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android / platform / hardware / qcom / display / ce97532552158d1532b7dd8c23af30214af367cb / . / msmcobalt / sdm / libs / core / fb / hw_primary.cpp
blob: 1659625b1b96e33bc9968778dd3ba2791f31306f [file] [log] [blame]
/*
* Copyright (c) 2015 - 2016, The Linux Foundation. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
* * Neither the name of The Linux Foundation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <stdio.h>
#include <unistd.h>
#include <string.h>
#include <pthread.h>
#include <fcntl.h>
#include <sys/prctl.h>
#include <sys/ioctl.h>
#include <sys/time.h>
#include <sys/resource.h>
#include <utils/debug.h>
#include <utils/sys.h>
#include <core/display_interface.h>
#include <linux/msm_mdp_ext.h>
#include <utils/rect.h>
#include <string>
#include "hw_primary.h"
#include "hw_color_manager.h"
#define __CLASS__ "HWPrimary"
#ifndef MDP_COMMIT_CWB_EN
#define MDP_COMMIT_CWB_EN 0x800
#endif
#ifndef MDP_COMMIT_CWB_DSPP
#define MDP_COMMIT_CWB_DSPP 0x1000
#endif
#ifndef MDP_COMMIT_AVR_EN
#define MDP_COMMIT_AVR_EN 0x08
#endif
#ifndef MDP_COMMIT_AVR_ONE_SHOT_MODE
#define MDP_COMMIT_AVR_ONE_SHOT_MODE 0x10
#endif
namespace sdm {
using std::string;
using std::to_string;
using std::fstream;
HWPrimary::HWPrimary(BufferSyncHandler *buffer_sync_handler, HWInfoInterface *hw_info_intf)
: HWDevice(buffer_sync_handler) {
HWDevice::device_type_ = kDevicePrimary;
HWDevice::device_name_ = "Primary Display Device";
HWDevice::hw_info_intf_ = hw_info_intf;
}
DisplayError HWPrimary::Init() {
DisplayError error = kErrorNone;
error = HWDevice::Init();
if (error != kErrorNone) {
return error;
}
mdp_dest_scalar_data_.resize(hw_resource_.hw_dest_scalar_info.count);
error = PopulateDisplayAttributes();
if (error != kErrorNone) {
return error;
}
UpdateMixerAttributes();
// Need to enable HPD, but toggle at start when HDMI is external
// This helps for framework reboot or adb shell stop/start
EnableHotPlugDetection(0);
EnableHotPlugDetection(1);
InitializeConfigs();
return error;
}
bool HWPrimary::GetCurrentModeFromSysfs(size_t *curr_x_pixels, size_t *curr_y_pixels) {
bool ret = false;
string mode_path = fb_path_ + string("0/mode");
Sys::fstream fs(mode_path, fstream::in);
if (!fs.is_open()) {
return false;
}
string line;
if (Sys::getline_(fs, line)) {
// String is of form "U:1600x2560p-0". Documentation/fb/modedb.txt in
// kernel has more info on the format.
