Compile-time logging source generation
.NET 6 introduces the LoggerMessageAttribute
type. This attribute is part of the Microsoft.Extensions.Logging
namespace, and when used, it source-generates performant logging APIs. The source-generation logging support is designed to deliver a highly usable and highly performant logging solution for modern .NET applications. The auto-generated source code relies on the ILogger interface in conjunction with LoggerMessage.Define functionality.
The source generator is triggered when LoggerMessageAttribute
is used on partial
logging methods. When triggered, it is either able to autogenerate the implementation of the partial
methods it's decorating, or produce compile-time diagnostics with hints about proper usage. The compile-time logging solution is typically considerably faster at run time than existing logging approaches. It achieves this by eliminating boxing, temporary allocations, and copies to the maximum extent possible.
Basic usage
To use the LoggerMessageAttribute
, the consuming class and method need to be partial
. The code generator is triggered at compile time, and generates an implementation of the partial
method.
public static partial class Log
{
[LoggerMessage(
EventId = 0,
Level = LogLevel.Critical,
Message = "Could not open socket to `{HostName}`")]
public static partial void CouldNotOpenSocket(
ILogger logger, string hostName);
}
In the preceding example, the logging method is static
and the log level is specified in the attribute definition. When using the attribute in a static context, either the ILogger
instance is required as a parameter, or modify the definition to use the this
keyword to define the method as an extension method.
public static partial class Log
{
[LoggerMessage(
EventId = 0,
Level = LogLevel.Critical,
Message = "Could not open socket to `{HostName}`")]
public static partial void CouldNotOpenSocket(
this ILogger logger, string hostName);
}
You may choose to use the attribute in a non-static context as well. Consider the following example where the logging method is declared as an instance method. In this context, the logging method gets the logger by accessing an ILogger
field in the containing class.
public partial class InstanceLoggingExample
{
private readonly ILogger _logger;
public InstanceLoggingExample(ILogger logger)
{
_logger = logger;
}
[LoggerMessage(
EventId = 0,
Level = LogLevel.Critical,
Message = "Could not open socket to `{HostName}`")]
public partial void CouldNotOpenSocket(string hostName);
}
Sometimes, the log level needs to be dynamic rather than statically built into the code. You can do this by omitting the log level from the attribute and instead requiring it as a parameter to the logging method.
public static partial class Log
{
[LoggerMessage(
EventId = 0,
Message = "Could not open socket to `{HostName}`")]
public static partial void CouldNotOpenSocket(
ILogger logger,
LogLevel level, /* Dynamic log level as parameter, rather than defined in attribute. */
string hostName);
}
You can omit the logging message and String.Empty will be provided for the message. The state will contain the arguments, formatted as key-value pairs.
using System.Text.Json;
using Microsoft.Extensions.Logging;
using ILoggerFactory loggerFactory = LoggerFactory.Create(
builder =>
builder.AddJsonConsole(
options =>
options.JsonWriterOptions = new JsonWriterOptions()
{
Indented = true
}));
ILogger<SampleObject> logger = loggerFactory.CreateLogger<SampleObject>();
logger.PlaceOfResidence(logLevel: LogLevel.Information, name: "Liana", city: "Seattle");
readonly file record struct SampleObject { }
public static partial class Log
{
[LoggerMessage(EventId = 23, Message = "{Name} lives in {City}.")]
public static partial void PlaceOfResidence(
this ILogger logger,
LogLevel logLevel,
string name,
string city);
}
Consider the example logging output when using the JsonConsole
formatter.
{
"EventId": 23,
"LogLevel": "Information",
"Category": "\u003CProgram\u003EF...9CB42__SampleObject",
"Message": "Liana lives in Seattle.",
"State": {
"Message": "Liana lives in Seattle.",
"name": "Liana",
"city": "Seattle",
"{OriginalFormat}": "{Name} lives in {City}."
}
}
Log method constraints
When using the LoggerMessageAttribute
on logging methods, some constraints must be followed:
- Logging methods must be
partial
and returnvoid
. - Logging method names must not start with an underscore.
