From a56e30c8d33048216567753d9d3fefc2152af8ac Mon Sep 17 00:00:00 2001 From: Jiyoung Yun Date: Thu, 13 Apr 2017 14:17:19 +0900 Subject: Imported Upstream version 2.0.0.11353 --- .../System/Diagnostics/Tracing/EventSource.cs | 6942 ++++++++++++++++++++ 1 file changed, 6942 insertions(+) create mode 100644 src/mscorlib/shared/System/Diagnostics/Tracing/EventSource.cs (limited to 'src/mscorlib/shared/System/Diagnostics/Tracing/EventSource.cs') diff --git a/src/mscorlib/shared/System/Diagnostics/Tracing/EventSource.cs b/src/mscorlib/shared/System/Diagnostics/Tracing/EventSource.cs new file mode 100644 index 0000000000..cf4901de6f --- /dev/null +++ b/src/mscorlib/shared/System/Diagnostics/Tracing/EventSource.cs @@ -0,0 +1,6942 @@ +// Licensed to the .NET Foundation under one or more agreements. +// The .NET Foundation licenses this file to you under the MIT license. +// See the LICENSE file in the project root for more information. + +// This program uses code hyperlinks available as part of the HyperAddin Visual Studio plug-in. +// It is available from http://www.codeplex.com/hyperAddin +#if PLATFORM_WINDOWS + +#define FEATURE_MANAGED_ETW + +#if !ES_BUILD_STANDALONE && !CORECLR && !ES_BUILD_PN +#define FEATURE_ACTIVITYSAMPLING +#endif // !ES_BUILD_STANDALONE + +#endif // PLATFORM_WINDOWS + +#if ES_BUILD_STANDALONE +#define FEATURE_MANAGED_ETW_CHANNELS +// #define FEATURE_ADVANCED_MANAGED_ETW_CHANNELS +#endif + +/* DESIGN NOTES DESIGN NOTES DESIGN NOTES DESIGN NOTES */ +// DESIGN NOTES +// Over the years EventSource has become more complex and so it is important to understand +// the basic structure of the code to insure that it does not grow more complex. +// +// Basic Model +// +// PRINCIPLE: EventSource - ETW decoupling +// +// Conceptually and EventSouce is something takes event logging data from the source methods +// To the EventListener that can subscribe them. Note that CONCEPTUALLY EVENTSOURCES DON'T +// KNOW ABOUT ETW!. The MODEL of the system is that there is a special EventListern Which +// we will call the EtwEventListener, that forwards commands from ETW to EventSources and +// listeners to the EventSources and forwards on those events to ETW. THus the model should +// be that you DON'T NEED ETW. +// +// Now in actual practice, EventSouce have rather intimate knowledge of ETW and send events +// to it directly, but this can be VIEWED AS AN OPTIMIATION. +// +// Basic Event Data Flow: +// +// There are two ways for event Data to enter the system +// 1) WriteEvent* and friends. This is called the 'contract' based approach because +// you write a method per event which forms a contract that is know at compile time. +// In this scheme each event is given an EVENTID (small integer). which is its identity +// 2) Write methods. This is called the 'dynamic' approach because new events +// can be created on the fly. Event identity is determined by the event NAME, and these +// are not quite as efficient at runtime since you have at least a hash table lookup +// on every event write. +// +// EventSource-EventListener transfer fully support both ways of writing events (either contract +// based (WriteEvent*) or dynamic (Write). Both way fully support the same set of data +// types. It is suggested, however, that you use the contract based approach when the event scheme +// is known at compile time (that is whenever possible). It is more efficient, but more importantly +// it makes the contract very explicit, and centralizes all policy about logging. These are good +// things. The Write API is really meant for more ad-hoc +// +// Allowed Data. +// +// Note that EventSource-EventListeners have a conceptual serialization-deserialization that happens +// during the transfer. In particular object identity is not preserved, some objects are morphed, +// and not all data types are supported. In particular you can pass +// +// A Valid type to log to an EventSource include +// * Primitive data types +// * IEnumerable of valid types T (this include arrays) (* New for V4.6) +// * Explicitly Opted in class or struct with public property Getters over Valid types. (* New for V4.6) +// +// This set of types is roughly a generalization of JSON support (Basically primitives, bags, and arrays). +// +// Explicitly allowed structs include (* New for V4.6) +// * Marked with the EventData attribute +// * implicitly defined (e.g the C# new {x = 3, y = 5} syntax) +// * KeyValuePair (thus dictionaries can be passed since they are an IEnumerable of KeyValuePair) +// +// When classes are returned in an EventListener, what is returned is something that implements +// IDictionary. Thus when objects are passed to an EventSource they are transformed +// into a key-value bag (the IDictionary) for consumption in the listener. These +// are obvious NOT the original objects. +// +// ETWserialization formats: +// +// As mentioned conceptually EventSource's send data to EventListeners and there is a conceptual +// copy/morph of that data as described above. In addition the .NET framework supports a conceptual +// ETWListener that will send the data to then ETW stream. If you use this feature, the data needs +// to be serialized in a way that ETW supports. ETW supports the following serialization formats +// +// 1) Manifest Based serialization. +// 2) SelfDescribing serialization (TraceLogging style in the TraceLogging directory) +// +// A key factor is that the Write method, which support on the fly definition of events, can't +// support the manifest based serialization because the manifest needs the schema of all events +// to be known before any events are emitted. This implies the following +// +// If you use Write and the output goes to ETW it will use the SelfDescribing format. +// If you use the EventSource(string) constructor for an eventSource (in which you don't +// create a subclass), the default is also to use Self-Describing serialization. In addition +// you can use the EventSoruce(EventSourceSettings) constructor to also explicitly specify +// Self-Describing serialization format. These effect the WriteEvent* APIs going to ETW. +// +// Note that none of this ETW serialization logic affects EventListeners. Only the ETW listener. +// +// ************************************************************************************* +// *** INTERNALS: Event Propagation +// +// Data enters the system either though +// +// 1) A user defined method in the user defined subclass of EventSource which calls +// A) A typesafe type specific overload of WriteEvent(ID, ...) e.g. WriteEvent(ID, string, string) +// * which calls into the unsafe WriteEventCore(ID COUNT EventData*) WriteEventWithRelatedActivityIdCore() +// B) The typesafe overload WriteEvent(ID, object[]) which calls the private helper WriteEventVarargs(ID, Guid* object[]) +// C) Directly into the unsafe WriteEventCore(ID, COUNT EventData*) or WriteEventWithRelatedActivityIdCore() +// +// All event data eventually flows to one of +// * WriteEventWithRelatedActivityIdCore(ID, Guid*, COUNT, EventData*) +// * WriteEventVarargs(ID, Guid*, object[]) +// +// 2) A call to one of the overloads of Write. All these overloads end up in +// * WriteImpl(EventName, Options, Data, Guid*, Guid*) +// +// On output there are the following routines +// Writing to all listeners that are NOT ETW, we have the following routines +// * WriteToAllListeners(ID, Guid*, COUNT, EventData*) +// * WriteToAllListeners(ID, Guid*, object[]) +// * WriteToAllListeners(NAME, Guid*, EventPayload) +// +// EventPayload is the internal type that implements the IDictionary interface +// The EventListeners will pass back for serialized classes for nested object, but +// WriteToAllListeners(NAME, Guid*, EventPayload) unpacks this uses the fields as if they +// were parameters to a method. +// +// The first two are used for the WriteEvent* case, and the later is used for the Write case. +// +// Writing to ETW, Manifest Based +// EventProvider.WriteEvent(EventDescriptor, Guid*, COUNT, EventData*) +// EventProvider.WriteEvent(EventDescriptor, Guid*, object[]) +// Writing to ETW, Self-Describing format +// WriteMultiMerge(NAME, Options, Types, EventData*) +// WriteMultiMerge(NAME, Options, Types, object[]) +// WriteImpl has logic that knows how to serialize (like WriteMultiMerge) but also knows +// will write it to +// +// All ETW writes eventually call +// EventWriteTransfer (native PINVOKE wrapper) +// EventWriteTransferWrapper (fixes compat problem if you pass null as the related activityID) +// EventProvider.WriteEventRaw - sets last error +// EventSource.WriteEventRaw - Does EventSource exception handling logic +// WriteMultiMerge +// WriteImpl +// EventProvider.WriteEvent(EventDescriptor, Guid*, COUNT, EventData*) +// EventProvider.WriteEvent(EventDescriptor, Guid*, object[]) +// +// Serialization: We have a bit of a hodge-podge of serializers right now. Only the one for ETW knows +// how to deal with nested classes or arrays. I will call this serializer the 'TypeInfo' serializer +// since it is the TraceLoggingTypeInfo structure that knows how to do this. Effectively for a type you +// can call one of these +// WriteMetadata - transforms the type T into serialization meta data blob for that type +// WriteObjectData - transforms an object of T into serialization meta data blob for that type +// GetData - transforms an object of T into its deserialized form suitable for passing to EventListener. +// The first two are used to serialize something for ETW. The second one is used to transform the object +// for use by the EventListener. We also have a 'DecodeObject' method that will take a EventData* and +// deserialize to pass to an EventListener, but it only works on primitive types (types supported in version V4.5). +// +// It is an important observation that while EventSource does support users directly calling with EventData* +// blobs, we ONLY support that for the primitive types (V4.5 level support). Thus while there is a EventData* +// path through the system it is only for some types. The object[] path is the more general (but less efficient) path. +// +// TODO There is cleanup needed There should be no divergence until WriteEventRaw. +// +// TODO: We should have a single choke point (right now we always have this parallel EventData* and object[] path. This +// was historical (at one point we tried to pass object directly from EventSoruce to EventListener. That was always +// fragile and a compatibility headache, but we have finally been forced into the idea that there is always a transformation. +// This allows us to use the EventData* form to be the canonical data format in the low level APIs. This also gives us the +// opportunity to expose this format to EventListeners in the future. +// +using System; +using System.Runtime.CompilerServices; +#if FEATURE_ACTIVITYSAMPLING +using System.Collections.Concurrent; +#endif +using System.Collections.Generic; +using System.Collections.ObjectModel; +using System.Diagnostics; +using System.Diagnostics.CodeAnalysis; +using System.Globalization; +using System.Reflection; +using System.Resources; +using System.Security; +#if !CORECLR && !ES_BUILD_PN +using System.Security.Permissions; +#endif // !CORECLR && !ES_BUILD_PN + +using System.Text; +using System.Threading; +using Microsoft.Win32; + +#if ES_BUILD_STANDALONE +using EventDescriptor = Microsoft.Diagnostics.Tracing.EventDescriptor; +#else +using System.Threading.Tasks; +#endif + +using Microsoft.Reflection; + +#if !ES_BUILD_AGAINST_DOTNET_V35 +using Contract = System.Diagnostics.Contracts.Contract; +#else +using Contract = Microsoft.Diagnostics.Contracts.Internal.Contract; +#endif + +#if CORECLR || ES_BUILD_PN +using Internal.Runtime.Augments; +#endif + +#if ES_BUILD_STANDALONE +namespace Microsoft.Diagnostics.Tracing +#else +namespace System.Diagnostics.Tracing +#endif +{ + /// + /// This class is meant to be inherited by a user-defined event source in order to define a managed + /// ETW provider. Please See DESIGN NOTES above for the internal architecture. + /// The minimal definition of an EventSource simply specifies a number of ETW event methods that + /// call one of the EventSource.WriteEvent overloads, , + /// or to log them. This functionality + /// is sufficient for many users. + /// + /// To achieve more control over the ETW provider manifest exposed by the event source type, the + /// [] attributes can be specified for the ETW event methods. + /// + /// For very advanced EventSources, it is possible to intercept the commands being given to the + /// eventSource and change what filtering is done (see EventListener.EnableEvents and + /// ) or cause actions to be performed by the eventSource, + /// e.g. dumping a data structure (see EventSource.SendCommand and + /// ). + /// + /// The eventSources can be turned on with Windows ETW controllers (e.g. logman), immediately. + /// It is also possible to control and intercept the data dispatcher programmatically. See + /// for more. + /// + /// + /// + /// This is a minimal definition for a custom event source: + /// + /// [EventSource(Name="Samples-Demos-Minimal")] + /// sealed class MinimalEventSource : EventSource + /// { + /// public static MinimalEventSource Log = new MinimalEventSource(); + /// public void Load(long ImageBase, string Name) { WriteEvent(1, ImageBase, Name); } + /// public void Unload(long ImageBase) { WriteEvent(2, ImageBase); } + /// private MinimalEventSource() {} + /// } + /// + /// + public partial class EventSource : IDisposable + { + +#if FEATURE_EVENTSOURCE_XPLAT + private static readonly EventListener persistent_Xplat_Listener = XplatEventLogger.InitializePersistentListener(); +#endif //FEATURE_EVENTSOURCE_XPLAT + + /// + /// The human-friendly name of the eventSource. It defaults to the simple name of the class + /// + public string Name { get { return m_name; } } + /// + /// Every eventSource is assigned a GUID to uniquely identify it to the system. + /// + public Guid Guid { get { return m_guid; } } + + /// + /// Returns true if the eventSource has been enabled at all. This is the prefered test + /// to be performed before a relatively expensive EventSource operation. + /// + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + public bool IsEnabled() + { + return m_eventSourceEnabled; + } + + /// + /// Returns true if events with greater than or equal 'level' and have one of 'keywords' set are enabled. + /// + /// Note that the result of this function is only an approximation on whether a particular + /// event is active or not. It is only meant to be used as way of avoiding expensive + /// computation for logging when logging is not on, therefore it sometimes returns false + /// positives (but is always accurate when returning false). EventSources are free to + /// have additional filtering. + /// + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + public bool IsEnabled(EventLevel level, EventKeywords keywords) + { + return IsEnabled(level, keywords, EventChannel.None); + } + + /// + /// Returns true if events with greater than or equal 'level' and have one of 'keywords' set are enabled, or + /// if 'keywords' specifies a channel bit for a channel that is enabled. + /// + /// Note that the result of this function only an approximation on whether a particular + /// event is active or not. It is only meant to be used as way of avoiding expensive + /// computation for logging when logging is not on, therefore it sometimes returns false + /// positives (but is always accurate when returning false). EventSources are free to + /// have additional filtering. + /// + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + public bool IsEnabled(EventLevel level, EventKeywords keywords, EventChannel channel) + { + if (!m_eventSourceEnabled) + return false; + + if (!IsEnabledCommon(m_eventSourceEnabled, m_level, m_matchAnyKeyword, level, keywords, channel)) + return false; + +#if !FEATURE_ACTIVITYSAMPLING + + return true; + +#else // FEATURE_ACTIVITYSAMPLING + + return true; + +#if OPTIMIZE_IS_ENABLED + //================================================================================ + // 2013/03/06 - The code below is a possible optimization for IsEnabled(level, kwd) + // in case activity tracing/sampling is enabled. The added complexity of this + // code however weighs against having it "on" until we know it's really needed. + // For now we'll have this #ifdef-ed out in case we see evidence this is needed. + //================================================================================ + + // At this point we believe the event is enabled, however we now need to check + // if we filter because of activity + + // Optimization, all activity filters also register a delegate here, so if there + // is no delegate, we know there are no activity filters, which means that there + // is no additional filtering, which means that we can return true immediately. + if (s_activityDying == null) + return true; + + // if there's at least one legacy ETW listener we can't filter this + if (m_legacySessions != null && m_legacySessions.Count > 0) + return true; + + // if any event ID that triggers a new activity, or "transfers" activities + // is covered by 'keywords' we can't filter this + if (unchecked(((long)keywords & m_keywordTriggers)) != 0) + return true; + + // See if all listeners have activity filters that would block the event. + for (int perEventSourceSessionId = 0; perEventSourceSessionId < SessionMask.MAX; ++perEventSourceSessionId) + { + EtwSession etwSession = m_etwSessionIdMap[perEventSourceSessionId]; + if (etwSession == null) + continue; + + ActivityFilter activityFilter = etwSession.m_activityFilter; + if (activityFilter == null || + ActivityFilter.GetFilter(activityFilter, this) == null) + { + // No activity filter for ETW, if event is active for ETW, we can't filter. + for (int i = 0; i < m_eventData.Length; i++) + if (m_eventData[i].EnabledForETW) + return true; + } + else if (ActivityFilter.IsCurrentActivityActive(activityFilter)) + return true; + } + + // for regular event listeners + var curDispatcher = m_Dispatchers; + while (curDispatcher != null) + { + ActivityFilter activityFilter = curDispatcher.m_Listener.m_activityFilter; + if (activityFilter == null) + { + // See if any event is enabled. + for (int i = 0; i < curDispatcher.m_EventEnabled.Length; i++) + if (curDispatcher.m_EventEnabled[i]) + return true; + } + else if (ActivityFilter.IsCurrentActivityActive(activityFilter)) + return true; + curDispatcher = curDispatcher.m_Next; + } + + // Every listener has an activity filter that is blocking writing the event, + // thus the event is not enabled. + return false; +#endif // OPTIMIZE_IS_ENABLED + +#endif // FEATURE_ACTIVITYSAMPLING + } + + /// + /// Returns the settings for the event source instance + /// + public EventSourceSettings Settings + { + get { return m_config; } + } + + // Manifest support + /// + /// Returns the GUID that uniquely identifies the eventSource defined by 'eventSourceType'. + /// This API allows you to compute this without actually creating an instance of the EventSource. + /// It only needs to reflect over the type. + /// + public static Guid GetGuid(Type eventSourceType) + { + if (eventSourceType == null) + throw new ArgumentNullException(nameof(eventSourceType)); + Contract.EndContractBlock(); + + EventSourceAttribute attrib = (EventSourceAttribute)GetCustomAttributeHelper(eventSourceType, typeof(EventSourceAttribute)); + string name = eventSourceType.Name; + if (attrib != null) + { + if (attrib.Guid != null) + { + Guid g = Guid.Empty; +#if !ES_BUILD_AGAINST_DOTNET_V35 + if (Guid.TryParse(attrib.Guid, out g)) + return g; +#else + try { return new Guid(attrib.Guid); } + catch (Exception) { } +#endif + } + + if (attrib.Name != null) + name = attrib.Name; + } + + if (name == null) + { + throw new ArgumentException(Resources.GetResourceString("Argument_InvalidTypeName"), nameof(eventSourceType)); + } + return GenerateGuidFromName(name.ToUpperInvariant()); // Make it case insensitive. + } + /// + /// Returns the official ETW Provider name for the eventSource defined by 'eventSourceType'. + /// This API allows you to compute this without actually creating an instance of the EventSource. + /// It only needs to reflect over the type. + /// + public static string GetName(Type eventSourceType) + { + return GetName(eventSourceType, EventManifestOptions.None); + } + + /// + /// Returns a string of the XML manifest associated with the eventSourceType. The scheme for this XML is + /// documented at in EventManifest Schema http://msdn.microsoft.com/en-us/library/aa384043(VS.85).aspx. + /// This is the preferred way of generating a manifest to be embedded in the ETW stream as it is fast and + /// the fact that it only includes localized entries for the current UI culture is an acceptable tradeoff. + /// + /// The type of the event source class for which the manifest is generated + /// The manifest XML fragment contains the string name of the DLL name in + /// which it is embedded. This parameter specifies what name will be used + /// The XML data string + public static string GenerateManifest(Type eventSourceType, string assemblyPathToIncludeInManifest) + { + return GenerateManifest(eventSourceType, assemblyPathToIncludeInManifest, EventManifestOptions.None); + } + /// + /// Returns a string of the XML manifest associated with the eventSourceType. The scheme for this XML is + /// documented at in EventManifest Schema http://msdn.microsoft.com/en-us/library/aa384043(VS.85).aspx. + /// Pass EventManifestOptions.AllCultures when generating a manifest to be registered on the machine. This + /// ensures that the entries in the event log will be "optimally" localized. + /// + /// The type of the event source class for which the manifest is generated + /// The manifest XML fragment contains the string name of the DLL name in + /// which it is embedded. This parameter specifies what name will be used + /// The flags to customize manifest generation. If flags has bit OnlyIfNeededForRegistration specified + /// this returns null when the eventSourceType does not require explicit registration + /// The XML data string or null + public static string GenerateManifest(Type eventSourceType, string assemblyPathToIncludeInManifest, EventManifestOptions flags) + { + if (eventSourceType == null) + throw new ArgumentNullException(nameof(eventSourceType)); + Contract.EndContractBlock(); + + byte[] manifestBytes = EventSource.CreateManifestAndDescriptors(eventSourceType, assemblyPathToIncludeInManifest, null, flags); + return (manifestBytes == null) ? null : Encoding.UTF8.GetString(manifestBytes, 0, manifestBytes.Length); + } + + // EventListener support + /// + /// returns a list (IEnumerable) of all sources in the appdomain). EventListeners typically need this. + /// + /// + public static IEnumerable GetSources() + { + var ret = new List(); + lock (EventListener.EventListenersLock) + { + foreach (WeakReference eventSourceRef in EventListener.s_EventSources) + { + EventSource eventSource = eventSourceRef.Target as EventSource; + if (eventSource != null && !eventSource.IsDisposed) + ret.Add(eventSource); + } + } + return ret; + } + + /// + /// Send a command to a particular EventSource identified by 'eventSource'. + /// Calling this routine simply forwards the command to the EventSource.OnEventCommand + /// callback. What the EventSource does with the command and its arguments are from + /// that point EventSource-specific. + /// + /// The instance of EventSource to send the command to + /// A positive user-defined EventCommand, or EventCommand.SendManifest + /// A set of (name-argument, value-argument) pairs associated with the command + public static void SendCommand(EventSource eventSource, EventCommand command, IDictionary commandArguments) + { + if (eventSource == null) + throw new ArgumentNullException(nameof(eventSource)); + + // User-defined EventCommands should not conflict with the reserved commands. + if ((int)command <= (int)EventCommand.Update && (int)command != (int)EventCommand.SendManifest) + { + throw new ArgumentException(Resources.GetResourceString("EventSource_InvalidCommand"), nameof(command)); + } + + eventSource.SendCommand(null, 0, 0, command, true, EventLevel.LogAlways, EventKeywords.None, commandArguments); + } + +#if !ES_BUILD_STANDALONE + /// + /// This property allows EventSource code to appropriately handle as "different" + /// activities started on different threads that have not had an activity created on them. + /// + internal static Guid InternalCurrentThreadActivityId + { + get + { + Guid retval = CurrentThreadActivityId; + if (retval == Guid.Empty) + { + retval = FallbackActivityId; + } + return retval; + } + } + + internal static Guid FallbackActivityId + { + get + { +#pragma warning disable 612, 618 + int threadID = AppDomain.GetCurrentThreadId(); + + // Managed thread IDs are more aggressively re-used than native thread IDs, + // so we'll use the latter... + return new Guid(unchecked((uint)threadID), + unchecked((ushort)s_currentPid), unchecked((ushort)(s_currentPid >> 16)), + 0x94, 0x1b, 0x87, 0xd5, 0xa6, 0x5c, 0x36, 0x64); +#pragma warning restore 612, 618 + } + } +#endif // !ES_BUILD_STANDALONE + + // Error APIs. (We don't throw by default, but you can probe for status) + /// + /// Because + /// + /// 1) Logging is often optional and thus should not generate fatal errors (exceptions) + /// 2) EventSources are often initialized in class constructors (which propagate exceptions poorly) + /// + /// The event source constructor does not throw exceptions. Instead we remember any exception that + /// was generated (it is also logged to Trace.WriteLine). + /// + public Exception ConstructionException { get { return m_constructionException; } } + + /// + /// EventSources can have arbitrary string key-value pairs associated with them called Traits. + /// These traits are not interpreted by the EventSource but may be interpreted by EventListeners + /// (e.g. like the built in ETW listener). These traits are specififed at EventSource + /// construction time and can be retrieved by using this GetTrait API. + /// + /// The key to look up in the set of key-value pairs passed to the EventSource constructor + /// The value string associated iwth key. Will return null if there is no such key. + public string GetTrait(string key) + { + if (m_traits != null) + { + for (int i = 0; i < m_traits.Length - 1; i += 2) + { + if (m_traits[i] == key) + return m_traits[i + 1]; + } + } + return null; + } + + /// + /// Displays the name and GUID for the eventSource for debugging purposes. + /// + public override string ToString() + { + return Resources.GetResourceString("EventSource_ToString", Name, Guid); + } + + /// + /// Fires when a Command (e.g. Enable) comes from a an EventListener. + /// + public event EventHandler EventCommandExecuted + { + add + { + m_eventCommandExecuted += value; + + // If we have an EventHandler attached to the EventSource before the first command arrives + // It should get a chance to handle the deferred commands. + EventCommandEventArgs deferredCommands = m_deferredCommands; + while (deferredCommands != null) + { + value(this, deferredCommands); + deferredCommands = deferredCommands.nextCommand; + } + } + remove + { + m_eventCommandExecuted -= value; + } + } + + #region protected + /// + /// This is the constructor that most users will use to create their eventSource. It takes + /// no parameters. The ETW provider name and GUID of the EventSource are determined by the EventSource + /// custom attribute (so you can determine these things declaratively). If the GUID for the eventSource + /// is not specified in the EventSourceAttribute (recommended), it is Generated by hashing the name. + /// If the ETW provider name of the EventSource is not given, the name of the EventSource class is used as + /// the ETW provider name. + /// + protected EventSource() + : this(EventSourceSettings.EtwManifestEventFormat) + { + } + + /// + /// By default calling the 'WriteEvent' methods do NOT throw on errors (they silently discard the event). + /// This is because in most cases users assume logging is not 'precious' and do NOT wish to have logging failures + /// crash the program. However for those applications where logging is 'precious' and if it fails the caller + /// wishes to react, setting 'throwOnEventWriteErrors' will cause an exception to be thrown if WriteEvent + /// fails. Note the fact that EventWrite succeeds does not necessarily mean that the event reached its destination + /// only that operation of writing it did not fail. These EventSources will not generate self-describing ETW events. + /// + /// For compatibility only use the EventSourceSettings.ThrowOnEventWriteErrors flag instead. + /// + // [Obsolete("Use the EventSource(EventSourceSettings) overload")] + protected EventSource(bool throwOnEventWriteErrors) + : this(EventSourceSettings.EtwManifestEventFormat | (throwOnEventWriteErrors ? EventSourceSettings.ThrowOnEventWriteErrors : 0)) + { } + + /// + /// Construct an EventSource with additional non-default settings (see EventSourceSettings for more) + /// + protected EventSource(EventSourceSettings settings) : this(settings, null) { } + + /// + /// Construct an EventSource with additional non-default settings. + /// + /// Also specify a list of key-value pairs called traits (you must pass an even number of strings). + /// The first string is the key and the second is the value. These are not interpreted by EventSource + /// itself but may be interprated the listeners. Can be fetched with GetTrait(string). + /// + /// See EventSourceSettings for