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|
/*
* Copyright 2023 Advanced Micro Devices, Inc.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*
* Authors: AMD
*
*/
/* FILE POLICY AND INTENDED USAGE:
* This file owns the programming sequence of stream's dpms state associated
* with the link and link's enable/disable sequences as result of the stream's
* dpms state change.
*
* TODO - The reason link owns stream's dpms programming sequence is
* because dpms programming sequence is highly dependent on underlying signal
* specific link protocols. This unfortunately causes link to own a portion of
* stream state programming sequence. This creates a gray area where the
* boundary between link and stream is not clearly defined.
*/
#include "link_dpms.h"
#include "link_hwss.h"
#include "link_validation.h"
#include "accessories/link_dp_trace.h"
#include "protocols/link_dpcd.h"
#include "protocols/link_ddc.h"
#include "protocols/link_hpd.h"
#include "protocols/link_dp_phy.h"
#include "protocols/link_dp_capability.h"
#include "protocols/link_dp_training.h"
#include "protocols/link_edp_panel_control.h"
#include "protocols/link_dp_dpia_bw.h"
#include "dm_helpers.h"
#include "link_enc_cfg.h"
#include "resource.h"
#include "dsc.h"
#include "dccg.h"
#include "clk_mgr.h"
#include "atomfirmware.h"
#include "vpg.h"
#define DC_LOGGER \
dc_logger
#define DC_LOGGER_INIT(logger) \
struct dal_logger *dc_logger = logger
#define LINK_INFO(...) \
DC_LOG_HW_HOTPLUG( \
__VA_ARGS__)
#define RETIMER_REDRIVER_INFO(...) \
DC_LOG_RETIMER_REDRIVER( \
__VA_ARGS__)
#define MAX_MTP_SLOT_COUNT 64
#define LINK_TRAINING_ATTEMPTS 4
#define PEAK_FACTOR_X1000 1006
void link_blank_all_dp_displays(struct dc *dc)
{
unsigned int i;
uint8_t dpcd_power_state = '\0';
enum dc_status status = DC_ERROR_UNEXPECTED;
for (i = 0; i < dc->link_count; i++) {
if ((dc->links[i]->connector_signal != SIGNAL_TYPE_DISPLAY_PORT) ||
(dc->links[i]->priv == NULL) || (dc->links[i]->local_sink == NULL))
continue;
/* DP 2.0 spec requires that we read LTTPR caps first */
dp_retrieve_lttpr_cap(dc->links[i]);
/* if any of the displays are lit up turn them off */
status = core_link_read_dpcd(dc->links[i], DP_SET_POWER,
&dpcd_power_state, sizeof(dpcd_power_state));
if (status == DC_OK && dpcd_power_state == DP_POWER_STATE_D0)
link_blank_dp_stream(dc->links[i], true);
}
}
void link_blank_all_edp_displays(struct dc *dc)
{
unsigned int i;
uint8_t dpcd_power_state = '\0';
enum dc_status status = DC_ERROR_UNEXPECTED;
for (i = 0; i < dc->link_count; i++) {
if ((dc->links[i]->connector_signal != SIGNAL_TYPE_EDP) ||
(!dc->links[i]->edp_sink_present))
continue;
/* if any of the displays are lit up turn them off */
status = core_link_read_dpcd(dc->links[i], DP_SET_POWER,
&dpcd_power_state, sizeof(dpcd_power_state));
if (status == DC_OK && dpcd_power_state == DP_POWER_STATE_D0)
link_blank_dp_stream(dc->links[i], true);
}
}
void link_blank_dp_stream(struct dc_link *link, bool hw_init)
{
unsigned int j;
struct dc *dc = link->ctx->dc;
enum signal_type signal = link->connector_signal;
if ((signal == SIGNAL_TYPE_EDP) ||
(signal == SIGNAL_TYPE_DISPLAY_PORT)) {
if (link->ep_type == DISPLAY_ENDPOINT_PHY &&
link->link_enc->funcs->get_dig_frontend &&
link->link_enc->funcs->is_dig_enabled(link->link_enc)) {
int fe = link->link_enc->funcs->get_dig_frontend(link->link_enc);
if (fe != ENGINE_ID_UNKNOWN)
for (j = 0; j < dc->res_pool->stream_enc_count; j++) {
if (fe == dc->res_pool->stream_enc[j]->id) {
dc->res_pool->stream_enc[j]->funcs->dp_blank(link,
dc->res_pool->stream_enc[j]);
break;
}
}
}
if ((!link->wa_flags.dp_keep_receiver_powered) || hw_init)
dpcd_write_rx_power_ctrl(link, false);
}
}
void link_set_all_streams_dpms_off_for_link(struct dc_link *link)
{
struct pipe_ctx *pipes[MAX_PIPES];
struct dc_state *state = link->dc->current_state;
uint8_t count;
int i;
struct dc_stream_update stream_update;
bool dpms_off = true;
struct link_resource link_res = {0};
memset(&stream_update, 0, sizeof(stream_update));
stream_update.dpms_off = &dpms_off;
link_get_master_pipes_with_dpms_on(link, state, &count, pipes);
for (i = 0; i < count; i++) {
stream_update.stream = pipes[i]->stream;
dc_commit_updates_for_stream(link->ctx->dc, NULL, 0,
pipes[i]->stream, &stream_update,
state);
}
/* link can be also enabled by vbios. In this case it is not recorded
* in pipe_ctx. Disable link phy here to make sure it is completely off
*/
dp_disable_link_phy(link, &link_res, link->connector_signal);
}
void link_resume(struct dc_link *link)
{
if (link->connector_signal != SIGNAL_TYPE_VIRTUAL)
program_hpd_filter(link);
}
/* This function returns true if the pipe is used to feed video signal directly
* to the link.
*/
static bool is_master_pipe_for_link(const struct dc_link *link,
const struct pipe_ctx *pipe)
{
return resource_is_pipe_type(pipe, OTG_MASTER) &&
pipe->stream->link == link;
}
/*
* This function finds all master pipes feeding to a given link with dpms set to
* on in given dc state.
*/
void link_get_master_pipes_with_dpms_on(const struct dc_link *link,
struct dc_state *state,
uint8_t *count,
struct pipe_ctx *pipes[MAX_PIPES])
{
int i;
struct pipe_ctx *pipe = NULL;
*count = 0;
for (i = 0; i < MAX_PIPES; i++) {
pipe = &state->res_ctx.pipe_ctx[i];
if (is_master_pipe_for_link(link, pipe) &&
pipe->stream->dpms_off == false) {
pipes[(*count)++] = pipe;
}
}
}
static bool get_ext_hdmi_settings(struct pipe_ctx *pipe_ctx,
enum engine_id eng_id,
struct ext_hdmi_settings *settings)
{
bool result = false;
int i = 0;
struct integrated_info *integrated_info =
pipe_ctx->stream->ctx->dc_bios->integrated_info;
if (integrated_info == NULL)
return false;
/*
* Get retimer settings from sbios for passing SI eye test for DCE11
* The setting values are varied based on board revision and port id
* Therefore the setting values of each ports is passed by sbios.
*/
// Check if current bios contains ext Hdmi settings
if (integrated_info->gpu_cap_info & 0x20) {
switch (eng_id) {
case ENGINE_ID_DIGA:
settings->slv_addr = integrated_info->dp0_ext_hdmi_slv_addr;
settings->reg_num = integrated_info->dp0_ext_hdmi_6g_reg_num;
settings->reg_num_6g = integrated_info->dp0_ext_hdmi_6g_reg_num;
memmove(settings->reg_settings,
integrated_info->dp0_ext_hdmi_reg_settings,
sizeof(integrated_info->dp0_ext_hdmi_reg_settings));
memmove(settings->reg_settings_6g,
integrated_info->dp0_ext_hdmi_6g_reg_settings,
sizeof(integrated_info->dp0_ext_hdmi_6g_reg_settings));
result = true;
break;
case ENGINE_ID_DIGB:
settings->slv_addr = integrated_info->dp1_ext_hdmi_slv_addr;
settings->reg_num = integrated_info->dp1_ext_hdmi_6g_reg_num;
settings->reg_num_6g = integrated_info->dp1_ext_hdmi_6g_reg_num;
memmove(settings->reg_settings,
integrated_info->dp1_ext_hdmi_reg_settings,
sizeof(integrated_info->dp1_ext_hdmi_reg_settings));
memmove(settings->reg_settings_6g,
integrated_info->dp1_ext_hdmi_6g_reg_settings,
sizeof(integrated_info->dp1_ext_hdmi_6g_reg_settings));
result = true;
break;
case ENGINE_ID_DIGC:
settings->slv_addr = integrated_info->dp2_ext_hdmi_slv_addr;
settings->reg_num = integrated_info->dp2_ext_hdmi_6g_reg_num;
settings->reg_num_6g = integrated_info->dp2_ext_hdmi_6g_reg_num;
memmove(settings->reg_settings,
integrated_info->dp2_ext_hdmi_reg_settings,
sizeof(integrated_info->dp2_ext_hdmi_reg_settings));
memmove(settings->reg_settings_6g,
integrated_info->dp2_ext_hdmi_6g_reg_settings,
sizeof(integrated_info->dp2_ext_hdmi_6g_reg_settings));
result = true;
break;
case ENGINE_ID_DIGD:
settings->slv_addr = integrated_info->dp3_ext_hdmi_slv_addr;
settings->reg_num = integrated_info->dp3_ext_hdmi_6g_reg_num;
settings->reg_num_6g = integrated_info->dp3_ext_hdmi_6g_reg_num;
memmove(settings->reg_settings,
integrated_info->dp3_ext_hdmi_reg_settings,
sizeof(integrated_info->dp3_ext_hdmi_reg_settings));
memmove(settings->reg_settings_6g,
integrated_info->dp3_ext_hdmi_6g_reg_settings,
sizeof(integrated_info->dp3_ext_hdmi_6g_reg_settings));
result = true;
break;
default:
break;
}
if (result == true) {
// Validate settings from bios integrated info table
if (settings->slv_addr == 0)
return false;
if (settings->reg_num > 9)
return false;
if (settings->reg_num_6g > 3)
return false;
for (i = 0; i < settings->reg_num; i++) {
if (settings->reg_settings[i].i2c_reg_index > 0x20)
return false;
}
for (i = 0; i < settings->reg_num_6g; i++) {
if (settings->reg_settings_6g[i].i2c_reg_index > 0x20)
return false;
}
}
}
return result;
}
static bool write_i2c(struct pipe_ctx *pipe_ctx,
uint8_t address, uint8_t *buffer, uint32_t length)
{
struct i2c_command cmd = {0};
struct i2c_payload payload = {0};
memset(&payload, 0, sizeof(payload));
memset(&cmd, 0, sizeof(cmd));
cmd.number_of_payloads = 1;
cmd.engine = I2C_COMMAND_ENGINE_DEFAULT;
cmd.speed = pipe_ctx->stream->ctx->dc->caps.i2c_speed_in_khz;
payload.address = address;
payload.data = buffer;
payload.length = length;
payload.write = true;
cmd.payloads = &payload;
if (dm_helpers_submit_i2c(pipe_ctx->stream->ctx,
pipe_ctx->stream->link, &cmd))
return true;
return false;
}
static void write_i2c_retimer_setting(
struct pipe_ctx *pipe_ctx,
bool is_vga_mode,
bool is_over_340mhz,
struct ext_hdmi_settings *settings)
{
uint8_t slave_address = (settings->slv_addr >> 1);
uint8_t buffer[2];
const uint8_t apply_rx_tx_change = 0x4;
uint8_t offset = 0xA;
uint8_t value = 0;
int i = 0;
bool i2c_success = false;
DC_LOGGER_INIT(pipe_ctx->stream->ctx->logger);
memset(&buffer, 0, sizeof(buffer));
/* Start Ext-Hdmi programming*/
for (i = 0; i < settings->reg_num; i++) {
/* Apply 3G settings */
if (settings->reg_settings[i].i2c_reg_index <= 0x20) {
buffer[0] = settings->reg_settings[i].i2c_reg_index;
buffer[1] = settings->reg_settings[i].i2c_reg_val;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("retimer write to slave_address = 0x%x,\
offset = 0x%x, reg_val= 0x%x, i2c_success = %d\n",
slave_address, buffer[0], buffer[1], i2c_success?1:0);
if (!i2c_success)
goto i2c_write_fail;
/* Based on DP159 specs, APPLY_RX_TX_CHANGE bit in 0x0A
* needs to be set to 1 on every 0xA-0xC write.
