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@lumigo/opentelemetry
Advanced tools
This is the source repository of @lumigo/opentelemetry
, Lumigo OpenTelemetry Distribution for Node.js, intended for use with containerized applications.
The Lumigo OpenTelemetry Distribution for Node.js is made of several upstream OpenTelemetry packaged, additional automated quality-assurance and customizations that optimize for no-code injection, meaning that you should need to update exactly zero lines of code in your application in order to make use of the Lumigo OpenTelemetry Distribution. (See the No-code activation section for auto-instrumentation instructions)
Note: If you are looking for the Lumigo Node.js tracer for AWS Lambda functions, @lumigo/tracer
is the package you should use instead.
The Lumigo OpenTelemetry Distribution also allows logging span-correlated records. See the configuration section for details on how to enable this feature.
When using the logging feature, the same set of rules for secret masking applies on the content of the log message, with only LUMIGO_SECRET_MASKING_REGEX
being considered.
Add @lumigo/opentelemetry
as a dependency using your preferred package manager:
npm install @lumigo/opentelemetry
or:
yarn add @lumigo/opentelemetry
For both manual and no-code instrumentation, you will need to configure the LUMIGO_TRACER_TOKEN
environment variable with the token value generated for you by the Lumigo platform, under Settings --> Tracing --> Manual tracing
, and the OTEL_SERVICE_NAME
environment variable with the service name you've chosen:
# Replace `<token>` below with the token generated for you by the Lumigo platform
export LUMIGO_TRACER_TOKEN=<token>
# Replace `<service name> with the desired name of the service`
export OTEL_SERVICE_NAME=<service name>
There are two ways to activate the @lumigo/opentelemetry
package: one based on importing the package in code (manual activation), and the other via the environment (no-code activation).
The no-code activation approach is the preferred one.
Note: The instructions in this section are mutually exclusive with those provided in the Manual instrumentation section.
Set the following environment variable for your Node.js process:
export NODE_OPTIONS="${NODE_OPTIONS} -r '@lumigo/opentelemetry'"
The line above avoids overriding any other settings you may have passed via the NODE_OPTIONS
environment variable.
Note: The instructions in this section are mutually exclusive with those provided in the No-code activation section.
Import @lumigo/opentelemetry
at the beginning of your main file:
// javascript
const lumigo = require("@lumigo/opentelemetry");
// typescript
import * as lumigo from "@lumigo/opentelemetry";
See Waiting for the initialization of the Lumigo OpenTelemetry Distro regarding initialization behavior.
{
"scripts": {
"start": "LUMIGO_TRACER_TOKEN=<token> OTEL_SERVICE_NAME=<service name> node -r @lumigo/opentelemetry <main_file>.js"
}
}
The Lumigo OpenTelemetry Distro for Node.js is made of several upstream OpenTelemetry packages as well as some additional logic and, as such, the environment variables that work with "vanilla" OpenTelemetry work also with the Lumigo OpenTelemetry Distro for Node.js. Specifically supported are:
@lumigo/opentelemetry
additionally supports the following configuration options as environment variables:
LUMIGO_ENABLE_TRACES
- Default: true
. When set to false
, turns off all of the tracing instrumentations. Note that this does not turn off the logging instrumentations, which are controlled by the LUMIGO_ENABLE_LOGS
environment variable.
LUMIGO_TRACER_TOKEN=<token>
: Configure the Lumigo token to enable to upload of telemetry to Lumigo; without this environment variable, your Node.js process will not send telemetry to Lumigo.
LUMIGO_DEBUG=TRUE
: Enables debug logging
LUMIGO_DEBUG_SPANDUMP=<path|console:log|console:error>
: Log all spans collected to the <path>
file or, the value is console:log
or console:error
, to console.log
or console.error
; this is an option intended only for debugging purposes and should not be used in production.
This setting is independent from LUMIGO_DEBUG
, that is, LUMIGO_DEBUG
does not need to additionally be set for LUMIGO_DEBUG_SPANDUMP
to work.
LUMIGO_REPORT_DEPENDENCIES=false
: This option disables the built-in dependency reporting to Lumigo SaaS. For more information, refer to the Automated dependency reporting section.
LUMIGO_SWITCH_OFF=TRUE
: This option disables the Lumigo OpenTelemetry Distro entirely; no instrumentation will be injected, no tracing data will be collected.
