accounts/abi: Prevent recalculation of internal fields (#20895)
* accounts/abi: prevent recalculation of ID, Sig and String * accounts/abi: fixed unpacking of no values * accounts/abi: multiple fixes to arguments * accounts/abi: refactored methodName and eventName This commit moves the complicated logic of how we assign method names and event names if they already exist into their own functions for better readability. * accounts/abi: prevent recalculation of internal In this commit, I changed the way we calculate the string representations, sig representations and the id's of methods. Before that these fields would be recalculated everytime someone called .Sig() .String() or .ID() on a method or an event. Additionally this commit fixes issue #20856 as we assign names to inputs with no name (input with name "" becomes "arg0") * accounts/abi: added unnamed event params test * accounts/abi: fixed rebasing errors in method sig * accounts/abi: fixed rebasing errors in method sig * accounts/abi: addressed comments * accounts/abi: added FunctionType enumeration * accounts/abi/bind: added test for unnamed arguments * accounts/abi: improved readability in NewMethod, nitpicks * accounts/abi: method/eventName -> overloadedMethodName
This commit is contained in:
parent
ca22d0761b
commit
ac9c03f910
@ -76,7 +76,7 @@ func (abi ABI) Pack(name string, args ...interface{}) ([]byte, error) {
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return nil, err
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}
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// Pack up the method ID too if not a constructor and return
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return append(method.ID(), arguments...), nil
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return append(method.ID, arguments...), nil
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}
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// Unpack output in v according to the abi specification
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@ -139,59 +139,17 @@ func (abi *ABI) UnmarshalJSON(data []byte) error {
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for _, field := range fields {
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switch field.Type {
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case "constructor":
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abi.Constructor = Method{
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Inputs: field.Inputs,
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// Note for constructor the `StateMutability` can only
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// be payable or nonpayable according to the output of
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// compiler. So constant is always false.
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StateMutability: field.StateMutability,
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// Legacy fields, keep them for backward compatibility
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Constant: field.Constant,
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Payable: field.Payable,
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}
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abi.Constructor = NewMethod("", "", Constructor, field.StateMutability, field.Constant, field.Payable, field.Inputs, nil)
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case "function":
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name := field.Name
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_, ok := abi.Methods[name]
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for idx := 0; ok; idx++ {
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name = fmt.Sprintf("%s%d", field.Name, idx)
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_, ok = abi.Methods[name]
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}
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abi.Methods[name] = Method{
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Name: name,
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RawName: field.Name,
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StateMutability: field.StateMutability,
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Inputs: field.Inputs,
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Outputs: field.Outputs,
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// Legacy fields, keep them for backward compatibility
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Constant: field.Constant,
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Payable: field.Payable,
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}
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name := abi.overloadedMethodName(field.Name)
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abi.Methods[name] = NewMethod(name, field.Name, Function, field.StateMutability, field.Constant, field.Payable, field.Inputs, field.Outputs)
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case "fallback":
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// New introduced function type in v0.6.0, check more detail
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// here https://solidity.readthedocs.io/en/v0.6.0/contracts.html#fallback-function
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if abi.HasFallback() {
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return errors.New("only single fallback is allowed")
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}
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abi.Fallback = Method{
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Name: "",
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RawName: "",
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// The `StateMutability` can only be payable or nonpayable,
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// so the constant is always false.
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StateMutability: field.StateMutability,
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IsFallback: true,
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// Fallback doesn't have any input or output
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Inputs: nil,
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Outputs: nil,
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// Legacy fields, keep them for backward compatibility
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Constant: field.Constant,
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Payable: field.Payable,
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}
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abi.Fallback = NewMethod("", "", Fallback, field.StateMutability, field.Constant, field.Payable, nil, nil)
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case "receive":
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// New introduced function type in v0.6.0, check more detail
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// here https://solidity.readthedocs.io/en/v0.6.0/contracts.html#fallback-function
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@ -201,41 +159,47 @@ func (abi *ABI) UnmarshalJSON(data []byte) error {
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if field.StateMutability != "payable" {
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return errors.New("the statemutability of receive can only be payable")
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}
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abi.Receive = Method{
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Name: "",
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RawName: "",
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// The `StateMutability` can only be payable, so constant
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// is always true while payable is always false.
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StateMutability: field.StateMutability,
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IsReceive: true,
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// Receive doesn't have any input or output
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Inputs: nil,
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Outputs: nil,
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// Legacy fields, keep them for backward compatibility
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Constant: field.Constant,
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Payable: field.Payable,
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}
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abi.Receive = NewMethod("", "", Receive, field.StateMutability, field.Constant, field.Payable, nil, nil)
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case "event":
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name := field.Name
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_, ok := abi.Events[name]
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for idx := 0; ok; idx++ {
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name = fmt.Sprintf("%s%d", field.Name, idx)
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_, ok = abi.Events[name]
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}
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abi.Events[name] = Event{
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Name: name,
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RawName: field.Name,
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Anonymous: field.Anonymous,
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Inputs: field.Inputs,
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}
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name := abi.overloadedEventName(field.Name)
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abi.Events[name] = NewEvent(name, field.Name, field.Anonymous, field.Inputs)
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default:
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return fmt.Errorf("abi: could not recognize type %v of field %v", field.Type, field.Name)
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}
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}
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return nil
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}
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// overloadedMethodName returns the next available name for a given function.
