wpa_supplicant/aidl/supplicant.cpp - LeafOS-Project/android_external_wpa_supplicant_8 - Gitiles

 /*
  * WPA Supplicant - Supplicant Aidl interface
  * Copyright (c) 2021, Google Inc. All rights reserved.
  *
  * This software may be distributed under the terms of the BSD license.
  * See README for more details.
  */

 #include "aidl_manager.h"
 #include "aidl_return_util.h"
 #include "misc_utils.h"
 #include "supplicant.h"
 #include "p2p_iface.h"

 #include <android-base/file.h>
 #include <fcntl.h>
 #include <sys/stat.h>

 namespace {

 // Pre-populated interface params for interfaces controlled by wpa_supplicant.
 // Note: This may differ for other OEM's. So, modify this accordingly.
 // When wpa_supplicant is in its APEX, overlay/template configurations should be
 // loaded from the same APEX.
 constexpr char kIfaceDriverName[] = "nl80211";

 constexpr char kStaIfaceConfPath[] =
 	"/data/vendor/wifi/wpa/wpa_supplicant.conf";
 constexpr char kStaIfaceConfOverlayPath[] =
     "/etc/wifi/wpa_supplicant_overlay.conf";

 constexpr char kP2pIfaceConfPath[] =
 	"/data/vendor/wifi/wpa/p2p_supplicant.conf";
 constexpr char kP2pIfaceConfOverlayPath[] =
     "/etc/wifi/p2p_supplicant_overlay.conf";

 // Migrate conf files for existing devices.
 constexpr char kSystemTemplateConfPath[] =
     "/system/etc/wifi/wpa_supplicant.conf";
 constexpr char kVendorTemplateConfPath[] =
     "/etc/wifi/wpa_supplicant.conf";

 constexpr char kOldStaIfaceConfPath[] = "/data/misc/wifi/wpa_supplicant.conf";
 constexpr char kOldP2pIfaceConfPath[] = "/data/misc/wifi/p2p_supplicant.conf";
 constexpr mode_t kConfigFileMode = S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP;

 std::string resolveVendorConfPath(const std::string& conf_path)
 {
 #if defined(__ANDROID_APEX__)
 	// returns "/apex/<apexname>" + conf_path
 	std::string path = android::base::GetExecutablePath();
 	return path.substr(0, path.find_first_of('/', strlen("/apex/"))) + conf_path;
 #else
 	return std::string("/vendor") + conf_path;
 #endif
 }

 int copyFile(
 	const std::string& src_file_path, const std::string& dest_file_path)
 {
 	std::string file_contents;
 	if (!android::base::ReadFileToString(src_file_path, &file_contents)) {
 		wpa_printf(
 			MSG_ERROR, "Failed to read from %s. Errno: %s",
 			src_file_path.c_str(), strerror(errno));
 		return -1;
 	}
 	if (!android::base::WriteStringToFile(
 		file_contents, dest_file_path, kConfigFileMode, getuid(),
 		getgid())) {
 		wpa_printf(
 			MSG_ERROR, "Failed to write to %s. Errno: %s",
 			dest_file_path.c_str(), strerror(errno));
 		return -1;
 	}
 	return 0;
 }

 /**
  * Copy |src_file_path| to |dest_file_path| if it exists.
  *
  * Returns 1 if |src_file_path| does not exist or not accessible,
  * Returns -1 if the copy fails.
  * Returns 0 if the copy succeeds.
  */
 int copyFileIfItExists(
 	const std::string& src_file_path, const std::string& dest_file_path)
 {
 	int ret = access(src_file_path.c_str(), R_OK);
 	// Sepolicy denial (2018+ device) will return EACCESS instead of ENOENT.
 	if ((ret != 0) && ((errno == ENOENT) || (errno == EACCES))) {
 		return 1;
 	}
 	ret = copyFile(src_file_path, dest_file_path);
 	if (ret != 0) {
 		wpa_printf(
 			MSG_ERROR, "Failed copying %s to %s.",
 			src_file_path.c_str(), dest_file_path.c_str());
 		return -1;
 	}
 	return 0;
 }

 /**
  * Ensure that the specified config file pointed by |config_file_path| exists.
  * a) If the |config_file_path| exists with the correct permissions, return.
  * b) If the |config_file_path| does not exist, but |old_config_file_path|
  * exists, copy over the contents of the |old_config_file_path| to
  * |config_file_path|.
  * c) If the |config_file_path| & |old_config_file_path|
  * does not exists, copy over the contents of |template_config_file_path|.
  */
 int ensureConfigFileExists(
 	const std::string& config_file_path,
 	const std::string& old_config_file_path)
 {
 	int ret = access(config_file_path.c_str(), R_OK | W_OK);
 	if (ret == 0) {
 		return 0;
 	}
 	if (errno == EACCES) {
 		ret = chmod(config_file_path.c_str(), kConfigFileMode);
 		if (ret == 0) {
 			return 0;
 		} else {
 			wpa_printf(
 				MSG_ERROR, "Cannot set RW to %s. Errno: %s",
 				config_file_path.c_str(), strerror(errno));
 			return -1;
 		}
 	} else if (errno != ENOENT) {
 		wpa_printf(
 			MSG_ERROR, "Cannot acces %s. Errno: %s",
 			config_file_path.c_str(), strerror(errno));
 		return -1;
 	}
 	ret = copyFileIfItExists(old_config_file_path, config_file_path);
 	if (ret == 0) {
 		wpa_printf(
 			MSG_INFO, "Migrated conf file from %s to %s",
 			old_config_file_path.c_str(), config_file_path.c_str());
 		unlink(old_config_file_path.c_str());
 		return 0;
 	} else if (ret == -1) {
 		unlink(config_file_path.c_str());
 		return -1;
 	}
 	std::string vendor_template_conf_path = resolveVendorConfPath(kVendorTemplateConfPath);
 	ret = copyFileIfItExists(vendor_template_conf_path, config_file_path);
 	if (ret == 0) {
 		wpa_printf(
 		    MSG_INFO, "Copied template conf file from %s to %s",
 		    vendor_template_conf_path.c_str(), config_file_path.c_str());
 		return 0;
 	} else if (ret == -1) {
 		unlink(config_file_path.c_str());
 		return -1;
 	}
 	ret = copyFileIfItExists(kSystemTemplateConfPath, config_file_path);
 	if (ret == 0) {
 		wpa_printf(
 		    MSG_INFO, "Copied template conf file from %s to %s",
 		    kSystemTemplateConfPath, config_file_path.c_str());
 		return 0;
 	} else if (ret == -1) {
 		unlink(config_file_path.c_str());
 		return -1;
 	}
 	// Did not create the conf file.
 	return -1;
 }
 }  // namespace

 namespace aidl {
 namespace android {
 namespace hardware {
 namespace wifi {
 namespace supplicant {
 using aidl_return_util::validateAndCall;
 using misc_utils::createStatus;
 using misc_utils::createStatusWithMsg;

