phy.h>
#include <linux/phy/phy-dp.h>
#include <linux/rational.h> #include <linux/rational.h>
#include <drm/drm_dp_helper.h> #include <drm/drm_dp_helper.h>
#include <drm/drm_print.h>
#include "dp_catalog.h" #include "dp_catalog.h"
#include "dp_reg.h" #include "dp_reg.h"
...@@ -52,41 +55,6 @@ ...@@ -52,41 +55,6 @@
#define DP_INTERRUPT_STATUS2_MASK \ #define DP_INTERRUPT_STATUS2_MASK \
(DP_INTERRUPT_STATUS2 << DP_INTERRUPT_STATUS_MASK_SHIFT) (DP_INTERRUPT_STATUS2 << DP_INTERRUPT_STATUS_MASK_SHIFT)
static u8 const vm_pre_emphasis_hbr_rbr[4][4] = {
{0x00, 0x0C, 0x14, 0x19},
{0x00, 0x0B, 0x12, 0xFF},
{0x00, 0x0B, 0xFF, 0xFF},
{0x04, 0xFF, 0xFF, 0xFF}
};
static u8 const vm_voltage_swing_hbr_rbr[4][4] = {
{0x08, 0x0F, 0x16, 0x1F},
{0x11, 0x1E, 0x1F, 0xFF},
{0x19, 0x1F, 0xFF, 0xFF},
{0x1F, 0xFF, 0xFF, 0xFF}
};
/* AUX look-up-table configurations
* Pair of offset and config values for each LUT
*/
static u8 const aux_lut_offset[] = {
0x20, 0x24, 0x28, 0x2C, 0x30, 0x34, 0x38, 0x3C, 0x40, 0x44
};
static u8 const
aux_lut_value[PHY_AUX_CFG_MAX][DP_AUX_CFG_MAX_VALUE_CNT] = {
{ 0x00, 0x00, 0x00, },
{ 0x13, 0x23, 0x1d, },
{ 0x24, 0x00, 0x00, },
{ 0x00, 0x00, 0x00, },
{ 0x0A, 0x00, 0x00, },
{ 0x26, 0x00, 0x00, },
{ 0x0A, 0x00, 0x00, },
{ 0x03, 0x00, 0x00, },
{ 0xBB, 0x00, 0x00, },
{ 0x03, 0x00, 0x00, }
};
struct dp_catalog_private { struct dp_catalog_private {
struct device *dev; struct device *dev;
struct dp_io *io; struct dp_io *io;
...@@ -129,83 +97,6 @@ static inline void dp_write_ahb(struct dp_catalog_private *catalog, ...@@ -129,83 +97,6 @@ static inline void dp_write_ahb(struct dp_catalog_private *catalog,
writel(data, catalog->io->dp_controller.base + offset); writel(data, catalog->io->dp_controller.base + offset);
} }
static inline void dp_write_phy(struct dp_catalog_private *catalog,
u32 offset, u32 data)
{
offset += DP_PHY_REG_OFFSET;
/*
* To make sure phy reg writes happens before any other operation,
* this function uses writel() instread of writel_relaxed()
*/
writel(data, catalog->io->phy_reg.base + offset);
}
static inline u32 dp_read_phy(struct dp_catalog_private *catalog,
u32 offset)
{
offset += DP_PHY_REG_OFFSET;
/*
* To make sure phy reg writes happens before any other operation,
* this function uses writel() instread of writel_relaxed()
*/
return readl_relaxed(catalog->io->phy_reg.base + offset);
}
static inline void dp_write_pll(struct dp_catalog_private *catalog,
u32 offset, u32 data)
{
offset += DP_PHY_PLL_OFFSET;
writel_relaxed(data, catalog->io->phy_reg.base + offset);
}
static inline void dp_write_ln_tx0(struct dp_catalog_private *catalog,
u32 offset, u32 data)
{
offset += DP_PHY_LN_TX0_OFFSET;
writel_relaxed(data, catalog->io->phy_reg.base + offset);
}
static inline void dp_write_ln_tx1(struct dp_catalog_private *catalog,
u32 offset, u32 data)
{
offset += DP_PHY_LN_TX1_OFFSET;
writel_relaxed(data, catalog->io->phy_reg.base + offset);
}
static inline u32 dp_read_ln_tx0(struct dp_catalog_private *catalog,
u32 offset)
{
offset += DP_PHY_LN_TX0_OFFSET;
return readl_relaxed(catalog->io->phy_reg.base + offset);
}
static inline u32 dp_read_ln_tx1(struct dp_catalog_private *catalog,
u32 offset)
{
offset += DP_PHY_LN_TX1_OFFSET;
return readl_relaxed(catalog->io->phy_reg.base + offset);
}
static inline void dp_write_usb_cm(struct dp_catalog_private *catalog,
u32 offset, u32 data)
{
/*
* To make sure usb reg writes happens before any other operation,
* this function uses writel() instread of writel_relaxed()
*/
writel(data, catalog->io->usb3_dp_com.base + offset);
}
static inline u32 dp_read_usb_cm(struct dp_catalog_private *catalog,
u32 offset)
{
/*
* To make sure usb reg writes happens before any other operation,
* this function uses writel() instread of writel_relaxed()
*/
return readl_relaxed(catalog->io->usb3_dp_com.base + offset);
}
static inline void dp_write_p0(struct dp_catalog_private *catalog, static inline void dp_write_p0(struct dp_catalog_private *catalog,
u32 offset, u32 data) u32 offset, u32 data)
{ {
...@@ -335,27 +226,14 @@ void dp_catalog_aux_enable(struct dp_catalog *dp_catalog, bool enable) ...@@ -335,27 +226,14 @@ void dp_catalog_aux_enable(struct dp_catalog *dp_catalog, bool enable)
dp_write_aux(catalog, REG_DP_AUX_CTRL, aux_ctrl); dp_write_aux(catalog, REG_DP_AUX_CTRL, aux_ctrl);
} }
void dp_catalog_aux_update_cfg(struct dp_catalog *dp_catalog, void dp_catalog_aux_update_cfg(struct dp_catalog *dp_catalog)
enum dp_phy_aux_config_type type)
{ {
struct dp_catalog_private *catalog = container_of(dp_catalog, struct dp_catalog_private *catalog = container_of(dp_catalog,
struct dp_catalog_private, dp_catalog); struct dp_catalog_private, dp_catalog);
u32 new_index = 0, current_index = 0; struct dp_io *dp_io = catalog->io;
struct phy *phy = dp_io->phy;
if (type >= PHY_AUX_CFG_MAX) { phy_calibrate(phy);
DRM_ERROR("invalid input\n");
return;
}
current_index = catalog->aux_lut_cfg_index[type];
new_index = (current_index + 1) % DP_AUX_CFG_MAX_VALUE_CNT;
DRM_DEBUG_DP("Updating PHY_AUX_CFG%d from 0x%08x to 0x%08x\n",
type, aux_lut_value[type][current_index],
aux_lut_value[type][new_index]);
dp_write_phy(catalog, aux_lut_offset[type],
aux_lut_value[type][new_index]);
catalog->aux_lut_cfg_index[type] = new_index;
} }
static void dump_regs(void __iomem *base, int len) static void dump_regs(void __iomem *base, int len)
...@@ -401,64 +279,6 @@ void dp_catalog_dump_regs(struct dp_catalog *dp_catalog) ...@@ -401,64 +279,6 @@ void dp_catalog_dump_regs(struct dp_catalog *dp_catalog)
offset = MSM_DP_CONTROLLER_P0_OFFSET; offset = MSM_DP_CONTROLLER_P0_OFFSET;
len = MSM_DP_CONTROLLER_P0_SIZE; len = MSM_DP_CONTROLLER_P0_SIZE;
dump_regs(catalog->io->dp_controller.base + offset, len); dump_regs(catalog->io->dp_controller.base + offset, len);
pr_info("USB3 DP COM regs\n");
dump_regs(catalog->io->usb3_dp_com.base, catalog->io->usb3_dp_com.len);
pr_info("LN TX0 regs\n");
dump_regs(catalog->io->phy_reg.base + DP_PHY_LN_TX0_OFFSET,
DP_PHY_LN_TX0_SIZE);
pr_info("LN TX1 regs\n");
dump_regs(catalog->io->phy_reg.base + DP_PHY_LN_TX1_OFFSET,
DP_PHY_LN_TX1_SIZE);
pr_info("DP PHY regs\n");
dump_regs(catalog->io->phy_reg.base + DP_PHY_REG_OFFSET,
DP_PHY_REG_SIZE);
}
void dp_catalog_aux_setup(struct dp_catalog *dp_catalog)
{
struct dp_catalog_private *catalog = container_of(dp_catalog,
struct dp_catalog_private, dp_catalog);
int i = 0;
dp_write_phy(catalog, REG_DP_PHY_PD_CTL, DP_PHY_PD_CTL_PWRDN |
DP_PHY_PD_CTL_AUX_PWRDN | DP_PHY_PD_CTL_PLL_PWRDN |
DP_PHY_PD_CTL_DP_CLAMP_EN);
/* Turn on BIAS current for PHY/PLL */
dp_write_pll(catalog,
QSERDES_COM_BIAS_EN_CLKBUFLR_EN, QSERDES_COM_BIAS_EN |
QSERDES_COM_BIAS_EN_MUX | QSERDES_COM_CLKBUF_L_EN |
QSERDES_COM_EN_SYSCLK_TX_SEL);
dp_write_phy(catalog, REG_DP_PHY_PD_CTL, DP_PHY_PD_CTL_PSR_PWRDN);
dp_write_phy(catalog, REG_DP_PHY_PD_CTL, DP_PHY_PD_CTL_PWRDN |
DP_PHY_PD_CTL_AUX_PWRDN | DP_PHY_PD_CTL_LANE_0_1_PWRDN
| DP_PHY_PD_CTL_LANE_2_3_PWRDN | DP_PHY_PD_CTL_PLL_PWRDN
| DP_PHY_PD_CTL_DP_CLAMP_EN);
dp_write_pll(catalog,
QSERDES_COM_BIAS_EN_CLKBUFLR_EN, QSERDES_COM_BIAS_EN |
QSERDES_COM_BIAS_EN_MUX | QSERDES_COM_CLKBUF_R_EN |
QSERDES_COM_CLKBUF_L_EN | QSERDES_COM_EN_SYSCLK_TX_SEL |
QSERDES_COM_CLKBUF_RX_DRIVE_L);
/* DP AUX CFG register programming */
for (i = 0; i < PHY_AUX_CFG_MAX; i++) {
DRM_DEBUG_DP("PHY_AUX_CFG%ds: offset=0x%08x, value=0x%08x\n",
i, aux_lut_offset[i], aux_lut_value[i][0]);
dp_write_phy(catalog, aux_lut_offset[i],
aux_lut_value[i][0]);
}
dp_write_phy(catalog, REG_DP_PHY_AUX_INTERRUPT_MASK,
PHY_AUX_STOP_ERR_MASK | PHY_AUX_DEC_ERR_MASK |
PHY_AUX_SYNC_ERR_MASK | PHY_AUX_ALIGN_ERR_MASK |
PHY_AUX_REQ_ERR_MASK);
} }
int dp_catalog_aux_get_irq(struct dp_catalog *dp_catalog) int dp_catalog_aux_get_irq(struct dp_catalog *dp_catalog)
...@@ -585,7 +405,7 @@ void dp_catalog_ctrl_config_msa(struct dp_catalog *dp_catalog, ...@@ -585,7 +405,7 @@ void dp_catalog_ctrl_config_msa(struct dp_catalog *dp_catalog,
bool fixed_nvid) bool fixed_nvid)
{ {
u32 pixel_m, pixel_n; u32 pixel_m, pixel_n;
u32 mvid, nvid, div, pixel_div = 0, dispcc_input_rate; u32 mvid, nvid, pixel_div = 0, dispcc_input_rate;
u32 const nvid_fixed = DP_LINK_CONSTANT_N_VALUE; u32 const nvid_fixed = DP_LINK_CONSTANT_N_VALUE;
u32 const link_rate_hbr2 = 540000; u32 const link_rate_hbr2 = 540000;
