import "rogchap.com/v8go"
ctx := v8go.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)
iso := v8go.NewIsolate() // creates a new JavaScript VM
ctx1 := v8go.NewContext(iso) // new context within the VM
ctx1.RunScript("const multiply = (a, b) => a * b", "math.js")
ctx2 := v8go.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
}
iso := v8go.NewIsolate() // create a new VM
// a template that represents a JS function
printfn := v8go.NewFunctionTemplate(iso, func(info *v8go.FunctionCallbackInfo) *v8go.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 := v8go.NewObjectTemplate(iso) // a template that represents a JS Object
global.Set("print", printfn) // sets the "print" property of the Object to our function
ctx := v8go.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'
ctx := v8go.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
}
val, err := ctx.RunScript(src, filename)
if err != nil {
e := err.(*v8go.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 occured
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
}
vals := make(chan *v8go.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:
// sucess
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
}
Go Reference & more examples: https://pkg.go.dev/rogchap.com/v8go
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!
In order to build a project using v8go on Windows, Go requires a gcc compiler to be installed.
To set this up:
- Install MSYS2 (https://www.msys2.org/)
- Add the Mingw-w64 bin to your PATH environment variable (
C:\msys64\mingw64\bin
by default) - Open MSYS2 MSYS and execute
pacman -S mingw-w64-x86_64-toolchain
V8 requires 64-bit on Windows, therefore it will not work on 32-bit systems.
V8 version: 9.0.257.18 (April 2021)
In order to make v8go
usable as a standard Go package, prebuilt static libraries of V8
are included for Linux, macOS and Windows ie. you should not require to build V8 yourself.
Due to security concerns of binary blobs hiding malicious code, the V8 binary is built via CI ONLY.
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.
This process is non-trivial, and hopefully we can automate more of this in the future.
- Make sure to clone the projects submodules (ie. the V8's
depot_tools
project):git submodule update --init --recursive
- Add the
depot_tools
folder to yourPATH
eg:export PATH=~/Development/rogchap/v8go/deps/depot_tools:$PATH
- From the
deps
folder runfetch v8
; you only need to do this once, if you don't already have the V8 source. - Find the current stable release (
v8_version
) here: https://omahaproxy.appspot.com - Create a new git branch from
master
eg.git checkout -b v8_7_upgrade
- Enter the v8 folder and fetch all the latest git branches:
cd deps/v8 && git fetch
- Find the right
branch-heads/**
to checkout, for example if thev8_version
is 8.7.220.31 then you want togit checkout branch-heads/8.7
. You can check all thebranch-heads
withgit branch --remotes | grep branch-heads/
- Copy all the contents of
deps/v8/include
todeps/include
making sure not to delete any of thevendor.go
files, which are required for users that are usinggo mod vendor
. If there are any new folders added, make sure to create newvendor.go
files in each folder withindeps/include
and updatecgo.go
. - Optionally build the V8 binary for your OS:
cd deps && ./build.py
. V8 is a large project, and building the binary can take up to 30 minutes. Once built all the tests should still pass viago test -v .
- Commit your changes, making sure that the git submodules have been updated to the new checksum for the version of V8. Make sure NOT to add your build of the binary, as this will be build via CI.
- Because the build is so long, this is not automatically triggered. Go to the V8
Build Github Action, Select "Run workflow",
and select your pushed branch eg.
v8_7_upgrade
. - Once built, this should open 3 PRs against your branch to add the
libv8.a
for Linux, macOS and Windows; merge these PRs into your branch. You are now ready to raise the PR againstmaster
with the latest version of V8.
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.