 Supplicant::Supplicant(struct wpa_global* global) : wpa_global_(global) {}
 bool Supplicant::isValid()
 {
 	// This top level object cannot be invalidated.
 	return true;
 }

 ::ndk::ScopedAStatus Supplicant::addP2pInterface(
 	const std::string& in_name,
 	std::shared_ptr<ISupplicantP2pIface>* _aidl_return)
 {
 	return validateAndCall(
 		this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
 		&Supplicant::addP2pInterfaceInternal, _aidl_return, in_name);
 }

 ::ndk::ScopedAStatus Supplicant::addStaInterface(
 	const std::string& in_name,
 	std::shared_ptr<ISupplicantStaIface>* _aidl_return)
 {
 	return validateAndCall(
 		this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
 		&Supplicant::addStaInterfaceInternal, _aidl_return, in_name);
 }

 ::ndk::ScopedAStatus Supplicant::removeInterface(
 	const IfaceInfo& in_ifaceInfo)
 {
 	return validateAndCall(
 		this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
 		&Supplicant::removeInterfaceInternal, in_ifaceInfo);
 }

 ::ndk::ScopedAStatus Supplicant::getP2pInterface(
 	const std::string& in_name,
 	std::shared_ptr<ISupplicantP2pIface>* _aidl_return)
 {
 	return validateAndCall(
 		this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
 		&Supplicant::getP2pInterfaceInternal, _aidl_return, in_name);
 }

 ::ndk::ScopedAStatus Supplicant::getStaInterface(
 	const std::string& in_name,
 	std::shared_ptr<ISupplicantStaIface>* _aidl_return)
 {
 	return validateAndCall(
 		this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
 		&Supplicant::getStaInterfaceInternal, _aidl_return, in_name);
 }

 ::ndk::ScopedAStatus Supplicant::listInterfaces(
 	std::vector<IfaceInfo>* _aidl_return)
 {
 	return validateAndCall(
 		this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
 		&Supplicant::listInterfacesInternal, _aidl_return);
 }

 ::ndk::ScopedAStatus Supplicant::registerCallback(
 	const std::shared_ptr<ISupplicantCallback>& in_callback)
 {
 	return validateAndCall(
 		this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
 		&Supplicant::registerCallbackInternal, in_callback);
 }

 ::ndk::ScopedAStatus Supplicant::registerNonStandardCertCallback(
 	const std::shared_ptr<INonStandardCertCallback>& in_callback)
 {
 	return validateAndCall(
 		this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
 		&Supplicant::registerNonStandardCertCallbackInternal, in_callback);
 }

 ::ndk::ScopedAStatus Supplicant::setDebugParams(
 	DebugLevel in_level, bool in_showTimestamp,
 	bool in_showKeys)
 {
 	return validateAndCall(
 		this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
 		&Supplicant::setDebugParamsInternal, in_level,
 		in_showTimestamp, in_showKeys);
 }

 ::ndk::ScopedAStatus Supplicant::setConcurrencyPriority(
 	IfaceType in_type)
 {
 	return validateAndCall(
 		this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
 		&Supplicant::setConcurrencyPriorityInternal, in_type);
 }

 ::ndk::ScopedAStatus Supplicant::getDebugLevel(DebugLevel* _aidl_return)
 {
 	*_aidl_return = static_cast<DebugLevel>(wpa_debug_level);
 	return ndk::ScopedAStatus::ok();
 }

 ::ndk::ScopedAStatus Supplicant::isDebugShowTimestampEnabled(bool* _aidl_return)
 {
 	*_aidl_return = ((wpa_debug_timestamp != 0) ? true : false);
 	return ndk::ScopedAStatus::ok();
 }

 ::ndk::ScopedAStatus Supplicant::isDebugShowKeysEnabled(bool* _aidl_return)
 {
 	*_aidl_return = ((wpa_debug_show_keys != 0) ? true : false);
 	return ndk::ScopedAStatus::ok();
 }

 ::ndk::ScopedAStatus Supplicant::terminate()
 {
 	wpa_printf(MSG_INFO, "Terminating...");
 	wpa_supplicant_terminate_proc(wpa_global_);
 	return ndk::ScopedAStatus::ok();
 }

 ndk::ScopedAStatus Supplicant::addP2pDevInterface(struct wpa_interface iface_params)
 {
 	char primary_ifname[IFNAMSIZ];
 	u32 primary_ifname_len =
 		strlen(iface_params.ifname) - strlen(P2P_MGMT_DEVICE_PREFIX);

 	if(primary_ifname_len > IFNAMSIZ) {
 		wpa_printf(MSG_DEBUG, "%s, Invalid primary iface name ", __FUNCTION__);
 		return createStatus(SupplicantStatusCode::FAILURE_ARGS_INVALID);
 	}

 	strncpy(primary_ifname, iface_params.ifname +
 		strlen(P2P_MGMT_DEVICE_PREFIX), primary_ifname_len);
 	wpa_printf(MSG_DEBUG, "%s, Initialize p2p-dev-wlan0 iface with"
 		"primary_iface = %s", __FUNCTION__, primary_ifname);
 	struct wpa_supplicant* wpa_s =
 		wpa_supplicant_get_iface(wpa_global_, primary_ifname);
 	if (!wpa_s) {
 		wpa_printf(MSG_DEBUG, "%s,NULL wpa_s for wlan0", __FUNCTION__);
 		return createStatus(SupplicantStatusCode::FAILURE_IFACE_UNKNOWN);
 	}

 	const u8 *if_addr = NULL;
 	char force_name[100] = {'\0'};
 	wpa_s->pending_interface_type = WPA_IF_P2P_DEVICE;
 	if (wpa_s->conf->p2p_device_random_mac_addr == 2 &&
 		!is_zero_ether_addr(wpa_s->conf->p2p_device_persistent_mac_addr))
 		if_addr = wpa_s->conf->p2p_device_persistent_mac_addr;

