#include "config.h" #include "ethernet_interface.hpp" #include "config_parser.hpp" #include "network_manager.hpp" #include "system_queries.hpp" #include "util.hpp" #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace phosphor { namespace network { using namespace phosphor::logging; using namespace sdbusplus::xyz::openbmc_project::Common::Error; using NotAllowed = sdbusplus::xyz::openbmc_project::Common::Error::NotAllowed; using NotAllowedArgument = xyz::openbmc_project::Common::NotAllowed; using Argument = xyz::openbmc_project::Common::InvalidArgument; using std::literals::string_view_literals::operator""sv; constexpr auto RESOLVED_SERVICE = "org.freedesktop.resolve1"; constexpr auto RESOLVED_INTERFACE = "org.freedesktop.resolve1.Link"; constexpr auto PROPERTY_INTERFACE = "org.freedesktop.DBus.Properties"; constexpr auto RESOLVED_SERVICE_PATH = "/org/freedesktop/resolve1/link/"; constexpr auto TIMESYNCD_SERVICE = "org.freedesktop.timesync1"; constexpr auto TIMESYNCD_INTERFACE = "org.freedesktop.timesync1.Manager"; constexpr auto TIMESYNCD_SERVICE_PATH = "/org/freedesktop/timesync1"; constexpr auto METHOD_GET = "Get"; template inline decltype(std::declval()()) ignoreError(std::string_view msg, stdplus::zstring_view intf, decltype(std::declval()()) fallback, Func&& func) noexcept { try { return func(); } catch (const std::exception& e) { auto err = fmt::format("{} failed on {}: {}", msg, intf, e.what()); log(err.c_str(), entry("INTERFACE=%s", intf.c_str())); } return fallback; } static std::string makeObjPath(std::string_view root, std::string_view intf) { auto ret = fmt::format(FMT_COMPILE("{}/{}"), root, intf); std::replace(ret.begin() + ret.size() - intf.size(), ret.end(), '.', '_'); return ret; } EthernetInterface::EthernetInterface(sdbusplus::bus_t& bus, Manager& manager, const InterfaceInfo& info, std::string_view objRoot, const config::Parser& config, bool emitSignal, bool enabled) : EthernetInterface(bus, manager, info, makeObjPath(objRoot, *info.name), config, emitSignal, enabled) { } EthernetInterface::EthernetInterface(sdbusplus::bus_t& bus, Manager& manager, const InterfaceInfo& info, std::string&& objPath, const config::Parser& config, bool emitSignal, bool enabled) : Ifaces(bus, objPath.c_str(), emitSignal ? Ifaces::action::defer_emit : Ifaces::action::emit_no_signals), manager(manager), bus(bus), objPath(std::move(objPath)), ifIdx(info.idx) { interfaceName(*info.name); auto dhcpVal = getDHCPValue(config); EthernetInterfaceIntf::dhcp4(dhcpVal.v4); EthernetInterfaceIntf::dhcp6(dhcpVal.v6); EthernetInterfaceIntf::ipv6AcceptRA(getIPv6AcceptRA(config)); EthernetInterfaceIntf::nicEnabled(enabled); { const auto& gws = manager.getRouteTable().getDefaultGateway(); auto it = gws.find(ifIdx); if (it != gws.end()) { EthernetInterfaceIntf::defaultGateway(std::to_string(it->second)); } } { const auto& gws = manager.getRouteTable().getDefaultGateway6(); auto it = gws.find(ifIdx); if (it != gws.end()) { EthernetInterfaceIntf::defaultGateway6(std::to_string(it->second)); } } EthernetInterfaceIntf::ntpServers( config.map.getValueStrings("Network", "NTP")); if (ifIdx > 0) { auto ethInfo = ignoreError("GetEthInfo", *info.name, {}, [&] { return system::getEthInfo(*info.name); }); EthernetInterfaceIntf::autoNeg(ethInfo.autoneg); EthernetInterfaceIntf::speed(ethInfo.speed); } updateInfo(info); if (info.vlan_id) { if (!info.parent_idx) { std::runtime_error("Missing parent link"); } vlan.emplace(bus, this->objPath.c_str(), info, *this, emitSignal); } // Emit deferred signal. if (emitSignal) { this->emit_object_added(); } } void EthernetInterface::updateInfo(const InterfaceInfo& info) { EthernetInterfaceIntf::linkUp(info.flags & IFF_RUNNING); if (info.mac) { MacAddressIntf::macAddress(std::to_string(*info.mac)); } if (info.mtu) { EthernetInterfaceIntf::mtu(*info.mtu); } } bool EthernetInterface::originIsManuallyAssigned(IP::AddressOrigin origin) { return ( #ifdef LINK_LOCAL_AUTOCONFIGURATION (origin == IP::AddressOrigin::Static) #else (origin == IP::AddressOrigin::Static || origin == IP::AddressOrigin::LinkLocal) #endif ); } void EthernetInterface::addAddr(const AddressInfo& info) { IP::AddressOrigin origin = IP::AddressOrigin::Static; if (dhcpIsEnabled(info.ifaddr.getAddr())) { origin = IP::AddressOrigin::DHCP; } #ifdef LINK_LOCAL_AUTOCONFIGURATION if (info.scope == RT_SCOPE_LINK) { origin = IP::AddressOrigin::LinkLocal; } #endif auto it = addrs.find(info.ifaddr); if (it == addrs.end()) { addrs.emplace(info.ifaddr, std::make_unique( bus, std::string_view(objPath), *this, info.ifaddr, origin)); } else { it->second->IPIfaces::origin(origin); } } void EthernetInterface::createIPAddressObjects() { addrs.clear(); for (const auto& addr : system::getAddresses({.ifidx = ifIdx})) { manager.addAddress(addr); } } void EthernetInterface::addStaticNeigh(const NeighborInfo& info) { if (!info.mac || !info.addr) { auto msg = fmt::format("Missing neighbor mac on {}\n", interfaceName()); log(msg.c_str()); return; } staticNeighbors.emplace( *info.addr, std::make_unique(bus, std::string_view(objPath), *this, *info.addr, *info.mac, Neighbor::State::Permanent)); } void EthernetInterface::createStaticNeighborObjects() { staticNeighbors.clear(); for (const auto& neighbor : system::getNeighbors({.ifidx = ifIdx})) { manager.addNeighbor(neighbor); } } ObjectPath EthernetInterface::ip(IP::Protocol protType, std::string ipaddress, uint8_t prefixLength, std::string) { InAddrAny addr; try { switch (protType) { case IP::Protocol::IPv4: addr = ToAddr{}(ipaddress); break; case IP::Protocol::IPv6: addr = ToAddr{}(ipaddress); break; default: throw std::logic_error("Exhausted protocols"); } } catch (const std::exception& e) { auto msg = fmt::format("Invalid IP `{}`: {}\n", ipaddress, e.what()); log(msg.c_str(), entry("ADDRESS=%s", ipaddress.c_str())); elog(Argument::ARGUMENT_NAME("ipaddress"), Argument::ARGUMENT_VALUE(ipaddress.c_str())); } IfAddr ifaddr; try { ifaddr = {addr, prefixLength}; } catch (const std::exception& e) { auto msg = fmt::format("Invalid prefix length `{}`: {}\n", prefixLength, e.what()); log(msg.c_str(), entry("PREFIXLENGTH=%" PRIu8, prefixLength)); elog( Argument::ARGUMENT_NAME("prefixLength"), Argument::ARGUMENT_VALUE(std::to_string(prefixLength).c_str())); } auto [it, _] = this->addrs.insert_or_assign( ifaddr, std::make_unique(bus, std::string_view(objPath), *this, ifaddr, IP::AddressOrigin::Static)); writeConfigurationFile(); manager.reloadConfigsNoRefresh(); return it->second->getObjPath(); } ObjectPath EthernetInterface::neighbor(std::string ipAddress, std::string macAddress) { InAddrAny addr; try { addr = ToAddr{}(ipAddress); } catch (const std::exception& e) { auto msg = fmt::format("Not a valid IP address `{}`: {}", ipAddress, e.what()); log(msg.c_str(), entry("ADDRESS=%s", ipAddress.c_str())); elog(Argument::ARGUMENT_NAME("ipAddress"), Argument::ARGUMENT_VALUE(ipAddress.c_str())); } ether_addr lladdr; try { lladdr = ToAddr{}(macAddress); } catch (const std::exception& e) { auto msg = fmt::format("Not a valid MAC address `{}`: {}", macAddress, e.what()); log(msg.c_str(), entry("MACADDRESS=%s", macAddress.c_str())); elog(Argument::ARGUMENT_NAME("macAddress"), Argument::ARGUMENT_VALUE(macAddress.c_str())); } auto [it, _] = staticNeighbors.emplace( addr, std::make_unique(bus, std::string_view(objPath), *this, addr, lladdr, Neighbor::State::Permanent)); writeConfigurationFile(); manager.reloadConfigsNoRefresh(); return it->second->getObjPath(); } bool EthernetInterface::ipv6AcceptRA(bool value) { if (ipv6AcceptRA() != EthernetInterfaceIntf::ipv6AcceptRA(value)) { writeConfigurationFile(); manager.reloadConfigsNoRefresh(); } return value; } bool EthernetInterface::dhcp4(bool value) { if (dhcp4() != EthernetInterfaceIntf::dhcp4(value)) { writeConfigurationFile(); manager.reloadConfigsNoRefresh(); } return value; } bool EthernetInterface::dhcp6(bool value) { if (dhcp6() != EthernetInterfaceIntf::dhcp6(value)) { writeConfigurationFile(); manager.reloadConfigsNoRefresh(); } return value; } EthernetInterface::DHCPConf EthernetInterface::dhcpEnabled(DHCPConf value) { auto old4 = EthernetInterfaceIntf::dhcp4(); auto new4 = EthernetInterfaceIntf::dhcp4(value == DHCPConf::v4 || value == DHCPConf::v4v6stateless || value == DHCPConf::both); auto old6 = EthernetInterfaceIntf::dhcp6(); auto new6 = EthernetInterfaceIntf::dhcp6(value == DHCPConf::v6 || value == DHCPConf::both); auto oldra = EthernetInterfaceIntf::ipv6AcceptRA(); auto newra = EthernetInterfaceIntf::ipv6AcceptRA( value == DHCPConf::v6stateless || value == DHCPConf::v4v6stateless || value == DHCPConf::v6 || value == DHCPConf::both); if (old4 != new4 || old6 != new6 || oldra != newra) { writeConfigurationFile(); manager.reloadConfigsNoRefresh(); } return value; } EthernetInterface::DHCPConf EthernetInterface::dhcpEnabled() const { if (dhcp6()) { return dhcp4() ? DHCPConf::both : DHCPConf::v6; } else if (dhcp4()) { return ipv6AcceptRA() ? DHCPConf::v4v6stateless : DHCPConf::v4; } return ipv6AcceptRA() ? DHCPConf::v6stateless : DHCPConf::none; } bool EthernetInterface::linkUp() const { if (ifIdx == 0) { return EthernetInterfaceIntf::linkUp(); } return system::intfIsRunning(interfaceName()); } size_t EthernetInterface::mtu() const { if (ifIdx == 0) { return EthernetInterfaceIntf::mtu(); } const auto ifname = interfaceName(); return ignoreError("GetMTU", ifname, std::nullopt, [&] { return system::getMTU(ifname); }) .value_or(EthernetInterfaceIntf::mtu()); } size_t EthernetInterface::mtu(size_t value) { const size_t old = EthernetInterfaceIntf::mtu(); if (value == old) { return value; } const auto ifname = interfaceName(); return EthernetInterfaceIntf::mtu(ignoreError("SetMTU", ifname, old, [&] { system::setMTU(ifname, value); return value; })); } bool EthernetInterface::nicEnabled(bool value) { if (value == EthernetInterfaceIntf::nicEnabled()) { return value; } EthernetInterfaceIntf::nicEnabled(value); writeConfigurationFile(); if (!value) { // We only need to bring down the interface, networkd will always bring // up managed interfaces manager.addReloadPreHook( [ifname = interfaceName()]() { system::setNICUp(ifname, false); }); } manager.reloadConfigsNoRefresh(); return value; } ServerList EthernetInterface::staticNameServers(ServerList value) { for (auto& ip : value) { try { ip = std::to_string(ToAddr{}(ip)); } catch (const std::exception& e) { auto msg = fmt::format("Not a valid IP address `{}`: {}", ip, e.what()); log(msg.c_str()), entry("ADDRESS=%s", ip.c_str()); elog(Argument::ARGUMENT_NAME("StaticNameserver"), Argument::ARGUMENT_VALUE(ip.c_str())); } } try { EthernetInterfaceIntf::staticNameServers(value); writeConfigurationFile(); manager.reloadConfigsNoRefresh(); } catch (const InternalFailure& e) { log("Exception processing DNS entries"); } return EthernetInterfaceIntf::staticNameServers(); } void EthernetInterface::loadNTPServers(const config::Parser& config) { EthernetInterfaceIntf::ntpServers(getNTPServerFromTimeSyncd()); EthernetInterfaceIntf::staticNTPServers( config.map.getValueStrings("Network", "NTP")); } void EthernetInterface::loadNameServers(const config::Parser& config) { EthernetInterfaceIntf::nameservers(getNameServerFromResolvd()); EthernetInterfaceIntf::staticNameServers( config.map.getValueStrings("Network", "DNS")); } ServerList EthernetInterface::getNTPServerFromTimeSyncd() { ServerList