7b5b564a6e
macOS will use the wrong source address unless we add explicit routes that mention the self-pointing gateway. Actually, it won't add any implicit routes on its own, so in order to route the masks of the addresses, we have to add our own routes explicitly. However, this still doesn't fix the problem while inside of the network extension, even though it works outside it. Signed-off-by: Jason A. Donenfeld <Jason@zx2c4.com>
184 lines
8.7 KiB
Swift
184 lines
8.7 KiB
Swift
// SPDX-License-Identifier: MIT
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// Copyright © 2018-2020 WireGuard LLC. All Rights Reserved.
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import Foundation
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import Network
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import NetworkExtension
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#if SWIFT_PACKAGE
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import WireGuardKitC
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#endif
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/// A type alias for `Result` type that holds a tuple with source and resolved endpoint.
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typealias EndpointResolutionResult = Result<(Endpoint, Endpoint), DNSResolutionError>
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class PacketTunnelSettingsGenerator {
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let tunnelConfiguration: TunnelConfiguration
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let resolvedEndpoints: [Endpoint?]
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init(tunnelConfiguration: TunnelConfiguration, resolvedEndpoints: [Endpoint?]) {
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self.tunnelConfiguration = tunnelConfiguration
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self.resolvedEndpoints = resolvedEndpoints
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}
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func endpointUapiConfiguration() -> (String, [EndpointResolutionResult?]) {
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var resolutionResults = [EndpointResolutionResult?]()
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var wgSettings = ""
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assert(tunnelConfiguration.peers.count == resolvedEndpoints.count)
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for (peer, resolvedEndpoint) in zip(self.tunnelConfiguration.peers, self.resolvedEndpoints) {
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wgSettings.append("public_key=\(peer.publicKey.hexKey)\n")
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let result = resolvedEndpoint.map(Self.reresolveEndpoint)
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if case .success((_, let resolvedEndpoint)) = result {
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if case .name = resolvedEndpoint.host { assert(false, "Endpoint is not resolved") }
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wgSettings.append("endpoint=\(resolvedEndpoint.stringRepresentation)\n")
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}
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resolutionResults.append(result)
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}
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return (wgSettings, resolutionResults)
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}
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func uapiConfiguration() -> (String, [EndpointResolutionResult?]) {
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var resolutionResults = [EndpointResolutionResult?]()
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var wgSettings = ""
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wgSettings.append("private_key=\(tunnelConfiguration.interface.privateKey.hexKey)\n")
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if let listenPort = tunnelConfiguration.interface.listenPort {
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wgSettings.append("listen_port=\(listenPort)\n")
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}
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if !tunnelConfiguration.peers.isEmpty {
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wgSettings.append("replace_peers=true\n")
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}
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assert(tunnelConfiguration.peers.count == resolvedEndpoints.count)
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for (peer, resolvedEndpoint) in zip(self.tunnelConfiguration.peers, self.resolvedEndpoints) {
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wgSettings.append("public_key=\(peer.publicKey.hexKey)\n")
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if let preSharedKey = peer.preSharedKey?.hexKey {
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wgSettings.append("preshared_key=\(preSharedKey)\n")
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}
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let result = resolvedEndpoint.map(Self.reresolveEndpoint)
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if case .success((_, let resolvedEndpoint)) = result {
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if case .name = resolvedEndpoint.host { assert(false, "Endpoint is not resolved") }
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wgSettings.append("endpoint=\(resolvedEndpoint.stringRepresentation)\n")
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}
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resolutionResults.append(result)
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let persistentKeepAlive = peer.persistentKeepAlive ?? 0
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wgSettings.append("persistent_keepalive_interval=\(persistentKeepAlive)\n")
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if !peer.allowedIPs.isEmpty {
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wgSettings.append("replace_allowed_ips=true\n")
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peer.allowedIPs.forEach { wgSettings.append("allowed_ip=\($0.stringRepresentation)\n") }
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}
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}
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return (wgSettings, resolutionResults)
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}
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func generateNetworkSettings() -> NEPacketTunnelNetworkSettings {
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/* iOS requires a tunnel endpoint, whereas in WireGuard it's valid for
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* a tunnel to have no endpoint, or for there to be many endpoints, in
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* which case, displaying a single one in settings doesn't really
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* make sense. So, we fill it in with this placeholder, which is not
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* a valid IP address that will actually route over the Internet.
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*/
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let networkSettings = NEPacketTunnelNetworkSettings(tunnelRemoteAddress: "127.0.0.1")
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if !tunnelConfiguration.interface.dnsSearch.isEmpty || !tunnelConfiguration.interface.dns.isEmpty {
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let dnsServerStrings = tunnelConfiguration.interface.dns.map { $0.stringRepresentation }
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let dnsSettings = NEDNSSettings(servers: dnsServerStrings)
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dnsSettings.searchDomains = tunnelConfiguration.interface.dnsSearch
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if !tunnelConfiguration.interface.dns.isEmpty {
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dnsSettings.matchDomains = [""] // All DNS queries must first go through the tunnel's DNS
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}
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networkSettings.dnsSettings = dnsSettings
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}
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let mtu = tunnelConfiguration.interface.mtu ?? 0
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/* 0 means automatic MTU. In theory, we should just do
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* `networkSettings.tunnelOverheadBytes = 80` but in
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* practice there are too many broken networks out there.
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* Instead set it to 1280. Boohoo. Maybe someday we'll
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* add a nob, maybe, or iOS will do probing for us.
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*/
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if mtu == 0 {
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#if os(iOS)
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networkSettings.mtu = NSNumber(value: 1280)
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#elseif os(macOS)
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networkSettings.tunnelOverheadBytes = 80
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#else
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#error("Unimplemented")
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#endif
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} else {
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networkSettings.mtu = NSNumber(value: mtu)
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}
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let (ipv4Addresses, ipv6Addresses) = addresses()
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let (ipv4IncludedRoutes, ipv6IncludedRoutes) = includedRoutes()
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let ipv4Settings = NEIPv4Settings(addresses: ipv4Addresses.map { $0.destinationAddress }, subnetMasks: ipv4Addresses.map { $0.destinationSubnetMask })
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ipv4Settings.includedRoutes = ipv4IncludedRoutes
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networkSettings.ipv4Settings = ipv4Settings
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let ipv6Settings = NEIPv6Settings(addresses: ipv6Addresses.map { $0.destinationAddress }, networkPrefixLengths: ipv6Addresses.map { $0.destinationNetworkPrefixLength })
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ipv6Settings.includedRoutes = ipv6IncludedRoutes
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networkSettings.ipv6Settings = ipv6Settings
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return networkSettings
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}
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private func addresses() -> ([NEIPv4Route], [NEIPv6Route]) {
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var ipv4Routes = [NEIPv4Route]()
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var ipv6Routes = [NEIPv6Route]()
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for addressRange in tunnelConfiguration.interface.addresses {
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if addressRange.address is IPv4Address {
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ipv4Routes.append(NEIPv4Route(destinationAddress: "\(addressRange.address)", subnetMask: "\(addressRange.subnetMask())"))
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} else if addressRange.address is IPv6Address {
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/* Big fat ugly hack for broken iOS networking stack: the smallest prefix that will have
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* any effect on iOS is a /120, so we clamp everything above to /120. This is potentially
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* very bad, if various network parameters were actually relying on that subnet being
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* intentionally small. TODO: talk about this with upstream iOS devs.
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*/
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ipv6Routes.append(NEIPv6Route(destinationAddress: "\(addressRange.address)", networkPrefixLength: NSNumber(value: min(120, addressRange.networkPrefixLength))))
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}
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}
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return (ipv4Routes, ipv6Routes)
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}
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private func includedRoutes() -> ([NEIPv4Route], [NEIPv6Route]) {
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var ipv4IncludedRoutes = [NEIPv4Route]()
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var ipv6IncludedRoutes = [NEIPv6Route]()
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for addressRange in tunnelConfiguration.interface.addresses {
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if addressRange.address is IPv4Address {
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let route = NEIPv4Route(destinationAddress: "\(addressRange.maskedAddress())", subnetMask: "\(addressRange.subnetMask())")
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route.gatewayAddress = "\(addressRange.address)"
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ipv4IncludedRoutes.append(route)
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} else if addressRange.address is IPv6Address {
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let route = NEIPv6Route(destinationAddress: "\(addressRange.maskedAddress())", networkPrefixLength: NSNumber(value: addressRange.networkPrefixLength))
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route.gatewayAddress = "\(addressRange.address)"
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ipv6IncludedRoutes.append(route)
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}
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}
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for peer in tunnelConfiguration.peers {
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for addressRange in peer.allowedIPs {
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if addressRange.address is IPv4Address {
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ipv4IncludedRoutes.append(NEIPv4Route(destinationAddress: "\(addressRange.address)", subnetMask: "\(addressRange.subnetMask())"))
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} else if addressRange.address is IPv6Address {
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ipv6IncludedRoutes.append(NEIPv6Route(destinationAddress: "\(addressRange.address)", networkPrefixLength: NSNumber(value: addressRange.networkPrefixLength)))
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}
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}
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}
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return (ipv4IncludedRoutes, ipv6IncludedRoutes)
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}
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private class func reresolveEndpoint(endpoint: Endpoint) -> EndpointResolutionResult {
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return Result { (endpoint, try endpoint.withReresolvedIP()) }
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.mapError { error -> DNSResolutionError in
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// swiftlint:disable:next force_cast
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return error as! DNSResolutionError
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}
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}
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}
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