Gathering detailed insights and metrics for @cloudflare/workers-types
Gathering detailed insights and metrics for @cloudflare/workers-types
Gathering detailed insights and metrics for @cloudflare/workers-types
Gathering detailed insights and metrics for @cloudflare/workers-types
@cloudflare/kv-asset-handler
Routes requests to KV assets
@remix-run/server-runtime
Server runtime for Remix
@cloudflare/workers-shared
Package that is used at Cloudflare to power some internal features of Cloudflare Workers.
cross-fetch
Universal WHATWG Fetch API for Node, Browsers and React Native
The JavaScript / Wasm runtime that powers Cloudflare Workers
npm install @cloudflare/workers-types
100
Supply Chain
99.7
Quality
99.5
Maintenance
100
Vulnerability
99.6
License
v1.20241127.0
Published on 27 Nov 2024
v1.20241112.0
Published on 12 Nov 2024
v1.20241106.0
Published on 06 Nov 2024
v1.20241022.0
Published on 22 Oct 2024
v1.20241018.0
Published on 18 Oct 2024
v1.20241011.0
Published on 11 Oct 2024
Module System
Unable to determine the module system for this package.
Min. Node Version
Typescript Support
Node Version
NPM Version
6,299 Stars
4,224 Commits
310 Forks
52 Watching
617 Branches
163 Contributors
Updated on 28 Nov 2024
C++ (63.7%)
JavaScript (21.34%)
TypeScript (10.11%)
Starlark (1.8%)
Cap'n Proto (1.45%)
Python (0.89%)
C (0.28%)
Shell (0.19%)
Rust (0.14%)
Batchfile (0.06%)
Dockerfile (0.03%)
Just (0.02%)
Cumulative downloads
Total Downloads
Last day
-15.8%
104,848
Compared to previous day
Last week
4.2%
645,813
Compared to previous week
Last month
7%
2,608,310
Compared to previous month
Last year
118%
23,657,355
Compared to previous year
No dependencies detected.
workerd
, Cloudflare's JavaScript/Wasm Runtimeworkerd
(pronounced: "worker-dee") is a JavaScript / Wasm server runtime based on the same code that powers Cloudflare Workers.
You might use it:
Server-first: Designed for servers, not CLIs nor GUIs.
Standard-based: Built-in APIs are based on web platform standards, such as fetch()
.
Nanoservices: Split your application into components that are decoupled and independently-deployable like microservices, but with performance of a local function call. When one nanoservice calls another, the callee runs in the same thread and process.
Homogeneous deployment: Instead of deploying different microservices to different machines in your cluster, deploy all your nanoservices to every machine in the cluster, making load balancing much easier.
Capability bindings: workerd
configuration uses capabilities instead of global namespaces to connect nanoservices to each other and external resources. The result is code that is more composable -- and immune to SSRF attacks.
Always backwards compatible: Updating workerd
to a newer version will never break your JavaScript code. workerd
's version number is simply a date, corresponding to the maximum "compatibility date" supported by that version. You can always configure your worker to a past date, and workerd
will emulate the API as it existed on that date.
Read the blog post to learn more about these principles.
Although most of workerd
's code has been used in Cloudflare Workers for years, the workerd
configuration format and top-level server code is brand new. We don't yet have much experience running this in production. As such, there will be rough edges, maybe even a few ridiculous bugs. Deploy to production at your own risk (but please tell us what goes wrong!).
The config format may change in backwards-incompatible ways before workerd
leaves beta, but should remain stable after that.
A few caveats:
workerd
world, the server admin wants to see both of these, so logging has become entirely different and, at the moment, is a bit ugly. For now, it may help to run workerd
with the --verbose
flag, which causes application errors to be written to standard error in the same way that internal errors are (but may also produce more noise). We'll be working on making this better out-of-the-box.workerd
runs in a single-threaded event loop. For now, to utilize multiple cores, we suggest running multiple instances of workerd
and balancing load across them. We will likely add some built-in functionality for this in the near future.workerd
performs decently as-is, but not spectacularly. Experiments suggest we can roughly double performance on a "hello world" load test with some tuning of compiler optimization flags and memory allocators.workerd test
format and move them to this repo; this is an ongoing effort. For the time being, we will be counting on the internal tests to catch bugs. We understand this is not ideal for external contributors trying to test their changes.workerd
is not a hardened sandboxworkerd
tries to isolate each Worker so that it can only access the resources it is configured to access. However, workerd
on its own does not contain suitable defense-in-depth against the possibility of implementation bugs. When using workerd
to run possibly-malicious code, you must run it inside an appropriate secure sandbox, such as a virtual machine. The Cloudflare Workers hosting service in particular uses many additional layers of defense-in-depth.
With that said, if you discover a bug that allows malicious code to break out of workerd
, please submit it to Cloudflare's bug bounty program for a reward.
