/* * Copyright (c) 2020, the SerenityOS developers. * * SPDX-License-Identifier: BSD-2-Clause */ #include "DHCPv4Client.h" #include #include #include #include #include #include #include #include #include static u8 mac_part(const Vector& parts, size_t index) { auto result = AK::StringUtils::convert_to_uint_from_hex(parts.at(index)); VERIFY(result.has_value()); return result.value(); } static MACAddress mac_from_string(const String& str) { auto chunks = str.split(':'); VERIFY(chunks.size() == 6); // should we...worry about this? return { mac_part(chunks, 0), mac_part(chunks, 1), mac_part(chunks, 2), mac_part(chunks, 3), mac_part(chunks, 4), mac_part(chunks, 5) }; } static bool send(const InterfaceDescriptor& iface, const DHCPv4Packet& packet, Core::Object*) { int fd = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP); if (fd < 0) { dbgln("ERROR: socket :: {}", strerror(errno)); return false; } if (setsockopt(fd, SOL_SOCKET, SO_BINDTODEVICE, iface.ifname.characters(), IFNAMSIZ) < 0) { dbgln("ERROR: setsockopt(SO_BINDTODEVICE) :: {}", strerror(errno)); return false; } sockaddr_in dst; memset(&dst, 0, sizeof(dst)); dst.sin_family = AF_INET; dst.sin_port = htons(67); dst.sin_addr.s_addr = IPv4Address { 255, 255, 255, 255 }.to_u32(); memset(&dst.sin_zero, 0, sizeof(dst.sin_zero)); dbgln_if(DHCPV4CLIENT_DEBUG, "sendto({} bound to {}, ..., {} at {}) = ...?", fd, iface.ifname, dst.sin_addr.s_addr, dst.sin_port); auto rc = sendto(fd, &packet, sizeof(packet), 0, (sockaddr*)&dst, sizeof(dst)); dbgln_if(DHCPV4CLIENT_DEBUG, "sendto({}) = {}", fd, rc); if (rc < 0) { dbgln("sendto failed with {}", strerror(errno)); return false; } return true; } static void set_params(const InterfaceDescriptor& iface, const IPv4Address& ipv4_addr, const IPv4Address& netmask, const IPv4Address& gateway) { int fd = socket(AF_INET, SOCK_DGRAM, IPPROTO_IP); if (fd < 0) { dbgln("ERROR: socket :: {}", strerror(errno)); return; } struct ifreq ifr; memset(&ifr, 0, sizeof(ifr)); bool fits = iface.ifname.copy_characters_to_buffer(ifr.ifr_name, IFNAMSIZ); if (!fits) { dbgln("Interface name doesn't fit into IFNAMSIZ!"); return; } // set the IP address ifr.ifr_addr.sa_family = AF_INET; ((sockaddr_in&)ifr.ifr_addr).sin_addr.s_addr = ipv4_addr.to_in_addr_t(); if (ioctl(fd, SIOCSIFADDR, &ifr) < 0) { dbgln("ERROR: ioctl(SIOCSIFADDR) :: {}", strerror(errno)); } // set the network mask ((sockaddr_in&)ifr.ifr_netmask).sin_addr.s_addr = netmask.to_in_addr_t(); if (ioctl(fd, SIOCSIFNETMASK, &ifr) < 0) { dbgln("ERROR: ioctl(SIOCSIFNETMASK) :: {}", strerror(errno)); } // set the default gateway struct rtentry rt; memset(&rt, 0, sizeof(rt)); rt.rt_dev = const_cast(iface.ifname.characters()); rt.rt_gateway.sa_family = AF_INET; ((sockaddr_in&)rt.rt_gateway).sin_addr.s_addr = gateway.to_in_addr_t(); rt.rt_flags = RTF_UP | RTF_GATEWAY; if (ioctl(fd, SIOCADDRT, &rt) < 0) { dbgln("Error: ioctl(SIOCADDRT) :: {}", strerror(errno)); } } DHCPv4Client::DHCPv4Client() { m_server = Core::UDPServer::construct(this); m_server->on_ready_to_receive = [this] { auto buffer = m_server->receive(sizeof(DHCPv4Packet)); dbgln_if(DHCPV4CLIENT_DEBUG, "Received {} bytes", buffer.size()); if (buffer.size() < sizeof(DHCPv4Packet) - DHCPV4_OPTION_FIELD_MAX_LENGTH + 1 || buffer.size() > sizeof(DHCPv4Packet)) { dbgln("we expected {}-{} bytes, this is a bad packet", sizeof(DHCPv4Packet) - DHCPV4_OPTION_FIELD_MAX_LENGTH + 1, sizeof(DHCPv4Packet)); return; } auto& packet = *(DHCPv4Packet*)buffer.data(); process_incoming(packet); }; if (!m_server->bind({}, 68)) { dbgln("The server we just created somehow came already bound, refusing to continue"); VERIFY_NOT_REACHED(); } m_check_timer = Core::Timer::create_repeating( 1000, [this] { try_discover_ifs(); }, this); m_check_timer->start(); try_discover_ifs(); } void