private static IEnumerable <Order> GenerateRandom(
int orderCount,
string baseCurrency,
string quoteCurrency,
double minPrice,
double maxPrice)
{
var price = new TRandom();
var amount = new TRandom();
for (var i = 0; i < orderCount; i++)
{
yield return(new Order(
new CurrencyPair(baseCurrency, quoteCurrency),
Side.Buy,
decimal.Round((decimal)price.NextDouble(minPrice, maxPrice), 4),
amount.Next(1, 100)));
yield return(new Order(
new CurrencyPair(baseCurrency, quoteCurrency),
Side.Sell,
decimal.Round((decimal)price.NextDouble(minPrice, maxPrice), 4),
amount.Next(1, 100)));
}
}
public static async Task <AccountCreationResult> Create(AccountCreationOptions options)
{
var random = new TRandom();
var client = new RestClient {
Proxy = options.Proxy
};
var page = client.Execute(new RestRequest("https://club.pokemon.com/us/pokemon-trainer-club/sign-up/",
Method.GET));
var csrf = string.Empty;
// Get CSRF
var match =
new Regex("<input type='hidden' name='csrfmiddlewaretoken' value='(\\w+)' />").Match(page.Content);
if (match.Success)
{
csrf = match.Groups[1].Value;
}
client.Execute(new RestRequest("https://club.pokemon.com/us/pokemon-trainer-club/sign-up/", Method.POST)
.AddParameter("csrfmiddlewaretoken", csrf)
.AddParameter("dob", options.Dob)
.AddParameter("country", "US")
.AddParameter("country", "US")
.AddParameter("picker__year", options.Dob.Split('-')[0])
.AddParameter("picker__month", options.Dob.Split('-')[1]));
await Task.Delay(random.Next(2000, 3000));
var user = client.Execute <VerifyUsernameResponse>(new RestRequest("https://club.pokemon.com/api/signup/" +
"verify-username", Method.POST)
.AddJsonBody(new { name = options.Username })
.AddHeader("X-CSRFToken", csrf));
// If username is in use, switch to a random suggestion from PTC
if (user.Data.InUse)
{
options.Username = random.Choice(user.Data.Suggestions);
}
var captcha = options.CaptchaService.Solve();
await Task.Delay(random.Next(1500, 2500));
var res = client.Execute(new RestRequest("https://club.pokemon.com/us/pokemon-trainer-club/sign-up/", Method
.POST)
.AddParameter("csrfmiddlewaretoken", csrf)
.AddParameter("username", options.Username));
return(new AccountCreationResult
{
Successful = res.StatusCode == HttpStatusCode.Found,
Username = options.Username,
Password = options.Password
});
}
// 명부를 임의로 섞습니다. 배정때마다 기존 명부에서 삭제되고
// 대신 임의로 섞인 새 명부를 반환합니다.
private List<string> randomizeList(List<string> destructableList)
{
List<string> newList = new List<string>();
int initialListCount = destructableList.Count;
for(int i = 0; i < initialListCount; i++)
{
int cursor = m_rng.Next(0, destructableList.Count);
newList.Add(destructableList[cursor]);
destructableList.RemoveAt(cursor);
}
return newList;
}
//crossover function, swap random two elements
public void Crossover(double[] Group)
{
TRandom rnd = new TRandom();
int index = rnd.Next(0, Group.Length);
int index2 = rnd.Next(0, Group.Length);
while (index == index2)
{
index2 = rnd.Next(0, Group.Length);
}
var value = Group[index];
Group[index] = Group[index2];
Group[index2] = Group[index];
}
/// <summary>
/// Generates a few random <see cref="LocationFix"/>es to act like a real GPS sensor.