In theory, workerd
should work on any POSIX system that is supported by V8 and Windows.
In practice, workerd
is tested on:
On other platforms, you may have to do tinkering to make things work.
workerd
To build workerd
, you need:
We use the clang/LLVM toolchain to build workerd and support version 16 and higher. Earlier versions of clang may still work, but are not officially supported.
Clang 16+ (e.g. package clang-16
on Debian Bookworm). If clang is installed as clang-<version>
please create a symlink to it in your PATH named clang
, or use --action_env=CC=clang-<version>
on bazel
command lines to specify the compiler name.
libc++ 16+ (e.g. packages libc++-16-dev
and libc++abi-16-dev
)
LLD 16+ (e.g. package lld-16
).
python3
, python3-distutils
, and tcl8.6
tcl-tk
package (provides Tcl 8.6)winget
package manager and then run
install-deps.bat from an administrator prompt to install
bazelisk, LLVM, and other dependencies required to build workerd on Windows.startup --output_user_root=C:/tmp
to the .bazelrc
file in your user directory.You may then build workerd
at the command-line with:
1bazel build //src/workerd/server:workerd
You can also build from within Visual Studio Code using the instructions in docs/vscode.md.
The compiled binary will be located at bazel-bin/src/workerd/server/workerd
.
If you run a Bazel build before you've installed some dependencies (like clang or libc++), and then you install the dependencies, you must resync locally cached toolchains, or clean Bazel's cache, otherwise you might get strange errors:
1bazel sync --configure
If that fails, you can try:
1bazel clean --expunge
The cache will now be cleaned and you can try building again.
If you have a fairly recent clang packages installed you can build a more performant release version of workerd:
1bazel build --config=thin-lto //src/workerd/server:workerd
workerd
workerd
is configured using a config file written in Cap'n Proto text format.
A simple "Hello World!" config file might look like:
1using Workerd = import "/workerd/workerd.capnp"; 2 3const config :Workerd.Config = ( 4 services = [ 5 (name = "main", worker = .mainWorker), 6 ], 7 8 sockets = [ 9 # Serve HTTP on port 8080. 10 ( name = "http", 11 address = "*:8080", 12 http = (), 13 service = "main" 14 ), 15 ] 16); 17 18const mainWorker :Workerd.Worker = ( 19 serviceWorkerScript = embed "hello.js", 20 compatibilityDate = "2023-02-28", 21 # Learn more about compatibility dates at: 22 # https://developers.cloudflare.com/workers/platform/compatibility-dates/ 23);
Where hello.js
contains:
1addEventListener("fetch", event => { 2 event.respondWith(new Response("Hello World")); 3});
Complete reference documentation is provided by the comments in workerd.capnp.
There is also a library of sample config files.
(TODO: Provide a more extended tutorial.)
workerd
To serve your config, do:
workerd serve my-config.capnp
For more details about command-line usage, use workerd --help
.
Prebuilt binaries are distributed via npm
. Run npx workerd ...
to use these. If you're running a prebuilt binary, you'll need to make sure your system has the right dependencies installed:
xcode-select --install
wrangler
You can use Wrangler (v3.0 or greater) to develop Cloudflare Workers locally, using workerd
. Run:
wrangler dev
workerd
is designed to be unopinionated about how it runs.
One good way to manage workerd
in production is using systemd
. Particularly useful is systemd
's ability to open privileged sockets on workerd
's behalf while running the service itself under an unprivileged user account. To help with this, workerd
supports inheriting sockets from the parent process using the --socket-fd
flag.
Here's an example system service file, assuming your config defines two sockets named http
and https
:
1# /etc/systemd/system/workerd.service 2[Unit] 3Description=workerd runtime 4After=local-fs.target remote-fs.target network-online.target 5Requires=local-fs.target remote-fs.target workerd.socket 6Wants=network-online.target 7 8[Service] 9Type=exec 10ExecStart=/usr/bin/workerd serve /etc/workerd/config.capnp --socket-fd http=3 --socket-fd https=4 11Sockets=workerd.socket 12 13# If workerd crashes, restart it. 14Restart=always 15 16# Run under an unprivileged user account. 17User=nobody 18Group=nogroup 19 20# Hardening measure: Do not allow workerd to run suid-root programs. 21NoNewPrivileges=true 22 23[Install] 24WantedBy=multi-user.target
And corresponding sockets file:
1# /etc/systemd/system/workerd.socket 2[Unit] 3Description=sockets for workerd 4PartOf=workerd.service 5 6[Socket] 7ListenStream=0.0.0.0:80 8ListenStream=0.0.0.0:443 9 10[Install] 11WantedBy=sockets.target
(TODO: Fully explain how to get systemd to recognize these files and start the service.)
No vulnerabilities found.
No security vulnerabilities found.