public void InheritedMap()
{
var definitions = new MapDefinitionCollection(new IMapDefinition[]
{
new MapperDefinition1(),
});
var mapper = new UmbracoMapper(definitions);
var thing3 = new Thing3 {
Value = "value"
};
var thing2 = mapper.Map <Thing3, Thing2>(thing3);
Assert.IsNotNull(thing2);
Assert.AreEqual("value", thing2.Value);
thing2 = mapper.Map <Thing2>(thing3);
Assert.IsNotNull(thing2);
Assert.AreEqual("value", thing2.Value);
thing2 = new Thing2();
mapper.Map(thing3, thing2);
Assert.AreEqual("value", thing2.Value);
}
public Thing4(Thing3 thing)
{
}
public async Task GetRequiredService_BiggerObjectGraphWithOpenGenerics_NoDeadlock()
{
// Test is similar to GetRequiredService_UsesSingletonAndLazyLocks_NoDeadlock (but for open generics and a larger object graph)
using (var mreForThread1 = new ManualResetEvent(false))
using (var mreForThread2 = new ManualResetEvent(false))
{
// Arrange
List <IFakeOpenGenericService <Thing4> > constrainedThing4Services = null;
List <IFakeOpenGenericService <Thing5> > constrainedThing5Services = null;
Thing3 thing3 = null;
IServiceProvider sp = null;
var sb = new StringBuilder();
var services = new ServiceCollection();
services.AddSingleton <Thing0>();
services.AddSingleton <Thing1>();
services.AddSingleton <Thing2>();
services.AddSingleton <Thing3>();
services.AddTransient(typeof(IFakeOpenGenericService <>), typeof(FakeOpenGenericService <>));
var lazy = new Lazy <Thing4>(() =>
{
sb.Append("3");
mreForThread2.Set(); // Now that thread 1 holds lazy lock, allow thread 2 to continue
thing3 = sp.GetRequiredService <Thing3>();
return(new Thing4(thing3));
});
services.AddTransient(sp =>
{
if (ThreadId == 2)
{
sb.Append("1");
mreForThread1.Set(); // [b] Allow thread 1 to continue execution and take the lazy lock
mreForThread2.WaitOne(); // [c] Wait until thread 1 takes the lazy lock
sb.Append("4");
}
// Let Thread 1 over take Thread 2
Thing4 value = lazy.Value;
return(value);
});
services.AddSingleton <Thing5>();
sp = services.BuildServiceProvider();
// Act
var t1 = Task.Run(() =>
{
ThreadId = 1;
using var scope1 = sp.CreateScope();
mreForThread1.WaitOne(); // Waits until thread 2 reaches the transient call to ensure it holds Thing4 singleton lock
sb.Append("2");
constrainedThing4Services = sp.GetServices <IFakeOpenGenericService <Thing4> >().ToList();
});
var t2 = Task.Run(() =>
{
ThreadId = 2;
using var scope2 = sp.CreateScope();
constrainedThing5Services = sp.GetServices <IFakeOpenGenericService <Thing5> >().ToList();
});
// Act
await t1;
await t2;
Assert.Equal("1234", sb.ToString()); // Expected order of execution
var thing4 = sp.GetRequiredService <Thing4>();
var thing5 = sp.GetRequiredService <Thing5>();
// Assert
Assert.NotNull(thing3);
Assert.NotNull(thing4);
Assert.NotNull(thing5);
Assert.Equal(1, constrainedThing4Services.Count);
Assert.Equal(1, constrainedThing5Services.Count);
Assert.Same(thing4, constrainedThing4Services[0].Value);
Assert.Same(thing5, constrainedThing5Services[0].Value);
}
}
public void ConcurrentMap()
{
var definitions = new MapDefinitionCollection(() => new IMapDefinition[]
{
new MapperDefinition1(),
new MapperDefinition3(),
});
var mapper = new UmbracoMapper(definitions, _scopeProvider);
// the mapper currently has a map from Thing1 to Thing2
// because Thing3 inherits from Thing1, it will map a Thing3 instance,
// and register a new map from Thing3 to Thing2,
// thus modifying its internal dictionaries
// if timing is good, and mapper does have non-concurrent dictionaries, it fails
// practically, to reproduce, one needs to add a 1s sleep in the mapper's loop
// hence, this test is explicit
var thing3 = new Thing3 {
Value = "value"
};
var thing4 = new Thing4();
Exception caught = null;
void ThreadLoop()
{
// keep failing at mapping - and looping through the maps
for (var i = 0; i < 10; i++)
{
try
{
mapper.Map <Thing2>(thing4);
}
catch (Exception e)
{
caught = e;
Console.WriteLine($"{e.GetType().Name} {e.Message}");
}
}
Console.WriteLine("done");
}
var thread = new Thread(ThreadLoop);
thread.Start();
Thread.Sleep(1000);
try
{
Console.WriteLine($"{DateTime.Now:O} mapping");
var thing2 = mapper.Map <Thing2>(thing3);
Console.WriteLine($"{DateTime.Now:O} mapped");
Assert.IsNotNull(thing2);
Assert.AreEqual("value", thing2.Value);
}
finally
{
thread.Join();
}
}