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contract_create_transaction.go
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contract_create_transaction.go
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package hedera
import (
"time"
"github.com/hashgraph/hedera-sdk-go/v2/proto"
)
type ContractCreateTransaction struct {
Transaction
pb *proto.ContractCreateTransactionBody
}
func NewContractCreateTransaction() *ContractCreateTransaction {
pb := &proto.ContractCreateTransactionBody{}
transaction := ContractCreateTransaction{
pb: pb,
Transaction: newTransaction(),
}
transaction.SetAutoRenewPeriod(131500 * time.Minute)
transaction.SetMaxTransactionFee(NewHbar(20))
return &transaction
}
func contractCreateTransactionFromProtobuf(transaction Transaction, pb *proto.TransactionBody) ContractCreateTransaction {
return ContractCreateTransaction{
Transaction: transaction,
pb: pb.GetContractCreateInstance(),
}
}
func (transaction *ContractCreateTransaction) SetBytecodeFileID(bytecodeFileID FileID) *ContractCreateTransaction {
transaction.requireNotFrozen()
transaction.pb.FileID = bytecodeFileID.toProtobuf()
return transaction
}
func (transaction *ContractCreateTransaction) GetBytecodeFileID() FileID {
return fileIDFromProtobuf(transaction.pb.FileID)
}
/**
* Sets the state of the instance and its fields can be modified arbitrarily if this key signs a transaction
* to modify it. If this is null, then such modifications are not possible, and there is no administrator
* that can override the normal operation of this smart contract instance. Note that if it is created with no
* admin keys, then there is no administrator to authorize changing the admin keys, so
* there can never be any admin keys for that instance.
*/
func (transaction *ContractCreateTransaction) SetAdminKey(adminKey Key) *ContractCreateTransaction {
transaction.requireNotFrozen()
transaction.pb.AdminKey = adminKey.toProtoKey()
return transaction
}
func (transaction *ContractCreateTransaction) GetAdminKey() (Key, error) {
return keyFromProtobuf(transaction.pb.GetAdminKey())
}
// Sets the gas to run the constructor.
func (transaction *ContractCreateTransaction) SetGas(gas uint64) *ContractCreateTransaction {
transaction.requireNotFrozen()
transaction.pb.Gas = int64(gas)
return transaction
}
func (transaction *ContractCreateTransaction) GetGas() uint64 {
return uint64(transaction.pb.GetGas())
}
// SetInitialBalance sets the initial number of Hbar to put into the account
func (transaction *ContractCreateTransaction) SetInitialBalance(initialBalance Hbar) *ContractCreateTransaction {
transaction.requireNotFrozen()
transaction.pb.InitialBalance = initialBalance.AsTinybar()
return transaction
}
// GetInitialBalance gets the initial number of Hbar in the account
func (transaction *ContractCreateTransaction) GetInitialBalance() Hbar {
return HbarFromTinybar(transaction.pb.GetInitialBalance())
}
// SetAutoRenewPeriod sets the time duration for when account is charged to extend its expiration date. When the account
// is created, the payer account is charged enough hbars so that the new account will not expire for the next
// auto renew period. When it reaches the expiration time, the new account will then be automatically charged to
// renew for another auto renew period. If it does not have enough hbars to renew for that long, then the remaining
// hbars are used to extend its expiration as long as possible. If it is has a zero balance when it expires,
// then it is deleted.
func (transaction *ContractCreateTransaction) SetAutoRenewPeriod(autoRenewPeriod time.Duration) *ContractCreateTransaction {
transaction.requireNotFrozen()
transaction.pb.AutoRenewPeriod = durationToProtobuf(autoRenewPeriod)
return transaction
}
func (transaction *ContractCreateTransaction) GetAutoRenewPeriod() time.Duration {
return durationFromProtobuf(transaction.pb.GetAutoRenewPeriod())
}
// SetProxyAccountID sets the ID of the account to which this account is proxy staked. If proxyAccountID is not set,
// is an invalID account, or is an account that isn't a node, then this account is automatically proxy staked to a node
// chosen by the network, but without earning payments. If the proxyAccountID account refuses to accept proxy staking ,
// or if it is not currently running a node, then it will behave as if proxyAccountID was not set.