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// Needed since solidity allows for function overload.
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//
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// e.g. if the abi contains Methods send, send1
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// overloadedMethodName would return send2 for input send.
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func (abi *ABI) overloadedMethodName(rawName string) string {
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name := rawName
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_, ok := abi.Methods[name]
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for idx := 0; ok; idx++ {
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name = fmt.Sprintf("%s%d", rawName, idx)
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_, ok = abi.Methods[name]
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}
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return name
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}
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// overloadedEventName returns the next available name for a given event.
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// Needed since solidity allows for event overload.
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//
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// e.g. if the abi contains events received, received1
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// overloadedEventName would return received2 for input received.
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func (abi *ABI) overloadedEventName(rawName string) string {
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name := rawName
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_, ok := abi.Events[name]
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for idx := 0; ok; idx++ {
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name = fmt.Sprintf("%s%d", rawName, idx)
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_, ok = abi.Events[name]
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}
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return name
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}
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// MethodById looks up a method by the 4-byte id
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// returns nil if none found
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func (abi *ABI) MethodById(sigdata []byte) (*Method, error) {
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@ -243,7 +207,7 @@ func (abi *ABI) MethodById(sigdata []byte) (*Method, error) {
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return nil, fmt.Errorf("data too short (%d bytes) for abi method lookup", len(sigdata))
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}
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for _, method := range abi.Methods {
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if bytes.Equal(method.ID(), sigdata[:4]) {
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if bytes.Equal(method.ID, sigdata[:4]) {
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return &method, nil
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}
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}
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@ -254,7 +218,7 @@ func (abi *ABI) MethodById(sigdata []byte) (*Method, error) {
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// ABI and returns nil if none found.
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func (abi *ABI) EventByID(topic common.Hash) (*Event, error) {
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for _, event := range abi.Events {
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if bytes.Equal(event.ID().Bytes(), topic.Bytes()) {
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if bytes.Equal(event.ID.Bytes(), topic.Bytes()) {
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return &event, nil
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}
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}
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@ -263,10 +227,10 @@ func (abi *ABI) EventByID(topic common.Hash) (*Event, error) {
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// HasFallback returns an indicator whether a fallback function is included.
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func (abi *ABI) HasFallback() bool {
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return abi.Fallback.IsFallback
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return abi.Fallback.Type == Fallback
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}
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// HasReceive returns an indicator whether a receive function is included.
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func (abi *ABI) HasReceive() bool {
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return abi.Receive.IsReceive
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return abi.Receive.Type == Receive
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}
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@ -58,20 +58,14 @@ const jsondata2 = `
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func TestReader(t *testing.T) {
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Uint256, _ := NewType("uint256", "", nil)
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exp := ABI{
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abi := ABI{
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Methods: map[string]Method{
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"balance": {
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"balance", "balance", "view", false, false, false, false, nil, nil,
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},
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"send": {
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"send", "send", "", false, false, false, false, []Argument{
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{"amount", Uint256, false},
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}, nil,
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},
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"balance": NewMethod("balance", "balance", Function, "view", false, false, nil, nil),
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"send": NewMethod("send", "send", Function, "", false, false, []Argument{{"amount", Uint256, false}}, nil),
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},
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}
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abi, err := JSON(strings.NewReader(jsondata))
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exp, err := JSON(strings.NewReader(jsondata))
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if err != nil {
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t.Error(err)
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}
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@ -173,22 +167,22 @@ func TestTestSlice(t *testing.T) {
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func TestMethodSignature(t *testing.T) {
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String, _ := NewType("string", "", nil)
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m := Method{"foo", "foo", "", false, false, false, false, []Argument{{"bar", String, false}, {"baz", String, false}}, nil}
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m := NewMethod("foo", "foo", Function, "", false, false, []Argument{{"bar", String, false}, {"baz", String, false}}, nil)
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exp := "foo(string,string)"
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if m.Sig() != exp {
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t.Error("signature mismatch", exp, "!=", m.Sig())
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if m.Sig != exp {
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t.Error("signature mismatch", exp, "!=", m.Sig)
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}
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idexp := crypto.Keccak256([]byte(exp))[:4]
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if !bytes.Equal(m.ID(), idexp) {
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t.Errorf("expected ids to match %x != %x", m.ID(), idexp)
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if !bytes.Equal(m.ID, idexp) {
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t.Errorf("expected ids to match %x != %x", m.ID, idexp)
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}
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uintt, _ := NewType("uint256", "", nil)
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m = Method{"foo", "foo", "", false, false, false, false, []Argument{{"bar", uintt, false}}, nil}
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m = NewMethod("foo", "foo", Function, "", false, false, []Argument{{"bar", uintt, false}}, nil)
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exp = "foo(uint256)"
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if m.Sig() != exp {
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t.Error("signature mismatch", exp, "!=", m.Sig())
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if m.Sig != exp {
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t.Error("signature mismatch", exp, "!=", m.Sig)
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}
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// Method with tuple arguments
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@ -204,10 +198,10 @@ func TestMethodSignature(t *testing.T) {
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{Name: "y", Type: "int256"},
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}},
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})
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m = Method{"foo", "foo", "", false, false, false, false, []Argument{{"s", s, false}, {"bar", String, false}}, nil}
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m = NewMethod("foo", "foo", Function, "", false, false, []Argument{{"s", s, false}, {"bar", String, false}}, nil)
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exp = "foo((int256,int256[],(int256,int256)[],(int256,int256)[2]),string)"
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if m.Sig() != exp {
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t.Error("signature mismatch", exp, "!=", m.Sig())