size_t xpos = line.find(':');
size_t ypos = line.find('x');
if (xpos == string::npos || ypos == string::npos) {
DLOGI("Resolution switch not supported");
} else {
*curr_x_pixels = static_cast<size_t>(atoi(line.c_str() + xpos + 1));
*curr_y_pixels = static_cast<size_t>(atoi(line.c_str() + ypos + 1));
DLOGI("Current Config: %u x %u", *curr_x_pixels, *curr_y_pixels);
ret = true;
}
}
return ret;
}
void HWPrimary::InitializeConfigs() {
size_t curr_x_pixels = 0;
size_t curr_y_pixels = 0;
if (!GetCurrentModeFromSysfs(&curr_x_pixels, &curr_y_pixels)) {
return;
}
string modes_path = string(fb_path_) + string("0/modes");
Sys::fstream fs(modes_path, fstream::in);
if (!fs.is_open()) {
DLOGI("Unable to process modes");
return;
}
string line;
while (Sys::getline_(fs, line)) {
DisplayConfigVariableInfo config;
// std::getline (unlike ::getline) removes \n while driver expects it in mode, so add back
line += '\n';
size_t xpos = line.find(':');
size_t ypos = line.find('x');
if (xpos == string::npos || ypos == string::npos) {
continue;
}
config.x_pixels = UINT32(atoi(line.c_str() + xpos + 1));
config.y_pixels = UINT32(atoi(line.c_str() + ypos + 1));
DLOGI("Found mode %d x %d", config.x_pixels, config.y_pixels);
display_configs_.push_back(config);
display_config_strings_.push_back(string(line.c_str()));
if (curr_x_pixels == config.x_pixels && curr_y_pixels == config.y_pixels) {
active_config_index_ = UINT32(display_configs_.size() - 1);
DLOGI("Active config index %u", active_config_index_);
}
}
}
DisplayError HWPrimary::GetNumDisplayAttributes(uint32_t *count) {
*count = IsResolutionSwitchEnabled() ? UINT32(display_configs_.size()) : 1;
return kErrorNone;
}
DisplayError HWPrimary::GetActiveConfig(uint32_t *active_config_index) {
*active_config_index = active_config_index_;
return kErrorNone;
}
DisplayError HWPrimary::GetDisplayAttributes(uint32_t index,
HWDisplayAttributes *display_attributes) {
if (!display_attributes) {
return kErrorParameters;
}
if (IsResolutionSwitchEnabled() && index >= display_configs_.size()) {
return kErrorParameters;
}
*display_attributes = display_attributes_;
if (IsResolutionSwitchEnabled()) {
// Overwrite only the parent portion of object
display_attributes->x_pixels = display_configs_.at(index).x_pixels;
display_attributes->y_pixels = display_configs_.at(index).y_pixels;
}
return kErrorNone;
}
DisplayError HWPrimary::PopulateDisplayAttributes() {
DTRACE_SCOPED();
// Variable screen info
fb_var_screeninfo var_screeninfo = {};
if (Sys::ioctl_(device_fd_, FBIOGET_VSCREENINFO, &var_screeninfo) < 0) {
IOCTL_LOGE(FBIOGET_VSCREENINFO, device_type_);
return kErrorHardware;
}
// Frame rate
msmfb_metadata meta_data = {};
meta_data.op = metadata_op_frame_rate;
if (Sys::ioctl_(device_fd_, MSMFB_METADATA_GET, &meta_data) < 0) {
IOCTL_LOGE(MSMFB_METADATA_GET, device_type_);
return kErrorHardware;
}
// If driver doesn't return width/height information, default to 160 dpi
if (INT(var_screeninfo.width) <= 0 || INT(var_screeninfo.height) <= 0) {
var_screeninfo.width = UINT32(((FLOAT(var_screeninfo.xres) * 25.4f)/160.0f) + 0.5f);
var_screeninfo.height = UINT32(((FLOAT(var_screeninfo.yres) * 25.4f)/160.0f) + 0.5f);
}
display_attributes_.x_pixels = var_screeninfo.xres;
display_attributes_.y_pixels = var_screeninfo.yres;
display_attributes_.v_front_porch = var_screeninfo.lower_margin;
display_attributes_.v_back_porch = var_screeninfo.upper_margin;
display_attributes_.v_pulse_width = var_screeninfo.vsync_len;
uint32_t h_blanking = var_screeninfo.right_margin + var_screeninfo.left_margin +
var_screeninfo.hsync_len;
display_attributes_.h_total = var_screeninfo.xres + h_blanking;
display_attributes_.x_dpi =
