v811_spc009/hardware/interfaces/automotive/evs/1.1/default/EvsDisplay.cpp

/*
 * Copyright (C) 2019 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 "android.hardware.automotive.evs@1.1-service"

#include "EvsDisplay.h"

#include <ui/GraphicBufferAllocator.h>
#include <ui/GraphicBufferMapper.h>

using ::android::frameworks::automotive::display::V1_0::HwDisplayConfig;
using ::android::frameworks::automotive::display::V1_0::HwDisplayState;

namespace android {
namespace hardware {
namespace automotive {
namespace evs {
namespace V1_1 {
namespace implementation {


EvsDisplay::EvsDisplay() {
    EvsDisplay(nullptr, 0);
}


EvsDisplay::EvsDisplay(sp<IAutomotiveDisplayProxyService> pDisplayProxy, uint64_t displayId)
    : mDisplayProxy(pDisplayProxy),
      mDisplayId(displayId) {
    ALOGD("EvsDisplay instantiated");

    // Set up our self description
    // NOTE:  These are arbitrary values chosen for testing
    mInfo.displayId             = "Mock Display";
    mInfo.vendorFlags           = 3870;

    // Assemble the buffer description we'll use for our render target
    mBuffer.width       = 320;
    mBuffer.height      = 240;
    mBuffer.format      = HAL_PIXEL_FORMAT_RGBA_8888;
    mBuffer.usage       = GRALLOC_USAGE_HW_RENDER | GRALLOC_USAGE_HW_COMPOSER;
    mBuffer.bufferId    = 0x3870;  // Arbitrary magic number for self recognition
    mBuffer.pixelSize   = 4;
}


EvsDisplay::~EvsDisplay() {
    ALOGD("EvsDisplay being destroyed");
    forceShutdown();
}


/**
 * This gets called if another caller "steals" ownership of the display
 */
void EvsDisplay::forceShutdown()
{
    ALOGD("EvsDisplay forceShutdown");
    std::lock_guard<std::mutex> lock(mAccessLock);

    // If the buffer isn't being held by a remote client, release it now as an
    // optimization to release the resources more quickly than the destructor might
    // get called.
    if (mBuffer.memHandle) {
        // Report if we're going away while a buffer is outstanding
        if (mFrameBusy) {
            ALOGE("EvsDisplay going down while client is holding a buffer");
        }

        // Drop the graphics buffer we've been using
        GraphicBufferAllocator& alloc(GraphicBufferAllocator::get());
        alloc.free(mBuffer.memHandle);
        mBuffer.memHandle = nullptr;
    }

    // Put this object into an unrecoverable error state since somebody else
    // is going to own the display now.
    mRequestedState = DisplayState::DEAD;
}


/**
 * Returns basic information about the EVS display provided by the system.
 * See the description of the DisplayDesc structure for details.
 */
Return<void> EvsDisplay::getDisplayInfo(getDisplayInfo_cb _hidl_cb)  {
    ALOGD("getDisplayInfo");

    // Send back our self description
    _hidl_cb(mInfo);
    return Void();
}


/**
 * Clients may set the display state to express their desired state.
 * The HAL implementation must gracefully accept a request for any state
 * while in any other state, although the response may be to ignore the request.
 * The display is defined to start in the NOT_VISIBLE state upon initialization.
 * The client is then expected to request the VISIBLE_ON_NEXT_FRAME state, and
 * then begin providing video.  When the display is no longer required, the client
 * is expected to request the NOT_VISIBLE state after passing the last video frame.
 */
Return<EvsResult> EvsDisplay::setDisplayState(DisplayState state) {
    ALOGD("setDisplayState");
    std::lock_guard<std::mutex> lock(mAccessLock);

    if (mRequestedState == DisplayState::DEAD) {
        // This object no longer owns the display -- it's been superceeded!
        return EvsResult::OWNERSHIP_LOST;
    }

    // Ensure we recognize the requested state so we don't go off the rails
    if (state < DisplayState::NUM_STATES) {
        // Record the requested state
        mRequestedState = state;
        return EvsResult::OK;
    }
    else {
        // Turn off the display if asked for an unrecognized state
        mRequestedState = DisplayState::NOT_VISIBLE;
        return EvsResult::INVALID_ARG;
    }
}


