burrow/Apple/NetworkExtension/PacketTunnelProvider.swift
JettChenT d1638726ca Add proxy subscription runtime support
Add daemon RPCs, Apple and GTK import flows, packet proxy runtime support, diagnostics, and BEPs for proxy subscription handling.

Redact subscription URL secrets from fetch errors before they reach logs or UI surfaces.
2026-06-01 15:23:17 +08:00

355 lines
13 KiB
Swift

import AsyncAlgorithms
import BurrowConfiguration
import BurrowCore
import GRPC
import libburrow
import NetworkExtension
import os
private final class SendableCallbackBox<Callback>: @unchecked Sendable {
let callback: Callback
init(_ callback: Callback) {
self.callback = callback
}
}
final class PacketTunnelProvider: NEPacketTunnelProvider, @unchecked Sendable {
enum Error: Swift.Error {
case missingTunnelConfiguration
}
private let logger = Logger.logger(for: PacketTunnelProvider.self)
private var packetCall: GRPCAsyncBidirectionalStreamingCall<Burrow_TunnelPacket, Burrow_TunnelPacket>?
private var inboundPacketTask: Task<Void, Never>?
private var outboundPacketTask: Task<Void, Never>?
private var client: TunnelClient {
get throws { try _client.get() }
}
private let _client: Result<TunnelClient, Swift.Error> = Result {
try TunnelClient.unix(socketURL: Constants.packetTunnelSocketURL)
}
override init() {
do {
libburrow.spawnInProcess(
socketPath: try Constants.packetTunnelSocketURL.path(percentEncoded: false),
databasePath: try Constants.databaseURL.path(percentEncoded: false)
)
} catch {
logger.error("Failed to spawn networking thread: \(error)")
}
}
override func startTunnel(
options: [String: NSObject]?,
completionHandler: @escaping (Swift.Error?) -> Void
) {
let completion = SendableCallbackBox(completionHandler)
Task {
do {
_ = try await client.tunnelStart(.init())
let configuration = try await Array(client.tunnelConfiguration(.init()).prefix(1)).first
guard let settings = configuration?.settings else {
throw Error.missingTunnelConfiguration
}
if let configuration {
logger.log(
"Applying tunnel configuration addresses=\(configuration.addresses.joined(separator: ","), privacy: .public) routes=\(configuration.routes.joined(separator: ","), privacy: .public) excludedRoutes=\(configuration.excludedRoutes.joined(separator: ","), privacy: .public) dns=\(configuration.dnsServers.joined(separator: ","), privacy: .public) includeDefaultRoute=\(configuration.includeDefaultRoute, privacy: .public)"
)
}
try await setTunnelNetworkSettings(settings)
try startPacketBridge()
logger.log("Started tunnel with network settings: \(settings)")
completion.callback(nil)
} catch {
logger.error("Failed to start tunnel: \(error)")
stopPacketBridge()
completion.callback(error)
}
}
}
override func stopTunnel(
with reason: NEProviderStopReason,
completionHandler: @escaping () -> Void
) {
let completion = SendableCallbackBox(completionHandler)
Task {
stopPacketBridge()
do {
_ = try await client.tunnelStop(.init())
logger.log("Stopped client")
} catch {
logger.error("Failed to stop tunnel: \(error)")
}
completion.callback()
}
}
}
extension PacketTunnelProvider {
private func startPacketBridge() throws {
stopPacketBridge()
let packetClient = TunnelPacketClient.unix(socketURL: try Constants.packetTunnelSocketURL)
let call = packetClient.makeTunnelPacketsCall()
self.packetCall = call
inboundPacketTask = Task { [weak self] in
guard let self else { return }
var packetCount = 0
var byteCount = 0
do {
for try await packet in call.responseStream {
let payload = packet.payload
packetCount += 1
byteCount += payload.count
if packetCount == 1 || packetCount % 1024 == 0 {
self.logger.log("Tunnel packet receive progress packets=\(packetCount, privacy: .public) bytes=\(byteCount, privacy: .public) lastBytes=\(payload.count, privacy: .public)")
