e99854afdf
This exposes various WebAssembly language module specific options.
The application type is "wasm".
There is a "module" option that is required, this specifies the full
path to the WebAssembly module to be run. This module should be in
binary format, i.e a .wasm file.
There are also currently eight function handlers that can be specified.
Three of them are _required_
1) request_handler
The main driving function. This may be called multiple times for a
single HTTP request if the request is larger than the shared memory.
2) malloc_handler
Used to allocate a chunk of memory at language module startup. This
memory is allocated from the WASM modules address space and is what is
sued for communicating between the WASM module (the guest) and Unit (the
host).
3) free_handler
Used to free the memory from above at language module shutdown.
Then there are the following five _optional_ handlers
1) module_init_handler
If set, called at language module startup.
2) module_end_handler
If set, called at language module shutdown.
3) request_init_handler
If set, called at the start of request. Called only once per HTTP
request.
4) request_end_handler
If set, called once all of a request has been sent to the WASM module.
5) response_end_handler
If set, called at the end of a request, once the WASM module has sent
all its headers and data.
Example config
"applications": {
"luw-echo-request": {
"type": "wasm",
"module": "/path/to/unit-wasm/examples/c/luw-echo-request.wasm",
"request_handler": "luw_request_handler",
"malloc_handler": "luw_malloc_handler",
"free_handler": "luw_free_handler",
"module_init_handler": "luw_module_init_handler",
"module_end_handler": "luw_module_end_handler",
}
}
Reviewed-by: Alejandro Colomar <alx@nginx.com>
Signed-off-by: Andrew Clayton <a.clayton@nginx.com>
NGINX Unit
Universal Web App Server
NGINX Unit is a lightweight and versatile open-source server that has two primary capabilities:
- serves static media assets,
- runs application code in seven languages.
Unit compresses several layers of the modern application stack into a potent, coherent solution with a focus on performance, low latency, and scalability. It is intended as a universal building block for any web architecture regardless of its complexity, from enterprise-scale deployments to your pet's homepage.
Its native RESTful JSON API enables dynamic updates with zero interruptions and flexible configuration, while its out-of-the-box productivity reliably scales to production-grade workloads. We achieve that with a complex, asynchronous, multithreading architecture comprising multiple processes to ensure security and robustness while getting the most out of today's computing platforms.
Quick Installation
macOS
$ brew install nginx/unit/unit
For details and available language packages, see the docs.
Docker
$ docker pull unit
For a description of image tags, see the docs.
Amazon Linux, Fedora, RedHat
$ wget https://raw.githubusercontent.com/nginx/unit/master/tools/setup-unit && chmod +x setup-unit
# ./setup-unit repo-config && yum install unit
# ./setup-unit welcome
For details and available language packages, see the docs.
Debian, Ubuntu
$ wget https://raw.githubusercontent.com/nginx/unit/master/tools/setup-unit && chmod +x setup-unit
# ./setup-unit repo-config && apt install unit
# ./setup-unit welcome
For details and available language packages, see the docs.
Running a Hello World App
Unit runs apps in a variety of languages. Let's consider a basic example, choosing PHP for no particular reason.
Suppose you saved a PHP script as /www/helloworld/index.php:
<?php echo "Hello, PHP on Unit!"; ?>
To run it on Unit with the unit-php module installed, first set up an
application object. Let's store our first config snippet in a file called
config.json:
{
"helloworld": {
"type": "php",
"root": "/www/helloworld/"
}
}
Saving it as a file isn't necessary, but can come in handy with larger objects.
Now, PUT it into the /config/applications section of Unit's control API,
usually available by default via a Unix domain socket:
# curl -X PUT --data-binary @config.json --unix-socket \
/path/to/control.unit.sock http://localhost/config/applications
{
"success": "Reconfiguration done."
}
Next, reference the app from a listener object in the /config/listeners
section of the API. This time, we pass the config snippet straight from the
command line:
# curl -X PUT -d '{"127.0.0.1:8000": {"pass": "applications/helloworld"}}' \
--unix-socket /path/to/control.unit.sock http://localhost/config/listeners
{
"success": "Reconfiguration done."
}
Now Unit accepts requests at the specified IP and port, passing them to the application process. Your app works!
$ curl 127.0.0.1:8080
Hello, PHP on Unit!
Finally, query the entire /config section of the control API:
# curl --unix-socket /path/to/control.unit.sock http://localhost/config/
Unit's output should contain both snippets, neatly organized:
{
"listeners": {
"127.0.0.1:8080": {
"pass": "applications/helloworld"
}
},
"applications": {
"helloworld": {
"type": "php",
"root": "/www/helloworld/"
}
}
}
For full details of configuration management, see the docs.
OpenAPI Specification
Our OpenAPI specification aims to simplify configuring and integrating NGINX Unit deployments and provide an authoritative source of knowledge about the control API.
Although the specification is still in the early beta stage, it is a promising step forward for the NGINX Unit community. While working on it, we kindly ask you to experiment and provide feedback to help improve its functionality and usability.
Community
-
The go-to place to start asking questions and share your thoughts is our Slack channel.
-
Our GitHub issues page offers space for a more technical discussion at your own pace.
-
The project map on GitHub sheds some light on our current work and plans for the future.
-
Our official website may provide answers not easily found otherwise.
-
Get involved with the project by contributing! See the contributing guide for details.
-
To reach the team directly, subscribe to the mailing list.
-
For security issues, email us, mentioning NGINX Unit in the subject and following the CVSS v3.1 spec.