package wasm import ( "encoding/binary" "fmt" "math" "reflect" "sync" "syscall" "unsafe" "github.com/wasmerio/go-ext-wasm/wasmer" ) var undefined = &struct{}{} var bridges = map[string]*Bridge{} var mu sync.RWMutex // to protect bridges type context struct{ n string } // TODO ensure it wont override the another context with same name. func setBridge(b *Bridge) unsafe.Pointer { mu.Lock() defer mu.Unlock() bridges[b.name] = b return unsafe.Pointer(&context{n: b.name}) } func getBridge(ctx unsafe.Pointer) *Bridge { ictx := wasmer.IntoInstanceContext(ctx) c := (*context)(ictx.Data()) mu.RLock() defer mu.RUnlock() return bridges[c.n] } type Bridge struct { name string instance wasmer.Instance vmExit bool exitCode int values []interface{} refs map[interface{}]int } func BridgeFromBytes(name string, bytes []byte, imports *wasmer.Imports) (*Bridge, error) { b := new(Bridge) if imports == nil { imports = wasmer.NewImports() } b.name = name err := b.addImports(imports) if err != nil { return nil, err } inst, err := wasmer.NewInstanceWithImports(bytes, imports) if err != nil { return nil, err } b.instance = inst inst.SetContextData(setBridge(b)) b.addValues() b.refs = make(map[interface{}]int) return b, nil } func BridgeFromFile(name, file string, imports *wasmer.Imports) (*Bridge, error) { bytes, err := wasmer.ReadBytes(file) if err != nil { return nil, err } return BridgeFromBytes(name, bytes, imports) } func (b *Bridge) addValues() { var goObj *object goObj = propObject("jsGo", map[string]interface{}{ "_makeFuncWrapper": wasmFunc(func(args []interface{}) (interface{}, error) { return &funcWrapper{id: args[0]}, nil }), "_pendingEvent": nil, }) b.values = []interface{}{ math.NaN(), float64(0), nil, true, false, &object{ props: map[string]interface{}{ "Object": propObject("Object", nil), "Array": propObject("Array", nil), "Int8Array": typedArray("Int8Array"), "Int16Array": typedArray("Int16Array"), "Int32Array": typedArray("Int32Array"), "Uint8Array": typedArray("Uint8Array"), "Uint16Array": typedArray("Uint16Array"), "Uint32Array": typedArray("Uint32Array"), "Float32Array": typedArray("Float32Array"), "Float64Array": typedArray("Float64Array"), "process": propObject("process", nil), "fs": propObject("fs", map[string]interface{}{ "constants": propObject("constants", map[string]interface{}{ "O_WRONLY": syscall.O_WRONLY, "O_RDWR": syscall.O_RDWR, "O_CREAT": syscall.O_CREAT, "O_TRUNC": syscall.O_TRUNC, "O_APPEND": syscall.O_APPEND, "O_EXCL": syscall.O_EXCL, }), "write": wasmFunc(func(args []interface{}) (interface{}, error) { fd := int(args[0].(float64)) offset := int(args[2].(float64)) length := int(args[3].(float64)) buf := args[1].(*array).data()[offset : offset+length] pos := args[4] callback := args[5].(*funcWrapper) var err error var n int if pos != nil { position := int64(pos.(float64)) n, err = syscall.Pwrite(fd, buf, position) } else { n, err = syscall.Write(fd, buf) } if err != nil { return nil, err } return b.makeFuncWrapper(callback.id, goObj, &[]interface{}{nil, n}) }), }), }, }, //global propObject("mem", map[string]interface{}{ "buffer": &buffer{data: b.mem()}}, ), goObj, // jsGo } } // Run start the wasm instance. func (b *Bridge) Run(init chan bool, done chan error) { defer b.instance.Close() run := b.instance.Exports["run"] _, err := run(0, 0) if err != nil { init <- false done <- err return } init <- true // use channel from wasm exit for !b.vmExit { } fmt.Printf("WASM exited with code: %v\n", b.exitCode) done <- nil } func (b *Bridge) mem() []byte { return b.instance.Memory.Data() } func (b *Bridge) getSP() int32 { spFunc := b.instance.Exports["getsp"] val, err := spFunc() if err != nil { panic("failed to get sp") } return val.ToI32() } func (b *Bridge) setUint8(offset int32, v uint8) { mem := b.mem() mem[offset] = byte(v) } func (b *Bridge) setInt64(offset int32, v int64) { mem := b.mem() binary.LittleEndian.PutUint64(mem[offset:], uint64(v)) } func (b *Bridge) setInt32(offset int32, v int32) { mem := b.mem() binary.LittleEndian.PutUint32(mem[offset:], uint32(v)) } func (b *Bridge) getInt64(offset int32) int64 { mem := b.mem() return