Configuration
editConfiguration
editThis functionality is in technical preview and may be changed or removed in a future release. Elastic will work to fix any issues, but features in technical preview are not subject to the support SLA of official GA features.
Gradle configuration
editConfigure your application at compile time within your applicationR17;s build.gradle
file:
// Android app's build.gradle file plugins { //... id "co.elastic.apm.android" version "[latest_version]" } elasticApm { // Minimal configuration serverUrl = "https://your.elastic.server" // Optional serviceName = "your app name" serviceVersion = "0.0.0" apiKey = "your server api key" secretToken = "your server auth token" }
You can find the latest version in the Gradle plugin portal. |
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Defaults to your |
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Defaults to your |
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Defaults to null. More info on API Keys here. |
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Defaults to null. |
When both secretToken
and apiKey
are provided, apiKey has priority and secretToken is ignored.
All of the values provided in the Gradle configuration can be overridden with the following environment variables:
Config | Associated Environment variable |
---|---|
serviceName |
|
serviceVersion |
|
serverUrl |
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apiKey |
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secretToken |
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Runtime configuration
editThe runtime configuration is provided within your Application class when initializing the Elastic agent. This configuration overrides any previously-set compile time configuration.
Runtime configuration works by providing your own instance of the ElasticApmConfiguration
class as shown below:
// Application class class MyApp extends android.app.Application { @Override public void onCreate() { super.onCreate(); ElasticApmAgent.initialize(this, ElasticApmConfiguration.builder().build()); } }
APM Server connectivity
editThe APM Server connectivity parameters can be provided at compile time, either by using the Gradle DSL configuration or by providing the APM Server connectivity-related environment variables as mentioned above.
Later on, when the app is running, the connectivity parameters can be overridden by providing a custom Connectivity
instance when initializing the Elastic agent.
Once youR17;ve created your Connectivity
instance, you can set it into the agentR17;s initialization as show below:
class MyApp extends android.app.Application { @Override public void onCreate() { super.onCreate(); Connectivity myCustomConnectivity = Connectivity.simple(/*params*/); ElasticApmAgent.initialize(this, myCustomConnectivity); // Optionally if you also define a custom configuration: // ElasticApmAgent.initialize(this, ElasticApmConfiguration.builder().build(), myCustomConnectivity); } }
OpenTelemetry resource
editYou can provide your own resource object which will be used for all of the OpenTelemetry signals (Spans, Metrics and Logs) as shown below:
class MyApp extends android.app.Application { @Override public void onCreate() { super.onCreate(); Resource myResource = Resource.create(Attributes.builder().put(RESOURCE_KEY, RESOURCE_VALUE).build()); ElasticApmConfiguration configuration = ElasticApmConfiguration.builder() .setResource(myResource) .build(); ElasticApmAgent.initialize(this, configuration); } }
APM Server export protocol
editSignals are exported using the gRPC protocol by default. You can change the export protocol to HTTP by using the ExportProtocol configuration as shown below:
class MyApp extends android.app.Application { @Override public void onCreate() { super.onCreate(); ElasticApmConfiguration configuration = ElasticApmConfiguration.builder() .setExportProtocol(ExportProtocol.HTTP) .build(); ElasticApmAgent.initialize(this, configuration); } }
Note that this configuration may not work if a custom signal configuration is set. |
OTLP over HTTP is supported in APM server versions 8.3.0+. OTLP over gRPC is supported in APM Server versions 7.12.0+.
Persistence configuration
editBy default, all APM data is sent to the backend right away. However, this may not be possible or feasible for an Android application. For example, an Android device may run into network issues or the device may need to handle resources in a particular way due to mobile data connectivity and battery life. To prevent these issues, the agent provides disk persistence or local cache support. This enables you to store APM data in disk first, and define how often data should be exported to the backend.
The example below shows how to enable and configure the persistence feature.
class MyApp extends android.app.Application { @Override public void onCreate() { super.onCreate(); PersistenceConfiguration persistenceConfiguration = PersistenceConfiguration.builder() .setEnabled(true) .setMaxCacheSize(60 * 1024 * 1024) .setExportScheduler(ExportScheduler.getDefault(60 * 1000)) .build(); ElasticApmConfiguration configuration = ElasticApmConfiguration.builder() .setPersistenceConfiguration(persistenceConfiguration) .build(); ElasticApmAgent.initialize(this, configuration); } }
Defaults to |
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Defaults to 60 MB. |
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Defaults to one minute.
The default |
Application ID configuration
editYou can provide your application name, version, and environment dynamically when building your ElasticApmConfiguration
instance as shown below:
class MyApp extends android.app.Application { @Override public void onCreate() { super.onCreate(); ElasticApmConfiguration configuration = ElasticApmConfiguration.builder() .setServiceName("my-custom-name") .setServiceVersion("1.0.0") .setDeploymentEnvironment("debug") .build(); ElasticApmAgent.initialize(this, configuration); } }
Sample rate configuration
editSample rates are applied to sessions, meaning that, if the sample rate value is 0.5
, then only half of the sessions would get sampled.