more. + /// A collection of key-value strings (must be an even number). + protected EventSource(EventSourceSettings settings, params string[] traits) + { + m_config = ValidateSettings(settings); + + Guid eventSourceGuid; + string eventSourceName; + + EventMetadata[] eventDescriptors; + byte[] manifest; + GetMetadata(out eventSourceGuid, out eventSourceName, out eventDescriptors, out manifest); + + if (eventSourceGuid.Equals(Guid.Empty) || eventSourceName == null) + { + var myType = this.GetType(); + eventSourceGuid = GetGuid(myType); + eventSourceName = GetName(myType); + } + + Initialize(eventSourceGuid, eventSourceName, traits); + } + + internal virtual void GetMetadata(out Guid eventSourceGuid, out string eventSourceName, out EventMetadata[] eventData, out byte[] manifestBytes) + { + // + // In ProjectN subclasses need to override this method, and return the data from their EventSourceAttribute and EventAttribute annotations. + // On other architectures it is a no-op. + // + // eventDescriptors needs to contain one EventDescriptor for each event; the event's ID should be the same as its index in this array. + // manifestBytes is a UTF-8 encoding of the ETW manifest for the type. + // + // This will be implemented by an IL rewriter, so we can't make this method abstract or the initial build of the subclass would fail. + // + eventSourceGuid = Guid.Empty; + eventSourceName = null; + eventData = null; + manifestBytes = null; + + return; + } + + /// + /// This method is called when the eventSource is updated by the controller. + /// + protected virtual void OnEventCommand(EventCommandEventArgs command) { } + +#pragma warning disable 1591 + // optimized for common signatures (no args) + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId) + { + WriteEventCore(eventId, 0, null); + } + + // optimized for common signatures (ints) + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, int arg1) + { + if (m_eventSourceEnabled) + { + EventSource.EventData* descrs = stackalloc EventSource.EventData[1]; + descrs[0].DataPointer = (IntPtr)(&arg1); + descrs[0].Size = 4; + WriteEventCore(eventId, 1, descrs); + } + } + + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, int arg1, int arg2) + { + if (m_eventSourceEnabled) + { + EventSource.EventData* descrs = stackalloc EventSource.EventData[2]; + descrs[0].DataPointer = (IntPtr)(&arg1); + descrs[0].Size = 4; + descrs[1].DataPointer = (IntPtr)(&arg2); + descrs[1].Size = 4; + WriteEventCore(eventId, 2, descrs); + } + } + + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, int arg1, int arg2, int arg3) + { + if (m_eventSourceEnabled) + { + EventSource.EventData* descrs = stackalloc EventSource.EventData[3]; + descrs[0].DataPointer = (IntPtr)(&arg1); + descrs[0].Size = 4; + descrs[1].DataPointer = (IntPtr)(&arg2); + descrs[1].Size = 4; + descrs[2].DataPointer = (IntPtr)(&arg3); + descrs[2].Size = 4; + WriteEventCore(eventId, 3, descrs); + } + } + + // optimized for common signatures (longs) + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, long arg1) + { + if (m_eventSourceEnabled) + { + EventSource.EventData* descrs = stackalloc EventSource.EventData[1]; + descrs[0].DataPointer = (IntPtr)(&arg1); + descrs[0].Size = 8; + WriteEventCore(eventId, 1, descrs); + } + } + + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, long arg1, long arg2) + { + if (m_eventSourceEnabled) + { + EventSource.EventData* descrs = stackalloc EventSource.EventData[2]; + descrs[0].DataPointer = (IntPtr)(&arg1); + descrs[0].Size = 8; + descrs[1].DataPointer = (IntPtr)(&arg2); + descrs[1].Size = 8; + WriteEventCore(eventId, 2, descrs); + } + } + + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, long arg1, long arg2, long arg3) + { + if (m_eventSourceEnabled) + { + EventSource.EventData* descrs = stackalloc EventSource.EventData[3]; + descrs[0].DataPointer = (IntPtr)(&arg1); + descrs[0].Size = 8; + descrs[1].DataPointer = (IntPtr)(&arg2); + descrs[1].Size = 8; + descrs[2].DataPointer = (IntPtr)(&arg3); + descrs[2].Size = 8; + WriteEventCore(eventId, 3, descrs); + } + } + + // optimized for common signatures (strings) + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, string arg1) + { + if (m_eventSourceEnabled) + { + if (arg1 == null) arg1 = ""; + fixed (char* string1Bytes = arg1) + { + EventSource.EventData* descrs = stackalloc EventSource.EventData[1]; + descrs[0].DataPointer = (IntPtr)string1Bytes; + descrs[0].Size = ((arg1.Length + 1) * 2); + WriteEventCore(eventId, 1, descrs); + } + } + } + + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, string arg1, string arg2) + { + if (m_eventSourceEnabled) + { + if (arg1 == null) arg1 = ""; + if (arg2 == null) arg2 = ""; + fixed (char* string1Bytes = arg1) + fixed (char* string2Bytes = arg2) + { + EventSource.EventData* descrs = stackalloc EventSource.EventData[2]; + descrs[0].DataPointer = (IntPtr)string1Bytes; + descrs[0].Size = ((arg1.Length + 1) * 2); + descrs[1].DataPointer = (IntPtr)string2Bytes; + descrs[1].Size = ((arg2.Length + 1) * 2); + WriteEventCore(eventId, 2, descrs); + } + } + } + + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, string arg1, string arg2, string arg3) + { + if (m_eventSourceEnabled) + { + if (arg1 == null) arg1 = ""; + if (arg2 == null) arg2 = ""; + if (arg3 == null) arg3 = ""; + fixed (char* string1Bytes = arg1) + fixed (char* string2Bytes = arg2) + fixed (char* string3Bytes = arg3) + { + EventSource.EventData* descrs = stackalloc EventSource.EventData[3]; + descrs[0].DataPointer = (IntPtr)string1Bytes; + descrs[0].Size = ((arg1.Length + 1) * 2); + descrs[1].DataPointer = (IntPtr)string2Bytes; + descrs[1].Size = ((arg2.Length + 1) * 2); + descrs[2].DataPointer = (IntPtr)string3Bytes; + descrs[2].Size = ((arg3.Length + 1) * 2); + WriteEventCore(eventId, 3, descrs); + } + } + } + + // optimized for common signatures (string and ints) + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, string arg1, int arg2) + { + if (m_eventSourceEnabled) + { + if (arg1 == null) arg1 = ""; + fixed (char* string1Bytes = arg1) + { + EventSource.EventData* descrs = stackalloc EventSource.EventData[2]; + descrs[0].DataPointer = (IntPtr)string1Bytes; + descrs[0].Size = ((arg1.Length + 1) * 2); + descrs[1].DataPointer = (IntPtr)(&arg2); + descrs[1].Size = 4; + WriteEventCore(eventId, 2, descrs); + } + } + } + + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, string arg1, int arg2, int arg3) + { + if (m_eventSourceEnabled) + { + if (arg1 == null) arg1 = ""; + fixed (char* string1Bytes = arg1) + { + EventSource.EventData* descrs = stackalloc EventSource.EventData[3]; + descrs[0].DataPointer = (IntPtr)string1Bytes; + descrs[0].Size = ((arg1.Length + 1) * 2); + descrs[1].DataPointer = (IntPtr)(&arg2); + descrs[1].Size = 4; + descrs[2].DataPointer = (IntPtr)(&arg3); + descrs[2].Size = 4; + WriteEventCore(eventId, 3, descrs); + } + } + } + + // optimized for common signatures (string and longs) + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, string arg1, long arg2) + { + if (m_eventSourceEnabled) + { + if (arg1 == null) arg1 = ""; + fixed (char* string1Bytes = arg1) + { + EventSource.EventData* descrs = stackalloc EventSource.EventData[2]; + descrs[0].DataPointer = (IntPtr)string1Bytes; + descrs[0].Size = ((arg1.Length + 1) * 2); + descrs[1].DataPointer = (IntPtr)(&arg2); + descrs[1].Size = 8; + WriteEventCore(eventId, 2, descrs); + } + } + } + + // optimized for common signatures (long and string) + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, long arg1, string arg2) + { + if (m_eventSourceEnabled) + { + if (arg2 == null) arg2 = ""; + fixed (char* string2Bytes = arg2) + { + EventSource.EventData* descrs = stackalloc EventSource.EventData[2]; + descrs[0].DataPointer = (IntPtr)(&arg1); + descrs[0].Size = 8; + descrs[1].DataPointer = (IntPtr)string2Bytes; + descrs[1].Size = ((arg2.Length + 1) * 2); + WriteEventCore(eventId, 2, descrs); + } + } + } + + // optimized for common signatures (int and string) + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, int arg1, string arg2) + { + if (m_eventSourceEnabled) + { + if (arg2 == null) arg2 = ""; + fixed (char* string2Bytes = arg2) + { + EventSource.EventData* descrs = stackalloc EventSource.EventData[2]; + descrs[0].DataPointer = (IntPtr)(&arg1); + descrs[0].Size = 4; + descrs[1].DataPointer = (IntPtr)string2Bytes; + descrs[1].Size = ((arg2.Length + 1) * 2); + WriteEventCore(eventId, 2, descrs); + } + } + } + + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, byte[] arg1) + { + if (m_eventSourceEnabled) + { + EventSource.EventData* descrs = stackalloc EventSource.EventData[2]; + if (arg1 == null || arg1.Length == 0) + { + int blobSize = 0; + descrs[0].DataPointer = (IntPtr)(&blobSize); + descrs[0].Size = 4; + descrs[1].DataPointer = (IntPtr)(&blobSize); // valid address instead of empty content + descrs[1].Size = 0; + WriteEventCore(eventId, 2, descrs); + } + else + { + int blobSize = arg1.Length; + fixed (byte* blob = &arg1[0]) + { + descrs[0].DataPointer = (IntPtr)(&blobSize); + descrs[0].Size = 4; + descrs[1].DataPointer = (IntPtr)blob; + descrs[1].Size = blobSize; + WriteEventCore(eventId, 2, descrs); + } + } + } + } + + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, long arg1, byte[] arg2) + { + if (m_eventSourceEnabled) + { + EventSource.EventData* descrs = stackalloc EventSource.EventData[3]; + descrs[0].DataPointer = (IntPtr)(&arg1); + descrs[0].Size = 8; + if (arg2 == null || arg2.Length == 0) + { + int blobSize = 0; + descrs[1].DataPointer = (IntPtr)(&blobSize); + descrs[1].Size = 4; + descrs[2].DataPointer = (IntPtr)(&blobSize); // valid address instead of empty contents + descrs[2].Size = 0; + WriteEventCore(eventId, 3, descrs); + } + else + { + int blobSize = arg2.Length; + fixed (byte* blob = &arg2[0]) + { + descrs[1].DataPointer = (IntPtr)(&blobSize); + descrs[1].Size = 4; + descrs[2].DataPointer = (IntPtr)blob; + descrs[2].Size = blobSize; + WriteEventCore(eventId, 3, descrs); + } + } + } + } + +#pragma warning restore 1591 + + /// + /// Used to construct the data structure to be passed to the native ETW APIs - EventWrite and EventWriteTransfer. + /// + protected internal struct EventData + { + /// + /// Address where the one argument lives (if this points to managed memory you must ensure the + /// managed object is pinned. + /// + public IntPtr DataPointer { get { return (IntPtr)m_Ptr; } set { m_Ptr = unchecked((long)value); } } + /// + /// Size of the argument referenced by DataPointer + /// + public int Size { get { return m_Size; } set { m_Size = value; } } + + #region private + /// + /// Initializes the members of this EventData object to point at a previously-pinned + /// tracelogging-compatible metadata blob. + /// + /// Pinned tracelogging-compatible metadata blob. + /// The size of the metadata blob. + /// Value for reserved: 2 for per-provider metadata, 1 for per-event metadata + internal unsafe void SetMetadata(byte* pointer, int size, int reserved) + { + this.m_Ptr = (long)(ulong)(UIntPtr)pointer; + this.m_Size = size; + this.m_Reserved = reserved; // Mark this descriptor as containing tracelogging-compatible metadata. + } + + //Important, we pass this structure directly to the Win32 EventWrite API, so this structure must be layed out exactly + // the way EventWrite wants it. + internal long m_Ptr; + internal int m_Size; +#pragma warning disable 0649 + internal int m_Reserved; // Used to pad the size to match the Win32 API +#pragma warning restore 0649 + #endregion + } + + /// + /// This routine allows you to create efficient WriteEvent helpers, however the code that you use to + /// do this, while straightforward, is unsafe. + /// + /// + /// + /// protected unsafe void WriteEvent(int eventId, string arg1, long arg2) + /// { + /// if (IsEnabled()) + /// { + /// if (arg2 == null) arg2 = ""; + /// fixed (char* string2Bytes = arg2) + /// { + /// EventSource.EventData* descrs = stackalloc EventSource.EventData[2]; + /// descrs[0].DataPointer = (IntPtr)(&arg1); + /// descrs[0].Size = 8; + /// descrs[1].DataPointer = (IntPtr)string2Bytes; + /// descrs[1].Size = ((arg2.Length + 1) * 2); + /// WriteEventCore(eventId, 2, descrs); + /// } + /// } + /// } + /// + /// + [CLSCompliant(false)] + protected unsafe void WriteEventCore(int eventId, int eventDataCount, EventSource.EventData* data) + { + WriteEventWithRelatedActivityIdCore(eventId, null, eventDataCount, data); + } + + /// + /// This routine allows you to create efficient WriteEventWithRelatedActivityId helpers, however the code + /// that you use to do this, while straightforward, is unsafe. The only difference from + /// is that you pass the relatedActivityId from caller through to this API + /// + /// + /// + /// protected unsafe void WriteEventWithRelatedActivityId(int eventId, Guid relatedActivityId, string arg1, long arg2) + /// { + /// if (IsEnabled()) + /// { + /// if (arg2 == null) arg2 = ""; + /// fixed (char* string2Bytes = arg2) + /// { + /// EventSource.EventData* descrs = stackalloc EventSource.EventData[2]; + /// descrs[0].DataPointer = (IntPtr)(&arg1); + /// descrs[0].Size = 8; + /// descrs[1].DataPointer = (IntPtr)string2Bytes; + /// descrs[1].Size = ((arg2.Length + 1) * 2); + /// WriteEventWithRelatedActivityIdCore(eventId, relatedActivityId, 2, descrs); + /// } + /// } + /// } + /// + /// + [CLSCompliant(false)] + protected unsafe void WriteEventWithRelatedActivityIdCore(int eventId, Guid* relatedActivityId, int eventDataCount, EventSource.EventData* data) + { + if (m_eventSourceEnabled) + { + try + { + Debug.Assert(m_eventData != null); // You must have initialized this if you enabled the source. + if (relatedActivityId != null) + ValidateEventOpcodeForTransfer(ref m_eventData[eventId], m_eventData[eventId].Name); + + EventOpcode opcode = (EventOpcode)m_eventData[eventId].Descriptor.Opcode; + EventActivityOptions activityOptions = m_eventData[eventId].ActivityOptions; + Guid* pActivityId = null; + Guid activityId = Guid.Empty; + Guid relActivityId = Guid.Empty; + + if (opcode != EventOpcode.Info && relatedActivityId == null && + ((activityOptions & EventActivityOptions.Disable) == 0)) + { + if (opcode == EventOpcode.Start) + { + m_activityTracker.OnStart(m_name, m_eventData[eventId].Name, m_eventData[eventId].Descriptor.Task, ref activityId, ref relActivityId, m_eventData[eventId].ActivityOptions); + } + else if (opcode == EventOpcode.Stop) + { + m_activityTracker.OnStop(m_name, m_eventData[eventId].Name, m_eventData[eventId].Descriptor.Task, ref activityId); + } + + if (activityId != Guid.Empty) + pActivityId = &activityId; + if (relActivityId != Guid.Empty) + relatedActivityId = &relActivityId; + } + +#if FEATURE_MANAGED_ETW + if (m_eventData[eventId].EnabledForETW) + { + +#if FEATURE_ACTIVITYSAMPLING + // this code should be kept in sync with WriteEventVarargs(). + SessionMask etwSessions = SessionMask.All; + // only compute etwSessions if there are *any* ETW filters enabled... + if ((ulong)m_curLiveSessions != 0) + etwSessions = GetEtwSessionMask(eventId, relatedActivityId); + // OutputDebugString(string.Format("{0}.WriteEvent(id {1}) -> to sessions {2:x}", + // m_name, m_eventData[eventId].Name, (ulong) etwSessions)); + + if ((ulong)etwSessions != 0 || m_legacySessions != null && m_legacySessions.Count > 0) + { + if (!SelfDescribingEvents) + { + if (etwSessions.IsEqualOrSupersetOf(m_curLiveSessions)) + { + // OutputDebugString(string.Format(" (1) id {0}, kwd {1:x}", + // m_eventData[eventId].Name, m_eventData[eventId].Descriptor.Keywords)); + // by default the Descriptor.Keyword will have the perEventSourceSessionId bit + // mask set to 0x0f so, when all ETW sessions want the event we don't need to + // synthesize a new one + if (!m_provider.WriteEvent(ref m_eventData[eventId].Descriptor, pActivityId, relatedActivityId, eventDataCount, (IntPtr)data)) + ThrowEventSourceException(m_eventData[eventId].Name); + } + else + { + long origKwd = unchecked((long)((ulong)m_eventData[eventId].Descriptor.Keywords & ~(SessionMask.All.ToEventKeywords()))); + // OutputDebugString(string.Format(" (2) id {0}, kwd {1:x}", + // m_eventData[eventId].Name, etwSessions.ToEventKeywords() | (ulong) origKwd)); + // only some of the ETW sessions will receive this event. Synthesize a new + // Descriptor whose Keywords field will have the appropriate bits set. + // etwSessions might be 0, if there are legacy ETW listeners that want this event + var desc = new EventDescriptor( + m_eventData[eventId].Descriptor.EventId, + m_eventData[eventId].Descriptor.Version, + m_eventData[eventId].Descriptor.Channel, + m_eventData[eventId].Descriptor.Level, + m_eventData[eventId].Descriptor.Opcode, + m_eventData[eventId].Descriptor.Task, + unchecked((long)etwSessions.ToEventKeywords() | origKwd)); + + if (!m_provider.WriteEvent(ref desc, pActivityId, relatedActivityId, eventDataCount, (IntPtr)data)) + ThrowEventSourceException(m_eventData[eventId].Name); + } + } + else + { + TraceLoggingEventTypes tlet = m_eventData[eventId].TraceLoggingEventTypes; + if (tlet == null) + { + tlet = new TraceLoggingEventTypes(m_eventData[eventId].Name, + EventTags.None, + m_eventData[eventId].Parameters); + Interlocked.CompareExchange(ref m_eventData[eventId].TraceLoggingEventTypes, tlet, null); + + } + long origKwd = unchecked((long)((ulong)m_eventData[eventId].Descriptor.Keywords & ~(SessionMask.All.ToEventKeywords()))); + // TODO: activity ID support + EventSourceOptions opt = new EventSourceOptions + { + Keywords = (EventKeywords)unchecked((long)etwSessions.ToEventKeywords() | origKwd), + Level = (EventLevel)m_eventData[eventId].Descriptor.Level, + Opcode = (EventOpcode)m_eventData[eventId].Descriptor.Opcode + }; + + WriteMultiMerge(m_eventData[eventId].Name, ref opt, tlet, pActivityId, relatedActivityId, data); + } + } +#else + if (!SelfDescribingEvents) + { + if (!m_provider.WriteEvent(ref m_eventData[eventId].Descriptor, pActivityId, relatedActivityId, eventDataCount, (IntPtr)data)) + ThrowEventSourceException(m_eventData[eventId].Name); + } + else + { + TraceLoggingEventTypes tlet = m_eventData[eventId].TraceLoggingEventTypes; + if (tlet == null) + { + tlet = new TraceLoggingEventTypes(m_eventData[eventId].Name, + m_eventData[eventId].Tags, + m_eventData[eventId].Parameters); + Interlocked.CompareExchange(ref m_eventData[eventId].TraceLoggingEventTypes, tlet, null); + + } + EventSourceOptions opt = new EventSourceOptions + { + Keywords = (EventKeywords)m_eventData[eventId].Descriptor.Keywords, + Level = (EventLevel)m_eventData[eventId].Descriptor.Level, + Opcode = (EventOpcode)m_eventData[eventId].Descriptor.Opcode + }; + + WriteMultiMerge(m_eventData[eventId].Name, ref opt, tlet, pActivityId, relatedActivityId, data); + } +#endif // FEATURE_ACTIVITYSAMPLING + } +#endif // FEATURE_MANAGED_ETW + + if (m_Dispatchers != null && m_eventData[eventId].EnabledForAnyListener) + WriteToAllListeners(eventId, relatedActivityId, eventDataCount, data); + } + catch (Exception ex) + { + if (ex is EventSourceException) + throw; + else + ThrowEventSourceException(m_eventData[eventId].Name, ex); + } + } + } + + // fallback varags helpers. + /// + /// This is the varargs helper for writing an event. It does create an array and box all the arguments so it is + /// relatively inefficient and should only be used for relatively rare events (e.g. less than 100 / sec). If your + /// rates are faster than that you should use to create fast helpers for your particular + /// method signature. Even if you use this for rare events, this call should be guarded by an + /// check so that the varargs call is not made when the EventSource is not active. + /// + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + protected unsafe void WriteEvent(int eventId, params object[] args) + { + WriteEventVarargs(eventId, null, args); + } + + /// + /// This is the varargs helper for writing an event which also specifies a related activity. It is completely analogous + /// to corresponding WriteEvent (they share implementation). It does create an array and box all the arguments so it is + /// relatively inefficient and should only be used for relatively rare events (e.g. less than 100 / sec). If your + /// rates are faster than that you should use to create fast helpers for your + /// particular method signature. Even if you use this for rare events, this call should be guarded by an + /// check so that the varargs call is not made when the EventSource is not active. + /// + protected unsafe void WriteEventWithRelatedActivityId(int eventId, Guid relatedActivityId, params object[] args) + { + WriteEventVarargs(eventId, &relatedActivityId, args); + } + + #endregion + + #region IDisposable Members + /// + /// Disposes of an EventSource. + /// + public void Dispose() + { + this.Dispose(true); + GC.SuppressFinalize(this); + } + /// + /// Disposes of an EventSource. + /// + /// + /// Called from Dispose() with disposing=true, and from the finalizer (~EventSource) with disposing=false. + /// Guidelines: + /// 1. We may be called more than once: do nothing after the first call. + /// 2. Avoid throwing exceptions if disposing is false, i.e. if we're being finalized. + /// + /// True if called from Dispose(), false if called from the finalizer. + protected virtual void Dispose(bool disposing) + { + if (disposing) + { +#if FEATURE_MANAGED_ETW + // Send the manifest one more time to ensure circular buffers have a chance to get to this information + // even in scenarios with a high volume of ETW events. + if (m_eventSourceEnabled) + { + try + { + SendManifest(m_rawManifest); + } + catch (Exception) + { } // If it fails, simply give up. + m_eventSourceEnabled = false; + } + if (m_provider != null) + { + m_provider.Dispose(); + m_provider = null; + } +#endif + } + m_eventSourceEnabled = false; + m_eventSourceDisposed = true; + } + /// + /// Finalizer for EventSource + /// + ~EventSource() + { + this.Dispose(false); + } + #endregion + + #region private +#if FEATURE_ACTIVITYSAMPLING + internal void WriteStringToListener(EventListener listener, string msg, SessionMask m) + { + Debug.Assert(listener == null || (uint)m == (uint)SessionMask.FromId(0)); + + if (m_eventSourceEnabled) + { + if (listener == null) + { + WriteEventString(0, unchecked((long)m.ToEventKeywords()), msg); + } + else + { + EventWrittenEventArgs eventCallbackArgs = new EventWrittenEventArgs(this); + eventCallbackArgs.EventId = 0; + eventCallbackArgs.Message = msg; + eventCallbackArgs.Payload = new ReadOnlyCollection(new List() { msg }); + eventCallbackArgs.PayloadNames = new ReadOnlyCollection(new List { "message" }); + eventCallbackArgs.EventName = "EventSourceMessage"; + listener.OnEventWritten(eventCallbackArgs); + } + } + } +#endif + + private unsafe void WriteEventRaw( + string eventName, + ref EventDescriptor eventDescriptor, + Guid* activityID, + Guid* relatedActivityID, + int dataCount, + IntPtr data) + { +#if FEATURE_MANAGED_ETW + if (m_provider == null) + { + ThrowEventSourceException(eventName); + } + else + { + if (!m_provider.WriteEventRaw(ref eventDescriptor, activityID, relatedActivityID, dataCount, data)) + ThrowEventSourceException(eventName); + } +#endif // FEATURE_MANAGED_ETW + } + + // FrameworkEventSource is on the startup path for the framework, so we have this internal overload that it can use + // to prevent the working set hit from looking at the custom attributes on the type to get the Guid. + internal EventSource(Guid eventSourceGuid, string eventSourceName) + : this(eventSourceGuid, eventSourceName, EventSourceSettings.EtwManifestEventFormat) + { } + + // Used by the internal FrameworkEventSource constructor and the TraceLogging-style event source constructor + internal EventSource(Guid eventSourceGuid, string eventSourceName, EventSourceSettings settings, string[] traits = null) + { + m_config = ValidateSettings(settings); + Initialize(eventSourceGuid, eventSourceName, traits); + } + + /// + /// This method is responsible for the common initialization path from our constructors. It must + /// not leak any exceptions (otherwise, since most EventSource classes define a static member, + /// "Log", such an exception would become a cached exception for the initialization of the static + /// member, and any future access to the "Log" would throw the cached exception). + /// + [System.Diagnostics.CodeAnalysis.SuppressMessage("Microsoft.Naming", "CA1720:IdentifiersShouldNotContainTypeNames", MessageId = "guid")] + private unsafe void Initialize(Guid eventSourceGuid, string eventSourceName, string[] traits) + { + try + { + m_traits = traits; + if (m_traits != null && m_traits.Length % 2 != 0) + { + throw new ArgumentException(Resources.GetResourceString("TraitEven"), nameof(traits)); + } + + if (eventSourceGuid == Guid.Empty) + { + throw new ArgumentException(Resources.GetResourceString("EventSource_NeedGuid")); + } + + if (eventSourceName == null) + { + throw new ArgumentException(Resources.GetResourceString("EventSource_NeedName")); + } + + m_name = eventSourceName; + m_guid = eventSourceGuid; +#if FEATURE_ACTIVITYSAMPLING + m_curLiveSessions = new SessionMask(0); + m_etwSessionIdMap = new EtwSession[SessionMask.MAX]; +#endif // FEATURE_ACTIVITYSAMPLING + + //Enable Implicit Activity tracker + m_activityTracker = ActivityTracker.Instance; + +#if FEATURE_MANAGED_ETW + // Create and register our provider traits. We do this early because it is needed to log errors + // In the self-describing event case. + this.InitializeProviderMetadata(); + + // Register the provider with ETW + var provider = new OverideEventProvider(this); + provider.Register(eventSourceGuid); +#endif + // Add the eventSource to the global (weak) list. + // This also sets m_id, which is the index in the list. + EventListener.AddEventSource(this); + +#if FEATURE_MANAGED_ETW + // OK if we get this far without an exception, then we can at least write out error messages. + // Set m_provider, which allows this. + m_provider = provider; + +#if (!ES_BUILD_STANDALONE && !ES_BUILD_PN) + // API available on OS >= Win 8 and patched Win 7. + // Disable only for FrameworkEventSource to avoid recursion inside exception handling. + if (this.Name != "System.Diagnostics.Eventing.FrameworkEventSource" || Environment.IsWindows8OrAbove) +#endif + { + int setInformationResult; + System.Runtime.InteropServices.GCHandle metadataHandle = + System.Runtime.InteropServices.GCHandle.Alloc(this.providerMetadata, System.Runtime.InteropServices.GCHandleType.Pinned); + IntPtr providerMetadata = metadataHandle.AddrOfPinnedObject(); + + setInformationResult = m_provider.SetInformation( + UnsafeNativeMethods.ManifestEtw.EVENT_INFO_CLASS.SetTraits, + providerMetadata, + (uint)this.providerMetadata.Length); + + metadataHandle.Free(); + } +#endif // FEATURE_MANAGED_ETW + + Debug.Assert(!m_eventSourceEnabled); // We can't be enabled until we are completely initted. + // We are logically completely initialized at this point. + m_completelyInited = true; + } + catch (Exception e) + { + if (m_constructionException == null) + m_constructionException = e; + ReportOutOfBandMessage("ERROR: Exception during construction of EventSource " + Name + ": " + e.Message, true); + } + + // Once m_completelyInited is set, you can have concurrency, so all work is under the lock. + lock (EventListener.EventListenersLock) + { + // If there are any deferred commands, we can do them now. + // This is the most likely place for exceptions to happen. + // Note that we are NOT resetting m_deferredCommands to NULL here, + // We are giving for EventHandler that will be attached later + EventCommandEventArgs deferredCommands = m_deferredCommands; + while (deferredCommands != null) + { + DoCommand(deferredCommands); // This can never throw, it catches them and reports the errors. + deferredCommands = deferredCommands.nextCommand; + } + } + } + + private static string GetName(Type eventSourceType, EventManifestOptions flags) + { + if (eventSourceType == null) + throw new ArgumentNullException(nameof(eventSourceType)); + Contract.EndContractBlock(); + + EventSourceAttribute attrib = (EventSourceAttribute)GetCustomAttributeHelper(eventSourceType, typeof(EventSourceAttribute), flags); + if (attrib != null && attrib.Name != null) + return attrib.Name; + + return eventSourceType.Name; + } + + /// + /// Implements the SHA1 hashing algorithm. Note that this + /// implementation is for hashing public information. Do not + /// use this code to hash private data, as this implementation does + /// not take any steps to avoid information disclosure. + /// + private struct Sha1ForNonSecretPurposes + { + private long length; // Total message length in bits + private uint[] w; // Workspace + private int pos; // Length of current chunk in bytes + + /// + /// Call Start() to initialize the hash object. + /// + public void Start() + { + if (this.w == null) + { + this.w = new uint[85]; + } + + this.length = 0; + this.pos = 0; + this.w[80] = 0x67452301; + this.w[81] = 0xEFCDAB89; + this.w[82] = 0x98BADCFE; + this.w[83] = 0x10325476; + this.w[84] = 0xC3D2E1F0; + } + + /// + /// Adds an input byte to the hash. + /// + /// Data to include in the hash. + public void Append(byte input) + { + this.w[this.pos / 4] = (this.w[this.pos / 4] << 8) | input; + if (64 == ++this.pos) + { + this.Drain(); + } + } + + /// + /// Adds input bytes to the hash. + /// + /// + /// Data to include in the hash. Must not be null. + /// + public void Append(byte[] input) + { + foreach (var b in input) + { + this.Append(b); + } + } + + /// + /// Retrieves the hash value. + /// Note that after calling this function, the hash object should + /// be considered uninitialized. Subsequent calls to Append or + /// Finish will produce useless results. Call