/* * Copyright (C) 2015 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 "drmhwc" #include "DrmPlane.h" #include #include #include #include #include "DrmDevice.h" #include "bufferinfo/BufferInfoGetter.h" #include "utils/log.h" namespace android { auto DrmPlane::CreateInstance(DrmDevice &dev, uint32_t plane_id) -> std::unique_ptr { auto p = MakeDrmModePlaneUnique(*dev.GetFd(), plane_id); if (!p) { ALOGE("Failed to get plane %d", plane_id); return {}; } auto plane = std::unique_ptr(new DrmPlane(dev, std::move(p))); if (plane->Init() != 0) { ALOGE("Failed to init plane %d", plane_id); return {}; } return plane; } int DrmPlane::Init() { // NOLINTNEXTLINE(cppcoreguidelines-pro-bounds-pointer-arithmetic) formats_ = {plane_->formats, plane_->formats + plane_->count_formats}; DrmProperty p; if (!GetPlaneProperty("type", p)) { return -ENOTSUP; } auto type = p.GetValue(); if (!type) { ALOGE("Failed to get plane type property value"); return -EINVAL; } switch (*type) { case DRM_PLANE_TYPE_OVERLAY: case DRM_PLANE_TYPE_PRIMARY: case DRM_PLANE_TYPE_CURSOR: type_ = (uint32_t)*type; break; default: ALOGE("Invalid plane type %" PRIu64, *type); return -EINVAL; } if (!GetPlaneProperty("CRTC_ID", crtc_property_) || !GetPlaneProperty("FB_ID", fb_property_) || !GetPlaneProperty("CRTC_X", crtc_x_property_) || !GetPlaneProperty("CRTC_Y", crtc_y_property_) || !GetPlaneProperty("CRTC_W", crtc_w_property_) || !GetPlaneProperty("CRTC_H", crtc_h_property_) || !GetPlaneProperty("SRC_X", src_x_property_) || !GetPlaneProperty("SRC_Y", src_y_property_) || !GetPlaneProperty("SRC_W", src_w_property_) || !GetPlaneProperty("SRC_H", src_h_property_)) { return -ENOTSUP; } GetPlaneProperty("zpos", zpos_property_, Presence::kOptional); /* DRM/KMS uses counter-clockwise rotations, while HWC API uses * clockwise. That's why 90 and 270 are swapped here. */ if (GetPlaneProperty("rotation", rotation_property_, Presence::kOptional)) { rotation_property_.AddEnumToMap("rotate-0", LayerTransform::kIdentity, transform_enum_map_); rotation_property_.AddEnumToMap("rotate-90", LayerTransform::kRotate270, transform_enum_map_); rotation_property_.AddEnumToMap("rotate-180", LayerTransform::kRotate180, transform_enum_map_); rotation_property_.AddEnumToMap("rotate-270", LayerTransform::kRotate90, transform_enum_map_); rotation_property_.AddEnumToMap("reflect-x", LayerTransform::kFlipH, transform_enum_map_); rotation_property_.AddEnumToMap("reflect-y", LayerTransform::kFlipV, transform_enum_map_); } GetPlaneProperty("alpha", alpha_property_, Presence::kOptional); if (GetPlaneProperty("pixel blend mode", blend_property_, Presence::kOptional)) { blend_property_.AddEnumToMap("Pre-multiplied", BufferBlendMode::kPreMult, blending_enum_map_); blend_property_.AddEnumToMap("Coverage", BufferBlendMode::kCoverage, blending_enum_map_); blend_property_.AddEnumToMap("None", BufferBlendMode::kNone, blending_enum_map_); } GetPlaneProperty("IN_FENCE_FD", in_fence_fd_property_, Presence::kOptional); if (HasNonRgbFormat()) { if (GetPlaneProperty("COLOR_ENCODING", color_encoding_propery_, Presence::kOptional)) { color_encoding_propery_.AddEnumToMap("ITU-R BT.709 YCbCr", BufferColorSpace::kItuRec709, color_encoding_enum_map_); color_encoding_propery_.AddEnumToMap("ITU-R BT.601 YCbCr", BufferColorSpace::kItuRec601, color_encoding_enum_map_); color_encoding_propery_.AddEnumToMap("ITU-R BT.2020 YCbCr", BufferColorSpace::kItuRec2020, color_encoding_enum_map_); } if (GetPlaneProperty("COLOR_RANGE", color_range_property_, Presence::kOptional)) { color_range_property_.AddEnumToMap("YCbCr full range", BufferSampleRange::kFullRange, color_range_enum_map_); color_range_property_.AddEnumToMap("YCbCr limited range", BufferSampleRange::kLimitedRange, color_range_enum_map_); } } return 0; } bool DrmPlane::IsCrtcSupported(const DrmCrtc &crtc) const { auto crtc_prop_optval = crtc_property_.GetValue(); auto crtc_prop_val = crtc_prop_optval ? *crtc_prop_optval : 0; if (crtc_prop_val != 0 && crtc_prop_val != crtc.GetId() && GetType() == DRM_PLANE_TYPE_PRIMARY) { // Some DRM driver such as omap_drm allows sharing primary plane between // CRTCs, but the primary plane could not be shared if it has been used by // any CRTC already, which is protected by the plane_switching_crtc function // in the kernel drivers/gpu/drm/drm_atomic.c file. // The current drm_hwc design is not ready to support such scenario yet, // so adding the CRTC status check here to workaorund for now. return false; } return ((1 << crtc.GetIndexInResArray()) & plane_->possible_crtcs) != 0; } bool DrmPlane::IsValidForLayer(LayerData *layer) { if (layer == nullptr || !layer->bi) { ALOGE("%s: Invalid parameters", __func__); return