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/*
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/*
* Changes from Qualcomm Innovation Center are provided under the following license:
*
* Copyright (c) 2022 Qualcomm Innovation Center, Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted (subject to the limitations in the
* disclaimer below) 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 Qualcomm Innovation Center, Inc. nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* NO EXPRESS OR IMPLIED LICENSES TO ANY PARTY'S PATENT RIGHTS ARE
* GRANTED BY THIS LICENSE. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT
* HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE COPYRIGHT HOLDER 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 <ctype.h>
#include <drm_logger.h>
#include <utils/debug.h>
#include <utils/utils.h>
#include <algorithm>
#include <vector>
#include "hw_device_drm.h"
#include "hw_virtual_drm.h"
#include "hw_info_drm.h"
#define __CLASS__ "HWVirtualDRM"
using std::vector;
using sde_drm::DRMDisplayType;
using sde_drm::DRMConnectorInfo;
using sde_drm::DRMRect;
using sde_drm::DRMOps;
using sde_drm::DRMPowerMode;
using sde_drm::DRMSecureMode;
namespace sdm {
HWVirtualDRM::HWVirtualDRM(int32_t display_id, BufferAllocator *buffer_allocator,
HWInfoInterface *hw_info_intf)
: HWDeviceDRM(buffer_allocator, hw_info_intf) {
HWDeviceDRM::device_name_ = "Virtual";
HWDeviceDRM::disp_type_ = DRMDisplayType::VIRTUAL;
HWDeviceDRM::display_id_ = display_id;
}
void HWVirtualDRM::ConfigureWbConnectorFbId(uint32_t fb_id) {
drm_atomic_intf_->Perform(DRMOps::CONNECTOR_SET_OUTPUT_FB_ID, token_.conn_id, fb_id);
return;
}
void HWVirtualDRM::ConfigureWbConnectorDestRect(bool reset) {
DRMRect dst = {};
if (!reset) {
dst.bottom = display_attributes_[current_mode_index_].y_pixels;
dst.right = display_attributes_[current_mode_index_].x_pixels;
}
drm_atomic_intf_->Perform(DRMOps::CONNECTOR_SET_OUTPUT_RECT, token_.conn_id, dst);
return;
}
void HWVirtualDRM::ConfigureWbConnectorSecureMode(bool secure) {
DRMSecureMode secure_mode = secure ? DRMSecureMode::SECURE : DRMSecureMode::NON_SECURE;
drm_atomic_intf_->Perform(DRMOps::CONNECTOR_SET_FB_SECURE_MODE, token_.conn_id, secure_mode);
}
void HWVirtualDRM::InitializeConfigs() {
display_attributes_.resize(connector_info_.modes.size());
for (uint32_t i = 0; i < connector_info_.modes.size(); i++) {
PopulateDisplayAttributes(i);
}
}
DisplayError HWVirtualDRM::SetWbConfigs(const HWDisplayAttributes &display_attributes) {
if (display_attributes.x_pixels > connector_info_.max_linewidth) {
DLOGE("Requested width %d is more than supported %d", display_attributes.x_pixels,
connector_info_.max_linewidth);
return kErrorHardware;
}
drmModeModeInfo mode = {};
vector<drmModeModeInfo> modes;
mode.hdisplay = mode.hsync_start = mode.hsync_end = mode.htotal =
UINT16(display_attributes.x_pixels);
mode.vdisplay = mode.vsync_start = mode.vsync_end = mode.vtotal =
UINT16(display_attributes.y_pixels);
mode.vrefresh = UINT32(display_attributes.fps);
mode.clock = (mode.htotal * mode.vtotal * mode.vrefresh) / 1000;
snprintf(mode.name, DRM_DISPLAY_MODE_LEN, "%dx%d", mode.hdisplay, mode.vdisplay);
modes.push_back(mode);
for (auto &item : connector_info_.modes) {
modes.push_back(item.mode);
}