*/
if (settings->reg_settings[i].i2c_reg_index == 0xA ||
settings->reg_settings[i].i2c_reg_index == 0xB ||
settings->reg_settings[i].i2c_reg_index == 0xC) {
/* Query current value from offset 0xA */
if (settings->reg_settings[i].i2c_reg_index == 0xA)
value = settings->reg_settings[i].i2c_reg_val;
else {
i2c_success =
link_query_ddc_data(
pipe_ctx->stream->link->ddc,
slave_address, &offset, 1, &value, 1);
if (!i2c_success)
goto i2c_write_fail;
}
buffer[0] = offset;
/* Set APPLY_RX_TX_CHANGE bit to 1 */
buffer[1] = value | apply_rx_tx_change;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("retimer write to slave_address = 0x%x,\
offset = 0x%x, reg_val = 0x%x, i2c_success = %d\n",
slave_address, buffer[0], buffer[1], i2c_success?1:0);
if (!i2c_success)
goto i2c_write_fail;
}
}
}
/* Apply 3G settings */
if (is_over_340mhz) {
for (i = 0; i < settings->reg_num_6g; i++) {
/* Apply 3G settings */
if (settings->reg_settings[i].i2c_reg_index <= 0x20) {
buffer[0] = settings->reg_settings_6g[i].i2c_reg_index;
buffer[1] = settings->reg_settings_6g[i].i2c_reg_val;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("above 340Mhz: retimer write to slave_address = 0x%x,\
offset = 0x%x, reg_val = 0x%x, i2c_success = %d\n",
slave_address, buffer[0], buffer[1], i2c_success?1:0);
if (!i2c_success)
goto i2c_write_fail;
/* Based on DP159 specs, APPLY_RX_TX_CHANGE bit in 0x0A
* needs to be set to 1 on every 0xA-0xC write.
*/
if (settings->reg_settings_6g[i].i2c_reg_index == 0xA ||
settings->reg_settings_6g[i].i2c_reg_index == 0xB ||
settings->reg_settings_6g[i].i2c_reg_index == 0xC) {
/* Query current value from offset 0xA */
if (settings->reg_settings_6g[i].i2c_reg_index == 0xA)
value = settings->reg_settings_6g[i].i2c_reg_val;
else {
i2c_success =
link_query_ddc_data(
pipe_ctx->stream->link->ddc,
slave_address, &offset, 1, &value, 1);
if (!i2c_success)
goto i2c_write_fail;
}
buffer[0] = offset;
/* Set APPLY_RX_TX_CHANGE bit to 1 */
buffer[1] = value | apply_rx_tx_change;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("retimer write to slave_address = 0x%x,\
offset = 0x%x, reg_val = 0x%x, i2c_success = %d\n",
slave_address, buffer[0], buffer[1], i2c_success?1:0);
if (!i2c_success)
goto i2c_write_fail;
}
}
}
}
if (is_vga_mode) {
/* Program additional settings if using 640x480 resolution */
/* Write offset 0xFF to 0x01 */
buffer[0] = 0xff;
buffer[1] = 0x01;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("retimer write to slave_address = 0x%x,\
offset = 0x%x, reg_val = 0x%x, i2c_success = %d\n",
slave_address, buffer[0], buffer[1], i2c_success?1:0);
if (!i2c_success)
goto i2c_write_fail;
/* Write offset 0x00 to 0x23 */
buffer[0] = 0x00;
buffer[1] = 0x23;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("retimer write to slave_address = 0x%x,\
offset = 0x%x, reg_val = 0x%x, i2c_success = %d\n",
slave_address, buffer[0], buffer[1], i2c_success?1:0);
if (!i2c_success)
goto i2c_write_fail;
/* Write offset 0xff to 0x00 */
buffer[0] = 0xff;
buffer[1] = 0x00;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("retimer write to slave_address = 0x%x,\
offset = 0x%x, reg_val = 0x%x, i2c_success = %d\n",
slave_address, buffer[0], buffer[1], i2c_success?1:0);
if (!i2c_success)
goto i2c_write_fail;
}
return;
i2c_write_fail:
DC_LOG_DEBUG("Set retimer failed");
}
static void write_i2c_default_retimer_setting(
struct pipe_ctx *pipe_ctx,
bool is_vga_mode,
bool is_over_340mhz)
{
uint8_t slave_address = (0xBA >> 1);
uint8_t buffer[2];
bool i2c_success = false;
DC_LOGGER_INIT(pipe_ctx->stream->ctx->logger);
memset(&buffer, 0, sizeof(buffer));
/* Program Slave Address for tuning single integrity */
/* Write offset 0x0A to 0x13 */
buffer[0] = 0x0A;
buffer[1] = 0x13;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("retimer writes default setting to slave_address = 0x%x,\
offset = 0x%x, reg_val = 0x%x, i2c_success = %d\n",
slave_address, buffer[0], buffer[1], i2c_success?1:0);
if (!i2c_success)
goto i2c_write_fail;
/* Write offset 0x0A to 0x17 */
buffer[0] = 0x0A;
buffer[1] = 0x17;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("retimer write to slave_addr = 0x%x,\
offset = 0x%x, reg_val = 0x%x, i2c_success = %d\n",
slave_address, buffer[0], buffer[1], i2c_success?1:0);
if (!i2c_success)
goto i2c_write_fail;
/* Write offset 0x0B to 0xDA or 0xD8 */
buffer[0] = 0x0B;
buffer[1] = is_over_340mhz ? 0xDA : 0xD8;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("retimer write to slave_addr = 0x%x,\
offset = 0x%x, reg_val = 0x%x, i2c_success = %d\n",
slave_address, buffer[0], buffer[1], i2c_success?1:0);
if (!i2c_success)
goto i2c_write_fail;
/* Write offset 0x0A to 0x17 */
buffer[0] = 0x0A;
buffer[1] = 0x17;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("retimer write to slave_addr = 0x%x,\
offset = 0x%x, reg_val= 0x%x, i2c_success = %d\n",
slave_address, buffer[0], buffer[1], i2c_success?1:0);
if (!i2c_success)
goto i2c_write_fail;
/* Write offset 0x0C to 0x1D or 0x91 */
buffer[0] = 0x0C;
buffer[1] = is_over_340mhz ? 0x1D : 0x91;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("retimer write to slave_addr = 0x%x,\
offset = 0x%x, reg_val = 0x%x, i2c_success = %d\n",
slave_address, buffer[0], buffer[1], i2c_success?1:0);
if (!i2c_success)
goto i2c_write_fail;
/* Write offset 0x0A to 0x17 */
buffer[0] = 0x0A;
buffer[1] = 0x17;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("retimer write to slave_addr = 0x%x,\
offset = 0x%x, reg_val = 0x%x, i2c_success = %d\n",
slave_address, buffer[0], buffer[1], i2c_success?1:0);
if (!i2c_success)
goto i2c_write_fail;
if (is_vga_mode) {
/* Program additional settings if using 640x480 resolution */
/* Write offset 0xFF to 0x01 */
buffer[0] = 0xff;
buffer[1] = 0x01;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("retimer write to slave_addr = 0x%x,\
offset = 0x%x, reg_val = 0x%x, i2c_success = %d\n",
slave_address, buffer[0], buffer[1], i2c_success?1:0);
if (!i2c_success)
goto i2c_write_fail;
/* Write offset 0x00 to 0x23 */
buffer[0] = 0x00;
buffer[1] = 0x23;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("retimer write to slave_addr = 0x%x,\
offset = 0x%x, reg_val= 0x%x, i2c_success = %d\n",
slave_address, buffer[0], buffer[1], i2c_success?1:0);
if (!i2c_success)
goto i2c_write_fail;
/* Write offset 0xff to 0x00 */
buffer[0] = 0xff;
buffer[1] = 0x00;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("retimer write default setting to slave_addr = 0x%x,\
offset = 0x%x, reg_val= 0x%x, i2c_success = %d end here\n",
slave_address, buffer[0], buffer[1], i2c_success?1:0);
if (!i2c_success)
goto i2c_write_fail;
}
return;
i2c_write_fail:
DC_LOG_DEBUG("Set default retimer failed");
}
static void write_i2c_redriver_setting(
struct pipe_ctx *pipe_ctx,
bool is_over_340mhz)
{
uint8_t slave_address = (0xF0 >> 1);
uint8_t buffer[16];
bool i2c_success = false;
DC_LOGGER_INIT(pipe_ctx->stream->ctx->logger);
memset(&buffer, 0, sizeof(buffer));
// Program Slave Address for tuning single integrity
buffer[3] = 0x4E;
buffer[4] = 0x4E;
buffer[5] = 0x4E;
buffer[6] = is_over_340mhz ? 0x4E : 0x4A;
i2c_success = write_i2c(pipe_ctx, slave_address,
buffer, sizeof(buffer));
RETIMER_REDRIVER_INFO("redriver write 0 to all 16 reg offset expect following:\n\
\t slave_addr = 0x%x, offset[3] = 0x%x, offset[4] = 0x%x,\
offset[5] = 0x%x,offset[6] is_over_340mhz = 0x%x,\
i2c_success = %d\n",
slave_address, buffer[3], buffer[4], buffer[5], buffer[6], i2c_success?1:0);
if (!i2c_success)
DC_LOG_DEBUG("Set redriver failed");
}
static void update_psp_stream_config(struct pipe_ctx *pipe_ctx, bool dpms_off)
{
struct cp_psp *cp_psp = &pipe_ctx->stream->ctx->cp_psp;
struct link_encoder *link_enc = NULL;
struct cp_psp_stream_config config = {0};
enum dp_panel_mode panel_mode =
dp_get_panel_mode(pipe_ctx->stream->link);
if (cp_psp == NULL || cp_psp->funcs.update_stream_config == NULL)
return;
link_enc = link_enc_cfg_get_link_enc(pipe_ctx->stream->link);
ASSERT(link_enc);
if (link_enc == NULL)
return;
/* otg instance */
config.otg_inst = (uint8_t) pipe_ctx->stream_res.tg->inst;
/* dig front end */
config.dig_fe = (uint8_t) pipe_ctx->stream_res.stream_enc->stream_enc_inst;
/* stream encoder index */
config.stream_enc_idx = pipe_ctx->stream_res.stream_enc->id - ENGINE_ID_DIGA;
if (dp_is_128b_132b_signal(pipe_ctx))
config.stream_enc_idx =
pipe_ctx->stream_res.hpo_dp_stream_enc->id - ENGINE_ID_HPO_DP_0;
/* dig back end */
config.dig_be = pipe_ctx->stream->link->link_enc_hw_inst;
/* link encoder index */
config.link_enc_idx = link_enc->transmitter - TRANSMITTER_UNIPHY_A;
if (dp_is_128b_132b_signal(pipe_ctx))
config.link_enc_idx = pipe_ctx->link_res.hpo_dp_link_enc->inst;
/* dio output index is dpia index for DPIA endpoint & dcio index by default */
if (pipe_ctx->stream->link->ep_type == DISPLAY_ENDPOINT_USB4_DPIA)
config.dio_output_idx = pipe_ctx->stream->link->link_id.enum_id - ENUM_ID_1;
else
config.dio_output_idx = link_enc->transmitter - TRANSMITTER_UNIPHY_A;
/* phy index */
config.phy_idx = resource_transmitter_to_phy_idx(
pipe_ctx->stream->link->dc, link_enc->transmitter);
if (pipe_ctx->stream->link->ep_type == DISPLAY_ENDPOINT_USB4_DPIA)
/* USB4 DPIA doesn't use PHY in our soc, initialize it to 0 */
config.phy_idx = 0;
/* stream properties */
config.assr_enabled = (panel_mode == DP_PANEL_MODE_EDP) ? 1 : 0;
config.mst_enabled = (pipe_ctx->stream->signal ==
SIGNAL_TYPE_DISPLAY_PORT_MST) ? 1 : 0;
config.dp2_enabled = dp_is_128b_132b_signal(pipe_ctx) ? 1 : 0;
config.usb4_enabled = (pipe_ctx->stream->link->ep_type == DISPLAY_ENDPOINT_USB4_DPIA) ?
