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BlubbFish 2019-12-08 21:23:54 +01:00
parent aa9fcd4a36
commit d0b26111dd
50 changed files with 8669 additions and 9749 deletions
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450
Swan/DependencyInjection/DependencyContainer.cs
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@ -1,58 +1,54 @@
namespace Swan.DependencyInjection
{
using System;
using System.Collections.Generic;
using System.Linq;
using System.Reflection;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Reflection;
namespace Swan.DependencyInjection {
/// <summary>
/// The concrete implementation of a simple IoC container
/// based largely on TinyIoC (https://github.com/grumpydev/TinyIoC).
/// </summary>
/// <seealso cref="System.IDisposable" />
public partial class DependencyContainer : IDisposable
{
private readonly object _autoRegisterLock = new object();
public partial class DependencyContainer : IDisposable {
private readonly Object _autoRegisterLock = new Object();
private bool _disposed;
private Boolean _disposed;
static DependencyContainer()
{
static DependencyContainer() {
}
/// <summary>
/// Initializes a new instance of the <see cref="DependencyContainer"/> class.
/// </summary>
public DependencyContainer()
{
RegisteredTypes = new TypesConcurrentDictionary(this);
Register(this);
public DependencyContainer() {
this.RegisteredTypes = new TypesConcurrentDictionary(this);
_ = this.Register(this);
}
private DependencyContainer(DependencyContainer parent)
: this()
{
Parent = parent;
}
private DependencyContainer(DependencyContainer parent) : this() => this.Parent = parent;
/// <summary>
/// Lazy created Singleton instance of the container for simple scenarios.
/// </summary>
public static DependencyContainer Current { get; } = new DependencyContainer();
internal DependencyContainer Parent { get; }
internal DependencyContainer Parent {
get;
}
internal TypesConcurrentDictionary RegisteredTypes { get; }
internal TypesConcurrentDictionary RegisteredTypes {
get;
}
/// <inheritdoc />
public void Dispose()
{
if (_disposed) return;
public void Dispose() {
if(this._disposed) {
return;
}
_disposed = true;
this._disposed = true;
foreach (var disposable in RegisteredTypes.Values.Select(item => item as IDisposable))
{
foreach(IDisposable disposable in this.RegisteredTypes.Values.Select(item => item as IDisposable)) {
disposable?.Dispose();
}
@ -73,16 +69,7 @@
/// </summary>
/// <param name="duplicateAction">What action to take when encountering duplicate implementations of an interface/base class.</param>
/// <param name="registrationPredicate">Predicate to determine if a particular type should be registered.</param>
public void AutoRegister(
DependencyContainerDuplicateImplementationAction duplicateAction =
DependencyContainerDuplicateImplementationAction.RegisterSingle,
Func<Type, bool> registrationPredicate = null)
{
AutoRegister(
AppDomain.CurrentDomain.GetAssemblies().Where(a => !IsIgnoredAssembly(a)),
duplicateAction,
registrationPredicate);
}
public void AutoRegister(DependencyContainerDuplicateImplementationAction duplicateAction = DependencyContainerDuplicateImplementationAction.RegisterSingle, Func<Type, Boolean> registrationPredicate = null) => this.AutoRegister(AppDomain.CurrentDomain.GetAssemblies().Where(a => !IsIgnoredAssembly(a)), duplicateAction, registrationPredicate);
/// <summary>
/// Attempt to automatically register all non-generic classes and interfaces in the specified assemblies
@ -91,69 +78,45 @@
/// <param name="assemblies">Assemblies to process.</param>
/// <param name="duplicateAction">What action to take when encountering duplicate implementations of an interface/base class.</param>
/// <param name="registrationPredicate">Predicate to determine if a particular type should be registered.</param>
public void AutoRegister(
IEnumerable<Assembly> assemblies,
DependencyContainerDuplicateImplementationAction duplicateAction =
DependencyContainerDuplicateImplementationAction.RegisterSingle,
Func<Type, bool> registrationPredicate = null)
{
lock (_autoRegisterLock)
{
var types = assemblies
.SelectMany(a => a.GetAllTypes())
.Where(t => !IsIgnoredType(t, registrationPredicate))
.ToList();
public void AutoRegister(IEnumerable<Assembly> assemblies, DependencyContainerDuplicateImplementationAction duplicateAction = DependencyContainerDuplicateImplementationAction.RegisterSingle, Func<Type, Boolean> registrationPredicate = null) {
lock(this._autoRegisterLock) {
List<Type> types = assemblies.SelectMany(a => a.GetAllTypes()).Where(t => !IsIgnoredType(t, registrationPredicate)).ToList();
var concreteTypes = types
.Where(type =>
type.IsClass && !type.IsAbstract &&
(type != GetType() && (type.DeclaringType != GetType()) && !type.IsGenericTypeDefinition))
.ToList();
List<Type> concreteTypes = types.Where(type => type.IsClass && !type.IsAbstract && type != this.GetType() && type.DeclaringType != this.GetType() && !type.IsGenericTypeDefinition).ToList();
foreach (var type in concreteTypes)
{
try
{
RegisteredTypes.Register(type, string.Empty, GetDefaultObjectFactory(type, type));
}
catch (MethodAccessException)
{
foreach(Type type in concreteTypes) {
try {
_ = this.RegisteredTypes.Register(type, String.Empty, GetDefaultObjectFactory(type, type));
} catch(MethodAccessException) {
// Ignore methods we can't access - added for Silverlight
}
}
var abstractInterfaceTypes = types.Where(
type =>
((type.IsInterface || type.IsAbstract) && (type.DeclaringType != GetType()) &&
(!type.IsGenericTypeDefinition)));
IEnumerable<Type> abstractInterfaceTypes = types.Where(type => (type.IsInterface || type.IsAbstract) && type.DeclaringType != this.GetType() && !type.IsGenericTypeDefinition);
foreach (var type in abstractInterfaceTypes)
{
var localType = type;
var implementations = concreteTypes
.Where(implementationType => localType.IsAssignableFrom(implementationType)).ToList();
foreach(Type type in abstractInterfaceTypes) {
Type localType = type;
List<Type> implementations = concreteTypes.Where(implementationType => localType.IsAssignableFrom(implementationType)).ToList();
if (implementations.Skip(1).Any())
{
if (duplicateAction == DependencyContainerDuplicateImplementationAction.Fail)
if(implementations.Skip(1).Any()) {
if(duplicateAction == DependencyContainerDuplicateImplementationAction.Fail) {
throw new DependencyContainerRegistrationException(type, implementations);
}
if (duplicateAction == DependencyContainerDuplicateImplementationAction.RegisterMultiple)
{
RegisterMultiple(type, implementations);
if(duplicateAction == DependencyContainerDuplicateImplementationAction.RegisterMultiple) {
_ = this.RegisterMultiple(type, implementations);
}
}
var firstImplementation = implementations.FirstOrDefault();
Type firstImplementation = implementations.FirstOrDefault();
if (firstImplementation == null) continue;
try
{
RegisteredTypes.Register(type, string.Empty, GetDefaultObjectFactory(type, firstImplementation));
if(firstImplementation == null) {
continue;
}
catch (MethodAccessException)
{
try {
_ = this.RegisteredTypes.Register(type, String.Empty, GetDefaultObjectFactory(type, firstImplementation));
} catch(MethodAccessException) {
// Ignore methods we can't access - added for Silverlight
}
}
@ -166,11 +129,7 @@
/// <param name="registerType">Type to register.</param>
/// <param name="name">Name of registration.</param>
/// <returns>RegisterOptions for fluent API.</returns>
public RegisterOptions Register(Type registerType, string name = "")
=> RegisteredTypes.Register(
registerType,
name,
GetDefaultObjectFactory(registerType, registerType));
public RegisterOptions Register(Type registerType, String name = "") => this.RegisteredTypes.Register(registerType, name, GetDefaultObjectFactory(registerType, registerType));
/// <summary>
/// Creates/replaces a named container class registration with a given implementation and default options.
@ -179,8 +138,7 @@
/// <param name="registerImplementation">Type to instantiate that implements RegisterType.</param>
/// <param name="name">Name of registration.</param>
/// <returns>RegisterOptions for fluent API.</returns>
public RegisterOptions Register(Type registerType, Type registerImplementation, string name = "") =>
RegisteredTypes.Register(registerType, name, GetDefaultObjectFactory(registerType, registerImplementation));
public RegisterOptions Register(Type registerType, Type registerImplementation, String name = "") => this.RegisteredTypes.Register(registerType, name, GetDefaultObjectFactory(registerType, registerImplementation));
/// <summary>
/// Creates/replaces a named container class registration with a specific, strong referenced, instance.
@ -189,8 +147,7 @@
/// <param name="instance">Instance of RegisterType to register.</param>
/// <param name="name">Name of registration.</param>
/// <returns>RegisterOptions for fluent API.</returns>
public RegisterOptions Register(Type registerType, object instance, string name = "") =>
RegisteredTypes.Register(registerType, name, new InstanceFactory(registerType, registerType, instance));
public RegisterOptions Register(Type registerType, Object instance, String name = "") => this.RegisteredTypes.Register(registerType, name, new InstanceFactory(registerType, registerType, instance));
/// <summary>
/// Creates/replaces a named container class registration with a specific, strong referenced, instance.
@ -200,12 +157,7 @@
/// <param name="instance">Instance of RegisterImplementation to register.</param>
/// <param name="name">Name of registration.</param>
/// <returns>RegisterOptions for fluent API.</returns>
public RegisterOptions Register(
Type registerType,
Type registerImplementation,
object instance,
string name = "")
=> RegisteredTypes.Register(registerType, name, new InstanceFactory(registerType, registerImplementation, instance));
public RegisterOptions Register(Type registerType, Type registerImplementation, Object instance, String name = "") => this.RegisteredTypes.Register(registerType, name, new InstanceFactory(registerType, registerImplementation, instance));
/// <summary>
/// Creates/replaces a container class registration with a user specified factory.
@ -214,11 +166,7 @@
/// <param name="factory">Factory/lambda that returns an instance of RegisterType.</param>
/// <param name="name">Name of registration.</param>
/// <returns>RegisterOptions for fluent API.</returns>
public RegisterOptions Register(
Type registerType,
Func<DependencyContainer, Dictionary<string, object>, object> factory,
string name = "")
=> RegisteredTypes.Register(registerType, name, new DelegateFactory(registerType, factory));
public RegisterOptions Register(Type registerType, Func<DependencyContainer, Dictionary<String, Object>, Object> factory, String name = "") => this.RegisteredTypes.Register(registerType, name, new DelegateFactory(registerType, factory));
/// <summary>
/// Creates/replaces a named container class registration with default options.
@ -226,11 +174,7 @@
/// <typeparam name="TRegister">Type to register.</typeparam>
/// <param name="name">Name of registration.</param>
/// <returns>RegisterOptions for fluent API.</returns>
public RegisterOptions Register<TRegister>(string name = "")
where TRegister : class
{
return Register(typeof(TRegister), name);
}
public RegisterOptions Register<TRegister>(String name = "") where TRegister : class => this.Register(typeof(TRegister), name);
/// <summary>
/// Creates/replaces a named container class registration with a given implementation and default options.
@ -239,12 +183,7 @@
/// <typeparam name="TRegisterImplementation">Type to instantiate that implements RegisterType.</typeparam>
/// <param name="name">Name of registration.</param>
/// <returns>RegisterOptions for fluent API.</returns>
public RegisterOptions Register<TRegister, TRegisterImplementation>(string name = "")
where TRegister : class
where TRegisterImplementation : class, TRegister
{
return Register(typeof(TRegister), typeof(TRegisterImplementation), name);
}
public RegisterOptions Register<TRegister, TRegisterImplementation>(String name = "") where TRegister : class where TRegisterImplementation : class, TRegister => this.Register(typeof(TRegister), typeof(TRegisterImplementation), name);
/// <summary>
/// Creates/replaces a named container class registration with a specific, strong referenced, instance.
@ -253,11 +192,7 @@
/// <param name="instance">Instance of RegisterType to register.</param>
/// <param name="name">Name of registration.</param>
/// <returns>RegisterOptions for fluent API.</returns>
public RegisterOptions Register<TRegister>(TRegister instance, string name = "")
where TRegister : class
{
return Register(typeof(TRegister), instance, name);
}
public RegisterOptions Register<TRegister>(TRegister instance, String name = "") where TRegister : class => this.Register(typeof(TRegister), instance, name);
/// <summary>
/// Creates/replaces a named container class registration with a specific, strong referenced, instance.
@ -267,13 +202,7 @@
/// <param name="instance">Instance of RegisterImplementation to register.</param>
/// <param name="name">Name of registration.</param>
/// <returns>RegisterOptions for fluent API.</returns>
public RegisterOptions Register<TRegister, TRegisterImplementation>(TRegisterImplementation instance,
string name = "")
where TRegister : class
where TRegisterImplementation : class, TRegister
{
return Register(typeof(TRegister), typeof(TRegisterImplementation), instance, name);
}
public RegisterOptions Register<TRegister, TRegisterImplementation>(TRegisterImplementation instance, String name = "") where TRegister : class where TRegisterImplementation : class, TRegister => this.Register(typeof(TRegister), typeof(TRegisterImplementation), instance, name);
/// <summary>
/// Creates/replaces a named container class registration with a user specified factory.
@ -282,14 +211,12 @@
/// <param name="factory">Factory/lambda that returns an instance of RegisterType.</param>
/// <param name="name">Name of registration.</param>
/// <returns>RegisterOptions for fluent API.</returns>
public RegisterOptions Register<TRegister>(
Func<DependencyContainer, Dictionary<string, object>, TRegister> factory, string name = "")
where TRegister : class
{
if (factory == null)
public RegisterOptions Register<TRegister>(Func<DependencyContainer, Dictionary<String, Object>, TRegister> factory, String name = "") where TRegister : class {
if(factory == null) {
throw new ArgumentNullException(nameof(factory));
}
return Register(typeof(TRegister), factory, name);
return this.Register(typeof(TRegister), factory, name);
}
/// <summary>
@ -300,8 +227,7 @@
/// <typeparam name="TRegister">Type that each implementation implements.</typeparam>
/// <param name="implementationTypes">Types that implement RegisterType.</param>
/// <returns>MultiRegisterOptions for the fluent API.</returns>
public MultiRegisterOptions RegisterMultiple<TRegister>(IEnumerable<Type> implementationTypes) =>
RegisterMultiple(typeof(TRegister), implementationTypes);
public MultiRegisterOptions RegisterMultiple<TRegister>(IEnumerable<Type> implementationTypes) => this.RegisterMultiple(typeof(TRegister), implementationTypes);
/// <summary>
/// Register multiple implementations of a type.
@ -311,33 +237,24 @@
/// <param name="registrationType">Type that each implementation implements.</param>
/// <param name="implementationTypes">Types that implement RegisterType.</param>
/// <returns>MultiRegisterOptions for the fluent API.</returns>
public MultiRegisterOptions RegisterMultiple(Type registrationType, IEnumerable<Type> implementationTypes)
{
if (implementationTypes == null)
public MultiRegisterOptions RegisterMultiple(Type registrationType, IEnumerable<Type> implementationTypes) {
if(implementationTypes == null) {
throw new ArgumentNullException(nameof(implementationTypes), "types is null.");
foreach (var type in implementationTypes.Where(type => !registrationType.IsAssignableFrom(type)))
{
throw new ArgumentException(
$"types: The type {registrationType.FullName} is not assignable from {type.FullName}");
}
if (implementationTypes.Count() != implementationTypes.Distinct().Count())
{
var queryForDuplicatedTypes = implementationTypes
.GroupBy(i => i)
.Where(j => j.Count() > 1)
.Select(j => j.Key.FullName);
var fullNamesOfDuplicatedTypes = string.Join(",\n", queryForDuplicatedTypes.ToArray());
throw new ArgumentException(
$"types: The same implementation type cannot be specified multiple times for {registrationType.FullName}\n\n{fullNamesOfDuplicatedTypes}");
foreach(Type type in implementationTypes.Where(type => !registrationType.IsAssignableFrom(type))) {
throw new ArgumentException($"types: The type {registrationType.FullName} is not assignable from {type.FullName}");
}
var registerOptions = implementationTypes
.Select(type => Register(registrationType, type, type.FullName))
.ToList();
if(implementationTypes.Count() != implementationTypes.Distinct().Count()) {
IEnumerable<String> queryForDuplicatedTypes = implementationTypes.GroupBy(i => i).Where(j => j.Count() > 1).Select(j => j.Key.FullName);
String fullNamesOfDuplicatedTypes = String.Join(",\n", queryForDuplicatedTypes.ToArray());
throw new ArgumentException($"types: The same implementation type cannot be specified multiple times for {registrationType.FullName}\n\n{fullNamesOfDuplicatedTypes}");
}
List<RegisterOptions> registerOptions = implementationTypes.Select(type => this.Register(registrationType, type, type.FullName)).ToList();
return new MultiRegisterOptions(registerOptions);
}
@ -352,7 +269,7 @@
/// <typeparam name="TRegister">Type to unregister.</typeparam>
/// <param name="name">Name of registration.</param>
/// <returns><c>true</c> if the registration is successfully found and removed; otherwise, <c>false</c>.</returns>
public bool Unregister<TRegister>(string name = "") => Unregister(typeof(TRegister), name);
public Boolean Unregister<TRegister>(String name = "") => this.Unregister(typeof(TRegister), name);
/// <summary>
/// Remove a named container class registration.
@ -360,8 +277,7 @@
/// <param name="registerType">Type to unregister.</param>
/// <param name="name">Name of registration.</param>
/// <returns><c>true</c> if the registration is successfully found and removed; otherwise, <c>false</c>.</returns>
public bool Unregister(Type registerType, string name = "") =>
RegisteredTypes.RemoveRegistration(new TypeRegistration(registerType, name));
public Boolean Unregister(Type registerType, String name = "") => this.RegisteredTypes.RemoveRegistration(new TypeRegistration(registerType, name));
#endregion
@ -378,11 +294,7 @@
/// <param name="options">Resolution options.</param>
/// <returns>Instance of type.</returns>
/// <exception cref="DependencyContainerResolutionException">Unable to resolve the type.</exception>
public object Resolve(
Type resolveType,
string name = null,
DependencyContainerResolveOptions options = null)
=> RegisteredTypes.ResolveInternal(new TypeRegistration(resolveType, name), options ?? DependencyContainerResolveOptions.Default);
public Object Resolve(Type resolveType, String name = null, DependencyContainerResolveOptions options = null) => this.RegisteredTypes.ResolveInternal(new TypeRegistration(resolveType, name), options ?? DependencyContainerResolveOptions.Default);
/// <summary>
/// Attempts to resolve a named type using specified options and the supplied constructor parameters.
@ -395,13 +307,7 @@
/// <param name="options">Resolution options.</param>
/// <returns>Instance of type.</returns>
/// <exception cref="DependencyContainerResolutionException">Unable to resolve the type.</exception>
public TResolveType Resolve<TResolveType>(
string name = null,
DependencyContainerResolveOptions options = null)
where TResolveType : class
{
return (TResolveType)Resolve(typeof(TResolveType), name, options);
}
public TResolveType Resolve<TResolveType>(String name = null, DependencyContainerResolveOptions options = null) where TResolveType : class => (TResolveType)this.Resolve(typeof(TResolveType), name, options);
/// <summary>
/// Attempts to predict whether a given type can be resolved with the supplied constructor parameters options.
@ -415,11 +321,7 @@
/// <returns>
/// Bool indicating whether the type can be resolved.
/// </returns>
public bool CanResolve(
Type resolveType,
string name = null,
DependencyContainerResolveOptions options = null) =>
RegisteredTypes.CanResolve(new TypeRegistration(resolveType, name), options);
public Boolean CanResolve(Type resolveType, String name = null, DependencyContainerResolveOptions options = null) => this.RegisteredTypes.CanResolve(new TypeRegistration(resolveType, name), options);
/// <summary>
/// Attempts to predict whether a given named type can be resolved with the supplied constructor parameters options.
@ -433,13 +335,7 @@
/// <param name="name">Name of registration.</param>
/// <param name="options">Resolution options.</param>
/// <returns>Bool indicating whether the type can be resolved.</returns>
public bool CanResolve<TResolveType>(
string name = null,
DependencyContainerResolveOptions options = null)
where TResolveType : class
{
return CanResolve(typeof(TResolveType), name, options);
}
public Boolean CanResolve<TResolveType>(String name = null, DependencyContainerResolveOptions options = null) where TResolveType : class => this.CanResolve(typeof(TResolveType), name, options);
/// <summary>
/// Attempts to resolve a type using the default options.
@ -447,15 +343,11 @@
/// <param name="resolveType">Type to resolve.</param>
/// <param name="resolvedType">Resolved type or default if resolve fails.</param>
/// <returns><c>true</c> if resolved successfully, <c>false</c> otherwise.</returns>
public bool TryResolve(Type resolveType, out object resolvedType)
{
try
{
resolvedType = Resolve(resolveType);
public Boolean TryResolve(Type resolveType, out Object resolvedType) {
try {
resolvedType = this.Resolve(resolveType);
return true;
}
catch (DependencyContainerResolutionException)
{
} catch(DependencyContainerResolutionException) {
resolvedType = null;
return false;
}
@ -468,15 +360,11 @@
/// <param name="options">Resolution options.</param>
/// <param name="resolvedType">Resolved type or default if resolve fails.</param>
/// <returns><c>true</c> if resolved successfully, <c>false</c> otherwise.</returns>
public bool TryResolve(Type resolveType, DependencyContainerResolveOptions options, out object resolvedType)
{
try
{
resolvedType = Resolve(resolveType, options: options);
public Boolean TryResolve(Type resolveType, DependencyContainerResolveOptions options, out Object resolvedType) {
try {
resolvedType = this.Resolve(resolveType, options: options);
return true;
}
catch (DependencyContainerResolutionException)
{
} catch(DependencyContainerResolutionException) {
resolvedType = null;
return false;
}
@ -489,15 +377,11 @@
/// <param name="name">Name of registration.</param>
/// <param name="resolvedType">Resolved type or default if resolve fails.</param>
/// <returns><c>true</c> if resolved successfully, <c>false</c> otherwise.</returns>
public bool TryResolve(Type resolveType, string name, out object resolvedType)
{
try
{
resolvedType = Resolve(resolveType, name);
public Boolean TryResolve(Type resolveType, String name, out Object resolvedType) {
try {
resolvedType = this.Resolve(resolveType, name);
return true;
}
catch (DependencyContainerResolutionException)
{
} catch(DependencyContainerResolutionException) {
resolvedType = null;
return false;
}
@ -511,19 +395,11 @@
/// <param name="options">Resolution options.</param>
/// <param name="resolvedType">Resolved type or default if resolve fails.</param>
/// <returns><c>true</c> if resolved successfully, <c>false</c> otherwise.</returns>
public bool TryResolve(
Type resolveType,
string name,
DependencyContainerResolveOptions options,
out object resolvedType)
{
try
{
resolvedType = Resolve(resolveType, name, options);
public Boolean TryResolve(Type resolveType, String name, DependencyContainerResolveOptions options, out Object resolvedType) {
try {
resolvedType = this.Resolve(resolveType, name, options);
return true;
}
catch (DependencyContainerResolutionException)
{
} catch(DependencyContainerResolutionException) {
resolvedType = null;
return false;
}
@ -535,16 +411,11 @@
/// <typeparam name="TResolveType">Type to resolve.</typeparam>
/// <param name="resolvedType">Resolved type or default if resolve fails.</param>
/// <returns><c>true</c> if resolved successfully, <c>false</c> otherwise.</returns>
public bool TryResolve<TResolveType>(out TResolveType resolvedType)
where TResolveType : class
{
try
{
resolvedType = Resolve<TResolveType>();
public Boolean TryResolve<TResolveType>(out TResolveType resolvedType) where TResolveType : class {
try {
resolvedType = this.Resolve<TResolveType>();
return true;
}
catch (DependencyContainerResolutionException)
{
} catch(DependencyContainerResolutionException) {
resolvedType = default;
return false;
}
@ -557,16 +428,11 @@
/// <param name="options">Resolution options.</param>
/// <param name="resolvedType">Resolved type or default if resolve fails.</param>
/// <returns><c>true</c> if resolved successfully, <c>false</c> otherwise.</returns>
public bool TryResolve<TResolveType>(DependencyContainerResolveOptions options, out TResolveType resolvedType)
where TResolveType : class
{
try
{
resolvedType = Resolve<TResolveType>(options: options);
public Boolean TryResolve<TResolveType>(DependencyContainerResolveOptions options, out TResolveType resolvedType) where TResolveType : class {
try {
resolvedType = this.Resolve<TResolveType>(options: options);
return true;
}
catch (DependencyContainerResolutionException)
{
} catch(DependencyContainerResolutionException) {
resolvedType = default;
return false;
}
@ -579,16 +445,11 @@
/// <param name="name">Name of registration.</param>
/// <param name="resolvedType">Resolved type or default if resolve fails.</param>
/// <returns><c>true</c> if resolved successfully, <c>false</c> otherwise.</returns>
public bool TryResolve<TResolveType>(string name, out TResolveType resolvedType)
where TResolveType : class
{
try
{
resolvedType = Resolve<TResolveType>(name);
public Boolean TryResolve<TResolveType>(String name, out TResolveType resolvedType) where TResolveType : class {
try {
resolvedType = this.Resolve<TResolveType>(name);
return true;
}
catch (DependencyContainerResolutionException)
{
} catch(DependencyContainerResolutionException) {
resolvedType = default;
return false;
}
@ -602,19 +463,11 @@
/// <param name="options">Resolution options.</param>
/// <param name="resolvedType">Resolved type or default if resolve fails.</param>
/// <returns><c>true</c> if resolved successfully, <c>false</c> otherwise.</returns>
public bool TryResolve<TResolveType>(
string name,
DependencyContainerResolveOptions options,
out TResolveType resolvedType)
where TResolveType : class
{
try
{
resolvedType = Resolve<TResolveType>(name, options);
public Boolean TryResolve<TResolveType>(String name, DependencyContainerResolveOptions options, out TResolveType resolvedType) where TResolveType : class {
try {
resolvedType = this.Resolve<TResolveType>(name, options);
return true;
}
catch (DependencyContainerResolutionException)
{
} catch(DependencyContainerResolutionException) {
resolvedType = default;
return false;
}
@ -626,8 +479,7 @@
/// <param name="resolveType">Type to resolveAll.</param>
/// <param name="includeUnnamed">Whether to include un-named (default) registrations.</param>
/// <returns>IEnumerable.</returns>
public IEnumerable<object> ResolveAll(Type resolveType, bool includeUnnamed = false)
=> RegisteredTypes.Resolve(resolveType, includeUnnamed);
public IEnumerable<Object> ResolveAll(Type resolveType, Boolean includeUnnamed = false) => this.RegisteredTypes.Resolve(resolveType, includeUnnamed);
/// <summary>
/// Returns all registrations of a type.
@ -635,38 +487,24 @@
/// <typeparam name="TResolveType">Type to resolveAll.</typeparam>
/// <param name="includeUnnamed">Whether to include un-named (default) registrations.</param>
/// <returns>IEnumerable.</returns>
public IEnumerable<TResolveType> ResolveAll<TResolveType>(bool includeUnnamed = true)
where TResolveType : class
{
return ResolveAll(typeof(TResolveType), includeUnnamed).Cast<TResolveType>();
}
public IEnumerable<TResolveType> ResolveAll<TResolveType>(Boolean includeUnnamed = true) where TResolveType : class => this.ResolveAll(typeof(TResolveType), includeUnnamed).Cast<TResolveType>();
/// <summary>
/// Attempts to resolve all public property dependencies on the given object using the given resolve options.
/// </summary>
/// <param name="input">Object to "build up".</param>
/// <param name="resolveOptions">Resolve options to use.</param>
public void BuildUp(object input, DependencyContainerResolveOptions resolveOptions = null)
{
if (resolveOptions == null)
public void BuildUp(Object input, DependencyContainerResolveOptions resolveOptions = null) {
if(resolveOptions == null) {
resolveOptions = DependencyContainerResolveOptions.Default;
var properties = input.GetType()
.GetProperties()
.Where(property => property.GetCacheGetMethod() != null && property.GetCacheSetMethod() != null &&
!property.PropertyType.IsValueType);
foreach (var property in properties.Where(property => property.GetValue(input, null) == null))
{
try
{
property.SetValue(
input,
RegisteredTypes.ResolveInternal(new TypeRegistration(property.PropertyType), resolveOptions),
null);
}
catch (DependencyContainerResolutionException)
{
IEnumerable<PropertyInfo> properties = input.GetType().GetProperties().Where(property => property.GetCacheGetMethod() != null && property.GetCacheSetMethod() != null && !property.PropertyType.IsValueType);
foreach(PropertyInfo property in properties.Where(property => property.GetValue(input, null) == null)) {
try {
property.SetValue(input, this.RegisteredTypes.ResolveInternal(new TypeRegistration(property.PropertyType), resolveOptions), null);
} catch(DependencyContainerResolutionException) {
// Catch any resolution errors and ignore them
}
}
@ -676,29 +514,27 @@
#region Internal Methods
internal static bool IsValidAssignment(Type registerType, Type registerImplementation)
{
if (!registerType.IsGenericTypeDefinition)
{
if (!registerType.IsAssignableFrom(registerImplementation))
internal static Boolean IsValidAssignment(Type registerType, Type registerImplementation) {
if(!registerType.IsGenericTypeDefinition) {
if(!registerType.IsAssignableFrom(registerImplementation)) {
return false;
}
else
{
if (registerType.IsInterface && registerImplementation.GetInterfaces().All(t => t.Name != registerType.Name))
} else {
if(registerType.IsInterface && registerImplementation.GetInterfaces().All(t => t.Name != registerType.Name)) {
return false;
}
if (registerType.IsAbstract && registerImplementation.BaseType != registerType)
if(registerType.IsAbstract && registerImplementation.BaseType != registerType) {
return false;
}
}
return true;
}
private static bool IsIgnoredAssembly(Assembly assembly)
{
private static Boolean IsIgnoredAssembly(Assembly assembly) {
// TODO - find a better way to remove "system" assemblies from the auto registration
var ignoreChecks = new List<Func<Assembly, bool>>
List<Func<Assembly, Boolean>> ignoreChecks = new List<Func<Assembly, Boolean>>
{
asm => asm.FullName.StartsWith("Microsoft.", StringComparison.Ordinal),
asm => asm.FullName.StartsWith("System.", StringComparison.Ordinal),
@ -713,30 +549,26 @@
return ignoreChecks.Any(check => check(assembly));
}
private static bool IsIgnoredType(Type type, Func<Type, bool> registrationPredicate)
{
private static Boolean IsIgnoredType(Type type, Func<Type, Boolean> registrationPredicate) {
// TODO - find a better way to remove "system" types from the auto registration
var ignoreChecks = new List<Func<Type, bool>>()
List<Func<Type, Boolean>> ignoreChecks = new List<Func<Type, Boolean>>()
{
t => t.FullName?.StartsWith("System.", StringComparison.Ordinal) ?? false,
t => t.FullName?.StartsWith("Microsoft.", StringComparison.Ordinal) ?? false,
t => t.IsPrimitive,
t => t.IsGenericTypeDefinition,
t => (t.GetConstructors(BindingFlags.Instance | BindingFlags.Public).Length == 0) &&
t => t.GetConstructors(BindingFlags.Instance | BindingFlags.Public).Length == 0 &&
!(t.IsInterface || t.IsAbstract),
};
if (registrationPredicate != null)
{
if(registrationPredicate != null) {
ignoreChecks.Add(t => !registrationPredicate(t));
}
return ignoreChecks.Any(check => check(type));
}
private static ObjectFactoryBase GetDefaultObjectFactory(Type registerType, Type registerImplementation) => registerType.IsInterface || registerType.IsAbstract
? (ObjectFactoryBase)new SingletonFactory(registerType, registerImplementation)
: new MultiInstanceFactory(registerType, registerImplementation);
private static ObjectFactoryBase GetDefaultObjectFactory(Type registerType, Type registerImplementation) => registerType.IsInterface || registerType.IsAbstract ? (ObjectFactoryBase)new SingletonFactory(registerType, registerImplementation) : new MultiInstanceFactory(registerType, registerImplementation);
#endregion
}

34
Swan/DependencyInjection/DependencyContainerRegistrationException.cs
View File

@ -1,28 +1,23 @@
namespace Swan.DependencyInjection
{
using System;
using System.Collections.Generic;
using System.Linq;
using System;
using System.Collections.Generic;
using System.Linq;
namespace Swan.DependencyInjection {
/// <summary>
/// Generic Constraint Registration Exception.
/// </summary>
/// <seealso cref="Exception" />
public class DependencyContainerRegistrationException : Exception
{
private const string ConvertErrorText = "Cannot convert current registration of {0} to {1}";
private const string RegisterErrorText =
"Cannot register type {0} - abstract classes or interfaces are not valid implementation types for {1}.";
private const string ErrorText = "Duplicate implementation of type {0} found ({1}).";
public class DependencyContainerRegistrationException : Exception {
private const String ConvertErrorText = "Cannot convert current registration of {0} to {1}";
private const String RegisterErrorText = "Cannot register type {0} - abstract classes or interfaces are not valid implementation types for {1}.";
private const String ErrorText = "Duplicate implementation of type {0} found ({1}).";
/// <summary>
/// Initializes a new instance of the <see cref="DependencyContainerRegistrationException"/> class.
/// </summary>
/// <param name="registerType">Type of the register.</param>
/// <param name="types">The types.</param>
public DependencyContainerRegistrationException(Type registerType, IEnumerable<Type> types)
: base(string.Format(ErrorText, registerType, GetTypesString(types)))
{
public DependencyContainerRegistrationException(Type registerType, IEnumerable<Type> types) : base(String.Format(ErrorText, registerType, GetTypesString(types))) {
}
/// <summary>
@ -31,16 +26,9 @@
/// <param name="type">The type.</param>
/// <param name="method">The method.</param>
/// <param name="isTypeFactory">if set to <c>true</c> [is type factory].</param>
public DependencyContainerRegistrationException(Type type, string method, bool isTypeFactory = false)
: base(isTypeFactory
? string.Format(RegisterErrorText, type.FullName, method)
: string.Format(ConvertErrorText, type.FullName, method))
{
public DependencyContainerRegistrationException(Type type, String method, Boolean isTypeFactory = false) : base(isTypeFactory ? String.Format(RegisterErrorText, type.FullName, method) : String.Format(ConvertErrorText, type.FullName, method)) {
}
private static string GetTypesString(IEnumerable<Type> types)
{
return string.Join(",", types.Select(type => type.FullName));
}
private static String GetTypesString(IEnumerable<Type> types) => String.Join(",", types.Select(type => type.FullName));
}
}

16
Swan/DependencyInjection/DependencyContainerResolutionException.cs
View File

@ -1,21 +1,17 @@
namespace Swan.DependencyInjection
{
using System;
using System;
namespace Swan.DependencyInjection {
/// <summary>
/// An exception for dependency resolutions.
/// </summary>
/// <seealso cref="System.Exception" />
[Serializable]
public class DependencyContainerResolutionException : Exception
{
public class DependencyContainerResolutionException : Exception {
/// <summary>
/// Initializes a new instance of the <see cref="DependencyContainerResolutionException"/> class.
/// </summary>
/// <param name="type">The type.</param>
public DependencyContainerResolutionException(Type type)
: base($"Unable to resolve type: {type.FullName}")
{
public DependencyContainerResolutionException(Type type) : base($"Unable to resolve type: {type.FullName}") {
}
/// <summary>
@ -23,9 +19,7 @@
/// </summary>
/// <param name="type">The type.</param>
/// <param name="innerException">The inner exception.</param>
public DependencyContainerResolutionException(Type type, Exception innerException)
: base($"Unable to resolve type: {type.FullName}", innerException)
{
public DependencyContainerResolutionException(Type type, Exception innerException) : base($"Unable to resolve type: {type.FullName}", innerException) {
}
}
}

28
Swan/DependencyInjection/DependencyContainerResolveOptions.cs
View File

@ -1,12 +1,10 @@
namespace Swan.DependencyInjection
{
using System.Collections.Generic;
using System.Collections.Generic;
namespace Swan.DependencyInjection {
/// <summary>
/// Resolution settings.
/// </summary>
public class DependencyContainerResolveOptions
{
public class DependencyContainerResolveOptions {
/// <summary>
/// Gets the default options (attempt resolution of unregistered types, fail on named resolution if name not found).
/// </summary>
@ -18,8 +16,7 @@
/// <value>
/// The unregistered resolution action.
/// </value>
public DependencyContainerUnregisteredResolutionAction UnregisteredResolutionAction { get; set; } =
DependencyContainerUnregisteredResolutionAction.AttemptResolve;
public DependencyContainerUnregisteredResolutionAction UnregisteredResolutionAction { get; set; } = DependencyContainerUnregisteredResolutionAction.AttemptResolve;
/// <summary>
/// Gets or sets the named resolution failure action.
@ -27,8 +24,7 @@
/// <value>
/// The named resolution failure action.
/// </value>
public DependencyContainerNamedResolutionFailureAction NamedResolutionFailureAction { get; set; } =
DependencyContainerNamedResolutionFailureAction.Fail;
public DependencyContainerNamedResolutionFailureAction NamedResolutionFailureAction { get; set; } = DependencyContainerNamedResolutionFailureAction.Fail;
/// <summary>
/// Gets the constructor parameters.
@ -36,14 +32,13 @@
/// <value>
/// The constructor parameters.
/// </value>
public Dictionary<string, object> ConstructorParameters { get; } = new Dictionary<string, object>();
public Dictionary<System.String, System.Object> ConstructorParameters { get; } = new Dictionary<System.String, System.Object>();
/// <summary>
/// Clones this instance.
/// </summary>
/// <returns></returns>
public DependencyContainerResolveOptions Clone() => new DependencyContainerResolveOptions
{
public DependencyContainerResolveOptions Clone() => new DependencyContainerResolveOptions {
NamedResolutionFailureAction = NamedResolutionFailureAction,
UnregisteredResolutionAction = UnregisteredResolutionAction,
};
@ -52,8 +47,7 @@
/// <summary>
/// Defines Resolution actions.
/// </summary>
public enum DependencyContainerUnregisteredResolutionAction
{
public enum DependencyContainerUnregisteredResolutionAction {
/// <summary>
/// Attempt to resolve type, even if the type isn't registered.
///
@ -78,8 +72,7 @@
/// <summary>
/// Enumerates failure actions.
/// </summary>
public enum DependencyContainerNamedResolutionFailureAction
{
public enum DependencyContainerNamedResolutionFailureAction {
/// <summary>
/// The attempt unnamed resolution
/// </summary>
@ -94,8 +87,7 @@
/// <summary>
/// Enumerates duplicate definition actions.
/// </summary>
public enum DependencyContainerDuplicateImplementationAction
{
public enum DependencyContainerDuplicateImplementationAction {
/// <summary>
/// The register single
/// </summary>

14
Swan/DependencyInjection/DependencyContainerWeakReferenceException.cs
View File

@ -1,22 +1,18 @@
namespace Swan.DependencyInjection
{
using System;
using System;
namespace Swan.DependencyInjection {
/// <summary>
/// Weak Reference Exception.
/// </summary>
/// <seealso cref="System.Exception" />
public class DependencyContainerWeakReferenceException : Exception
{
private const string ErrorText = "Unable to instantiate {0} - referenced object has been reclaimed";
public class DependencyContainerWeakReferenceException : Exception {
private const String ErrorText = "Unable to instantiate {0} - referenced object has been reclaimed";
/// <summary>
/// Initializes a new instance of the <see cref="DependencyContainerWeakReferenceException"/> class.
/// </summary>
/// <param name="type">The type.</param>
public DependencyContainerWeakReferenceException(Type type)
: base(string.Format(ErrorText, type.FullName))
{
public DependencyContainerWeakReferenceException(Type type) : base(String.Format(ErrorText, type.FullName)) {
}
}
}

333
Swan/DependencyInjection/ObjectFactoryBase.cs
View File

@ -1,31 +1,33 @@
namespace Swan.DependencyInjection
{
using System;
using System.Collections.Generic;
using System.Reflection;
using System;
using System.Collections.Generic;
using System.Reflection;
namespace Swan.DependencyInjection {
/// <summary>
/// Represents an abstract class for Object Factory.
/// </summary>
public abstract class ObjectFactoryBase
{
public abstract class ObjectFactoryBase {
/// <summary>
/// Whether to assume this factory successfully constructs its objects
///
/// Generally set to true for delegate style factories as CanResolve cannot delve
/// into the delegates they contain.
/// </summary>
public virtual bool AssumeConstruction => false;
public virtual Boolean AssumeConstruction => false;
/// <summary>
/// The type the factory instantiates.
/// </summary>
public abstract Type CreatesType { get; }
public abstract Type CreatesType {
get;
}
/// <summary>
/// Constructor to use, if specified.
/// </summary>
public ConstructorInfo Constructor { get; private set; }
public ConstructorInfo Constructor {
get; private set;
}
/// <summary>
/// Gets the singleton variant.
@ -34,8 +36,7 @@
/// The singleton variant.
/// </value>
/// <exception cref="DependencyContainerRegistrationException">singleton.</exception>
public virtual ObjectFactoryBase SingletonVariant =>
throw new DependencyContainerRegistrationException(GetType(), "singleton");
public virtual ObjectFactoryBase SingletonVariant => throw new DependencyContainerRegistrationException(this.GetType(), "singleton");
/// <summary>
/// Gets the multi instance variant.
@ -44,8 +45,7 @@
/// The multi instance variant.
/// </value>
/// <exception cref="DependencyContainerRegistrationException">multi-instance.</exception>
public virtual ObjectFactoryBase MultiInstanceVariant =>
throw new DependencyContainerRegistrationException(GetType(), "multi-instance");
public virtual ObjectFactoryBase MultiInstanceVariant => throw new DependencyContainerRegistrationException(this.GetType(), "multi-instance");
/// <summary>
/// Gets the strong reference variant.
@ -54,8 +54,7 @@
/// The strong reference variant.
/// </value>
/// <exception cref="DependencyContainerRegistrationException">strong reference.</exception>
public virtual ObjectFactoryBase StrongReferenceVariant =>
throw new DependencyContainerRegistrationException(GetType(), "strong reference");
public virtual ObjectFactoryBase StrongReferenceVariant => throw new DependencyContainerRegistrationException(this.GetType(), "strong reference");
/// <summary>
/// Gets the weak reference variant.
@ -64,8 +63,7 @@
/// The weak reference variant.
/// </value>
/// <exception cref="DependencyContainerRegistrationException">weak reference.</exception>
public virtual ObjectFactoryBase WeakReferenceVariant =>
throw new DependencyContainerRegistrationException(GetType(), "weak reference");
public virtual ObjectFactoryBase WeakReferenceVariant => throw new DependencyContainerRegistrationException(this.GetType(), "weak reference");
/// <summary>
/// Create the type.
@ -74,10 +72,7 @@
/// <param name="container">Container that requested the creation.</param>
/// <param name="options">The options.</param>
/// <returns> Instance of type. </returns>
public abstract object GetObject(
Type requestedType,
DependencyContainer container,
DependencyContainerResolveOptions options);
public abstract Object GetObject(Type requestedType, DependencyContainer container, DependencyContainerResolveOptions options);
/// <summary>
/// Gets the factory for child container.
@ -86,63 +81,42 @@
/// <param name="parent">The parent.</param>
/// <param name="child">The child.</param>
/// <returns></returns>
public virtual ObjectFactoryBase GetFactoryForChildContainer(
Type type,
DependencyContainer parent,
DependencyContainer child)
{
return this;
}
public virtual ObjectFactoryBase GetFactoryForChildContainer(Type type, DependencyContainer parent, DependencyContainer child) => this;
}
/// <inheritdoc />
/// <summary>
/// IObjectFactory that creates new instances of types for each resolution.
/// </summary>
internal class MultiInstanceFactory : ObjectFactoryBase
{
internal class MultiInstanceFactory : ObjectFactoryBase {
private readonly Type _registerType;
private readonly Type _registerImplementation;
public MultiInstanceFactory(Type registerType, Type registerImplementation)
{
if (registerImplementation.IsAbstract || registerImplementation.IsInterface)
{
throw new DependencyContainerRegistrationException(registerImplementation,
"MultiInstanceFactory",
true);
public MultiInstanceFactory(Type registerType, Type registerImplementation) {
if(registerImplementation.IsAbstract || registerImplementation.IsInterface) {
throw new DependencyContainerRegistrationException(registerImplementation, "MultiInstanceFactory", true);
}
if (!DependencyContainer.IsValidAssignment(registerType, registerImplementation))
{
throw new DependencyContainerRegistrationException(registerImplementation,
"MultiInstanceFactory",
true);
if(!DependencyContainer.IsValidAssignment(registerType, registerImplementation)) {
throw new DependencyContainerRegistrationException(registerImplementation, "MultiInstanceFactory", true);
}
_registerType = registerType;
_registerImplementation = registerImplementation;
this._registerType = registerType;
this._registerImplementation = registerImplementation;
}
public override Type CreatesType => _registerImplementation;
public override Type CreatesType => this._registerImplementation;
public override ObjectFactoryBase SingletonVariant =>
new SingletonFactory(_registerType, _registerImplementation);
new SingletonFactory(this._registerType, this._registerImplementation);
public override ObjectFactoryBase MultiInstanceVariant => this;
public override object GetObject(
Type requestedType,
DependencyContainer container,
DependencyContainerResolveOptions options)
{
try
{
return container.RegisteredTypes.ConstructType(_registerImplementation, Constructor, options);
}
catch (DependencyContainerResolutionException ex)
{
throw new DependencyContainerResolutionException(_registerType, ex);
public override Object GetObject(Type requestedType, DependencyContainer container, DependencyContainerResolveOptions options) {
try {
return container.RegisteredTypes.ConstructType(this._registerImplementation, this.Constructor, options);
} catch(DependencyContainerResolutionException ex) {
throw new DependencyContainerResolutionException(this._registerType, ex);
}
}
}
@ -151,41 +125,32 @@
/// <summary>
/// IObjectFactory that invokes a specified delegate to construct the object.
/// </summary>
internal class DelegateFactory : ObjectFactoryBase
{
internal class DelegateFactory : ObjectFactoryBase {
private readonly Type _registerType;
private readonly Func<DependencyContainer, Dictionary<string, object>, object> _factory;
private readonly Func<DependencyContainer, Dictionary<String, Object>, Object> _factory;
public DelegateFactory(
Type registerType,
Func<DependencyContainer, Dictionary<string, object>, object> factory)
{
_factory = factory ?? throw new ArgumentNullException(nameof(factory));
Func<DependencyContainer, Dictionary<String, Object>, Object> factory) {
this._factory = factory ?? throw new ArgumentNullException(nameof(factory));
_registerType = registerType;
this._registerType = registerType;
}
public override bool AssumeConstruction => true;
public override Boolean AssumeConstruction => true;
public override Type CreatesType => _registerType;
public override Type CreatesType => this._registerType;
public override ObjectFactoryBase WeakReferenceVariant => new WeakDelegateFactory(_registerType, _factory);
public override ObjectFactoryBase WeakReferenceVariant => new WeakDelegateFactory(this._registerType, this._factory);
public override ObjectFactoryBase StrongReferenceVariant => this;
public override object GetObject(
Type requestedType,
DependencyContainer container,
DependencyContainerResolveOptions options)
{
try
{
return _factory.Invoke(container, options.ConstructorParameters);
}
catch (Exception ex)
{
throw new DependencyContainerResolutionException(_registerType, ex);
public override Object GetObject(Type requestedType, DependencyContainer container, DependencyContainerResolveOptions options) {
try {
return this._factory.Invoke(container, options.ConstructorParameters);
} catch(Exception ex) {
throw new DependencyContainerResolutionException(this._registerType, ex);
}
}
}
@ -195,56 +160,46 @@
/// IObjectFactory that invokes a specified delegate to construct the object
/// Holds the delegate using a weak reference.
/// </summary>
internal class WeakDelegateFactory : ObjectFactoryBase
{
internal class WeakDelegateFactory : ObjectFactoryBase {
private readonly Type _registerType;
private readonly WeakReference _factory;
public WeakDelegateFactory(
Type registerType,
Func<DependencyContainer, Dictionary<string, object>, object> factory)
{
if (factory == null)
public WeakDelegateFactory(Type registerType, Func<DependencyContainer, Dictionary<String, Object>, Object> factory) {
if(factory == null) {
throw new ArgumentNullException(nameof(factory));
_factory = new WeakReference(factory);
_registerType = registerType;
}
public override bool AssumeConstruction => true;
this._factory = new WeakReference(factory);
public override Type CreatesType => _registerType;
this._registerType = registerType;
}
public override ObjectFactoryBase StrongReferenceVariant
{
get
{
if (!(_factory.Target is Func<DependencyContainer, Dictionary<string, object>, object> factory))
throw new DependencyContainerWeakReferenceException(_registerType);
public override Boolean AssumeConstruction => true;
return new DelegateFactory(_registerType, factory);
public override Type CreatesType => this._registerType;
public override ObjectFactoryBase StrongReferenceVariant {
get {
if(!(this._factory.Target is Func<DependencyContainer, Dictionary<global::System.String, global::System.Object>, global::System.Object> factory)) {
throw new DependencyContainerWeakReferenceException(this._registerType);
}
return new DelegateFactory(this._registerType, factory);
}
}
public override ObjectFactoryBase WeakReferenceVariant => this;
public override object GetObject(
Type requestedType,
DependencyContainer container,
DependencyContainerResolveOptions options)
{
if (!(_factory.Target is Func<DependencyContainer, Dictionary<string, object>, object> factory))
throw new DependencyContainerWeakReferenceException(_registerType);
try
{
return factory.Invoke(container, options.ConstructorParameters);
public override Object GetObject(Type requestedType, DependencyContainer container, DependencyContainerResolveOptions options) {
if(!(this._factory.Target is Func<DependencyContainer, Dictionary<global::System.String, global::System.Object>, global::System.Object> factory)) {
throw new DependencyContainerWeakReferenceException(this._registerType);
}
catch (Exception ex)
{
throw new DependencyContainerResolutionException(_registerType, ex);
try {
return factory.Invoke(container, options.ConstructorParameters);
} catch(Exception ex) {
throw new DependencyContainerResolutionException(this._registerType, ex);
}
}
}
@ -252,45 +207,35 @@
/// <summary>
/// Stores an particular instance to return for a type.
/// </summary>
internal class InstanceFactory : ObjectFactoryBase, IDisposable
{
internal class InstanceFactory : ObjectFactoryBase, IDisposable {
private readonly Type _registerType;
private readonly Type _registerImplementation;
private readonly object _instance;
private readonly Object _instance;
public InstanceFactory(Type registerType, Type registerImplementation, object instance)
{
if (!DependencyContainer.IsValidAssignment(registerType, registerImplementation))
public InstanceFactory(Type registerType, Type registerImplementation, Object instance) {
if(!DependencyContainer.IsValidAssignment(registerType, registerImplementation)) {
throw new DependencyContainerRegistrationException(registerImplementation, "InstanceFactory", true);
_registerType = registerType;
_registerImplementation = registerImplementation;
_instance = instance;
}
public override bool AssumeConstruction => true;
this._registerType = registerType;
this._registerImplementation = registerImplementation;
this._instance = instance;
}
public override Type CreatesType => _registerImplementation;
public override Boolean AssumeConstruction => true;
public override ObjectFactoryBase MultiInstanceVariant =>
new MultiInstanceFactory(_registerType, _registerImplementation);
public override Type CreatesType => this._registerImplementation;
public override ObjectFactoryBase WeakReferenceVariant =>
new WeakInstanceFactory(_registerType, _registerImplementation, _instance);
public override ObjectFactoryBase MultiInstanceVariant => new MultiInstanceFactory(this._registerType, this._registerImplementation);
public override ObjectFactoryBase WeakReferenceVariant => new WeakInstanceFactory(this._registerType, this._registerImplementation, this._instance);
public override ObjectFactoryBase StrongReferenceVariant => this;
public override object GetObject(
Type requestedType,
DependencyContainer container,
DependencyContainerResolveOptions options)
{
return _instance;
}
public override Object GetObject(Type requestedType, DependencyContainer container, DependencyContainerResolveOptions options) => this._instance;
public void Dispose()
{
var disposable = _instance as IDisposable;
public void Dispose() {
IDisposable disposable = this._instance as IDisposable;
disposable?.Dispose();
}
@ -299,125 +244,109 @@
/// <summary>
/// Stores the instance with a weak reference.
/// </summary>
internal class WeakInstanceFactory : ObjectFactoryBase, IDisposable
{
internal class WeakInstanceFactory : ObjectFactoryBase, IDisposable {
private readonly Type _registerType;
private readonly Type _registerImplementation;
private readonly WeakReference _instance;
public WeakInstanceFactory(Type registerType, Type registerImplementation, object instance)
{
if (!DependencyContainer.IsValidAssignment(registerType, registerImplementation))
{
throw new DependencyContainerRegistrationException(
registerImplementation,
"WeakInstanceFactory",
true);
public WeakInstanceFactory(Type registerType, Type registerImplementation, Object instance) {
if(!DependencyContainer.IsValidAssignment(registerType, registerImplementation)) {
throw new DependencyContainerRegistrationException(registerImplementation, "WeakInstanceFactory", true);
}
_registerType = registerType;
_registerImplementation = registerImplementation;
_instance = new WeakReference(instance);
this._registerType = registerType;
this._registerImplementation = registerImplementation;
this._instance = new WeakReference(instance);
}
public override Type CreatesType => _registerImplementation;
public override Type CreatesType => this._registerImplementation;
public override ObjectFactoryBase MultiInstanceVariant =>
new MultiInstanceFactory(_registerType, _registerImplementation);
public override ObjectFactoryBase MultiInstanceVariant => new MultiInstanceFactory(this._registerType, this._registerImplementation);
public override ObjectFactoryBase WeakReferenceVariant => this;
public override ObjectFactoryBase StrongReferenceVariant
{
get
{
var instance = _instance.Target;
public override ObjectFactoryBase StrongReferenceVariant {
get {
Object instance = this._instance.Target;
if (instance == null)
throw new DependencyContainerWeakReferenceException(_registerType);
if(instance == null) {
throw new DependencyContainerWeakReferenceException(this._registerType);
}
return new InstanceFactory(_registerType, _registerImplementation, instance);
return new InstanceFactory(this._registerType, this._registerImplementation, instance);
}
}
public override object GetObject(
Type requestedType,
DependencyContainer container,
DependencyContainerResolveOptions options)
{
var instance = _instance.Target;
public override Object GetObject(Type requestedType, DependencyContainer container, DependencyContainerResolveOptions options) {
Object instance = this._instance.Target;
if (instance == null)
throw new DependencyContainerWeakReferenceException(_registerType);
if(instance == null) {
throw new DependencyContainerWeakReferenceException(this._registerType);
}
return instance;
}
public void Dispose() => (_instance.Target as IDisposable)?.Dispose();
public void Dispose() => (this._instance.Target as IDisposable)?.Dispose();
}
/// <summary>
/// A factory that lazy instantiates a type and always returns the same instance.
/// </summary>
internal class SingletonFactory : ObjectFactoryBase, IDisposable
{
internal class SingletonFactory : ObjectFactoryBase, IDisposable {
private readonly Type _registerType;
private readonly Type _registerImplementation;
private readonly object _singletonLock = new object();
private object _current;
private readonly Object _singletonLock = new Object();
private Object _current;
public SingletonFactory(Type registerType, Type registerImplementation)
{
if (registerImplementation.IsAbstract || registerImplementation.IsInterface)
{
public SingletonFactory(Type registerType, Type registerImplementation) {
if(registerImplementation.IsAbstract || registerImplementation.IsInterface) {
throw new DependencyContainerRegistrationException(registerImplementation, nameof(SingletonFactory), true);
}
if (!DependencyContainer.IsValidAssignment(registerType, registerImplementation))
{
if(!DependencyContainer.IsValidAssignment(registerType, registerImplementation)) {
throw new DependencyContainerRegistrationException(registerImplementation, nameof(SingletonFactory), true);
}
_registerType = registerType;
_registerImplementation = registerImplementation;
this._registerType = registerType;
this._registerImplementation = registerImplementation;
}
public override Type CreatesType => _registerImplementation;
public override Type CreatesType => this._registerImplementation;
public override ObjectFactoryBase SingletonVariant => this;
public override ObjectFactoryBase MultiInstanceVariant =>
new MultiInstanceFactory(_registerType, _registerImplementation);
new MultiInstanceFactory(this._registerType, this._registerImplementation);
public override object GetObject(
public override Object GetObject(
Type requestedType,
DependencyContainer container,
DependencyContainerResolveOptions options)
{
if (options.ConstructorParameters.Count != 0)
DependencyContainerResolveOptions options) {
if(options.ConstructorParameters.Count != 0) {
throw new ArgumentException("Cannot specify parameters for singleton types");
lock (_singletonLock)
{
if (_current == null)
_current = container.RegisteredTypes.ConstructType(_registerImplementation, Constructor, options);
}
return _current;
lock(this._singletonLock) {
if(this._current == null) {
this._current = container.RegisteredTypes.ConstructType(this._registerImplementation, this.Constructor, options);
}
}
return this._current;
}
public override ObjectFactoryBase GetFactoryForChildContainer(
Type type,
DependencyContainer parent,
DependencyContainer child)
{
DependencyContainer child) {
// We make sure that the singleton is constructed before the child container takes the factory.
// Otherwise the results would vary depending on whether or not the parent container had resolved
// the type before the child container does.
GetObject(type, parent, DependencyContainerResolveOptions.Default);
_ = this.GetObject(type, parent, DependencyContainerResolveOptions.Default);
return this;
}
public void Dispose() => (_current as IDisposable)?.Dispose();
public void Dispose() => (this._current as IDisposable)?.Dispose();
}
}

