/* * Copyright (C) 2022 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. */ #include "wifi_ap_iface.h" #include #include "aidl_return_util.h" #include "aidl_struct_util.h" #include "wifi_status_util.h" namespace aidl { namespace android { namespace hardware { namespace wifi { using aidl_return_util::validateAndCall; WifiApIface::WifiApIface(const std::string& ifname, const std::vector& instances, const std::weak_ptr legacy_hal, const std::weak_ptr iface_util) : ifname_(ifname), instances_(instances), legacy_hal_(legacy_hal), iface_util_(iface_util), is_valid_(true) {} void WifiApIface::invalidate() { legacy_hal_.reset(); is_valid_ = false; } bool WifiApIface::isValid() { return is_valid_; } std::string WifiApIface::getName() { return ifname_; } void WifiApIface::removeInstance(std::string instance) { instances_.erase(std::remove(instances_.begin(), instances_.end(), instance), instances_.end()); } ndk::ScopedAStatus WifiApIface::getName(std::string* _aidl_return) { return validateAndCall(this, WifiStatusCode::ERROR_WIFI_IFACE_INVALID, &WifiApIface::getNameInternal, _aidl_return); } ndk::ScopedAStatus WifiApIface::setCountryCode(const std::array& in_code) { return validateAndCall(this, WifiStatusCode::ERROR_WIFI_IFACE_INVALID, &WifiApIface::setCountryCodeInternal, in_code); } ndk::ScopedAStatus WifiApIface::setMacAddress(const std::array& in_mac) { return validateAndCall(this, WifiStatusCode::ERROR_WIFI_IFACE_INVALID, &WifiApIface::setMacAddressInternal, in_mac); } ndk::ScopedAStatus WifiApIface::getFactoryMacAddress(std::array* _aidl_return) { return validateAndCall(this, WifiStatusCode::ERROR_WIFI_IFACE_INVALID, &WifiApIface::getFactoryMacAddressInternal, _aidl_return, instances_.size() > 0 ? instances_[0] : ifname_); } ndk::ScopedAStatus WifiApIface::resetToFactoryMacAddress() { return validateAndCall(this, WifiStatusCode::ERROR_WIFI_IFACE_INVALID, &WifiApIface::resetToFactoryMacAddressInternal); } ndk::ScopedAStatus WifiApIface::getBridgedInstances(std::vector* _aidl_return) { return validateAndCall(this, WifiStatusCode::ERROR_WIFI_IFACE_INVALID, &WifiApIface::getBridgedInstancesInternal, _aidl_return); } std::pair WifiApIface::getNameInternal() { return {ifname_, ndk::ScopedAStatus::ok()}; } ndk::ScopedAStatus WifiApIface::setCountryCodeInternal(const std::array& code) { legacy_hal::wifi_error legacy_status = legacy_hal_.lock()->setCountryCode( instances_.size() > 0 ? instances_[0] : ifname_, code); return createWifiStatusFromLegacyError(legacy_status); } ndk::ScopedAStatus WifiApIface::setMacAddressInternal(const std::array& mac) { // Support random MAC up to 2 interfaces if (instances_.size() == 2) { int rbyte = 1; for (auto const& intf : instances_) { std::array rmac = mac; // reverse the bits to avoid collision rmac[rbyte] = 0xff - rmac[rbyte]; if (!iface_util_.lock()->setMacAddress(intf, rmac)) { LOG(INFO) << "Failed to set random mac address on " << intf; return createWifiStatus(WifiStatusCode::ERROR_UNKNOWN); } rbyte++; } } // It also needs to set mac address for bridged interface, otherwise the mac // address of bridged interface will be changed after one of instance // down. if (!iface_util_.lock()->setMacAddress(ifname_, mac)) { LOG(ERROR) << "Fail to config MAC for interface " << ifname_; return createWifiStatus(WifiStatusCode::ERROR_UNKNOWN); } return ndk::ScopedAStatus::ok(); } std::pair, ndk::ScopedAStatus> WifiApIface::getFactoryMacAddressInternal( const std::string& ifaceName) { std::array mac = iface_util_.lock()->getFactoryMacAddress(ifaceName); if (mac[0] == 0 && mac[1] == 0 && mac[2] == 0 && mac[3] == 0 && mac[4] == 0 && mac[5] == 0) { return {mac, createWifiStatus(WifiStatusCode::ERROR_UNKNOWN)}; } return {mac, ndk::ScopedAStatus::ok()}; } ndk::ScopedAStatus WifiApIface::resetToFactoryMacAddressInternal() { std::pair, ndk::ScopedAStatus> getMacResult; if (instances_.size() == 2) { for (auto const& intf : instances_) { getMacResult = getFactoryMacAddressInternal(intf); LOG(DEBUG) << "Reset MAC to factory MAC on " << intf; if (!getMacResult.second.isOk() || !iface_util_.lock()->setMacAddress(intf, getMacResult.first)) { return createWifiStatus(WifiStatusCode::ERROR_UNKNOWN); } } // We need to set mac address for bridged interface, otherwise the mac // address of the bridged interface will be changed after one of the // instances goes down. Thus we are generating a random MAC address for // the bridged interface even if we got the request to reset the Factory // MAC. This is because the bridged interface is an internal interface // for the operation of bpf and other networking operations. if (!iface_util_.lock()->setMacAddress(ifname_, iface_util_.lock()->createRandomMacAddress())) { LOG(ERROR) << "Fail to config MAC for bridged interface " << ifname_; return createWifiStatus(WifiStatusCode::ERROR_UNKNOWN); } } else { getMacResult = getFactoryMacAddressInternal(ifname_); LOG(DEBUG) << "Reset MAC to factory MAC on " << ifname_; if (!getMacResult.second.isOk() || !iface_util_.lock()->setMacAddress(ifname_, getMacResult.first)) { return createWifiStatus(WifiStatusCode::ERROR_UNKNOWN); } } return ndk::ScopedAStatus::ok(); } std::pair, ndk::ScopedAStatus> WifiApIface::getBridgedInstancesInternal() { return {instances_, ndk::ScopedAStatus::ok()}; } } // namespace wifi } // namespace hardware } // namespace android } // namespace aidl