- Parameter names of logging methods must not start with an underscore.
- Logging methods may not be defined in a nested type.
- Logging methods cannot be generic.
- If a logging method is
static
, theILogger
instance is required as a parameter.
The code-generation model depends on code being compiled with a modern C# compiler, version 9 or later. The C# 9.0 compiler became available with .NET 5. To upgrade to a modern C# compiler, edit your project file to target C# 9.0.
<PropertyGroup>
<LangVersion>9.0</LangVersion>
</PropertyGroup>
For more information, see C# language versioning.
Log method anatomy
The ILogger.Log signature accepts the LogLevel and optionally an Exception, as shown below.
public interface ILogger
{
void Log<TState>(
Microsoft.Extensions.Logging.LogLevel logLevel,
Microsoft.Extensions.Logging.EventId eventId,
TState state,
System.Exception? exception,
Func<TState, System.Exception?, string> formatter);
}
As a general rule, the first instance of ILogger
, LogLevel
, and Exception
are treated specially in the log method signature of the source generator. Subsequent instances are treated like normal parameters to the message template:
// This is a valid attribute usage
[LoggerMessage(
EventId = 110, Level = LogLevel.Debug, Message = "M1 {Ex3} {Ex2}")]
public static partial void ValidLogMethod(
ILogger logger,
Exception ex,
Exception ex2,
Exception ex3);
// This causes a warning
[LoggerMessage(
EventId = 0, Level = LogLevel.Debug, Message = "M1 {Ex} {Ex2}")]
public static partial void WarningLogMethod(
ILogger logger,
Exception ex,
Exception ex2);
Important
The warnings emitted provide details as to the correct usage of the LoggerMessageAttribute
. In the preceding example, the WarningLogMethod
will report a DiagnosticSeverity.Warning
of SYSLIB0025
.
Don't include a template for `ex` in the logging message since it is implicitly taken care of.
Case-insensitive template name support
The generator does a case-insensitive comparison between items in the message template and argument names in the log message. This means that when the ILogger
enumerates the state, the argument is picked up by the message template, which can make the logs nicer to consume:
public partial class LoggingExample
{
private readonly ILogger _logger;
public LoggingExample(ILogger logger)
{
_logger = logger;
}
[LoggerMessage(
EventId = 10,
Level = LogLevel.Information,
Message = "Welcome to {City} {Province}!")]
public partial void LogMethodSupportsPascalCasingOfNames(
string city, string province);
public void TestLogging()
{
LogMethodSupportsPascalCasingOfNames("Vancouver", "BC");
}
}
Consider the example logging output when using the JsonConsole
formatter:
{
"EventId": 13,
"LogLevel": "Information",
"Category": "LoggingExample",
"Message": "Welcome to Vancouver BC!",
"State": {
"Message": "Welcome to Vancouver BC!",
"City": "Vancouver",
"Province": "BC",
"{OriginalFormat}": "Welcome to {City} {Province}!"
}
}
Indeterminate parameter order
There are no constraints on the ordering of log method parameters. A developer could define the ILogger
as the last parameter, although it may appear a bit awkward.
[LoggerMessage(
EventId = 110,
Level = LogLevel.Debug,
Message = "M1 {Ex3} {Ex2}")]
static partial void LogMethod(
Exception ex,
Exception ex2,
Exception ex3,
ILogger logger);
Tip
The order of the parameters on a log method is not required to correspond to the order of the template placeholders. Instead, the placeholder names in the template are expected to match the parameters. Consider the following JsonConsole
output and the order of the errors.