LUMIGO_AUTO_FILTER_EMPTY_SQS
: This option enables the automatic filtering of empty SQS messages from being sent to Lumigo SaaS. For more information, refer to the Filtering out empty SQS messages section.
LUMIGO_DISABLE_PG_INSTRUMENTATION=true
: This option disables the automatic instrumentation of postgres.
LUMIGO_DISABLE_REDIS_INSTRUMENTATION=true
: This option disables the automatic instrumentation of redis.
LUMIGO_DISABLE_IOREDIS_INSTRUMENTATION=true
: This option disables the automatic instrumentation of ioredis.
LUMIGO_DISABLE_NEST_INSTRUMENTATION=true
: This option disables the automatic instrumentation of @nestjs/core.
LUMIGO_SECRET_MASKING_REGEX='["regex1", "regex2"]'
: Prevents Lumigo from sending keys that match the supplied regular expressions in process environment data, HTTP headers, payloads and queries. All regular expressions are case-insensitive. The "magic" value all
will redact everything. By default, Lumigo applies the following regular expressions: [".*pass.*", ".*key.*", ".*secret.*", ".*credential.*", ".*passphrase.*"]
. More fine-grained settings can be applied via the following environment variables, which will override LUMIGO_SECRET_MASKING_REGEX
for a specific type of data:
LUMIGO_SECRET_MASKING_REGEX_HTTP_REQUEST_BODIES
applies secret redaction to HTTP request bodiesLUMIGO_SECRET_MASKING_REGEX_HTTP_REQUEST_HEADERS
applies secret redaction to HTTP request headersLUMIGO_SECRET_MASKING_REGEX_HTTP_QUERY_PARAMS
applies secret redaction to HTTP query parametersLUMIGO_SECRET_MASKING_REGEX_HTTP_RESPONSE_BODIES
applies secret redaction to HTTP response bodiesLUMIGO_SECRET_MASKING_REGEX_HTTP_RESPONSE_HEADERS
applies secret redaction to HTTP response bodiesLUMIGO_SECRET_MASKING_REGEX_ENVIRONMENT
applies secret redaction to process environment variables (that is, the content of process.env
)LUMIGO_FILTER_HTTP_ENDPOINTS_REGEX='["regex1", "regex2"]'
: This option enables the filtering of client and server endpoints through regular expression searches. Fine-tune your settings via the following environment variables, which work in conjunction with LUMIGO_FILTER_HTTP_ENDPOINTS_REGEX
for a specific span type:
LUMIGO_FILTER_HTTP_ENDPOINTS_REGEX_SERVER
applies the regular expression search exclusively to server spans. Searching is performed against the following attributes on a span: url.path
and http.target
.LUMIGO_FILTER_HTTP_ENDPOINTS_REGEX_CLIENT
applies the regular expression search exclusively to client spans. Searching is performed against the following attributes on a span: url.full
and http.url
.For more information check out Filtering http endpoints.
LUMIGO_ENABLE_LOGS
- Default: false
. When set to true
, turns on the logging instrumentations (currently for the Winston and Bunyan loggers) to capture log-records and send them to Lumigo. Emitted logs will also get injected with the active span context, e.g.: // ...
"body": "Hello Winston!",
"attributes": {
"trace_id": "1fce43bfd3fdde3f1a9ea1adc78b521d",
"span_id": "13c05292d3b5f5e8",
"trace_flags": "01"
}
"severityText": "info",
// ...
Note that logging support is applicable only when using versions of the logging libraries listed here.
LUMIGO_DEBUG_LOGDUMP
- similar to LUMIGO_DEBUG_SPANDUMP
, only for logs instead of spans. Effective only when LUMIGO_ENABLE_LOGS
is set to true
.Execution Tags allow you to dynamically add dimensions to your invocations so that they can be identified, searched for, and filtered in Lumigo. For example: in multi-tenanted systems, execution tags are often used to mark with the identifiers of the end-users that trigger them for analysis (e.g., Explore view) and alerting purposes.
In the Lumigo OpenTelemetry Distro for JS, execution tags are represented as span attributes and, specifically, as span attributes with the lumigo.execution_tags.
prefix.
For example, you could add an execution tag as follows:
// Typescript
import { trace } from '@opentelemetry/api';
/*
* In Node.js 14+, the '?' coalescing operator ensures that your code is
* safe even if the tracing is not active, and `trace.getActiveSpan()` returns
* `undefined`.