Start() to + /// reinitialize. + /// + /// + /// Buffer to receive the hash value. Must not be null. + /// Up to 20 bytes of hash will be written to the output buffer. + /// If the buffer is smaller than 20 bytes, the remaining hash + /// bytes will be lost. If the buffer is larger than 20 bytes, the + /// rest of the buffer is left unmodified. + /// + public void Finish(byte[] output) + { + long l = this.length + 8 * this.pos; + this.Append(0x80); + while (this.pos != 56) + { + this.Append(0x00); + } + + unchecked + { + this.Append((byte)(l >> 56)); + this.Append((byte)(l >> 48)); + this.Append((byte)(l >> 40)); + this.Append((byte)(l >> 32)); + this.Append((byte)(l >> 24)); + this.Append((byte)(l >> 16)); + this.Append((byte)(l >> 8)); + this.Append((byte)l); + + int end = output.Length < 20 ? output.Length : 20; + for (int i = 0; i != end; i++) + { + uint temp = this.w[80 + i / 4]; + output[i] = (byte)(temp >> 24); + this.w[80 + i / 4] = temp << 8; + } + } + } + + /// + /// Called when this.pos reaches 64. + /// + private void Drain() + { + for (int i = 16; i != 80; i++) + { + this.w[i] = Rol1((this.w[i - 3] ^ this.w[i - 8] ^ this.w[i - 14] ^ this.w[i - 16])); + } + + unchecked + { + uint a = this.w[80]; + uint b = this.w[81]; + uint c = this.w[82]; + uint d = this.w[83]; + uint e = this.w[84]; + + for (int i = 0; i != 20; i++) + { + const uint k = 0x5A827999; + uint f = (b & c) | ((~b) & d); + uint temp = Rol5(a) + f + e + k + this.w[i]; e = d; d = c; c = Rol30(b); b = a; a = temp; + } + + for (int i = 20; i != 40; i++) + { + uint f = b ^ c ^ d; + const uint k = 0x6ED9EBA1; + uint temp = Rol5(a) + f + e + k + this.w[i]; e = d; d = c; c = Rol30(b); b = a; a = temp; + } + + for (int i = 40; i != 60; i++) + { + uint f = (b & c) | (b & d) | (c & d); + const uint k = 0x8F1BBCDC; + uint temp = Rol5(a) + f + e + k + this.w[i]; e = d; d = c; c = Rol30(b); b = a; a = temp; + } + + for (int i = 60; i != 80; i++) + { + uint f = b ^ c ^ d; + const uint k = 0xCA62C1D6; + uint temp = Rol5(a) + f + e + k + this.w[i]; e = d; d = c; c = Rol30(b); b = a; a = temp; + } + + this.w[80] += a; + this.w[81] += b; + this.w[82] += c; + this.w[83] += d; + this.w[84] += e; + } + + this.length += 512; // 64 bytes == 512 bits + this.pos = 0; + } + + private static uint Rol1(uint input) + { + return (input << 1) | (input >> 31); + } + + private static uint Rol5(uint input) + { + return (input << 5) | (input >> 27); + } + + private static uint Rol30(uint input) + { + return (input << 30) | (input >> 2); + } + } + + private static Guid GenerateGuidFromName(string name) + { + byte[] bytes = Encoding.BigEndianUnicode.GetBytes(name); + var hash = new Sha1ForNonSecretPurposes(); + hash.Start(); + hash.Append(namespaceBytes); + hash.Append(bytes); + Array.Resize(ref bytes, 16); + hash.Finish(bytes); + + bytes[7] = unchecked((byte)((bytes[7] & 0x0F) | 0x50)); // Set high 4 bits of octet 7 to 5, as per RFC 4122 + return new Guid(bytes); + } + + private unsafe object DecodeObject(int eventId, int parameterId, ref EventSource.EventData* data) + { + // TODO FIX : We use reflection which in turn uses EventSource, right now we carefully avoid + // the recursion, but can we do this in a robust way? + + IntPtr dataPointer = data->DataPointer; + // advance to next EventData in array + ++data; + + Type dataType = GetDataType(m_eventData[eventId], parameterId); + + Again: + if (dataType == typeof(IntPtr)) + { + return *((IntPtr*)dataPointer); + } + else if (dataType == typeof(int)) + { + return *((int*)dataPointer); + } + else if (dataType == typeof(uint)) + { + return *((uint*)dataPointer); + } + else if (dataType == typeof(long)) + { + return *((long*)dataPointer); + } + else if (dataType == typeof(ulong)) + { + return *((ulong*)dataPointer); + } + else if (dataType == typeof(byte)) + { + return *((byte*)dataPointer); + } + else if (dataType == typeof(sbyte)) + { + return *((sbyte*)dataPointer); + } + else if (dataType == typeof(short)) + { + return *((short*)dataPointer); + } + else if (dataType == typeof(ushort)) + { + return *((ushort*)dataPointer); + } + else if (dataType == typeof(float)) + { + return *((float*)dataPointer); + } + else if (dataType == typeof(double)) + { + return *((double*)dataPointer); + } + else if (dataType == typeof(decimal)) + { + return *((decimal*)dataPointer); + } + else if (dataType == typeof(bool)) + { + // The manifest defines a bool as a 32bit type (WIN32 BOOL), not 1 bit as CLR Does. + if (*((int*)dataPointer) == 1) + { + return true; + } + else + { + return false; + } + } + else if (dataType == typeof(Guid)) + { + return *((Guid*)dataPointer); + } + else if (dataType == typeof(char)) + { + return *((char*)dataPointer); + } + else if (dataType == typeof(DateTime)) + { + long dateTimeTicks = *((long*)dataPointer); + return DateTime.FromFileTimeUtc(dateTimeTicks); + } + else if (dataType == typeof(byte[])) + { + // byte[] are written to EventData* as an int followed by a blob + int cbSize = *((int*)dataPointer); + byte[] blob = new byte[cbSize]; + dataPointer = data->DataPointer; + data++; + for (int i = 0; i < cbSize; ++i) + blob[i] = *((byte*)(dataPointer + i)); + return blob; + } + else if (dataType == typeof(byte*)) + { + // TODO: how do we want to handle this? For now we ignore it... + return null; + } + else + { + if (m_EventSourcePreventRecursion && m_EventSourceInDecodeObject) + { + return null; + } + + try + { + m_EventSourceInDecodeObject = true; + + if (dataType.IsEnum()) + { + dataType = Enum.GetUnderlyingType(dataType); + goto Again; + } + + + // Everything else is marshaled as a string. + // ETW strings are NULL-terminated, so marshal everything up to the first + // null in the string. + //return System.Runtime.InteropServices.Marshal.PtrToStringUni(dataPointer); + if(dataPointer == IntPtr.Zero) + { + return null; + } + + return new string((char *)dataPointer); + + } + finally + { + m_EventSourceInDecodeObject = false; + } + } + } + + // Finds the Dispatcher (which holds the filtering state), for a given dispatcher for the current + // eventSource). + private EventDispatcher GetDispatcher(EventListener listener) + { + EventDispatcher dispatcher = m_Dispatchers; + while (dispatcher != null) + { + if (dispatcher.m_Listener == listener) + return dispatcher; + dispatcher = dispatcher.m_Next; + } + return dispatcher; + } + + private unsafe void WriteEventVarargs(int eventId, Guid* childActivityID, object[] args) + { + if (m_eventSourceEnabled) + { + try + { + Debug.Assert(m_eventData != null); // You must have initialized this if you enabled the source. + if (childActivityID != null) + { + ValidateEventOpcodeForTransfer(ref m_eventData[eventId], m_eventData[eventId].Name); + + // If you use WriteEventWithRelatedActivityID you MUST declare the first argument to be a GUID + // with the name 'relatedActivityID, and NOT pass this argument to the WriteEvent method. + // During manifest creation we modify the ParameterInfo[] that we store to strip out any + // first parameter that is of type Guid and named "relatedActivityId." Thus, if you call + // WriteEventWithRelatedActivityID from a method that doesn't name its first parameter correctly + // we can end up in a state where the ParameterInfo[] doesn't have its first parameter stripped, + // and this leads to a mismatch between the number of arguments and the number of ParameterInfos, + // which would cause a cryptic IndexOutOfRangeException later if we don't catch it here. + if (!m_eventData[eventId].HasRelatedActivityID) + { + throw new ArgumentException(Resources.GetResourceString("EventSource_NoRelatedActivityId")); + } + } + + LogEventArgsMismatches(m_eventData[eventId].Parameters, args); + + Guid* pActivityId = null; + Guid activityId = Guid.Empty; + Guid relatedActivityId = Guid.Empty; + EventOpcode opcode = (EventOpcode)m_eventData[eventId].Descriptor.Opcode; + EventActivityOptions activityOptions = m_eventData[eventId].ActivityOptions; + + if (childActivityID == null && + ((activityOptions & EventActivityOptions.Disable) == 0)) + { + if (opcode == EventOpcode.Start) + { + m_activityTracker.OnStart(m_name, m_eventData[eventId].Name, m_eventData[eventId].Descriptor.Task, ref activityId, ref relatedActivityId, m_eventData[eventId].ActivityOptions); + } + else if (opcode == EventOpcode.Stop) + { + m_activityTracker.OnStop(m_name, m_eventData[eventId].Name, m_eventData[eventId].Descriptor.Task, ref activityId); + } + + if (activityId != Guid.Empty) + pActivityId = &activityId; + if (relatedActivityId != Guid.Empty) + childActivityID = &relatedActivityId; + } + +#if FEATURE_MANAGED_ETW + if (m_eventData[eventId].EnabledForETW) + { +#if FEATURE_ACTIVITYSAMPLING + // this code should be kept in sync with WriteEventWithRelatedActivityIdCore(). + SessionMask etwSessions = SessionMask.All; + // only compute etwSessions if there are *any* ETW filters enabled... + if ((ulong)m_curLiveSessions != 0) + etwSessions = GetEtwSessionMask(eventId, childActivityID); + + if ((ulong)etwSessions != 0 || m_legacySessions != null && m_legacySessions.Count > 0) + { + if (!SelfDescribingEvents) + { + if (etwSessions.IsEqualOrSupersetOf(m_curLiveSessions)) + { + // by default the Descriptor.Keyword will have the perEventSourceSessionId bit + // mask set to 0x0f so, when all ETW sessions want the event we don't need to + // synthesize a new one + if (!m_provider.WriteEvent(ref m_eventData[eventId].Descriptor, pActivityId, childActivityID, args)) + ThrowEventSourceException(m_eventData[eventId].Name); + } + else + { + long origKwd = unchecked((long)((ulong)m_eventData[eventId].Descriptor.Keywords & ~(SessionMask.All.ToEventKeywords()))); + // only some of the ETW sessions will receive this event. Synthesize a new + // Descriptor whose Keywords field will have the appropriate bits set. + var desc = new EventDescriptor( + m_eventData[eventId].Descriptor.EventId, + m_eventData[eventId].Descriptor.Version, + m_eventData[eventId].Descriptor.Channel, + m_eventData[eventId].Descriptor.Level, + m_eventData[eventId].Descriptor.Opcode, + m_eventData[eventId].Descriptor.Task, + unchecked((long)etwSessions.ToEventKeywords() | origKwd)); + + if (!m_provider.WriteEvent(ref desc, pActivityId, childActivityID, args)) + ThrowEventSourceException(m_eventData[eventId].Name); + } + } + else + { + TraceLoggingEventTypes tlet = m_eventData[eventId].TraceLoggingEventTypes; + if (tlet == null) + { + tlet = new TraceLoggingEventTypes(m_eventData[eventId].Name, + EventTags.None, + m_eventData[eventId].Parameters); + Interlocked.CompareExchange(ref m_eventData[eventId].TraceLoggingEventTypes, tlet, null); + + } + long origKwd = unchecked((long)((ulong)m_eventData[eventId].Descriptor.Keywords & ~(SessionMask.All.ToEventKeywords()))); + // TODO: activity ID support + EventSourceOptions opt = new EventSourceOptions + { + Keywords = (EventKeywords)unchecked((long)etwSessions.ToEventKeywords() | origKwd), + Level = (EventLevel)m_eventData[eventId].Descriptor.Level, + Opcode = (EventOpcode)m_eventData[eventId].Descriptor.Opcode + }; + + WriteMultiMerge(m_eventData[eventId].Name, ref opt, tlet, pActivityId, childActivityID, args); + } + } +#else + if (!SelfDescribingEvents) + { + if (!m_provider.WriteEvent(ref m_eventData[eventId].Descriptor, pActivityId, childActivityID, args)) + ThrowEventSourceException(m_eventData[eventId].Name); + } + else + { + TraceLoggingEventTypes tlet = m_eventData[eventId].TraceLoggingEventTypes; + if (tlet == null) + { + tlet = new TraceLoggingEventTypes(m_eventData[eventId].Name, + EventTags.None, + m_eventData[eventId].Parameters); + Interlocked.CompareExchange(ref m_eventData[eventId].TraceLoggingEventTypes, tlet, null); + + } + // TODO: activity ID support + EventSourceOptions opt = new EventSourceOptions + { + Keywords = (EventKeywords)m_eventData[eventId].Descriptor.Keywords, + Level = (EventLevel)m_eventData[eventId].Descriptor.Level, + Opcode = (EventOpcode)m_eventData[eventId].Descriptor.Opcode + }; + + WriteMultiMerge(m_eventData[eventId].Name, ref opt, tlet, pActivityId, childActivityID, args); + } +#endif // FEATURE_ACTIVITYSAMPLING + } +#endif // FEATURE_MANAGED_ETW + if (m_Dispatchers != null && m_eventData[eventId].EnabledForAnyListener) + { +#if (!ES_BUILD_STANDALONE && !ES_BUILD_PN) + // Maintain old behavior - object identity is preserved + if (AppContextSwitches.PreserveEventListnerObjectIdentity) + { + WriteToAllListeners(eventId, childActivityID, args); + } + else +#endif // !ES_BUILD_STANDALONE + { + object[] serializedArgs = SerializeEventArgs(eventId, args); + WriteToAllListeners(eventId, childActivityID, serializedArgs); + } + } + } + catch (Exception ex) + { + if (ex is EventSourceException) + throw; + else + ThrowEventSourceException(m_eventData[eventId].Name, ex); + } + } + } + + unsafe private object[] SerializeEventArgs(int eventId, object[] args) + { + TraceLoggingEventTypes eventTypes = m_eventData[eventId].TraceLoggingEventTypes; + if (eventTypes == null) + { + eventTypes = new TraceLoggingEventTypes(m_eventData[eventId].Name, + EventTags.None, + m_eventData[eventId].Parameters); + Interlocked.CompareExchange(ref m_eventData[eventId].TraceLoggingEventTypes, eventTypes, null); + } + var eventData = new object[eventTypes.typeInfos.Length]; + for (int i = 0; i < eventTypes.typeInfos.Length; i++) + { + eventData[i] = eventTypes.typeInfos[i].GetData(args[i]); + } + return eventData; + } + + /// + /// We expect that the arguments to the Event method and the arguments to WriteEvent match. This function + /// checks that they in fact match and logs a warning to the debugger if they don't. + /// + /// + /// + private void LogEventArgsMismatches(ParameterInfo[] infos, object[] args) + { +#if (!ES_BUILD_PCL && !ES_BUILD_PN) + // It would be nice to have this on PCL builds, but it would be pointless since there isn't support for + // writing to the debugger log on PCL. + bool typesMatch = args.Length == infos.Length; + + int i = 0; + while (typesMatch && i < args.Length) + { + Type pType = infos[i].ParameterType; + + // Checking to see if the Parameter types (from the Event method) match the supplied argument types. + // Fail if one of two things hold : either the argument type is not equal to the parameter type, or the + // argument is null and the parameter type is non-nullable. + if ((args[i] != null && (args[i].GetType() != pType)) + || (args[i] == null && (!(pType.IsGenericType && pType.GetGenericTypeDefinition() == typeof(Nullable<>)))) + ) + { + typesMatch = false; + break; + } + + ++i; + } + + if (!typesMatch) + { + System.Diagnostics.Debugger.Log(0, null, Resources.GetResourceString("EventSource_VarArgsParameterMismatch") + "\r\n"); + } +#endif //!ES_BUILD_PCL + } + + private int GetParamLenghtIncludingByteArray(ParameterInfo[] parameters) + { + int sum = 0; + foreach (ParameterInfo info in parameters) + { + if (info.ParameterType == typeof(byte[])) + { + sum += 2; + } + else + { + sum++; + } + } + + return sum; + } + + unsafe private void WriteToAllListeners(int eventId, Guid* childActivityID, int eventDataCount, EventSource.EventData* data) + { + // We represent a byte[] as a integer denoting the length and then a blob of bytes in the data pointer. This causes a spurious + // warning because eventDataCount is off by one for the byte[] case since a byte[] has 2 items associated it. So we want to check + // that the number of parameters is correct against the byte[] case, but also we the args array would be one too long if + // we just used the modifiedParamCount here -- so we need both. + int paramCount = m_eventData[eventId].Parameters.Length; + int modifiedParamCount = GetParamLenghtIncludingByteArray(m_eventData[eventId].Parameters); + if (eventDataCount != modifiedParamCount) + { + ReportOutOfBandMessage(Resources.GetResourceString("EventSource_EventParametersMismatch", eventId, eventDataCount, paramCount), true); + paramCount = Math.Min(paramCount, eventDataCount); + } + + object[] args = new object[paramCount]; + + EventSource.EventData* dataPtr = data; + for (int i = 0; i < paramCount; i++) + args[i] = DecodeObject(eventId, i, ref dataPtr); + WriteToAllListeners(eventId, childActivityID, args); + } + + // helper for writing to all EventListeners attached the current eventSource. + unsafe private void WriteToAllListeners(int eventId, Guid* childActivityID, params object[] args) + { + EventWrittenEventArgs eventCallbackArgs = new EventWrittenEventArgs(this); + eventCallbackArgs.EventId = eventId; + if (childActivityID != null) + eventCallbackArgs.RelatedActivityId = *childActivityID; + eventCallbackArgs.EventName = m_eventData[eventId].Name; + eventCallbackArgs.Message = m_eventData[eventId].Message; + eventCallbackArgs.Payload = new ReadOnlyCollection(args); + + DispatchToAllListeners(eventId, childActivityID, eventCallbackArgs); + } + + private unsafe void DispatchToAllListeners(int eventId, Guid* childActivityID, EventWrittenEventArgs eventCallbackArgs) + { + Exception lastThrownException = null; + for (EventDispatcher dispatcher = m_Dispatchers; dispatcher != null; dispatcher = dispatcher.m_Next) + { + Debug.Assert(dispatcher.m_EventEnabled != null); + if (eventId == -1 || dispatcher.m_EventEnabled[eventId]) + { +#if FEATURE_ACTIVITYSAMPLING + var activityFilter = dispatcher.m_Listener.m_activityFilter; + // order below is important as PassesActivityFilter will "flow" active activities + // even when the current EventSource doesn't have filtering enabled. This allows + // interesting activities to be updated so that sources that do sample can get + // accurate data + if (activityFilter == null || + ActivityFilter.PassesActivityFilter(activityFilter, childActivityID, + m_eventData[eventId].TriggersActivityTracking > 0, + this, eventId) || + !dispatcher.m_activityFilteringEnabled) +#endif // FEATURE_ACTIVITYSAMPLING + { + try + { + dispatcher.m_Listener.OnEventWritten(eventCallbackArgs); + } + catch (Exception e) + { + ReportOutOfBandMessage("ERROR: Exception during EventSource.OnEventWritten: " + + e.Message, false); + lastThrownException = e; + } + } + } + } + + if (lastThrownException != null) + { + throw new EventSourceException(lastThrownException); + } + } + + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + private unsafe void WriteEventString(EventLevel level, long keywords, string msgString) + { +#if FEATURE_MANAGED_ETW + if (m_provider != null) + { + string eventName = "EventSourceMessage"; + if (SelfDescribingEvents) + { + EventSourceOptions opt = new EventSourceOptions + { + Keywords = (EventKeywords)unchecked(keywords), + Level = level + }; + var msg = new { message = msgString }; + var tlet = new TraceLoggingEventTypes(eventName, EventTags.None, new Type[] { msg.GetType() }); + WriteMultiMergeInner(eventName, ref opt, tlet, null, null, msg); + } + else + { + // We want the name of the provider to show up so if we don't have a manifest we create + // on that at least has the provider name (I don't define any events). + if (m_rawManifest == null && m_outOfBandMessageCount == 1) + { + ManifestBuilder manifestBuilder = new ManifestBuilder(Name, Guid, Name, null, EventManifestOptions.None); + manifestBuilder.StartEvent(eventName, new EventAttribute(0) { Level = EventLevel.LogAlways, Task = (EventTask)0xFFFE }); + manifestBuilder.AddEventParameter(typeof(string), "message"); + manifestBuilder.EndEvent(); + SendManifest(manifestBuilder.CreateManifest()); + } + + // We use this low level routine to to bypass the enabled checking, since the eventSource itself is only partially inited. + fixed (char* msgStringPtr = msgString) + { + EventDescriptor descr = new EventDescriptor(0, 0, 0, (byte)level, 0, 0, keywords); + EventProvider.EventData data = new EventProvider.EventData(); + data.Ptr = (ulong)msgStringPtr; + data.Size = (uint)(2 * (msgString.Length + 1)); + data.Reserved = 0; + m_provider.WriteEvent(ref descr, null, null, 1, (IntPtr)((void*)&data)); + } + } + } +#endif // FEATURE_MANAGED_ETW + } + + /// + /// Since this is a means of reporting errors (see ReportoutOfBandMessage) any failure encountered + /// while writing the message to any one of the listeners will be silently ignored. + /// + private void WriteStringToAllListeners(string eventName, string msg) + { + EventWrittenEventArgs eventCallbackArgs = new EventWrittenEventArgs(this); + eventCallbackArgs.EventId = 0; + eventCallbackArgs.Message = msg; + eventCallbackArgs.Payload = new ReadOnlyCollection(new List() { msg }); + eventCallbackArgs.PayloadNames = new ReadOnlyCollection(new List { "message" }); + eventCallbackArgs.EventName = eventName; + + for (EventDispatcher dispatcher = m_Dispatchers; dispatcher != null; dispatcher = dispatcher.m_Next) + { + bool dispatcherEnabled = false; + if (dispatcher.m_EventEnabled == null) + { + // if the listeners that weren't correctly initialized, we will send to it + // since this is an error message and we want to see it go out. + dispatcherEnabled = true; + } + else + { + // if there's *any* enabled event on the dispatcher we'll write out the string + // otherwise we'll treat the listener as disabled and skip it + for (int evtId = 0; evtId < dispatcher.m_EventEnabled.Length; ++evtId) + { + if (dispatcher.m_EventEnabled[evtId]) + { + dispatcherEnabled = true; + break; + } + } + } + try + { + if (dispatcherEnabled) + dispatcher.m_Listener.OnEventWritten(eventCallbackArgs); + } + catch + { + // ignore any exceptions thrown by listeners' OnEventWritten + } + } + } + +#if FEATURE_ACTIVITYSAMPLING + unsafe private SessionMask GetEtwSessionMask(int eventId, Guid* childActivityID) + { + SessionMask etwSessions = new SessionMask(); + + for (int i = 0; i < SessionMask.MAX; ++i) + { + EtwSession etwSession = m_etwSessionIdMap[i]; + if (etwSession != null) + { + ActivityFilter activityFilter = etwSession.m_activityFilter; + // PassesActivityFilter() will flow "interesting" activities, so make sure + // to perform this test first, before ORing with ~m_activityFilteringForETWEnabled + // (note: the first test for !m_activityFilteringForETWEnabled[i] ensures we + // do not fire events indiscriminately, when no filters are specified, but only + // if, in addition, the session did not also enable ActivitySampling) + if (activityFilter == null && !m_activityFilteringForETWEnabled[i] || + activityFilter != null && + ActivityFilter.PassesActivityFilter(activityFilter, childActivityID, + m_eventData[eventId].TriggersActivityTracking > 0, this, eventId) || + !m_activityFilteringForETWEnabled[i]) + { + etwSessions[i] = true; + } + } + } + // flow "interesting" activities for all legacy sessions in which there's some + // level of activity tracing enabled (even other EventSources) + if (m_legacySessions != null && m_legacySessions.Count > 0 && + (EventOpcode)m_eventData[eventId].Descriptor.Opcode == EventOpcode.Send) + { + // only calculate InternalCurrentThreadActivityId once + Guid* pCurrentActivityId = null; + Guid currentActivityId; + foreach (var legacyEtwSession in m_legacySessions) + { + if (legacyEtwSession == null) + continue; + + ActivityFilter activityFilter = legacyEtwSession.m_activityFilter; + if (activityFilter != null) + { + if (pCurrentActivityId == null) + { + currentActivityId = InternalCurrentThreadActivityId; + pCurrentActivityId = ¤tActivityId; + } + ActivityFilter.FlowActivityIfNeeded(activityFilter, pCurrentActivityId, childActivityID); + } + } + } + + return etwSessions; + } +#endif // FEATURE_ACTIVITYSAMPLING + + /// + /// Returns true if 'eventNum' is enabled if you only consider the level and matchAnyKeyword filters. + /// It is possible that eventSources turn off the event based on additional filtering criteria. + /// + private bool IsEnabledByDefault(int eventNum, bool enable, EventLevel currentLevel, EventKeywords currentMatchAnyKeyword) + { + if (!enable) + return false; + + EventLevel eventLevel = (EventLevel)m_eventData[eventNum].Descriptor.Level; + EventKeywords eventKeywords = unchecked((EventKeywords)((ulong)m_eventData[eventNum].Descriptor.Keywords & (~(SessionMask.All.ToEventKeywords())))); + +#if FEATURE_MANAGED_ETW_CHANNELS + EventChannel channel = unchecked((EventChannel)m_eventData[eventNum].Descriptor.Channel); +#else + EventChannel channel = EventChannel.None; +#endif + + return IsEnabledCommon(enable, currentLevel, currentMatchAnyKeyword, eventLevel, eventKeywords, channel); + } + + private bool IsEnabledCommon(bool enabled, EventLevel currentLevel, EventKeywords currentMatchAnyKeyword, + EventLevel eventLevel, EventKeywords eventKeywords, EventChannel eventChannel) + { + if (!enabled) + return false; + + // does is pass the level test? + if ((currentLevel != 0) && (currentLevel < eventLevel)) + return false; + + // if yes, does it pass the keywords test? + if (currentMatchAnyKeyword != 0 && eventKeywords != 0) + { +#if FEATURE_MANAGED_ETW_CHANNELS + // is there a channel with keywords that match currentMatchAnyKeyword? + if (eventChannel != EventChannel.None && this.m_channelData != null && this.m_channelData.Length > (int)eventChannel) + { + EventKeywords channel_keywords = unchecked((EventKeywords)(m_channelData[(int)eventChannel] | (ulong)eventKeywords)); + if (channel_keywords != 0 && (channel_keywords & currentMatchAnyKeyword) == 0) + return false; + } + else +#endif + { + if ((unchecked((ulong)eventKeywords & (ulong)currentMatchAnyKeyword)) == 0) + return false; + } + } + return true; + + } + [System.Runtime.CompilerServices.MethodImpl(System.Runtime.CompilerServices.MethodImplOptions.NoInlining)] + private void ThrowEventSourceException(string eventName, Exception innerEx = null) + { + // If we fail during out of band logging we may end up trying + // to throw another EventSourceException, thus hitting a StackOverflowException. + // Avoid StackOverflow by making sure we do not recursively call this method. + if (m_EventSourceExceptionRecurenceCount > 0) + return; + try + { + m_EventSourceExceptionRecurenceCount++; + + string errorPrefix = "EventSourceException"; + if (eventName != null) + { + errorPrefix += " while processing event \"" + eventName + "\""; + } + + // TODO Create variations of EventSourceException that indicate more information using the error code. + switch (EventProvider.GetLastWriteEventError()) + { + case EventProvider.WriteEventErrorCode.EventTooBig: + ReportOutOfBandMessage(errorPrefix + ": " + Resources.GetResourceString("EventSource_EventTooBig"), true); + if (ThrowOnEventWriteErrors) throw new EventSourceException(Resources.GetResourceString("EventSource_EventTooBig"), innerEx); + break; + case EventProvider.WriteEventErrorCode.NoFreeBuffers: + ReportOutOfBandMessage(errorPrefix + ": " + Resources.GetResourceString("EventSource_NoFreeBuffers"), true); + if (ThrowOnEventWriteErrors) throw new EventSourceException(Resources.GetResourceString("EventSource_NoFreeBuffers"), innerEx); + break; + case EventProvider.WriteEventErrorCode.NullInput: + ReportOutOfBandMessage(errorPrefix + ": " + Resources.GetResourceString("EventSource_NullInput"), true); + if (ThrowOnEventWriteErrors) throw new EventSourceException(Resources.GetResourceString("EventSource_NullInput"), innerEx); + break; + case EventProvider.WriteEventErrorCode.TooManyArgs: + ReportOutOfBandMessage(errorPrefix + ": " + Resources.GetResourceString("EventSource_TooManyArgs"), true); + if (ThrowOnEventWriteErrors) throw new EventSourceException(Resources.GetResourceString("EventSource_TooManyArgs"), innerEx); + break; + default: + if (innerEx != null) + ReportOutOfBandMessage(errorPrefix + ": " + innerEx.GetType() + ":" + innerEx.Message, true); + else + ReportOutOfBandMessage(errorPrefix, true); + if (ThrowOnEventWriteErrors) throw new EventSourceException(innerEx); + break; + } + } + finally + { + m_EventSourceExceptionRecurenceCount--; + } + } + + private void ValidateEventOpcodeForTransfer(ref EventMetadata eventData, string eventName) + { + if ((EventOpcode)eventData.Descriptor.Opcode != EventOpcode.Send && + (EventOpcode)eventData.Descriptor.Opcode != EventOpcode.Receive && + (EventOpcode)eventData.Descriptor.Opcode != EventOpcode.Start) + { + ThrowEventSourceException(eventName); + } + } + + internal static EventOpcode GetOpcodeWithDefault(EventOpcode opcode, string eventName) + { + if (opcode == EventOpcode.Info && eventName != null) + { + if (eventName.EndsWith(s_ActivityStartSuffix, StringComparison.Ordinal)) + { + return EventOpcode.Start; + } + else if (eventName.EndsWith(s_ActivityStopSuffix, StringComparison.Ordinal)) + { + return EventOpcode.Stop; + } + } + + return opcode; + } + +#if FEATURE_MANAGED_ETW + /// + /// This class lets us hook the 'OnEventCommand' from the eventSource. + /// + private class OverideEventProvider : EventProvider + { + public OverideEventProvider(EventSource eventSource) + { + this.m_eventSource = eventSource; + } + protected override void OnControllerCommand(ControllerCommand command, IDictionary arguments, + int perEventSourceSessionId, int etwSessionId) + { + // We use null to represent the ETW EventListener. + EventListener listener = null; + m_eventSource.SendCommand(listener, perEventSourceSessionId, etwSessionId, + (EventCommand)command, IsEnabled(), Level, MatchAnyKeyword, arguments); + } + private EventSource m_eventSource; + } +#endif + + /// + /// Used to hold all the static information about an event. This includes everything in the event + /// descriptor as well as some stuff we added specifically for EventSource. see the + /// code:m_eventData for where we use this. + /// + + /* + EventMetadata was public in the separate System.Diagnostics.Tracing assembly(pre NS2.0), + now the move to CoreLib marked them as private. + While they are technically private (it's a contract used between the library and the ILC