6

Is there any way to get access to function pointers living inside a WebAssembly module?

For example, given the following "module" compiled to WebAssembly:

extern void set_callback(void (*callback)(void *arg), void *arg);

static void callback(void *arg)
{
  /* ... */
}

int main() {
  set_callback(&callback, 0);
  return 0;
}

Can an implementation of do_callback in JavaScript invoke the callback without having to rely on an intermediary C function export to do the actual function call?

var instance = new WebAssembly.Instance(module, {
  memory: /* ... */
  env: {
    set_callback: function set_callback(callbackptr, argptr) {
      // We only got the pointer, is there any  
    },
  },
}); 

By intermediary function export, I mean that I could add an internal function with public visibility.

do_callback(void (*callback)(void *arg), void *arg)
{
  callback();
} 

Then the JavaScript set_callback function can call the function pointer via the delegate do_callback function.

function set_callback(callbackptr, argptr) {
  instance.exports.do_callback(callbackptr, argptr);
}

But, it's preferable to do this without having to go through that explicit indirection, is it possible, with function tables maybe?

2
+250

You can invoke function pointers from Javascript.

Function pointers are stored in a Table. When a function pointer is passed to Javascript you are receiving the integer index into the table for that function pointer. Pass that index to Table.prototype.get() and you can call the function.

...

set_callback: function set_callback(callbackptr, argptr) {
  tbl.get(callbackptr)(argptr);
},

...

You can read more about this on this MDN page under the Tables section: https://developer.mozilla.org/en-US/docs/WebAssembly/Using_the_JavaScript_API#Tables

Edit: Here is the minimal example I used to test this.

The first file is fptr.c compiled with emcc fptr.c -Os -s WASM=1 -s SIDE_MODULE=1 -o fptr.wasm

typedef int (*fptr_type)(void);

extern void pass_fptr_to_js(fptr_type fptr);

static int callback_0(void)
{
    return 26;
}

static int callback_1(void)
{
    return 42;
}

void run_test()
{
    pass_fptr_to_js(callback_0);
    pass_fptr_to_js(callback_1);
}

And here is fptr.html

<!DOCTYPE html>
<html lang="en">
<head>
    <meta charset="UTF-8">
    <title>WebAssembly Experiment</title>
</head>
<body>
    <h3>Check the console.</h3>
    <script type="text/javascript">
        fetch('fptr.wasm').then(function(response) {
            response.arrayBuffer().then(function(buffer) {
                WebAssembly.compile(buffer).then(function(module) {
                    var imports = {};

                    imports.env = {};

                    imports.env.memoryBase = 0;
                    imports.env.memory = new WebAssembly.Memory({ initial: 256 });
                    imports.env.tableBase = 0;
                    imports.env.table = new WebAssembly.Table({ initial: 4, element: 'anyfunc' });

                    imports.env["abort"] = function() {
                        console.error("ABORT");
                    };

                    imports.env["_pass_fptr_to_js"] = function(fptr) {
                        console.log("table index: " + fptr + ", return value: " + imports.env.table.get(fptr)());
                    };

                    WebAssembly.instantiate(module, imports).then(function(instance) {
                        instance.exports["__post_instantiate"]();
                        instance.exports["_run_test"]();
                    });
                });
            });
        });
    </script>
</body>
</html>
  • @CasperBeyer I've edited my post to include the working example I used to test this. – Ghillie Aug 1 '17 at 4:00
  • How would I get clang to generate imports for table and memory without Emscripten? Do it at the linker level? e.g wasm-link with an "empty" module containing the imports? – Casper Beyer Aug 3 '17 at 5:38
  • @CasperBeyer This sounds like a new unrelated question. If you post it as such it will have more visibility. – kazemakase Aug 4 '17 at 6:21
0

The issue back then was that Clang basically did not implement call_indirect and did not actually populate the function table with anything during code generation.

Has been resolved in the current version of LLVM.

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