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10fde7ee16af3c4ae29afcc57ef01363aa4b3556
android_kernel_samsung_sm86…/msm/dsi/dsi_catalog.c
Lipsa Rout 10fde7ee16 disp: msm: dsi: Add support for dynamically switch dsi clock 
Add changes to support dynamic switching of dsi clock feature for
phy ver 2.0. This helps to avoid RF interference with DSI clock.

Change-Id: I69958d9224665296cc0f272e39dcdfcefbe293d4
Signed-off-by: Ritesh Kumar <riteshk@codeaurora.org>
Signed-off-by: Lipsa Rout <lrout@codeaurora.org>
Signed-off-by: Satya Rama Aditya Pinapala <psraditya30@codeaurora.org>
2020-03-17 19:30:58 -07:00

327 wiersze
12 KiB
C
Czysty Wina Historia

// SPDX-License-Identifier: GPL-2.0-only
/*
* Copyright (c) 2015-2020, The Linux Foundation. All rights reserved.
*/
#include <linux/errno.h>
#include "dsi_catalog.h"
/**
* dsi_catalog_cmn_init() - catalog init for dsi controller v1.4
*/
static void dsi_catalog_cmn_init(struct dsi_ctrl_hw *ctrl,
enum dsi_ctrl_version version)
{
/* common functions */
ctrl->ops.host_setup = dsi_ctrl_hw_cmn_host_setup;
ctrl->ops.video_engine_en = dsi_ctrl_hw_cmn_video_engine_en;
ctrl->ops.video_engine_setup = dsi_ctrl_hw_cmn_video_engine_setup;
ctrl->ops.set_video_timing = dsi_ctrl_hw_cmn_set_video_timing;
ctrl->ops.set_timing_db = dsi_ctrl_hw_cmn_set_timing_db;
ctrl->ops.cmd_engine_setup = dsi_ctrl_hw_cmn_cmd_engine_setup;
ctrl->ops.setup_cmd_stream = dsi_ctrl_hw_cmn_setup_cmd_stream;
ctrl->ops.ctrl_en = dsi_ctrl_hw_cmn_ctrl_en;
ctrl->ops.cmd_engine_en = dsi_ctrl_hw_cmn_cmd_engine_en;
ctrl->ops.phy_sw_reset = dsi_ctrl_hw_cmn_phy_sw_reset;
ctrl->ops.soft_reset = dsi_ctrl_hw_cmn_soft_reset;
ctrl->ops.kickoff_command = dsi_ctrl_hw_cmn_kickoff_command;
ctrl->ops.kickoff_fifo_command = dsi_ctrl_hw_cmn_kickoff_fifo_command;
ctrl->ops.reset_cmd_fifo = dsi_ctrl_hw_cmn_reset_cmd_fifo;
ctrl->ops.trigger_command_dma = dsi_ctrl_hw_cmn_trigger_command_dma;
ctrl->ops.get_interrupt_status = dsi_ctrl_hw_cmn_get_interrupt_status;
ctrl->ops.get_error_status = dsi_ctrl_hw_cmn_get_error_status;
ctrl->ops.clear_error_status = dsi_ctrl_hw_cmn_clear_error_status;
ctrl->ops.clear_interrupt_status =
dsi_ctrl_hw_cmn_clear_interrupt_status;
ctrl->ops.enable_status_interrupts =
dsi_ctrl_hw_cmn_enable_status_interrupts;
ctrl->ops.enable_error_interrupts =
dsi_ctrl_hw_cmn_enable_error_interrupts;
ctrl->ops.video_test_pattern_setup =
dsi_ctrl_hw_cmn_video_test_pattern_setup;
ctrl->ops.cmd_test_pattern_setup =
dsi_ctrl_hw_cmn_cmd_test_pattern_setup;
ctrl->ops.test_pattern_enable = dsi_ctrl_hw_cmn_test_pattern_enable;
ctrl->ops.trigger_cmd_test_pattern =
dsi_ctrl_hw_cmn_trigger_cmd_test_pattern;
ctrl->ops.clear_phy0_ln_err = dsi_ctrl_hw_dln0_phy_err;
ctrl->ops.phy_reset_config = dsi_ctrl_hw_cmn_phy_reset_config;
ctrl->ops.setup_misr = dsi_ctrl_hw_cmn_setup_misr;
ctrl->ops.collect_misr = dsi_ctrl_hw_cmn_collect_misr;
ctrl->ops.debug_bus = dsi_ctrl_hw_cmn_debug_bus;
ctrl->ops.get_cmd_read_data = dsi_ctrl_hw_cmn_get_cmd_read_data;
