package manifest import ( "bytes" "encoding/json" "errors" "math" ojson "github.com/nspcc-dev/go-ordered-json" "github.com/nspcc-dev/neo-go/pkg/util" "github.com/nspcc-dev/neo-go/pkg/vm/stackitem" ) const ( // MaxManifestSize is the max length for a valid contract manifest. MaxManifestSize = math.MaxUint16 // NEP11StandardName represents the name of NEP-11 smartcontract standard. NEP11StandardName = "NEP-11" // NEP17StandardName represents the name of NEP-17 smartcontract standard. NEP17StandardName = "NEP-17" // NEP11Payable represents the name of contract interface which can receive NEP-11 tokens. NEP11Payable = "NEP-11-Payable" // NEP17Payable represents the name of contract interface which can receive NEP-17 tokens. NEP17Payable = "NEP-17-Payable" ) // Manifest represens contract metadata. type Manifest struct { // Name is a contract's name. Name string `json:"name"` // ABI is a contract's ABI. ABI ABI `json:"abi"` // Features is a set of contract features. Currently unused. Features json.RawMessage `json:"features"` // Groups is a set of groups to which a contract belongs. Groups []Group `json:"groups"` Permissions []Permission `json:"permissions"` // SupportedStandards is a list of standards supported by the contract. SupportedStandards []string `json:"supportedstandards"` // Trusts is a set of hashes to a which contract trusts. Trusts WildPermissionDescs `json:"trusts"` // Extra is an implementation-defined user data. Extra json.RawMessage `json:"extra"` } // NewManifest returns a new manifest with necessary fields initialized. func NewManifest(name string) *Manifest { m := &Manifest{ Name: name, ABI: ABI{ Methods: []Method{}, Events: []Event{}, }, Features: json.RawMessage("{}"), Groups: []Group{}, Permissions: []Permission{}, SupportedStandards: []string{}, Extra: json.RawMessage("null"), } m.Trusts.Restrict() return m } // DefaultManifest returns the default contract manifest. func DefaultManifest(name string) *Manifest { m := NewManifest(name) m.Permissions = []Permission{*NewPermission(PermissionWildcard)} return m } // CanCall returns true if the current contract is allowed to call // the method of another contract with the specified hash. func (m *Manifest) CanCall(hash util.Uint160, toCall *Manifest, method string) bool { for i := range m.Permissions { if m.Permissions[i].IsAllowed(hash, toCall, method) { return true } } return false } // IsValid checks manifest internal consistency and correctness, one of the // checks is for group signature correctness, contract hash is passed for it. func (m *Manifest) IsValid(hash util.Uint160) error { var err error if m.Name == "" { return errors.New("no name") } for i := range m.SupportedStandards { if m.SupportedStandards[i] == "" { return errors.New("invalid nameless supported standard") } } if len(m.SupportedStandards) > 1 { names := make([]string, len(m.SupportedStandards)) copy(names, m.SupportedStandards) if stringsHaveDups(names) { return errors.New("duplicate supported standards") } } err = m.ABI.IsValid() if err != nil { return err } err = Groups(m.Groups).AreValid(hash) if err != nil { return err } if len(m.Trusts.Value) > 1 { hashes := make([]PermissionDesc, len(m.Trusts.Value)) copy(hashes, m.Trusts.Value) if permissionDescsHaveDups(hashes) { return errors.New("duplicate trusted contracts") } } return Permissions(m.Permissions).AreValid() } // IsStandardSupported denotes whether the specified standard is supported by the contract. func (m *Manifest) IsStandardSupported(standard string) bool { for _, st := range m.SupportedStandards { if st == standard { return true } } return false } // ToStackItem converts Manifest to stackitem.Item. func (m *Manifest) ToStackItem() (stackitem.Item, error) { groups := make([]stackitem.Item, len(m.Groups)) for