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if m.Sig != exp {
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t.Error("signature mismatch", exp, "!=", m.Sig)
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}
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}
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@ -219,12 +213,12 @@ func TestOverloadedMethodSignature(t *testing.T) {
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}
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check := func(name string, expect string, method bool) {
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if method {
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if abi.Methods[name].Sig() != expect {
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t.Fatalf("The signature of overloaded method mismatch, want %s, have %s", expect, abi.Methods[name].Sig())
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if abi.Methods[name].Sig != expect {
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t.Fatalf("The signature of overloaded method mismatch, want %s, have %s", expect, abi.Methods[name].Sig)
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}
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} else {
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if abi.Events[name].Sig() != expect {
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t.Fatalf("The signature of overloaded event mismatch, want %s, have %s", expect, abi.Events[name].Sig())
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if abi.Events[name].Sig != expect {
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t.Fatalf("The signature of overloaded event mismatch, want %s, have %s", expect, abi.Events[name].Sig)
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}
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}
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}
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@ -921,13 +915,13 @@ func TestABI_MethodById(t *testing.T) {
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}
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for name, m := range abi.Methods {
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a := fmt.Sprintf("%v", m)
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m2, err := abi.MethodById(m.ID())
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m2, err := abi.MethodById(m.ID)
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if err != nil {
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t.Fatalf("Failed to look up ABI method: %v", err)
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}
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b := fmt.Sprintf("%v", m2)
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if a != b {
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t.Errorf("Method %v (id %x) not 'findable' by id in ABI", name, m.ID())
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t.Errorf("Method %v (id %x) not 'findable' by id in ABI", name, m.ID)
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}
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}
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// Also test empty
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@ -995,8 +989,8 @@ func TestABI_EventById(t *testing.T) {
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t.Errorf("We should find a event for topic %s, test #%d", topicID.Hex(), testnum)
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}
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if event.ID() != topicID {
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t.Errorf("Event id %s does not match topic %s, test #%d", event.ID().Hex(), topicID.Hex(), testnum)
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if event.ID != topicID {
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t.Errorf("Event id %s does not match topic %s, test #%d", event.ID.Hex(), topicID.Hex(), testnum)
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}
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unknowntopicID := crypto.Keccak256Hash([]byte("unknownEvent"))
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@ -1051,3 +1045,28 @@ func TestDoubleDuplicateMethodNames(t *testing.T) {
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t.Fatalf("Should not have found extra method")
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}
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}
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// TestUnnamedEventParam checks that an event with unnamed parameters is
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// correctly handled
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// The test runs the abi of the following contract.
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// contract TestEvent {
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// event send(uint256, uint256);
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// }
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func TestUnnamedEventParam(t *testing.T) {
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abiJSON := `[{ "anonymous": false, "inputs": [{ "indexed": false,"internalType": "uint256", "name": "","type": "uint256"},{"indexed": false,"internalType": "uint256","name": "","type": "uint256"}],"name": "send","type": "event"}]`
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contractAbi, err := JSON(strings.NewReader(abiJSON))
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if err != nil {
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t.Fatal(err)
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}
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event, ok := contractAbi.Events["send"]
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if !ok {
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t.Fatalf("Could not find event")
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}
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if event.Inputs[0].Name != "arg0" {
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t.Fatalf("Could not find input")
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}
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if event.Inputs[1].Name != "arg1" {
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t.Fatalf("Could not find input")
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}
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}
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@ -92,9 +92,8 @@ func (arguments Arguments) Unpack(v interface{}, data []byte) error {
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if len(data) == 0 {
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if len(arguments) != 0 {
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return fmt.Errorf("abi: attempting to unmarshall an empty string while arguments are expected")
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} else {
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return nil // Nothing to unmarshal, return
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}
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return nil // Nothing to unmarshal, return
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}
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// make sure the passed value is arguments pointer
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if reflect.Ptr != reflect.ValueOf(v).Kind() {
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@ -104,6 +103,9 @@ func (arguments Arguments) Unpack(v interface{}, data []byte) error {
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if err != nil {
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return err
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}
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if len(marshalledValues) == 0 {
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return fmt.Errorf("abi: Unpack(no-values unmarshalled %T)", v)
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}
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if arguments.isTuple() {
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return arguments.unpackTuple(v, marshalledValues)
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}
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@ -112,18 +114,24 @@ func (arguments Arguments) Unpack(v interface{}, data []byte) error {
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// UnpackIntoMap performs the operation hexdata -> mapping of argument name to argument value
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func (arguments Arguments) UnpackIntoMap(v map[string]interface{}, data []byte) error {
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// Make sure map is not nil
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if v == nil {
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return fmt.Errorf("abi: cannot unpack into a nil map")
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}
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if len(data) == 0 {
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if len(arguments) != 0 {
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return fmt.Errorf("abi: attempting to unmarshall an empty string while arguments are expected")
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} else {
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return nil // Nothing to unmarshal, return
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}
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return nil // Nothing to unmarshal, return
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}
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marshalledValues, err := arguments.UnpackValues(data)
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if err != nil {
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return err
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}
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return arguments.unpackIntoMap(v, marshalledValues)
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for i, arg := range arguments.NonIndexed() {
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v[arg.Name] = marshalledValues[i]
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}
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return nil
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}
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// unpack sets the unmarshalled value to go format.