You can set a session sample rate that will be evaluated on every new session creation to determine whether the full session is exported or ignored.
Sessions are currently time-based and will kept alive for at least 30 mins.
A session.id
attribute will be sent on every signal until the timer ends, resetting the timer whenever a new signal is created.
When the timeR17;s up, a new session ID will be generated and the sample rate will be evaluated to determine whether the new sessionR17;s signals will get exported or ignored.
You can set the sample rate value at runtime either programmatically, as shown below, or remotely through the Central configuration. Values set through Central configuration will override the ones set programmatically.
class MyApp extends android.app.Application { @Override public void onCreate() { super.onCreate(); ElasticApmConfiguration configuration = ElasticApmConfiguration.builder() .setSampleRate(0.5) .build(); ElasticApmAgent.initialize(this, configuration); } }
Signal filtering
editYou can provide your own filters to specify which spans, logs, and metrics are allowed to be exported to the backend. With this tool, you could essentially turn some of these signals (or all) on and off at runtime depending on your own business logic.
In order to do so, you need to provide your own filters for each signal in the agent configuration as shown below:
class MyApp extends android.app.Application { @Override public void onCreate() { super.onCreate(); ElasticApmConfiguration configuration = ElasticApmConfiguration.builder() .addLogFilter(new LogFilter(){/*...*/}) .addMetricFilter(new MetricFilter(){/*...*/}) // .addMetricFilter(new MetricFilter(){/*...*/}) You can add multiple filters per signal. .addSpanFilter(new SpanFilter() { @Override public boolean shouldInclude(ReadableSpan readableSpan) { if (thisSpanIsAllowedToContinue(readableSpan)) { return true; } return false; } }) .build(); ElasticApmAgent.initialize(this, configuration); } }
Each filter will contain a shouldInclude
function which provides the signal item to be evaluated.
This function must return a boolean value--true
when the provided item is allowed to continue or false
when it must be discarded.
You can add multiple filters per signal which will be iterated over (in the order they were added) until all the filters are checked or until one of them decides to discard the signal item provided.
Automatic instrumentation enabling/disabling
editThe agent provides automatic instrumentation for its Supported technologies which are all enabled by default. You can choose which ones to keep enabled, as well as and disabling those you donR17;t need, at runtime, like so:
class MyApp extends android.app.Application { @Override public void onCreate() { super.onCreate(); // When building an InstrumentationConfiguration object using `InstrumentationConfiguration.builder()` // all of the instrumentations are disabled by default, so you only need to enable the ones you need. InstrumentationConfiguration instrumentations = InstrumentationConfiguration.builder() .enableHttpTracing(true) .build(); ElasticApmConfiguration configuration = ElasticApmConfiguration.builder() .setInstrumentationConfiguration(instrumentations) .build(); ElasticApmAgent.initialize(this, configuration); } }
When building an InstrumentationConfiguration object using InstrumentationConfiguration.builder()
, all instrumentations are disabled by default.
Only enable the instrumentations you need using the builder setter methods.
HTTP Configuration
editThe agent provides a configuration object for HTTP-related spans named HttpTraceConfiguration
.
You can pass an instance of it to the ElasticApmConfiguration
object when initializing the agent in order to customize how the HTTP spans should be handled.
Filtering HTTP requests from getting traced
editBy default, all of your appR17;s HTTP requests will get traced.
You can avoid some requests from getting traced by creating your own HttpExclusionRule
.
For example, this is an exclusion rule that prevents all requests with the host 127.0.0.1
from getting traced:
class MyHttpExclusionRule extends HttpExclusionRule { @Override public boolean exclude(HttpRequest request) { return request.url.getHost().equals("127.0.0.1"); } }
Then youR17;d need to add it to ElasticR17;s Agent config through its HttpTraceConfiguration
, like so:
class MyApp extends android.app.Application { @Override public void onCreate() { super.onCreate(); HttpTraceConfiguration httpConfig = HttpTraceConfiguration.builder() .addExclusionRule(new MyHttpExclusionRule()) .build(); ElasticApmConfiguration configuration = ElasticApmConfiguration.builder() .setHttpTraceConfiguration(httpConfig) .build(); ElasticApmAgent.initialize(this, configuration); } }
Adding extra attributes to your HTTP requests' spans
editIf the HTTP span attributes provided by default arenR17;t enough, you can attach your own HttpAttributesVisitor
to add extra params to each HTTP request being traced.