u32 const link_rate_hbr3 = 810000; u32 const link_rate_hbr3 = 810000;
...@@ -594,14 +414,11 @@ void dp_catalog_ctrl_config_msa(struct dp_catalog *dp_catalog, ...@@ -594,14 +414,11 @@ void dp_catalog_ctrl_config_msa(struct dp_catalog *dp_catalog,
struct dp_catalog_private *catalog = container_of(dp_catalog, struct dp_catalog_private *catalog = container_of(dp_catalog,
struct dp_catalog_private, dp_catalog); struct dp_catalog_private, dp_catalog);
div = dp_read_phy(catalog, REG_DP_PHY_VCO_DIV); if (rate == link_rate_hbr3)
div &= 0x03;
if (div == 0)
pixel_div = 6; pixel_div = 6;
else if (div == 1) else if (rate == 1620000 || rate == 270000)
pixel_div = 2; pixel_div = 2;
else if (div == 2) else if (rate == link_rate_hbr2)
pixel_div = 4; pixel_div = 4;
else else
DRM_ERROR("Invalid pixel mux divider\n"); DRM_ERROR("Invalid pixel mux divider\n");
...@@ -667,36 +484,6 @@ int dp_catalog_ctrl_set_pattern(struct dp_catalog *dp_catalog, ...@@ -667,36 +484,6 @@ int dp_catalog_ctrl_set_pattern(struct dp_catalog *dp_catalog,
return 0; return 0;
} }
void dp_catalog_ctrl_usb_reset(struct dp_catalog *dp_catalog, bool flip)
{
struct dp_catalog_private *catalog = container_of(dp_catalog,
struct dp_catalog_private, dp_catalog);
u32 typec_ctrl;
dp_write_usb_cm(catalog, REG_USB3_DP_COM_RESET_OVRD_CTRL,
USB3_DP_COM_OVRD_CTRL_SW_DPPHY_RESET_MUX |
USB3_DP_COM_OVRD_CTRL_SW_USB3PHY_RESET_MUX);
dp_write_usb_cm(catalog, REG_USB3_DP_COM_PHY_MODE_CTRL,
USB3_DP_COM_PHY_MODE_DP);
dp_write_usb_cm(catalog, REG_USB3_DP_COM_SW_RESET,
USB3_DP_COM_SW_RESET_SET);
/* Default configuration i.e CC1 */
typec_ctrl = USB3_DP_COM_TYPEC_CTRL_PORTSEL_MUX;
if (flip)
typec_ctrl |= USB3_DP_COM_TYPEC_CTRL_PORTSEL;
dp_write_usb_cm(catalog, REG_USB3_DP_COM_TYPEC_CTRL, typec_ctrl);
dp_write_usb_cm(catalog, REG_USB3_DP_COM_SWI_CTRL, 0x00);
dp_write_usb_cm(catalog, REG_USB3_DP_COM_SW_RESET, 0x00);
dp_write_usb_cm(catalog, REG_USB3_DP_COM_POWER_DOWN_CTRL,
USB3_DP_COM_POWER_DOWN_CTRL_SW_PWRDN);
dp_write_usb_cm(catalog, REG_USB3_DP_COM_RESET_OVRD_CTRL, 0x00);
}
void dp_catalog_ctrl_reset(struct dp_catalog *dp_catalog) void dp_catalog_ctrl_reset(struct dp_catalog *dp_catalog)
{ {
u32 sw_reset; u32 sw_reset;
...@@ -820,58 +607,26 @@ void dp_catalog_ctrl_phy_reset(struct dp_catalog *dp_catalog) ...@@ -820,58 +607,26 @@ void dp_catalog_ctrl_phy_reset(struct dp_catalog *dp_catalog)
struct dp_catalog_private, dp_catalog); struct dp_catalog_private, dp_catalog);
dp_write_ahb(catalog, REG_DP_PHY_CTRL, dp_write_ahb(catalog, REG_DP_PHY_CTRL,
DP_PHY_CTRL_SW_RESET_PLL | DP_PHY_CTRL_SW_RESET); DP_PHY_CTRL_SW_RESET | DP_PHY_CTRL_SW_RESET_PLL);
usleep_range(1000, 1100); /* h/w recommended delay */ usleep_range(1000, 1100); /* h/w recommended delay */
dp_write_ahb(catalog, REG_DP_PHY_CTRL, 0x0); dp_write_ahb(catalog, REG_DP_PHY_CTRL, 0x0);
} }
void dp_catalog_ctrl_phy_lane_cfg(struct dp_catalog *dp_catalog,
bool flipped, u8 ln_cnt)
{
u32 info;
struct dp_catalog_private *catalog = container_of(dp_catalog,
struct dp_catalog_private, dp_catalog);
u8 orientation = BIT(!!flipped);
info = ln_cnt & DP_PHY_SPARE0_MASK;
info |= (orientation & DP_PHY_SPARE0_MASK)
<< DP_PHY_SPARE0_ORIENTATION_INFO_SHIFT;
DRM_DEBUG_DP("Shared Info = 0x%x\n", info);
dp_write_phy(catalog, REG_DP_PHY_SPARE0, info);
}
int dp_catalog_ctrl_update_vx_px(struct dp_catalog *dp_catalog, int dp_catalog_ctrl_update_vx_px(struct dp_catalog *dp_catalog,
u8 v_level, u8 p_level) u8 v_level, u8 p_level)
{ {
struct dp_catalog_private *catalog = container_of(dp_catalog, struct dp_catalog_private *catalog = container_of(dp_catalog,
struct dp_catalog_private, dp_catalog); struct dp_catalog_private, dp_catalog);
u8 voltage_swing_cfg, pre_emphasis_cfg; struct dp_io *dp_io = catalog->io;
struct phy *phy = dp_io->phy;
DRM_DEBUG_DP("hw: v=%d p=%d\n", v_level, p_level); struct phy_configure_opts_dp *opts_dp = &dp_io->phy_opts.dp;
voltage_swing_cfg = vm_voltage_swing_hbr_rbr[v_level][p_level];
pre_emphasis_cfg = vm_pre_emphasis_hbr_rbr[v_level][p_level];
if (voltage_swing_cfg == 0xFF && pre_emphasis_cfg == 0xFF) {
DRM_ERROR("invalid vx (0x%x=0x%x), px (0x%x=0x%x\n",
v_level, voltage_swing_cfg, p_level, pre_emphasis_cfg);
return -EINVAL;
}
/* Enable MUX to use Cursor values from these registers */ /* TODO: Update for all lanes instead of just first one */
voltage_swing_cfg |= DP_PHY_TXn_TX_DRV_LVL_MUX_EN; opts_dp->voltage[0] = v_level;
pre_emphasis_cfg |= DP_PHY_TXn_TX_EMP_POST1_LVL_MUX_EN; opts_dp->pre[0] = p_level;
opts_dp->set_voltages = 1;
/* Configure host and panel only if both values are allowed */ phy_configure(phy, &dp_io->phy_opts);
dp_write_ln_tx0(catalog, REG_DP_PHY_TXn_TX_DRV_LVL, voltage_swing_cfg); opts_dp->set_voltages = 0;
dp_write_ln_tx1(catalog, REG_DP_PHY_TXn_TX_DRV_LVL, voltage_swing_cfg);
dp_write_ln_tx0(catalog, REG_DP_PHY_TXn_TX_EMP_POST1_LVL,
pre_emphasis_cfg);
dp_write_ln_tx1(catalog, REG_DP_PHY_TXn_TX_EMP_POST1_LVL,
pre_emphasis_cfg);
DRM_DEBUG_DP("hw: vx_value=0x%x px_value=0x%x\n",
voltage_swing_cfg, pre_emphasis_cfg);
return 0; return 0;
} }
......
...@@ -6,6 +6,8 @@ ...@@ -6,6 +6,8 @@
#ifndef _DP_CATALOG_H_ #ifndef _DP_CATALOG_H_
#define _DP_CATALOG_H_ #define _DP_CATALOG_H_
#include <drm/drm_modes.h>
#include "dp_parser.h" #include "dp_parser.h"
/* interrupts */ /* interrupts */
...@@ -77,9 +79,7 @@ int dp_catalog_aux_clear_trans(struct dp_catalog *dp_catalog, bool read); ...@@ -77,9 +79,7 @@ int dp_catalog_aux_clear_trans(struct dp_catalog *dp_catalog, bool read);
int dp_catalog_aux_clear_hw_interrupts(struct dp_catalog *dp_catalog); int dp_catalog_aux_clear_hw_interrupts(struct dp_catalog *dp_catalog);
void dp_catalog_aux_reset(struct dp_catalog *dp_catalog); void dp_catalog_aux_reset(struct dp_catalog *dp_catalog);
void dp_catalog_aux_enable(struct dp_catalog *dp_catalog, bool enable); void dp_catalog_aux_enable(struct dp_catalog *dp_catalog, bool enable);
void dp_catalog_aux_update_cfg(struct dp_catalog *dp_catalog, void dp_catalog_aux_update_cfg(struct dp_catalog *dp_catalog);
enum dp_phy_aux_config_type type);
void dp_catalog_aux_setup(struct dp_catalog *dp_catalog);
int dp_catalog_aux_get_irq(struct dp_catalog *dp_catalog); int dp_catalog_aux_get_irq(struct dp_catalog *dp_catalog);
/* DP Controller APIs */ /* DP Controller APIs */
...@@ -92,7 +92,6 @@ void dp_catalog_ctrl_config_msa(struct dp_catalog *dp_catalog, u32 rate, ...@@ -92,7 +92,6 @@ void dp_catalog_ctrl_config_msa(struct dp_catalog *dp_catalog, u32 rate,
u32 stream_rate_khz, bool fixed_nvid); u32 stream_rate_khz, bool fixed_nvid);
int dp_catalog_ctrl_set_pattern(struct dp_catalog *dp_catalog, u32 pattern); int dp_catalog_ctrl_set_pattern(struct dp_catalog *dp_catalog, u32 pattern);
void dp_catalog_ctrl_reset(struct dp_catalog *dp_catalog); void dp_catalog_ctrl_reset(struct dp_catalog *dp_catalog);
void dp_catalog_ctrl_usb_reset(struct dp_catalog *dp_catalog, bool flip);
bool dp_catalog_ctrl_mainlink_ready(struct dp_catalog *dp_catalog); bool dp_catalog_ctrl_mainlink_ready(struct dp_catalog *dp_catalog);
void dp_catalog_ctrl_enable_irq(struct dp_catalog *dp_catalog, bool enable); void dp_catalog_ctrl_enable_irq(struct dp_catalog *dp_catalog, bool enable);
void dp_catalog_hpd_config_intr(struct dp_catalog *dp_catalog, void dp_catalog_hpd_config_intr(struct dp_catalog *dp_catalog,
...@@ -100,8 +99,6 @@ void dp_catalog_hpd_config_intr(struct dp_catalog *dp_catalog, ...@@ -100,8 +99,6 @@ void dp_catalog_hpd_config_intr(struct dp_catalog *dp_catalog,
void dp_catalog_ctrl_hpd_config(struct dp_catalog *dp_catalog); void dp_catalog_ctrl_hpd_config(struct dp_catalog *dp_catalog);
u32 dp_catalog_hpd_get_intr_status(struct dp_catalog *dp_catalog); u32 dp_catalog_hpd_get_intr_status(struct dp_catalog *dp_catalog);
void dp_catalog_ctrl_phy_reset(struct dp_catalog *dp_catalog); void dp_catalog_ctrl_phy_reset(struct dp_catalog *dp_catalog);
void dp_catalog_ctrl_phy_lane_cfg(struct dp_catalog *dp_catalog, bool flipped,
u8 lane_cnt);
int dp_catalog_ctrl_update_vx_px(struct dp_catalog *dp_catalog, u8 v_level, int dp_catalog_ctrl_update_vx_px(struct dp_catalog *dp_catalog, u8 v_level,
u8 p_level); u8 p_level);
int dp_catalog_ctrl_get_interrupt(struct dp_catalog *dp_catalog); int dp_catalog_ctrl_get_interrupt(struct dp_catalog *dp_catalog);
......
