//public uint RequestCount { get; private set; } = 1; //private readonly Random _random = new Random(Environment.TickCount); /* * private long PositiveRandom() * { * long ret = _random.Next() | (_random.Next() << 32); * // lrand48 ensures it's never < 0 * // So do the same * if (ret < 0) * ret = -ret; * return ret; * } * * private void IncrementRequestCount() * { * // Request counts on android jump more than 1 at a time according to logs * // They are fully sequential on iOS though * // So mimic that same behavior here. * if (_client.Platform == Platform.Android) * RequestCount += (uint)_random.Next(2, 15); * else if (_client.Platform == Platform.Ios) * RequestCount++; * } * * private ulong GetNextRequestId() * { * if (RequestCount == 1) * { * IncrementRequestCount(); * if (_client.Platform == Platform.Android) * { * // lrand48 is "broken" in that the first run of it will return a static value. * // So the first time we send a request, we need to match that initial value. * // Note: On android srand(4) is called in .init_array which seeds the initial value. * return 0x53B77E48000000B0; * } * if (_client.Platform == Platform.Ios) * { * // Same as lrand48, iOS uses "rand()" without a pre-seed which always gives the same first value. * return 0x41A700000002; * } * } * * // Note that the API expects a "positive" random value here. (At least on Android it does due to lrand48 implementation details) * // So we'll just use the same for iOS since it doesn't hurt, and means less code required. * ulong r = (((ulong)PositiveRandom() | ((RequestCount + 1) >> 31)) << 32) | (RequestCount + 1); * IncrementRequestCount(); * return r; * } */ //private RequestEnvelope.Types.PlatformRequest GenerateSignature(IEnumerable<IMessage> requests) /// <summary> /// EB Check IMessage /// </summary> /// <param name="requestEnvelope"></param> /// <returns></returns> /// Also pogolib does /// internal async Task<PlatformRequest> GenerateSignatureAsync(RequestEnvelope requestEnvelope) private RequestEnvelope.Types.PlatformRequest GenerateSignature(RequestEnvelope requestEnvelope) { var timestampSinceStart = (long)(Utils.GetTime(true) - _client.StartTime); var locationFixes = BuildLocationFixes(requestEnvelope, timestampSinceStart); requestEnvelope.Accuracy = locationFixes[0].Altitude; requestEnvelope.MsSinceLastLocationfix = (long)locationFixes[0].TimestampSnapshot; #region GenerateSignature var signature = new Signature { TimestampSinceStart = (ulong)timestampSinceStart, Timestamp = (ulong)Utils.GetTime(true), // true means in Ms SensorInfo = { new SensorInfo { // Values are not the same used in PogoLib TimestampSnapshot = (ulong)(timestampSinceStart + RandomDevice.Next(100, 250)), LinearAccelerationX = GenRandom(0.12271042913198471), LinearAccelerationY = GenRandom(-0.015570580959320068), LinearAccelerationZ = GenRandom(0.010850906372070313), RotationRateX = GenRandom(-0.0120010357350111), RotationRateY = GenRandom(-0.04214850440621376), RotationRateZ = GenRandom(0.94571763277053833), AttitudePitch = GenRandom(-47.149471283, 61.8397789001), AttitudeYaw = GenRandom(-47.149471283, 61.8397789001), AttitudeRoll = GenRandom(-47.149471283, 5), GravityZ = GenRandom(9.8), GravityX = GenRandom(0.02), GravityY = GenRandom(0.3), /* MagneticFieldX = GenRandom(17.950439453125), * MagneticFieldY = GenRandom(-23.36273193359375), * MagneticFieldZ = GenRandom(-48.8250732421875),*/ MagneticFieldAccuracy = -1, Status = 3 } }, DeviceInfo = _DeviceInfo,// dInfo, LocationFix = { locationFixes }, ActivityStatus = new ActivityStatus { Stationary = true } }; #endregion signature.SessionHash = _sessionHash; signature.Unknown25 = Resources.Unknown25; var serializedTicket = requestEnvelope.AuthTicket != null?requestEnvelope.AuthTicket.ToByteArray() : requestEnvelope.AuthInfo.ToByteArray(); var locationBytes = BitConverter.GetBytes(_latitude).Reverse() .Concat(BitConverter.GetBytes(_longitude).Reverse()) .Concat(BitConverter.GetBytes(locationFixes[0].Altitude).Reverse()).ToArray(); var requestsBytes = requestEnvelope.Requests.Select(x => x.ToByteArray()).ToArray(); HashRequestContent hashRequest = new HashRequestContent() { Timestamp = signature.Timestamp, Latitude = requestEnvelope.Latitude, Longitude = requestEnvelope.Longitude, Altitude = requestEnvelope.Accuracy, AuthTicket = serializedTicket, SessionData = signature.SessionHash.ToByteArray(), Requests = new List <byte[]>(requestsBytes) }; HashResponseContent responseContent; responseContent = _client.Hasher.RequestHashes(hashRequest); signature.LocationHash1 = unchecked ((int)responseContent.LocationAuthHash); signature.LocationHash2 = unchecked ((int)responseContent.LocationHash); signature.RequestHash.AddRange(responseContent.RequestHashes.Select(x => (ulong)x).ToArray()); var encryptedSignature = new PlatformRequest { Type = PlatformRequestType.SendEncryptedSignature, RequestMessage = new SendEncryptedSignatureRequest { EncryptedSignature = ByteString.CopyFrom(PCryptPokeHash.Encrypt(signature.ToByteArray(), (uint)timestampSinceStart)) }.ToByteString() }; return(encryptedSignature); }
private RequestEnvelope.Types.PlatformRequest GenerateSignature(RequestEnvelope requestEnvelope) { byte[] ticketBytes = requestEnvelope.AuthTicket != null?requestEnvelope.AuthTicket.ToByteArray() : requestEnvelope.AuthInfo.ToByteArray(); // Common device info Signature.Types.DeviceInfo deviceInfo = new Signature.Types.DeviceInfo { DeviceId = _settings.DeviceId, DeviceBrand = _settings.DeviceBrand, DeviceModel = _settings.DeviceModel, DeviceModelBoot = _settings.DeviceModelBoot, HardwareManufacturer = _settings.HardwareManufacturer, HardwareModel = _settings.HardwareModel, FirmwareBrand = _settings.FirmwareBrand, FirmwareType = _settings.FirmwareType }; // Android if (_client.Platform == Platform.Android) { deviceInfo.AndroidBoardName = _settings.AndroidBoardName; deviceInfo.AndroidBootloader = _settings.AndroidBootloader; deviceInfo.DeviceModelIdentifier = _settings.DeviceModelIdentifier; deviceInfo.FirmwareTags = _settings.FirmwareTags; deviceInfo.FirmwareFingerprint = _settings.FirmwareFingerprint; } var sig = new Signature { SessionHash = SessionHash, Unknown25 = _client.Hasher.Client_Unknown25, Timestamp = (ulong)Utils.GetTime(true), TimestampSinceStart = (ulong)(Utils.GetTime(true) - _client.StartTime), //LocationHash1 = (int)Utils.GenerateLocation1(ticketBytes, _latitude, _longitude, _horizontalAccuracy), //LocationHash2 = (int)Utils.GenerateLocation2(_latitude, _longitude, _horizontalAccuracy), DeviceInfo = deviceInfo }; sig.SensorInfo.Add(new SensorInfo() { TimestampSnapshot = (ulong)(Utils.GetTime(true) - _client.StartTime - RandomDevice.Next(100, 