/**
 * The HAL implementation should report the actual current state, which might
 * transiently differ from the most recently requested state.  Note, however, that
 * the logic responsible for changing display states should generally live above
 * the device layer, making it undesirable for the HAL implementation to
 * spontaneously change display states.
 */
Return<DisplayState> EvsDisplay::getDisplayState()  {
    ALOGD("getDisplayState");
    std::lock_guard<std::mutex> lock(mAccessLock);

    return mRequestedState;
}


/**
 * This call returns a handle to a frame buffer associated with the display.
 * This buffer may be locked and written to by software and/or GL.  This buffer
 * must be returned via a call to returnTargetBufferForDisplay() even if the
 * display is no longer visible.
 */
// TODO: We need to know if/when our client dies so we can get the buffer back! (blocked b/31632518)
Return<void> EvsDisplay::getTargetBuffer(getTargetBuffer_cb _hidl_cb)  {
    ALOGD("getTargetBuffer");
    std::lock_guard<std::mutex> lock(mAccessLock);

    if (mRequestedState == DisplayState::DEAD) {
        ALOGE("Rejecting buffer request from object that lost ownership of the display.");
        BufferDesc_1_0 nullBuff = {};
        _hidl_cb(nullBuff);
        return Void();
    }

    // If we don't already have a buffer, allocate one now
    if (!mBuffer.memHandle) {
        // Allocate the buffer that will hold our displayable image
        buffer_handle_t handle = nullptr;
        GraphicBufferAllocator& alloc(GraphicBufferAllocator::get());
        status_t result = alloc.allocate(
            mBuffer.width, mBuffer.height, mBuffer.format, 1, mBuffer.usage,
            &handle, &mBuffer.stride, 0, "EvsDisplay");
        if (result != NO_ERROR) {
            ALOGE("Error %d allocating %d x %d graphics buffer",
                  result, mBuffer.width, mBuffer.height);
            BufferDesc_1_0 nullBuff = {};
            _hidl_cb(nullBuff);
            return Void();
        }
        if (!handle) {
            ALOGE("We didn't get a buffer handle back from the allocator");
            BufferDesc_1_0 nullBuff = {};
            _hidl_cb(nullBuff);
            return Void();
        }

        mBuffer.memHandle = handle;
        mFrameBusy = false;
        ALOGD("Allocated new buffer %p with stride %u",
              mBuffer.memHandle.getNativeHandle(), mBuffer.stride);
    }

    // Do we have a frame available?
    if (mFrameBusy) {
        // This means either we have a 2nd client trying to compete for buffers
        // (an unsupported mode of operation) or else the client hasn't returned
        // a previously issued buffer yet (they're behaving badly).
        // NOTE:  We have to make the callback even if we have nothing to provide
        ALOGE("getTargetBuffer called while no buffers available.");
        BufferDesc_1_0 nullBuff = {};
        _hidl_cb(nullBuff);
        return Void();
    } else {
        // Mark our buffer as busy
        mFrameBusy = true;

        // Send the buffer to the client
        ALOGD("Providing display buffer handle %p as id %d",
              mBuffer.memHandle.getNativeHandle(), mBuffer.bufferId);
        _hidl_cb(mBuffer);
        return Void();
    }
}


/**
 * This call tells the display that the buffer is ready for display.
 * The buffer is no longer valid for use by the client after this call.
 */
Return<EvsResult> EvsDisplay::returnTargetBufferForDisplayImpl(const uint32_t bufferId, const buffer_handle_t memHandle) {
    ALOGD("returnTargetBufferForDisplay %p", memHandle);
    std::lock_guard<std::mutex> lock(mAccessLock);

    // Nobody should call us with a null handle
    if (!memHandle) {
        ALOGE ("returnTargetBufferForDisplay called without a valid buffer handle.\n");
        return EvsResult::INVALID_ARG;
    }
    if (bufferId != mBuffer.bufferId) {
        ALOGE ("Got an unrecognized frame returned.\n");
        return EvsResult::INVALID_ARG;
    }
    if (!mFrameBusy) {
        ALOGE ("A frame was returned with no outstanding frames.\n");
        return EvsResult::BUFFER_NOT_AVAILABLE;
    }

    mFrameBusy = false;