(FLOAT(var_screeninfo.xres) * 25.4f) / FLOAT(var_screeninfo.width);
display_attributes_.y_dpi =
(FLOAT(var_screeninfo.yres) * 25.4f) / FLOAT(var_screeninfo.height);
display_attributes_.fps = meta_data.data.panel_frame_rate;
display_attributes_.vsync_period_ns = UINT32(1000000000L / display_attributes_.fps);
display_attributes_.is_device_split = (hw_panel_info_.split_info.left_split ||
(var_screeninfo.xres > hw_resource_.max_mixer_width)) ? true : false;
display_attributes_.h_total += display_attributes_.is_device_split ? h_blanking : 0;
return kErrorNone;
}
DisplayError HWPrimary::SetDisplayAttributes(uint32_t index) {
DisplayError ret = kErrorNone;
if (!IsResolutionSwitchEnabled()) {
return kErrorNotSupported;
}
if (index >= display_configs_.size()) {
return kErrorParameters;
}
string mode_path = string(fb_path_) + string("0/mode");
int fd = Sys::open_(mode_path.c_str(), O_WRONLY);
if (fd < 0) {
DLOGE("Opening mode failed");
return kErrorNotSupported;
}
ssize_t written = Sys::pwrite_(fd, display_config_strings_.at(index).c_str(),
display_config_strings_.at(index).length(), 0);
if (written > 0) {
DLOGI("Successfully set config %u", index);
PopulateHWPanelInfo();
PopulateDisplayAttributes();
UpdateMixerAttributes();
active_config_index_ = index;
} else {
DLOGE("Writing config index %u failed with error: %s", index, strerror(errno));
ret = kErrorParameters;
}
Sys::close_(fd);
return ret;
}
DisplayError HWPrimary::SetRefreshRate(uint32_t refresh_rate) {
char node_path[kMaxStringLength] = {0};
if (refresh_rate == display_attributes_.fps) {
return kErrorNone;
}
snprintf(node_path, sizeof(node_path), "%s%d/dynamic_fps", fb_path_, fb_node_index_);
int fd = Sys::open_(node_path, O_WRONLY);
if (fd < 0) {
DLOGE("Failed to open %s with error %s", node_path, strerror(errno));
return kErrorFileDescriptor;
}
char refresh_rate_string[kMaxStringLength];
snprintf(refresh_rate_string, sizeof(refresh_rate_string), "%d", refresh_rate);
DLOGI_IF(kTagDriverConfig, "Setting refresh rate = %d", refresh_rate);
ssize_t len = Sys::pwrite_(fd, refresh_rate_string, strlen(refresh_rate_string), 0);
if (len < 0) {
DLOGE("Failed to write %d with error %s", refresh_rate, strerror(errno));
Sys::close_(fd);
return kErrorUndefined;
}
Sys::close_(fd);
DisplayError error = PopulateDisplayAttributes();
if (error != kErrorNone) {
return error;
}
return kErrorNone;
}
DisplayError HWPrimary::GetConfigIndex(uint32_t mode, uint32_t *index) {
return HWDevice::GetConfigIndex(mode, index);
}
DisplayError HWPrimary::PowerOff() {
if (Sys::ioctl_(device_fd_, FBIOBLANK, FB_BLANK_POWERDOWN) < 0) {
IOCTL_LOGE(FB_BLANK_POWERDOWN, device_type_);
return kErrorHardware;
}
return kErrorNone;
}
DisplayError HWPrimary::Doze() {
if (Sys::ioctl_(device_fd_, FBIOBLANK, FB_BLANK_NORMAL) < 0) {
IOCTL_LOGE(FB_BLANK_NORMAL, device_type_);
return kErrorHardware;
}
return kErrorNone;
}
DisplayError HWPrimary::DozeSuspend() {
if (Sys::ioctl_(device_fd_, FBIOBLANK, FB_BLANK_VSYNC_SUSPEND) < 0) {
IOCTL_LOGE(FB_BLANK_VSYNC_SUSPEND, device_type_);
return kErrorHardware;
}
return kErrorNone;
}
DisplayError HWPrimary::Validate(HWLayers *hw_layers) {
HWLayersInfo &hw_layer_info = hw_layers->info;
LayerStack *stack = hw_layer_info.stack;
HWDevice::ResetDisplayParams();
mdp_layer_commit_v1 &mdp_commit = mdp_disp_commit_.commit_v1;
LayerRect left_roi = hw_layer_info.left_partial_update;
LayerRect right_roi = hw_layer_info.right_partial_update;
mdp_commit.left_roi.x = UINT32(left_roi.left);
mdp_commit.left_roi.y = UINT32(left_roi.top);
mdp_commit.left_roi.w = UINT32(left_roi.right - left_roi.left);
mdp_commit.left_roi.h = UINT32(left_roi.bottom - left_roi.top);
// SDM treats ROI as one full coordinate system.