servers; // Variable to capture the NTP Server IPs auto method = bus.new_method_call(TIMESYNCD_SERVICE, TIMESYNCD_SERVICE_PATH, PROPERTY_INTERFACE, METHOD_GET); method.append(TIMESYNCD_INTERFACE, "LinkNTPServers"); try { auto reply = bus.call(method); std::variant response; reply.read(response); servers = std::get(response); } catch (const sdbusplus::exception::SdBusError& e) { log( "Failed to get NTP server information from Systemd-Timesyncd"); } return servers; } ServerList EthernetInterface::getNameServerFromResolvd() { ServerList servers; auto OBJ_PATH = fmt::format("{}{}", RESOLVED_SERVICE_PATH, ifIdx); /* The DNS property under org.freedesktop.resolve1.Link interface contains an array containing all DNS servers currently used by resolved. It contains similar information as the DNS server data written to /run/systemd/resolve/resolv.conf. Each structure in the array consists of a numeric network interface index, an address family, and a byte array containing the DNS server address (either 4 bytes in length for IPv4 or 16 bytes in lengths for IPv6). The array contains DNS servers configured system-wide, including those possibly read from a foreign /etc/resolv.conf or the DNS= setting in /etc/systemd/resolved.conf, as well as per-interface DNS server information either retrieved from systemd-networkd or configured by external software via SetLinkDNS(). */ using type = std::vector>>; std::variant name; // Variable to capture the DNS property auto method = bus.new_method_call(RESOLVED_SERVICE, OBJ_PATH.c_str(), PROPERTY_INTERFACE, METHOD_GET); method.append(RESOLVED_INTERFACE, "DNS"); try { auto reply = bus.call(method); reply.read(name); } catch (const sdbusplus::exception_t& e) { log("Failed to get DNS information from Systemd-Resolved"); } auto tupleVector = std::get_if(&name); for (auto i = tupleVector->begin(); i != tupleVector->end(); ++i) { int addressFamily = std::get<0>(*i); std::vector& ipaddress = std::get<1>(*i); servers.push_back(std::to_string( addrFromBuf(addressFamily, stdplus::raw::asView(ipaddress)))); } return servers; } ObjectPath EthernetInterface::createVLAN(uint16_t id) { auto intfName = fmt::format(FMT_COMPILE("{}.{}"), interfaceName(), id); auto idStr = std::to_string(id); if (manager.interfaces.find(intfName) != manager.interfaces.end()) { log("VLAN already exists", entry("VLANID=%u", id)); elog(Argument::ARGUMENT_NAME("VLANId"), Argument::ARGUMENT_VALUE(idStr.c_str())); } auto objRoot = std::string_view(objPath).substr(0, objPath.rfind('/')); auto macStr = MacAddressIntf::macAddress(); std::optional mac; if (!macStr.empty()) { mac.emplace(ToAddr{}(macStr)); } auto info = InterfaceInfo{ .idx = 0, // TODO: Query the correct value after creation .flags = 0, .name = intfName, .mac = std::move(mac), .mtu = mtu(), .parent_idx = ifIdx, .vlan_id = id, }; // Pass the parents nicEnabled property, so that the child // VLAN interface can inherit. auto vlanIntf = std::make_unique( bus, manager, info, objRoot, config::Parser(), /*emit=*/true, nicEnabled()); ObjectPath ret = vlanIntf->objPath; manager.interfaces.emplace(intfName, std::move(vlanIntf)); // write the device file for the vlan interface. config::Parser config; auto& netdev = config.map["NetDev"].emplace_back(); netdev["Name"].emplace_back(intfName); netdev["Kind"].emplace_back("vlan"); config.map["VLAN"].emplace_back()["Id"].emplace_back(std::move(idStr)); config.writeFile(config::pathForIntfDev(manager.getConfDir(), intfName)); writeConfigurationFile(); manager.reloadConfigsNoRefresh(); return ret; } ServerList EthernetInterface::staticNTPServers(ServerList value) { try { EthernetInterfaceIntf::staticNTPServers(value); writeConfigurationFile(); manager.reloadConfigsNoRefresh(); } catch (InternalFailure& e) { log("Exception