ctrl->ops.clear_rdbk_register = dsi_ctrl_hw_cmn_clear_rdbk_reg;
ctrl->ops.ctrl_reset = dsi_ctrl_hw_cmn_ctrl_reset;
ctrl->ops.mask_error_intr = dsi_ctrl_hw_cmn_mask_error_intr;
ctrl->ops.error_intr_ctrl = dsi_ctrl_hw_cmn_error_intr_ctrl;
ctrl->ops.get_error_mask = dsi_ctrl_hw_cmn_get_error_mask;
ctrl->ops.get_hw_version = dsi_ctrl_hw_cmn_get_hw_version;
ctrl->ops.wait_for_cmd_mode_mdp_idle =
dsi_ctrl_hw_cmn_wait_for_cmd_mode_mdp_idle;
ctrl->ops.setup_avr = dsi_ctrl_hw_cmn_setup_avr;
ctrl->ops.set_continuous_clk = dsi_ctrl_hw_cmn_set_continuous_clk;
ctrl->ops.wait4dynamic_refresh_done =
dsi_ctrl_hw_cmn_wait4dynamic_refresh_done;
ctrl->ops.hs_req_sel = dsi_ctrl_hw_cmn_hs_req_sel;
switch (version) {
case DSI_CTRL_VERSION_1_4:
ctrl->ops.setup_lane_map = dsi_ctrl_hw_14_setup_lane_map;
ctrl->ops.ulps_ops.ulps_request = dsi_ctrl_hw_cmn_ulps_request;
ctrl->ops.ulps_ops.ulps_exit = dsi_ctrl_hw_cmn_ulps_exit;
ctrl->ops.wait_for_lane_idle =
dsi_ctrl_hw_14_wait_for_lane_idle;
ctrl->ops.ulps_ops.get_lanes_in_ulps =
dsi_ctrl_hw_cmn_get_lanes_in_ulps;
ctrl->ops.clamp_enable = dsi_ctrl_hw_14_clamp_enable;
ctrl->ops.clamp_disable = dsi_ctrl_hw_14_clamp_disable;
ctrl->ops.reg_dump_to_buffer =
dsi_ctrl_hw_14_reg_dump_to_buffer;
ctrl->ops.schedule_dma_cmd = NULL;
ctrl->ops.kickoff_command_non_embedded_mode = NULL;
ctrl->ops.config_clk_gating = NULL;
break;
case DSI_CTRL_VERSION_2_0:
ctrl->ops.setup_lane_map = dsi_ctrl_hw_20_setup_lane_map;
ctrl->ops.wait_for_lane_idle =
dsi_ctrl_hw_20_wait_for_lane_idle;
ctrl->ops.reg_dump_to_buffer =
dsi_ctrl_hw_20_reg_dump_to_buffer;
ctrl->ops.ulps_ops.ulps_request = NULL;
ctrl->ops.ulps_ops.ulps_exit = NULL;
ctrl->ops.ulps_ops.get_lanes_in_ulps = NULL;
ctrl->ops.clamp_enable = NULL;
ctrl->ops.clamp_disable = NULL;
ctrl->ops.schedule_dma_cmd = NULL;
ctrl->ops.kickoff_command_non_embedded_mode = NULL;
ctrl->ops.config_clk_gating = NULL;
break;
case DSI_CTRL_VERSION_2_2:
case DSI_CTRL_VERSION_2_3:
case DSI_CTRL_VERSION_2_4:
case DSI_CTRL_VERSION_2_5:
ctrl->ops.phy_reset_config = dsi_ctrl_hw_22_phy_reset_config;
ctrl->ops.config_clk_gating = dsi_ctrl_hw_22_config_clk_gating;
ctrl->ops.setup_lane_map = dsi_ctrl_hw_20_setup_lane_map;
ctrl->ops.wait_for_lane_idle =
dsi_ctrl_hw_20_wait_for_lane_idle;
ctrl->ops.reg_dump_to_buffer =
dsi_ctrl_hw_20_reg_dump_to_buffer;
ctrl->ops.ulps_ops.ulps_request = dsi_ctrl_hw_cmn_ulps_request;
ctrl->ops.ulps_ops.ulps_exit = dsi_ctrl_hw_cmn_ulps_exit;
ctrl->ops.ulps_ops.get_lanes_in_ulps =
dsi_ctrl_hw_cmn_get_lanes_in_ulps;
ctrl->ops.clamp_enable = NULL;
ctrl->ops.clamp_disable = NULL;
ctrl->ops.schedule_dma_cmd = dsi_ctrl_hw_22_schedule_dma_cmd;
ctrl->ops.kickoff_command_non_embedded_mode =
dsi_ctrl_hw_kickoff_non_embedded_mode;
break;
default:
break;
}
}
/**
* dsi_catalog_ctrl_setup() - return catalog info for dsi controller
* @ctrl: Pointer to DSI controller hw object.
* @version: DSI controller version.
* @index: DSI controller instance ID.