...@@ -8,8 +8,11 @@ ...@@ -8,8 +8,11 @@
#include <linux/types.h> #include <linux/types.h>
#include <linux/completion.h> #include <linux/completion.h>
#include <linux/delay.h> #include <linux/delay.h>
#include <linux/phy/phy.h>
#include <linux/phy/phy-dp.h>
#include <drm/drm_fixed.h> #include <drm/drm_fixed.h>
#include <drm/drm_dp_helper.h> #include <drm/drm_dp_helper.h>
#include <drm/drm_print.h>
#include "dp_reg.h" #include "dp_reg.h"
#include "dp_ctrl.h" #include "dp_ctrl.h"
...@@ -1302,7 +1305,7 @@ static int dp_ctrl_setup_main_link(struct dp_ctrl_private *ctrl, ...@@ -1302,7 +1305,7 @@ static int dp_ctrl_setup_main_link(struct dp_ctrl_private *ctrl,
} }
static void dp_ctrl_set_clock_rate(struct dp_ctrl_private *ctrl, static void dp_ctrl_set_clock_rate(struct dp_ctrl_private *ctrl,
enum dp_pm_type module, char *name, u32 rate) enum dp_pm_type module, char *name, unsigned long rate)
{ {
u32 num = ctrl->parser->mp[module].num_clk; u32 num = ctrl->parser->mp[module].num_clk;
struct dss_clk *cfg = ctrl->parser->mp[module].clk_config; struct dss_clk *cfg = ctrl->parser->mp[module].clk_config;
...@@ -1312,23 +1315,29 @@ static void dp_ctrl_set_clock_rate(struct dp_ctrl_private *ctrl, ...@@ -1312,23 +1315,29 @@ static void dp_ctrl_set_clock_rate(struct dp_ctrl_private *ctrl,
cfg++; cfg++;
} }
DRM_DEBUG_DP("setting rate=%d on clk=%s\n", rate, name); DRM_DEBUG_DP("setting rate=%lu on clk=%s\n", rate, name);
if (num) if (num)
cfg->rate = rate; cfg->rate = rate;
else else
DRM_ERROR("%s clock doesn't exit to set rate %d\n", DRM_ERROR("%s clock doesn't exit to set rate %lu\n",
name, rate); name, rate);
} }
static int dp_ctrl_enable_mainlink_clocks(struct dp_ctrl_private *ctrl) static int dp_ctrl_enable_mainlink_clocks(struct dp_ctrl_private *ctrl)
{ {
int ret = 0; int ret = 0;
struct dp_io *dp_io = &ctrl->parser->io;
struct phy *phy = dp_io->phy;
struct phy_configure_opts_dp *opts_dp = &dp_io->phy_opts.dp;
dp_power_set_link_clk_parent(ctrl->power); opts_dp->lanes = ctrl->link->link_params.num_lanes;
opts_dp->link_rate = ctrl->link->link_params.rate / 100;
dp_ctrl_set_clock_rate(ctrl, DP_CTRL_PM, "ctrl_link", dp_ctrl_set_clock_rate(ctrl, DP_CTRL_PM, "ctrl_link",
ctrl->link->link_params.rate); ctrl->link->link_params.rate * 1000);
phy_configure(phy, &dp_io->phy_opts);
phy_power_on(phy);
ret = dp_power_clk_enable(ctrl->power, DP_CTRL_PM, true); ret = dp_power_clk_enable(ctrl->power, DP_CTRL_PM, true);
if (ret) if (ret)
...@@ -1345,7 +1354,7 @@ static int dp_ctrl_enable_stream_clocks(struct dp_ctrl_private *ctrl) ...@@ -1345,7 +1354,7 @@ static int dp_ctrl_enable_stream_clocks(struct dp_ctrl_private *ctrl)
int ret = 0; int ret = 0;
dp_ctrl_set_clock_rate(ctrl, DP_STREAM_PM, "stream_pixel", dp_ctrl_set_clock_rate(ctrl, DP_STREAM_PM, "stream_pixel",
ctrl->dp_ctrl.pixel_rate); ctrl->dp_ctrl.pixel_rate * 1000);
ret = dp_power_clk_enable(ctrl->power, DP_STREAM_PM, true); ret = dp_power_clk_enable(ctrl->power, DP_STREAM_PM, true);
if (ret) if (ret)
...@@ -1360,6 +1369,8 @@ static int dp_ctrl_enable_stream_clocks(struct dp_ctrl_private *ctrl) ...@@ -1360,6 +1369,8 @@ static int dp_ctrl_enable_stream_clocks(struct dp_ctrl_private *ctrl)
int dp_ctrl_host_init(struct dp_ctrl *dp_ctrl, bool flip) int dp_ctrl_host_init(struct dp_ctrl *dp_ctrl, bool flip)
{ {
struct dp_ctrl_private *ctrl; struct dp_ctrl_private *ctrl;
struct dp_io *dp_io;
struct phy *phy;
if (!dp_ctrl) { if (!dp_ctrl) {
DRM_ERROR("Invalid input data\n"); DRM_ERROR("Invalid input data\n");
...@@ -1367,11 +1378,13 @@ int dp_ctrl_host_init(struct dp_ctrl *dp_ctrl, bool flip) ...@@ -1367,11 +1378,13 @@ int dp_ctrl_host_init(struct dp_ctrl *dp_ctrl, bool flip)
} }
ctrl = container_of(dp_ctrl, struct dp_ctrl_private, dp_ctrl); ctrl = container_of(dp_ctrl, struct dp_ctrl_private, dp_ctrl);
dp_io = &ctrl->parser->io;
phy = dp_io->phy;
ctrl->dp_ctrl.orientation = flip; ctrl->dp_ctrl.orientation = flip;
dp_catalog_ctrl_usb_reset(ctrl->catalog, flip);
dp_catalog_ctrl_phy_reset(ctrl->catalog); dp_catalog_ctrl_phy_reset(ctrl->catalog);
phy_init(phy);
dp_catalog_ctrl_enable_irq(ctrl->catalog, true); dp_catalog_ctrl_enable_irq(ctrl->catalog, true);
return 0; return 0;
...@@ -1420,10 +1433,13 @@ static bool dp_ctrl_use_fixed_nvid(struct dp_ctrl_private *ctrl) ...@@ -1420,10 +1433,13 @@ static bool dp_ctrl_use_fixed_nvid(struct dp_ctrl_private *ctrl)
static int dp_ctrl_reinitialize_mainlink(struct dp_ctrl_private *ctrl) static int dp_ctrl_reinitialize_mainlink(struct dp_ctrl_private *ctrl)
{ {
int ret = 0; int ret = 0;
struct dp_io *dp_io = &ctrl->parser->io;
struct phy *phy = dp_io->phy;
struct phy_configure_opts_dp *opts_dp = &dp_io->phy_opts.dp;
dp_catalog_ctrl_mainlink_ctrl(ctrl->catalog, false); dp_catalog_ctrl_mainlink_ctrl(ctrl->catalog, false);
dp_catalog_ctrl_phy_lane_cfg(ctrl->catalog, opts_dp->lanes = ctrl->link->link_params.num_lanes;
ctrl->dp_ctrl.orientation, ctrl->link->link_params.num_lanes); phy_configure(phy, &dp_io->phy_opts);
/* /*
* Disable and re-enable the mainlink clock since the * Disable and re-enable the mainlink clock since the
* link clock might have been adjusted as part of the * link clock might have been adjusted as part of the
...@@ -1434,6 +1450,7 @@ static int dp_ctrl_reinitialize_mainlink(struct dp_ctrl_private *ctrl) ...@@ -1434,6 +1450,7 @@ static int dp_ctrl_reinitialize_mainlink(struct dp_ctrl_private *ctrl)
DRM_ERROR("Failed to disable clocks. ret=%d\n", ret); DRM_ERROR("Failed to disable clocks. ret=%d\n", ret);
return ret; return ret;
} }
phy_power_off(phy);
/* hw recommended delay before re-enabling clocks */ /* hw recommended delay before re-enabling clocks */
msleep(20); msleep(20);
...@@ -1622,10 +1639,6 @@ int dp_ctrl_on_link(struct dp_ctrl *dp_ctrl) ...@@ -1622,10 +1639,6 @@ int dp_ctrl_on_link(struct dp_ctrl *dp_ctrl)
ctrl->link->link_params.rate, ctrl->link->link_params.rate,
ctrl->link->link_params.num_lanes, ctrl->dp_ctrl.pixel_rate); ctrl->link->link_params.num_lanes, ctrl->dp_ctrl.pixel_rate);
dp_catalog_ctrl_phy_lane_cfg(ctrl->catalog,
ctrl->dp_ctrl.orientation,
ctrl->link->link_params.num_lanes);
rc = dp_ctrl_enable_mainlink_clocks(ctrl); rc = dp_ctrl_enable_mainlink_clocks(ctrl);
if (rc) if (rc)
return rc; return rc;
...@@ -1763,12 +1776,16 @@ int dp_ctrl_on_stream(struct dp_ctrl *dp_ctrl) ...@@ -1763,12 +1776,16 @@ int dp_ctrl_on_stream(struct dp_ctrl *dp_ctrl)
int dp_ctrl_off(struct dp_ctrl *dp_ctrl) int dp_ctrl_off(struct dp_ctrl *dp_ctrl)
{ {
struct dp_ctrl_private *ctrl; struct dp_ctrl_private *ctrl;
struct dp_io *dp_io;
struct phy *phy;
int ret = 0; int ret = 0;
if (!dp_ctrl) if (!dp_ctrl)
return -EINVAL; return -EINVAL;
ctrl = container_of(dp_ctrl, struct dp_ctrl_private, dp_ctrl); ctrl = container_of(dp_ctrl, struct dp_ctrl_private, dp_ctrl);
dp_io = &ctrl->parser->io;
phy = dp_io->phy;
dp_catalog_ctrl_mainlink_ctrl(ctrl->catalog, false); dp_catalog_ctrl_mainlink_ctrl(ctrl->catalog, false);
...@@ -1783,6 +1800,9 @@ int dp_ctrl_off(struct dp_ctrl *dp_ctrl) ...@@ -1783,6 +1800,9 @@ int dp_ctrl_off(struct dp_ctrl *dp_ctrl)
DRM_ERROR("Failed to disable link clocks. ret=%d\n", ret); DRM_ERROR("Failed to disable link clocks. ret=%d\n", ret);
} }
phy_power_off(phy);
phy_exit(phy);
DRM_DEBUG_DP("DP off done\n"); DRM_DEBUG_DP("DP off done\n");
return ret; return ret;
} }
......
...@@ -24,7 +24,6 @@ ...@@ -24,7 +24,6 @@
#include "dp_ctrl.h" #include "dp_ctrl.h"
#include "dp_display.h" #include "dp_display.h"
#include "dp_drm.h" #include "dp_drm.h"
#include "dp_pll.h"
#include "dp_audio.h" #include "dp_audio.h"
#include "dp_debug.h" #include "dp_debug.h"
...@@ -91,7 +90,6 @@ struct dp_display_private { ...@@ -91,7 +90,6 @@ struct dp_display_private {
struct dp_usbpd *usbpd; struct dp_usbpd *usbpd;
struct dp_parser *parser; struct dp_parser *parser;
struct msm_dp_pll *pll;
struct dp_power *power; struct dp_power *power;
struct dp_catalog *catalog; struct dp_catalog *catalog;
struct drm_dp_aux *aux; struct drm_dp_aux *aux;
...@@ -659,7 +657,6 @@ static void dp_display_deinit_sub_modules(struct dp_display_private *dp) ...@@ -659,7 +657,6 @@ static void dp_display_deinit_sub_modules(struct dp_display_private *dp)
dp_ctrl_put(dp->ctrl); dp_ctrl_put(dp->ctrl);
dp_panel_put(dp->panel); dp_panel_put(dp->panel);
dp_aux_put(dp->aux); dp_aux_put(dp->aux);
dp_pll_put(dp->pll);
dp_audio_put(dp->audio); dp_audio_put(dp->audio);
} }
...@@ -671,9 +668,6 @@ static int dp_init_sub_modules(struct dp_display_private *dp) ...@@ -671,9 +668,6 @@ static int dp_init_sub_modules(struct dp_display_private *dp)
struct dp_panel_in panel_in = { struct dp_panel_in panel_in = {
.dev = dev, .dev = dev,
}; };
struct dp_pll_in pll_in = {
.pdev = dp->pdev,
};
/* Callback APIs used for cable status change event */ /* Callback APIs used for cable status change event */
cb->configure = dp_display_usbpd_configure_cb; cb->configure = dp_display_usbpd_configure_cb;
...@@ -704,17 +698,6 @@ static int dp_init_sub_modules(struct dp_display_private *dp) ...@@ -704,17 +698,6 @@ static int dp_init_sub_modules(struct dp_display_private *dp)
goto error; goto error;
} }
pll_in.parser = dp->parser;
dp->pll = dp_pll_get(&pll_in);
if (IS_ERR_OR_NULL(dp->pll)) {
rc = -EINVAL;
DRM_ERROR("failed to initialize pll, rc = %d\n", rc);
dp->pll = NULL;
goto error;
}
dp->parser->pll = dp->pll;
dp->power = dp_power_get(dp->parser); dp->power = dp_power_get(dp->parser);
if (IS_ERR(dp->power)) { if (IS_ERR(dp->power)) {
rc = PTR_ERR(dp->power); rc = PTR_ERR(dp->power);
......
...@@ -36,7 +36,4 @@ bool dp_display_check_video_test(struct msm_dp *dp_display); ...@@ -36,7 +36,4 @@ bool dp_display_check_video_test(struct msm_dp *dp_display);
int dp_display_get_test_bpp(struct msm_dp *dp_display); int dp_display_get_test_bpp(struct msm_dp *dp_display);
void dp_display_signal_audio_complete(struct msm_dp *dp_display); void dp_display_signal_audio_complete(struct msm_dp *dp_display);
void __init msm_dp_pll_driver_register(void);
void __exit msm_dp_pll_driver_unregister(void);
#endif /* _DP_DISPLAY_H_ */ #endif /* _DP_DISPLAY_H_ */
...@@ -5,6 +5,8 @@ ...@@ -5,6 +5,8 @@
#define pr_fmt(fmt) "[drm-dp] %s: " fmt, __func__ #define pr_fmt(fmt) "[drm-dp] %s: " fmt, __func__
#include <drm/drm_print.h>
#include "dp_link.h" #include "dp_link.h"
#include "dp_panel.h" #include "dp_panel.h"
......
...@@ -7,6 +7,7 @@ ...@@ -7,6 +7,7 @@
#include <drm/drm_connector.h> #include <drm/drm_connector.h>
#include <drm/drm_edid.h> #include <drm/drm_edid.h>
#include <drm/drm_print.h>
struct dp_panel_private { struct dp_panel_private {
struct device *dev; struct device *dev;
......
