status_t Camera3Stream::prepareNextBuffer() {
    ATRACE_CALL();

    Mutex::Autolock l(mLock);
    status_t res = OK;

    // This function should be only called when the stream is preparing
    if (mState != STATE_PREPARING) {
        ALOGE("%s: Stream %d: Can't prepare buffer if stream is not in PREPARING "
                "state %d", __FUNCTION__, mId, mState);
        return INVALID_OPERATION;
    }

    // Get next buffer - this may allocate, and take a while for large buffers
    res = getBufferLocked( &mPreparedBuffers.editItemAt(mPreparedBufferIdx) );
    if (res != OK) {
        ALOGE("%s: Stream %d: Unable to allocate buffer %zu during preparation",
                __FUNCTION__, mId, mPreparedBufferIdx);
        return NO_INIT;
    }

    mPreparedBufferIdx++;

    // Check if we still have buffers left to allocate
    if (mPreparedBufferIdx < mPreparedBuffers.size()) {
        return NOT_ENOUGH_DATA;
    }

    // Done with prepare - mark stream as such, and return all buffers
    // via cancelPrepare
    mPrepared = true;

    return cancelPrepareLocked();
}
Exemplo n.º 2
0
status_t Camera3Stream::registerBuffersLocked(camera3_device *hal3Device) {
    ATRACE_CALL();
    status_t res;

    size_t bufferCount = getBufferCountLocked();

    Vector<buffer_handle_t*> buffers;
    buffers.insertAt(NULL, 0, bufferCount);

    camera3_stream_buffer_set bufferSet = camera3_stream_buffer_set();
    bufferSet.stream = this;
    bufferSet.num_buffers = bufferCount;
    bufferSet.buffers = buffers.editArray();

    Vector<camera3_stream_buffer_t> streamBuffers;
    streamBuffers.insertAt(camera3_stream_buffer_t(), 0, bufferCount);

    // Register all buffers with the HAL. This means getting all the buffers
    // from the stream, providing them to the HAL with the
    // register_stream_buffers() method, and then returning them back to the
    // stream in the error state, since they won't have valid data.
    //
    // Only registered buffers can be sent to the HAL.

    uint32_t bufferIdx = 0;
    for (; bufferIdx < bufferCount; bufferIdx++) {
        res = getBufferLocked( &streamBuffers.editItemAt(bufferIdx) );
        if (res != OK) {
            ALOGE("%s: Unable to get buffer %d for registration with HAL",
                    __FUNCTION__, bufferIdx);
            // Skip registering, go straight to cleanup
            break;
        }

        sp<Fence> fence = new Fence(streamBuffers[bufferIdx].acquire_fence);
        fence->waitForever("Camera3Stream::registerBuffers");

        buffers.editItemAt(bufferIdx) = streamBuffers[bufferIdx].buffer;
    }
    if (bufferIdx == bufferCount) {
        // Got all buffers, register with HAL
        ALOGV("%s: Registering %zu buffers with camera HAL",
                __FUNCTION__, bufferCount);
        ATRACE_BEGIN("camera3->register_stream_buffers");
        res = hal3Device->ops->register_stream_buffers(hal3Device,
                &bufferSet);
        ATRACE_END();
    }

    // Return all valid buffers to stream, in ERROR state to indicate
    // they weren't filled.
    for (size_t i = 0; i < bufferIdx; i++) {
        streamBuffers.editItemAt(i).release_fence = -1;
        streamBuffers.editItemAt(i).status = CAMERA3_BUFFER_STATUS_ERROR;
        returnBufferLocked(streamBuffers[i], 0);
    }

    return res;
}
Exemplo n.º 3
0
status_t Camera3Stream::getBuffer(camera3_stream_buffer *buffer) {
    ATRACE_CALL();
    Mutex::Autolock l(mLock);

    status_t res = getBufferLocked(buffer);
    if (res == OK) {
        fireBufferListenersLocked(*buffer, /*acquired*/true, /*output*/true);
    }

    return res;
}
status_t Camera3Stream::getBuffer(camera3_stream_buffer *buffer) {
    ATRACE_CALL();
    Mutex::Autolock l(mLock);
    status_t res = OK;

    // This function should be only called when the stream is configured already.
    if (mState != STATE_CONFIGURED) {
        ALOGE("%s: Stream %d: Can't get buffers if stream is not in CONFIGURED state %d",
                __FUNCTION__, mId, mState);
        return INVALID_OPERATION;
    }