90
Swan/DependencyInjection/RegisterOptions.cs
View File

@ -1,14 +1,12 @@
namespace Swan.DependencyInjection
{
using System;
using System.Collections.Generic;
using System.Linq;
using System;
using System.Collections.Generic;
using System.Linq;
namespace Swan.DependencyInjection {
/// <summary>
/// Registration options for "fluent" API.
/// </summary>
public sealed class RegisterOptions
{
public sealed class RegisterOptions {
private readonly TypesConcurrentDictionary _registeredTypes;
private readonly DependencyContainer.TypeRegistration _registration;
@ -17,10 +15,9 @@
/// </summary>
/// <param name="registeredTypes">The registered types.</param>
/// <param name="registration">The registration.</param>
public RegisterOptions(TypesConcurrentDictionary registeredTypes, DependencyContainer.TypeRegistration registration)
{
_registeredTypes = registeredTypes;
_registration = registration;
public RegisterOptions(TypesConcurrentDictionary registeredTypes, DependencyContainer.TypeRegistration registration) {
this._registeredTypes = registeredTypes;
this._registration = registration;
}
/// <summary>
@ -28,14 +25,14 @@
/// </summary>
/// <returns>A registration options for fluent API.</returns>
/// <exception cref="DependencyContainerRegistrationException">Generic constraint registration exception.</exception>
public RegisterOptions AsSingleton()
{
var currentFactory = _registeredTypes.GetCurrentFactory(_registration);
public RegisterOptions AsSingleton() {
ObjectFactoryBase currentFactory = this._registeredTypes.GetCurrentFactory(this._registration);
if (currentFactory == null)
throw new DependencyContainerRegistrationException(_registration.Type, "singleton");
if(currentFactory == null) {
throw new DependencyContainerRegistrationException(this._registration.Type, "singleton");
}
return _registeredTypes.AddUpdateRegistration(_registration, currentFactory.SingletonVariant);
return this._registeredTypes.AddUpdateRegistration(this._registration, currentFactory.SingletonVariant);
}
/// <summary>
@ -43,14 +40,14 @@
/// </summary>
/// <returns>A registration options for fluent API.</returns>
/// <exception cref="DependencyContainerRegistrationException">Generic constraint registration exception.</exception>
public RegisterOptions AsMultiInstance()
{
var currentFactory = _registeredTypes.GetCurrentFactory(_registration);
public RegisterOptions AsMultiInstance() {
ObjectFactoryBase currentFactory = this._registeredTypes.GetCurrentFactory(this._registration);
if (currentFactory == null)
throw new DependencyContainerRegistrationException(_registration.Type, "multi-instance");
if(currentFactory == null) {
throw new DependencyContainerRegistrationException(this._registration.Type, "multi-instance");
}
return _registeredTypes.AddUpdateRegistration(_registration, currentFactory.MultiInstanceVariant);
return this._registeredTypes.AddUpdateRegistration(this._registration, currentFactory.MultiInstanceVariant);
}
/// <summary>
@ -58,14 +55,14 @@
/// </summary>
/// <returns>A registration options for fluent API.</returns>
/// <exception cref="DependencyContainerRegistrationException">Generic constraint registration exception.</exception>
public RegisterOptions WithWeakReference()
{
var currentFactory = _registeredTypes.GetCurrentFactory(_registration);
public RegisterOptions WithWeakReference() {
ObjectFactoryBase currentFactory = this._registeredTypes.GetCurrentFactory(this._registration);
if (currentFactory == null)
throw new DependencyContainerRegistrationException(_registration.Type, "weak reference");
if(currentFactory == null) {
throw new DependencyContainerRegistrationException(this._registration.Type, "weak reference");
}
return _registeredTypes.AddUpdateRegistration(_registration, currentFactory.WeakReferenceVariant);
return this._registeredTypes.AddUpdateRegistration(this._registration, currentFactory.WeakReferenceVariant);
}
/// <summary>
@ -73,41 +70,36 @@
/// </summary>
/// <returns>A registration options for fluent API.</returns>
/// <exception cref="DependencyContainerRegistrationException">Generic constraint registration exception.</exception>
public RegisterOptions WithStrongReference()
{
var currentFactory = _registeredTypes.GetCurrentFactory(_registration);
public RegisterOptions WithStrongReference() {
ObjectFactoryBase currentFactory = this._registeredTypes.GetCurrentFactory(this._registration);
if (currentFactory == null)
throw new DependencyContainerRegistrationException(_registration.Type, "strong reference");
if(currentFactory == null) {
throw new DependencyContainerRegistrationException(this._registration.Type, "strong reference");
}
return _registeredTypes.AddUpdateRegistration(_registration, currentFactory.StrongReferenceVariant);
return this._registeredTypes.AddUpdateRegistration(this._registration, currentFactory.StrongReferenceVariant);
}
}
/// <summary>
/// Registration options for "fluent" API when registering multiple implementations.
/// </summary>
public sealed class MultiRegisterOptions
{
public sealed class MultiRegisterOptions {
private IEnumerable<RegisterOptions> _registerOptions;
/// <summary>
/// Initializes a new instance of the <see cref="MultiRegisterOptions"/> class.
/// </summary>
/// <param name="registerOptions">The register options.</param>
public MultiRegisterOptions(IEnumerable<RegisterOptions> registerOptions)
{
_registerOptions = registerOptions;
}
public MultiRegisterOptions(IEnumerable<RegisterOptions> registerOptions) => this._registerOptions = registerOptions;
/// <summary>
/// Make registration a singleton (single instance) if possible.
/// </summary>
/// <returns>A registration multi-instance for fluent API.</returns>
/// <exception cref="DependencyContainerRegistrationException">Generic Constraint Registration Exception.</exception>
public MultiRegisterOptions AsSingleton()
{
_registerOptions = ExecuteOnAllRegisterOptions(ro => ro.AsSingleton());
public MultiRegisterOptions AsSingleton() {
this._registerOptions = this.ExecuteOnAllRegisterOptions(ro => ro.AsSingleton());
return this;
}
@ -116,16 +108,12 @@
/// </summary>
/// <returns>A registration multi-instance for fluent API.</returns>
/// <exception cref="DependencyContainerRegistrationException">Generic Constraint Registration Exception.</exception>
public MultiRegisterOptions AsMultiInstance()
{
_registerOptions = ExecuteOnAllRegisterOptions(ro => ro.AsMultiInstance());
public MultiRegisterOptions AsMultiInstance() {
this._registerOptions = this.ExecuteOnAllRegisterOptions(ro => ro.AsMultiInstance());
return this;
}
private IEnumerable<RegisterOptions> ExecuteOnAllRegisterOptions(
Func<RegisterOptions, RegisterOptions> action)
{
return _registerOptions.Select(action).ToList();
}
Func<RegisterOptions, RegisterOptions> action) => this._registerOptions.Select(action).ToList();
}
}

40
Swan/DependencyInjection/TypeRegistration.cs
View File

@ -1,27 +1,23 @@
namespace Swan.DependencyInjection
{
using System;
using System;
public partial class DependencyContainer
{
namespace Swan.DependencyInjection {
public partial class DependencyContainer {
/// <summary>
/// Represents a Type Registration within the IoC Container.
/// </summary>
public sealed class TypeRegistration
{
private readonly int _hashCode;
public sealed class TypeRegistration {
private readonly Int32 _hashCode;
/// <summary>
/// Initializes a new instance of the <see cref="TypeRegistration"/> class.
/// </summary>
/// <param name="type">The type.</param>
/// <param name="name">The name.</param>
public TypeRegistration(Type type, string name = null)
{
Type = type;
Name = name ?? string.Empty;
public TypeRegistration(Type type, String name = null) {
this.Type = type;
this.Name = name ?? String.Empty;
_hashCode = string.Concat(Type.FullName, "|", Name).GetHashCode();
this._hashCode = String.Concat(this.Type.FullName, "|", this.Name).GetHashCode();
}
/// <summary>
@ -30,7 +26,9 @@
/// <value>
/// The type.
/// </value>
public Type Type { get; }
public Type Type {
get;
}
/// <summary>
/// Gets the name.
@ -38,7 +36,9 @@
/// <value>
/// The name.
/// </value>
public string Name { get; }
public String Name {
get;
}
/// <summary>
/// Determines whether the specified <see cref="System.Object" />, is equal to this instance.
@ -47,13 +47,7 @@
/// <returns>
/// <c>true</c> if the specified <see cref="System.Object" /> is equal to this instance; otherwise, <c>false</c>.
/// </returns>
public override bool Equals(object obj)
{
if (!(obj is TypeRegistration typeRegistration) || typeRegistration.Type != Type)
return false;
return string.Compare(Name, typeRegistration.Name, StringComparison.Ordinal) == 0;
}
public override Boolean Equals(Object obj) => !(obj is TypeRegistration typeRegistration) || typeRegistration.Type != this.Type ? false : String.Compare(this.Name, typeRegistration.Name, StringComparison.Ordinal) == 0;
/// <summary>
/// Returns a hash code for this instance.
@ -61,7 +55,7 @@
/// <returns>
/// A hash code for this instance, suitable for use in hashing algorithms and data structures like a hash table.
/// </returns>
public override int GetHashCode() => _hashCode;
public override Int32 GetHashCode() => this._hashCode;
}
}
}

328
Swan/DependencyInjection/TypesConcurrentDictionary.cs
View File

@ -1,281 +1,209 @@
namespace Swan.DependencyInjection
{
using System;
using System.Linq.Expressions;
using System.Reflection;
using System.Collections.Generic;
using System.Linq;
using System.Collections.Concurrent;
#nullable enable
using System;
using System.Linq.Expressions;
using System.Reflection;
using System.Collections.Generic;
using System.Linq;
using System.Collections.Concurrent;
namespace Swan.DependencyInjection {
/// <summary>
/// Represents a Concurrent Dictionary for TypeRegistration.
/// </summary>
public class TypesConcurrentDictionary : ConcurrentDictionary<DependencyContainer.TypeRegistration, ObjectFactoryBase>
{
private static readonly ConcurrentDictionary<ConstructorInfo, ObjectConstructor> ObjectConstructorCache =
new ConcurrentDictionary<ConstructorInfo, ObjectConstructor>();
public class TypesConcurrentDictionary : ConcurrentDictionary<DependencyContainer.TypeRegistration, ObjectFactoryBase> {
private static readonly ConcurrentDictionary<ConstructorInfo, ObjectConstructor> ObjectConstructorCache = new ConcurrentDictionary<ConstructorInfo, ObjectConstructor>();
private readonly DependencyContainer _dependencyContainer;
internal TypesConcurrentDictionary(DependencyContainer dependencyContainer)
{
_dependencyContainer = dependencyContainer;
}
internal TypesConcurrentDictionary(DependencyContainer dependencyContainer) => this._dependencyContainer = dependencyContainer;
/// <summary>
/// Represents a delegate to build an object with the parameters.
/// </summary>
/// <param name="parameters">The parameters.</param>
/// <returns>The built object.</returns>
public delegate object ObjectConstructor(params object[] parameters);
public delegate Object ObjectConstructor(params Object?[] parameters);
internal IEnumerable<object> Resolve(Type resolveType, bool includeUnnamed)
{
var registrations = Keys.Where(tr => tr.Type == resolveType)
.Concat(GetParentRegistrationsForType(resolveType)).Distinct();
internal IEnumerable<Object> Resolve(Type resolveType, Boolean includeUnnamed) {
IEnumerable<DependencyContainer.TypeRegistration> registrations = this.Keys.Where(tr => tr.Type == resolveType).Concat(this.GetParentRegistrationsForType(resolveType)).Distinct();
if (!includeUnnamed)
registrations = registrations.Where(tr => !string.IsNullOrEmpty(tr.Name));
return registrations.Select(registration =>
ResolveInternal(registration, DependencyContainerResolveOptions.Default));
if(!includeUnnamed) {
registrations = registrations.Where(tr => !String.IsNullOrEmpty(tr.Name));
}
internal ObjectFactoryBase GetCurrentFactory(DependencyContainer.TypeRegistration registration)
{
TryGetValue(registration, out var current);
return current;
return registrations.Select(registration => this.ResolveInternal(registration, DependencyContainerResolveOptions.Default));
}
internal RegisterOptions Register(Type registerType, string name, ObjectFactoryBase factory)
=> AddUpdateRegistration(new DependencyContainer.TypeRegistration(registerType, name), factory);
internal ObjectFactoryBase GetCurrentFactory(DependencyContainer.TypeRegistration registration) {
_ = this.TryGetValue(registration, out ObjectFactoryBase? current);
internal RegisterOptions AddUpdateRegistration(DependencyContainer.TypeRegistration typeRegistration, ObjectFactoryBase factory)
{
return current!;
}
internal RegisterOptions Register(Type registerType, String name, ObjectFactoryBase factory) => this.AddUpdateRegistration(new DependencyContainer.TypeRegistration(registerType, name), factory);
internal RegisterOptions AddUpdateRegistration(DependencyContainer.TypeRegistration typeRegistration, ObjectFactoryBase factory) {
this[typeRegistration] = factory;
return new RegisterOptions(this, typeRegistration);
}
internal bool RemoveRegistration(DependencyContainer.TypeRegistration typeRegistration)
=> TryRemove(typeRegistration, out _);
internal Boolean RemoveRegistration(DependencyContainer.TypeRegistration typeRegistration) => this.TryRemove(typeRegistration, out _);
internal object ResolveInternal(
DependencyContainer.TypeRegistration registration,
DependencyContainerResolveOptions? options = null)
{
if (options == null)
internal Object ResolveInternal(DependencyContainer.TypeRegistration registration, DependencyContainerResolveOptions? options = null) {
if(options == null) {
options = DependencyContainerResolveOptions.Default;
}
// Attempt container resolution
if (TryGetValue(registration, out var factory))
{
try
{
return factory.GetObject(registration.Type, _dependencyContainer, options);
}
catch (DependencyContainerResolutionException)
{
if(this.TryGetValue(registration, out ObjectFactoryBase? factory)) {
try {
return factory.GetObject(registration.Type, this._dependencyContainer, options);
} catch(DependencyContainerResolutionException) {
throw;
}
catch (Exception ex)
{
} catch(Exception ex) {
throw new DependencyContainerResolutionException(registration.Type, ex);
}
}
// Attempt to get a factory from parent if we can
var bubbledObjectFactory = GetParentObjectFactory(registration);
if (bubbledObjectFactory != null)
{
try
{
return bubbledObjectFactory.GetObject(registration.Type, _dependencyContainer, options);
}
catch (DependencyContainerResolutionException)
{
ObjectFactoryBase? bubbledObjectFactory = this.GetParentObjectFactory(registration);
if(bubbledObjectFactory != null) {
try {
return bubbledObjectFactory.GetObject(registration.Type, this._dependencyContainer, options);
} catch(DependencyContainerResolutionException) {
throw;
}
catch (Exception ex)
{
} catch(Exception ex) {
throw new DependencyContainerResolutionException(registration.Type, ex);
}
}
// Fail if requesting named resolution and settings set to fail if unresolved
if (!string.IsNullOrEmpty(registration.Name) && options.NamedResolutionFailureAction ==
DependencyContainerNamedResolutionFailureAction.Fail)
if(!String.IsNullOrEmpty(registration.Name) && options.NamedResolutionFailureAction == DependencyContainerNamedResolutionFailureAction.Fail) {
throw new DependencyContainerResolutionException(registration.Type);
}
// Attempted unnamed fallback container resolution if relevant and requested
if (!string.IsNullOrEmpty(registration.Name) && options.NamedResolutionFailureAction ==
DependencyContainerNamedResolutionFailureAction.AttemptUnnamedResolution)
{
if (TryGetValue(new DependencyContainer.TypeRegistration(registration.Type, string.Empty), out factory))
{
try
{
return factory.GetObject(registration.Type, _dependencyContainer, options);
}
catch (DependencyContainerResolutionException)
{
if(!String.IsNullOrEmpty(registration.Name) && options.NamedResolutionFailureAction == DependencyContainerNamedResolutionFailureAction.AttemptUnnamedResolution) {
if(this.TryGetValue(new DependencyContainer.TypeRegistration(registration.Type, String.Empty), out factory)) {
try {
return factory.GetObject(registration.Type, this._dependencyContainer, options);
} catch(DependencyContainerResolutionException) {
throw;
}
catch (Exception ex)
{
} catch(Exception ex) {
throw new DependencyContainerResolutionException(registration.Type, ex);
}
}
}
// Attempt unregistered construction if possible and requested
var isValid = (options.UnregisteredResolutionAction ==
DependencyContainerUnregisteredResolutionAction.AttemptResolve) ||
(registration.Type.IsGenericType && options.UnregisteredResolutionAction ==
DependencyContainerUnregisteredResolutionAction.GenericsOnly);
Boolean isValid = options.UnregisteredResolutionAction == DependencyContainerUnregisteredResolutionAction.AttemptResolve || registration.Type.IsGenericType && options.UnregisteredResolutionAction == DependencyContainerUnregisteredResolutionAction.GenericsOnly;
return isValid && !registration.Type.IsAbstract && !registration.Type.IsInterface
? ConstructType(registration.Type, null, options)
: throw new DependencyContainerResolutionException(registration.Type);
return isValid && !registration.Type.IsAbstract && !registration.Type.IsInterface ? this.ConstructType(registration.Type, null, options) : throw new DependencyContainerResolutionException(registration.Type);
}
internal bool CanResolve(
DependencyContainer.TypeRegistration registration,
DependencyContainerResolveOptions? options = null)
{
if (options == null)
internal Boolean CanResolve(DependencyContainer.TypeRegistration registration, DependencyContainerResolveOptions? options = null) {
if(options == null) {
options = DependencyContainerResolveOptions.Default;
}
var checkType = registration.Type;
var name = registration.Name;
Type checkType = registration.Type;
String name = registration.Name;
if (TryGetValue(new DependencyContainer.TypeRegistration(checkType, name), out var factory))
{
if (factory.AssumeConstruction)
return true;
if (factory.Constructor == null)
return GetBestConstructor(factory.CreatesType, options) != null;
return CanConstruct(factory.Constructor, options);
if(this.TryGetValue(new DependencyContainer.TypeRegistration(checkType, name), out ObjectFactoryBase? factory)) {
return factory.AssumeConstruction ? true : factory.Constructor == null ? this.GetBestConstructor(factory.CreatesType, options) != null : this.CanConstruct(factory.Constructor, options);
}
// Fail if requesting named resolution and settings set to fail if unresolved
// Or bubble up if we have a parent
if (!string.IsNullOrEmpty(name) && options.NamedResolutionFailureAction ==
DependencyContainerNamedResolutionFailureAction.Fail)
return _dependencyContainer.Parent?.RegisteredTypes.CanResolve(registration, options.Clone()) ?? false;
if(!String.IsNullOrEmpty(name) && options.NamedResolutionFailureAction == DependencyContainerNamedResolutionFailureAction.Fail) {
return this._dependencyContainer.Parent?.RegisteredTypes.CanResolve(registration, options.Clone()) ?? false;
}
// Attempted unnamed fallback container resolution if relevant and requested
if (!string.IsNullOrEmpty(name) && options.NamedResolutionFailureAction ==
DependencyContainerNamedResolutionFailureAction.AttemptUnnamedResolution)
{
if (TryGetValue(new DependencyContainer.TypeRegistration(checkType), out factory))
{
if (factory.AssumeConstruction)
return true;
return GetBestConstructor(factory.CreatesType, options) != null;
if(!String.IsNullOrEmpty(name) && options.NamedResolutionFailureAction == DependencyContainerNamedResolutionFailureAction.AttemptUnnamedResolution) {
if(this.TryGetValue(new DependencyContainer.TypeRegistration(checkType), out factory)) {
return factory.AssumeConstruction ? true : this.GetBestConstructor(factory.CreatesType, options) != null;
}
}
// Check if type is an automatic lazy factory request or an IEnumerable<ResolveType>
if (IsAutomaticLazyFactoryRequest(checkType) || registration.Type.IsIEnumerable())
if(IsAutomaticLazyFactoryRequest(checkType) || registration.Type.IsIEnumerable()) {
return true;
}
// Attempt unregistered construction if possible and requested
// If we cant', bubble if we have a parent
if ((options.UnregisteredResolutionAction ==
DependencyContainerUnregisteredResolutionAction.AttemptResolve) ||
(checkType.IsGenericType && options.UnregisteredResolutionAction ==
DependencyContainerUnregisteredResolutionAction.GenericsOnly))
{
return (GetBestConstructor(checkType, options) != null) ||
(_dependencyContainer.Parent?.RegisteredTypes.CanResolve(registration, options.Clone()) ?? false);
if(options.UnregisteredResolutionAction == DependencyContainerUnregisteredResolutionAction.AttemptResolve || checkType.IsGenericType && options.UnregisteredResolutionAction == DependencyContainerUnregisteredResolutionAction.GenericsOnly) {
return this.GetBestConstructor(checkType, options) != null || (this._dependencyContainer.Parent?.RegisteredTypes.CanResolve(registration, options.Clone()) ?? false);
}
// Bubble resolution up the container tree if we have a parent
return _dependencyContainer.Parent != null && _dependencyContainer.Parent.RegisteredTypes.CanResolve(registration, options.Clone());
return this._dependencyContainer.Parent != null && this._dependencyContainer.Parent.RegisteredTypes.CanResolve(registration, options.Clone());
}
internal object ConstructType(
Type implementationType,
ConstructorInfo constructor,
DependencyContainerResolveOptions? options = null)
{
var typeToConstruct = implementationType;
internal Object ConstructType(Type implementationType, ConstructorInfo? constructor, DependencyContainerResolveOptions? options = null) {
Type typeToConstruct = implementationType;
if (constructor == null)
{
if(constructor == null) {
// Try and get the best constructor that we can construct
// if we can't construct any then get the constructor
// with the least number of parameters so we can throw a meaningful
// resolve exception
constructor = GetBestConstructor(typeToConstruct, options) ??
GetTypeConstructors(typeToConstruct).LastOrDefault();
constructor = this.GetBestConstructor(typeToConstruct, options) ?? GetTypeConstructors(typeToConstruct).LastOrDefault();
}
if (constructor == null)
if(constructor == null) {
throw new DependencyContainerResolutionException(typeToConstruct);
var ctorParams = constructor.GetParameters();
var args = new object?[ctorParams.Length];
for (var parameterIndex = 0; parameterIndex < ctorParams.Length; parameterIndex++)
{
var currentParam = ctorParams[parameterIndex];
try
{
args[parameterIndex] = options?.ConstructorParameters.GetValueOrDefault(currentParam.Name, ResolveInternal(new DependencyContainer.TypeRegistration(currentParam.ParameterType), options.Clone()));
}
catch (DependencyContainerResolutionException ex)
{
ParameterInfo[] ctorParams = constructor.GetParameters();
Object?[] args = new Object?[ctorParams.Length];
for(Int32 parameterIndex = 0; parameterIndex < ctorParams.Length; parameterIndex++) {
ParameterInfo currentParam = ctorParams[parameterIndex];
try {
args[parameterIndex] = options?.ConstructorParameters.GetValueOrDefault(currentParam.Name, this.ResolveInternal(new DependencyContainer.TypeRegistration(currentParam.ParameterType), options.Clone()));
} catch(DependencyContainerResolutionException ex) {
// If a constructor parameter can't be resolved
// it will throw, so wrap it and throw that this can't
// be resolved.
throw new DependencyContainerResolutionException(typeToConstruct, ex);
}
catch (Exception ex)
{
} catch(Exception ex) {
throw new DependencyContainerResolutionException(typeToConstruct, ex);
}
}
try
{
try {
return CreateObjectConstructionDelegateWithCache(constructor).Invoke(args);
}
catch (Exception ex)
{
} catch(Exception ex) {
throw new DependencyContainerResolutionException(typeToConstruct, ex);
}
}
private static ObjectConstructor CreateObjectConstructionDelegateWithCache(ConstructorInfo constructor)
{
if (ObjectConstructorCache.TryGetValue(constructor, out var objectConstructor))
private static ObjectConstructor CreateObjectConstructionDelegateWithCache(ConstructorInfo constructor) {
if(ObjectConstructorCache.TryGetValue(constructor, out ObjectConstructor? objectConstructor)) {
return objectConstructor;
}
// We could lock the cache here, but there's no real side
// effect to two threads creating the same ObjectConstructor
// at the same time, compared to the cost of a lock for
// every creation.
var constructorParams = constructor.GetParameters();
var lambdaParams = Expression.Parameter(typeof(object[]), "parameters");
var newParams = new Expression[constructorParams.Length];
ParameterInfo[] constructorParams = constructor.GetParameters();
ParameterExpression lambdaParams = Expression.Parameter(typeof(Object[]), "parameters");
Expression[] newParams = new Expression[constructorParams.Length];
for (var i = 0; i < constructorParams.Length; i++)
{
var paramsParameter = Expression.ArrayIndex(lambdaParams, Expression.Constant(i));
for(Int32 i = 0; i < constructorParams.Length; i++) {
BinaryExpression paramsParameter = Expression.ArrayIndex(lambdaParams, Expression.Constant(i));
newParams[i] = Expression.Convert(paramsParameter, constructorParams[i].ParameterType);
}
var newExpression = Expression.New(constructor, newParams);
NewExpression newExpression = Expression.New(constructor, newParams);
var constructionLambda = Expression.Lambda(typeof(ObjectConstructor), newExpression, lambdaParams);
LambdaExpression constructionLambda = Expression.Lambda(typeof(ObjectConstructor), newExpression, lambdaParams);
objectConstructor = (ObjectConstructor)constructionLambda.Compile();
@ -283,69 +211,55 @@
return objectConstructor;
}
private static IEnumerable<ConstructorInfo> GetTypeConstructors(Type type)
=> type.GetConstructors().OrderByDescending(ctor => ctor.GetParameters().Length);
private static IEnumerable<ConstructorInfo> GetTypeConstructors(Type type) => type.GetConstructors().OrderByDescending(ctor => ctor.GetParameters().Length);
private static bool IsAutomaticLazyFactoryRequest(Type type)
{
if (!type.IsGenericType)
private static Boolean IsAutomaticLazyFactoryRequest(Type type) {
if(!type.IsGenericType) {
return false;
}
var genericType = type.GetGenericTypeDefinition();
Type genericType = type.GetGenericTypeDefinition();
// Just a func
if (genericType == typeof(Func<>))
if(genericType == typeof(Func<>)) {
return true;
}
// 2 parameter func with string as first parameter (name)
if (genericType == typeof(Func<,>) && type.GetGenericArguments()[0] == typeof(string))
if(genericType == typeof(Func<,>) && type.GetGenericArguments()[0] == typeof(String)) {
return true;
}
// 3 parameter func with string as first parameter (name) and IDictionary<string, object> as second (parameters)
return genericType == typeof(Func<,,>) && type.GetGenericArguments()[0] == typeof(string) &&
type.GetGenericArguments()[1] == typeof(IDictionary<string, object>);
return genericType == typeof(Func<,,>) && type.GetGenericArguments()[0] == typeof(String) && type.GetGenericArguments()[1] == typeof(IDictionary<String, Object>);
}
private ObjectFactoryBase? GetParentObjectFactory(DependencyContainer.TypeRegistration registration)
{
if (_dependencyContainer.Parent == null)
return null;
private ObjectFactoryBase? GetParentObjectFactory(DependencyContainer.TypeRegistration registration) => this._dependencyContainer.Parent == null
? null
: this._dependencyContainer.Parent.RegisteredTypes.TryGetValue(registration, out ObjectFactoryBase? factory) ? factory.GetFactoryForChildContainer(registration.Type, this._dependencyContainer.Parent, this._dependencyContainer) : this._dependencyContainer.Parent.RegisteredTypes.GetParentObjectFactory(registration);
return _dependencyContainer.Parent.RegisteredTypes.TryGetValue(registration, out var factory)
? factory.GetFactoryForChildContainer(registration.Type, _dependencyContainer.Parent, _dependencyContainer)
: _dependencyContainer.Parent.RegisteredTypes.GetParentObjectFactory(registration);
private ConstructorInfo? GetBestConstructor(Type type, DependencyContainerResolveOptions? options) => type.IsValueType ? null : GetTypeConstructors(type).FirstOrDefault(ctor => this.CanConstruct(ctor, options));
private Boolean CanConstruct(MethodBase ctor, DependencyContainerResolveOptions? options) {
foreach(ParameterInfo parameter in ctor.GetParameters()) {
if(String.IsNullOrEmpty(parameter.Name)) {
return false;
}
private ConstructorInfo? GetBestConstructor(
Type type,
DependencyContainerResolveOptions options)
=> type.IsValueType ? null : GetTypeConstructors(type).FirstOrDefault(ctor => CanConstruct(ctor, options));
Boolean isParameterOverload = options!.ConstructorParameters.ContainsKey(parameter.Name);
private bool CanConstruct(
MethodBase ctor,
DependencyContainerResolveOptions? options)
{
foreach (var parameter in ctor.GetParameters())
{
if (string.IsNullOrEmpty(parameter.Name))
if(parameter.ParameterType.IsPrimitive && !isParameterOverload) {
return false;
}
var isParameterOverload = options.ConstructorParameters.ContainsKey(parameter.Name);
if (parameter.ParameterType.IsPrimitive && !isParameterOverload)
return false;
if (!isParameterOverload &&
!CanResolve(new DependencyContainer.TypeRegistration(parameter.ParameterType), options.Clone()))
if(!isParameterOverload && !this.CanResolve(new DependencyContainer.TypeRegistration(parameter.ParameterType), options.Clone())) {
return false;
}
}
return true;
}
private IEnumerable<DependencyContainer.TypeRegistration> GetParentRegistrationsForType(Type resolveType)
=> _dependencyContainer.Parent == null
? Array.Empty<DependencyContainer.TypeRegistration>()
: _dependencyContainer.Parent.RegisteredTypes.Keys.Where(tr => tr.Type == resolveType).Concat(_dependencyContainer.Parent.RegisteredTypes.GetParentRegistrationsForType(resolveType));
private IEnumerable<DependencyContainer.TypeRegistration> GetParentRegistrationsForType(Type resolveType) => this._dependencyContainer.Parent == null ? Array.Empty<DependencyContainer.TypeRegistration>() : this._dependencyContainer.Parent.RegisteredTypes.Keys.Where(tr => tr.Type == resolveType).Concat(this._dependencyContainer.Parent.RegisteredTypes.GetParentRegistrationsForType(resolveType));
}
}

135
Swan/Diagnostics/RealtimeClock.cs
View File

@ -1,40 +1,32 @@
namespace Swan.Diagnostics
{
using System;
using System.Diagnostics;
using Threading;
#nullable enable
using System;
using System.Diagnostics;
using Swan.Threading;
namespace Swan.Diagnostics {
/// <summary>
/// A time measurement artifact.
/// </summary>
internal sealed class RealTimeClock : IDisposable
{
internal sealed class RealTimeClock : IDisposable {
private readonly Stopwatch _chrono = new Stopwatch();
private ISyncLocker? _locker = SyncLockerFactory.Create(useSlim: true);
private long _offsetTicks;
private double _speedRatio = 1.0d;
private bool _isDisposed;
private Int64 _offsetTicks;
private Double _speedRatio = 1.0d;
private Boolean _isDisposed;
/// <summary>
/// Initializes a new instance of the <see cref="RealTimeClock"/> class.
/// The clock starts paused and at the 0 position.
/// </summary>
public RealTimeClock()
{
Reset();
}
public RealTimeClock() => this.Reset();
/// <summary>
/// Gets or sets the clock position.
/// </summary>
public TimeSpan Position
{
get
{
using (_locker?.AcquireReaderLock())
{
return TimeSpan.FromTicks(
_offsetTicks + Convert.ToInt64(_chrono.Elapsed.Ticks * SpeedRatio));
public TimeSpan Position {
get {
using(this._locker?.AcquireReaderLock()) {
return TimeSpan.FromTicks(this._offsetTicks + Convert.ToInt64(this._chrono.Elapsed.Ticks * this.SpeedRatio));
}
}
}
@ -42,13 +34,10 @@
/// <summary>
/// Gets a value indicating whether the clock is running.
/// </summary>
public bool IsRunning
{
get
{
using (_locker?.AcquireReaderLock())
{
return _chrono.IsRunning;
public Boolean IsRunning {
get {
using(this._locker?.AcquireReaderLock()) {
return this._chrono.IsRunning;
}
}
}
@ -56,26 +45,23 @@
/// <summary>
/// Gets or sets the speed ratio at which the clock runs.
/// </summary>
public double SpeedRatio
{
get
{
using (_locker?.AcquireReaderLock())
{
return _speedRatio;
public Double SpeedRatio {
get {
using(this._locker?.AcquireReaderLock()) {
return this._speedRatio;
}
}
set
{
using (_locker?.AcquireWriterLock())
{
if (value < 0d) value = 0d;
set {
using(this._locker?.AcquireWriterLock()) {
if(value < 0d) {
value = 0d;
}
// Capture the initial position se we set it even after the Speed Ratio has changed
// this ensures a smooth position transition
var initialPosition = Position;
_speedRatio = value;
Update(initialPosition);
TimeSpan initialPosition = this.Position;
this._speedRatio = value;
this.Update(initialPosition);
}
}
}
@ -84,37 +70,36 @@
/// Sets a new position value atomically.
/// </summary>
/// <param name="value">The new value that the position property will hold.</param>
public void Update(TimeSpan value)
{
using (_locker?.AcquireWriterLock())
{
var resume = _chrono.IsRunning;
_chrono.Reset();
_offsetTicks = value.Ticks;
if (resume) _chrono.Start();
public void Update(TimeSpan value) {
using(this._locker?.AcquireWriterLock()) {
Boolean resume = this._chrono.IsRunning;
this._chrono.Reset();
this._offsetTicks = value.Ticks;
if(resume) {
this._chrono.Start();
}
}
}
/// <summary>
/// Starts or resumes the clock.
/// </summary>
public void Play()
{
using (_locker?.AcquireWriterLock())
{
if (_chrono.IsRunning) return;
_chrono.Start();
public void Play() {
using(this._locker?.AcquireWriterLock()) {
if(this._chrono.IsRunning) {
return;
}
this._chrono.Start();
}
}
/// <summary>
/// Pauses the clock.
/// </summary>
public void Pause()
{
using (_locker?.AcquireWriterLock())
{
_chrono.Stop();
public void Pause() {
using(this._locker?.AcquireWriterLock()) {
this._chrono.Stop();
}
}
@ -122,22 +107,22 @@
/// Sets the clock position to 0 and stops it.
/// The speed ratio is not modified.
/// </summary>
public void Reset()
{
using (_locker?.AcquireWriterLock())
{
_offsetTicks = 0;
_chrono.Reset();
public void Reset() {
using(this._locker?.AcquireWriterLock()) {
this._offsetTicks = 0;
this._chrono.Reset();
}
}
/// <inheritdoc />
public void Dispose()
{
if (_isDisposed) return;
_isDisposed = true;
_locker?.Dispose();
_locker = null;
public void Dispose() {
if(this._isDisposed) {
return;
}
this._isDisposed = true;
this._locker?.Dispose();
this._locker = null;
}
}
}

43
Swan/Extensions.MimeMessage.cs
View File

@ -1,15 +1,13 @@
namespace Swan
{
using System;
using System.IO;
using System.Net.Mail;
using System.Reflection;
using System;
using System.IO;
using System.Net.Mail;
using System.Reflection;
namespace Swan {
/// <summary>
/// Extension methods.
/// </summary>
public static class SmtpExtensions
{
public static class SmtpExtensions {
private static readonly BindingFlags PrivateInstanceFlags = BindingFlags.Instance | BindingFlags.NonPublic;
/// <summary>
@ -17,40 +15,29 @@
/// </summary>
/// <param name="this">The caller.</param>
/// <returns>A MemoryStream with the raw contents of this MailMessage.</returns>
public static MemoryStream ToMimeMessage(this MailMessage @this)
{
if (@this == null)
public static MemoryStream ToMimeMessage(this MailMessage @this) {
if(@this == null) {
throw new ArgumentNullException(nameof(@this));
}
var result = new MemoryStream();
var mailWriter = MimeMessageConstants.MailWriterConstructor.Invoke(new object[] { result });
MimeMessageConstants.SendMethod.Invoke(
@this,
PrivateInstanceFlags,
null,
MimeMessageConstants.IsRunningInDotNetFourPointFive ? new[] { mailWriter, true, true } : new[] { mailWriter, true },
null);
MemoryStream result = new MemoryStream();
Object mailWriter = MimeMessageConstants.MailWriterConstructor.Invoke(new Object[] { result });
_ = MimeMessageConstants.SendMethod.Invoke(@this, PrivateInstanceFlags, null, MimeMessageConstants.IsRunningInDotNetFourPointFive ? new[] { mailWriter, true, true } : new[] { mailWriter, true }, null);
result = new MemoryStream(result.ToArray());
MimeMessageConstants.CloseMethod.Invoke(
mailWriter,
PrivateInstanceFlags,
null,
Array.Empty<object>(),
null);
_ = MimeMessageConstants.CloseMethod.Invoke(mailWriter, PrivateInstanceFlags, null, Array.Empty<Object>(), null);
result.Position = 0;
return result;
}
internal static class MimeMessageConstants
{
internal static class MimeMessageConstants {
#pragma warning disable DE0005 // API is deprecated
public static readonly Type MailWriter = typeof(SmtpClient).Assembly.GetType("System.Net.Mail.MailWriter");
#pragma warning restore DE0005 // API is deprecated
public static readonly ConstructorInfo MailWriterConstructor = MailWriter.GetConstructor(PrivateInstanceFlags, null, new[] { typeof(Stream) }, null);
public static readonly MethodInfo CloseMethod = MailWriter.GetMethod("Close", PrivateInstanceFlags);
public static readonly MethodInfo SendMethod = typeof(MailMessage).GetMethod("Send", PrivateInstanceFlags);
public static readonly bool IsRunningInDotNetFourPointFive = SendMethod.GetParameters().Length == 3;
public static readonly Boolean IsRunningInDotNetFourPointFive = SendMethod.GetParameters().Length == 3;
}
}
}

42
Swan/Extensions.Network.cs
View File

@ -1,15 +1,13 @@
namespace Swan
{
using System;
using System.Linq;
using System.Net;
using System.Net.Sockets;
using System;
using System.Linq;
using System.Net;
using System.Net.Sockets;
namespace Swan {
/// <summary>
/// Provides various extension methods for networking-related tasks.
/// </summary>
public static class NetworkExtensions
{
public static class NetworkExtensions {
/// <summary>
/// Determines whether the IP address is private.
/// </summary>
@ -18,15 +16,15 @@
/// True if the IP Address is private; otherwise, false.
/// </returns>
/// <exception cref="ArgumentNullException">address.</exception>
public static bool IsPrivateAddress(this IPAddress @this)
{
if (@this == null)
public static Boolean IsPrivateAddress(this IPAddress @this) {
if(@this == null) {
throw new ArgumentNullException(nameof(@this));
}
var octets = @this.ToString().Split(new[] { "." }, StringSplitOptions.RemoveEmptyEntries).Select(byte.Parse).ToArray();
var is24Bit = octets[0] == 10;
var is20Bit = octets[0] == 172 && (octets[1] >= 16 && octets[1] <= 31);
var is16Bit = octets[0] == 192 && octets[1] == 168;
Byte[] octets = @this.ToString().Split(new[] { "." }, StringSplitOptions.RemoveEmptyEntries).Select(Byte.Parse).ToArray();
Boolean is24Bit = octets[0] == 10;
Boolean is20Bit = octets[0] == 172 && octets[1] >= 16 && octets[1] <= 31;
Boolean is16Bit = octets[0] == 192 && octets[1] == 168;
return is24Bit || is20Bit || is16Bit;
}
@ -40,17 +38,19 @@
/// </returns>
/// <exception cref="ArgumentNullException">address.</exception>
/// <exception cref="ArgumentException">InterNetwork - address.</exception>
public static uint ToUInt32(this IPAddress @this)
{
if (@this == null)
public static UInt32 ToUInt32(this IPAddress @this) {
if(@this == null) {
throw new ArgumentNullException(nameof(@this));
}
if (@this.AddressFamily != AddressFamily.InterNetwork)
if(@this.AddressFamily != AddressFamily.InterNetwork) {
throw new ArgumentException($"Address has to be of family '{nameof(AddressFamily.InterNetwork)}'", nameof(@this));
}
var addressBytes = @this.GetAddressBytes();
if (BitConverter.IsLittleEndian)
Byte[] addressBytes = @this.GetAddressBytes();
if(BitConverter.IsLittleEndian) {
Array.Reverse(addressBytes);
}
return BitConverter.ToUInt32(addressBytes, 0);
}

68
Swan/Extensions.WindowsServices.cs
View File

@ -1,21 +1,16 @@
namespace Swan
{
using Logging;
using System;
using System.Collections.Generic;
using System.Reflection;
using System.Threading;
#if NET461
using System.ServiceProcess;
#else
using Services;
#endif
using Swan.Logging;
using System;
using System.Collections.Generic;
using System.Reflection;
using System.Threading;
using Swan.Services;
namespace Swan {
/// <summary>
/// Extension methods.
/// </summary>
public static class WindowsServicesExtensions
{
public static class WindowsServicesExtensions {
/// <summary>
/// Runs a service in console mode.
/// </summary>
@ -23,10 +18,10 @@
/// <param name="loggerSource">The logger source.</param>
/// <exception cref="ArgumentNullException">this.</exception>
[Obsolete("This extension method will be removed in version 3.0")]
public static void RunInConsoleMode(this ServiceBase @this, string loggerSource = null)
{
if (@this == null)
public static void RunInConsoleMode(this ServiceBase @this, String loggerSource = null) {
if(@this == null) {
throw new ArgumentNullException(nameof(@this));
}
RunInConsoleMode(new[] { @this }, loggerSource);
}
@ -39,30 +34,27 @@
/// <exception cref="ArgumentNullException">this.</exception>
/// <exception cref="InvalidOperationException">The ServiceBase class isn't available.</exception>
[Obsolete("This extension method will be removed in version 3.0")]
public static void RunInConsoleMode(this ServiceBase[] @this, string loggerSource = null)
{
if (@this == null)
public static void RunInConsoleMode(this ServiceBase[] @this, String loggerSource = null) {
if(@this == null) {
throw new ArgumentNullException(nameof(@this));
}
const string onStartMethodName = "OnStart";
const string onStopMethodName = "OnStop";
const String onStartMethodName = "OnStart";
const String onStopMethodName = "OnStop";
var onStartMethod = typeof(ServiceBase).GetMethod(onStartMethodName,
BindingFlags.Instance | BindingFlags.NonPublic);
var onStopMethod = typeof(ServiceBase).GetMethod(onStopMethodName,
BindingFlags.Instance | BindingFlags.NonPublic);
MethodInfo onStartMethod = typeof(ServiceBase).GetMethod(onStartMethodName, BindingFlags.Instance | BindingFlags.NonPublic);
MethodInfo onStopMethod = typeof(ServiceBase).GetMethod(onStopMethodName, BindingFlags.Instance | BindingFlags.NonPublic);
if (onStartMethod == null || onStopMethod == null)
if(onStartMethod == null || onStopMethod == null) {
throw new InvalidOperationException("The ServiceBase class isn't available.");
}
var serviceThreads = new List<Thread>();
List<Thread> serviceThreads = new List<Thread>();
"Starting services . . .".Info(loggerSource ?? SwanRuntime.EntryAssemblyName.Name);
foreach (var service in @this)
{
var thread = new Thread(() =>
{
onStartMethod.Invoke(service, new object[] { Array.Empty<string>() });
foreach(ServiceBase service in @this) {
Thread thread = new Thread(() => {
_ = onStartMethod.Invoke(service, new Object[] { Array.Empty<String>() });
$"Started service '{service.GetType().Name}'".Info(loggerSource ?? service.GetType().Name);
});
@ -71,17 +63,17 @@
}
"Press any key to stop all services.".Info(loggerSource ?? SwanRuntime.EntryAssemblyName.Name);
Terminal.ReadKey(true, true);
_ = Terminal.ReadKey(true, true);
"Stopping services . . .".Info(SwanRuntime.EntryAssemblyName.Name);
foreach (var service in @this)
{
onStopMethod.Invoke(service, null);
foreach(ServiceBase service in @this) {
_ = onStopMethod.Invoke(service, null);
$"Stopped service '{service.GetType().Name}'".Info(loggerSource ?? service.GetType().Name);
}
foreach (var thread in serviceThreads)
foreach(Thread thread in serviceThreads) {
thread.Join();
}
"Stopped all services.".Info(loggerSource ?? SwanRuntime.EntryAssemblyName.Name);
}

12
Swan/Messaging/IMessageHubMessage.cs
View File

@ -1,13 +1,15 @@
namespace Swan.Messaging
{
using System;
namespace Swan.Messaging {
/// <summary>
/// A Message to be published/delivered by Messenger.
/// </summary>
public interface IMessageHubMessage
{
public interface IMessageHubMessage {
/// <summary>
/// The sender of the message, or null if not supported by the message implementation.
/// </summary>
object Sender { get; }
Object Sender {
get;
}
}
}

14
Swan/Messaging/IMessageHubSubscription.cs
View File

@ -1,21 +1,23 @@
namespace Swan.Messaging
{
using System;
namespace Swan.Messaging {
/// <summary>
/// Represents a message subscription.
/// </summary>
public interface IMessageHubSubscription
{
public interface IMessageHubSubscription {
/// <summary>
/// Token returned to the subscribed to reference this subscription.
/// </summary>
MessageHubSubscriptionToken SubscriptionToken { get; }
MessageHubSubscriptionToken SubscriptionToken {
get;
}
/// <summary>
/// Whether delivery should be attempted.
/// </summary>
/// <param name="message">Message that may potentially be delivered.</param>
/// <returns><c>true</c> - ok to send, <c>false</c> - should not attempt to send.</returns>
bool ShouldAttemptDelivery(IMessageHubMessage message);
Boolean ShouldAttemptDelivery(IMessageHubMessage message);
/// <summary>
/// Deliver the message.