1 : 0;
config.dpms_off = dpms_off;
/* dm stream context */
config.dm_stream_ctx = pipe_ctx->stream->dm_stream_context;
cp_psp->funcs.update_stream_config(cp_psp->handle, &config);
}
static void set_avmute(struct pipe_ctx *pipe_ctx, bool enable)
{
struct dc *dc = pipe_ctx->stream->ctx->dc;
if (!dc_is_hdmi_signal(pipe_ctx->stream->signal))
return;
dc->hwss.set_avmute(pipe_ctx, enable);
}
static void enable_mst_on_sink(struct dc_link *link, bool enable)
{
unsigned char mstmCntl = 0;
core_link_read_dpcd(link, DP_MSTM_CTRL, &mstmCntl, 1);
if (enable)
mstmCntl |= DP_MST_EN;
else
mstmCntl &= (~DP_MST_EN);
core_link_write_dpcd(link, DP_MSTM_CTRL, &mstmCntl, 1);
}
static void dsc_optc_config_log(struct display_stream_compressor *dsc,
struct dsc_optc_config *config)
{
uint32_t precision = 1 << 28;
uint32_t bytes_per_pixel_int = config->bytes_per_pixel / precision;
uint32_t bytes_per_pixel_mod = config->bytes_per_pixel % precision;
uint64_t ll_bytes_per_pix_fraq = bytes_per_pixel_mod;
DC_LOGGER_INIT(dsc->ctx->logger);
/* 7 fractional digits decimal precision for bytes per pixel is enough because DSC
* bits per pixel precision is 1/16th of a pixel, which means bytes per pixel precision is
* 1/16/8 = 1/128 of a byte, or 0.0078125 decimal
*/
ll_bytes_per_pix_fraq *= 10000000;
ll_bytes_per_pix_fraq /= precision;
DC_LOG_DSC("\tbytes_per_pixel 0x%08x (%d.%07d)",
config->bytes_per_pixel, bytes_per_pixel_int, (uint32_t)ll_bytes_per_pix_fraq);
DC_LOG_DSC("\tis_pixel_format_444 %d", config->is_pixel_format_444);
DC_LOG_DSC("\tslice_width %d", config->slice_width);
}
static bool dp_set_dsc_on_rx(struct pipe_ctx *pipe_ctx, bool enable)
{
struct dc *dc = pipe_ctx->stream->ctx->dc;
struct dc_stream_state *stream = pipe_ctx->stream;
bool result = false;
if (dc_is_virtual_signal(stream->signal))
result = true;
else
result = dm_helpers_dp_write_dsc_enable(dc->ctx, stream, enable);
return result;
}
/* The stream with these settings can be sent (unblanked) only after DSC was enabled on RX first,
* i.e. after dp_enable_dsc_on_rx() had been called
*/
void link_set_dsc_on_stream(struct pipe_ctx *pipe_ctx, bool enable)
{
/* TODO: Move this to HWSS as this is hardware programming sequence not a
* link layer sequence
*/
struct display_stream_compressor *dsc = pipe_ctx->stream_res.dsc;
struct dc *dc = pipe_ctx->stream->ctx->dc;
struct dc_stream_state *stream = pipe_ctx->stream;
struct pipe_ctx *odm_pipe;
int opp_cnt = 1;
struct dccg *dccg = dc->res_pool->dccg;
/* It has been found that when DSCCLK is lower than 16Mhz, we will get DCN
* register access hung. When DSCCLk is based on refclk, DSCCLk is always a
* fixed value higher than 16Mhz so the issue doesn't occur. When DSCCLK is
* generated by DTO, DSCCLK would be based on 1/3 dispclk. For small timings
* with DSC such as 480p60Hz, the dispclk could be low enough to trigger
* this problem. We are implementing a workaround here to keep using dscclk
* based on fixed value refclk when timing is smaller than 3x16Mhz (i.e
* 48Mhz) pixel clock to avoid hitting this problem.
*/
bool should_use_dto_dscclk = (dccg->funcs->set_dto_dscclk != NULL) &&
stream->timing.pix_clk_100hz > 480000;
DC_LOGGER_INIT(dsc->ctx->logger);
for (odm_pipe = pipe_ctx->next_odm_pipe; odm_pipe; odm_pipe = odm_pipe->next_odm_pipe)
opp_cnt++;
if (enable) {
struct dsc_config dsc_cfg;
struct dsc_optc_config dsc_optc_cfg = {0};
enum optc_dsc_mode optc_dsc_mode;
/* Enable DSC hw block */
dsc_cfg.pic_width = (stream->timing.h_addressable + stream->timing.h_border_left + stream->timing.h_border_right) / opp_cnt;
dsc_cfg.pic_height = stream->timing.v_addressable + stream->timing.v_border_top + stream->timing.v_border_bottom;
dsc_cfg.pixel_encoding = stream->timing.pixel_encoding;
dsc_cfg.color_depth = stream->timing.display_color_depth;
dsc_cfg.is_odm = pipe_ctx->next_odm_pipe ? true : false;
dsc_cfg.dc_dsc_cfg = stream->timing.dsc_cfg;
ASSERT(dsc_cfg.dc_dsc_cfg.num_slices_h % opp_cnt == 0);
dsc_cfg.dc_dsc_cfg.num_slices_h /= opp_cnt;
if (should_use_dto_dscclk)
dccg->funcs->set_dto_dscclk(dccg, dsc->inst);
dsc->funcs->dsc_set_config(dsc, &dsc_cfg, &dsc_optc_cfg);
dsc->funcs->dsc_enable(dsc, pipe_ctx->stream_res.opp->inst);
for (odm_pipe = pipe_ctx->next_odm_pipe; odm_pipe; odm_pipe = odm_pipe->next_odm_pipe) {
struct display_stream_compressor *odm_dsc = odm_pipe->stream_res.dsc;
if (should_use_dto_dscclk)
dccg->funcs->set_dto_dscclk(dccg, odm_dsc->inst);
odm_dsc->funcs->dsc_set_config(odm_dsc, &dsc_cfg, &dsc_optc_cfg);
odm_dsc->funcs->dsc_enable(odm_dsc, odm_pipe->stream_res.opp->inst);
}
dsc_cfg.dc_dsc_cfg.num_slices_h *= opp_cnt;
dsc_cfg.pic_width *= opp_cnt;
optc_dsc_mode = dsc_optc_cfg.is_pixel_format_444 ? OPTC_DSC_ENABLED_444 : OPTC_DSC_ENABLED_NATIVE_SUBSAMPLED;
/* Enable DSC in encoder */
if (dc_is_dp_signal(stream->signal) && !dp_is_128b_132b_signal(pipe_ctx)) {
DC_LOG_DSC("Setting stream encoder DSC config for engine %d:", (int)pipe_ctx->stream_res.stream_enc->id);
dsc_optc_config_log(dsc, &dsc_optc_cfg);
if (pipe_ctx->stream_res.stream_enc->funcs->dp_set_dsc_config)
pipe_ctx->stream_res.stream_enc->funcs->dp_set_dsc_config(pipe_ctx->stream_res.stream_enc,
optc_dsc_mode,
dsc_optc_cfg.bytes_per_pixel,
dsc_optc_cfg.slice_width);
/* PPS SDP is set elsewhere because it has to be done after DIG FE is connected to DIG BE */
}
/* Enable DSC in OPTC */
DC_LOG_DSC("Setting optc DSC config for tg instance %d:", pipe_ctx->stream_res.tg->inst);
dsc_optc_config_log(dsc, &dsc_optc_cfg);
pipe_ctx->stream_res.tg->funcs->set_dsc_config(pipe_ctx->stream_res.tg,
optc_dsc_mode,
dsc_optc_cfg.bytes_per_pixel,
dsc_optc_cfg.slice_width);
} else {
/* disable DSC in OPTC */
pipe_ctx->stream_res.tg->funcs->set_dsc_config(
pipe_ctx->stream_res.tg,
OPTC_DSC_DISABLED, 0, 0);
/* disable DSC in stream encoder */
if (dc_is_dp_signal(stream->signal)) {
if (dp_is_128b_132b_signal(pipe_ctx))
pipe_ctx->stream_res.hpo_dp_stream_enc->funcs->dp_set_dsc_pps_info_packet(
pipe_ctx->stream_res.hpo_dp_stream_enc,
false,
NULL,
true);
else {
if (pipe_ctx->stream_res.stream_enc->funcs->dp_set_dsc_config)
pipe_ctx->stream_res.stream_enc->funcs->dp_set_dsc_config(
pipe_ctx->stream_res.stream_enc,
OPTC_DSC_DISABLED, 0, 0);
pipe_ctx->stream_res.stream_enc->funcs->dp_set_dsc_pps_info_packet(
pipe_ctx->stream_res.stream_enc, false, NULL, true);
}
}
/* disable DSC block */
for (odm_pipe = pipe_ctx; odm_pipe; odm_pipe = odm_pipe->next_odm_pipe) {
odm_pipe->stream_res.dsc->funcs->dsc_disconnect(odm_pipe->stream_res.dsc);
/*
* TODO - dsc_disconnect is a double buffered register.
* by the time we call dsc_disable, dsc may still remain
* connected to OPP. In this case OPTC will no longer
* get correct pixel data because DSCC is off. However
* we also can't wait for the disconnect pending
* complete, because this function can be called
* with/without OTG master lock acquired. When the lock
* is acquired we will never get pending complete until
* we release the lock later. So there is no easy way to
* solve this problem especially when the lock is
* acquired. DSC is a front end hw block it should be
* programmed as part of front end sequence, where the
* commit sequence without lock and update sequence
* with lock are completely separated. However because
* we are programming dsc as part of back end link
* programming sequence, we don't know if front end OPTC
* master lock is acquired. The back end should be
* agnostic to front end lock. DSC programming shouldn't
* belong to this sequence.
*/
odm_pipe->stream_res.dsc->funcs->dsc_disable(odm_pipe->stream_res.dsc);
if (dccg->funcs->set_ref_dscclk)
dccg->funcs->set_ref_dscclk(dccg, odm_pipe->stream_res.dsc->inst);
}
}
}
/*
* For dynamic bpp change case, dsc is programmed with MASTER_UPDATE_LOCK enabled;
* hence PPS info packet update need to use frame update instead of immediate update.
* Added parameter immediate_update for this purpose.
* The decision to use frame update is hard-coded in function dp_update_dsc_config(),
* which is the only place where a "false" would be passed in for param immediate_update.
*
* immediate_update is only applicable when DSC is enabled.