 	int ret = wpa_drv_if_add(wpa_s, WPA_IF_P2P_DEVICE, iface_params.ifname, if_addr, NULL,
 		force_name, wpa_s->pending_interface_addr, NULL);
 	if (ret < 0) {
 		wpa_printf(MSG_DEBUG, "P2P: Failed to create P2P Device interface");
 		return createStatus(SupplicantStatusCode::FAILURE_UNKNOWN);
 	}

 	os_strlcpy(wpa_s->pending_interface_name, iface_params.ifname,
 		sizeof(wpa_s->pending_interface_name));
 	iface_params.p2p_mgmt = 1;
 	iface_params.driver_param = wpa_s->conf->driver_param;
 	iface_params.ctrl_interface = NULL;

 	struct wpa_supplicant *p2pdev_wpa_s = wpa_supplicant_add_iface(
 		wpa_s->global, &iface_params, wpa_s);

 	if (!p2pdev_wpa_s) {
 		wpa_printf(MSG_INFO,
 			"Failed to enable P2P Device");
 		return createStatus(SupplicantStatusCode::FAILURE_UNKNOWN);
 	}
 	p2pdev_wpa_s->p2pdev = p2pdev_wpa_s;
 	wpa_s->pending_interface_name[0] = '\0';

 	return ndk::ScopedAStatus::ok();
 }

 std::pair<std::shared_ptr<ISupplicantP2pIface>, ndk::ScopedAStatus>
 Supplicant::addP2pInterfaceInternal(const std::string& name)
 {
 	std::shared_ptr<ISupplicantP2pIface> iface;

 	// Check if required |ifname| argument is empty.
 	if (name.empty()) {
 		return {nullptr, createStatus(SupplicantStatusCode::FAILURE_ARGS_INVALID)};
 	}
 	if (strncmp(name.c_str(), P2P_MGMT_DEVICE_PREFIX, strlen(P2P_MGMT_DEVICE_PREFIX)) == 0) {
 		struct wpa_supplicant* wpa_s = wpa_supplicant_get_iface(wpa_global_, name.c_str());
 		if (wpa_s) {
 			wpa_printf(MSG_DEBUG, "Remove existing p2p dev interface");
 			wpa_supplicant_remove_iface(wpa_global_, wpa_s, 0);
 		}
 	}
 	// Try to get the wpa_supplicant record for this iface, return
 	// the iface object with the appropriate status code if it exists.
 	ndk::ScopedAStatus status;
 	std::tie(iface, status) = getP2pInterfaceInternal(name);
 	if (status.isOk()) {
 		wpa_printf(MSG_INFO, "Iface already exists, return existing");
 		return {iface, ndk::ScopedAStatus::ok()};
 	}

 	struct wpa_interface iface_params = {};
 	iface_params.driver = kIfaceDriverName;
 	if (ensureConfigFileExists(
 		kP2pIfaceConfPath, kOldP2pIfaceConfPath) != 0) {
 		wpa_printf(
 			MSG_ERROR, "Conf file does not exists: %s",
 			kP2pIfaceConfPath);
 		return {nullptr, createStatusWithMsg(
 			SupplicantStatusCode::FAILURE_UNKNOWN, "Conf file does not exist")};
 	}
 	iface_params.confname = kP2pIfaceConfPath;
 	std::string overlay_path = resolveVendorConfPath(kP2pIfaceConfOverlayPath);
 	int ret = access(overlay_path.c_str(), R_OK);
 	if (ret == 0) {
 		iface_params.confanother = overlay_path.c_str();
 	}

 	iface_params.ifname = name.c_str();
 	if (strncmp(iface_params.ifname, P2P_MGMT_DEVICE_PREFIX,
 		strlen(P2P_MGMT_DEVICE_PREFIX)) == 0) {
 		status = addP2pDevInterface(iface_params);
 		if (!status.isOk()) {
 			return {iface, createStatus(static_cast<SupplicantStatusCode>(
 				status.getServiceSpecificError()))};
 		}
 	} else {
 		struct wpa_supplicant* wpa_s =
 			wpa_supplicant_add_iface(wpa_global_, &iface_params, NULL);
 		if (!wpa_s) {
 			return {nullptr, createStatus(SupplicantStatusCode::FAILURE_UNKNOWN)};
 		}
 		// Request the current scan results from the driver and update
 		// the local BSS list wpa_s->bss. This is to avoid a full scan
 		// while processing the connect request on newly created interface.
 		wpa_supplicant_update_scan_results(wpa_s);
 	}
 	// The supplicant core creates a corresponding aidl object via
 	// AidlManager when |wpa_supplicant_add_iface| is called.
 	return getP2pInterfaceInternal(name);
 }

 std::pair<std::shared_ptr<ISupplicantStaIface>, ndk::ScopedAStatus>
 Supplicant::addStaInterfaceInternal(const std::string& name)
 {
 	std::shared_ptr<ISupplicantStaIface> iface;

 	// Check if required |ifname| argument is empty.
 	if (name.empty()) {
 		return {nullptr, createStatus(SupplicantStatusCode::FAILURE_ARGS_INVALID)};
 	}
 	// Try to get the wpa_supplicant record for this iface, return
 	// the iface object with the appropriate status code if it exists.
 	ndk::ScopedAStatus status;
 	std::tie(iface, status) = getStaInterfaceInternal(name);
 	if (status.isOk()) {
 		wpa_printf(MSG_INFO, "Iface already exists, return existing");
 		return {iface, ndk::ScopedAStatus::ok()};
 	}

 	struct wpa_interface iface_params = {};
 	iface_params.driver = kIfaceDriverName;
 	if (ensureConfigFileExists(
 		kStaIfaceConfPath, kOldStaIfaceConfPath) != 0) {
 		wpa_printf(
 			MSG_ERROR, "Conf file does not exists: %s",
 			kStaIfaceConfPath);
 		return {nullptr, createStatusWithMsg(
 			SupplicantStatusCode::FAILURE_UNKNOWN, "Conf file does not exist")};
 	}
 	iface_params.confname = kStaIfaceConfPath;
 	std::string overlay_path = resolveVendorConfPath(kStaIfaceConfOverlayPath);
 	int ret = access(overlay_path.c_str(), R_OK);
 	if (ret == 0) {
 		iface_params.confanother = overlay_path.c_str();
 	}