{
"EventId": 110,
"LogLevel": "Debug",
"Category": "ConsoleApp.Program",
"Message": "M1 System.Exception: Third time's the charm. System.Exception: This is the second error.",
"State": {
"Message": "M1 System.Exception: Third time's the charm. System.Exception: This is the second error.",
"ex2": "System.Exception: This is the second error.",
"ex3": "System.Exception: Third time's the charm.",
"{OriginalFormat}": "M1 {Ex3} {Ex2}"
}
}
Additional logging examples
The following samples demonstrate how to retrieve the event name, set the log level dynamically, and format logging parameters. The logging methods are:
LogWithCustomEventName
: Retrieve event name viaLoggerMessage
attribute.LogWithDynamicLogLevel
: Set log level dynamically, to allow log level to be set based on configuration input.UsingFormatSpecifier
: Use format specifiers to format logging parameters.
public partial class LoggingSample
{
private readonly ILogger _logger;
public LoggingSample(ILogger logger)
{
_logger = logger;
}
[LoggerMessage(
EventId = 20,
Level = LogLevel.Critical,
Message = "Value is {Value:E}")]
public static partial void UsingFormatSpecifier(
ILogger logger, double value);
[LoggerMessage(
EventId = 9,
Level = LogLevel.Trace,
Message = "Fixed message",
EventName = "CustomEventName")]
public partial void LogWithCustomEventName();
[LoggerMessage(
EventId = 10,
Message = "Welcome to {City} {Province}!")]
public partial void LogWithDynamicLogLevel(
string city, LogLevel level, string province);
public void TestLogging()
{
LogWithCustomEventName();
LogWithDynamicLogLevel("Vancouver", LogLevel.Warning, "BC");
LogWithDynamicLogLevel("Vancouver", LogLevel.Information, "BC");
UsingFormatSpecifier(logger, 12345.6789);
}
}
Consider the example logging output when using the SimpleConsole
formatter:
trce: LoggingExample[9]
Fixed message
warn: LoggingExample[10]
Welcome to Vancouver BC!
info: LoggingExample[10]
Welcome to Vancouver BC!
crit: LoggingExample[20]
Value is 1.234568E+004
Consider the example logging output when using the JsonConsole
formatter:
{
"EventId": 9,
"LogLevel": "Trace",
"Category": "LoggingExample",
"Message": "Fixed message",
"State": {
"Message": "Fixed message",
"{OriginalFormat}": "Fixed message"
}
}
{
"EventId": 10,
"LogLevel": "Warning",
"Category": "LoggingExample",
"Message": "Welcome to Vancouver BC!",
"State": {
"Message": "Welcome to Vancouver BC!",
"city": "Vancouver",
"province": "BC",
"{OriginalFormat}": "Welcome to {City} {Province}!"
}
}
{
"EventId": 10,
"LogLevel": "Information",
"Category": "LoggingExample",
"Message": "Welcome to Vancouver BC!",
"State": {
"Message": "Welcome to Vancouver BC!",
"city": "Vancouver",
"province": "BC",
"{OriginalFormat}": "Welcome to {City} {Province}!"
}
}
{
"EventId": 20,
"LogLevel": "Critical",
"Category": "LoggingExample",
"Message": "Value is 1.234568E+004",
"State": {
"Message": "Value is 1.234568E+004",
"value": 12345.6789,
"{OriginalFormat}": "Value is {Value:E}"
}
}
Summary
With the advent of C# source generators, writing highly performant logging APIs is much easier. Using the source generator approach has several key benefits:
- Allows the logging structure to be preserved and enables the exact format syntax required by Message Templates.
- Allows supplying alternative names for the template placeholders and using format specifiers.
- Allows the passing of all original data as-is, without any complication around how it's stored before something is done with it (other than creating a
string
). - Provides logging-specific diagnostics, and emits warnings for duplicate event IDs.
Additionally, there are benefits over manually using LoggerMessage.Define:
- Shorter and simpler syntax: Declarative attribute usage rather than coding boilerplate.
- Guided developer experience: The generator gives warnings to help developers do the right thing.
- Support for an arbitrary number of logging parameters.
LoggerMessage.Define
supports a maximum of six. - Support for dynamic log level. This is not possible with
LoggerMessage.Define
alone.
See also
Feedback
https://aka.ms/ContentUserFeedback.
Coming soon: Throughout 2024 we will be phasing out GitHub Issues as the feedback mechanism for content and replacing it with a new feedback system. For more information see:Submit and view feedback for