*/
bool link_set_dsc_pps_packet(struct pipe_ctx *pipe_ctx, bool enable, bool immediate_update)
{
struct display_stream_compressor *dsc = pipe_ctx->stream_res.dsc;
struct dc_stream_state *stream = pipe_ctx->stream;
if (!pipe_ctx->stream->timing.flags.DSC)
return false;
if (!dsc)
return false;
DC_LOGGER_INIT(dsc->ctx->logger);
if (enable) {
struct dsc_config dsc_cfg;
uint8_t dsc_packed_pps[128];
memset(&dsc_cfg, 0, sizeof(dsc_cfg));
memset(dsc_packed_pps, 0, 128);
/* Enable DSC hw block */
dsc_cfg.pic_width = stream->timing.h_addressable + stream->timing.h_border_left + stream->timing.h_border_right;
dsc_cfg.pic_height = stream->timing.v_addressable + stream->timing.v_border_top + stream->timing.v_border_bottom;
dsc_cfg.pixel_encoding = stream->timing.pixel_encoding;
dsc_cfg.color_depth = stream->timing.display_color_depth;
dsc_cfg.is_odm = pipe_ctx->next_odm_pipe ? true : false;
dsc_cfg.dc_dsc_cfg = stream->timing.dsc_cfg;
dsc->funcs->dsc_get_packed_pps(dsc, &dsc_cfg, &dsc_packed_pps[0]);
memcpy(&stream->dsc_packed_pps[0], &dsc_packed_pps[0], sizeof(stream->dsc_packed_pps));
if (dc_is_dp_signal(stream->signal)) {
DC_LOG_DSC("Setting stream encoder DSC PPS SDP for engine %d\n", (int)pipe_ctx->stream_res.stream_enc->id);
if (dp_is_128b_132b_signal(pipe_ctx))
pipe_ctx->stream_res.hpo_dp_stream_enc->funcs->dp_set_dsc_pps_info_packet(
pipe_ctx->stream_res.hpo_dp_stream_enc,
true,
&dsc_packed_pps[0],
immediate_update);
else
pipe_ctx->stream_res.stream_enc->funcs->dp_set_dsc_pps_info_packet(
pipe_ctx->stream_res.stream_enc,
true,
&dsc_packed_pps[0],
immediate_update);
}
} else {
/* disable DSC PPS in stream encoder */
memset(&stream->dsc_packed_pps[0], 0, sizeof(stream->dsc_packed_pps));
if (dc_is_dp_signal(stream->signal)) {
if (dp_is_128b_132b_signal(pipe_ctx))
pipe_ctx->stream_res.hpo_dp_stream_enc->funcs->dp_set_dsc_pps_info_packet(
pipe_ctx->stream_res.hpo_dp_stream_enc,
false,
NULL,
true);
else
pipe_ctx->stream_res.stream_enc->funcs->dp_set_dsc_pps_info_packet(
pipe_ctx->stream_res.stream_enc, false, NULL, true);
}
}
return true;
}
bool link_set_dsc_enable(struct pipe_ctx *pipe_ctx, bool enable)
{
struct display_stream_compressor *dsc = pipe_ctx->stream_res.dsc;
bool result = false;
if (!pipe_ctx->stream->timing.flags.DSC)
goto out;
if (!dsc)
goto out;
if (enable) {
{
link_set_dsc_on_stream(pipe_ctx, true);
result = true;
}
} else {
dp_set_dsc_on_rx(pipe_ctx, false);
link_set_dsc_on_stream(pipe_ctx, false);
result = true;
}
out:
return result;
}
bool link_update_dsc_config(struct pipe_ctx *pipe_ctx)
{
struct display_stream_compressor *dsc = pipe_ctx->stream_res.dsc;
if (!pipe_ctx->stream->timing.flags.DSC)
return false;
if (!dsc)
return false;
link_set_dsc_on_stream(pipe_ctx, true);
link_set_dsc_pps_packet(pipe_ctx, true, false);
return true;
}
static void enable_stream_features(struct pipe_ctx *pipe_ctx)
{
struct dc_stream_state *stream = pipe_ctx->stream;
if (pipe_ctx->stream->signal != SIGNAL_TYPE_DISPLAY_PORT_MST) {
struct dc_link *link = stream->link;
union down_spread_ctrl old_downspread;
union down_spread_ctrl new_downspread;
memset(&old_downspread, 0, sizeof(old_downspread));
core_link_read_dpcd(link, DP_DOWNSPREAD_CTRL,
&old_downspread.raw, sizeof(old_downspread));
new_downspread.raw = old_downspread.raw;
new_downspread.bits.IGNORE_MSA_TIMING_PARAM =
(stream->ignore_msa_timing_param) ? 1 : 0;
if (new_downspread.raw != old_downspread.raw) {
core_link_write_dpcd(link, DP_DOWNSPREAD_CTRL,
&new_downspread.raw, sizeof(new_downspread));
}
} else {
dm_helpers_mst_enable_stream_features(stream);
}
}
static void log_vcp_x_y(const struct dc_link *link, struct fixed31_32 avg_time_slots_per_mtp)
{
const uint32_t VCP_Y_PRECISION = 1000;
uint64_t vcp_x, vcp_y;
DC_LOGGER_INIT(link->ctx->logger);
// Add 0.5*(1/VCP_Y_PRECISION) to round up to decimal precision
avg_time_slots_per_mtp = dc_fixpt_add(
avg_time_slots_per_mtp,
dc_fixpt_from_fraction(
1,
2*VCP_Y_PRECISION));
vcp_x = dc_fixpt_floor(
avg_time_slots_per_mtp);
vcp_y = dc_fixpt_floor(
dc_fixpt_mul_int(
dc_fixpt_sub_int(
avg_time_slots_per_mtp,
dc_fixpt_floor(
avg_time_slots_per_mtp)),
VCP_Y_PRECISION));
if (link->type == dc_connection_mst_branch)
DC_LOG_DP2("MST Update Payload: set_throttled_vcp_size slot X.Y for MST stream "
"X: %llu "
"Y: %llu/%d",
vcp_x,
vcp_y,
VCP_Y_PRECISION);
else
DC_LOG_DP2("SST Update Payload: set_throttled_vcp_size slot X.Y for SST stream "
"X: %llu "
"Y: %llu/%d",
vcp_x,
vcp_y,
VCP_Y_PRECISION);
}
static struct fixed31_32 get_pbn_per_slot(struct dc_stream_state *stream)
{
struct fixed31_32 mbytes_per_sec;
uint32_t link_rate_in_mbytes_per_sec = dp_link_bandwidth_kbps(stream->link,
&stream->link->cur_link_settings);
link_rate_in_mbytes_per_sec /= 8000; /* Kbits to MBytes */
mbytes_per_sec = dc_fixpt_from_int(link_rate_in_mbytes_per_sec);
return dc_fixpt_div_int(mbytes_per_sec, 54);
}
static struct fixed31_32 get_pbn_from_bw_in_kbps(uint64_t kbps)
{
struct fixed31_32 peak_kbps;
uint32_t numerator = 0;
uint32_t denominator = 1;
/*
* The 1.006 factor (margin 5300ppm + 300ppm ~ 0.6% as per spec) is not
* required when determining PBN/time slot utilization on the link between
* us and the branch, since that overhead is already accounted for in
* the get_pbn_per_slot function.
*
* The unit of 54/64Mbytes/sec is an arbitrary unit chosen based on
* common multiplier to render an integer PBN for all link rate/lane
* counts combinations
* calculate
* peak_kbps *= (64/54)
* peak_kbps /= (8 * 1000) convert to bytes
*/
numerator = 64;
denominator = 54 * 8 * 1000;
kbps *= numerator;
peak_kbps = dc_fixpt_from_fraction(kbps, denominator);
return peak_kbps;
}
static struct fixed31_32 get_pbn_from_timing(struct pipe_ctx *pipe_ctx)
{
uint64_t kbps;
enum dc_link_encoding_format link_encoding;
if (dp_is_128b_132b_signal(pipe_ctx))
link_encoding = DC_LINK_ENCODING_DP_128b_132b;
else
link_encoding = DC_LINK_ENCODING_DP_8b_10b;
kbps = dc_bandwidth_in_kbps_from_timing(&pipe_ctx->stream->timing, link_encoding);
return get_pbn_from_bw_in_kbps(kbps);
}
// TODO - DP2.0 Link: Fix get_lane_status to handle LTTPR offset (SST and MST)
static void get_lane_status(
struct dc_link *link,
uint32_t lane_count,
union lane_status *status,
union lane_align_status_updated *status_updated)
{
unsigned int lane;
uint8_t dpcd_buf[3] = {0};
if (status == NULL || status_updated == NULL) {
return;
}
core_link_read_dpcd(
link,
DP_LANE0_1_STATUS,
dpcd_buf,
sizeof(dpcd_buf));
for (lane = 0; lane < lane_count; lane++) {
status[lane].raw = dp_get_nibble_at_index(&dpcd_buf[0], lane);
}
status_updated->raw = dpcd_buf[2];
}
static bool poll_for_allocation_change_trigger(struct dc_link *link)
{
/*
* wait for ACT handled
*/
int i;
const int act_retries = 30;
enum act_return_status result = ACT_FAILED;
enum dc_connection_type display_connected = (link->type != dc_connection_none);
union payload_table_update_status update_status = {0};
union lane_status dpcd_lane_status[LANE_COUNT_DP_MAX];
union lane_align_status_updated lane_status_updated;
DC_LOGGER_INIT(link->ctx->logger);
if (!display_connected || link->aux_access_disabled)
return true;
for (i = 0; i < act_retries; i++) {
get_lane_status(link, link->cur_link_settings.lane_count, dpcd_lane_status, &lane_status_updated);
if (!dp_is_cr_done(link->cur_link_settings.lane_count, dpcd_lane_status) ||
!dp_is_ch_eq_done(link->cur_link_settings.lane_count, dpcd_lane_status) ||
!dp_is_symbol_locked(link->cur_link_settings.lane_count, dpcd_lane_status) ||
!dp_is_interlane_aligned(lane_status_updated)) {
DC_LOG_ERROR("SST Update Payload: Link loss occurred while "
"polling for ACT handled.");
result = ACT_LINK_LOST;
break;
}
core_link_read_dpcd(
link,
DP_PAYLOAD_TABLE_UPDATE_STATUS,
&update_status.raw,
1);
if (update_status.bits.ACT_HANDLED == 1) {
DC_LOG_DP2("SST Update Payload: ACT handled by downstream.");
result = ACT_SUCCESS;
break;
}
fsleep(5000);
}
if (result == ACT_FAILED) {
DC_LOG_ERROR("SST Update Payload: ACT still not handled after retries, "
"continue on. Something is wrong with the branch.");
}
return (result == ACT_SUCCESS);
}
static void update_mst_stream_alloc_table(
struct dc_link *link,
struct stream_encoder *stream_enc,
struct hpo_dp_stream_encoder *hpo_dp_stream_enc, // TODO: Rename stream_enc to dio_stream_enc?
const struct dc_dp_mst_stream_allocation_table *proposed_table)
{
struct link_mst_stream_allocation work_table[MAX_CONTROLLER_NUM] = { 0 };
struct link_mst_stream_allocation *dc_alloc;
int i;
int j;
/* if DRM proposed_table has more than one new payload */
ASSERT(proposed_table->stream_count -
link->mst_stream_alloc_table.stream_count < 2);
/* copy proposed_table to link, add stream encoder */
for (i = 0; i < proposed_table->stream_count; i++) {
for (j = 0; j < link->mst_stream_alloc_table.stream_count; j++) {
dc_alloc =
&link->mst_stream_alloc_table.stream_allocations[j];
if (dc_alloc->vcp_id ==
proposed_table->stream_allocations[i].vcp_id) {
work_table[i] = *dc_alloc;
work_table[i].slot_count = proposed_table->stream_allocations[i].slot_count;
break; /* exit j loop */
}
}
/* new vcp_id */
if (j == link->mst_stream_alloc_table.stream_count) {
work_table[i].vcp_id =
proposed_table->stream_allocations[i].vcp_id;
work_table[i].slot_count =
proposed_table->stream_allocations[i].slot_count;
work_table[i].stream_enc = stream_enc;
work_table[i].hpo_dp_stream_enc = hpo_dp_stream_enc;
}
}
/* update link->mst_stream_alloc_table with work_table */
link->mst_stream_alloc_table.stream_count =
proposed_table->stream_count;
for (i = 0; i < MAX_CONTROLLER_NUM; i++)
link->mst_stream_alloc_table.stream_allocations[i] =
work_table[i];
}
static void remove_stream_from_alloc_table(
struct dc_link *link,
struct stream_encoder *dio_stream_enc,
struct hpo_dp_stream_encoder *hpo_dp_stream_enc)
{
int i = 0;
struct link_mst_stream_allocation_table *table =
&link->mst_stream_alloc_table;
if (hpo_dp_stream_enc) {
for (; i < table->stream_count; i++)
if (hpo_dp_stream_enc == table->stream_allocations[i].hpo_dp_stream_enc)
break;
} else {
for (; i < table->stream_count; i++)
if (dio_stream_enc == table->stream_allocations[i].stream_enc)
break;
}
if (i < table->stream_count) {
i++;
for (; i < table->stream_count; i++)
table->stream_allocations[i-1] = table->stream_allocations[i];
memset(&table->stream_allocations[table->stream_count-1], 0,
sizeof(struct link_mst_stream_allocation));
table->stream_count--;
}
}
static enum dc_status deallocate_mst_payload(struct pipe_ctx *pipe_ctx)
{
struct dc_stream_state *stream = pipe_ctx->stream;
struct dc_link *link = stream->link;
struct dc_dp_mst_stream_allocation_table proposed_table = {0};
struct fixed31_32 avg_time_slots_per_mtp = dc_fixpt_from_int(0);
int i;
bool mst_mode = (link->type == dc_connection_mst_branch);
const struct link_hwss *link_hwss = get_link_hwss(link, &pipe_ctx->link_res);
const struct dc_link_settings empty_link_settings = {0};
DC_LOGGER_INIT(link->ctx->logger);
/* deallocate_mst_payload is called before disable link. When mode or
* disable/enable monitor, new stream is created which is not in link
* stream[] yet. For this, payload is not allocated yet, so de-alloc
* should not done. For new mode set, map_resources will get engine
* for new stream, so stream_enc->id should be validated until here.