...@@ -4,6 +4,9 @@ ...@@ -4,6 +4,9 @@
*/ */
#include <linux/of_gpio.h> #include <linux/of_gpio.h>
#include <linux/phy/phy.h>
#include <drm/drm_print.h>
#include "dp_parser.h" #include "dp_parser.h"
#include "dp_reg.h" #include "dp_reg.h"
...@@ -53,8 +56,6 @@ static void dp_parser_unmap_io_resources(struct dp_parser *parser) ...@@ -53,8 +56,6 @@ static void dp_parser_unmap_io_resources(struct dp_parser *parser)
struct dp_io *io = &parser->io; struct dp_io *io = &parser->io;
msm_dss_iounmap(&io->dp_controller); msm_dss_iounmap(&io->dp_controller);
msm_dss_iounmap(&io->phy_reg);
msm_dss_iounmap(&io->usb3_dp_com);
} }
static int dp_parser_ctrl_res(struct dp_parser *parser) static int dp_parser_ctrl_res(struct dp_parser *parser)
...@@ -69,6 +70,12 @@ static int dp_parser_ctrl_res(struct dp_parser *parser) ...@@ -69,6 +70,12 @@ static int dp_parser_ctrl_res(struct dp_parser *parser)
goto err; goto err;
} }
io->phy = devm_phy_get(&pdev->dev, "dp");
if (IS_ERR(io->phy)) {
rc = PTR_ERR(io->phy);
goto err;
}
return 0; return 0;
err: err:
dp_parser_unmap_io_resources(parser); dp_parser_unmap_io_resources(parser);
...@@ -90,7 +97,6 @@ static int dp_parser_misc(struct dp_parser *parser) ...@@ -90,7 +97,6 @@ static int dp_parser_misc(struct dp_parser *parser)
} }
parser->max_dp_lanes = len; parser->max_dp_lanes = len;
return 0; return 0;
} }
......
...@@ -7,10 +7,11 @@ ...@@ -7,10 +7,11 @@
#define _DP_PARSER_H_ #define _DP_PARSER_H_
#include <linux/platform_device.h> #include <linux/platform_device.h>
#include <linux/phy/phy.h>
#include <linux/phy/phy-dp.h>
#include "dpu_io_util.h" #include "dpu_io_util.h"
#include "msm_drv.h" #include "msm_drv.h"
#include "dp_pll.h"
#define DP_LABEL "MDSS DP DISPLAY" #define DP_LABEL "MDSS DP DISPLAY"
#define DP_MAX_PIXEL_CLK_KHZ 675000 #define DP_MAX_PIXEL_CLK_KHZ 675000
...@@ -62,15 +63,11 @@ struct dp_display_data { ...@@ -62,15 +63,11 @@ struct dp_display_data {
* *
* @dp_controller: Display Port controller mapped memory address * @dp_controller: Display Port controller mapped memory address
* @phy_io: phy's mapped memory address * @phy_io: phy's mapped memory address
* @ln_tx0_io: USB-DP lane TX0's mapped memory address
* @ln_tx1_io: USB-DP lane TX1's mapped memory address
* @dp_pll_io: DP PLL mapped memory address
* @usb3_dp_com: USB3 DP PHY combo mapped memory address
*/ */
struct dp_io { struct dp_io {
struct dss_io_data dp_controller; struct dss_io_data dp_controller;
struct dss_io_data phy_reg; struct phy *phy;
struct dss_io_data usb3_dp_com; union phy_configure_opts phy_opts;
}; };
/** /**
...@@ -117,7 +114,6 @@ struct dp_parser { ...@@ -117,7 +114,6 @@ struct dp_parser {
struct dp_pinctrl pinctrl; struct dp_pinctrl pinctrl;
struct dp_io io; struct dp_io io;
struct dp_display_data disp_data; struct dp_display_data disp_data;
struct msm_dp_pll *pll;
const struct dp_regulator_cfg *regulator_cfg; const struct dp_regulator_cfg *regulator_cfg;
u32 max_dp_lanes; u32 max_dp_lanes;
......
// SPDX-License-Identifier: GPL-2.0-only
/*
* Copyright (c) 2016-2020, The Linux Foundation. All rights reserved.
*/
#include <linux/device.h>
#include "dp_parser.h"
#include "dp_pll.h"
#include "dp_pll_private.h"
static int dp_pll_get_phy_io(struct dp_parser *parser)
{
struct dp_io *io = &parser->io;
io->usb3_dp_com.base = ioremap(REG_USB3_DP_COM_REGION_BASE,
REG_USB3_DP_COM_REGION_SIZE);
if (!io->usb3_dp_com.base) {
DRM_ERROR("unable to map USB3 DP COM IO\n");
return -EIO;
}
/* ToDo(user): DP PLL and DP PHY will not be part of
* DP driver eventually so for now Hardcode Base and offsets
* of PHY registers so we can remove them from dts and bindings
*/
io->phy_reg.base = ioremap(REG_DP_PHY_REGION_BASE,
REG_DP_PHY_REGION_SIZE);
if (!io->phy_reg.base) {
DRM_ERROR("DP PHY io region mapping failed\n");
return -EIO;
}
io->phy_reg.len = REG_DP_PHY_REGION_SIZE;
return 0;
}
static int msm_dp_pll_init(struct msm_dp_pll *pll,
enum msm_dp_pll_type type, int id)
{
struct device *dev = &pll->pdev->dev;
int ret = 0;
switch (type) {
case MSM_DP_PLL_10NM:
ret = msm_dp_pll_10nm_init(pll, id);
break;
default:
DRM_DEV_ERROR(dev, "%s: Wrong PLL type %d\n", __func__, type);
return -ENXIO;
}
if (ret) {
DRM_DEV_ERROR(dev, "%s: failed to init DP PLL\n", __func__);
return ret;
}
pll->type = type;
DRM_DEBUG_DP("DP:%d PLL registered", id);
return ret;
}
struct msm_dp_pll *dp_pll_get(struct dp_pll_in *pll_in)
{
struct msm_dp_pll *dp_pll;
struct dp_parser *parser = pll_in->parser;
struct dp_io_pll *pll_io;
int ret;
dp_pll = devm_kzalloc(&pll_in->pdev->dev, sizeof(*dp_pll), GFP_KERNEL);
if (!dp_pll)
return ERR_PTR(-ENOMEM);
pll_io = &dp_pll->pll_io;
dp_pll->pdev = pll_in->pdev;
dp_pll_get_phy_io(parser);
pll_io->pll_base = parser->io.phy_reg.base + DP_PHY_PLL_OFFSET;
pll_io->phy_base = parser->io.phy_reg.base + DP_PHY_REG_OFFSET;
pll_io->ln_tx0_base = parser->io.phy_reg.base + DP_PHY_LN_TX0_OFFSET;
pll_io->ln_tx1_base = parser->io.phy_reg.base + DP_PHY_LN_TX1_OFFSET;
ret = msm_dp_pll_init(dp_pll, MSM_DP_PLL_10NM, 0);
if (ret) {
kfree(dp_pll);
return ERR_PTR(ret);
}
return dp_pll;
}
void dp_pll_put(struct msm_dp_pll *dp_pll)
{
if (dp_pll->type == MSM_DP_PLL_10NM)
msm_dp_pll_10nm_deinit(dp_pll);
}
/* SPDX-License-Identifier: GPL-2.0-only */
/*
* Copyright (c) 2016-2020, The Linux Foundation. All rights reserved.
*/
#ifndef __DP_PLL_H
#define __DP_PLL_H
#include <linux/clk.h>
#include <linux/clk-provider.h>
#include <linux/platform_device.h>
#include "dpu_io_util.h"
#include "msm_drv.h"
#include "dp_parser.h"
#define PLL_REG_W(base, offset, data) \
writel((data), (base) + (offset))
#define PLL_REG_R(base, offset) readl((base) + (offset))
enum msm_dp_pll_type {
MSM_DP_PLL_10NM,
MSM_DP_PLL_MAX
};
struct dp_pll_in {
struct platform_device *pdev;
struct dp_parser *parser;
};
struct dp_io_pll {
void __iomem *pll_base;
void __iomem *phy_base;
void __iomem *ln_tx0_base;
void __iomem *ln_tx1_base;
};
struct msm_dp_pll {
enum msm_dp_pll_type type;
bool pll_on;
struct dp_io_pll pll_io;
/* clock-provider: */
struct clk_hw_onecell_data *hw_data;
struct platform_device *pdev;
void *priv;
/* Pll specific resources like GPIO, power supply, clocks, etc*/
struct dss_module_power mp;
int (*get_provider)(struct msm_dp_pll *pll,
struct clk **link_clk_provider,
struct clk **pixel_clk_provider);
};
struct msm_dp_pll *dp_pll_get(struct dp_pll_in *pll_in);
void dp_pll_put(struct msm_dp_pll *dp_pll);
#endif /* __DP_PLL_H */
// SPDX-License-Identifier: GPL-2.0-only
/*
* Copyright (c) 2016-2020, The Linux Foundation. All rights reserved.
*/
/*
* Display Port PLL driver block diagram for branch clocks
*
* +------------------------------+
* | DP_VCO_CLK |
* | |
* | +-------------------+ |
* | | (DP PLL/VCO) | |
* | +---------+---------+ |
* | v |
* | +----------+-----------+ |
* | | hsclk_divsel_clk_src | |
* | +----------+-----------+ |
* +------------------------------+
* |
* +---------<---------v------------>----------+
* | |
* +--------v---------+ |
* | dp_phy_pll | |
* | link_clk | |
* +--------+---------+ |
* | |
* | |
* v v
* Input to DISPCC block |
* for link clk, crypto clk |
* and interface clock |
* |
* |
* +--------<------------+-----------------+---<---+
* | | |
* +----v---------+ +--------v-----+ +--------v------+
* | vco_divided | | vco_divided | | vco_divided |
* | _clk_src | | _clk_src | | _clk_src |
* | | | | | |
* |divsel_six | | divsel_two | | divsel_four |
* +-------+------+ +-----+--------+ +--------+------+
* | | |
* v---->----------v-------------<------v
* |
* +----------+---------+
* | dp_phy_pll_vco |
* | div_clk |
* +---------+----------+
* |
* v
* Input to DISPCC block
* for DP pixel clock
*
*/
#include <linux/clk.h>
#include <linux/delay.h>
#include <linux/err.h>
#include <linux/kernel.h>
#include <linux/regmap.h>
#include <linux/iopoll.h>
#include "dp_hpd.h"
#include "dp_pll.h"
#include "dp_pll_private.h"
#define NUM_PROVIDED_CLKS 2
#define DP_LINK_CLK_SRC 0
#define DP_PIXEL_CLK_SRC 1
static int dp_vco_set_rate_10nm(struct clk_hw *hw, unsigned long rate,
unsigned long parent_rate);
static unsigned long dp_vco_recalc_rate_10nm(struct clk_hw *hw,
unsigned long parent_rate);
static long dp_vco_round_rate_10nm(struct clk_hw *hw,
unsigned long rate, unsigned long *parent_rate);
static int dp_vco_prepare_10nm(struct clk_hw *hw);
static void dp_vco_unprepare_10nm(struct clk_hw *hw);
static struct dp_pll_db *dp_pdb;
static const struct clk_ops dp_10nm_vco_clk_ops = {
.recalc_rate = dp_vco_recalc_rate_10nm,
.set_rate = dp_vco_set_rate_10nm,
.round_rate = dp_vco_round_rate_10nm,
.prepare = dp_vco_prepare_10nm,
.unprepare = dp_vco_unprepare_10nm,
};
struct dp_pll_10nm_pclksel {
struct clk_hw hw;
/* divider params */
u8 shift;
