/emsdk

Emscripten SDK

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Emscripten SDK

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Emscripten toolchain is distributed as a standalone Emscripten SDK. The SDK provides all the required tools, such as Clang, Python and Node.js along with an update mechanism that enables migrating to newer Emscripten versions as they are released.

You can also set up Emscripten from source, without the pre-built SDK, see "Installing from Source" below.

Downloads

To get started with Emscripten development, see the Emscripten website documentation.

SDK Concepts

The Emscripten SDK is effectively a small package manager for tools that are used in conjunction with Emscripten. The following glossary highlights the important concepts to help understanding the internals of the SDK:

  • Tool: The basic unit of software bundled in the SDK. A Tool has a name and a version. For example, 'clang-3.2-32bit' is a Tool that contains the 32-bit version of the Clang v3.2 compiler.
  • SDK: A set of tools. For example, 'sdk-1.5.6-32bit' is an SDK consisting of the tools clang-3.2-32bit, node-0.10.17-32bit, python-2.7.5.1-32bit and emscripten-1.5.6.
  • Active Tool/SDK: Emscripten stores compiler configuration in a user-specific file ~/.emscripten. This file points to paths for Emscripten, Python, Clang and so on. If the file ~/.emscripten is configured to point to a Tool in a specific directory, then that tool is denoted as being active. The Emscripten Command Prompt always gives access to the currently active Tools. This mechanism allows switching between different installed SDK versions easily.
  • emsdk: This is the name of the manager script that Emscripten SDK is accessed through. Most operations are of the form emsdk command. To access the emsdk script, launch the Emscripten Command Prompt.

System Requirements

Using the emsdk pre-compiled packages requires only the minimal set of dependenencies lists below. When building from source a wider set of tools include git, cmake, and a host compiler are required. See: https://emscripten.org/docs/building_from_source/toolchain_what_is_needed.html.

Mac OS X

  • python: Version 2.7.0 or above.
  • java: For running closure compiler (optional). After installing emscripten via emsdk, typing 'emcc --help' should pop up a OS X dialog "Java is not installed. To open java, you need a Java SE 6 runtime. Would you like to install one now?" that will automatically download a Java runtime to the system.

Linux

  • python: Version 2.7.0 or above.
  • java: For running closure compiler (optional)

The emsdk pre-compiled binaries are built aginst Ubuntu/Xenial 16.04 LTS and therefore depend on system libraryes compatiable with versions of glibc and libstdc++ present in that release. If your linux distribution is very old you may not be able to use the pre-compiled binaries packages.

Windows

  • java: For running closure compiler (optional)

Uninstalling the Emscripten SDK

To remove the Emscripten SDK, simply delete the emsdk directory.

SDK Maintenance

The following tasks are common with the Emscripten SDK:

How do I work the emsdk utility?

Run emsdk help or just emsdk to get information about all available commands.

How do I check the installation status and version of the SDK and tools?

To get a list of all currently installed tools and SDK versions, and all available tools, run emsdk list.

  • A line will be printed for each tool/SDK that is available for installation.
  • The text INSTALLED will be shown for each tool that has already been installed.
  • If a tool/SDK is currently active, a star * will be shown next to it.
  • If a tool/SDK is currently active, but the terminal your are calling emsdk from does not have PATH and environment set up to utilize that tool, a star in parentheses (*) will be shown next to it. Run emsdk_env.bat (Windows) or source ./emsdk_env.sh (Linux and OS X) to set up the environment for the calling terminal.

How do I install a tool/SDK version?

Run the command emsdk install <tool/sdk name> to download and install a new tool or an SDK version.

How do I remove a tool or an SDK?

Run the command emsdk uninstall <tool/sdk name> to delete the given tool or SDK from the local hard drive completely.

How do I check for updates to the Emscripten SDK?

The command emsdk update will fetch package information for all new tools and SDK versions. After that, run emsdk install <tool/sdk name> to install a new version. The command emsdk update-tags obtains a list of all new tagged releases from GitHub without updating Emscripten SDK itself.

How do I install an old Emscripten compiler version?

Emsdk contains a history of old compiler versions that you can use to maintain your migration path. Type emsdk list --old to get a list of archived tool and SDK versions, and emsdk install <name_of_tool> to install it.

I want to build from source/I want to download a precompiled build!

Some Emsdk Tool and SDK targets refer to packages that are precompiled, and no compilation is needed when installing them. Other Emsdk Tools and SDK targets come "from source", meaning that they will fetch the source repositories using git, and compile the package on demand.

When you run emsdk list, it will group the Tools and SDKs under these two categories.

To obtain and build latest upstream wasm SDK from source, run

emsdk install sdk-upstream-master-64bit

You can use this target for example to bootstrap developing patches to LLVM, Binaryen or Emscripten. (After initial installation, use git remote add in the cloned tree to add your own fork to push changes as patches)

If you only intend to contribute to Emscripten repository, and not to LLVM or Binaryen, you can also use precompiled versions of them, and only git clone the Emscripten repository. For more details, see

https://emscripten.org/docs/contributing/developers_guide.html?highlight=developer#setting-up

When working on git branches compiled from source, how do I update to a newer compiler version?

