// // ControlPacket.m // TunnelKit // // Created by Davide De Rosa on 9/14/18. // Copyright (c) 2019 Davide De Rosa. All rights reserved. // // https://github.com/passepartoutvpn // // This file is part of TunnelKit. // // TunnelKit is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // TunnelKit is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with TunnelKit. If not, see . // #import "ControlPacket.h" @implementation ControlPacket - (instancetype)initWithCode:(PacketCode)code key:(uint8_t)key sessionId:(NSData *)sessionId packetId:(uint32_t)packetId payload:(nullable NSData *)payload { NSCParameterAssert(sessionId.length == PacketSessionIdLength); if (!(self = [super init])) { return nil; } _code = code; _key = key; _sessionId = sessionId; _packetId = packetId; _payload = payload; self.sentDate = nil; return self; } - (instancetype)initWithKey:(uint8_t)key sessionId:(NSData *)sessionId ackIds:(NSArray *)ackIds ackRemoteSessionId:(NSData *)ackRemoteSessionId { NSCParameterAssert(sessionId.length == PacketSessionIdLength); NSCParameterAssert(ackRemoteSessionId.length == PacketSessionIdLength); if (!(self = [super init])) { return nil; } _packetId = UINT32_MAX; // bogus marker _code = PacketCodeAckV1; _key = key; _sessionId = sessionId; _ackIds = ackIds; _ackRemoteSessionId = ackRemoteSessionId; self.sentDate = nil; return self; } - (BOOL)isAck { return (self.packetId == UINT32_MAX); } - (NSInteger)rawCapacity { const BOOL isAck = self.isAck; const NSUInteger ackLength = self.ackIds.count; NSCAssert(!isAck || ackLength > 0, @"Ack packet must provide positive ackLength"); NSInteger n = PacketAckLengthLength; if (ackLength > 0) { n += ackLength * PacketIdLength + PacketSessionIdLength; } if (!isAck) { n += PacketIdLength; } n += self.payload.length; return n; } // Ruby: send_ctrl - (NSInteger)rawSerializeTo:(uint8_t *)to { uint8_t *ptr = to; if (self.ackIds.count > 0) { NSCParameterAssert(self.ackRemoteSessionId.length == PacketSessionIdLength); *ptr = self.ackIds.count; ptr += PacketAckLengthLength; for (NSNumber *n in self.ackIds) { const uint32_t ackId = (uint32_t)n.unsignedIntegerValue; *(uint32_t *)ptr = CFSwapInt32HostToBig(ackId); ptr += PacketIdLength; } memcpy(ptr, self.ackRemoteSessionId.bytes, PacketSessionIdLength); ptr += PacketSessionIdLength; } else { *ptr = 0; // no acks ptr += PacketAckLengthLength; } if (self.code != PacketCodeAckV1) { *(uint32_t *)ptr = CFSwapInt32HostToBig(self.packetId); ptr += PacketIdLength; if (self.payload) { memcpy(ptr, self.payload.bytes, self.payload.length); ptr += self.payload.length; } } return ptr - to; } - (NSInteger)capacity { return PacketOpcodeLength + PacketSessionIdLength + self.rawCapacity; } - (NSData *)serialized { NSMutableData *data = [[NSMutableData alloc] initWithLength:self.capacity]; uint8_t *ptr = data.mutableBytes; ptr += PacketHeaderSet(ptr, self.code, self.key, self.sessionId.bytes); [self rawSerializeTo:ptr]; return data; } @end @implementation ControlPacket (Authentication) - (NSInteger)capacityWithAuthenticator:(id)auth { return auth.digestLength + PacketReplayIdLength + PacketReplayTimestampLength + self.capacity; } - (BOOL)serializeTo:(uint8_t *)to authenticatingWith:(id)auth replayId:(uint32_t)replayId timestamp:(uint32_t)timestamp error:(NSError *__autoreleasing _Nullable *)error { uint8_t *ptr = to + auth.digestLength; const uint8_t *subject = ptr; *(uint32_t *)ptr = CFSwapInt32HostToBig(replayId); ptr += PacketReplayIdLength; *(uint32_t *)ptr = CFSwapInt32HostToBig(timestamp); ptr += PacketReplayTimestampLength; ptr += PacketHeaderSet(ptr, self.code, self.key, self.sessionId.bytes); ptr += [self rawSerializeTo:ptr]; const NSInteger subjectLength = ptr - subject; NSInteger totalLength; if (![auth encryptBytes:subject length:subjectLength dest:to destLength:&totalLength flags:NULL error:error]) { return NO; } NSCAssert(totalLength == auth.digestLength + subjectLength, @"Encrypted packet size != (Digest + Subject)"); PacketSwap(to, auth.digestLength + PacketReplayIdLength + PacketReplayTimestampLength, PacketOpcodeLength + PacketSessionIdLength); return YES; } - (NSData *)serializedWithAuthenticator:(id)auth replayId:(uint32_t)replayId timestamp:(uint32_t)timestamp error:(NSError *__autoreleasing _Nullable *)error { NSMutableData *data = [[NSMutableData alloc] initWithLength:[self capacityWithAuthenticator:auth]]; if (![self serializeTo:data.mutableBytes authenticatingWith:auth replayId:replayId timestamp:timestamp error:error]) { return nil; } return data; } @end @implementation ControlPacket (Encryption) - (NSInteger)capacityWithEncrypter:(id)encrypter { return PacketOpcodeLength + PacketSessionIdLength + PacketReplayIdLength + PacketReplayTimestampLength + [encrypter encryptionCapacityWithLength:self.capacity]; } - (BOOL)serializeTo:(uint8_t *)to encryptingWith:(nonnull id)encrypter replayId:(uint32_t)replayId timestamp:(uint32_t)timestamp length:(NSInteger *)length adLength:(NSInteger)adLength error:(NSError *__autoreleasing _Nullable * _Nullable)error { uint8_t *ptr; ptr = to; ptr += PacketHeaderSet(to, self.code, self.key, self.sessionId.bytes); *(uint32_t *)ptr = CFSwapInt32HostToBig(replayId); ptr += PacketReplayIdLength; *(uint32_t *)ptr = CFSwapInt32HostToBig(timestamp); ptr += PacketReplayTimestampLength; NSAssert2(ptr - to == adLength, @"Incorrect AD bytes (%ld != %ld)", ptr - to, (long)adLength); NSMutableData *msg = [[NSMutableData alloc] initWithLength:self.rawCapacity]; ptr = msg.mutableBytes; ptr += [self rawSerializeTo:ptr]; CryptoFlags flags; flags.ad = to; flags.adLength = adLength; NSInteger encryptedMsgLength; if (![encrypter encryptBytes:msg.bytes length:msg.length dest:(to + adLength) destLength:&encryptedMsgLength flags:&flags error:error]) { return NO; } *length = adLength + encryptedMsgLength; return YES; } - (NSData *)serializedWithEncrypter:(id)encrypter replayId:(uint32_t)replayId timestamp:(uint32_t)timestamp adLength:(NSInteger)adLength error:(NSError *__autoreleasing _Nullable * _Nullable)error { NSMutableData *data = [[NSMutableData alloc] initWithLength:[self capacityWithEncrypter:encrypter]]; NSInteger length; if (![self serializeTo:data.mutableBytes encryptingWith:encrypter replayId:replayId timestamp:timestamp length:&length adLength:adLength error:error]) { return nil; } data.length = length; return data; } @end