processing NTP entries"); } return EthernetInterfaceIntf::staticNTPServers(); } ServerList EthernetInterface::ntpServers(ServerList /*servers*/) { elog(NotAllowedArgument::REASON("ReadOnly Property")); } // Need to merge the below function with the code which writes the // config file during factory reset. // TODO openbmc/openbmc#1751 void EthernetInterface::writeConfigurationFile() { config::Parser config; config.map["Match"].emplace_back()["Name"].emplace_back(interfaceName()); { auto& link = config.map["Link"].emplace_back(); #ifdef PERSIST_MAC auto mac = MacAddressIntf::macAddress(); if (!mac.empty()) { link["MACAddress"].emplace_back(mac); } #endif if (!EthernetInterfaceIntf::nicEnabled()) { link["Unmanaged"].emplace_back("yes"); } } { auto& network = config.map["Network"].emplace_back(); auto& lla = network["LinkLocalAddressing"]; #ifdef LINK_LOCAL_AUTOCONFIGURATION lla.emplace_back("yes"); #else lla.emplace_back("no"); #endif network["IPv6AcceptRA"].emplace_back(ipv6AcceptRA() ? "true" : "false"); network["DHCP"].emplace_back(dhcp4() ? (dhcp6() ? "true" : "ipv4") : (dhcp6() ? "ipv6" : "false")); { auto& vlans = network["VLAN"]; for (const auto& [_, intf] : manager.interfaces) { if (intf->vlan && intf->vlan->parentIdx == ifIdx) { vlans.emplace_back(intf->interfaceName()); } } } { auto& ntps = network["NTP"]; for (const auto& ntp : EthernetInterfaceIntf::staticNTPServers()) { ntps.emplace_back(ntp); } } { auto& dnss = network["DNS"]; for (const auto& dns : EthernetInterfaceIntf::staticNameServers()) { dnss.emplace_back(dns); } } { auto& address = network["Address"]; for (const auto& addr : addrs) { if (originIsManuallyAssigned(addr.second->origin())) { address.emplace_back( fmt::format("{}/{}", addr.second->address(), addr.second->prefixLength())); } } } { auto& gateways = network["Gateway"]; if (!dhcp4()) { auto gateway = EthernetInterfaceIntf::defaultGateway(); if (!gateway.empty()) { gateways.emplace_back(gateway); } } if (!dhcp6()) { auto gateway6 = EthernetInterfaceIntf::defaultGateway6(); if (!gateway6.empty()) { gateways.emplace_back(gateway6); } } } } config.map["IPv6AcceptRA"].emplace_back()["DHCPv6Client"].emplace_back( dhcp6() ? "true" : "false"); { auto& neighbors = config.map["Neighbor"]; for (const auto& sneighbor : staticNeighbors) { auto& neighbor = neighbors.emplace_back(); neighbor["Address"].emplace_back(sneighbor.second->ipAddress()); neighbor["MACAddress"].emplace_back(sneighbor.second->macAddress()); } } { auto& dhcp = config.map["DHCP"].emplace_back(); dhcp["ClientIdentifier"].emplace_back("mac"); if (manager.getDHCPConf()) { const auto& conf = *manager.getDHCPConf(); auto dns_enabled = conf.dnsEnabled() ? "true" : "false"; dhcp["UseDNS"].emplace_back(dns_enabled); dhcp["UseDomains"].emplace_back(dns_enabled); dhcp["UseNTP"].emplace_back(conf.ntpEnabled() ? "true" : "false"); dhcp["UseHostname"].emplace_back(conf.hostNameEnabled() ? "true" : "false"); dhcp["SendHostname"].emplace_back( conf.sendHostNameEnabled() ? "true" : "false"); } } auto path = config::pathForIntfConf(manager.getConfDir(), interfaceName()); config.writeFile(path); auto msg = fmt::format("Wrote networkd file: {}", path.native()); log(msg.c_str(), entry("FILE=%s", path.c_str())); } std::string EthernetInterface::macAddress([[maybe_unused]] std::string value) { if (vlan) { log("Tried to set MAC address on VLAN"); elog(); } #ifdef PERSIST_MAC ether_addr newMAC; try { newMAC = ToAddr{}(value); } catch (const std::invalid_argument&) { log("MACAddress is not valid.", entry("MAC=%s", value.c_str())); elog(Argument::ARGUMENT_NAME("MACAddress"), Argument::ARGUMENT_VALUE(value.c_str())); } if (!mac_address::isUnicast(newMAC)) { log("MACAddress is not