/// </summary>
/// <param name="requestEnvelope">The <see cref="RequestEnvelope"/> these <see cref="LocationFix"/>es are used for.</param>
/// <param name="timestampSinceStart">The milliseconds passed since starting the <see cref="Session"/> used by the current <see cref="RequestEnvelope"/>.</param>
/// <returns></returns>
private List <LocationFix> BuildLocationFixes(RequestEnvelope requestEnvelope, long timestampSinceStart)
{
var locationFixes = new List <LocationFix>();
TRandom Random = new TRandom();
if (requestEnvelope.Requests.Count == 0 || requestEnvelope.Requests[0] == null)
{
return(locationFixes);
}
var providerCount = Random.Next(4, 10);
for (var i = 0; i < providerCount; i++)
{
var timestampSnapshot = timestampSinceStart + (150 * (i + 1) + Random.Next(250 * (i + 1) - 150 * (i + 1)));
if (timestampSnapshot >= timestampSinceStart)
{
if (locationFixes.Count != 0)
{
break;
}
timestampSnapshot = timestampSinceStart - Random.Next(20, 50);
if (timestampSnapshot < 0)
{
timestampSnapshot = 0;
}
}
locationFixes.Insert(0, new LocationFix
{
TimestampSnapshot = (ulong)timestampSnapshot,
Latitude = (float)_client.CurrentLatitude,
Longitude = (float)_client.CurrentLongitude,
HorizontalAccuracy = (float)Random.NextDouble(5.0, 25.0),
VerticalAccuracy = (float)Random.NextDouble(5.0, 25.0),
Altitude = (float)_client.CurrentAltitude,
Provider = "fused",
ProviderStatus = 3,
LocationType = 1,
// Speed = ?,
Course = -1,
// Floor = 0
});
}
return(locationFixes);
}
/// <summary>
/// Generates given number of packages in the path. Wipes the target path
/// </summary>
/// <param name="count"></param>
public void CreatePackages(int count, int maxFiles, int maxFileSize, string path)
{
if (Directory.Exists(path))
{
Directory.Delete(path, true);
}
Directory.CreateDirectory(path);
List <string> packages = new List <string>();
TRandom random = new TRandom();
for (int i = 0; i < count; i++)
{
List <PackageCreateItem> files = new List <PackageCreateItem>();
int filesToAdd = random.Next(0, maxFiles);
for (int j = 0; j < filesToAdd; j++)
{
byte[] buffer = new byte[maxFileSize];
random.NextBytes(buffer);
Stream file = new MemoryStream(buffer);
files.Add(new PackageCreateItem(file, $"folder{Guid.NewGuid()}/{Guid.NewGuid()}"));
}
PackageCreateArguments package = new PackageCreateArguments {
Id = Guid.NewGuid().ToString(),
Files = files
};
_packageServices.CreatePackage(package);
Console.WriteLine($"Generated package {package.Id}");
}
}
public static Permutation CutAndCrossfillCrossover(Permutation p1, Permutation p2, TRandom random)
{
if (p1.Count != p2.Count)
{
throw new ArgumentException("The element count differs.", nameof(p2));
}
if (p1.IsCircular != p2.IsCircular)
{
throw new ArgumentException("The circularity differs.", nameof(p2));
}
var min = (p1.IsCircular ? 1 : 0) + 1;
var max = p1.Count - 1;
if (max < min)
{
throw new InvalidOperationException("The permutation is to short for this operation.");
}
var position = (max == min)
? min
: random.Next(min, max);
var array = new int[p1.Count];
SpanExtensions.CutAndCrossfillCrossover(p1, p2, position, array);
return(new Permutation(array, p1.IsCircular));
}
private static void GetRandomIndexPair(TRandom random, int n, int start, out int a, out int b)
{
a = random.Next(start, n);
do
{
b = random.Next(start, n);
}while (a == b);
if (b < a)
{
var tmp = a;
a = b;
b = tmp;
}
}
public DateTime GetRandomDate(DateTime minimum, DateTime maximum, TRandom randomizer)
{
var rangeAsTimeSpan = maximum - minimum;
var rangeInDays = rangeAsTimeSpan.Days;
var randomNumberOfDaysSinceMin = randomizer.Next(rangeInDays);
var randomDate = minimum.AddDays(randomNumberOfDaysSinceMin);
return(randomDate);
}
private void FlushRandomizer(TRandom randomizer)
{
int NumClears = 4;
for (int i = 0; i < NumClears; i++)
{
randomizer.Next();
}
}
public void Next_MaxExclusive()
{
for (var i = 0; i < 1000; i++)
{
if (TRandom.Next(MaxLimitInt) >= MaxLimitInt)
{
Assert.Fail("Exclusive maximum limit was one of the random results");
}
}
}
public static void Scramble(this Span <int> span, TRandom random)
{
var n = span.Length;
for (int i = 0; i < n - 1; i++)
{
var j = random.Next(i + 1, n);
span.Swap(i, j);
}
}
public static void Main()
{
// 1) Use TRandom to generate a few random numbers - via IGenerator methods.
Console.WriteLine("TRandom in action, used as an IGenerator");
var trandom = new TRandom();
Console.WriteLine(trandom.Next() - trandom.Next(5) + trandom.Next(3, 5));
Console.WriteLine(trandom.NextDouble() * trandom.NextDouble(5.5) * trandom.NextDouble(10.1, 21.9));
Console.WriteLine(trandom.NextBoolean());
Console.WriteLine();
// 2) Use TRandom to generate a few random numbers - via extension methods.