*/
/* slot X.Y */
if (link_hwss->ext.set_throttled_vcp_size)
link_hwss->ext.set_throttled_vcp_size(pipe_ctx, avg_time_slots_per_mtp);
if (link_hwss->ext.set_hblank_min_symbol_width)
link_hwss->ext.set_hblank_min_symbol_width(pipe_ctx,
&empty_link_settings,
avg_time_slots_per_mtp);
if (mst_mode) {
/* when link is in mst mode, reply on mst manager to remove
* payload
*/
if (dm_helpers_dp_mst_write_payload_allocation_table(
stream->ctx,
stream,
&proposed_table,
false))
update_mst_stream_alloc_table(
link,
pipe_ctx->stream_res.stream_enc,
pipe_ctx->stream_res.hpo_dp_stream_enc,
&proposed_table);
else
DC_LOG_WARNING("Failed to update"
"MST allocation table for"
"pipe idx:%d\n",
pipe_ctx->pipe_idx);
} else {
/* when link is no longer in mst mode (mst hub unplugged),
* remove payload with default dc logic
*/
remove_stream_from_alloc_table(link, pipe_ctx->stream_res.stream_enc,
pipe_ctx->stream_res.hpo_dp_stream_enc);
}
DC_LOG_MST("%s"
"stream_count: %d: ",
__func__,
link->mst_stream_alloc_table.stream_count);
for (i = 0; i < MAX_CONTROLLER_NUM; i++) {
DC_LOG_MST("stream_enc[%d]: %p "
"stream[%d].hpo_dp_stream_enc: %p "
"stream[%d].vcp_id: %d "
"stream[%d].slot_count: %d\n",
i,
(void *) link->mst_stream_alloc_table.stream_allocations[i].stream_enc,
i,
(void *) link->mst_stream_alloc_table.stream_allocations[i].hpo_dp_stream_enc,
i,
link->mst_stream_alloc_table.stream_allocations[i].vcp_id,
i,
link->mst_stream_alloc_table.stream_allocations[i].slot_count);
}
/* update mst stream allocation table hardware state */
if (link_hwss->ext.update_stream_allocation_table == NULL ||
link_dp_get_encoding_format(&link->cur_link_settings) == DP_UNKNOWN_ENCODING) {
DC_LOG_DEBUG("Unknown encoding format\n");
return DC_ERROR_UNEXPECTED;
}
link_hwss->ext.update_stream_allocation_table(link, &pipe_ctx->link_res,
&link->mst_stream_alloc_table);
if (mst_mode)
dm_helpers_dp_mst_poll_for_allocation_change_trigger(
stream->ctx,
stream);
dm_helpers_dp_mst_update_mst_mgr_for_deallocation(
stream->ctx,
stream);
return DC_OK;
}
/* convert link_mst_stream_alloc_table to dm dp_mst_stream_alloc_table
* because stream_encoder is not exposed to dm
*/
static enum dc_status allocate_mst_payload(struct pipe_ctx *pipe_ctx)
{
struct dc_stream_state *stream = pipe_ctx->stream;
struct dc_link *link = stream->link;
struct dc_dp_mst_stream_allocation_table proposed_table = {0};
struct fixed31_32 avg_time_slots_per_mtp;
struct fixed31_32 pbn;
struct fixed31_32 pbn_per_slot;
int i;
enum act_return_status ret;
const struct link_hwss *link_hwss = get_link_hwss(link, &pipe_ctx->link_res);
DC_LOGGER_INIT(link->ctx->logger);
/* enable_link_dp_mst already check link->enabled_stream_count
* and stream is in link->stream[]. This is called during set mode,
* stream_enc is available.
*/
/* get calculate VC payload for stream: stream_alloc */
if (dm_helpers_dp_mst_write_payload_allocation_table(
stream->ctx,
stream,
&proposed_table,
true))
update_mst_stream_alloc_table(
link,
pipe_ctx->stream_res.stream_enc,
pipe_ctx->stream_res.hpo_dp_stream_enc,
&proposed_table);
else
DC_LOG_WARNING("Failed to update"
"MST allocation table for"
"pipe idx:%d\n",
pipe_ctx->pipe_idx);
DC_LOG_MST("%s "
"stream_count: %d: \n ",
__func__,
link->mst_stream_alloc_table.stream_count);
for (i = 0; i < MAX_CONTROLLER_NUM; i++) {
DC_LOG_MST("stream_enc[%d]: %p "
"stream[%d].hpo_dp_stream_enc: %p "
"stream[%d].vcp_id: %d "
"stream[%d].slot_count: %d\n",
i,
(void *) link->mst_stream_alloc_table.stream_allocations[i].stream_enc,
i,
(void *) link->mst_stream_alloc_table.stream_allocations[i].hpo_dp_stream_enc,
i,
link->mst_stream_alloc_table.stream_allocations[i].vcp_id,
i,
link->mst_stream_alloc_table.stream_allocations[i].slot_count);
}
ASSERT(proposed_table.stream_count > 0);
/* program DP source TX for payload */
if (link_hwss->ext.update_stream_allocation_table == NULL ||
link_dp_get_encoding_format(&link->cur_link_settings) == DP_UNKNOWN_ENCODING) {
DC_LOG_ERROR("Failure: unknown encoding format\n");
return DC_ERROR_UNEXPECTED;
}
link_hwss->ext.update_stream_allocation_table(link,
&pipe_ctx->link_res,
&link->mst_stream_alloc_table);
/* send down message */
ret = dm_helpers_dp_mst_poll_for_allocation_change_trigger(
stream->ctx,
stream);
if (ret != ACT_LINK_LOST)
dm_helpers_dp_mst_send_payload_allocation(
stream->ctx,
stream);
/* slot X.Y for only current stream */
pbn_per_slot = get_pbn_per_slot(stream);
if (pbn_per_slot.value == 0) {
DC_LOG_ERROR("Failure: pbn_per_slot==0 not allowed. Cannot continue, returning DC_UNSUPPORTED_VALUE.\n");
return DC_UNSUPPORTED_VALUE;
}
pbn = get_pbn_from_timing(pipe_ctx);
avg_time_slots_per_mtp = dc_fixpt_div(pbn, pbn_per_slot);
log_vcp_x_y(link, avg_time_slots_per_mtp);
if (link_hwss->ext.set_throttled_vcp_size)
link_hwss->ext.set_throttled_vcp_size(pipe_ctx, avg_time_slots_per_mtp);
if (link_hwss->ext.set_hblank_min_symbol_width)
link_hwss->ext.set_hblank_min_symbol_width(pipe_ctx,
&link->cur_link_settings,
avg_time_slots_per_mtp);
return DC_OK;
}
struct fixed31_32 link_calculate_sst_avg_time_slots_per_mtp(
const struct dc_stream_state *stream,
const struct dc_link *link)
{
struct fixed31_32 link_bw_effective =
dc_fixpt_from_int(
dp_link_bandwidth_kbps(link, &link->cur_link_settings));
struct fixed31_32 timeslot_bw_effective =
dc_fixpt_div_int(link_bw_effective, MAX_MTP_SLOT_COUNT);
struct fixed31_32 timing_bw =
dc_fixpt_from_int(
dc_bandwidth_in_kbps_from_timing(&stream->timing,
dc_link_get_highest_encoding_format(link)));
struct fixed31_32 avg_time_slots_per_mtp =
dc_fixpt_div(timing_bw, timeslot_bw_effective);
return avg_time_slots_per_mtp;
}
static bool write_128b_132b_sst_payload_allocation_table(
const struct dc_stream_state *stream,
struct dc_link *link,
struct link_mst_stream_allocation_table *proposed_table,
bool allocate)
{
const uint8_t vc_id = 1; /// VC ID always 1 for SST
const uint8_t start_time_slot = 0; /// Always start at time slot 0 for SST
bool result = false;
uint8_t req_slot_count = 0;
struct fixed31_32 avg_time_slots_per_mtp = { 0 };
union payload_table_update_status update_status = { 0 };
const uint32_t max_retries = 30;
uint32_t retries = 0;
enum dc_connection_type display_connected = (link->type != dc_connection_none);
DC_LOGGER_INIT(link->ctx->logger);
if (allocate) {
avg_time_slots_per_mtp = link_calculate_sst_avg_time_slots_per_mtp(stream, link);
req_slot_count = dc_fixpt_ceil(avg_time_slots_per_mtp);
/// Validation should filter out modes that exceed link BW
ASSERT(req_slot_count <= MAX_MTP_SLOT_COUNT);
if (req_slot_count > MAX_MTP_SLOT_COUNT)
return false;
} else {
/// Leave req_slot_count = 0 if allocate is false.
}
proposed_table->stream_count = 1; /// Always 1 stream for SST
proposed_table->stream_allocations[0].slot_count = req_slot_count;
proposed_table->stream_allocations[0].vcp_id = vc_id;
if (!display_connected || link->aux_access_disabled)
return true;
/// Write DPCD 2C0 = 1 to start updating
update_status.bits.VC_PAYLOAD_TABLE_UPDATED = 1;
core_link_write_dpcd(
link,
DP_PAYLOAD_TABLE_UPDATE_STATUS,
&update_status.raw,
1);
/// Program the changes in DPCD 1C0 - 1C2
ASSERT(vc_id == 1);
core_link_write_dpcd(
link,
DP_PAYLOAD_ALLOCATE_SET,
&vc_id,
1);
ASSERT(start_time_slot == 0);
core_link_write_dpcd(
link,
DP_PAYLOAD_ALLOCATE_START_TIME_SLOT,
&start_time_slot,
1);
core_link_write_dpcd(
link,
DP_PAYLOAD_ALLOCATE_TIME_SLOT_COUNT,
&req_slot_count,
1);
/// Poll till DPCD 2C0 read 1
/// Try for at least 150ms (30 retries, with 5ms delay after each attempt)
while (retries < max_retries) {
if (core_link_read_dpcd(
link,
DP_PAYLOAD_TABLE_UPDATE_STATUS,
&update_status.raw,
1) == DC_OK) {
if (update_status.bits.VC_PAYLOAD_TABLE_UPDATED == 1) {
DC_LOG_DP2("SST Update Payload: downstream payload table updated.");
result = true;
break;
}
} else {
union dpcd_rev dpcdRev = {0};
if (core_link_read_dpcd(
link,
DP_DPCD_REV,
&dpcdRev.raw,
1) != DC_OK) {
DC_LOG_ERROR("SST Update Payload: Unable to read DPCD revision "
"of sink while polling payload table "
"updated status bit.");
break;
}
}
retries++;
fsleep(5000);
}
if (!result && retries == max_retries) {
DC_LOG_ERROR("SST Update Payload: Payload table not updated after retries, "
"continue on. Something is wrong with the branch.");
// TODO - DP2.0 Payload: Read and log the payload table from downstream branch
}
return result;
}
/*
* Payload allocation/deallocation for SST introduced in DP2.0
*/
static enum dc_status update_sst_payload(struct pipe_ctx *pipe_ctx,
bool allocate)
{
struct dc_stream_state *stream = pipe_ctx->stream;
struct dc_link *link = stream->link;
struct link_mst_stream_allocation_table proposed_table = {0};
struct fixed31_32 avg_time_slots_per_mtp;
const struct dc_link_settings empty_link_settings = {0};
const struct link_hwss *link_hwss = get_link_hwss(link, &pipe_ctx->link_res);
DC_LOGGER_INIT(link->ctx->logger);
/* slot X.Y for SST payload deallocate */
if (!allocate) {
avg_time_slots_per_mtp = dc_fixpt_from_int(0);
log_vcp_x_y(link, avg_time_slots_per_mtp);
if (link_hwss->ext.set_throttled_vcp_size)
link_hwss->ext.set_throttled_vcp_size(pipe_ctx,
avg_time_slots_per_mtp);
if (link_hwss->ext.set_hblank_min_symbol_width)
link_hwss->ext.set_hblank_min_symbol_width(pipe_ctx,
&empty_link_settings,
avg_time_slots_per_mtp);
}
/* calculate VC payload and update branch with new payload allocation table*/
if (!write_128b_132b_sst_payload_allocation_table(
stream,
link,
&proposed_table,
allocate)) {
DC_LOG_ERROR("SST Update Payload: Failed to update "
"allocation table for "
"pipe idx: %d\n",
pipe_ctx->pipe_idx);
return DC_FAIL_DP_PAYLOAD_ALLOCATION;
}
proposed_table.stream_allocations[0].hpo_dp_stream_enc = pipe_ctx->stream_res.hpo_dp_stream_enc;
ASSERT(proposed_table.stream_count == 1);
//TODO - DP2.0 Logging: Instead of hpo_dp_stream_enc pointer, log instance id
DC_LOG_DP2("SST Update Payload: hpo_dp_stream_enc: %p "
"vcp_id: %d "
"slot_count: %d\n",
(void *) proposed_table.stream_allocations[0].hpo_dp_stream_enc,
proposed_table.stream_allocations[0].vcp_id,
proposed_table.stream_allocations[0].slot_count);
/* program DP source TX for payload */
link_hwss->ext.update_stream_allocation_table(link, &pipe_ctx->link_res,
&proposed_table);
/* poll for ACT handled */
if (!poll_for_allocation_change_trigger(link)) {
// Failures will result in blackscreen and errors logged
BREAK_TO_DEBUGGER();
}
/* slot X.Y for SST payload allocate */
if (allocate && link_dp_get_encoding_format(&link->cur_link_settings) ==
DP_128b_132b_ENCODING) {
avg_time_slots_per_mtp = link_calculate_sst_avg_time_slots_per_mtp(stream, link);
log_vcp_x_y(link, avg_time_slots_per_mtp);
if (link_hwss->ext.set_throttled_vcp_size)
link_hwss->ext.set_throttled_vcp_size(pipe_ctx,
avg_time_slots_per_mtp);
if (link_hwss->ext.set_hblank_min_symbol_width)
link_hwss->ext.set_hblank_min_symbol_width(pipe_ctx,
&link->cur_link_settings,
avg_time_slots_per_mtp);
}
/* Always return DC_OK.
