com.hederahashgraph.api.proto.java.ContractFunctionResultOrBuilder Maven / Gradle / Ivy
// Generated by the protocol buffer compiler. DO NOT EDIT!
// source: contract_call_local.proto
package com.hederahashgraph.api.proto.java;
public interface ContractFunctionResultOrBuilder extends
// @@protoc_insertion_point(interface_extends:proto.ContractFunctionResult)
com.google.protobuf.MessageOrBuilder {
/**
*
**
* the smart contract instance whose function was called
*
*
* .proto.ContractID contractID = 1;
* @return Whether the contractID field is set.
*/
boolean hasContractID();
/**
*
**
* the smart contract instance whose function was called
*
*
* .proto.ContractID contractID = 1;
* @return The contractID.
*/
com.hederahashgraph.api.proto.java.ContractID getContractID();
/**
*
**
* the smart contract instance whose function was called
*
*
* .proto.ContractID contractID = 1;
*/
com.hederahashgraph.api.proto.java.ContractIDOrBuilder getContractIDOrBuilder();
/**
*
**
* the result returned by the function
*
*
* bytes contractCallResult = 2;
* @return The contractCallResult.
*/
com.google.protobuf.ByteString getContractCallResult();
/**
*
**
* message In case there was an error during smart contract execution
*
*
* string errorMessage = 3;
* @return The errorMessage.
*/
java.lang.String getErrorMessage();
/**
*
**
* message In case there was an error during smart contract execution
*
*
* string errorMessage = 3;
* @return The bytes for errorMessage.
*/
com.google.protobuf.ByteString
getErrorMessageBytes();
/**
*
**
* bloom filter for record
*
*
* bytes bloom = 4;
* @return The bloom.
*/
com.google.protobuf.ByteString getBloom();
/**
*
**
* units of gas used to execute contract
*
*
* uint64 gasUsed = 5;
* @return The gasUsed.
*/
long getGasUsed();
/**
*
**
* the log info for events returned by the function
*
*
* repeated .proto.ContractLoginfo logInfo = 6;
*/
java.util.List
getLogInfoList();
/**
*
**
* the log info for events returned by the function
*
*
* repeated .proto.ContractLoginfo logInfo = 6;
*/
com.hederahashgraph.api.proto.java.ContractLoginfo getLogInfo(int index);
/**
*
**
* the log info for events returned by the function
*
*
* repeated .proto.ContractLoginfo logInfo = 6;
*/
int getLogInfoCount();
/**
*
**
* the log info for events returned by the function
*
*
* repeated .proto.ContractLoginfo logInfo = 6;
*/
java.util.List extends com.hederahashgraph.api.proto.java.ContractLoginfoOrBuilder>
getLogInfoOrBuilderList();
/**
*
**
* the log info for events returned by the function
*
*
* repeated .proto.ContractLoginfo logInfo = 6;
*/
com.hederahashgraph.api.proto.java.ContractLoginfoOrBuilder getLogInfoOrBuilder(
int index);
/**
*
**
* [DEPRECATED] the list of smart contracts that were created by the function call.
*
* The created ids will now _also_ be externalized through internal transaction
* records, where each record has its alias field populated with the new contract's
* EVM address. (This is needed for contracts created with CREATE2, since
* there is no longer a simple relationship between the new contract's 0.0.X id
* and its Solidity address.)
*
*
* repeated .proto.ContractID createdContractIDs = 7 [deprecated = true];
*/
@java.lang.Deprecated java.util.List
getCreatedContractIDsList();
/**
*
**
* [DEPRECATED] the list of smart contracts that were created by the function call.
*
* The created ids will now _also_ be externalized through internal transaction
* records, where each record has its alias field populated with the new contract's
* EVM address. (This is needed for contracts created with CREATE2, since
* there is no longer a simple relationship between the new contract's 0.0.X id
* and its Solidity address.)
*
*
* repeated .proto.ContractID createdContractIDs = 7 [deprecated = true];
*/
@java.lang.Deprecated com.hederahashgraph.api.proto.java.ContractID getCreatedContractIDs(int index);
/**
*
**
* [DEPRECATED] the list of smart contracts that were created by the function call.
*
* The created ids will now _also_ be externalized through internal transaction
* records, where each record has its alias field populated with the new contract's
* EVM address. (This is needed for contracts created with CREATE2, since
* there is no longer a simple relationship between the new contract's 0.0.X id
* and its Solidity address.)
*
*
* repeated .proto.ContractID createdContractIDs = 7 [deprecated = true];
*/
@java.lang.Deprecated int getCreatedContractIDsCount();
/**
*
**
* [DEPRECATED] the list of smart contracts that were created by the function call.