false; } if (!rotation_property_) { if (layer->pi.transform != LayerTransform::kIdentity) { ALOGV("No rotation property on plane %d", GetId()); return false; } } else { if (transform_enum_map_.count(layer->pi.transform) == 0) { ALOGV("Transform is not supported on plane %d", GetId()); return false; } } if (!alpha_property_ && layer->pi.alpha != UINT16_MAX) { ALOGV("Alpha is not supported on plane %d", GetId()); return false; } if (blending_enum_map_.count(layer->bi->blend_mode) == 0 && layer->bi->blend_mode != BufferBlendMode::kNone && layer->bi->blend_mode != BufferBlendMode::kPreMult) { ALOGV("Blending is not supported on plane %d", GetId()); return false; } auto format = layer->bi->format; if (!IsFormatSupported(format)) { ALOGV("Plane %d does not supports %c%c%c%c format", GetId(), format, format >> 8, format >> 16, format >> 24); return false; } return true; } bool DrmPlane::IsFormatSupported(uint32_t format) const { return std::find(std::begin(formats_), std::end(formats_), format) != std::end(formats_); } bool DrmPlane::HasNonRgbFormat() const { return std::find_if_not(std::begin(formats_), std::end(formats_), [](uint32_t format) { return BufferInfoGetter::IsDrmFormatRgb(format); }) != std::end(formats_); } static uint64_t ToDrmRotation(LayerTransform transform) { uint64_t rotation = 0; /* DRM/KMS uses counter-clockwise rotations, while HWC API uses * clockwise. That's why 90 and 270 are swapped here. */ if ((transform & LayerTransform::kFlipH) != 0) rotation |= DRM_MODE_REFLECT_X; if ((transform & LayerTransform::kFlipV) != 0) rotation |= DRM_MODE_REFLECT_Y; if ((transform & LayerTransform::kRotate90) != 0) rotation |= DRM_MODE_ROTATE_270; else if ((transform & LayerTransform::kRotate180) != 0) rotation |= DRM_MODE_ROTATE_180; else if ((transform & LayerTransform::kRotate270) != 0) rotation |= DRM_MODE_ROTATE_90; else rotation |= DRM_MODE_ROTATE_0; return rotation; } /* Convert float to 16.16 fixed point */ static int To1616FixPt(float in) { constexpr int kBitShift = 16; return int(in * (1 << kBitShift)); } auto DrmPlane::AtomicSetState(drmModeAtomicReq &pset, LayerData &layer, uint32_t zpos, uint32_t crtc_id) -> int { if (!layer.fb || !layer.bi) { ALOGE("%s: Invalid arguments", __func__); return -EINVAL; } if (zpos_property_ && !zpos_property_.IsImmutable()) { uint64_t min_zpos = 0; // Ignore ret and use min_zpos as 0 by default std::tie(std::ignore, min_zpos) = zpos_property_.RangeMin(); if (!zpos_property_.AtomicSet(pset, zpos + min_zpos)) { return -EINVAL; } } if (layer.acquire_fence && !in_fence_fd_property_.AtomicSet(pset, *layer.acquire_fence)) { return -EINVAL; } auto &disp = layer.pi.display_frame; auto &src = layer.pi.source_crop; if (!crtc_property_.AtomicSet(pset, crtc_id) || !fb_property_.AtomicSet(pset, layer.fb->GetFbId()) || !crtc_x_property_.AtomicSet(pset, disp.left) || !crtc_y_property_.AtomicSet(pset, disp.top) || !crtc_w_property_.AtomicSet(pset, disp.right - disp.left) || !crtc_h_property_.AtomicSet(pset, disp.bottom - disp.top) || !src_x_property_.AtomicSet(pset, To1616FixPt(src.left)) || !src_y_property_.AtomicSet(pset, To1616FixPt(src.top)) || !src_w_property_.AtomicSet(pset, To1616FixPt(src.right - src.left)) || !src_h_property_.AtomicSet(pset, To1616FixPt(src.bottom - src.top))) { return -EINVAL; } if (rotation_property_ && !rotation_property_.AtomicSet(pset, ToDrmRotation(layer.pi.transform))) { return -EINVAL; } if (alpha_property_ && !alpha_property_.AtomicSet(pset, layer.pi.alpha)) { return -EINVAL; } if (blending_enum_map_.count(layer.bi->blend_mode) != 0 && !blend_property_.AtomicSet(pset, blending_enum_map_[layer.bi->blend_mode])) { return -EINVAL; } if (color_encoding_enum_map_.count(layer.bi->color_space) != 0 && !color_encoding_propery_ .AtomicSet(pset, color_encoding_enum_map_[layer.bi->color_space])) { return -EINVAL; } if (color_range_enum_map_.count(layer.bi->sample_range) != 0 && !color_range_property_ .AtomicSet(pset, color_range_enum_map_[layer.bi->sample_range])) { return -EINVAL; } return 0; } auto DrmPlane::AtomicDisablePlane(drmModeAtomicReq &pset) -> int { if (!crtc_property_.AtomicSet(pset, 0) || !fb_property_.AtomicSet(pset, 0)) { return -EINVAL; } return 0; } auto DrmPlane::GetPlaneProperty(const char *prop_name, DrmProperty &property, Presence presence) -> bool { auto err = drm_->GetProperty(GetId(), DRM_MODE_OBJECT_PLANE, prop_name, &property); if (err != 0) { if (presence == Presence::kMandatory) { ALOGE("Could not get mandatory property \"%s\" from plane %d", prop_name, GetId()); } else { ALOGV("Could not get optional property \"%s\" from plane %d", prop_name, GetId()); } return false; } return true; } } // namespace android