toolchain), + we need them to be rooted and exported from shared library for the system to work. + For now I'm simply marking them as public again.A cleaner solution might be to use.rd.xml to + root them and modify shared library definition to force export them. + */ +#if ES_BUILD_PN + public +#else + internal +#endif + partial struct EventMetadata + { + public EventDescriptor Descriptor; + public EventTags Tags; + public bool EnabledForAnyListener; // true if any dispatcher has this event turned on + public bool EnabledForETW; // is this event on for the OS ETW data dispatcher? + + public bool HasRelatedActivityID; // Set if the event method's first parameter is a Guid named 'relatedActivityId' +#if !FEATURE_ACTIVITYSAMPLING +#pragma warning disable 0649 +#endif + public byte TriggersActivityTracking; // count of listeners that marked this event as trigger for start of activity logging. +#if !FEATURE_ACTIVITYSAMPLING +#pragma warning restore 0649 +#endif + public string Name; // the name of the event + public string Message; // If the event has a message associated with it, this is it. + public ParameterInfo[] Parameters; // TODO can we remove? + + public TraceLoggingEventTypes TraceLoggingEventTypes; + public EventActivityOptions ActivityOptions; + +#if ES_BUILD_PN + public EventParameterType[] ParameterTypes; +#endif + }; + + // This is the internal entry point that code:EventListeners call when wanting to send a command to a + // eventSource. The logic is as follows + // + // * if Command == Update + // * perEventSourceSessionId specifies the per-provider ETW session ID that the command applies + // to (if listener != null) + // perEventSourceSessionId = 0 - reserved for EventListeners + // perEventSourceSessionId = 1..SessionMask.MAX - reserved for activity tracing aware ETW sessions + // perEventSourceSessionId-1 represents the bit in the reserved field (bits 44..47) in + // Keywords that identifies the session + // perEventSourceSessionId = SessionMask.MAX+1 - reserved for legacy ETW sessions; these are + // discriminated by etwSessionId + // * etwSessionId specifies a machine-wide ETW session ID; this allows correlation of + // activity tracing across different providers (which might have different sessionIds + // for the same ETW session) + // * enable, level, matchAnyKeywords are used to set a default for all events for the + // eventSource. In particular, if 'enabled' is false, 'level' and + // 'matchAnyKeywords' are not used. + // * OnEventCommand is invoked, which may cause calls to + // code:EventSource.EnableEventForDispatcher which may cause changes in the filtering + // depending on the logic in that routine. + // * else (command != Update) + // * Simply call OnEventCommand. The expectation is that filtering is NOT changed. + // * The 'enabled' 'level', matchAnyKeyword' arguments are ignored (must be true, 0, 0). + // + // dispatcher == null has special meaning. It is the 'ETW' dispatcher. + internal void SendCommand(EventListener listener, int perEventSourceSessionId, int etwSessionId, + EventCommand command, bool enable, + EventLevel level, EventKeywords matchAnyKeyword, + IDictionary commandArguments) + { + var commandArgs = new EventCommandEventArgs(command, commandArguments, this, listener, perEventSourceSessionId, etwSessionId, enable, level, matchAnyKeyword); + lock (EventListener.EventListenersLock) + { + if (m_completelyInited) + { + // After the first command arrive after construction, we are ready to get rid of the deferred commands + this.m_deferredCommands = null; + // We are fully initialized, do the command + DoCommand(commandArgs); + } + else + { + // We can't do the command, simply remember it and we do it when we are fully constructed. + commandArgs.nextCommand = m_deferredCommands; + m_deferredCommands = commandArgs; + } + } + } + + /// + /// We want the eventSource to be fully initialized when we do commands because that way we can send + /// error messages and other logging directly to the event stream. Unfortunately we can get callbacks + /// when we are not fully initialized. In that case we store them in 'commandArgs' and do them later. + /// This helper actually does all actual command logic. + /// + internal void DoCommand(EventCommandEventArgs commandArgs) + { + // PRECONDITION: We should be holding the EventListener.EventListenersLock + // We defer commands until we are completely inited. This allows error messages to be sent. + Debug.Assert(m_completelyInited); + +#if FEATURE_MANAGED_ETW + if (m_provider == null) // If we failed to construct + return; +#endif // FEATURE_MANAGED_ETW + + m_outOfBandMessageCount = 0; + bool shouldReport = (commandArgs.perEventSourceSessionId > 0) && (commandArgs.perEventSourceSessionId <= SessionMask.MAX); + try + { + EnsureDescriptorsInitialized(); + Debug.Assert(m_eventData != null); + + // Find the per-EventSource dispatcher corresponding to registered dispatcher + commandArgs.dispatcher = GetDispatcher(commandArgs.listener); + if (commandArgs.dispatcher == null && commandArgs.listener != null) // dispatcher == null means ETW dispatcher + { + throw new ArgumentException(Resources.GetResourceString("EventSource_ListenerNotFound")); + } + + if (commandArgs.Arguments == null) + commandArgs.Arguments = new Dictionary(); + + if (commandArgs.Command == EventCommand.Update) + { + // Set it up using the 'standard' filtering bitfields (use the "global" enable, not session specific one) + for (int i = 0; i < m_eventData.Length; i++) + EnableEventForDispatcher(commandArgs.dispatcher, i, IsEnabledByDefault(i, commandArgs.enable, commandArgs.level, commandArgs.matchAnyKeyword)); + + if (commandArgs.enable) + { + if (!m_eventSourceEnabled) + { + // EventSource turned on for the first time, simply copy the bits. + m_level = commandArgs.level; + m_matchAnyKeyword = commandArgs.matchAnyKeyword; + } + else + { + // Already enabled, make it the most verbose of the existing and new filter + if (commandArgs.level > m_level) + m_level = commandArgs.level; + if (commandArgs.matchAnyKeyword == 0) + m_matchAnyKeyword = 0; + else if (m_matchAnyKeyword != 0) + m_matchAnyKeyword = unchecked(m_matchAnyKeyword | commandArgs.matchAnyKeyword); + } + } + + // interpret perEventSourceSessionId's sign, and adjust perEventSourceSessionId to + // represent 0-based positive values + bool bSessionEnable = (commandArgs.perEventSourceSessionId >= 0); + if (commandArgs.perEventSourceSessionId == 0 && commandArgs.enable == false) + bSessionEnable = false; + + if (commandArgs.listener == null) + { + if (!bSessionEnable) + commandArgs.perEventSourceSessionId = -commandArgs.perEventSourceSessionId; + // for "global" enable/disable (passed in with listener == null and + // perEventSourceSessionId == 0) perEventSourceSessionId becomes -1 + --commandArgs.perEventSourceSessionId; + } + + commandArgs.Command = bSessionEnable ? EventCommand.Enable : EventCommand.Disable; + + // perEventSourceSessionId = -1 when ETW sent a notification, but the set of active sessions + // hasn't changed. + // sesisonId = SessionMask.MAX when one of the legacy ETW sessions changed + // 0 <= perEventSourceSessionId < SessionMask.MAX for activity-tracing aware sessions + Debug.Assert(commandArgs.perEventSourceSessionId >= -1 && commandArgs.perEventSourceSessionId <= SessionMask.MAX); + + // Send the manifest if we are enabling an ETW session + if (bSessionEnable && commandArgs.dispatcher == null) + { + // eventSourceDispatcher == null means this is the ETW manifest + + // Note that we unconditionally send the manifest whenever we are enabled, even if + // we were already enabled. This is because there may be multiple sessions active + // and we can't know that all the sessions have seen the manifest. + if (!SelfDescribingEvents) + SendManifest(m_rawManifest); + } + +#if FEATURE_ACTIVITYSAMPLING + if (bSessionEnable && commandArgs.perEventSourceSessionId != -1) + { + bool participateInSampling = false; + string activityFilters; + int sessionIdBit; + + ParseCommandArgs(commandArgs.Arguments, out participateInSampling, + out activityFilters, out sessionIdBit); + + if (commandArgs.listener == null && commandArgs.Arguments.Count > 0 && commandArgs.perEventSourceSessionId != sessionIdBit) + { + throw new ArgumentException(Resources.GetResourceString("EventSource_SessionIdError", + commandArgs.perEventSourceSessionId + SessionMask.SHIFT_SESSION_TO_KEYWORD, + sessionIdBit + SessionMask.SHIFT_SESSION_TO_KEYWORD)); + } + + if (commandArgs.listener == null) + { + UpdateEtwSession(commandArgs.perEventSourceSessionId, commandArgs.etwSessionId, true, activityFilters, participateInSampling); + } + else + { + ActivityFilter.UpdateFilter(ref commandArgs.listener.m_activityFilter, this, 0, activityFilters); + commandArgs.dispatcher.m_activityFilteringEnabled = participateInSampling; + } + } + else if (!bSessionEnable && commandArgs.listener == null) + { + // if we disable an ETW session, indicate that in a synthesized command argument + if (commandArgs.perEventSourceSessionId >= 0 && commandArgs.perEventSourceSessionId < SessionMask.MAX) + { + commandArgs.Arguments["EtwSessionKeyword"] = (commandArgs.perEventSourceSessionId + SessionMask.SHIFT_SESSION_TO_KEYWORD).ToString(CultureInfo.InvariantCulture); + } + } +#endif // FEATURE_ACTIVITYSAMPLING + + // Turn on the enable bit before making the OnEventCommand callback This allows you to do useful + // things like log messages, or test if keywords are enabled in the callback. + if (commandArgs.enable) + { + Debug.Assert(m_eventData != null); + m_eventSourceEnabled = true; + } + + this.OnEventCommand(commandArgs); + var eventCommandCallback = this.m_eventCommandExecuted; + if (eventCommandCallback != null) + eventCommandCallback(this, commandArgs); + +#if FEATURE_ACTIVITYSAMPLING + if (commandArgs.listener == null && !bSessionEnable && commandArgs.perEventSourceSessionId != -1) + { + // if we disable an ETW session, complete disabling it + UpdateEtwSession(commandArgs.perEventSourceSessionId, commandArgs.etwSessionId, false, null, false); + } +#endif // FEATURE_ACTIVITYSAMPLING + + if (!commandArgs.enable) + { + // If we are disabling, maybe we can turn on 'quick checks' to filter + // quickly. These are all just optimizations (since later checks will still filter) + +#if FEATURE_ACTIVITYSAMPLING + // Turn off (and forget) any information about Activity Tracing. + if (commandArgs.listener == null) + { + // reset all filtering information for activity-tracing-aware sessions + for (int i = 0; i < SessionMask.MAX; ++i) + { + EtwSession etwSession = m_etwSessionIdMap[i]; + if (etwSession != null) + ActivityFilter.DisableFilter(ref etwSession.m_activityFilter, this); + } + m_activityFilteringForETWEnabled = new SessionMask(0); + m_curLiveSessions = new SessionMask(0); + // reset activity-tracing-aware sessions + if (m_etwSessionIdMap != null) + for (int i = 0; i < SessionMask.MAX; ++i) + m_etwSessionIdMap[i] = null; + // reset legacy sessions + if (m_legacySessions != null) + m_legacySessions.Clear(); + } + else + { + ActivityFilter.DisableFilter(ref commandArgs.listener.m_activityFilter, this); + commandArgs.dispatcher.m_activityFilteringEnabled = false; + } +#endif // FEATURE_ACTIVITYSAMPLING + + // There is a good chance EnabledForAnyListener are not as accurate as + // they could be, go ahead and get a better estimate. + for (int i = 0; i < m_eventData.Length; i++) + { + bool isEnabledForAnyListener = false; + for (EventDispatcher dispatcher = m_Dispatchers; dispatcher != null; dispatcher = dispatcher.m_Next) + { + if (dispatcher.m_EventEnabled[i]) + { + isEnabledForAnyListener = true; + break; + } + } + m_eventData[i].EnabledForAnyListener = isEnabledForAnyListener; + } + + // If no events are enabled, disable the global enabled bit. + if (!AnyEventEnabled()) + { + m_level = 0; + m_matchAnyKeyword = 0; + m_eventSourceEnabled = false; + } + } +#if FEATURE_ACTIVITYSAMPLING + UpdateKwdTriggers(commandArgs.enable); +#endif // FEATURE_ACTIVITYSAMPLING + } + else + { + if (commandArgs.Command == EventCommand.SendManifest) + { + // TODO: should we generate the manifest here if we hadn't already? + if (m_rawManifest != null) + SendManifest(m_rawManifest); + } + + // These are not used for non-update commands and thus should always be 'default' values + // Debug.Assert(enable == true); + // Debug.Assert(level == EventLevel.LogAlways); + // Debug.Assert(matchAnyKeyword == EventKeywords.None); + + this.OnEventCommand(commandArgs); + var eventCommandCallback = m_eventCommandExecuted; + if (eventCommandCallback != null) + eventCommandCallback(this, commandArgs); + } + +#if FEATURE_ACTIVITYSAMPLING + if (m_completelyInited && (commandArgs.listener != null || shouldReport)) + { + SessionMask m = SessionMask.FromId(commandArgs.perEventSourceSessionId); + ReportActivitySamplingInfo(commandArgs.listener, m); + } +#endif // FEATURE_ACTIVITYSAMPLING + } + catch (Exception e) + { + // When the ETW session is created after the EventSource has registered with the ETW system + // we can send any error messages here. + ReportOutOfBandMessage("ERROR: Exception in Command Processing for EventSource " + Name + ": " + e.Message, true); + // We never throw when doing a command. + } + } + +#if FEATURE_ACTIVITYSAMPLING + + internal void UpdateEtwSession( + int sessionIdBit, + int etwSessionId, + bool bEnable, + string activityFilters, + bool participateInSampling) + { + if (sessionIdBit < SessionMask.MAX) + { + // activity-tracing-aware etw session + if (bEnable) + { + var etwSession = EtwSession.GetEtwSession(etwSessionId, true); + ActivityFilter.UpdateFilter(ref etwSession.m_activityFilter, this, sessionIdBit, activityFilters); + m_etwSessionIdMap[sessionIdBit] = etwSession; + m_activityFilteringForETWEnabled[sessionIdBit] = participateInSampling; + } + else + { + var etwSession = EtwSession.GetEtwSession(etwSessionId); + m_etwSessionIdMap[sessionIdBit] = null; + m_activityFilteringForETWEnabled[sessionIdBit] = false; + if (etwSession != null) + { + ActivityFilter.DisableFilter(ref etwSession.m_activityFilter, this); + // the ETW session is going away; remove it from the global list + EtwSession.RemoveEtwSession(etwSession); + } + } + m_curLiveSessions[sessionIdBit] = bEnable; + } + else + { + // legacy etw session + if (bEnable) + { + if (m_legacySessions == null) + m_legacySessions = new List(8); + var etwSession = EtwSession.GetEtwSession(etwSessionId, true); + if (!m_legacySessions.Contains(etwSession)) + m_legacySessions.Add(etwSession); + } + else + { + var etwSession = EtwSession.GetEtwSession(etwSessionId); + if (etwSession != null) + { + if (m_legacySessions != null) + m_legacySessions.Remove(etwSession); + // the ETW session is going away; remove it from the global list + EtwSession.RemoveEtwSession(etwSession); + } + } + } + } + + internal static bool ParseCommandArgs( + IDictionary commandArguments, + out bool participateInSampling, + out string activityFilters, + out int sessionIdBit) + { + bool res = true; + participateInSampling = false; + string activityFilterString; + if (commandArguments.TryGetValue("ActivitySamplingStartEvent", out activityFilters)) + { + // if a start event is specified default the event source to participate in sampling + participateInSampling = true; + } + + if (commandArguments.TryGetValue("ActivitySampling", out activityFilterString)) + { + if (string.Compare(activityFilterString, "false", StringComparison.OrdinalIgnoreCase) == 0 || + activityFilterString == "0") + participateInSampling = false; + else + participateInSampling = true; + } + + string sSessionKwd; + int sessionKwd = -1; + if (!commandArguments.TryGetValue("EtwSessionKeyword", out sSessionKwd) || + !int.TryParse(sSessionKwd, out sessionKwd) || + sessionKwd < SessionMask.SHIFT_SESSION_TO_KEYWORD || + sessionKwd >= SessionMask.SHIFT_SESSION_TO_KEYWORD + SessionMask.MAX) + { + sessionIdBit = -1; + res = false; + } + else + { + sessionIdBit = sessionKwd - SessionMask.SHIFT_SESSION_TO_KEYWORD; + } + return res; + } + + internal void UpdateKwdTriggers(bool enable) + { + if (enable) + { + // recompute m_keywordTriggers + ulong gKeywords = unchecked((ulong)m_matchAnyKeyword); + if (gKeywords == 0) + gKeywords = 0xFFFFffffFFFFffff; + + m_keywordTriggers = 0; + for (int sessId = 0; sessId < SessionMask.MAX; ++sessId) + { + EtwSession etwSession = m_etwSessionIdMap[sessId]; + if (etwSession == null) + continue; + + ActivityFilter activityFilter = etwSession.m_activityFilter; + ActivityFilter.UpdateKwdTriggers(activityFilter, m_guid, this, unchecked((EventKeywords)gKeywords)); + } + } + else + { + m_keywordTriggers = 0; + } + } + +#endif // FEATURE_ACTIVITYSAMPLING + + /// + /// If 'value is 'true' then set the eventSource so that 'dispatcher' will receive event with the eventId + /// of 'eventId. If value is 'false' disable the event for that dispatcher. If 'eventId' is out of + /// range return false, otherwise true. + /// + internal bool EnableEventForDispatcher(EventDispatcher dispatcher, int eventId, bool value) + { + if (dispatcher == null) + { + if (eventId >= m_eventData.Length) + return false; +#if FEATURE_MANAGED_ETW + if (m_provider != null) + m_eventData[eventId].EnabledForETW = value; +#endif + } + else + { + if (eventId >= dispatcher.m_EventEnabled.Length) + return false; + dispatcher.m_EventEnabled[eventId] = value; + if (value) + m_eventData[eventId].EnabledForAnyListener = true; + } + return true; + } + + /// + /// Returns true if any event at all is on. + /// + private bool AnyEventEnabled() + { + for (int i = 0; i < m_eventData.Length; i++) + if (m_eventData[i].EnabledForETW || m_eventData[i].EnabledForAnyListener) + return true; + return false; + } + + private bool IsDisposed + { + get { return m_eventSourceDisposed; } + } + + private void EnsureDescriptorsInitialized() + { +#if !ES_BUILD_STANDALONE + Debug.Assert(Monitor.IsEntered(EventListener.EventListenersLock)); +#endif + if (m_eventData == null) + { + Guid eventSourceGuid = Guid.Empty; + string eventSourceName = null; + EventMetadata[] eventData = null; + byte[] manifest = null; + + // Try the GetMetadata provided by the ILTransform in ProjectN. The default sets all to null, and in that case we fall back + // to the reflection approach. + GetMetadata(out eventSourceGuid, out eventSourceName, out eventData, out manifest); + + if (eventSourceGuid.Equals(Guid.Empty) || eventSourceName == null || eventData == null || manifest == null) + { + // GetMetadata failed, so we have to set it via reflection. + Debug.Assert(m_rawManifest == null); + m_rawManifest = CreateManifestAndDescriptors(this.GetType(), Name, this); + Debug.Assert(m_eventData != null); + + } + else + { + // GetMetadata worked, so set the fields as appropriate. + m_name = eventSourceName; + m_guid = eventSourceGuid; + m_eventData = eventData; + m_rawManifest = manifest; + } + // TODO Enforce singleton pattern + foreach (WeakReference eventSourceRef in EventListener.s_EventSources) + { + EventSource eventSource = eventSourceRef.Target as EventSource; + if (eventSource != null && eventSource.Guid == m_guid && !eventSource.IsDisposed) + { + if (eventSource != this) + { + throw new ArgumentException(Resources.GetResourceString("EventSource_EventSourceGuidInUse", m_guid)); + } + } + } + + // Make certain all dispatchers also have their arrays initialized + EventDispatcher dispatcher = m_Dispatchers; + while (dispatcher != null) + { + if (dispatcher.m_EventEnabled == null) + dispatcher.m_EventEnabled = new bool[m_eventData.Length]; + dispatcher = dispatcher.m_Next; + } + } + if (s_currentPid == 0) + { +#if ES_BUILD_STANDALONE && !ES_BUILD_PCL && !CORECLR + // for non-BCL EventSource we must assert SecurityPermission + new SecurityPermission(PermissionState.Unrestricted).Assert(); +#endif + s_currentPid = Win32Native.GetCurrentProcessId(); + } + } + + // Send out the ETW manifest XML out to ETW + // Today, we only send the manifest to ETW, custom listeners don't get it. + private unsafe bool SendManifest(byte[] rawManifest) + { + bool success = true; + + if (rawManifest == null) + return false; + + Debug.Assert(!SelfDescribingEvents); + +#if FEATURE_MANAGED_ETW + fixed (byte* dataPtr = rawManifest) + { + // we don't want the manifest to show up in the event log channels so we specify as keywords + // everything but the first 8 bits (reserved for the 8 channels) + var manifestDescr = new EventDescriptor(0xFFFE, 1, 0, 0, 0xFE, 0xFFFE, 0x00ffFFFFffffFFFF); + ManifestEnvelope envelope = new ManifestEnvelope(); + + envelope.Format = ManifestEnvelope.ManifestFormats.SimpleXmlFormat; + envelope.MajorVersion = 1; + envelope.MinorVersion = 0; + envelope.Magic = 0x5B; // An unusual number that can be checked for consistency. + int dataLeft = rawManifest.Length; + envelope.ChunkNumber = 0; + + EventProvider.EventData* dataDescrs = stackalloc EventProvider.EventData[2]; + + dataDescrs[0].Ptr = (ulong)&envelope; + dataDescrs[0].Size = (uint)sizeof(ManifestEnvelope); + dataDescrs[0].Reserved = 0; + + dataDescrs[1].Ptr = (ulong)dataPtr; + dataDescrs[1].Reserved = 0; + + int chunkSize = ManifestEnvelope.MaxChunkSize; + TRY_AGAIN_WITH_SMALLER_CHUNK_SIZE: + envelope.TotalChunks = (ushort)((dataLeft + (chunkSize - 1)) / chunkSize); + while (dataLeft > 0) + { + dataDescrs[1].Size = (uint)Math.Min(dataLeft, chunkSize); + if (m_provider != null) + { + if (!m_provider.WriteEvent(ref manifestDescr, null, null, 2, (IntPtr)dataDescrs)) + { + // Turns out that if users set the BufferSize to something less than 64K then WriteEvent + // can fail. If we get this failure on the first chunk try again with something smaller + // The smallest BufferSize is 1K so if we get to 256 (to account for envelope overhead), we can give up making it smaller. + if (EventProvider.GetLastWriteEventError() == EventProvider.WriteEventErrorCode.EventTooBig) + { + if (envelope.ChunkNumber == 0 && chunkSize > 256) + { + chunkSize = chunkSize / 2; + goto TRY_AGAIN_WITH_SMALLER_CHUNK_SIZE; + } + } + success = false; + if (ThrowOnEventWriteErrors) + ThrowEventSourceException("SendManifest"); + break; + } + } + dataLeft -= chunkSize; + dataDescrs[1].Ptr += (uint)chunkSize; + envelope.ChunkNumber++; + + // For large manifests we want to not overflow any receiver's buffer. Most manifests will fit within + // 5 chunks, so only the largest manifests will hit the pause. + if ((envelope.ChunkNumber % 5) == 0) + { + RuntimeThread.Sleep(15); + } + } + } +#endif // FEATURE_MANAGED_ETW + return success; + } + +#if (ES_BUILD_PCL) + internal static Attribute GetCustomAttributeHelper(Type type, Type attributeType, EventManifestOptions flags = EventManifestOptions.None) + { + return GetCustomAttributeHelper(type.GetTypeInfo(), attributeType, flags); + } +#endif + + // Helper to deal with the fact that the type we are reflecting over might be loaded in the ReflectionOnly context. + // When that is the case, we have the build the custom assemblies on a member by hand. + internal static Attribute GetCustomAttributeHelper(MemberInfo member, Type attributeType, EventManifestOptions flags = EventManifestOptions.None) + { + if (!member.Module.Assembly.ReflectionOnly() && (flags & EventManifestOptions.AllowEventSourceOverride) == 0) + { + // Let the runtime to the work for us, since we can execute code in this context. + Attribute firstAttribute = null; + foreach (var attribute in member.GetCustomAttributes(attributeType, false)) + { + firstAttribute = (Attribute)attribute; + break; + } + return firstAttribute; + } + +#if (!ES_BUILD_PCL && !ES_BUILD_PN) + // In the reflection only context, we have to do things by hand. + string fullTypeNameToFind = attributeType.FullName; + +#if EVENT_SOURCE_LEGACY_NAMESPACE_SUPPORT + fullTypeNameToFind = fullTypeNameToFind.Replace("System.Diagnostics.Eventing", "System.Diagnostics.Tracing"); +#endif + + foreach (CustomAttributeData data in CustomAttributeData.GetCustomAttributes(member)) + { + if (AttributeTypeNamesMatch(attributeType, data.Constructor.ReflectedType)) + { + Attribute attr = null; + + Debug.Assert(data.ConstructorArguments.Count <= 1); + + if (data.ConstructorArguments.Count == 1) + { + attr = (Attribute)Activator.CreateInstance(attributeType, new object[] { data.ConstructorArguments[0].Value }); + } + else if (data.ConstructorArguments.Count == 0) + { + attr = (Attribute)Activator.CreateInstance(attributeType); + } + + if (attr != null) + { + Type t = attr.GetType(); + + foreach (CustomAttributeNamedArgument namedArgument in data.NamedArguments) + { + PropertyInfo p = t.GetProperty(namedArgument.MemberInfo.Name, BindingFlags.Public | BindingFlags.Instance); + object value = namedArgument.TypedValue.Value; + + if (p.PropertyType.IsEnum) + { + value = Enum.Parse(p.PropertyType, value.ToString()); + } + + p.SetValue(attr, value, null); + } + + return attr; + } + } + } + + return null; +#else // ES_BUILD_PCL && ES_BUILD_PN + // Don't use nameof here because the resource doesn't exist on some platforms, which results in a compilation error. + throw new ArgumentException(Resources.GetResourceString("EventSource", "EventSource_PCLPlatformNotSupportedReflection")); +#endif + } + + /// + /// Evaluates if two related "EventSource"-domain types should be considered the same + /// + /// The attribute type in the load context - it's associated with the running + /// EventSource type. This type may be different fromt he base type of the user-defined EventSource. + /// The attribute type in the reflection context - it's associated with + /// the user-defined EventSource, and is in the same assembly as the eventSourceType passed to + /// + /// True - if the types should be considered equivalent, False - otherwise + private static bool AttributeTypeNamesMatch(Type attributeType, Type reflectedAttributeType) + { + return + // are these the same type? + attributeType == reflectedAttributeType || + // are the full typenames equal? + string.Equals(attributeType.FullName, reflectedAttributeType.FullName, StringComparison.Ordinal) || + // are the typenames equal and the namespaces under "Diagnostics.Tracing" (typically + // either Microsoft.Diagnostics.Tracing or System.Diagnostics.Tracing)? + string.Equals(attributeType.Name, reflectedAttributeType.Name, StringComparison.Ordinal) && + attributeType.Namespace.EndsWith("Diagnostics.Tracing", StringComparison.Ordinal) && + (reflectedAttributeType.Namespace.EndsWith("Diagnostics.Tracing", StringComparison.Ordinal) +#if EVENT_SOURCE_LEGACY_NAMESPACE_SUPPORT + || reflectedAttributeType.Namespace.EndsWith("Diagnostics.Eventing", StringComparison.Ordinal) +#endif +); + } + + private static Type GetEventSourceBaseType(Type eventSourceType, bool allowEventSourceOverride, bool reflectionOnly) + { + // return false for "object" and interfaces + if (eventSourceType.BaseType() == null) + return null; + + // now go up the inheritance chain until hitting a concrete type ("object" at worse) + do + { + eventSourceType = eventSourceType.BaseType(); + } + while (eventSourceType != null && eventSourceType.IsAbstract()); + + if (eventSourceType != null) + { + if (!allowEventSourceOverride) + { + if (reflectionOnly && eventSourceType.FullName != typeof(EventSource).FullName || + !reflectionOnly && eventSourceType != typeof(EventSource)) + return null; + } + else + { + if (eventSourceType.Name != "EventSource") + return null; + } + } + return eventSourceType; + } + + // Use reflection to look at the attributes of a class, and generate a manifest for it (as UTF8) and + // return the UTF8 bytes. It also sets up the code:EventData structures needed to dispatch events + // at run time. 