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@sentry/profiling-node
Advanced tools
Profiling works as an extension of tracing so you will need both @sentry/node and @sentry/profiling-node installed. The minimum required major version of @sentry/node that supports profiling is 7.x.
# Using yarn
yarn add @sentry/node @sentry/profiling-node
# Using npm
npm install --save @sentry/node @sentry/profiling-node
import * as Sentry from '@sentry/node';
import { nodeProfilingIntegration } from '@sentry/profiling-node';
Sentry.init({
dsn: 'https://7fa19397baaf433f919fbe02228d5470@o1137848.ingest.sentry.io/6625302',
debug: true,
tracesSampleRate: 1,
profilesSampleRate: 1, // Set profiling sampling rate.
integrations: [nodeProfilingIntegration()],
});
Sentry SDK will now automatically profile all root spans, even the ones which may be started as a result of using an automatic instrumentation integration.
Sentry.startSpan({ name: 'some workflow' }, () => {
// The code in here will be profiled
});
Profiling uses native modules to interop with the v8 javascript engine which means that you may be required to build it from source. The libraries required to successfully build the package from source are often the same libraries that are already required to build any other package which uses native modules and if your codebase uses any of those modules, there is a fairly good chance this will work out of the box. The required packages are python, make and g++.
Windows: If you are building on windows, you may need to install windows-build-tools
# using yarn package manager
yarn global add windows-build-tools
# or npm package manager
npm i -g windows-build-tools
We currently ship prebuilt binaries for a few of the most common platforms and node versions (v16-22).
For a more detailed list, see job_compile_bindings_profiling_node job in our build.yml github action workflow.
If you are looking to squeeze some extra performance or improve cold start in your application (especially true for serverless environments where modules are often evaluates on a per request basis), then we recommend you look into bundling your code. Modern JS engines are much faster at parsing and compiling JS than following long module resolution chains and reading file contents from disk. Because @sentry/profiling-node is a package that uses native node modules, bundling it is slightly different than just bundling javascript. In other words, the bundler needs to recognize that a .node file is node native binding and move it to the correct location so that it can later be used. Failing to do so will result in a MODULE_NOT_FOUND error.
The easiest way to make bundling work with @sentry/profiling-node and other modules which use native nodejs bindings is to mark the package as external - this will prevent the code from the package from being bundled, but it means that you will now need to rely on the package to be installed in your production environment.
To mark the package as external, use the following configuration:
const { withSentryConfig } = require('@sentry/nextjs');
/** @type {import('next').NextConfig} */
const nextConfig = {
experimental: {
// Add the "@sentry/profiling-node" to serverComponentsExternalPackages.
serverComponentsExternalPackages: ['@sentry/profiling-node'],
},
};
module.exports = withSentryConfig(nextConfig, {
/* ... */
});
externals: {
"@sentry/profiling-node": "commonjs @sentry/profiling-node",
},
{
entryPoints: ['index.js'],
platform: 'node',
external: ['@sentry/profiling-node'],
}
{
entry: 'index.js',
external: '@sentry/profiling-node'
}
serverless-esbuild (serverless.yml)
custom:
esbuild:
external:
- @sentry/profiling-node
packagerOptions:
scripts:
- npm install @sentry/profiling-node
{
externals: ["@sentry/profiling-node"],
}
ssr: {
external: ['@sentry/profiling-node'];
}
Marking the package as external is the simplest and most future proof way of ensuring it will work, however if you want to bundle it, it is possible to do so as well. Bundling has the benefit of improving your script startup time as all of the code is (usually) inside a single executable .js file, which saves time on module resolution.
In general, when attempting to bundle .node native file extensions, you will need to tell your bundler how to treat these, as by default it does not know how to handle them. The required approach varies between build tools and you will need to find which one will work for you.
The result of bundling .node files correctly is that they are placed into your bundle output directory with their require paths updated to reflect their final location.
Example of bundling @sentry/profiling-node with esbuild and .copy loader
// package.json
{
"scripts": "node esbuild.serverless.js"
}
// esbuild.serverless.js
const { sentryEsbuildPlugin } = require('@sentry/esbuild-plugin');
require('esbuild').build({
entryPoints: ['./index.js'],
outfile: './dist',
platform: 'node',
bundle: true,
minify: true,
sourcemap: true,
// This is no longer necessary
// external: ["@sentry/profiling-node"],
loader: {
// ensures .node binaries are copied to ./dist
'.node': 'copy',
},
plugins: [
// See https://docs.sentry.io/platforms/javascript/sourcemaps/uploading/esbuild/
sentryEsbuildPlugin({
project: '',
org: '',
authToken: '',
release: '',
sourcemaps: {
// Specify the directory containing build artifacts
assets: './dist/**',
},
}),
],
});
Once you run node esbuild.serverless.js
esbuild wil bundle and output the files to ./dist folder, but note that all of
the binaries will be copied. This is wasteful as you will likely only need one of these libraries to be available during
runtime.
To prune the other libraries, profiling-node ships with a small utility script that helps you prune unused binaries. The
script can be invoked via sentry-prune-profiler-binaries
, use --help
to see a list of available options or
--dry-run
if you want it to log the binaries that would have been deleted.
