wifi/1.0-legacy/wifi.cpp - hardware/lineage/interfaces - Gitiles

 /*
  * 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.
  */

 #include <android-base/logging.h>

 #include "hidl_return_util.h"
 #include "wifi.h"
 #include "wifi_status_util.h"

 namespace {
 // Chip ID to use for the only supported chip.
 static constexpr android::hardware::wifi::V1_0::ChipId kChipId = 0;
 }  // namespace

 namespace android {
 namespace hardware {
 namespace wifi {
 namespace V1_3 {
 namespace implementation {
 using hidl_return_util::validateAndCall;
 using hidl_return_util::validateAndCallWithLock;

 Wifi::Wifi(
     const std::shared_ptr<wifi_system::InterfaceTool> iface_tool,
     const std::shared_ptr<legacy_hal::WifiLegacyHal> legacy_hal,
     const std::shared_ptr<mode_controller::WifiModeController> mode_controller,
     const std::shared_ptr<iface_util::WifiIfaceUtil> iface_util,
     const std::shared_ptr<feature_flags::WifiFeatureFlags> feature_flags)
     : iface_tool_(iface_tool),
       legacy_hal_(legacy_hal),
       mode_controller_(mode_controller),
       iface_util_(iface_util),
       feature_flags_(feature_flags),
       run_state_(RunState::STOPPED) {}

 bool Wifi::isValid() {
     // This object is always valid.
     return true;
 }

 Return<void> Wifi::registerEventCallback(
     const sp<IWifiEventCallback>& event_callback,
     registerEventCallback_cb hidl_status_cb) {
     return validateAndCall(this, WifiStatusCode::ERROR_UNKNOWN,
                            &Wifi::registerEventCallbackInternal, hidl_status_cb,
                            event_callback);
 }

 Return<bool> Wifi::isStarted() { return run_state_ != RunState::STOPPED; }

 Return<void> Wifi::start(start_cb hidl_status_cb) {
     return validateAndCall(this, WifiStatusCode::ERROR_UNKNOWN,
                            &Wifi::startInternal, hidl_status_cb);
 }

 Return<void> Wifi::stop(stop_cb hidl_status_cb) {
     return validateAndCallWithLock(this, WifiStatusCode::ERROR_UNKNOWN,
                                    &Wifi::stopInternal, hidl_status_cb);
 }

 Return<void> Wifi::getChipIds(getChipIds_cb hidl_status_cb) {
     return validateAndCall(this, WifiStatusCode::ERROR_UNKNOWN,
                            &Wifi::getChipIdsInternal, hidl_status_cb);
 }

 Return<void> Wifi::getChip(ChipId chip_id, getChip_cb hidl_status_cb) {
     return validateAndCall(this, WifiStatusCode::ERROR_UNKNOWN,
                            &Wifi::getChipInternal, hidl_status_cb, chip_id);
 }

 Return<void> Wifi::debug(const hidl_handle& handle,
                          const hidl_vec<hidl_string>&) {
     LOG(INFO) << "-----------Debug is called----------------";
     if (!chip_.get()) {
         return Void();
     }
     return chip_->debug(handle, {});
 }

 WifiStatus Wifi::registerEventCallbackInternal(
     const sp<IWifiEventCallback>& event_callback) {
     if (!event_cb_handler_.addCallback(event_callback)) {
         return createWifiStatus(WifiStatusCode::ERROR_UNKNOWN);
     }
     return createWifiStatus(WifiStatusCode::SUCCESS);
 }

 WifiStatus Wifi::startInternal() {
     if (run_state_ == RunState::STARTED) {
         return createWifiStatus(WifiStatusCode::SUCCESS);
     } else if (run_state_ == RunState::STOPPING) {
         return createWifiStatus(WifiStatusCode::ERROR_NOT_AVAILABLE,
                                 "HAL is stopping");
     }
     WifiStatus wifi_status = initializeModeControllerAndLegacyHal();
     if (wifi_status.code == WifiStatusCode::SUCCESS) {
         // Create the chip instance once the HAL is started.
         chip_ = new WifiChip(kChipId, legacy_hal_, mode_controller_,
                              iface_util_, feature_flags_);
         run_state_ = RunState::STARTED;
         for (const auto& callback : event_cb_handler_.getCallbacks()) {
             if (!callback->onStart().isOk()) {
                 LOG(ERROR) << "Failed to invoke onStart callback";
             };
         }
         LOG(INFO) << "Wifi HAL started";
     } else {
         for (const auto& callback : event_cb_handler_.getCallbacks()) {
             if (!callback->onFailure(wifi_status).isOk()) {
                 LOG(ERROR) << "Failed to invoke onFailure callback";
             }
         }
         LOG(ERROR) << "Wifi HAL start failed";
     }
     return wifi_status;
 }