u8 width;
u8 flags; /* same flags as used by clk_divider struct */
struct dp_pll_db *pll;
};
#define to_pll_10nm_pclksel(_hw) \
container_of(_hw, struct dp_pll_10nm_pclksel, hw)
static const struct clk_parent_data disp_cc_parent_data_0[] = {
{ .fw_name = "bi_tcxo" },
{ .fw_name = "dp_phy_pll_link_clk", .name = "dp_phy_pll_link_clk" },
{ .fw_name = "core_bi_pll_test_se", .name = "core_bi_pll_test_se" },
};
static struct dp_pll_vco_clk dp_vco_clk = {
.min_rate = DP_VCO_HSCLK_RATE_1620MHZDIV1000,
.max_rate = DP_VCO_HSCLK_RATE_8100MHZDIV1000,
};
static int dp_pll_mux_set_parent_10nm(struct clk_hw *hw, u8 val)
{
struct dp_pll_10nm_pclksel *pclksel = to_pll_10nm_pclksel(hw);
struct dp_pll_db *dp_res = pclksel->pll;
struct dp_io_pll *pll_io = &dp_res->base->pll_io;
u32 auxclk_div;
auxclk_div = PLL_REG_R(pll_io->phy_base, REG_DP_PHY_VCO_DIV);
auxclk_div &= ~0x03;
if (val == 0)
auxclk_div |= 1;
else if (val == 1)
auxclk_div |= 2;
else if (val == 2)
auxclk_div |= 0;
PLL_REG_W(pll_io->phy_base,
REG_DP_PHY_VCO_DIV, auxclk_div);
DRM_DEBUG_DP("%s: mux=%d auxclk_div=%x\n", __func__, val, auxclk_div);
return 0;
}
static u8 dp_pll_mux_get_parent_10nm(struct clk_hw *hw)
{
u32 auxclk_div = 0;
struct dp_pll_10nm_pclksel *pclksel = to_pll_10nm_pclksel(hw);
struct dp_pll_db *dp_res = pclksel->pll;
struct dp_io_pll *pll_io = &dp_res->base->pll_io;
u8 val = 0;
auxclk_div = PLL_REG_R(pll_io->phy_base, REG_DP_PHY_VCO_DIV);
auxclk_div &= 0x03;
if (auxclk_div == 1) /* Default divider */
val = 0;
else if (auxclk_div == 2)
val = 1;
else if (auxclk_div == 0)
val = 2;
DRM_DEBUG_DP("%s: auxclk_div=%d, val=%d\n", __func__, auxclk_div, val);
return val;
}
static int dp_pll_clk_mux_determine_rate(struct clk_hw *hw,
struct clk_rate_request *req)
{
unsigned long rate = 0;
rate = clk_get_rate(hw->clk);
if (rate <= 0) {
DRM_ERROR("Rate is not set properly\n");
return -EINVAL;
}
req->rate = rate;
DRM_DEBUG_DP("%s: rate=%ld\n", __func__, req->rate);
return 0;
}
static unsigned long dp_pll_mux_recalc_rate(struct clk_hw *hw,
unsigned long parent_rate)
{
struct clk_hw *div_clk_hw = NULL, *vco_clk_hw = NULL;
struct dp_pll_vco_clk *vco;
div_clk_hw = clk_hw_get_parent(hw);
if (!div_clk_hw)
return 0;
vco_clk_hw = clk_hw_get_parent(div_clk_hw);
if (!vco_clk_hw)
return 0;
vco = to_dp_vco_hw(vco_clk_hw);
if (!vco)
return 0;
if (vco->rate == DP_VCO_HSCLK_RATE_8100MHZDIV1000)
return (vco->rate / 6);
else if (vco->rate == DP_VCO_HSCLK_RATE_5400MHZDIV1000)
return (vco->rate / 4);
else
return (vco->rate / 2);
}
static int dp_pll_10nm_get_provider(struct msm_dp_pll *pll,
struct clk **link_clk_provider,
struct clk **pixel_clk_provider)
{
struct clk_hw_onecell_data *hw_data = pll->hw_data;
if (link_clk_provider)
*link_clk_provider = hw_data->hws[DP_LINK_CLK_SRC]->clk;
if (pixel_clk_provider)
*pixel_clk_provider = hw_data->hws[DP_PIXEL_CLK_SRC]->clk;
return 0;
}
static const struct clk_ops dp_10nm_pclksel_clk_ops = {
.get_parent = dp_pll_mux_get_parent_10nm,
.set_parent = dp_pll_mux_set_parent_10nm,
.recalc_rate = dp_pll_mux_recalc_rate,
.determine_rate = dp_pll_clk_mux_determine_rate,
};
static struct clk_hw *dp_pll_10nm_pixel_clk_sel(struct dp_pll_db *pll_10nm)
{
struct device *dev = &pll_10nm->pdev->dev;
struct dp_pll_10nm_pclksel *pll_pclksel;
struct clk_init_data pclksel_init = {
.parent_data = disp_cc_parent_data_0,
.num_parents = 3,
.name = "dp_phy_pll_vco_div_clk",
.ops = &dp_10nm_pclksel_clk_ops,
};
int ret;
pll_pclksel = devm_kzalloc(dev, sizeof(*pll_pclksel), GFP_KERNEL);
if (!pll_pclksel)
return ERR_PTR(-ENOMEM);
pll_pclksel->pll = pll_10nm;
pll_pclksel->shift = 0;
pll_pclksel->width = 4;
pll_pclksel->hw.init = &pclksel_init;
ret = clk_hw_register(dev, &pll_pclksel->hw);
if (ret)
return ERR_PTR(ret);
return &pll_pclksel->hw;
}
static void dp_pll_10nm_unregister(struct dp_pll_db *pll_10nm)
{
int i = 0;
struct clk_hw **hws;
hws = pll_10nm->hws;
for (i = 0; i < pll_10nm->num_hws; i++) {
if (pll_10nm->fixed_factor_clk[i] == true)
clk_hw_unregister_fixed_factor(hws[i]);
else
clk_hw_unregister(hws[i]);
}
}
static int dp_pll_10nm_register(struct dp_pll_db *pll_10nm)
{
struct clk_hw_onecell_data *hw_data;
int ret = 0;
struct clk_hw *hw;
struct msm_dp_pll *pll = pll_10nm->base;
struct device *dev = &pll_10nm->pdev->dev;
struct clk_hw **hws = pll_10nm->hws;
int num = 0;
struct clk_init_data vco_init = {
.parent_data = &(const struct clk_parent_data){
.fw_name = "bi_tcxo",
},
.num_parents = 1,
.name = "dp_vco_clk",
.ops = &dp_10nm_vco_clk_ops,
};
if (!dev) {
DRM_ERROR("DP dev node not available\n");
return 0;
}
DRM_DEBUG_DP("DP->id = %d", pll_10nm->id);
hw_data = devm_kzalloc(dev, sizeof(*hw_data) +
NUM_PROVIDED_CLKS * sizeof(struct clk_hw *),
GFP_KERNEL);
if (!hw_data)
return -ENOMEM;
dp_vco_clk.hw.init = &vco_init;
ret = clk_hw_register(dev, &dp_vco_clk.hw);
if (ret)
return ret;
hws[num++] = &dp_vco_clk.hw;
hw = clk_hw_register_fixed_factor(dev, "dp_phy_pll_link_clk",
"dp_vco_clk", CLK_SET_RATE_PARENT, 1, 10);
if (IS_ERR(hw))
return PTR_ERR(hw);
pll_10nm->fixed_factor_clk[num] = true;
hws[num++] = hw;
hw_data->hws[DP_LINK_CLK_SRC] = hw;
hw = clk_hw_register_fixed_factor(dev, "dp_vco_divsel_two_clk_src",
"dp_vco_clk", 0, 1, 2);
if (IS_ERR(hw))
return PTR_ERR(hw);
pll_10nm->fixed_factor_clk[num] = true;
hws[num++] = hw;
hw = clk_hw_register_fixed_factor(dev, "dp_vco_divsel_four_clk_src",
"dp_vco_clk", 0, 1, 4);
if (IS_ERR(hw))
return PTR_ERR(hw);
pll_10nm->fixed_factor_clk[num] = true;
hws[num++] = hw;
hw = clk_hw_register_fixed_factor(dev, "dp_vco_divsel_six_clk_src",
"dp_vco_clk", 0, 1, 6);
if (IS_ERR(hw))
return PTR_ERR(hw);
pll_10nm->fixed_factor_clk[num] = true;
hws[num++] = hw;
hw = dp_pll_10nm_pixel_clk_sel(pll_10nm);
if (IS_ERR(hw))
return PTR_ERR(hw);
hws[num++] = hw;
hw_data->hws[DP_PIXEL_CLK_SRC] = hw;
pll_10nm->num_hws = num;
hw_data->num = NUM_PROVIDED_CLKS;
pll->hw_data = hw_data;
ret = devm_of_clk_add_hw_provider(dev, of_clk_hw_onecell_get,
pll->hw_data);
if (ret) {
DRM_DEV_ERROR(dev, "failed to register clk provider: %d\n",
ret);
return ret;
}
return ret;
}
void msm_dp_pll_10nm_deinit(struct msm_dp_pll *pll)
{
dp_pll_10nm_unregister(pll->priv);
}
int msm_dp_pll_10nm_init(struct msm_dp_pll *pll, int id)
{
struct dp_pll_db *dp_10nm_pll;
struct platform_device *pdev = pll->pdev;
int ret;
dp_10nm_pll = devm_kzalloc(&pdev->dev,
sizeof(*dp_10nm_pll), GFP_KERNEL);
if (!dp_10nm_pll)
return -ENOMEM;
DRM_DEBUG_DP("DP PLL%d", id);
dp_10nm_pll->base = pll;
dp_10nm_pll->pdev = pll->pdev;
dp_10nm_pll->id = id;
dp_pdb = dp_10nm_pll;
pll->priv = (void *)dp_10nm_pll;
dp_vco_clk.priv = pll;
dp_10nm_pll->index = 0;
ret = dp_pll_10nm_register(dp_10nm_pll);
if (ret) {
DRM_DEV_ERROR(&pdev->dev, "failed to register PLL: %d\n", ret);
return ret;
}
pll->get_provider = dp_pll_10nm_get_provider;
return ret;
}
static int dp_vco_pll_init_db_10nm(struct msm_dp_pll *pll,
unsigned long rate)
{
u32 spare_value = 0;
struct dp_io_pll *pll_io;
struct dp_pll_db *dp_res = to_dp_pll_db(pll);
pll_io = &pll->pll_io;
spare_value = PLL_REG_R(pll_io->phy_base, REG_DP_PHY_SPARE0);
dp_res->lane_cnt = spare_value & 0x0F;
dp_res->orientation = (spare_value & 0xF0) >> 4;
DRM_DEBUG_DP("%s: spare_value=0x%x, ln_cnt=0x%x, orientation=0x%x\n",
__func__, spare_value, dp_res->lane_cnt,
dp_res->orientation);
switch (rate) {
case DP_VCO_HSCLK_RATE_1620MHZDIV1000:
DRM_DEBUG_DP("%s: VCO rate: %ld\n", __func__,
DP_VCO_RATE_9720MHZDIV1000);
dp_res->hsclk_sel = 0x0c;
dp_res->dec_start_mode0 = 0x69;
dp_res->div_frac_start1_mode0 = 0x00;
dp_res->div_frac_start2_mode0 = 0x80;
dp_res->div_frac_start3_mode0 = 0x07;
dp_res->integloop_gain0_mode0 = 0x3f;
dp_res->integloop_gain1_mode0 = 0x00;
dp_res->vco_tune_map = 0x00;
dp_res->lock_cmp1_mode0 = 0x6f;
dp_res->lock_cmp2_mode0 = 0x08;
dp_res->lock_cmp3_mode0 = 0x00;
dp_res->phy_vco_div = 0x1;
dp_res->lock_cmp_en = 0x00;
break;
case DP_VCO_HSCLK_RATE_2700MHZDIV1000:
DRM_DEBUG_DP("%s: VCO rate: %ld\n", __func__,
DP_VCO_RATE_10800MHZDIV1000);
dp_res->hsclk_sel = 0x04;
dp_res->dec_start_mode0 = 0x69;
dp_res->div_frac_start1_mode0 = 0x00;
dp_res->div_frac_start2_mode0 = 0x80;
dp_res->div_frac_start3_mode0 = 0x07;
dp_res->integloop_gain0_mode0 = 0x3f;
dp_res->integloop_gain1_mode0 = 0x00;
dp_res->vco_tune_map = 0x00;
dp_res->lock_cmp1_mode0 = 0x0f;
dp_res->lock_cmp2_mode0 = 0x0e;
dp_res->lock_cmp3_mode0 = 0x00;
dp_res->phy_vco_div = 0x1;
dp_res->lock_cmp_en = 0x00;
break;
case DP_VCO_HSCLK_RATE_5400MHZDIV1000:
DRM_DEBUG_DP("%s: VCO rate: %ld\n", __func__,
DP_VCO_RATE_10800MHZDIV1000);
dp_res->hsclk_sel = 0x00;
dp_res->dec_start_mode0 = 0x8c;
dp_res->div_frac_start1_mode0 = 0x00;
dp_res->div_frac_start2_mode0 = 0x00;
dp_res->div_frac_start3_mode0 = 0x0a;