*
* The created ids will now _also_ be externalized through internal transaction
* records, where each record has its alias field populated with the new contract's
* EVM address. (This is needed for contracts created with CREATE2, since
* there is no longer a simple relationship between the new contract's 0.0.X id
* and its Solidity address.)
*
*
* repeated .proto.ContractID createdContractIDs = 7 [deprecated = true];
*/
@java.lang.Deprecated java.util.List extends com.hederahashgraph.api.proto.java.ContractIDOrBuilder>
getCreatedContractIDsOrBuilderList();
/**
*
**
* [DEPRECATED] the list of smart contracts that were created by the function call.
*
* The created ids will now _also_ be externalized through internal transaction
* records, where each record has its alias field populated with the new contract's
* EVM address. (This is needed for contracts created with CREATE2, since
* there is no longer a simple relationship between the new contract's 0.0.X id
* and its Solidity address.)
*
*
* repeated .proto.ContractID createdContractIDs = 7 [deprecated = true];
*/
@java.lang.Deprecated com.hederahashgraph.api.proto.java.ContractIDOrBuilder getCreatedContractIDsOrBuilder(
int index);
/**
*
**
* The new contract's 20-byte EVM address. Only populated after release 0.23,
* where each created contract will have its own record. (This is an important
* point--the field is not <tt>repeated</tt> because there will be a separate
* child record for each created contract.)
*
* Every contract has an EVM address determined by its <tt>shard.realm.num</tt> id.
* This address is as follows:
* <ol>
* <li>The first 4 bytes are the big-endian representation of the shard.</li>
* <li>The next 8 bytes are the big-endian representation of the realm.</li>
* <li>The final 8 bytes are the big-endian representation of the number.</li>
* </ol>
*
* Contracts created via CREATE2 have an <b>additional, primary address</b> that is
* derived from the <a href="https://eips.ethereum.org/EIPS/eip-1014">EIP-1014</a>
* specification, and does not have a simple relation to a <tt>shard.realm.num</tt> id.
*
* (Please do note that CREATE2 contracts can also be referenced by the three-part
* EVM address described above.)
*
*
* .google.protobuf.BytesValue evm_address = 9;
* @return Whether the evmAddress field is set.
*/
boolean hasEvmAddress();
/**
*
**
* The new contract's 20-byte EVM address. Only populated after release 0.23,
* where each created contract will have its own record. (This is an important
* point--the field is not <tt>repeated</tt> because there will be a separate
* child record for each created contract.)
*
* Every contract has an EVM address determined by its <tt>shard.realm.num</tt> id.
* This address is as follows:
* <ol>
* <li>The first 4 bytes are the big-endian representation of the shard.</li>
* <li>The next 8 bytes are the big-endian representation of the realm.</li>
* <li>The final 8 bytes are the big-endian representation of the number.</li>
* </ol>
*
* Contracts created via CREATE2 have an <b>additional, primary address</b> that is
* derived from the <a href="https://eips.ethereum.org/EIPS/eip-1014">EIP-1014</a>
* specification, and does not have a simple relation to a <tt>shard.realm.num</tt> id.
*
* (Please do note that CREATE2 contracts can also be referenced by the three-part
* EVM address described above.)
*
*
* .google.protobuf.BytesValue evm_address = 9;
* @return The evmAddress.
*/
com.google.protobuf.BytesValue getEvmAddress();
/**
*
**
* The new contract's 20-byte EVM address. Only populated after release 0.23,
* where each created contract will have its own record. (This is an important
* point--the field is not <tt>repeated</tt> because there will be a separate
* child record for each created contract.)
*
* Every contract has an EVM address determined by its <tt>shard.realm.num</tt> id.
* This address is as follows:
* <ol>
* <li>The first 4 bytes are the big-endian representation of the shard.</li>
* <li>The next 8 bytes are the big-endian representation of the realm.</li>
* <li>The final 8 bytes are the big-endian representation of the number.</li>
* </ol>
*
* Contracts created via CREATE2 have an <b>additional, primary address</b> that is
* derived from the <a href="https://eips.ethereum.org/EIPS/eip-1014">EIP-1014</a>
* specification, and does not have a simple relation to a <tt>shard.realm.num</tt> id.
*
* (Please do note that CREATE2 contracts can also be referenced by the three-part
* EVM address described above.)
*
*
* .google.protobuf.BytesValue evm_address = 9;
*/
com.google.protobuf.BytesValueOrBuilder getEvmAddressOrBuilder();
/**
*
**
* The amount of gas available for the call, aka the gasLimit.
* This field should only be populated when the paired TransactionBody in the record stream is not a
* ContractCreateTransactionBody or a ContractCallTransactionBody.
*
*
* int64 gas = 10;
* @return The gas.
