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Execute JavaScript from Go

Github release Go Report Card Go Reference Test

V8 Gopher based on original artwork from the amazing Renee French

Relation to rogchap.com/v8go

This is a fork of https://github.com/rogchap/v8go at v0.9.0.

Major differences include

  • Android amd64/arm64 support.
  • Works with the new Chromium release dashboard (used to find what the stable version of V8 is).
  • Actually upgrades V8. See rogchap#399.
  • Splits the v8 static libraries to work around the GitHub file size limit of 100 MB. The splitter doesn't care about dependencies, so binutils ld requires --start-group around them. Notably, the XCode ld doesn't care about ordering.
  • Support for JS Symbols.
  • Support for native exceptions and FunctionCallback returning an error.
  • A rebuilt build pipeline, being more consistent.
    • We now build everything at once. Originally, the build pipeline left the master branch inconsistent between header files and libraries of individual architectures.
    • The library builder commits directly, without a PR, avoiding PR blow-up.
    • Using ccache, based on https://github.com/kuoruan/libv8.

Usage

import v8 "github.com/tommie/v8go"

Running a script

ctx := v8.NewContext() // creates a new V8 context with a new Isolate aka VM
ctx.RunScript("const add = (a, b) => a + b", "math.js") // executes a script on the global context
ctx.RunScript("const result = add(3, 4)", "main.js") // any functions previously added to the context can be called
val, _ := ctx.RunScript("result", "value.js") // return a value in JavaScript back to Go
fmt.Printf("addition result: %s", val)

One VM, many contexts

iso := v8.NewIsolate() // creates a new JavaScript VM
ctx1 := v8.NewContext(iso) // new context within the VM
ctx1.RunScript("const multiply = (a, b) => a * b", "math.js")

ctx2 := v8.NewContext(iso) // another context on the same VM
if _, err := ctx2.RunScript("multiply(3, 4)", "main.js"); err != nil {
  // this will error as multiply is not defined in this context
}

JavaScript function with Go callback

iso := v8.NewIsolate() // create a new VM
// a template that represents a JS function
printfn := v8.NewFunctionTemplate(iso, func(info *v8.FunctionCallbackInfo) *v8.Value {
    fmt.Printf("%v", info.Args()) // when the JS function is called this Go callback will execute
    return nil // you can return a value back to the JS caller if required
})
global := v8.NewObjectTemplate(iso) // a template that represents a JS Object
global.Set("print", printfn) // sets the "print" property of the Object to our function
ctx := v8.NewContext(iso, global) // new Context with the global Object set to our object template
ctx.RunScript("print('foo')", "print.js") // will execute the Go callback with a single argunent 'foo'

Update a JavaScript object from Go

ctx := v8.NewContext() // new context with a default VM
obj := ctx.Global() // get the global object from the context
obj.Set("version", "v1.0.0") // set the property "version" on the object
val, _ := ctx.RunScript("version", "version.js") // global object will have the property set within the JS VM
fmt.Printf("version: %s", val)

if obj.Has("version") { // check if a property exists on the object
    obj.Delete("version") // remove the property from the object
}

JavaScript errors

val, err := ctx.RunScript(src, filename)
if err != nil {
  e := err.(*v8.JSError) // JavaScript errors will be returned as the JSError struct
  fmt.Println(e.Message) // the message of the exception thrown
  fmt.Println(e.Location) // the filename, line number and the column where the error occurred
  fmt.Println(e.StackTrace) // the full stack trace of the error, if available

  fmt.Printf("javascript error: %v", e) // will format the standard error message
  fmt.Printf("javascript stack trace: %+v", e) // will format the full error stack trace
}

Pre-compile context-independent scripts to speed-up execution times

For scripts that are large or are repeatedly run in different contexts, it is beneficial to compile the script once and used the cached data from that compilation to avoid recompiling every time you want to run it.