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@ -195,19 +203,6 @@ func unpack(t *Type, dst interface{}, src interface{}) error {
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return nil
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}
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// unpackIntoMap unpacks marshalledValues into the provided map[string]interface{}
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func (arguments Arguments) unpackIntoMap(v map[string]interface{}, marshalledValues []interface{}) error {
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// Make sure map is not nil
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if v == nil {
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return fmt.Errorf("abi: cannot unpack into a nil map")
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}
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for i, arg := range arguments.NonIndexed() {
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v[arg.Name] = marshalledValues[i]
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}
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return nil
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}
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// unpackAtomic unpacks ( hexdata -> go ) a single value
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func (arguments Arguments) unpackAtomic(v interface{}, marshalledValues interface{}) error {
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if arguments.LengthNonIndexed() == 0 {
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@ -236,27 +231,25 @@ func (arguments Arguments) unpackTuple(v interface{}, marshalledValues []interfa
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value = reflect.ValueOf(v).Elem()
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typ = value.Type()
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kind = value.Kind()
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nonIndexedArgs = arguments.NonIndexed()
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)
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if err := requireUnpackKind(value, typ, kind, arguments); err != nil {
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if err := requireUnpackKind(value, len(nonIndexedArgs), arguments); err != nil {
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return err
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}
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// If the interface is a struct, get of abi->struct_field mapping
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var abi2struct map[string]string
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if kind == reflect.Struct {
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var (
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argNames []string
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err error
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)
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for _, arg := range arguments.NonIndexed() {
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argNames = append(argNames, arg.Name)
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argNames := make([]string, len(nonIndexedArgs))
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for i, arg := range nonIndexedArgs {
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argNames[i] = arg.Name
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}
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abi2struct, err = mapArgNamesToStructFields(argNames, value)
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if err != nil {
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var err error
|
||||
if abi2struct, err = mapArgNamesToStructFields(argNames, value); err != nil {
|
||||
return err
|
||||
}
|
||||
}
|
||||
for i, arg := range arguments.NonIndexed() {
|
||||
for i, arg := range nonIndexedArgs {
|
||||
switch kind {
|
||||
case reflect.Struct:
|
||||
field := value.FieldByName(abi2struct[arg.Name])
|
||||
|
@ -264,7 +264,7 @@ func (c *BoundContract) FilterLogs(opts *FilterOpts, name string, query ...[]int
|
||||
opts = new(FilterOpts)
|
||||
}
|
||||
// Append the event selector to the query parameters and construct the topic set
|
||||
query = append([][]interface{}{{c.abi.Events[name].ID()}}, query...)
|
||||
query = append([][]interface{}{{c.abi.Events[name].ID}}, query...)
|
||||
|
||||
topics, err := makeTopics(query...)
|
||||
if err != nil {
|
||||
@ -313,7 +313,7 @@ func (c *BoundContract) WatchLogs(opts *WatchOpts, name string, query ...[]inter
|
||||
opts = new(WatchOpts)
|
||||
}
|
||||
// Append the event selector to the query parameters and construct the topic set
|
||||
query = append([][]interface{}{{c.abi.Events[name].ID()}}, query...)
|
||||
query = append([][]interface{}{{c.abi.Events[name].ID}}, query...)
|
||||
|
||||
topics, err := makeTopics(query...)
|
||||
if err != nil {
|
||||
|
@ -639,9 +639,9 @@ func formatMethod(method abi.Method, structs map[string]*tmplStruct) string {
|
||||
state = state + " "
|
||||
}
|
||||
identity := fmt.Sprintf("function %v", method.RawName)
|
||||
if method.IsFallback {
|
||||
if method.Type == abi.Fallback {
|
||||
identity = "fallback"
|
||||
} else if method.IsReceive {
|
||||
} else if method.Type == abi.Receive {
|
||||
identity = "receive"
|
||||
}
|
||||
return fmt.Sprintf("%s(%v) %sreturns(%v)", identity, strings.Join(inputs, ", "), state, strings.Join(outputs, ", "))
|
||||
|
@ -199,7 +199,8 @@ var bindTests = []struct {
|
||||
{"type":"event","name":"indexed","inputs":[{"name":"addr","type":"address","indexed":true},{"name":"num","type":"int256","indexed":true}]},
|
||||
{"type":"event","name":"mixed","inputs":[{"name":"addr","type":"address","indexed":true},{"name":"num","type":"int256"}]},
|
||||
{"type":"event","name":"anonymous","anonymous":true,"inputs":[]},
|
||||
{"type":"event","name":"dynamic","inputs":[{"name":"idxStr","type":"string","indexed":true},{"name":"idxDat","type":"bytes","indexed":true},{"name":"str","type":"string"},{"name":"dat","type":"bytes"}]}
|
||||
{"type":"event","name":"dynamic","inputs":[{"name":"idxStr","type":"string","indexed":true},{"name":"idxDat","type":"bytes","indexed":true},{"name":"str","type":"string"},{"name":"dat","type":"bytes"}]},
|
||||
{"type":"event","name":"unnamed","inputs":[{"name":"","type":"uint256","indexed": true},{"name":"","type":"uint256","indexed":true}]}
|
||||
]
|
||||
`},
|
||||
`
|
||||
@ -249,6 +250,12 @@ var bindTests = []struct {
|
||||
fmt.Println(event.Addr) // Make sure the reconstructed indexed fields are present
|
||||
|
||||
fmt.Println(res, str, dat, hash, err)
|
||||
|
||||
oit, err := e.FilterUnnamed(nil, []*big.Int{}, []*big.Int{})
|
||||
|
||||
arg0 := oit.Event.Arg0 // Make sure unnamed arguments are handled correctly
|
||||
arg1 := oit.Event.Arg1 // Make sure unnamed arguments are handled correctly
|
||||
fmt.Println(arg0, arg1)
|
||||
}
|
||||
// Run a tiny reflection test to ensure disallowed methods don't appear
|
||||
if _, ok := reflect.TypeOf(&EventChecker{}).MethodByName("FilterAnonymous"); ok {
|
||||
|
@ -42,36 +42,59 @@ type Event struct {
|
||||
RawName string
|
||||
Anonymous bool
|
||||
Inputs Arguments
|
||||
str string
|
||||
// Sig contains the string signature according to the ABI spec.
