package dbus import ( "bytes" "fmt" "reflect" "sort" "strconv" ) // Variant represents the D-Bus variant type. type Variant struct { sig Signature value interface{} } // MakeVariant converts the given value to a Variant. It panics if v cannot be // represented as a D-Bus type. func MakeVariant(v interface{}) Variant { return MakeVariantWithSignature(v, SignatureOf(v)) } // MakeVariantWithSignature converts the given value to a Variant. func MakeVariantWithSignature(v interface{}, s Signature) Variant { return Variant{s, v} } // ParseVariant parses the given string as a variant as described at // https://developer.gnome.org/glib/stable/gvariant-text.html. If sig is not // empty, it is taken to be the expected signature for the variant. func ParseVariant(s string, sig Signature) (Variant, error) { tokens := varLex(s) p := &varParser{tokens: tokens} n, err := varMakeNode(p) if err != nil { return Variant{}, err } if sig.str == "" { sig, err = varInfer(n) if err != nil { return Variant{}, err } } v, err := n.Value(sig) if err != nil { return Variant{}, err } return MakeVariant(v), nil } // format returns a formatted version of v and whether this string can be parsed // unambigously. func (v Variant) format() (string, bool) { switch v.sig.str[0] { case 'b', 'i': return fmt.Sprint(v.value), true case 'n', 'q', 'u', 'x', 't', 'd', 'h': return fmt.Sprint(v.value), false case 's': return strconv.Quote(v.value.(string)), true case 'o': return strconv.Quote(string(v.value.(ObjectPath))), false case 'g': return strconv.Quote(v.value.(Signature).str), false case 'v': s, unamb := v.value.(Variant).format() if !unamb { return "<@" + v.value.(Variant).sig.str + " " + s + ">", true } return "<" + s + ">", true case 'y': return fmt.Sprintf("%#x", v.value.(byte)), false } rv := reflect.ValueOf(v.value) switch rv.Kind() { case reflect.Slice: if rv.Len() == 0 { return "[]", false } unamb := true buf := bytes.NewBuffer([]byte("[")) for i := 0; i < rv.Len(); i++ { // TODO: slooow s, b := MakeVariant(rv.Index(i).Interface()).format() unamb = unamb && b buf.WriteString(s) if i != rv.Len()-1 { buf.WriteString(", ") } } buf.WriteByte(']') return buf.String(), unamb case reflect.Map: if rv.Len() == 0 { return "{}", false } unamb := true var buf bytes.Buffer kvs := make([]string, rv.Len()) for i, k := range rv.MapKeys() { s, b := MakeVariant(k.Interface()).format() unamb = unamb && b buf.Reset() buf.WriteString(s) buf.WriteString(": ") s, b = MakeVariant(rv.MapIndex(k).Interface()).format() unamb = unamb && b buf.WriteString(s) kvs[i] = buf.String() } buf.Reset() buf.WriteByte('{') sort.Strings(kvs) for i, kv := range kvs { if i > 0 { buf.WriteString(", ") } buf.WriteString(kv) } buf.WriteByte('}') return buf.String(), unamb } return `"INVALID"`, true } // Signature returns the D-Bus signature of the underlying value of v. func (v Variant) Signature() Signature { return v.sig } // String returns the string representation of the underlying value of v as // described at https://developer.gnome.org/glib/stable/gvariant-text.html. func (v Variant) String() string { s, unamb := v.format() if !unamb { return "@" + v.sig.str + " " + s } return s } // Value returns the underlying value of v. func (v Variant) Value() interface{} { return v.value } // Store converts the variant into a native go type using the same // mechanism as the "Store" function. func (v Variant) Store(value interface{}) error { return storeInterfaces(v.value, value) }