source := "const multiply = (a, b) => a * b"
iso1 := v8.NewIsolate() // creates a new JavaScript VM
ctx1 := v8.NewContext(iso1) // new context within the VM
script1, _ := iso1.CompileUnboundScript(source, "math.js", v8.CompileOptions{}) // compile script to get cached data
val, _ := script1.Run(ctx1)

cachedData := script1.CreateCodeCache()

iso2 := v8.NewIsolate() // create a new JavaScript VM
ctx2 := v8.NewContext(iso2) // new context within the VM

script2, _ := iso2.CompileUnboundScript(source, "math.js", v8.CompileOptions{CachedData: cachedData}) // compile script in new isolate with cached data
val, _ = script2.Run(ctx2)

Terminate long running scripts

vals := make(chan *v8.Value, 1)
errs := make(chan error, 1)

go func() {
    val, err := ctx.RunScript(script, "forever.js") // exec a long running script
    if err != nil {
        errs <- err
        return
    }
    vals <- val
}()

select {
case val := <- vals:
    // success
case err := <- errs:
    // javascript error
case <- time.After(200 * time.Milliseconds):
    vm := ctx.Isolate() // get the Isolate from the context
    vm.TerminateExecution() // terminate the execution
    err := <- errs // will get a termination error back from the running script
}

CPU Profiler

func createProfile() {
	iso := v8.NewIsolate()
	ctx := v8.NewContext(iso)
	cpuProfiler := v8.NewCPUProfiler(iso)

	cpuProfiler.StartProfiling("my-profile")

	ctx.RunScript(profileScript, "script.js") # this script is defined in cpuprofiler_test.go
	val, _ := ctx.Global().Get("start")
	fn, _ := val.AsFunction()
	fn.Call(ctx.Global())

	cpuProfile := cpuProfiler.StopProfiling("my-profile")

	printTree("", cpuProfile.GetTopDownRoot()) # helper function to print the profile
}

func printTree(nest string, node *v8.CPUProfileNode) {
	fmt.Printf("%s%s %s:%d:%d\n", nest, node.GetFunctionName(), node.GetScriptResourceName(), node.GetLineNumber(), node.GetColumnNumber())
	count := node.GetChildrenCount()
	if count == 0 {
		return
	}
	nest = fmt.Sprintf("%s  ", nest)
	for i := 0; i < count; i++ {
		printTree(nest, node.GetChild(i))
	}
}

// Output
// (root) :0:0
//   (program) :0:0
//   start script.js:23:15
//     foo script.js:15:13
//       delay script.js:12:15
//         loop script.js:1:14
//       bar script.js:13:13
//         delay script.js:12:15
//           loop script.js:1:14
//       baz script.js:14:13
//         delay script.js:12:15
//           loop script.js:1:14
//   (garbage collector) :0:0

Documentation

Go Reference & more examples: https://pkg.go.dev/github.com/tommie/v8go

Support

If you would like to ask questions about this library or want to keep up-to-date with the latest changes and releases, please join the #v8go channel on Gophers Slack. Click here to join the Gophers Slack community!

Windows

There used to be Windows binary support. For further information see, rogchap PR #234.

The v8go library would welcome contributions from anyone able to get an external windows build of the V8 library linking with v8go, using the version of V8 checked out in the deps/v8 git submodule, and documentation of the process involved. This process will likely involve passing a linker flag when building v8go (e.g. using the CGO_LDFLAGS environment variable.

V8 Dependency

See deps/v8/ for the version of V8 we're currently on. In order to make v8go usable as a standard Go package, prebuilt static libraries of V8 are included for Linux and macOS. you should not require to build V8 yourself.

Project Goals

To provide a high quality, idiomatic, Go binding to the V8 C++ API.

The API should match the original API as closely as possible, but with an API that Gophers (Go enthusiasts) expect. For example: using multiple return values to return both result and error from a function, rather than throwing an exception.

This project also aims to keep up-to-date with the latest (stable) release of V8.

License

FOSSA Status

Development

Recompile V8 with debug info and debug checks

Aside from data races, Go should be memory-safe and v8go should preserve this property by adding the necessary checks to return an error or panic on these unsupported code paths. Release builds of v8go don't include debugging information for the V8 library since it significantly adds to the binary size, slows down compilation and shouldn't be needed by users of v8go. However, if a v8go bug causes a crash (e.g. during new feature development) then it can be helpful to build V8 with debugging information to get a C++ backtrace with line numbers. The following steps will not only do that, but also enable V8 debug checking, which can help with catching misuse of the V8 API.