Console.WriteLine("TRandom in action, used as an IGenerator augmented with extension methods");
Console.WriteLine(string.Join(", ", trandom.Integers().Take(10)));
Console.WriteLine(string.Join(", ", trandom.Doubles().Take(10)));
Console.WriteLine(string.Join(", ", trandom.Booleans().Take(10)));
Console.WriteLine();
// 3) Use TRandom to generate a few distributed numbers.
Console.WriteLine("TRandom in action, used as to get distributed numbers");
Console.WriteLine(trandom.Normal(1.0, 0.1));
Console.WriteLine(string.Join(", ", trandom.NormalSamples(1.0, 0.1).Take(20)));
Console.WriteLine(trandom.Poisson(5));
Console.WriteLine(string.Join(", ", trandom.PoissonSamples(5).Take(20)));
Console.WriteLine();
// 4) There are many generators available - XorShift128 is the default.
var alf = new ALFGenerator(TMath.Seed());
var nr3 = new NR3Generator();
var std = new StandardGenerator(127);
// 5) You can also use distribution directly, even with custom generators.
Console.WriteLine("Showcase of some distributions");
Console.WriteLine("Static sample for Normal: " + NormalDistribution.Sample(alf, 1.0, 0.1));
Console.WriteLine("New instance for Normal: " + new NormalDistribution(1.0, 0.1).NextDouble());
Console.WriteLine();
}
public void Next_MinMaxBounds()
{
for (var i = 0; i < 1000; i++)
{
var value = TRandom.Next(MinLimitInt, MaxLimitInt);
if (value >= MaxLimitInt || value < MinLimitInt)
{
Assert.Fail("Random result was out of bounds");
}
}
}
public void Next_MinMaxNegatives()
{
for (var i = 0; i < 1000; i++)
{
if (TRandom.Next(MinLimitInt, MaxLimitInt) < 0)
{
return;
}
}
Assert.Fail("Negative result never hit");
}
/// <summary>
/// Restores the state of the pseudo-random number generator based on the specified state parameter
/// </summary>
/// <example>
/// If you generated three random numbers and then called Save to store the state and
/// followed that up by generating 10 more numbers before calling Restore with the previously saved RandomState
/// the Restore method should return the generator back to the state when Save was first called.
/// This means that if you went on to generate 10 more numbers they would be the same 10 numbers that were
/// generated the first time after Save was called.
/// </example>
/// <param name="state">The state to restore to, usually obtained from calling the Save method</param>
/// <exception cref="ArgumentNullException">RandomState cannot be null</exception>
public void Restore(RandomState state)
{
if (state == null)
{
throw new ArgumentNullException(nameof(state), "RandomState cannot be null");
}
_seed = state.Seed[0];
_random = new TRandom(_seed);
for (long i = 0; i < state.NumberGenerated; i++)
{
_random.Next();
}
}
//|| date.Text.Trim() != string.Empty || amount.Text.Trim() != string.Empty || bName.Text.Trim() != string.Empty ||bAddress.Text.Trim() != string.Empty || cnic.Text.Trim() != string.Empty
private void Generate_Click(object sender, EventArgs e)
{
if (crn.Text.Trim() != string.Empty || fName.Text.Trim() != string.Empty ||
tNum.Text.Trim() != string.Empty || fNum.Text.Trim() != string.Empty)
{
error.Text = "";
int CRN = Convert.ToInt32(crn.Text);
int fn = Convert.ToInt32(fNum.Text);
var nameGenerator = new PersonNameGenerator();
var trandom = new TRandom();
if (random.Checked)
{
for (int i = 1; i <= fn; i++)
{
int tn = Convert.ToInt32(tNum.Text);
TextWriter txt = new StreamWriter("E:\\" + fName.Text + i + ".csv");
txt.Write("Global ID,Transdate,Foreign Currency Amount,transferamount,transcurrencid,beneficairy name,beneficairy address1,beneficairy address2,beneficariy CNIC,beneficariy Mobile No,beneficairy city,Delivtype,delivdetail1,delivdetail2,delivdetail3,Sender name,Sender Address1,Sender Address2,Sender City,rem stat,remsource Code,Country Code" + (Environment.NewLine));
