package binding import ( "bytes" "fmt" "go/token" "io" "sort" "strconv" "strings" "text/template" "unicode" "github.com/nspcc-dev/neo-go/pkg/smartcontract" "github.com/nspcc-dev/neo-go/pkg/smartcontract/callflag" "github.com/nspcc-dev/neo-go/pkg/smartcontract/manifest" "github.com/nspcc-dev/neo-go/pkg/util" ) const srcTmpl = ` {{- define "METHOD" -}} // {{.Name}} {{.Comment}} func {{.Name}}({{range $index, $arg := .Arguments -}} {{- if ne $index 0}}, {{end}} {{- .Name}} {{.Type}} {{- end}}) {{if .ReturnType }}{{ .ReturnType }} { return neogointernal.CallWithToken(Hash, "{{ .NameABI }}", int(contract.{{ .CallFlag }}) {{- range $arg := .Arguments -}}, {{.Name}}{{end}}).({{ .ReturnType }}) {{- else -}} { neogointernal.CallWithTokenNoRet(Hash, "{{ .NameABI }}", int(contract.{{ .CallFlag }}) {{- range $arg := .Arguments -}}, {{.Name}}{{end}}) {{- end}} } {{- end -}} // Package {{.PackageName}} contains wrappers for {{.ContractName}} contract. package {{.PackageName}} import ( {{range $m := .Imports}} "{{ $m }}" {{end}}) // Hash contains contract hash in big-endian form. const Hash = "{{ .Hash }}" {{range $m := .Methods}} {{template "METHOD" $m }} {{end}}` type ( // Config contains parameter for the generated binding. Config struct { Package string `yaml:"package,omitempty"` Manifest *manifest.Manifest `yaml:"-"` Hash util.Uint160 `yaml:"hash,omitempty"` Overrides map[string]Override `yaml:"overrides,omitempty"` CallFlags map[string]callflag.CallFlag `yaml:"callflags,omitempty"` Output io.Writer `yaml:"-"` } ContractTmpl struct { PackageName string ContractName string Imports []string Hash string Methods []MethodTmpl } MethodTmpl struct { Name string NameABI string CallFlag string Comment string Arguments []ParamTmpl ReturnType string } ParamTmpl struct { Name string Type string } ) var srcTemplate = template.Must(template.New("generate").Parse(srcTmpl)) // NewConfig initializes and returns a new config instance. func NewConfig() Config { return Config{ Overrides: make(map[string]Override), CallFlags: make(map[string]callflag.CallFlag), } } // Generate writes Go file containing smartcontract bindings to the `cfg.Output`. // It doesn't check manifest from Config for validity, incorrect manifest can // lead to unexpected results. func Generate(cfg Config) error { ctr := TemplateFromManifest(cfg, scTypeToGo) ctr.Imports = append(ctr.Imports, "github.com/nspcc-dev/neo-go/pkg/interop/contract") ctr.Imports = append(ctr.Imports, "github.com/nspcc-dev/neo-go/pkg/interop/neogointernal") sort.Strings(ctr.Imports) return srcTemplate.Execute(cfg.Output, ctr) } func scTypeToGo(name string, typ smartcontract.ParamType, overrides map[string]Override) (string, string) { if over, ok := overrides[name]; ok { return over.TypeName, over.Package } switch typ { case smartcontract.AnyType: return "interface{}", "" case smartcontract.BoolType: return "bool", "" case smartcontract.IntegerType: return "int", "" case smartcontract.ByteArrayType: return "[]byte", "" case smartcontract.StringType: return "string", "" case smartcontract.Hash160Type: return "interop.Hash160", "github.com/nspcc-dev/neo-go/pkg/interop" case smartcontract.Hash256Type: return "interop.Hash256", "github.com/nspcc-dev/neo-go/pkg/interop" case smartcontract.PublicKeyType: return "interop.PublicKey", "github.com/nspcc-dev/neo-go/pkg/interop" case smartcontract.SignatureType: return "interop.Signature", "github.com/nspcc-dev/neo-go/pkg/interop" case smartcontract.ArrayType: return "[]interface{}", "" case smartcontract.MapType: return "map[string]interface{}", "" case smartcontract.InteropInterfaceType: return "interface{}", "" case smartcontract.VoidType: return "", "" default: panic("unreachable") } } // TemplateFromManifest create a contract template using the given configuration // and type conversion function. It assumes manifest to be present in the // configuration and assumes it to be correct (passing IsValid check). func TemplateFromManifest(cfg Config, scTypeConverter func(string, smartcontract.ParamType, map[string]Override) (string, string)) ContractTmpl { hStr := "" for _, b := range cfg.Hash.BytesBE() { hStr += fmt.Sprintf("\\x%02x", b) } ctr := ContractTmpl{ PackageName: cfg.Package, ContractName: cfg.Manifest.Name, Hash: hStr, } if ctr.PackageName == "" { buf := bytes.NewBuffer(make([]byte, 0, len(cfg.Manifest.Name))) for _, r := range cfg.Manifest.Name { if unicode.IsLetter(r) { buf.WriteRune(unicode.ToLower(r)) } } ctr.PackageName = buf.String() } imports := make(map[string]struct{}) seen := make(map[string]bool) for _, m := range cfg.Manifest.ABI.Methods { seen[m.Name] = false } for _, m := range cfg.Manifest.ABI.Methods { if m.Name[0] == '_' { continue } // Consider `perform(a)` and `perform(a, b)` methods. // First, try to export the second method with `Perform2` name. // If `perform2` is already in the manifest, use `perform_2` with as many underscores // as needed to eliminate name conflicts. It will produce long names in certain circumstances, // but if the manifest contains lots of similar names with trailing underscores, delicate naming // was probably not the goal. name := m.Name if v, ok := seen[name]; !ok || v { suffix := strconv.Itoa(len(m.Parameters)) for ; seen[name]; name = m.Name + suffix { suffix = "_" + suffix } } seen[name] = true mtd := MethodTmpl{ Name: upperFirst(name), NameABI: m.Name, CallFlag: callflag.All.String(), Comment: fmt.Sprintf("invokes `%s` method of contract.", m.Name), } if f, ok := cfg.CallFlags[m.Name]; ok { mtd.CallFlag = f.String() } else if m.Safe { mtd.CallFlag = callflag.ReadOnly.String() } var varnames = make(map[string]bool) for i := range m.Parameters { name := m.Parameters[i].Name typeStr, pkg := scTypeConverter(m.Name+"."+name, m.Parameters[i].Type, cfg.Overrides) if pkg != "" { imports[pkg] = struct{}{} } if token.IsKeyword(name) { name = name + "v" } for varnames[name] { name = name + "_" } varnames[name] = true mtd.Arguments = append(mtd.Arguments, ParamTmpl{ Name: name, Type: typeStr, }) } typeStr, pkg := scTypeConverter(m.Name, m.ReturnType, cfg.Overrides) if pkg != "" { imports[pkg] = struct{}{} } mtd.ReturnType = typeStr ctr.Methods = append(ctr.Methods, mtd) } for imp := range imports { ctr.Imports = append(ctr.Imports, imp) } return ctr } func upperFirst(s string) string { return strings.ToUpper(s[0:1]) + s[1:] }