|
||||
// e.g. event foo(uint32 a, int b) = "foo(uint32,int256)"
|
||||
// Please note that "int" is substitute for its canonical representation "int256"
|
||||
Sig string
|
||||
// ID returns the canonical representation of the event's signature used by the
|
||||
// abi definition to identify event names and types.
|
||||
ID common.Hash
|
||||
}
|
||||
|
||||
// NewEvent creates a new Event.
|
||||
// It sanitizes the input arguments to remove unnamed arguments.
|
||||
// It also precomputes the id, signature and string representation
|
||||
// of the event.
|
||||
func NewEvent(name, rawName string, anonymous bool, inputs Arguments) Event {
|
||||
// sanitize inputs to remove inputs without names
|
||||
// and precompute string and sig representation.
|
||||
names := make([]string, len(inputs))
|
||||
types := make([]string, len(inputs))
|
||||
for i, input := range inputs {
|
||||
if input.Name == "" {
|
||||
inputs[i] = Argument{
|
||||
Name: fmt.Sprintf("arg%d", i),
|
||||
Indexed: input.Indexed,
|
||||
Type: input.Type,
|
||||
}
|
||||
} else {
|
||||
inputs[i] = input
|
||||
}
|
||||
// string representation
|
||||
names[i] = fmt.Sprintf("%v %v", input.Type, inputs[i].Name)
|
||||
if input.Indexed {
|
||||
names[i] = fmt.Sprintf("%v indexed %v", input.Type, inputs[i].Name)
|
||||
}
|
||||
// sig representation
|
||||
types[i] = input.Type.String()
|
||||
}
|
||||
|
||||
str := fmt.Sprintf("event %v(%v)", rawName, strings.Join(names, ", "))
|
||||
sig := fmt.Sprintf("%v(%v)", rawName, strings.Join(types, ","))
|
||||
id := common.BytesToHash(crypto.Keccak256([]byte(sig)))
|
||||
|
||||
return Event{
|
||||
Name: name,
|
||||
RawName: rawName,
|
||||
Anonymous: anonymous,
|
||||
Inputs: inputs,
|
||||
str: str,
|
||||
Sig: sig,
|
||||
ID: id,
|
||||
}
|
||||
}
|
||||
|
||||
func (e Event) String() string {
|
||||
inputs := make([]string, len(e.Inputs))
|
||||
for i, input := range e.Inputs {
|
||||
inputs[i] = fmt.Sprintf("%v %v", input.Type, input.Name)
|
||||
if input.Indexed {
|
||||
inputs[i] = fmt.Sprintf("%v indexed %v", input.Type, input.Name)
|
||||
}
|
||||
}
|
||||
return fmt.Sprintf("event %v(%v)", e.RawName, strings.Join(inputs, ", "))
|
||||
}
|
||||
|
||||
// Sig returns the event string signature according to the ABI spec.
|
||||
//
|
||||
// Example
|
||||
//
|
||||
// event foo(uint32 a, int b) = "foo(uint32,int256)"
|
||||
//
|
||||
// Please note that "int" is substitute for its canonical representation "int256"
|
||||
func (e Event) Sig() string {
|
||||
types := make([]string, len(e.Inputs))
|
||||
for i, input := range e.Inputs {
|
||||
types[i] = input.Type.String()
|
||||
}
|
||||
return fmt.Sprintf("%v(%v)", e.RawName, strings.Join(types, ","))
|
||||
}
|
||||
|
||||
// ID returns the canonical representation of the event's signature used by the
|
||||
// abi definition to identify event names and types.