// In case source split is disabled, However, Driver assumes Mixer to operate in
// different co-ordinate system.
if (!hw_resource_.is_src_split && IsValid(right_roi)) {
mdp_commit.right_roi.x = UINT32(right_roi.left) - mixer_attributes_.split_left;
mdp_commit.right_roi.y = UINT32(right_roi.top);
mdp_commit.right_roi.w = UINT32(right_roi.right - right_roi.left);
mdp_commit.right_roi.h = UINT32(right_roi.bottom - right_roi.top);
}
if (stack->output_buffer && hw_resource_.has_concurrent_writeback) {
LayerBuffer *output_buffer = stack->output_buffer;
mdp_out_layer_.writeback_ndx = hw_resource_.writeback_index;
mdp_out_layer_.buffer.width = output_buffer->width;
mdp_out_layer_.buffer.height = output_buffer->height;
mdp_out_layer_.buffer.comp_ratio.denom = 1000;
mdp_out_layer_.buffer.comp_ratio.numer = UINT32(hw_layers->output_compression * 1000);
mdp_out_layer_.buffer.fence = -1;
#ifdef OUT_LAYER_COLOR_SPACE
SetCSC(output_buffer->csc, &mdp_out_layer_.color_space);
#endif
SetFormat(output_buffer->format, &mdp_out_layer_.buffer.format);
mdp_commit.flags |= MDP_COMMIT_CWB_EN;
mdp_commit.flags |= (stack->flags.post_processed_output) ? MDP_COMMIT_CWB_DSPP : 0;
DLOGI_IF(kTagDriverConfig, "****************** Conc WB Output buffer Info ******************");
DLOGI_IF(kTagDriverConfig, "out_w %d, out_h %d, out_f %d, wb_id %d DSPP output %d",
mdp_out_layer_.buffer.width, mdp_out_layer_.buffer.height,
mdp_out_layer_.buffer.format, mdp_out_layer_.writeback_ndx,
stack->flags.post_processed_output);
DLOGI_IF(kTagDriverConfig, "****************************************************************");
}
if (hw_resource_.has_avr) {
SetAVRFlags(hw_layers->hw_avr_info, &mdp_commit.flags);
}
return HWDevice::Validate(hw_layers);
}
DisplayError HWPrimary::Commit(HWLayers *hw_layers) {
LayerBuffer *output_buffer = hw_layers->info.stack->output_buffer;
if (hw_resource_.has_concurrent_writeback && output_buffer) {
if (output_buffer->planes[0].fd >= 0) {
mdp_out_layer_.buffer.planes[0].fd = output_buffer->planes[0].fd;
mdp_out_layer_.buffer.planes[0].offset = output_buffer->planes[0].offset;
SetStride(device_type_, output_buffer->format, output_buffer->planes[0].stride,
&mdp_out_layer_.buffer.planes[0].stride);
mdp_out_layer_.buffer.plane_count = 1;
mdp_out_layer_.buffer.fence = -1;
DLOGI_IF(kTagDriverConfig, "****************** Conc WB Output buffer Info ****************");
DLOGI_IF(kTagDriverConfig, "out_fd %d, out_offset %d, out_stride %d",
mdp_out_layer_.buffer.planes[0].fd, mdp_out_layer_.buffer.planes[0].offset,
mdp_out_layer_.buffer.planes[0].stride);
DLOGI_IF(kTagDriverConfig, "**************************************************************");
} else {
DLOGE("Invalid output buffer fd");
return kErrorParameters;
}
}
DisplayError ret = HWDevice::Commit(hw_layers);
if (ret == kErrorNone && hw_resource_.has_concurrent_writeback && output_buffer) {
output_buffer->release_fence_fd = mdp_out_layer_.buffer.fence;
}
return ret;
}
void HWPrimary::SetIdleTimeoutMs(uint32_t timeout_ms) {
char node_path[kMaxStringLength] = {0};
DLOGI_IF(kTagDriverConfig, "Setting idle timeout to = %d ms", timeout_ms);
snprintf(node_path, sizeof(node_path), "%s%d/idle_time", fb_path_, fb_node_index_);
// Open a sysfs node to send the timeout value to driver.