Example of only preserving a binary to run node16 on linux x64 musl.
sentry-prune-profiler-binaries --target_dir_path=./dist --target_platform=linux --target_node=16 --target_stdlib=musl --target_arch=x64
Which will output something like
Sentry: pruned ./dist/sentry_cpu_profiler-darwin-x64-108-IFGH3SUR.node (90.41 KiB)
Sentry: pruned ./dist/sentry_cpu_profiler-darwin-x64-93-Q7KBVHSP.node (74.16 KiB)
Sentry: pruned ./dist/sentry_cpu_profiler-linux-arm64-glibc-108-NXSISRTB.node (52.17 KiB)
Sentry: pruned ./dist/sentry_cpu_profiler-linux-arm64-glibc-83-OEQT5HUK.node (52.08 KiB)
Sentry: pruned ./dist/sentry_cpu_profiler-linux-arm64-glibc-93-IIXXW2PN.node (52.06 KiB)
Sentry: pruned ./dist/sentry_cpu_profiler-linux-arm64-musl-108-DSILNYHA.node (48.46 KiB)
Sentry: pruned ./dist/sentry_cpu_profiler-linux-arm64-musl-83-4CNOBNC3.node (48.37 KiB)
Sentry: pruned ./dist/sentry_cpu_profiler-linux-arm64-musl-93-JA5PKNWQ.node (48.38 KiB)
Sentry: pruned ./dist/sentry_cpu_profiler-linux-x64-glibc-108-NXSISRTB.node (52.17 KiB)
Sentry: pruned ./dist/sentry_cpu_profiler-linux-x64-glibc-83-OEQT5HUK.node (52.08 KiB)
Sentry: pruned ./dist/sentry_cpu_profiler-linux-x64-glibc-93-IIXXW2PN.node (52.06 KiB)
Sentry: pruned ./dist/sentry_cpu_profiler-linux-x64-musl-108-CX7SL27U.node (51.50 KiB)
Sentry: pruned ./dist/sentry_cpu_profiler-linux-x64-musl-83-YD7ZQK2E.node (51.53 KiB)
Sentry: pruned ./dist/sentry_cpu_profiler-win32-x64-108-P7V3URQV.node (181.50 KiB)
Sentry: pruned ./dist/sentry_cpu_profiler-win32-x64-93-3PKQDSGE.node (181.50 KiB)
ā
Sentry: pruned 15 binaries, saved 1.06 MiB in total.
The default mode of the v8 CpuProfiler is kEagerLoggin which enables the profiler even when no profiles are active -
this is good because it makes calls to startProfiling fast at the tradeoff for constant CPU overhead. The behavior can
be controlled via the SENTRY_PROFILER_LOGGING_MODE
environment variable with values of eager|lazy
. If you opt to use
the lazy logging mode, calls to startProfiling may be slow (depending on environment and node version, it can be in the
order of a few hundred ms).
Example of starting a server with lazy logging mode.
SENTRY_PROFILER_LOGGING_MODE=lazy node server.js
The profiler does not collect function arguments so leaking any PII is unlikely. We only collect a subset of the values which may identify the device and os that the profiler is running on (if you are already using tracing, it is likely that these values are already being collected by the SDK).
There is one way a profiler could leak pii information, but this is unlikely and would only happen for cases where you might be creating or naming functions which might contain pii information such as
eval('function scriptFor${PII_DATA}....');
In that case it is possible that the function name may end up being reported to Sentry.
No. All instances of the profiler are scoped per thread In practice, this means that starting a transaction on thread A and delegating work to thread B will only result in sample stacks being collected from thread A. That said, nothing should prevent you from starting a transaction on thread B concurrently which will result in two independant profiles being sent to the Sentry backend. We currently do not do any correlation between such transactions, but we would be open to exploring the possibilities. Please file an issue if you have suggestions or specific use-cases in mind.
The profiler uses the kEagerLogging option by default which trades off fast calls to startProfiling for a small amount of constant CPU overhead. If you are using kEagerLogging then the tradeoff is reversed and there will be a small CPU overhead while the profiler is not running, but calls to startProfiling could be slow (in our tests, this varies by environments and node versions, but could be in the order of a couple 100ms).
8.9.1
feat(solid): Add Solid SDK
This release adds a dedicated SDK for Solid JS in alpha state with instrumentation for
Solid Router and a custom ErrorBoundary
. See the
package README for how to use
the SDK.
op
to Otel-generated lambda function root span (#12430)awslambda-auto
(#12392)Work in this release was contributed by @soch4n. Thank you for your contribution!
FAQs
Official Sentry SDK for Node.js Profiling
The npm package @sentry/profiling-node receives a total of 490,516 weekly downloads. As such, @sentry/profiling-node popularity was classified as popular.
We found that @sentry/profiling-node demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago.Ā It has 11 open source maintainers collaborating on the project.
Did you know?
Socket for GitHub automatically highlights issues in each pull request and monitors the health of all your open source dependencies. Discover the contents of your packages and block harmful activity before you install or update your dependencies.
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