The following are the goals that define the long-term vision for the project. The vision guides daily activities, design, and feature acceptance.
- High performance: Automatic instrumentation performance impact should not be a concern for users.
- Reliability: Stable and performant under different loads. Well-behaved under extreme load, with low, predictable resource consumption.
- Visibility: Users should be able to generate telemetry that provides deep and detailed visibility into their applications. Such telemetry must allow users to identify and solve application-related issues in production.
- Useful by default: After installations users should be able to get telemetry from targeted libraries with none or minimal configuration, thanks to a good selection of default settings.
- Extensible: Users can choose key components through configuration and plugins.
- Automatic instrumentation: Users can instrument applications without changing the source code. Build changes may be required through the addition of specific NuGet packages.
- Custom SDK support: The instrumentation can initialize the OpenTelemetry .NET SDK, though what OpenTelemetry SDK implementation is used and its initialization can also be delegated to the application code.
- Applications using Ahead-of-Time (AOT) compilation: The current implementation relies on the host startup hook or the CLR Profiler API and neither is supported when publishing AOT compiled applications.
- Side-by-side usage with other CLR Profiler based tools: Various tools for .NET are also implemented using a CLR Profiler. However, only a single CLR Profiler can be used when running the application. The CLR Profiler component is required on the .NET Framework and optional for .NET applications, more info below.
Initialization errors, usually caused by invalid configuration, are logged. If possible, default configuration is used otherwise it crash the application.
Errors occurring at application runtime are logged and should never crash the application.
To instrument a .NET application without source code changes, do the following:
- Inject the OpenTelemetry .NET SDK into the application.
- Add and enable instrumentations as the targeted libraries are loaded into the application.
The OpenTelemetry .NET SDK is injected using the host startup hook. This allows the OpenTelemetry .NET SDK to be configured before any application code runs. Although the OpenTelemetry .NET SDK is injected into a .NET application without using a CLR Profiler, the latter is still required to enable bytecode instrumentations. See the next section for more information.
.NET Framework doesn't support the host startup hook. The OpenTelemetry .NET SDK is injected using the CLR Profiler APIs, which allow modifying application code during execution.
There are two broad instrumentations types injected into the applications:
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Source instrumentations: instrumentations created on top of API hooks or callbacks provided directly by the library or framework being instrumented. This type of instrumentation depends on the OpenTelemetry API and the specific library or framework that they instrument. Some examples include:
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Bytecode instrumentations: instrumentations created for libraries or frameworks that lack proper hooks or callbacks to allow the collection of observability data. These instrumentations are enabled by modifying the application IL code during runtime using the CLR Profiler API. Bytecode instrumentations must be implemented following the proper attribute annotation so that the native CLR Profiler implementation can inject them at runtime. Some examples include:
Both kinds of instrumentation are enabled only when the targeted modules are loaded into the targeted application.
The main components of the project are:
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Loader: Managed library that bootstraps the Managed Profiler code into the targeted application, extending the load paths to include the folders with the OpenTelemetry .NET SDK and the instrumentations to be injected into the application.
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Managed Profiler: Contains the code to set up the OpenTelemetry .NET SDK and configured instrumentations, as well as support code to run and implement bytecode instrumentations.
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CLR Profiler DLL: Native component that implements a CLR Profiler. The CLR Profiler is used to modify the application intermediate language (IL), including the IL of packages used by the application to add and collect observability data. On the .NET Framework the CLR Profiler DLL also injects the Loader (see above) during the application startup.
The initial mechanism for bootstrapping the OpenTelemetry .NET SDK differs
between .NET and .NET Framework. As the host startup hook
is not available for .NET Framework, the initialization is done in both cases by
creating one instance of the OpenTelemetry.AutoInstrumentation.Loader.Startup
class from the Loader assembly. When creating the instance, the static constructor
of the type performs the following actions:
- Adds a handler to the
AssemblyResolveevent, so that it can add any assembly needed by the SDK itself or by any instrumentation. - Runs, through reflection, the
Initializationmethod from theOpenTelemetry.AutoInstrumentation.Instrumentationtype from the Managed Profiler assembly. a. TheInitializationcode bootstraps the OpenTelemetry .NET SDK, adding configured processors, exporters, and so on, and setting the mechanisms to enable any configured source instrumentations.