239
Swan/Messaging/MessageHub.cs
View File

@ -11,14 +11,13 @@
// LIMITED TO THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
// FITNESS FOR A PARTICULAR PURPOSE.
// ===============================================================================
#nullable enable
using System.Threading.Tasks;
using System;
using System.Collections.Generic;
using System.Linq;
namespace Swan.Messaging
{
using System.Threading.Tasks;
using System;
using System.Collections.Generic;
using System.Linq;
namespace Swan.Messaging {
#region Message Types / Interfaces
/// <summary>
@ -27,8 +26,7 @@ namespace Swan.Messaging
/// A message proxy can be used to intercept/alter messages and/or
/// marshal delivery actions onto a particular thread.
/// </summary>
public interface IMessageHubProxy
{
public interface IMessageHubProxy {
/// <summary>
/// Delivers the specified message.
/// </summary>
@ -42,10 +40,8 @@ namespace Swan.Messaging
///
/// Does nothing other than deliver the message.
/// </summary>
public sealed class MessageHubDefaultProxy : IMessageHubProxy
{
private MessageHubDefaultProxy()
{
public sealed class MessageHubDefaultProxy : IMessageHubProxy {
private MessageHubDefaultProxy() {
// placeholder
}
@ -59,8 +55,7 @@ namespace Swan.Messaging
/// </summary>
/// <param name="message">The message.</param>
/// <param name="subscription">The subscription.</param>
public void Deliver(IMessageHubMessage message, IMessageHubSubscription subscription)
=> subscription.Deliver(message);
public void Deliver(IMessageHubMessage message, IMessageHubSubscription subscription) => subscription.Deliver(message);
}
#endregion
@ -70,8 +65,7 @@ namespace Swan.Messaging
/// <summary>
/// Messenger hub responsible for taking subscriptions/publications and delivering of messages.
/// </summary>
public interface IMessageHub
{
public interface IMessageHub {
/// <summary>
/// Subscribe to a message type with the given destination and delivery action.
/// Messages will be delivered via the specified proxy.
@ -83,11 +77,7 @@ namespace Swan.Messaging
/// <param name="useStrongReferences">Use strong references to destination and deliveryAction.</param>
/// <param name="proxy">Proxy to use when delivering the messages.</param>
/// <returns>MessageSubscription used to unsubscribing.</returns>
MessageHubSubscriptionToken Subscribe<TMessage>(
Action<TMessage> deliveryAction,
bool useStrongReferences,
IMessageHubProxy proxy)
where TMessage : class, IMessageHubMessage;
MessageHubSubscriptionToken Subscribe<TMessage>(Action<TMessage> deliveryAction, Boolean useStrongReferences, IMessageHubProxy proxy) where TMessage : class, IMessageHubMessage;
/// <summary>
/// Subscribe to a message type with the given destination and delivery action with the given filter.
@ -103,12 +93,7 @@ namespace Swan.Messaging
/// <returns>
/// MessageSubscription used to unsubscribing.
/// </returns>
MessageHubSubscriptionToken Subscribe<TMessage>(
Action<TMessage> deliveryAction,
Func<TMessage, bool> messageFilter,
bool useStrongReferences,
IMessageHubProxy proxy)
where TMessage : class, IMessageHubMessage;
MessageHubSubscriptionToken Subscribe<TMessage>(Action<TMessage> deliveryAction, Func<TMessage, Boolean> messageFilter, Boolean useStrongReferences, IMessageHubProxy proxy) where TMessage : class, IMessageHubMessage;
/// <summary>
/// Unsubscribe from a particular message type.
@ -117,16 +102,14 @@ namespace Swan.Messaging
/// </summary>
/// <typeparam name="TMessage">Type of message.</typeparam>
/// <param name="subscriptionToken">Subscription token received from Subscribe.</param>
void Unsubscribe<TMessage>(MessageHubSubscriptionToken subscriptionToken)
where TMessage : class, IMessageHubMessage;
void Unsubscribe<TMessage>(MessageHubSubscriptionToken subscriptionToken) where TMessage : class, IMessageHubMessage;
/// <summary>
/// Publish a message to any subscribers.
/// </summary>
/// <typeparam name="TMessage">Type of message.</typeparam>
/// <param name="message">Message to deliver.</param>
void Publish<TMessage>(TMessage message)
where TMessage : class, IMessageHubMessage;
void Publish<TMessage>(TMessage message) where TMessage : class, IMessageHubMessage;
/// <summary>
/// Publish a message to any subscribers asynchronously.
@ -134,8 +117,7 @@ namespace Swan.Messaging
/// <typeparam name="TMessage">Type of message.</typeparam>
/// <param name="message">Message to deliver.</param>
/// <returns>A task from Publish action.</returns>
Task PublishAsync<TMessage>(TMessage message)
where TMessage : class, IMessageHubMessage;
Task PublishAsync<TMessage>(TMessage message) where TMessage : class, IMessageHubMessage;
}
#endregion
@ -182,18 +164,14 @@ namespace Swan.Messaging
/// }
/// </code>
/// </example>
public sealed class MessageHub : IMessageHub
{
public sealed class MessageHub : IMessageHub {
#region Private Types and Interfaces
private readonly object _subscriptionsPadlock = new object();
private readonly Object _subscriptionsPadlock = new Object();
private readonly Dictionary<Type, List<SubscriptionItem>> _subscriptions =
new Dictionary<Type, List<SubscriptionItem>>();
private readonly Dictionary<Type, List<SubscriptionItem>> _subscriptions = new Dictionary<Type, List<SubscriptionItem>>();
private class WeakMessageSubscription<TMessage> : IMessageHubSubscription
where TMessage : class, IMessageHubMessage
{
private class WeakMessageSubscription<TMessage> : IMessageHubSubscription where TMessage : class, IMessageHubMessage {
private readonly WeakReference _deliveryAction;
private readonly WeakReference _messageFilter;
@ -208,38 +186,28 @@ namespace Swan.Messaging
/// deliveryAction
/// or
/// messageFilter.</exception>
public WeakMessageSubscription(
MessageHubSubscriptionToken subscriptionToken,
Action<TMessage> deliveryAction,
Func<TMessage, bool> messageFilter)
{
SubscriptionToken = subscriptionToken ?? throw new ArgumentNullException(nameof(subscriptionToken));
_deliveryAction = new WeakReference(deliveryAction);
_messageFilter = new WeakReference(messageFilter);
public WeakMessageSubscription(MessageHubSubscriptionToken subscriptionToken, Action<TMessage> deliveryAction, Func<TMessage, Boolean> messageFilter) {
this.SubscriptionToken = subscriptionToken ?? throw new ArgumentNullException(nameof(subscriptionToken));
this._deliveryAction = new WeakReference(deliveryAction);
this._messageFilter = new WeakReference(messageFilter);
}
public MessageHubSubscriptionToken SubscriptionToken { get; }
public bool ShouldAttemptDelivery(IMessageHubMessage message)
{
return _deliveryAction.IsAlive && _messageFilter.IsAlive &&
((Func<TMessage, bool>) _messageFilter.Target).Invoke((TMessage) message);
public MessageHubSubscriptionToken SubscriptionToken {
get;
}
public void Deliver(IMessageHubMessage message)
{
if (_deliveryAction.IsAlive)
{
((Action<TMessage>) _deliveryAction.Target).Invoke((TMessage) message);
public Boolean ShouldAttemptDelivery(IMessageHubMessage message) => this._deliveryAction.IsAlive && this._messageFilter.IsAlive && ((Func<TMessage, Boolean>)this._messageFilter.Target!).Invoke((TMessage)message);
public void Deliver(IMessageHubMessage message) {
if(this._deliveryAction.IsAlive) {
((Action<TMessage>)this._deliveryAction.Target!).Invoke((TMessage)message);
}
}
}
private class StrongMessageSubscription<TMessage> : IMessageHubSubscription
where TMessage : class, IMessageHubMessage
{
private class StrongMessageSubscription<TMessage> : IMessageHubSubscription where TMessage : class, IMessageHubMessage {
private readonly Action<TMessage> _deliveryAction;
private readonly Func<TMessage, bool> _messageFilter;
private readonly Func<TMessage, Boolean> _messageFilter;
/// <summary>
/// Initializes a new instance of the <see cref="StrongMessageSubscription{TMessage}" /> class.
@ -252,37 +220,37 @@ namespace Swan.Messaging
/// deliveryAction
/// or
/// messageFilter.</exception>
public StrongMessageSubscription(
MessageHubSubscriptionToken subscriptionToken,
Action<TMessage> deliveryAction,
Func<TMessage, bool> messageFilter)
{
SubscriptionToken = subscriptionToken ?? throw new ArgumentNullException(nameof(subscriptionToken));
_deliveryAction = deliveryAction;
_messageFilter = messageFilter;
public StrongMessageSubscription(MessageHubSubscriptionToken subscriptionToken, Action<TMessage> deliveryAction, Func<TMessage, Boolean> messageFilter) {
this.SubscriptionToken = subscriptionToken ?? throw new ArgumentNullException(nameof(subscriptionToken));
this._deliveryAction = deliveryAction;
this._messageFilter = messageFilter;
}
public MessageHubSubscriptionToken SubscriptionToken { get; }
public MessageHubSubscriptionToken SubscriptionToken {
get;
}
public bool ShouldAttemptDelivery(IMessageHubMessage message) => _messageFilter.Invoke((TMessage) message);
public Boolean ShouldAttemptDelivery(IMessageHubMessage message) => this._messageFilter.Invoke((TMessage)message);
public void Deliver(IMessageHubMessage message) => _deliveryAction.Invoke((TMessage) message);
public void Deliver(IMessageHubMessage message) => this._deliveryAction.Invoke((TMessage)message);
}
#endregion
#region Subscription dictionary
private class SubscriptionItem
{
public SubscriptionItem(IMessageHubProxy proxy, IMessageHubSubscription subscription)
{
Proxy = proxy;
Subscription = subscription;
private class SubscriptionItem {
public SubscriptionItem(IMessageHubProxy proxy, IMessageHubSubscription subscription) {
this.Proxy = proxy;
this.Subscription = subscription;
}
public IMessageHubProxy Proxy { get; }
public IMessageHubSubscription Subscription { get; }
public IMessageHubProxy Proxy {
get;
}
public IMessageHubSubscription Subscription {
get;
}
}
#endregion
@ -300,14 +268,8 @@ namespace Swan.Messaging
/// <param name="useStrongReferences">Use strong references to destination and deliveryAction. </param>
/// <param name="proxy">Proxy to use when delivering the messages.</param>
/// <returns>MessageSubscription used to unsubscribing.</returns>
public MessageHubSubscriptionToken Subscribe<TMessage>(
Action<TMessage> deliveryAction,
bool useStrongReferences = true,
IMessageHubProxy? proxy = null)
where TMessage : class, IMessageHubMessage
{
return Subscribe(deliveryAction, m => true, useStrongReferences, proxy);
}
public MessageHubSubscriptionToken Subscribe<TMessage>(Action<TMessage> deliveryAction, Boolean useStrongReferences = true, IMessageHubProxy? proxy = null) where TMessage : class, IMessageHubMessage => this.Subscribe(deliveryAction, m => true, useStrongReferences, proxy);
/// <summary>
/// Subscribe to a message type with the given destination and delivery action with the given filter.
@ -323,44 +285,25 @@ namespace Swan.Messaging
/// <returns>
/// MessageSubscription used to unsubscribing.
/// </returns>
public MessageHubSubscriptionToken Subscribe<TMessage>(
Action<TMessage> deliveryAction,
Func<TMessage, bool> messageFilter,
bool useStrongReferences = true,
IMessageHubProxy? proxy = null)
where TMessage : class, IMessageHubMessage
{
if (deliveryAction == null)
[System.Diagnostics.CodeAnalysis.SuppressMessage("Codequalität", "IDE0068:Empfohlenes Dispose-Muster verwenden", Justification = "<Ausstehend>")]
public MessageHubSubscriptionToken Subscribe<TMessage>(Action<TMessage> deliveryAction, Func<TMessage, Boolean> messageFilter, Boolean useStrongReferences = true, IMessageHubProxy? proxy = null) where TMessage : class, IMessageHubMessage {
if(deliveryAction == null) {
throw new ArgumentNullException(nameof(deliveryAction));
}
if (messageFilter == null)
if(messageFilter == null) {
throw new ArgumentNullException(nameof(messageFilter));
}
lock (_subscriptionsPadlock)
{
if (!_subscriptions.TryGetValue(typeof(TMessage), out var currentSubscriptions))
{
lock(this._subscriptionsPadlock) {
if(!this._subscriptions.TryGetValue(typeof(TMessage), out List<SubscriptionItem>? currentSubscriptions)) {
currentSubscriptions = new List<SubscriptionItem>();
_subscriptions[typeof(TMessage)] = currentSubscriptions;
this._subscriptions[typeof(TMessage)] = currentSubscriptions;
}
var subscriptionToken = new MessageHubSubscriptionToken(this, typeof(TMessage));
MessageHubSubscriptionToken subscriptionToken = new MessageHubSubscriptionToken(this, typeof(TMessage));
IMessageHubSubscription subscription;
if (useStrongReferences)
{
subscription = new StrongMessageSubscription<TMessage>(
subscriptionToken,
deliveryAction,
messageFilter);
}
else
{
subscription = new WeakMessageSubscription<TMessage>(
subscriptionToken,
deliveryAction,
messageFilter);
}
IMessageHubSubscription subscription = useStrongReferences ? new StrongMessageSubscription<TMessage>(subscriptionToken, deliveryAction, messageFilter) : (IMessageHubSubscription)new WeakMessageSubscription<TMessage>(subscriptionToken, deliveryAction, messageFilter);
currentSubscriptions.Add(new SubscriptionItem(proxy ?? MessageHubDefaultProxy.Instance, subscription));
@ -369,20 +312,17 @@ namespace Swan.Messaging
}
/// <inheritdoc />
public void Unsubscribe<TMessage>(MessageHubSubscriptionToken subscriptionToken)
where TMessage : class, IMessageHubMessage
{
if (subscriptionToken == null)
public void Unsubscribe<TMessage>(MessageHubSubscriptionToken subscriptionToken) where TMessage : class, IMessageHubMessage {
if(subscriptionToken == null) {
throw new ArgumentNullException(nameof(subscriptionToken));
}
lock (_subscriptionsPadlock)
{
if (!_subscriptions.TryGetValue(typeof(TMessage), out var currentSubscriptions))
lock(this._subscriptionsPadlock) {
if(!this._subscriptions.TryGetValue(typeof(TMessage), out List<SubscriptionItem>? currentSubscriptions)) {
return;
}
var currentlySubscribed = currentSubscriptions
.Where(sub => ReferenceEquals(sub.Subscription.SubscriptionToken, subscriptionToken))
.ToList();
List<SubscriptionItem> currentlySubscribed = currentSubscriptions.Where(sub => ReferenceEquals(sub.Subscription.SubscriptionToken, subscriptionToken)).ToList();
currentlySubscribed.ForEach(sub => currentSubscriptions.Remove(sub));
}
@ -393,31 +333,24 @@ namespace Swan.Messaging
/// </summary>
/// <typeparam name="TMessage">Type of message.</typeparam>
/// <param name="message">Message to deliver.</param>
public void Publish<TMessage>(TMessage message)
where TMessage : class, IMessageHubMessage
{
if (message == null)
public void Publish<TMessage>(TMessage message) where TMessage : class, IMessageHubMessage {
if(message == null) {
throw new ArgumentNullException(nameof(message));
}
List<SubscriptionItem> currentlySubscribed;
lock (_subscriptionsPadlock)
{
if (!_subscriptions.TryGetValue(typeof(TMessage), out var currentSubscriptions))
lock(this._subscriptionsPadlock) {
if(!this._subscriptions.TryGetValue(typeof(TMessage), out List<SubscriptionItem>? currentSubscriptions)) {
return;
currentlySubscribed = currentSubscriptions
.Where(sub => sub.Subscription.ShouldAttemptDelivery(message))
.ToList();
}
currentlySubscribed.ForEach(sub =>
{
try
{
currentlySubscribed = currentSubscriptions.Where(sub => sub.Subscription.ShouldAttemptDelivery(message)).ToList();
}
currentlySubscribed.ForEach(sub => {
try {
sub.Proxy.Deliver(message, sub.Subscription);
}
catch
{
} catch {
// Ignore any errors and carry on
}
});
@ -429,11 +362,7 @@ namespace Swan.Messaging
/// <typeparam name="TMessage">Type of message.</typeparam>
/// <param name="message">Message to deliver.</param>
/// <returns>A task with the publish.</returns>
public Task PublishAsync<TMessage>(TMessage message)
where TMessage : class, IMessageHubMessage
{
return Task.Run(() => Publish(message));
}
public Task PublishAsync<TMessage>(TMessage message) where TMessage : class, IMessageHubMessage => Task.Run(() => this.Publish(message));
#endregion
}

33
Swan/Messaging/MessageHubMessageBase.cs
View File

@ -1,13 +1,10 @@
namespace Swan.Messaging
{
using System;
using System;
namespace Swan.Messaging {
/// <summary>
/// Base class for messages that provides weak reference storage of the sender.
/// </summary>
public abstract class MessageHubMessageBase
: IMessageHubMessage
{
public abstract class MessageHubMessageBase : IMessageHubMessage {
/// <summary>
/// Store a WeakReference to the sender just in case anyone is daft enough to
/// keep the message around and prevent the sender from being collected.
@ -19,39 +16,35 @@
/// </summary>
/// <param name="sender">The sender.</param>
/// <exception cref="System.ArgumentNullException">sender.</exception>
protected MessageHubMessageBase(object sender)
{
if (sender == null)
protected MessageHubMessageBase(Object sender) {
if(sender == null) {
throw new ArgumentNullException(nameof(sender));
}
_sender = new WeakReference(sender);
this._sender = new WeakReference(sender);
}
/// <inheritdoc />
public object Sender => _sender.Target;
public Object Sender => this._sender.Target;
}
/// <summary>
/// Generic message with user specified content.
/// </summary>
/// <typeparam name="TContent">Content type to store.</typeparam>
public class MessageHubGenericMessage<TContent>
: MessageHubMessageBase
{
public class MessageHubGenericMessage<TContent> : MessageHubMessageBase {
/// <summary>
/// Initializes a new instance of the <see cref="MessageHubGenericMessage{TContent}"/> class.
/// </summary>
/// <param name="sender">The sender.</param>
/// <param name="content">The content.</param>
public MessageHubGenericMessage(object sender, TContent content)
: base(sender)
{
Content = content;
}
public MessageHubGenericMessage(Object sender, TContent content) : base(sender) => this.Content = content;
/// <summary>
/// Contents of the message.
/// </summary>
public TContent Content { get; protected set; }
public TContent Content {
get; protected set;
}
}
}

36
Swan/Messaging/MessageHubSubscriptionToken.cs
View File

@ -1,13 +1,11 @@
namespace Swan.Messaging
{
using System;
using System;
using System.Reflection;
namespace Swan.Messaging {
/// <summary>
/// Represents an active subscription to a message.
/// </summary>
public sealed class MessageHubSubscriptionToken
: IDisposable
{
public sealed class MessageHubSubscriptionToken : IDisposable {
private readonly WeakReference _hub;
private readonly Type _messageType;
@ -18,31 +16,25 @@
/// <param name="messageType">Type of the message.</param>
/// <exception cref="System.ArgumentNullException">hub.</exception>
/// <exception cref="System.ArgumentOutOfRangeException">messageType.</exception>
public MessageHubSubscriptionToken(IMessageHub hub, Type messageType)
{
if (hub == null)
{
public MessageHubSubscriptionToken(IMessageHub hub, Type messageType) {
if(hub == null) {
throw new ArgumentNullException(nameof(hub));
}
if (!typeof(IMessageHubMessage).IsAssignableFrom(messageType))
{
if(!typeof(IMessageHubMessage).IsAssignableFrom(messageType)) {
throw new ArgumentOutOfRangeException(nameof(messageType));
}
_hub = new WeakReference(hub);
_messageType = messageType;
this._hub = new WeakReference(hub);
this._messageType = messageType;
}
/// <inheritdoc />
public void Dispose()
{
if (_hub.IsAlive && _hub.Target is IMessageHub hub)
{
var unsubscribeMethod = typeof(IMessageHub).GetMethod(nameof(IMessageHub.Unsubscribe),
new[] {typeof(MessageHubSubscriptionToken)});
unsubscribeMethod = unsubscribeMethod.MakeGenericMethod(_messageType);
unsubscribeMethod.Invoke(hub, new object[] {this});
public void Dispose() {
if(this._hub.IsAlive && this._hub.Target is IMessageHub hub) {
MethodInfo unsubscribeMethod = typeof(IMessageHub).GetMethod(nameof(IMessageHub.Unsubscribe), new[] { typeof(MessageHubSubscriptionToken) });
unsubscribeMethod = unsubscribeMethod.MakeGenericMethod(this._messageType);
_ = unsubscribeMethod.Invoke(hub, new Object[] { this });
}
GC.SuppressFinalize(this);

630
Swan/Net/Connection.cs
View File

@ -1,18 +1,18 @@
namespace Swan.Net
{
using Logging;
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Net;
using System.Net.Security;
using System.Net.Sockets;
using System.Security.Cryptography.X509Certificates;
using System.Text;
using System.Threading;
using System.Threading.Tasks;
#nullable enable
using Swan.Logging;
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Net;
using System.Net.Security;
using System.Net.Sockets;
using System.Security.Cryptography.X509Certificates;
using System.Text;
using System.Threading;
using System.Threading.Tasks;
namespace Swan.Net {
/// <summary>
/// Represents a network connection either on the server or on the client. It wraps a TcpClient
/// and its corresponding network streams. It is capable of working in 2 modes. Typically on the server side
@ -78,31 +78,30 @@
/// }
/// </code>
/// </example>
public sealed class Connection : IDisposable
{
public sealed class Connection : IDisposable {
// New Line definitions for reading. This applies to both, events and read methods
private readonly string _newLineSequence;
private readonly String _newLineSequence;
private readonly byte[] _newLineSequenceBytes;
private readonly char[] _newLineSequenceChars;
private readonly string[] _newLineSequenceLineSplitter;
private readonly byte[] _receiveBuffer;
private readonly Byte[] _newLineSequenceBytes;
private readonly Char[] _newLineSequenceChars;
private readonly String[] _newLineSequenceLineSplitter;
private readonly Byte[] _receiveBuffer;
private readonly TimeSpan _continuousReadingInterval = TimeSpan.FromMilliseconds(5);
private readonly Queue<string> _readLineBuffer = new Queue<string>();
private readonly Queue<String> _readLineBuffer = new Queue<String>();
private readonly ManualResetEvent _writeDone = new ManualResetEvent(true);
// Disconnect and Dispose
private bool _hasDisposed;
private Boolean _hasDisposed;
private int _disconnectCalls;
private Int32 _disconnectCalls;
// Continuous Reading
private Thread _continuousReadingThread;
private Thread? _continuousReadingThread;
private int _receiveBufferPointer;
private Int32 _receiveBufferPointer;
// Reading and writing
private Task<int> _readTask;
private Task<Int32>? _readTask;
/// <summary>
/// Initializes a new instance of the <see cref="Connection"/> class.
@ -112,57 +111,51 @@
/// <param name="newLineSequence">The new line sequence used for read and write operations.</param>
/// <param name="disableContinuousReading">if set to <c>true</c> [disable continuous reading].</param>
/// <param name="blockSize">Size of the block. -- set to 0 or less to disable.</param>
public Connection(
TcpClient client,
Encoding textEncoding,
string newLineSequence,
bool disableContinuousReading,
int blockSize)
{
public Connection(TcpClient client, Encoding textEncoding, String newLineSequence, Boolean disableContinuousReading, Int32 blockSize) {
// Setup basic properties
Id = Guid.NewGuid();
TextEncoding = textEncoding;
this.Id = Guid.NewGuid();
this.TextEncoding = textEncoding;
// Setup new line sequence
if (string.IsNullOrEmpty(newLineSequence))
if(String.IsNullOrEmpty(newLineSequence)) {
throw new ArgumentException("Argument cannot be null", nameof(newLineSequence));
}
_newLineSequence = newLineSequence;
_newLineSequenceBytes = TextEncoding.GetBytes(_newLineSequence);
_newLineSequenceChars = _newLineSequence.ToCharArray();
_newLineSequenceLineSplitter = new[] { _newLineSequence };
this._newLineSequence = newLineSequence;
this._newLineSequenceBytes = this.TextEncoding.GetBytes(this._newLineSequence);
this._newLineSequenceChars = this._newLineSequence.ToCharArray();
this._newLineSequenceLineSplitter = new[] { this._newLineSequence };
// Setup Connection timers
ConnectionStartTimeUtc = DateTime.UtcNow;
DataReceivedLastTimeUtc = ConnectionStartTimeUtc;
DataSentLastTimeUtc = ConnectionStartTimeUtc;
this.ConnectionStartTimeUtc = DateTime.UtcNow;
this.DataReceivedLastTimeUtc = this.ConnectionStartTimeUtc;
this.DataSentLastTimeUtc = this.ConnectionStartTimeUtc;
// Setup connection properties
RemoteClient = client;
LocalEndPoint = client.Client.LocalEndPoint as IPEndPoint;
NetworkStream = RemoteClient.GetStream();
RemoteEndPoint = RemoteClient.Client.RemoteEndPoint as IPEndPoint;
this.RemoteClient = client;
this.LocalEndPoint = client.Client.LocalEndPoint as IPEndPoint;
this.NetworkStream = this.RemoteClient.GetStream();
this.RemoteEndPoint = this.RemoteClient.Client.RemoteEndPoint as IPEndPoint;
// Setup buffers
_receiveBuffer = new byte[RemoteClient.ReceiveBufferSize * 2];
ProtocolBlockSize = blockSize;
_receiveBufferPointer = 0;
this._receiveBuffer = new Byte[this.RemoteClient.ReceiveBufferSize * 2];
this.ProtocolBlockSize = blockSize;
this._receiveBufferPointer = 0;
// Setup continuous reading mode if enabled
if (disableContinuousReading) return;
ThreadPool.GetAvailableThreads(out var availableWorkerThreads, out _);
ThreadPool.GetMaxThreads(out var maxWorkerThreads, out _);
var activeThreadPoolTreads = maxWorkerThreads - availableWorkerThreads;
if (activeThreadPoolTreads < Environment.ProcessorCount / 4)
{
ThreadPool.QueueUserWorkItem(PerformContinuousReading, this);
if(disableContinuousReading) {
return;
}
else
{
new Thread(PerformContinuousReading) { IsBackground = true }.Start();
ThreadPool.GetAvailableThreads(out Int32 availableWorkerThreads, out _);
ThreadPool.GetMaxThreads(out Int32 maxWorkerThreads, out _);
Int32 activeThreadPoolTreads = maxWorkerThreads - availableWorkerThreads;
if(activeThreadPoolTreads < Environment.ProcessorCount / 4) {
_ = ThreadPool.QueueUserWorkItem(this.PerformContinuousReading!, this);
} else {
new Thread(this.PerformContinuousReading!) { IsBackground = true }.Start();
}
}
@ -171,9 +164,7 @@
/// It uses UTF8 encoding, CRLF as a new line sequence and disables a protocol block size.
/// </summary>
/// <param name="client">The client.</param>
public Connection(TcpClient client)
: this(client, Encoding.UTF8, "\r\n", false, 0)
{
public Connection(TcpClient client) : this(client, Encoding.UTF8, "\r\n", false, 0) {
// placeholder
}
@ -183,9 +174,7 @@
/// </summary>
/// <param name="client">The client.</param>
/// <param name="blockSize">Size of the block.</param>
public Connection(TcpClient client, int blockSize)
: this(client, Encoding.UTF8, new string('\n', blockSize + 1), false, blockSize)
{
public Connection(TcpClient client, Int32 blockSize) : this(client, Encoding.UTF8, new String('\n', blockSize + 1), false, blockSize) {
// placeholder
}
@ -217,7 +206,9 @@
/// <value>
/// The identifier.
/// </value>
public Guid Id { get; }
public Guid Id {
get;
}
/// <summary>
/// Gets the active stream. Returns an SSL stream if the connection is secure, otherwise returns
@ -226,7 +217,7 @@
/// <value>
/// The active stream.
/// </value>
public Stream ActiveStream => SecureStream ?? NetworkStream as Stream;
public Stream? ActiveStream => this.SecureStream ?? this.NetworkStream as Stream;
/// <summary>
/// Gets a value indicating whether the current connection stream is an SSL stream.
@ -234,7 +225,7 @@
/// <value>
/// <c>true</c> if this instance is active stream secure; otherwise, <c>false</c>.
/// </value>
public bool IsActiveStreamSecure => SecureStream != null;
public Boolean IsActiveStreamSecure => this.SecureStream != null;
/// <summary>
/// Gets the text encoding for send and receive operations.
@ -242,7 +233,9 @@
/// <value>
/// The text encoding.
/// </value>
public Encoding TextEncoding { get; }
public Encoding TextEncoding {
get;
}
/// <summary>
/// Gets the remote end point of this TCP connection.
@ -250,7 +243,9 @@
/// <value>
/// The remote end point.
/// </value>
public IPEndPoint RemoteEndPoint { get; }
public IPEndPoint? RemoteEndPoint {
get;
}
/// <summary>
/// Gets the local end point of this TCP connection.
@ -258,7 +253,9 @@
/// <value>
/// The local end point.
/// </value>
public IPEndPoint LocalEndPoint { get; }
public IPEndPoint? LocalEndPoint {
get;
}
/// <summary>
/// Gets the remote client of this TCP connection.
@ -266,7 +263,9 @@
/// <value>
/// The remote client.
/// </value>
public TcpClient RemoteClient { get; private set; }
public TcpClient? RemoteClient {
get; private set;
}
/// <summary>
/// When in continuous reading mode, and if set to greater than 0,
@ -276,7 +275,9 @@
/// <value>
/// The size of the protocol block.
/// </value>
public int ProtocolBlockSize { get; }
public Int32 ProtocolBlockSize {
get;
}
/// <summary>
/// Gets a value indicating whether this connection is in continuous reading mode.
@ -288,7 +289,7 @@
/// <value>
/// <c>true</c> if this instance is continuous reading enabled; otherwise, <c>false</c>.
/// </value>
public bool IsContinuousReadingEnabled => _continuousReadingThread != null;
public Boolean IsContinuousReadingEnabled => this._continuousReadingThread != null;
/// <summary>
/// Gets the start time at which the connection was started in UTC.
@ -296,7 +297,9 @@
/// <value>
/// The connection start time UTC.
/// </value>
public DateTime ConnectionStartTimeUtc { get; }
public DateTime ConnectionStartTimeUtc {
get;
}
/// <summary>
/// Gets the start time at which the connection was started in local time.
@ -304,7 +307,7 @@
/// <value>
/// The connection start time.
/// </value>
public DateTime ConnectionStartTime => ConnectionStartTimeUtc.ToLocalTime();
public DateTime ConnectionStartTime => this.ConnectionStartTimeUtc.ToLocalTime();
/// <summary>
/// Gets the duration of the connection.
@ -312,7 +315,7 @@
/// <value>
/// The duration of the connection.
/// </value>
public TimeSpan ConnectionDuration => DateTime.UtcNow.Subtract(ConnectionStartTimeUtc);
public TimeSpan ConnectionDuration => DateTime.UtcNow.Subtract(this.ConnectionStartTimeUtc);
/// <summary>
/// Gets the last time data was received at in UTC.
@ -320,12 +323,14 @@
/// <value>
/// The data received last time UTC.
/// </value>
public DateTime DataReceivedLastTimeUtc { get; private set; }
public DateTime DataReceivedLastTimeUtc {
get; private set;
}
/// <summary>
/// Gets how long has elapsed since data was last received.
/// </summary>
public TimeSpan DataReceivedIdleDuration => DateTime.UtcNow.Subtract(DataReceivedLastTimeUtc);
public TimeSpan DataReceivedIdleDuration => DateTime.UtcNow.Subtract(this.DataReceivedLastTimeUtc);
/// <summary>
/// Gets the last time at which data was sent in UTC.
@ -333,7 +338,9 @@
/// <value>
/// The data sent last time UTC.
/// </value>
public DateTime DataSentLastTimeUtc { get; private set; }
public DateTime DataSentLastTimeUtc {
get; private set;
}
/// <summary>
/// Gets how long has elapsed since data was last sent.
@ -341,7 +348,7 @@
/// <value>
/// The duration of the data sent idle.
/// </value>
public TimeSpan DataSentIdleDuration => DateTime.UtcNow.Subtract(DataSentLastTimeUtc);
public TimeSpan DataSentIdleDuration => DateTime.UtcNow.Subtract(this.DataSentLastTimeUtc);
/// <summary>
/// Gets a value indicating whether this connection is connected.
@ -351,35 +358,38 @@
/// <value>
/// <c>true</c> if this instance is connected; otherwise, <c>false</c>.
/// </value>
public bool IsConnected
{
get
{
if (_disconnectCalls > 0)
public Boolean IsConnected {
get {
if(this._disconnectCalls > 0) {
return false;
}
try
{
var socket = RemoteClient.Client;
var pollResult = !((socket.Poll(1000, SelectMode.SelectRead)
&& (NetworkStream.DataAvailable == false)) || !socket.Connected);
try {
Socket? socket = this.RemoteClient?.Client;
if(socket == null || this.NetworkStream == null) {
return false;
}
Boolean pollResult = !(socket.Poll(1000, SelectMode.SelectRead) && this.NetworkStream.DataAvailable == false || !socket.Connected);
if (pollResult == false)
Disconnect();
if(pollResult == false) {
this.Disconnect();
}
return pollResult;
}
catch
{
Disconnect();
} catch {
this.Disconnect();
return false;
}
}
}
private NetworkStream NetworkStream { get; set; }
private NetworkStream? NetworkStream {
get; set;
}
private SslStream SecureStream { get; set; }
private SslStream? SecureStream {
get; set;
}
#endregion
@ -393,58 +403,45 @@
/// <returns>A byte array containing the results of encoding the specified set of characters.</returns>
/// <exception cref="InvalidOperationException">Read methods have been disabled because continuous reading is enabled.</exception>
/// <exception cref="TimeoutException">Reading data from {ActiveStream} timed out in {timeout.TotalMilliseconds} m.</exception>
public async Task<byte[]> ReadDataAsync(TimeSpan timeout, CancellationToken cancellationToken = default)
{
if (IsContinuousReadingEnabled)
{
throw new InvalidOperationException(
"Read methods have been disabled because continuous reading is enabled.");
public async Task<Byte[]> ReadDataAsync(TimeSpan timeout, CancellationToken cancellationToken = default) {
if(this.IsContinuousReadingEnabled) {
throw new InvalidOperationException("Read methods have been disabled because continuous reading is enabled.");
}
if (RemoteClient == null)
{
if(this.RemoteClient == null) {
throw new InvalidOperationException("An open connection is required");
}
var receiveBuffer = new byte[RemoteClient.ReceiveBufferSize * 2];
var receiveBuilder = new List<byte>(receiveBuffer.Length);
Byte[] receiveBuffer = new Byte[this.RemoteClient.ReceiveBufferSize * 2];
List<Byte> receiveBuilder = new List<Byte>(receiveBuffer.Length);
try
{
var startTime = DateTime.UtcNow;
try {
DateTime startTime = DateTime.UtcNow;
while (receiveBuilder.Count <= 0)
{
if (DateTime.UtcNow.Subtract(startTime) >= timeout)
{
throw new TimeoutException(
$"Reading data from {ActiveStream} timed out in {timeout.TotalMilliseconds} ms");
while(receiveBuilder.Count <= 0) {
if(DateTime.UtcNow.Subtract(startTime) >= timeout) {
throw new TimeoutException($"Reading data from {this.ActiveStream} timed out in {timeout.TotalMilliseconds} ms");
}
if (_readTask == null)
_readTask = ActiveStream.ReadAsync(receiveBuffer, 0, receiveBuffer.Length, cancellationToken);
if(this._readTask == null) {
this._readTask = this.ActiveStream?.ReadAsync(receiveBuffer, 0, receiveBuffer.Length, cancellationToken);
}
if (_readTask.Wait(_continuousReadingInterval))
{
var bytesReceivedCount = _readTask.Result;
if (bytesReceivedCount > 0)
{
DataReceivedLastTimeUtc = DateTime.UtcNow;
var buffer = new byte[bytesReceivedCount];
if(this._readTask != null && this._readTask.Wait(this._continuousReadingInterval)) {
Int32 bytesReceivedCount = this._readTask.Result;
if(bytesReceivedCount > 0) {
this.DataReceivedLastTimeUtc = DateTime.UtcNow;
Byte[] buffer = new Byte[bytesReceivedCount];
Array.Copy(receiveBuffer, 0, buffer, 0, bytesReceivedCount);
receiveBuilder.AddRange(buffer);
}
_readTask = null;
}
else
{
await Task.Delay(_continuousReadingInterval, cancellationToken).ConfigureAwait(false);
this._readTask = null;
} else {
await Task.Delay(this._continuousReadingInterval, cancellationToken).ConfigureAwait(false);
}
}
}
catch (Exception ex)
{
} catch(Exception ex) {
ex.Error(typeof(Connection).FullName, "Error while reading network stream data asynchronously.");
throw;
}
@ -459,8 +456,7 @@
/// <returns>
/// A byte array containing the results the specified sequence of bytes.
/// </returns>
public Task<byte[]> ReadDataAsync(CancellationToken cancellationToken = default)
=> ReadDataAsync(TimeSpan.FromSeconds(5), cancellationToken);
public Task<Byte[]> ReadDataAsync(CancellationToken cancellationToken = default) => this.ReadDataAsync(TimeSpan.FromSeconds(5), cancellationToken);
/// <summary>
/// Asynchronously reads data as text with the given timeout.
@ -470,10 +466,9 @@
/// <returns>
/// A <see cref="System.String" /> that contains the results of decoding the specified sequence of bytes.
/// </returns>
public async Task<string?> ReadTextAsync(TimeSpan timeout, CancellationToken cancellationToken = default)
{
var buffer = await ReadDataAsync(timeout, cancellationToken).ConfigureAwait(false);
return buffer == null ? null : TextEncoding.GetString(buffer);
public async Task<String?> ReadTextAsync(TimeSpan timeout, CancellationToken cancellationToken = default) {
Byte[] buffer = await this.ReadDataAsync(timeout, cancellationToken).ConfigureAwait(false);
return buffer == null ? null : this.TextEncoding.GetString(buffer);
}
/// <summary>
@ -483,8 +478,7 @@
/// <returns>
/// When this method completes successfully, it returns the contents of the file as a text string.
/// </returns>
public Task<string?> ReadTextAsync(CancellationToken cancellationToken = default)
=> ReadTextAsync(TimeSpan.FromSeconds(5), cancellationToken);
public Task<String?> ReadTextAsync(CancellationToken cancellationToken = default) => this.ReadTextAsync(TimeSpan.FromSeconds(5), cancellationToken);
/// <summary>
/// Performs the same task as this method's overload but it defaults to a read timeout of 30 seconds.
@ -494,8 +488,7 @@
/// A task that represents the asynchronous read operation. The value of the TResult parameter
/// contains the next line from the stream, or is null if all the characters have been read.
/// </returns>
public Task<string?> ReadLineAsync(CancellationToken cancellationToken = default)
=> ReadLineAsync(TimeSpan.FromSeconds(30), cancellationToken);
public Task<String?> ReadLineAsync(CancellationToken cancellationToken = default) => this.ReadLineAsync(TimeSpan.FromSeconds(30), cancellationToken);
/// <summary>
/// Reads the next available line of text in queue. Return null when no text is read.
@ -508,39 +501,39 @@
/// <param name="cancellationToken">The cancellation token.</param>
/// <returns>A task with a string line from the queue.</returns>
/// <exception cref="InvalidOperationException">Read methods have been disabled because continuous reading is enabled.</exception>
public async Task<string?> ReadLineAsync(TimeSpan timeout, CancellationToken cancellationToken = default)
{
if (IsContinuousReadingEnabled)
{
throw new InvalidOperationException(
"Read methods have been disabled because continuous reading is enabled.");
public async Task<String?> ReadLineAsync(TimeSpan timeout, CancellationToken cancellationToken = default) {
if(this.IsContinuousReadingEnabled) {
throw new InvalidOperationException("Read methods have been disabled because continuous reading is enabled.");
}
if (_readLineBuffer.Count > 0)
return _readLineBuffer.Dequeue();
if(this._readLineBuffer.Count > 0) {
return this._readLineBuffer.Dequeue();
}
var builder = new StringBuilder();
StringBuilder builder = new StringBuilder();
while (true)
{
var text = await ReadTextAsync(timeout, cancellationToken).ConfigureAwait(false);
while(true) {
String? text = await this.ReadTextAsync(timeout, cancellationToken).ConfigureAwait(false);
if (string.IsNullOrEmpty(text))
if(String.IsNullOrEmpty(text)) {
break;
}
builder.Append(text);
_ = builder.Append(text);
if (!text.EndsWith(_newLineSequence)) continue;
if(!text.EndsWith(this._newLineSequence)) {
continue;
}
var lines = builder.ToString().TrimEnd(_newLineSequenceChars)
.Split(_newLineSequenceLineSplitter, StringSplitOptions.None);
foreach (var item in lines)
_readLineBuffer.Enqueue(item);
String[] lines = builder.ToString().TrimEnd(this._newLineSequenceChars).Split(this._newLineSequenceLineSplitter, StringSplitOptions.None);
foreach(String item in lines) {
this._readLineBuffer.Enqueue(item);
}
break;
}
return _readLineBuffer.Count > 0 ? _readLineBuffer.Dequeue() : null;
return this._readLineBuffer.Count > 0 ? this._readLineBuffer.Dequeue() : null;
}
#endregion
@ -554,21 +547,21 @@
/// <param name="forceFlush">if set to <c>true</c> [force flush].</param>
/// <param name="cancellationToken">The cancellation token.</param>
/// <returns>A task that represents the asynchronous write operation.</returns>
public async Task WriteDataAsync(byte[] buffer, bool forceFlush, CancellationToken cancellationToken = default)
{
try
{
_writeDone.WaitOne();
_writeDone.Reset();
await ActiveStream.WriteAsync(buffer, 0, buffer.Length, cancellationToken).ConfigureAwait(false);
if (forceFlush)
await ActiveStream.FlushAsync(cancellationToken).ConfigureAwait(false);
DataSentLastTimeUtc = DateTime.UtcNow;
public async Task WriteDataAsync(Byte[] buffer, Boolean forceFlush, CancellationToken cancellationToken = default) {
try {
_ = this._writeDone.WaitOne();
_ = this._writeDone.Reset();
if(this.ActiveStream == null) {
return;
}
finally
{
_writeDone.Set();
await this.ActiveStream.WriteAsync(buffer, 0, buffer.Length, cancellationToken).ConfigureAwait(false);
if(forceFlush) {
await this.ActiveStream.FlushAsync(cancellationToken).ConfigureAwait(false);
}
this.DataSentLastTimeUtc = DateTime.UtcNow;
} finally {
_ = this._writeDone.Set();
}
}
@ -578,8 +571,7 @@
/// <param name="text">The text.</param>
/// <param name="cancellationToken">The cancellation token.</param>
/// <returns>A task that represents the asynchronous write operation.</returns>
public Task WriteTextAsync(string text, CancellationToken cancellationToken = default)
=> WriteTextAsync(text, TextEncoding, cancellationToken);
public Task WriteTextAsync(String text, CancellationToken cancellationToken = default) => this.WriteTextAsync(text, this.TextEncoding, cancellationToken);
/// <summary>
/// Writes text asynchronously.
@ -588,8 +580,7 @@
/// <param name="encoding">The encoding.</param>
/// <param name="cancellationToken">The cancellation token.</param>
/// <returns>A task that represents the asynchronous write operation.</returns>
public Task WriteTextAsync(string text, Encoding encoding, CancellationToken cancellationToken = default)
=> WriteDataAsync(encoding.GetBytes(text), true, cancellationToken);
public Task WriteTextAsync(String text, Encoding encoding, CancellationToken cancellationToken = default) => this.WriteDataAsync(encoding.GetBytes(text), true, cancellationToken);
/// <summary>
/// Writes a line of text asynchronously.
@ -599,8 +590,7 @@
/// <param name="encoding">The encoding.</param>
/// <param name="cancellationToken">The cancellation token.</param>
/// <returns>A task that represents the asynchronous write operation.</returns>
public Task WriteLineAsync(string line, Encoding encoding, CancellationToken cancellationToken = default)
=> WriteDataAsync(encoding.GetBytes($"{line}{_newLineSequence}"), true, cancellationToken);
public Task WriteLineAsync(String line, Encoding encoding, CancellationToken cancellationToken = default) => this.WriteDataAsync(encoding.GetBytes($"{line}{this._newLineSequence}"), true, cancellationToken);
/// <summary>
/// Writes a line of text asynchronously.
@ -609,8 +599,7 @@
/// <param name="line">The line.</param>
/// <param name="cancellationToken">The cancellation token.</param>
/// <returns>A task that represents the asynchronous write operation.</returns>
public Task WriteLineAsync(string line, CancellationToken cancellationToken = default)
=> WriteLineAsync(line, TextEncoding, cancellationToken);
public Task WriteLineAsync(String line, CancellationToken cancellationToken = default) => this.WriteLineAsync(line, this.TextEncoding, cancellationToken);
#endregion
@ -621,24 +610,21 @@
/// </summary>
/// <param name="serverCertificate">The server certificate.</param>
/// <returns><c>true</c> if the object is hosted in the server; otherwise, <c>false</c>.</returns>
public async Task<bool> UpgradeToSecureAsServerAsync(X509Certificate2 serverCertificate)
{
if (IsActiveStreamSecure)
public async Task<Boolean> UpgradeToSecureAsServerAsync(X509Certificate2 serverCertificate) {
if(this.IsActiveStreamSecure) {
return true;
}
_writeDone.WaitOne();
_ = this._writeDone.WaitOne();
SslStream? secureStream = null;
try
{
secureStream = new SslStream(NetworkStream, true);
try {
secureStream = new SslStream(this.NetworkStream, true);
await secureStream.AuthenticateAsServerAsync(serverCertificate).ConfigureAwait(false);
SecureStream = secureStream;
this.SecureStream = secureStream;
return true;
}
catch (Exception ex)
{
} catch(Exception ex) {
ConnectionFailure(this, new ConnectionFailureEventArgs(ex));
secureStream?.Dispose();
@ -652,24 +638,17 @@
/// <param name="hostname">The hostname.</param>
/// <param name="callback">The callback.</param>
/// <returns>A tasks with <c>true</c> if the upgrade to SSL was successful; otherwise, <c>false</c>.</returns>
public async Task<bool> UpgradeToSecureAsClientAsync(
string? hostname = null,
RemoteCertificateValidationCallback? callback = null)
{
if (IsActiveStreamSecure)
public async Task<Boolean> UpgradeToSecureAsClientAsync(String? hostname = null, RemoteCertificateValidationCallback? callback = null) {
if(this.IsActiveStreamSecure) {
return true;
var secureStream = callback == null
? new SslStream(NetworkStream, true)
: new SslStream(NetworkStream, true, callback);
try
{
await secureStream.AuthenticateAsClientAsync(hostname ?? Network.HostName.ToLowerInvariant()).ConfigureAwait(false);
SecureStream = secureStream;
}
catch (Exception ex)
{
SslStream secureStream = callback == null ? new SslStream(this.NetworkStream, true) : new SslStream(this.NetworkStream, true, callback);
try {
await secureStream.AuthenticateAsClientAsync(hostname ?? Network.HostName.ToLowerInvariant()).ConfigureAwait(false);
this.SecureStream = secureStream;
} catch(Exception ex) {
secureStream.Dispose();
ConnectionFailure(this, new ConnectionFailureEventArgs(ex));
return false;
@ -681,41 +660,30 @@
/// <summary>
/// Disconnects this connection.
/// </summary>
public void Disconnect()
{
if (_disconnectCalls > 0)
public void Disconnect() {
if(this._disconnectCalls > 0) {
return;
_disconnectCalls++;
_writeDone.WaitOne();
try
{
ClientDisconnected(this, EventArgs.Empty);
}
catch
{
this._disconnectCalls++;
_ = this._writeDone.WaitOne();
try {
ClientDisconnected(this, EventArgs.Empty);
} catch {
// ignore
}
try
{
#if !NET461
RemoteClient.Dispose();
SecureStream?.Dispose();
NetworkStream?.Dispose();
#else
RemoteClient.Close();
SecureStream?.Close();
NetworkStream?.Close();
#endif
}
finally
{
NetworkStream = null;
SecureStream = null;
RemoteClient = null;
_continuousReadingThread = null;
try {
this.RemoteClient?.Dispose();
this.SecureStream?.Dispose();
this.NetworkStream?.Dispose();
} finally {
this.NetworkStream = null;
this.SecureStream = null;
this.RemoteClient = null;
this._continuousReadingThread = null;
}
}
@ -724,159 +692,141 @@
#region Dispose
/// <inheritdoc />
public void Dispose()
{
if (_hasDisposed)
public void Dispose() {
if(this._hasDisposed) {
return;
}
// Release managed resources
Disconnect();
_continuousReadingThread = null;
_writeDone.Dispose();
this.Disconnect();
this._continuousReadingThread = null;
this._writeDone.Dispose();
_hasDisposed = true;
this._hasDisposed = true;
}
#endregion
#region Continuous Read Methods
private void RaiseReceiveBufferEvents(IEnumerable<byte> receivedData)
{
var moreAvailable = RemoteClient.Available > 0;
private void RaiseReceiveBufferEvents(IEnumerable<Byte> receivedData) {
if(this.RemoteClient == null) {
return;
}
Boolean moreAvailable = this.RemoteClient.Available > 0;
foreach (var data in receivedData)
{
ProcessReceivedBlock(data, moreAvailable);
foreach(Byte data in receivedData) {
this.ProcessReceivedBlock(data, moreAvailable);
}
// Check if we are left with some more stuff to handle
if (_receiveBufferPointer <= 0)
if(this._receiveBufferPointer <= 0) {
return;
}
// Extract the segments split by newline terminated bytes
var sequences = _receiveBuffer.Skip(0).Take(_receiveBufferPointer).ToArray()
.Split(0, _newLineSequenceBytes);
List<Byte[]> sequences = this._receiveBuffer.Skip(0).Take(this._receiveBufferPointer).ToArray().Split(0, this._newLineSequenceBytes);
// Something really wrong happened
if (sequences.Count == 0)
if(sequences.Count == 0) {
throw new InvalidOperationException("Split function failed! This is terribly wrong!");
}
// We only have one sequence and it is not newline-terminated
// we don't have to do anything.
if (sequences.Count == 1 && sequences[0].EndsWith(_newLineSequenceBytes) == false)
if(sequences.Count == 1 && sequences[0].EndsWith(this._newLineSequenceBytes) == false) {
return;
}
// Process the events for each sequence
for (var i = 0; i < sequences.Count; i++)
{
var sequenceBytes = sequences[i];
var isNewLineTerminated = sequences[i].EndsWith(_newLineSequenceBytes);
var isLast = i == sequences.Count - 1;
for(Int32 i = 0; i < sequences.Count; i++) {
Byte[] sequenceBytes = sequences[i];
Boolean isNewLineTerminated = sequences[i].EndsWith(this._newLineSequenceBytes);
Boolean isLast = i == sequences.Count - 1;
if (isNewLineTerminated)
{
var eventArgs = new ConnectionDataReceivedEventArgs(
sequenceBytes,
ConnectionDataReceivedTrigger.NewLineSequenceEncountered,
isLast == false);
if(isNewLineTerminated) {
ConnectionDataReceivedEventArgs eventArgs = new ConnectionDataReceivedEventArgs(sequenceBytes, ConnectionDataReceivedTrigger.NewLineSequenceEncountered, isLast == false);
DataReceived(this, eventArgs);
}
// Depending on the last segment determine what to do with the receive buffer
if (!isLast) continue;
if (isNewLineTerminated)
{
// Simply reset the buffer pointer if the last segment was also terminated
_receiveBufferPointer = 0;
if(!isLast) {
continue;
}
else
{
if(isNewLineTerminated) {
// Simply reset the buffer pointer if the last segment was also terminated
this._receiveBufferPointer = 0;
} else {
// If we have not received the termination sequence, then just shift the receive buffer to the left
// and adjust the pointer
Array.Copy(sequenceBytes, _receiveBuffer, sequenceBytes.Length);
_receiveBufferPointer = sequenceBytes.Length;
Array.Copy(sequenceBytes, this._receiveBuffer, sequenceBytes.Length);
this._receiveBufferPointer = sequenceBytes.Length;
}
}
}
private void ProcessReceivedBlock(byte data, bool moreAvailable)
{
_receiveBuffer[_receiveBufferPointer] = data;
_receiveBufferPointer++;
private void ProcessReceivedBlock(Byte data, Boolean moreAvailable) {
this._receiveBuffer[this._receiveBufferPointer] = data;
this._receiveBufferPointer++;
// Block size reached
if (ProtocolBlockSize > 0 && _receiveBufferPointer >= ProtocolBlockSize)
{
SendBuffer(moreAvailable, ConnectionDataReceivedTrigger.BlockSizeReached);
if(this.ProtocolBlockSize > 0 && this._receiveBufferPointer >= this.ProtocolBlockSize) {
this.SendBuffer(moreAvailable, ConnectionDataReceivedTrigger.BlockSizeReached);
return;
}
// The receive buffer is full. Time to flush
if (_receiveBufferPointer >= _receiveBuffer.Length)
{
SendBuffer(moreAvailable, ConnectionDataReceivedTrigger.BufferFull);
if(this._receiveBufferPointer >= this._receiveBuffer.Length) {
this.SendBuffer(moreAvailable, ConnectionDataReceivedTrigger.BufferFull);
}
}
private void SendBuffer(bool moreAvailable, ConnectionDataReceivedTrigger trigger)
{
var eventBuffer = new byte[_receiveBuffer.Length];
Array.Copy(_receiveBuffer, eventBuffer, eventBuffer.Length);
private void SendBuffer(Boolean moreAvailable, ConnectionDataReceivedTrigger trigger) {
Byte[] eventBuffer = new Byte[this._receiveBuffer.Length];
Array.Copy(this._receiveBuffer, eventBuffer, eventBuffer.Length);
DataReceived(this,
new ConnectionDataReceivedEventArgs(
eventBuffer,
trigger,
moreAvailable));
_receiveBufferPointer = 0;
DataReceived(this, new ConnectionDataReceivedEventArgs(eventBuffer, trigger, moreAvailable));
this._receiveBufferPointer = 0;
}
private void PerformContinuousReading(object threadContext)
{
_continuousReadingThread = Thread.CurrentThread;
private void PerformContinuousReading(Object threadContext) {
this._continuousReadingThread = Thread.CurrentThread;
// Check if the RemoteClient is still there
if (RemoteClient == null) return;
if(this.RemoteClient == null) {
return;
}
var receiveBuffer = new byte[RemoteClient.ReceiveBufferSize * 2];
Byte[] receiveBuffer = new Byte[this.RemoteClient.ReceiveBufferSize * 2];
while (IsConnected && _disconnectCalls <= 0)
{
var doThreadSleep = false;
while(this.IsConnected && this._disconnectCalls <= 0) {
Boolean doThreadSleep = false;
try
{
if (_readTask == null)
_readTask = ActiveStream.ReadAsync(receiveBuffer, 0, receiveBuffer.Length);
try {
if(this._readTask == null) {
this._readTask = this.ActiveStream?.ReadAsync(receiveBuffer, 0, receiveBuffer.Length);
}
if (_readTask.Wait(_continuousReadingInterval))
{
var bytesReceivedCount = _readTask.Result;
if (bytesReceivedCount > 0)
{
DataReceivedLastTimeUtc = DateTime.UtcNow;
var buffer = new byte[bytesReceivedCount];
if(this._readTask != null && this._readTask.Wait(this._continuousReadingInterval)) {
Int32 bytesReceivedCount = this._readTask.Result;
if(bytesReceivedCount > 0) {
this.DataReceivedLastTimeUtc = DateTime.UtcNow;
Byte[] buffer = new Byte[bytesReceivedCount];
Array.Copy(receiveBuffer, 0, buffer, 0, bytesReceivedCount);
RaiseReceiveBufferEvents(buffer);
this.RaiseReceiveBufferEvents(buffer);
}
_readTask = null;
this._readTask = null;
} else {
doThreadSleep = this._disconnectCalls <= 0;
}
else
{
doThreadSleep = _disconnectCalls <= 0;
}
}
catch (Exception ex)
{
} catch(Exception ex) {
ex.Log(nameof(PerformContinuousReading), "Continuous Read operation errored");
} finally {
if(doThreadSleep) {
Thread.Sleep(this._continuousReadingInterval);
}
finally
{
if (doThreadSleep)
Thread.Sleep(_continuousReadingInterval);
}
}
}