 WifiStatus Wifi::stopInternal(
     /* NONNULL */ std::unique_lock<std::recursive_mutex>* lock) {
     if (run_state_ == RunState::STOPPED) {
         return createWifiStatus(WifiStatusCode::SUCCESS);
     } else if (run_state_ == RunState::STOPPING) {
         return createWifiStatus(WifiStatusCode::ERROR_NOT_AVAILABLE,
                                 "HAL is stopping");
     }
     // Clear the chip object and its child objects since the HAL is now
     // stopped.
     if (chip_.get()) {
         chip_->invalidate();
         chip_.clear();
     }
     WifiStatus wifi_status = stopLegacyHalAndDeinitializeModeController(lock);
     if (wifi_status.code == WifiStatusCode::SUCCESS) {
         for (const auto& callback : event_cb_handler_.getCallbacks()) {
             if (!callback->onStop().isOk()) {
                 LOG(ERROR) << "Failed to invoke onStop callback";
             };
         }
         LOG(INFO) << "Wifi HAL stopped";
     } else {
         for (const auto& callback : event_cb_handler_.getCallbacks()) {
             if (!callback->onFailure(wifi_status).isOk()) {
                 LOG(ERROR) << "Failed to invoke onFailure callback";
             }
         }
         LOG(ERROR) << "Wifi HAL stop failed";
     }
     return wifi_status;
 }

 std::pair<WifiStatus, std::vector<ChipId>> Wifi::getChipIdsInternal() {
     std::vector<ChipId> chip_ids;
     if (chip_.get()) {
         chip_ids.emplace_back(kChipId);
     }
     return {createWifiStatus(WifiStatusCode::SUCCESS), std::move(chip_ids)};
 }

 std::pair<WifiStatus, sp<IWifiChip>> Wifi::getChipInternal(ChipId chip_id) {
     if (!chip_.get()) {
         return {createWifiStatus(WifiStatusCode::ERROR_NOT_STARTED), nullptr};
     }
     if (chip_id != kChipId) {
         return {createWifiStatus(WifiStatusCode::ERROR_INVALID_ARGS), nullptr};
     }
     return {createWifiStatus(WifiStatusCode::SUCCESS), chip_};
 }

 WifiStatus Wifi::initializeModeControllerAndLegacyHal() {
     if (!mode_controller_->initialize()) {
         LOG(ERROR) << "Failed to initialize firmware mode controller";
         return createWifiStatus(WifiStatusCode::ERROR_UNKNOWN);
     }
     legacy_hal::wifi_error legacy_status = legacy_hal_->initialize();
     if (legacy_status != legacy_hal::WIFI_SUCCESS) {
         LOG(ERROR) << "Failed to initialize legacy HAL: "
                    << legacyErrorToString(legacy_status);
         return createWifiStatusFromLegacyError(legacy_status);
     }
     return createWifiStatus(WifiStatusCode::SUCCESS);
 }

 WifiStatus Wifi::stopLegacyHalAndDeinitializeModeController(
     /* NONNULL */ std::unique_lock<std::recursive_mutex>* lock) {
     run_state_ = RunState::STOPPING;
     legacy_hal::wifi_error legacy_status =
         legacy_hal_->stop(lock, [&]() { run_state_ = RunState::STOPPED; });
     if (legacy_status != legacy_hal::WIFI_SUCCESS) {
         LOG(ERROR) << "Failed to stop legacy HAL: "
                    << legacyErrorToString(legacy_status);
         return createWifiStatusFromLegacyError(legacy_status);
     }
     if (!mode_controller_->deinitialize()) {
         LOG(ERROR) << "Failed to deinitialize firmware mode controller";
         return createWifiStatus(WifiStatusCode::ERROR_UNKNOWN);
     }
     return createWifiStatus(WifiStatusCode::SUCCESS);
 }
 }  // namespace implementation
 }  // namespace V1_3
 }  // namespace wifi
 }  // namespace hardware
 }  // namespace android
	/*
	* 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.
	*/

