/* * Copyright (C) 2016 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.tv.input@1.0-service" #include #include "TvInput.h" namespace android { namespace hardware { namespace tv { namespace input { namespace V1_0 { namespace implementation { static_assert(TV_INPUT_TYPE_OTHER_HARDWARE == static_cast(TvInputType::OTHER), "TvInputType::OTHER must match legacy value."); static_assert(TV_INPUT_TYPE_TUNER == static_cast(TvInputType::TUNER), "TvInputType::TUNER must match legacy value."); static_assert(TV_INPUT_TYPE_COMPOSITE == static_cast(TvInputType::COMPOSITE), "TvInputType::COMPOSITE must match legacy value."); static_assert(TV_INPUT_TYPE_SVIDEO == static_cast(TvInputType::SVIDEO), "TvInputType::SVIDEO must match legacy value."); static_assert(TV_INPUT_TYPE_SCART == static_cast(TvInputType::SCART), "TvInputType::SCART must match legacy value."); static_assert(TV_INPUT_TYPE_COMPONENT == static_cast(TvInputType::COMPONENT), "TvInputType::COMPONENT must match legacy value."); static_assert(TV_INPUT_TYPE_VGA == static_cast(TvInputType::VGA), "TvInputType::VGA must match legacy value."); static_assert(TV_INPUT_TYPE_DVI == static_cast(TvInputType::DVI), "TvInputType::DVI must match legacy value."); static_assert(TV_INPUT_TYPE_HDMI == static_cast(TvInputType::HDMI), "TvInputType::HDMI must match legacy value."); static_assert(TV_INPUT_TYPE_DISPLAY_PORT == static_cast(TvInputType::DISPLAY_PORT), "TvInputType::DISPLAY_PORT must match legacy value."); static_assert(TV_INPUT_EVENT_DEVICE_AVAILABLE == static_cast( TvInputEventType::DEVICE_AVAILABLE), "TvInputEventType::DEVICE_AVAILABLE must match legacy value."); static_assert(TV_INPUT_EVENT_DEVICE_UNAVAILABLE == static_cast( TvInputEventType::DEVICE_UNAVAILABLE), "TvInputEventType::DEVICE_UNAVAILABLE must match legacy value."); static_assert(TV_INPUT_EVENT_STREAM_CONFIGURATIONS_CHANGED == static_cast( TvInputEventType::STREAM_CONFIGURATIONS_CHANGED), "TvInputEventType::STREAM_CONFIGURATIONS_CHANGED must match legacy value."); sp TvInput::mCallback = nullptr; TvInput::TvInput(tv_input_device_t* device) : mDevice(device) { mCallbackOps.notify = &TvInput::notify; } TvInput::~TvInput() { if (mDevice != nullptr) { free(mDevice); } } // Methods from ::android::hardware::tv_input::V1_0::ITvInput follow. Return TvInput::setCallback(const sp& callback) { mCallback = callback; if (mCallback != nullptr) { mDevice->initialize(mDevice, &mCallbackOps, nullptr); } return Void(); } Return TvInput::getStreamConfigurations(int32_t deviceId, getStreamConfigurations_cb cb) { int32_t configCount = 0; const tv_stream_config_t* configs = nullptr; int ret = mDevice->get_stream_configurations(mDevice, deviceId, &configCount, &configs); Result res = Result::UNKNOWN; hidl_vec tvStreamConfigs; if (ret == 0) { res = Result::OK; tvStreamConfigs.resize(getSupportedConfigCount(configCount, configs)); int32_t pos = 0; for (int32_t i = 0; i < configCount; ++i) { if (isSupportedStreamType(configs[i].type)) { tvStreamConfigs[pos].streamId = configs[i].stream_id; tvStreamConfigs[pos].maxVideoWidth = configs[i].max_video_width; tvStreamConfigs[pos].maxVideoHeight = configs[i].max_video_height; ++pos; } } } else if (ret == -EINVAL) { res = Result::INVALID_ARGUMENTS; } cb(res, tvStreamConfigs); return Void(); } Return TvInput::openStream(int32_t deviceId, int32_t streamId, openStream_cb cb) { tv_stream_t