neo-go/pkg/smartcontract/binding/generate.go

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package binding
import (
"bytes"
"fmt"
"go/format"
"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 -}}
// Code generated by neo-go contract generate-wrapper --manifest <file.json> --out <file.go> --hash <hash> [--config <config>]; DO NOT EDIT.
// 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 denotes the contract hash and is allowed to be empty for RPC bindings
// generation (if not provided by the user).
Hash util.Uint160 `yaml:"hash,omitempty"`
Overrides map[string]Override `yaml:"overrides,omitempty"`
CallFlags map[string]callflag.CallFlag `yaml:"callflags,omitempty"`
// NamedTypes contains exported structured types that have some name (even
// if the original structure doesn't) and a number of internal fields. The
// map key is in the form of `namespace.name`, the value is fully-qualified
// and possibly nested description of the type structure.
NamedTypes map[string]ExtendedType `yaml:"namedtypes,omitempty"`
// Types contains type structure description for various types used in
// smartcontract. The map key has one of the following forms:
// - `methodName` for method return value;
// - `mathodName.paramName` for method's parameter value.
// - `eventName.paramName` for event's parameter value.
Types map[string]ExtendedType `yaml:"types,omitempty"`
Output io.Writer `yaml:"-"`
}
ExtendedType struct {
Base smartcontract.ParamType `yaml:"base"`
Name string `yaml:"name,omitempty"` // Structure name, omitted for arrays, interfaces and maps.
Interface string `yaml:"interface,omitempty"` // Interface type name, "iterator" only for now.
Key smartcontract.ParamType `yaml:"key,omitempty"` // Key type (only simple types can be used for keys) for maps.
Value *ExtendedType `yaml:"value,omitempty"` // Value type for iterators, arrays and maps.
Fields []FieldExtendedType `yaml:"fields,omitempty"` // Ordered type data for structure fields.
}
FieldExtendedType struct {
Field string `yaml:"field"`
ExtendedType `yaml:",inline"`
}
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),
NamedTypes: make(map[string]ExtendedType),
Types: make(map[string]ExtendedType),
}
}
// 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 FExecute(srcTemplate, cfg.Output, ctr)
}
// FExecute tries to execute given template over the data provided, apply gofmt
// rules to the result and write the result to the provided io.Writer. If a
// format error occurs while formatting the resulting binding, then the generated
// binding is written "as is" and no error is returned.
func FExecute(tmplt *template.Template, out io.Writer, data any) error {
in := bytes.NewBuffer(nil)
err := tmplt.Execute(in, data)
if err != nil {
return fmt.Errorf("failed to execute template: %w", err)
}
res := in.Bytes()
fmtRes, err := format.Source(res)
if err != nil {
// OK, still write something to the resulting file, our generator has known
// bugs that make the resulting code uncompilable.
fmtRes = res
}
_, err = out.Write(fmtRes)
if err != nil {
return fmt.Errorf("failed to write the resulting binding: %w", err)
}
return nil
}
func scTypeToGo(name string, typ smartcontract.ParamType, cfg *Config) (string, string) {
if over, ok := cfg.Overrides[name]; ok {
return over.TypeName, over.Package
}
switch typ {
case smartcontract.AnyType:
return "any", ""
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 "[]any", ""
case smartcontract.MapType:
return "map[string]any", ""
case smartcontract.InteropInterfaceType:
return "any", ""
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, *Config) (string, string)) ContractTmpl {
var hStr string
if !cfg.Hash.Equals(util.Uint160{}) {
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 `perform3` with uprising suffix as many times
// as needed to eliminate name conflicts. If `perform3` is already in the manifest, use `perform4` etc.
name := m.Name
for suffix := 2; seen[name]; suffix++ {
name = m.Name + strconv.Itoa(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)
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)
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:]
}
// Equals compares two extended types field-by-field and returns true if they are
// equal.
func (e *ExtendedType) Equals(other *ExtendedType) bool {
if e == nil && other == nil {
return true
}
if e != nil && other == nil ||
e == nil && other != nil {
return false
}
if !((e.Base == other.Base || (e.Base == smartcontract.ByteArrayType || e.Base == smartcontract.StringType) &&
(other.Base == smartcontract.ByteArrayType || other.Base == smartcontract.StringType)) &&
e.Name == other.Name &&
e.Interface == other.Interface &&
e.Key == other.Key) {
return false
}
if len(e.Fields) != len(other.Fields) {
return false
}
for i := range e.Fields {
if e.Fields[i].Field != other.Fields[i].Field {
return false
}
if !e.Fields[i].ExtendedType.Equals(&other.Fields[i].ExtendedType) {
return false
}
}
return (e.Value == nil && other.Value == nil) || (e.Value != nil && other.Value != nil && e.Value.Equals(other.Value))
}