/* * Copyright (c) 2014-2019, 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 #include #include #include #include "hwc_display_pluggable.h" #include "hwc_debugger.h" #define __CLASS__ "HWCDisplayPluggable" namespace sdm { int HWCDisplayPluggable::Create(CoreInterface *core_intf, HWCBufferAllocator *buffer_allocator, HWCCallbacks *callbacks, HWCDisplayEventHandler *event_handler, qService::QService *qservice, hwc2_display_t id, int32_t sdm_id, uint32_t primary_width, uint32_t primary_height, bool use_primary_res, HWCDisplay **hwc_display) { uint32_t pluggable_width = 0; uint32_t pluggable_height = 0; DisplayError error = kErrorNone; HWCDisplay *hwc_display_pluggable = new HWCDisplayPluggable(core_intf, buffer_allocator, callbacks, event_handler, qservice, id, sdm_id); int status = hwc_display_pluggable->Init(); if (status) { delete hwc_display_pluggable; return status; } error = hwc_display_pluggable->GetMixerResolution(&pluggable_width, &pluggable_height); if (error != kErrorNone) { Destroy(hwc_display_pluggable); return -EINVAL; } if (primary_width && primary_height) { // use_primary_res means HWCDisplayPluggable should directly set framebuffer resolution to the // provided primary_width and primary_height if (use_primary_res) { pluggable_width = primary_width; pluggable_height = primary_height; } else { int downscale_enabled = 0; HWCDebugHandler::Get()->GetProperty(ENABLE_EXTERNAL_DOWNSCALE_PROP, &downscale_enabled); if (downscale_enabled) { GetDownscaleResolution(primary_width, primary_height, &pluggable_width, &pluggable_height); } } } status = hwc_display_pluggable->SetFrameBufferResolution(pluggable_width, pluggable_height); if (status) { Destroy(hwc_display_pluggable); return status; } *hwc_display = hwc_display_pluggable; return status; } int HWCDisplayPluggable::Init() { int status = HWCDisplay::Init(); if (status) { return status; } color_mode_ = new HWCColorMode(display_intf_); color_mode_->Init(); return status; } void HWCDisplayPluggable::Destroy(HWCDisplay *hwc_display) { // Flush the display to have outstanding fences signaled. hwc_display->Flush(); hwc_display->Deinit(); delete hwc_display; } HWCDisplayPluggable::HWCDisplayPluggable(CoreInterface *core_intf, HWCBufferAllocator *buffer_allocator, HWCCallbacks *callbacks, HWCDisplayEventHandler *event_handler, qService::QService *qservice, hwc2_display_t id, int32_t sdm_id) : HWCDisplay(core_intf, buffer_allocator, callbacks, event_handler, qservice, kPluggable, id, sdm_id, false, DISPLAY_CLASS_PLUGGABLE) { } HWC2::Error HWCDisplayPluggable::Validate(uint32_t *out_num_types, uint32_t *out_num_requests) { auto status = HWC2::Error::None; if (active_secure_sessions_[kSecureDisplay]) { MarkLayersForGPUBypass(); return status; } BuildLayerStack(); if (layer_set_.empty()) { flush_ = true; validated_ = true; return status; } // Apply current Color Mode and Render Intent. if (color_mode_->ApplyCurrentColorModeWithRenderIntent( static_cast(layer_stack_.flags.hdr_present)) != HWC2::Error::None) { // Fallback to GPU Composition, if Color Mode can't be applied. MarkLayersForClientComposition(); } // TODO(user): SetRefreshRate need to follow new interface when added. status = PrepareLayerStack(out_num_types, out_num_requests); return status; } HWC2::Error HWCDisplayPluggable::Present(int32_t *out_retire_fence) { auto status = HWC2::Error::None; if (!active_secure_sessions_[kSecureDisplay]) { status = HWCDisplay::CommitLayerStack(); if (status == HWC2::Error::None) { status = HWCDisplay::PostCommitLayerStack(out_retire_fence); } } return status; } void HWCDisplayPluggable::ApplyScanAdjustment(hwc_rect_t *display_frame) { if ((underscan_width_ <= 0) || (underscan_height_ <= 0)) { return; } float width_ratio = FLOAT(underscan_width_) / 100.0f; float height_ratio = FLOAT(underscan_height_) / 100.0f; uint32_t mixer_width = 0; uint32_t mixer_height = 0; GetMixerResolution(&mixer_width, &mixer_height); if (mixer_width == 0 || mixer_height == 0) { DLOGV("Invalid mixer dimensions (%d, %d)", mixer_width, mixer_height); return; } uint32_t new_mixer_width = UINT32(mixer_width * FLOAT(1.0f - width_ratio)); uint32_t new_mixer_height = UINT32(mixer_height * FLOAT(1.0f - height_ratio)); int x_offset = INT((FLOAT(mixer_width) * width_ratio) / 2.0f); int y_offset = INT((FLOAT(mixer_height) * height_ratio) / 2.0f); display_frame->left = (display_frame->left * INT32(new_mixer_width) / INT32(mixer_width)) + x_offset; display_frame->top = (display_frame->top * INT32(new_mixer_height) / INT32(mixer_height)) + y_offset; display_frame->right = ((display_frame->right * INT32(new_mixer_width)) / INT32(mixer_width)) + x_offset; display_frame->bottom = ((display_frame->bottom * INT32(new_mixer_height)) / INT32(mixer_height)) + y_offset; } static void AdjustSourceResolution(uint32_t dst_width, uint32_t dst_height, uint32_t *src_width, uint32_t *src_height) { *src_height = (dst_width * (*src_height)) / (*src_width); *src_width = dst_width; } void HWCDisplayPluggable::GetDownscaleResolution(uint32_t primary_width, uint32_t primary_height, uint32_t *non_primary_width, uint32_t *non_primary_height) { uint32_t primary_area = primary_width * primary_height; uint32_t non_primary_area = (*non_primary_width) * (*non_primary_height); if (primary_area > non_primary_area) { if (primary_height > primary_width) { std::swap(primary_height, primary_width); } AdjustSourceResolution(primary_width, primary_height, non_primary_width, non_primary_height); } } int HWCDisplayPluggable::SetState(bool connected) { DisplayError error = kErrorNone; DisplayState state = kStateOff; DisplayConfigVariableInfo fb_config = {}; if (connected) { if (display_null_.IsActive()) { error = core_intf_->CreateDisplay(type_, this, &display_intf_); if (error != kErrorNone) { DLOGE("Display create failed. Error = %d display_type %d event_handler %p disp_intf %p", error, type_, this, &display_intf_); return -EINVAL; } // Restore HDMI attributes when display is reconnected. // This is to ensure that surfaceflinger & sdm are in sync. display_null_.GetFrameBufferConfig(&fb_config); int status = SetFrameBufferResolution(fb_config.x_pixels, fb_config.y_pixels); if (status) { DLOGW("Set frame buffer config failed. Error = %d", error); return -1; } int release_fence = -1; display_null_.GetDisplayState(&state); display_intf_->SetDisplayState(state, false /* teardown */, &release_fence); if (release_fence >= 0) { ::close(release_fence); } validated_ = false; SetVsyncEnabled(HWC2::Vsync::Enable); display_null_.SetActive(false); DLOGI("Display is connected successfully."); } else { DLOGI("Display is already connected."); } } else { if (!display_null_.IsActive()) { int release_fence = -1; // Preserve required attributes of HDMI display that surfaceflinger sees. // Restore HDMI attributes when display is reconnected. display_intf_->GetDisplayState(&state); display_null_.SetDisplayState(state, false /* teardown */, &release_fence); if (release_fence >= 0) { ::close(release_fence); } error = display_intf_->GetFrameBufferConfig(&fb_config); if (error != kErrorNone) { DLOGW("Get frame buffer config failed. Error = %d", error); return -1; } display_null_.SetFrameBufferConfig(fb_config); SetVsyncEnabled(HWC2::Vsync::Disable); core_intf_->DestroyDisplay(display_intf_); display_intf_ = &display_null_; display_null_.SetActive(true); DLOGI("Display is disconnected successfully."); } else { DLOGI("Display is already disconnected."); } } return 0; } void HWCDisplayPluggable::GetUnderScanConfig() { if (!display_intf_->IsUnderscanSupported()) { // Read user defined underscan width and height HWCDebugHandler::Get()->GetProperty(EXTERNAL_ACTION_SAFE_WIDTH_PROP, &underscan_width_); HWCDebugHandler::Get()->GetProperty(EXTERNAL_ACTION_SAFE_HEIGHT_PROP, &underscan_height_); } } DisplayError HWCDisplayPluggable::Flush() { return display_intf_->Flush(&layer_stack_); } HWC2::Error HWCDisplayPluggable::GetColorModes(uint32_t *out_num_modes, ColorMode *out_modes) { if (out_modes == nullptr) { *out_num_modes = color_mode_->GetColorModeCount(); } else { color_mode_->GetColorModes(out_num_modes, out_modes); } return HWC2::Error::None; } HWC2::Error HWCDisplayPluggable::GetRenderIntents(ColorMode mode, uint32_t *out_num_intents, RenderIntent *out_intents) { if (out_intents == nullptr) { *out_num_intents = color_mode_->GetRenderIntentCount(mode); } else { color_mode_->GetRenderIntents(mode, out_num_intents, out_intents); } return HWC2::Error::None; } HWC2::Error HWCDisplayPluggable::SetColorMode(ColorMode mode) { return SetColorModeWithRenderIntent(mode, RenderIntent::COLORIMETRIC); } HWC2::Error HWCDisplayPluggable::SetColorModeWithRenderIntent(ColorMode mode, RenderIntent intent) { auto status = color_mode_->CacheColorModeWithRenderIntent(mode, intent); if (status != HWC2::Error::None) { DLOGE("failed for mode = %d intent = %d", mode, intent); return status; } callbacks_->Refresh(id_); validated_ = false; return status; } } // namespace sdm