500)), LinearAccelerationX = TRandomDevice.Triangular(-3, 1, 0), LinearAccelerationY = TRandomDevice.Triangular(-2, 3, 0), LinearAccelerationZ = TRandomDevice.Triangular(-4, 2, 0), MagneticFieldX = TRandomDevice.Triangular(-50, 50, 0), MagneticFieldY = TRandomDevice.Triangular(-60, 50, -5), MagneticFieldZ = TRandomDevice.Triangular(-60, 40, -30), AttitudePitch = GenRandom(-47.149471283, 61.8397789001), AttitudeYaw = GenRandom(-47.149471283, 61.8397789001), AttitudeRoll = GenRandom(-47.149471283, 5), RotationRateX = GenRandom(0.0729667818829, 0.0729667818829), RotationRateY = GenRandom(-2.788630499244109, 3.0586791383810468), RotationRateZ = GenRandom(-0.34825887123552773, 0.19347580173737935), GravityX = TRandomDevice.Triangular(-1, 1, 0.15), GravityY = TRandomDevice.Triangular(-1, 1, -.2), GravityZ = TRandomDevice.Triangular(-1, .7, -0.8), MagneticFieldAccuracy = -1, Status = 3 }); Signature.Types.LocationFix locationFix = new Signature.Types.LocationFix { Provider = TRandomDevice.Choice(new List <string>(new string[] { "network", "network", "network", "network", "fused" })), Latitude = (float)_latitude, Longitude = (float)_longitude, Altitude = (float)_altitude, HorizontalAccuracy = _horizontalAccuracy, TimestampSnapshot = (ulong)(Utils.GetTime(true) - _client.StartTime - RandomDevice.Next(100, 300)), ProviderStatus = 3, LocationType = 1 }; if (_horizontalAccuracy >= 65) { locationFix.HorizontalAccuracy = TRandomDevice.Choice(new List <int>(new int[] { _horizontalAccuracy, 65, 65, (int)Math.Round(GenRandom(66, 80)), 200 })); if (_client.Platform == Platform.Ios) { locationFix.VerticalAccuracy = (float)TRandomDevice.Triangular(35, 100, 65); } } else { locationFix.HorizontalAccuracy = _horizontalAccuracy; if (_client.Platform == Platform.Ios) { if (_horizontalAccuracy > 10) { locationFix.VerticalAccuracy = (float)TRandomDevice.Choice(new List <double>(new double[] { 24, 32, 48, 48, 64, 64, 96, 128 })); } else { locationFix.VerticalAccuracy = (float)TRandomDevice.Choice(new List <double>(new double[] { 3, 4, 6, 6, 8, 12, 24 })); } } } if (_client.Platform == Platform.Ios) { if (RandomDevice.NextDouble() > 0.95) { // No reading for roughly 1 in 20 updates locationFix.Course = -1; locationFix.Speed = -1; } else { _course = (float)TRandomDevice.Triangular(0, 360, _course); // Course is iOS only. locationFix.Course = _course; // Speed is iOS only. locationFix.Speed = _speed; } } sig.LocationFix.Add(locationFix); //foreach (var request in requestEnvelope.Requests) // sig.RequestHash.Add(Utils.GenerateRequestHash(ticketBytes, request.ToByteArray())); string envelopString = JsonConvert.SerializeObject(requestEnvelope); HashRequestContent hashRequest = new HashRequestContent() { Latitude = _latitude, Longitude = _longitude, Altitude = _altitude, AuthTicket = ticketBytes, SessionData = SessionHash.ToByteArray(), Requests = new List <byte[]>(), Timestamp = sig.Timestamp }; foreach (var request in requestEnvelope.Requests) { hashRequest.Requests.Add(request.ToByteArray()); } var res = _client.Hasher.RequestHashesAsync(hashRequest).Result; foreach (var item in res.RequestHashes) { sig.RequestHash.Add((unchecked ((ulong)item))); } //sig.RequestHash.AddRange(res.RequestHashes.Cast<ulong>().ToList()); sig.LocationHash1 = unchecked ((int)res.LocationAuthHash); sig.LocationHash2 = unchecked ((int)res.LocationHash); var encryptedSignature = new RequestEnvelope.Types.PlatformRequest { Type = PlatformRequestType.SendEncryptedSignature, RequestMessage = new SendEncryptedSignatureRequest { EncryptedSignature = ByteString.CopyFrom(_client.Cryptor.Encrypt(sig.ToByteArray(), (uint)_client.StartTime)) }.ToByteString() }; return(encryptedSignature); }
//public int GetNextUk27() //{ // return Uk27Random.Next(); //} //private RequestEnvelope.Types.PlatformRequest GenerateSignature(IEnumerable<IMessage> requests) /// <summary> /// EB Check IMessage /// </summary> /// <param name="requestEnvelope"></param> /// <returns></returns> /// Also pogolib does /// internal async Task<PlatformRequest> GenerateSignatureAsync(RequestEnvelope requestEnvelope) private RequestEnvelope.Types.PlatformRequest GenerateSignature(RequestEnvelope requestEnvelope) { var timestampSinceStart = (long)(Utils.GetTime(true) - _client.StartTime); var locationFixes = BuildLocationFixes(requestEnvelope, timestampSinceStart); if (requestEnvelope.Requests.Count > 0) { requestEnvelope.Accuracy = locationFixes[0].Altitude; requestEnvelope.MsSinceLastLocationfix = (long)locationFixes[0].TimestampSnapshot; } var _activityStatus = new Signature.Types.ActivityStatus() { Stationary = true, Tilting = (TRandomDevice.Next(1, 2) == 1) }; //if (_client.Platform == Platform.Ios) // _activityStatus.Tilting = (TRandomDevice.Next(1,2)==1); #region GenerateSignature var signature = new Signature { TimestampSinceStart = (ulong)timestampSinceStart, Timestamp = (ulong)Utils.GetTime(true), // true means in Ms SensorInfo = { new Signature.Types.SensorInfo { // Values are not the same used in PogoLib TimestampSnapshot = (ulong)(timestampSinceStart + TRandomDevice.Next(100, 250)), LinearAccelerationX = GenRandom(0.12271042913198471), LinearAccelerationY = GenRandom(-0.015570580959320068), LinearAccelerationZ = GenRandom(0.010850906372070313), RotationRateX = GenRandom(-0.0120010357350111), RotationRateY = GenRandom(-0.04214850440621376), RotationRateZ = GenRandom(0.94571763277053833), AttitudePitch = GenRandom(-47.149471283, 61.8397789001), AttitudeYaw = GenRandom(-47.149471283, 61.8397789001), AttitudeRoll = GenRandom(-47.149471283, 5), GravityZ = GenRandom(9.8), GravityX = GenRandom(0.02), GravityY = GenRandom(0.3), MagneticFieldX = GenRandom(-10, 10), MagneticFieldY = GenRandom(-10, 10), MagneticFieldZ = GenRandom(-40, -20), MagneticFieldAccuracy = -1, Status = 3 } }, DeviceInfo = _DeviceInfo,// dInfo, LocationFix = { locationFixes }, ActivityStatus = _activityStatus, SessionHash = _sessionHash, Unknown25 = Resources.Api.IOSUnknown25, Unknown27 = Uk27Random.Next() }; #endregion //signature.SessionHash = _sessionHash; //signature.Unknown25 = Resources.Api.AndroidUnknown25; //if (_client.Platform == Platform.Ios) //signature.Unknown25 = Resources.Api.IOSUnknown25; var serializedTicket = requestEnvelope.AuthTicket != null?requestEnvelope.AuthTicket.ToByteArray() : requestEnvelope.AuthInfo.ToByteArray(); /*var locationBytes = BitConverter.GetBytes(_latitude).Reverse() * .Concat(BitConverter.GetBytes(_longitude).Reverse()) * .Concat(BitConverter.GetBytes(locationFixes[0].Altitude).Reverse()).ToArray(); */ var requestsBytes = requestEnvelope.Requests.Select(x => x.ToByteArray()).ToArray(); var hashRequest = new HashRequestContent() { Timestamp = signature.Timestamp, Latitude64 = BitConverter.DoubleToInt64Bits(requestEnvelope.Latitude), Longitude64 = BitConverter.DoubleToInt64Bits(requestEnvelope.Longitude), Accuracy64 = BitConverter.DoubleToInt64Bits(requestEnvelope.Accuracy), AuthTicket = serializedTicket, SessionData = signature.SessionHash.ToByteArray(), Requests = new List <byte[]>(requestsBytes) }; HashResponseContent responseContent; responseContent = _client.Hasher.RequestHashes(hashRequest); signature.LocationHash1 = unchecked ((int)responseContent.LocationAuthHash); signature.LocationHash2 = unchecked ((int)responseContent.LocationHash); signature.RequestHash.AddRange(responseContent.RequestHashes.Select(x => (ulong)x).ToArray()); var encryptedSignature = new RequestEnvelope.Types.PlatformRequest { Type = PlatformRequestType.SendEncryptedSignature, RequestMessage = new SendEncryptedSignatureRequest { EncryptedSignature = ByteString.CopyFrom(_client.Crypter.Encrypt(signature.ToByteArray(), (uint)timestampSinceStart)) }.ToByteString() }; return(encryptedSignature); }
private async Task <RequestEnvelope.Types.PlatformRequest> GenerateSignature(RequestEnvelope requestEnvelope, GeoCoordinate currentLocation) { byte[] ticketBytes = requestEnvelope.AuthTicket != null?requestEnvelope.AuthTicket.ToByteArray() : requestEnvelope.AuthInfo.ToByteArray(); // Common device info var deviceInfo = new Signature.Types.DeviceInfo { DeviceId = _settings.DeviceId, DeviceBrand = _settings.DeviceBrand, DeviceModel = _settings.DeviceModel, DeviceModelBoot = _settings.DeviceModelBoot + "\0", HardwareManufacturer = _settings.HardwareManufacturer, HardwareModel = _settings.HardwareModel + "\0", FirmwareBrand = (_settings.DeviceModel == "iPhone" ? "iOS" : "iPhone OS"), FirmwareType = _settings.FirmwareType }; // Android if (_client.Platform == Platform.Android) { deviceInfo.AndroidBoardName = _settings.AndroidBoardName; deviceInfo.AndroidBootloader = _settings.AndroidBootloader; deviceInfo.DeviceModelIdentifier = _settings.DeviceModelIdentifier; deviceInfo.FirmwareTags = _settings.FirmwareTags; deviceInfo.FirmwareFingerprint = _settings.FirmwareFingerprint; } var sig = new Signature { SessionHash = _sessionHash, Unknown25 = _client.Unknown25, Timestamp = (ulong)Utils.GetTime(true), TimestampSinceStart = (ulong)(Utils.GetTime(true) - _client.StartTime), DeviceInfo = deviceInfo }; if (sig.TimestampSinceStart < 5000) { sig.TimestampSinceStart = (ulong)TRandomDevice.Next(5000, 8000); } var sen = new Signature.Types.SensorInfo() { LinearAccelerationX = TRandomDevice.Triangular(-3, 1, 0), LinearAccelerationY = TRandomDevice.Triangular(-2, 3, 0), LinearAccelerationZ = TRandomDevice.Triangular(-4, 2, 0), MagneticFieldX = TRandomDevice.Triangular(-50, 50, 0), MagneticFieldY = TRandomDevice.Triangular(-60, 50, -5), MagneticFieldZ = TRandomDevice.Triangular(-60, 40, -30), MagneticFieldAccuracy = TRandomDevice.Choice(new List <int>(new int[] { -1, 1, 1, 2, 2, 2, 2 })), AttitudePitch = TRandomDevice.Triangular(-1.5, 1.5, 0.2), AttitudeYaw = TRandomDevice.NextDouble(-3, 3), AttitudeRoll = TRandomDevice.Triangular(-2.8, 2.5, 0.25), RotationRateX = TRandomDevice.Triangular(-6, 4, 0), RotationRateY = TRandomDevice.Triangular(-5.5, 5, 0), RotationRateZ = TRandomDevice.Triangular(-5, 3, 0), GravityX = TRandomDevice.Triangular(-1, 1, 