*/
long getGas();
/**
*
**
* Number of tinybars sent (the function must be payable if this is nonzero).
* This field should only be populated when the paired TransactionBody in the record stream is not a
* ContractCreateTransactionBody or a ContractCallTransactionBody.
*
*
* int64 amount = 11;
* @return The amount.
*/
long getAmount();
/**
*
**
* The parameters passed into the contract call.
* This field should only be populated when the paired TransactionBody in the record stream is not a
* ContractCreateTransactionBody or a ContractCallTransactionBody.
*
*
* bytes functionParameters = 12;
* @return The functionParameters.
*/
com.google.protobuf.ByteString getFunctionParameters();
/**
*
**
* The account that is the "sender." If not present it is the accountId from the transactionId.
* This field should only be populated when the paired TransactionBody in the record stream is not a
* ContractCreateTransactionBody or a ContractCallTransactionBody.
*
*
* .proto.AccountID sender_id = 13;
* @return Whether the senderId field is set.
*/
boolean hasSenderId();
/**
*
**
* The account that is the "sender." If not present it is the accountId from the transactionId.
* This field should only be populated when the paired TransactionBody in the record stream is not a
* ContractCreateTransactionBody or a ContractCallTransactionBody.
*
*
* .proto.AccountID sender_id = 13;
* @return The senderId.
*/
com.hederahashgraph.api.proto.java.AccountID getSenderId();
/**
*
**
* The account that is the "sender." If not present it is the accountId from the transactionId.
* This field should only be populated when the paired TransactionBody in the record stream is not a
* ContractCreateTransactionBody or a ContractCallTransactionBody.
*
*
* .proto.AccountID sender_id = 13;
*/
com.hederahashgraph.api.proto.java.AccountIDOrBuilder getSenderIdOrBuilder();
/**
*
**
* A list of updated contract account nonces containing the new nonce value for each contract account.
* This is always empty in a ContractCallLocalResponse#ContractFunctionResult message, since no internal creations can happen in a static EVM call.
*
*
* repeated .proto.ContractNonceInfo contract_nonces = 14;
*/
java.util.List
getContractNoncesList();
/**
*
**
* A list of updated contract account nonces containing the new nonce value for each contract account.
* This is always empty in a ContractCallLocalResponse#ContractFunctionResult message, since no internal creations can happen in a static EVM call.
*
*
* repeated .proto.ContractNonceInfo contract_nonces = 14;
*/
com.hederahashgraph.api.proto.java.ContractNonceInfo getContractNonces(int index);
/**
*
**
* A list of updated contract account nonces containing the new nonce value for each contract account.
* This is always empty in a ContractCallLocalResponse#ContractFunctionResult message, since no internal creations can happen in a static EVM call.
*
*
* repeated .proto.ContractNonceInfo contract_nonces = 14;
*/
int getContractNoncesCount();
/**
*
**
* A list of updated contract account nonces containing the new nonce value for each contract account.
* This is always empty in a ContractCallLocalResponse#ContractFunctionResult message, since no internal creations can happen in a static EVM call.
*
*
* repeated .proto.ContractNonceInfo contract_nonces = 14;
*/
java.util.List extends com.hederahashgraph.api.proto.java.ContractNonceInfoOrBuilder>
getContractNoncesOrBuilderList();
/**
*
**
* A list of updated contract account nonces containing the new nonce value for each contract account.
* This is always empty in a ContractCallLocalResponse#ContractFunctionResult message, since no internal creations can happen in a static EVM call.
*
*
* repeated .proto.ContractNonceInfo contract_nonces = 14;
*/
com.hederahashgraph.api.proto.java.ContractNonceInfoOrBuilder getContractNoncesOrBuilder(
int index);
/**
*
**
* If not null this field specifies what the value of the signer account nonce is post transaction execution.
* For transactions that don't update the signer nonce, this field should be null.
*
*
* .google.protobuf.Int64Value signer_nonce = 15;
* @return Whether the signerNonce field is set.
*/
boolean hasSignerNonce();
/**
*
**
* If not null this field specifies what the value of the signer account nonce is post transaction execution.
* For transactions that don't update the signer nonce, this field should be null.
*
*
* .google.protobuf.Int64Value signer_nonce = 15;
* @return The signerNonce.
*/
com.google.protobuf.Int64Value getSignerNonce();
/**
*
**
* If not null this field specifies what the value of the signer account nonce is post transaction execution.
* For transactions that don't update the signer nonce, this field should be null.
*
*
* .google.protobuf.Int64Value signer_nonce = 15;
*/
com.google.protobuf.Int64ValueOrBuilder getSignerNonceOrBuilder();
}
© 2015 - 2024 Weber Informatics LLC | Privacy Policy