|
||||
func (e Event) ID() common.Hash {
|
||||
return common.BytesToHash(crypto.Keccak256([]byte(e.Sig())))
|
||||
return e.str
|
||||
}
|
||||
|
@ -104,8 +104,8 @@ func TestEventId(t *testing.T) {
|
||||
}
|
||||
|
||||
for name, event := range abi.Events {
|
||||
if event.ID() != test.expectations[name] {
|
||||
t.Errorf("expected id to be %x, got %x", test.expectations[name], event.ID())
|
||||
if event.ID != test.expectations[name] {
|
||||
t.Errorf("expected id to be %x, got %x", test.expectations[name], event.ID)
|
||||
}
|
||||
}
|
||||
}
|
||||
|
@ -23,6 +23,24 @@ import (
|
||||
"github.com/ethereum/go-ethereum/crypto"
|
||||
)
|
||||
|
||||
// FunctionType represents different types of functions a contract might have.
|
||||
type FunctionType int
|
||||
|
||||
const (
|
||||
// Constructor represents the constructor of the contract.
|
||||
// The constructor function is called while deploying a contract.
|
||||
Constructor FunctionType = iota
|
||||
// Fallback represents the fallback function.
|
||||
// This function is executed if no other function matches the given function
|
||||
// signature and no receive function is specified.
|
||||
Fallback
|
||||
// Receive represents the receive function.
|
||||
// This function is executed on plain Ether transfers.
|
||||
Receive
|
||||
// Function represents a normal function.
|
||||
Function
|
||||
)
|
||||
|
||||
// Method represents a callable given a `Name` and whether the method is a constant.
|
||||
// If the method is `Const` no transaction needs to be created for this
|
||||
// particular Method call. It can easily be simulated using a local VM.
|
||||
@ -44,6 +62,10 @@ type Method struct {
|
||||
Name string
|
||||
RawName string // RawName is the raw method name parsed from ABI
|
||||
|
||||
// Type indicates whether the method is a
|
||||
// special fallback introduced in solidity v0.6.0
|
||||
Type FunctionType
|
||||
|
||||
// StateMutability indicates the mutability state of method,
|
||||
// the default value is nonpayable. It can be empty if the abi
|
||||
// is generated by legacy compiler.
|
||||
@ -53,69 +75,84 @@ type Method struct {
|
||||
Constant bool
|
||||
Payable bool
|
||||
|
||||
// The following two flags indicates whether the method is a
|
||||
// special fallback introduced in solidity v0.6.0
|
||||
IsFallback bool
|
||||
IsReceive bool
|
||||
|
||||
Inputs Arguments
|
||||
Outputs Arguments
|
||||
str string
|
||||
// Sig returns the methods string signature according to the ABI spec.
|
||||
// e.g. function foo(uint32 a, int b) = "foo(uint32,int256)"
|
||||
// Please note that "int" is substitute for its canonical representation "int256"
|
||||
Sig string
|
||||
// ID returns the canonical representation of the method's signature used by the
|
||||
// abi definition to identify method names and types.
|
||||
ID []byte
|
||||
}
|
||||
|
||||
// Sig returns the methods string signature according to the ABI spec.
|
||||
//
|
||||
// Example
|
||||
//
|
||||
// function foo(uint32 a, int b) = "foo(uint32,int256)"
|
||||
//
|
||||
// Please note that "int" is substitute for its canonical representation "int256"
|
||||
func (method Method) Sig() string {
|
||||
// Short circuit if the method is special. Fallback
|
||||
// and Receive don't have signature at all.
|
||||
if method.IsFallback || method.IsReceive {
|
||||
return ""
|
||||
}
|
||||
types := make([]string, len(method.Inputs))
|
||||
for i, input := range method.Inputs {
|
||||
// NewMethod creates a new Method.
|
||||
// A method should always be created using NewMethod.
|
||||
// It also precomputes the sig representation and the string representation
|
||||
// of the method.
|
||||
func NewMethod(name string, rawName string, funType FunctionType, mutability string, isConst, isPayable bool, inputs Arguments, outputs Arguments) Method {
|
||||
var (
|
||||
types = make([]string, len(inputs))
|
||||
inputNames = make([]string, len(inputs))
|
||||
outputNames = make([]string, len(outputs))
|
||||
)
|
||||
for i, input := range inputs {
|
||||
inputNames[i] = fmt.Sprintf("%v %v", input.Type, input.Name)
|
||||
types[i] = input.Type.String()
|
||||
}
|
||||
return fmt.Sprintf("%v(%v)", method.RawName, strings.Join(types, ","))
|
||||
}
|
||||
|
||||
func (method Method) String() string {
|
||||
inputs := make([]string, len(method.Inputs))
|
||||
for i, input := range method.Inputs {
|
||||
inputs[i] = fmt.Sprintf("%v %v", input.Type, input.Name)
|
||||
}
|
||||
outputs := make([]string, len(method.Outputs))
|
||||
for i, output := range method.Outputs {
|
||||
outputs[i] = output.Type.String()
|
||||
for i, output := range outputs {
|
||||
outputNames[i] = output.Type.String()
|
||||
if len(output.Name) > 0 {
|
||||
outputs[i] += fmt.Sprintf(" %v", output.Name)
|
||||
outputNames[i] += fmt.Sprintf(" %v", output.Name)
|
||||
}
|
||||
}
|
||||
// calculate the signature and method id. Note only function
|
||||
// has meaningful signature and id.