* If part of sequence fails, log failure(s) and show blackscreen
*/
return DC_OK;
}
enum dc_status link_reduce_mst_payload(struct pipe_ctx *pipe_ctx, uint32_t bw_in_kbps)
{
struct dc_stream_state *stream = pipe_ctx->stream;
struct dc_link *link = stream->link;
struct fixed31_32 avg_time_slots_per_mtp;
struct fixed31_32 pbn;
struct fixed31_32 pbn_per_slot;
struct dc_dp_mst_stream_allocation_table proposed_table = {0};
uint8_t i;
const struct link_hwss *link_hwss = get_link_hwss(link, &pipe_ctx->link_res);
DC_LOGGER_INIT(link->ctx->logger);
/* decrease throttled vcp size */
pbn_per_slot = get_pbn_per_slot(stream);
pbn = get_pbn_from_bw_in_kbps(bw_in_kbps);
avg_time_slots_per_mtp = dc_fixpt_div(pbn, pbn_per_slot);
if (link_hwss->ext.set_throttled_vcp_size)
link_hwss->ext.set_throttled_vcp_size(pipe_ctx, avg_time_slots_per_mtp);
if (link_hwss->ext.set_hblank_min_symbol_width)
link_hwss->ext.set_hblank_min_symbol_width(pipe_ctx,
&link->cur_link_settings,
avg_time_slots_per_mtp);
/* send ALLOCATE_PAYLOAD sideband message with updated pbn */
dm_helpers_dp_mst_send_payload_allocation(
stream->ctx,
stream);
/* notify immediate branch device table update */
if (dm_helpers_dp_mst_write_payload_allocation_table(
stream->ctx,
stream,
&proposed_table,
true)) {
/* update mst stream allocation table software state */
update_mst_stream_alloc_table(
link,
pipe_ctx->stream_res.stream_enc,
pipe_ctx->stream_res.hpo_dp_stream_enc,
&proposed_table);
} else {
DC_LOG_WARNING("Failed to update"
"MST allocation table for"
"pipe idx:%d\n",
pipe_ctx->pipe_idx);
}
DC_LOG_MST("%s "
"stream_count: %d: \n ",
__func__,
link->mst_stream_alloc_table.stream_count);
for (i = 0; i < MAX_CONTROLLER_NUM; i++) {
DC_LOG_MST("stream_enc[%d]: %p "
"stream[%d].hpo_dp_stream_enc: %p "
"stream[%d].vcp_id: %d "
"stream[%d].slot_count: %d\n",
i,
(void *) link->mst_stream_alloc_table.stream_allocations[i].stream_enc,
i,
(void *) link->mst_stream_alloc_table.stream_allocations[i].hpo_dp_stream_enc,
i,
link->mst_stream_alloc_table.stream_allocations[i].vcp_id,
i,
link->mst_stream_alloc_table.stream_allocations[i].slot_count);
}
ASSERT(proposed_table.stream_count > 0);
/* update mst stream allocation table hardware state */
if (link_hwss->ext.update_stream_allocation_table == NULL ||
link_dp_get_encoding_format(&link->cur_link_settings) == DP_UNKNOWN_ENCODING) {
DC_LOG_ERROR("Failure: unknown encoding format\n");
return DC_ERROR_UNEXPECTED;
}
link_hwss->ext.update_stream_allocation_table(link, &pipe_ctx->link_res,
&link->mst_stream_alloc_table);
/* poll for immediate branch device ACT handled */
dm_helpers_dp_mst_poll_for_allocation_change_trigger(
stream->ctx,
stream);
return DC_OK;
}
enum dc_status link_increase_mst_payload(struct pipe_ctx *pipe_ctx, uint32_t bw_in_kbps)
{
struct dc_stream_state *stream = pipe_ctx->stream;
struct dc_link *link = stream->link;
struct fixed31_32 avg_time_slots_per_mtp;
struct fixed31_32 pbn;
struct fixed31_32 pbn_per_slot;
struct dc_dp_mst_stream_allocation_table proposed_table = {0};
uint8_t i;
enum act_return_status ret;
const struct link_hwss *link_hwss = get_link_hwss(link, &pipe_ctx->link_res);
DC_LOGGER_INIT(link->ctx->logger);
/* notify immediate branch device table update */
if (dm_helpers_dp_mst_write_payload_allocation_table(
stream->ctx,
stream,
&proposed_table,
true)) {
/* update mst stream allocation table software state */
update_mst_stream_alloc_table(
link,
pipe_ctx->stream_res.stream_enc,
pipe_ctx->stream_res.hpo_dp_stream_enc,
&proposed_table);
}
DC_LOG_MST("%s "
"stream_count: %d: \n ",
__func__,
link->mst_stream_alloc_table.stream_count);
for (i = 0; i < MAX_CONTROLLER_NUM; i++) {
DC_LOG_MST("stream_enc[%d]: %p "
"stream[%d].hpo_dp_stream_enc: %p "
"stream[%d].vcp_id: %d "
"stream[%d].slot_count: %d\n",
i,
(void *) link->mst_stream_alloc_table.stream_allocations[i].stream_enc,
i,
(void *) link->mst_stream_alloc_table.stream_allocations[i].hpo_dp_stream_enc,
i,
link->mst_stream_alloc_table.stream_allocations[i].vcp_id,
i,
link->mst_stream_alloc_table.stream_allocations[i].slot_count);
}
ASSERT(proposed_table.stream_count > 0);
/* update mst stream allocation table hardware state */
if (link_hwss->ext.update_stream_allocation_table == NULL ||
link_dp_get_encoding_format(&link->cur_link_settings) == DP_UNKNOWN_ENCODING) {
DC_LOG_ERROR("Failure: unknown encoding format\n");
return DC_ERROR_UNEXPECTED;
}
link_hwss->ext.update_stream_allocation_table(link, &pipe_ctx->link_res,
&link->mst_stream_alloc_table);
/* poll for immediate branch device ACT handled */
ret = dm_helpers_dp_mst_poll_for_allocation_change_trigger(
stream->ctx,
stream);
if (ret != ACT_LINK_LOST) {
/* send ALLOCATE_PAYLOAD sideband message with updated pbn */
dm_helpers_dp_mst_send_payload_allocation(
stream->ctx,
stream);
}
/* increase throttled vcp size */
pbn = get_pbn_from_bw_in_kbps(bw_in_kbps);
pbn_per_slot = get_pbn_per_slot(stream);
avg_time_slots_per_mtp = dc_fixpt_div(pbn, pbn_per_slot);
if (link_hwss->ext.set_throttled_vcp_size)
link_hwss->ext.set_throttled_vcp_size(pipe_ctx, avg_time_slots_per_mtp);
if (link_hwss->ext.set_hblank_min_symbol_width)
link_hwss->ext.set_hblank_min_symbol_width(pipe_ctx,
&link->cur_link_settings,
avg_time_slots_per_mtp);
return DC_OK;
}
static void disable_link_dp(struct dc_link *link,
const struct link_resource *link_res,
enum signal_type signal)
{
struct dc_link_settings link_settings = link->cur_link_settings;
if (signal == SIGNAL_TYPE_DISPLAY_PORT_MST &&
link->mst_stream_alloc_table.stream_count > 0)
/* disable MST link only when last vc payload is deallocated */
return;
dp_disable_link_phy(link, link_res, signal);
if (link->connector_signal == SIGNAL_TYPE_EDP) {
if (!link->skip_implict_edp_power_control)
link->dc->hwss.edp_power_control(link, false);
}
if (signal == SIGNAL_TYPE_DISPLAY_PORT_MST)
/* set the sink to SST mode after disabling the link */
enable_mst_on_sink(link, false);
if (link_dp_get_encoding_format(&link_settings) ==
DP_8b_10b_ENCODING) {
dp_set_fec_enable(link, false);
dp_set_fec_ready(link, link_res, false);
}
}
static void disable_link(struct dc_link *link,
const struct link_resource *link_res,
enum signal_type signal)
{
if (dc_is_dp_signal(signal)) {
disable_link_dp(link, link_res, signal);
} else if (signal == SIGNAL_TYPE_VIRTUAL) {
link->dc->hwss.disable_link_output(link, link_res, SIGNAL_TYPE_DISPLAY_PORT);
} else {
link->dc->hwss.disable_link_output(link, link_res, signal);
}
if (signal == SIGNAL_TYPE_DISPLAY_PORT_MST) {
/* MST disable link only when no stream use the link */
if (link->mst_stream_alloc_table.stream_count <= 0)
link->link_status.link_active = false;
} else {
link->link_status.link_active = false;
}
}
static void enable_link_hdmi(struct pipe_ctx *pipe_ctx)
{
struct dc_stream_state *stream = pipe_ctx->stream;
struct dc_link *link = stream->link;
enum dc_color_depth display_color_depth;
enum engine_id eng_id;
struct ext_hdmi_settings settings = {0};
bool is_over_340mhz = false;
bool is_vga_mode = (stream->timing.h_addressable == 640)
&& (stream->timing.v_addressable == 480);
struct dc *dc = pipe_ctx->stream->ctx->dc;
const struct link_hwss *link_hwss = get_link_hwss(link, &pipe_ctx->link_res);
if (stream->phy_pix_clk == 0)
stream->phy_pix_clk = stream->timing.pix_clk_100hz / 10;
if (stream->phy_pix_clk > 340000)
is_over_340mhz = true;
if (dc_is_hdmi_signal(pipe_ctx->stream->signal)) {
unsigned short masked_chip_caps = pipe_ctx->stream->link->chip_caps &
EXT_DISPLAY_PATH_CAPS__EXT_CHIP_MASK;
if (masked_chip_caps == EXT_DISPLAY_PATH_CAPS__HDMI20_TISN65DP159RSBT) {
/* DP159, Retimer settings */
eng_id = pipe_ctx->stream_res.stream_enc->id;
if (get_ext_hdmi_settings(pipe_ctx, eng_id, &settings)) {
write_i2c_retimer_setting(pipe_ctx,
is_vga_mode, is_over_340mhz, &settings);
} else {
write_i2c_default_retimer_setting(pipe_ctx,
is_vga_mode, is_over_340mhz);
}
} else if (masked_chip_caps == EXT_DISPLAY_PATH_CAPS__HDMI20_PI3EQX1204) {
/* PI3EQX1204, Redriver settings */
write_i2c_redriver_setting(pipe_ctx, is_over_340mhz);
}
}
if (dc_is_hdmi_signal(pipe_ctx->stream->signal))
write_scdc_data(
stream->link->ddc,
stream->phy_pix_clk,
stream->timing.flags.LTE_340MCSC_SCRAMBLE);
memset(&stream->link->cur_link_settings, 0,
sizeof(struct dc_link_settings));
display_color_depth = stream->timing.display_color_depth;
if (stream->timing.pixel_encoding == PIXEL_ENCODING_YCBCR422)
display_color_depth = COLOR_DEPTH_888;
/* We need to enable stream encoder for TMDS first to apply 1/4 TMDS
* character clock in case that beyond 340MHz.