6
Swan/Net/ConnectionDataReceivedTrigger.cs
View File

@ -1,10 +1,8 @@
namespace Swan
{
namespace Swan {
/// <summary>
/// Enumerates the possible causes of the DataReceived event occurring.
/// </summary>
public enum ConnectionDataReceivedTrigger
{
public enum ConnectionDataReceivedTrigger {
/// <summary>
/// The trigger was a forceful flush of the buffer
/// </summary>

175
Swan/Net/ConnectionListener.cs
View File

@ -1,24 +1,24 @@
namespace Swan.Net
{
using System;
using System.Net;
using System.Net.Sockets;
using System.Threading;
using System.Threading.Tasks;
#nullable enable
using System;
using System.Net;
using System.Net.Sockets;
using System.Threading;
using System.Threading.Tasks;
namespace Swan.Net {
/// <summary>
/// TCP Listener manager with built-in events and asynchronous functionality.
/// This networking component is typically used when writing server software.
/// </summary>
/// <seealso cref="System.IDisposable" />
public sealed class ConnectionListener : IDisposable
{
private readonly object _stateLock = new object();
private TcpListener _listenerSocket;
private bool _cancellationPending;
private CancellationTokenSource _cancelListening;
public sealed class ConnectionListener : IDisposable {
private readonly Object _stateLock = new Object();
private TcpListener? _listenerSocket;
private Boolean _cancellationPending;
[System.Diagnostics.CodeAnalysis.SuppressMessage("Codequalität", "IDE0069:Verwerfbare Felder verwerfen", Justification = "<Ausstehend>")]
private CancellationTokenSource? _cancelListening;
private Task? _backgroundWorkerTask;
private bool _hasDisposed;
private Boolean _hasDisposed;
#region Events
@ -51,10 +51,9 @@
/// Initializes a new instance of the <see cref="ConnectionListener"/> class.
/// </summary>
/// <param name="listenEndPoint">The listen end point.</param>
public ConnectionListener(IPEndPoint listenEndPoint)
{
Id = Guid.NewGuid();
LocalEndPoint = listenEndPoint ?? throw new ArgumentNullException(nameof(listenEndPoint));
public ConnectionListener(IPEndPoint listenEndPoint) {
this.Id = Guid.NewGuid();
this.LocalEndPoint = listenEndPoint ?? throw new ArgumentNullException(nameof(listenEndPoint));
}
/// <summary>
@ -62,9 +61,7 @@
/// It uses the loopback address for listening.
/// </summary>
/// <param name="listenPort">The listen port.</param>
public ConnectionListener(int listenPort)
: this(new IPEndPoint(IPAddress.Loopback, listenPort))
{
public ConnectionListener(Int32 listenPort) : this(new IPEndPoint(IPAddress.Loopback, listenPort)) {
}
/// <summary>
@ -72,17 +69,14 @@
/// </summary>
/// <param name="listenAddress">The listen address.</param>
/// <param name="listenPort">The listen port.</param>
public ConnectionListener(IPAddress listenAddress, int listenPort)
: this(new IPEndPoint(listenAddress, listenPort))
{
public ConnectionListener(IPAddress listenAddress, Int32 listenPort) : this(new IPEndPoint(listenAddress, listenPort)) {
}
/// <summary>
/// Finalizes an instance of the <see cref="ConnectionListener"/> class.
/// </summary>
~ConnectionListener()
{
Dispose(false);
~ConnectionListener() {
this.Dispose(false);
}
#endregion
@ -95,7 +89,9 @@
/// <value>
/// The local end point.
/// </value>
public IPEndPoint LocalEndPoint { get; }
public IPEndPoint LocalEndPoint {
get;
}
/// <summary>
/// Gets a value indicating whether this listener is active.
@ -103,7 +99,7 @@
/// <value>
/// <c>true</c> if this instance is listening; otherwise, <c>false</c>.
/// </value>
public bool IsListening => _backgroundWorkerTask != null;
public Boolean IsListening => this._backgroundWorkerTask != null;
/// <summary>
/// Gets a unique identifier that gets automatically assigned upon instantiation of this class.
@ -111,7 +107,9 @@
/// <value>
/// The unique identifier.
/// </value>
public Guid Id { get; }
public Guid Id {
get;
}
#endregion
@ -122,22 +120,17 @@
/// Subscribe to the events of this class to gain access to connected client sockets.
/// </summary>
/// <exception cref="System.InvalidOperationException">Cancellation has already been requested. This listener is not reusable.</exception>
public void Start()
{
lock (_stateLock)
{
if (_backgroundWorkerTask != null)
{
public void Start() {
lock(this._stateLock) {
if(this._backgroundWorkerTask != null) {
return;
}
if (_cancellationPending)
{
throw new InvalidOperationException(
"Cancellation has already been requested. This listener is not reusable.");
if(this._cancellationPending) {
throw new InvalidOperationException("Cancellation has already been requested. This listener is not reusable.");
}
_backgroundWorkerTask = DoWorkAsync();
this._backgroundWorkerTask = this.DoWorkAsync();
}
}
@ -145,16 +138,14 @@
/// Stops the listener from receiving new connections.
/// This does not prevent the listener from .
/// </summary>
public void Stop()
{
lock (_stateLock)
{
_cancellationPending = true;
_listenerSocket?.Stop();
_cancelListening?.Cancel();
_backgroundWorkerTask?.Wait();
_backgroundWorkerTask = null;
_cancellationPending = false;
public void Stop() {
lock(this._stateLock) {
this._cancellationPending = true;
this._listenerSocket?.Stop();
this._cancelListening?.Cancel();
this._backgroundWorkerTask?.Wait();
this._backgroundWorkerTask = null;
this._cancellationPending = false;
}
}
@ -164,12 +155,11 @@
/// <returns>
/// A <see cref="System.String" /> that represents this instance.
/// </returns>
public override string ToString() => LocalEndPoint.ToString();
public override String ToString() => this.LocalEndPoint.ToString();
/// <inheritdoc />
public void Dispose()
{
Dispose(true);
public void Dispose() {
this.Dispose(true);
GC.SuppressFinalize(this);
}
@ -177,74 +167,57 @@
/// Releases unmanaged and - optionally - managed resources.
/// </summary>
/// <param name="disposing"><c>true</c> to release both managed and unmanaged resources; <c>false</c> to release only unmanaged resources.</param>
private void Dispose(bool disposing)
{
if (_hasDisposed)
private void Dispose(Boolean disposing) {
if(this._hasDisposed) {
return;
if (disposing)
{
// Release managed resources
Stop();
}
_hasDisposed = true;
if(disposing) {
// Release managed resources
this.Stop();
}
this._hasDisposed = true;
}
/// <summary>
/// Continuously checks for client connections until the Close method has been called.
/// </summary>
/// <returns>A task that represents the asynchronous connection operation.</returns>
private async Task DoWorkAsync()
{
_cancellationPending = false;
_listenerSocket = new TcpListener(LocalEndPoint);
_listenerSocket.Start();
_cancelListening = new CancellationTokenSource();
private async Task DoWorkAsync() {
this._cancellationPending = false;
this._listenerSocket = new TcpListener(this.LocalEndPoint);
this._listenerSocket.Start();
this._cancelListening = new CancellationTokenSource();
try
{
while (_cancellationPending == false)
{
try
{
var client = await Task.Run(() => _listenerSocket.AcceptTcpClientAsync(), _cancelListening.Token).ConfigureAwait(false);
var acceptingArgs = new ConnectionAcceptingEventArgs(client);
try {
while(this._cancellationPending == false) {
try {
TcpClient client = await Task.Run(() => this._listenerSocket.AcceptTcpClientAsync(), this._cancelListening.Token).ConfigureAwait(false);
ConnectionAcceptingEventArgs acceptingArgs = new ConnectionAcceptingEventArgs(client);
OnConnectionAccepting(this, acceptingArgs);
if (acceptingArgs.Cancel)
{
#if !NET461
if(acceptingArgs.Cancel) {
client.Dispose();
#else
client.Close();
#endif
continue;
}
OnConnectionAccepted(this, new ConnectionAcceptedEventArgs(client));
}
catch (Exception ex)
{
} catch(Exception ex) {
OnConnectionFailure(this, new ConnectionFailureEventArgs(ex));
}
}
OnListenerStopped(this, new ConnectionListenerStoppedEventArgs(LocalEndPoint));
}
catch (ObjectDisposedException)
{
OnListenerStopped(this, new ConnectionListenerStoppedEventArgs(LocalEndPoint));
}
catch (Exception ex)
{
OnListenerStopped(this, new ConnectionListenerStoppedEventArgs(this.LocalEndPoint));
} catch(ObjectDisposedException) {
OnListenerStopped(this, new ConnectionListenerStoppedEventArgs(this.LocalEndPoint));
} catch(Exception ex) {
OnListenerStopped(this,
new ConnectionListenerStoppedEventArgs(LocalEndPoint, _cancellationPending ? null : ex));
}
finally
{
_backgroundWorkerTask = null;
_cancellationPending = false;
new ConnectionListenerStoppedEventArgs(this.LocalEndPoint, this._cancellationPending ? null : ex));
} finally {
this._backgroundWorkerTask = null;
this._cancellationPending = false;
}
}

122
Swan/Net/Dns/DnsClient.Interfaces.cs
View File

@ -1,61 +1,95 @@
namespace Swan.Net.Dns
{
using System;
using System.Threading.Tasks;
using System.Collections.Generic;
using System;
using System.Threading.Tasks;
using System.Collections.Generic;
namespace Swan.Net.Dns {
/// <summary>
/// DnsClient public interfaces.
/// </summary>
internal partial class DnsClient
{
public interface IDnsMessage
{
IList<DnsQuestion> Questions { get; }
int Size { get; }
byte[] ToArray();
internal partial class DnsClient {
public interface IDnsMessage {
IList<DnsQuestion> Questions {
get;
}
public interface IDnsMessageEntry
{
DnsDomain Name { get; }
DnsRecordType Type { get; }
DnsRecordClass Class { get; }
int Size { get; }
byte[] ToArray();
Int32 Size {
get;
}
Byte[] ToArray();
}
public interface IDnsResourceRecord : IDnsMessageEntry
{
TimeSpan TimeToLive { get; }
int DataLength { get; }
byte[] Data { get; }
public interface IDnsMessageEntry {
DnsDomain Name {
get;
}
DnsRecordType Type {
get;
}
DnsRecordClass Class {
get;
}
public interface IDnsRequest : IDnsMessage
{
int Id { get; set; }
DnsOperationCode OperationCode { get; set; }
bool RecursionDesired { get; set; }
Int32 Size {
get;
}
Byte[] ToArray();
}
public interface IDnsResponse : IDnsMessage
{
int Id { get; set; }
IList<IDnsResourceRecord> AnswerRecords { get; }
IList<IDnsResourceRecord> AuthorityRecords { get; }
IList<IDnsResourceRecord> AdditionalRecords { get; }
bool IsRecursionAvailable { get; set; }
bool IsAuthorativeServer { get; set; }
bool IsTruncated { get; set; }
DnsOperationCode OperationCode { get; set; }
DnsResponseCode ResponseCode { get; set; }
public interface IDnsResourceRecord : IDnsMessageEntry {
TimeSpan TimeToLive {
get;
}
Int32 DataLength {
get;
}
Byte[] Data {
get;
}
}
public interface IDnsRequestResolver
{
public interface IDnsRequest : IDnsMessage {
Int32 Id {
get; set;
}
DnsOperationCode OperationCode {
get; set;
}
Boolean RecursionDesired {
get; set;
}
}
public interface IDnsResponse : IDnsMessage {
Int32 Id {
get; set;
}
IList<IDnsResourceRecord> AnswerRecords {
get;
}
IList<IDnsResourceRecord> AuthorityRecords {
get;
}
IList<IDnsResourceRecord> AdditionalRecords {
get;
}
Boolean IsRecursionAvailable {
get; set;
}
Boolean IsAuthorativeServer {
get; set;
}
Boolean IsTruncated {
get; set;
}
DnsOperationCode OperationCode {
get; set;
}
DnsResponseCode ResponseCode {
get; set;
}
}
public interface IDnsRequestResolver {
Task<DnsClientResponse> Request(DnsClientRequest request);
}
}

655
Swan/Net/Dns/DnsClient.Request.cs
View File

@ -1,60 +1,56 @@
namespace Swan.Net.Dns
{
using Formatters;
using System;
using System.Collections.Generic;
using System.IO;
using System.Threading.Tasks;
using System.Linq;
using System.Net;
using System.Net.Sockets;
using System.Runtime.InteropServices;
using System.Text;
#nullable enable
using Swan.Formatters;
using System;
using System.Collections.Generic;
using System.IO;
using System.Threading.Tasks;
using System.Linq;
using System.Net;
using System.Net.Sockets;
using System.Runtime.InteropServices;
using System.Text;
namespace Swan.Net.Dns {
/// <summary>
/// DnsClient Request inner class.
/// </summary>
internal partial class DnsClient
{
public class DnsClientRequest : IDnsRequest
{
internal partial class DnsClient {
public class DnsClientRequest : IDnsRequest {
private readonly IDnsRequestResolver _resolver;
private readonly IDnsRequest _request;
public DnsClientRequest(IPEndPoint dns, IDnsRequest? request = null, IDnsRequestResolver? resolver = null)
{
Dns = dns;
_request = request == null ? new DnsRequest() : new DnsRequest(request);
_resolver = resolver ?? new DnsUdpRequestResolver();
public DnsClientRequest(IPEndPoint dns, IDnsRequest? request = null, IDnsRequestResolver? resolver = null) {
this.Dns = dns;
this._request = request == null ? new DnsRequest() : new DnsRequest(request);
this._resolver = resolver ?? new DnsUdpRequestResolver();
}
public int Id
{
get => _request.Id;
set => _request.Id = value;
public Int32 Id {
get => this._request.Id;
set => this._request.Id = value;
}
public DnsOperationCode OperationCode
{
get => _request.OperationCode;
set => _request.OperationCode = value;
public DnsOperationCode OperationCode {
get => this._request.OperationCode;
set => this._request.OperationCode = value;
}
public bool RecursionDesired
{
get => _request.RecursionDesired;
set => _request.RecursionDesired = value;
public Boolean RecursionDesired {
get => this._request.RecursionDesired;
set => this._request.RecursionDesired = value;
}
public IList<DnsQuestion> Questions => _request.Questions;
public IList<DnsQuestion> Questions => this._request.Questions;
public int Size => _request.Size;
public Int32 Size => this._request.Size;
public IPEndPoint Dns { get; set; }
public IPEndPoint Dns {
get; set;
}
public byte[] ToArray() => _request.ToArray();
public Byte[] ToArray() => this._request.ToArray();
public override string ToString() => _request.ToString();
public override String ToString() => this._request.ToString()!;
/// <summary>
/// Resolves this request into a response using the provided DNS information. The given
@ -64,465 +60,374 @@
/// <exception cref="IOException">Thrown if a IO error occurs.</exception>
/// <exception cref="SocketException">Thrown if a the reading or writing to the socket fails.</exception>
/// <returns>The response received from server.</returns>
public async Task<DnsClientResponse> Resolve()
{
try
{
var response = await _resolver.Request(this).ConfigureAwait(false);
public async Task<DnsClientResponse> Resolve() {
try {
DnsClientResponse response = await this._resolver.Request(this).ConfigureAwait(false);
if (response.Id != Id)
{
if(response.Id != this.Id) {
throw new DnsQueryException(response, "Mismatching request/response IDs");
}
if (response.ResponseCode != DnsResponseCode.NoError)
{
if(response.ResponseCode != DnsResponseCode.NoError) {
throw new DnsQueryException(response);
}
return response;
}
catch (Exception e)
{
if (e is ArgumentException || e is SocketException)
} catch(Exception e) {
if(e is ArgumentException || e is SocketException) {
throw new DnsQueryException("Invalid response", e);
}
throw;
}
}
}
public class DnsRequest : IDnsRequest
{
public class DnsRequest : IDnsRequest {
private static readonly Random Random = new Random();
private DnsHeader header;
public DnsRequest()
{
Questions = new List<DnsQuestion>();
header = new DnsHeader
{
public DnsRequest() {
this.Questions = new List<DnsQuestion>();
this.header = new DnsHeader {
OperationCode = DnsOperationCode.Query,
Response = false,
Id = Random.Next(ushort.MaxValue),
Id = Random.Next(UInt16.MaxValue),
};
}
public DnsRequest(IDnsRequest request)
{
header = new DnsHeader();
Questions = new List<DnsQuestion>(request.Questions);
public DnsRequest(IDnsRequest request) {
this.header = new DnsHeader();
this.Questions = new List<DnsQuestion>(request.Questions);
header.Response = false;
this.header.Response = false;
Id = request.Id;
OperationCode = request.OperationCode;
RecursionDesired = request.RecursionDesired;
this.Id = request.Id;
this.OperationCode = request.OperationCode;
this.RecursionDesired = request.RecursionDesired;
}
public IList<DnsQuestion> Questions { get; }
public int Size => header.Size + Questions.Sum(q => q.Size);
public int Id
{
get => header.Id;
set => header.Id = value;
public IList<DnsQuestion> Questions {
get;
}
public DnsOperationCode OperationCode
{
get => header.OperationCode;
set => header.OperationCode = value;
public Int32 Size => this.header.Size + this.Questions.Sum(q => q.Size);
public Int32 Id {
get => this.header.Id;
set => this.header.Id = value;
}
public bool RecursionDesired
{
get => header.RecursionDesired;
set => header.RecursionDesired = value;
public DnsOperationCode OperationCode {
get => this.header.OperationCode;
set => this.header.OperationCode = value;
}
public byte[] ToArray()
{
UpdateHeader();
using var result = new MemoryStream(Size);
return result
.Append(header.ToArray())
.Append(Questions.Select(q => q.ToArray()))
.ToArray();
public Boolean RecursionDesired {
get => this.header.RecursionDesired;
set => this.header.RecursionDesired = value;
}
public override string ToString()
{
UpdateHeader();
public Byte[] ToArray() {
this.UpdateHeader();
using MemoryStream result = new MemoryStream(this.Size);
return result.Append(this.header.ToArray()).Append(this.Questions.Select(q => q.ToArray())).ToArray();
}
public override String ToString() {
this.UpdateHeader();
return Json.Serialize(this, true);
}
private void UpdateHeader()
{
header.QuestionCount = Questions.Count;
}
private void UpdateHeader() => this.header.QuestionCount = this.Questions.Count;
}
public class DnsTcpRequestResolver : IDnsRequestResolver
{
public async Task<DnsClientResponse> Request(DnsClientRequest request)
{
var tcp = new TcpClient();
public class DnsTcpRequestResolver : IDnsRequestResolver {
public async Task<DnsClientResponse> Request(DnsClientRequest request) {
TcpClient tcp = new TcpClient();
try
{
#if !NET461
try {
await tcp.Client.ConnectAsync(request.Dns).ConfigureAwait(false);
#else
tcp.Client.Connect(request.Dns);
#endif
var stream = tcp.GetStream();
var buffer = request.ToArray();
var length = BitConverter.GetBytes((ushort)buffer.Length);
if (BitConverter.IsLittleEndian)
NetworkStream stream = tcp.GetStream();
Byte[] buffer = request.ToArray();
Byte[] length = BitConverter.GetBytes((UInt16)buffer.Length);
if(BitConverter.IsLittleEndian) {
Array.Reverse(length);
}
await stream.WriteAsync(length, 0, length.Length).ConfigureAwait(false);
await stream.WriteAsync(buffer, 0, buffer.Length).ConfigureAwait(false);
buffer = new byte[2];
buffer = new Byte[2];
await Read(stream, buffer).ConfigureAwait(false);
if (BitConverter.IsLittleEndian)
if(BitConverter.IsLittleEndian) {
Array.Reverse(buffer);
}
buffer = new byte[BitConverter.ToUInt16(buffer, 0)];
buffer = new Byte[BitConverter.ToUInt16(buffer, 0)];
await Read(stream, buffer).ConfigureAwait(false);
var response = DnsResponse.FromArray(buffer);
DnsResponse response = DnsResponse.FromArray(buffer);
return new DnsClientResponse(request, response, buffer);
}
finally
{
#if NET461
tcp.Close();
#else
} finally {
tcp.Dispose();
#endif
}
}
private static async Task Read(Stream stream, byte[] buffer)
{
var length = buffer.Length;
var offset = 0;
int size;
private static async Task Read(Stream stream, Byte[] buffer) {
Int32 length = buffer.Length;
Int32 offset = 0;
Int32 size;
while (length > 0 && (size = await stream.ReadAsync(buffer, offset, length).ConfigureAwait(false)) > 0)
{
while(length > 0 && (size = await stream.ReadAsync(buffer, offset, length).ConfigureAwait(false)) > 0) {
offset += size;
length -= size;
}
if (length > 0)
{
if(length > 0) {
throw new IOException("Unexpected end of stream");
}
}
}
public class DnsUdpRequestResolver : IDnsRequestResolver
{
public class DnsUdpRequestResolver : IDnsRequestResolver {
private readonly IDnsRequestResolver _fallback;
public DnsUdpRequestResolver(IDnsRequestResolver fallback)
{
_fallback = fallback;
}
public DnsUdpRequestResolver(IDnsRequestResolver fallback) => this._fallback = fallback;
public DnsUdpRequestResolver()
{
_fallback = new DnsNullRequestResolver();
}
public DnsUdpRequestResolver() => this._fallback = new DnsNullRequestResolver();
public async Task<DnsClientResponse> Request(DnsClientRequest request)
{
var udp = new UdpClient();
var dns = request.Dns;
public async Task<DnsClientResponse> Request(DnsClientRequest request) {
UdpClient udp = new UdpClient();
IPEndPoint dns = request.Dns;
try
{
try {
udp.Client.SendTimeout = 7000;
udp.Client.ReceiveTimeout = 7000;
#if !NET461
await udp.Client.ConnectAsync(dns).ConfigureAwait(false);
#else
udp.Client.Connect(dns);
#endif
await udp.SendAsync(request.ToArray(), request.Size).ConfigureAwait(false);
var bufferList = new List<byte>();
_ = await udp.SendAsync(request.ToArray(), request.Size).ConfigureAwait(false);
do
{
var tempBuffer = new byte[1024];
var receiveCount = udp.Client.Receive(tempBuffer);
List<Byte> bufferList = new List<Byte>();
do {
Byte[] tempBuffer = new Byte[1024];
Int32 receiveCount = udp.Client.Receive(tempBuffer);
bufferList.AddRange(tempBuffer.Skip(0).Take(receiveCount));
}
while (udp.Client.Available > 0 || bufferList.Count == 0);
while(udp.Client.Available > 0 || bufferList.Count == 0);
var buffer = bufferList.ToArray();
var response = DnsResponse.FromArray(buffer);
Byte[] buffer = bufferList.ToArray();
DnsResponse response = DnsResponse.FromArray(buffer);
return response.IsTruncated
? await _fallback.Request(request).ConfigureAwait(false)
? await this._fallback.Request(request).ConfigureAwait(false)
: new DnsClientResponse(request, response, buffer);
}
finally
{
#if NET461
udp.Close();
#else
} finally {
udp.Dispose();
#endif
}
}
}
public class DnsNullRequestResolver : IDnsRequestResolver
{
public class DnsNullRequestResolver : IDnsRequestResolver {
public Task<DnsClientResponse> Request(DnsClientRequest request) => throw new DnsQueryException("Request failed");
}
// 12 bytes message header
[StructEndianness(Endianness.Big)]
[StructLayout(LayoutKind.Sequential, Pack = 1)]
public struct DnsHeader
{
public const int SIZE = 12;
public struct DnsHeader {
public const Int32 SIZE = 12;
private ushort id;
private byte flag0;
private byte flag1;
private UInt16 id;
// Question count: number of questions in the Question section
private ushort questionCount;
private UInt16 questionCount;
// Answer record count: number of records in the Answer section
private ushort answerCount;
private UInt16 answerCount;
// Authority record count: number of records in the Authority section
private ushort authorityCount;
private UInt16 authorityCount;
// Additional record count: number of records in the Additional section
private ushort addtionalCount;
private UInt16 addtionalCount;
public int Id
{
get => id;
set => id = (ushort)value;
public Int32 Id {
get => this.id;
set => this.id = (UInt16)value;
}
public int QuestionCount
{
get => questionCount;
set => questionCount = (ushort)value;
public Int32 QuestionCount {
get => this.questionCount;
set => this.questionCount = (UInt16)value;
}
public int AnswerRecordCount
{
get => answerCount;
set => answerCount = (ushort)value;
public Int32 AnswerRecordCount {
get => this.answerCount;
set => this.answerCount = (UInt16)value;
}
public int AuthorityRecordCount
{
get => authorityCount;
set => authorityCount = (ushort)value;
public Int32 AuthorityRecordCount {
get => this.authorityCount;
set => this.authorityCount = (UInt16)value;
}
public int AdditionalRecordCount
{
get => addtionalCount;
set => addtionalCount = (ushort)value;
public Int32 AdditionalRecordCount {
get => this.addtionalCount;
set => this.addtionalCount = (UInt16)value;
}
public bool Response
{
get => Qr == 1;
set => Qr = Convert.ToByte(value);
public Boolean Response {
get => this.Qr == 1;
set => this.Qr = Convert.ToByte(value);
}
public DnsOperationCode OperationCode
{
get => (DnsOperationCode)Opcode;
set => Opcode = (byte)value;
public DnsOperationCode OperationCode {
get => (DnsOperationCode)this.Opcode;
set => this.Opcode = (Byte)value;
}
public bool AuthorativeServer
{
get => Aa == 1;
set => Aa = Convert.ToByte(value);
public Boolean AuthorativeServer {
get => this.Aa == 1;
set => this.Aa = Convert.ToByte(value);
}
public bool Truncated
{
get => Tc == 1;
set => Tc = Convert.ToByte(value);
public Boolean Truncated {
get => this.Tc == 1;
set => this.Tc = Convert.ToByte(value);
}
public bool RecursionDesired
{
get => Rd == 1;
set => Rd = Convert.ToByte(value);
public Boolean RecursionDesired {
get => this.Rd == 1;
set => this.Rd = Convert.ToByte(value);
}
public bool RecursionAvailable
{
get => Ra == 1;
set => Ra = Convert.ToByte(value);
public Boolean RecursionAvailable {
get => this.Ra == 1;
set => this.Ra = Convert.ToByte(value);
}
public DnsResponseCode ResponseCode
{
get => (DnsResponseCode)RCode;
set => RCode = (byte)value;
public DnsResponseCode ResponseCode {
get => (DnsResponseCode)this.RCode;
set => this.RCode = (Byte)value;
}
public int Size => SIZE;
public Int32 Size => SIZE;
// Query/Response Flag
private byte Qr
{
get => Flag0.GetBitValueAt(7);
set => Flag0 = Flag0.SetBitValueAt(7, 1, value);
private Byte Qr {
get => this.Flag0.GetBitValueAt(7);
set => this.Flag0 = this.Flag0.SetBitValueAt(7, 1, value);
}
// Operation Code
private byte Opcode
{
get => Flag0.GetBitValueAt(3, 4);
set => Flag0 = Flag0.SetBitValueAt(3, 4, value);
private Byte Opcode {
get => this.Flag0.GetBitValueAt(3, 4);
set => this.Flag0 = this.Flag0.SetBitValueAt(3, 4, value);
}
// Authorative Answer Flag
private byte Aa
{
get => Flag0.GetBitValueAt(2);
set => Flag0 = Flag0.SetBitValueAt(2, 1, value);
private Byte Aa {
get => this.Flag0.GetBitValueAt(2);
set => this.Flag0 = this.Flag0.SetBitValueAt(2, 1, value);
}
// Truncation Flag
private byte Tc
{
get => Flag0.GetBitValueAt(1);
set => Flag0 = Flag0.SetBitValueAt(1, 1, value);
private Byte Tc {
get => this.Flag0.GetBitValueAt(1);
set => this.Flag0 = this.Flag0.SetBitValueAt(1, 1, value);
}
// Recursion Desired
private byte Rd
{
get => Flag0.GetBitValueAt(0);
set => Flag0 = Flag0.SetBitValueAt(0, 1, value);
private Byte Rd {
get => this.Flag0.GetBitValueAt(0);
set => this.Flag0 = this.Flag0.SetBitValueAt(0, 1, value);
}
// Recursion Available
private byte Ra
{
get => Flag1.GetBitValueAt(7);
set => Flag1 = Flag1.SetBitValueAt(7, 1, value);
private Byte Ra {
get => this.Flag1.GetBitValueAt(7);
set => this.Flag1 = this.Flag1.SetBitValueAt(7, 1, value);
}
// Zero (Reserved)
private byte Z
{
get => Flag1.GetBitValueAt(4, 3);
set { }
private Byte Z {
get => this.Flag1.GetBitValueAt(4, 3);
set {
}
}
// Response Code
private byte RCode
{
get => Flag1.GetBitValueAt(0, 4);
set => Flag1 = Flag1.SetBitValueAt(0, 4, value);
private Byte RCode {
get => this.Flag1.GetBitValueAt(0, 4);
set => this.Flag1 = this.Flag1.SetBitValueAt(0, 4, value);
}
private byte Flag0
{
get => flag0;
set => flag0 = value;
private Byte Flag0 {
get;
set;
}
private byte Flag1
{
get => flag1;
set => flag1 = value;
private Byte Flag1 {
get;
set;
}
public static DnsHeader FromArray(byte[] header) =>
header.Length < SIZE
? throw new ArgumentException("Header length too small")
: header.ToStruct<DnsHeader>(0, SIZE);
public static DnsHeader FromArray(Byte[] header) => header.Length < SIZE ? throw new ArgumentException("Header length too small") : header.ToStruct<DnsHeader>(0, SIZE);
public byte[] ToArray() => this.ToBytes();
public Byte[] ToArray() => this.ToBytes();
public override string ToString()
=> Json.SerializeExcluding(this, true, nameof(Size));
public override String ToString() => Json.SerializeExcluding(this, true, nameof(this.Size));
}
public class DnsDomain : IComparable<DnsDomain>
{
private readonly string[] _labels;
public class DnsDomain : IComparable<DnsDomain> {
private readonly String[] _labels;
public DnsDomain(string domain)
: this(domain.Split('.'))
{
public DnsDomain(String domain) : this(domain.Split('.')) {
}
public DnsDomain(string[] labels)
{
_labels = labels;
}
public DnsDomain(String[] labels) => this._labels = labels;
public int Size => _labels.Sum(l => l.Length) + _labels.Length + 1;
public Int32 Size => this._labels.Sum(l => l.Length) + this._labels.Length + 1;
public static DnsDomain FromArray(byte[] message, int offset)
=> FromArray(message, offset, out offset);
public static DnsDomain FromArray(Byte[] message, Int32 offset) => FromArray(message, offset, out _);
public static DnsDomain FromArray(byte[] message, int offset, out int endOffset)
{
var labels = new List<byte[]>();
var endOffsetAssigned = false;
public static DnsDomain FromArray(Byte[] message, Int32 offset, out Int32 endOffset) {
List<Byte[]> labels = new List<Byte[]>();
Boolean endOffsetAssigned = false;
endOffset = 0;
byte lengthOrPointer;
Byte lengthOrPointer;
while ((lengthOrPointer = message[offset++]) > 0)
{
while((lengthOrPointer = message[offset++]) > 0) {
// Two heighest bits are set (pointer)
if (lengthOrPointer.GetBitValueAt(6, 2) == 3)
{
if (!endOffsetAssigned)
{
if(lengthOrPointer.GetBitValueAt(6, 2) == 3) {
if(!endOffsetAssigned) {
endOffsetAssigned = true;
endOffset = offset + 1;
}
ushort pointer = lengthOrPointer.GetBitValueAt(0, 6);
UInt16 pointer = lengthOrPointer.GetBitValueAt(0, 6);
offset = (pointer << 8) | message[offset];
continue;
}
if (lengthOrPointer.GetBitValueAt(6, 2) != 0)
{
if(lengthOrPointer.GetBitValueAt(6, 2) != 0) {
throw new ArgumentException("Unexpected bit pattern in label length");
}
var length = lengthOrPointer;
var label = new byte[length];
Byte length = lengthOrPointer;
Byte[] label = new Byte[length];
Array.Copy(message, offset, label, 0, length);
labels.Add(label);
@ -530,25 +435,21 @@
offset += length;
}
if (!endOffsetAssigned)
{
if(!endOffsetAssigned) {
endOffset = offset;
}
return new DnsDomain(labels.Select(l => l.ToText(Encoding.ASCII)).ToArray());
}
public static DnsDomain PointerName(IPAddress ip)
=> new DnsDomain(FormatReverseIP(ip));
public static DnsDomain PointerName(IPAddress ip) => new DnsDomain(FormatReverseIP(ip));
public byte[] ToArray()
{
var result = new byte[Size];
var offset = 0;
public Byte[] ToArray() {
Byte[] result = new Byte[this.Size];
Int32 offset = 0;
foreach (var l in _labels.Select(label => Encoding.ASCII.GetBytes(label)))
{
result[offset++] = (byte)l.Length;
foreach(Byte[] l in this._labels.Select(label => Encoding.ASCII.GetBytes(label))) {
result[offset++] = (Byte)l.Length;
l.CopyTo(result, offset);
offset += l.Length;
@ -559,58 +460,41 @@
return result;
}
public override string ToString()
=> string.Join(".", _labels);
public override String ToString() => String.Join(".", this._labels);
public int CompareTo(DnsDomain other)
=> string.Compare(ToString(), other.ToString(), StringComparison.Ordinal);
public Int32 CompareTo(DnsDomain other) => String.Compare(this.ToString(), other.ToString(), StringComparison.Ordinal);
public override bool Equals(object obj)
=> obj is DnsDomain domain && CompareTo(domain) == 0;
public override Boolean Equals(Object? obj) => obj is DnsDomain domain && this.CompareTo(domain) == 0;
public override int GetHashCode() => ToString().GetHashCode();
public override Int32 GetHashCode() => this.ToString().GetHashCode();
private static string FormatReverseIP(IPAddress ip)
{
var address = ip.GetAddressBytes();
private static String FormatReverseIP(IPAddress ip) {
Byte[] address = ip.GetAddressBytes();
if (address.Length == 4)
{
return string.Join(".", address.Reverse().Select(b => b.ToString())) + ".in-addr.arpa";
if(address.Length == 4) {
return String.Join(".", address.Reverse().Select(b => b.ToString())) + ".in-addr.arpa";
}
var nibbles = new byte[address.Length * 2];
Byte[] nibbles = new Byte[address.Length * 2];
for (int i = 0, j = 0; i < address.Length; i++, j = 2 * i)
{
var b = address[i];
for(Int32 i = 0, j = 0; i < address.Length; i++, j = 2 * i) {
Byte b = address[i];
nibbles[j] = b.GetBitValueAt(4, 4);
nibbles[j + 1] = b.GetBitValueAt(0, 4);
}
return string.Join(".", nibbles.Reverse().Select(b => b.ToString("x"))) + ".ip6.arpa";
return String.Join(".", nibbles.Reverse().Select(b => b.ToString("x"))) + ".ip6.arpa";
}
}
public class DnsQuestion : IDnsMessageEntry
{
private readonly DnsRecordType _type;
private readonly DnsRecordClass _klass;
public class DnsQuestion : IDnsMessageEntry {
public static IList<DnsQuestion> GetAllFromArray(Byte[] message, Int32 offset, Int32 questionCount) => GetAllFromArray(message, offset, questionCount, out _);
public static IList<DnsQuestion> GetAllFromArray(byte[] message, int offset, int questionCount) =>
GetAllFromArray(message, offset, questionCount, out offset);
public static IList<DnsQuestion> GetAllFromArray(
byte[] message,
int offset,
int questionCount,
out int endOffset)
{
public static IList<DnsQuestion> GetAllFromArray(Byte[] message, Int32 offset, Int32 questionCount, out Int32 endOffset) {
IList<DnsQuestion> questions = new List<DnsQuestion>(questionCount);
for (var i = 0; i < questionCount; i++)
{
for(Int32 i = 0; i < questionCount; i++) {
questions.Add(FromArray(message, offset, out offset));
}
@ -618,62 +502,55 @@
return questions;
}
public static DnsQuestion FromArray(byte[] message, int offset, out int endOffset)
{
var domain = DnsDomain.FromArray(message, offset, out offset);
var tail = message.ToStruct<Tail>(offset, Tail.SIZE);
public static DnsQuestion FromArray(Byte[] message, Int32 offset, out Int32 endOffset) {
DnsDomain domain = DnsDomain.FromArray(message, offset, out offset);
Tail tail = message.ToStruct<Tail>(offset, Tail.SIZE);
endOffset = offset + Tail.SIZE;
return new DnsQuestion(domain, tail.Type, tail.Class);
}
public DnsQuestion(
DnsDomain domain,
DnsRecordType type = DnsRecordType.A,
DnsRecordClass klass = DnsRecordClass.IN)
{
Name = domain;
_type = type;
_klass = klass;
public DnsQuestion(DnsDomain domain, DnsRecordType type = DnsRecordType.A, DnsRecordClass klass = DnsRecordClass.IN) {
this.Name = domain;
this.Type = type;
this.Class = klass;
}
public DnsDomain Name { get; }
public DnsDomain Name {
get;
}
public DnsRecordType Type => _type;
public DnsRecordType Type {
get;
}
public DnsRecordClass Class => _klass;
public DnsRecordClass Class {
get;
}
public int Size => Name.Size + Tail.SIZE;
public Int32 Size => this.Name.Size + Tail.SIZE;
public byte[] ToArray() =>
new MemoryStream(Size)
.Append(Name.ToArray())
.Append(new Tail { Type = Type, Class = Class }.ToBytes())
.ToArray();
public Byte[] ToArray() => new MemoryStream(this.Size).Append(this.Name.ToArray()).Append(new Tail { Type = Type, Class = Class }.ToBytes()).ToArray();
public override string ToString()
=> Json.SerializeOnly(this, true, nameof(Name), nameof(Type), nameof(Class));
public override String ToString() => Json.SerializeOnly(this, true, nameof(this.Name), nameof(this.Type), nameof(this.Class));
[StructEndianness(Endianness.Big)]
[StructLayout(LayoutKind.Sequential, Pack = 2)]
private struct Tail
{
public const int SIZE = 4;
private struct Tail {
public const Int32 SIZE = 4;
private ushort type;
private ushort klass;
private UInt16 type;
private UInt16 klass;
public DnsRecordType Type
{
get => (DnsRecordType)type;
set => type = (ushort)value;
public DnsRecordType Type {
get => (DnsRecordType)this.type;
set => this.type = (UInt16)value;
}
public DnsRecordClass Class
{
get => (DnsRecordClass)klass;
set => klass = (ushort)value;
public DnsRecordClass Class {
get => (DnsRecordClass)this.klass;
set => this.klass = (UInt16)value;
}
}
}

