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Run JavaScript from Erlang in an external OS process.

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erlang_v8

Run JavaScript from Erlang in an external OS process.

This is an experiment to see if embedding v8 in an actual OS process is more predictable than using a port driver or NIF. I will give the project proper attention if the experiment works out.

The most notable features:

  • You can eval/3 things like "while (true) {}" with a timeout and have the v8 VM actually terminate when it times out.
  • Multiple separate contexts per VM. This is useful when you want multiple parties to share the same VM(s).
  • A VM can be initialized with pre-defined source that's loaded into the OS process and available in all contexts (CURRENTLY BROKEN).

I'm also planning two-way communication (i.e. passing messages back to the controlling process from JS) and a few other things.

Building

Subversion, pkg-config, libtinfo and Python 2.6-2.7 (needed by GYP) are required to build v8.

Build using make:

make

GYP is not compatible with Python3. If python3 is the default, you can symlink python2 to ~/bin and set your path temporarily before compiling:

ln -s /usr/bin/python2 ~/bin/python
PATH=$HOME/bin:$PATH make

Tests

You can run a few tests to verify basic functionality:

make test

Usage

Start a VM:

{ok, VM} = erlang_v8:start_vm().

Create a context:

{ok, Context} = erlang_v8:create_context(VM).

Define a function:

{ok, undefined} =
    erlang_v8:eval(VM, Context, <<"function sum(a, b) { return a + b }">>).

Call the function:

{ok, 2} = erlang_v8:call(VM, Context, <<"sum">>, [1, 1]).

Destroy the Context:

erlang_v8:destroy_context(VM, Context).

Stop the VM:

ok = erlang_v8:stop_vm(VM).

VMs can be initialized with code that is automatically available in all contexts (CURRENTLY BROKEN):

{ok, VM} = erlang_v8:start_vm([{source, <<"var x = 1;">>}]).
{ok, Context1} = erlang_v8:create_context(VM).

{ok, 1} = erlang_v8:eval(VM, Context1, <<"x;">>).
{ok, 2} = erlang_v8:eval(VM, Context1, <<"x = 2;">>).
{ok, 2} = erlang_v8:eval(VM, Context1, <<"x;">>).

{ok, Context2} = erlang_v8:create_context(VM).
{ok, 1} = erlang_v8:eval(VM, Context2, <<"x;">>).

erlang_v8:destroy_context(VM, Context1).
erlang_v8:destroy_context(VM, Context2).

ok = erlang_v8:stop_vm(VM).

You can also initialize the VMs using paths to source files (CURRENTLY BROKEN):

{ok, VM} = erlang_v8:start_vm([{file, "a.js"}, {file, "b.js"}]).

Set a custom timeout (defaults to 5000):

{error, timeout} =  erlang_v8:eval(VM, Context, <<"while (true) {}">>, 500).

Pooling

You might want to use some kind of pooling mechanism as the VMs are real OS processes. I've had much success using devinus/poolboy for this purpose in the past (I considered including the application, but decided against it as it might not always be desirable to have a pool. Besides, poolboy is easy to set up).

I'm also working on strange/erlang-v8-lib, a little framework that, among other things, implements a pool.

Updating V8

There are new tagged releases from the official V8 repo every four weeks; however, not all are stable. Keep reading...

However, DO NOT merely pull from their git repo.

First, find the latest stable tagged version https://gist.github.com/domenic/aca7774a5d94156bfcc1

For Linux and Mac, look for the stable channel of each within the OmahaProxy table. (If your browser window is too narrow, be sure to scroll right to expose the v8_version column after locating the appropriate row.)

Ideally, that version string may be inserted into our Makefile as the value of V8_VERSION, and a local build is successful.

Build and test locally:

make build
make test

Building V8 The Hard Way

Only if the preceding approach fails consistently, a full build of V8 requires building from their sources directly, and confirm that the tagged stable release actually builds and passes its own test.

Their instruction cover building on both Linux and Mac.

Expanding upon the instructions linked above:

  • They neglect mentioning that the initial fetch is time-consuming:
    • e.g., 50+ minutes via gigabit fiber
    • while that's downloading, also install bazel; e.g., as binary release of bazelisk
  • Their gclient command apparently requires a subcommand:
    • gclient sync

once fetched, start with the latest stable tagged version from the Gist instructions linked above, and iterate backwards.

Confirm that their tagged release actually builds and passes its own tests, and assuming one of the flavors of bazel has been installed, build V8:

bazel build v8
bazel test v8

Once a build passes its own tests, a Makefile may be generated from Bazel, in theory. Then, splice it into ours. See SO.

You may also need to update lib/depot_tools/ based upon a more recent version from docs linked in this section, above.

Make Release

Build a package for distribution.

This applies to all operating systems to be supported; e.g., Debian-based Linux, Mac, etc.

  1. Find the latest tagged release from this repo; e.g., 99.99.99
    • git tag
  2. Checkout that tag from this repo:
    • git checkout 99.99.99
  3. Build:
    • make -C c_src
  4. Confirm tests from top-level are passing:
    • make test
  5. If all tests pass, make a package:
    • make -C c_src release-tarball
  6. Send the resulting file (e.g., erlang_v8-99.99.99-Darwin-x64.tar.gz) to become available for distribution

TODO

  • Use custom protocol to support more data types (binary, dates etc)
  • Refactor the API
  • Experiment with calling Erlang from v8 synchronously
  • Fix or remove support for pre-defined code loading
  • Investigate communicating with the port via networking rather than stdin/out

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