}
self.packetFlow.writePackets(
[payload],
withProtocols: [Self.protocolNumber(for: payload)]
)
}
} catch {
guard !Task.isCancelled else { return }
self.logger.error("Tunnel packet receive loop failed: \(error)")
}
}
outboundPacketTask = Task { [weak self] in
guard let self else { return }
defer { call.requestStream.finish() }
var packetCount = 0
var byteCount = 0
do {
while !Task.isCancelled {
let packets = await self.readPacketsBatch()
for (payload, _) in packets {
packetCount += 1
byteCount += payload.count
if packetCount == 1 || packetCount % 1024 == 0 {
self.logger.log("Tunnel packet send progress packets=\(packetCount, privacy: .public) bytes=\(byteCount, privacy: .public) lastBytes=\(payload.count, privacy: .public)")
}
var packet = Burrow_TunnelPacket()
packet.payload = payload
try await call.requestStream.send(packet)
}
}
} catch {
guard !Task.isCancelled else { return }
self.logger.error("Tunnel packet send loop failed: \(error)")
}
}
}
private func stopPacketBridge() {
logger.log("Stopping tunnel packet bridge")
inboundPacketTask?.cancel()
inboundPacketTask = nil
outboundPacketTask?.cancel()
outboundPacketTask = nil
packetCall?.cancel()
packetCall = nil
}
private func readPacketsBatch() async -> [(Data, NSNumber)] {
await withCheckedContinuation { continuation in
packetFlow.readPackets { packets, protocols in
continuation.resume(returning: Array(zip(packets, protocols)))
}
}
}
private static func protocolNumber(for payload: Data) -> NSNumber {
guard let version = payload.first.map({ $0 >> 4 }) else {
return NSNumber(value: AF_INET)
}
switch version {
case 6:
return NSNumber(value: AF_INET6)
default:
return NSNumber(value: AF_INET)
}
}
}
extension Burrow_TunnelConfigurationResponse {
fileprivate var settings: NEPacketTunnelNetworkSettings {
let parsedAddresses = addresses.compactMap(ParsedTunnelAddress.init(rawValue:))
let ipv4Addresses = parsedAddresses.compactMap(\.ipv4Address)
let ipv6Addresses = parsedAddresses.compactMap(\.ipv6Address)
let parsedRoutes = routes.compactMap(ParsedTunnelRoute.init(rawValue:))
var ipv4Routes = parsedRoutes.compactMap(\.ipv4Route)
var ipv6Routes = parsedRoutes.compactMap(\.ipv6Route)
let parsedExcludedRoutes = excludedRoutes.compactMap(ParsedTunnelRoute.init(rawValue:))
let excludedIPv4Routes = parsedExcludedRoutes.compactMap(\.ipv4Route)
let excludedIPv6Routes = parsedExcludedRoutes.compactMap(\.ipv6Route)
if includeDefaultRoute {
ipv4Routes.append(.default())
ipv6Routes.append(.default())
}
let settings = NEPacketTunnelNetworkSettings(tunnelRemoteAddress: "1.1.1.1")
settings.mtu = NSNumber(value: mtu)
if !ipv4Addresses.isEmpty {
let ipv4Settings = NEIPv4Settings(
addresses: ipv4Addresses.map(\.address),
subnetMasks: ipv4Addresses.map(\.subnetMask)
)
if !ipv4Routes.isEmpty {
ipv4Settings.includedRoutes = ipv4Routes
}
if !excludedIPv4Routes.isEmpty {
ipv4Settings.excludedRoutes = excludedIPv4Routes
}
settings.ipv4Settings = ipv4Settings
}
if !ipv6Addresses.isEmpty {
let ipv6Settings = NEIPv6Settings(
addresses: ipv6Addresses.map(\.address),
networkPrefixLengths: ipv6Addresses.map(\.prefixLength)
)
if !ipv6Routes.isEmpty {
ipv6Settings.includedRoutes = ipv6Routes
}
if !excludedIPv6Routes.isEmpty {
ipv6Settings.excludedRoutes = excludedIPv6Routes
}
settings.ipv6Settings = ipv6Settings
}
if !dnsServers.isEmpty {
let dnsSettings = NEDNSSettings(servers: dnsServers)
if !searchDomains.isEmpty {
dnsSettings.matchDomains = searchDomains
}
settings.dnsSettings = dnsSettings
}
return settings
}
}
private struct ParsedTunnelAddress {
struct IPv4AddressSetting {
let address: String
let subnetMask: String
}
struct IPv6AddressSetting {
let address: String
let prefixLength: NSNumber
}
let ipv4Address: IPv4AddressSetting?