471
Swan/Net/Dns/DnsClient.ResourceRecords.cs
View File

@ -1,85 +1,79 @@
namespace Swan.Net.Dns
{
using Formatters;
using System;
using System.Collections.Generic;
using System.IO;
using System.Net;
using System.Runtime.InteropServices;
using Swan.Formatters;
using System;
using System.Collections.Generic;
using System.IO;
using System.Net;
using System.Runtime.InteropServices;
namespace Swan.Net.Dns {
/// <summary>
/// DnsClient public methods.
/// </summary>
internal partial class DnsClient
{
public abstract class DnsResourceRecordBase : IDnsResourceRecord
{
internal partial class DnsClient {
public abstract class DnsResourceRecordBase : IDnsResourceRecord {
private readonly IDnsResourceRecord _record;
protected DnsResourceRecordBase(IDnsResourceRecord record)
{
_record = record;
protected DnsResourceRecordBase(IDnsResourceRecord record) => this._record = record;
public DnsDomain Name => this._record.Name;
public DnsRecordType Type => this._record.Type;
public DnsRecordClass Class => this._record.Class;
public TimeSpan TimeToLive => this._record.TimeToLive;
public Int32 DataLength => this._record.DataLength;
public Byte[] Data => this._record.Data;
public Int32 Size => this._record.Size;
protected virtual String[] IncludedProperties => new[] { nameof(this.Name), nameof(this.Type), nameof(this.Class), nameof(this.TimeToLive), nameof(this.DataLength) };
public Byte[] ToArray() => this._record.ToArray();
public override String ToString() => Json.SerializeOnly(this, true, this.IncludedProperties);
}
public DnsDomain Name => _record.Name;
public DnsRecordType Type => _record.Type;
public DnsRecordClass Class => _record.Class;
public TimeSpan TimeToLive => _record.TimeToLive;
public int DataLength => _record.DataLength;
public byte[] Data => _record.Data;
public int Size => _record.Size;
protected virtual string[] IncludedProperties
=> new[] {nameof(Name), nameof(Type), nameof(Class), nameof(TimeToLive), nameof(DataLength)};
public byte[] ToArray() => _record.ToArray();
public override string ToString()
=> Json.SerializeOnly(this, true, IncludedProperties);
public class DnsResourceRecord : IDnsResourceRecord {
public DnsResourceRecord(DnsDomain domain, Byte[] data, DnsRecordType type, DnsRecordClass klass = DnsRecordClass.IN, TimeSpan ttl = default) {
this.Name = domain;
this.Type = type;
this.Class = klass;
this.TimeToLive = ttl;
this.Data = data;
}
public class DnsResourceRecord : IDnsResourceRecord
{
public DnsResourceRecord(
DnsDomain domain,
byte[] data,
DnsRecordType type,
DnsRecordClass klass = DnsRecordClass.IN,
TimeSpan ttl = default)
{
Name = domain;
Type = type;
Class = klass;
TimeToLive = ttl;
Data = data;
public DnsDomain Name {
get;
}
public DnsDomain Name { get; }
public DnsRecordType Type {
get;
}
public DnsRecordType Type { get; }
public DnsRecordClass Class {
get;
}
public DnsRecordClass Class { get; }
public TimeSpan TimeToLive {
get;
}
public TimeSpan TimeToLive { get; }
public Int32 DataLength => this.Data.Length;
public int DataLength => Data.Length;
public Byte[] Data {
get;
}
public byte[] Data { get; }
public Int32 Size => this.Name.Size + Tail.SIZE + this.Data.Length;
public int Size => Name.Size + Tail.SIZE + Data.Length;
public static DnsResourceRecord FromArray(Byte[] message, Int32 offset, out Int32 endOffset) {
DnsDomain domain = DnsDomain.FromArray(message, offset, out offset);
Tail tail = message.ToStruct<Tail>(offset, Tail.SIZE);
public static DnsResourceRecord FromArray(byte[] message, int offset, out int endOffset)
{
var domain = DnsDomain.FromArray(message, offset, out offset);
var tail = message.ToStruct<Tail>(offset, Tail.SIZE);
var data = new byte[tail.DataLength];
Byte[] data = new Byte[tail.DataLength];
offset += Tail.SIZE;
Array.Copy(message, offset, data, 0, data.Length);
@ -89,239 +83,184 @@
return new DnsResourceRecord(domain, data, tail.Type, tail.Class, tail.TimeToLive);
}
public byte[] ToArray() =>
new MemoryStream(Size)
.Append(Name.ToArray())
.Append(new Tail()
{
Type = Type,
Class = Class,
TimeToLive = TimeToLive,
DataLength = Data.Length,
}.ToBytes())
.Append(Data)
.ToArray();
public Byte[] ToArray() => new MemoryStream(this.Size).Append(this.Name.ToArray()).Append(new Tail() { Type = Type, Class = Class, TimeToLive = TimeToLive, DataLength = this.Data.Length, }.ToBytes()).Append(this.Data).ToArray();
public override string ToString()
{
return Json.SerializeOnly(
this,
true,
nameof(Name),
nameof(Type),
nameof(Class),
nameof(TimeToLive),
nameof(DataLength));
}
public override String ToString() => Json.SerializeOnly(this, true, nameof(this.Name), nameof(this.Type), nameof(this.Class), nameof(this.TimeToLive), nameof(this.DataLength));
[StructEndianness(Endianness.Big)]
[StructLayout(LayoutKind.Sequential, Pack = 2)]
private struct Tail
{
public const int SIZE = 10;
private struct Tail {
public const Int32 SIZE = 10;
private ushort type;
private ushort klass;
private uint ttl;
private ushort dataLength;
private UInt16 type;
private UInt16 klass;
private UInt32 ttl;
private UInt16 dataLength;
public DnsRecordType Type
{
get => (DnsRecordType) type;
set => type = (ushort) value;
public DnsRecordType Type {
get => (DnsRecordType)this.type;
set => this.type = (UInt16)value;
}
public DnsRecordClass Class
{
get => (DnsRecordClass) klass;
set => klass = (ushort) value;
public DnsRecordClass Class {
get => (DnsRecordClass)this.klass;
set => this.klass = (UInt16)value;
}
public TimeSpan TimeToLive
{
get => TimeSpan.FromSeconds(ttl);
set => ttl = (uint) value.TotalSeconds;
public TimeSpan TimeToLive {
get => TimeSpan.FromSeconds(this.ttl);
set => this.ttl = (UInt32)value.TotalSeconds;
}
public int DataLength
{
get => dataLength;
set => dataLength = (ushort) value;
public Int32 DataLength {
get => this.dataLength;
set => this.dataLength = (UInt16)value;
}
}
}
public class DnsPointerResourceRecord : DnsResourceRecordBase
{
public DnsPointerResourceRecord(IDnsResourceRecord record, byte[] message, int dataOffset)
: base(record)
{
PointerDomainName = DnsDomain.FromArray(message, dataOffset);
public class DnsPointerResourceRecord : DnsResourceRecordBase {
public DnsPointerResourceRecord(IDnsResourceRecord record, Byte[] message, Int32 dataOffset) : base(record) => this.PointerDomainName = DnsDomain.FromArray(message, dataOffset);
public DnsDomain PointerDomainName {
get;
}
public DnsDomain PointerDomainName { get; }
protected override string[] IncludedProperties
{
get
{
var temp = new List<string>(base.IncludedProperties) {nameof(PointerDomainName)};
protected override String[] IncludedProperties {
get {
List<String> temp = new List<String>(base.IncludedProperties) { nameof(this.PointerDomainName) };
return temp.ToArray();
}
}
}
public class DnsIPAddressResourceRecord : DnsResourceRecordBase
{
public DnsIPAddressResourceRecord(IDnsResourceRecord record)
: base(record)
{
IPAddress = new IPAddress(Data);
public class DnsIPAddressResourceRecord : DnsResourceRecordBase {
public DnsIPAddressResourceRecord(IDnsResourceRecord record) : base(record) => this.IPAddress = new IPAddress(this.Data);
public IPAddress IPAddress {
get;
}
public IPAddress IPAddress { get; }
protected override string[] IncludedProperties
=> new List<string>(base.IncludedProperties) {nameof(IPAddress)}.ToArray();
protected override String[] IncludedProperties => new List<String>(base.IncludedProperties) { nameof(this.IPAddress) }.ToArray();
}
public class DnsNameServerResourceRecord : DnsResourceRecordBase
{
public DnsNameServerResourceRecord(IDnsResourceRecord record, byte[] message, int dataOffset)
: base(record)
{
NSDomainName = DnsDomain.FromArray(message, dataOffset);
public class DnsNameServerResourceRecord : DnsResourceRecordBase {
public DnsNameServerResourceRecord(IDnsResourceRecord record, Byte[] message, Int32 dataOffset) : base(record) => this.NSDomainName = DnsDomain.FromArray(message, dataOffset);
public DnsDomain NSDomainName {
get;
}
public DnsDomain NSDomainName { get; }
protected override string[] IncludedProperties
=> new List<string>(base.IncludedProperties) {nameof(NSDomainName)}.ToArray();
protected override String[] IncludedProperties => new List<String>(base.IncludedProperties) { nameof(this.NSDomainName) }.ToArray();
}
public class DnsCanonicalNameResourceRecord : DnsResourceRecordBase
{
public DnsCanonicalNameResourceRecord(IDnsResourceRecord record, byte[] message, int dataOffset)
: base(record)
{
CanonicalDomainName = DnsDomain.FromArray(message, dataOffset);
public class DnsCanonicalNameResourceRecord : DnsResourceRecordBase {
public DnsCanonicalNameResourceRecord(IDnsResourceRecord record, Byte[] message, Int32 dataOffset) : base(record) => this.CanonicalDomainName = DnsDomain.FromArray(message, dataOffset);
public DnsDomain CanonicalDomainName {
get;
}
public DnsDomain CanonicalDomainName { get; }
protected override string[] IncludedProperties
=> new List<string>(base.IncludedProperties) {nameof(CanonicalDomainName)}.ToArray();
protected override String[] IncludedProperties => new List<String>(base.IncludedProperties) { nameof(this.CanonicalDomainName) }.ToArray();
}
public class DnsMailExchangeResourceRecord : DnsResourceRecordBase
{
private const int PreferenceSize = 2;
public class DnsMailExchangeResourceRecord : DnsResourceRecordBase {
private const Int32 PreferenceSize = 2;
public DnsMailExchangeResourceRecord(
IDnsResourceRecord record,
byte[] message,
int dataOffset)
: base(record)
{
var preference = new byte[PreferenceSize];
public DnsMailExchangeResourceRecord(IDnsResourceRecord record, Byte[] message, Int32 dataOffset)
: base(record) {
Byte[] preference = new Byte[PreferenceSize];
Array.Copy(message, dataOffset, preference, 0, preference.Length);
if (BitConverter.IsLittleEndian)
{
if(BitConverter.IsLittleEndian) {
Array.Reverse(preference);
}
dataOffset += PreferenceSize;
Preference = BitConverter.ToUInt16(preference, 0);
ExchangeDomainName = DnsDomain.FromArray(message, dataOffset);
this.Preference = BitConverter.ToUInt16(preference, 0);
this.ExchangeDomainName = DnsDomain.FromArray(message, dataOffset);
}
public int Preference { get; }
public Int32 Preference {
get;
}
public DnsDomain ExchangeDomainName { get; }
public DnsDomain ExchangeDomainName {
get;
}
protected override string[] IncludedProperties => new List<string>(base.IncludedProperties)
protected override String[] IncludedProperties => new List<String>(base.IncludedProperties)
{
nameof(Preference),
nameof(ExchangeDomainName),
nameof(this.Preference),
nameof(this.ExchangeDomainName),
}.ToArray();
}
public class DnsStartOfAuthorityResourceRecord : DnsResourceRecordBase
{
public DnsStartOfAuthorityResourceRecord(IDnsResourceRecord record, byte[] message, int dataOffset)
: base(record)
{
MasterDomainName = DnsDomain.FromArray(message, dataOffset, out dataOffset);
ResponsibleDomainName = DnsDomain.FromArray(message, dataOffset, out dataOffset);
public class DnsStartOfAuthorityResourceRecord : DnsResourceRecordBase {
public DnsStartOfAuthorityResourceRecord(IDnsResourceRecord record, Byte[] message, Int32 dataOffset) : base(record) {
this.MasterDomainName = DnsDomain.FromArray(message, dataOffset, out dataOffset);
this.ResponsibleDomainName = DnsDomain.FromArray(message, dataOffset, out dataOffset);
var tail = message.ToStruct<Options>(dataOffset, Options.SIZE);
Options tail = message.ToStruct<Options>(dataOffset, Options.SIZE);
SerialNumber = tail.SerialNumber;
RefreshInterval = tail.RefreshInterval;
RetryInterval = tail.RetryInterval;
ExpireInterval = tail.ExpireInterval;
MinimumTimeToLive = tail.MinimumTimeToLive;
this.SerialNumber = tail.SerialNumber;
this.RefreshInterval = tail.RefreshInterval;
this.RetryInterval = tail.RetryInterval;
this.ExpireInterval = tail.ExpireInterval;
this.MinimumTimeToLive = tail.MinimumTimeToLive;
}
public DnsStartOfAuthorityResourceRecord(
DnsDomain domain,
DnsDomain master,
DnsDomain responsible,
long serial,
TimeSpan refresh,
TimeSpan retry,
TimeSpan expire,
TimeSpan minTtl,
TimeSpan ttl = default)
: base(Create(domain, master, responsible, serial, refresh, retry, expire, minTtl, ttl))
{
MasterDomainName = master;
ResponsibleDomainName = responsible;
public DnsStartOfAuthorityResourceRecord(DnsDomain domain, DnsDomain master, DnsDomain responsible, Int64 serial, TimeSpan refresh, TimeSpan retry, TimeSpan expire, TimeSpan minTtl, TimeSpan ttl = default)
: base(Create(domain, master, responsible, serial, refresh, retry, expire, minTtl, ttl)) {
this.MasterDomainName = master;
this.ResponsibleDomainName = responsible;
SerialNumber = serial;
RefreshInterval = refresh;
RetryInterval = retry;
ExpireInterval = expire;
MinimumTimeToLive = minTtl;
this.SerialNumber = serial;
this.RefreshInterval = refresh;
this.RetryInterval = retry;
this.ExpireInterval = expire;
this.MinimumTimeToLive = minTtl;
}
public DnsDomain MasterDomainName { get; }
public DnsDomain MasterDomainName {
get;
}
public DnsDomain ResponsibleDomainName { get; }
public DnsDomain ResponsibleDomainName {
get;
}
public long SerialNumber { get; }
public Int64 SerialNumber {
get;
}
public TimeSpan RefreshInterval { get; }
public TimeSpan RefreshInterval {
get;
}
public TimeSpan RetryInterval { get; }
public TimeSpan RetryInterval {
get;
}
public TimeSpan ExpireInterval { get; }
public TimeSpan ExpireInterval {
get;
}
public TimeSpan MinimumTimeToLive { get; }
public TimeSpan MinimumTimeToLive {
get;
}
protected override string[] IncludedProperties => new List<string>(base.IncludedProperties)
protected override String[] IncludedProperties => new List<String>(base.IncludedProperties)
{
nameof(MasterDomainName),
nameof(ResponsibleDomainName),
nameof(SerialNumber),
nameof(this.MasterDomainName),
nameof(this.ResponsibleDomainName),
nameof(this.SerialNumber),
}.ToArray();
private static IDnsResourceRecord Create(
DnsDomain domain,
DnsDomain master,
DnsDomain responsible,
long serial,
TimeSpan refresh,
TimeSpan retry,
TimeSpan expire,
TimeSpan minTtl,
TimeSpan ttl)
{
var data = new MemoryStream(Options.SIZE + master.Size + responsible.Size);
var tail = new Options
{
private static IDnsResourceRecord Create(DnsDomain domain, DnsDomain master, DnsDomain responsible, Int64 serial, TimeSpan refresh, TimeSpan retry, TimeSpan expire, TimeSpan minTtl, TimeSpan ttl) {
MemoryStream data = new MemoryStream(Options.SIZE + master.Size + responsible.Size);
Options tail = new Options {
SerialNumber = serial,
RefreshInterval = refresh,
RetryInterval = retry,
@ -329,67 +268,54 @@
MinimumTimeToLive = minTtl,
};
data.Append(master.ToArray()).Append(responsible.ToArray()).Append(tail.ToBytes());
_ = data.Append(master.ToArray()).Append(responsible.ToArray()).Append(tail.ToBytes());
return new DnsResourceRecord(domain, data.ToArray(), DnsRecordType.SOA, DnsRecordClass.IN, ttl);
}
[StructEndianness(Endianness.Big)]
[StructLayout(LayoutKind.Sequential, Pack = 4)]
public struct Options
{
public const int SIZE = 20;
public struct Options {
public const Int32 SIZE = 20;
private uint serialNumber;
private uint refreshInterval;
private uint retryInterval;
private uint expireInterval;
private uint ttl;
private UInt32 serialNumber;
private UInt32 refreshInterval;
private UInt32 retryInterval;
private UInt32 expireInterval;
private UInt32 ttl;
public long SerialNumber
{
get => serialNumber;
set => serialNumber = (uint) value;
public Int64 SerialNumber {
get => this.serialNumber;
set => this.serialNumber = (UInt32)value;
}
public TimeSpan RefreshInterval
{
get => TimeSpan.FromSeconds(refreshInterval);
set => refreshInterval = (uint) value.TotalSeconds;
public TimeSpan RefreshInterval {
get => TimeSpan.FromSeconds(this.refreshInterval);
set => this.refreshInterval = (UInt32)value.TotalSeconds;
}
public TimeSpan RetryInterval
{
get => TimeSpan.FromSeconds(retryInterval);
set => retryInterval = (uint) value.TotalSeconds;
public TimeSpan RetryInterval {
get => TimeSpan.FromSeconds(this.retryInterval);
set => this.retryInterval = (UInt32)value.TotalSeconds;
}
public TimeSpan ExpireInterval
{
get => TimeSpan.FromSeconds(expireInterval);
set => expireInterval = (uint) value.TotalSeconds;
public TimeSpan ExpireInterval {
get => TimeSpan.FromSeconds(this.expireInterval);
set => this.expireInterval = (UInt32)value.TotalSeconds;
}
public TimeSpan MinimumTimeToLive
{
get => TimeSpan.FromSeconds(ttl);
set => ttl = (uint) value.TotalSeconds;
public TimeSpan MinimumTimeToLive {
get => TimeSpan.FromSeconds(this.ttl);
set => this.ttl = (UInt32)value.TotalSeconds;
}
}
}
private static class DnsResourceRecordFactory
{
public static IList<IDnsResourceRecord> GetAllFromArray(
byte[] message,
int offset,
int count,
out int endOffset)
{
var result = new List<IDnsResourceRecord>(count);
private static class DnsResourceRecordFactory {
public static IList<IDnsResourceRecord> GetAllFromArray(Byte[] message, Int32 offset, Int32 count, out Int32 endOffset) {
List<IDnsResourceRecord> result = new List<IDnsResourceRecord>(count);
for (var i = 0; i < count; i++)
{
for(Int32 i = 0; i < count; i++) {
result.Add(GetFromArray(message, offset, out offset));
}
@ -397,14 +323,13 @@
return result;
}
private static IDnsResourceRecord GetFromArray(byte[] message, int offset, out int endOffset)
{
var record = DnsResourceRecord.FromArray(message, offset, out endOffset);
var dataOffset = endOffset - record.DataLength;
private static IDnsResourceRecord GetFromArray(Byte[] message, Int32 offset, out Int32 endOffset) {
DnsResourceRecord record = DnsResourceRecord.FromArray(message, offset, out endOffset);
Int32 dataOffset = endOffset - record.DataLength;
return record.Type switch
{
DnsRecordType.A => (IDnsResourceRecord) new DnsIPAddressResourceRecord(record),
DnsRecordType.A => (new DnsIPAddressResourceRecord(record)),
DnsRecordType.AAAA => new DnsIPAddressResourceRecord(record),
DnsRecordType.NS => new DnsNameServerResourceRecord(record, message, dataOffset),
DnsRecordType.CNAME => new DnsCanonicalNameResourceRecord(record, message, dataOffset),

273
Swan/Net/Dns/DnsClient.Response.cs
View File

@ -1,214 +1,173 @@
namespace Swan.Net.Dns
{
using Formatters;
using System;
using System.Collections.Generic;
using System.Collections.ObjectModel;
using System.IO;
using System.Linq;
using Swan.Formatters;
using System;
using System.Collections.Generic;
using System.Collections.ObjectModel;
using System.IO;
using System.Linq;
namespace Swan.Net.Dns {
/// <summary>
/// DnsClient Response inner class.
/// </summary>
internal partial class DnsClient
{
public class DnsClientResponse : IDnsResponse
{
internal partial class DnsClient {
public class DnsClientResponse : IDnsResponse {
private readonly DnsResponse _response;
private readonly byte[] _message;
private readonly Byte[] _message;
internal DnsClientResponse(DnsClientRequest request, DnsResponse response, byte[] message)
{
Request = request;
internal DnsClientResponse(DnsClientRequest request, DnsResponse response, Byte[] message) {
this.Request = request;
_message = message;
_response = response;
this._message = message;
this._response = response;
}
public DnsClientRequest Request { get; }
public int Id
{
get { return _response.Id; }
set { }
public DnsClientRequest Request {
get;
}
public IList<IDnsResourceRecord> AnswerRecords => _response.AnswerRecords;
public IList<IDnsResourceRecord> AuthorityRecords =>
new ReadOnlyCollection<IDnsResourceRecord>(_response.AuthorityRecords);
public IList<IDnsResourceRecord> AdditionalRecords =>
new ReadOnlyCollection<IDnsResourceRecord>(_response.AdditionalRecords);
public bool IsRecursionAvailable
{
get { return _response.IsRecursionAvailable; }
set { }
public Int32 Id {
get => this._response.Id;
set {
}
}
public bool IsAuthorativeServer
{
get { return _response.IsAuthorativeServer; }
set { }
public IList<IDnsResourceRecord> AnswerRecords => this._response.AnswerRecords;
public IList<IDnsResourceRecord> AuthorityRecords => new ReadOnlyCollection<IDnsResourceRecord>(this._response.AuthorityRecords);
public IList<IDnsResourceRecord> AdditionalRecords => new ReadOnlyCollection<IDnsResourceRecord>(this._response.AdditionalRecords);
public Boolean IsRecursionAvailable {
get => this._response.IsRecursionAvailable;
set {
}
}
public bool IsTruncated
{
get { return _response.IsTruncated; }
set { }
public Boolean IsAuthorativeServer {
get => this._response.IsAuthorativeServer;
set {
}
}
public DnsOperationCode OperationCode
{
get { return _response.OperationCode; }
set { }
public Boolean IsTruncated {
get => this._response.IsTruncated;
set {
}
}
public DnsResponseCode ResponseCode
{
get { return _response.ResponseCode; }
set { }
public DnsOperationCode OperationCode {
get => this._response.OperationCode;
set {
}
}
public IList<DnsQuestion> Questions => new ReadOnlyCollection<DnsQuestion>(_response.Questions);
public int Size => _message.Length;
public byte[] ToArray() => _message;
public override string ToString() => _response.ToString();
public DnsResponseCode ResponseCode {
get => this._response.ResponseCode;
set {
}
}
public class DnsResponse : IDnsResponse
{
public IList<DnsQuestion> Questions => new ReadOnlyCollection<DnsQuestion>(this._response.Questions);
public Int32 Size => this._message.Length;
public Byte[] ToArray() => this._message;
public override String ToString() => this._response.ToString();
}
public class DnsResponse : IDnsResponse {
private DnsHeader _header;
public DnsResponse(
DnsHeader header,
IList<DnsQuestion> questions,
IList<IDnsResourceRecord> answers,
IList<IDnsResourceRecord> authority,
IList<IDnsResourceRecord> additional)
{
_header = header;
Questions = questions;
AnswerRecords = answers;
AuthorityRecords = authority;
AdditionalRecords = additional;
public DnsResponse(DnsHeader header, IList<DnsQuestion> questions, IList<IDnsResourceRecord> answers, IList<IDnsResourceRecord> authority, IList<IDnsResourceRecord> additional) {
this._header = header;
this.Questions = questions;
this.AnswerRecords = answers;
this.AuthorityRecords = authority;
this.AdditionalRecords = additional;
}
public IList<DnsQuestion> Questions { get; }
public IList<IDnsResourceRecord> AnswerRecords { get; }
public IList<IDnsResourceRecord> AuthorityRecords { get; }
public IList<IDnsResourceRecord> AdditionalRecords { get; }
public int Id
{
get => _header.Id;
set => _header.Id = value;
public IList<DnsQuestion> Questions {
get;
}
public bool IsRecursionAvailable
{
get => _header.RecursionAvailable;
set => _header.RecursionAvailable = value;
public IList<IDnsResourceRecord> AnswerRecords {
get;
}
public bool IsAuthorativeServer
{
get => _header.AuthorativeServer;
set => _header.AuthorativeServer = value;
public IList<IDnsResourceRecord> AuthorityRecords {
get;
}
public bool IsTruncated
{
get => _header.Truncated;
set => _header.Truncated = value;
public IList<IDnsResourceRecord> AdditionalRecords {
get;
}
public DnsOperationCode OperationCode
{
get => _header.OperationCode;
set => _header.OperationCode = value;
public Int32 Id {
get => this._header.Id;
set => this._header.Id = value;
}
public DnsResponseCode ResponseCode
{
get => _header.ResponseCode;
set => _header.ResponseCode = value;
public Boolean IsRecursionAvailable {
get => this._header.RecursionAvailable;
set => this._header.RecursionAvailable = value;
}
public int Size
=> _header.Size +
Questions.Sum(q => q.Size) +
AnswerRecords.Sum(a => a.Size) +
AuthorityRecords.Sum(a => a.Size) +
AdditionalRecords.Sum(a => a.Size);
public Boolean IsAuthorativeServer {
get => this._header.AuthorativeServer;
set => this._header.AuthorativeServer = value;
}
public static DnsResponse FromArray(byte[] message)
{
var header = DnsHeader.FromArray(message);
var offset = header.Size;
public Boolean IsTruncated {
get => this._header.Truncated;
set => this._header.Truncated = value;
}
if (!header.Response || header.QuestionCount == 0)
{
public DnsOperationCode OperationCode {
get => this._header.OperationCode;
set => this._header.OperationCode = value;
}
public DnsResponseCode ResponseCode {
get => this._header.ResponseCode;
set => this._header.ResponseCode = value;
}
public Int32 Size => this._header.Size + this.Questions.Sum(q => q.Size) + this.AnswerRecords.Sum(a => a.Size) + this.AuthorityRecords.Sum(a => a.Size) + this.AdditionalRecords.Sum(a => a.Size);
public static DnsResponse FromArray(Byte[] message) {
DnsHeader header = DnsHeader.FromArray(message);
Int32 offset = header.Size;
if(!header.Response || header.QuestionCount == 0) {
throw new ArgumentException("Invalid response message");
}
if (header.Truncated)
{
return new DnsResponse(header,
DnsQuestion.GetAllFromArray(message, offset, header.QuestionCount),
new List<IDnsResourceRecord>(),
new List<IDnsResourceRecord>(),
new List<IDnsResourceRecord>());
return header.Truncated
? new DnsResponse(header, DnsQuestion.GetAllFromArray(message, offset, header.QuestionCount), new List<IDnsResourceRecord>(), new List<IDnsResourceRecord>(), new List<IDnsResourceRecord>())
: new DnsResponse(header, DnsQuestion.GetAllFromArray(message, offset, header.QuestionCount, out offset), DnsResourceRecordFactory.GetAllFromArray(message, offset, header.AnswerRecordCount, out offset), DnsResourceRecordFactory.GetAllFromArray(message, offset, header.AuthorityRecordCount, out offset), DnsResourceRecordFactory.GetAllFromArray(message, offset, header.AdditionalRecordCount, out _));
}
return new DnsResponse(header,
DnsQuestion.GetAllFromArray(message, offset, header.QuestionCount, out offset),
DnsResourceRecordFactory.GetAllFromArray(message, offset, header.AnswerRecordCount, out offset),
DnsResourceRecordFactory.GetAllFromArray(message, offset, header.AuthorityRecordCount, out offset),
DnsResourceRecordFactory.GetAllFromArray(message, offset, header.AdditionalRecordCount, out offset));
}
public Byte[] ToArray() {
this.UpdateHeader();
MemoryStream result = new MemoryStream(this.Size);
public byte[] ToArray()
{
UpdateHeader();
var result = new MemoryStream(Size);
result
.Append(_header.ToArray())
.Append(Questions.Select(q => q.ToArray()))
.Append(AnswerRecords.Select(a => a.ToArray()))
.Append(AuthorityRecords.Select(a => a.ToArray()))
.Append(AdditionalRecords.Select(a => a.ToArray()));
_ = result.Append(this._header.ToArray()).Append(this.Questions.Select(q => q.ToArray())).Append(this.AnswerRecords.Select(a => a.ToArray())).Append(this.AuthorityRecords.Select(a => a.ToArray())).Append(this.AdditionalRecords.Select(a => a.ToArray()));
return result.ToArray();
}
public override string ToString()
{
UpdateHeader();
public override String ToString() {
this.UpdateHeader();
return Json.SerializeOnly(
this,
true,
nameof(Questions),
nameof(AnswerRecords),
nameof(AuthorityRecords),
nameof(AdditionalRecords));
return Json.SerializeOnly(this, true, nameof(this.Questions), nameof(this.AnswerRecords), nameof(this.AuthorityRecords), nameof(this.AdditionalRecords));
}
private void UpdateHeader()
{
_header.QuestionCount = Questions.Count;
_header.AnswerRecordCount = AnswerRecords.Count;
_header.AuthorityRecordCount = AuthorityRecords.Count;
_header.AdditionalRecordCount = AdditionalRecords.Count;
private void UpdateHeader() {
this._header.QuestionCount = this.Questions.Count;
this._header.AnswerRecordCount = this.AnswerRecords.Count;
this._header.AuthorityRecordCount = this.AuthorityRecords.Count;
this._header.AdditionalRecordCount = this.AdditionalRecords.Count;
}
}
}

76
Swan/Net/Dns/DnsClient.cs
View File

@ -1,73 +1,59 @@
namespace Swan.Net.Dns
{
using System;
using System.Collections.Generic;
using System.Linq;
using System.Net;
using System.Threading.Tasks;
using System;
using System.Collections.Generic;
using System.Linq;
#nullable enable
using System.Net;
using System.Threading.Tasks;
namespace Swan.Net.Dns {
/// <summary>
/// DnsClient public methods.
/// </summary>
internal partial class DnsClient
{
internal partial class DnsClient {
private readonly IPEndPoint _dns;
private readonly IDnsRequestResolver _resolver;
public DnsClient(IPEndPoint dns, IDnsRequestResolver? resolver = null)
{
_dns = dns;
_resolver = resolver ?? new DnsUdpRequestResolver(new DnsTcpRequestResolver());
public DnsClient(IPEndPoint dns, IDnsRequestResolver? resolver = null) {
this._dns = dns;
this._resolver = resolver ?? new DnsUdpRequestResolver(new DnsTcpRequestResolver());
}
public DnsClient(IPAddress ip, int port = Network.DnsDefaultPort, IDnsRequestResolver? resolver = null)
: this(new IPEndPoint(ip, port), resolver)
{
public DnsClient(IPAddress ip, Int32 port = Network.DnsDefaultPort, IDnsRequestResolver? resolver = null) : this(new IPEndPoint(ip, port), resolver) {
}
public DnsClientRequest Create(IDnsRequest? request = null)
=> new DnsClientRequest(_dns, request, _resolver);
public DnsClientRequest Create(IDnsRequest? request = null) => new DnsClientRequest(this._dns, request, this._resolver);
public async Task<IList<IPAddress>> Lookup(string domain, DnsRecordType type = DnsRecordType.A)
{
if (string.IsNullOrWhiteSpace(domain))
public async Task<IList<IPAddress>> Lookup(String domain, DnsRecordType type = DnsRecordType.A) {
if(String.IsNullOrWhiteSpace(domain)) {
throw new ArgumentNullException(nameof(domain));
}
if (type != DnsRecordType.A && type != DnsRecordType.AAAA)
{
if(type != DnsRecordType.A && type != DnsRecordType.AAAA) {
throw new ArgumentException("Invalid record type " + type);
}
var response = await Resolve(domain, type).ConfigureAwait(false);
var ips = response.AnswerRecords
.Where(r => r.Type == type)
.Cast<DnsIPAddressResourceRecord>()
.Select(r => r.IPAddress)
.ToList();
DnsClientResponse response = await this.Resolve(domain, type).ConfigureAwait(false);
List<IPAddress> ips = response.AnswerRecords.Where(r => r.Type == type).Cast<DnsIPAddressResourceRecord>().Select(r => r.IPAddress).ToList();
return ips.Count == 0 ? throw new DnsQueryException(response, "No matching records") : ips;
}
public async Task<string> Reverse(IPAddress ip)
{
if (ip == null)
public async Task<String> Reverse(IPAddress ip) {
if(ip == null) {
throw new ArgumentNullException(nameof(ip));
var response = await Resolve(DnsDomain.PointerName(ip), DnsRecordType.PTR);
var ptr = response.AnswerRecords.FirstOrDefault(r => r.Type == DnsRecordType.PTR);
return ptr == null
? throw new DnsQueryException(response, "No matching records")
: ((DnsPointerResourceRecord) ptr).PointerDomainName.ToString();
}
public Task<DnsClientResponse> Resolve(string domain, DnsRecordType type) =>
Resolve(new DnsDomain(domain), type);
DnsClientResponse response = await this.Resolve(DnsDomain.PointerName(ip), DnsRecordType.PTR);
IDnsResourceRecord ptr = response.AnswerRecords.FirstOrDefault(r => r.Type == DnsRecordType.PTR);
public Task<DnsClientResponse> Resolve(DnsDomain domain, DnsRecordType type)
{
var request = Create();
var question = new DnsQuestion(domain, type);
return ptr == null ? throw new DnsQueryException(response, "No matching records") : ((DnsPointerResourceRecord)ptr).PointerDomainName.ToString();
}
public Task<DnsClientResponse> Resolve(String domain, DnsRecordType type) => this.Resolve(new DnsDomain(domain), type);
public Task<DnsClientResponse> Resolve(DnsDomain domain, DnsRecordType type) {
DnsClientRequest request = this.Create();
DnsQuestion question = new DnsQuestion(domain, type);
request.Questions.Add(question);
request.OperationCode = DnsOperationCode.Query;

33
Swan/Net/Dns/DnsQueryException.cs
View File

@ -1,37 +1,28 @@
namespace Swan.Net.Dns
{
using System;
#nullable enable
using System;
namespace Swan.Net.Dns {
/// <summary>
/// An exception thrown when the DNS query fails.
/// </summary>
/// <seealso cref="Exception" />
[Serializable]
public class DnsQueryException : Exception
{
internal DnsQueryException(string message)
: base(message)
{
public class DnsQueryException : Exception {
internal DnsQueryException(String message) : base(message) {
}
internal DnsQueryException(string message, Exception e)
: base(message, e)
{
internal DnsQueryException(String message, Exception e) : base(message, e) {
}
internal DnsQueryException(DnsClient.IDnsResponse response)
: this(response, Format(response))
{
internal DnsQueryException(DnsClient.IDnsResponse response) : this(response, Format(response)) {
}
internal DnsQueryException(DnsClient.IDnsResponse response, string message)
: base(message)
{
Response = response;
internal DnsQueryException(DnsClient.IDnsResponse response, String message) : base(message) => this.Response = response;
internal DnsClient.IDnsResponse? Response {
get;
}
internal DnsClient.IDnsResponse? Response { get; }
private static string Format(DnsClient.IDnsResponse response) => $"Invalid response received with code {response.ResponseCode}";
private static String Format(DnsClient.IDnsResponse response) => $"Invalid response received with code {response.ResponseCode}";
}
}

87
Swan/Net/Dns/DnsQueryResult.cs
View File

@ -1,12 +1,10 @@
namespace Swan.Net.Dns
{
namespace Swan.Net.Dns {
using System.Collections.Generic;
/// <summary>
/// Represents a response from a DNS server.
/// </summary>
public class DnsQueryResult
{
public class DnsQueryResult {
private readonly List<DnsRecord> _mAnswerRecords = new List<DnsRecord>();
private readonly List<DnsRecord> _mAdditionalRecords = new List<DnsRecord>();
private readonly List<DnsRecord> _mAuthorityRecords = new List<DnsRecord>();
@ -15,37 +13,34 @@
/// Initializes a new instance of the <see cref="DnsQueryResult"/> class.
/// </summary>
/// <param name="response">The response.</param>
internal DnsQueryResult(DnsClient.IDnsResponse response)
: this()
{
Id = response.Id;
IsAuthoritativeServer = response.IsAuthorativeServer;
IsRecursionAvailable = response.IsRecursionAvailable;
IsTruncated = response.IsTruncated;
OperationCode = response.OperationCode;
ResponseCode = response.ResponseCode;
internal DnsQueryResult(DnsClient.IDnsResponse response) : this() {
this.Id = response.Id;
this.IsAuthoritativeServer = response.IsAuthorativeServer;
this.IsRecursionAvailable = response.IsRecursionAvailable;
this.IsTruncated = response.IsTruncated;
this.OperationCode = response.OperationCode;
this.ResponseCode = response.ResponseCode;
if (response.AnswerRecords != null)
{
foreach (var record in response.AnswerRecords)
AnswerRecords.Add(new DnsRecord(record));
}
if (response.AuthorityRecords != null)
{
foreach (var record in response.AuthorityRecords)
AuthorityRecords.Add(new DnsRecord(record));
}
if (response.AdditionalRecords != null)
{
foreach (var record in response.AdditionalRecords)
AdditionalRecords.Add(new DnsRecord(record));
if(response.AnswerRecords != null) {
foreach(DnsClient.IDnsResourceRecord record in response.AnswerRecords) {
this.AnswerRecords.Add(new DnsRecord(record));
}
}
private DnsQueryResult()
{
if(response.AuthorityRecords != null) {
foreach(DnsClient.IDnsResourceRecord record in response.AuthorityRecords) {
this.AuthorityRecords.Add(new DnsRecord(record));
}
}
if(response.AdditionalRecords != null) {
foreach(DnsClient.IDnsResourceRecord record in response.AdditionalRecords) {
this.AdditionalRecords.Add(new DnsRecord(record));
}
}
}
private DnsQueryResult() {
}
/// <summary>
@ -54,7 +49,9 @@
/// <value>
/// The identifier.
/// </value>
public int Id { get; }
public System.Int32 Id {
get;
}
/// <summary>
/// Gets a value indicating whether this instance is authoritative server.
@ -62,7 +59,9 @@
/// <value>
/// <c>true</c> if this instance is authoritative server; otherwise, <c>false</c>.
/// </value>
public bool IsAuthoritativeServer { get; }
public System.Boolean IsAuthoritativeServer {
get;
}
/// <summary>
/// Gets a value indicating whether this instance is truncated.
@ -70,7 +69,9 @@
/// <value>
/// <c>true</c> if this instance is truncated; otherwise, <c>false</c>.
/// </value>
public bool IsTruncated { get; }
public System.Boolean IsTruncated {
get;
}
/// <summary>
/// Gets a value indicating whether this instance is recursion available.
@ -78,7 +79,9 @@
/// <value>
/// <c>true</c> if this instance is recursion available; otherwise, <c>false</c>.
/// </value>
public bool IsRecursionAvailable { get; }
public System.Boolean IsRecursionAvailable {
get;
}
/// <summary>
/// Gets the operation code.
@ -86,7 +89,9 @@
/// <value>
/// The operation code.
/// </value>
public DnsOperationCode OperationCode { get; }
public DnsOperationCode OperationCode {
get;
}
/// <summary>
/// Gets the response code.
@ -94,7 +99,9 @@
/// <value>
/// The response code.
/// </value>
public DnsResponseCode ResponseCode { get; }
public DnsResponseCode ResponseCode {
get;
}
/// <summary>
/// Gets the answer records.
@ -102,7 +109,7 @@
/// <value>
/// The answer records.
/// </value>
public IList<DnsRecord> AnswerRecords => _mAnswerRecords;
public IList<DnsRecord> AnswerRecords => this._mAnswerRecords;
/// <summary>
/// Gets the additional records.
@ -110,7 +117,7 @@
/// <value>
/// The additional records.
/// </value>
public IList<DnsRecord> AdditionalRecords => _mAdditionalRecords;
public IList<DnsRecord> AdditionalRecords => this._mAdditionalRecords;
/// <summary>
/// Gets the authority records.
@ -118,6 +125,6 @@
/// <value>
/// The authority records.
/// </value>
public IList<DnsRecord> AuthorityRecords => _mAuthorityRecords;
public IList<DnsRecord> AuthorityRecords => this._mAuthorityRecords;
}
}

129
Swan/Net/Dns/DnsRecord.cs
View File

@ -1,55 +1,50 @@
namespace Swan.Net.Dns
{
using System;
using System.Net;
using System.Text;
using System;
using System.Net;
using System.Text;
namespace Swan.Net.Dns {
/// <summary>
/// Represents a DNS record entry.
/// </summary>
public class DnsRecord
{
public class DnsRecord {
/// <summary>
/// Initializes a new instance of the <see cref="DnsRecord"/> class.
/// </summary>
/// <param name="record">The record.</param>
internal DnsRecord(DnsClient.IDnsResourceRecord record)
: this()
{
Name = record.Name.ToString();
Type = record.Type;
Class = record.Class;
TimeToLive = record.TimeToLive;
Data = record.Data;
internal DnsRecord(DnsClient.IDnsResourceRecord record) : this() {
this.Name = record.Name.ToString();
this.Type = record.Type;
this.Class = record.Class;
this.TimeToLive = record.TimeToLive;
this.Data = record.Data;
// PTR
PointerDomainName = (record as DnsClient.DnsPointerResourceRecord)?.PointerDomainName?.ToString();
this.PointerDomainName = (record as DnsClient.DnsPointerResourceRecord)?.PointerDomainName?.ToString();
// A
IPAddress = (record as DnsClient.DnsIPAddressResourceRecord)?.IPAddress;
this.IPAddress = (record as DnsClient.DnsIPAddressResourceRecord)?.IPAddress;
// NS
NameServerDomainName = (record as DnsClient.DnsNameServerResourceRecord)?.NSDomainName?.ToString();
this.NameServerDomainName = (record as DnsClient.DnsNameServerResourceRecord)?.NSDomainName?.ToString();
// CNAME
CanonicalDomainName = (record as DnsClient.DnsCanonicalNameResourceRecord)?.CanonicalDomainName.ToString();
this.CanonicalDomainName = (record as DnsClient.DnsCanonicalNameResourceRecord)?.CanonicalDomainName.ToString();
// MX
MailExchangerDomainName = (record as DnsClient.DnsMailExchangeResourceRecord)?.ExchangeDomainName.ToString();
MailExchangerPreference = (record as DnsClient.DnsMailExchangeResourceRecord)?.Preference;
this.MailExchangerDomainName = (record as DnsClient.DnsMailExchangeResourceRecord)?.ExchangeDomainName.ToString();
this.MailExchangerPreference = (record as DnsClient.DnsMailExchangeResourceRecord)?.Preference;
// SOA
SoaMasterDomainName = (record as DnsClient.DnsStartOfAuthorityResourceRecord)?.MasterDomainName.ToString();
SoaResponsibleDomainName = (record as DnsClient.DnsStartOfAuthorityResourceRecord)?.ResponsibleDomainName.ToString();
SoaSerialNumber = (record as DnsClient.DnsStartOfAuthorityResourceRecord)?.SerialNumber;
SoaRefreshInterval = (record as DnsClient.DnsStartOfAuthorityResourceRecord)?.RefreshInterval;
SoaRetryInterval = (record as DnsClient.DnsStartOfAuthorityResourceRecord)?.RetryInterval;
SoaExpireInterval = (record as DnsClient.DnsStartOfAuthorityResourceRecord)?.ExpireInterval;
SoaMinimumTimeToLive = (record as DnsClient.DnsStartOfAuthorityResourceRecord)?.MinimumTimeToLive;
this.SoaMasterDomainName = (record as DnsClient.DnsStartOfAuthorityResourceRecord)?.MasterDomainName.ToString();
this.SoaResponsibleDomainName = (record as DnsClient.DnsStartOfAuthorityResourceRecord)?.ResponsibleDomainName.ToString();
this.SoaSerialNumber = (record as DnsClient.DnsStartOfAuthorityResourceRecord)?.SerialNumber;
this.SoaRefreshInterval = (record as DnsClient.DnsStartOfAuthorityResourceRecord)?.RefreshInterval;
this.SoaRetryInterval = (record as DnsClient.DnsStartOfAuthorityResourceRecord)?.RetryInterval;
this.SoaExpireInterval = (record as DnsClient.DnsStartOfAuthorityResourceRecord)?.ExpireInterval;
this.SoaMinimumTimeToLive = (record as DnsClient.DnsStartOfAuthorityResourceRecord)?.MinimumTimeToLive;
}
private DnsRecord()
{
private DnsRecord() {
// placeholder
}
@ -59,7 +54,9 @@
/// <value>
/// The name.
/// </value>
public string Name { get; }
public String Name {
get;
}
/// <summary>
/// Gets the type.
@ -67,7 +64,9 @@
/// <value>
/// The type.
/// </value>
public DnsRecordType Type { get; }
public DnsRecordType Type {
get;
}
/// <summary>
/// Gets the class.
@ -75,7 +74,9 @@
/// <value>
/// The class.
/// </value>
public DnsRecordClass Class { get; }
public DnsRecordClass Class {
get;
}
/// <summary>
/// Gets the time to live.
@ -83,7 +84,9 @@
/// <value>
/// The time to live.
/// </value>
public TimeSpan TimeToLive { get; }
public TimeSpan TimeToLive {
get;
}
/// <summary>
/// Gets the raw data of the record.
@ -91,7 +94,9 @@
/// <value>
/// The data.
/// </value>
public byte[] Data { get; }
public Byte[] Data {
get;
}
/// <summary>
/// Gets the data text bytes in ASCII encoding.
@ -99,7 +104,7 @@
/// <value>
/// The data text.
/// </value>
public string DataText => Data == null ? string.Empty : Encoding.ASCII.GetString(Data);
public String DataText => this.Data == null ? String.Empty : Encoding.ASCII.GetString(this.Data);
/// <summary>
/// Gets the name of the pointer domain.
@ -107,7 +112,9 @@
/// <value>
/// The name of the pointer domain.
/// </value>
public string PointerDomainName { get; }
public String PointerDomainName {
get;
}
/// <summary>
/// Gets the ip address.
@ -115,7 +122,9 @@
/// <value>
/// The ip address.
/// </value>
public IPAddress IPAddress { get; }
public IPAddress IPAddress {
get;
}
/// <summary>
/// Gets the name of the name server domain.
@ -123,7 +132,9 @@
/// <value>
/// The name of the name server domain.
/// </value>
public string NameServerDomainName { get; }
public String NameServerDomainName {
get;
}
/// <summary>
/// Gets the name of the canonical domain.
@ -131,7 +142,9 @@
/// <value>
/// The name of the canonical domain.
/// </value>
public string CanonicalDomainName { get; }
public String CanonicalDomainName {
get;
}
/// <summary>
/// Gets the mail exchanger preference.
@ -139,7 +152,9 @@
/// <value>
/// The mail exchanger preference.
/// </value>
public int? MailExchangerPreference { get; }
public Int32? MailExchangerPreference {
get;
}
/// <summary>
/// Gets the name of the mail exchanger domain.
@ -147,7 +162,9 @@
/// <value>
/// The name of the mail exchanger domain.
/// </value>
public string MailExchangerDomainName { get; }
public String MailExchangerDomainName {
get;
}
/// <summary>
/// Gets the name of the soa master domain.
@ -155,7 +172,9 @@
/// <value>
/// The name of the soa master domain.
/// </value>
public string SoaMasterDomainName { get; }
public String SoaMasterDomainName {
get;
}
/// <summary>
/// Gets the name of the soa responsible domain.
@ -163,7 +182,9 @@
/// <value>
/// The name of the soa responsible domain.
/// </value>
public string SoaResponsibleDomainName { get; }
public String SoaResponsibleDomainName {
get;
}
/// <summary>
/// Gets the soa serial number.
@ -171,7 +192,9 @@
/// <value>
/// The soa serial number.
/// </value>
public long? SoaSerialNumber { get; }
public Int64? SoaSerialNumber {
get;
}
/// <summary>
/// Gets the soa refresh interval.
@ -179,7 +202,9 @@
/// <value>
/// The soa refresh interval.
/// </value>
public TimeSpan? SoaRefreshInterval { get; }
public TimeSpan? SoaRefreshInterval {
get;
}
/// <summary>
/// Gets the soa retry interval.
@ -187,7 +212,9 @@
/// <value>
/// The soa retry interval.
/// </value>
public TimeSpan? SoaRetryInterval { get; }
public TimeSpan? SoaRetryInterval {
get;
}
/// <summary>
/// Gets the soa expire interval.
@ -195,7 +222,9 @@
/// <value>
/// The soa expire interval.
/// </value>
public TimeSpan? SoaExpireInterval { get; }
public TimeSpan? SoaExpireInterval {
get;
}
/// <summary>
/// Gets the soa minimum time to live.
@ -203,6 +232,8 @@
/// <value>
/// The soa minimum time to live.
/// </value>
public TimeSpan? SoaMinimumTimeToLive { get; }
public TimeSpan? SoaMinimumTimeToLive {
get;
}
}
}