 	iface_params.ifname = name.c_str();
 	if (strncmp(iface_params.ifname, P2P_MGMT_DEVICE_PREFIX,
 		strlen(P2P_MGMT_DEVICE_PREFIX)) == 0) {
 		status = addP2pDevInterface(iface_params);
 		if (!status.isOk()) {
 			return {iface, createStatus(static_cast<SupplicantStatusCode>(
 				status.getServiceSpecificError()))};
 		}
 	} else {
 		struct wpa_supplicant* wpa_s =
 			wpa_supplicant_add_iface(wpa_global_, &iface_params, NULL);
 		if (!wpa_s) {
 			return {nullptr, createStatus(SupplicantStatusCode::FAILURE_UNKNOWN)};
 		}
 		// Request the current scan results from the driver and update
 		// the local BSS list wpa_s->bss. This is to avoid a full scan
 		// while processing the connect request on newly created interface.
 		wpa_supplicant_update_scan_results(wpa_s);
 	}
 	// The supplicant core creates a corresponding aidl object via
 	// AidlManager when |wpa_supplicant_add_iface| is called.
 	return getStaInterfaceInternal(name);
 }

 ndk::ScopedAStatus Supplicant::removeInterfaceInternal(
 	const IfaceInfo& iface_info)
 {
 	struct wpa_supplicant* wpa_s =
 		wpa_supplicant_get_iface(wpa_global_, iface_info.name.c_str());
 	if (!wpa_s) {
 		return createStatus(SupplicantStatusCode::FAILURE_IFACE_UNKNOWN);
 	}
 	if (wpa_supplicant_remove_iface(wpa_global_, wpa_s, 0)) {
 		return createStatus(SupplicantStatusCode::FAILURE_UNKNOWN);
 	}
 	return ndk::ScopedAStatus::ok();
 }

 std::pair<std::shared_ptr<ISupplicantP2pIface>, ndk::ScopedAStatus>
 Supplicant::getP2pInterfaceInternal(const std::string& name)
 {
 	struct wpa_supplicant* wpa_s =
 		wpa_supplicant_get_iface(wpa_global_, name.c_str());
 	if (!wpa_s) {
 		return {nullptr, createStatus(SupplicantStatusCode::FAILURE_IFACE_UNKNOWN)};
 	}
 	AidlManager* aidl_manager = AidlManager::getInstance();
 	std::shared_ptr<ISupplicantP2pIface> iface;
 	if (!aidl_manager ||
 		aidl_manager->getP2pIfaceAidlObjectByIfname(
 		wpa_s->ifname, &iface)) {
 		return {iface, createStatus(SupplicantStatusCode::FAILURE_UNKNOWN)};
 	}
 	// Set this flag true here, since there is no AIDL initialize
 	// method for the p2p config, and the supplicant interface is
 	// not ready when the p2p iface is created.
 	wpa_s->conf->persistent_reconnect = true;
 	return {iface, ndk::ScopedAStatus::ok()};
 }

 std::pair<std::shared_ptr<ISupplicantStaIface>, ndk::ScopedAStatus>
 Supplicant::getStaInterfaceInternal(const std::string& name)
 {
 	struct wpa_supplicant* wpa_s =
 		wpa_supplicant_get_iface(wpa_global_, name.c_str());
 	if (!wpa_s) {
 		return {nullptr, createStatus(SupplicantStatusCode::FAILURE_IFACE_UNKNOWN)};
 	}
 	AidlManager* aidl_manager = AidlManager::getInstance();
 	std::shared_ptr<ISupplicantStaIface> iface;
 	if (!aidl_manager ||
 		aidl_manager->getStaIfaceAidlObjectByIfname(
 		wpa_s->ifname, &iface)) {
 		return {iface, createStatus(SupplicantStatusCode::FAILURE_UNKNOWN)};
 	}
 	return {iface, ndk::ScopedAStatus::ok()};
 }

 std::pair<std::vector<IfaceInfo>, ndk::ScopedAStatus>
 Supplicant::listInterfacesInternal()
 {
 	std::vector<IfaceInfo> ifaces;
 	for (struct wpa_supplicant* wpa_s = wpa_global_->ifaces; wpa_s;
 		 wpa_s = wpa_s->next) {
 		if (wpa_s->global->p2p_init_wpa_s == wpa_s) {
 			ifaces.emplace_back(IfaceInfo{
 				IfaceType::P2P, wpa_s->ifname});
 		} else {
 			ifaces.emplace_back(IfaceInfo{
 				IfaceType::STA, wpa_s->ifname});
 		}
 	}
 	return {std::move(ifaces), ndk::ScopedAStatus::ok()};
 }

 ndk::ScopedAStatus Supplicant::registerCallbackInternal(
 	const std::shared_ptr<ISupplicantCallback>& callback)
 {
 	AidlManager* aidl_manager = AidlManager::getInstance();
 	if (!aidl_manager ||
 		aidl_manager->addSupplicantCallbackAidlObject(callback)) {
 		return createStatus(SupplicantStatusCode::FAILURE_UNKNOWN);
 	}
 	return ndk::ScopedAStatus::ok();
 }

 ndk::ScopedAStatus Supplicant::registerNonStandardCertCallbackInternal(
 	const std::shared_ptr<INonStandardCertCallback>& callback)
 {
 	AidlManager* aidl_manager = AidlManager::getInstance();
 	if (!aidl_manager ||
 		aidl_manager->registerNonStandardCertCallbackAidlObject(callback)) {
 		return createStatus(SupplicantStatusCode::FAILURE_UNKNOWN);
 	}
 	return ndk::ScopedAStatus::ok();
 }

 ndk::ScopedAStatus Supplicant::setDebugParamsInternal(
 	DebugLevel level, bool show_timestamp, bool show_keys)
 {
 	if (wpa_supplicant_set_debug_params(
 		wpa_global_, static_cast<uint32_t>(level), show_timestamp,
 		show_keys)) {
 		return createStatus(SupplicantStatusCode::FAILURE_UNKNOWN);
 	}
 	return ndk::ScopedAStatus::ok();
 }

 ndk::ScopedAStatus Supplicant::setConcurrencyPriorityInternal(IfaceType type)
 {
 	if (type == IfaceType::STA) {
 		wpa_global_->conc_pref =
 			wpa_global::wpa_conc_pref::WPA_CONC_PREF_STA;
 	} else if (type == IfaceType::P2P) {
 		wpa_global_->conc_pref =
 			wpa_global::wpa_conc_pref::WPA_CONC_PREF_P2P;
 	} else {
 		return createStatus(SupplicantStatusCode::FAILURE_ARGS_INVALID);
 	}
 	return ndk::ScopedAStatus::ok();
 }
 }  // namespace supplicant
 }  // namespace wifi
 }  // namespace hardware
 }  // namespace android
 }  // namespace aidl
	/*
	* WPA Supplicant - Supplicant Aidl interface
	* Copyright (c) 2021, Google Inc. All rights reserved.
	*
	* This software may be distributed under the terms of the BSD license.
	* See README for more details.
	*/

