neo-go/pkg/rpcclient/nep17/nep17.go

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/*
Package nep17 contains RPC wrappers to work with NEP-17 contracts.
Safe methods are encapsulated into TokenReader structure while Token provides
various methods to perform the only NEP-17 state-changing call, Transfer.
*/
package nep17
import (
"errors"
"fmt"
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"math/big"
"github.com/nspcc-dev/neo-go/pkg/core/transaction"
"github.com/nspcc-dev/neo-go/pkg/neorpc/result"
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"github.com/nspcc-dev/neo-go/pkg/rpcclient/neptoken"
"github.com/nspcc-dev/neo-go/pkg/smartcontract"
"github.com/nspcc-dev/neo-go/pkg/util"
"github.com/nspcc-dev/neo-go/pkg/vm/stackitem"
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)
// Invoker is used by TokenReader to call various safe methods.
type Invoker interface {
neptoken.Invoker
}
// Actor is used by Token to create and send transactions.
type Actor interface {
Invoker
MakeRun(script []byte) (*transaction.Transaction, error)
MakeUnsignedRun(script []byte, attrs []transaction.Attribute) (*transaction.Transaction, error)
SendRun(script []byte) (util.Uint256, uint32, error)
}
// TokenReader represents safe (read-only) methods of NEP-17 token. It can be
// used to query various data.
type TokenReader struct {
neptoken.Base
}
// TokenWriter contains NEP-17 token methods that change state. It's not meant
// to be used directly (Token that includes it is more convenient) and just
// separates one set of methods from another to simplify reusing this package
// for other contracts that extend NEP-17 interface.
type TokenWriter struct {
hash util.Uint160
actor Actor
}
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// Token provides full NEP-17 interface, both safe and state-changing methods.
type Token struct {
TokenReader
TokenWriter
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}
// TransferEvent represents a Transfer event as defined in the NEP-17 standard.
type TransferEvent struct {
From util.Uint160
To util.Uint160
Amount *big.Int
}
// TransferParameters is a set of parameters for `transfer` method.
type TransferParameters struct {
From util.Uint160
To util.Uint160
Amount *big.Int
Data any
}
// NewReader creates an instance of TokenReader for contract with the given
// hash using the given Invoker.
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func NewReader(invoker Invoker, hash util.Uint160) *TokenReader {
return &TokenReader{*neptoken.New(invoker, hash)}
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}
// New creates an instance of Token for contract with the given hash
// using the given Actor.
func New(actor Actor, hash util.Uint160) *Token {
return &Token{*NewReader(actor, hash), TokenWriter{hash, actor}}
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}
// Transfer creates and sends a transaction that performs a `transfer` method
// call using the given parameters and checks for this call result, failing the
// transaction if it's not true. The returned values are transaction hash, its
// ValidUntilBlock value and an error if any.
func (t *TokenWriter) Transfer(from util.Uint160, to util.Uint160, amount *big.Int, data any) (util.Uint256, uint32, error) {
return t.MultiTransfer([]TransferParameters{{from, to, amount, data}})
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}
// TransferTransaction creates a transaction that performs a `transfer` method
// call using the given parameters and checks for this call result, failing the
// transaction if it's not true. This transaction is signed, but not sent to the
// network, instead it's returned to the caller.
func (t *TokenWriter) TransferTransaction(from util.Uint160, to util.Uint160, amount *big.Int, data any) (*transaction.Transaction, error) {
return t.MultiTransferTransaction([]TransferParameters{{from, to, amount, data}})
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}
// TransferUnsigned creates a transaction that performs a `transfer` method
// call using the given parameters and checks for this call result, failing the
// transaction if it's not true. This transaction is not signed and just returned
// to the caller.
func (t *TokenWriter) TransferUnsigned(from util.Uint160, to util.Uint160, amount *big.Int, data any) (*transaction.Transaction, error) {
return t.MultiTransferUnsigned([]TransferParameters{{from, to, amount, data}})
}
func (t *TokenWriter) multiTransferScript(params []TransferParameters) ([]byte, error) {
if len(params) == 0 {
return nil, errors.New("at least one transfer parameter required")
}
b := smartcontract.NewBuilder()
for i := range params {
b.InvokeWithAssert(t.hash, "transfer", params[i].From,
params[i].To, params[i].Amount, params[i].Data)
}
return b.Script()
}
// MultiTransfer is not a real NEP-17 method, but rather a convenient way to
// perform multiple transfers (usually from a single account) in one transaction.
// It accepts a set of parameters, creates a script that calls `transfer` as
// many times as needed (with ASSERTs added, so if any of these transfers fail
// whole transaction (with all transfers) fails). The values returned are the
// same as in Transfer.
func (t *TokenWriter) MultiTransfer(params []TransferParameters) (util.Uint256, uint32, error) {
script, err := t.multiTransferScript(params)
if err != nil {
return util.Uint256{}, 0, err
}
return t.actor.SendRun(script)
}
// MultiTransferTransaction is similar to MultiTransfer, but returns the same values
// as TransferTransaction (signed transaction that is not yet sent).
func (t *TokenWriter) MultiTransferTransaction(params []TransferParameters) (*transaction.Transaction, error) {
script, err := t.multiTransferScript(params)
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if err != nil {
return nil, err
}
return t.actor.MakeRun(script)
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}
// MultiTransferUnsigned is similar to MultiTransfer, but returns the same values
// as TransferUnsigned (not yet signed transaction).
func (t *TokenWriter) MultiTransferUnsigned(params []TransferParameters) (*transaction.Transaction, error) {
script, err := t.multiTransferScript(params)
if err != nil {
return nil, err
}
return t.actor.MakeUnsignedRun(script, nil)
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}
// TransferEventsFromApplicationLog retrieves all emitted TransferEvents from the
// provided [result.ApplicationLog].
func TransferEventsFromApplicationLog(log *result.ApplicationLog) ([]*TransferEvent, error) {
if log == nil {
return nil, errors.New("nil application log")
}
var res []*TransferEvent
for i, ex := range log.Executions {
for j, e := range ex.Events {
if e.Name != "Transfer" {
continue
}
event := new(TransferEvent)
err := event.FromStackItem(e.Item)
if err != nil {
return nil, fmt.Errorf("failed to decode event from stackitem (event #%d, execution #%d): %w", j, i, err)
}
res = append(res, event)
}
}
return res, nil
}
// FromStackItem converts provided [stackitem.Array] to TransferEvent or returns an
// error if it's not possible to do to so.
func (e *TransferEvent) FromStackItem(item *stackitem.Array) error {
if item == nil {
return errors.New("nil item")
}
arr, ok := item.Value().([]stackitem.Item)
if !ok {
return errors.New("not an array")
}
if len(arr) != 3 {
return errors.New("wrong number of event parameters")
}
b, err := arr[0].TryBytes()
if err != nil {
return fmt.Errorf("invalid From: %w", err)
}
e.From, err = util.Uint160DecodeBytesBE(b)
if err != nil {
return fmt.Errorf("failed to decode From: %w", err)
}
b, err = arr[1].TryBytes()
if err != nil {
return fmt.Errorf("invalid To: %w", err)
}
e.To, err = util.Uint160DecodeBytesBE(b)
if err != nil {
return fmt.Errorf("failed to decode To: %w", err)
}
e.Amount, err = arr[2].TryInteger()
if err != nil {
return fmt.Errorf("field to decode Avount: %w", err)
}
return nil
}