15
Swan/Net/Dns/Enums.Dns.cs
View File

@ -1,11 +1,9 @@
// ReSharper disable InconsistentNaming
namespace Swan.Net.Dns
{
namespace Swan.Net.Dns {
/// <summary>
/// Enumerates the different DNS record types.
/// </summary>
public enum DnsRecordType
{
public enum DnsRecordType {
/// <summary>
/// A records
/// </summary>
@ -65,8 +63,7 @@ namespace Swan.Net.Dns
/// <summary>
/// Enumerates the different DNS record classes.
/// </summary>
public enum DnsRecordClass
{
public enum DnsRecordClass {
/// <summary>
/// IN records
/// </summary>
@ -81,8 +78,7 @@ namespace Swan.Net.Dns
/// <summary>
/// Enumerates the different DNS operation codes.
/// </summary>
public enum DnsOperationCode
{
public enum DnsOperationCode {
/// <summary>
/// Query operation
/// </summary>
@ -112,8 +108,7 @@ namespace Swan.Net.Dns
/// <summary>
/// Enumerates the different DNS query response codes.
/// </summary>
public enum DnsResponseCode
{
public enum DnsResponseCode {
/// <summary>
/// No error
/// </summary>

81
Swan/Net/Eventing.ConnectionListener.cs
View File

@ -1,24 +1,20 @@
namespace Swan.Net
{
using System;
using System.Net;
using System.Net.Sockets;
#nullable enable
using System;
using System.Net;
using System.Net.Sockets;
namespace Swan.Net {
/// <summary>
/// The event arguments for when connections are accepted.
/// </summary>
/// <seealso cref="System.EventArgs" />
public class ConnectionAcceptedEventArgs : EventArgs
{
public class ConnectionAcceptedEventArgs : EventArgs {
/// <summary>
/// Initializes a new instance of the <see cref="ConnectionAcceptedEventArgs" /> class.
/// </summary>
/// <param name="client">The client.</param>
/// <exception cref="ArgumentNullException">client.</exception>
public ConnectionAcceptedEventArgs(TcpClient client)
{
Client = client ?? throw new ArgumentNullException(nameof(client));
}
public ConnectionAcceptedEventArgs(TcpClient client) => this.Client = client ?? throw new ArgumentNullException(nameof(client));
/// <summary>
/// Gets the client.
@ -26,22 +22,21 @@
/// <value>
/// The client.
/// </value>
public TcpClient Client { get; }
public TcpClient Client {
get;
}
}
/// <summary>
/// Occurs before a connection is accepted. Set the Cancel property to true to prevent the connection from being accepted.
/// </summary>
/// <seealso cref="ConnectionAcceptedEventArgs" />
public class ConnectionAcceptingEventArgs : ConnectionAcceptedEventArgs
{
public class ConnectionAcceptingEventArgs : ConnectionAcceptedEventArgs {
/// <summary>
/// Initializes a new instance of the <see cref="ConnectionAcceptingEventArgs"/> class.
/// </summary>
/// <param name="client">The client.</param>
public ConnectionAcceptingEventArgs(TcpClient client)
: base(client)
{
public ConnectionAcceptingEventArgs(TcpClient client) : base(client) {
}
/// <summary>
@ -50,24 +45,22 @@
/// <value>
/// <c>true</c> if cancel; otherwise, <c>false</c>.
/// </value>
public bool Cancel { get; set; }
public Boolean Cancel {
get; set;
}
}
/// <summary>
/// Event arguments for when a server listener is started.
/// </summary>
/// <seealso cref="System.EventArgs" />
public class ConnectionListenerStartedEventArgs : EventArgs
{
public class ConnectionListenerStartedEventArgs : EventArgs {
/// <summary>
/// Initializes a new instance of the <see cref="ConnectionListenerStartedEventArgs" /> class.
/// </summary>
/// <param name="listenerEndPoint">The listener end point.</param>
/// <exception cref="ArgumentNullException">listenerEndPoint.</exception>
public ConnectionListenerStartedEventArgs(IPEndPoint listenerEndPoint)
{
EndPoint = listenerEndPoint ?? throw new ArgumentNullException(nameof(listenerEndPoint));
}
public ConnectionListenerStartedEventArgs(IPEndPoint listenerEndPoint) => this.EndPoint = listenerEndPoint ?? throw new ArgumentNullException(nameof(listenerEndPoint));
/// <summary>
/// Gets the end point.
@ -75,15 +68,16 @@
/// <value>
/// The end point.
/// </value>
public IPEndPoint EndPoint { get; }
public IPEndPoint EndPoint {
get;
}
}
/// <summary>
/// Event arguments for when a server listener fails to start.
/// </summary>
/// <seealso cref="System.EventArgs" />
public class ConnectionListenerFailedEventArgs : EventArgs
{
public class ConnectionListenerFailedEventArgs : EventArgs {
/// <summary>
/// Initializes a new instance of the <see cref="ConnectionListenerFailedEventArgs" /> class.
/// </summary>
@ -94,10 +88,9 @@
/// or
/// ex.
/// </exception>
public ConnectionListenerFailedEventArgs(IPEndPoint listenerEndPoint, Exception ex)
{
EndPoint = listenerEndPoint ?? throw new ArgumentNullException(nameof(listenerEndPoint));
Error = ex ?? throw new ArgumentNullException(nameof(ex));
public ConnectionListenerFailedEventArgs(IPEndPoint listenerEndPoint, Exception ex) {
this.EndPoint = listenerEndPoint ?? throw new ArgumentNullException(nameof(listenerEndPoint));
this.Error = ex ?? throw new ArgumentNullException(nameof(ex));
}
/// <summary>
@ -106,7 +99,9 @@
/// <value>
/// The end point.
/// </value>
public IPEndPoint EndPoint { get; }
public IPEndPoint EndPoint {
get;
}
/// <summary>
/// Gets the error.
@ -114,15 +109,16 @@
/// <value>
/// The error.
/// </value>
public Exception Error { get; }
public Exception Error {
get;
}
}
/// <summary>
/// Event arguments for when a server listener stopped.
/// </summary>
/// <seealso cref="System.EventArgs" />
public class ConnectionListenerStoppedEventArgs : EventArgs
{
public class ConnectionListenerStoppedEventArgs : EventArgs {
/// <summary>
/// Initializes a new instance of the <see cref="ConnectionListenerStoppedEventArgs" /> class.
/// </summary>
@ -133,10 +129,9 @@
/// or
/// ex.
/// </exception>
public ConnectionListenerStoppedEventArgs(IPEndPoint listenerEndPoint, Exception? ex = null)
{
EndPoint = listenerEndPoint ?? throw new ArgumentNullException(nameof(listenerEndPoint));
Error = ex;
public ConnectionListenerStoppedEventArgs(IPEndPoint listenerEndPoint, Exception? ex = null) {
this.EndPoint = listenerEndPoint ?? throw new ArgumentNullException(nameof(listenerEndPoint));
this.Error = ex;
}
/// <summary>
@ -145,7 +140,9 @@
/// <value>
/// The end point.
/// </value>
public IPEndPoint EndPoint { get; }
public IPEndPoint EndPoint {
get;
}
/// <summary>
/// Gets the error.
@ -153,6 +150,8 @@
/// <value>
/// The error.
/// </value>
public Exception? Error { get; }
public Exception? Error {
get;
}
}
}

46
Swan/Net/Eventing.cs
View File

@ -1,22 +1,17 @@
namespace Swan.Net
{
using System;
using System.Text;
using System;
using System.Text;
namespace Swan.Net {
/// <summary>
/// The event arguments for connection failure events.
/// </summary>
/// <seealso cref="System.EventArgs" />
public class ConnectionFailureEventArgs : EventArgs
{
public class ConnectionFailureEventArgs : EventArgs {
/// <summary>
/// Initializes a new instance of the <see cref="ConnectionFailureEventArgs"/> class.
/// </summary>
/// <param name="ex">The ex.</param>
public ConnectionFailureEventArgs(Exception ex)
{
Error = ex;
}
public ConnectionFailureEventArgs(Exception ex) => this.Error = ex;
/// <summary>
/// Gets the error.
@ -24,26 +19,26 @@
/// <value>
/// The error.
/// </value>
public Exception Error { get; }
public Exception Error {
get;
}
}
/// <summary>
/// Event arguments for when data is received.
/// </summary>
/// <seealso cref="System.EventArgs" />
public class ConnectionDataReceivedEventArgs : EventArgs
{
public class ConnectionDataReceivedEventArgs : EventArgs {
/// <summary>
/// Initializes a new instance of the <see cref="ConnectionDataReceivedEventArgs"/> class.
/// </summary>
/// <param name="buffer">The buffer.</param>
/// <param name="trigger">The trigger.</param>
/// <param name="moreAvailable">if set to <c>true</c> [more available].</param>
public ConnectionDataReceivedEventArgs(byte[] buffer, ConnectionDataReceivedTrigger trigger, bool moreAvailable)
{
Buffer = buffer ?? throw new ArgumentNullException(nameof(buffer));
Trigger = trigger;
HasMoreAvailable = moreAvailable;
public ConnectionDataReceivedEventArgs(Byte[] buffer, ConnectionDataReceivedTrigger trigger, Boolean moreAvailable) {
this.Buffer = buffer ?? throw new ArgumentNullException(nameof(buffer));
this.Trigger = trigger;
this.HasMoreAvailable = moreAvailable;
}
/// <summary>
@ -52,7 +47,9 @@
/// <value>
/// The buffer.
/// </value>
public byte[] Buffer { get; }
public Byte[] Buffer {
get;
}
/// <summary>
/// Gets the cause as to why this event was thrown.
@ -60,7 +57,9 @@
/// <value>
/// The trigger.
/// </value>
public ConnectionDataReceivedTrigger Trigger { get; }
public ConnectionDataReceivedTrigger Trigger {
get;
}
/// <summary>
/// Gets a value indicating whether the receive buffer has more bytes available.
@ -68,7 +67,9 @@
/// <value>
/// <c>true</c> if this instance has more available; otherwise, <c>false</c>.
/// </value>
public bool HasMoreAvailable { get; }
public Boolean HasMoreAvailable {
get;
}
/// <summary>
/// Gets the string from buffer.
@ -78,7 +79,6 @@
/// A <see cref="System.String" /> that contains the results of decoding the specified sequence of bytes.
/// </returns>
/// <exception cref="ArgumentNullException">encoding</exception>
public string GetStringFromBuffer(Encoding encoding)
=> encoding?.GetString(Buffer).TrimEnd('\r', '\n') ?? throw new ArgumentNullException(nameof(encoding));
public String GetStringFromBuffer(Encoding encoding) => encoding?.GetString(this.Buffer).TrimEnd('\r', '\n') ?? throw new ArgumentNullException(nameof(encoding));
}
}

253
Swan/Net/JsonClient.cs
View File

@ -1,23 +1,22 @@
namespace Swan.Net
{
using Formatters;
using System;
using System.Collections.Generic;
using System.Net.Http;
using System.Net.Http.Headers;
using System.Security;
using System.Text;
using System.Threading;
using System.Threading.Tasks;
#nullable enable
using Swan.Formatters;
using System;
using System.Collections.Generic;
using System.Net.Http;
using System.Net.Http.Headers;
using System.Security;
using System.Text;
using System.Threading;
using System.Threading.Tasks;
namespace Swan.Net {
/// <summary>
/// Represents a HttpClient with extended methods to use with JSON payloads
/// and bearer tokens authentication.
/// </summary>
public static class JsonClient
{
private const string JsonMimeType = "application/json";
private const string FormType = "application/x-www-form-urlencoded";
public static class JsonClient {
private const String JsonMimeType = "application/json";
private const String FormType = "application/x-www-form-urlencoded";
private static readonly HttpClient HttpClient = new HttpClient();
@ -32,16 +31,10 @@
/// <returns>
/// A task with a result of the requested type.
/// </returns>
public static async Task<T> Post<T>(
Uri requestUri,
object payload,
string? authorization = null,
CancellationToken cancellationToken = default)
{
var jsonString = await PostString(requestUri, payload, authorization, cancellationToken)
.ConfigureAwait(false);
public static async Task<T> Post<T>(Uri requestUri, Object payload, String? authorization = null, CancellationToken cancellationToken = default) where T : notnull {
String jsonString = await PostString(requestUri, payload, authorization, cancellationToken).ConfigureAwait(false);
return !string.IsNullOrEmpty(jsonString) ? Json.Deserialize<T>(jsonString) : default;
return !String.IsNullOrEmpty(jsonString) ? Json.Deserialize<T>(jsonString) : default;
}
/// <summary>
@ -54,18 +47,10 @@
/// <returns>
/// A task with a result as a collection of key/value pairs.
/// </returns>
public static async Task<IDictionary<string, object>?> Post(
Uri requestUri,
object payload,
string? authorization = null,
CancellationToken cancellationToken = default)
{
var jsonString = await PostString(requestUri, payload, authorization, cancellationToken)
.ConfigureAwait(false);
public static async Task<IDictionary<String, Object>?> Post(Uri requestUri, Object payload, String? authorization = null, CancellationToken cancellationToken = default) {
String jsonString = await PostString(requestUri, payload, authorization, cancellationToken).ConfigureAwait(false);
return string.IsNullOrWhiteSpace(jsonString)
? default
: Json.Deserialize(jsonString) as IDictionary<string, object>;
return String.IsNullOrWhiteSpace(jsonString) ? default : Json.Deserialize(jsonString) as IDictionary<String, Object>;
}
/// <summary>
@ -80,12 +65,7 @@
/// </returns>
/// <exception cref="ArgumentNullException">url.</exception>
/// <exception cref="JsonRequestException">Error POST JSON.</exception>
public static Task<string> PostString(
Uri requestUri,
object payload,
string? authorization = null,
CancellationToken cancellationToken = default)
=> SendAsync(HttpMethod.Post, requestUri, payload, authorization, cancellationToken);
public static Task<String> PostString(Uri requestUri, Object payload, String? authorization = null, CancellationToken cancellationToken = default) => SendAsync(HttpMethod.Post, requestUri, payload, authorization, cancellationToken);
/// <summary>
/// Puts the specified URL.
@ -98,16 +78,10 @@
/// <returns>
/// A task with a result of the requested type.
/// </returns>
public static async Task<T> Put<T>(
Uri requestUri,
object payload,
string? authorization = null,
CancellationToken ct = default)
{
var jsonString = await PutString(requestUri, payload, authorization, ct)
.ConfigureAwait(false);
public static async Task<T> Put<T>(Uri requestUri, Object payload, String? authorization = null, CancellationToken ct = default) where T : notnull {
String jsonString = await PutString(requestUri, payload, authorization, ct).ConfigureAwait(false);
return !string.IsNullOrEmpty(jsonString) ? Json.Deserialize<T>(jsonString) : default;
return !String.IsNullOrEmpty(jsonString) ? Json.Deserialize<T>(jsonString) : default;
}
/// <summary>
@ -120,16 +94,10 @@
/// <returns>
/// A task with a result of the requested collection of key/value pairs.
/// </returns>
public static async Task<IDictionary<string, object>?> Put(
Uri requestUri,
object payload,
string? authorization = null,
CancellationToken cancellationToken = default)
{
var response = await Put<object>(requestUri, payload, authorization, cancellationToken)
.ConfigureAwait(false);
public static async Task<IDictionary<String, Object>?> Put(Uri requestUri, Object payload, String? authorization = null, CancellationToken cancellationToken = default) {
Object response = await Put<Object>(requestUri, payload, authorization, cancellationToken).ConfigureAwait(false);
return response as IDictionary<string, object>;
return response as IDictionary<String, Object>;
}
/// <summary>
@ -144,11 +112,7 @@
/// </returns>
/// <exception cref="ArgumentNullException">url.</exception>
/// <exception cref="JsonRequestException">Error PUT JSON.</exception>
public static Task<string> PutString(
Uri requestUri,
object payload,
string? authorization = null,
CancellationToken ct = default) => SendAsync(HttpMethod.Put, requestUri, payload, authorization, ct);
public static Task<String> PutString(Uri requestUri, Object payload, String? authorization = null, CancellationToken ct = default) => SendAsync(HttpMethod.Put, requestUri, payload, authorization, ct);
/// <summary>
/// Gets as string.
@ -161,11 +125,7 @@
/// </returns>
/// <exception cref="ArgumentNullException">url.</exception>
/// <exception cref="JsonRequestException">Error GET JSON.</exception>
public static Task<string> GetString(
Uri requestUri,
string? authorization = null,
CancellationToken ct = default)
=> GetString(requestUri, null, authorization, ct);
public static Task<String> GetString(Uri requestUri, String? authorization = null, CancellationToken ct = default) => GetString(requestUri, null, authorization, ct);
/// <summary>
/// Gets the string.
@ -177,17 +137,10 @@
/// <returns>
/// A task with a result of the requested string.
/// </returns>
public static async Task<string> GetString(
Uri uri,
IDictionary<string, IEnumerable<string>>? headers,
string? authorization = null,
CancellationToken ct = default)
{
var response = await GetHttpContent(uri, ct, authorization, headers)
.ConfigureAwait(false);
public static async Task<String> GetString(Uri uri, IDictionary<String, IEnumerable<String>>? headers, String? authorization = null, CancellationToken ct = default) {
HttpContent response = await GetHttpContent(uri, ct, authorization, headers).ConfigureAwait(false);
return await response.ReadAsStringAsync()
.ConfigureAwait(false);
return await response.ReadAsStringAsync().ConfigureAwait(false);
}
/// <summary>
@ -201,15 +154,10 @@
/// <returns>
/// A task with a result of the requested type.
/// </returns>
public static async Task<T> Get<T>(
Uri requestUri,
string? authorization = null,
CancellationToken ct = default)
{
var jsonString = await GetString(requestUri, authorization, ct)
.ConfigureAwait(false);
public static async Task<T> Get<T>(Uri requestUri, String? authorization = null, CancellationToken ct = default) where T : notnull {
String jsonString = await GetString(requestUri, authorization, ct).ConfigureAwait(false);
return !string.IsNullOrEmpty(jsonString) ? Json.Deserialize<T>(jsonString) : default;
return !String.IsNullOrEmpty(jsonString) ? Json.Deserialize<T>(jsonString) : default;
}
/// <summary>
@ -224,16 +172,10 @@
/// <returns>
/// A task with a result of the requested type.
/// </returns>
public static async Task<T> Get<T>(
Uri requestUri,
IDictionary<string, IEnumerable<string>>? headers,
string? authorization = null,
CancellationToken ct = default)
{
var jsonString = await GetString(requestUri, headers, authorization, ct)
.ConfigureAwait(false);
public static async Task<T> Get<T>(Uri requestUri, IDictionary<String, IEnumerable<String>>? headers, String? authorization = null, CancellationToken ct = default) where T : notnull {
String jsonString = await GetString(requestUri, headers, authorization, ct).ConfigureAwait(false);
return !string.IsNullOrEmpty(jsonString) ? Json.Deserialize<T>(jsonString) : default;
return !String.IsNullOrEmpty(jsonString) ? Json.Deserialize<T>(jsonString) : default;
}
/// <summary>
@ -247,16 +189,10 @@
/// </returns>
/// <exception cref="ArgumentNullException">url.</exception>
/// <exception cref="JsonRequestException">Error GET Binary.</exception>
public static async Task<byte[]> GetBinary(
Uri requestUri,
string? authorization = null,
CancellationToken ct = default)
{
var response = await GetHttpContent(requestUri, ct, authorization)
.ConfigureAwait(false);
public static async Task<Byte[]> GetBinary(Uri requestUri, String? authorization = null, CancellationToken ct = default) {
HttpContent response = await GetHttpContent(requestUri, ct, authorization).ConfigureAwait(false);
return await response.ReadAsByteArrayAsync()
.ConfigureAwait(false);
return await response.ReadAsByteArrayAsync().ConfigureAwait(false);
}
/// <summary>
@ -273,26 +209,23 @@
/// or
/// username.</exception>
/// <exception cref="SecurityException">Error Authenticating.</exception>
public static async Task<IDictionary<string, object>?> Authenticate(
Uri requestUri,
string username,
string password,
CancellationToken ct = default)
{
if (string.IsNullOrWhiteSpace(username))
public static async Task<IDictionary<String, Object>?> Authenticate(Uri requestUri, String username, String password, CancellationToken ct = default) {
if(String.IsNullOrWhiteSpace(username)) {
throw new ArgumentNullException(nameof(username));
}
// ignore empty password for now
var content = $"grant_type=password&username={username}&password={password}";
using var requestContent = new StringContent(content, Encoding.UTF8, FormType);
var response = await HttpClient.PostAsync(requestUri, requestContent, ct).ConfigureAwait(false);
String content = $"grant_type=password&username={username}&password={password}";
using StringContent requestContent = new StringContent(content, Encoding.UTF8, FormType);
HttpResponseMessage response = await HttpClient.PostAsync(requestUri, requestContent, ct).ConfigureAwait(false);
if (!response.IsSuccessStatusCode)
if(!response.IsSuccessStatusCode) {
throw new SecurityException($"Error Authenticating. Status code: {response.StatusCode}.");
}
var jsonPayload = await response.Content.ReadAsStringAsync().ConfigureAwait(false);
String jsonPayload = await response.Content.ReadAsStringAsync().ConfigureAwait(false);
return Json.Deserialize(jsonPayload) as IDictionary<string, object>;
return Json.Deserialize(jsonPayload) as IDictionary<String, Object>;
}
/// <summary>
@ -306,13 +239,7 @@
/// <returns>
/// A task with a result of the requested string.
/// </returns>
public static Task<string> PostFileString(
Uri requestUri,
byte[] buffer,
string fileName,
string? authorization = null,
CancellationToken ct = default) =>
PostString(requestUri, new { Filename = fileName, Data = buffer }, authorization, ct);
public static Task<String> PostFileString(Uri requestUri, Byte[] buffer, String fileName, String? authorization = null, CancellationToken ct = default) => PostString(requestUri, new { Filename = fileName, Data = buffer }, authorization, ct);
/// <summary>
/// Posts the file.
@ -326,13 +253,7 @@
/// <returns>
/// A task with a result of the requested string.
/// </returns>
public static Task<T> PostFile<T>(
Uri requestUri,
byte[] buffer,
string fileName,
string? authorization = null,
CancellationToken ct = default) =>
Post<T>(requestUri, new { Filename = fileName, Data = buffer }, authorization, ct);
public static Task<T> PostFile<T>(Uri requestUri, Byte[] buffer, String fileName, String? authorization = null, CancellationToken ct = default) where T : notnull => Post<T>(requestUri, new { Filename = fileName, Data = buffer }, authorization, ct);
/// <summary>
/// Sends the asynchronous request.
@ -347,72 +268,46 @@
/// </returns>
/// <exception cref="ArgumentNullException">requestUri.</exception>
/// <exception cref="JsonRequestException">Error {method} JSON.</exception>
public static async Task<string> SendAsync(
HttpMethod method,
Uri requestUri,
object payload,
string? authorization = null,
CancellationToken ct = default)
{
using var response = await GetResponse(requestUri, authorization, null, payload, method, ct).ConfigureAwait(false);
if (!response.IsSuccessStatusCode)
{
public static async Task<String> SendAsync(HttpMethod method, Uri requestUri, Object payload, String? authorization = null, CancellationToken ct = default) {
using HttpResponseMessage response = await GetResponse(requestUri, authorization, null, payload, method, ct).ConfigureAwait(false);
if(!response.IsSuccessStatusCode) {
throw new JsonRequestException(
$"Error {method} JSON",
(int)response.StatusCode,
(Int32)response.StatusCode,
await response.Content.ReadAsStringAsync().ConfigureAwait(false));
}
return await response.Content.ReadAsStringAsync()
.ConfigureAwait(false);
return await response.Content.ReadAsStringAsync().ConfigureAwait(false);
}
private static async Task<HttpContent> GetHttpContent(
Uri uri,
CancellationToken ct,
string? authorization = null,
IDictionary<string, IEnumerable<string>>? headers = null)
{
var response = await GetResponse(uri, authorization, headers, ct: ct)
.ConfigureAwait(false);
private static async Task<HttpContent> GetHttpContent(Uri uri, CancellationToken ct, String? authorization = null, IDictionary<String, IEnumerable<String>>? headers = null) {
HttpResponseMessage response = await GetResponse(uri, authorization, headers, ct: ct).ConfigureAwait(false);
return response.IsSuccessStatusCode
? response.Content
: throw new JsonRequestException("Error GET", (int)response.StatusCode);
return response.IsSuccessStatusCode ? response.Content : throw new JsonRequestException("Error GET", (Int32)response.StatusCode);
}
private static async Task<HttpResponseMessage> GetResponse(
Uri uri,
string? authorization,
IDictionary<string, IEnumerable<string>>? headers,
object? payload = null,
HttpMethod? method = default,
CancellationToken ct = default)
{
if (uri == null)
private static async Task<HttpResponseMessage> GetResponse(Uri uri, String? authorization, IDictionary<String, IEnumerable<String>>? headers, Object? payload = null, HttpMethod? method = default, CancellationToken ct = default) {
if(uri == null) {
throw new ArgumentNullException(nameof(uri));
using var requestMessage = new HttpRequestMessage(method ?? HttpMethod.Get, uri);
if (!string.IsNullOrWhiteSpace(authorization))
{
requestMessage.Headers.Authorization
= new AuthenticationHeaderValue("Bearer", authorization);
}
if (headers != null)
{
foreach (var header in headers)
using HttpRequestMessage requestMessage = new HttpRequestMessage(method ?? HttpMethod.Get, uri);
if(!String.IsNullOrWhiteSpace(authorization)) {
requestMessage.Headers.Authorization = new AuthenticationHeaderValue("Bearer", authorization);
}
if(headers != null) {
foreach(KeyValuePair<String, IEnumerable<String>> header in headers) {
requestMessage.Headers.Add(header.Key, header.Value);
}
}
if (payload != null && requestMessage.Method != HttpMethod.Get)
{
if(payload != null && requestMessage.Method != HttpMethod.Get) {
requestMessage.Content = new StringContent(Json.Serialize(payload), Encoding.UTF8, JsonMimeType);
}
return await HttpClient.SendAsync(requestMessage, ct)
.ConfigureAwait(false);
return await HttpClient.SendAsync(requestMessage, ct).ConfigureAwait(false);
}
}
}

29
Swan/Net/JsonRequestException.cs
View File

@ -1,26 +1,21 @@
namespace Swan.Net
{
using System;
using System;
namespace Swan.Net {
/// <summary>
/// Represents errors that occurs requesting a JSON file through HTTP.
/// </summary>
/// <seealso cref="System.Exception" />
[Serializable]
public class JsonRequestException
: Exception
{
public class JsonRequestException : Exception {
/// <summary>
/// Initializes a new instance of the <see cref="JsonRequestException"/> class.
/// </summary>
/// <param name="message">The message.</param>
/// <param name="httpErrorCode">The HTTP error code.</param>
/// <param name="errorContent">Content of the error.</param>
public JsonRequestException(string message, int httpErrorCode = 500, string errorContent = null)
: base(message)
{
HttpErrorCode = httpErrorCode;
HttpErrorContent = errorContent;
public JsonRequestException(String message, Int32 httpErrorCode = 500, String errorContent = null) : base(message) {
this.HttpErrorCode = httpErrorCode;
this.HttpErrorContent = errorContent;
}
/// <summary>
@ -29,7 +24,9 @@
/// <value>
/// The HTTP error code.
/// </value>
public int HttpErrorCode { get; }
public Int32 HttpErrorCode {
get;
}
/// <summary>
/// Gets the content of the HTTP error.
@ -37,11 +34,11 @@
/// <value>
/// The content of the HTTP error.
/// </value>
public string HttpErrorContent { get; }
public String HttpErrorContent {
get;
}
/// <inheritdoc />
public override string ToString() => string.IsNullOrEmpty(HttpErrorContent)
? $"HTTP Response Status Code {HttpErrorCode} Error Message: {HttpErrorContent}"
: base.ToString();
public override String ToString() => String.IsNullOrEmpty(this.HttpErrorContent) ? $"HTTP Response Status Code {this.HttpErrorCode} Error Message: {this.HttpErrorContent}" : base.ToString();
}
}

205
Swan/Net/Network.cs
View File

@ -1,31 +1,29 @@
namespace Swan.Net
{
using Net.Dns;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Net;
using System.Net.Http;
using System.Net.NetworkInformation;
using System.Net.Sockets;
using System.Threading;
using System.Threading.Tasks;
using Swan.Net.Dns;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Net;
using System.Net.Http;
using System.Net.NetworkInformation;
using System.Net.Sockets;
using System.Threading;
using System.Threading.Tasks;
namespace Swan.Net {
/// <summary>
/// Provides miscellaneous network utilities such as a Public IP finder,
/// a DNS client to query DNS records of any kind, and an NTP client.
/// </summary>
public static class Network
{
public static class Network {
/// <summary>
/// The DNS default port.
/// </summary>
public const int DnsDefaultPort = 53;
public const Int32 DnsDefaultPort = 53;
/// <summary>
/// The NTP default port.
/// </summary>
public const int NtpDefaultPort = 123;
public const Int32 NtpDefaultPort = 123;
/// <summary>
/// Gets the name of the host.
@ -33,7 +31,7 @@
/// <value>
/// The name of the host.
/// </value>
public static string HostName => IPGlobalProperties.GetIPGlobalProperties().HostName;
public static String HostName => IPGlobalProperties.GetIPGlobalProperties().HostName;
/// <summary>
/// Gets the name of the network domain.
@ -41,7 +39,7 @@
/// <value>
/// The name of the network domain.
/// </value>
public static string DomainName => IPGlobalProperties.GetIPGlobalProperties().DomainName;
public static String DomainName => IPGlobalProperties.GetIPGlobalProperties().DomainName;
#region IP Addresses and Adapters Information Methods
@ -53,31 +51,19 @@
/// A collection of NetworkInterface/IPInterfaceProperties pairs
/// that represents the active IPv4 interfaces.
/// </returns>
public static Dictionary<NetworkInterface, IPInterfaceProperties> GetIPv4Interfaces()
{
public static Dictionary<NetworkInterface, IPInterfaceProperties> GetIPv4Interfaces() {
// zero conf ip address
var zeroConf = new IPAddress(0);
IPAddress zeroConf = new IPAddress(0);
var adapters = NetworkInterface.GetAllNetworkInterfaces()
.Where(network =>
network.OperationalStatus == OperationalStatus.Up
&& network.NetworkInterfaceType != NetworkInterfaceType.Unknown
&& network.NetworkInterfaceType != NetworkInterfaceType.Loopback)
.ToArray();
NetworkInterface[] adapters = NetworkInterface.GetAllNetworkInterfaces().Where(network => network.OperationalStatus == OperationalStatus.Up && network.NetworkInterfaceType != NetworkInterfaceType.Unknown && network.NetworkInterfaceType != NetworkInterfaceType.Loopback).ToArray();
var result = new Dictionary<NetworkInterface, IPInterfaceProperties>();
Dictionary<NetworkInterface, IPInterfaceProperties> result = new Dictionary<NetworkInterface, IPInterfaceProperties>();
foreach (var adapter in adapters)
{
var properties = adapter.GetIPProperties();
if (properties == null
|| properties.GatewayAddresses.Count == 0
|| properties.GatewayAddresses.All(gateway => Equals(gateway.Address, zeroConf))
|| properties.UnicastAddresses.Count == 0
|| properties.GatewayAddresses.All(address => Equals(address.Address, zeroConf))
|| properties.UnicastAddresses.Any(a => a.Address.AddressFamily == AddressFamily.InterNetwork) ==
false)
foreach(NetworkInterface adapter in adapters) {
IPInterfaceProperties properties = adapter.GetIPProperties();
if(properties == null || properties.GatewayAddresses.Count == 0 || properties.GatewayAddresses.All(gateway => Equals(gateway.Address, zeroConf)) || properties.UnicastAddresses.Count == 0 || properties.GatewayAddresses.All(address => Equals(address.Address, zeroConf)) || properties.UnicastAddresses.Any(a => a.Address.AddressFamily == AddressFamily.InterNetwork) == false) {
continue;
}
result[adapter] = properties;
}
@ -90,8 +76,7 @@
/// </summary>
/// <param name="includeLoopback">if set to <c>true</c> [include loopback].</param>
/// <returns>An array of local ip addresses.</returns>
public static IPAddress[] GetIPv4Addresses(bool includeLoopback = true) =>
GetIPv4Addresses(NetworkInterfaceType.Unknown, true, includeLoopback);
public static IPAddress[] GetIPv4Addresses(Boolean includeLoopback = true) => GetIPv4Addresses(NetworkInterfaceType.Unknown, true, includeLoopback);
/// <summary>
/// Retrieves the local ip addresses.
@ -100,35 +85,24 @@
/// <param name="skipTypeFilter">if set to <c>true</c> [skip type filter].</param>
/// <param name="includeLoopback">if set to <c>true</c> [include loopback].</param>
/// <returns>An array of local ip addresses.</returns>
public static IPAddress[] GetIPv4Addresses(
NetworkInterfaceType interfaceType,
bool skipTypeFilter = false,
bool includeLoopback = false)
{
var addressList = new List<IPAddress>();
var interfaces = NetworkInterface.GetAllNetworkInterfaces()
.Where(ni =>
#if NET461
ni.IsReceiveOnly == false &&
#endif
(skipTypeFilter || ni.NetworkInterfaceType == interfaceType) &&
ni.OperationalStatus == OperationalStatus.Up)
.ToArray();
public static IPAddress[] GetIPv4Addresses(NetworkInterfaceType interfaceType, Boolean skipTypeFilter = false, Boolean includeLoopback = false) {
List<IPAddress> addressList = new List<IPAddress>();
NetworkInterface[] interfaces = NetworkInterface.GetAllNetworkInterfaces()
.Where(ni => (skipTypeFilter || ni.NetworkInterfaceType == interfaceType) && ni.OperationalStatus == OperationalStatus.Up).ToArray();
foreach (var networkInterface in interfaces)
{
var properties = networkInterface.GetIPProperties();
foreach(NetworkInterface networkInterface in interfaces) {
IPInterfaceProperties properties = networkInterface.GetIPProperties();
if (properties.GatewayAddresses.All(g => g.Address.AddressFamily != AddressFamily.InterNetwork))
if(properties.GatewayAddresses.All(g => g.Address.AddressFamily != AddressFamily.InterNetwork)) {
continue;
addressList.AddRange(properties.UnicastAddresses
.Where(i => i.Address.AddressFamily == AddressFamily.InterNetwork)
.Select(i => i.Address));
}
if (includeLoopback || interfaceType == NetworkInterfaceType.Loopback)
addressList.AddRange(properties.UnicastAddresses.Where(i => i.Address.AddressFamily == AddressFamily.InterNetwork).Select(i => i.Address));
}
if(includeLoopback || interfaceType == NetworkInterfaceType.Loopback) {
addressList.Add(IPAddress.Loopback);
}
return addressList.ToArray();
}
@ -138,10 +112,9 @@
/// </summary>
/// <param name="cancellationToken">The cancellation token.</param>
/// <returns>A public IP address of the result produced by this Task.</returns>
public static async Task<IPAddress> GetPublicIPAddressAsync(CancellationToken cancellationToken = default)
{
using var client = new HttpClient();
var response = await client.GetAsync("https://api.ipify.org", cancellationToken).ConfigureAwait(false);
public static async Task<IPAddress> GetPublicIPAddressAsync(CancellationToken cancellationToken = default) {
using HttpClient client = new HttpClient();
HttpResponseMessage response = await client.GetAsync("https://api.ipify.org", cancellationToken).ConfigureAwait(false);
return IPAddress.Parse(await response.Content.ReadAsStringAsync().ConfigureAwait(false));
}
@ -152,11 +125,7 @@
/// A collection of NetworkInterface/IPInterfaceProperties pairs
/// that represents the active IPv4 interfaces.
/// </returns>
public static IPAddress[] GetIPv4DnsServers()
=> GetIPv4Interfaces()
.Select(a => a.Value.DnsAddresses.Where(d => d.AddressFamily == AddressFamily.InterNetwork))
.SelectMany(d => d)
.ToArray();
public static IPAddress[] GetIPv4DnsServers() => GetIPv4Interfaces().Select(a => a.Value.DnsAddresses.Where(d => d.AddressFamily == AddressFamily.InterNetwork)).SelectMany(d => d).ToArray();
#endregion
@ -167,9 +136,8 @@
/// </summary>
/// <param name="fqdn">The FQDN.</param>
/// <returns>An array of local ip addresses of the result produced by this task.</returns>
public static Task<IPAddress[]> GetDnsHostEntryAsync(string fqdn)
{
var dnsServer = GetIPv4DnsServers().FirstOrDefault() ?? IPAddress.Parse("8.8.8.8");
public static Task<IPAddress[]> GetDnsHostEntryAsync(String fqdn) {
IPAddress dnsServer = GetIPv4DnsServers().FirstOrDefault() ?? IPAddress.Parse("8.8.8.8");
return GetDnsHostEntryAsync(fqdn, dnsServer, DnsDefaultPort);
}
@ -183,25 +151,25 @@
/// An array of local ip addresses of the result produced by this task.
/// </returns>
/// <exception cref="ArgumentNullException">fqdn.</exception>
public static async Task<IPAddress[]> GetDnsHostEntryAsync(string fqdn, IPAddress dnsServer, int port)
{
if (fqdn == null)
public static async Task<IPAddress[]> GetDnsHostEntryAsync(String fqdn, IPAddress dnsServer, Int32 port) {
if(fqdn == null) {
throw new ArgumentNullException(nameof(fqdn));
}
if (fqdn.IndexOf(".", StringComparison.Ordinal) == -1)
{
if(fqdn.IndexOf(".", StringComparison.Ordinal) == -1) {
fqdn += "." + IPGlobalProperties.GetIPGlobalProperties().DomainName;
}
while (true)
{
if (!fqdn.EndsWith(".", StringComparison.OrdinalIgnoreCase)) break;
fqdn = fqdn.Substring(0, fqdn.Length - 1);
while(true) {
if(!fqdn.EndsWith(".", StringComparison.OrdinalIgnoreCase)) {
break;
}
var client = new DnsClient(dnsServer, port);
var result = await client.Lookup(fqdn).ConfigureAwait(false);
fqdn = fqdn[0..^1];
}
DnsClient client = new DnsClient(dnsServer, port);
IList<IPAddress> result = await client.Lookup(fqdn).ConfigureAwait(false);
return result.ToArray();
}
@ -212,9 +180,8 @@
/// <param name="dnsServer">The DNS server.</param>
/// <param name="port">The port.</param>
/// <returns>A <see cref="System.String" /> that represents the current object.</returns>
public static Task<string> GetDnsPointerEntryAsync(IPAddress query, IPAddress dnsServer, int port)
{
var client = new DnsClient(dnsServer, port);
public static Task<String> GetDnsPointerEntryAsync(IPAddress query, IPAddress dnsServer, Int32 port) {
DnsClient client = new DnsClient(dnsServer, port);
return client.Reverse(query);
}
@ -223,9 +190,8 @@
/// </summary>
/// <param name="query">The query.</param>
/// <returns>A <see cref="System.String" /> that represents the current object.</returns>
public static Task<string> GetDnsPointerEntryAsync(IPAddress query)
{
var client = new DnsClient(GetIPv4DnsServers().FirstOrDefault());
public static Task<String> GetDnsPointerEntryAsync(IPAddress query) {
DnsClient client = new DnsClient(GetIPv4DnsServers().FirstOrDefault());
return client.Reverse(query);
}
@ -237,13 +203,13 @@
/// <param name="dnsServer">The DNS server.</param>
/// <param name="port">The port.</param>
/// <returns>Queries the DNS server for the specified record type of the result produced by this Task.</returns>
public static async Task<DnsQueryResult> QueryDnsAsync(string query, DnsRecordType recordType, IPAddress dnsServer, int port)
{
if (query == null)
public static async Task<DnsQueryResult> QueryDnsAsync(String query, DnsRecordType recordType, IPAddress dnsServer, Int32 port) {
if(query == null) {
throw new ArgumentNullException(nameof(query));
}
var client = new DnsClient(dnsServer, port);
var response = await client.Resolve(query, recordType).ConfigureAwait(false);
DnsClient client = new DnsClient(dnsServer, port);
DnsClient.DnsClientResponse response = await client.Resolve(query, recordType).ConfigureAwait(false);
return new DnsQueryResult(response);
}
@ -253,7 +219,7 @@
/// <param name="query">The query.</param>
/// <param name="recordType">Type of the record.</param>
/// <returns>Queries the DNS server for the specified record type of the result produced by this Task.</returns>
public static Task<DnsQueryResult> QueryDnsAsync(string query, DnsRecordType recordType) => QueryDnsAsync(query, recordType, GetIPv4DnsServers().FirstOrDefault(), DnsDefaultPort);
public static Task<DnsQueryResult> QueryDnsAsync(String query, DnsRecordType recordType) => QueryDnsAsync(query, recordType, GetIPv4DnsServers().FirstOrDefault(), DnsDefaultPort);
/// <summary>
/// Gets the UTC time by querying from an NTP server.
@ -261,53 +227,50 @@
/// <param name="ntpServerAddress">The NTP server address.</param>
/// <param name="port">The port.</param>
/// <returns>The UTC time by querying from an NTP server of the result produced by this Task.</returns>
public static async Task<DateTime> GetNetworkTimeUtcAsync(IPAddress ntpServerAddress, int port = NtpDefaultPort)
{
if (ntpServerAddress == null)
public static async Task<DateTime> GetNetworkTimeUtcAsync(IPAddress ntpServerAddress, Int32 port = NtpDefaultPort) {
if(ntpServerAddress == null) {
throw new ArgumentNullException(nameof(ntpServerAddress));
}
// NTP message size - 16 bytes of the digest (RFC 2030)
var ntpData = new byte[48];
Byte[] ntpData = new Byte[48];
// Setting the Leap Indicator, Version Number and Mode values
ntpData[0] = 0x1B; // LI = 0 (no warning), VN = 3 (IPv4 only), Mode = 3 (Client Mode)
// The UDP port number assigned to NTP is 123
var endPoint = new IPEndPoint(ntpServerAddress, port);
var socket = new Socket(AddressFamily.InterNetwork, SocketType.Dgram, ProtocolType.Udp);
IPEndPoint endPoint = new IPEndPoint(ntpServerAddress, port);
Socket socket = new Socket(AddressFamily.InterNetwork, SocketType.Dgram, ProtocolType.Udp);
#if !NET461
await socket.ConnectAsync(endPoint).ConfigureAwait(false);
#else
socket.Connect(endPoint);
#endif
socket.ReceiveTimeout = 3000; // Stops code hang if NTP is blocked
socket.Send(ntpData);
socket.Receive(ntpData);
_ = socket.Send(ntpData);
_ = socket.Receive(ntpData);
socket.Dispose();
// Offset to get to the "Transmit Timestamp" field (time at which the reply
// departed the server for the client, in 64-bit timestamp format."
const byte serverReplyTime = 40;
const Byte serverReplyTime = 40;
// Get the seconds part
ulong intPart = BitConverter.ToUInt32(ntpData, serverReplyTime);
UInt64 intPart = BitConverter.ToUInt32(ntpData, serverReplyTime);
// Get the seconds fraction
ulong fractPart = BitConverter.ToUInt32(ntpData, serverReplyTime + 4);
UInt64 fractPart = BitConverter.ToUInt32(ntpData, serverReplyTime + 4);
// Convert From big-endian to little-endian to match the platform
if (BitConverter.IsLittleEndian)
{
if(BitConverter.IsLittleEndian) {
intPart = intPart.SwapEndianness();
fractPart = intPart.SwapEndianness();
}
var milliseconds = (intPart * 1000) + ((fractPart * 1000) / 0x100000000L);
UInt64 milliseconds = intPart * 1000 + fractPart * 1000 / 0x100000000L;
// The time is given in UTC
return new DateTime(1900, 1, 1, 0, 0, 0, DateTimeKind.Utc).AddMilliseconds((long) milliseconds);
return new DateTime(1900, 1, 1, 0, 0, 0, DateTimeKind.Utc).AddMilliseconds((Int64)milliseconds);
}
/// <summary>
@ -316,10 +279,8 @@
/// <param name="ntpServerName">The NTP server, by default pool.ntp.org.</param>
/// <param name="port">The port, by default NTP 123.</param>
/// <returns>The UTC time by querying from an NTP server of the result produced by this Task.</returns>
public static async Task<DateTime> GetNetworkTimeUtcAsync(string ntpServerName = "pool.ntp.org",
int port = NtpDefaultPort)
{
var addresses = await GetDnsHostEntryAsync(ntpServerName).ConfigureAwait(false);
public static async Task<DateTime> GetNetworkTimeUtcAsync(String ntpServerName = "pool.ntp.org", Int32 port = NtpDefaultPort) {
IPAddress[] addresses = await GetDnsHostEntryAsync(ntpServerName).ConfigureAwait(false);
return await GetNetworkTimeUtcAsync(addresses.First(), port).ConfigureAwait(false);
}

12
Swan/Net/Smtp/Enums.Smtp.cs
View File

@ -1,11 +1,9 @@
// ReSharper disable InconsistentNaming
namespace Swan.Net.Smtp
{
namespace Swan.Net.Smtp {
/// <summary>
/// Enumerates all of the well-known SMTP command names.
/// </summary>
public enum SmtpCommandNames
{
public enum SmtpCommandNames {
/// <summary>
/// An unknown command
/// </summary>
@ -95,8 +93,7 @@ namespace Swan.Net.Smtp
/// <summary>
/// Enumerates the reply code severities.
/// </summary>
public enum SmtpReplyCodeSeverities
{
public enum SmtpReplyCodeSeverities {
/// <summary>
/// The unknown severity
/// </summary>
@ -126,8 +123,7 @@ namespace Swan.Net.Smtp
/// <summary>
/// Enumerates the reply code categories.
/// </summary>
public enum SmtpReplyCodeCategories
{
public enum SmtpReplyCodeCategories {
/// <summary>
/// The unknown category
/// </summary>