* @phy_isolation_enabled: DSI controller works isolated from phy.
* @null_insertion_enabled: DSI controller inserts null packet.
*
* This function setups the catalog information in the dsi_ctrl_hw object.
*
* return: error code for failure and 0 for success.
*/
int dsi_catalog_ctrl_setup(struct dsi_ctrl_hw *ctrl,
enum dsi_ctrl_version version, u32 index,
bool phy_isolation_enabled, bool null_insertion_enabled)
{
int rc = 0;
if (version == DSI_CTRL_VERSION_UNKNOWN ||
version >= DSI_CTRL_VERSION_MAX) {
DSI_ERR("Unsupported version: %d\n", version);
return -ENOTSUPP;
}
ctrl->index = index;
ctrl->null_insertion_enabled = null_insertion_enabled;
set_bit(DSI_CTRL_VIDEO_TPG, ctrl->feature_map);
set_bit(DSI_CTRL_CMD_TPG, ctrl->feature_map);
set_bit(DSI_CTRL_VARIABLE_REFRESH_RATE, ctrl->feature_map);
set_bit(DSI_CTRL_DYNAMIC_REFRESH, ctrl->feature_map);
set_bit(DSI_CTRL_DESKEW_CALIB, ctrl->feature_map);
set_bit(DSI_CTRL_DPHY, ctrl->feature_map);
switch (version) {
case DSI_CTRL_VERSION_1_4:
dsi_catalog_cmn_init(ctrl, version);
break;
case DSI_CTRL_VERSION_2_0:
case DSI_CTRL_VERSION_2_2:
case DSI_CTRL_VERSION_2_3:
case DSI_CTRL_VERSION_2_4:
case DSI_CTRL_VERSION_2_5:
ctrl->phy_isolation_enabled = phy_isolation_enabled;
dsi_catalog_cmn_init(ctrl, version);
break;
default:
return -ENOTSUPP;
}
return rc;
}
/**
* dsi_catalog_phy_2_0_init() - catalog init for DSI PHY 14nm
*/
static void dsi_catalog_phy_2_0_init(struct dsi_phy_hw *phy)
{
phy->ops.regulator_enable = dsi_phy_hw_v2_0_regulator_enable;
phy->ops.regulator_disable = dsi_phy_hw_v2_0_regulator_disable;
phy->ops.enable = dsi_phy_hw_v2_0_enable;
phy->ops.disable = dsi_phy_hw_v2_0_disable;
phy->ops.calculate_timing_params =
dsi_phy_hw_calculate_timing_params;
phy->ops.phy_idle_on = dsi_phy_hw_v2_0_idle_on;
phy->ops.phy_idle_off = dsi_phy_hw_v2_0_idle_off;
phy->ops.calculate_timing_params =
dsi_phy_hw_calculate_timing_params;
phy->ops.phy_timing_val = dsi_phy_hw_timing_val_v2_0;
phy->ops.clamp_ctrl = dsi_phy_hw_v2_0_clamp_ctrl;
phy->ops.dyn_refresh_ops.dyn_refresh_config =
dsi_phy_hw_v2_0_dyn_refresh_config;
phy->ops.dyn_refresh_ops.dyn_refresh_pipe_delay =
dsi_phy_hw_v2_0_dyn_refresh_pipe_delay;
phy->ops.dyn_refresh_ops.dyn_refresh_helper =
dsi_phy_hw_v2_0_dyn_refresh_helper;
phy->ops.dyn_refresh_ops.cache_phy_timings =
dsi_phy_hw_v2_0_cache_phy_timings;
}
/**
* dsi_catalog_phy_3_0_init() - catalog init for DSI PHY 10nm
*/
static void dsi_catalog_phy_3_0_init(struct dsi_phy_hw *phy)
{
phy->ops.regulator_enable = dsi_phy_hw_v3_0_regulator_enable;
phy->ops.regulator_disable = dsi_phy_hw_v3_0_regulator_disable;
phy->ops.enable = dsi_phy_hw_v3_0_enable;
phy->ops.disable = dsi_phy_hw_v3_0_disable;
phy->ops.calculate_timing_params =
dsi_phy_hw_calculate_timing_params;
phy->ops.ulps_ops.wait_for_lane_idle =
dsi_phy_hw_v3_0_wait_for_lane_idle;
phy->ops.ulps_ops.ulps_request =
dsi_phy_hw_v3_0_ulps_request;
phy->ops.ulps_ops.ulps_exit =
dsi_phy_hw_v3_0_ulps_exit;
phy->ops.ulps_ops.get_lanes_in_ulps =
dsi_phy_hw_v3_0_get_lanes_in_ulps;
phy->ops.ulps_ops.is_lanes_in_ulps =
dsi_phy_hw_v3_0_is_lanes_in_ulps;