for (; tn > 0; tn--)
{
txt.Write(ValueToId(CRN) + "," + trandom.Next(1, 31) + "/" + trandom.Next(1, 12) + "/2019" + ",," + trandom.Next(10, 10000) + ",PKR," + nameGenerator.GenerateRandomFirstAndLastName() + "," + bAddress.Text + ",," + "42101" + trandom.Next(11111111, 99999999) + "," + "03" + trandom.Next(0, 999999999) + "," + city.Text + "," + tType.Text + "," + bank.Text + ",,0," + nameGenerator.GenerateRandomFirstAndLastName() + "," + rAddress.Text + ",," + rCity.Text + ",A," + ec.Text + ",1350" + (Environment.NewLine));
CRN++;
}
txt.Close();
}
error.Text = "File have been generated!";
}
else
{
for (int i = 1; i <= fn; i++)
{
int tn = Convert.ToInt32(tNum.Text);
TextWriter txt = new StreamWriter("E:\\" + fName.Text + i + ".csv");
txt.Write("Global ID,Transdate,Foreign Currency Amount,transferamount,transcurrencid,beneficairy name,beneficairy address1,beneficairy address2,beneficariy CNIC,beneficariy Mobile No,beneficairy city,Delivtype,delivdetail1,delivdetail2,delivdetail3,Sender name,Sender Address1,Sender Address2,Sender City,rem stat,remsource Code,Country Code" + (Environment.NewLine));
for (; tn > 0; tn--)
{
txt.Write(ValueToId(CRN) + "," + date.Text + ",," + amount.Text + ",PKR," + bName.Text + "," + bAddress.Text + ",," + cnic.Text + "," + number.Text + "," + city.Text + "," + tType.Text + "," + bank.Text + ",,0," + rName.Text + "," + rAddress.Text + ",," + rCity.Text + ",A," + ec.Text + ",1350" + (Environment.NewLine));
CRN++;
}
txt.Close();
}
error.Text = "File have been generated!";
}
}
else
{
error.Text = "All feilds are required to be filled!.";
return;
}
//txt.Write(crn.Text + "," + date.Text + ",," + amount.Text + ",PKR," + bName.Text + "," + bAddress.Text + ",," + cnic.Text + "," + number.Text + "," + city.Text + "," + tType.Text + "," + bank.Text + ",,0," + rName.Text + "," + rAddress.Text + ",," + rCity.Text + ",A," + ec.Text + ",1350" + (Environment.NewLine));
}
//mutation function, changing one value in unit, checking if group is correct
public void Mutation(double[] Group)
{
TRandom rnd = new TRandom();
int MutationNumber = rnd.Next(1, 3);
bool works = false;
while (works == false)
{
int MutationIndex = rnd.Next(0, Group.Length);
double Prev = Group[MutationIndex];
Group[MutationIndex] = MutationNumber;
var check = CheckGroup(Group);
if (check == false)
{
Group[MutationIndex] = Prev;
}
else
{
works = true;
}
}
}
public override BaseBuilder <Character> WithRandomizedDefaults(TRandom randomizer)
{
Entity = new Character();
var namePicker = new NamePicker(randomizer);
var gender = (Gender)(randomizer.Next(2) + 1);
Entity.Gender = gender;
Entity.FirstName = namePicker.GetFirstName(gender);
Entity.LastName = namePicker.GetLastName();
Entity.DateOfBirth = new RandomDateGenerator().GetRandomDate(new DateTime(1980, 1, 1), new DateTime(2019, 1, 1), randomizer);
Entity.DateSimulatedTo = Entity.DateOfBirth;
Entity.LifeLogs.Add(LifeLogFactories.BuildLog_Birth(Entity));
return(this);
}
public void Next_MaxInclusive()
{
for (var i = 0; i < 1000; i++)
{
var value = TRandom.Next(MaxLimitInt);
if (value == 0)
{
return;
}
if (value < 0)
{
Assert.Fail("Random result was less than inclusive minimum limit");
}
}
Assert.Fail("Inclusive minimum limit never hit");
}
//creating new population (half of last population won, so function is creating new units for the rest of population)
public void CreateNewPopulation(Parameters parameters)
{
//getting winners amount
int Winners = parameters.Popsize / 2;
double[] CurrentGroup = new double[parameters.NumberOfVertices];
//creating new groups
for (int k = Winners; k < parameters.Popsize; k++)
{
var NewGroup = CreateGroup(parameters.NumberOfVertices);
for (int j = 0; j < NewGroup.Length; j++)
{
