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Before you can use js-ctypes, you need to import the ctypes.jsm code module. This is as simple as including the following line of code in the desired JavaScript scope:
Components.utils.import("resource://gre/modules/ctypes.jsm")
Loading a native library
Once you've imported the code module, you can call the ctypes.open()
method to load each native library you wish to use. On Windows, for example, you might load the system user32 library like this:
var lib = ctypes.open("user32.dll");
On Mac OS X, you can load the Core Foundation library from the Core Foundation framework like this:
var coreFoundation = ctypes.open("/System/Library/Frameworks/CoreFoundation.framework/CoreFoundation");
The returned object is a Library object that you use to declare functions and data types for use with the loaded library.
Library search paths
If you specify a full path, that path is used to load the library. Otherwise, the system looks for the library in its standard locations.
Windows
On Windows, the following locations are searched for the library, in this order:
- The application's directory.
- The system directory.
- The 16-bit system directory.
- The Windows directory.
- The current working directory
- The directories listed in the
PATH
environment variable.
After you're done
When you're finished using a library, you should close it by calling the Library
object's close()
method:
lib.close();
If you fail to close the library, it will be automatically closed when it is garbage collected.
Using the library
You may need to declare new types. These can be simple types or more complex types such as structures. See Declaring types for details. You will almost certainly need to declare one or more functions, so that you can call them.
Once you've declared the types and functions, you can write your code to make use of them. Instantiating C data objects and referencing them is covered in the article Working with data.
Memory management
moved to Memory Management page.
Examples
These examples offer a quick look at how js-ctypes is used. See js-ctypes examples for more intricate examples.
Calling Windows routines
This example demonstrates how to use ctypes to call a Win32 API.
Components.utils.import("resource://gre/modules/ctypes.jsm"); var lib = ctypes.open("C:\\WINDOWS\\system32\\user32.dll"); /* Declare the signature of the function we are going to call */ var msgBox = lib.declare("MessageBoxW", ctypes.winapi_abi, ctypes.int32_t, ctypes.int32_t, ctypes.jschar.ptr, ctypes.jschar.ptr, ctypes.int32_t); var MB_OK = 0; var ret = msgBox(0, "Hello world", "title", MB_OK); lib.close();
In line 3, the user32.dll
system library is loaded. Line 6 declares msgBox()
to be a method that calls the Windows function MessageBoxW
. Line 15 calls the msgBox()
routine, which displays the alert.
The last thing we do is call lib.close()
to close the library when we're done using it.
Instead of defining the whole path, you may also just give the file name.
ABOUT DECLARING THE FUNCTION
How we knew how to declare the function was by going to MSDN site and looking at the MessageBox (MessageBoxW is just a unicode version of same function) function. Also learn about the lib.declare function used here: lib.declare. Learn about the data types used here: Data Types. We see that it needs to be defined like this:
int WINAPI MessageBox( _In_opt_ HWND hWnd, _In_opt_ LPCTSTR lpText, _In_opt_ LPCTSTR lpCaption, _In_ UINT uType );
So we read this article here on defining types and replicate it: Declaring Types
var lib = ctypes.open("user32.dll");
Or even without the extension.
var lib = ctypes.open("user32");
Calling Carbon routines on Mac OS X
This example demonstrates how to use ctypes to call a Carbon function on Mac OS X.
/* build a Str255 ("Pascal style") string from the passed-in string */ function makeStr(str) { return String.fromCharCode(str.length) + str; } Components.utils.import("resource://gre/modules/ctypes.jsm"); var carbon = ctypes.open("/System/Library/Frameworks/Carbon.framework/Carbon"); stdAlert = carbon.declare("StandardAlert", /* function name */ ctypes.default_abi, /* ABI type */ ctypes.int16_t, /* return type */ ctypes.int16_t, /* alert type */ ctypes.char.ptr, /* primary text */ ctypes.char.ptr, /* secondary text */ ctypes.uint32_t, /* alert param */ ctypes.int16_t); /* item hit */ var hit = 0; var msgErr = makeStr("Carbon Says..."); var msgExp = makeStr("We just called the StandardAlert Carbon function from JavaScript!"); var err = stdAlert(1, msgErr, msgExp, 0, hit); carbon.close();
The makeStr()
function is a utility routine that takes as input a standard JavaScript string and returns a Carbon-style "Pascal" string, which is a length byte followed by the characters of the string itself. Note that this only works correctly if the string is in fact under 256 characters; if it's longer, this will fail spectacularly.
In line 9, the Carbon library is loaded from the system's Carbon framework.
Line 11 declares the stdAlert()
function, which will call the Carbon StandardAlert
routine. It uses the default ABI, returns a 16-bit integer (which is a Carbon OSErr
value), and accepts an integer (the alert type), two strings, a pointer to a parameter block, which we aren't using, and another integer, which is used to return the hit item. See Apple's documentation for StandardAlert
for details.
After that, we simply set up our parameters by using makeStr()
to generate the two Str255
strings we need, then call stdAlert()
, which produces the following alert window:
The last thing we do is call carbon.close()
to close the library when we're done using it.