*/
trace.getActiveSpan()?.setAttribute('lumigo.execution_tags.foo','bar');
// Javascript
const { trace } = require('@opentelemetry/api');
/*
* In Node.js 14+, the '?' coalescing operator ensures that your code is
* safe even if the tracing is not active, and `trace.getActiveSpan()` returns
* `undefined`.
*/
trace.getActiveSpan()?.setAttribute('lumigo.execution_tags.foo','bar');
Notice that, using OpenTelemetry's trace.getActiveSpan()
API, you do not need to keep track of the current span, you can get it at any point of your program execution.
In OpenTelemetry, span attributes can be strings
, numbers
(double precision floating point or signed 64 bit integer), booleans
(a.k.a. "primitive types"), and arrays of one primitive type (e.g., an array of string, and array of numbers or an array of booleans).
In Lumigo, booleans and numbers are transformed to strings.
IMPORTANT: If you use the Span.setAttribute
API multiple times on the same span to set values for the same key multiple values, you may override previous values rather than adding to them:
// Typescript
import { trace } from '@opentelemetry/api';
trace.getActiveSpan()?.setAttribute('lumigo.execution_tags.foo', 'bar');
trace.getActiveSpan()?.setAttribute('lumigo.execution_tags.foo', 'baz');
// Javascript
const { trace } = require('@opentelemetry/api');
trace.getActiveSpan()?.setAttribute('lumigo.execution_tags.foo', 'bar');
trace.getActiveSpan()?.setAttribute('lumigo.execution_tags.foo', 'baz');
In the snippets above, the foo
execution tag will have in Lumigo only the baz
value!
Multiple values for an execution tag are supported as follows:
// Typescript
import { trace } from '@opentelemetry/api';
trace.getActiveSpan()?.setAttribute('lumigo.execution_tags.foo', ['bar', 'baz']);
// Javascript
const { trace } = require('@opentelemetry/api');
trace.getActiveSpan()?.setAttribute('lumigo.execution_tags.foo', ['bar', 'baz']);
The snippets above will produce in Lumigo the foo
tag having both bar
and baz
values.
Another option to set multiple values is setting execution Tags in different spans of an invocation.
In Lumigo, multiple spans may be merged together into one invocation, which is the entry that you see, for example, in the Explore view. The invocation will include all execution tags on all its spans, and merge their values:
// Javascript
const { trace } = require('@opentelemetry/api');
trace.getActiveSpan()?.setAttribute('lumigo.execution_tags.foo','bar');
const tracer = tracerProvider.getTracer(__filename)
const nestedSpan = tracer.startSpan('child_span');
// Do something interesting
nestedSpan.setAttribute('lumigo.execution_tags.foo','baz');
nestedSpan.end();
// Typescript
const tracer = tracerProvider.getTracer(__filename)
trace.getActiveSpan()?.setAttribute('lumigo.execution_tags.foo','bar');
const tracer = tracerProvider.getTracer(__filename)
const nestedSpan = tracer.startSpan('child_span');
// Do something interesting
nestedSpan.setAttribute('lumigo.execution_tags.foo','baz');
nestedSpan.end();
In the examples above, the invocation in Lumigo resulting from executing the code will have both bar
and baz
values associated with the foo
execution tag.
Which spans are merged in the same invocation depends on the parent-child relations among those spans.
Explaining this topic is outside the scope of this documentation; a good first read to get deeper into the topic is the Traces documentation of OpenTelemetry.
In case your execution tags on different spans appear on different invocations than what you would expect, get in touch with Lumigo support.
key
of an execution tag cannot contain the .
character; for example: lumigo.execution_tags.my.tag
is not a valid tag. The OpenTelemetry Span.setAttribute()
API will not fail or log warnings, but that will be displayed as my
in Lumigo.lumigo.execution_tags.
prefix does not count against the 50 characters limit.Programmatic Errors allow you to customize errors, monitor and troubleshoot issues that should not necessarily interfere with the service. For example, an application tries to remove a user who doesn't exist. These custom errors can be captured by adding just a few lines of additional code to your application.
Programmatic Errors indicating that a non-fatal error occurred, such as an application error. You can log programmatic errors, track custom error issues, and trigger Alerts.
Programmatic errors are created by adding span events with a custom attribute being set with the key name lumigo.type
.