'source' is the event source to place the descriptors. If it is null, + // then the descriptors are not creaed, and just the manifest is generated. + private static byte[] CreateManifestAndDescriptors(Type eventSourceType, string eventSourceDllName, EventSource source, + EventManifestOptions flags = EventManifestOptions.None) + { + ManifestBuilder manifest = null; + bool bNeedsManifest = source != null ? !source.SelfDescribingEvents : true; + Exception exception = null; // exception that might get raised during validation b/c we couldn't/didn't recover from a previous error + byte[] res = null; + + if (eventSourceType.IsAbstract() && (flags & EventManifestOptions.Strict) == 0) + return null; + +#if DEBUG && ES_BUILD_STANDALONE + TestSupport.TestHooks.MaybeThrow(eventSourceType, + TestSupport.Category.ManifestError, + "EventSource_CreateManifestAndDescriptors", + new ArgumentException("EventSource_CreateManifestAndDescriptors")); +#endif + + try + { + MethodInfo[] methods = eventSourceType.GetMethods(BindingFlags.DeclaredOnly | BindingFlags.NonPublic | BindingFlags.Public | BindingFlags.Instance); + EventAttribute defaultEventAttribute; + int eventId = 1; // The number given to an event that does not have a explicitly given ID. + EventMetadata[] eventData = null; + Dictionary eventsByName = null; + if (source != null || (flags & EventManifestOptions.Strict) != 0) + { + eventData = new EventMetadata[methods.Length + 1]; + eventData[0].Name = ""; // Event 0 is the 'write messages string' event, and has an empty name. + } + + // See if we have localization information. + ResourceManager resources = null; + EventSourceAttribute eventSourceAttrib = (EventSourceAttribute)GetCustomAttributeHelper(eventSourceType, typeof(EventSourceAttribute), flags); + if (eventSourceAttrib != null && eventSourceAttrib.LocalizationResources != null) + resources = new ResourceManager(eventSourceAttrib.LocalizationResources, eventSourceType.Assembly()); + + manifest = new ManifestBuilder(GetName(eventSourceType, flags), GetGuid(eventSourceType), eventSourceDllName, + resources, flags); + + // Add an entry unconditionally for event ID 0 which will be for a string message. + manifest.StartEvent("EventSourceMessage", new EventAttribute(0) { Level = EventLevel.LogAlways, Task = (EventTask)0xFFFE }); + manifest.AddEventParameter(typeof(string), "message"); + manifest.EndEvent(); + + // eventSourceType must be sealed and must derive from this EventSource + if ((flags & EventManifestOptions.Strict) != 0) + { + bool typeMatch = GetEventSourceBaseType(eventSourceType, (flags & EventManifestOptions.AllowEventSourceOverride) != 0, eventSourceType.Assembly().ReflectionOnly()) != null; + + if (!typeMatch) + { + manifest.ManifestError(Resources.GetResourceString("EventSource_TypeMustDeriveFromEventSource")); + } + if (!eventSourceType.IsAbstract() && !eventSourceType.IsSealed()) + { + manifest.ManifestError(Resources.GetResourceString("EventSource_TypeMustBeSealedOrAbstract")); + } + } + + // Collect task, opcode, keyword and channel information +#if FEATURE_MANAGED_ETW_CHANNELS && FEATURE_ADVANCED_MANAGED_ETW_CHANNELS + foreach (var providerEnumKind in new string[] { "Keywords", "Tasks", "Opcodes", "Channels" }) +#else + foreach (var providerEnumKind in new string[] { "Keywords", "Tasks", "Opcodes" }) +#endif + { + Type nestedType = eventSourceType.GetNestedType(providerEnumKind); + if (nestedType != null) + { + if (eventSourceType.IsAbstract()) + { + manifest.ManifestError(Resources.GetResourceString("EventSource_AbstractMustNotDeclareKTOC", nestedType.Name)); + } + else + { + foreach (FieldInfo staticField in nestedType.GetFields(BindingFlags.DeclaredOnly | BindingFlags.Public | BindingFlags.NonPublic | BindingFlags.Static)) + { + AddProviderEnumKind(manifest, staticField, providerEnumKind); + } + } + } + } + // ensure we have keywords for the session-filtering reserved bits + { + manifest.AddKeyword("Session3", (long)0x1000 << 32); + manifest.AddKeyword("Session2", (long)0x2000 << 32); + manifest.AddKeyword("Session1", (long)0x4000 << 32); + manifest.AddKeyword("Session0", (long)0x8000 << 32); + } + + if (eventSourceType != typeof(EventSource)) + { + for (int i = 0; i < methods.Length; i++) + { + MethodInfo method = methods[i]; + ParameterInfo[] args = method.GetParameters(); + + // Get the EventDescriptor (from the Custom attributes) + EventAttribute eventAttribute = (EventAttribute)GetCustomAttributeHelper(method, typeof(EventAttribute), flags); + + // Compat: until v4.5.1 we ignored any non-void returning methods as well as virtual methods for + // the only reason of limiting the number of methods considered to be events. This broke a common + // design of having event sources implement specific interfaces. To fix this in a compatible way + // we will now allow both non-void returning and virtual methods to be Event methods, as long + // as they are marked with the [Event] attribute + if (/* method.IsVirtual || */ method.IsStatic) + { + continue; + } + + if (eventSourceType.IsAbstract()) + { + if (eventAttribute != null) + { + manifest.ManifestError(Resources.GetResourceString("EventSource_AbstractMustNotDeclareEventMethods", method.Name, eventAttribute.EventId)); + } + continue; + } + else if (eventAttribute == null) + { + // Methods that don't return void can't be events, if they're NOT marked with [Event]. + // (see Compat comment above) + if (method.ReturnType != typeof(void)) + { + continue; + } + + // Continue to ignore virtual methods if they do NOT have the [Event] attribute + // (see Compat comment above) + if (method.IsVirtual) + { + continue; + } + + // If we explicitly mark the method as not being an event, then honor that. + if (GetCustomAttributeHelper(method, typeof(NonEventAttribute), flags) != null) + continue; + + defaultEventAttribute = new EventAttribute(eventId); + eventAttribute = defaultEventAttribute; + } + else if (eventAttribute.EventId <= 0) + { + manifest.ManifestError(Resources.GetResourceString("EventSource_NeedPositiveId", method.Name), true); + continue; // don't validate anything else for this event + } + if (method.Name.LastIndexOf('.') >= 0) + { + manifest.ManifestError(Resources.GetResourceString("EventSource_EventMustNotBeExplicitImplementation", method.Name, eventAttribute.EventId)); + } + + eventId++; + string eventName = method.Name; + + if (eventAttribute.Opcode == EventOpcode.Info) // We are still using the default opcode. + { + // By default pick a task ID derived from the EventID, starting with the highest task number and working back + bool noTask = (eventAttribute.Task == EventTask.None); + if (noTask) + eventAttribute.Task = (EventTask)(0xFFFE - eventAttribute.EventId); + + // Unless we explicitly set the opcode to Info (to override the auto-generate of Start or Stop opcodes, + // pick a default opcode based on the event name (either Info or start or stop if the name ends with that suffix). + if (!eventAttribute.IsOpcodeSet) + eventAttribute.Opcode = GetOpcodeWithDefault(EventOpcode.Info, eventName); + + // Make the stop opcode have the same task as the start opcode. + if (noTask) + { + if (eventAttribute.Opcode == EventOpcode.Start) + { + string taskName = eventName.Substring(0, eventName.Length - s_ActivityStartSuffix.Length); // Remove the Stop suffix to get the task name + if (string.Compare(eventName, 0, taskName, 0, taskName.Length) == 0 && + string.Compare(eventName, taskName.Length, s_ActivityStartSuffix, 0, Math.Max(eventName.Length - taskName.Length, s_ActivityStartSuffix.Length)) == 0) + { + // Add a task that is just the task name for the start event. This suppress the auto-task generation + // That would otherwise happen (and create 'TaskName'Start as task name rather than just 'TaskName' + manifest.AddTask(taskName, (int)eventAttribute.Task); + } + } + else if (eventAttribute.Opcode == EventOpcode.Stop) + { + // Find the start associated with this stop event. We require start to be immediately before the stop + int startEventId = eventAttribute.EventId - 1; + if (eventData != null && startEventId < eventData.Length) + { + Debug.Assert(0 <= startEventId); // Since we reserve id 0, we know that id-1 is <= 0 + EventMetadata startEventMetadata = eventData[startEventId]; + + // If you remove the Stop and add a Start does that name match the Start Event's Name? + // Ideally we would throw an error + string taskName = eventName.Substring(0, eventName.Length - s_ActivityStopSuffix.Length); // Remove the Stop suffix to get the task name + if (startEventMetadata.Descriptor.Opcode == (byte)EventOpcode.Start && + string.Compare(startEventMetadata.Name, 0, taskName, 0, taskName.Length) == 0 && + string.Compare(startEventMetadata.Name, taskName.Length, s_ActivityStartSuffix, 0, Math.Max(startEventMetadata.Name.Length - taskName.Length, s_ActivityStartSuffix.Length)) == 0) + { + + // Make the stop event match the start event + eventAttribute.Task = (EventTask)startEventMetadata.Descriptor.Task; + noTask = false; + } + } + if (noTask && (flags & EventManifestOptions.Strict) != 0) // Throw an error if we can compatibly. + { + throw new ArgumentException(Resources.GetResourceString("EventSource_StopsFollowStarts")); + } + } + } + } + + bool hasRelatedActivityID = RemoveFirstArgIfRelatedActivityId(ref args); + if (!(source != null && source.SelfDescribingEvents)) + { + manifest.StartEvent(eventName, eventAttribute); + for (int fieldIdx = 0; fieldIdx < args.Length; fieldIdx++) + { + manifest.AddEventParameter(args[fieldIdx].ParameterType, args[fieldIdx].Name); + } + manifest.EndEvent(); + } + + if (source != null || (flags & EventManifestOptions.Strict) != 0) + { + // Do checking for user errors (optional, but not a big deal so we do it). + DebugCheckEvent(ref eventsByName, eventData, method, eventAttribute, manifest, flags); + +#if FEATURE_MANAGED_ETW_CHANNELS + // add the channel keyword for Event Viewer channel based filters. This is added for creating the EventDescriptors only + // and is not required for the manifest + if (eventAttribute.Channel != EventChannel.None) + { + unchecked + { + eventAttribute.Keywords |= (EventKeywords)manifest.GetChannelKeyword(eventAttribute.Channel, (ulong)eventAttribute.Keywords); + } + } +#endif + string eventKey = "event_" + eventName; + string msg = manifest.GetLocalizedMessage(eventKey, CultureInfo.CurrentUICulture, etwFormat: false); + // overwrite inline message with the localized message + if (msg != null) eventAttribute.Message = msg; + + AddEventDescriptor(ref eventData, eventName, eventAttribute, args, hasRelatedActivityID); + } + } + } + + // Tell the TraceLogging stuff where to start allocating its own IDs. + NameInfo.ReserveEventIDsBelow(eventId); + + if (source != null) + { + TrimEventDescriptors(ref eventData); + source.m_eventData = eventData; // officially initialize it. We do this at most once (it is racy otherwise). +#if FEATURE_MANAGED_ETW_CHANNELS + source.m_channelData = manifest.GetChannelData(); +#endif + } + + // if this is an abstract event source we've already performed all the validation we can + if (!eventSourceType.IsAbstract() && (source == null || !source.SelfDescribingEvents)) + { + bNeedsManifest = (flags & EventManifestOptions.OnlyIfNeededForRegistration) == 0 +#if FEATURE_MANAGED_ETW_CHANNELS + || manifest.GetChannelData().Length > 0 +#endif +; + + // if the manifest is not needed and we're not requested to validate the event source return early + if (!bNeedsManifest && (flags & EventManifestOptions.Strict) == 0) + return null; + + res = manifest.CreateManifest(); + } + } + catch (Exception e) + { + // if this is a runtime manifest generation let the exception propagate + if ((flags & EventManifestOptions.Strict) == 0) + throw; + // else store it to include it in the Argument exception we raise below + exception = e; + } + + if ((flags & EventManifestOptions.Strict) != 0 && (manifest.Errors.Count > 0 || exception != null)) + { + string msg = String.Empty; + if (manifest.Errors.Count > 0) + { + bool firstError = true; + foreach (string error in manifest.Errors) + { + if (!firstError) + msg += Environment.NewLine; + firstError = false; + msg += error; + } + } + else + msg = "Unexpected error: " + exception.Message; + + throw new ArgumentException(msg, exception); + } + + return bNeedsManifest ? res : null; + } + + private static bool RemoveFirstArgIfRelatedActivityId(ref ParameterInfo[] args) + { + // If the first parameter is (case insensitive) 'relatedActivityId' then skip it. + if (args.Length > 0 && args[0].ParameterType == typeof(Guid) && + string.Compare(args[0].Name, "relatedActivityId", StringComparison.OrdinalIgnoreCase) == 0) + { + var newargs = new ParameterInfo[args.Length - 1]; + Array.Copy(args, 1, newargs, 0, args.Length - 1); + args = newargs; + + return true; + } + + return false; + } + + // adds a enumeration (keyword, opcode, task or channel) represented by 'staticField' + // to the manifest. + private static void AddProviderEnumKind(ManifestBuilder manifest, FieldInfo staticField, string providerEnumKind) + { + bool reflectionOnly = staticField.Module.Assembly.ReflectionOnly(); + Type staticFieldType = staticField.FieldType; + if (!reflectionOnly && (staticFieldType == typeof(EventOpcode)) || AttributeTypeNamesMatch(staticFieldType, typeof(EventOpcode))) + { + if (providerEnumKind != "Opcodes") goto Error; + int value = (int)staticField.GetRawConstantValue(); + manifest.AddOpcode(staticField.Name, value); + } + else if (!reflectionOnly && (staticFieldType == typeof(EventTask)) || AttributeTypeNamesMatch(staticFieldType, typeof(EventTask))) + { + if (providerEnumKind != "Tasks") goto Error; + int value = (int)staticField.GetRawConstantValue(); + manifest.AddTask(staticField.Name, value); + } + else if (!reflectionOnly && (staticFieldType == typeof(EventKeywords)) || AttributeTypeNamesMatch(staticFieldType, typeof(EventKeywords))) + { + if (providerEnumKind != "Keywords") goto Error; + ulong value = unchecked((ulong)(long)staticField.GetRawConstantValue()); + manifest.AddKeyword(staticField.Name, value); + } +#if FEATURE_MANAGED_ETW_CHANNELS && FEATURE_ADVANCED_MANAGED_ETW_CHANNELS + else if (!reflectionOnly && (staticFieldType == typeof(EventChannel)) || AttributeTypeNamesMatch(staticFieldType, typeof(EventChannel))) + { + if (providerEnumKind != "Channels") goto Error; + var channelAttribute = (EventChannelAttribute)GetCustomAttributeHelper(staticField, typeof(EventChannelAttribute)); + manifest.AddChannel(staticField.Name, (byte)staticField.GetRawConstantValue(), channelAttribute); + } +#endif + return; + Error: + manifest.ManifestError(Resources.GetResourceString("EventSource_EnumKindMismatch", staticField.Name, staticField.FieldType.Name, providerEnumKind)); + } + + // Helper used by code:CreateManifestAndDescriptors to add a code:EventData descriptor for a method + // with the code:EventAttribute 'eventAttribute'. resourceManger may be null in which case we populate it + // it is populated if we need to look up message resources + private static void AddEventDescriptor(ref EventMetadata[] eventData, string eventName, + EventAttribute eventAttribute, ParameterInfo[] eventParameters, + bool hasRelatedActivityID) + { + if (eventData == null || eventData.Length <= eventAttribute.EventId) + { + EventMetadata[] newValues = new EventMetadata[Math.Max(eventData.Length + 16, eventAttribute.EventId + 1)]; + Array.Copy(eventData, 0, newValues, 0, eventData.Length); + eventData = newValues; + } + + eventData[eventAttribute.EventId].Descriptor = new EventDescriptor( + eventAttribute.EventId, + eventAttribute.Version, +#if FEATURE_MANAGED_ETW_CHANNELS + (byte)eventAttribute.Channel, +#else + (byte)0, +#endif + (byte)eventAttribute.Level, + (byte)eventAttribute.Opcode, + (int)eventAttribute.Task, + unchecked((long)((ulong)eventAttribute.Keywords | SessionMask.All.ToEventKeywords()))); + + eventData[eventAttribute.EventId].Tags = eventAttribute.Tags; + eventData[eventAttribute.EventId].Name = eventName; + eventData[eventAttribute.EventId].Parameters = eventParameters; + eventData[eventAttribute.EventId].Message = eventAttribute.Message; + eventData[eventAttribute.EventId].ActivityOptions = eventAttribute.ActivityOptions; + eventData[eventAttribute.EventId].HasRelatedActivityID = hasRelatedActivityID; + } + + // Helper used by code:CreateManifestAndDescriptors that trims the m_eventData array to the correct + // size after all event descriptors have been added. + private static void TrimEventDescriptors(ref EventMetadata[] eventData) + { + int idx = eventData.Length; + while (0 < idx) + { + --idx; + if (eventData[idx].Descriptor.EventId != 0) + break; + } + if (eventData.Length - idx > 2) // allow one wasted slot. + { + EventMetadata[] newValues = new EventMetadata[idx + 1]; + Array.Copy(eventData, 0, newValues, 0, newValues.Length); + eventData = newValues; + } + } + + // Helper used by code:EventListener.AddEventSource and code:EventListener.EventListener + // when a listener gets attached to a eventSource + internal void AddListener(EventListener listener) + { + lock (EventListener.EventListenersLock) + { + bool[] enabledArray = null; + if (m_eventData != null) + enabledArray = new bool[m_eventData.Length]; + m_Dispatchers = new EventDispatcher(m_Dispatchers, enabledArray, listener); + listener.OnEventSourceCreated(this); + } + } + + // Helper used by code:CreateManifestAndDescriptors to find user mistakes like reusing an event + // index for two distinct events etc. Throws exceptions when it finds something wrong. + private static void DebugCheckEvent(ref Dictionary eventsByName, + EventMetadata[] eventData, MethodInfo method, EventAttribute eventAttribute, + ManifestBuilder manifest, EventManifestOptions options) + { + int evtId = eventAttribute.EventId; + string evtName = method.Name; + int eventArg = GetHelperCallFirstArg(method); + if (eventArg >= 0 && evtId != eventArg) + { + manifest.ManifestError(Resources.GetResourceString("EventSource_MismatchIdToWriteEvent", evtName, evtId, eventArg), true); + } + + if (evtId < eventData.Length && eventData[evtId].Descriptor.EventId != 0) + { + manifest.ManifestError(Resources.GetResourceString("EventSource_EventIdReused", evtName, evtId, eventData[evtId].Name), true); + } + + // We give a task to things if they don't have one. + // TODO this is moderately expensive (N*N). We probably should not even bother.... + Debug.Assert(eventAttribute.Task != EventTask.None || eventAttribute.Opcode != EventOpcode.Info); + for (int idx = 0; idx < eventData.Length; ++idx) + { + // skip unused Event IDs. + if (eventData[idx].Name == null) + continue; + + if (eventData[idx].Descriptor.Task == (int)eventAttribute.Task && eventData[idx].Descriptor.Opcode == (int)eventAttribute.Opcode) + { + manifest.ManifestError(Resources.GetResourceString("EventSource_TaskOpcodePairReused", + evtName, evtId, eventData[idx].Name, idx)); + // If we are not strict stop on first error. We have had problems with really large providers taking forever. because of many errors. + if ((options & EventManifestOptions.Strict) == 0) + break; + } + } + + // for non-default event opcodes the user must define a task! + if (eventAttribute.Opcode != EventOpcode.Info) + { + bool failure = false; + if (eventAttribute.Task == EventTask.None) + failure = true; + else + { + // If you have the auto-assigned Task, then you did not explicitly set one. + // This is OK for Start events because we have special logic to assign the task to a prefix derived from the event name + // But all other cases we want to catch the omission. + var autoAssignedTask = (EventTask)(0xFFFE - evtId); + if ((eventAttribute.Opcode != EventOpcode.Start && eventAttribute.Opcode != EventOpcode.Stop) && eventAttribute.Task == autoAssignedTask) + failure = true; + } + if (failure) + { + manifest.ManifestError(Resources.GetResourceString("EventSource_EventMustHaveTaskIfNonDefaultOpcode", evtName, evtId)); + } + } + + // If we ever want to enforce the rule: MethodName = TaskName + OpcodeName here's how: + // (the reason we don't is backwards compat and the need for handling this as a non-fatal error + // by eventRegister.exe) + // taskName & opcodeName could be passed in by the caller which has opTab & taskTab handy + // if (!(((int)eventAttribute.Opcode == 0 && evtName == taskName) || (evtName == taskName+opcodeName))) + // { + // throw new WarningException(Resources.GetResourceString("EventSource_EventNameDoesNotEqualTaskPlusOpcode")); + // } + + if (eventsByName == null) + eventsByName = new Dictionary(); + + if (eventsByName.ContainsKey(evtName)) + { + manifest.ManifestError(Resources.GetResourceString("EventSource_EventNameReused", evtName), true); + } + + eventsByName[evtName] = evtName; + } + + /// + /// This method looks at the IL and tries to pattern match against the standard + /// 'boilerplate' event body + /// + /// { if (Enabled()) WriteEvent(#, ...) } + /// + /// If the pattern matches, it returns the literal number passed as the first parameter to + /// the WriteEvent. This is used to find common user errors (mismatching this + /// number with the EventAttribute ID). It is only used for validation. + /// + /// The method to probe. + /// The literal value or -1 if the value could not be determined. + [System.Diagnostics.CodeAnalysis.SuppressMessage("Microsoft.Maintainability", "CA1502:AvoidExcessiveComplexity", Justification = "Switch statement is clearer than alternatives")] + static private int GetHelperCallFirstArg(MethodInfo method) + { +#if (!ES_BUILD_PCL && !ES_BUILD_PN) + // Currently searches for the following pattern + // + // ... // CAN ONLY BE THE INSTRUCTIONS BELOW + // LDARG0 + // LDC.I4 XXX + // ... // CAN ONLY BE THE INSTRUCTIONS BELOW CAN'T BE A BRANCH OR A CALL + // CALL + // NOP // 0 or more times + // RET + // + // If we find this pattern we return the XXX. Otherwise we return -1. +#if !CORECLR + (new ReflectionPermission(ReflectionPermissionFlag.MemberAccess)).Assert(); +#endif + byte[] instrs = method.GetMethodBody().GetILAsByteArray(); + int retVal = -1; + for (int idx = 0; idx < instrs.Length;) + { + switch (instrs[idx]) + { + case 0: // NOP + case 1: // BREAK + case 2: // LDARG_0 + case 3: // LDARG_1 + case 4: // LDARG_2 + case 5: // LDARG_3 + case 6: // LDLOC_0 + case 7: // LDLOC_1 + case 8: // LDLOC_2 + case 9: // LDLOC_3 + case 10: // STLOC_0 + case 11: // STLOC_1 + case 12: // STLOC_2 + case 13: // STLOC_3 + break; + case 14: // LDARG_S + case 16: // STARG_S + idx++; + break; + case 20: // LDNULL + break; + case 21: // LDC_I4_M1 + case 22: // LDC_I4_0 + case 23: // LDC_I4_1 + case 24: // LDC_I4_2 + case 25: // LDC_I4_3 + case 26: // LDC_I4_4 + case 27: // LDC_I4_5 + case 28: // LDC_I4_6 + case 29: // LDC_I4_7 + case 30: // LDC_I4_8 + if (idx > 0 && instrs[idx - 1] == 2) // preceeded by LDARG0 + retVal = instrs[idx] - 22; + break; + case 31: // LDC_I4_S + if (idx > 0 && instrs[idx - 1] == 2) // preceeded by LDARG0 + retVal = instrs[idx + 1]; + idx++; + break; + case 32: // LDC_I4 + idx += 4; + break; + case 37: // DUP + break; + case 40: // CALL + idx += 4; + + if (retVal >= 0) + { + // Is this call just before return? + for (int search = idx + 1; search < instrs.Length; search++) + { + if (instrs[search] == 42) // RET + return retVal; + if (instrs[search] != 0) // NOP + break; + } + } + retVal = -1; + break; + case 44: // BRFALSE_S + case 45: // BRTRUE_S + retVal = -1; + idx++; + break; + case 57: // BRFALSE + case 58: // BRTRUE + retVal = -1; + idx += 4; + break; + case 103: // CONV_I1 + case 104: // CONV_I2 + case 105: // CONV_I4 + case 106: // CONV_I8 + case 109: // CONV_U4 + case 110: // CONV_U8 + break; + case 140: // BOX + case 141: // NEWARR + idx += 4; + break; + case 162: // STELEM_REF + break; + case 254: // PREFIX + idx++; + // Covers the CEQ instructions used in debug code for some reason. + if (idx >= instrs.Length || instrs[idx] >= 6) + goto default; + break; + default: + /* Debug.Assert(false, "Warning: User validation code sub-optimial: Unsuported opcode " + instrs[idx] + + " at " + idx + " in method " + method.Name); */ + return -1; + } + idx++; + } +#endif + return -1; + } + +#if false // This routine is not needed at all, it was used for unit test debugging. + [Conditional("DEBUG")] + private static void OutputDebugString(string msg) + { +#if !ES_BUILD_PCL + msg = msg.TrimEnd('\r', '\n') + + string.Format(CultureInfo.InvariantCulture, ", Thrd({0})" + Environment.NewLine, Thread.CurrentThread.ManagedThreadId); + System.Diagnostics.Debugger.Log(0, null, msg); +#endif + } +#endif + + /// + /// Sends an error message to the debugger (outputDebugString), as well as the EventListeners + /// It will do this even if the EventSource is not enabled. + /// TODO remove flush parameter it is not used. + /// + [SuppressMessage("Microsoft.Concurrency", "CA8001", Justification = "This does not need to be correct when racing with other threads")] + internal void ReportOutOfBandMessage(string msg, bool flush) + { + try + { +#if (!ES_BUILD_PCL && !ES_BUILD_PN) + // send message to debugger without delay + System.Diagnostics.Debugger.Log(0, null, String.Format("EventSource Error: {0}{1}", msg, Environment.NewLine)); +#endif + + // Send it to all listeners. + if (m_outOfBandMessageCount < 16 - 1) // Note this is only if size byte + m_outOfBandMessageCount++; + else + { + if (m_outOfBandMessageCount == 16) + return; + m_outOfBandMessageCount = 16; // Mark that we hit the limit. Notify them that this is the case. + msg = "Reached message limit. End of EventSource error messages."; + } + + WriteEventString(EventLevel.LogAlways, -1, msg); + WriteStringToAllListeners("EventSourceMessage", msg); + } + catch (Exception) { } // If we fail during last chance logging, well, we have to give up.... + } + + private EventSourceSettings ValidateSettings(EventSourceSettings settings) + { + var evtFormatMask = EventSourceSettings.EtwManifestEventFormat | + EventSourceSettings.EtwSelfDescribingEventFormat; + if ((settings & evtFormatMask) == evtFormatMask) + { + throw new ArgumentException(Resources.GetResourceString("EventSource_InvalidEventFormat"), nameof(settings)); + } + + // If you did not explicitly ask for manifest, you get self-describing. + if ((settings & evtFormatMask) == 0) + settings |= EventSourceSettings.EtwSelfDescribingEventFormat; + return settings; + } + + private bool ThrowOnEventWriteErrors + { + get { return (m_config & EventSourceSettings.ThrowOnEventWriteErrors) != 0; } + set + { + if (value) m_config |= EventSourceSettings.ThrowOnEventWriteErrors; + else m_config &= ~EventSourceSettings.ThrowOnEventWriteErrors; + } + } + + private bool SelfDescribingEvents + { + get + { + Debug.Assert(((m_config & EventSourceSettings.EtwManifestEventFormat) != 0) != + ((m_config & EventSourceSettings.EtwSelfDescribingEventFormat) != 0)); + return (m_config & EventSourceSettings.EtwSelfDescribingEventFormat) != 0; + } + set + { + if (!value) + { + m_config |= EventSourceSettings.EtwManifestEventFormat; + m_config &= ~EventSourceSettings.EtwSelfDescribingEventFormat; + } + else + { + m_config |= EventSourceSettings.EtwSelfDescribingEventFormat; + m_config &= ~EventSourceSettings.EtwManifestEventFormat; + } + } + } + +#if FEATURE_ACTIVITYSAMPLING + private void ReportActivitySamplingInfo(EventListener listener, SessionMask sessions) + { + Debug.Assert(listener == null || (uint)sessions == (uint)SessionMask.FromId(0)); + + for (int perEventSourceSessionId = 0; perEventSourceSessionId < SessionMask.MAX; ++perEventSourceSessionId) + { + if (!sessions[perEventSourceSessionId]) + continue; + + ActivityFilter af; + if (listener == null) + { + EtwSession etwSession = m_etwSessionIdMap[perEventSourceSessionId]; + Debug.Assert(etwSession != null); + af = etwSession.m_activityFilter; + } + else + { + af = listener.m_activityFilter; + } + + if (af == null) + continue; + + SessionMask m = new SessionMask(); + m[perEventSourceSessionId] = true; + + foreach (var t in af.GetFilterAsTuple(m_guid)) + { + WriteStringToListener(listener, string.Format(CultureInfo.InvariantCulture, "Session {0}: {1} = {2}", perEventSourceSessionId, t.Item1, t.Item2), m); + } + + bool participateInSampling = (listener == null) ? + m_activityFilteringForETWEnabled[perEventSourceSessionId] : + GetDispatcher(listener).m_activityFilteringEnabled; + WriteStringToListener(listener, string.Format(CultureInfo.InvariantCulture, "Session {0}: Activity Sampling support: {1}", + perEventSourceSessionId, participateInSampling ? "enabled" : "disabled"), m); + } + } +#endif // FEATURE_ACTIVITYSAMPLING + + // private instance state + private string m_name; // My friendly name (privided in ctor) + internal int m_id; // A small integer that is unique to this instance. + private Guid m_guid; // GUID representing the ETW eventSource to the OS. + internal volatile EventMetadata[] m_eventData; // None per-event data + private volatile byte[] m_rawManifest; // Bytes to send out representing the event schema + + private EventHandler m_eventCommandExecuted; + + private EventSourceSettings m_config; // configuration information + + private bool m_eventSourceDisposed; // has Dispose been called. + + // Enabling bits + private bool m_eventSourceEnabled; // am I enabled (any of my events are enabled for any dispatcher) + internal EventLevel m_level; // highest level enabled by any output dispatcher + internal EventKeywords m_matchAnyKeyword; // the logical OR of all levels enabled by any output dispatcher (zero is a special case) meaning 'all keywords' + + // Dispatching state + internal volatile EventDispatcher m_Dispatchers; // Linked list of code:EventDispatchers we write the data to (we also do ETW specially) +#if FEATURE_MANAGED_ETW + private volatile OverideEventProvider m_provider; // This hooks up ETW commands to our 'OnEventCommand' callback +#endif + private bool m_completelyInited; // The EventSource constructor has returned without exception. + private Exception m_constructionException; // If there was an exception construction, this is it + private byte m_outOfBandMessageCount; // The number of out of band messages sent (we throttle them + private EventCommandEventArgs m_deferredCommands;// If we get commands before we are fully we store them here and run the when we are fully inited. + + private string[] m_traits; // Used to implement GetTraits + + internal static uint s_currentPid; // current process id, used in synthesizing quasi-GUIDs + [ThreadStatic] + private static byte m_EventSourceExceptionRecurenceCount = 0; // current recursion count inside ThrowEventSourceException + + [ThreadStatic] + private static bool m_EventSourceInDecodeObject = false; + +#if FEATURE_MANAGED_ETW_CHANNELS + internal volatile ulong[] m_channelData; +#endif + +#if FEATURE_ACTIVITYSAMPLING + private SessionMask m_curLiveSessions; // the activity-tracing aware sessions' bits + private EtwSession[] m_etwSessionIdMap; // the activity-tracing aware sessions + private List m_legacySessions; // the legacy ETW sessions listening to this source + internal long m_keywordTriggers; // a bit is set if it corresponds to a keyword that's part of an enabled triggering event + internal SessionMask m_activityFilteringForETWEnabled; // does THIS EventSource have activity filtering turned on for each ETW session + static internal Action s_activityDying; // Fires when something calls SetCurrentThreadToActivity() + // Also used to mark that activity tracing is on for some case +#endif // FEATURE_ACTIVITYSAMPLING + + // We use a single instance of ActivityTracker for all EventSources instances to allow correlation between multiple event providers. + // We have m_activityTracker field simply because instance field is more efficient than static field fetch. + ActivityTracker m_activityTracker; + internal const string s_ActivityStartSuffix = "Start"; + internal const string s_ActivityStopSuffix = "Stop"; + + // used for generating GUID from eventsource name + private static readonly byte[] namespaceBytes = new byte[] { + 0x48, 0x2C, 0x2D, 0xB2, 0xC3, 0x90, 0x47, 0xC8, + 0x87, 0xF8, 0x1A, 0x15, 0xBF, 0xC1, 0x30, 0xFB, + }; + + #endregion + } + + /// + /// Enables specifying event source configuration options to be used in the EventSource constructor. + /// + [Flags] + public enum EventSourceSettings + { + /// + /// This specifies none of the special configuration options should be enabled. + /// + Default = 0, + /// + /// Normally an EventSource NEVER throws; setting this option will tell it to throw when it encounters errors. + /// + ThrowOnEventWriteErrors = 1, + /// + /// Setting this option is a directive to the ETW listener should use manifest-based format when + /// firing events. This is the default option when defining a type derived from EventSource + /// (using the protected EventSource constructors). + /// Only one of EtwManifestEventFormat or EtwSelfDescribingEventFormat should be specified + /// + EtwManifestEventFormat = 4, + /// + /// Setting this option is a directive to the ETW listener should use self-describing event format + /// when firing events. This is the default option when creating a new instance of the EventSource + /// type (using the public EventSource constructors). + /// Only one of EtwManifestEventFormat or EtwSelfDescribingEventFormat should be specified + /// + EtwSelfDescribingEventFormat = 8, + } + + /// + /// An EventListener represents a target for the events generated by EventSources (that is subclasses + /// of ), in the current appdomain. When a new EventListener is created + /// it is logically attached to all eventSources in that appdomain. When the EventListener is Disposed, then + /// it is disconnected from the event eventSources. Note that there is a internal list of STRONG references + /// to EventListeners, which means that relying on the lack of references to EventListeners to clean up + /// EventListeners will NOT work. You must call EventListener.Dispose explicitly when a dispatcher is no + /// longer needed. + /// + /// Once created, EventListeners can enable or disable on a per-eventSource basis using verbosity levels + /// () and bitfields () to further restrict the set of + /// events to be sent to the dispatcher. The dispatcher can also send arbitrary commands to a particular + /// eventSource using the 'SendCommand' method. The meaning of the commands are eventSource specific. + /// + /// The Null Guid (that is (new Guid()) has special meaning as a wildcard for 'all current eventSources in + /// the appdomain'. Thus it is relatively easy to turn on all events in the appdomain if desired. + /// + /// It is possible for there to be many EventListener's defined in a single appdomain. Each dispatcher is + /// logically independent of the other listeners. Thus when one dispatcher enables or disables events, it + /// affects only that dispatcher (other listeners get the events they asked for). It is possible that + /// commands sent with 'SendCommand' would do a semantic operation that would affect the other listeners + /// (like doing a GC, or flushing data ...), but this is the exception rather than the rule. + /// + /// Thus the model is that each EventSource keeps a list of EventListeners that it is sending events + /// to. Associated with each EventSource-dispatcher pair is a set of filtering criteria that determine for + /// that eventSource what events that dispatcher will receive. + /// + /// Listeners receive the events on their 'OnEventWritten' method. Thus subclasses of EventListener must + /// override this method to do something useful with the data. + /// + /// In addition, when new eventSources are created, the 'OnEventSourceCreate' method is called. The + /// invariant associated with this callback is that every eventSource gets exactly one + /// 'OnEventSourceCreate' call for ever eventSource that can potentially send it log messages. In + /// particular when a EventListener is created, typically a series of OnEventSourceCreate' calls are + /// made to notify the new dispatcher of all the eventSources that existed before the EventListener was + /// created. + /// + /// + public class EventListener : IDisposable + { + private event EventHandler _EventSourceCreated; + + /// + /// This event is raised whenever a new eventSource is 'attached' to the dispatcher. + /// This can happen for all existing EventSources when the EventListener is created + /// as well as for any EventSources that come into existence after the EventListener + /// has been created. + /// + /// These 'catch up' events are called during the construction of the EventListener. + /// Subclasses need to be prepared for that. + /// + /// In a multi-threaded environment, it is possible that 'EventSourceEventWrittenCallback' + /// events for a particular eventSource to occur BEFORE the EventSourceCreatedCallback is issued. + /// + public event EventHandler EventSourceCreated + { + add + { + CallBackForExistingEventSources(false, value); + + this._EventSourceCreated = (EventHandler)Delegate.Combine(_EventSourceCreated, value); + } + remove + { + this._EventSourceCreated = (EventHandler)Delegate.Remove(_EventSourceCreated, value); + } + } + + /// + /// This event is raised whenever an event has been written by a EventSource for which + /// the EventListener has enabled events. + /// + public event EventHandler EventWritten; + + /// + /// Create a new EventListener in which all events start off turned off (use EnableEvents to turn + /// them on). + /// + public EventListener() + { + // This will cause the OnEventSourceCreated callback to fire. + CallBackForExistingEventSources(true, (obj, args) => args.EventSource.AddListener((EventListener)obj)); + } + + /// + /// Dispose should be called when the EventListener no longer desires 'OnEvent*' callbacks. Because + /// there is an internal list of strong references to all EventListeners, calling 'Dispose' directly + /// is the only way to actually make the listen die. Thus it is important that users of EventListener + /// call Dispose when they are done with their logging. + /// +#if ES_BUILD_STANDALONE + [System.Diagnostics.CodeAnalysis.SuppressMessage("Microsoft.Design", "CA1063:ImplementIDisposableCorrectly")] +#endif + public virtual void Dispose() + { + lock (EventListenersLock) + { + if (s_Listeners != null) + { + if (this == s_Listeners) + { + EventListener cur = s_Listeners; + s_Listeners = this.m_Next; + RemoveReferencesToListenerInEventSources(cur); + } + else + { + // Find 'this' from the s_Listeners linked list. + EventListener prev = s_Listeners; + for (;;) + { + EventListener cur = prev.m_Next; + if (cur == null) + break; + if (cur == this) + { + // Found our Listener, remove references to to it in the eventSources + prev.m_Next = cur.m_Next; // Remove entry. + RemoveReferencesToListenerInEventSources(cur); + break; + } + prev = cur; + } + } + } + Validate(); + } + } + // We don't expose a Dispose(bool), because the contract is that you don't have any non-syncronous + // 'cleanup' associated with this object + + /// + /// Enable all events from the eventSource identified by 'eventSource' to the current + /// dispatcher that have a verbosity level of 'level' or lower. + /// + /// This call can have the effect of REDUCING the number of events sent to the + /// dispatcher if 'level' indicates a less verbose level than was previously enabled. + /// + /// This call never has an effect on other EventListeners. + /// + /// + public void EnableEvents(EventSource eventSource, EventLevel level) + { + EnableEvents(eventSource, level, EventKeywords.None); + } + /// + /// Enable all events from the eventSource identified by 'eventSource' to the current + /// dispatcher that have a verbosity level of 'level' or lower and have a event keyword + /// matching any of the bits in 'matchAnyKeyword'. + /// + /// This call can have the effect of REDUCING the number of events sent to the + /// dispatcher if 'level' indicates a less verbose level than was previously enabled or + /// if 'matchAnyKeyword' has fewer keywords set than where previously set. + /// + /// This call never has an effect on other EventListeners. + /// + public void EnableEvents(EventSource eventSource, EventLevel level, EventKeywords matchAnyKeyword) + { + EnableEvents(eventSource, level, matchAnyKeyword, null); + } + /// + /// Enable all events from the eventSource identified by 'eventSource' to the current + /// dispatcher that have a verbosity level of 'level' or lower and have a event keyword + /// matching any of the bits in 'matchAnyKeyword' as well as any (eventSource specific) + /// effect passing additional 'key-value' arguments 'arguments' might have. + /// + /// This call can have the effect of REDUCING the number of events sent to the + /// dispatcher if 'level' indicates a less verbose level than was previously enabled or + /// if 'matchAnyKeyword' has fewer keywords set than where previously set. + /// + /// This call never has an effect on other EventListeners. + /// + public void EnableEvents(EventSource eventSource, EventLevel level, EventKeywords matchAnyKeyword, IDictionary arguments) + { + if (eventSource == null) + { + throw new ArgumentNullException(nameof(eventSource)); + } + Contract.EndContractBlock(); + + eventSource.SendCommand(this, 0, 0, EventCommand.Update, true, level, matchAnyKeyword, arguments); + } + /// + /// Disables all events coming from eventSource identified by 'eventSource'. + /// + /// This call never has an effect on other EventListeners. + /// + public void DisableEvents(EventSource eventSource) + { + if (eventSource == null) + { + throw new ArgumentNullException(nameof(eventSource)); + } + Contract.EndContractBlock(); + + eventSource.SendCommand(this, 0, 0, EventCommand.Update, false, EventLevel.LogAlways, EventKeywords.None, null); + } + + /// + /// EventSourceIndex is small non-negative integer (suitable for indexing in an array) + /// identifying EventSource. It is unique per-appdomain. Some EventListeners might find + /// it useful to store additional information about each eventSource connected to it, + /// and EventSourceIndex allows this extra information to be efficiently stored in a + /// (growable) array (eg List(T)). + /// + public static int EventSourceIndex(EventSource eventSource) { return eventSource.m_id; } + + /// + /// This method is called whenever a new eventSource is 'attached' to the dispatcher. + /// This can happen for all existing EventSources when the EventListener is created + /// as well as for any EventSources that come into existence after the EventListener + /// has been created. + /// + /// These 'catch up' events are called during the construction of the EventListener. + /// Subclasses need to be prepared for that. + /// + /// In a multi-threaded environment, it is possible that 'OnEventWritten' callbacks + /// for a particular eventSource to occur BEFORE the OnEventSourceCreated is issued. + /// + /// + internal protected virtual void OnEventSourceCreated(EventSource eventSource) + { + EventHandler callBack = this._EventSourceCreated; + if (callBack != null) + { + EventSourceCreatedEventArgs args = new EventSourceCreatedEventArgs(); + args.EventSource = eventSource; + callBack(this, args); + } + } + + /// + /// This method is called whenever an event has been written by a EventSource for which + /// the EventListener has enabled events. + /// + /// + internal protected virtual void OnEventWritten(EventWrittenEventArgs eventData) + { + EventHandler callBack = this.EventWritten; + if (callBack != null) + { + callBack(this, eventData); + } + } + + + #region private + /// + /// This routine adds newEventSource to the global list of eventSources, it also assigns the + /// ID to the eventSource (which is simply the ordinal in the global list). + /// + /// EventSources currently do not pro-actively remove themselves from this list. Instead + /// when eventSources's are GCed, the weak handle in this list naturally gets nulled, and + /// we will reuse the slot. Today this list never shrinks (but we do reuse entries + /// that are in the list). This seems OK since the expectation is that EventSources + /// tend to live for the lifetime of the appdomain anyway (they tend to be used in + /// global variables). + /// + /// + internal static void AddEventSource(EventSource newEventSource) + { + lock (EventListenersLock) + { + if (s_EventSources == null) + s_EventSources = new List(2); + + if (!s_EventSourceShutdownRegistered) + { + s_EventSourceShutdownRegistered = true; + } + + + // Periodically search the list for existing entries to reuse, this avoids + // unbounded memory use if we keep recycling eventSources (an unlikely thing). + int newIndex = -1; + if (s_EventSources.Count % 64 == 63) // on every block of 64, fill up the block before continuing + { + int i = s_EventSources.Count; // Work from the top down. + while (0 < i) + { + --i; + WeakReference weakRef = s_EventSources[i]; + if (!weakRef.IsAlive) + { + newIndex = i; + weakRef.Target = newEventSource; + break; + } + } + } + if (newIndex < 0) + { + newIndex = s_EventSources.Count; + s_EventSources.Add(new WeakReference(newEventSource)); + } + newEventSource.m_id = newIndex; + + // Add every existing dispatcher to the new EventSource + for (EventListener listener = s_Listeners; listener != null; listener = listener.m_Next) + newEventSource.AddListener(listener); + + Validate(); + } + } + + // Whenver we have async callbacks from native code, there is an ugly issue where + // during .NET shutdown native code could be calling the callback, but the CLR + // has already prohibited callbacks to managed code in the appdomain, causing the CLR + // to throw a COMPLUS_BOOT_EXCEPTION. The guideline we give is that you must unregister + // such callbacks on process shutdown or appdomain so that unmanaged code will never + // do this. This is what this callback is for. + // See bug 724140 for more + private static void DisposeOnShutdown(object sender, EventArgs e) + { + lock (EventListenersLock) + { + foreach (var esRef in s_EventSources) + { + EventSource es = esRef.Target as EventSource; + if (es != null) + es.Dispose(); + } + } + } + + /// + /// Helper used in code:Dispose that removes any references to 'listenerToRemove' in any of the + /// eventSources in the appdomain. + /// + /// The EventListenersLock must be held before calling this routine. + /// + private static void RemoveReferencesToListenerInEventSources(EventListener listenerToRemove) + { +#if !ES_BUILD_STANDALONE + Debug.Assert(Monitor.IsEntered(EventListener.EventListenersLock)); +#endif + // Foreach existing EventSource in the appdomain + foreach (WeakReference eventSourceRef in s_EventSources) + { + EventSource eventSource = eventSourceRef.Target as EventSource; + if (eventSource != null) + { + // Is the first output dispatcher the dispatcher we are removing? + if (eventSource.m_Dispatchers.m_Listener == listenerToRemove) + eventSource.m_Dispatchers = eventSource.m_Dispatchers.m_Next; + else + { + // Remove 'listenerToRemove' from the eventSource.m_Dispatchers linked list. + EventDispatcher prev = eventSource.m_Dispatchers; + for (;;) + { + EventDispatcher cur = prev.m_Next; + if (cur == null) + { + Debug.Assert(false, "EventSource did not have a registered EventListener!"); + break; + } + if (cur.m_Listener == listenerToRemove) + { + prev.m_Next = cur.m_Next; // Remove entry. + break; + } + prev = cur; + } + } + } + } + } + + /// + /// Checks internal consistency of EventSources/Listeners. + /// + [Conditional("DEBUG")] + internal static void Validate() + { + lock (EventListenersLock) + { + // Get all listeners + Dictionary allListeners = new Dictionary(); + EventListener cur = s_Listeners; + while (cur != null) + { + allListeners.Add(cur, true); + cur = cur.m_Next; + } + + // For all eventSources + int id = -1; + foreach (WeakReference eventSourceRef in s_EventSources) + { + id++; + EventSource eventSource = eventSourceRef.Target as EventSource; + if (eventSource == null) + continue; + Debug.Assert(eventSource.m_id == id, "Unexpected event source ID."); + + // None listeners on eventSources exist in the dispatcher list. + EventDispatcher dispatcher = eventSource.m_Dispatchers; + while (dispatcher != null) + { + Debug.Assert(allListeners.ContainsKey(dispatcher.m_Listener), "EventSource has a listener not on the global list."); + dispatcher = dispatcher.m_Next; + } + + // Every dispatcher is on Dispatcher List of every eventSource. + foreach (EventListener listener in allListeners.Keys) + { + dispatcher = eventSource.m_Dispatchers; + for (;;) + { + Debug.Assert(dispatcher != null, "Listener is not on all eventSources."); + if (dispatcher.m_Listener == listener) + break; + dispatcher = dispatcher.m_Next; + } + } + } + } + } + + /// + /// Gets a global lock that is intended to protect the code:s_Listeners linked list and the + /// code:s_EventSources WeakReference list. (We happen to use the s_EventSources list as + /// the lock object) + /// + internal static object EventListenersLock + { + get + { + if (s_EventSources == null) + Interlocked.CompareExchange(ref s_EventSources, new List(2), null); + return s_EventSources; + } + } + + private void CallBackForExistingEventSources(bool addToListenersList, EventHandler callback) + { + lock (EventListenersLock) + { + // Disallow creating EventListener reentrancy. + if (s_CreatingListener) + { + throw new InvalidOperationException(Resources.GetResourceString("EventSource_ListenerCreatedInsideCallback")); + } + + try + { + s_CreatingListener = true; + + if (addToListenersList) + { + // Add to list of listeners in the system, do this BEFORE firing the 'OnEventSourceCreated' so that + // Those added sources see this listener. + this.m_Next = s_Listeners; + s_Listeners = this; + } + + // Find all existing eventSources call OnEventSourceCreated to 'catchup' + // Note that we DO have reentrancy here because 'AddListener' calls out to user code (via OnEventSourceCreated callback) + // We tolerate this by iterating over a copy of the list here. New event sources will take care of adding listeners themselves + // EventSources are not guaranteed to be added at the end of the s_EventSource list -- We re-use slots when a new source + // is created. + WeakReference[] eventSourcesSnapshot = s_EventSources.ToArray(); + + for (int i = 0; i < eventSourcesSnapshot.Length; i++) + { + WeakReference eventSourceRef = eventSourcesSnapshot[i]; + EventSource eventSource = eventSourceRef.Target as EventSource; + if (eventSource != null) + { + EventSourceCreatedEventArgs args = new EventSourceCreatedEventArgs(); + args.EventSource = eventSource; + callback(this, args); + } + } + + Validate(); + } + finally + { + s_CreatingListener = false; + } + } + + } + + // Instance fields + internal volatile EventListener m_Next; // These form a linked list in s_Listeners +#if FEATURE_ACTIVITYSAMPLING + internal ActivityFilter m_activityFilter; // If we are filtering by activity on this Listener, this keeps track of it. +#endif // FEATURE_ACTIVITYSAMPLING + + // static fields + + /// + /// The list of all listeners in the appdomain. Listeners must be explicitly disposed to remove themselves + /// from this list. Note that EventSources point to their listener but NOT the reverse. + /// + internal static EventListener s_Listeners; + /// + /// The list of all active eventSources in the appdomain. Note that eventSources do NOT + /// remove themselves from this list this is a weak list and the GC that removes them may + /// not have happened yet. Thus it can contain event sources that are dead (thus you have + /// to filter those out. + /// + internal static List s_EventSources; + + /// + /// Used to disallow reentrancy. + /// + private static bool s_CreatingListener = false; + + /// + /// Used to register AD/Process shutdown callbacks. + /// + private static bool s_EventSourceShutdownRegistered = false; + #endregion + } + + /// + /// Passed to the code:EventSource.OnEventCommand callback + /// + public class EventCommandEventArgs : EventArgs + { + /// + /// Gets the command for the callback. + /// + public EventCommand Command { get; internal set; } + + /// + /// Gets the arguments for the callback. + /// + public IDictionary Arguments { get; internal set; } + + /// + /// Enables the event that has the specified identifier. + /// + /// Event ID of event to be enabled + /// true if eventId is in range + public bool EnableEvent(int eventId) + { + if (Command != EventCommand.Enable && Command != EventCommand.Disable) + throw new InvalidOperationException(); + return eventSource.EnableEventForDispatcher(dispatcher, eventId, true); + } + + /// + /// Disables the event that have the specified identifier. + /// + /// Event ID of event to be disabled + /// true if eventId is in range + public bool DisableEvent(int eventId) + { + if (Command != EventCommand.Enable && Command != EventCommand.Disable) + throw new InvalidOperationException(); + return eventSource.EnableEventForDispatcher(dispatcher, eventId, false); + } + + #region private + + internal EventCommandEventArgs(EventCommand command, IDictionary arguments, EventSource eventSource, + EventListener listener, int perEventSourceSessionId, int etwSessionId, bool enable, EventLevel level, EventKeywords matchAnyKeyword) + { + this.Command = command; + this.Arguments = arguments; + this.eventSource = eventSource; + this.listener = listener; + this.perEventSourceSessionId = perEventSourceSessionId; + this.etwSessionId = etwSessionId; + this.enable = enable; + this.level = level; + this.matchAnyKeyword = matchAnyKeyword; + } + + internal EventSource eventSource; + internal EventDispatcher dispatcher; + + // These are the arguments of sendCommand and are only used for deferring commands until after we are fully initialized. + internal EventListener listener; + internal int perEventSourceSessionId; + internal int etwSessionId; + internal bool enable; + internal EventLevel level; + internal EventKeywords matchAnyKeyword; + internal EventCommandEventArgs nextCommand; // We form a linked list of these deferred commands. + + #endregion + } + + /// + /// EventSourceCreatedEventArgs is passed to + /// + public class EventSourceCreatedEventArgs : EventArgs + { + /// + /// The EventSource that is attaching to the listener. + /// + public EventSource EventSource + { + get; + internal set; + } + } + + /// + /// EventWrittenEventArgs is passed to the user-provided override for + /// when an event is fired. + /// + public class EventWrittenEventArgs : EventArgs + { + /// + /// The name of the event. + /// + public string EventName + { + get + { + if (m_eventName != null || EventId < 0) // TraceLogging convention EventID == -1 + { + return m_eventName; + } + else + return m_eventSource.m_eventData[EventId].Name; + } + internal set + { + m_eventName = value; + } + } + + /// + /// Gets the event ID for the event that was written. + /// + public int EventId { get; internal set; } + + /// + /// Gets the activity ID for the thread on which the event was written. + /// + public Guid ActivityId + { + get { return EventSource.CurrentThreadActivityId; } + } + + /// + /// Gets the related activity ID if one was specified when the event was written. + /// + public Guid RelatedActivityId + { + get; + internal set; + } + + /// + /// Gets the payload for the event. + /// + public ReadOnlyCollection Payload { get; internal set; } + + /// + /// Gets the payload argument names. + /// + public ReadOnlyCollection PayloadNames + { + get + { + // For contract based events we create the list lazily. + if (m_payloadNames == null) + { + // Self described events are identified by id -1. + Debug.Assert(EventId != -1); + + var names = new List(); + foreach (var parameter in m_eventSource.m_eventData[EventId].Parameters) + { + names.Add(parameter.Name); + } + m_payloadNames = new ReadOnlyCollection(names); + } + + return m_payloadNames; + } + + internal set + { + m_payloadNames = value; + } + } + + /// + /// Gets the event source object. + /// + public EventSource EventSource { get { return m_eventSource; } } + + /// + /// Gets the keywords for the event. + /// + public EventKeywords Keywords + { + get + { + if (EventId < 0) // TraceLogging convention EventID == -1 + return m_keywords; + + return (EventKeywords)m_eventSource.m_eventData[EventId].Descriptor.Keywords; + } + } + + /// + /// Gets the operation code for the event. + /// + public EventOpcode Opcode + { + get + { + if (EventId <= 0) // TraceLogging convention EventID == -1 + return m_opcode; + return (EventOpcode)m_eventSource.m_eventData[EventId].Descriptor.Opcode; + } + } + + /// + /// Gets the task for the event. + /// + public EventTask Task + { + get + { + if (EventId <= 0) // TraceLogging convention EventID == -1 + return EventTask.None; + + return (EventTask)m_eventSource.m_eventData[EventId].Descriptor.Task; + } + } + + /// + /// Any provider/user defined options associated with the event. + /// + public EventTags Tags + { + get + { + if (EventId <= 0) // TraceLogging convention EventID == -1 + return m_tags; + return m_eventSource.m_eventData[EventId].Tags; + } + } + + /// + /// Gets the message for the event. If the message has {N} parameters they are NOT substituted. + /// + public string Message + { + get + { + if (EventId <= 0) // TraceLogging convention EventID == -1 + return m_message; + else + return m_eventSource.m_eventData[EventId].Message; + } + internal set + { + m_message = value; + } + } + + +#if FEATURE_MANAGED_ETW_CHANNELS + /// + /// Gets the channel for the event. + /// + public EventChannel Channel + { + get + { + if (EventId <= 0) // TraceLogging convention EventID == -1 + return EventChannel.None; + return (EventChannel)m_eventSource.m_eventData[EventId].Descriptor.Channel; + } + } +#endif + + /// + /// Gets the version of the event. + /// + public byte Version + { + get + { + if (EventId <= 0) // TraceLogging convention EventID == -1 + return 0; + return m_eventSource.m_eventData[EventId].Descriptor.Version; + } + } + + /// + /// Gets the level for the event. + /// + public EventLevel Level + { + get + { + if (EventId <= 0) // TraceLogging convention EventID == -1 + return m_level; + return (EventLevel)m_eventSource.m_eventData[EventId].Descriptor.Level; + } + } + + #region private + internal EventWrittenEventArgs(EventSource eventSource) + { + m_eventSource = eventSource; + } + private string m_message; + private string m_eventName; + private EventSource m_eventSource; + private ReadOnlyCollection m_payloadNames; + internal EventTags m_tags; + internal EventOpcode m_opcode; + internal EventLevel m_level; + internal EventKeywords m_keywords; + #endregion + } + + /// + /// Allows customizing defaults and specifying localization support for the event source class to which it is applied. + /// + [AttributeUsage(AttributeTargets.Class)] + public sealed class EventSourceAttribute : Attribute + { + /// + /// Overrides the ETW name of the event source (which defaults to the class name) + /// + public string Name { get; set; } + + /// + /// Overrides the default (calculated) Guid of an EventSource type. Explicitly defining a GUID is discouraged, + /// except when upgrading existing ETW providers to using event sources. + /// + public string Guid { get; set; } + + /// + /// + /// EventSources support localization of events. The names used for events, opcodes, tasks, keywords and maps + /// can be localized to several languages if desired. This works by creating a ResX style string table + /// (by simply adding a 'Resource File' to your project). This resource file is given a name e.g. + /// 'DefaultNameSpace.ResourceFileName' which can be passed to the ResourceManager constructor to read the + /// resources. This name is the value of the LocalizationResources property. + /// + /// If LocalizationResources property is non-null, then EventSource will look up the localized strings for events by + /// using the following resource naming scheme + /// + /// * event_EVENTNAME + /// * task_TASKNAME + /// * keyword_KEYWORDNAME + /// * map_MAPNAME + /// + /// where the capitalized name is the name of the event, task, keyword, or map value that should be localized. + /// Note that the localized string for an event corresponds to the Message string, and can have {0} values + /// which represent the payload values. + /// + /// + public string LocalizationResources { get; set; } + } + + /// + /// Any instance methods in a class that subclasses and that return void are + /// assumed by default to be methods that generate an ETW event. Enough information can be deduced from the + /// name of the method and its signature to generate basic schema information for the event. The + /// class allows you to specify additional event schema information for an event if + /// desired. + /// + [AttributeUsage(AttributeTargets.Method)] + public sealed class EventAttribute : Attribute + { + /// Construct an EventAttribute with specified eventId + /// ID of the ETW event (an integer between 1 and 65535) + public EventAttribute(int eventId) { this.EventId = eventId; Level = EventLevel.Informational; this.m_opcodeSet = false; } + /// Event's ID + public int EventId { get; private set; } + /// Event's severity level: indicates the severity or verbosity of the event + public EventLevel Level { get; set; } + /// Event's keywords: allows classification of events by "categories" + public EventKeywords Keywords { get; set; } + /// Event's operation code: allows defining operations, generally used with Tasks + public EventOpcode Opcode + { + get + { + return m_opcode; + } + set + { + this.m_opcode = value; + this.m_opcodeSet = true; + } + } + + internal bool IsOpcodeSet + { + get + { + return m_opcodeSet; + } + } + + /// Event's task: allows logical grouping of events + public EventTask Task { get; set; } +#if FEATURE_MANAGED_ETW_CHANNELS + /// Event's channel: defines an event log as an additional destination for the event + public EventChannel Channel { get; set; } +#endif + /// Event's version + public byte Version { get; set; } + + /// + /// This can be specified to enable formatting and localization of the event's payload. You can + /// use standard .NET substitution operators (eg {1}) in the string and they will be replaced + /// with the 'ToString()' of the corresponding part of the event payload. + /// + public string Message { get; set; } + + /// + /// User defined options associated with the event. These do not have meaning to the EventSource but + /// are passed through to listeners which given them semantics. + /// + public EventTags Tags { get; set; } + + /// + /// Allows fine control over the Activity IDs generated by start and stop events + /// + public EventActivityOptions ActivityOptions { get; set; } + + #region private + EventOpcode m_opcode; + private bool m_opcodeSet; + #endregion + } + + /// + /// By default all instance methods in a class that subclasses code:EventSource that and return + /// void are assumed to be methods that generate an event. This default can be overridden by specifying + /// the code:NonEventAttribute + /// + [AttributeUsage(AttributeTargets.Method)] + public sealed class NonEventAttribute : Attribute + { + /// + /// Constructs a default NonEventAttribute + /// + public NonEventAttribute() { } + } + + // FUTURE we may want to expose this at some point once we have a partner that can help us validate the design. +#if FEATURE_MANAGED_ETW_CHANNELS + /// + /// EventChannelAttribute allows customizing channels supported by an EventSource. This attribute must be + /// applied to an member of type EventChannel defined in a Channels class nested in the EventSource class: + /// + /// public static class Channels + /// { + /// [Channel(Enabled = true, EventChannelType = EventChannelType.Admin)] + /// public const EventChannel Admin = (EventChannel)16; + /// + /// [Channel(Enabled = false, EventChannelType = EventChannelType.Operational)] + /// public const EventChannel Operational = (EventChannel)17; + /// } + /// + /// + [AttributeUsage(AttributeTargets.Field)] +#if FEATURE_ADVANCED_MANAGED_ETW_CHANNELS + public +#endif + class EventChannelAttribute : Attribute + { + /// + /// Specified whether the channel is enabled by default + /// + public bool Enabled { get; set; } + + /// + /// Legal values are in EventChannelType + /// + public EventChannelType EventChannelType { get; set; } + +#if FEATURE_ADVANCED_MANAGED_ETW_CHANNELS + /// + /// Specifies the isolation for the channel + /// + public EventChannelIsolation Isolation { get; set; } + + /// + /// Specifies an SDDL access descriptor that controls access to the log file that backs the channel. + /// See MSDN ((http://msdn.microsoft.com/en-us/library/windows/desktop/aa382741.aspx) for details. + /// + public string Access { get; set; } + + /// + /// Allows importing channels defined in external manifests + /// + public string ImportChannel { get; set; } +#endif + + // TODO: there is a convention that the name is the Provider/Type Should we provide an override? + // public string Name { get; set; } + } + + /// + /// Allowed channel types + /// +#if FEATURE_ADVANCED_MANAGED_ETW_CHANNELS + public +#endif + enum EventChannelType + { + /// The admin channel + Admin = 1, + /// The operational channel + Operational, + /// The Analytic channel + Analytic, + /// The debug channel + Debug, + } + +#if FEATURE_ADVANCED_MANAGED_ETW_CHANNELS + /// + /// Allowed isolation levels. See MSDN (http://msdn.microsoft.com/en-us/library/windows/desktop/aa382741.aspx) + /// for the default permissions associated with each level. EventChannelIsolation and Access allows control over the + /// access permissions for the channel and backing file. + /// + public + enum EventChannelIsolation + { + /// + /// This is the default isolation level. All channels that specify Application isolation use the same ETW session + /// + Application = 1, + /// + /// All channels that specify System isolation use the same ETW session + /// + System, + /// + /// Use sparingly! When specifying Custom isolation, a separate ETW session is created for the channel. + /// Using Custom isolation lets you control the access permissions for the channel and backing file. + /// Because there are only 64 ETW sessions available, you should limit your use of Custom isolation. + /// + Custom, + } +#endif +#endif + + /// + /// Describes the pre-defined command (EventCommandEventArgs.Command property) that is passed to the OnEventCommand callback. + /// + public enum EventCommand + { + /// + /// Update EventSource state + /// + Update = 0, + /// + /// Request EventSource to generate and send its manifest + /// + SendManifest = -1, + /// + /// Enable event + /// + Enable = -2, + /// + /// Disable event + /// + Disable = -3 + }; + + + #region private classes + +#if FEATURE_ACTIVITYSAMPLING + + /// + /// ActivityFilter is a helper structure that is used to keep track of run-time state + /// associated with activity filtering. It is 1-1 with EventListeners (logically + /// every listener has one of these, however we actually allocate them lazily), as well + /// as 1-to-1 with tracing-aware EtwSessions. + /// + /// This structure also keeps track of the sampling counts associated with 'trigger' + /// events. Because these trigger events are rare, and you typically only have one of + /// them, we store them here as a linked list. + /// + internal sealed class ActivityFilter : IDisposable + { + /// + /// Disable all activity filtering for the listener associated with 'filterList', + /// (in the session associated with it) that is triggered by any event in 'source'. + /// + public static void DisableFilter(ref ActivityFilter filterList, EventSource source) + { +#if !ES_BUILD_STANDALONE + Debug.Assert(Monitor.IsEntered(EventListener.EventListenersLock)); +#endif + + if (filterList == null) + return; + + ActivityFilter cur; + // Remove it from anywhere in the list (except the first element, which has to + // be treated specially) + ActivityFilter prev = filterList; + cur = prev.m_next; + while (cur != null) + { + if (cur.m_providerGuid == source.Guid) + { + // update TriggersActivityTracking bit + if (cur.m_eventId >= 0 && cur.m_eventId < source.m_eventData.Length) + --source.m_eventData[cur.m_eventId].TriggersActivityTracking; + + // Remove it from the linked list. + prev.m_next = cur.m_next; + // dispose of the removed node + cur.Dispose(); + // update cursor + cur = prev.m_next; + } + else + { + // update cursors + prev = cur; + cur = prev.m_next; + } + } + + // Sadly we have to treat the first element specially in linked list removal in C# + if (filterList.m_providerGuid == source.Guid) + { + // update TriggersActivityTracking bit + if (filterList.m_eventId >= 0 && filterList.m_eventId < source.m_eventData.Length) + --source.m_eventData[filterList.m_eventId].TriggersActivityTracking; + + // We are the first element in the list. + var first = filterList; + filterList = first.m_next; + // dispose of the removed node + first.Dispose(); + } + // the above might have removed the one ActivityFilter in the session that contains the + // cleanup delegate; re-create the delegate if needed + if (filterList != null) + { + EnsureActivityCleanupDelegate(filterList); + } + } + + /// + /// Currently this has "override" semantics. We first disable all filters + /// associated with 'source', and next we add new filters for each entry in the + /// string 'startEvents'. participateInSampling specifies whether non-startEvents + /// always trigger or only trigger when current activity is 'active'. + /// + public static void UpdateFilter( + ref ActivityFilter filterList, + EventSource source, + int perEventSourceSessionId, + string startEvents) + { +#if !ES_BUILD_STANDALONE + Debug.Assert(Monitor.IsEntered(EventListener.EventListenersLock)); +#endif + + // first remove all filters associated with 'source' + DisableFilter(ref filterList, source); + + if (!string.IsNullOrEmpty(startEvents)) + { + // ActivitySamplingStartEvents is a space-separated list of Event:Frequency pairs. + // The Event may be specified by name or by ID. Errors in parsing such a pair + // result in the error being reported to the listeners, and the pair being ignored. + // E.g. "CustomActivityStart:1000 12:10" specifies that for event CustomActivityStart + // we should initiate activity tracing once every 1000 events, *and* for event ID 12 + // we should initiate activity tracing once every 10 events. + string[] activityFilterStrings = startEvents.Split(' '); + + for (int i = 0; i < activityFilterStrings.Length; ++i) + { + string activityFilterString = activityFilterStrings[i]; + int sampleFreq = 1; + int eventId = -1; + int colonIdx = activityFilterString.IndexOf(':'); + if (colonIdx < 0) + { + source.ReportOutOfBandMessage("ERROR: Invalid ActivitySamplingStartEvent specification: " + + activityFilterString, false); + // ignore failure... + continue; + } + string sFreq = activityFilterString.Substring(colonIdx + 1); + if (!int.TryParse(sFreq, out sampleFreq)) + { + source.ReportOutOfBandMessage("ERROR: Invalid sampling frequency specification: " + sFreq, false); + continue; + } + activityFilterString = activityFilterString.Substring(0, colonIdx); + if (!int.TryParse(activityFilterString, out eventId)) + { + // reset eventId + eventId = -1; + // see if it's an event name + for (int j = 0; j < source.m_eventData.Length; j++) + { + EventSource.EventMetadata[] ed = source.m_eventData; + if (ed[j].Name != null && ed[j].Name.Length == activityFilterString.Length && + string.Compare(ed[j].Name, activityFilterString, StringComparison.OrdinalIgnoreCase) == 0) + { + eventId = ed[j].Descriptor.EventId; + break; + } + } + } + if (eventId < 0 || eventId >= source.m_eventData.Length) + { + source.ReportOutOfBandMessage("ERROR: Invalid eventId specification: " + activityFilterString, false); + continue; + } + EnableFilter(ref filterList, source, perEventSourceSessionId, eventId, sampleFreq); + } + } + } + + /// + /// Returns the first ActivityFilter from 'filterList' corresponding to 'source'. + /// + public static ActivityFilter GetFilter(ActivityFilter filterList, EventSource source) + { + for (var af = filterList; af != null; af = af.m_next) + { + if (af.m_providerGuid == source.Guid && af.m_samplingFreq != -1) + return af; + } + return null; + } + + /// + /// Returns a session mask representing all sessions in which the activity + /// associated with the current thread is allowed through the activity filter. + /// If 'triggeringEvent' is true the event MAY be a triggering event. Ideally + /// most of the time this is false as you can guarentee this event is NOT a + /// triggering event. If 'triggeringEvent' is true, then it checks the + /// 'EventSource' and 'eventID' of the event being logged to see if it is actually + /// a trigger. If so it activates the current activity. + /// + /// If 'childActivityID' is present, it will be added to the active set if the + /// current activity is active. + /// + unsafe public static bool PassesActivityFilter( + ActivityFilter filterList, + Guid* childActivityID, + bool triggeringEvent, + EventSource source, + int eventId) + { + Debug.Assert(filterList != null && filterList.m_activeActivities != null); + bool shouldBeLogged = false; + if (triggeringEvent) + { + for (ActivityFilter af = filterList; af != null; af = af.m_next) + { + if (eventId == af.m_eventId && source.Guid == af.m_providerGuid) + { + // Update the sampling count with wrap-around + int curSampleCount, newSampleCount; + do + { + curSampleCount = af.m_curSampleCount; + if (curSampleCount <= 1) + newSampleCount = af.m_samplingFreq; // Wrap around, counting down to 1 + else + newSampleCount = curSampleCount - 1; + } + while (Interlocked.CompareExchange(ref af.m_curSampleCount, newSampleCount, curSampleCount) != curSampleCount); + // If we hit zero, then start tracking the activity. + if (curSampleCount <= 1) + { + Guid currentActivityId = EventSource.InternalCurrentThreadActivityId; + Tuple startId; + // only add current activity if it's not already a root activity + if (!af.m_rootActiveActivities.TryGetValue(currentActivityId, out startId)) + { + // EventSource.OutputDebugString(string.Format(" PassesAF - Triggering(session {0}, evt {1})", af.m_perEventSourceSessionId, eventId)); + shouldBeLogged = true; + af.m_activeActivities[currentActivityId] = Environment.TickCount; + af.m_rootActiveActivities[currentActivityId] = Tuple.Create(source.Guid, eventId); + } + } + else + { + // a start event following a triggering start event + Guid currentActivityId = EventSource.InternalCurrentThreadActivityId; + Tuple startId; + // only remove current activity if we added it + if (af.m_rootActiveActivities.TryGetValue(currentActivityId, out startId) && + startId.Item1 == source.Guid && startId.Item2 == eventId) + { + // EventSource.OutputDebugString(string.Format("Activity dying: {0} -> StartEvent({1})", currentActivityId, eventId)); + // remove activity only from current logging scope (af) + int dummy; + af.m_activeActivities.TryRemove(currentActivityId, out dummy); + } + } + break; + } + } + } + + var activeActivities = GetActiveActivities(filterList); + if (activeActivities != null) + { + // if we hadn't already determined this should be logged, test further + if (!shouldBeLogged) + { + shouldBeLogged = !activeActivities.IsEmpty && + activeActivities.ContainsKey(EventSource.InternalCurrentThreadActivityId); + } + if (shouldBeLogged && childActivityID != null && + ((EventOpcode)source.m_eventData[eventId].Descriptor.Opcode == EventOpcode.Send)) + { + FlowActivityIfNeeded(filterList, null, childActivityID); + // EventSource.OutputDebugString(string.Format(" PassesAF - activity {0}", *childActivityID)); + } + } + // EventSource.OutputDebugString(string.Format(" PassesAF - shouldBeLogged(evt {0}) = {1:x}", eventId, shouldBeLogged)); + return shouldBeLogged; + } + + public static bool IsCurrentActivityActive(ActivityFilter filterList) + { + var activeActivities = GetActiveActivities(filterList); + if (activeActivities != null && + activeActivities.ContainsKey(EventSource.InternalCurrentThreadActivityId)) + return true; + + return false; + } + + /// + /// For the EventListener/EtwSession associated with 'filterList', add 'childActivityid' + /// to list of active activities IF 'currentActivityId' is also active. Passing in a null + /// value for 'currentActivityid' is an indication tha caller has already verified + /// that the current activity is active. + /// + unsafe public static void FlowActivityIfNeeded(ActivityFilter filterList, Guid* currentActivityId, Guid* childActivityID) + { + Debug.Assert(childActivityID != null); + + var activeActivities = GetActiveActivities(filterList); + Debug.Assert(activeActivities != null); + + // take currentActivityId == null to mean we *know* the current activity is "active" + if (currentActivityId != null && !activeActivities.ContainsKey(*currentActivityId)) + return; + + if (activeActivities.Count > MaxActivityTrackCount) + { + TrimActiveActivityStore(activeActivities); + // make sure current activity is still in the set: + activeActivities[EventSource.InternalCurrentThreadActivityId] = Environment.TickCount; + } + // add child activity to list of actives + activeActivities[*childActivityID] = Environment.TickCount; + + } + + /// + /// + public static void UpdateKwdTriggers(ActivityFilter activityFilter, Guid sourceGuid, EventSource source, EventKeywords sessKeywords) + { + for (var af = activityFilter; af != null; af = af.m_next) + { + if ((sourceGuid == af.m_providerGuid) && + (source.m_eventData[af.m_eventId].TriggersActivityTracking > 0 || + ((EventOpcode)source.m_eventData[af.m_eventId].Descriptor.Opcode == EventOpcode.Send))) + { + // we could be more precise here, if we tracked 'anykeywords' per session + unchecked + { + source.m_keywordTriggers |= (source.m_eventData[af.m_eventId].Descriptor.Keywords & (long)sessKeywords); + } + } + } + } + + /// + /// For the EventSource specified by 'sourceGuid' and the EventListener/EtwSession + /// associated with 'this' ActivityFilter list, return configured sequence of + /// [eventId, sampleFreq] pairs that defines the sampling policy. + /// + public IEnumerable> GetFilterAsTuple(Guid sourceGuid) + { + for (ActivityFilter af = this; af != null; af = af.m_next) + { + if (af.m_providerGuid == sourceGuid) + yield return Tuple.Create(af.m_eventId, af.m_samplingFreq); + } + } + + /// + /// The cleanup being performed consists of removing the m_myActivityDelegate from + /// the static s_activityDying, therefore allowing the ActivityFilter to be reclaimed. + /// + public void Dispose() + { +#if !ES_BUILD_STANDALONE + Debug.Assert(Monitor.IsEntered(EventListener.EventListenersLock)); +#endif + // m_myActivityDelegate is still alive (held by the static EventSource.s_activityDying). + // Therefore we are ok to take a dependency on m_myActivityDelegate being valid even + // during the finalization of the ActivityFilter + if (m_myActivityDelegate != null) + { + EventSource.s_activityDying = (Action)Delegate.Remove(EventSource.s_activityDying, m_myActivityDelegate); + m_myActivityDelegate = null; + } + } + + #region private + + /// + /// Creates a new ActivityFilter that is triggered by 'eventId' from 'source' ever + /// 'samplingFreq' times the event fires. You can have several of these forming a + /// linked list. + /// + private ActivityFilter(EventSource source, int perEventSourceSessionId, int eventId, int samplingFreq, ActivityFilter existingFilter = null) + { + m_providerGuid = source.Guid; + m_perEventSourceSessionId = perEventSourceSessionId; + m_eventId = eventId; + m_samplingFreq = samplingFreq; + m_next = existingFilter; + + Debug.Assert(existingFilter == null || + (existingFilter.m_activeActivities == null) == (existingFilter.m_rootActiveActivities == null)); + + // if this is the first filter we add for this session, we need to create a new + // table of activities. m_activeActivities is common across EventSources in the same + // session + ConcurrentDictionary activeActivities = null; + if (existingFilter == null || + (activeActivities = GetActiveActivities(existingFilter)) == null) + { + m_activeActivities = new ConcurrentDictionary(); + m_rootActiveActivities = new ConcurrentDictionary>(); + + // Add a delegate to the 'SetCurrentThreadToActivity callback so that I remove 'dead' activities + m_myActivityDelegate = GetActivityDyingDelegate(this); + EventSource.s_activityDying = (Action)Delegate.Combine(EventSource.s_activityDying, m_myActivityDelegate); + } + else + { + m_activeActivities = activeActivities; + m_rootActiveActivities = existingFilter.m_rootActiveActivities; + } + + } + + /// + /// Ensure there's at least one ActivityFilter in the 'filterList' that contains an + /// activity-removing delegate for the listener/session associated with 'filterList'. + /// + private static void EnsureActivityCleanupDelegate(ActivityFilter filterList) + { + if (filterList == null) + return; + + for (ActivityFilter af = filterList; af != null; af = af.m_next) + { + if (af.m_myActivityDelegate != null) + return; + } + + // we didn't find a delegate + filterList.m_myActivityDelegate = GetActivityDyingDelegate(filterList); + EventSource.s_activityDying = (Action)Delegate.Combine(EventSource.s_activityDying, filterList.m_myActivityDelegate); + } + + /// + /// Builds the delegate to be called when an activity is dying. This is responsible + /// for performing whatever cleanup is needed for the ActivityFilter list passed in. + /// This gets "added" to EventSource.s_activityDying and ends up being called from + /// EventSource.SetCurrentThreadActivityId and ActivityFilter.PassesActivityFilter. + /// + /// The delegate to be called when an activity is dying + private static Action GetActivityDyingDelegate(ActivityFilter filterList) + { + return (Guid oldActivity) => + { + int dummy; + filterList.m_activeActivities.TryRemove(oldActivity, out dummy); + Tuple dummyTuple; + filterList.m_rootActiveActivities.TryRemove(oldActivity, out dummyTuple); + }; + } + + /// + /// Enables activity filtering for the listener associated with 'filterList', triggering on + /// the event 'eventID' from 'source' with a sampling frequency of 'samplingFreq' + /// + /// if 'eventID' is out of range (e.g. negative), it means we are not triggering (but we are + /// activitySampling if something else triggered). + /// + /// true if activity sampling is enabled the samplingFreq is non-zero + private static bool EnableFilter(ref ActivityFilter filterList, EventSource source, int perEventSourceSessionId, int eventId, int samplingFreq) + { +#if !ES_BUILD_STANDALONE + Debug.Assert(Monitor.IsEntered(EventListener.EventListenersLock)); +#endif + Debug.Assert(samplingFreq > 0); + Debug.Assert(eventId >= 0); + + filterList = new ActivityFilter(source, perEventSourceSessionId, eventId, samplingFreq, filterList); + + // Mark the 'quick Check' that indicates this is a trigger event. + // If eventId is out of range then this mark is not done which has the effect of ignoring + // the trigger. + if (0 <= eventId && eventId < source.m_eventData.Length) + ++source.m_eventData[eventId].TriggersActivityTracking; + + return true; + } + + /// + /// Normally this code never runs, it is here just to prevent run-away resource usage. + /// + private static void TrimActiveActivityStore(ConcurrentDictionary activities) + { + if (activities.Count > MaxActivityTrackCount) + { + // Remove half of the oldest activity ids. + var keyValues = activities.ToArray(); + var tickNow = Environment.TickCount; + + // Sort by age, taking into account wrap-around. As long as x and y are within + // 23 days of now then (0x7FFFFFFF & (tickNow - x.Value)) is the delta (even if + // TickCount wraps). I then sort by DESCENDING age. (that is oldest value first) + Array.Sort(keyValues, (x, y) => (0x7FFFFFFF & (tickNow - y.Value)) - (0x7FFFFFFF & (tickNow - x.Value))); + for (int i = 0; i < keyValues.Length / 2; i++) + { + int dummy; + activities.TryRemove(keyValues[i].Key, out dummy); + } + } + } + + private static ConcurrentDictionary GetActiveActivities( + ActivityFilter filterList) + { + for (ActivityFilter af = filterList; af != null; af = af.m_next) + { + if (af.m_activeActivities != null) + return af.m_activeActivities; + } + return null; + } + + // m_activeActivities always points to the sample dictionary for EVERY ActivityFilter + // in the m_next list. The 'int' value in the m_activities set is a timestamp + // (Environment.TickCount) of when the entry was put in the system and is used to + // remove 'old' entries that if the set gets too big. + ConcurrentDictionary m_activeActivities; + + // m_rootActiveActivities holds the "root" active activities, i.e. the activities + // that were marked as active because a Start event fired on them. We need to keep + // track of these to enable sampling in the scenario of an app's main thread that + // never explicitly sets distinct activity IDs as it executes. To handle these + // situations we manufacture a Guid from the thread's ID, and: + // (a) we consider the firing of a start event when the sampling counter reaches + // zero to mark the beginning of an interesting activity, and + // (b) we consider the very next firing of the same start event to mark the + // ending of that activity. + // We use a ConcurrentDictionary to avoid taking explicit locks. + // The key (a guid) represents the activity ID of the root active activity + // The value is made up of the Guid of the event provider and the eventId of + // the start event. + ConcurrentDictionary> m_rootActiveActivities; + Guid m_providerGuid; // We use the GUID rather than object identity because we don't want to keep the eventSource alive + int m_eventId; // triggering event + int m_samplingFreq; // Counter reset to this when it hits 0 + int m_curSampleCount; // We count down to 0 and then activate the activity. + int m_perEventSourceSessionId; // session ID bit for ETW, 0 for EventListeners + + const int MaxActivityTrackCount = 100000; // maximum number of tracked activities + + ActivityFilter m_next; // We create a linked list of these + Action m_myActivityDelegate; + #endregion + }; + + + /// + /// An EtwSession instance represents an activity-tracing-aware ETW session. Since these + /// are limited to 8 concurrent sessions per machine (currently) we're going to store + /// the active ones in a singly linked list. + /// + internal class EtwSession + { + public static EtwSession GetEtwSession(int etwSessionId, bool bCreateIfNeeded = false) + { + if (etwSessionId < 0) + return null; + + EtwSession etwSession; + foreach (var wrEtwSession in s_etwSessions) + { +#if ES_BUILD_STANDALONE + if ((etwSession = (EtwSession) wrEtwSession.Target) != null && etwSession.m_etwSessionId == etwSessionId) + return etwSession; +#else + if (wrEtwSession.TryGetTarget(out etwSession) && etwSession.m_etwSessionId == etwSessionId) + return etwSession; +#endif + } + + if (!bCreateIfNeeded) + return null; + +#if ES_BUILD_STANDALONE + if (s_etwSessions == null) + s_etwSessions = new List(); + + etwSession = new EtwSession(etwSessionId); + s_etwSessions.Add(new WeakReference(etwSession)); +#else + if (s_etwSessions == null) + s_etwSessions = new List>(); + + etwSession = new EtwSession(etwSessionId); + s_etwSessions.Add(new WeakReference(etwSession)); +#endif + + if (s_etwSessions.Count > s_thrSessionCount) + TrimGlobalList(); + + return etwSession; + + } + + public static void RemoveEtwSession(EtwSession etwSession) + { + Debug.Assert(etwSession != null); + if (s_etwSessions == null || etwSession == null) + return; + + s_etwSessions.RemoveAll((wrEtwSession) => + { + EtwSession session; +#if ES_BUILD_STANDALONE + return (session = (EtwSession) wrEtwSession.Target) != null && + (session.m_etwSessionId == etwSession.m_etwSessionId); +#else + return wrEtwSession.TryGetTarget(out session) && + (session.m_etwSessionId == etwSession.m_etwSessionId); +#endif + }); + + if (s_etwSessions.Count > s_thrSessionCount) + TrimGlobalList(); + } + + private static void TrimGlobalList() + { + if (s_etwSessions == null) + return; + + s_etwSessions.RemoveAll((wrEtwSession) => + { +#if ES_BUILD_STANDALONE + return wrEtwSession.Target == null; +#else + EtwSession session; + return !wrEtwSession.TryGetTarget(out session); +#endif + }); + } + + private EtwSession(int etwSessionId) + { + m_etwSessionId = etwSessionId; + } + + public readonly int m_etwSessionId; // ETW session ID (as retrieved by EventProvider) + public ActivityFilter m_activityFilter; // all filters enabled for this session + +#if ES_BUILD_STANDALONE + private static List s_etwSessions = new List(); +#else + private static List> s_etwSessions = new List>(); +#endif + private const int s_thrSessionCount = 16; + } + +#endif // FEATURE_ACTIVITYSAMPLING + + // holds a bitfield representing a session mask + /// + /// A SessionMask represents a set of (at most MAX) sessions as a bit mask. The perEventSourceSessionId + /// is the index in the SessionMask of the bit that will be set. These can translate to + /// EventSource's reserved keywords bits using the provided ToEventKeywords() and + /// FromEventKeywords() methods. + /// + internal struct SessionMask + { + public SessionMask(SessionMask m) + { m_mask = m.m_mask; } + + public SessionMask(uint mask = 0) + { m_mask = mask & MASK; } + + public bool IsEqualOrSupersetOf(SessionMask m) + { + return (this.m_mask | m.m_mask) == this.m_mask; + } + + public static SessionMask All + { + get { return new SessionMask(MASK); } + } + + public static SessionMask FromId(int perEventSourceSessionId) + { + Debug.Assert(perEventSourceSessionId < MAX); + return new SessionMask((uint)1 << perEventSourceSessionId); + } + + public ulong ToEventKeywords() + { + return (ulong)m_mask << SHIFT_SESSION_TO_KEYWORD; + } + + public static SessionMask FromEventKeywords(ulong m) + { + return new SessionMask((uint)(m >> SHIFT_SESSION_TO_KEYWORD)); + } + + public bool this[int perEventSourceSessionId] + { + get + { + Debug.Assert(perEventSourceSessionId < MAX); + return (m_mask & (1 << perEventSourceSessionId)) != 0; + } + set + { + Debug.Assert(perEventSourceSessionId < MAX); + if (value) m_mask |= ((uint)1 << perEventSourceSessionId); + else m_mask &= ~((uint)1 << perEventSourceSessionId); + } + } + + public static SessionMask operator |(SessionMask m1, SessionMask m2) + { + return new SessionMask(m1.m_mask | m2.m_mask); + } + + public static SessionMask operator &(SessionMask m1, SessionMask m2) + { + return new SessionMask(m1.m_mask & m2.m_mask); + } + + public static SessionMask operator ^(SessionMask m1, SessionMask m2) + { + return new SessionMask(m1.m_mask ^ m2.m_mask); + } + + public static SessionMask operator ~(SessionMask m) + { + return new SessionMask(MASK & ~(m.m_mask)); + } + + public static explicit operator ulong(SessionMask m) + { return m.m_mask; } + + public static explicit operator uint(SessionMask m) + { return m.m_mask; } + + private uint m_mask; + + internal const int SHIFT_SESSION_TO_KEYWORD = 44; // bits 44-47 inclusive are reserved + internal const uint MASK = 0x0fU; // the mask of 4 reserved bits + internal const uint MAX = 4; // maximum number of simultaneous ETW sessions