Unlike tags and precompiled versions, a few of the SDK packages are based on "moving" git branches and compiled from source (e.g. sdk-upstream-master, sdk-master, emscripten-master, binaryen-master). Because of that, the compiled versions will eventually go out of date as new commits are introduced to the development branches. To update an old compiled installation of one of this branches, simply reissue the "emsdk install" command on that tool/SDK. This will git pull the latest changes to the branch and issue an incremental recompilation of the target in question. This way you can keep calling emsdk install to keep an Emscripten installation up to date with a given git branch.

Note though that if the previously compiled branch is very old, sometimes CMake gets confused and is unable to properly rebuild a project. This has happened in the past e.g. when LLVM migrated to requiring a newer CMake version. In cases of any odd compilation errors, it is advised to try deleting the intermediate build directory to clear the build (e.g. "emsdk/clang/fastcomp/build_xxx/") before reissuing emsdk install.

How do I change the currently active SDK version?

You can toggle between different tools and SDK versions by running emsdk activate <tool/sdk name>. Activating a tool will set up ~/.emscripten to point to that particular tool. On Windows, you can pass the option --global to the activate command to register the environment permanently to the system registry for all users.

How do I build multiple projects with different SDK versions in parallel?

By default, Emscripten locates all configuration files in the home directory of the user. This may be a problem if you need to simultaneously build with multiple Emscripten compiler versions, since the user home directory can only be configured to point to one compiler at a time. This can be overcome by specifying the '--embedded' option as a parameter to 'emsdk activate', which will signal emsdk to generate the compiler configuration files inside the emsdk root directory instead of the user home directory. Use this option also when it is desirable to run emsdk in a fully portable mode that does not touch any files outside the emsdk directory.

How do I track the latest Emscripten development with the SDK?

A common and supported use case of the Emscripten SDK is to enable the workflow where you directly interact with the github repositories. This allows you to obtain new features and latest fixes immediately as they are pushed to the github repository, without having to wait for release to be tagged. You do not need a github account or a fork of Emscripten to do this. To switch to using the latest upstream git development branch master, run the following:

emsdk install git-1.9.4 # Install git. Skip if the system already has it.
emsdk install sdk-upstream-master-64bit # Clone+pull the latest emscripten-core/emscripten/master.
emsdk activate sdk-upstream-master-64bit # Set the master SDK as the currently active one.

How do I use my own Emscripten github fork with the SDK?

It is also possible to use your own fork of the Emscripten repository via the SDK. This is achieved with standard git machinery, so there if you are already acquainted with working on multiple remotes in a git clone, these steps should be familiar to you. This is useful in the case when you want to make your own modifications to the Emscripten toolchain, but still keep using the SDK environment and tools. To set up your own fork as the currently active Emscripten toolchain, first install the sdk-master SDK like shown in the previous section, and then run the following commands in the emsdk directory:

cd emscripten/master
# Add a git remote link to your own repository.
git remote add myremote https://github.com/mygituseraccount/emscripten.git
# Obtain the changes in your link.
git fetch myremote
# Switch the emscripten-master tool to use your fork.
git checkout -b mymaster --track myremote/master

In this way you can utilize the Emscripten SDK tools while using your own git fork. You can switch back and forth between remotes via the git checkout command as usual.

How do I use Emscripten SDK with a custom version of python, java, node.js or some other tool?

The provided Emscripten SDK targets are metapackages that refer to a specific set of tools that have been tested to work together. For example, sdk-1.35.0-64bit is an alias to the individual packages clang-e1.35.0-64bit, node-4.1.1-64bit, python-2.7.5.3-64bit and emscripten-1.35.0. This means that if you install this version of the SDK, both python and node.js will be installed inside emsdk as well. If you want to use your own/system python or node.js instead, you can opt to install emsdk by specifying the individual set of packages that you want to use. For example, emsdk install clang-e1.35.0-64bit emscripten-1.35.0 will only install the Emscripten LLVM/Clang compiler and the Emscripten frontend without supplying python and node.js.

My installation fails with "fatal error: ld terminated with signal 9 [Killed]"?

This may happen if the system runs out of memory. If you are attempting to build one of the packages from source and are running in a virtual OS or have relatively little RAM and disk space available, then the build might fail. Try feeding your computer more memory. Another thing to try is to force emsdk install to build in a singlethreaded mode, which will require less RAM simultaneously. To do this, pass the -j1 flag to the emsdk install command.

How do I run Emscripten on 32-bit systems or non-x86-64 systems?

Emscripten SDK releases are no longer packaged or maintained for 32-bit systems. If you want to run Emscripten on a 32-bit system, you can try manually building the compiler. Follow the steps in the above section "Building an Emscripten tag or branch from source" to get started.