	#include "aidl_manager.h"
	#include "aidl_return_util.h"
	#include "misc_utils.h"
	#include "supplicant.h"
	#include "p2p_iface.h"

	#include <android-base/file.h>
	#include <fcntl.h>
	#include <sys/stat.h>

	namespace {

	// Pre-populated interface params for interfaces controlled by wpa_supplicant.
	// Note: This may differ for other OEM's. So, modify this accordingly.
	// When wpa_supplicant is in its APEX, overlay/template configurations should be
	// loaded from the same APEX.
	constexpr char kIfaceDriverName[] = "nl80211";

	constexpr char kStaIfaceConfPath[] =
	"/data/vendor/wifi/wpa/wpa_supplicant.conf";
	constexpr char kStaIfaceConfOverlayPath[] =
	"/etc/wifi/wpa_supplicant_overlay.conf";

	constexpr char kP2pIfaceConfPath[] =
	"/data/vendor/wifi/wpa/p2p_supplicant.conf";
	constexpr char kP2pIfaceConfOverlayPath[] =
	"/etc/wifi/p2p_supplicant_overlay.conf";

	// Migrate conf files for existing devices.
	constexpr char kSystemTemplateConfPath[] =
	"/system/etc/wifi/wpa_supplicant.conf";
	constexpr char kVendorTemplateConfPath[] =
	"/etc/wifi/wpa_supplicant.conf";

	constexpr char kOldStaIfaceConfPath[] = "/data/misc/wifi/wpa_supplicant.conf";
	constexpr char kOldP2pIfaceConfPath[] = "/data/misc/wifi/p2p_supplicant.conf";
	constexpr mode_t kConfigFileMode = S_IRUSR \| S_IWUSR \| S_IRGRP \| S_IWGRP;

	std::string resolveVendorConfPath(const std::string& conf_path)
	{
	#if defined(__ANDROID_APEX__)
	// returns "/apex/<apexname>" + conf_path
	std::string path = android::base::GetExecutablePath();
	return path.substr(0, path.find_first_of('/', strlen("/apex/"))) + conf_path;
	#else
	return std::string("/vendor") + conf_path;
	#endif
	}

	int copyFile(
	const std::string& src_file_path, const std::string& dest_file_path)
	{
	std::string file_contents;
	if (!android::base::ReadFileToString(src_file_path, &file_contents)) {
	wpa_printf(
	MSG_ERROR, "Failed to read from %s. Errno: %s",
	src_file_path.c_str(), strerror(errno));
	return -1;
	}
	if (!android::base::WriteStringToFile(
	file_contents, dest_file_path, kConfigFileMode, getuid(),
	getgid())) {
	wpa_printf(
	MSG_ERROR, "Failed to write to %s. Errno: %s",
	dest_file_path.c_str(), strerror(errno));
	return -1;
	}
	return 0;
	}

	/**
	* Copy \|src_file_path\| to \|dest_file_path\| if it exists.
	*
	* Returns 1 if \|src_file_path\| does not exist or not accessible,
	* Returns -1 if the copy fails.
	* Returns 0 if the copy succeeds.
	*/
	int copyFileIfItExists(
	const std::string& src_file_path, const std::string& dest_file_path)
	{
	int ret = access(src_file_path.c_str(), R_OK);
	// Sepolicy denial (2018+ device) will return EACCESS instead of ENOENT.
	if ((ret != 0) && ((errno == ENOENT) \|\| (errno == EACCES))) {
	return 1;
	}
	ret = copyFile(src_file_path, dest_file_path);
	if (ret != 0) {
	wpa_printf(
	MSG_ERROR, "Failed copying %s to %s.",
	src_file_path.c_str(), dest_file_path.c_str());
	return -1;
	}
	return 0;
	}

	/**
	* Ensure that the specified config file pointed by \|config_file_path\| exists.
	* a) If the \|config_file_path\| exists with the correct permissions, return.
	* b) If the \|config_file_path\| does not exist, but \|old_config_file_path\|
	* exists, copy over the contents of the \|old_config_file_path\| to
	* \|config_file_path\|.
	* c) If the \|config_file_path\| & \|old_config_file_path\|
	* does not exists, copy over the contents of \|template_config_file_path\|.
	*/
	int ensureConfigFileExists(
	const std::string& config_file_path,
	const std::string& old_config_file_path)
	{
	int ret = access(config_file_path.c_str(), R_OK \| W_OK);
	if (ret == 0) {
	return 0;
	}
	if (errno == EACCES) {
	ret = chmod(config_file_path.c_str(), kConfigFileMode);
	if (ret == 0) {
	return 0;
	} else {
	wpa_printf(
	MSG_ERROR, "Cannot set RW to %s. Errno: %s",
	config_file_path.c_str(), strerror(errno));
	return -1;
	}
	} else if (errno != ENOENT) {
	wpa_printf(
	MSG_ERROR, "Cannot acces %s. Errno: %s",
	config_file_path.c_str(), strerror(errno));
	return -1;
	}
	ret = copyFileIfItExists(old_config_file_path, config_file_path);
	if (ret == 0) {
	wpa_printf(
	MSG_INFO, "Migrated conf file from %s to %s",
	old_config_file_path.c_str(), config_file_path.c_str());
	unlink(old_config_file_path.c_str());
	return 0;
	} else if (ret == -1) {
	unlink(config_file_path.c_str());
	return -1;
	}
	std::string vendor_template_conf_path = resolveVendorConfPath(kVendorTemplateConfPath);
	ret = copyFileIfItExists(vendor_template_conf_path, config_file_path);
	if (ret == 0) {
	wpa_printf(
	MSG_INFO, "Copied template conf file from %s to %s",
	vendor_template_conf_path.c_str(), config_file_path.c_str());
	return 0;
	} else if (ret == -1) {
	unlink(config_file_path.c_str());
	return -1;
	}
	ret = copyFileIfItExists(kSystemTemplateConfPath, config_file_path);
	if (ret == 0) {
	wpa_printf(
	MSG_INFO, "Copied template conf file from %s to %s",
	kSystemTemplateConfPath, config_file_path.c_str());
	return 0;
	} else if (ret == -1) {
	unlink(config_file_path.c_str());
	return -1;
	}
	// Did not create the conf file.
	return -1;
	}
	} // namespace

	namespace aidl {
	namespace android {
	namespace hardware {
	namespace wifi {
	namespace supplicant {
	using aidl_return_util::validateAndCall;
	using misc_utils::createStatus;
	using misc_utils::createStatusWithMsg;