// Inform the updated mode list to the driver
struct sde_drm_wb_cfg wb_cfg = {};
wb_cfg.connector_id = token_.conn_id;
wb_cfg.flags = SDE_DRM_WB_CFG_FLAGS_CONNECTED;
wb_cfg.count_modes = UINT32(modes.size());
wb_cfg.modes = (uint64_t)modes.data();
int ret = -EINVAL;
#ifdef DRM_IOCTL_SDE_WB_CONFIG
ret = drmIoctl(dev_fd_, DRM_IOCTL_SDE_WB_CONFIG, &wb_cfg);
#endif
if (ret) {
DLOGE("Dump WBConfig: mode_count %d flags %x", wb_cfg.count_modes, wb_cfg.flags);
DumpConnectorModeInfo();
return kErrorHardware;
}
return kErrorNone;
}
void HWVirtualDRM::ConfigureDNSC(HWLayersInfo *hw_layers_info) {
#ifdef FEATURE_DNSC_BLUR
sde_drm::DRMFrameTriggerMode trigger_mode = sde_drm::DRMFrameTriggerMode::FRAME_DONE_WAIT_DEFAULT;
sde_drm::DRMWBUsageType usage_mode = sde_drm::DRMWBUsageType::WB_USAGE_WFD;
if (hw_layers_info->iwe_enabled) {
trigger_mode = sde_drm::DRMFrameTriggerMode::FRAME_DONE_WAIT_POSTED_START;
usage_mode = sde_drm::DRMWBUsageType::WB_USAGE_OFFLINE_WB;
topology_control_ |= UINT32(sde_drm::DRMTopologyControl::DNSC_BLUR);
}
HWDNSCInfo& dnsc = hw_layers_info->dnsc_cfg;
dnsc_cfg_ = {};
if (dnsc.enabled) {
dnsc_cfg_.flags = dnsc.flags;
dnsc_cfg_.num_blocks = dnsc.num_blocks;
dnsc_cfg_.src_width = dnsc.src_width;
dnsc_cfg_.src_height = dnsc.src_height;
dnsc_cfg_.dst_width = dnsc.dst_width;
dnsc_cfg_.dst_height = dnsc.dst_height;
dnsc_cfg_.flags_h = dnsc.flags_h;
dnsc_cfg_.flags_v = dnsc.flags_v;
dnsc_cfg_.phase_init_h = dnsc.pcmn_data.phase_init_h;
dnsc_cfg_.phase_step_h = dnsc.pcmn_data.phase_step_h;
dnsc_cfg_.phase_init_v = dnsc.pcmn_data.phase_init_v;
dnsc_cfg_.phase_step_v = dnsc.pcmn_data.phase_step_v;
dnsc_cfg_.norm_h = dnsc.gaussian_data.norm_h;
dnsc_cfg_.ratio_h = dnsc.gaussian_data.ratio_h;
dnsc_cfg_.norm_v = dnsc.gaussian_data.norm_v;
dnsc_cfg_.ratio_v = dnsc.gaussian_data.ratio_v;
for (int i = 0; i < DNSC_BLUR_COEF_NUM && i < dnsc.gaussian_data.coef_hori.size(); i++) {
dnsc_cfg_.coef_hori[i] = dnsc.gaussian_data.coef_hori[i];
}
for (int i = 0; i < DNSC_BLUR_COEF_NUM && i < dnsc.gaussian_data.coef_vert.size(); i++) {
dnsc_cfg_.coef_vert[i] = dnsc.gaussian_data.coef_vert[i];
}
}
uint32_t conn_id = token_.conn_id;
drm_atomic_intf_->Perform(DRMOps::CONNECTOR_CACHE_STATE, conn_id, dnsc.cache_state);
drm_atomic_intf_->Perform(DRMOps::CONNECTOR_EARLY_FENCE_LINE, conn_id, dnsc.early_fence_line);
drm_atomic_intf_->Perform(DRMOps::CONNECTOR_DNSC_BLR, conn_id, &dnsc_cfg_);
drm_atomic_intf_->Perform(DRMOps::CONNECTOR_WB_USAGE_TYPE, conn_id, usage_mode);
drm_atomic_intf_->Perform(DRMOps::CONNECTOR_SET_FRAME_TRIGGER, conn_id, trigger_mode);
#endif
}
DisplayError HWVirtualDRM::Commit(HWLayersInfo *hw_layers_info) {
LayerBuffer *output_buffer = hw_layers_info->output_buffer;
DisplayError err = kErrorNone;
registry_.Register(hw_layers_info);
registry_.MapOutputBufferToFbId(output_buffer);
uint32_t fb_id = registry_.GetOutputFbId(output_buffer->handle_id);
ConfigureWbConnectorFbId(fb_id);
ConfigureWbConnectorSecureMode(output_buffer->flags.secure);
ConfigureDNSC(hw_layers_info);
ConfigureWbConnectorDestRect(hw_layers_info->iwe_enabled);
err = HWDeviceDRM::AtomicCommit(hw_layers_info);
if (err != kErrorNone) {
DLOGE("Atomic commit failed for crtc_id %d conn_id %d", token_.crtc_id, token_.conn_id);
}
// Retire fence marks WB done event.