supported + } + + /// + /// code:EventDispatchers are a simple 'helper' structure that holds the filtering state + /// (m_EventEnabled) for a particular EventSource X EventListener tuple + /// + /// Thus a single EventListener may have many EventDispatchers (one for every EventSource + /// that that EventListener has activate) and a Single EventSource may also have many + /// event Dispatchers (one for every EventListener that has activated it). + /// + /// Logically a particular EventDispatcher belongs to exactly one EventSource and exactly + /// one EventListener (alhtough EventDispatcher does not 'remember' the EventSource it is + /// associated with. + /// + internal class EventDispatcher + { + internal EventDispatcher(EventDispatcher next, bool[] eventEnabled, EventListener listener) + { + m_Next = next; + m_EventEnabled = eventEnabled; + m_Listener = listener; + } + + // Instance fields + readonly internal EventListener m_Listener; // The dispatcher this entry is for + internal bool[] m_EventEnabled; // For every event in a the eventSource, is it enabled? +#if FEATURE_ACTIVITYSAMPLING + internal bool m_activityFilteringEnabled; // does THIS EventSource have activity filtering turned on for this listener? +#endif // FEATURE_ACTIVITYSAMPLING + + // Only guaranteed to exist after a InsureInit() + internal EventDispatcher m_Next; // These form a linked list in code:EventSource.m_Dispatchers + // Of all listeners for that eventSource. + } + + /// + /// Flags that can be used with EventSource.GenerateManifest to control how the ETW manifest for the EventSource is + /// generated. + /// + [Flags] + public enum EventManifestOptions + { + /// + /// Only the resources associated with current UI culture are included in the manifest + /// + None = 0x0, + /// + /// Throw exceptions for any inconsistency encountered + /// + Strict = 0x1, + /// + /// Generate a "resources" node under "localization" for every satellite assembly provided + /// + AllCultures = 0x2, + /// + /// Generate the manifest only if the event source needs to be registered on the machine, + /// otherwise return null (but still perform validation if Strict is specified) + /// + OnlyIfNeededForRegistration = 0x4, + /// + /// When generating the manifest do *not* enforce the rule that the current EventSource class + /// must be the base class for the user-defined type passed in. This allows validation of .net + /// event sources using the new validation code + /// + AllowEventSourceOverride = 0x8, + } + + /// + /// ManifestBuilder is designed to isolate the details of the message of the event from the + /// rest of EventSource. This one happens to create XML. + /// + internal partial class ManifestBuilder + { + /// + /// Build a manifest for 'providerName' with the given GUID, which will be packaged into 'dllName'. + /// 'resources, is a resource manager. If specified all messages are localized using that manager. + /// + public ManifestBuilder(string providerName, Guid providerGuid, string dllName, ResourceManager resources, + EventManifestOptions flags) + { +#if FEATURE_MANAGED_ETW_CHANNELS + this.providerName = providerName; +#endif + this.flags = flags; + + this.resources = resources; + sb = new StringBuilder(); + events = new StringBuilder(); + templates = new StringBuilder(); + opcodeTab = new Dictionary(); + stringTab = new Dictionary(); + errors = new List(); + perEventByteArrayArgIndices = new Dictionary>(); + + sb.AppendLine(""); + sb.AppendLine(" "); + sb.AppendLine(" "); + sb.Append("").AppendLine(); + } + + public void AddOpcode(string name, int value) + { + if ((flags & EventManifestOptions.Strict) != 0) + { + if (value <= 10 || value >= 239) + { + ManifestError(Resources.GetResourceString("EventSource_IllegalOpcodeValue", name, value)); + } + string prevName; + if (opcodeTab.TryGetValue(value, out prevName) && !name.Equals(prevName, StringComparison.Ordinal)) + { + ManifestError(Resources.GetResourceString("EventSource_OpcodeCollision", name, prevName, value)); + } + } + opcodeTab[value] = name; + } + public void AddTask(string name, int value) + { + if ((flags & EventManifestOptions.Strict) != 0) + { + if (value <= 0 || value >= 65535) + { + ManifestError(Resources.GetResourceString("EventSource_IllegalTaskValue", name, value)); + } + string prevName; + if (taskTab != null && taskTab.TryGetValue(value, out prevName) && !name.Equals(prevName, StringComparison.Ordinal)) + { + ManifestError(Resources.GetResourceString("EventSource_TaskCollision", name, prevName, value)); + } + } + if (taskTab == null) + taskTab = new Dictionary(); + taskTab[value] = name; + } + public void AddKeyword(string name, ulong value) + { + if ((value & (value - 1)) != 0) // Is it a power of 2? + { + ManifestError(Resources.GetResourceString("EventSource_KeywordNeedPowerOfTwo", "0x" + value.ToString("x", CultureInfo.CurrentCulture), name), true); + } + if ((flags & EventManifestOptions.Strict) != 0) + { + if (value >= 0x0000100000000000UL && !name.StartsWith("Session", StringComparison.Ordinal)) + { + ManifestError(Resources.GetResourceString("EventSource_IllegalKeywordsValue", name, "0x" + value.ToString("x", CultureInfo.CurrentCulture))); + } + string prevName; + if (keywordTab != null && keywordTab.TryGetValue(value, out prevName) && !name.Equals(prevName, StringComparison.Ordinal)) + { + ManifestError(Resources.GetResourceString("EventSource_KeywordCollision", name, prevName, "0x" + value.ToString("x", CultureInfo.CurrentCulture))); + } + } + if (keywordTab == null) + keywordTab = new Dictionary(); + keywordTab[value] = name; + } + +#if FEATURE_MANAGED_ETW_CHANNELS + /// + /// Add a channel. channelAttribute can be null + /// + public void AddChannel(string name, int value, EventChannelAttribute channelAttribute) + { + EventChannel chValue = (EventChannel)value; + if (value < (int)EventChannel.Admin || value > 255) + ManifestError(Resources.GetResourceString("EventSource_EventChannelOutOfRange", name, value)); + else if (chValue >= EventChannel.Admin && chValue <= EventChannel.Debug && + channelAttribute != null && EventChannelToChannelType(chValue) != channelAttribute.EventChannelType) + { + // we want to ensure developers do not define EventChannels that conflict with the builtin ones, + // but we want to allow them to override the default ones... + ManifestError(Resources.GetResourceString("EventSource_ChannelTypeDoesNotMatchEventChannelValue", + name, ((EventChannel)value).ToString())); + } + + // TODO: validate there are no conflicting manifest exposed names (generally following the format "provider/type") + + ulong kwd = GetChannelKeyword(chValue); + + if (channelTab == null) + channelTab = new Dictionary(4); + channelTab[value] = new ChannelInfo { Name = name, Keywords = kwd, Attribs = channelAttribute }; + } + + private EventChannelType EventChannelToChannelType(EventChannel channel) + { +#if !ES_BUILD_STANDALONE + Debug.Assert(channel >= EventChannel.Admin && channel <= EventChannel.Debug); +#endif + return (EventChannelType)((int)channel - (int)EventChannel.Admin + (int)EventChannelType.Admin); + } + private EventChannelAttribute GetDefaultChannelAttribute(EventChannel channel) + { + EventChannelAttribute attrib = new EventChannelAttribute(); + attrib.EventChannelType = EventChannelToChannelType(channel); + if (attrib.EventChannelType <= EventChannelType.Operational) + attrib.Enabled = true; + return attrib; + } + + public ulong[] GetChannelData() + { + if (this.channelTab == null) + { + return new ulong[0]; + } + + // We create an array indexed by the channel id for fast look up. + // E.g. channelMask[Admin] will give you the bit mask for Admin channel. + int maxkey = -1; + foreach (var item in this.channelTab.Keys) + { + if (item > maxkey) + { + maxkey = item; + } + } + + ulong[] channelMask = new ulong[maxkey + 1]; + foreach (var item in this.channelTab) + { + channelMask[item.Key] = item.Value.Keywords; + } + + return channelMask; + } + +#endif + public void StartEvent(string eventName, EventAttribute eventAttribute) + { + Debug.Assert(numParams == 0); + Debug.Assert(this.eventName == null); + this.eventName = eventName; + numParams = 0; + byteArrArgIndices = null; + + events.Append(" ").AppendLine(); + if (type == typeof(byte[])) + { + // mark this index as "extraneous" (it has no parallel in the managed signature) + // we use these values in TranslateToManifestConvention() + if (byteArrArgIndices == null) + byteArrArgIndices = new List(4); + byteArrArgIndices.Add(numParams); + + // add an extra field to the template representing the length of the binary blob + numParams++; + templates.Append(" ").AppendLine(); + } + numParams++; + templates.Append(" (); + if (!mapsTab.ContainsKey(type.Name)) + mapsTab.Add(type.Name, type); // Remember that we need to dump the type enumeration + } + + templates.Append("/>").AppendLine(); + } + public void EndEvent() + { + if (numParams > 0) + { + templates.Append(" ").AppendLine(); + events.Append(" template=\"").Append(eventName).Append("Args\""); + } + events.Append("/>").AppendLine(); + + if (byteArrArgIndices != null) + perEventByteArrayArgIndices[eventName] = byteArrArgIndices; + + // at this point we have all the information we need to translate the C# Message + // to the manifest string we'll put in the stringTab + string msg; + if (stringTab.TryGetValue("event_" + eventName, out msg)) + { + msg = TranslateToManifestConvention(msg, eventName); + stringTab["event_" + eventName] = msg; + } + + eventName = null; + numParams = 0; + byteArrArgIndices = null; + } + +#if FEATURE_MANAGED_ETW_CHANNELS + // Channel keywords are generated one per channel to allow channel based filtering in event viewer. These keywords are autogenerated + // by mc.exe for compiling a manifest and are based on the order of the channels (fields) in the Channels inner class (when advanced + // channel support is enabled), or based on the order the predefined channels appear in the EventAttribute properties (for simple + // support). The manifest generated *MUST* have the channels specified in the same order (that's how our computed keywords are mapped + // to channels by the OS infrastructure). + // If channelKeyworkds is present, and has keywords bits in the ValidPredefinedChannelKeywords then it is + // assumed that that the keyword for that channel should be that bit. + // otherwise we allocate a channel bit for the channel. + // explicit channel bits are only used by WCF to mimic an existing manifest, + // so we don't dont do error checking. + public ulong GetChannelKeyword(EventChannel channel, ulong channelKeyword = 0) + { + // strip off any non-channel keywords, since we are only interested in channels here. + channelKeyword &= ValidPredefinedChannelKeywords; + if (channelTab == null) + { + channelTab = new Dictionary(4); + } + + if (channelTab.Count == MaxCountChannels) + ManifestError(Resources.GetResourceString("EventSource_MaxChannelExceeded")); + + ChannelInfo info; + if (!channelTab.TryGetValue((int)channel, out info)) + { + // If we were not given an explicit channel, allocate one. + if (channelKeyword != 0) + { + channelKeyword = nextChannelKeywordBit; + nextChannelKeywordBit >>= 1; + } + } + else + { + channelKeyword = info.Keywords; + } + + return channelKeyword; + } +#endif + + public byte[] CreateManifest() + { + string str = CreateManifestString(); + return Encoding.UTF8.GetBytes(str); + } + + public IList Errors { get { return errors; } } + + /// + /// When validating an event source it adds the error to the error collection. + /// When not validating it throws an exception if runtimeCritical is "true". + /// Otherwise the error is ignored. + /// + /// + /// + public void ManifestError(string msg, bool runtimeCritical = false) + { + if ((flags & EventManifestOptions.Strict) != 0) + errors.Add(msg); + else if (runtimeCritical) + throw new ArgumentException(msg); + } + + private string CreateManifestString() + { + +#if FEATURE_MANAGED_ETW_CHANNELS + // Write out the channels + if (channelTab != null) + { + sb.Append(" ").AppendLine(); + var sortedChannels = new List>(); + foreach (KeyValuePair p in channelTab) { sortedChannels.Add(p); } + sortedChannels.Sort((p1, p2) => -Comparer.Default.Compare(p1.Value.Keywords, p2.Value.Keywords)); + foreach (var kvpair in sortedChannels) + { + int channel = kvpair.Key; + ChannelInfo channelInfo = kvpair.Value; + + string channelType = null; + string elementName = "channel"; + bool enabled = false; + string fullName = null; +#if FEATURE_ADVANCED_MANAGED_ETW_CHANNELS + string isolation = null; + string access = null; +#endif + if (channelInfo.Attribs != null) + { + var attribs = channelInfo.Attribs; + if (Enum.IsDefined(typeof(EventChannelType), attribs.EventChannelType)) + channelType = attribs.EventChannelType.ToString(); + enabled = attribs.Enabled; +#if FEATURE_ADVANCED_MANAGED_ETW_CHANNELS + if (attribs.ImportChannel != null) + { + fullName = attribs.ImportChannel; + elementName = "importChannel"; + } + if (Enum.IsDefined(typeof(EventChannelIsolation), attribs.Isolation)) + isolation = attribs.Isolation.ToString(); + access = attribs.Access; +#endif + } + if (fullName == null) + fullName = providerName + "/" + channelInfo.Name; + + sb.Append(" <").Append(elementName); + sb.Append(" chid=\"").Append(channelInfo.Name).Append("\""); + sb.Append(" name=\"").Append(fullName).Append("\""); + if (elementName == "channel") // not applicable to importChannels. + { + WriteMessageAttrib(sb, "channel", channelInfo.Name, null); + sb.Append(" value=\"").Append(channel).Append("\""); + if (channelType != null) + sb.Append(" type=\"").Append(channelType).Append("\""); + sb.Append(" enabled=\"").Append(enabled.ToString().ToLower()).Append("\""); +#if FEATURE_ADVANCED_MANAGED_ETW_CHANNELS + if (access != null) + sb.Append(" access=\"").Append(access).Append("\""); + if (isolation != null) + sb.Append(" isolation=\"").Append(isolation).Append("\""); +#endif + } + sb.Append("/>").AppendLine(); + } + sb.Append(" ").AppendLine(); + } +#endif + + // Write out the tasks + if (taskTab != null) + { + + sb.Append(" ").AppendLine(); + var sortedTasks = new List(taskTab.Keys); + sortedTasks.Sort(); + foreach (int task in sortedTasks) + { + sb.Append(" ").AppendLine(); + } + sb.Append(" ").AppendLine(); + } + + // Write out the maps + if (mapsTab != null) + { + sb.Append(" ").AppendLine(); + foreach (Type enumType in mapsTab.Values) + { + bool isbitmap = EventSource.GetCustomAttributeHelper(enumType, typeof(FlagsAttribute), flags) != null; + string mapKind = isbitmap ? "bitMap" : "valueMap"; + sb.Append(" <").Append(mapKind).Append(" name=\"").Append(enumType.Name).Append("\">").AppendLine(); + + // write out each enum value + FieldInfo[] staticFields = enumType.GetFields(BindingFlags.DeclaredOnly | BindingFlags.Public | BindingFlags.Static); + foreach (FieldInfo staticField in staticFields) + { + object constantValObj = staticField.GetRawConstantValue(); + if (constantValObj != null) + { + long hexValue; + if (constantValObj is int) + hexValue = ((int)constantValObj); + else if (constantValObj is long) + hexValue = ((long)constantValObj); + else + continue; + + // ETW requires all bitmap values to be powers of 2. Skip the ones that are not. + // TODO: Warn people about the dropping of values. + if (isbitmap && ((hexValue & (hexValue - 1)) != 0 || hexValue == 0)) + continue; + + sb.Append(" ").AppendLine(); + } + } + sb.Append(" ").AppendLine(); + } + sb.Append(" ").AppendLine(); + } + + // Write out the opcodes + sb.Append(" ").AppendLine(); + var sortedOpcodes = new List(opcodeTab.Keys); + sortedOpcodes.Sort(); + foreach (int opcode in sortedOpcodes) + { + sb.Append(" ").AppendLine(); + } + sb.Append(" ").AppendLine(); + + // Write out the keywords + if (keywordTab != null) + { + sb.Append(" ").AppendLine(); + var sortedKeywords = new List(keywordTab.Keys); + sortedKeywords.Sort(); + foreach (ulong keyword in sortedKeywords) + { + sb.Append(" ").AppendLine(); + } + sb.Append(" ").AppendLine(); + } + + sb.Append(" ").AppendLine(); + sb.Append(events); + sb.Append(" ").AppendLine(); + + sb.Append(" ").AppendLine(); + if (templates.Length > 0) + { + sb.Append(templates); + } + else + { + // Work around a cornercase ETW issue where a manifest with no templates causes + // ETW events to not get sent to their associated channel. + sb.Append(" ").AppendLine(); + } + sb.Append(" ").AppendLine(); + + sb.Append("").AppendLine(); + sb.Append("").AppendLine(); + sb.Append("").AppendLine(); + + // Output the localization information. + sb.Append("").AppendLine(); + + List cultures = null; + if (resources != null && (flags & EventManifestOptions.AllCultures) != 0) + { + cultures = GetSupportedCultures(resources); + } + else + { + cultures = new List(); + cultures.Add(CultureInfo.CurrentUICulture); + } +#if ES_BUILD_STANDALONE || ES_BUILD_PN + var sortedStrings = new List(stringTab.Keys); + sortedStrings.Sort(); +#else + // DD 947936 + var sortedStrings = new string[stringTab.Keys.Count]; + stringTab.Keys.CopyTo(sortedStrings, 0); + // Avoid using public Array.Sort as that attempts to access BinaryCompatibility. Unfortunately FrameworkEventSource gets called + // very early in the app domain creation, when _FusionStore is not set up yet, resulting in a failure to run the static constructory + // for BinaryCompatibility. This failure is then cached and a TypeInitializationException is thrown every time some code attampts to + // access BinaryCompatibility. + ArraySortHelper.IntrospectiveSort(sortedStrings, 0, sortedStrings.Length, string.Compare); +#endif + foreach (var ci in cultures) + { + sb.Append(" ").AppendLine(); + sb.Append(" ").AppendLine(); + + foreach (var stringKey in sortedStrings) + { + string val = GetLocalizedMessage(stringKey, ci, etwFormat: true); + sb.Append(" ").AppendLine(); + } + sb.Append(" ").AppendLine(); + sb.Append(" ").AppendLine(); + } + sb.Append("").AppendLine(); + sb.AppendLine(""); + return sb.ToString(); + } + + #region private + private void WriteNameAndMessageAttribs(StringBuilder stringBuilder, string elementName, string name) + { + stringBuilder.Append(" name=\"").Append(name).Append("\""); + WriteMessageAttrib(sb, elementName, name, name); + } + private void WriteMessageAttrib(StringBuilder stringBuilder, string elementName, string name, string value) + { + string key = elementName + "_" + name; + // See if the user wants things localized. + if (resources != null) + { + // resource fallback: strings in the neutral culture will take precedence over inline strings + string localizedString = resources.GetString(key, CultureInfo.InvariantCulture); + if (localizedString != null) + value = localizedString; + } + if (value == null) + return; + + stringBuilder.Append(" message=\"$(string.").Append(key).Append(")\""); + string prevValue; + if (stringTab.TryGetValue(key, out prevValue) && !prevValue.Equals(value)) + { + ManifestError(Resources.GetResourceString("EventSource_DuplicateStringKey", key), true); + return; + } + + stringTab[key] = value; + } + internal string GetLocalizedMessage(string key, CultureInfo ci, bool etwFormat) + { + string value = null; + if (resources != null) + { + string localizedString = resources.GetString(key, ci); + if (localizedString != null) + { + value = localizedString; + if (etwFormat && key.StartsWith("event_", StringComparison.Ordinal)) + { + var evtName = key.Substring("event_".Length); + value = TranslateToManifestConvention(value, evtName); + } + } + } + if (etwFormat && value == null) + stringTab.TryGetValue(key, out value); + + return value; + } + + /// + /// There's no API to enumerate all languages an assembly is localized into, so instead + /// we enumerate through all the "known" cultures and attempt to load a corresponding satellite + /// assembly + /// + /// + /// + private static List GetSupportedCultures(ResourceManager resources) + { + var cultures = new List(); + + if (!cultures.Contains(CultureInfo.CurrentUICulture)) + cultures.Insert(0, CultureInfo.CurrentUICulture); + return cultures; + } + + private static string GetLevelName(EventLevel level) + { + return (((int)level >= 16) ? "" : "win:") + level.ToString(); + } + +#if FEATURE_MANAGED_ETW_CHANNELS + private string GetChannelName(EventChannel channel, string eventName, string eventMessage) + { + ChannelInfo info = null; + if (channelTab == null || !channelTab.TryGetValue((int)channel, out info)) + { + if (channel < EventChannel.Admin) // || channel > EventChannel.Debug) + ManifestError(Resources.GetResourceString("EventSource_UndefinedChannel", channel, eventName)); + + // allow channels to be auto-defined. The well known ones get their well known names, and the + // rest get names Channel. This allows users to modify the Manifest if they want more advanced features. + if (channelTab == null) + channelTab = new Dictionary(4); + + string channelName = channel.ToString(); // For well know channels this is a nice name, otherwise a number + if (EventChannel.Debug < channel) + channelName = "Channel" + channelName; // Add a 'Channel' prefix for numbers. + + AddChannel(channelName, (int)channel, GetDefaultChannelAttribute(channel)); + if (!channelTab.TryGetValue((int)channel, out info)) + ManifestError(Resources.GetResourceString("EventSource_UndefinedChannel", channel, eventName)); + } + // events that specify admin channels *must* have non-null "Message" attributes + if (resources != null && eventMessage == null) + eventMessage = resources.GetString("event_" + eventName, CultureInfo.InvariantCulture); + if (info.Attribs.EventChannelType == EventChannelType.Admin && eventMessage == null) + ManifestError(Resources.GetResourceString("EventSource_EventWithAdminChannelMustHaveMessage", eventName, info.Name)); + return info.Name; + } +#endif + private string GetTaskName(EventTask task, string eventName) + { + if (task == EventTask.None) + return ""; + + string ret; + if (taskTab == null) + taskTab = new Dictionary(); + if (!taskTab.TryGetValue((int)task, out ret)) + ret = taskTab[(int)task] = eventName; + return ret; + } + + private string GetOpcodeName(EventOpcode opcode, string eventName) + { + switch (opcode) + { + case EventOpcode.Info: + return "win:Info"; + case EventOpcode.Start: + return "win:Start"; + case EventOpcode.Stop: + return "win:Stop"; + case EventOpcode.DataCollectionStart: + return "win:DC_Start"; + case EventOpcode.DataCollectionStop: + return "win:DC_Stop"; + case EventOpcode.Extension: + return "win:Extension"; + case EventOpcode.Reply: + return "win:Reply"; + case EventOpcode.Resume: + return "win:Resume"; + case EventOpcode.Suspend: + return "win:Suspend"; + case EventOpcode.Send: + return "win:Send"; + case EventOpcode.Receive: + return "win:Receive"; + } + + string ret; + if (opcodeTab == null || !opcodeTab.TryGetValue((int)opcode, out ret)) + { + ManifestError(Resources.GetResourceString("EventSource_UndefinedOpcode", opcode, eventName), true); + ret = null; + } + return ret; + } + + private string GetKeywords(ulong keywords, string eventName) + { +#if FEATURE_MANAGED_ETW_CHANNELS + // ignore keywords associate with channels + // See ValidPredefinedChannelKeywords def for more. + keywords &= ~ValidPredefinedChannelKeywords; +#endif + + string ret = ""; + for (ulong bit = 1; bit != 0; bit <<= 1) + { + if ((keywords & bit) != 0) + { + string keyword = null; + if ((keywordTab == null || !keywordTab.TryGetValue(bit, out keyword)) && + (bit >= (ulong)0x1000000000000)) + { + // do not report Windows reserved keywords in the manifest (this allows the code + // to be resilient to potential renaming of these keywords) + keyword = string.Empty; + } + if (keyword == null) + { + ManifestError(Resources.GetResourceString("EventSource_UndefinedKeyword", "0x" + bit.ToString("x", CultureInfo.CurrentCulture), eventName), true); + keyword = string.Empty; + } + if (ret.Length != 0 && keyword.Length != 0) + ret = ret + " "; + ret = ret + keyword; + } + } + return ret; + } + + private string GetTypeName(Type type) + { + if (type.IsEnum()) + { + FieldInfo[] fields = type.GetFields(BindingFlags.NonPublic | BindingFlags.Public | BindingFlags.Instance); + var typeName = GetTypeName(fields[0].FieldType); + return typeName.Replace("win:Int", "win:UInt"); // ETW requires enums to be unsigned. + } + + return GetTypeNameHelper(type); + } + + private static void UpdateStringBuilder(ref StringBuilder stringBuilder, string eventMessage, int startIndex, int count) + { + if (stringBuilder == null) + stringBuilder = new StringBuilder(); + stringBuilder.Append(eventMessage, startIndex, count); + } + + private static readonly string[] s_escapes = { "&", "<", ">", "'", """, "%r", "%n", "%t" }; + // Manifest messages use %N conventions for their message substitutions. Translate from + // .NET conventions. We can't use RegEx for this (we are in mscorlib), so we do it 'by hand' + private string TranslateToManifestConvention(string eventMessage, string evtName) + { + StringBuilder stringBuilder = null; // We lazily create this + int writtenSoFar = 0; + int chIdx = -1; + for (int i = 0; ;) + { + if (i >= eventMessage.Length) + { + if (stringBuilder == null) + return eventMessage; + UpdateStringBuilder(ref stringBuilder, eventMessage, writtenSoFar, i - writtenSoFar); + return stringBuilder.ToString(); + } + + if (eventMessage[i] == '%') + { + // handle format message escaping character '%' by escaping it + UpdateStringBuilder(ref stringBuilder, eventMessage, writtenSoFar, i - writtenSoFar); + stringBuilder.Append("%%"); + i++; + writtenSoFar = i; + } + else if (i < eventMessage.Length - 1 && + (eventMessage[i] == '{' && eventMessage[i + 1] == '{' || eventMessage[i] == '}' && eventMessage[i + 1] == '}')) + { + // handle C# escaped '{" and '}' + UpdateStringBuilder(ref stringBuilder, eventMessage, writtenSoFar, i - writtenSoFar); + stringBuilder.Append(eventMessage[i]); + i++; i++; + writtenSoFar = i; + } + else if (eventMessage[i] == '{') + { + int leftBracket = i; + i++; + int argNum = 0; + while (i < eventMessage.Length && Char.IsDigit(eventMessage[i])) + { + argNum = argNum * 10 + eventMessage[i] - '0'; + i++; + } + if (i < eventMessage.Length && eventMessage[i] == '}') + { + i++; + UpdateStringBuilder(ref stringBuilder, eventMessage, writtenSoFar, leftBracket - writtenSoFar); + int manIndex = TranslateIndexToManifestConvention(argNum, evtName); + stringBuilder.Append('%').Append(manIndex); + // An '!' after the insert specifier {n} will be interpreted as a literal. + // We'll escape it so that mc.exe does not attempt to consider it the + // beginning of a format string. + if (i < eventMessage.Length && eventMessage[i] == '!') + { + i++; + stringBuilder.Append("%!"); + } + writtenSoFar = i; + } + else + { + ManifestError(Resources.GetResourceString("EventSource_UnsupportedMessageProperty", evtName, eventMessage)); + } + } + else if ((chIdx = "&<>'\"\r\n\t".IndexOf(eventMessage[i])) >= 0) + { + UpdateStringBuilder(ref stringBuilder, eventMessage, writtenSoFar, i - writtenSoFar); + i++; + stringBuilder.Append(s_escapes[chIdx]); + writtenSoFar = i; + } + else + i++; + } + } + + private int TranslateIndexToManifestConvention(int idx, string evtName) + { + List byteArrArgIndices; + if (perEventByteArrayArgIndices.TryGetValue(evtName, out byteArrArgIndices)) + { + foreach (var byArrIdx in byteArrArgIndices) + { + if (idx >= byArrIdx) + ++idx; + else + break; + } + } + return idx + 1; + } + +#if FEATURE_MANAGED_ETW_CHANNELS + class ChannelInfo + { + public string Name; + public ulong Keywords; + public EventChannelAttribute Attribs; + } +#endif + + Dictionary opcodeTab; + Dictionary taskTab; +#if FEATURE_MANAGED_ETW_CHANNELS + Dictionary channelTab; +#endif + Dictionary keywordTab; + Dictionary mapsTab; + + Dictionary stringTab; // Maps unlocalized strings to localized ones + +#if FEATURE_MANAGED_ETW_CHANNELS + // WCF used EventSource to mimic a existing ETW manifest. To support this + // in just their case, we allowed them to specify the keywords associated + // with their channels explicitly. ValidPredefinedChannelKeywords is + // this set of channel keywords that we allow to be explicitly set. You + // can ignore these bits otherwise. + internal const ulong ValidPredefinedChannelKeywords = 0xF000000000000000; + ulong nextChannelKeywordBit = 0x8000000000000000; // available Keyword bit to be used for next channel definition, grows down + const int MaxCountChannels = 8; // a manifest can defined at most 8 ETW channels +#endif + + StringBuilder sb; // Holds the provider information. + StringBuilder events; // Holds the events. + StringBuilder templates; + +#if FEATURE_MANAGED_ETW_CHANNELS + string providerName; +#endif + ResourceManager resources; // Look up localized strings here. + EventManifestOptions flags; + IList errors; // list of currently encountered errors + Dictionary> perEventByteArrayArgIndices; // "event_name" -> List_of_Indices_of_Byte[]_Arg + + // State we track between StartEvent and EndEvent. + string eventName; // Name of the event currently being processed. + int numParams; // keeps track of the number of args the event has. + List byteArrArgIndices; // keeps track of the index of each byte[] argument + #endregion + } + + /// + /// Used to send the m_rawManifest into the event dispatcher as a series of events. + /// + internal struct ManifestEnvelope + { + public const int MaxChunkSize = 0xFF00; + public enum ManifestFormats : byte + { + SimpleXmlFormat = 1, // simply dump the XML manifest as UTF8 + } + +#if FEATURE_MANAGED_ETW + public ManifestFormats Format; + public byte MajorVersion; + public byte MinorVersion; + public byte Magic; + public ushort TotalChunks; + public ushort ChunkNumber; +#endif + }; + + #endregion +} + -- cgit v1.2.3