194
Swan/Net/Smtp/SmtpClient.cs
View File

@ -1,17 +1,17 @@
namespace Swan.Net.Smtp
{
using System.Threading;
using System;
using System.Linq;
using System.Net;
using System.Net.Sockets;
using System.Security;
using System.Text;
using System.Net.Security;
using System.Threading.Tasks;
using System.Collections.Generic;
using System.Net.Mail;
#nullable enable
using System.Threading;
using System;
using System.Linq;
using System.Net;
using System.Net.Sockets;
using System.Security;
using System.Text;
using System.Net.Security;
using System.Threading.Tasks;
using System.Collections.Generic;
using System.Net.Mail;
namespace Swan.Net.Smtp {
/// <summary>
/// Represents a basic SMTP client that is capable of submitting messages to an SMTP server.
/// </summary>
@ -92,19 +92,17 @@
/// }
/// </code>
/// </example>
public class SmtpClient
{
public class SmtpClient {
/// <summary>
/// Initializes a new instance of the <see cref="SmtpClient" /> class.
/// </summary>
/// <param name="host">The host.</param>
/// <param name="port">The port.</param>
/// <exception cref="ArgumentNullException">host.</exception>
public SmtpClient(string host, int port)
{
Host = host ?? throw new ArgumentNullException(nameof(host));
Port = port;
ClientHostname = Network.HostName;
public SmtpClient(String host, Int32 port) {
this.Host = host ?? throw new ArgumentNullException(nameof(host));
this.Port = port;
this.ClientHostname = Network.HostName;
}
/// <summary>
@ -113,7 +111,9 @@
/// <value>
/// The credentials.
/// </value>
public NetworkCredential Credentials { get; set; }
public NetworkCredential? Credentials {
get; set;
}
/// <summary>
/// Gets the host.
@ -121,7 +121,9 @@
/// <value>
/// The host.
/// </value>
public string Host { get; }
public String Host {
get;
}
/// <summary>
/// Gets the port.
@ -129,7 +131,9 @@
/// <value>
/// The port.
/// </value>
public int Port { get; }
public Int32 Port {
get;
}
/// <summary>
/// Gets or sets a value indicating whether the SSL is enabled.
@ -138,7 +142,9 @@
/// <value>
/// <c>true</c> if [enable SSL]; otherwise, <c>false</c>.
/// </value>
public bool EnableSsl { get; set; }
public Boolean EnableSsl {
get; set;
}
/// <summary>
/// Gets or sets the name of the client that gets announced to the server.
@ -146,7 +152,10 @@
/// <value>
/// The client hostname.
/// </value>
public string ClientHostname { get; set; }
public String ClientHostname {
get; set;
}
/// <summary>
/// Sends an email message asynchronously.
@ -159,37 +168,31 @@
/// A task that represents the asynchronous of send email operation.
/// </returns>
/// <exception cref="ArgumentNullException">message.</exception>
public Task SendMailAsync(
MailMessage message,
string? sessionId = null,
RemoteCertificateValidationCallback? callback = null,
CancellationToken cancellationToken = default)
{
if (message == null)
[System.Diagnostics.CodeAnalysis.SuppressMessage("Codequalität", "IDE0067:Objekte verwerfen, bevor Bereich verloren geht", Justification = "<Ausstehend>")]
public Task SendMailAsync(MailMessage message, String? sessionId = null, RemoteCertificateValidationCallback? callback = null, CancellationToken cancellationToken = default) {
if(message == null) {
throw new ArgumentNullException(nameof(message));
}
var state = new SmtpSessionState
{
AuthMode = Credentials == null ? string.Empty : SmtpDefinitions.SmtpAuthMethods.Login,
SmtpSessionState state = new SmtpSessionState {
AuthMode = this.Credentials == null ? String.Empty : SmtpDefinitions.SmtpAuthMethods.Login,
ClientHostname = ClientHostname,
IsChannelSecure = EnableSsl,
SenderAddress = message.From.Address,
};
if (Credentials != null)
{
state.Username = Credentials.UserName;
state.Password = Credentials.Password;
if(this.Credentials != null) {
state.Username = this.Credentials.UserName;
state.Password = this.Credentials.Password;
}
foreach (var recipient in message.To)
{
foreach(MailAddress recipient in message.To) {
state.Recipients.Add(recipient.Address);
}
state.DataBuffer.AddRange(message.ToMimeMessage().ToArray());
return SendMailAsync(state, sessionId, callback, cancellationToken);
return this.SendMailAsync(state, sessionId, callback, cancellationToken);
}
/// <summary>
@ -205,16 +208,12 @@
/// A task that represents the asynchronous of send email operation.
/// </returns>
/// <exception cref="ArgumentNullException">sessionState.</exception>
public Task SendMailAsync(
SmtpSessionState sessionState,
string? sessionId = null,
RemoteCertificateValidationCallback? callback = null,
CancellationToken cancellationToken = default)
{
if (sessionState == null)
public Task SendMailAsync(SmtpSessionState sessionState, String? sessionId = null, RemoteCertificateValidationCallback? callback = null, CancellationToken cancellationToken = default) {
if(sessionState == null) {
throw new ArgumentNullException(nameof(sessionState));
}
return SendMailAsync(new[] { sessionState }, sessionId, callback, cancellationToken);
return this.SendMailAsync(new[] { sessionState }, sessionId, callback, cancellationToken);
}
/// <summary>
@ -232,54 +231,47 @@
/// <exception cref="ArgumentNullException">sessionStates.</exception>
/// <exception cref="SecurityException">Could not upgrade the channel to SSL.</exception>
/// <exception cref="SmtpException">Defines an SMTP Exceptions class.</exception>
public async Task SendMailAsync(
IEnumerable<SmtpSessionState> sessionStates,
string? sessionId = null,
RemoteCertificateValidationCallback? callback = null,
CancellationToken cancellationToken = default)
{
if (sessionStates == null)
public async Task SendMailAsync(IEnumerable<SmtpSessionState> sessionStates, String? sessionId = null, RemoteCertificateValidationCallback? callback = null, CancellationToken cancellationToken = default) {
if(sessionStates == null) {
throw new ArgumentNullException(nameof(sessionStates));
}
using var tcpClient = new TcpClient();
await tcpClient.ConnectAsync(Host, Port).ConfigureAwait(false);
using TcpClient tcpClient = new TcpClient();
await tcpClient.ConnectAsync(this.Host, this.Port).ConfigureAwait(false);
using var connection = new Connection(tcpClient, Encoding.UTF8, "\r\n", true, 1000);
var sender = new SmtpSender(sessionId);
using Connection connection = new Connection(tcpClient, Encoding.UTF8, "\r\n", true, 1000);
SmtpSender sender = new SmtpSender(sessionId);
try
{
try {
// Read the greeting message
sender.ReplyText = await connection.ReadLineAsync(cancellationToken).ConfigureAwait(false);
// EHLO 1
await SendEhlo(sender, connection, cancellationToken).ConfigureAwait(false);
await this.SendEhlo(sender, connection, cancellationToken).ConfigureAwait(false);
// STARTTLS
if (EnableSsl)
{
if(this.EnableSsl) {
sender.RequestText = $"{SmtpCommandNames.STARTTLS}";
await connection.WriteLineAsync(sender.RequestText, cancellationToken).ConfigureAwait(false);
sender.ReplyText = await connection.ReadLineAsync(cancellationToken).ConfigureAwait(false);
sender.ValidateReply();
if (await connection.UpgradeToSecureAsClientAsync(callback: callback).ConfigureAwait(false) == false)
if(await connection.UpgradeToSecureAsClientAsync(callback: callback).ConfigureAwait(false) == false) {
throw new SecurityException("Could not upgrade the channel to SSL.");
}
}
// EHLO 2
await SendEhlo(sender, connection, cancellationToken).ConfigureAwait(false);
await this.SendEhlo(sender, connection, cancellationToken).ConfigureAwait(false);
// AUTH
if (Credentials != null)
{
var auth = new ConnectionAuth(connection, sender, Credentials);
if(this.Credentials != null) {
ConnectionAuth auth = new ConnectionAuth(connection, sender, this.Credentials);
await auth.AuthenticateAsync(cancellationToken).ConfigureAwait(false);
}
foreach (var sessionState in sessionStates)
{
foreach(SmtpSessionState sessionState in sessionStates) {
{
// MAIL FROM
sender.RequestText = $"{SmtpCommandNames.MAIL} FROM:<{sessionState.SenderAddress}>";
@ -290,8 +282,7 @@
}
// RCPT TO
foreach (var recipient in sessionState.Recipients)
{
foreach(String recipient in sessionState.Recipients) {
sender.RequestText = $"{SmtpCommandNames.RCPT} TO:<{recipient}>";
await connection.WriteLineAsync(sender.RequestText, cancellationToken).ConfigureAwait(false);
@ -310,16 +301,15 @@
{
// CONTENT
var dataTerminator = sessionState.DataBuffer
.Skip(sessionState.DataBuffer.Count - 5)
.ToText();
String dataTerminator = sessionState.DataBuffer.Skip(sessionState.DataBuffer.Count - 5).ToText();
sender.RequestText = $"Buffer ({sessionState.DataBuffer.Count} bytes)";
await connection.WriteDataAsync(sessionState.DataBuffer.ToArray(), true, cancellationToken).ConfigureAwait(false);
if (!dataTerminator.EndsWith(SmtpDefinitions.SmtpDataCommandTerminator))
if(!dataTerminator.EndsWith(SmtpDefinitions.SmtpDataCommandTerminator)) {
await connection.WriteTextAsync(SmtpDefinitions.SmtpDataCommandTerminator, cancellationToken).ConfigureAwait(false);
}
sender.ReplyText = await connection.ReadLineAsync(cancellationToken).ConfigureAwait(false);
sender.ValidateReply();
@ -334,54 +324,46 @@
sender.ReplyText = await connection.ReadLineAsync(cancellationToken).ConfigureAwait(false);
sender.ValidateReply();
}
}
catch (Exception ex)
{
} catch(Exception ex) {
throw new SmtpException($"Could not send email - Session ID {sessionId}. {ex.Message}\r\n Last Request: {sender.RequestText}\r\n Last Reply: {sender.ReplyText}");
}
}
private async Task SendEhlo(SmtpSender sender, Connection connection, CancellationToken cancellationToken)
{
sender.RequestText = $"{SmtpCommandNames.EHLO} {ClientHostname}";
private async Task SendEhlo(SmtpSender sender, Connection connection, CancellationToken cancellationToken) {
sender.RequestText = $"{SmtpCommandNames.EHLO} {this.ClientHostname}";
await connection.WriteLineAsync(sender.RequestText, cancellationToken).ConfigureAwait(false);
do
{
do {
sender.ReplyText = await connection.ReadLineAsync(cancellationToken).ConfigureAwait(false);
}
while (!sender.IsReplyOk);
while(!sender.IsReplyOk);
sender.ValidateReply();
}
private class ConnectionAuth
{
private class ConnectionAuth {
private readonly SmtpSender _sender;
private readonly Connection _connection;
private readonly NetworkCredential _credentials;
public ConnectionAuth(Connection connection, SmtpSender sender, NetworkCredential credentials)
{
_connection = connection;
_sender = sender;
_credentials = credentials;
public ConnectionAuth(Connection connection, SmtpSender sender, NetworkCredential credentials) {
this._connection = connection;
this._sender = sender;
this._credentials = credentials;
}
public async Task AuthenticateAsync(CancellationToken ct)
{
_sender.RequestText =
$"{SmtpCommandNames.AUTH} {SmtpDefinitions.SmtpAuthMethods.Login} {Convert.ToBase64String(Encoding.UTF8.GetBytes(_credentials.UserName))}";
public async Task AuthenticateAsync(CancellationToken ct) {
this._sender.RequestText = $"{SmtpCommandNames.AUTH} {SmtpDefinitions.SmtpAuthMethods.Login} {Convert.ToBase64String(Encoding.UTF8.GetBytes(this._credentials.UserName))}";
await _connection.WriteLineAsync(_sender.RequestText, ct).ConfigureAwait(false);
_sender.ReplyText = await _connection.ReadLineAsync(ct).ConfigureAwait(false);
_sender.ValidateReply();
_sender.RequestText = Convert.ToBase64String(Encoding.UTF8.GetBytes(_credentials.Password));
await this._connection.WriteLineAsync(this._sender.RequestText, ct).ConfigureAwait(false);
this._sender.ReplyText = await this._connection.ReadLineAsync(ct).ConfigureAwait(false);
this._sender.ValidateReply();
this._sender.RequestText = Convert.ToBase64String(Encoding.UTF8.GetBytes(this._credentials.Password));
await _connection.WriteLineAsync(_sender.RequestText, ct).ConfigureAwait(false);
_sender.ReplyText = await _connection.ReadLineAsync(ct).ConfigureAwait(false);
_sender.ValidateReply();
await this._connection.WriteLineAsync(this._sender.RequestText, ct).ConfigureAwait(false);
this._sender.ReplyText = await this._connection.ReadLineAsync(ct).ConfigureAwait(false);
this._sender.ValidateReply();
}
}
}

17
Swan/Net/Smtp/SmtpDefinitions.cs
View File

@ -1,29 +1,28 @@
namespace Swan.Net.Smtp
{
using System;
namespace Swan.Net.Smtp {
/// <summary>
/// Contains useful constants and definitions.
/// </summary>
public static class SmtpDefinitions
{
public static class SmtpDefinitions {
/// <summary>
/// The string sequence that delimits the end of the DATA command.
/// </summary>
public const string SmtpDataCommandTerminator = "\r\n.\r\n";
public const String SmtpDataCommandTerminator = "\r\n.\r\n";
/// <summary>
/// Lists the AUTH methods supported by default.
/// </summary>
public static class SmtpAuthMethods
{
public static class SmtpAuthMethods {
/// <summary>
/// The plain method.
/// </summary>
public const string Plain = "PLAIN";
public const String Plain = "PLAIN";
/// <summary>
/// The login method.
/// </summary>
public const string Login = "LOGIN";
public const String Login = "LOGIN";
}
}
}

69
Swan/Net/Smtp/SmtpSender.cs
View File

@ -1,59 +1,52 @@
namespace Swan.Net.Smtp
{
using Logging;
using System;
using System.Linq;
using System.Net.Mail;
using Swan.Logging;
using System;
using System.Linq;
using System.Net.Mail;
namespace Swan.Net.Smtp {
/// <summary>
/// Use this class to store the sender session data.
/// </summary>
internal class SmtpSender
{
private readonly string _sessionId;
private string _requestText;
internal class SmtpSender {
private readonly String _sessionId;
private String _requestText;
public SmtpSender(string sessionId)
{
_sessionId = sessionId;
}
public SmtpSender(String sessionId) => this._sessionId = sessionId;
public string RequestText
{
get => _requestText;
set
{
_requestText = value;
$" TX {_requestText}".Trace(typeof(SmtpClient), _sessionId);
public String RequestText {
get => this._requestText;
set {
this._requestText = value;
$" TX {this._requestText}".Trace(typeof(SmtpClient), this._sessionId);
}
}
public string ReplyText { get; set; }
public String ReplyText {
get; set;
}
public bool IsReplyOk => ReplyText.StartsWith("250 ", StringComparison.OrdinalIgnoreCase);
public Boolean IsReplyOk => this.ReplyText.StartsWith("250 ", StringComparison.OrdinalIgnoreCase);
public void ValidateReply()
{
if (ReplyText == null)
public void ValidateReply() {
if(this.ReplyText == null) {
throw new SmtpException("There was no response from the server");
}
try
{
var response = SmtpServerReply.Parse(ReplyText);
$" RX {ReplyText} - {response.IsPositive}".Trace(typeof(SmtpClient), _sessionId);
try {
SmtpServerReply response = SmtpServerReply.Parse(this.ReplyText);
$" RX {this.ReplyText} - {response.IsPositive}".Trace(typeof(SmtpClient), this._sessionId);
if (response.IsPositive) return;
if(response.IsPositive) {
return;
}
var responseContent = response.Content.Any()
? string.Join(";", response.Content.ToArray())
: string.Empty;
String responseContent = response.Content.Any() ? String.Join(";", response.Content.ToArray()) : String.Empty;
throw new SmtpException((SmtpStatusCode)response.ReplyCode, responseContent);
} catch(Exception ex) {
if(!(ex is SmtpException)) {
throw new SmtpException($"Could not parse server response: {this.ReplyText}");
}
catch (Exception ex)
{
if (!(ex is SmtpException))
throw new SmtpException($"Could not parse server response: {ReplyText}");
}
}
}

185
Swan/Net/Smtp/SmtpServerReply.cs
View File

@ -1,16 +1,14 @@
namespace Swan.Net.Smtp
{
using System;
using System.Collections.Generic;
using System.Globalization;
using System.Linq;
using System.Text;
using System;
using System.Collections.Generic;
using System.Globalization;
using System.Linq;
using System.Text;
namespace Swan.Net.Smtp {
/// <summary>
/// Represents an SMTP server response object.
/// </summary>
public class SmtpServerReply
{
public class SmtpServerReply {
#region Constructors
/// <summary>
@ -19,36 +17,50 @@
/// <param name="responseCode">The response code.</param>
/// <param name="statusCode">The status code.</param>
/// <param name="content">The content.</param>
public SmtpServerReply(int responseCode, string statusCode, params string[] content)
{
Content = new List<string>();
ReplyCode = responseCode;
EnhancedStatusCode = statusCode;
Content.AddRange(content);
IsValid = responseCode >= 200 && responseCode < 600;
ReplyCodeSeverity = SmtpReplyCodeSeverities.Unknown;
ReplyCodeCategory = SmtpReplyCodeCategories.Unknown;
public SmtpServerReply(Int32 responseCode, String statusCode, params String[] content) {
this.Content = new List<String>();
this.ReplyCode = responseCode;
this.EnhancedStatusCode = statusCode;
this.Content.AddRange(content);
this.IsValid = responseCode >= 200 && responseCode < 600;
this.ReplyCodeSeverity = SmtpReplyCodeSeverities.Unknown;
this.ReplyCodeCategory = SmtpReplyCodeCategories.Unknown;
if (!IsValid) return;
if (responseCode >= 200) ReplyCodeSeverity = SmtpReplyCodeSeverities.PositiveCompletion;
if (responseCode >= 300) ReplyCodeSeverity = SmtpReplyCodeSeverities.PositiveIntermediate;
if (responseCode >= 400) ReplyCodeSeverity = SmtpReplyCodeSeverities.TransientNegative;
if (responseCode >= 500) ReplyCodeSeverity = SmtpReplyCodeSeverities.PermanentNegative;
if (responseCode >= 600) ReplyCodeSeverity = SmtpReplyCodeSeverities.Unknown;
if(!this.IsValid) {
return;
}
if (int.TryParse(responseCode.ToString(CultureInfo.InvariantCulture).Substring(1, 1), out var middleDigit))
{
if (middleDigit >= 0 && middleDigit <= 5)
ReplyCodeCategory = (SmtpReplyCodeCategories) middleDigit;
if(responseCode >= 200) {
this.ReplyCodeSeverity = SmtpReplyCodeSeverities.PositiveCompletion;
}
if(responseCode >= 300) {
this.ReplyCodeSeverity = SmtpReplyCodeSeverities.PositiveIntermediate;
}
if(responseCode >= 400) {
this.ReplyCodeSeverity = SmtpReplyCodeSeverities.TransientNegative;
}
if(responseCode >= 500) {
this.ReplyCodeSeverity = SmtpReplyCodeSeverities.PermanentNegative;
}
if(responseCode >= 600) {
this.ReplyCodeSeverity = SmtpReplyCodeSeverities.Unknown;
}
if(Int32.TryParse(responseCode.ToString(CultureInfo.InvariantCulture).Substring(1, 1), out Int32 middleDigit)) {
if(middleDigit >= 0 && middleDigit <= 5) {
this.ReplyCodeCategory = (SmtpReplyCodeCategories)middleDigit;
}
}
}
/// <summary>
/// Initializes a new instance of the <see cref="SmtpServerReply"/> class.
/// </summary>
public SmtpServerReply()
: this(0, string.Empty, string.Empty)
{
public SmtpServerReply() : this(0, String.Empty, String.Empty) {
// placeholder
}
@ -58,9 +70,7 @@
/// <param name="responseCode">The response code.</param>
/// <param name="statusCode">The status code.</param>
/// <param name="content">The content.</param>
public SmtpServerReply(int responseCode, string statusCode, string content)
: this(responseCode, statusCode, new[] {content})
{
public SmtpServerReply(Int32 responseCode, String statusCode, String content) : this(responseCode, statusCode, new[] { content }) {
}
/// <summary>
@ -68,9 +78,7 @@
/// </summary>
/// <param name="responseCode">The response code.</param>
/// <param name="content">The content.</param>
public SmtpServerReply(int responseCode, string content)
: this(responseCode, string.Empty, content)
{
public SmtpServerReply(Int32 responseCode, String content) : this(responseCode, String.Empty, content) {
}
#endregion
@ -80,14 +88,12 @@
/// <summary>
/// Gets the command unrecognized reply.
/// </summary>
public static SmtpServerReply CommandUnrecognized =>
new SmtpServerReply(500, "Syntax error, command unrecognized");
public static SmtpServerReply CommandUnrecognized => new SmtpServerReply(500, "Syntax error, command unrecognized");
/// <summary>
/// Gets the syntax error arguments reply.
/// </summary>
public static SmtpServerReply SyntaxErrorArguments =>
new SmtpServerReply(501, "Syntax error in parameters or arguments");
public static SmtpServerReply SyntaxErrorArguments => new SmtpServerReply(501, "Syntax error in parameters or arguments");
/// <summary>
/// Gets the command not implemented reply.
@ -102,14 +108,12 @@
/// <summary>
/// Gets the protocol violation reply.
/// </summary>=
public static SmtpServerReply ProtocolViolation =>
new SmtpServerReply(451, "Requested action aborted: error in processing");
public static SmtpServerReply ProtocolViolation => new SmtpServerReply(451, "Requested action aborted: error in processing");
/// <summary>
/// Gets the system status bye reply.
/// </summary>
public static SmtpServerReply SystemStatusBye =>
new SmtpServerReply(221, "Service closing transmission channel");
public static SmtpServerReply SystemStatusBye => new SmtpServerReply(221, "Service closing transmission channel");
/// <summary>
/// Gets the system status help reply.
@ -138,37 +142,49 @@
/// <summary>
/// Gets the response severity.
/// </summary>
public SmtpReplyCodeSeverities ReplyCodeSeverity { get; }
public SmtpReplyCodeSeverities ReplyCodeSeverity {
get;
}
/// <summary>
/// Gets the response category.
/// </summary>
public SmtpReplyCodeCategories ReplyCodeCategory { get; }
public SmtpReplyCodeCategories ReplyCodeCategory {
get;
}
/// <summary>
/// Gets the numeric response code.
/// </summary>
public int ReplyCode { get; }
public Int32 ReplyCode {
get;
}
/// <summary>
/// Gets the enhanced status code.
/// </summary>
public string EnhancedStatusCode { get; }
public String EnhancedStatusCode {
get;
}
/// <summary>
/// Gets the content.
/// </summary>
public List<string> Content { get; }
public List<String> Content {
get;
}
/// <summary>
/// Returns true if the response code is between 200 and 599.
/// </summary>
public bool IsValid { get; }
public Boolean IsValid {
get;
}
/// <summary>
/// Gets a value indicating whether this instance is positive.
/// </summary>
public bool IsPositive => ReplyCode >= 200 && ReplyCode <= 399;
public Boolean IsPositive => this.ReplyCode >= 200 && this.ReplyCode <= 399;
#endregion
@ -179,30 +195,31 @@
/// </summary>
/// <param name="text">The text.</param>
/// <returns>A new instance of SMTP server response object.</returns>
public static SmtpServerReply Parse(string text)
{
var lines = text.Split(new[] {"\r\n"}, StringSplitOptions.RemoveEmptyEntries);
if (lines.Length == 0) return new SmtpServerReply();
var lastLineParts = lines.Last().Split(new[] {" "}, StringSplitOptions.RemoveEmptyEntries);
var enhancedStatusCode = string.Empty;
int.TryParse(lastLineParts[0], out var responseCode);
if (lastLineParts.Length > 1)
{
if (lastLineParts[1].Split('.').Length == 3)
enhancedStatusCode = lastLineParts[1];
public static SmtpServerReply Parse(String text) {
String[] lines = text.Split(new[] { "\r\n" }, StringSplitOptions.RemoveEmptyEntries);
if(lines.Length == 0) {
return new SmtpServerReply();
}
var content = new List<string>();
String[] lastLineParts = lines.Last().Split(new[] { " " }, StringSplitOptions.RemoveEmptyEntries);
String enhancedStatusCode = String.Empty;
_ = Int32.TryParse(lastLineParts[0], out Int32 responseCode);
if(lastLineParts.Length > 1) {
if(lastLineParts[1].Split('.').Length == 3) {
enhancedStatusCode = lastLineParts[1];
}
}
for (var i = 0; i < lines.Length; i++)
{
var splitChar = i == lines.Length - 1 ? " " : "-";
List<String> content = new List<String>();
var lineParts = lines[i].Split(new[] {splitChar}, 2, StringSplitOptions.None);
var lineContent = lineParts.Last();
if (string.IsNullOrWhiteSpace(enhancedStatusCode) == false)
lineContent = lineContent.Replace(enhancedStatusCode, string.Empty).Trim();
for(Int32 i = 0; i < lines.Length; i++) {
String splitChar = i == lines.Length - 1 ? " " : "-";
String[] lineParts = lines[i].Split(new[] { splitChar }, 2, StringSplitOptions.None);
String lineContent = lineParts.Last();
if(String.IsNullOrWhiteSpace(enhancedStatusCode) == false) {
lineContent = lineContent.Replace(enhancedStatusCode, String.Empty).Trim();
}
content.Add(lineContent);
}
@ -216,23 +233,19 @@
/// <returns>
/// A <see cref="System.String" /> that represents this instance.
/// </returns>
public override string ToString()
{
var responseCodeText = ReplyCode.ToString(CultureInfo.InvariantCulture);
var statusCodeText = string.IsNullOrWhiteSpace(EnhancedStatusCode)
? string.Empty
: $" {EnhancedStatusCode.Trim()}";
if (Content.Count == 0) return $"{responseCodeText}{statusCodeText}";
public override String ToString() {
String responseCodeText = this.ReplyCode.ToString(CultureInfo.InvariantCulture);
String statusCodeText = String.IsNullOrWhiteSpace(this.EnhancedStatusCode) ? String.Empty : $" {this.EnhancedStatusCode.Trim()}";
if(this.Content.Count == 0) {
return $"{responseCodeText}{statusCodeText}";
}
var builder = new StringBuilder();
StringBuilder builder = new StringBuilder();
for (var i = 0; i < Content.Count; i++)
{
var isLastLine = i == Content.Count - 1;
for(Int32 i = 0; i < this.Content.Count; i++) {
Boolean isLastLine = i == this.Content.Count - 1;
builder.Append(isLastLine
? $"{responseCodeText}{statusCodeText} {Content[i]}"
: $"{responseCodeText}-{Content[i]}\r\n");
_ = builder.Append(isLastLine ? $"{responseCodeText}{statusCodeText} {this.Content[i]}" : $"{responseCodeText}-{this.Content[i]}\r\n");
}
return builder.ToString();

123
Swan/Net/Smtp/SmtpSessionState.cs
View File

@ -1,20 +1,18 @@
namespace Swan.Net.Smtp
{
using System.Collections.Generic;
using System.Collections.Generic;
using System;
namespace Swan.Net.Smtp {
/// <summary>
/// Represents the state of an SMTP session associated with a client.
/// </summary>
public class SmtpSessionState
{
public class SmtpSessionState {
/// <summary>
/// Initializes a new instance of the <see cref="SmtpSessionState"/> class.
/// </summary>
public SmtpSessionState()
{
DataBuffer = new List<byte>();
Reset(true);
ResetAuthentication();
public SmtpSessionState() {
this.DataBuffer = new List<Byte>();
this.Reset(true);
this.ResetAuthentication();
}
#region Properties
@ -22,42 +20,56 @@
/// <summary>
/// Gets the contents of the data buffer.
/// </summary>
public List<byte> DataBuffer { get; protected set; }
public List<Byte> DataBuffer {
get; protected set;
}
/// <summary>
/// Gets or sets a value indicating whether this instance has initiated.
/// </summary>
public bool HasInitiated { get; set; }
public Boolean HasInitiated {
get; set;
}
/// <summary>
/// Gets or sets a value indicating whether the current session supports extensions.
/// </summary>
public bool SupportsExtensions { get; set; }
public Boolean SupportsExtensions {
get; set;
}
/// <summary>
/// Gets or sets the client hostname.
/// </summary>
public string ClientHostname { get; set; }
public String ClientHostname {
get; set;
}
/// <summary>
/// Gets or sets a value indicating whether the session is currently receiving DATA.
/// </summary>
public bool IsInDataMode { get; set; }
public Boolean IsInDataMode {
get; set;
}
/// <summary>
/// Gets or sets the sender address.
/// </summary>
public string SenderAddress { get; set; }
public String SenderAddress {
get; set;
}
/// <summary>
/// Gets the recipients.
/// </summary>
public List<string> Recipients { get; } = new List<string>();
public List<String> Recipients { get; } = new List<String>();
/// <summary>
/// Gets or sets the extended data supporting any additional field for storage by a responder implementation.
/// </summary>
public object ExtendedData { get; set; }
public Object ExtendedData {
get; set;
}
#endregion
@ -66,48 +78,59 @@
/// <summary>
/// Gets or sets a value indicating whether this instance is in authentication mode.
/// </summary>
public bool IsInAuthMode { get; set; }
public Boolean IsInAuthMode {
get; set;
}
/// <summary>
/// Gets or sets the username.
/// </summary>
public string Username { get; set; }
public String Username {
get; set;
}
/// <summary>
/// Gets or sets the password.
/// </summary>
public string Password { get; set; }
public String Password {
get; set;
}
/// <summary>
/// Gets a value indicating whether this instance has provided username.
/// </summary>
public bool HasProvidedUsername => string.IsNullOrWhiteSpace(Username) == false;
public Boolean HasProvidedUsername => String.IsNullOrWhiteSpace(this.Username) == false;
/// <summary>
/// Gets or sets a value indicating whether this instance is authenticated.
/// </summary>
public bool IsAuthenticated { get; set; }
public Boolean IsAuthenticated {
get; set;
}
/// <summary>
/// Gets or sets the authentication mode.
/// </summary>
public string AuthMode { get; set; }
public String AuthMode {
get; set;
}
/// <summary>
/// Gets or sets a value indicating whether this instance is channel secure.
/// </summary>
public bool IsChannelSecure { get; set; }
public Boolean IsChannelSecure {
get; set;
}
/// <summary>
/// Resets the authentication state.
/// </summary>
public void ResetAuthentication()
{
Username = string.Empty;
Password = string.Empty;
AuthMode = string.Empty;
IsInAuthMode = false;
IsAuthenticated = false;
public void ResetAuthentication() {
this.Username = String.Empty;
this.Password = String.Empty;
this.AuthMode = String.Empty;
this.IsInAuthMode = false;
this.IsAuthenticated = false;
}
#endregion
@ -117,38 +140,36 @@
/// <summary>
/// Resets the data mode to false, clears the recipients, the sender address and the data buffer.
/// </summary>
public void ResetEmail()
{
IsInDataMode = false;
Recipients.Clear();
SenderAddress = string.Empty;
DataBuffer.Clear();
public void ResetEmail() {
this.IsInDataMode = false;
this.Recipients.Clear();
this.SenderAddress = String.Empty;
this.DataBuffer.Clear();
}
/// <summary>
/// Resets the state table entirely.
/// </summary>
/// <param name="clearExtensionData">if set to <c>true</c> [clear extension data].</param>
public void Reset(bool clearExtensionData)
{
HasInitiated = false;
SupportsExtensions = false;
ClientHostname = string.Empty;
ResetEmail();
public void Reset(Boolean clearExtensionData) {
this.HasInitiated = false;
this.SupportsExtensions = false;
this.ClientHostname = String.Empty;
this.ResetEmail();
if (clearExtensionData)
ExtendedData = null;
if(clearExtensionData) {
this.ExtendedData = null;
}
}
/// <summary>
/// Creates a new object that is a copy of the current instance.
/// </summary>
/// <returns>A clone.</returns>
public virtual SmtpSessionState Clone()
{
var clonedState = this.CopyPropertiesToNew<SmtpSessionState>(new[] {nameof(DataBuffer)});
clonedState.DataBuffer.AddRange(DataBuffer);
clonedState.Recipients.AddRange(Recipients);
public virtual SmtpSessionState Clone() {
SmtpSessionState clonedState = this.CopyPropertiesToNew<SmtpSessionState>(new[] { nameof(this.DataBuffer) });
clonedState.DataBuffer.AddRange(this.DataBuffer);
clonedState.Recipients.AddRange(this.Recipients);
return clonedState;
}

29
Swan/ProcessResult.cs
View File

@ -1,22 +1,21 @@
namespace Swan
{
using System;
namespace Swan {
/// <summary>
/// Represents the text of the standard output and standard error
/// of a process, including its exit code.
/// </summary>
public class ProcessResult
{
public class ProcessResult {
/// <summary>
/// Initializes a new instance of the <see cref="ProcessResult" /> class.
/// </summary>
/// <param name="exitCode">The exit code.</param>
/// <param name="standardOutput">The standard output.</param>
/// <param name="standardError">The standard error.</param>
public ProcessResult(int exitCode, string standardOutput, string standardError)
{
ExitCode = exitCode;
StandardOutput = standardOutput;
StandardError = standardError;
public ProcessResult(Int32 exitCode, String standardOutput, String standardError) {
this.ExitCode = exitCode;
this.StandardOutput = standardOutput;
this.StandardError = standardError;
}
/// <summary>
@ -25,7 +24,9 @@
/// <value>
/// The exit code.
/// </value>
public int ExitCode { get; }
public Int32 ExitCode {
get;
}
/// <summary>
/// Gets the text of the standard output.
@ -33,7 +34,9 @@
/// <value>
/// The standard output.
/// </value>
public string StandardOutput { get; }
public String StandardOutput {
get;
}
/// <summary>
/// Gets the text of the standard error.
@ -41,6 +44,8 @@
/// <value>
/// The standard error.
/// </value>
public string StandardError { get; }
public String StandardError {
get;
}
}
}

246
Swan/ProcessRunner.cs
View File

@ -1,26 +1,25 @@
namespace Swan
{
using System;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Text;
using System.Threading;
using System.Threading.Tasks;
#nullable enable
using System;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Text;
using System.Threading;
using System.Threading.Tasks;
namespace Swan {
/// <summary>
/// Provides methods to help create external processes, and efficiently capture the
/// standard error and standard output streams.
/// </summary>
public static class ProcessRunner
{
public static class ProcessRunner {
/// <summary>
/// Defines a delegate to handle binary data reception from the standard
/// output or standard error streams from a process.
/// </summary>
/// <param name="processData">The process data.</param>
/// <param name="process">The process.</param>
public delegate void ProcessDataReceivedCallback(byte[] processData, Process process);
public delegate void ProcessDataReceivedCallback(Byte[] processData, Process process);
/// <summary>
/// Runs the process asynchronously and if the exit code is 0,
@ -35,7 +34,7 @@
/// <returns>The type of the result produced by this Task.</returns>
/// <example>
/// The following code explains how to run an external process using the
/// <see cref="GetProcessOutputAsync(string, string, CancellationToken)"/> method.
/// <see cref="GetProcessOutputAsync(String, String, CancellationToken)"/> method.
/// <code>
/// class Example
/// {
@ -54,13 +53,8 @@
/// }
/// </code>
/// </example>
public static async Task<string> GetProcessOutputAsync(
string filename,
string arguments = "",
string? workingDirectory = null,
CancellationToken cancellationToken = default)
{
var result = await GetProcessResultAsync(filename, arguments, workingDirectory, cancellationToken: cancellationToken).ConfigureAwait(false);
public static async Task<String> GetProcessOutputAsync(String filename, String arguments = "", String? workingDirectory = null, CancellationToken cancellationToken = default) {
ProcessResult result = await GetProcessResultAsync(filename, arguments, workingDirectory, cancellationToken: cancellationToken).ConfigureAwait(false);
return result.ExitCode == 0 ? result.StandardOutput : result.StandardError;
}
@ -78,13 +72,8 @@
/// <returns>
/// The type of the result produced by this Task.
/// </returns>
public static async Task<string> GetProcessEncodedOutputAsync(
string filename,
string arguments = "",
Encoding? encoding = null,
CancellationToken cancellationToken = default)
{
var result = await GetProcessResultAsync(filename, arguments, null, encoding, cancellationToken).ConfigureAwait(false);
public static async Task<String> GetProcessEncodedOutputAsync(String filename, String arguments = "", Encoding? encoding = null, CancellationToken cancellationToken = default) {
ProcessResult result = await GetProcessResultAsync(filename, arguments, null, encoding, cancellationToken).ConfigureAwait(false);
return result.ExitCode == 0 ? result.StandardOutput : result.StandardError;
}
@ -100,11 +89,7 @@
/// Text of the standard output and standard error streams along with the exit code as a <see cref="ProcessResult" /> instance.
/// </returns>
/// <exception cref="ArgumentNullException">filename.</exception>
public static Task<ProcessResult> GetProcessResultAsync(
string filename,
string arguments = "",
CancellationToken cancellationToken = default) =>
GetProcessResultAsync(filename, arguments, null, Definitions.CurrentAnsiEncoding, cancellationToken);
public static Task<ProcessResult> GetProcessResultAsync(String filename, String arguments = "", CancellationToken cancellationToken = default) => GetProcessResultAsync(filename, arguments, null, Definitions.CurrentAnsiEncoding, cancellationToken);
/// <summary>
/// Executes a process asynchronously and returns the text of the standard output and standard error streams
@ -121,7 +106,7 @@
/// </returns>
/// <exception cref="ArgumentNullException">filename.</exception>
/// <example>
/// The following code describes how to run an external process using the <see cref="GetProcessResultAsync(string, string, string, Encoding, CancellationToken)" /> method.
/// The following code describes how to run an external process using the <see cref="GetProcessResultAsync(String, String, String, Encoding, CancellationToken)" /> method.
/// <code>
/// class Example
/// {
@ -143,32 +128,19 @@
/// }
/// }
/// </code></example>
public static async Task<ProcessResult> GetProcessResultAsync(
string filename,
string arguments,
string? workingDirectory,
Encoding? encoding = null,
CancellationToken cancellationToken = default)
{
if (filename == null)
public static async Task<ProcessResult> GetProcessResultAsync(String filename, String arguments, String? workingDirectory, Encoding? encoding = null, CancellationToken cancellationToken = default) {
if(filename == null) {
throw new ArgumentNullException(nameof(filename));
}
if (encoding == null)
if(encoding == null) {
encoding = Definitions.CurrentAnsiEncoding;
}
var standardOutputBuilder = new StringBuilder();
var standardErrorBuilder = new StringBuilder();
StringBuilder standardOutputBuilder = new StringBuilder();
StringBuilder standardErrorBuilder = new StringBuilder();
var processReturn = await RunProcessAsync(
filename,
arguments,
workingDirectory,
(data, proc) => standardOutputBuilder.Append(encoding.GetString(data)),
(data, proc) => standardErrorBuilder.Append(encoding.GetString(data)),
encoding,
true,
cancellationToken)
.ConfigureAwait(false);
Int32 processReturn = await RunProcessAsync(filename, arguments, workingDirectory, (data, proc) => standardOutputBuilder.Append(encoding.GetString(data)), (data, proc) => standardErrorBuilder.Append(encoding.GetString(data)), encoding, true, cancellationToken).ConfigureAwait(false);
return new ProcessResult(processReturn, standardOutputBuilder.ToString(), standardErrorBuilder.ToString());
}
@ -191,27 +163,16 @@
/// <returns>
/// Value type will be -1 for forceful termination of the process.
/// </returns>
public static Task<int> RunProcessAsync(
string filename,
string arguments,
string? workingDirectory,
ProcessDataReceivedCallback onOutputData,
ProcessDataReceivedCallback onErrorData,
Encoding encoding,
bool syncEvents = true,
CancellationToken cancellationToken = default)
{
if (filename == null)
public static Task<Int32> RunProcessAsync(String filename, String arguments, String? workingDirectory, ProcessDataReceivedCallback onOutputData, ProcessDataReceivedCallback? onErrorData, Encoding encoding, Boolean syncEvents = true, CancellationToken cancellationToken = default) {
if(filename == null) {
throw new ArgumentNullException(nameof(filename));
}
return Task.Run(() =>
{
return Task.Run(() => {
// Setup the process and its corresponding start info
var process = new Process
{
Process process = new Process {
EnableRaisingEvents = false,
StartInfo = new ProcessStartInfo
{
StartInfo = new ProcessStartInfo {
Arguments = arguments,
CreateNoWindow = true,
FileName = filename,
@ -220,73 +181,51 @@
RedirectStandardOutput = true,
StandardOutputEncoding = encoding,
UseShellExecute = false,
#if NET461
WindowStyle = ProcessWindowStyle.Hidden,
#endif
},
};
if (!string.IsNullOrWhiteSpace(workingDirectory))
if(!String.IsNullOrWhiteSpace(workingDirectory)) {
process.StartInfo.WorkingDirectory = workingDirectory;
}
// Launch the process and discard any buffered data for standard error and standard output
process.Start();
_ = process.Start();
process.StandardError.DiscardBufferedData();
process.StandardOutput.DiscardBufferedData();
// Launch the asynchronous stream reading tasks
var readTasks = new Task[2];
readTasks[0] = CopyStreamAsync(
process,
process.StandardOutput.BaseStream,
onOutputData,
syncEvents,
cancellationToken);
readTasks[1] = CopyStreamAsync(
process,
process.StandardError.BaseStream,
onErrorData,
syncEvents,
cancellationToken);
Task[] readTasks = new Task[2];
readTasks[0] = CopyStreamAsync(process, process.StandardOutput.BaseStream, onOutputData, syncEvents, cancellationToken);
readTasks[1] = CopyStreamAsync(process, process.StandardError.BaseStream, onErrorData, syncEvents, cancellationToken);
try
{
try {
// Wait for all tasks to complete
Task.WaitAll(readTasks, cancellationToken);
}
catch (TaskCanceledException)
{
} catch(TaskCanceledException) {
// ignore
}
finally
{
} finally {
// Wait for the process to exit
while (cancellationToken.IsCancellationRequested == false)
{
if (process.HasExited || process.WaitForExit(5))
while(cancellationToken.IsCancellationRequested == false) {
if(process.HasExited || process.WaitForExit(5)) {
break;
}
}
// Forcefully kill the process if it do not exit
try
{
if (process.HasExited == false)
try {
if(process.HasExited == false) {
process.Kill();
}
catch
{
} catch {
// swallow
}
}
try
{
try {
// Retrieve and return the exit code.
// -1 signals error
return process.HasExited ? process.ExitCode : -1;
}
catch
{
} catch {
return -1;
}
}, cancellationToken);
@ -308,7 +247,7 @@
/// <returns>Value type will be -1 for forceful termination of the process.</returns>
/// <example>
/// The following example illustrates how to run an external process using the
/// <see cref="RunProcessAsync(string, string, ProcessDataReceivedCallback, ProcessDataReceivedCallback, bool, CancellationToken)"/>
/// <see cref="RunProcessAsync(String, String, ProcessDataReceivedCallback, ProcessDataReceivedCallback, Boolean, CancellationToken)"/>
/// method.
/// <code>
/// class Example
@ -334,22 +273,7 @@
/// }
/// </code>
/// </example>
public static Task<int> RunProcessAsync(
string filename,
string arguments,
ProcessDataReceivedCallback onOutputData,
ProcessDataReceivedCallback onErrorData,
bool syncEvents = true,
CancellationToken cancellationToken = default)
=> RunProcessAsync(
filename,
arguments,
null,
onOutputData,
onErrorData,
Definitions.CurrentAnsiEncoding,
syncEvents,
cancellationToken);
public static Task<Int32> RunProcessAsync(String filename, String arguments, ProcessDataReceivedCallback onOutputData, ProcessDataReceivedCallback? onErrorData, Boolean syncEvents = true, CancellationToken cancellationToken = default) => RunProcessAsync(filename, arguments, null, onOutputData, onErrorData, Definitions.CurrentAnsiEncoding, syncEvents, cancellationToken);
/// <summary>
/// Copies the stream asynchronously.
@ -360,79 +284,65 @@
/// <param name="syncEvents">if set to <c>true</c> [synchronize events].</param>
/// <param name="ct">The cancellation token.</param>
/// <returns>Total copies stream.</returns>
private static Task<ulong> CopyStreamAsync(
Process process,
Stream baseStream,
ProcessDataReceivedCallback onDataCallback,
bool syncEvents,
CancellationToken ct) =>
Task.Run(async () =>
{
private static Task<UInt64> CopyStreamAsync(Process process, Stream baseStream, ProcessDataReceivedCallback? onDataCallback, Boolean syncEvents, CancellationToken ct) => Task.Run(async () => {
// define some state variables
var swapBuffer = new byte[2048]; // the buffer to copy data from one stream to the next
ulong totalCount = 0; // the total amount of bytes read
var hasExited = false;
Byte[] swapBuffer = new Byte[2048]; // the buffer to copy data from one stream to the next
UInt64 totalCount = 0; // the total amount of bytes read
Boolean hasExited = false;
while (ct.IsCancellationRequested == false)
{
try
{
while(ct.IsCancellationRequested == false) {
try {
// Check if process is no longer valid
// if this condition holds, simply read the last bits of data available.
int readCount; // the bytes read in any given event
if (process.HasExited || process.WaitForExit(1))
{
while (true)
{
try
{
Int32 readCount; // the bytes read in any given event
if(process.HasExited || process.WaitForExit(1)) {
while(true) {
try {
readCount = await baseStream.ReadAsync(swapBuffer, 0, swapBuffer.Length, ct);
if (readCount > 0)
{
totalCount += (ulong) readCount;
if(readCount > 0) {
totalCount += (UInt64)readCount;
onDataCallback?.Invoke(swapBuffer.Skip(0).Take(readCount).ToArray(), process);
}
else
{
} else {
hasExited = true;
break;
}
}
catch
{
} catch {
hasExited = true;
break;
}
}
}
if (hasExited) break;
if(hasExited) {
break;
}
// Try reading from the stream. < 0 means no read occurred.
readCount = await baseStream.ReadAsync(swapBuffer, 0, swapBuffer.Length, ct).ConfigureAwait(false);
// When no read is done, we need to let is rest for a bit
if (readCount <= 0)
{
if(readCount <= 0) {
await Task.Delay(1, ct).ConfigureAwait(false); // do not hog CPU cycles doing nothing.
continue;
}
totalCount += (ulong) readCount;
if (onDataCallback == null) continue;
totalCount += (UInt64)readCount;
if(onDataCallback == null) {
continue;
}
// Create the buffer to pass to the callback
var eventBuffer = swapBuffer.Skip(0).Take(readCount).ToArray();
Byte[] eventBuffer = swapBuffer.Skip(0).Take(readCount).ToArray();
// Create the data processing callback invocation
var eventTask = Task.Run(() => onDataCallback.Invoke(eventBuffer, process), ct);
Task eventTask = Task.Run(() => onDataCallback.Invoke(eventBuffer, process), ct);
// wait for the event to process before the next read occurs
if (syncEvents) eventTask.Wait(ct);
if(syncEvents) {
eventTask.Wait(ct);
}
catch
{
} catch {
break;
}
}

48
Swan/Services/ServiceBase.cs
View File

@ -1,22 +1,20 @@
using System;
#if !NET461
namespace Swan.Services
{
namespace Swan.Services {
/// <summary>
/// Mimic a Windows ServiceBase class. Useful to keep compatibility with applications
/// running as services in OS different to Windows.
/// </summary>
[Obsolete("This abstract class will be removed in version 3.0")]
public abstract class ServiceBase
{
public abstract class ServiceBase {
/// <summary>
/// Gets or sets a value indicating whether the service can be stopped once it has started.
/// </summary>
/// <value>
/// <c>true</c> if this instance can stop; otherwise, <c>false</c>.
/// </value>
public bool CanStop { get; set; } = true;
public Boolean CanStop { get; set; } = true;
/// <summary>
/// Gets or sets a value indicating whether the service should be notified when the system is shutting down.
@ -24,7 +22,9 @@ namespace Swan.Services
/// <value>
/// <c>true</c> if this instance can shutdown; otherwise, <c>false</c>.
/// </value>
public bool CanShutdown { get; set; }
public Boolean CanShutdown {
get; set;
}
/// <summary>
/// Gets or sets a value indicating whether the service can be paused and resumed.
@ -32,7 +32,9 @@ namespace Swan.Services
/// <value>
/// <c>true</c> if this instance can pause and continue; otherwise, <c>false</c>.
/// </value>
public bool CanPauseAndContinue { get; set; }
public Boolean CanPauseAndContinue {
get; set;
}
/// <summary>
/// Gets or sets the exit code.
@ -40,7 +42,9 @@ namespace Swan.Services
/// <value>
/// The exit code.
/// </value>
public int ExitCode { get; set; }
public Int32 ExitCode {
get; set;
}
/// <summary>
/// Indicates whether to report Start, Stop, Pause, and Continue commands in the event log.
@ -48,7 +52,9 @@ namespace Swan.Services
/// <value>
/// <c>true</c> if [automatic log]; otherwise, <c>false</c>.
/// </value>
public bool AutoLog { get; set; }
public Boolean AutoLog {
get; set;
}
/// <summary>
/// Gets or sets the name of the service.
@ -56,17 +62,20 @@ namespace Swan.Services
/// <value>
/// The name of the service.
/// </value>
public string ServiceName { get; set; }
public String ServiceName {
get; set;
}
/// <summary>
/// Stops the executing service.
/// </summary>
public void Stop()
{
if (!CanStop) return;
public void Stop() {
if(!this.CanStop) {
return;
}
CanStop = false;
OnStop();
this.CanStop = false;
this.OnStop();
}
/// <summary>
@ -74,8 +83,7 @@ namespace Swan.Services
/// or when the operating system starts (for a service that starts automatically). Specifies actions to take when the service starts.
/// </summary>
/// <param name="args">The arguments.</param>
protected virtual void OnStart(string[] args)
{
protected virtual void OnStart(String[] args) {
// do nothing
}
@ -83,10 +91,8 @@ namespace Swan.Services
/// When implemented in a derived class, executes when a Stop command is sent to the service by the Service Control Manager (SCM).
/// Specifies actions to take when a service stops running.
/// </summary>
protected virtual void OnStop()
{
protected virtual void OnStop() {
// do nothing
}
}
}
#endif