func (transaction *ContractCreateTransaction) SetProxyAccountID(ID AccountID) *ContractCreateTransaction {
transaction.requireNotFrozen()
transaction.pb.ProxyAccountID = ID.toProtobuf()
return transaction
}
func (transaction *ContractCreateTransaction) GetProxyAccountID() AccountID {
return accountIDFromProtobuf(transaction.pb.ProxyAccountID)
}
//Sets the constructor parameters
func (transaction *ContractCreateTransaction) SetConstructorParameters(params *ContractFunctionParameters) *ContractCreateTransaction {
transaction.requireNotFrozen()
transaction.pb.ConstructorParameters = params.build(nil)
return transaction
}
//Sets the constructor parameters as their raw bytes.
func (transaction *ContractCreateTransaction) SetConstructorParametersRaw(params []byte) *ContractCreateTransaction {
transaction.requireNotFrozen()
transaction.pb.ConstructorParameters = params
return transaction
}
func (transaction *ContractCreateTransaction) GetConstructorParameters() []byte {
return transaction.pb.ConstructorParameters
}
//Sets the memo to be associated with this contract.
func (transaction *ContractCreateTransaction) SetContractMemo(memo string) *ContractCreateTransaction {
transaction.requireNotFrozen()
transaction.pb.Memo = memo
return transaction
}
func (transaction *ContractCreateTransaction) GetContractMemo() string {
return transaction.pb.GetMemo()
}
//
// The following methods must be copy-pasted/overriden at the bottom of **every** _transaction.go file
// We override the embedded fluent setter methods to return the outer type
//
func contractCreateTransaction_getMethod(request request, channel *channel) method {
return method{
transaction: channel.getContract().CreateContract,
}
}
func (transaction *ContractCreateTransaction) IsFrozen() bool {
return transaction.isFrozen()
}
// Sign uses the provided privateKey to sign the transaction.
func (transaction *ContractCreateTransaction) Sign(
privateKey PrivateKey,
) *ContractCreateTransaction {
return transaction.SignWith(privateKey.PublicKey(), privateKey.Sign)
}
func (transaction *ContractCreateTransaction) SignWithOperator(
client *Client,
) (*ContractCreateTransaction, error) {
// If the transaction is not signed by the operator, we need
// to sign the transaction with the operator
if client == nil {
return nil, errNoClientProvided
} else if client.operator == nil {
return nil, errClientOperatorSigning
}
if !transaction.IsFrozen() {
_, err := transaction.FreezeWith(client)
if err != nil {
return transaction, err
}
}
return transaction.SignWith(client.operator.publicKey, client.operator.signer), nil
}
// SignWith executes the TransactionSigner and adds the resulting signature data to the Transaction's signature map
// with the publicKey as the map key.