phy->ops.phy_timing_val = dsi_phy_hw_timing_val_v3_0;
phy->ops.clamp_ctrl = dsi_phy_hw_v3_0_clamp_ctrl;
phy->ops.phy_lane_reset = dsi_phy_hw_v3_0_lane_reset;
phy->ops.toggle_resync_fifo = dsi_phy_hw_v3_0_toggle_resync_fifo;
phy->ops.dyn_refresh_ops.dyn_refresh_config =
dsi_phy_hw_v3_0_dyn_refresh_config;
phy->ops.dyn_refresh_ops.dyn_refresh_pipe_delay =
dsi_phy_hw_v3_0_dyn_refresh_pipe_delay;
phy->ops.dyn_refresh_ops.dyn_refresh_helper =
dsi_phy_hw_v3_0_dyn_refresh_helper;
phy->ops.dyn_refresh_ops.cache_phy_timings =
dsi_phy_hw_v3_0_cache_phy_timings;
}
/**
* dsi_catalog_phy_4_0_init() - catalog init for DSI PHY 7nm
*/
static void dsi_catalog_phy_4_0_init(struct dsi_phy_hw *phy)
{
phy->ops.regulator_enable = NULL;
phy->ops.regulator_disable = NULL;
phy->ops.enable = dsi_phy_hw_v4_0_enable;
phy->ops.disable = dsi_phy_hw_v4_0_disable;
phy->ops.calculate_timing_params =
dsi_phy_hw_calculate_timing_params;
phy->ops.ulps_ops.wait_for_lane_idle =
dsi_phy_hw_v4_0_wait_for_lane_idle;
phy->ops.ulps_ops.ulps_request =
dsi_phy_hw_v4_0_ulps_request;
phy->ops.ulps_ops.ulps_exit =
dsi_phy_hw_v4_0_ulps_exit;
phy->ops.ulps_ops.get_lanes_in_ulps =
dsi_phy_hw_v4_0_get_lanes_in_ulps;
phy->ops.ulps_ops.is_lanes_in_ulps =
dsi_phy_hw_v4_0_is_lanes_in_ulps;
phy->ops.phy_timing_val = dsi_phy_hw_timing_val_v4_0;
phy->ops.phy_lane_reset = dsi_phy_hw_v4_0_lane_reset;
phy->ops.toggle_resync_fifo = dsi_phy_hw_v4_0_toggle_resync_fifo;
phy->ops.reset_clk_en_sel = dsi_phy_hw_v4_0_reset_clk_en_sel;
phy->ops.dyn_refresh_ops.dyn_refresh_config =
dsi_phy_hw_v4_0_dyn_refresh_config;
phy->ops.dyn_refresh_ops.dyn_refresh_pipe_delay =
dsi_phy_hw_v4_0_dyn_refresh_pipe_delay;
phy->ops.dyn_refresh_ops.dyn_refresh_helper =
dsi_phy_hw_v4_0_dyn_refresh_helper;
phy->ops.dyn_refresh_ops.cache_phy_timings =
dsi_phy_hw_v4_0_cache_phy_timings;
phy->ops.set_continuous_clk = dsi_phy_hw_v4_0_set_continuous_clk;
phy->ops.commit_phy_timing = dsi_phy_hw_v4_0_commit_phy_timing;
}
/**
* dsi_catalog_phy_setup() - return catalog info for dsi phy hardware
* @ctrl: Pointer to DSI PHY hw object.
* @version: DSI PHY version.
* @index: DSI PHY instance ID.
*
* This function setups the catalog information in the dsi_phy_hw object.
*
* return: error code for failure and 0 for success.
*/
int dsi_catalog_phy_setup(struct dsi_phy_hw *phy,
enum dsi_phy_version version,
u32 index)
{
int rc = 0;
if (version == DSI_PHY_VERSION_UNKNOWN ||
version >= DSI_PHY_VERSION_MAX) {
DSI_ERR("Unsupported version: %d\n", version);
return -ENOTSUPP;
}
phy->index = index;
phy->version = version;
set_bit(DSI_PHY_DPHY, phy->feature_map);
dsi_phy_timing_calc_init(phy, version);
switch (version) {
case DSI_PHY_VERSION_2_0:
dsi_catalog_phy_2_0_init(phy);
break;
case DSI_PHY_VERSION_3_0:
dsi_catalog_phy_3_0_init(phy);
break;
case DSI_PHY_VERSION_4_0:
case DSI_PHY_VERSION_4_1:
case DSI_PHY_VERSION_4_2:
dsi_catalog_phy_4_0_init(phy);
break;
case DSI_PHY_VERSION_0_0_HPM:
case DSI_PHY_VERSION_0_0_LPM:
case DSI_PHY_VERSION_1_0:
default:
return -ENOTSUPP;
}
return rc;
}
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