/****************************************************************************** * * Copyright 2018 NXP * Copyright 2019 ST Microelectronics S.A. * * 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.nfc@1.2-impl" #include #include "Nfc.h" #include "StNfc_hal_api.h" #define CHK_STATUS(x) ((x) == NFCSTATUS_SUCCESS) \ ? (V1_0::NfcStatus::OK) : (V1_0::NfcStatus::FAILED) bool nfc_debug_enabled = true; namespace android { namespace hardware { namespace nfc { namespace V1_2 { namespace implementation { sp Nfc::mCallbackV1_1 = nullptr; sp Nfc::mCallbackV1_0 = nullptr; Return Nfc::open_1_1( const sp& clientCallback) { if (clientCallback == nullptr) { ALOGD_IF(nfc_debug_enabled,"Nfc::open null callback"); return V1_0::NfcStatus::FAILED; } else { mCallbackV1_1 = clientCallback; mCallbackV1_1->linkToDeath(this, 0 /*cookie*/); } return open(clientCallback); } // Methods from ::android::hardware::nfc::V1_0::INfc follow. Return Nfc::open( const sp& clientCallback) { ALOGD_IF(nfc_debug_enabled, "Nfc::open Enter"); if (clientCallback == nullptr) { ALOGD_IF(nfc_debug_enabled, "Nfc::open null callback"); return V1_0::NfcStatus::FAILED; } else { mCallbackV1_0 = clientCallback; mCallbackV1_0->linkToDeath(this, 0 /*cookie*/); } int ret = StNfc_hal_open(eventCallback, dataCallback); ALOGD_IF(nfc_debug_enabled, "Nfc::open Exit"); return ret == 0 ? V1_0::NfcStatus::OK : V1_0::NfcStatus::FAILED; } Return Nfc::write(const hidl_vec& data) { hidl_vec copy = data; return StNfc_hal_write(data.size(), &data[0]); } Return Nfc::coreInitialized(const hidl_vec& data) { hidl_vec copy = data; int ret = StNfc_hal_core_initialized(©[0]); return ret == 0 ? V1_0::NfcStatus::OK : V1_0::NfcStatus::FAILED; } Return Nfc::prediscover() { return StNfc_hal_pre_discover() ? V1_0::NfcStatus::FAILED : V1_0::NfcStatus::OK; } Return Nfc::close() { if (mCallbackV1_1 == nullptr && mCallbackV1_0 == nullptr) { return V1_0::NfcStatus::FAILED; } int ret = StNfc_hal_close(NFC_MODE_OFF); if (mCallbackV1_1 != nullptr) { mCallbackV1_1->unlinkToDeath(this); mCallbackV1_1 = nullptr; } if (mCallbackV1_0 != nullptr) { mCallbackV1_0->unlinkToDeath(this); mCallbackV1_0 = nullptr; } return ret == 0 ? V1_0::NfcStatus::OK : V1_0::NfcStatus::FAILED; } Return Nfc::controlGranted() { return StNfc_hal_control_granted() ? V1_0::NfcStatus::FAILED : V1_0::NfcStatus::OK; } Return Nfc::powerCycle() { return StNfc_hal_power_cycle() ? V1_0::NfcStatus::FAILED : V1_0::NfcStatus::OK; } // Methods from ::android::hardware::nfc::V1_1::INfc follow. Return Nfc::factoryReset() { StNfc_hal_factoryReset(); return Void(); } Return Nfc::closeForPowerOffCase() { if (mCallbackV1_1 == nullptr && mCallbackV1_0 == nullptr) { return V1_0::NfcStatus::FAILED; } int ret = StNfc_hal_closeForPowerOffCase(); if (mCallbackV1_1 != nullptr) { mCallbackV1_1->unlinkToDeath(this); mCallbackV1_1 = nullptr; } if (mCallbackV1_0 != nullptr) { mCallbackV1_0->unlinkToDeath(this); mCallbackV1_0 = nullptr; } return ret == 0 ? V1_0::NfcStatus::OK : V1_0::NfcStatus::FAILED; } Return Nfc::getConfig(getConfig_cb hidl_cb) { android::hardware::nfc::V1_1::NfcConfig nfcVendorConfig; StNfc_hal_getConfig(nfcVendorConfig); hidl_cb(nfcVendorConfig); return Void(); } Return Nfc::getConfig_1_2(getConfig_1_2_cb hidl_cb) { NfcConfig nfcVendorConfig; StNfc_hal_getConfig_1_2(nfcVendorConfig); hidl_cb(nfcVendorConfig); return Void(); } } // namespace implementation } // namespace V1_2 } // namespace nfc } // namespace hardware } // namespace android