/* * Copyright (C) 2022 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define LOG_TAG "hwc-display-configs" #include "HwcDisplayConfigs.h" #include #include "drm/DrmConnector.h" #include "utils/log.h" constexpr uint32_t kHeadlessModeDisplayWidthMm = 163; constexpr uint32_t kHeadlessModeDisplayHeightMm = 122; constexpr uint32_t kHeadlessModeDisplayWidthPx = 1024; constexpr uint32_t kHeadlessModeDisplayHeightPx = 768; constexpr uint32_t kHeadlessModeDisplayVRefresh = 60; namespace android { // NOLINTNEXTLINE(cppcoreguidelines-avoid-non-const-global-variables) uint32_t HwcDisplayConfigs::last_config_id = 1; void HwcDisplayConfigs::FillHeadless() { hwc_configs.clear(); last_config_id++; preferred_config_id = active_config_id = last_config_id; auto headless_drm_mode_info = (drmModeModeInfo){ .hdisplay = kHeadlessModeDisplayWidthPx, .vdisplay = kHeadlessModeDisplayHeightPx, .vrefresh = kHeadlessModeDisplayVRefresh, .name = "HEADLESS-MODE", }; hwc_configs[active_config_id] = (HwcDisplayConfig){ .id = active_config_id, .group_id = 1, .mode = DrmMode(&headless_drm_mode_info), }; mm_width = kHeadlessModeDisplayWidthMm; mm_height = kHeadlessModeDisplayHeightMm; } // NOLINTNEXTLINE (readability-function-cognitive-complexity): Fixme HWC2::Error HwcDisplayConfigs::Update(DrmConnector &connector) { /* In case UpdateModes will fail we will still have one mode for headless * mode*/ FillHeadless(); /* Read real configs */ int ret = connector.UpdateModes(); if (ret != 0) { ALOGE("Failed to update display modes %d", ret); return HWC2::Error::BadDisplay; } if (connector.GetModes().empty()) { ALOGE("No modes reported by KMS"); return HWC2::Error::BadDisplay; } hwc_configs.clear(); mm_width = connector.GetMmWidth(); mm_height = connector.GetMmHeight(); preferred_config_id = 0; uint32_t preferred_config_group_id = 0; uint32_t first_config_id = last_config_id; uint32_t last_group_id = 1; /* Group modes */ for (const auto &mode : connector.GetModes()) { /* Find group for the new mode or create new group */ uint32_t group_found = 0; for (auto &hwc_config : hwc_configs) { if (mode.h_display() == hwc_config.second.mode.h_display() && mode.v_display() == hwc_config.second.mode.v_display()) { group_found = hwc_config.second.group_id; } } if (group_found == 0) { group_found = last_group_id++; } bool disabled = false; if ((mode.flags() & DRM_MODE_FLAG_3D_MASK) != 0) { ALOGI("Disabling display mode %s (Modes with 3D flag aren't supported)", mode.name().c_str()); disabled = true; } /* Add config */ hwc_configs[last_config_id] = { .id = last_config_id, .group_id = group_found, .mode = mode, .disabled = disabled, }; /* Chwck if the mode is preferred */ if ((mode.type() & DRM_MODE_TYPE_PREFERRED) != 0 && preferred_config_id == 0) { preferred_config_id = last_config_id; preferred_config_group_id = group_found; } last_config_id++; } /* We must have preferred mode. Set first mode as preferred * in case KMS haven't reported anything. */ if (preferred_config_id == 0) { preferred_config_id = first_config_id; preferred_config_group_id = 1; } for (uint32_t group = 1; group < last_group_id; group++) { bool has_interlaced = false; bool has_progressive = false; for (auto &hwc_config : hwc_configs) { if (hwc_config.second.group_id != group || hwc_config.second.disabled) { continue; } if (hwc_config.second.IsInterlaced()) { has_interlaced = true; } else { has_progressive = true; } } bool has_both = has_interlaced && has_progressive; if (!has_both) { continue; } bool group_contains_preferred_interlaced = false; if (group == preferred_config_group_id && hwc_configs[preferred_config_id].IsInterlaced()) { group_contains_preferred_interlaced = true; } for (auto &hwc_config : hwc_configs) { if (hwc_config.second.group_id != group || hwc_config.second.disabled) { continue; } bool disable = group_contains_preferred_interlaced ? !hwc_config.second.IsInterlaced() : hwc_config.second.IsInterlaced(); if (disable) { ALOGI( "Group %i: Disabling display mode %s (This group should consist " "of %s modes)", group, hwc_config.second.mode.name().c_str(), group_contains_preferred_interlaced ? "interlaced" : "progressive"); hwc_config.second.disabled = true; } } } /* Group should not contain 2 modes with FPS delta less than ~1HZ * otherwise android.graphics.cts.SetFrameRateTest CTS will fail */ constexpr float kMinFpsDelta = 1.0; // FPS for (uint32_t m1 = first_config_id; m1 < last_config_id; m1++) { for (uint32_t m2 = first_config_id; m2 < last_config_id; m2++) { if (m1 != m2 && hwc_configs[m1].group_id == hwc_configs[m2].group_id && !hwc_configs[m1].disabled && !hwc_configs[m2].disabled && fabsf(hwc_configs[m1].mode.v_refresh() - hwc_configs[m2].mode.v_refresh()) < kMinFpsDelta) { ALOGI( "Group %i: Disabling display mode %s (Refresh rate value is " "too close to existing mode %s)", hwc_configs[m2].group_id, hwc_configs[m2].mode.name().c_str(), hwc_configs[m1].mode.name().c_str()); hwc_configs[m2].disabled = true; } } } return HWC2::Error::None; } } // namespace android