dp_res->integloop_gain0_mode0 = 0x3f;
dp_res->integloop_gain1_mode0 = 0x00;
dp_res->vco_tune_map = 0x00;
dp_res->lock_cmp1_mode0 = 0x1f;
dp_res->lock_cmp2_mode0 = 0x1c;
dp_res->lock_cmp3_mode0 = 0x00;
dp_res->phy_vco_div = 0x2;
dp_res->lock_cmp_en = 0x00;
break;
case DP_VCO_HSCLK_RATE_8100MHZDIV1000:
DRM_DEBUG_DP("%s: VCO rate: %ld\n", __func__,
DP_VCO_RATE_8100MHZDIV1000);
dp_res->hsclk_sel = 0x03;
dp_res->dec_start_mode0 = 0x69;
dp_res->div_frac_start1_mode0 = 0x00;
dp_res->div_frac_start2_mode0 = 0x80;
dp_res->div_frac_start3_mode0 = 0x07;
dp_res->integloop_gain0_mode0 = 0x3f;
dp_res->integloop_gain1_mode0 = 0x00;
dp_res->vco_tune_map = 0x00;
dp_res->lock_cmp1_mode0 = 0x2f;
dp_res->lock_cmp2_mode0 = 0x2a;
dp_res->lock_cmp3_mode0 = 0x00;
dp_res->phy_vco_div = 0x0;
dp_res->lock_cmp_en = 0x08;
break;
default:
return -EINVAL;
}
return 0;
}
static int dp_config_vco_rate_10nm(struct dp_pll_vco_clk *vco,
unsigned long rate)
{
u32 res = 0;
struct msm_dp_pll *pll = vco->priv;
struct dp_io_pll *pll_io = &pll->pll_io;
struct dp_pll_db *dp_res = to_dp_pll_db(pll);
res = dp_vco_pll_init_db_10nm(pll, rate);
if (res) {
DRM_ERROR("VCO Init DB failed\n");
return res;
}
if (dp_res->lane_cnt != 4) {
if (dp_res->orientation == ORIENTATION_CC2)
PLL_REG_W(pll_io->phy_base, REG_DP_PHY_PD_CTL, 0x6d);
else
PLL_REG_W(pll_io->phy_base, REG_DP_PHY_PD_CTL, 0x75);
} else {
PLL_REG_W(pll_io->phy_base, REG_DP_PHY_PD_CTL, 0x7d);
}
PLL_REG_W(pll_io->pll_base, QSERDES_COM_SVS_MODE_CLK_SEL, 0x01);
PLL_REG_W(pll_io->pll_base, QSERDES_COM_SYSCLK_EN_SEL, 0x37);
PLL_REG_W(pll_io->pll_base, QSERDES_COM_SYS_CLK_CTRL, 0x02);
PLL_REG_W(pll_io->pll_base, QSERDES_COM_CLK_ENABLE1, 0x0e);
PLL_REG_W(pll_io->pll_base, QSERDES_COM_SYSCLK_BUF_ENABLE, 0x06);
PLL_REG_W(pll_io->pll_base, QSERDES_COM_CLK_SEL, 0x30);
PLL_REG_W(pll_io->pll_base, QSERDES_COM_CMN_CONFIG, 0x02);
/* Different for each clock rates */
PLL_REG_W(pll_io->pll_base,
QSERDES_COM_HSCLK_SEL, dp_res->hsclk_sel);
PLL_REG_W(pll_io->pll_base,
QSERDES_COM_DEC_START_MODE0, dp_res->dec_start_mode0);
PLL_REG_W(pll_io->pll_base,
QSERDES_COM_DIV_FRAC_START1_MODE0,
dp_res->div_frac_start1_mode0);
PLL_REG_W(pll_io->pll_base,
QSERDES_COM_DIV_FRAC_START2_MODE0,
dp_res->div_frac_start2_mode0);
PLL_REG_W(pll_io->pll_base,
QSERDES_COM_DIV_FRAC_START3_MODE0,
dp_res->div_frac_start3_mode0);
PLL_REG_W(pll_io->pll_base,
QSERDES_COM_INTEGLOOP_GAIN0_MODE0,
dp_res->integloop_gain0_mode0);
PLL_REG_W(pll_io->pll_base,
QSERDES_COM_INTEGLOOP_GAIN1_MODE0,
dp_res->integloop_gain1_mode0);
PLL_REG_W(pll_io->pll_base,
QSERDES_COM_VCO_TUNE_MAP, dp_res->vco_tune_map);
PLL_REG_W(pll_io->pll_base,
QSERDES_COM_LOCK_CMP1_MODE0, dp_res->lock_cmp1_mode0);
PLL_REG_W(pll_io->pll_base,
QSERDES_COM_LOCK_CMP2_MODE0, dp_res->lock_cmp2_mode0);
PLL_REG_W(pll_io->pll_base,
QSERDES_COM_LOCK_CMP3_MODE0, dp_res->lock_cmp3_mode0);
PLL_REG_W(pll_io->pll_base, QSERDES_COM_BG_TIMER, 0x0a);
PLL_REG_W(pll_io->pll_base, QSERDES_COM_CORECLK_DIV_MODE0, 0x0a);
PLL_REG_W(pll_io->pll_base, QSERDES_COM_VCO_TUNE_CTRL, 0x00);
PLL_REG_W(pll_io->pll_base, QSERDES_COM_BIAS_EN_CLKBUFLR_EN, 0x3f);
PLL_REG_W(pll_io->pll_base, QSERDES_COM_CORE_CLK_EN, 0x1f);
PLL_REG_W(pll_io->pll_base, QSERDES_COM_PLL_IVCO, 0x07);
PLL_REG_W(pll_io->pll_base,
QSERDES_COM_LOCK_CMP_EN, dp_res->lock_cmp_en);
PLL_REG_W(pll_io->pll_base, QSERDES_COM_PLL_CCTRL_MODE0, 0x36);
PLL_REG_W(pll_io->pll_base, QSERDES_COM_PLL_RCTRL_MODE0, 0x16);
PLL_REG_W(pll_io->pll_base, QSERDES_COM_CP_CTRL_MODE0, 0x06);
if (dp_res->orientation == ORIENTATION_CC2)
PLL_REG_W(pll_io->phy_base, REG_DP_PHY_MODE, 0x4c);
else
PLL_REG_W(pll_io->phy_base, REG_DP_PHY_MODE, 0x5c);
/* TX Lane configuration */
PLL_REG_W(pll_io->phy_base,
REG_DP_PHY_TX0_TX1_LANE_CTL, 0x05);
PLL_REG_W(pll_io->phy_base,
REG_DP_PHY_TX2_TX3_LANE_CTL, 0x05);
/* TX-0 register configuration */
PLL_REG_W(pll_io->ln_tx0_base,
REG_DP_PHY_TXn_TRANSCEIVER_BIAS_EN, 0x1a);
PLL_REG_W(pll_io->ln_tx0_base,
REG_DP_PHY_TXn_VMODE_CTRL1, 0x40);
PLL_REG_W(pll_io->ln_tx0_base,
REG_DP_PHY_TXn_PRE_STALL_LDO_BOOST_EN, 0x30);
PLL_REG_W(pll_io->ln_tx0_base,
REG_DP_PHY_TXn_INTERFACE_SELECT, 0x3d);
PLL_REG_W(pll_io->ln_tx0_base,
REG_DP_PHY_TXn_CLKBUF_ENABLE, 0x0f);
PLL_REG_W(pll_io->ln_tx0_base,
REG_DP_PHY_TXn_RESET_TSYNC_EN, 0x03);
PLL_REG_W(pll_io->ln_tx0_base,
REG_DP_PHY_TXn_TRAN_DRVR_EMP_EN, 0x03);
PLL_REG_W(pll_io->ln_tx0_base,
REG_DP_PHY_TXn_PARRATE_REC_DETECT_IDLE_EN, 0x00);
PLL_REG_W(pll_io->ln_tx0_base,
REG_DP_PHY_TXn_TX_INTERFACE_MODE, 0x00);
PLL_REG_W(pll_io->ln_tx0_base, REG_DP_PHY_TXn_TX_BAND, 0x4);
/* TX-1 register configuration */
PLL_REG_W(pll_io->ln_tx1_base,
REG_DP_PHY_TXn_TRANSCEIVER_BIAS_EN, 0x1a);
PLL_REG_W(pll_io->ln_tx1_base,
REG_DP_PHY_TXn_VMODE_CTRL1, 0x40);
PLL_REG_W(pll_io->ln_tx1_base,
REG_DP_PHY_TXn_PRE_STALL_LDO_BOOST_EN, 0x30);
PLL_REG_W(pll_io->ln_tx1_base,
REG_DP_PHY_TXn_INTERFACE_SELECT, 0x3d);
PLL_REG_W(pll_io->ln_tx1_base,
REG_DP_PHY_TXn_CLKBUF_ENABLE, 0x0f);
PLL_REG_W(pll_io->ln_tx1_base,
REG_DP_PHY_TXn_RESET_TSYNC_EN, 0x03);
PLL_REG_W(pll_io->ln_tx1_base,
REG_DP_PHY_TXn_TRAN_DRVR_EMP_EN, 0x03);
PLL_REG_W(pll_io->ln_tx1_base,
REG_DP_PHY_TXn_PARRATE_REC_DETECT_IDLE_EN, 0x00);
PLL_REG_W(pll_io->ln_tx1_base,
REG_DP_PHY_TXn_TX_INTERFACE_MODE, 0x00);
PLL_REG_W(pll_io->ln_tx1_base,
REG_DP_PHY_TXn_TX_BAND, 0x4);
/* dependent on the vco frequency */
PLL_REG_W(pll_io->phy_base,
REG_DP_PHY_VCO_DIV, dp_res->phy_vco_div);
return res;
}
static bool dp_10nm_pll_lock_status(struct dp_pll_db *dp_res)
{
u32 status;
bool pll_locked;
struct dp_io_pll *pll_io = &dp_res->base->pll_io;
/* poll for PLL lock status */
if (readl_poll_timeout_atomic((pll_io->pll_base +
QSERDES_COM_C_READY_STATUS),
status,
((status & BIT(0)) > 0),
DP_PHY_PLL_POLL_SLEEP_US,
DP_PHY_PLL_POLL_TIMEOUT_US)) {
DRM_ERROR("%s: C_READY status is not high. Status=%x\n",
__func__, status);
pll_locked = false;
} else {
pll_locked = true;
}
return pll_locked;
}
static bool dp_10nm_phy_rdy_status(struct dp_pll_db *dp_res)
{
u32 status;
bool phy_ready = true;
struct dp_io_pll *pll_io = &dp_res->base->pll_io;
/* poll for PHY ready status */
if (readl_poll_timeout_atomic((pll_io->phy_base +
REG_DP_PHY_STATUS),
status,
((status & (BIT(1))) > 0),
DP_PHY_PLL_POLL_SLEEP_US,
DP_PHY_PLL_POLL_TIMEOUT_US)) {
DRM_ERROR("%s: Phy_ready is not high. Status=%x\n",
__func__, status);
phy_ready = false;
}
return phy_ready;
}
static int dp_pll_enable_10nm(struct clk_hw *hw)
{
int rc = 0;
u32 bias_en, drvr_en;
struct dp_io_pll *pll_io;
struct dp_pll_vco_clk *vco = to_dp_vco_hw(hw);
struct msm_dp_pll *pll = to_msm_dp_pll(vco);
struct dp_pll_db *dp_res = to_dp_pll_db(pll);
pll_io = &pll->pll_io;
PLL_REG_W(pll_io->phy_base, REG_DP_PHY_AUX_CFG2, 0x04);
PLL_REG_W(pll_io->phy_base, REG_DP_PHY_CFG, 0x01);
PLL_REG_W(pll_io->phy_base, REG_DP_PHY_CFG, 0x05);
PLL_REG_W(pll_io->phy_base, REG_DP_PHY_CFG, 0x01);
PLL_REG_W(pll_io->phy_base, REG_DP_PHY_CFG, 0x09);
PLL_REG_W(pll_io->pll_base, QSERDES_COM_RESETSM_CNTRL, 0x20);
if (!dp_10nm_pll_lock_status(dp_res)) {
rc = -EINVAL;
goto lock_err;
}
PLL_REG_W(pll_io->phy_base, REG_DP_PHY_CFG, 0x19);
/* poll for PHY ready status */
if (!dp_10nm_phy_rdy_status(dp_res)) {
rc = -EINVAL;
goto lock_err;
}
DRM_DEBUG_DP("%s: PLL is locked\n", __func__);
if (dp_res->lane_cnt == 1) {
bias_en = 0x3e;
drvr_en = 0x13;
} else {
bias_en = 0x3f;
drvr_en = 0x10;
}
if (dp_res->lane_cnt != 4) {
if (dp_res->orientation == ORIENTATION_CC1) {
PLL_REG_W(pll_io->ln_tx1_base,
REG_DP_PHY_TXn_HIGHZ_DRVR_EN, drvr_en);
PLL_REG_W(pll_io->ln_tx1_base,
REG_DP_PHY_TXn_TRANSCEIVER_BIAS_EN, bias_en);
} else {
PLL_REG_W(pll_io->ln_tx0_base,
REG_DP_PHY_TXn_HIGHZ_DRVR_EN, drvr_en);
PLL_REG_W(pll_io->ln_tx0_base,
REG_DP_PHY_TXn_TRANSCEIVER_BIAS_EN, bias_en);
}
} else {
PLL_REG_W(pll_io->ln_tx0_base,
REG_DP_PHY_TXn_HIGHZ_DRVR_EN, drvr_en);
PLL_REG_W(pll_io->ln_tx0_base,
REG_DP_PHY_TXn_TRANSCEIVER_BIAS_EN, bias_en);
PLL_REG_W(pll_io->ln_tx1_base,
REG_DP_PHY_TXn_HIGHZ_DRVR_EN, drvr_en);
PLL_REG_W(pll_io->ln_tx1_base,
REG_DP_PHY_TXn_TRANSCEIVER_BIAS_EN, bias_en);
}
PLL_REG_W(pll_io->ln_tx0_base, REG_DP_PHY_TXn_TX_POL_INV, 0x0a);
PLL_REG_W(pll_io->ln_tx1_base, REG_DP_PHY_TXn_TX_POL_INV, 0x0a);
PLL_REG_W(pll_io->phy_base, REG_DP_PHY_CFG, 0x18);
udelay(2000);
PLL_REG_W(pll_io->phy_base, REG_DP_PHY_CFG, 0x19);
/* poll for PHY ready status */
if (!dp_10nm_phy_rdy_status(dp_res)) {
rc = -EINVAL;
goto lock_err;
}
PLL_REG_W(pll_io->ln_tx0_base, REG_DP_PHY_TXn_TX_DRV_LVL, 0x38);
PLL_REG_W(pll_io->ln_tx1_base, REG_DP_PHY_TXn_TX_DRV_LVL, 0x38);
PLL_REG_W(pll_io->ln_tx0_base, REG_DP_PHY_TXn_TX_EMP_POST1_LVL, 0x20);
PLL_REG_W(pll_io->ln_tx1_base, REG_DP_PHY_TXn_TX_EMP_POST1_LVL, 0x20);
PLL_REG_W(pll_io->ln_tx0_base,