stream; stream.stream_id = streamId; int ret = mDevice->open_stream(mDevice, deviceId, &stream); Result res = Result::UNKNOWN; native_handle_t* sidebandStream = nullptr; if (ret == 0) { if (isSupportedStreamType(stream.type)) { res = Result::OK; sidebandStream = stream.sideband_stream_source_handle; } } else { if (ret == -EBUSY) { res = Result::NO_RESOURCE; } else if (ret == -EEXIST) { res = Result::INVALID_STATE; } else if (ret == -EINVAL) { res = Result::INVALID_ARGUMENTS; } } cb(res, sidebandStream); return Void(); } Return TvInput::closeStream(int32_t deviceId, int32_t streamId) { int ret = mDevice->close_stream(mDevice, deviceId, streamId); Result res = Result::UNKNOWN; if (ret == 0) { res = Result::OK; } else if (ret == -ENOENT) { res = Result::INVALID_STATE; } else if (ret == -EINVAL) { res = Result::INVALID_ARGUMENTS; } return res; } // static void TvInput::notify(struct tv_input_device* __unused, tv_input_event_t* event, void* __unused) { if (mCallback != nullptr && event != nullptr) { // Capturing is no longer supported. if (event->type >= TV_INPUT_EVENT_CAPTURE_SUCCEEDED) { return; } TvInputEvent tvInputEvent; tvInputEvent.type = static_cast(event->type); tvInputEvent.deviceInfo.deviceId = event->device_info.device_id; tvInputEvent.deviceInfo.type = static_cast( event->device_info.type); tvInputEvent.deviceInfo.portId = event->device_info.hdmi.port_id; tvInputEvent.deviceInfo.cableConnectionStatus = CableConnectionStatus::UNKNOWN; // TODO: Ensure the legacy audio type code is the same once audio HAL default // implementation is ready. tvInputEvent.deviceInfo.audioType = static_cast( event->device_info.audio_type); memset(tvInputEvent.deviceInfo.audioAddress.data(), 0, tvInputEvent.deviceInfo.audioAddress.size()); const char* address = event->device_info.audio_address; if (address != nullptr) { size_t size = strlen(address); if (size > tvInputEvent.deviceInfo.audioAddress.size()) { LOG(ERROR) << "Audio address is too long. Address:" << address << ""; return; } for (size_t i = 0; i < size; ++i) { tvInputEvent.deviceInfo.audioAddress[i] = static_cast(event->device_info.audio_address[i]); } } mCallback->notify(tvInputEvent); } } // static uint32_t TvInput::getSupportedConfigCount(uint32_t configCount, const tv_stream_config_t* configs) { uint32_t supportedConfigCount = 0; for (uint32_t i = 0; i < configCount; ++i) { if (isSupportedStreamType(configs[i].type)) { supportedConfigCount++; } } return supportedConfigCount; } // static bool TvInput::isSupportedStreamType(int type) { // Buffer producer type is no longer supported. return type != TV_STREAM_TYPE_BUFFER_PRODUCER; } ITvInput* HIDL_FETCH_ITvInput(const char* /* name */) { int ret = 0; const hw_module_t* hw_module = nullptr; tv_input_device_t* input_device; ret = hw_get_module(TV_INPUT_HARDWARE_MODULE_ID, &hw_module); if (ret == 0 && hw_module->methods->open != nullptr) { ret = hw_module->methods->open(hw_module, TV_INPUT_DEFAULT_DEVICE, reinterpret_cast(&input_device)); if (ret == 0) { return new TvInput(input_device); } else { LOG(ERROR) << "Passthrough failed to load legacy HAL."; return nullptr; } } else { LOG(ERROR) << "hw_get_module " << TV_INPUT_HARDWARE_MODULE_ID << " failed: " << ret; return nullptr; } } } // namespace implementation } // namespace V1_0 } // namespace input } // namespace tv } // namespace hardware } // namespace android