.NET applications rely on the host startup hook
being configured to use the StartupHook.Initialize() method from
the OpenTelemetry.AutoInstrumentation.StartupHook assembly.
The Initialize method loads the OpenTelemetry.AutoInstrumentation.Loader
assembly and creates the OpenTelemetry.AutoInstrumentation.Loader.Startup instance.
.NET Framework bootstrapping is performed on the CorProfiler::JITCompilationStarted callback. When that callback happens the CLR Profiler DLL takes the following actions:
- If the module is the first user module in the current AppDomain,
the profiler injects the IL to call the Loader
Startupconstructor. - If the first method observed by
JITCompilationStartedis IIS startup code, the profiler invokesAppDomain.CurrentDomain.SetData("OpenTelemetry_IISPreInitStart", true), so that automatic instrumentations can correctly handle IIS startup scenarios.
Source instrumentations are injected into the target process by adding
handlers to the AssemblyLoad event
and when the targeted assembly loads and triggers the source instrumentation
initialization code.
Bytecode instrumentations rely on the JIT recompilation capability of the CLR to rewrite the IL for instrumented methods. This adds logic at the beginning and end of the instrumented methods to invoke instrumentation included in this project, and wraps the calls with try-catch blocks to prevent instrumentation errors from affecting the normal operation of the application. This IL code rewrite happens in the following steps:
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On the CorProfiler::ModuleLoadFinished callback, the CLR Profiler DLL takes the following actions:
- If the loaded module is in the set of modules for which there is bytecode instrumentation, the profiler adds the module to a map of modules to be instrumented.
- The profiler then requests a Re-JIT recompilation using ICorProfilerInfo::RequestReJIT for the methods targeted by the bytecode instrumentation.
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On the ReJIT callback the CLR Profiler DLL finds the corresponding instrumentation code and wraps it around the target code.
Bytecode instrumentation methods should not have direct dependencies with the libraries that they instrument. This way, they can work with multiple versions of the assemblies targeted for instrumentation and reduce the number of shipped files.
When operating with parameters and return values of the targeted methods, the instrumentation methods must use DuckTyping or reflection to access objects from the APIs being instrumented.
The injection of the OpenTelemetry .NET SDK and any source instrumentation brings the risk of assembly version conflicts. This issue is more likely with the NuGet package System.Diagnostic.DiagnosticSource and its dependencies, because it contains the Activity type used by the OpenTelemetry .NET API to represent a span. This package, previously released by Microsoft, is already used by various applications.
Two issues might arise from incorrect versioning:
- Version required by the OpenTelemetry .NET SDK or the instrumentations is not met.
- Multiple versions of the assembly in the same process, as the runtime treats them independently.
On the .NET Framework, by default, the CLR Profiler redirects any assembly references to the versions shipped with the Managed Profiler.
.NET Framework-dependent deployment applications might use DOTNET_ADDITIONAL_DEPS and DOTNET_SHARED_STORE from OpenTelemetry .NET Automatic Instrumentation installation location to resolve assembly conflicts.
Currently, the path to resolving such conflicts is to add or update any package reference used by the application to the versions required by the OpenTelemetry .NET SDK and the instrumentations. Even if the application itself doesn't directly reference a conflicting dependency, this might still be necessary due to conflicts created by any indirect dependency.
Adding or updating package references works because of the way NuGet Package Dependency Resolution is implemented. Conflicts are resolved by having explicit package references to the correct package versions.
To simplify this process, we plan to create a NuGet package that installs the CLR Profiler and its managed dependencies.
If you can't change the application build to add or update the necessary package versions, you can still address conflicts using the methods described in Handling of Assembly version Conflicts.
The version of System.Diagnostics.DiagnosticSource used by the instrumentation
differs depending on the .NET version:
- .NET Framework is referencing the latest supported version. Automatic redirection is forcing this version if instrumented application bring own copy.
- .NET is referencing the lowest supported version. The version can be upgraded by the instrumented application.
OpenTelemetry:
Microsoft .NET Profiling APIs: