wireguard-apple/WireGuard/WireGuardNetworkExtension/DNSResolver.swift
Jason A. Donenfeld 668c4a475c macOS: remove mobile network tweeks
Signed-off-by: Jason A. Donenfeld <Jason@zx2c4.com>
2019-01-22 13:11:28 +01:00

159 lines
6.4 KiB
Swift

// SPDX-License-Identifier: MIT
// Copyright © 2018-2019 WireGuard LLC. All Rights Reserved.
import Network
import Foundation
class DNSResolver {
static func isAllEndpointsAlreadyResolved(endpoints: [Endpoint?]) -> Bool {
for endpoint in endpoints {
guard let endpoint = endpoint else { continue }
if !endpoint.hasHostAsIPAddress() {
return false
}
}
return true
}
static func resolveSync(endpoints: [Endpoint?]) -> [Endpoint?]? {
let dispatchGroup = DispatchGroup()
if isAllEndpointsAlreadyResolved(endpoints: endpoints) {
return endpoints
}
var resolvedEndpoints: [Endpoint?] = Array(repeating: nil, count: endpoints.count)
for (index, endpoint) in endpoints.enumerated() {
guard let endpoint = endpoint else { continue }
if endpoint.hasHostAsIPAddress() {
resolvedEndpoints[index] = endpoint
} else {
let workItem = DispatchWorkItem {
resolvedEndpoints[index] = DNSResolver.resolveSync(endpoint: endpoint)
}
DispatchQueue.global(qos: .userInitiated).async(group: dispatchGroup, execute: workItem)
}
}
dispatchGroup.wait() // TODO: Timeout?
var hostnamesWithDnsResolutionFailure = [String]()
assert(endpoints.count == resolvedEndpoints.count)
for tuple in zip(endpoints, resolvedEndpoints) {
let endpoint = tuple.0
let resolvedEndpoint = tuple.1
if let endpoint = endpoint {
if resolvedEndpoint == nil {
guard let hostname = endpoint.hostname() else { fatalError() }
hostnamesWithDnsResolutionFailure.append(hostname)
}
}
}
if !hostnamesWithDnsResolutionFailure.isEmpty {
wg_log(.error, message: "DNS resolution failed for the following hostnames: \(hostnamesWithDnsResolutionFailure.joined(separator: ", "))")
return nil
}
return resolvedEndpoints
}
private static func resolveSync(endpoint: Endpoint) -> Endpoint? {
switch endpoint.host {
case .name(let name, _):
var resultPointer = UnsafeMutablePointer<addrinfo>(OpaquePointer(bitPattern: 0))
var hints = addrinfo(
ai_flags: AI_ALL, // We set this to ALL so that we get v4 addresses even on DNS64 networks
ai_family: AF_UNSPEC,
ai_socktype: SOCK_DGRAM,
ai_protocol: IPPROTO_UDP,
ai_addrlen: 0,
ai_canonname: nil,
ai_addr: nil,
ai_next: nil)
if getaddrinfo(name, "\(endpoint.port)", &hints, &resultPointer) != 0 {
return nil
}
var next = resultPointer
var ipv4Address: IPv4Address?
var ipv6Address: IPv6Address?
while next != nil {
let result = next!.pointee
next = result.ai_next
if result.ai_family == AF_INET && result.ai_addrlen == MemoryLayout<sockaddr_in>.size {
var sa4 = UnsafeRawPointer(result.ai_addr)!.assumingMemoryBound(to: sockaddr_in.self).pointee
ipv4Address = IPv4Address(Data(bytes: &sa4.sin_addr, count: MemoryLayout<in_addr>.size))
break // If we found an IPv4 address, we can stop
} else if result.ai_family == AF_INET6 && result.ai_addrlen == MemoryLayout<sockaddr_in6>.size {
var sa6 = UnsafeRawPointer(result.ai_addr)!.assumingMemoryBound(to: sockaddr_in6.self).pointee
ipv6Address = IPv6Address(Data(bytes: &sa6.sin6_addr, count: MemoryLayout<in6_addr>.size))
continue // If we already have an IPv6 address, we can skip this one
}
}
freeaddrinfo(resultPointer)
// We prefer an IPv4 address over an IPv6 address
if let ipv4Address = ipv4Address {
return Endpoint(host: .ipv4(ipv4Address), port: endpoint.port)
} else if let ipv6Address = ipv6Address {
return Endpoint(host: .ipv6(ipv6Address), port: endpoint.port)
} else {
return nil
}
default:
return endpoint
}
}
}
extension Endpoint {
func withReresolvedIP() -> Endpoint {
#if os(iOS)
var ret = self
let hostname: String
switch host {
case .name(let name, _):
hostname = name
case .ipv4(let address):
hostname = "\(address)"
case .ipv6(let address):
hostname = "\(address)"
}
var resultPointer = UnsafeMutablePointer<addrinfo>(OpaquePointer(bitPattern: 0))
var hints = addrinfo(
ai_flags: 0, // We set this to zero so that we actually resolve this using DNS64
ai_family: AF_UNSPEC,
ai_socktype: SOCK_DGRAM,
ai_protocol: IPPROTO_UDP,
ai_addrlen: 0,
ai_canonname: nil,
ai_addr: nil,
ai_next: nil)
if getaddrinfo(hostname, "\(port)", &hints, &resultPointer) != 0 || resultPointer == nil {
return ret
}
let result = resultPointer!.pointee
if result.ai_family == AF_INET && result.ai_addrlen == MemoryLayout<sockaddr_in>.size {
var sa4 = UnsafeRawPointer(result.ai_addr)!.assumingMemoryBound(to: sockaddr_in.self).pointee
let addr = IPv4Address(Data(bytes: &sa4.sin_addr, count: MemoryLayout<in_addr>.size))
ret = Endpoint(host: .ipv4(addr!), port: port)
} else if result.ai_family == AF_INET6 && result.ai_addrlen == MemoryLayout<sockaddr_in6>.size {
var sa6 = UnsafeRawPointer(result.ai_addr)!.assumingMemoryBound(to: sockaddr_in6.self).pointee
let addr = IPv6Address(Data(bytes: &sa6.sin6_addr, count: MemoryLayout<in6_addr>.size))
ret = Endpoint(host: .ipv6(addr!), port: port)
}
freeaddrinfo(resultPointer)
if ret.host != host {
wg_log(.debug, message: "DNS64: mapped \(host) to \(ret.host)")
} else {
wg_log(.debug, message: "DNS64: mapped \(host) to itself.")
}
return ret
#elseif os(macOS)
return self
#else
#error("Unimplemented")
#endif
}
}