|
||||
var (
|
||||
sig string
|
||||
id []byte
|
||||
)
|
||||
if funType == Function {
|
||||
sig = fmt.Sprintf("%v(%v)", rawName, strings.Join(types, ","))
|
||||
id = crypto.Keccak256([]byte(sig))[:4]
|
||||
}
|
||||
// Extract meaningful state mutability of solidity method.
|
||||
// If it's default value, never print it.
|
||||
state := method.StateMutability
|
||||
state := mutability
|
||||
if state == "nonpayable" {
|
||||
state = ""
|
||||
}
|
||||
if state != "" {
|
||||
state = state + " "
|
||||
}
|
||||
identity := fmt.Sprintf("function %v", method.RawName)
|
||||
if method.IsFallback {
|
||||
identity := fmt.Sprintf("function %v", rawName)
|
||||
if funType == Fallback {
|
||||
identity = "fallback"
|
||||
} else if method.IsReceive {
|
||||
} else if funType == Receive {
|
||||
identity = "receive"
|
||||
} else if funType == Constructor {
|
||||
identity = "constructor"
|
||||
}
|
||||
str := fmt.Sprintf("%v(%v) %sreturns(%v)", identity, strings.Join(inputNames, ", "), state, strings.Join(outputNames, ", "))
|
||||
|
||||
return Method{
|
||||
Name: name,
|
||||
RawName: rawName,
|
||||
Type: funType,
|
||||
StateMutability: mutability,
|
||||
Constant: isConst,
|
||||
Payable: isPayable,
|
||||
Inputs: inputs,
|
||||
Outputs: outputs,
|
||||
str: str,
|
||||
Sig: sig,
|
||||
ID: id,
|
||||
}
|
||||
return fmt.Sprintf("%v(%v) %sreturns(%v)", identity, strings.Join(inputs, ", "), state, strings.Join(outputs, ", "))
|
||||
}
|
||||
|
||||
// ID returns the canonical representation of the method's signature used by the
|
||||
// abi definition to identify method names and types.
|
||||
func (method Method) ID() []byte {
|
||||
return crypto.Keccak256([]byte(method.Sig()))[:4]
|
||||
func (method Method) String() string {
|
||||
return method.str
|
||||
}
|
||||
|
||||
// IsConstant returns the indicator whether the method is read-only.
|
||||
|
@ -137,7 +137,7 @@ func TestMethodSig(t *testing.T) {
|
||||
}
|
||||
|
||||
for _, test := range cases {
|
||||
got := abi.Methods[test.method].Sig()
|
||||
got := abi.Methods[test.method].Sig
|
||||
if got != test.expect {
|
||||
t.Errorf("expected string to be %s, got %s", test.expect, got)
|
||||
}
|
||||
|
@ -634,7 +634,7 @@ func TestMethodPack(t *testing.T) {
|
||||
t.Fatal(err)
|
||||
}
|
||||
|
||||
sig := abi.Methods["slice"].ID()
|
||||
sig := abi.Methods["slice"].ID
|
||||
sig = append(sig, common.LeftPadBytes([]byte{1}, 32)...)
|
||||
sig = append(sig, common.LeftPadBytes([]byte{2}, 32)...)
|
||||
|
||||
@ -648,7 +648,7 @@ func TestMethodPack(t *testing.T) {
|
||||
}
|
||||
|
||||
var addrA, addrB = common.Address{1}, common.Address{2}
|
||||
sig = abi.Methods["sliceAddress"].ID()
|
||||
sig = abi.Methods["sliceAddress"].ID
|
||||
sig = append(sig, common.LeftPadBytes([]byte{32}, 32)...)
|
||||
sig = append(sig, common.LeftPadBytes([]byte{2}, 32)...)
|
||||
sig = append(sig, common.LeftPadBytes(addrA[:], 32)...)
|
||||
@ -663,7 +663,7 @@ func TestMethodPack(t *testing.T) {
|
||||
}
|
||||
|
||||
var addrC, addrD = common.Address{3}, common.Address{4}
|
||||
sig = abi.Methods["sliceMultiAddress"].ID()
|
||||
sig = abi.Methods["sliceMultiAddress"].ID
|
||||
sig = append(sig, common.LeftPadBytes([]byte{64}, 32)...)
|
||||
sig = append(sig, common.LeftPadBytes([]byte{160}, 32)...)
|
||||
sig = append(sig, common.LeftPadBytes([]byte{2}, 32)...)
|
||||
@ -681,7 +681,7 @@ func TestMethodPack(t *testing.T) {
|
||||
t.Errorf("expected %x got %x", sig, packed)
|
||||
}
|
||||
|
||||
sig = abi.Methods["slice256"].ID()
|
||||
sig = abi.Methods["slice256"].ID
|
||||
sig = append(sig, common.LeftPadBytes([]byte{1}, 32)...)
|
||||
sig = append(sig, common.LeftPadBytes([]byte{2}, 32)...)
|
||||
|
||||
@ -695,7 +695,7 @@ func TestMethodPack(t *testing.T) {
|
||||
}
|
||||
|
||||
a := [2][2]*big.Int{{big.NewInt(1), big.NewInt(1)}, {big.NewInt(2), big.NewInt(0)}}
|
||||
sig = abi.Methods["nestedArray"].ID()
|
||||
sig = abi.Methods["nestedArray"].ID
|
||||
sig = append(sig, common.LeftPadBytes([]byte{1}, 32)...)