For example, you could add a programmatic error as follows:
// Typescript
import { trace } from '@opentelemetry/api';
trace.getActiveSpan()?.addEvent('<error-message>', {'lumigo.type': '<error-type>'});
// Javascript
const { trace } = require('@opentelemetry/api');
trace.getActiveSpan()?.addEvent('<error-message>', {'lumigo.type': '<error-type>'});
Instrumentation | Package | Supported Versions | |||
---|---|---|---|---|---|
14 | 16 | 18 | 20 | ||
client-sqs | @aws-sdk/client-sqs | 3.525.0 | 3.525.0 | 3.525.0 | 3.525.0 |
grpc-js | @grpc/grpc-js | 1.8.0~1.8.20 | 1.8.0~1.8.20 | 1.8.0~1.8.20 | 1.8.0~1.8.20 |
core | @nestjs/core | 10.3.2 | 10.3.2 | 10.3.2 | |
amqplib | amqplib | 0.9.0~0.10.4 | 0.9.0~0.10.4 | 0.9.0~0.10.4 | 0.9.0~0.10.4 |
aws-sdk | aws-sdk | 2.1533.0~2.1691.0 | 2.1533.0~2.1691.0 | 2.1533.0~2.1691.0 | 2.1533.0~2.1691.0 |
bunyan | bunyan | 1.8.15 | 1.8.15 | 1.8.15 | 1.8.15 |
express | express | 4.9.0~4.21.0 | 4.9.0~4.21.0 | 4.9.0~4.21.0 | 4.9.0~4.21.0 |
fastify | fastify | 3.3.0~3.29.5 | 3.3.0~3.29.5 | 3.3.0~3.29.5 | 3.3.0~3.29.5 |
4.0.0 | 4.0.0 | 4.0.0 | 4.0.0 | ||
4.0.1~4.28.1 | 4.0.1~4.28.1 | 4.0.1~4.28.1 | 4.0.1~4.28.1 | ||
ioredis | ioredis | 4.0.0~4.28.5 | 4.0.0~4.28.5 | 4.0.0~4.28.5 | 4.0.0~4.28.5 |
5.0.0~5.4.1 | 5.0.0~5.4.1 | 5.0.0~5.4.1 | 5.0.0~5.4.1 | ||
kafkajs | kafkajs | 2.0.0~2.2.4 | 2.0.0~2.2.4 | 2.0.0~2.2.4 | 2.0.0~2.2.4 |
mongodb | mongodb | 4.17.0~4.17.2 | 3.6.6~3.7.3 | 3.6.6~3.7.3 | 3.6.6~3.7.3 |
5.0.0~5.9.2 | 4.0.0~4.17.2 | 4.0.0~4.17.2 | 4.0.0~4.17.2 | ||
5.0.0~5.9.2 | 5.0.0~5.9.2 | 5.0.0~5.9.2 | |||
6.0.0~6.3.0 | 6.0.0~6.3.0 | 6.0.0~6.3.0 | |||
next | next | 11.1.2 | 13.5.6 | 14.2.13~14.2.14 | 14.2.13~14.2.14 |
pg | pg | 8.11.3~8.13.0 | 8.11.3~8.13.0 | 8.11.3~8.13.0 | 8.11.3~8.13.0 |
prisma | prisma | 4.2.0~4.16.2 | 4.2.0~4.16.2 | 4.2.0~4.16.2 | 4.2.0~4.16.2 |
5.0.0~5.20.0 | 5.0.0~5.20.0 | 5.0.0~5.20.0 | 5.0.0~5.20.0 | ||
redis | redis | 4.0.0~4.6.8 | 4.0.0~4.7.0 | 4.0.0~4.7.0 | 4.0.0~4.7.0 |
4.6.10~4.7.0 | |||||
winston | winston | 3.13.0~3.15.0 | 3.13.0~3.15.0 | 3.13.0~3.15.0 | 3.13.0~3.15.0 |
If you're using Prisma and you would like it instrumented, the only thing you will need to do (aside from activating the tracer, of course) is ensure that your schema file's generator client
has the tracing
preview feature enabled prior to generating the client itself.
generator client {
provider = "prisma-client-js"
previewFeatures = ["tracing"]
}
NOTE: There have been reports of a possible bug that interferes with tracing when multiple Prisma clients have been instantiated, see Prisma issue #20779.