parameters.Population[j][k] = NewGroup[j];
}
}
//checking if mutation or crossover occur
for (int i = Winners; i < parameters.Popsize; i++)
{
double CheckIfMutationHappen = MutationProc.Next(0, 100);
double CheckIfCrossOverHappen = CrossoverProc.Next(0, 100);
for (int k = 0; k < parameters.NumberOfVertices; k++)
{
CurrentGroup[k] = parameters.Population[k][i];
}
if (CheckIfMutationHappen <= parameters.MutationProbabilityValue)
{
//mutation
Mutation(CurrentGroup);
}
if (CheckIfCrossOverHappen <= parameters.CrossoverProbabilityValue)
{
//crossover
Crossover(CurrentGroup);
}
}
}
public static async Task CompleteTutorial(Session session, RepeatedField <TutorialState> tutorialState)
{
var random = new TRandom();
if (!tutorialState.Contains(0))
{
await Task.Delay(random.Next(1000, 5000));
var mtcReq = await session.RpcClient.SendRemoteProcedureCallAsync(new Request
{
RequestType = RequestType.MarkTutorialComplete,
RequestMessage = new MarkTutorialCompleteMessage
{
SendMarketingEmails = false,
SendPushNotifications = false
}.ToByteString()
});
var mtcResp = MarkTutorialCompleteResponse.Parser.ParseFrom(mtcReq);
// Form1.Logger.Debug($"Sending 0 tutorials_completed for {session.Player.Data.Username}.");
}
if (!tutorialState.Contains((TutorialState)1))
{
await Task.Delay(random.Next(5000, 12000));
var caReq = await session.RpcClient.SendRemoteProcedureCallAsync(new Request
{
RequestType = RequestType.SetAvatar,
RequestMessage = new SetAvatarMessage
{
PlayerAvatar = new PlayerAvatar
{
Hair = random.Next(1, 5),
Shirt = random.Next(1, 3),
Pants = random.Next(1, 2),
Shoes = random.Next(1, 6),
Avatar = random.Next(0, 1),
Eyes = random.Next(1, 4),
Backpack = random.Next(1, 5)
}
}.ToByteString()
});
var caResp = SetAvatarResponse.Parser.ParseFrom(caReq);
// Form1.Logger.Debug($"Sending set random player character request for ${session.Player.Data.Username}.");
}
await Task.Delay(random.Next(500, 600));
var gppr = await session.RpcClient.SendRemoteProcedureCallAsync(new Request
{
RequestType = RequestType.GetPlayerProfile,
RequestMessage = new GetPlayerProfileMessage
{
PlayerName = session.Player.Data.Username
}.ToByteString()
});
var gppre = GetPlayerProfileResponse.Parser.ParseFrom(gppr);
// Form1.Logger.Debug($"Fetching player profile for {session.Player.Data.Username}...");
if (!tutorialState.Contains((TutorialState)3))
{
await Task.Delay(random.Next(1000, 1500));
var starters = new[] { PokemonId.Bulbasaur, PokemonId.Charmander, PokemonId.Squirtle };
var starter = starters[random.Next(0, starters.Length)];
var streq = await session.RpcClient.SendRemoteProcedureCallAsync(new Request
{
RequestType = RequestType.EncounterTutorialComplete,
RequestMessage = new EncounterTutorialCompleteMessage
{
PokemonId = starter
}.ToByteString()
});
// Form1.Logger.Debug($"Catching the starter for {session.Player.Data.Username}. (Chose {starter.ToString()})");
var gpr = await session.RpcClient.SendRemoteProcedureCallAsync(new Request
{
RequestType = RequestType.GetPlayer,
RequestMessage = new GetPlayerMessage
{
PlayerLocale = new GetPlayerMessage.Types.PlayerLocale
{
Country = "US",
Language = "en",
Timezone = "America/New_York"
}
}.ToByteString()
});
var gpre = GetPlayerResponse.Parser.ParseFrom(gpr);
}
if (!tutorialState.Contains((TutorialState)4))
{
await Task.Delay(random.Next(5000, 12000));
var ccreq = await session.RpcClient.SendRemoteProcedureCallAsync(new Request
{
RequestType = RequestType.ClaimCodename,
RequestMessage = new ClaimCodenameMessage
{
Codename = session.Player.Data.Username
}.ToByteString()
});
var ccres = ClaimCodenameResponse.Parser.ParseFrom(ccreq);
// Form1.Logger.Debug($"Claimed codename for {session.Player.Data.Username}.");
var gpr = await session.RpcClient.SendRemoteProcedureCallAsync(new Request
{