Standard Alert in 64bit OS X
Carbon is not available in 64bit versions of OS X, therefore Core Foundation must be used. The below will do the same as StandardAlert
from above, it will use the Core Foundation function of CFUserNotificationDisplayNotice
.
Cu.import('resource://gre/modules/ctypes.jsm'); var libcf = ctypes.open('/System/Library/Frameworks/CoreFoundation.framework/CoreFoundation'); // DEFINE TYPES var CFIndex = ctypes.long; var CFOptionFlags = ctypes.unsigned_long; var CFTimeInterval = ctypes.double; var CFTypeRef = ctypes.voidptr_t; var SInt32 = ctypes.long; var VOID = ctypes.void_t; var __CFString = new ctypes.StructType("__CFString"); var CFStringRef = __CFString.ptr; var __CFURL = new ctypes.StructType("__CFURL"); var CFURLRef = __CFURL.ptr; var __CFAllocator = new ctypes.StructType("__CFAllocator"); var CFAllocatorRef = __CFAllocator.ptr; var UniChar = ctypes.jschar; // uint16 with automatic conversion // DEFINE CONSTANTS var kCFUserNotificationStopAlertLevel = 0; var kCFUserNotificationNoteAlertLevel = 1; var kCFUserNotificationCautionAlertLevel = 2; var kCFUserNotificationPlainAlertLevel = 3; // DECLARE FUNCTIONS /* https://developer.apple.com/library/mac/documentation/CoreFoundation/Reference/CFUserNotificationRef/index.html#//apple_ref/c/func/CFUserNotificationDisplayNotice * SInt32 CFUserNotificationDisplayNotice ( * CFTimeInterval timeout, * CFOptionFlags flags, * CFURLRef iconURL, * CFURLRef soundURL, * CFURLRef localizationURL, * CFStringRef alertHeader, * CFStringRef alertMessage, * CFStringRef defaultButtonTitle * ); */ var CFUserNotificationDisplayNotice = libcf.declare("CFUserNotificationDisplayNotice", ctypes.default_abi, SInt32, // return CFTimeInterval, // timeout CFOptionFlags, // flags CFURLRef, // iconURL CFURLRef, // soundURL CFURLRef, // localizationURL CFStringRef, // alertHeader CFStringRef, // alertMessage CFStringRef // defaultButtonTitle ); /* https://developer.apple.com/library/mac/documentation/CoreFoundation/Reference/CFTypeRef/#//apple_ref/c/func/CFRelease * void CFRelease ( * CFTypeRef cf * ); */ var CFRelease = libcf.declare('CFRelease', ctypes.default_abi, VOID, // return CFTypeRef // cf ); /* https://developer.apple.com/library/mac/documentation/CoreFoundation/Reference/CFStringRef/#//apple_ref/c/func/CFStringCreateWithCharacters * CFStringRef CFStringCreateWithCharacters ( * CFAllocatorRef alloc, * const UniChar *chars, * CFIndex numChars * ); */ var CFStringCreateWithCharacters = libcf.declare('CFStringCreateWithCharacters', ctypes.default_abi, CFStringRef, // return CFAllocatorRef, // alloc UniChar.ptr, // *chars CFIndex // numChars ); // HELPER FUNCTIONS function makeCFStr(jsStr) { // js str is just a string // returns a CFStr that must be released with CFRelease when done return CFStringCreateWithCharacters(null, jsStr, jsStr.length); } // MAIN var myCFStrs = { head: makeCFStr('Core Foundation Says...'), body: makeCFStr('We just called the equivalent of the "StandardAlert Carbon function" for 64bit OSX from JavaScript!') }; var rez = CFUserNotificationDisplayNotice(0, kCFUserNotificationCautionAlertLevel, null, null, null, myCFStrs.head, myCFStrs.body, null); console.info('rez:', rez, rez.toString(), uneval(rez)); // CFUserNotificationDisplayNotice does not block till user clicks dialog, it will return immediately if (rez.toString() == '0') { console.log('Notification was succesfully shown!!'); } else { console.error('Failed to show notification... :('); } for (var cfstr in myCFStrs) { if (myCFStrs.hasOwnProperty(cfstr)) { var rez_CFRelease = CFRelease(myCFStrs[cfstr]); // returns void } } libcf.close();
Calling LibC routines on Linux/POSIX
This example demonstrates how to use ctypes to call a libc function on Linux.
/* import js-ctypes */ var {Cu} = require("chrome"); var {ctypes} = Cu.import("resource://gre/modules/ctypes.jsm", null); /* Open the library */ try { /* Linux */ var libc = ctypes.open("libc.so.6"); } catch (e) { /* Most other Unixes */ libc = ctypes.open("libc.so"); } /* Import a function */ var puts = libc.declare("puts", /* function name */ ctypes.default_abi, /* call ABI */ ctypes.int, /* return type */ ctypes.char.ptr); /* argument type */ var ret = puts("Hello World from js-ctypes!"); libc.close();