	#include <android-base/logging.h>

	#include "hidl_return_util.h"
	#include "wifi.h"
	#include "wifi_status_util.h"

	namespace {
	// Chip ID to use for the only supported chip.
	static constexpr android::hardware::wifi::V1_0::ChipId kChipId = 0;
	} // namespace

	namespace android {
	namespace hardware {
	namespace wifi {
	namespace V1_3 {
	namespace implementation {
	using hidl_return_util::validateAndCall;
	using hidl_return_util::validateAndCallWithLock;

	Wifi::Wifi(
	const std::shared_ptr<wifi_system::InterfaceTool> iface_tool,
	const std::shared_ptr<legacy_hal::WifiLegacyHal> legacy_hal,
	const std::shared_ptr<mode_controller::WifiModeController> mode_controller,
	const std::shared_ptr<iface_util::WifiIfaceUtil> iface_util,
	const std::shared_ptr<feature_flags::WifiFeatureFlags> feature_flags)
	: iface_tool_(iface_tool),
	legacy_hal_(legacy_hal),
	mode_controller_(mode_controller),
	iface_util_(iface_util),
	feature_flags_(feature_flags),
	run_state_(RunState::STOPPED) {}

	bool Wifi::isValid() {
	// This object is always valid.
	return true;
	}

	Return<void> Wifi::registerEventCallback(
	const sp<IWifiEventCallback>& event_callback,
	registerEventCallback_cb hidl_status_cb) {
	return validateAndCall(this, WifiStatusCode::ERROR_UNKNOWN,
	&Wifi::registerEventCallbackInternal, hidl_status_cb,
	event_callback);
	}

	Return<bool> Wifi::isStarted() { return run_state_ != RunState::STOPPED; }

	Return<void> Wifi::start(start_cb hidl_status_cb) {
	return validateAndCall(this, WifiStatusCode::ERROR_UNKNOWN,
	&Wifi::startInternal, hidl_status_cb);
	}

	Return<void> Wifi::stop(stop_cb hidl_status_cb) {
	return validateAndCallWithLock(this, WifiStatusCode::ERROR_UNKNOWN,
	&Wifi::stopInternal, hidl_status_cb);
	}

	Return<void> Wifi::getChipIds(getChipIds_cb hidl_status_cb) {
	return validateAndCall(this, WifiStatusCode::ERROR_UNKNOWN,
	&Wifi::getChipIdsInternal, hidl_status_cb);
	}

	Return<void> Wifi::getChip(ChipId chip_id, getChip_cb hidl_status_cb) {
	return validateAndCall(this, WifiStatusCode::ERROR_UNKNOWN,
	&Wifi::getChipInternal, hidl_status_cb, chip_id);
	}

	Return<void> Wifi::debug(const hidl_handle& handle,
	const hidl_vec<hidl_string>&) {
	LOG(INFO) << "-----------Debug is called----------------";
	if (!chip_.get()) {
	return Void();
	}
	return chip_->debug(handle, {});
	}

	WifiStatus Wifi::registerEventCallbackInternal(
	const sp<IWifiEventCallback>& event_callback) {
	if (!event_cb_handler_.addCallback(event_callback)) {
	return createWifiStatus(WifiStatusCode::ERROR_UNKNOWN);
	}
	return createWifiStatus(WifiStatusCode::SUCCESS);
	}

	WifiStatus Wifi::startInternal() {
	if (run_state_ == RunState::STARTED) {
	return createWifiStatus(WifiStatusCode::SUCCESS);
	} else if (run_state_ == RunState::STOPPING) {
	return createWifiStatus(WifiStatusCode::ERROR_NOT_AVAILABLE,
	"HAL is stopping");
	}
	WifiStatus wifi_status = initializeModeControllerAndLegacyHal();
	if (wifi_status.code == WifiStatusCode::SUCCESS) {
	// Create the chip instance once the HAL is started.
	chip_ = new WifiChip(kChipId, legacy_hal_, mode_controller_,
	iface_util_, feature_flags_);
	run_state_ = RunState::STARTED;
	for (const auto& callback : event_cb_handler_.getCallbacks()) {
	if (!callback->onStart().isOk()) {
	LOG(ERROR) << "Failed to invoke onStart callback";
	};
	}
	LOG(INFO) << "Wifi HAL started";
	} else {
	for (const auto& callback : event_cb_handler_.getCallbacks()) {
	if (!callback->onFailure(wifi_status).isOk()) {
	LOG(ERROR) << "Failed to invoke onFailure callback";
	}
	}
	LOG(ERROR) << "Wifi HAL start failed";
	}
	return wifi_status;
	}