RequestType = RequestType.GetPlayer,
RequestMessage = new GetPlayerMessage
{
PlayerLocale = new GetPlayerMessage.Types.PlayerLocale
{
Country = "US",
Language = "en",
Timezone = "America/New_York"
}
}.ToByteString()
});
var gpre = GetPlayerResponse.Parser.ParseFrom(gpr);
}
var firstOrDefault = session.Player.Inventory.InventoryItems.Select(i => i.InventoryItemData?.PokemonData).FirstOrDefault(p => p != null && p.PokemonId > 0);
if (firstOrDefault != null)
{
var starterId = firstOrDefault.Id;
if (starterId != null)
{
var budreq = await session.RpcClient.SendRemoteProcedureCallAsync(new Request
{
RequestType = RequestType.SetBuddyPokemon,
RequestMessage = new SetBuddyPokemonMessage
{
PokemonId = starterId
}.ToByteString()
});
var budres = SetBuddyPokemonResponse.Parser.ParseFrom(budreq);
// Form1.Logger.Debug($"Setting buddy pokemon for {session.Player.Data.Username}.");
}
}
// Form1.Logger.Info($"And {session.Player.Data.Username} is done. Waiting a sec to avoid throttle.");
await Task.Delay(random.Next(2000, 4000));
}
//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);
}
/// <summary>
/// This method simulated bus sensor telemetry
/// </summary>
private static async Task GenerateTelemetry()
{
string outputName = "output1";
int routeIdx = 0;
// TODO: 13 - Initialize machine learning prediction model infrastructure
// var mlContext = new MLContext();
// ITransformer mlModel = mlContext.Model.Load("BusMlModel/MLModel.zip", out var modelInputSchema);
// var predEngine = mlContext.Model.CreatePredictionEngine<ModelInput, ModelOutput>(mlModel);
while (true)
{
try
{
var currRouteData = _routeData[routeIdx];
_borough = GetBorough();
_latitude = currRouteData.Latitude;
_longitude = currRouteData.Longitude;
// TODO 14: Create input for the machine learning prediction engine by setting the
// device current latitude, longitude, and speed limit
// var mlInput = new ModelInput()
// {
// Latitude = currRouteData.Latitude,
// Longitude = currRouteData.Longitude,
// BusSpeed = currRouteData.BusSpeed
// };
// TODO 15: Use this input model to have the prediction engine determine if the
// current speed for the device is safe for the latitude and longitude location
//var mlOutput = predEngine.Predict(mlInput);
if (routeIdx == _routeData.Count - 1)
{
routeIdx = 0; //restart route
}
else
{
routeIdx++;
}
var info = new BusEvent()
{
vin = _vin,
outsideTemperature = GetOutsideTemp(_borough),
engineTemperature = GetEngineTemp(_borough),
speed = currRouteData.BusSpeed,
fuel = _random.Next(0, 40),
engineoil = GetOil(_borough),
tirepressure = GetTirePressure(_borough),
odometer = _random.Next(0, 200000),
accelerator_pedal_position = _random.Next(0, 100),
parking_brake_status = GetRandomBoolean(),
headlamp_status = GetRandomBoolean(),
brake_pedal_status = GetRandomBoolean(),
transmission_gear_position = GetGearPos(),
ignition_status = GetRandomBoolean(),
windshield_wiper_status = GetRandomBoolean(),
abs = GetRandomBoolean(),
timestamp = DateTime.UtcNow,
// TODO: 16 Populate the machine learning prediction into the telemetry data for upstream systems
// mlDetectedAggressiveDriving = mlOutput.Prediction
};
var serializedString = JsonConvert.SerializeObject(info);
Console.WriteLine($"{DateTime.Now} > Sending message: {serializedString}");
var message = new Message(Encoding.UTF8.GetBytes(serializedString));
message.ContentEncoding = "utf-8";
message.ContentType = "application/json";
// TODO: 17 - Have the ModuleClient send the event message asynchronously, using the specified output name
//await _vehicleTelemetryModuleClient.SendEventAsync(outputName, message);
// TODO: 18 - Send all telemetry to local blob storage
// var blockBlob = _blobContainer.GetBlockBlobReference($"telemetry_{info.timestamp.Ticks}.json");