	Supplicant::Supplicant(struct wpa_global* global) : wpa_global_(global) {}
	bool Supplicant::isValid()
	{
	// This top level object cannot be invalidated.
	return true;
	}

	::ndk::ScopedAStatus Supplicant::addP2pInterface(
	const std::string& in_name,
	std::shared_ptr<ISupplicantP2pIface>* _aidl_return)
	{
	return validateAndCall(
	this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
	&Supplicant::addP2pInterfaceInternal, _aidl_return, in_name);
	}

	::ndk::ScopedAStatus Supplicant::addStaInterface(
	const std::string& in_name,
	std::shared_ptr<ISupplicantStaIface>* _aidl_return)
	{
	return validateAndCall(
	this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
	&Supplicant::addStaInterfaceInternal, _aidl_return, in_name);
	}

	::ndk::ScopedAStatus Supplicant::removeInterface(
	const IfaceInfo& in_ifaceInfo)
	{
	return validateAndCall(
	this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
	&Supplicant::removeInterfaceInternal, in_ifaceInfo);
	}

	::ndk::ScopedAStatus Supplicant::getP2pInterface(
	const std::string& in_name,
	std::shared_ptr<ISupplicantP2pIface>* _aidl_return)
	{
	return validateAndCall(
	this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
	&Supplicant::getP2pInterfaceInternal, _aidl_return, in_name);
	}

	::ndk::ScopedAStatus Supplicant::getStaInterface(
	const std::string& in_name,
	std::shared_ptr<ISupplicantStaIface>* _aidl_return)
	{
	return validateAndCall(
	this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
	&Supplicant::getStaInterfaceInternal, _aidl_return, in_name);
	}

	::ndk::ScopedAStatus Supplicant::listInterfaces(
	std::vector<IfaceInfo>* _aidl_return)
	{
	return validateAndCall(
	this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
	&Supplicant::listInterfacesInternal, _aidl_return);
	}

	::ndk::ScopedAStatus Supplicant::registerCallback(
	const std::shared_ptr<ISupplicantCallback>& in_callback)
	{
	return validateAndCall(
	this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
	&Supplicant::registerCallbackInternal, in_callback);
	}

	::ndk::ScopedAStatus Supplicant::registerNonStandardCertCallback(
	const std::shared_ptr<INonStandardCertCallback>& in_callback)
	{
	return validateAndCall(
	this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
	&Supplicant::registerNonStandardCertCallbackInternal, in_callback);
	}

	::ndk::ScopedAStatus Supplicant::setDebugParams(
	DebugLevel in_level, bool in_showTimestamp,
	bool in_showKeys)
	{
	return validateAndCall(
	this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
	&Supplicant::setDebugParamsInternal, in_level,
	in_showTimestamp, in_showKeys);
	}

	::ndk::ScopedAStatus Supplicant::setConcurrencyPriority(
	IfaceType in_type)
	{
	return validateAndCall(
	this, SupplicantStatusCode::FAILURE_IFACE_INVALID,
	&Supplicant::setConcurrencyPriorityInternal, in_type);
	}

	::ndk::ScopedAStatus Supplicant::getDebugLevel(DebugLevel* _aidl_return)
	{
	*_aidl_return = static_cast<DebugLevel>(wpa_debug_level);
	return ndk::ScopedAStatus::ok();
	}

	::ndk::ScopedAStatus Supplicant::isDebugShowTimestampEnabled(bool* _aidl_return)
	{
	*_aidl_return = ((wpa_debug_timestamp != 0) ? true : false);
	return ndk::ScopedAStatus::ok();
	}

	::ndk::ScopedAStatus Supplicant::isDebugShowKeysEnabled(bool* _aidl_return)
	{
	*_aidl_return = ((wpa_debug_show_keys != 0) ? true : false);
	return ndk::ScopedAStatus::ok();
	}

	::ndk::ScopedAStatus Supplicant::terminate()
	{
	wpa_printf(MSG_INFO, "Terminating...");
	wpa_supplicant_terminate_proc(wpa_global_);
	return ndk::ScopedAStatus::ok();
	}

	ndk::ScopedAStatus Supplicant::addP2pDevInterface(struct wpa_interface iface_params)
	{
	char primary_ifname[IFNAMSIZ];
	u32 primary_ifname_len =
	strlen(iface_params.ifname) - strlen(P2P_MGMT_DEVICE_PREFIX);

	if(primary_ifname_len > IFNAMSIZ) {
	wpa_printf(MSG_DEBUG, "%s, Invalid primary iface name ", __FUNCTION__);
	return createStatus(SupplicantStatusCode::FAILURE_ARGS_INVALID);
	}

	strncpy(primary_ifname, iface_params.ifname +
	strlen(P2P_MGMT_DEVICE_PREFIX), primary_ifname_len);
	wpa_printf(MSG_DEBUG, "%s, Initialize p2p-dev-wlan0 iface with"
	"primary_iface = %s", __FUNCTION__, primary_ifname);
	struct wpa_supplicant* wpa_s =
	wpa_supplicant_get_iface(wpa_global_, primary_ifname);
	if (!wpa_s) {
	wpa_printf(MSG_DEBUG, "%s,NULL wpa_s for wlan0", __FUNCTION__);
	return createStatus(SupplicantStatusCode::FAILURE_IFACE_UNKNOWN);
	}

	const u8 *if_addr = NULL;
	char force_name[100] = {'\0'};
	wpa_s->pending_interface_type = WPA_IF_P2P_DEVICE;
	if (wpa_s->conf->p2p_device_random_mac_addr == 2 &&
	!is_zero_ether_addr(wpa_s->conf->p2p_device_persistent_mac_addr))
	if_addr = wpa_s->conf->p2p_device_persistent_mac_addr;