*/
if (dc_is_hdmi_tmds_signal(pipe_ctx->stream->signal) || dc_is_dvi_signal(pipe_ctx->stream->signal))
link_hwss->setup_stream_encoder(pipe_ctx);
dc->hwss.enable_tmds_link_output(
link,
&pipe_ctx->link_res,
pipe_ctx->stream->signal,
pipe_ctx->clock_source->id,
display_color_depth,
stream->phy_pix_clk);
if (dc_is_hdmi_signal(pipe_ctx->stream->signal))
read_scdc_data(link->ddc);
}
static enum dc_status enable_link_dp(struct dc_state *state,
struct pipe_ctx *pipe_ctx)
{
struct dc_stream_state *stream = pipe_ctx->stream;
enum dc_status status;
bool skip_video_pattern;
struct dc_link *link = stream->link;
const struct dc_link_settings *link_settings =
&pipe_ctx->link_config.dp_link_settings;
bool fec_enable;
int i;
bool apply_seamless_boot_optimization = false;
uint32_t bl_oled_enable_delay = 50; // in ms
uint32_t post_oui_delay = 30; // 30ms
/* Reduce link bandwidth between failed link training attempts. */
bool do_fallback = false;
int lt_attempts = LINK_TRAINING_ATTEMPTS;
// Increase retry count if attempting DP1.x on FIXED_VS link
if ((link->chip_caps & EXT_DISPLAY_PATH_CAPS__DP_FIXED_VS_EN) &&
link_dp_get_encoding_format(link_settings) == DP_8b_10b_ENCODING)
lt_attempts = 10;
// check for seamless boot
for (i = 0; i < state->stream_count; i++) {
if (state->streams[i]->apply_seamless_boot_optimization) {
apply_seamless_boot_optimization = true;
break;
}
}
/* Train with fallback when enabling DPIA link. Conventional links are
* trained with fallback during sink detection.
*/
if (link->ep_type == DISPLAY_ENDPOINT_USB4_DPIA)
do_fallback = true;
/*
* Temporary w/a to get DP2.0 link rates to work with SST.
* TODO DP2.0 - Workaround: Remove w/a if and when the issue is resolved.
*/
if (link_dp_get_encoding_format(link_settings) == DP_128b_132b_ENCODING &&
pipe_ctx->stream->signal == SIGNAL_TYPE_DISPLAY_PORT &&
link->dc->debug.set_mst_en_for_sst) {
enable_mst_on_sink(link, true);
}
if (pipe_ctx->stream->signal == SIGNAL_TYPE_EDP) {
/*in case it is not on*/
if (!link->dc->config.edp_no_power_sequencing)
link->dc->hwss.edp_power_control(link, true);
link->dc->hwss.edp_wait_for_hpd_ready(link, true);
}
if (link_dp_get_encoding_format(link_settings) == DP_128b_132b_ENCODING) {
/* TODO - DP2.0 HW: calculate 32 symbol clock for HPO encoder */
} else {
pipe_ctx->stream_res.pix_clk_params.requested_sym_clk =
link_settings->link_rate * LINK_RATE_REF_FREQ_IN_KHZ;
if (state->clk_mgr && !apply_seamless_boot_optimization)
state->clk_mgr->funcs->update_clocks(state->clk_mgr,
state, false);
}
// during mode switch we do DP_SET_POWER off then on, and OUI is lost
dpcd_set_source_specific_data(link);
if (link->dpcd_sink_ext_caps.raw != 0) {
post_oui_delay += link->panel_config.pps.extra_post_OUI_ms;
msleep(post_oui_delay);
}
// similarly, mode switch can cause loss of cable ID
dpcd_write_cable_id_to_dprx(link);
skip_video_pattern = true;
if (link_settings->link_rate == LINK_RATE_LOW)
skip_video_pattern = false;
if (stream->sink_patches.oled_optimize_display_on)
set_default_brightness_aux(link);
if (perform_link_training_with_retries(link_settings,
skip_video_pattern,
lt_attempts,
pipe_ctx,
pipe_ctx->stream->signal,
do_fallback)) {
status = DC_OK;
} else {
status = DC_FAIL_DP_LINK_TRAINING;
}
if (link->preferred_training_settings.fec_enable)
fec_enable = *link->preferred_training_settings.fec_enable;
else
fec_enable = true;
if (link_dp_get_encoding_format(link_settings) == DP_8b_10b_ENCODING)
dp_set_fec_enable(link, fec_enable);
// during mode set we do DP_SET_POWER off then on, aux writes are lost
if (link->dpcd_sink_ext_caps.bits.oled == 1 ||
link->dpcd_sink_ext_caps.bits.sdr_aux_backlight_control == 1 ||
link->dpcd_sink_ext_caps.bits.hdr_aux_backlight_control == 1) {
if (!stream->sink_patches.oled_optimize_display_on) {
set_default_brightness_aux(link);
if (link->dpcd_sink_ext_caps.bits.oled == 1)
msleep(bl_oled_enable_delay);
edp_backlight_enable_aux(link, true);
} else {
edp_backlight_enable_aux(link, true);
}
}
return status;
}
static enum dc_status enable_link_edp(
struct dc_state *state,
struct pipe_ctx *pipe_ctx)
{
return enable_link_dp(state, pipe_ctx);
}
static void enable_link_lvds(struct pipe_ctx *pipe_ctx)
{
struct dc_stream_state *stream = pipe_ctx->stream;
struct dc_link *link = stream->link;
struct dc *dc = stream->ctx->dc;
if (stream->phy_pix_clk == 0)
stream->phy_pix_clk = stream->timing.pix_clk_100hz / 10;
memset(&stream->link->cur_link_settings, 0,
sizeof(struct dc_link_settings));
dc->hwss.enable_lvds_link_output(
link,
&pipe_ctx->link_res,
pipe_ctx->clock_source->id,
stream->phy_pix_clk);
}
static enum dc_status enable_link_dp_mst(
struct dc_state *state,
struct pipe_ctx *pipe_ctx)
{
struct dc_link *link = pipe_ctx->stream->link;
unsigned char mstm_cntl = 0;
/* sink signal type after MST branch is MST. Multiple MST sinks
* share one link. Link DP PHY is enable or training only once.
*/
if (link->link_status.link_active)
return DC_OK;
/* clear payload table */
core_link_read_dpcd(link, DP_MSTM_CTRL, &mstm_cntl, 1);
if (mstm_cntl & DP_MST_EN)
dm_helpers_dp_mst_clear_payload_allocation_table(link->ctx, link);
/* to make sure the pending down rep can be processed
* before enabling the link
*/
dm_helpers_dp_mst_poll_pending_down_reply(link->ctx, link);
/* set the sink to MST mode before enabling the link */
enable_mst_on_sink(link, true);
return enable_link_dp(state, pipe_ctx);
}
static enum dc_status enable_link_virtual(struct pipe_ctx *pipe_ctx)
{
struct dc_link *link = pipe_ctx->stream->link;
link->dc->hwss.enable_dp_link_output(link,
&pipe_ctx->link_res,
SIGNAL_TYPE_DISPLAY_PORT,
pipe_ctx->clock_source->id,
&pipe_ctx->link_config.dp_link_settings);
return DC_OK;
}
static enum dc_status enable_link(
struct dc_state *state,
struct pipe_ctx *pipe_ctx)
{
enum dc_status status = DC_ERROR_UNEXPECTED;
struct dc_stream_state *stream = pipe_ctx->stream;
struct dc_link *link = stream->link;
/* There's some scenarios where driver is unloaded with display
* still enabled. When driver is reloaded, it may cause a display
* to not light up if there is a mismatch between old and new
* link settings. Need to call disable first before enabling at
* new link settings.
*/
if (link->link_status.link_active)
disable_link(link, &pipe_ctx->link_res, pipe_ctx->stream->signal);
switch (pipe_ctx->stream->signal) {
case SIGNAL_TYPE_DISPLAY_PORT:
status = enable_link_dp(state, pipe_ctx);
break;
case SIGNAL_TYPE_EDP:
status = enable_link_edp(state, pipe_ctx);
break;
case SIGNAL_TYPE_DISPLAY_PORT_MST:
status = enable_link_dp_mst(state, pipe_ctx);
msleep(200);
break;
case SIGNAL_TYPE_DVI_SINGLE_LINK:
case SIGNAL_TYPE_DVI_DUAL_LINK:
case SIGNAL_TYPE_HDMI_TYPE_A:
enable_link_hdmi(pipe_ctx);
status = DC_OK;
break;
case SIGNAL_TYPE_LVDS:
enable_link_lvds(pipe_ctx);
status = DC_OK;
break;
case SIGNAL_TYPE_VIRTUAL:
status = enable_link_virtual(pipe_ctx);
break;
default:
break;
}
if (status == DC_OK) {
pipe_ctx->stream->link->link_status.link_active = true;
}
return status;
}
static bool allocate_usb4_bandwidth_for_stream(struct dc_stream_state *stream, int bw)
{
struct dc_link *link = stream->sink->link;
int req_bw = bw;
DC_LOGGER_INIT(link->ctx->logger);
if (!link->dpia_bw_alloc_config.bw_alloc_enabled)
return false;
if (stream->signal == SIGNAL_TYPE_DISPLAY_PORT_MST) {
int sink_index = 0;
int i = 0;
for (i = 0; i < link->sink_count; i++) {
if (link->remote_sinks[i] == NULL)
continue;
if (stream->sink->sink_id != link->remote_sinks[i]->sink_id)
req_bw += link->dpia_bw_alloc_config.remote_sink_req_bw[i];
else
sink_index = i;
}
link->dpia_bw_alloc_config.remote_sink_req_bw[sink_index] = bw;
}
/* get dp overhead for dp tunneling */
link->dpia_bw_alloc_config.dp_overhead = link_dp_dpia_get_dp_overhead_in_dp_tunneling(link);
req_bw += link->dpia_bw_alloc_config.dp_overhead;
if (link_dp_dpia_allocate_usb4_bandwidth_for_stream(link, req_bw)) {
if (req_bw <= link->dpia_bw_alloc_config.allocated_bw) {
DC_LOG_DEBUG("%s, Success in allocate bw for link(%d), allocated_bw(%d), dp_overhead(%d)\n",
__func__, link->link_index, link->dpia_bw_alloc_config.allocated_bw,
link->dpia_bw_alloc_config.dp_overhead);
} else {
// Cannot get the required bandwidth.