|
||||
sig = append(sig, common.LeftPadBytes([]byte{1}, 32)...)
|
||||
sig = append(sig, common.LeftPadBytes([]byte{2}, 32)...)
|
||||
@ -712,7 +712,7 @@ func TestMethodPack(t *testing.T) {
|
||||
t.Errorf("expected %x got %x", sig, packed)
|
||||
}
|
||||
|
||||
sig = abi.Methods["nestedArray2"].ID()
|
||||
sig = abi.Methods["nestedArray2"].ID
|
||||
sig = append(sig, common.LeftPadBytes([]byte{0x20}, 32)...)
|
||||
sig = append(sig, common.LeftPadBytes([]byte{0x40}, 32)...)
|
||||
sig = append(sig, common.LeftPadBytes([]byte{0x80}, 32)...)
|
||||
@ -728,7 +728,7 @@ func TestMethodPack(t *testing.T) {
|
||||
t.Errorf("expected %x got %x", sig, packed)
|
||||
}
|
||||
|
||||
sig = abi.Methods["nestedSlice"].ID()
|
||||
sig = abi.Methods["nestedSlice"].ID
|
||||
sig = append(sig, common.LeftPadBytes([]byte{0x20}, 32)...)
|
||||
sig = append(sig, common.LeftPadBytes([]byte{0x02}, 32)...)
|
||||
sig = append(sig, common.LeftPadBytes([]byte{0x40}, 32)...)
|
||||
|
@ -118,18 +118,16 @@ func requireAssignable(dst, src reflect.Value) error {
|
||||
}
|
||||
|
||||
// requireUnpackKind verifies preconditions for unpacking `args` into `kind`
|
||||
func requireUnpackKind(v reflect.Value, t reflect.Type, k reflect.Kind,
|
||||
args Arguments) error {
|
||||
|
||||
switch k {
|
||||
func requireUnpackKind(v reflect.Value, minLength int, args Arguments) error {
|
||||
switch v.Kind() {
|
||||
case reflect.Struct:
|
||||
case reflect.Slice, reflect.Array:
|
||||
if minLen := args.LengthNonIndexed(); v.Len() < minLen {
|
||||
if v.Len() < minLength {
|
||||
return fmt.Errorf("abi: insufficient number of elements in the list/array for unpack, want %d, got %d",
|
||||
minLen, v.Len())
|
||||
minLength, v.Len())
|
||||
}
|
||||
default:
|
||||
return fmt.Errorf("abi: cannot unmarshal tuple into %v", t)
|
||||
return fmt.Errorf("abi: cannot unmarshal tuple into %v", v.Type())
|
||||
}
|
||||
return nil
|
||||
}
|
||||
@ -156,9 +154,8 @@ func mapArgNamesToStructFields(argNames []string, value reflect.Value) (map[stri
|
||||
continue
|
||||
}
|
||||
// skip fields that have no abi:"" tag.
|
||||
var ok bool
|
||||
var tagName string
|
||||
if tagName, ok = typ.Field(i).Tag.Lookup("abi"); !ok {
|
||||
tagName, ok := typ.Field(i).Tag.Lookup("abi")
|
||||
if !ok {
|
||||
continue
|
||||
}
|
||||
// check if tag is empty.
|
||||
|
@ -140,7 +140,7 @@ func parseCallData(calldata []byte, abidata string) (*decodedCallData, error) {
|
||||
return nil, fmt.Errorf("signature %q matches, but arguments mismatch: %v", method.String(), err)
|
||||
}
|
||||
// Everything valid, assemble the call infos for the signer
|
||||
decoded := decodedCallData{signature: method.Sig(), name: method.RawName}
|
||||
decoded := decodedCallData{signature: method.Sig, name: method.RawName}
|
||||
for i := 0; i < len(method.Inputs); i++ {
|
||||
decoded.inputs = append(decoded.inputs, decodedArgument{
|
||||
soltype: method.Inputs[i],
|
||||
@ -158,7 +158,7 @@ func parseCallData(calldata []byte, abidata string) (*decodedCallData, error) {
|
||||
if !bytes.Equal(encoded, argdata) {
|
||||
was := common.Bytes2Hex(encoded)
|
||||
exp := common.Bytes2Hex(argdata)
|
||||
return nil, fmt.Errorf("WARNING: Supplied data is stuffed with extra data. \nWant %s\nHave %s\nfor method %v", exp, was, method.Sig())
|
||||
return nil, fmt.Errorf("WARNING: Supplied data is stuffed with extra data. \nWant %s\nHave %s\nfor method %v", exp, was, method.Sig)
|
||||
}
|
||||
return &decoded, nil
|
||||
}
|
||||
|
@ -48,8 +48,8 @@ func TestEmbeddedDatabase(t *testing.T) {
|
||||
t.Errorf("Failed to get method by id (%s): %v", id, err)
|
||||
continue
|
||||
}
|
||||
if m.Sig() != selector {
|
||||
t.Errorf("Selector mismatch: have %v, want %v", m.Sig(), selector)
|
||||
if m.Sig != selector {
|
||||
t.Errorf("Selector mismatch: have %v, want %v", m.Sig, selector)
|
||||
}
|
||||
}
|
||||
}
|
||||
|
Loading…
Reference in New Issue
Block a user