	int ret = wpa_drv_if_add(wpa_s, WPA_IF_P2P_DEVICE, iface_params.ifname, if_addr, NULL,
	force_name, wpa_s->pending_interface_addr, NULL);
	if (ret < 0) {
	wpa_printf(MSG_DEBUG, "P2P: Failed to create P2P Device interface");
	return createStatus(SupplicantStatusCode::FAILURE_UNKNOWN);
	}

	os_strlcpy(wpa_s->pending_interface_name, iface_params.ifname,
	sizeof(wpa_s->pending_interface_name));
	iface_params.p2p_mgmt = 1;
	iface_params.driver_param = wpa_s->conf->driver_param;
	iface_params.ctrl_interface = NULL;

	struct wpa_supplicant *p2pdev_wpa_s = wpa_supplicant_add_iface(
	wpa_s->global, &iface_params, wpa_s);

	if (!p2pdev_wpa_s) {
	wpa_printf(MSG_INFO,
	"Failed to enable P2P Device");
	return createStatus(SupplicantStatusCode::FAILURE_UNKNOWN);
	}
	p2pdev_wpa_s->p2pdev = p2pdev_wpa_s;
	wpa_s->pending_interface_name[0] = '\0';

	return ndk::ScopedAStatus::ok();
	}

	std::pair<std::shared_ptr<ISupplicantP2pIface>, ndk::ScopedAStatus>
	Supplicant::addP2pInterfaceInternal(const std::string& name)
	{
	std::shared_ptr<ISupplicantP2pIface> iface;

	// Check if required \|ifname\| argument is empty.
	if (name.empty()) {
	return {nullptr, createStatus(SupplicantStatusCode::FAILURE_ARGS_INVALID)};
	}
	if (strncmp(name.c_str(), P2P_MGMT_DEVICE_PREFIX, strlen(P2P_MGMT_DEVICE_PREFIX)) == 0) {
	struct wpa_supplicant* wpa_s = wpa_supplicant_get_iface(wpa_global_, name.c_str());
	if (wpa_s) {
	wpa_printf(MSG_DEBUG, "Remove existing p2p dev interface");
	wpa_supplicant_remove_iface(wpa_global_, wpa_s, 0);
	}
	}
	// Try to get the wpa_supplicant record for this iface, return
	// the iface object with the appropriate status code if it exists.
	ndk::ScopedAStatus status;
	std::tie(iface, status) = getP2pInterfaceInternal(name);
	if (status.isOk()) {
	wpa_printf(MSG_INFO, "Iface already exists, return existing");
	return {iface, ndk::ScopedAStatus::ok()};
	}

	struct wpa_interface iface_params = {};
	iface_params.driver = kIfaceDriverName;
	if (ensureConfigFileExists(
	kP2pIfaceConfPath, kOldP2pIfaceConfPath) != 0) {
	wpa_printf(
	MSG_ERROR, "Conf file does not exists: %s",
	kP2pIfaceConfPath);
	return {nullptr, createStatusWithMsg(
	SupplicantStatusCode::FAILURE_UNKNOWN, "Conf file does not exist")};
	}
	iface_params.confname = kP2pIfaceConfPath;
	std::string overlay_path = resolveVendorConfPath(kP2pIfaceConfOverlayPath);
	int ret = access(overlay_path.c_str(), R_OK);
	if (ret == 0) {
	iface_params.confanother = overlay_path.c_str();
	}

	iface_params.ifname = name.c_str();
	if (strncmp(iface_params.ifname, P2P_MGMT_DEVICE_PREFIX,
	strlen(P2P_MGMT_DEVICE_PREFIX)) == 0) {
	status = addP2pDevInterface(iface_params);
	if (!status.isOk()) {
	return {iface, createStatus(static_cast<SupplicantStatusCode>(
	status.getServiceSpecificError()))};
	}
	} else {
	struct wpa_supplicant* wpa_s =
	wpa_supplicant_add_iface(wpa_global_, &iface_params, NULL);
	if (!wpa_s) {
	return {nullptr, createStatus(SupplicantStatusCode::FAILURE_UNKNOWN)};
	}
	// Request the current scan results from the driver and update
	// the local BSS list wpa_s->bss. This is to avoid a full scan
	// while processing the connect request on newly created interface.
	wpa_supplicant_update_scan_results(wpa_s);
	}
	// The supplicant core creates a corresponding aidl object via
	// AidlManager when \|wpa_supplicant_add_iface\| is called.
	return getP2pInterfaceInternal(name);
	}

	std::pair<std::shared_ptr<ISupplicantStaIface>, ndk::ScopedAStatus>
	Supplicant::addStaInterfaceInternal(const std::string& name)
	{
	std::shared_ptr<ISupplicantStaIface> iface;

	// Check if required \|ifname\| argument is empty.
	if (name.empty()) {
	return {nullptr, createStatus(SupplicantStatusCode::FAILURE_ARGS_INVALID)};
	}
	// Try to get the wpa_supplicant record for this iface, return
	// the iface object with the appropriate status code if it exists.
	ndk::ScopedAStatus status;
	std::tie(iface, status) = getStaInterfaceInternal(name);
	if (status.isOk()) {
	wpa_printf(MSG_INFO, "Iface already exists, return existing");
	return {iface, ndk::ScopedAStatus::ok()};
	}

	struct wpa_interface iface_params = {};
	iface_params.driver = kIfaceDriverName;
	if (ensureConfigFileExists(
	kStaIfaceConfPath, kOldStaIfaceConfPath) != 0) {
	wpa_printf(
	MSG_ERROR, "Conf file does not exists: %s",
	kStaIfaceConfPath);
	return {nullptr, createStatusWithMsg(
	SupplicantStatusCode::FAILURE_UNKNOWN, "Conf file does not exist")};
	}
	iface_params.confname = kStaIfaceConfPath;
	std::string overlay_path = resolveVendorConfPath(kStaIfaceConfOverlayPath);
	int ret = access(overlay_path.c_str(), R_OK);
	if (ret == 0) {
	iface_params.confanother = overlay_path.c_str();
	}