int fd = Sys::open_(node_path, O_WRONLY);
if (fd < 0) {
DLOGE("Unable to open %s, node %s", node_path, strerror(errno));
return;
}
char timeout_string[64];
snprintf(timeout_string, sizeof(timeout_string), "%d", timeout_ms);
// Notify driver about the timeout value
ssize_t length = Sys::pwrite_(fd, timeout_string, strlen(timeout_string), 0);
if (length <= 0) {
DLOGE("Unable to write into %s, node %s", node_path, strerror(errno));
}
Sys::close_(fd);
}
DisplayError HWPrimary::SetVSyncState(bool enable) {
DTRACE_SCOPED();
return HWDevice::SetVSyncState(enable);
}
DisplayError HWPrimary::SetDisplayMode(const HWDisplayMode hw_display_mode) {
uint32_t mode = kModeDefault;
switch (hw_display_mode) {
case kModeVideo:
mode = kModeLPMVideo;
break;
case kModeCommand:
mode = kModeLPMCommand;
break;
default:
DLOGW("Failed to translate SDE display mode %d to a MSMFB_LPM_ENABLE mode",
hw_display_mode);
return kErrorParameters;
}
if (Sys::ioctl_(device_fd_, INT(MSMFB_LPM_ENABLE), &mode) < 0) {
IOCTL_LOGE(MSMFB_LPM_ENABLE, device_type_);
return kErrorHardware;
}
DLOGI("Triggering display mode change to %d on next commit.", hw_display_mode);
synchronous_commit_ = true;
return kErrorNone;
}
DisplayError HWPrimary::SetPanelBrightness(int level) {
char buffer[kMaxSysfsCommandLength] = {0};
DLOGV_IF(kTagDriverConfig, "Set brightness level to %d", level);
int fd = Sys::open_(kBrightnessNode, O_RDWR);
if (fd < 0) {
DLOGV_IF(kTagDriverConfig, "Failed to open node = %s, error = %s ", kBrightnessNode,
strerror(errno));
return kErrorFileDescriptor;
}
int32_t bytes = snprintf(buffer, kMaxSysfsCommandLength, "%d\n", level);
if (bytes < 0) {
DLOGV_IF(kTagDriverConfig, "Failed to copy new brightness level = %d", level);
Sys::close_(fd);
return kErrorUndefined;
}
ssize_t ret = Sys::pwrite_(fd, buffer, static_cast<size_t>(bytes), 0);
if (ret <= 0) {
DLOGV_IF(kTagDriverConfig, "Failed to write to node = %s, error = %s ", kBrightnessNode,
strerror(errno));
Sys::close_(fd);
return kErrorUndefined;
}
Sys::close_(fd);
return kErrorNone;
}
DisplayError HWPrimary::GetPanelBrightness(int *level) {
char brightness[kMaxStringLength] = {0};
if (!level) {
DLOGV_IF(kTagDriverConfig, "Invalid input, null pointer.");
return kErrorParameters;
}
int fd = Sys::open_(kBrightnessNode, O_RDWR);
if (fd < 0) {
DLOGV_IF(kTagDriverConfig, "Failed to open brightness node = %s, error = %s", kBrightnessNode,
strerror(errno));
return kErrorFileDescriptor;
}
if (Sys::pread_(fd, brightness, sizeof(brightness), 0) > 0) {
*level = atoi(brightness);
DLOGV_IF(kTagDriverConfig, "Brightness level = %d", *level);
}
Sys::close_(fd);
return kErrorNone;
}