// blockBlob.UploadText(serializedString);
}
catch (AggregateException ex)
{
foreach (Exception exception in ex.InnerExceptions)
{
Console.WriteLine();
Console.WriteLine("Error in sample: {0}", exception);
}
}
catch (Exception ex)
{
Console.WriteLine();
Console.WriteLine("Error in sample: {0}", ex);
}
await Task.Delay(200);
}
}
public static async void Run(string[] args)
{
var random = new TRandom();
Configuration config;
try
{
config = JsonConvert.DeserializeObject <Configuration>(File.ReadAllText(
Directory.GetCurrentDirectory() + "/" +
"config.json"));
}
catch (FileNotFoundException e)
{
Console.WriteLine("Please create a config.json file to continue.");
throw;
}
Console.Write("Hello and welcome to ");
Console.ForegroundColor = ConsoleColor.Magenta;
Console.Write("Entropy!\n");
Console.ForegroundColor = ConsoleColor.Gray;
Console.WriteLine("How many accounts would you like to create today?");
var acts = int.Parse(Console.ReadLine());
Console.WriteLine($"This generation session will cost you about ${Math.Round(acts * 0.003, 2)} USD " +
$"(for {acts} accounts)");
IProxyPool proxyPool;
if (File.Exists($"{Directory.GetCurrentDirectory()}/{config.ProxyFile}"))
{
proxyPool = new StandardProxyPool(ProxyReader.ReadProxies(config.ProxyFile));
}
else
{
proxyPool = new GimmeProxyPool();
}
var captcha = new TwoCaptchaService(config.CaptchaKey);
Console.WriteLine("OK! Let's go!");
var tasks = new List <Task>();
Status = "OK";
UpdateStats();
for (var i = acts - 1; i >= 0; i--)
{
tasks.Add(new Task(async() =>
{
var proxy = proxyPool.NextProxy();
ActiveProxies++;
for (var x = 0; x < 5; x++)
{
var username = random.Choice(config.Usernames.Prefix) + random.Choice(config.Usernames.Root) +
random.Choice(config.Usernames.Suffix);
var password = config.Password.UseStaticPassword ? config.Password.StaticPassword : String.Empty;
var ui = new AccountCreationOptions
{
CaptchaService = captcha,
Dob = $"{random.Next(1970, 2000)}-{FormatPTCNumber(random.Next(1, 12))}-{FormatPTCNumber(random.Next(1, 27))}",
Proxy = proxy.ToWebProxy(),
Username = username,
Password = password
};
var res = await Creator.Create(ui);
if (res.Successful)
{
Created++;
UpdateStats();
await Creator.HandleAccountAfterCreation(config, res);
}
else
{
Failed++;
UpdateStats();
}
}
BenchedProxies++;
}));
}
// Go.
await Task.WhenAll(tasks);
}
public override void Add(T item, double priority)
{
_items.Add(WaitQueue.NewPair(item, _random.Next()));
}
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);
}
public static async Task HandleAccountAfterCreation(Configuration config, AccountCreationResult account)
{
var random = new TRandom();
POGOLib.Official.Configuration.Hasher = new PokeHashHasher(config.TutorialSettings.HashKey);
var client = await GetSession(new PtcLoginProvider(account.Username, account.Password),
config.TutorialSettings.Latitude, config.TutorialSettings.Longitude);
if (!await client.StartupAsync())
{
throw new SessionFailedError();
}
if (config.TutorialSettings.Level2 || config.TutorialSettings.Level5)
{
var ts = await Tutorial.GetTutorialState(client);
await Tutorial.CompleteTutorial(client, ts);
// Level 2: Stop here.
// Level 5: Keep going.
if (config.TutorialSettings.Level5)
{
while (client.Player.Stats.Level < 5)
{
var lat = client.Player.Latitude + random.NextDouble(0.005, -0.005);
var lng = client.Player.Longitude + random.NextDouble(0.005, -0.005);
client.Player.SetCoordinates(lat, lng);
foreach (var cell in client.Map.Cells)
{
foreach (var pokemon in cell.CatchablePokemons)
{
if (DistanceBetweenPlaces(client.Player.Longitude, client.Player.Latitude,
pokemon.Latitude, pokemon.Longitude) <= client.GlobalSettings.MapSettings
.EncounterRangeMeters / 1000)
{
var encRes = EncounterResponse.Parser.ParseFrom(await client.RpcClient.