DC_LOG_ERROR("%s, Failed to allocate bw for link(%d), allocated_bw(%d), dp_overhead(%d)\n",
__func__, link->link_index, link->dpia_bw_alloc_config.allocated_bw,
link->dpia_bw_alloc_config.dp_overhead);
return false;
}
} else {
DC_LOG_DEBUG("%s, usb4 request bw timeout\n", __func__);
return false;
}
if (stream->signal == SIGNAL_TYPE_DISPLAY_PORT_MST) {
int i = 0;
for (i = 0; i < link->sink_count; i++) {
if (link->remote_sinks[i] == NULL)
continue;
DC_LOG_DEBUG("%s, remote_sink=%s, request_bw=%d\n", __func__,
(const char *)(&link->remote_sinks[i]->edid_caps.display_name[0]),
link->dpia_bw_alloc_config.remote_sink_req_bw[i]);
}
}
return true;
}
static bool allocate_usb4_bandwidth(struct dc_stream_state *stream)
{
bool ret;
int bw = dc_bandwidth_in_kbps_from_timing(&stream->timing,
dc_link_get_highest_encoding_format(stream->sink->link));
ret = allocate_usb4_bandwidth_for_stream(stream, bw);
return ret;
}
static bool deallocate_usb4_bandwidth(struct dc_stream_state *stream)
{
bool ret;
ret = allocate_usb4_bandwidth_for_stream(stream, 0);
return ret;
}
void link_set_dpms_off(struct pipe_ctx *pipe_ctx)
{
struct dc *dc = pipe_ctx->stream->ctx->dc;
struct dc_stream_state *stream = pipe_ctx->stream;
struct dc_link *link = stream->sink->link;
struct vpg *vpg = pipe_ctx->stream_res.stream_enc->vpg;
enum dp_panel_mode panel_mode_dp = dp_get_panel_mode(link);
DC_LOGGER_INIT(pipe_ctx->stream->ctx->logger);
ASSERT(is_master_pipe_for_link(link, pipe_ctx));
if (dp_is_128b_132b_signal(pipe_ctx))
vpg = pipe_ctx->stream_res.hpo_dp_stream_enc->vpg;
if (dc_is_virtual_signal(pipe_ctx->stream->signal))
return;
if (pipe_ctx->stream->sink) {
if (pipe_ctx->stream->sink->sink_signal != SIGNAL_TYPE_VIRTUAL &&
pipe_ctx->stream->sink->sink_signal != SIGNAL_TYPE_NONE) {
DC_LOG_DC("%s pipe_ctx dispname=%s signal=%x\n", __func__,
pipe_ctx->stream->sink->edid_caps.display_name,
pipe_ctx->stream->signal);
}
}
if (!pipe_ctx->stream->sink->edid_caps.panel_patch.skip_avmute) {
if (dc_is_hdmi_signal(pipe_ctx->stream->signal))
set_avmute(pipe_ctx, true);
}
dc->hwss.disable_audio_stream(pipe_ctx);
update_psp_stream_config(pipe_ctx, true);
dc->hwss.blank_stream(pipe_ctx);
if (pipe_ctx->stream->link->ep_type == DISPLAY_ENDPOINT_USB4_DPIA)
deallocate_usb4_bandwidth(pipe_ctx->stream);
if (pipe_ctx->stream->signal == SIGNAL_TYPE_DISPLAY_PORT_MST)
deallocate_mst_payload(pipe_ctx);
else if (dc_is_dp_sst_signal(pipe_ctx->stream->signal) &&
dp_is_128b_132b_signal(pipe_ctx))
update_sst_payload(pipe_ctx, false);
if (dc_is_hdmi_signal(pipe_ctx->stream->signal)) {
struct ext_hdmi_settings settings = {0};
enum engine_id eng_id = pipe_ctx->stream_res.stream_enc->id;
unsigned short masked_chip_caps = link->chip_caps &
EXT_DISPLAY_PATH_CAPS__EXT_CHIP_MASK;
//Need to inform that sink is going to use legacy HDMI mode.
write_scdc_data(
link->ddc,
165000,//vbios only handles 165Mhz.
false);
if (masked_chip_caps == EXT_DISPLAY_PATH_CAPS__HDMI20_TISN65DP159RSBT) {
/* DP159, Retimer settings */
if (get_ext_hdmi_settings(pipe_ctx, eng_id, &settings))
write_i2c_retimer_setting(pipe_ctx,
false, false, &settings);
else
write_i2c_default_retimer_setting(pipe_ctx,
false, false);
} else if (masked_chip_caps == EXT_DISPLAY_PATH_CAPS__HDMI20_PI3EQX1204) {
/* PI3EQX1204, Redriver settings */
write_i2c_redriver_setting(pipe_ctx, false);
}
}
if (pipe_ctx->stream->signal == SIGNAL_TYPE_DISPLAY_PORT &&
!dp_is_128b_132b_signal(pipe_ctx)) {
/* In DP1.x SST mode, our encoder will go to TPS1
* when link is on but stream is off.
* Disabling link before stream will avoid exposing TPS1 pattern
* during the disable sequence as it will confuse some receivers
* state machine.
* In DP2 or MST mode, our encoder will stay video active
*/
disable_link(pipe_ctx->stream->link, &pipe_ctx->link_res, pipe_ctx->stream->signal);
dc->hwss.disable_stream(pipe_ctx);
} else {
dc->hwss.disable_stream(pipe_ctx);
disable_link(pipe_ctx->stream->link, &pipe_ctx->link_res, pipe_ctx->stream->signal);
}
edp_set_panel_assr(link, pipe_ctx, &panel_mode_dp, false);
if (pipe_ctx->stream->timing.flags.DSC) {
if (dc_is_dp_signal(pipe_ctx->stream->signal))
link_set_dsc_enable(pipe_ctx, false);
}
if (dp_is_128b_132b_signal(pipe_ctx)) {
if (pipe_ctx->stream_res.tg->funcs->set_out_mux)
pipe_ctx->stream_res.tg->funcs->set_out_mux(pipe_ctx->stream_res.tg, OUT_MUX_DIO);
}
if (vpg && vpg->funcs->vpg_powerdown)
vpg->funcs->vpg_powerdown(vpg);
/* for psp not exist case */
if (link->connector_signal == SIGNAL_TYPE_EDP && dc->debug.psp_disabled_wa) {
/* reset internal save state to default since eDP is off */
enum dp_panel_mode panel_mode = dp_get_panel_mode(pipe_ctx->stream->link);
/* since current psp not loaded, we need to reset it to default*/
link->panel_mode = panel_mode;
}
}
void link_set_dpms_on(
struct dc_state *state,
struct pipe_ctx *pipe_ctx)
{
struct dc *dc = pipe_ctx->stream->ctx->dc;
struct dc_stream_state *stream = pipe_ctx->stream;
struct dc_link *link = stream->sink->link;
enum dc_status status;
struct link_encoder *link_enc;
enum otg_out_mux_dest otg_out_dest = OUT_MUX_DIO;
struct vpg *vpg = pipe_ctx->stream_res.stream_enc->vpg;
const struct link_hwss *link_hwss = get_link_hwss(link, &pipe_ctx->link_res);
bool apply_edp_fast_boot_optimization =
pipe_ctx->stream->apply_edp_fast_boot_optimization;
DC_LOGGER_INIT(pipe_ctx->stream->ctx->logger);
ASSERT(is_master_pipe_for_link(link, pipe_ctx));
if (dp_is_128b_132b_signal(pipe_ctx))
vpg = pipe_ctx->stream_res.hpo_dp_stream_enc->vpg;
if (dc_is_virtual_signal(pipe_ctx->stream->signal))
return;
if (pipe_ctx->stream->sink) {
if (pipe_ctx->stream->sink->sink_signal != SIGNAL_TYPE_VIRTUAL &&
pipe_ctx->stream->sink->sink_signal != SIGNAL_TYPE_NONE) {
DC_LOG_DC("%s pipe_ctx dispname=%s signal=%x\n", __func__,
pipe_ctx->stream->sink->edid_caps.display_name,
pipe_ctx->stream->signal);
}
}
link_enc = link_enc_cfg_get_link_enc(link);
ASSERT(link_enc);
if (!dc_is_virtual_signal(pipe_ctx->stream->signal)
&& !dp_is_128b_132b_signal(pipe_ctx)) {
if (link_enc)
link_enc->funcs->setup(
link_enc,
pipe_ctx->stream->signal);
}
pipe_ctx->stream->link->link_state_valid = true;
if (pipe_ctx->stream_res.tg->funcs->set_out_mux) {
if (dp_is_128b_132b_signal(pipe_ctx))
otg_out_dest = OUT_MUX_HPO_DP;
else
otg_out_dest = OUT_MUX_DIO;
pipe_ctx->stream_res.tg->funcs->set_out_mux(pipe_ctx->stream_res.tg, otg_out_dest);
}
link_hwss->setup_stream_attribute(pipe_ctx);
pipe_ctx->stream->apply_edp_fast_boot_optimization = false;
// Enable VPG before building infoframe
if (vpg && vpg->funcs->vpg_poweron)
vpg->funcs->vpg_poweron(vpg);
resource_build_info_frame(pipe_ctx);
dc->hwss.update_info_frame(pipe_ctx);
if (dc_is_dp_signal(pipe_ctx->stream->signal))
dp_trace_source_sequence(link, DPCD_SOURCE_SEQ_AFTER_UPDATE_INFO_FRAME);
/* Do not touch link on seamless boot optimization. */
if (pipe_ctx->stream->apply_seamless_boot_optimization) {
pipe_ctx->stream->dpms_off = false;
/* Still enable stream features & audio on seamless boot for DP external displays */
if (pipe_ctx->stream->signal == SIGNAL_TYPE_DISPLAY_PORT) {
enable_stream_features(pipe_ctx);
dc->hwss.enable_audio_stream(pipe_ctx);
}
update_psp_stream_config(pipe_ctx, false);
return;
}
/* eDP lit up by bios already, no need to enable again. */
if (pipe_ctx->stream->signal == SIGNAL_TYPE_EDP &&
apply_edp_fast_boot_optimization &&
!pipe_ctx->stream->timing.flags.DSC &&
!pipe_ctx->next_odm_pipe) {
pipe_ctx->stream->dpms_off = false;
update_psp_stream_config(pipe_ctx, false);
return;
}
if (pipe_ctx->stream->dpms_off)
return;
/* Have to setup DSC before DIG FE and BE are connected (which happens before the
* link training). This is to make sure the bandwidth sent to DIG BE won't be
* bigger than what the link and/or DIG BE can handle. VBID[6]/CompressedStream_flag
* will be automatically set at a later time when the video is enabled
* (DP_VID_STREAM_EN = 1).
*/
if (pipe_ctx->stream->timing.flags.DSC) {
if (dc_is_dp_signal(pipe_ctx->stream->signal) ||
dc_is_virtual_signal(pipe_ctx->stream->signal))
link_set_dsc_enable(pipe_ctx, true);
}
status = enable_link(state, pipe_ctx);
if (status != DC_OK) {
DC_LOG_WARNING("enabling link %u failed: %d\n",
pipe_ctx->stream->link->link_index,
status);
/* Abort stream enable *unless* the failure was due to
* DP link training - some DP monitors will recover and
* show the stream anyway. But MST displays can't proceed
* without link training.
*/
if (status != DC_FAIL_DP_LINK_TRAINING ||
pipe_ctx->stream->signal == SIGNAL_TYPE_DISPLAY_PORT_MST) {
if (false == stream->link->link_status.link_active)
disable_link(stream->link, &pipe_ctx->link_res,
pipe_ctx->stream->signal);
BREAK_TO_DEBUGGER();
return;
}
}
/* turn off otg test pattern if enable */
if (pipe_ctx->stream_res.tg->funcs->set_test_pattern)
pipe_ctx->stream_res.tg->funcs->set_test_pattern(pipe_ctx->stream_res.tg,
CONTROLLER_DP_TEST_PATTERN_VIDEOMODE,
COLOR_DEPTH_UNDEFINED);
/* This second call is needed to reconfigure the DIG
* as a workaround for the incorrect value being applied
* from transmitter control.
*/
if (!(dc_is_virtual_signal(pipe_ctx->stream->signal) ||
dp_is_128b_132b_signal(pipe_ctx))) {
if (link_enc)
link_enc->funcs->setup(
link_enc,
pipe_ctx->stream->signal);
}
dc->hwss.enable_stream(pipe_ctx);
/* Set DPS PPS SDP (AKA "info frames") */
if (pipe_ctx->stream->timing.flags.DSC) {
if (dc_is_dp_signal(pipe_ctx->stream->signal) ||
dc_is_virtual_signal(pipe_ctx->stream->signal)) {
dp_set_dsc_on_rx(pipe_ctx, true);
link_set_dsc_pps_packet(pipe_ctx, true, true);
}
}
if (pipe_ctx->stream->link->ep_type == DISPLAY_ENDPOINT_USB4_DPIA)
allocate_usb4_bandwidth(pipe_ctx->stream);
if (pipe_ctx->stream->signal == SIGNAL_TYPE_DISPLAY_PORT_MST)
allocate_mst_payload(pipe_ctx);
else if (dc_is_dp_sst_signal(pipe_ctx->stream->signal) &&
dp_is_128b_132b_signal(pipe_ctx))
update_sst_payload(pipe_ctx, true);
dc->hwss.unblank_stream(pipe_ctx,
&pipe_ctx->stream->link->cur_link_settings);
if (stream->sink_patches.delay_ignore_msa > 0)
msleep(stream->sink_patches.delay_ignore_msa);
if (dc_is_dp_signal(pipe_ctx->stream->signal))
enable_stream_features(pipe_ctx);
update_psp_stream_config(pipe_ctx, false);
dc->hwss.enable_audio_stream(pipe_ctx);
if (dc_is_hdmi_signal(pipe_ctx->stream->signal)) {
set_avmute(pipe_ctx, false);
}
}
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