	iface_params.ifname = name.c_str();
	if (strncmp(iface_params.ifname, P2P_MGMT_DEVICE_PREFIX,
	strlen(P2P_MGMT_DEVICE_PREFIX)) == 0) {
	status = addP2pDevInterface(iface_params);
	if (!status.isOk()) {
	return {iface, createStatus(static_cast<SupplicantStatusCode>(
	status.getServiceSpecificError()))};
	}
	} else {
	struct wpa_supplicant* wpa_s =
	wpa_supplicant_add_iface(wpa_global_, &iface_params, NULL);
	if (!wpa_s) {
	return {nullptr, createStatus(SupplicantStatusCode::FAILURE_UNKNOWN)};
	}
	// Request the current scan results from the driver and update
	// the local BSS list wpa_s->bss. This is to avoid a full scan
	// while processing the connect request on newly created interface.
	wpa_supplicant_update_scan_results(wpa_s);
	}
	// The supplicant core creates a corresponding aidl object via
	// AidlManager when \|wpa_supplicant_add_iface\| is called.
	return getStaInterfaceInternal(name);
	}

	ndk::ScopedAStatus Supplicant::removeInterfaceInternal(
	const IfaceInfo& iface_info)
	{
	struct wpa_supplicant* wpa_s =
	wpa_supplicant_get_iface(wpa_global_, iface_info.name.c_str());
	if (!wpa_s) {
	return createStatus(SupplicantStatusCode::FAILURE_IFACE_UNKNOWN);
	}
	if (wpa_supplicant_remove_iface(wpa_global_, wpa_s, 0)) {
	return createStatus(SupplicantStatusCode::FAILURE_UNKNOWN);
	}
	return ndk::ScopedAStatus::ok();
	}

	std::pair<std::shared_ptr<ISupplicantP2pIface>, ndk::ScopedAStatus>
	Supplicant::getP2pInterfaceInternal(const std::string& name)
	{
	struct wpa_supplicant* wpa_s =
	wpa_supplicant_get_iface(wpa_global_, name.c_str());
	if (!wpa_s) {
	return {nullptr, createStatus(SupplicantStatusCode::FAILURE_IFACE_UNKNOWN)};
	}
	AidlManager* aidl_manager = AidlManager::getInstance();
	std::shared_ptr<ISupplicantP2pIface> iface;
	if (!aidl_manager \|\|
	aidl_manager->getP2pIfaceAidlObjectByIfname(
	wpa_s->ifname, &iface)) {
	return {iface, createStatus(SupplicantStatusCode::FAILURE_UNKNOWN)};
	}
	// Set this flag true here, since there is no AIDL initialize
	// method for the p2p config, and the supplicant interface is
	// not ready when the p2p iface is created.
	wpa_s->conf->persistent_reconnect = true;
	return {iface, ndk::ScopedAStatus::ok()};
	}

	std::pair<std::shared_ptr<ISupplicantStaIface>, ndk::ScopedAStatus>
	Supplicant::getStaInterfaceInternal(const std::string& name)
	{
	struct wpa_supplicant* wpa_s =
	wpa_supplicant_get_iface(wpa_global_, name.c_str());
	if (!wpa_s) {
	return {nullptr, createStatus(SupplicantStatusCode::FAILURE_IFACE_UNKNOWN)};
	}
	AidlManager* aidl_manager = AidlManager::getInstance();
	std::shared_ptr<ISupplicantStaIface> iface;
	if (!aidl_manager \|\|
	aidl_manager->getStaIfaceAidlObjectByIfname(
	wpa_s->ifname, &iface)) {
	return {iface, createStatus(SupplicantStatusCode::FAILURE_UNKNOWN)};
	}
	return {iface, ndk::ScopedAStatus::ok()};
	}

	std::pair<std::vector<IfaceInfo>, ndk::ScopedAStatus>
	Supplicant::listInterfacesInternal()
	{
	std::vector<IfaceInfo> ifaces;
	for (struct wpa_supplicant* wpa_s = wpa_global_->ifaces; wpa_s;
	wpa_s = wpa_s->next) {
	if (wpa_s->global->p2p_init_wpa_s == wpa_s) {
	ifaces.emplace_back(IfaceInfo{
	IfaceType::P2P, wpa_s->ifname});
	} else {
	ifaces.emplace_back(IfaceInfo{
	IfaceType::STA, wpa_s->ifname});
	}
	}
	return {std::move(ifaces), ndk::ScopedAStatus::ok()};
	}

	ndk::ScopedAStatus Supplicant::registerCallbackInternal(
	const std::shared_ptr<ISupplicantCallback>& callback)
	{
	AidlManager* aidl_manager = AidlManager::getInstance();
	if (!aidl_manager \|\|
	aidl_manager->addSupplicantCallbackAidlObject(callback)) {
	return createStatus(SupplicantStatusCode::FAILURE_UNKNOWN);
	}
	return ndk::ScopedAStatus::ok();
	}

	ndk::ScopedAStatus Supplicant::registerNonStandardCertCallbackInternal(
	const std::shared_ptr<INonStandardCertCallback>& callback)
	{
	AidlManager* aidl_manager = AidlManager::getInstance();
	if (!aidl_manager \|\|
	aidl_manager->registerNonStandardCertCallbackAidlObject(callback)) {
	return createStatus(SupplicantStatusCode::FAILURE_UNKNOWN);
	}
	return ndk::ScopedAStatus::ok();
	}

	ndk::ScopedAStatus Supplicant::setDebugParamsInternal(
	DebugLevel level, bool show_timestamp, bool show_keys)
	{
	if (wpa_supplicant_set_debug_params(
	wpa_global_, static_cast<uint32_t>(level), show_timestamp,
	show_keys)) {
	return createStatus(SupplicantStatusCode::FAILURE_UNKNOWN);
	}
	return ndk::ScopedAStatus::ok();
	}

	ndk::ScopedAStatus Supplicant::setConcurrencyPriorityInternal(IfaceType type)
	{
	if (type == IfaceType::STA) {
	wpa_global_->conc_pref =
	wpa_global::wpa_conc_pref::WPA_CONC_PREF_STA;
	} else if (type == IfaceType::P2P) {
	wpa_global_->conc_pref =
	wpa_global::wpa_conc_pref::WPA_CONC_PREF_P2P;
	} else {
	return createStatus(SupplicantStatusCode::FAILURE_ARGS_INVALID);
	}
	return ndk::ScopedAStatus::ok();
	}
	} // namespace supplicant
	} // namespace wifi
	} // namespace hardware
	} // namespace android
	} // namespace aidl