DHCPv4Client::try_discover_ifs() { auto ifs_result = get_discoverable_interfaces(); if (ifs_result.is_error()) return; bool sent_discover_request = false; Interfaces& ifs = ifs_result.value(); for (auto& iface : ifs.ready) { if (iface.current_ip_address != IPv4Address { 0, 0, 0, 0 }) continue; dhcp_discover(iface); sent_discover_request = true; } if (sent_discover_request) { auto current_interval = m_check_timer->interval(); if (current_interval < m_max_timer_backoff_interval) current_interval *= 1.9f; m_check_timer->set_interval(current_interval); } else { m_check_timer->set_interval(1000); } } ErrorOr DHCPv4Client::get_discoverable_interfaces() { auto file = TRY(Core::File::open("/proc/net/adapters", Core::OpenMode::ReadOnly)); auto file_contents = file->read_all(); auto json = JsonValue::from_string(file_contents); if (json.is_error() || !json.value().is_array()) { dbgln("Error: No network adapters available"); return Error::from_string_literal("No network adapters available"sv); } Vector ifnames_to_immediately_discover, ifnames_to_attempt_later; json.value().as_array().for_each([&ifnames_to_immediately_discover, &ifnames_to_attempt_later](auto& value) { auto if_object = value.as_object(); if (if_object.get("class_name").to_string() == "LoopbackAdapter") return; auto name = if_object.get("name").to_string(); auto mac = if_object.get("mac_address").to_string(); auto is_up = if_object.get("link_up").to_bool(); auto ipv4_addr_maybe = IPv4Address::from_string(if_object.get("ipv4_address").to_string()); auto ipv4_addr = ipv4_addr_maybe.has_value() ? ipv4_addr_maybe.value() : IPv4Address { 0, 0, 0, 0 }; if (is_up) { dbgln_if(DHCPV4_DEBUG, "Found adapter '{}' with mac {}, and it was up!", name, mac); ifnames_to_immediately_discover.empend(name, mac_from_string(mac), ipv4_addr); } else { dbgln_if(DHCPV4_DEBUG, "Found adapter '{}' with mac {}, but it was down", name, mac); ifnames_to_attempt_later.empend(name, mac_from_string(mac), ipv4_addr); } }); return Interfaces { move(ifnames_to_immediately_discover), move(ifnames_to_attempt_later) }; } DHCPv4Client::~DHCPv4Client() { } void DHCPv4Client::handle_offer(const DHCPv4Packet& packet, const ParsedDHCPv4Options& options) { dbgln("We were offered {} for {}", packet.yiaddr().to_string(), options.get(DHCPOption::IPAddressLeaseTime).value_or(0)); auto* transaction = const_cast(m_ongoing_transactions.get(packet.xid()).value_or(nullptr)); if (!transaction) { dbgln("we're not looking for {}", packet.xid()); return; } if (transaction->has_ip) return; if (transaction->accepted_offer) { // we've accepted someone's offer, but they haven't given us an ack // TODO: maybe record this offer? return; } // TAKE IT... transaction->offered_lease_time = options.get(DHCPOption::IPAddressLeaseTime).value(); dhcp_request(*transaction, packet); } void DHCPv4Client::handle_ack(const DHCPv4Packet& packet, const ParsedDHCPv4Options& options) { if constexpr (DHCPV4CLIENT_DEBUG) { dbgln("The DHCP server handed us {}", packet.yiaddr().to_string()); dbgln("Here are the options: {}", options.to_string()); } auto* transaction = const_cast(m_ongoing_transactions.get(packet.xid()).value_or(nullptr)); if (!transaction) { dbgln("we're not looking for {}", packet.xid()); return; } transaction->has_ip = true; auto& interface = transaction->interface; auto new_ip = packet.yiaddr(); interface.current_ip_address = new_ip; auto lease_time = AK::convert_between_host_and_network_endian(options.get(DHCPOption::IPAddressLeaseTime).value_or(transaction->offered_lease_time)); // set a timer for the duration of the lease, we shall renew if needed (void)Core::Timer::create_single_shot( lease_time * 1000, [this, transaction, interface = InterfaceDescriptor { interface }] { transaction->accepted_offer = false; transaction->has_ip = false; dhcp_discover(interface); }, this); set_params(transaction->interface, new_ip, options.get(DHCPOption::SubnetMask).value(), options.get_many(DHCPOption::Router, 1).first()); } void DHCPv4Client::handle_nak(const DHCPv4Packet& packet, const ParsedDHCPv4Options& options) { dbgln("The DHCP server told us to go chase our own tail about {}", packet.yiaddr().to_string()); dbgln("Here are the options: {}", options.to_string()); // make another request a bit later :shrug: auto* transaction = const_cast(m_ongoing_transactions.get(packet.xid()).value_or(nullptr)); if (!transaction) { dbgln("we're not looking for {}", packet.xid()); return; } transaction->accepted_offer = false; transaction->has_ip = false; auto& iface = transaction->interface; (void)Core::Timer::create_single_shot( 10000, [this, iface = InterfaceDescriptor { iface }] { dhcp_discover(iface); }, this); } void DHCPv4Client::process_incoming(const DHCPv4Packet& packet) { auto options = packet.parse_options(); dbgln_if(DHCPV4CLIENT_DEBUG, "Here are the options: {}", options.to_string()); auto value_or_error = options.get(DHCPOption::DHCPMessageType); if (!value_or_error.has_value()) return; auto value = value_or_error.value(); switch (value) { case DHCPMessageType::DHCPOffer: handle_offer(packet, options); break; case DHCPMessageType::DHCPAck: handle_ack(packet, options); break; case DHCPMessageType::DHCPNak: handle_nak(packet, options); break; case DHCPMessageType::DHCPDiscover: case DHCPMessageType::DHCPRequest: case DHCPMessageType::DHCPRelease: // These are not for us // we're just getting them because there are other people on our subnet // broadcasting stuff break; case DHCPMessageType::DHCPDecline: default: dbgln("I dunno what to do with this {}", (u8)value); VERIFY_NOT_REACHED(); break; } } void DHCPv4Client::dhcp_discover(const InterfaceDescriptor& iface) { auto transaction_id = get_random(); if constexpr (DHCPV4CLIENT_DEBUG) { dbgln("Trying to lease an IP for {} with ID {}", iface.ifname, transaction_id); if (!iface.current_ip_address.is_zero()) dbgln("going to request the server to hand us {}", iface.current_ip_address.to_string()); } DHCPv4PacketBuilder builder; DHCPv4Packet& packet = builder.peek(); packet.set_op(DHCPv4Op::BootRequest); packet.set_htype(1); // 10mb ethernet packet.set_hlen(sizeof(MACAddress)); packet.set_xid(transaction_id); packet.set_flags(DHCPv4Flags::Broadcast); packet.ciaddr() = iface.current_ip_address; packet.set_chaddr(iface.mac_address); packet.set_secs(65535); // we lie // set packet options builder.set_message_type(DHCPMessageType::DHCPDiscover); auto& dhcp_packet = builder.build(); // broadcast the discover request if (!send(iface, dhcp_packet, this)) return; m_ongoing_transactions.set(transaction_id, make(iface)); } void DHCPv4Client::dhcp_request(DHCPv4Transaction& transaction, const DHCPv4Packet& offer) { auto& iface = transaction.interface; dbgln("Leasing the IP {} for adapter {}", offer.yiaddr().to_string(), iface.ifname); DHCPv4PacketBuilder builder; DHCPv4Packet& packet = builder.peek(); packet.set_op(DHCPv4Op::BootRequest); packet.ciaddr() = iface.current_ip_address; packet.set_htype(1); // 10mb ethernet packet.set_hlen(sizeof(MACAddress)); packet.set_xid(offer.xid()); packet.set_flags(DHCPv4Flags::Broadcast); packet.set_chaddr(iface.mac_address); packet.set_secs(65535); // we lie // set packet options builder.set_message_type(DHCPMessageType::DHCPRequest); builder.add_option(DHCPOption::RequestedIPAddress, sizeof(IPv4Address), &offer.yiaddr()); auto& dhcp_packet = builder.build(); // broadcast the "request" request if (!send(iface, dhcp_packet, this)) return; transaction.accepted_offer = true; }