REG_DP_PHY_TXn_RES_CODE_LANE_OFFSET_TX, 0x06);
PLL_REG_W(pll_io->ln_tx1_base,
REG_DP_PHY_TXn_RES_CODE_LANE_OFFSET_TX, 0x06);
PLL_REG_W(pll_io->ln_tx0_base,
REG_DP_PHY_TXn_RES_CODE_LANE_OFFSET_RX, 0x07);
PLL_REG_W(pll_io->ln_tx1_base,
REG_DP_PHY_TXn_RES_CODE_LANE_OFFSET_RX, 0x07);
lock_err:
return rc;
}
static int dp_pll_disable_10nm(struct clk_hw *hw)
{
int rc = 0;
struct dp_pll_vco_clk *vco = to_dp_vco_hw(hw);
struct msm_dp_pll *pll = to_msm_dp_pll(vco);
/* Assert DP PHY power down */
PLL_REG_W(pll->pll_io.phy_base, REG_DP_PHY_PD_CTL, 0x2);
return rc;
}
static int dp_vco_prepare_10nm(struct clk_hw *hw)
{
int rc = 0;
struct dp_pll_vco_clk *vco = to_dp_vco_hw(hw);
struct msm_dp_pll *pll = (struct msm_dp_pll *)vco->priv;
struct dp_pll_db *dp_res = to_dp_pll_db(pll);
DRM_DEBUG_DP("%s: rate = %ld\n", __func__, vco->rate);
if ((dp_res->vco_cached_rate != 0)
&& (dp_res->vco_cached_rate == vco->rate)) {
rc = dp_vco_set_rate_10nm(hw,
dp_res->vco_cached_rate, dp_res->vco_cached_rate);
if (rc) {
DRM_ERROR("index=%d vco_set_rate failed. rc=%d\n",
rc, dp_res->index);
goto error;
}
}
rc = dp_pll_enable_10nm(hw);
if (rc) {
DRM_ERROR("ndx=%d failed to enable dp pll\n",
dp_res->index);
goto error;
}
pll->pll_on = true;
error:
return rc;
}
static void dp_vco_unprepare_10nm(struct clk_hw *hw)
{
struct dp_pll_vco_clk *vco = to_dp_vco_hw(hw);
struct msm_dp_pll *pll = to_msm_dp_pll(vco);
struct dp_pll_db *dp_res = to_dp_pll_db(pll);
if (!dp_res) {
DRM_ERROR("Invalid input parameter\n");
return;
}
if (!pll->pll_on) {
DRM_ERROR("pll resource can't be enabled\n");
return;
}
dp_res->vco_cached_rate = vco->rate;
dp_pll_disable_10nm(hw);
pll->pll_on = false;
}
static int dp_vco_set_rate_10nm(struct clk_hw *hw, unsigned long rate,
unsigned long parent_rate)
{
struct dp_pll_vco_clk *vco = to_dp_vco_hw(hw);
int rc;
DRM_DEBUG_DP("DP lane CLK rate=%ld\n", rate);
rc = dp_config_vco_rate_10nm(vco, rate);
if (rc)
DRM_ERROR("%s: Failed to set clk rate\n", __func__);
vco->rate = rate;
return 0;
}
static unsigned long dp_vco_recalc_rate_10nm(struct clk_hw *hw,
unsigned long parent_rate)
{
u32 div, hsclk_div, link_clk_div = 0;
u64 vco_rate;
struct dp_io_pll *pll_io;
struct dp_pll_vco_clk *vco = to_dp_vco_hw(hw);
struct msm_dp_pll *pll = to_msm_dp_pll(vco);
struct dp_pll_db *dp_res = to_dp_pll_db(pll);
pll_io = &pll->pll_io;
div = PLL_REG_R(pll_io->pll_base, QSERDES_COM_HSCLK_SEL);
div &= 0x0f;
if (div == 12)
hsclk_div = 6; /* Default */
else if (div == 4)
hsclk_div = 4;
else if (div == 0)
hsclk_div = 2;
else if (div == 3)
hsclk_div = 1;
else {
DRM_DEBUG_DP("unknown divider. forcing to default\n");
hsclk_div = 5;
}
div = PLL_REG_R(pll_io->phy_base, REG_DP_PHY_AUX_CFG2);
div >>= 2;
if ((div & 0x3) == 0)
link_clk_div = 5;
else if ((div & 0x3) == 1)
link_clk_div = 10;
else if ((div & 0x3) == 2)
link_clk_div = 20;
else
DRM_ERROR("%s: unsupported div. Phy_mode: %d\n", __func__, div);
if (link_clk_div == 20) {
vco_rate = DP_VCO_HSCLK_RATE_2700MHZDIV1000;
} else {
if (hsclk_div == 6)
vco_rate = DP_VCO_HSCLK_RATE_1620MHZDIV1000;
else if (hsclk_div == 4)
vco_rate = DP_VCO_HSCLK_RATE_2700MHZDIV1000;
else if (hsclk_div == 2)
vco_rate = DP_VCO_HSCLK_RATE_5400MHZDIV1000;
else
vco_rate = DP_VCO_HSCLK_RATE_8100MHZDIV1000;
}
DRM_DEBUG_DP("returning vco rate = %lu\n", (unsigned long)vco_rate);
dp_res->vco_cached_rate = vco->rate = vco_rate;
return (unsigned long)vco_rate;
}
long dp_vco_round_rate_10nm(struct clk_hw *hw, unsigned long rate,
unsigned long *parent_rate)
{
unsigned long rrate = rate;
struct dp_pll_vco_clk *vco = to_dp_vco_hw(hw);
if (rate <= vco->min_rate)
rrate = vco->min_rate;
else if (rate <= DP_VCO_HSCLK_RATE_2700MHZDIV1000)
rrate = DP_VCO_HSCLK_RATE_2700MHZDIV1000;
else if (rate <= DP_VCO_HSCLK_RATE_5400MHZDIV1000)
rrate = DP_VCO_HSCLK_RATE_5400MHZDIV1000;
else
rrate = vco->max_rate;
DRM_DEBUG_DP("%s: rrate=%ld\n", __func__, rrate);
*parent_rate = rrate;
return rrate;
}
/* SPDX-License-Identifier: GPL-2.0-only */
/*
* Copyright (c) 2016-2020, The Linux Foundation. All rights reserved.
*/
#ifndef __DP_PLL_10NM_H
#define __DP_PLL_10NM_H
#include "dp_pll.h"
#include "dp_reg.h"
#define DP_VCO_HSCLK_RATE_1620MHZDIV1000 1620000UL
#define DP_VCO_HSCLK_RATE_2700MHZDIV1000 2700000UL
#define DP_VCO_HSCLK_RATE_5400MHZDIV1000 5400000UL
#define DP_VCO_HSCLK_RATE_8100MHZDIV1000 8100000UL
#define NUM_DP_CLOCKS_MAX 6
#define DP_PHY_PLL_POLL_SLEEP_US 500
#define DP_PHY_PLL_POLL_TIMEOUT_US 10000
#define DP_VCO_RATE_8100MHZDIV1000 8100000UL
#define DP_VCO_RATE_9720MHZDIV1000 9720000UL
#define DP_VCO_RATE_10800MHZDIV1000 10800000UL
struct dp_pll_vco_clk {
struct clk_hw hw;
unsigned long rate; /* current vco rate */
u64 min_rate; /* min vco rate */
u64 max_rate; /* max vco rate */
void *priv;
};
struct dp_pll_db {
struct msm_dp_pll *base;
int id;
struct platform_device *pdev;
/* private clocks: */
bool fixed_factor_clk[NUM_DP_CLOCKS_MAX];
struct clk_hw *hws[NUM_DP_CLOCKS_MAX];
u32 num_hws;
/* lane and orientation settings */
u8 lane_cnt;
u8 orientation;
/* COM PHY settings */
u32 hsclk_sel;
u32 dec_start_mode0;
u32 div_frac_start1_mode0;
u32 div_frac_start2_mode0;
u32 div_frac_start3_mode0;
u32 integloop_gain0_mode0;
u32 integloop_gain1_mode0;
u32 vco_tune_map;
u32 lock_cmp1_mode0;
u32 lock_cmp2_mode0;
u32 lock_cmp3_mode0;
u32 lock_cmp_en;
/* PHY vco divider */
u32 phy_vco_div;
/*
* Certain pll's needs to update the same vco rate after resume in
* suspend/resume scenario. Cached the vco rate for such plls.
*/
unsigned long vco_cached_rate;
u32 cached_cfg0;
u32 cached_cfg1;
u32 cached_outdiv;
uint32_t index;
};
static inline struct dp_pll_vco_clk *to_dp_vco_hw(struct clk_hw *hw)
{
return container_of(hw, struct dp_pll_vco_clk, hw);
}
#define to_msm_dp_pll(vco) ((struct msm_dp_pll *)vco->priv)
#define to_dp_pll_db(x) ((struct dp_pll_db *)x->priv)
int msm_dp_pll_10nm_init(struct msm_dp_pll *dp_pll, int id);
void msm_dp_pll_10nm_deinit(struct msm_dp_pll *dp_pll);
#endif /* __DP_PLL_10NM_H */
...@@ -9,6 +9,7 @@ ...@@ -9,6 +9,7 @@
#include <linux/clk-provider.h> #include <linux/clk-provider.h>
#include <linux/regulator/consumer.h> #include <linux/regulator/consumer.h>
#include "dp_power.h" #include "dp_power.h"
#include "msm_drv.h"
struct dp_power_private { struct dp_power_private {
struct dp_parser *parser; struct dp_parser *parser;
...@@ -102,16 +103,6 @@ static int dp_power_clk_init(struct dp_power_private *power) ...@@ -102,16 +103,6 @@ static int dp_power_clk_init(struct dp_power_private *power)
ctrl = &power->parser->mp[DP_CTRL_PM]; ctrl = &power->parser->mp[DP_CTRL_PM];
stream = &power->parser->mp[DP_STREAM_PM]; stream = &power->parser->mp[DP_STREAM_PM];
if (power->parser->pll && power->parser->pll->get_provider) {
rc = power->parser->pll->get_provider(power->parser->pll,
&power->link_provider, &power->pixel_provider);
if (rc) {
DRM_ERROR("%s:provider failed,don't set parent\n",
__func__);
return 0;
}
}
rc = msm_dss_get_clk(dev, core->clk_config, core->num_clk); rc = msm_dss_get_clk(dev, core->clk_config, core->num_clk);
if (rc) { if (rc) {
DRM_ERROR("failed to get %s clk. err=%d\n", DRM_ERROR("failed to get %s clk. err=%d\n",
...@@ -312,34 +303,6 @@ void dp_power_client_deinit(struct dp_power *dp_power) ...@@ -312,34 +303,6 @@ void dp_power_client_deinit(struct dp_power *dp_power)
} }
int dp_power_set_link_clk_parent(struct dp_power *dp_power)
{
int rc = 0;
struct dp_power_private *power;
u32 num;
struct dss_clk *cfg;
char *name = "ctrl_link";
if (!dp_power) {
DRM_ERROR("invalid power data\n");
rc = -EINVAL;
goto exit;
}
power = container_of(dp_power, struct dp_power_private, dp_power);
num = power->parser->mp[DP_CTRL_PM].num_clk;
cfg = power->parser->mp[DP_CTRL_PM].clk_config;
while (num && strcmp(cfg->clk_name, name)) {
num--;
cfg++;
}
exit:
return rc;
}
int dp_power_init(struct dp_power *dp_power, bool flip) int dp_power_init(struct dp_power *dp_power, bool flip)
{ {
int rc = 0; int rc = 0;
......
...@@ -69,15 +69,6 @@ int dp_power_clk_status(struct dp_power *dp_power, enum dp_pm_type pm_type); ...@@ -69,15 +69,6 @@ int dp_power_clk_status(struct dp_power *dp_power, enum dp_pm_type pm_type);
int dp_power_clk_enable(struct dp_power *power, enum dp_pm_type pm_type, int dp_power_clk_enable(struct dp_power *power, enum dp_pm_type pm_type,
bool enable); bool enable);
/**
* dp_power_set_link_clk_parent() - configures parent of link clocks
*
* @power: instance of power module
* return: 0 for success, error for failures
*
* This API will set the link clock parent source
*/
int dp_power_set_link_clk_parent(struct dp_power *power);
/** /**
* dp_power_client_init() - initialize clock and regulator modules * dp_power_client_init() - initialize clock and regulator modules
......