    // If we've been displaced by another owner of the display, then we can't do anything else
    if (mRequestedState == DisplayState::DEAD) {
        return EvsResult::OWNERSHIP_LOST;
    }

    // If we were waiting for a new frame, this is it!
    if (mRequestedState == DisplayState::VISIBLE_ON_NEXT_FRAME) {
        mRequestedState = DisplayState::VISIBLE;
    }

    // Validate we're in an expected state
    if (mRequestedState != DisplayState::VISIBLE) {
        // We shouldn't get frames back when we're not visible.
        ALOGE ("Got an unexpected frame returned while not visible - ignoring.\n");
    } else {
        // This is where the buffer would be made visible.
        // For now we simply validate it has the data we expect in it by reading it back

        // Lock our display buffer for reading
        uint32_t* pixels = nullptr;
        GraphicBufferMapper &mapper = GraphicBufferMapper::get();
        mapper.lock(mBuffer.memHandle,
                    GRALLOC_USAGE_SW_READ_OFTEN | GRALLOC_USAGE_SW_WRITE_NEVER,
                    android::Rect(mBuffer.width, mBuffer.height),
                    (void **)&pixels);

        // If we failed to lock the pixel buffer, we're about to crash, but log it first
        if (!pixels) {
            ALOGE("Display failed to gain access to image buffer for reading");
        }

        // Check the test pixels
        bool frameLooksGood = true;
        for (unsigned row = 0; row < mBuffer.height; row++) {
            for (unsigned col = 0; col < mBuffer.width; col++) {
                // Index into the row to check the pixel at this column.
                // We expect 0xFF in the LSB channel, a vertical gradient in the
                // second channel, a horitzontal gradient in the third channel, and
                // 0xFF in the MSB.
                // The exception is the very first 32 bits which is used for the
                // time varying frame signature to avoid getting fooled by a static image.
                uint32_t expectedPixel = 0xFF0000FF           | // MSB and LSB
                                         ((row & 0xFF) <<  8) | // vertical gradient
                                         ((col & 0xFF) << 16);  // horizontal gradient
                if ((row | col) == 0) {
                    // we'll check the "uniqueness" of the frame signature below
                    continue;
                }
                // Walk across this row (we'll step rows below)
                uint32_t receivedPixel = pixels[col];
                if (receivedPixel != expectedPixel) {
                    ALOGE("Pixel check mismatch in frame buffer");
                    frameLooksGood = false;
                    break;
                }
            }

            if (!frameLooksGood) {
                break;
            }

            // Point to the next row (NOTE:  gralloc reports stride in units of pixels)
            pixels = pixels + mBuffer.stride;
        }

        // Ensure we don't see the same buffer twice without it being rewritten
        static uint32_t prevSignature = ~0;
        uint32_t signature = pixels[0] & 0xFF;
        if (prevSignature == signature) {
            frameLooksGood = false;
            ALOGE("Duplicate, likely stale frame buffer detected");
        }


        // Release our output buffer
        mapper.unlock(mBuffer.memHandle);

        if (!frameLooksGood) {
            return EvsResult::UNDERLYING_SERVICE_ERROR;
        }
    }

    return EvsResult::OK;
}


Return<EvsResult> EvsDisplay::returnTargetBufferForDisplay(const BufferDesc_1_0& buffer)  {
    return returnTargetBufferForDisplayImpl(buffer.bufferId, buffer.memHandle);
}


Return<void> EvsDisplay::getDisplayInfo_1_1(getDisplayInfo_1_1_cb _info_cb) {
    if (mDisplayProxy != nullptr) {
        return mDisplayProxy->getDisplayInfo(mDisplayId, _info_cb);
    } else {
        HwDisplayConfig nullConfig;
        HwDisplayState  nullState;
        _info_cb(nullConfig, nullState);
        return Void();
    }
}


} // namespace implementation
} // namespace V1_1
} // namespace evs
} // namespace automotive
} // namespace hardware
} // namespace android