DisplayError HWPrimary::SetAutoRefresh(bool enable) {
const int kWriteLength = 2;
char buffer[kWriteLength] = {'\0'};
ssize_t bytes = snprintf(buffer, kWriteLength, "%d", enable);
if (enable == auto_refresh_) {
return kErrorNone;
}
if (HWDevice::SysFsWrite(kAutoRefreshNode, buffer, bytes) <= 0) { // Returns bytes written
return kErrorUndefined;
}
auto_refresh_ = enable;
return kErrorNone;
}
DisplayError HWPrimary::GetPPFeaturesVersion(PPFeatureVersion *vers) {
mdp_pp_feature_version version = {};
#ifdef PA_DITHER
uint32_t feature_id_mapping[kMaxNumPPFeatures] = { PCC, IGC, GC, GC, PA,
DITHER, GAMUT, PA_DITHER };
#else
uint32_t feature_id_mapping[kMaxNumPPFeatures] = { PCC, IGC, GC, GC, PA, DITHER, GAMUT };
#endif
for (int i(0); i < kMaxNumPPFeatures; i++) {
version.pp_feature = feature_id_mapping[i];
if (Sys::ioctl_(device_fd_, INT(MSMFB_MDP_PP_GET_FEATURE_VERSION), &version) < 0) {
IOCTL_LOGE(MSMFB_MDP_PP_GET_FEATURE_VERSION, device_type_);
return kErrorHardware;
}
vers->version[i] = version.version_info;
}
return kErrorNone;
}
// It was entered with PPFeaturesConfig::locker_ being hold.
DisplayError HWPrimary::SetPPFeatures(PPFeaturesConfig *feature_list) {
msmfb_mdp_pp kernel_params = {};
int ret = 0;
PPFeatureInfo *feature = NULL;
while (true) {
ret = feature_list->RetrieveNextFeature(&feature);
if (ret)
break;
if (feature) {
DLOGV_IF(kTagDriverConfig, "feature_id = %d", feature->feature_id_);
if ((feature->feature_id_ < kMaxNumPPFeatures)) {
HWColorManager::SetFeature[feature->feature_id_](*feature, &kernel_params);
if (Sys::ioctl_(device_fd_, INT(MSMFB_MDP_PP), &kernel_params) < 0) {
IOCTL_LOGE(MSMFB_MDP_PP, device_type_);
feature_list->Reset();
return kErrorHardware;
}
}
}
} // while(true)
// Once all features were consumed, then destroy all feature instance from feature_list,
// Then mark it as non-dirty of PPFeaturesConfig cache.
feature_list->Reset();
return kErrorNone;
}
DisplayError HWPrimary::SetMixerAttributes(const HWMixerAttributes &mixer_attributes) {
if (IsResolutionSwitchEnabled()) {
return kErrorNotSupported;
}
return HWDevice::SetMixerAttributes(mixer_attributes);
}
void HWPrimary::UpdateMixerAttributes() {
mixer_attributes_.width = display_attributes_.x_pixels;
mixer_attributes_.height = display_attributes_.y_pixels;
mixer_attributes_.split_left = display_attributes_.is_device_split ?
hw_panel_info_.split_info.left_split : mixer_attributes_.width;
}
void HWPrimary::SetAVRFlags(const HWAVRInfo &hw_avr_info, uint32_t *avr_flags) {
if (hw_avr_info.enable) {
*avr_flags |= MDP_COMMIT_AVR_EN;
}
if (hw_avr_info.mode == kOneShotMode) {
*avr_flags |= MDP_COMMIT_AVR_ONE_SHOT_MODE;
}
}
} // namespace sdm