func (transaction *ContractCreateTransaction) SignWith(
publicKey PublicKey,
signer TransactionSigner,
) *ContractCreateTransaction {
if !transaction.IsFrozen() {
_, _ = transaction.Freeze()
} else {
transaction.transactions = make([]*proto.Transaction, 0)
}
if transaction.keyAlreadySigned(publicKey) {
return transaction
}
for index := 0; index < len(transaction.signedTransactions); index++ {
signature := signer(transaction.signedTransactions[index].GetBodyBytes())
transaction.signedTransactions[index].SigMap.SigPair = append(
transaction.signedTransactions[index].SigMap.SigPair,
publicKey.toSignaturePairProtobuf(signature),
)
}
return transaction
}
// Execute executes the Transaction with the provided client
func (transaction *ContractCreateTransaction) Execute(
client *Client,
) (TransactionResponse, error) {
if client == nil || client.operator == nil {
return TransactionResponse{}, errNoClientProvided
}
if transaction.freezeError != nil {
return TransactionResponse{}, transaction.freezeError
}
if !transaction.IsFrozen() {
_, err := transaction.FreezeWith(client)
if err != nil {
return TransactionResponse{}, err
}
}
transactionID := transaction.GetTransactionID()
if !client.GetOperatorAccountID().isZero() && client.GetOperatorAccountID().equals(transactionID.AccountID) {
transaction.SignWith(
client.GetOperatorPublicKey(),
client.operator.signer,
)
}
resp, err := execute(
client,
request{
transaction: &transaction.Transaction,
},
transaction_shouldRetry,
transaction_makeRequest,
transaction_advanceRequest,
transaction_getNodeAccountID,
contractCreateTransaction_getMethod,
transaction_mapResponseStatus,
transaction_mapResponse,
)
if err != nil {
return TransactionResponse{
TransactionID: transaction.GetTransactionID(),
NodeID: resp.transaction.NodeID,
}, err
}
hash, err := transaction.GetTransactionHash()
return TransactionResponse{
TransactionID: transaction.GetTransactionID(),
NodeID: resp.transaction.NodeID,
Hash: hash,
}, nil
}
func (transaction *ContractCreateTransaction) onFreeze(
pbBody *proto.TransactionBody,
) bool {
pbBody.Data = &proto.TransactionBody_ContractCreateInstance{
ContractCreateInstance: transaction.pb,
}
return true
}
func (transaction *ContractCreateTransaction) Freeze() (*ContractCreateTransaction, error) {
return transaction.FreezeWith(nil)
}
func (transaction *ContractCreateTransaction) FreezeWith(client *Client) (*ContractCreateTransaction, error) {
transaction.initFee(client)
if err := transaction.initTransactionID(client); err != nil {
return transaction, err
}
if !transaction.onFreeze(transaction.pbBody) {
return transaction, nil
}
return transaction, transaction_freezeWith(&transaction.Transaction, client)
}
func (transaction *ContractCreateTransaction) GetMaxTransactionFee() Hbar {
return transaction.Transaction.GetMaxTransactionFee()
}
// SetMaxTransactionFee sets the max transaction fee for this ContractCreateTransaction.
func (transaction *ContractCreateTransaction) SetMaxTransactionFee(fee Hbar) *ContractCreateTransaction {
transaction.requireNotFrozen()
transaction.Transaction.SetMaxTransactionFee(fee)
return transaction
}
func (transaction *ContractCreateTransaction) GetTransactionMemo() string {
return transaction.Transaction.GetTransactionMemo()
}
// SetTransactionMemo sets the memo for this ContractCreateTransaction.
func (transaction *ContractCreateTransaction) SetTransactionMemo(memo string) *ContractCreateTransaction {
transaction.requireNotFrozen()
transaction.Transaction.SetTransactionMemo(memo)
return transaction
}
func (transaction *ContractCreateTransaction) GetTransactionValidDuration() time.Duration {
return transaction.Transaction.GetTransactionValidDuration()
}
// SetTransactionValidDuration sets the valid duration for this ContractCreateTransaction.
func (transaction *ContractCreateTransaction) SetTransactionValidDuration(duration time.Duration) *ContractCreateTransaction {
transaction.requireNotFrozen()
transaction.Transaction.SetTransactionValidDuration(duration)
return transaction
}
func (transaction *ContractCreateTransaction) GetTransactionID() TransactionID {
return transaction.Transaction.GetTransactionID()
}
// SetTransactionID sets the TransactionID for this ContractCreateTransaction.
func (transaction *ContractCreateTransaction) SetTransactionID(transactionID TransactionID) *ContractCreateTransaction {
transaction.requireNotFrozen()
transaction.Transaction.SetTransactionID(transactionID)
return transaction
}
// SetNodeAccountIDs sets the node AccountID for this ContractCreateTransaction.
func (transaction *ContractCreateTransaction) SetNodeAccountIDs(nodeID []AccountID) *ContractCreateTransaction {
transaction.requireNotFrozen()
transaction.Transaction.SetNodeAccountIDs(nodeID)
return transaction
}
func (transaction *ContractCreateTransaction) SetMaxRetry(count int) *ContractCreateTransaction {
transaction.Transaction.SetMaxRetry(count)
return transaction
}