int64(binary.LittleEndian.Uint64(mem[offset:])) } func (b *Bridge) getInt32(offset int32) int32 { mem := b.mem() return int32(binary.LittleEndian.Uint32(mem[offset:])) } func (b *Bridge) setUint32(offset int32, v uint32) { mem := b.mem() binary.LittleEndian.PutUint32(mem[offset:], v) } func (b *Bridge) setUint64(offset int32, v uint64) { mem := b.mem() binary.LittleEndian.PutUint64(mem[offset:], v) } func (b *Bridge) getUnit64(offset int32) uint64 { mem := b.mem() return binary.LittleEndian.Uint64(mem[offset+0:]) } func (b *Bridge) setFloat64(offset int32, v float64) { uf := math.Float64bits(v) b.setUint64(offset, uf) } func (b *Bridge) getFloat64(offset int32) float64 { uf := b.getUnit64(offset) return math.Float64frombits(uf) } func (b *Bridge) getUint32(offset int32) uint32 { return binary.LittleEndian.Uint32(b.mem()[offset+0:]) } func (b *Bridge) loadSlice(addr int32) []byte { mem := b.mem() array := binary.LittleEndian.Uint64(mem[addr+0:]) length := binary.LittleEndian.Uint64(mem[addr+8:]) return mem[array : array+length] } func (b *Bridge) loadString(addr int32) string { d := b.loadSlice(addr) return string(d) } func (b *Bridge) loadSliceOfValues(addr int32) []interface{} { arr := int(b.getInt64(addr + 0)) arrLen := int(b.getInt64(addr + 8)) vals := make([]interface{}, arrLen, arrLen) for i := 0; i < int(arrLen); i++ { vals[i] = b.loadValue(int32(arr + i*8)) } return vals } func (b *Bridge) loadValue(addr int32) interface{} { f := b.getFloat64(addr) if f == 0 { return undefined } if !math.IsNaN(f) { return f } return b.values[b.getUint32(addr)] } func (b *Bridge) storeValue(addr int32, v interface{}) { const nanHead = 0x7FF80000 if i, ok := v.(int); ok { v = float64(i) } if i, ok := v.(uint); ok { v = float64(i) } if v, ok := v.(float64); ok { if math.IsNaN(v) { b.setUint32(addr+4, nanHead) b.setUint32(addr, 0) return } if v == 0 { b.setUint32(addr+4, nanHead) b.setUint32(addr, 1) return } b.setFloat64(addr, v) return } switch v { case undefined: b.setFloat64(addr, 0) return case nil: b.setUint32(addr+4, nanHead) b.setUint32(addr, 2) return case true: b.setUint32(addr+4, nanHead) b.setUint32(addr, 3) return case false: b.setUint32(addr+4, nanHead) b.setUint32(addr, 4) return } ref, ok := b.refs[v] if !ok { ref = len(b.values) b.values = append(b.values, v) b.refs[v] = ref } typeFlag := 0 rv := reflect.TypeOf(v) if rv.Kind() == reflect.Ptr { rv = rv.Elem() } switch rv.Kind() { case reflect.String: typeFlag = 1 case reflect.Struct, reflect.Slice: //TODO symbol maybe? typeFlag = 2 default: panic(fmt.Sprintf("unknown type: %T", v)) // TODO function } b.setUint32(addr+4, uint32(nanHead|typeFlag)) b.setUint32(addr, uint32(ref)) } type object struct { name string // TODO for debugging props map[string]interface{} new func(args []interface{}) interface{} } func propObject(name string, prop map[string]interface{}) *object { return &object{name: name, props: prop} } type array struct { buf *buffer offset int length int } func (a *array) data() []byte { return a.buf.data[a.offset : a.offset+a.length] } func typedArray(name string) *object { return &object{ name: name, new: func(args []interface{}) interface{} { return &array{ buf: args[0].(*buffer), offset: int(args[1].(float64)), length: int(args[2].(float64)), } }, } } type buffer struct { data []byte } type wasmFunc func(args []interface{}) (interface{}, error) func (b *Bridge) resume() error { res := b.instance.Exports["resume"] _, err := res() return err } type funcWrapper struct { id interface{} } func (b *Bridge) makeFuncWrapper(id, this interface{}, args *[]interface{}) (interface{}, error) { goObj := b.values[7].(*object) event := propObject("_pendingEvent", map[string]interface{}{ "id": id, "this": nil, "args": args, }) goObj.props["_pendingEvent"] = event err := b.resume() if err != nil { return nil, err } return event.props["result"], nil } func (b *Bridge) CallFunc(fn string, args *[]interface{}) (interface{}, error) { fw, ok := b.values[5].(*object).props[fn] if !ok { return nil, fmt.Errorf("missing function: %v", fn) } return b.makeFuncWrapper(fw.(*funcWrapper).id, b.values[7], args) }