    // Wait for new buffer returned back if we are running into the limit.
    if (getHandoutOutputBufferCountLocked() == camera3_stream::max_buffers) {
        ALOGV("%s: Already dequeued max output buffers (%d), wait for next returned one.",
                __FUNCTION__, camera3_stream::max_buffers);
        res = mOutputBufferReturnedSignal.waitRelative(mLock, kWaitForBufferDuration);
        if (res != OK) {
            if (res == TIMED_OUT) {
                ALOGE("%s: wait for output buffer return timed out after %lldms (max_buffers %d)",
                        __FUNCTION__, kWaitForBufferDuration / 1000000LL,
                        camera3_stream::max_buffers);
            }
            return res;
        }
    }

    res = getBufferLocked(buffer);
    if (res == OK) {
        fireBufferListenersLocked(*buffer, /*acquired*/true, /*output*/true);
        if (buffer->buffer) {
            mOutstandingBuffers.push_back(*buffer->buffer);
        }
    }

    return res;
}
status_t Camera3Stream::registerBuffersLocked(camera3_device *hal3Device) {
    ATRACE_CALL();

    /**
     * >= CAMERA_DEVICE_API_VERSION_3_2:
     *
     * camera3_device_t->ops->register_stream_buffers() is not called and must
     * be NULL.
     */
    if (hal3Device->common.version >= CAMERA_DEVICE_API_VERSION_3_2) {
        ALOGV("%s: register_stream_buffers unused as of HAL3.2", __FUNCTION__);

        if (hal3Device->ops->register_stream_buffers != NULL) {
            ALOGE("%s: register_stream_buffers is deprecated in HAL3.2; "
                    "must be set to NULL in camera3_device::ops", __FUNCTION__);
            return INVALID_OPERATION;
        }

        return OK;
    }

    ALOGV("%s: register_stream_buffers using deprecated code path", __FUNCTION__);

    status_t res;

    size_t bufferCount = getBufferCountLocked();

    Vector<buffer_handle_t*> buffers;
    buffers.insertAt(/*prototype_item*/NULL, /*index*/0, bufferCount);

    camera3_stream_buffer_set bufferSet = camera3_stream_buffer_set();
    bufferSet.stream = this;
    bufferSet.num_buffers = bufferCount;
    bufferSet.buffers = buffers.editArray();

    Vector<camera3_stream_buffer_t> streamBuffers;
    streamBuffers.insertAt(camera3_stream_buffer_t(), /*index*/0, bufferCount);

    // Register all buffers with the HAL. This means getting all the buffers
    // from the stream, providing them to the HAL with the
    // register_stream_buffers() method, and then returning them back to the
    // stream in the error state, since they won't have valid data.
    //
    // Only registered buffers can be sent to the HAL.

    uint32_t bufferIdx = 0;
    for (; bufferIdx < bufferCount; bufferIdx++) {
        res = getBufferLocked( &streamBuffers.editItemAt(bufferIdx) );
        if (res != OK) {
            ALOGE("%s: Unable to get buffer %d for registration with HAL",
                    __FUNCTION__, bufferIdx);
            // Skip registering, go straight to cleanup
            break;
        }

        sp<Fence> fence = new Fence(streamBuffers[bufferIdx].acquire_fence);
        fence->waitForever("Camera3Stream::registerBuffers");

        buffers.editItemAt(bufferIdx) = streamBuffers[bufferIdx].buffer;
    }
    if (bufferIdx == bufferCount) {
        // Got all buffers, register with HAL
        ALOGV("%s: Registering %zu buffers with camera HAL",
                __FUNCTION__, bufferCount);
        ATRACE_BEGIN("camera3->register_stream_buffers");
        res = hal3Device->ops->register_stream_buffers(hal3Device,
                &bufferSet);
        ATRACE_END();
    }

    // Return all valid buffers to stream, in ERROR state to indicate
    // they weren't filled.
    for (size_t i = 0; i < bufferIdx; i++) {
        streamBuffers.editItemAt(i).release_fence = -1;
        streamBuffers.editItemAt(i).status = CAMERA3_BUFFER_STATUS_ERROR;
        returnBufferLocked(streamBuffers[i], 0);
    }

    mPrepared = true;

    return res;
}