0.15), GravityY = TRandomDevice.Triangular(-1, 1, -.2), GravityZ = TRandomDevice.Triangular(-1, .7, -0.8), Status = 3 }; sen.TimestampSnapshot = (ulong)TRandomDevice.NextUInt((uint)(sig.TimestampSinceStart - 5000), (uint)(sig.TimestampSinceStart - 100)); sig.SensorInfo.Add(sen); var locationFix = new Signature.Types.LocationFix { Provider = TRandomDevice.Choice(new List <string>(new string[] { "network", "network", "network", "network", "fused" })), Latitude = (float)currentLocation.Latitude, Longitude = (float)currentLocation.Longitude, Altitude = (float)currentLocation.Altitude, ProviderStatus = 3, LocationType = 1 }; locationFix.TimestampSnapshot = (ulong)TRandomDevice.NextUInt((uint)(sig.TimestampSinceStart - 5000), (uint)(sig.TimestampSinceStart - 1000)); if (requestEnvelope.Accuracy >= 65) { locationFix.HorizontalAccuracy = TRandomDevice.Choice(new List <float>(new float[] { (float)requestEnvelope.Accuracy, 65, 65, TRandomDevice.Next(66, 80), 200 })); if (_client.Platform == Platform.Ios) { locationFix.VerticalAccuracy = (float)TRandomDevice.Triangular(35, 100, 65); } } else { locationFix.HorizontalAccuracy = (float)requestEnvelope.Accuracy; if (_client.Platform == Platform.Ios) { locationFix.VerticalAccuracy = requestEnvelope.Accuracy > 10 ? (float)TRandomDevice.Choice(new List <double>(new double[] { 24, 32, 48, 48, 64, 64, 96, 128 })) : (float)TRandomDevice.Choice(new List <double>(new double[] { 3, 4, 6, 6, 8, 12, 24 })); } } locationFix.HorizontalAccuracy = (float)Math.Round(locationFix.HorizontalAccuracy, GEOLOCATION_PRECISION); locationFix.VerticalAccuracy = (float)Math.Round(locationFix.VerticalAccuracy, GEOLOCATION_PRECISION); if (_client.Platform == Platform.Ios) { sig.ActivityStatus = new Signature.Types.ActivityStatus() { Stationary = true }; sig.ActivityStatus.Tilting |= TRandomDevice.NextDouble() > 0.50; if (TRandomDevice.NextDouble() > 0.95) { // No reading for roughly 1 in 20 updates locationFix.Course = -1; locationFix.Speed = -1; } else { // Course is iOS only. locationFix.Course = GetCourse(); // Speed is iOS only. locationFix.Speed = (float)TRandomDevice.Triangular(0.2, 4.25, 1); } } sig.LocationFix.Add(locationFix); string envelopString = JsonConvert.SerializeObject(requestEnvelope); var hashRequest = new HashRequestContent() { Latitude64 = BitConverter.DoubleToInt64Bits(currentLocation.Latitude), Longitude64 = BitConverter.DoubleToInt64Bits(currentLocation.Longitude), Accuracy64 = BitConverter.DoubleToInt64Bits(requestEnvelope.Accuracy), AuthTicket = ticketBytes, SessionData = _sessionHash.ToByteArray(), Requests = new List <byte[]>(), Timestamp = sig.Timestamp }; foreach (var request in requestEnvelope.Requests) { hashRequest.Requests.Add(request.ToByteArray()); } var res = await _client.Hasher.RequestHashesAsync(hashRequest).ConfigureAwait(false); foreach (var item in res.RequestHashes) { sig.RequestHash.Add(((ulong)item)); } sig.LocationHash1 = (int)res.LocationAuthHash; sig.LocationHash2 = (int)res.LocationHash; var encryptedSignature = new RequestEnvelope.Types.PlatformRequest { Type = PlatformRequestType.SendEncryptedSignature, RequestMessage = new SendEncryptedSignatureRequest { EncryptedSignature = ByteString.CopyFrom(_client.Cryptor.Encrypt(sig.ToByteArray(), (uint)_client.StartTime)) }.ToByteString() }; return(encryptedSignature); }