valid.", entry("MAC=%s", value.c_str())); elog(Argument::ARGUMENT_NAME("MACAddress"), Argument::ARGUMENT_VALUE(value.c_str())); } auto interface = interfaceName(); auto validMAC = std::to_string(newMAC); // We don't need to update the system if the address is unchanged ether_addr oldMAC = ToAddr{}(MacAddressIntf::macAddress()); if (newMAC != oldMAC) { // Update everything that depends on the MAC value for (const auto& [_, intf] : manager.interfaces) { if (intf->vlan && intf->vlan->parentIdx == ifIdx) { intf->MacAddressIntf::macAddress(validMAC); } } MacAddressIntf::macAddress(validMAC); writeConfigurationFile(); manager.addReloadPreHook([interface]() { // The MAC and LLADDRs will only update if the NIC is already down system::setNICUp(interface, false); }); manager.reloadConfigsNoRefresh(); } #ifdef HAVE_UBOOT_ENV // Ensure that the valid address is stored in the u-boot-env auto envVar = interfaceToUbootEthAddr(interface); if (envVar) { // Trimming MAC addresses that are out of range. eg: AA:FF:FF:FF:FF:100; // and those having more than 6 bytes. eg: AA:AA:AA:AA:AA:AA:BB execute("/sbin/fw_setenv", "fw_setenv", envVar->c_str(), validMAC.c_str()); } #endif // HAVE_UBOOT_ENV return value; #else elog( NotAllowedArgument::REASON("Writing MAC address is not allowed")); #endif // PERSIST_MAC } void EthernetInterface::deleteAll() { // clear all the ip on the interface addrs.clear(); writeConfigurationFile(); manager.reloadConfigsNoRefresh(); } std::string EthernetInterface::defaultGateway(std::string gateway) { try { if (!gateway.empty()) { gateway = std::to_string(ToAddr{}(gateway)); } } catch (const std::exception& e) { auto msg = fmt::format("Invalid v4 GW `{}`: {}", gateway, e.what()); log(msg.c_str(), entry("GATEWAY=%s", gateway.c_str())); elog(Argument::ARGUMENT_NAME("GATEWAY"), Argument::ARGUMENT_VALUE(gateway.c_str())); } if (EthernetInterfaceIntf::defaultGateway() == gateway) { return gateway; } EthernetInterfaceIntf::defaultGateway(gateway); writeConfigurationFile(); manager.reloadConfigsNoRefresh(); return gateway; } std::string EthernetInterface::defaultGateway6(std::string gateway) { try { if (!gateway.empty()) { gateway = std::to_string(ToAddr{}(gateway)); } } catch (const std::exception& e) { auto msg = fmt::format("Invalid v6 GW `{}`: {}", gateway, e.what()); log(msg.c_str(), entry("GATEWAY=%s", gateway.c_str())); elog(Argument::ARGUMENT_NAME("GATEWAY"), Argument::ARGUMENT_VALUE(gateway.c_str())); } if (EthernetInterfaceIntf::defaultGateway6() == gateway) { return gateway; } EthernetInterfaceIntf::defaultGateway6(gateway); writeConfigurationFile(); manager.reloadConfigsNoRefresh(); return gateway; } EthernetInterface::VlanProperties::VlanProperties( sdbusplus::bus_t& bus, stdplus::const_zstring objPath, const InterfaceInfo& info, EthernetInterface& eth, bool emitSignal) : VlanIfaces(bus, objPath.c_str(), emitSignal ? VlanIfaces::action::defer_emit : VlanIfaces::action::emit_no_signals), parentIdx(*info.parent_idx), eth(eth) { VlanIntf::id(*info.vlan_id); if (emitSignal) { this->emit_object_added(); } } void EthernetInterface::VlanProperties::delete_() { auto intf = eth.interfaceName(); // Remove all configs for the current interface const auto& confDir = eth.manager.getConfDir(); std::error_code ec; std::filesystem::remove(config::pathForIntfConf(confDir, intf), ec); std::filesystem::remove(config::pathForIntfDev(confDir, intf), ec); // Write an updated parent interface since it has a VLAN entry for (const auto& [_, intf] : eth.manager.interfaces) { if (intf->ifIdx == parentIdx) { intf->writeConfigurationFile(); } } // We need to forcibly delete the interface as systemd does not deleteInterface(intf); if (eth.ifIdx > 0) { eth.manager.interfacesByIdx.erase(eth.ifIdx); } eth.manager.interfaces.erase(intf); } } // namespace network } // namespace phosphor