output_buffer->release_fence = hw_layers_info->retire_fence;
hw_layers_info->output_fb_id = fb_id;
return(err);
}
DisplayError HWVirtualDRM::Flush(HWLayersInfo *hw_layers_info) {
DisplayError err = kErrorNone;
err = Commit(hw_layers_info);
if (err != kErrorNone) {
return err;
}
return kErrorNone;
}
DisplayError HWVirtualDRM::Validate(HWLayersInfo *hw_layers_info) {
LayerBuffer *output_buffer = hw_layers_info->output_buffer;
registry_.MapOutputBufferToFbId(output_buffer);
uint32_t fb_id = registry_.GetOutputFbId(output_buffer->handle_id);
ConfigureWbConnectorFbId(fb_id);
ConfigureWbConnectorDestRect();
ConfigureWbConnectorSecureMode(output_buffer->flags.secure);
return HWDeviceDRM::Validate(hw_layers_info);
}
DisplayError HWVirtualDRM::SetDisplayAttributes(const HWDisplayAttributes &display_attributes) {
if (display_attributes.x_pixels == 0 || display_attributes.y_pixels == 0) {
return kErrorParameters;
}
int mode_index = -1;
int ret = 0;
GetModeIndex(display_attributes, &mode_index);
if (mode_index < 0) {
DisplayError error = SetWbConfigs(display_attributes);
if (error != kErrorNone) {
return error;
}
}
// Reload connector info for updated info
ret = drm_mgr_intf_->GetConnectorInfo(token_.conn_id, &connector_info_);
if (ret) {
DLOGE("Failed getting info for connector id %u. Error: %d.", token_.conn_id, ret);
return kErrorHardware;
}
GetModeIndex(display_attributes, &mode_index);
if (mode_index < 0) {
DLOGE("Mode not found for resolution %dx%d fps %d", display_attributes.x_pixels,
display_attributes.y_pixels, UINT32(display_attributes.fps));
DumpConnectorModeInfo();
return kErrorNotSupported;
}
current_mode_index_ = UINT32(mode_index);
InitializeConfigs();
PopulateHWPanelInfo();
UpdateMixerAttributes();
DLOGI("New WB Resolution: %dx%d cur_mode_index %d", display_attributes.x_pixels,
display_attributes.y_pixels, current_mode_index_);
return kErrorNone;
}
DisplayError HWVirtualDRM::GetPPFeaturesVersion(PPFeatureVersion *vers) {
return kErrorNone;
}
void HWVirtualDRM::GetModeIndex(const HWDisplayAttributes &display_attributes, int *mode_index) {
*mode_index = -1;
for (uint32_t i = 0; i < connector_info_.modes.size(); i++) {
if (display_attributes.x_pixels == connector_info_.modes[i].mode.hdisplay &&
display_attributes.y_pixels == connector_info_.modes[i].mode.vdisplay &&
display_attributes.fps == connector_info_.modes[i].mode.vrefresh) {
*mode_index = INT32(i);
break;
}
}
}
DisplayError HWVirtualDRM::PowerOn(const HWQosData &qos_data, SyncPoints *sync_points) {
DTRACE_SCOPED();
if (!drm_atomic_intf_) {
DLOGE("DRM Atomic Interface is null!");
return kErrorUndefined;
}
// Since fb id is not available until first draw cycle and driver expects fb id to be set on any
// commit(null or atomic commit). Need to defer power on for the first cycle.
if (first_cycle_) {
return kErrorNone;
}
DisplayError err = HWDeviceDRM::PowerOn(qos_data, sync_points);
if (err != kErrorNone) {
return err;
}
return kErrorNone;
}
DisplayError HWVirtualDRM::GetDisplayIdentificationData(uint8_t *out_port, uint32_t *out_data_size,
uint8_t *out_data) {
*out_data_size = 0;
*out_port = token_.hw_port;
return kErrorNone;
}
DisplayError HWVirtualDRM::Deinit() {
#ifdef FEATURE_DNSC_BLUR
sde_drm::DRMFrameTriggerMode trigger_mode = sde_drm::DRMFrameTriggerMode::FRAME_DONE_WAIT_DEFAULT;
sde_drm::DRMWBUsageType usage_mode = sde_drm::DRMWBUsageType::WB_USAGE_WFD;
uint32_t conn_id = token_.conn_id;
dnsc_cfg_ = {};
drm_atomic_intf_->Perform(DRMOps::CONNECTOR_CACHE_STATE, conn_id, 0);
drm_atomic_intf_->Perform(DRMOps::CONNECTOR_EARLY_FENCE_LINE, conn_id, 0);
drm_atomic_intf_->Perform(DRMOps::CONNECTOR_DNSC_BLR, conn_id, &dnsc_cfg_);
drm_atomic_intf_->Perform(DRMOps::CONNECTOR_WB_USAGE_TYPE, conn_id, usage_mode);
drm_atomic_intf_->Perform(DRMOps::CONNECTOR_SET_FRAME_TRIGGER, conn_id, trigger_mode);
drm_atomic_intf_->Perform(DRMOps::CONNECTOR_SET_TOPOLOGY_CONTROL, conn_id, 0);
#endif
return HWDeviceDRM::Deinit();
}
} // namespace sdm