SendRemoteProcedureCallAsync(new Request
{
RequestType = RequestType.Encounter,
RequestMessage = new EncounterMessage
{
EncounterId = pokemon.EncounterId,
SpawnPointId = pokemon.SpawnPointId,
PlayerLatitude = client.Player.Latitude,
PlayerLongitude = client.Player.Longitude
}.ToByteString()
}));
await Task.Delay(random.Next(825, 1250));
if (encRes.Status == EncounterResponse.Types.Status.EncounterSuccess)
{
while (true)
{
var r = CatchPokemonResponse.Parser.ParseFrom(
await client.RpcClient.SendRemoteProcedureCallAsync(new Request
{
RequestType = RequestType.CatchPokemon,
RequestMessage = new CatchPokemonMessage
{
EncounterId = pokemon.EncounterId,
HitPokemon = true,
SpawnPointId = pokemon.SpawnPointId,
NormalizedHitPosition = 1,
NormalizedReticleSize = random.NextDouble(1.7, 1.95),
Pokeball = ItemId.ItemPokeBall,
SpinModifier = 1
}.ToByteString()
}));
if (r.Status == CatchPokemonResponse.Types.CatchStatus.CatchSuccess ||
r.Status == CatchPokemonResponse.Types.CatchStatus.CatchEscape)
{
break;
}
}
}
}
}
foreach (var fort in cell.Forts)
{
if (DistanceBetweenPlaces(client.Player.Longitude, client.Player.Latitude,
fort.Longitude, fort.Latitude) <=
client.GlobalSettings.FortSettings.InteractionRangeMeters / 1000)
{
if (fort.Type == FortType.Checkpoint)
{
await client.RpcClient.SendRemoteProcedureCallAsync(new Request
{
RequestType = RequestType.FortDetails,
RequestMessage = new FortDetailsMessage
{
FortId = fort.Id,
Latitude = fort.Latitude,
Longitude = fort.Longitude
}.ToByteString()
});
await Task.Delay(random.Next(600, 750));
await client.RpcClient.SendRemoteProcedureCallAsync(new Request
{
RequestType = RequestType.FortSearch,
RequestMessage = new FortSearchMessage
{
FortId = fort.Id,
FortLatitude = fort.Latitude,
FortLongitude = fort.Longitude,
PlayerLatitude = client.Player.Latitude,
PlayerLongitude = client.Player.Longitude
}.ToByteString()
});
}
}
}
}
}
}
}
}
//creating group
public double[] CreateGroup(int GroupSize)
{
//filling whole group with 0
TRandom rnd = new TRandom();
double[] Group = new double[GroupSize];
for (int i = 0; i < GroupSize; i++)
{
Group[i] = 0;
}
//checking size of each group
int checkVertexAmount = GroupSize % 3;
int normalNumber = (GroupSize - checkVertexAmount) / 3;
//creating group if vertex amount is divided by 3
if (checkVertexAmount == 0)
{
for (int i = 1; i < 4; i++)
{
for (int j = 0; j < normalNumber; j++)
{
int index = rnd.Next(0, GroupSize);
if (Group[index] == 0)
{
Group[index] = i;
}
else
{
j--;
}
}
}
}
//creating group if exactly one of groups is bigger than others
if (checkVertexAmount == 1)
{
int OneMore = rnd.Next(1, 3);
for (int i = 1; i < 4; i++)
{
for (int j = 0; j < normalNumber; j++)
{
int index = rnd.Next(0, GroupSize);
if (Group[index] == 0)
{
Group[index] = i;
}
else
{
j--;
}
}
}
for (int i = 0; i < GroupSize; i++)
{
if (Group[i] == 0)
{
Group[i] = OneMore;
}
}
}
//creating group if exactly one group size is less than others
if (checkVertexAmount == 2)
{
int OneBonus = rnd.Next(1, 3);
int TwoBonus = rnd.Next(1, 3);
while (TwoBonus == OneBonus)
{
TwoBonus = rnd.Next(1, 3);
}
for (int i = 1; i < 4; i++)
{
for (int j = 0; j < normalNumber; j++)
{
int index = rnd.Next(0, GroupSize);
if (Group[index] == 0)
{
Group[index] = i;
}
else
{
j--;
}
}
}
for (int i = 0; i < GroupSize; i++)
{
if (Group[i] == 0)
{
Group[i] = OneBonus;
break;
}
}
for (int i = 0; i < GroupSize; i++)
{
if (Group[i] == 0)
{
Group[i] = TwoBonus;
}
}
}
return Group;
}
/// <summary>
/// Gets the next pseudo-random integer between the specified minValue and maxValue inclusive
/// </summary>
/// <param name="minValue">Inclusive minimum result</param>
/// <param name="maxValue">Non-inclusive maximum result</param>
/// <returns>Returns a pseudo-random integer between the specified minValue and maxValue inclusive</returns>
/// <exception cref="ArgumentOutOfRangeException">Thrown if maxValue equals Int32.MaxValue</exception>
public int Next(int minValue, int maxValue)
{
_numberGenerated++;
return(_random.Next(minValue, maxValue));
}