i := range m.Groups { groups[i] = m.Groups[i].ToStackItem() } supportedStandards := make([]stackitem.Item, len(m.SupportedStandards)) for i := range m.SupportedStandards { supportedStandards[i] = stackitem.Make(m.SupportedStandards[i]) } abi := m.ABI.ToStackItem() permissions := make([]stackitem.Item, len(m.Permissions)) for i := range m.Permissions { permissions[i] = m.Permissions[i].ToStackItem() } trusts := stackitem.Item(stackitem.Null{}) if !m.Trusts.IsWildcard() { tItems := make([]stackitem.Item, len(m.Trusts.Value)) for i, v := range m.Trusts.Value { tItems[i] = v.ToStackItem() } trusts = stackitem.Make(tItems) } extra := extraToStackItem(m.Extra) return stackitem.NewStruct([]stackitem.Item{ stackitem.Make(m.Name), stackitem.Make(groups), stackitem.NewMap(), stackitem.Make(supportedStandards), abi, stackitem.Make(permissions), trusts, extra, }), nil } // extraToStackItem removes indentation from `Extra` field in JSON and // converts it to a byte-array stack item. func extraToStackItem(rawExtra []byte) stackitem.Item { extra := stackitem.Make("null") if rawExtra == nil || string(rawExtra) == "null" { return extra } d := ojson.NewDecoder(bytes.NewReader(rawExtra)) // The result is put directly in the database and affects state-root calculation, // thus use ordered map to stay compatible with C# implementation. d.UseOrderedObject() // Prevent accidental precision loss. d.UseNumber() var obj interface{} // The error can't really occur because `json.RawMessage` is already a valid json. _ = d.Decode(&obj) res, _ := ojson.Marshal(obj) return stackitem.NewByteArray(res) } // FromStackItem converts stackitem.Item to Manifest. func (m *Manifest) FromStackItem(item stackitem.Item) error { var err error if item.Type() != stackitem.StructT { return errors.New("invalid Manifest stackitem type") } str := item.Value().([]stackitem.Item) if len(str) != 8 { return errors.New("invalid stackitem length") } m.Name, err = stackitem.ToString(str[0]) if err != nil { return err } if str[1].Type() != stackitem.ArrayT { return errors.New("invalid Groups stackitem type") } groups := str[1].Value().([]stackitem.Item) m.Groups = make([]Group, len(groups)) for i := range groups { group := new(Group) err := group.FromStackItem(groups[i]) if err != nil { return err } m.Groups[i] = *group } if str[2].Type() != stackitem.MapT || str[2].(*stackitem.Map).Len() != 0 { return errors.New("invalid Features stackitem") } m.Features = json.RawMessage("{}") if str[3].Type() != stackitem.ArrayT { return errors.New("invalid SupportedStandards stackitem type") } supportedStandards := str[3].Value().([]stackitem.Item) m.SupportedStandards = make([]string, len(supportedStandards)) for i := range supportedStandards { m.SupportedStandards[i], err = stackitem.ToString(supportedStandards[i]) if err != nil { return err } } abi := new(ABI) if err := abi.FromStackItem(str[4]); err != nil { return err } m.ABI = *abi if str[5].Type() != stackitem.ArrayT { return errors.New("invalid Permissions stackitem type") } permissions := str[5].Value().([]stackitem.Item) m.Permissions = make([]Permission, len(permissions)) for i := range permissions { p := new(Permission) if err := p.FromStackItem(permissions[i]); err != nil { return err } m.Permissions[i] = *p } if _, ok := str[6].(stackitem.Null); ok { m.Trusts.Restrict() } else { if str[6].Type() != stackitem.ArrayT { return errors.New("invalid Trusts stackitem type") } trusts := str[6].Value().([]stackitem.Item) m.Trusts = WildPermissionDescs{Value: make([]PermissionDesc, len(trusts))} for i := range trusts { v := new(PermissionDesc) err = v.FromStackItem(trusts[i]) if err != nil { return err } m.Trusts.Value[i] = *v } } extra, err := str[7].TryBytes() if err != nil { return err } m.Extra = extra return nil }