To provide better support and better data-driven product decisions with respect to which packages to support next, the Lumigo OpenTelemetry Distro for JS will report to Lumigo SaaS on startup the packages and their versions used in this application, together with the OpenTelemetry resource data to enable analytics in terms of which platforms use which dependencies.
The data uploaded to Lumigo is a set of key-value pairs with package name and version. Similar is available through the tracing data sent to Lumigo, except that this aims at covering dependencies for which the Lumigo OpenTelemetry Distro for JS does not have instrumentation (yet?). Lumigo's only goal for these analytics data is to be able to give you the instrumentations you need without you needing to tell us!
The dependencies data is sent only when a LUMIGO_TRACER_TOKEN
is present in the process environment, and it can be opted out via the LUMIGO_REPORT_DEPENDENCIES=false
environment variable.
The Lumigo OpenTelemetry Distro will automatically create the following OpenTelemetry constructs provided to a NodeTraceProvider
.
A Resource
built from the default OpenTelemetry resource with the sdk...
attributes, plus:
lumigo.distro.version
documenting the version of this packageAdditional resource attributes depending on the compute platform.
cloud.provider
with value aws
cloud.platform
with value aws_ecs
container.name
with, as value, the container name as defined in the task definitioncontainer.id
with, as value, the container id as defined by the underpinning Docker runtimeIf the Task Metadata endpoint v4 is available (ECS_CONTAINER_METADATA_URI_V4
env var is set), the following resource attributes as specified in the AWS ECS Resource Semantic conventions are also set:
aws.ecs.container.arn
aws.ecs.cluster.arn
aws.ecs.launchtype
aws.ecs.task.arn
aws.ecs.task.family
aws.ecs.task.revision
k8s.pod.uid
with the Pod identifier, supported for both cgroups v1 and v2LUMIGO_TRACER_TOKEN
environment variable is set: a BatchSpanProcessor
, which uses an OTLPTraceExporter
to push tracing data to LumigoLUMIGO_DEBUG_SPANDUMP
environment variable is set: a SimpleSpanProcessor
, which uses an FileSpanExporter
to save to file the spans collected. Do not use this in production!The following process.runtime.*
attributes as specified in the Process Semantic Conventions:
process.runtime.description
process.runtime.name
process.runtime.version
A non-standard process.environ
resource attribute, containing a stringified representation of the process environment, with environment variables scrubbed based on the LUMIGO_SECRET_MASKING_REGEX_ENVIRONMENT
and LUMIGO_SECRET_MASKING_REGEX
environment variables.
The following SDK environment variables are supported:
OTEL_SPAN_ATTRIBUTE_VALUE_LENGTH_LIMIT
OTEL_ATTRIBUTE_VALUE_LENGTH_LIMIT
** If the OTEL_SPAN_ATTRIBUTE_VALUE_LENGTH_LIMIT
environment variable is not set, the span attribute size limit will be taken from OTEL_ATTRIBUTE_VALUE_LENGTH_LIMIT
environment variable. The default size limit when both are not set is 2048.
The initialization of the Lumigo OpenTelemetry Distro is performed asynchronously by default, to avoid potentially blocking behavior. See the [synchronous initialization] section(#synchronous-initialization-of-the-Lumigo-OpenTelemetry-Distro) for an alternate method of initializing.
Due to the asynchronous nature of this initialization logic, some CLI or batch-like applications that perform their logic on startup without needing to wait on external request responses may find that they are missing some of the trace data, for example the first span that represents the startup of the application.
For scenarios in which each and every span is required, the Lumigo OpenTelemetry Distro provides a Promise
called init
that you can wait on as follows:
For cases where the startup time is not a great concern, and you want to ensure that all spans and logs are captured, an alternative initialization method is available via the @lumigo/oprntelemetry/sync
entrypoint. This entrypoint will block the main thread until the Lumigo OpenTelemetry Distro is fully initialized, without the need to wait on the init
promise, and will provide an already-initialized Lumigo SDK objects:
import { tracerProvider, loggerProvider } from '@lumigo/opentelemetry/sync';
const { tracerProvider, loggerProvider } = require('@lumigo/opentelemetry/sync');
This will also possible with preloading, using the -r
None option:
node -r '@lumigo/opentelemetry/sync' your-app-main-file.js
these methods will ensure that your app will wait for the Lumigo OpenTelemetry Distro to be fully initialized before attempting to capture and export any telemetry data.