	WifiStatus Wifi::stopInternal(
	/* NONNULL / std::unique_lock<std::recursive_mutex> lock) {
	if (run_state_ == RunState::STOPPED) {
	return createWifiStatus(WifiStatusCode::SUCCESS);
	} else if (run_state_ == RunState::STOPPING) {
	return createWifiStatus(WifiStatusCode::ERROR_NOT_AVAILABLE,
	"HAL is stopping");
	}
	// Clear the chip object and its child objects since the HAL is now
	// stopped.
	if (chip_.get()) {
	chip_->invalidate();
	chip_.clear();
	}
	WifiStatus wifi_status = stopLegacyHalAndDeinitializeModeController(lock);
	if (wifi_status.code == WifiStatusCode::SUCCESS) {
	for (const auto& callback : event_cb_handler_.getCallbacks()) {
	if (!callback->onStop().isOk()) {
	LOG(ERROR) << "Failed to invoke onStop callback";
	};
	}
	LOG(INFO) << "Wifi HAL stopped";
	} else {
	for (const auto& callback : event_cb_handler_.getCallbacks()) {
	if (!callback->onFailure(wifi_status).isOk()) {
	LOG(ERROR) << "Failed to invoke onFailure callback";
	}
	}
	LOG(ERROR) << "Wifi HAL stop failed";
	}
	return wifi_status;
	}

	std::pair<WifiStatus, std::vector<ChipId>> Wifi::getChipIdsInternal() {
	std::vector<ChipId> chip_ids;
	if (chip_.get()) {
	chip_ids.emplace_back(kChipId);
	}
	return {createWifiStatus(WifiStatusCode::SUCCESS), std::move(chip_ids)};
	}

	std::pair<WifiStatus, sp<IWifiChip>> Wifi::getChipInternal(ChipId chip_id) {
	if (!chip_.get()) {
	return {createWifiStatus(WifiStatusCode::ERROR_NOT_STARTED), nullptr};
	}
	if (chip_id != kChipId) {
	return {createWifiStatus(WifiStatusCode::ERROR_INVALID_ARGS), nullptr};
	}
	return {createWifiStatus(WifiStatusCode::SUCCESS), chip_};
	}

	WifiStatus Wifi::initializeModeControllerAndLegacyHal() {
	if (!mode_controller_->initialize()) {
	LOG(ERROR) << "Failed to initialize firmware mode controller";
	return createWifiStatus(WifiStatusCode::ERROR_UNKNOWN);
	}
	legacy_hal::wifi_error legacy_status = legacy_hal_->initialize();
	if (legacy_status != legacy_hal::WIFI_SUCCESS) {
	LOG(ERROR) << "Failed to initialize legacy HAL: "
	<< legacyErrorToString(legacy_status);
	return createWifiStatusFromLegacyError(legacy_status);
	}
	return createWifiStatus(WifiStatusCode::SUCCESS);
	}

	WifiStatus Wifi::stopLegacyHalAndDeinitializeModeController(
	/* NONNULL / std::unique_lock<std::recursive_mutex> lock) {
	run_state_ = RunState::STOPPING;
	legacy_hal::wifi_error legacy_status =
	legacy_hal_->stop(lock, [&]() { run_state_ = RunState::STOPPED; });
	if (legacy_status != legacy_hal::WIFI_SUCCESS) {
	LOG(ERROR) << "Failed to stop legacy HAL: "
	<< legacyErrorToString(legacy_status);
	return createWifiStatusFromLegacyError(legacy_status);
	}
	if (!mode_controller_->deinitialize()) {
	LOG(ERROR) << "Failed to deinitialize firmware mode controller";
	return createWifiStatus(WifiStatusCode::ERROR_UNKNOWN);
	}
	return createWifiStatus(WifiStatusCode::SUCCESS);
	}
	} // namespace implementation
	} // namespace V1_3
	} // namespace wifi
	} // namespace hardware
	} // namespace android