  1. Make sure to clone the projects submodules (ie. the V8's depot_tools project): git submodule update --init --recursive
  2. Build the V8 binary for your OS: deps/build.py --debug. V8 is a large project, and building the binary can take up to 30 minutes.
  3. Build the executable to debug, using go build for commands or go test -c for tests. You may need to add the -ldflags=-compressdwarf=false option to disable debug information compression so this information can be read by the debugger (e.g. lldb that comes with Xcode v12.5.1, the latest Xcode released at the time of writing)
  4. Run the executable with a debugger (e.g. lldb -- ./v8go.test -test.run TestThatIsCrashing, run to start execution then use bt to print a bracktrace after it breaks on a crash), since backtraces printed by Go or V8 don't currently include line number information.

Upgrading the V8 binaries

We have the v8upgrade workflow. The workflow is triggered every day or manually. When run, it finds the current stable V8 version on https://chromiumdash.appspot.com/. If the new version is different from deps/v8_hash, it runs v8build and release.

The v8build workflow upgrades V8 and builds the libraries. It is triggered by the v8upgrade workflow, or being run manually. Each architecture is a separate job, storing build artifacts that are picked up by the Commit job. This job updates the master branch. Then it runs syncsubdeps.

The syncsubdeps workflow updates the go.mod file to point to the new commit. Each architecture in deps/ is its own Go module. This is needed to work around size constraints in Go module handling due to the large libv8 files. But we still want them to be consistent across builds, something that needs to happen after the built files have been committed. Once this is done, the upgrade is complete.

Releasing the library is a matter of running the release workflow. It reads CHANGELOG.md, creates a Git tag and a GitHub release. The tag is what matters for Go modules, and the GitHub release is useful for notifications. Releases happen automatically for upgrades.

Flushing after C/C++ standard library printing for debugging

When using the C/C++ standard library functions for printing (e.g. printf), then the output will be buffered by default. This can cause some confusion, especially because the test binary (created through go test) does not flush the buffer at exit (at the time of writing). When standard output is the terminal, then it will use line buffering and flush when a new line is printed, otherwise (e.g. if the output is redirected to a pipe or file) it will be fully buffered and not even flush at the end of a line. When the test binary is executed through go test . (e.g. instead of separately compiled with go test -c and run with ./v8go.test) Go may redirect standard output internally, resulting in standard output being fully buffered.

A simple way to avoid this problem is to flush the standard output stream after printing with the fflush(stdout); statement. Not relying on the flushing at exit can also help ensure the output is printed before a crash.

Local leak checking

Leak checking is automatically done in CI, but it can be useful to do locally to debug leaks.

Leak checking is done using the Leak Sanitizer which is a part of LLVM. As such, compiling with clang as the C/C++ compiler seems to produce more complete backtraces (unfortunately still only of the system stack at the time of writing).

For instance, on a Debian-based Linux system, you can use sudo apt-get install clang-12 to install a recent version of clang. Then CC and CXX environment variables are needed to use that compiler. With that compiler, the tests can be run as follows

CC=clang-12 CXX=clang++-12 go test -c --tags leakcheck && ./v8go.test

The separate compile and link commands are currently needed to get line numbers in the backtrace.

On macOS, leak checking isn't available with the version of clang that comes with Xcode, so a separate compiler installation is needed. For example, with homebrew, brew install llvm will install a version of clang with support for this. The ASAN_OPTIONS environment variable will also be needed to run the code with leak checking enabled, since it isn't enabled by default on macOS. E.g. with the homebrew installation of llvm, the tests can be run with

CXX=/usr/local/opt/llvm/bin/clang++ CC=/usr/local/opt/llvm/bin/clang go test -c --tags leakcheck -ldflags=-compressdwarf=false
ASAN_OPTIONS=detect_leaks=1 ./v8go.test

The -ldflags=-compressdwarf=false is currently (with clang 13) needed to get line numbers in the backtrace.

Formatting

Go has go fmt, C has clang-format. Any changes to the v8go.h|cc should be formated with clang-format with the "Chromium" Coding style. This can be done easily by running the go generate command.

brew install clang-format to install on macOS.


V8 Gopher image based on original artwork from the amazing Renee French.

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