// Node.js prior to v18 (`async` as a top-level construct in your main file is not supported)
import * as lumigo from '@lumigo/opentelemetry';
// Some initialization code for your application.
lumigo.init
.then(()=>{
// From this point on you are guaranteed that the SDK is initialized.
})
.catch(err => {
// The sdk initialization failed :-(
// Please let us know at support@lumigo.io!
});
// Node.js v18+ (`async` as a top-level construct in your main file is supported)
import * as lumigo from '@lumigo/opentelemetry';
// Some initialization code for your application.
try {
await lumigo.init;
} catch (err) {
// The sdk initialization failed :-(
// Please let us know at support@lumigo.io!
}
// From this point on you are guaranteed that the SDK is initialized.
The Lumigo OpenTelemetry Distro provides access to the TracerProvider
it configures (see the Baseline setup section for more information) through the resolution of the init
promise:
import * as lumigo from '@lumigo/opentelemetry';
import { Resource } from '@opentelemetry/resources';
import { BasicTracerProvider } from '@opentelemetry/sdk-trace-base';
const tracerProvider: BasicTracerProvider = await lumigo.init.tracerProvider;
// Now you may want to add additional exporters using `tracerProvider.addSpanProcessor(spanProcessor: SpanProcessor)`
// The TracerProvider also provides access to the underpinning resource
const resource: Resource = tracerProvider.resource;
For short-running processes, the BatchProcessor
configured by the Lumigo OpenTelemetry Distro may not ensure that the tracing data are sent to Lumigo (see the baseline setup section for more information).
Through the access to the tracerProvider
, however, it is possible to ensure that all spans are flushed to Lumigo as follows:
import * as lumigo from '@lumigo/opentelemetry';
import { Resource } from '@opentelemetry/resources';
import { BasicTracerProvider } from '@opentelemetry/sdk-trace-base';
const tracerProvider: BasicTracerProvider = (await lumigo.init).tracerProvider;
// Do some quick logic
try {
await tracerProvider.forceFlush();
} catch (err) {
console.error(err);
}
// Now the Node.js process can terminate, with all the spans closed so far sent to Lumigo
A common pattern in SQS-based applications is to continuously poll an SQS queue for messages, and to process them as they arrive. In order not to clutter the Lumigo platform with empty SQS polling messages, the default behavior is to filter them out from being sent to Lumigo.
You can change this behavior by setting the boolean environment variable LUMIGO_AUTO_FILTER_EMPTY_SQS
to FALSE
.
The possible variations are (case-insensitive):
LUMIGO_AUTO_FILTER_EMPTY_SQS=TRUE
filter out empty SQS polling messagesLUMIGO_AUTO_FILTER_EMPTY_SQS=FALSE
do not filter out empty SQS polling messagesYou can selectively filter spans based on HTTP server/client endpoints for various components, not limited to web frameworks.
Set the LUMIGO_FILTER_HTTP_ENDPOINTS_REGEX
environment variable to a list of regex strings. Spans with matching server/client endpoints will not be traced.
For exclusive server (inbound) or client (outbound) span filtering, use the environment variables:
LUMIGO_FILTER_HTTP_ENDPOINTS_REGEX_SERVER
LUMIGO_FILTER_HTTP_ENDPOINTS_REGEX_CLIENT
Notes:
google.com
the environment variable value should be ["google\\.com"]
.Examples:
/login
endpoint (will also match requests such as /login?user=foo
, /login/bar
))):
LUMIGO_FILTER_HTTP_ENDPOINTS_REGEX_SERVER=["\\/login"]
google.com
domain (will also match requests such as google.com/foo
, bar.google.com
):
LUMIGO_FILTER_HTTP_ENDPOINTS_REGEX_CLIENT=["google\\.com"]
'https://www.google.com
(will also match requests such as https://www.google.com/
, https://www.google.com/foo
)
LUMIGO_FILTER_HTTP_ENDPOINTS_REGEX_CLIENT=["https:\\/\\/www\\.google\\.com"]
login
:
LUMIGO_FILTER_HTTP_ENDPOINTS_REGEX=["login"]
For guidelines on contributing, please see CONTRIBUTING.md.
FAQs
Lumigo wrapper to trace distributed architecture
We found that @lumigo/opentelemetry demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 0 open source maintainers collaborating on the project.
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