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Table of Contents
JavaScript
Synchronet uses Mozilla's JavaScript engine (a.k.a. JavaScript-C or “SpiderMonkey”) for its preferred local scripting environment.
Versions
- Synchronet v3.14 used JavaScript v1.5.0
- Synchronet v3.15 used JavaScript v1.7.0
- Synchronet v3.16 uses JavaScript v1.8.5
About
You can learn about the core JavaScript language and object model from the following documents:
JavaScript is an established, mature scripting language syntactically similar to C++ and Java.
The ECMA and ISO standards organizations have standardized the core JavaScript language in ECMA-262 (ECMAScript) and ISO-16262.
Baja and JavaScript
Baja is the original scripting language of Synchronet (introduced in v2.0, 1994), used to create Synchronet-specific modules and command shells. Baja was originally designed as a simple BASIC-like language for controlling the display of menus and command prompts, accepting commands from the user and passing on control to high-level BBS functions. Over the years, Baja has been extended and enhanced to allow a high-level of functionality, but it was never going to reach the power and flexibility of JavaScript.
For example Baja modules and command shells, see the .src
files in your Synchronet exec
directory.
For the foreseeable future Baja modules and command-shells will continue to be supported in Synchronet, but sysops and developers are encouraged to use JavaScript instead of Baja moving forward. With very few exceptions, everything that can be done in a Baja module can be done in a JavaScript module, and much much more.
Eventually, all the stock command-shells and external modules will be converted to JavaScript.
JavaScript Files
JavaScript files are just ASCII text files. They are normally named with a .js
file extension and located in your Synchronet exec
directory or with a .ssjs
file extension and located in your Synchronet web hierarchy. JavaScript files do not need to be compiled. JavaScript files are loaded into memory at the time of execution, so a change to a JavaScript file will take effect the next time that file is executed (no recycling of servers is normally required).
For example JavaScript modules and services, see the .js
files in your Synchronet exec
directory.
Modified stock .js
files should be placed in your Synchronet mods
directory to prevent over-writing by future upgrades.
Integration
JavaScript files can be executed from:
as a timed event, external program (door), login/logon/newuser module, basically anywhere a Baja module or executable can be launched
dynamically generates HTML files,
see web/root/*.ssjs
dynamically generates HTML index files,
see exec/ftp-html.js
and exec/ftp-web-html.js
all services at this time (both static and dynamic) are written in JavaScript,
see exec/*service.js
and ctrl/services.ini
inbound mail processors may be written in JavaScript,
see exec/mailproc_example.js
and ctrl/mailproc.ini
some script files may be executed outside of Synchronet (e.g. as a CGI script or daemon) using jsexec,
examples: ircd.js
, newslink.js
From the Terminal Server, a JavaScript file is executed on a native command-line by placing a question mark (?
) at the beginning of the command-line before the JavaScript file name (in scfg). It is not necessary to specify the .js
portion of the file name on the command-line. For example, the command-line to execute the file exec/newslink.js
would be “?newslink
” or “?newslink.js
”.
From within a Baja module, a JavaScript file may be executed using the following Baja code:
exec "?modname" # where modname is the JavaScript file.
Object Model
Synchronet has its own constantly evolving JavaScript object model (containing classes, objects, methods, and properties), not to be confused with the Document Object Model (DOM) used in web browsers. In order to fully understand the capabilities of JavaScript modules in Synchronet, you must familiarize yourself with Core JavaScript as well as the Synchronet JavaScript Object Model.
load
The Synchronet JavaScript object model includes a global method: load()
(a closely-related require()
method was added in v3.17).
The load
method is used to compile and execute an external script from within a parent script. It is most often used to load numeric constants and object definitions from files in the exec/load
directory as these definitions (e.g. sbbsdefs.js
) and object libraries (e.g. graphic.js
) enable code re-use and sharing among modules, saving us JS programmers and lot of typing and redundancy.
There are 3 primary ways to use the load
method:
1. This example just runs the referenced script name (myscript.js
) and passes the argument values (1, 2, 3
) to the script, saving the result (the last expression evaluated in myscript.js
) in the result
variable:
var result = load('myscript.js', 1, 2, 3);
2. This example runs the referenced script in a background/child thread, passing the argument values (1, 2, 3
) and saving the bi-directional queue that may be used to communicate with the child thread in the queue
variable:
var queue = load(true, 'myscript.js', 1, 2, 3); var value = queue.read(1000); writeln(value);
3. This example runs the referenced script in the scope of the specified object (passing no arguments, though that is supported):
var obj = new Object; load(obj, 'myscript.js');
And a short-hand, preferred, syntax (same result):
var lib = load({}, 'myscript.js');
JavaScript files in the load
directory that end in (last line is) a this;
statement are intended to be load
ed / used in this fashion.
Once a file is loaded in this fashion, any methods, variables, constants or objects defined within may be referenced from the parent script like so:
var lib = load({}, 'mylib.js'); lib.do_thing(); if(lib.status_good == true) writeln('good'); else alert('bad');
This usage expressly places all items created by the loaded script into the scope of the passed variable (in this case, a newly created empty Object, just for this purpose). This means there should be no naming conflicts between the parent script and the loaded script (e.g. they may have methods or variables defined with the same name and there will be no confrict).
Output
There are many different text output methods supported by the Synchronet JavaScript Object Model and knowing which method (function) to use in what situation can be confusing. The following table should help:
Method | BBS1) | JSexec | Prints newline | Expands/Decodes | Multiple Values2) | Notes |
---|---|---|---|---|---|---|
write() | Yes | Yes | No | Telnet-IAC, Ctrl-A | Yes | If user not online, same as log(LOG_INFO, ...) |
write_raw() | Yes | No | No | Telnet-IAC | Yes | Value may contain NULs, no charset translation |
writeln() | Yes | Yes | Yes | Telnet-IAC, Ctrl-A | Yes | aka print() |
printf() | Yes | Yes | No | Telnet-IAC, Ctrl-A | Yes3) | ala C printf() |
alert() | Yes | Yes | Yes | Telnet-IAC, Ctrl-A | No | If user not online, same as log(LOG_WARNING, ...) |
log() | Yes | Yes | N/A | Yes4) | Displayed/logged on the server only | |
console.print() | Yes | No | No | Telnet-IAC, Ctrl-A | Yes | |
console.write() | Yes | No | No | Telnet-IAC | Yes | |
console.writeln() | Yes | No | Yes | Telnet-IAC | Yes | |
console.putmsg() | Yes | No | No | Telnet-IAC, Ctrl-A, @-Codes, Extra Attributes | No | Typically used for displaying text/menu files |
console.center() | Yes | No | Yes | Telnet-IAC, Ctrl-A | No | Text centered on screen |
console.mnemonics() | Yes | No | No | Telnet-IAC, Ctrl-A, @-Codes, ~ | No | Hotkey highlights |
console.putbyte() | Yes | No | No | Telnet-IAC | No | No charset translation |
client.socket.send() | Yes | No | No | No | Avoid using |