81
Swan/Threading/DelayProvider.cs
View File

@ -1,10 +1,9 @@
namespace Swan.Threading
{
using System;
using System.Diagnostics;
using System.Threading;
using System.Threading.Tasks;
using System;
using System.Diagnostics;
using System.Threading;
using System.Threading.Tasks;
namespace Swan.Threading {
/// <summary>
/// Represents logic providing several delay mechanisms.
/// </summary>
@ -27,28 +26,23 @@
/// }
/// </code>
/// </example>
public sealed class DelayProvider : IDisposable
{
private readonly object _syncRoot = new object();
public sealed class DelayProvider : IDisposable {
private readonly Object _syncRoot = new Object();
private readonly Stopwatch _delayStopwatch = new Stopwatch();
private bool _isDisposed;
private Boolean _isDisposed;
private IWaitEvent _delayEvent;
/// <summary>
/// Initializes a new instance of the <see cref="DelayProvider"/> class.
/// </summary>
/// <param name="strategy">The strategy.</param>
public DelayProvider(DelayStrategy strategy = DelayStrategy.TaskDelay)
{
Strategy = strategy;
}
public DelayProvider(DelayStrategy strategy = DelayStrategy.TaskDelay) => this.Strategy = strategy;
/// <summary>
/// Enumerates the different ways of providing delays.
/// </summary>
public enum DelayStrategy
{
public enum DelayStrategy {
/// <summary>
/// Using the Thread.Sleep(15) mechanism.
/// </summary>
@ -68,22 +62,23 @@
/// <summary>
/// Gets the selected delay strategy.
/// </summary>
public DelayStrategy Strategy { get; }
public DelayStrategy Strategy {
get;
}
/// <summary>
/// Creates the smallest possible, synchronous delay based on the selected strategy.
/// </summary>
/// <returns>The elapsed time of the delay.</returns>
public TimeSpan WaitOne()
{
lock (_syncRoot)
{
if (_isDisposed) return TimeSpan.Zero;
public TimeSpan WaitOne() {
lock(this._syncRoot) {
if(this._isDisposed) {
return TimeSpan.Zero;
}
_delayStopwatch.Restart();
this._delayStopwatch.Restart();
switch (Strategy)
{
switch(this.Strategy) {
case DelayStrategy.ThreadSleep:
DelaySleep();
break;
@ -91,25 +86,26 @@
DelayTask();
break;
case DelayStrategy.ThreadPool:
DelayThreadPool();
this.DelayThreadPool();
break;
}
return _delayStopwatch.Elapsed;
return this._delayStopwatch.Elapsed;
}
}
#region Dispose Pattern
/// <inheritdoc />
public void Dispose()
{
lock (_syncRoot)
{
if (_isDisposed) return;
_isDisposed = true;
public void Dispose() {
lock(this._syncRoot) {
if(this._isDisposed) {
return;
}
_delayEvent?.Dispose();
this._isDisposed = true;
this._delayEvent?.Dispose();
}
}
@ -121,19 +117,18 @@
private static void DelayTask() => Task.Delay(1).Wait();
private void DelayThreadPool()
{
if (_delayEvent == null)
_delayEvent = WaitEventFactory.Create(isCompleted: true, useSlim: true);
private void DelayThreadPool() {
if(this._delayEvent == null) {
this._delayEvent = WaitEventFactory.Create(isCompleted: true, useSlim: true);
}
_delayEvent.Begin();
ThreadPool.QueueUserWorkItem(s =>
{
this._delayEvent.Begin();
_ = ThreadPool.QueueUserWorkItem(s => {
DelaySleep();
_delayEvent.Complete();
this._delayEvent.Complete();
});
_delayEvent.Wait();
this._delayEvent.Wait();
}
#endregion

251
Swan/Threading/ThreadWorkerBase.cs
View File

@ -1,5 +1,4 @@
namespace Swan.Threading
{
namespace Swan.Threading {
using System;
using System.Threading;
using System.Threading.Tasks;
@ -10,9 +9,8 @@
/// provides the ability to perform fine-grained control on these tasks.
/// </summary>
/// <seealso cref="IWorker" />
public abstract class ThreadWorkerBase : WorkerBase
{
private readonly object _syncLock = new object();
public abstract class ThreadWorkerBase : WorkerBase {
private readonly Object _syncLock = new Object();
private readonly Thread _thread;
/// <summary>
@ -22,12 +20,9 @@
/// <param name="priority">The thread priority.</param>
/// <param name="period">The interval of cycle execution.</param>
/// <param name="delayProvider">The cycle delay provide implementation.</param>
protected ThreadWorkerBase(string name, ThreadPriority priority, TimeSpan period, IWorkerDelayProvider delayProvider)
: base(name, period)
{
DelayProvider = delayProvider;
_thread = new Thread(RunWorkerLoop)
{
protected ThreadWorkerBase(String name, ThreadPriority priority, TimeSpan period, IWorkerDelayProvider delayProvider) : base(name, period) {
this.DelayProvider = delayProvider;
this._thread = new Thread(this.RunWorkerLoop) {
IsBackground = true,
Priority = priority,
Name = name,
@ -39,76 +34,61 @@
/// </summary>
/// <param name="name">The name.</param>
/// <param name="period">The execution interval.</param>
protected ThreadWorkerBase(string name, TimeSpan period)
: this(name, ThreadPriority.Normal, period, WorkerDelayProvider.Default)
{
protected ThreadWorkerBase(String name, TimeSpan period) : this(name, ThreadPriority.Normal, period, WorkerDelayProvider.Default) {
// placeholder
}
/// <summary>
/// Provides an implementation on a cycle delay provider.
/// </summary>
protected IWorkerDelayProvider DelayProvider { get; }
protected IWorkerDelayProvider DelayProvider {
get;
}
/// <inheritdoc />
public override Task<WorkerState> StartAsync()
{
lock (_syncLock)
{
if (WorkerState == WorkerState.Paused || WorkerState == WorkerState.Waiting)
return ResumeAsync();
public override Task<WorkerState> StartAsync() {
lock(this._syncLock) {
if(this.WorkerState == WorkerState.Paused || this.WorkerState == WorkerState.Waiting) {
return this.ResumeAsync();
}
if (WorkerState != WorkerState.Created)
return Task.FromResult(WorkerState);
if(this.WorkerState != WorkerState.Created) {
return Task.FromResult(this.WorkerState);
}
if (IsStopRequested)
return Task.FromResult(WorkerState);
if(this.IsStopRequested) {
return Task.FromResult(this.WorkerState);
}
var task = QueueStateChange(StateChangeRequest.Start);
_thread.Start();
Task<WorkerState> task = this.QueueStateChange(StateChangeRequest.Start);
this._thread.Start();
return task;
}
}
/// <inheritdoc />
public override Task<WorkerState> PauseAsync()
{
lock (_syncLock)
{
if (WorkerState != WorkerState.Running && WorkerState != WorkerState.Waiting)
return Task.FromResult(WorkerState);
return IsStopRequested ? Task.FromResult(WorkerState) : QueueStateChange(StateChangeRequest.Pause);
public override Task<WorkerState> PauseAsync() {
lock(this._syncLock) {
return this.WorkerState != WorkerState.Running && this.WorkerState != WorkerState.Waiting ? Task.FromResult(this.WorkerState) : this.IsStopRequested ? Task.FromResult(this.WorkerState) : this.QueueStateChange(StateChangeRequest.Pause);
}
}
/// <inheritdoc />
public override Task<WorkerState> ResumeAsync()
{
lock (_syncLock)
{
if (WorkerState == WorkerState.Created)
return StartAsync();
if (WorkerState != WorkerState.Paused && WorkerState != WorkerState.Waiting)
return Task.FromResult(WorkerState);
return IsStopRequested ? Task.FromResult(WorkerState) : QueueStateChange(StateChangeRequest.Resume);
public override Task<WorkerState> ResumeAsync() {
lock(this._syncLock) {
return this.WorkerState == WorkerState.Created ? this.StartAsync() : this.WorkerState != WorkerState.Paused && this.WorkerState != WorkerState.Waiting ? Task.FromResult(this.WorkerState) : this.IsStopRequested ? Task.FromResult(this.WorkerState) : this.QueueStateChange(StateChangeRequest.Resume);
}
}
/// <inheritdoc />
public override Task<WorkerState> StopAsync()
{
lock (_syncLock)
{
if (WorkerState == WorkerState.Stopped || WorkerState == WorkerState.Created)
{
WorkerState = WorkerState.Stopped;
return Task.FromResult(WorkerState);
public override Task<WorkerState> StopAsync() {
lock(this._syncLock) {
if(this.WorkerState == WorkerState.Stopped || this.WorkerState == WorkerState.Created) {
this.WorkerState = WorkerState.Stopped;
return Task.FromResult(this.WorkerState);
}
return QueueStateChange(StateChangeRequest.Stop);
return this.QueueStateChange(StateChangeRequest.Stop);
}
}
@ -120,81 +100,73 @@
/// <param name="wantedDelay">The remaining delay to wait for in the cycle.</param>
/// <param name="delayTask">Contains a reference to a task with the scheduled period delay.</param>
/// <param name="token">The cancellation token to cancel waiting.</param>
protected virtual void ExecuteCycleDelay(int wantedDelay, Task delayTask, CancellationToken token) =>
DelayProvider?.ExecuteCycleDelay(wantedDelay, delayTask, token);
protected virtual void ExecuteCycleDelay(Int32 wantedDelay, Task delayTask, CancellationToken token) =>
this.DelayProvider?.ExecuteCycleDelay(wantedDelay, delayTask, token);
/// <inheritdoc />
protected override void OnDisposing()
{
lock (_syncLock)
{
if ((_thread.ThreadState & ThreadState.Unstarted) != ThreadState.Unstarted)
_thread.Join();
protected override void OnDisposing() {
lock(this._syncLock) {
if((this._thread.ThreadState & ThreadState.Unstarted) != ThreadState.Unstarted) {
this._thread.Join();
}
}
}
/// <summary>
/// Implements worker control, execution and delay logic in a loop.
/// </summary>
private void RunWorkerLoop()
{
while (WorkerState != WorkerState.Stopped && !IsDisposing && !IsDisposed)
{
CycleStopwatch.Restart();
var interruptToken = CycleCancellation.Token;
var period = Period.TotalMilliseconds >= int.MaxValue ? -1 : Convert.ToInt32(Math.Floor(Period.TotalMilliseconds));
var delayTask = Task.Delay(period, interruptToken);
var initialWorkerState = WorkerState;
private void RunWorkerLoop() {
while(this.WorkerState != WorkerState.Stopped && !this.IsDisposing && !this.IsDisposed) {
this.CycleStopwatch.Restart();
CancellationToken interruptToken = this.CycleCancellation.Token;
Int32 period = this.Period.TotalMilliseconds >= Int32.MaxValue ? -1 : Convert.ToInt32(Math.Floor(this.Period.TotalMilliseconds));
Task delayTask = Task.Delay(period, interruptToken);
WorkerState initialWorkerState = this.WorkerState;
// Lock the cycle and capture relevant state valid for this cycle
CycleCompletedEvent.Reset();
this.CycleCompletedEvent.Reset();
// Process the tasks that are awaiting
if (ProcessStateChangeRequests())
if(this.ProcessStateChangeRequests()) {
continue;
}
try
{
if (initialWorkerState == WorkerState.Waiting &&
!interruptToken.IsCancellationRequested)
{
try {
if(initialWorkerState == WorkerState.Waiting &&
!interruptToken.IsCancellationRequested) {
// Mark the state as Running
WorkerState = WorkerState.Running;
this.WorkerState = WorkerState.Running;
// Call the execution logic
ExecuteCycleLogic(interruptToken);
this.ExecuteCycleLogic(interruptToken);
}
}
catch (Exception ex)
{
OnCycleException(ex);
}
finally
{
} catch(Exception ex) {
this.OnCycleException(ex);
} finally {
// Update the state
WorkerState = initialWorkerState == WorkerState.Paused
this.WorkerState = initialWorkerState == WorkerState.Paused
? WorkerState.Paused
: WorkerState.Waiting;
// Signal the cycle has been completed so new cycles can be executed
CycleCompletedEvent.Set();
this.CycleCompletedEvent.Set();
if (!interruptToken.IsCancellationRequested)
{
var cycleDelay = ComputeCycleDelay(initialWorkerState);
if (cycleDelay == Timeout.Infinite)
if(!interruptToken.IsCancellationRequested) {
Int32 cycleDelay = this.ComputeCycleDelay(initialWorkerState);
if(cycleDelay == Timeout.Infinite) {
delayTask = Task.Delay(Timeout.Infinite, interruptToken);
}
ExecuteCycleDelay(
this.ExecuteCycleDelay(
cycleDelay,
delayTask,
CycleCancellation.Token);
this.CycleCancellation.Token);
}
}
}
ClearStateChangeRequests();
WorkerState = WorkerState.Stopped;
this.ClearStateChangeRequests();
this.WorkerState = WorkerState.Stopped;
}
/// <summary>
@ -203,28 +175,25 @@
/// </summary>
/// <param name="request">The request.</param>
/// <returns>The awaitable task.</returns>
private Task<WorkerState> QueueStateChange(StateChangeRequest request)
{
lock (_syncLock)
{
if (StateChangeTask != null)
return StateChangeTask;
private Task<WorkerState> QueueStateChange(StateChangeRequest request) {
lock(this._syncLock) {
if(this.StateChangeTask != null) {
return this.StateChangeTask;
}
var waitingTask = new Task<WorkerState>(() =>
{
StateChangedEvent.Wait();
lock (_syncLock)
{
StateChangeTask = null;
return WorkerState;
Task<WorkerState> waitingTask = new Task<WorkerState>(() => {
this.StateChangedEvent.Wait();
lock(this._syncLock) {
this.StateChangeTask = null;
return this.WorkerState;
}
});
StateChangeTask = waitingTask;
StateChangedEvent.Reset();
StateChangeRequests[request] = true;
this.StateChangeTask = waitingTask;
this.StateChangedEvent.Reset();
this.StateChangeRequests[request] = true;
waitingTask.Start();
CycleCancellation.Cancel();
this.CycleCancellation.Cancel();
return waitingTask;
}
@ -235,36 +204,28 @@
/// cycle execution accordingly. The <see cref="WorkerState"/> is also updated.
/// </summary>
/// <returns>Returns <c>true</c> if the execution should be terminated. <c>false</c> otherwise.</returns>
private bool ProcessStateChangeRequests()
{
lock (_syncLock)
{
var hasRequest = false;
var currentState = WorkerState;
private Boolean ProcessStateChangeRequests() {
lock(this._syncLock) {
Boolean hasRequest = false;
WorkerState currentState = this.WorkerState;
// Update the state in the given priority
if (StateChangeRequests[StateChangeRequest.Stop] || IsDisposing || IsDisposed)
{
if(this.StateChangeRequests[StateChangeRequest.Stop] || this.IsDisposing || this.IsDisposed) {
hasRequest = true;
WorkerState = WorkerState.Stopped;
}
else if (StateChangeRequests[StateChangeRequest.Pause])
{
this.WorkerState = WorkerState.Stopped;
} else if(this.StateChangeRequests[StateChangeRequest.Pause]) {
hasRequest = true;
WorkerState = WorkerState.Paused;
}
else if (StateChangeRequests[StateChangeRequest.Start] || StateChangeRequests[StateChangeRequest.Resume])
{
this.WorkerState = WorkerState.Paused;
} else if(this.StateChangeRequests[StateChangeRequest.Start] || this.StateChangeRequests[StateChangeRequest.Resume]) {
hasRequest = true;
WorkerState = WorkerState.Waiting;
this.WorkerState = WorkerState.Waiting;
}
// Signals all state changes to continue
// as a command has been handled.
if (hasRequest)
{
ClearStateChangeRequests();
OnStateChangeProcessed(currentState, WorkerState);
if(hasRequest) {
this.ClearStateChangeRequests();
this.OnStateChangeProcessed(currentState, this.WorkerState);
}
return hasRequest;
@ -274,18 +235,16 @@
/// <summary>
/// Signals all state change requests to set.
/// </summary>
private void ClearStateChangeRequests()
{
lock (_syncLock)
{
private void ClearStateChangeRequests() {
lock(this._syncLock) {
// Mark all events as completed
StateChangeRequests[StateChangeRequest.Start] = false;
StateChangeRequests[StateChangeRequest.Pause] = false;
StateChangeRequests[StateChangeRequest.Resume] = false;
StateChangeRequests[StateChangeRequest.Stop] = false;
this.StateChangeRequests[StateChangeRequest.Start] = false;
this.StateChangeRequests[StateChangeRequest.Pause] = false;
this.StateChangeRequests[StateChangeRequest.Resume] = false;
this.StateChangeRequests[StateChangeRequest.Stop] = false;
StateChangedEvent.Set();
CycleCompletedEvent.Set();
this.StateChangedEvent.Set();
this.CycleCompletedEvent.Set();
}
}
}

310
Swan/Threading/TimerWorkerBase.cs
View File

@ -1,105 +1,95 @@
namespace Swan.Threading
{
using System;
using System.Threading;
using System.Threading.Tasks;
using System;
using System.Threading;
using System.Threading.Tasks;
namespace Swan.Threading {
/// <summary>
/// Provides a base implementation for application workers.
/// </summary>
/// <seealso cref="IWorker" />
public abstract class TimerWorkerBase : WorkerBase
{
private readonly object _syncLock = new object();
public abstract class TimerWorkerBase : WorkerBase {
private readonly Object _syncLock = new Object();
private readonly Timer _timer;
private bool _isTimerAlive = true;
private Boolean _isTimerAlive = true;
/// <summary>
/// Initializes a new instance of the <see cref="TimerWorkerBase"/> class.
/// </summary>
/// <param name="name">The name.</param>
/// <param name="period">The execution interval.</param>
protected TimerWorkerBase(string name, TimeSpan period)
: base(name, period)
{
protected TimerWorkerBase(String name, TimeSpan period) : base(name, period) =>
// Instantiate the timer that will be used to schedule cycles
_timer = new Timer(
ExecuteTimerCallback,
this,
Timeout.Infinite,
Timeout.Infinite);
}
this._timer = new Timer(this.ExecuteTimerCallback, this, Timeout.Infinite, Timeout.Infinite);
/// <inheritdoc />
public override Task<WorkerState> StartAsync()
{
lock (_syncLock)
{
if (WorkerState == WorkerState.Paused || WorkerState == WorkerState.Waiting)
return ResumeAsync();
public override Task<WorkerState> StartAsync() {
lock(this._syncLock) {
if(this.WorkerState == WorkerState.Paused || this.WorkerState == WorkerState.Waiting) {
return this.ResumeAsync();
}
if (WorkerState != WorkerState.Created)
return Task.FromResult(WorkerState);
if(this.WorkerState != WorkerState.Created) {
return Task.FromResult(this.WorkerState);
}
if (IsStopRequested)
return Task.FromResult(WorkerState);
if(this.IsStopRequested) {
return Task.FromResult(this.WorkerState);
}
var task = QueueStateChange(StateChangeRequest.Start);
Interrupt();
Task<WorkerState> task = this.QueueStateChange(StateChangeRequest.Start);
this.Interrupt();
return task;
}
}
/// <inheritdoc />
public override Task<WorkerState> PauseAsync()
{
lock (_syncLock)
{
if (WorkerState != WorkerState.Running && WorkerState != WorkerState.Waiting)
return Task.FromResult(WorkerState);
public override Task<WorkerState> PauseAsync() {
lock(this._syncLock) {
if(this.WorkerState != WorkerState.Running && this.WorkerState != WorkerState.Waiting) {
return Task.FromResult(this.WorkerState);
}
if (IsStopRequested)
return Task.FromResult(WorkerState);
if(this.IsStopRequested) {
return Task.FromResult(this.WorkerState);
}
var task = QueueStateChange(StateChangeRequest.Pause);
Interrupt();
Task<WorkerState> task = this.QueueStateChange(StateChangeRequest.Pause);
this.Interrupt();
return task;
}
}
/// <inheritdoc />
public override Task<WorkerState> ResumeAsync()
{
lock (_syncLock)
{
if (WorkerState == WorkerState.Created)
return StartAsync();
public override Task<WorkerState> ResumeAsync() {
lock(this._syncLock) {
if(this.WorkerState == WorkerState.Created) {
return this.StartAsync();
}
if (WorkerState != WorkerState.Paused && WorkerState != WorkerState.Waiting)
return Task.FromResult(WorkerState);
if(this.WorkerState != WorkerState.Paused && this.WorkerState != WorkerState.Waiting) {
return Task.FromResult(this.WorkerState);
}
if (IsStopRequested)
return Task.FromResult(WorkerState);
if(this.IsStopRequested) {
return Task.FromResult(this.WorkerState);
}
var task = QueueStateChange(StateChangeRequest.Resume);
Interrupt();
Task<WorkerState> task = this.QueueStateChange(StateChangeRequest.Resume);
this.Interrupt();
return task;
}
}
/// <inheritdoc />
public override Task<WorkerState> StopAsync()
{
lock (_syncLock)
{
if (WorkerState == WorkerState.Stopped || WorkerState == WorkerState.Created)
{
WorkerState = WorkerState.Stopped;
return Task.FromResult(WorkerState);
public override Task<WorkerState> StopAsync() {
lock(this._syncLock) {
if(this.WorkerState == WorkerState.Stopped || this.WorkerState == WorkerState.Created) {
this.WorkerState = WorkerState.Stopped;
return Task.FromResult(this.WorkerState);
}
var task = QueueStateChange(StateChangeRequest.Stop);
Interrupt();
Task<WorkerState> task = this.QueueStateChange(StateChangeRequest.Stop);
this.Interrupt();
return task;
}
}
@ -110,40 +100,41 @@
/// immediately.
/// </summary>
/// <param name="delay">The delay.</param>
protected void ScheduleCycle(int delay)
{
lock (_syncLock)
{
if (!_isTimerAlive) return;
_timer.Change(delay, Timeout.Infinite);
protected void ScheduleCycle(Int32 delay) {
lock(this._syncLock) {
if(!this._isTimerAlive) {
return;
}
_ = this._timer.Change(delay, Timeout.Infinite);
}
}
/// <inheritdoc />
protected override void Dispose(bool disposing)
{
protected override void Dispose(Boolean disposing) {
base.Dispose(disposing);
lock (_syncLock)
{
if (!_isTimerAlive) return;
_isTimerAlive = false;
_timer.Dispose();
lock(this._syncLock) {
if(!this._isTimerAlive) {
return;
}
this._isTimerAlive = false;
this._timer.Dispose();
}
}
/// <summary>
/// Cancels the current token and schedules a new cycle immediately.
/// </summary>
private void Interrupt()
{
lock (_syncLock)
{
if (WorkerState == WorkerState.Stopped)
private void Interrupt() {
lock(this._syncLock) {
if(this.WorkerState == WorkerState.Stopped) {
return;
}
CycleCancellation.Cancel();
ScheduleCycle(0);
this.CycleCancellation.Cancel();
this.ScheduleCycle(0);
}
}
@ -153,68 +144,62 @@
/// the execution of use cycle code,
/// and the scheduling of new cycles.
/// </summary>
private void ExecuteWorkerCycle()
{
CycleStopwatch.Restart();
private void ExecuteWorkerCycle() {
this.CycleStopwatch.Restart();
lock (_syncLock)
{
if (IsDisposing || IsDisposed)
{
WorkerState = WorkerState.Stopped;
lock(this._syncLock) {
if(this.IsDisposing || this.IsDisposed) {
this.WorkerState = WorkerState.Stopped;
// Cancel any awaiters
try { StateChangedEvent.Set(); }
catch { /* Ignore */ }
try {
this.StateChangedEvent.Set();
} catch { /* Ignore */ }
return;
}
// Prevent running another instance of the cycle
if (CycleCompletedEvent.IsSet == false) return;
if(this.CycleCompletedEvent.IsSet == false) {
return;
}
// Lock the cycle and capture relevant state valid for this cycle
CycleCompletedEvent.Reset();
this.CycleCompletedEvent.Reset();
}
var interruptToken = CycleCancellation.Token;
var initialWorkerState = WorkerState;
CancellationToken interruptToken = this.CycleCancellation.Token;
WorkerState initialWorkerState = this.WorkerState;
// Process the tasks that are awaiting
if (ProcessStateChangeRequests())
if(this.ProcessStateChangeRequests()) {
return;
}
try
{
if (initialWorkerState == WorkerState.Waiting &&
!interruptToken.IsCancellationRequested)
{
try {
if(initialWorkerState == WorkerState.Waiting &&
!interruptToken.IsCancellationRequested) {
// Mark the state as Running
WorkerState = WorkerState.Running;
this.WorkerState = WorkerState.Running;
// Call the execution logic
ExecuteCycleLogic(interruptToken);
this.ExecuteCycleLogic(interruptToken);
}
}
catch (Exception ex)
{
OnCycleException(ex);
}
finally
{
} catch(Exception ex) {
this.OnCycleException(ex);
} finally {
// Update the state
WorkerState = initialWorkerState == WorkerState.Paused
this.WorkerState = initialWorkerState == WorkerState.Paused
? WorkerState.Paused
: WorkerState.Waiting;
lock (_syncLock)
{
lock(this._syncLock) {
// Signal the cycle has been completed so new cycles can be executed
CycleCompletedEvent.Set();
this.CycleCompletedEvent.Set();
// Schedule a new cycle
ScheduleCycle(!interruptToken.IsCancellationRequested
? ComputeCycleDelay(initialWorkerState)
this.ScheduleCycle(!interruptToken.IsCancellationRequested
? this.ComputeCycleDelay(initialWorkerState)
: 0);
}
}
@ -224,7 +209,7 @@
/// Represents the callback that is executed when the <see cref="_timer"/> ticks.
/// </summary>
/// <param name="state">The state -- this contains the worker.</param>
private void ExecuteTimerCallback(object state) => ExecuteWorkerCycle();
private void ExecuteTimerCallback(Object state) => this.ExecuteWorkerCycle();
/// <summary>
/// Queues a transition in worker state for processing. Returns a task that can be awaited
@ -232,28 +217,25 @@
/// </summary>
/// <param name="request">The request.</param>
/// <returns>The awaitable task.</returns>
private Task<WorkerState> QueueStateChange(StateChangeRequest request)
{
lock (_syncLock)
{
if (StateChangeTask != null)
return StateChangeTask;
private Task<WorkerState> QueueStateChange(StateChangeRequest request) {
lock(this._syncLock) {
if(this.StateChangeTask != null) {
return this.StateChangeTask;
}
var waitingTask = new Task<WorkerState>(() =>
{
StateChangedEvent.Wait();
lock (_syncLock)
{
StateChangeTask = null;
return WorkerState;
Task<WorkerState> waitingTask = new Task<WorkerState>(() => {
this.StateChangedEvent.Wait();
lock(this._syncLock) {
this.StateChangeTask = null;
return this.WorkerState;
}
});
StateChangeTask = waitingTask;
StateChangedEvent.Reset();
StateChangeRequests[request] = true;
this.StateChangeTask = waitingTask;
this.StateChangedEvent.Reset();
this.StateChangeRequests[request] = true;
waitingTask.Start();
CycleCancellation.Cancel();
this.CycleCancellation.Cancel();
return waitingTask;
}
@ -264,38 +246,30 @@
/// cycle execution accordingly. The <see cref="WorkerState"/> is also updated.
/// </summary>
/// <returns>Returns <c>true</c> if the execution should be terminated. <c>false</c> otherwise.</returns>
private bool ProcessStateChangeRequests()
{
lock (_syncLock)
{
var currentState = WorkerState;
var hasRequest = false;
var schedule = 0;
private Boolean ProcessStateChangeRequests() {
lock(this._syncLock) {
WorkerState currentState = this.WorkerState;
Boolean hasRequest = false;
Int32 schedule = 0;
// Update the state according to request priority
if (StateChangeRequests[StateChangeRequest.Stop] || IsDisposing || IsDisposed)
{
if(this.StateChangeRequests[StateChangeRequest.Stop] || this.IsDisposing || this.IsDisposed) {
hasRequest = true;
WorkerState = WorkerState.Stopped;
schedule = StateChangeRequests[StateChangeRequest.Stop] ? Timeout.Infinite : 0;
}
else if (StateChangeRequests[StateChangeRequest.Pause])
{
this.WorkerState = WorkerState.Stopped;
schedule = this.StateChangeRequests[StateChangeRequest.Stop] ? Timeout.Infinite : 0;
} else if(this.StateChangeRequests[StateChangeRequest.Pause]) {
hasRequest = true;
WorkerState = WorkerState.Paused;
this.WorkerState = WorkerState.Paused;
schedule = Timeout.Infinite;
}
else if (StateChangeRequests[StateChangeRequest.Start] || StateChangeRequests[StateChangeRequest.Resume])
{
} else if(this.StateChangeRequests[StateChangeRequest.Start] || this.StateChangeRequests[StateChangeRequest.Resume]) {
hasRequest = true;
WorkerState = WorkerState.Waiting;
this.WorkerState = WorkerState.Waiting;
}
// Signals all state changes to continue
// as a command has been handled.
if (hasRequest)
{
ClearStateChangeRequests(schedule, currentState, WorkerState);
if(hasRequest) {
this.ClearStateChangeRequests(schedule, currentState, this.WorkerState);
}
return hasRequest;
@ -308,20 +282,18 @@
/// <param name="schedule">The cycle schedule.</param>
/// <param name="oldState">The previous worker state.</param>
/// <param name="newState">The new worker state.</param>
private void ClearStateChangeRequests(int schedule, WorkerState oldState, WorkerState newState)
{
lock (_syncLock)
{
private void ClearStateChangeRequests(Int32 schedule, WorkerState oldState, WorkerState newState) {
lock(this._syncLock) {
// Mark all events as completed
StateChangeRequests[StateChangeRequest.Start] = false;
StateChangeRequests[StateChangeRequest.Pause] = false;
StateChangeRequests[StateChangeRequest.Resume] = false;
StateChangeRequests[StateChangeRequest.Stop] = false;
this.StateChangeRequests[StateChangeRequest.Start] = false;
this.StateChangeRequests[StateChangeRequest.Pause] = false;
this.StateChangeRequests[StateChangeRequest.Resume] = false;
this.StateChangeRequests[StateChangeRequest.Stop] = false;
StateChangedEvent.Set();
CycleCompletedEvent.Set();
OnStateChangeProcessed(oldState, newState);
ScheduleCycle(schedule);
this.StateChangedEvent.Set();
this.CycleCompletedEvent.Set();
this.OnStateChangeProcessed(oldState, newState);
this.ScheduleCycle(schedule);
}
}
}

135
Swan/Threading/WorkerBase.cs
View File

@ -1,20 +1,19 @@
namespace Swan.Threading
{
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Threading;
using System.Threading.Tasks;
#nullable enable
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Threading;
using System.Threading.Tasks;
namespace Swan.Threading {
/// <summary>
/// Provides base infrastructure for Timer and Thread workers.
/// </summary>
/// <seealso cref="IWorker" />
public abstract class WorkerBase : IWorker, IDisposable
{
public abstract class WorkerBase : IWorker, IDisposable {
// Since these are API property backers, we use interlocked to read from them
// to avoid deadlocked reads
private readonly object _syncLock = new object();
private readonly Object _syncLock = new Object();
private readonly AtomicBoolean _isDisposed = new AtomicBoolean();
private readonly AtomicBoolean _isDisposing = new AtomicBoolean();
@ -26,13 +25,11 @@
/// </summary>
/// <param name="name">The name.</param>
/// <param name="period">The execution interval.</param>
protected WorkerBase(string name, TimeSpan period)
{
Name = name;
_timeSpan = new AtomicTimeSpan(period);
protected WorkerBase(String name, TimeSpan period) {
this.Name = name;
this._timeSpan = new AtomicTimeSpan(period);
StateChangeRequests = new Dictionary<StateChangeRequest, bool>(5)
{
this.StateChangeRequests = new Dictionary<StateChangeRequest, Boolean>(5) {
[StateChangeRequest.Start] = false,
[StateChangeRequest.Pause] = false,
[StateChangeRequest.Resume] = false,
@ -43,8 +40,7 @@
/// <summary>
/// Enumerates all the different state change requests.
/// </summary>
protected enum StateChangeRequest
{
protected enum StateChangeRequest {
/// <summary>
/// No state change request.
/// </summary>
@ -72,34 +68,32 @@
}
/// <inheritdoc />
public string Name { get; }
/// <inheritdoc />
public TimeSpan Period
{
get => _timeSpan.Value;
set => _timeSpan.Value = value;
public String Name {
get;
}
/// <inheritdoc />
public WorkerState WorkerState
{
get => _workerState.Value;
protected set => _workerState.Value = value;
public TimeSpan Period {
get => this._timeSpan.Value;
set => this._timeSpan.Value = value;
}
/// <inheritdoc />
public bool IsDisposed
{
get => _isDisposed.Value;
protected set => _isDisposed.Value = value;
public WorkerState WorkerState {
get => this._workerState.Value;
protected set => this._workerState.Value = value;
}
/// <inheritdoc />
public bool IsDisposing
{
get => _isDisposing.Value;
protected set => _isDisposing.Value = value;
public Boolean IsDisposed {
get => this._isDisposed.Value;
protected set => this._isDisposed.Value = value;
}
/// <inheritdoc />
public Boolean IsDisposing {
get => this._isDisposing.Value;
protected set => this._isDisposing.Value = value;
}
/// <summary>
@ -111,7 +105,7 @@
/// Gets a value indicating whether stop has been requested.
/// This is useful to prevent more requests from being issued.
/// </summary>
protected bool IsStopRequested => StateChangeRequests[StateChangeRequest.Stop];
protected Boolean IsStopRequested => this.StateChangeRequests[StateChangeRequest.Stop];
/// <summary>
/// Gets the cycle stopwatch.
@ -121,7 +115,9 @@
/// <summary>
/// Gets the state change requests.
/// </summary>
protected Dictionary<StateChangeRequest, bool> StateChangeRequests { get; }
protected Dictionary<StateChangeRequest, Boolean> StateChangeRequests {
get;
}
/// <summary>
/// Gets the cycle completed event.
@ -141,7 +137,9 @@
/// <summary>
/// Gets or sets the state change task.
/// </summary>
protected Task<WorkerState>? StateChangeTask { get; set; }
protected Task<WorkerState>? StateChangeTask {
get; set;
}
/// <inheritdoc />
public abstract Task<WorkerState> StartAsync();
@ -156,9 +154,8 @@
public abstract Task<WorkerState> StopAsync();
/// <inheritdoc />
public void Dispose()
{
Dispose(true);
public void Dispose() {
this.Dispose(true);
GC.SuppressFinalize(this);
}
@ -166,28 +163,29 @@
/// Releases unmanaged and - optionally - managed resources.
/// </summary>
/// <param name="disposing"><c>true</c> to release both managed and unmanaged resources; <c>false</c> to release only unmanaged resources.</param>
protected virtual void Dispose(bool disposing)
{
lock (_syncLock)
{
if (IsDisposed || IsDisposing) return;
IsDisposing = true;
protected virtual void Dispose(Boolean disposing) {
lock(this._syncLock) {
if(this.IsDisposed || this.IsDisposing) {
return;
}
this.IsDisposing = true;
}
// This also ensures the state change queue gets cleared
StopAsync().Wait();
StateChangedEvent.Set();
CycleCompletedEvent.Set();
this.StopAsync().Wait();
this.StateChangedEvent.Set();
this.CycleCompletedEvent.Set();
OnDisposing();
this.OnDisposing();
CycleStopwatch.Stop();
StateChangedEvent.Dispose();
CycleCompletedEvent.Dispose();
CycleCancellation.Dispose();
this.CycleStopwatch.Stop();
this.StateChangedEvent.Dispose();
this.CycleCompletedEvent.Dispose();
this.CycleCancellation.Dispose();
IsDisposed = true;
IsDisposing = false;
this.IsDisposed = true;
this.IsDisposing = false;
}
/// <summary>
@ -214,8 +212,7 @@
/// </summary>
/// <param name="previousState">The state before the change.</param>
/// <param name="newState">The new state.</param>
protected virtual void OnStateChangeProcessed(WorkerState previousState, WorkerState newState)
{
protected virtual void OnStateChangeProcessed(WorkerState previousState, WorkerState newState) {
// placeholder
}
@ -224,17 +221,13 @@
/// </summary>
/// <param name="initialWorkerState">Initial state of the worker.</param>
/// <returns>The number of milliseconds to delay for.</returns>
protected int ComputeCycleDelay(WorkerState initialWorkerState)
{
var elapsedMillis = CycleStopwatch.ElapsedMilliseconds;
var period = Period;
var periodMillis = period.TotalMilliseconds;
var delayMillis = periodMillis - elapsedMillis;
protected Int32 ComputeCycleDelay(WorkerState initialWorkerState) {
Int64 elapsedMillis = this.CycleStopwatch.ElapsedMilliseconds;
TimeSpan period = this.Period;
Double periodMillis = period.TotalMilliseconds;
Double delayMillis = periodMillis - elapsedMillis;
if (initialWorkerState == WorkerState.Paused || period == TimeSpan.MaxValue || delayMillis >= int.MaxValue)
return Timeout.Infinite;
return elapsedMillis >= periodMillis ? 0 : Convert.ToInt32(Math.Floor(delayMillis));
return initialWorkerState == WorkerState.Paused || period == TimeSpan.MaxValue || delayMillis >= Int32.MaxValue ? Timeout.Infinite : elapsedMillis >= periodMillis ? 0 : Convert.ToInt32(Math.Floor(delayMillis));
}
}
}

123
Swan/Threading/WorkerDelayProvider.cs
View File

@ -1,15 +1,13 @@
namespace Swan.Threading
{
using System;
using System.Diagnostics;
using System.Threading;
using System.Threading.Tasks;
using System;
using System.Diagnostics;
using System.Threading;
using System.Threading.Tasks;
namespace Swan.Threading {
/// <summary>
/// Represents a class that implements delay logic for thread workers.
/// </summary>
public static class WorkerDelayProvider
{
public static class WorkerDelayProvider {
/// <summary>
/// Gets the default delay provider.
/// </summary>
@ -38,114 +36,111 @@
/// </summary>
public static IWorkerDelayProvider SteppedToken => new SteppedTokenDelay();
private class TokenCancellableDelay : IWorkerDelayProvider
{
public void ExecuteCycleDelay(int wantedDelay, Task delayTask, CancellationToken token)
{
if (wantedDelay == 0 || wantedDelay < -1)
private class TokenCancellableDelay : IWorkerDelayProvider {
public void ExecuteCycleDelay(Int32 wantedDelay, Task delayTask, CancellationToken token) {
if(wantedDelay == 0 || wantedDelay < -1) {
return;
}
// for wanted delays of less than 30ms it is not worth
// passing a timeout or a token as it only adds unnecessary
// overhead.
if (wantedDelay <= 30)
{
try { delayTask.Wait(token); }
catch { /* ignore */ }
if(wantedDelay <= 30) {
try {
delayTask.Wait(token);
} catch { /* ignore */ }
return;
}
// only wait on the cancellation token
// or until the task completes normally
try { delayTask.Wait(token); }
catch { /* ignore */ }
try {
delayTask.Wait(token);
} catch { /* ignore */ }
}
}
private class TokenTimeoutCancellableDelay : IWorkerDelayProvider
{
public void ExecuteCycleDelay(int wantedDelay, Task delayTask, CancellationToken token)
{
if (wantedDelay == 0 || wantedDelay < -1)
private class TokenTimeoutCancellableDelay : IWorkerDelayProvider {
public void ExecuteCycleDelay(Int32 wantedDelay, Task delayTask, CancellationToken token) {
if(wantedDelay == 0 || wantedDelay < -1) {
return;
}
// for wanted delays of less than 30ms it is not worth
// passing a timeout or a token as it only adds unnecessary
// overhead.
if (wantedDelay <= 30)
{
try { delayTask.Wait(token); }
catch { /* ignore */ }
if(wantedDelay <= 30) {
try {
delayTask.Wait(token);
} catch { /* ignore */ }
return;
}
try { delayTask.Wait(wantedDelay, token); }
catch { /* ignore */ }
try {
_ = delayTask.Wait(wantedDelay, token);
} catch { /* ignore */ }
}
}
private class TokenSleepDelay : IWorkerDelayProvider
{
private class TokenSleepDelay : IWorkerDelayProvider {
private readonly Stopwatch _elapsedWait = new Stopwatch();
public void ExecuteCycleDelay(int wantedDelay, Task delayTask, CancellationToken token)
{
_elapsedWait.Restart();
public void ExecuteCycleDelay(Int32 wantedDelay, Task delayTask, CancellationToken token) {
this._elapsedWait.Restart();
if (wantedDelay == 0 || wantedDelay < -1)
if(wantedDelay == 0 || wantedDelay < -1) {
return;
}
while (!token.IsCancellationRequested)
{
while(!token.IsCancellationRequested) {
Thread.Sleep(5);
if (wantedDelay != Timeout.Infinite && _elapsedWait.ElapsedMilliseconds >= wantedDelay)
if(wantedDelay != Timeout.Infinite && this._elapsedWait.ElapsedMilliseconds >= wantedDelay) {
break;
}
}
}
}
private class SteppedTokenDelay : IWorkerDelayProvider
{
private const int StepMilliseconds = 15;
private class SteppedTokenDelay : IWorkerDelayProvider {
private const Int32 StepMilliseconds = 15;
private readonly Stopwatch _elapsedWait = new Stopwatch();
public void ExecuteCycleDelay(int wantedDelay, Task delayTask, CancellationToken token)
{
_elapsedWait.Restart();
public void ExecuteCycleDelay(Int32 wantedDelay, Task delayTask, CancellationToken token) {
this._elapsedWait.Restart();
if (wantedDelay == 0 || wantedDelay < -1)
return;
if (wantedDelay == Timeout.Infinite)
{
try { delayTask.Wait(wantedDelay, token); }
catch { /* Ignore cancelled tasks */ }
if(wantedDelay == 0 || wantedDelay < -1) {
return;
}
while (!token.IsCancellationRequested)
{
var remainingWaitTime = wantedDelay - Convert.ToInt32(_elapsedWait.ElapsedMilliseconds);
if(wantedDelay == Timeout.Infinite) {
try {
_ = delayTask.Wait(wantedDelay, token);
} catch { /* Ignore cancelled tasks */ }
return;
}
while(!token.IsCancellationRequested) {
Int32 remainingWaitTime = wantedDelay - Convert.ToInt32(this._elapsedWait.ElapsedMilliseconds);
// Exit for no remaining wait time
if (remainingWaitTime <= 0)
if(remainingWaitTime <= 0) {
break;
}
if (remainingWaitTime >= StepMilliseconds)
{
if(remainingWaitTime >= StepMilliseconds) {
Task.Delay(StepMilliseconds, token).Wait(token);
}
else
{
try { delayTask.Wait(remainingWaitTime); }
catch { /* ignore cancellation of task exception */ }
} else {
try {
_ = delayTask.Wait(remainingWaitTime);
} catch { /* ignore cancellation of task exception */ }
}
if (_elapsedWait.ElapsedMilliseconds >= wantedDelay)
if(this._elapsedWait.ElapsedMilliseconds >= wantedDelay) {
break;
}
}
}
}
}
}

80
Swan/ViewModelBase.cs
View File

@ -1,37 +1,31 @@
using System.Collections.Concurrent;
using System;
using System.Collections.Concurrent;
using System.Collections.Generic;
using System.ComponentModel;
using System.Linq;
using System.Runtime.CompilerServices;
using System.Threading.Tasks;
namespace Swan
{
namespace Swan {
/// <summary>
/// A base class for implementing models that fire notifications when their properties change.
/// This class is ideal for implementing MVVM driven UIs.
/// </summary>
/// <seealso cref="INotifyPropertyChanged" />
public abstract class ViewModelBase : INotifyPropertyChanged
{
private readonly ConcurrentDictionary<string, bool> _queuedNotifications = new ConcurrentDictionary<string, bool>();
private readonly bool _useDeferredNotifications;
public abstract class ViewModelBase : INotifyPropertyChanged {
private readonly ConcurrentDictionary<String, Boolean> _queuedNotifications = new ConcurrentDictionary<String, Boolean>();
private readonly Boolean _useDeferredNotifications;
/// <summary>
/// Initializes a new instance of the <see cref="ViewModelBase"/> class.
/// </summary>
/// <param name="useDeferredNotifications">Set to <c>true</c> to use deferred notifications in the background.</param>
protected ViewModelBase(bool useDeferredNotifications)
{
_useDeferredNotifications = useDeferredNotifications;
}
protected ViewModelBase(Boolean useDeferredNotifications) => this._useDeferredNotifications = useDeferredNotifications;
/// <summary>
/// Initializes a new instance of the <see cref="ViewModelBase"/> class.
/// </summary>
protected ViewModelBase()
: this(false)
{
protected ViewModelBase() : this(false) {
// placeholder
}
@ -49,13 +43,13 @@ namespace Swan
/// <param name="notifyAlso">An array of property names to notify in addition to notifying the changes on the current property name.</param>
/// <returns>True if the value was changed, false if the existing value matched the
/// desired value.</returns>
protected bool SetProperty<T>(ref T storage, T value, [CallerMemberName] string propertyName = "", string[] notifyAlso = null)
{
if (EqualityComparer<T>.Default.Equals(storage, value))
protected Boolean SetProperty<T>(ref T storage, T value, [CallerMemberName] String propertyName = "", String[] notifyAlso = null) {
if(EqualityComparer<T>.Default.Equals(storage, value)) {
return false;
}
storage = value;
NotifyPropertyChanged(propertyName, notifyAlso);
this.NotifyPropertyChanged(propertyName, notifyAlso);
return true;
}
@ -63,54 +57,55 @@ namespace Swan
/// Notifies one or more properties changed.
/// </summary>
/// <param name="propertyNames">The property names.</param>
protected void NotifyPropertyChanged(params string[] propertyNames) => NotifyPropertyChanged(null, propertyNames);
protected void NotifyPropertyChanged(params String[] propertyNames) => this.NotifyPropertyChanged(null, propertyNames);
/// <summary>
/// Notifies one or more properties changed.
/// </summary>
/// <param name="mainProperty">The main property.</param>
/// <param name="auxiliaryProperties">The auxiliary properties.</param>
private void NotifyPropertyChanged(string mainProperty, string[] auxiliaryProperties)
{
private void NotifyPropertyChanged(String mainProperty, String[] auxiliaryProperties) {
// Queue property notification
if (string.IsNullOrWhiteSpace(mainProperty) == false)
_queuedNotifications[mainProperty] = true;
if(String.IsNullOrWhiteSpace(mainProperty) == false) {
this._queuedNotifications[mainProperty] = true;
}
// Set the state for notification properties
if (auxiliaryProperties != null)
{
foreach (var property in auxiliaryProperties)
{
if (string.IsNullOrWhiteSpace(property) == false)
_queuedNotifications[property] = true;
if(auxiliaryProperties != null) {
foreach(String property in auxiliaryProperties) {
if(String.IsNullOrWhiteSpace(property) == false) {
this._queuedNotifications[property] = true;
}
}
}
// Depending on operation mode, either fire the notifications in the background
// or fire them immediately
if (_useDeferredNotifications)
Task.Run(NotifyQueuedProperties);
else
NotifyQueuedProperties();
if(this._useDeferredNotifications) {
_ = Task.Run(this.NotifyQueuedProperties);
} else {
this.NotifyQueuedProperties();
}
}
/// <summary>
/// Notifies the queued properties and resets the property name to a non-queued stated.
/// </summary>
private void NotifyQueuedProperties()
{
private void NotifyQueuedProperties() {
// get a snapshot of property names.
var propertyNames = _queuedNotifications.Keys.ToArray();
String[] propertyNames = this._queuedNotifications.Keys.ToArray();
// Iterate through the properties
foreach (var property in propertyNames)
{
foreach(String property in propertyNames) {
// don't notify if we don't have a change
if (!_queuedNotifications[property]) continue;
if(!this._queuedNotifications[property]) {
continue;
}
// notify and reset queued state to false
try { OnPropertyChanged(property); }
finally { _queuedNotifications[property] = false; }
try {
this.OnPropertyChanged(property);
} finally { this._queuedNotifications[property] = false; }
}
}
@ -118,7 +113,6 @@ namespace Swan
/// Called when a property changes its backing value.
/// </summary>
/// <param name="propertyName">Name of the property.</param>
private void OnPropertyChanged(string propertyName) =>
PropertyChanged?.Invoke(this, new PropertyChangedEventArgs(propertyName ?? string.Empty));
private void OnPropertyChanged(String propertyName) => PropertyChanged?.Invoke(this, new PropertyChangedEventArgs(propertyName ?? String.Empty));
}
}