For example:
class MyHttpAttributesVisitor implements HttpAttributesVisitor { public void visit(AttributesBuilder attrsBuilder, HttpRequest request) { attrsBuilder.put("my_custom_attr_key", "my_custom_attr_value"); } }
Then youR17;d need to add it to ElasticR17;s Agent config through its HttpTraceConfiguration
, like so:
class MyApp extends android.app.Application { @Override public void onCreate() { super.onCreate(); HttpTraceConfiguration httpConfig = HttpTraceConfiguration.builder() .addHttpAttributesVisitor(new MyHttpAttributesVisitor()) .build(); ElasticApmConfiguration configuration = ElasticApmConfiguration.builder() .setHttpTraceConfiguration(httpConfig) .build(); ElasticApmAgent.initialize(this, configuration); } }
Trace spans attributes notes
editThere are common attributes that the Elastic APM agent gathers for every Span. However, due to the nature of AndroidR17;s OS, to collect some device-related data some of the above-mentioned resources require the Host app (your app) to have specific runtime permissions granted. If the corresponding permissions arenR17;t granted, then the device data wonR17;t be collected, and nothing will be sent for those attributes. This table outlines the attributes and their corresponding permissions:
Attribute | Used in | Requires permission |
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All Spans |
Internal logging policy
editBy default, all logs created by this library are printed for a debuggable app build. In the case of non-debuggable builds, only logs at the INFO level and above are printed.
If you would like to create a custom log policy or even disable all of the logs from this library altogether, you can do so by providing your own LoggingPolicy
configuration.
The below example policy will allow all logs of level WARN and higher to be printed.
Levels below WARN will be ignored.
class MyApp extends android.app.Application { @Override public void onCreate() { super.onCreate(); // This example policy will allow all logs of level WARN and higher to get printed, ignoring levels below it. LoggingPolicy loggingPolicy = LoggingPolicy.enabled(LogLevel.WARN); ElasticApmConfiguration.builder() .setLibraryLoggingPolicy(loggingPolicy) .build(); ElasticApmAgent.initialize(this, configuration); } }
Advanced configurable options
editCustom SignalConfiguration
editA SignalConfiguration object contains OpenTelemetryR17;s processors for all signals: spans, metrics, and logs. The agent takes care of creating a default SignalConfiguration implementation based on the Connectivity parameters passed during the agentR17;s initialization, as well as the export protocol chosen for sending data to the APM Server. However, if you need more control over OpenTelemetryR17;s processors and exporters, you can override the default SignalConfiguration object and provide your own with custom processors and/or exporters, as shown below:
class MyApp extends android.app.Application { @Override public void onCreate() { super.onCreate(); SpanExporter mySpanExporter; LogRecordExporter myLogRecordExporter; MetricExporter myMetricExporter; // You could also pass processors instead of exporters. SignalConfiguration mySignalConfiguration = SignalConfiguration.custom(mySpanExporter, myLogRecordExporter, myMetricExporter); ElasticApmConfiguration.builder() .setSignalConfiguration(mySignalConfiguration) .build(); ElasticApmAgent.initialize(this, configuration); } }
You can either create your own implementation for the SignalConfiguration interface, or you can use the |
Further configurations from the OpenTelemetry SDK.
editThe configurable parameters provided by the Elastic APM agent aim to help configuring common use cases in an easy way, in most of the cases it means to act as a facade between your application and the OpenTelemetry Java SDK that this agent is built on top. If your project requires to configure more advanced aspects of the overall APM processes, you could directly apply that configuration using the OpenTelemetry SDK, which becomes available for you to use within your project by adding the Elastic agent plugin, as explained in the agent setup guide. Said configuration will be used by the Elastic agent for the signals it sends out of the box.
Dynamic configuration
editConfiguration options marked with Dynamic true can be changed at runtime when set from KibanaR17;s central configuration.
Option reference
editThis is a list of all configuration options.
recording
(
[0.4.0]
Added in 0.4.0.
)
editA boolean specifying if the agent should be recording or not. When recording, the agent instruments incoming HTTP requests, tracks errors and collects and sends metrics. When not recording, the agent works as a noop, not collecting data and not communicating with the APM sever, except for polling the central configuration endpoint. As this is a reversible switch, agent threads are not being killed when inactivated, but they will be mostly idle in this state, so the overhead should be negligible.
You can use this setting to dynamically disable Elastic APM at runtime.
Default | Type | Dynamic |
---|---|---|
|
Boolean |
true |
session_sample_rate
(
[0.9.0]
Added in 0.9.0.
)
editBy default, the agent will sample all signals generated by your application (e.g. spans, metrics, and logs).
To reduce overhead and storage requirements, you can set the sample rate to a value between 0.0 and 1.0. When reduced below 1.0, data will be sampled per session.
This is so context in a given session isnR17;t lost.
You can use this setting to dynamically disable Elastic APM at runtime by setting the sample rate to 0
.
Default | Type | Dynamic |
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|
Float |
true |