let ipv6Address: IPv6AddressSetting?
init?(rawValue: String) {
let components = rawValue.split(separator: "/", maxSplits: 1).map(String.init)
let address = components.first?.trimmingCharacters(in: .whitespacesAndNewlines) ?? ""
guard !address.isEmpty else {
return nil
}
let prefix = components.count == 2 ? Int(components[1]) : nil
if IPv4Address(address) != nil {
let prefixLength = prefix ?? 32
guard (0 ... 32).contains(prefixLength) else {
return nil
}
ipv4Address = IPv4AddressSetting(
address: address,
subnetMask: Self.ipv4SubnetMask(prefixLength: prefixLength)
)
ipv6Address = nil
return
}
if IPv6Address(address) != nil {
let prefixLength = prefix ?? 128
guard (0 ... 128).contains(prefixLength) else {
return nil
}
ipv4Address = nil
ipv6Address = IPv6AddressSetting(
address: address,
prefixLength: NSNumber(value: prefixLength)
)
return
}
return nil
}
private static func ipv4SubnetMask(prefixLength: Int) -> String {
guard prefixLength > 0 else {
return "0.0.0.0"
}
let mask = UInt32.max << (32 - prefixLength)
let octets = [
(mask >> 24) & 0xff,
(mask >> 16) & 0xff,
(mask >> 8) & 0xff,
mask & 0xff,
]
return octets.map(String.init).joined(separator: ".")
}
}
private struct ParsedTunnelRoute {
let ipv4Route: NEIPv4Route?
let ipv6Route: NEIPv6Route?
init?(rawValue: String) {
let components = rawValue.split(separator: "/", maxSplits: 1).map(String.init)
let address = components.first?.trimmingCharacters(in: .whitespacesAndNewlines) ?? ""
guard !address.isEmpty else {
return nil
}
let prefix = components.count == 2 ? Int(components[1]) : nil
if IPv4Address(address) != nil {
let prefixLength = prefix ?? 32
guard (0 ... 32).contains(prefixLength) else {
return nil
}
ipv4Route = NEIPv4Route(
destinationAddress: address,
subnetMask: Self.ipv4SubnetMask(prefixLength: prefixLength)
)
ipv6Route = nil
return
}
if IPv6Address(address) != nil {
let prefixLength = prefix ?? 128
guard (0 ... 128).contains(prefixLength) else {
return nil
}
ipv4Route = nil
ipv6Route = NEIPv6Route(
destinationAddress: address,
networkPrefixLength: NSNumber(value: prefixLength)
)
return
}
return nil
}
private static func ipv4SubnetMask(prefixLength: Int) -> String {
var mask = UInt32.max << (32 - prefixLength)
if prefixLength == 0 {
mask = 0
}
let octets = [
String((mask >> 24) & 0xff),
String((mask >> 16) & 0xff),
String((mask >> 8) & 0xff),
String(mask & 0xff),
]
return octets.joined(separator: ".")
}
}