...@@ -6,22 +6,6 @@ ...@@ -6,22 +6,6 @@
#ifndef _DP_REG_H_ #ifndef _DP_REG_H_
#define _DP_REG_H_ #define _DP_REG_H_
/* DP PHY Register Regions */
#define REG_DP_PHY_REGION_BASE (0x088ea000)
#define REG_DP_PHY_REGION_SIZE (0x00000C00)
#define REG_USB3_DP_COM_REGION_BASE (0x088e8000)
#define REG_USB3_DP_COM_REGION_SIZE (0x00000020)
#define DP_PHY_PLL_OFFSET (0x00000000)
#define DP_PHY_PLL_SIZE (0x00000200)
#define DP_PHY_REG_OFFSET (0x00000A00)
#define DP_PHY_REG_SIZE (0x00000200)
#define DP_PHY_LN_TX0_OFFSET (0x00000200)
#define DP_PHY_LN_TX0_SIZE (0x00000200)
#define DP_PHY_LN_TX1_OFFSET (0x00000600)
#define DP_PHY_LN_TX1_SIZE (0x00000200)
/* DP_TX Registers */ /* DP_TX Registers */
#define REG_DP_HW_VERSION (0x00000000) #define REG_DP_HW_VERSION (0x00000000)
...@@ -290,183 +274,10 @@ ...@@ -290,183 +274,10 @@
#define MMSS_DP_ASYNC_FIFO_CONFIG (0x00000088) #define MMSS_DP_ASYNC_FIFO_CONFIG (0x00000088)
/*DP PHY Register offsets */
#define REG_DP_PHY_REVISION_ID0 (0x00000000)
#define REG_DP_PHY_REVISION_ID1 (0x00000004)
#define REG_DP_PHY_REVISION_ID2 (0x00000008)
#define REG_DP_PHY_REVISION_ID3 (0x0000000C)
#define REG_DP_PHY_CFG (0x00000010)
#define REG_DP_PHY_PD_CTL (0x00000018)
#define DP_PHY_PD_CTL_PWRDN (0x00000001)
#define DP_PHY_PD_CTL_PSR_PWRDN (0x00000002)
#define DP_PHY_PD_CTL_AUX_PWRDN (0x00000004)
#define DP_PHY_PD_CTL_LANE_0_1_PWRDN (0x00000008)
#define DP_PHY_PD_CTL_LANE_2_3_PWRDN (0x00000010)
#define DP_PHY_PD_CTL_PLL_PWRDN (0x00000020)
#define DP_PHY_PD_CTL_DP_CLAMP_EN (0x00000040)
#define REG_DP_PHY_MODE (0x0000001C)
#define REG_DP_PHY_AUX_CFG0 (0x00000020)
#define REG_DP_PHY_AUX_CFG1 (0x00000024)
#define REG_DP_PHY_AUX_CFG2 (0x00000028)
#define REG_DP_PHY_AUX_CFG3 (0x0000002C)
#define REG_DP_PHY_AUX_CFG4 (0x00000030)
#define REG_DP_PHY_AUX_CFG5 (0x00000034)
#define REG_DP_PHY_AUX_CFG6 (0x00000038)
#define REG_DP_PHY_AUX_CFG7 (0x0000003C)
#define REG_DP_PHY_AUX_CFG8 (0x00000040)
#define REG_DP_PHY_AUX_CFG9 (0x00000044)
#define REG_DP_PHY_AUX_INTERRUPT_MASK (0x00000048)
#define PHY_AUX_STOP_ERR_MASK (0x00000001)
#define PHY_AUX_DEC_ERR_MASK (0x00000002)
#define PHY_AUX_SYNC_ERR_MASK (0x00000004)
#define PHY_AUX_ALIGN_ERR_MASK (0x00000008)
#define PHY_AUX_REQ_ERR_MASK (0x00000010)
#define REG_DP_PHY_AUX_INTERRUPT_CLEAR (0x0000004C) #define REG_DP_PHY_AUX_INTERRUPT_CLEAR (0x0000004C)
#define REG_DP_PHY_AUX_BIST_CFG (0x00000050) #define REG_DP_PHY_AUX_BIST_CFG (0x00000050)
#define REG_DP_PHY_AUX_INTERRUPT_STATUS (0x000000BC) #define REG_DP_PHY_AUX_INTERRUPT_STATUS (0x000000BC)
#define REG_DP_PHY_VCO_DIV 0x0064
#define REG_DP_PHY_TX0_TX1_LANE_CTL 0x006C
#define REG_DP_PHY_TX2_TX3_LANE_CTL 0x0088
#define REG_DP_PHY_SPARE0 (0x00AC)
#define DP_PHY_SPARE0_MASK (0x000F)
#define DP_PHY_SPARE0_ORIENTATION_INFO_SHIFT (0x0004)
#define REG_DP_PHY_STATUS (0x00C0)
/* Tx registers */
#define REG_DP_PHY_TXn_BIST_MODE_LANENO 0x0000
#define REG_DP_PHY_TXn_CLKBUF_ENABLE 0x0008
#define REG_DP_PHY_TXn_TX_EMP_POST1_LVL 0x000C
#define DP_PHY_TXn_TX_EMP_POST1_LVL_MASK 0x001F
#define DP_PHY_TXn_TX_EMP_POST1_LVL_MUX_EN 0x0020
#define REG_DP_PHY_TXn_TX_DRV_LVL 0x001C
#define DP_PHY_TXn_TX_DRV_LVL_MASK 0x001F
#define DP_PHY_TXn_TX_DRV_LVL_MUX_EN 0x0020
#define REG_DP_PHY_TXn_RESET_TSYNC_EN 0x0024
#define REG_DP_PHY_TXn_PRE_STALL_LDO_BOOST_EN 0x0028
#define REG_DP_PHY_TXn_TX_BAND 0x002C
#define REG_DP_PHY_TXn_SLEW_CNTL 0x0030
#define REG_DP_PHY_TXn_INTERFACE_SELECT 0x0034
#define REG_DP_PHY_TXn_RES_CODE_LANE_TX 0x003C
#define REG_DP_PHY_TXn_RES_CODE_LANE_RX 0x0040
#define REG_DP_PHY_TXn_RES_CODE_LANE_OFFSET_TX 0x0044
#define REG_DP_PHY_TXn_RES_CODE_LANE_OFFSET_RX 0x0048
#define REG_DP_PHY_TXn_DEBUG_BUS_SEL 0x0058
#define REG_DP_PHY_TXn_TRANSCEIVER_BIAS_EN 0x005C
#define REG_DP_PHY_TXn_HIGHZ_DRVR_EN 0x0060
#define REG_DP_PHY_TXn_TX_POL_INV 0x0064
#define REG_DP_PHY_TXn_PARRATE_REC_DETECT_IDLE_EN 0x0068
#define REG_DP_PHY_TXn_LANE_MODE_1 0x008C
#define REG_DP_PHY_TXn_TRAN_DRVR_EMP_EN 0x00C0
#define REG_DP_PHY_TXn_TX_INTERFACE_MODE 0x00C4
#define REG_DP_PHY_TXn_VMODE_CTRL1 0x00F0
/* PLL register offset */
#define QSERDES_COM_ATB_SEL1 0x0000
#define QSERDES_COM_ATB_SEL2 0x0004
#define QSERDES_COM_FREQ_UPDATE 0x0008
#define QSERDES_COM_BG_TIMER 0x000C
#define QSERDES_COM_SSC_EN_CENTER 0x0010
#define QSERDES_COM_SSC_ADJ_PER1 0x0014
#define QSERDES_COM_SSC_ADJ_PER2 0x0018
#define QSERDES_COM_SSC_PER1 0x001C
#define QSERDES_COM_SSC_PER2 0x0020
#define QSERDES_COM_SSC_STEP_SIZE1 0x0024
#define QSERDES_COM_SSC_STEP_SIZE2 0x0028
#define QSERDES_COM_POST_DIV 0x002C
#define QSERDES_COM_POST_DIV_MUX 0x0030
#define QSERDES_COM_BIAS_EN_CLKBUFLR_EN 0x0034
#define QSERDES_COM_BIAS_EN 0x0001
#define QSERDES_COM_BIAS_EN_MUX 0x0002
#define QSERDES_COM_CLKBUF_R_EN 0x0004
#define QSERDES_COM_CLKBUF_L_EN 0x0008
#define QSERDES_COM_EN_SYSCLK_TX_SEL 0x0010
#define QSERDES_COM_CLKBUF_RX_DRIVE_L 0x0020
#define QSERDES_COM_CLKBUF_RX_DRIVE_R 0x0040
#define QSERDES_COM_CLK_ENABLE1 0x0038
#define QSERDES_COM_SYS_CLK_CTRL 0x003C
#define QSERDES_COM_SYSCLK_BUF_ENABLE 0x0040
#define QSERDES_COM_PLL_EN 0x0044
#define QSERDES_COM_PLL_IVCO 0x0048
#define QSERDES_COM_CMN_IETRIM 0x004C
#define QSERDES_COM_CMN_IPTRIM 0x0050
#define QSERDES_COM_CP_CTRL_MODE0 0x0060
#define QSERDES_COM_CP_CTRL_MODE1 0x0064
#define QSERDES_COM_PLL_RCTRL_MODE0 0x0068
#define QSERDES_COM_PLL_RCTRL_MODE1 0x006C
#define QSERDES_COM_PLL_CCTRL_MODE0 0x0070
#define QSERDES_COM_PLL_CCTRL_MODE1 0x0074
#define QSERDES_COM_PLL_CNTRL 0x0078
#define QSERDES_COM_BIAS_EN_CTRL_BY_PSM 0x007C
#define QSERDES_COM_SYSCLK_EN_SEL 0x0080
#define QSERDES_COM_CML_SYSCLK_SEL 0x0084
#define QSERDES_COM_RESETSM_CNTRL 0x0088
#define QSERDES_COM_RESETSM_CNTRL2 0x008C
#define QSERDES_COM_LOCK_CMP_EN 0x0090
#define QSERDES_COM_LOCK_CMP_CFG 0x0094
#define QSERDES_COM_LOCK_CMP1_MODE0 0x0098
#define QSERDES_COM_LOCK_CMP2_MODE0 0x009C
#define QSERDES_COM_LOCK_CMP3_MODE0 0x00A0
#define QSERDES_COM_DEC_START_MODE0 0x00B0
#define QSERDES_COM_DEC_START_MODE1 0x00B4
#define QSERDES_COM_DIV_FRAC_START1_MODE0 0x00B8
#define QSERDES_COM_DIV_FRAC_START2_MODE0 0x00BC
#define QSERDES_COM_DIV_FRAC_START3_MODE0 0x00C0
#define QSERDES_COM_DIV_FRAC_START1_MODE1 0x00C4
#define QSERDES_COM_DIV_FRAC_START2_MODE1 0x00C8
#define QSERDES_COM_DIV_FRAC_START3_MODE1 0x00CC
#define QSERDES_COM_INTEGLOOP_INITVAL 0x00D0
#define QSERDES_COM_INTEGLOOP_EN 0x00D4
#define QSERDES_COM_INTEGLOOP_GAIN0_MODE0 0x00D8
#define QSERDES_COM_INTEGLOOP_GAIN1_MODE0 0x00DC
#define QSERDES_COM_INTEGLOOP_GAIN0_MODE1 0x00E0
#define QSERDES_COM_INTEGLOOP_GAIN1_MODE1 0x00E4
#define QSERDES_COM_VCOCAL_DEADMAN_CTRL 0x00E8
#define QSERDES_COM_VCO_TUNE_CTRL 0x00EC
#define QSERDES_COM_VCO_TUNE_MAP 0x00F0
#define QSERDES_COM_CMN_STATUS 0x0124
#define QSERDES_COM_RESET_SM_STATUS 0x0128
#define QSERDES_COM_CLK_SEL 0x0138
#define QSERDES_COM_HSCLK_SEL 0x013C
#define QSERDES_COM_CORECLK_DIV_MODE0 0x0148
#define QSERDES_COM_SW_RESET 0x0150
#define QSERDES_COM_CORE_CLK_EN 0x0154
#define QSERDES_COM_C_READY_STATUS 0x0158
#define QSERDES_COM_CMN_CONFIG 0x015C
#define QSERDES_COM_SVS_MODE_CLK_SEL 0x0164
/* DP MMSS_CC registers */
#define MMSS_DP_LINK_CMD_RCGR (0x0138)
#define MMSS_DP_LINK_CFG_RCGR (0x013C)
#define MMSS_DP_PIXEL_M (0x01B4)
#define MMSS_DP_PIXEL_N (0x01B8)
/* DP HDCP 1.3 registers */ /* DP HDCP 1.3 registers */
#define DP_HDCP_CTRL (0x0A0) #define DP_HDCP_CTRL (0x0A0)
#define DP_HDCP_STATUS (0x0A4) #define DP_HDCP_STATUS (0x0A4)
...@@ -492,28 +303,4 @@ ...@@ -492,28 +303,4 @@
#define HDCP_SEC_DP_TZ_HV_HLOS_HDCP_RCVPORT_DATA11 (0x01C) #define HDCP_SEC_DP_TZ_HV_HLOS_HDCP_RCVPORT_DATA11 (0x01C)
#define HDCP_SEC_DP_TZ_HV_HLOS_HDCP_RCVPORT_DATA12 (0x020) #define HDCP_SEC_DP_TZ_HV_HLOS_HDCP_RCVPORT_DATA12 (0x020)
/* USB3 DP COM registers */
#define REG_USB3_DP_COM_RESET_OVRD_CTRL (0x1C)
#define USB3_DP_COM_OVRD_CTRL_SW_DPPHY_RESET (0x01)
#define USB3_DP_COM_OVRD_CTRL_SW_DPPHY_RESET_MUX (0x02)
#define USB3_DP_COM_OVRD_CTRL_SW_USB3PHY_RESET (0x04)
#define USB3_DP_COM_OVRD_CTRL_SW_USB3PHY_RESET_MUX (0x08)
#define REG_USB3_DP_COM_PHY_MODE_CTRL (0x00)
#define USB3_DP_COM_PHY_MODE_DP (0x03)
#define REG_USB3_DP_COM_SW_RESET (0x04)
#define USB3_DP_COM_SW_RESET_SET (0x01)
#define REG_USB3_DP_COM_TYPEC_CTRL (0x10)
#define USB3_DP_COM_TYPEC_CTRL_PORTSEL (0x01)
#define USB3_DP_COM_TYPEC_CTRL_PORTSEL_MUX (0x02)
#define REG_USB3_DP_COM_SWI_CTRL (0x0c)
#define REG_USB3_DP_COM_POWER_DOWN_CTRL (0x08)
#define USB3_DP_COM_POWER_DOWN_CTRL_SW_PWRDN (0x01)
#endif /* _DP_REG_H_ */ #endif /* _DP_REG_H_ */
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