Transfers & Actions
Smart contracts can perform specific Actions
such as transferring NEAR, or calling other contracts.
An important property of Actions
is that they can be batched together when acting on the same contract. Batched actions act as a unit: they execute in the same receipt, and if any fails, then they all get reverted.
Actions
can be batched only when they act on the same contract. You can batch calling two methods on a contract,
but cannot call two methods on different contracts.
Transfer NEAR Ⓝ
You can send $NEAR from your contract to any other account on the network. The Gas cost for transferring $NEAR is fixed and is based on the protocol's genesis config. Currently, it costs ~0.45 TGas
.
- 🌐 JavaScript
- 🦀 Rust
import { NearBindgen, NearPromise, call } from 'near-sdk-js'
import { AccountId } from 'near-sdk-js/lib/types'
@NearBindgen({})
class Contract{
@call({})
transfer({ to, amount }: { to: AccountId, amount: bigint }) {
return NearPromise.new(to).transfer(amount);
}
}
use near_sdk::{near, AccountId, Promise, NearToken};
#[near(contract_state)]
#[derive(Default)]
pub struct Contract { }
#[near]
impl Contract {
pub fn transfer(&self, to: AccountId, amount: NearToken){
Promise::new(to).transfer(amount);
}
}
The only case where a transfer will fail is if the receiver account does not exist.
Remember that your balance is used to cover for the contract's storage. When sending money, make sure you always leave enough to cover for future storage needs.
Function Call
Your smart contract can call methods in another contract. In the snippet below we call a method in a deployed Hello NEAR contract, and check if everything went right in the callback.
- 🌐 JavaScript
- 🦀 Rust
import { NearBindgen, near, call, bytes, NearPromise } from 'near-sdk-js'
import { AccountId } from 'near-sdk-js/lib/types'
const HELLO_NEAR: AccountId = "hello-nearverse.testnet";
const NO_DEPOSIT: bigint = BigInt(0);
const CALL_GAS: bigint = BigInt("10000000000000");
@NearBindgen({})
class Contract {
@call({})
call_method({}): NearPromise {
const args = bytes(JSON.stringify({ message: "howdy" }))
return NearPromise.new(HELLO_NEAR)
.functionCall("set_greeting", args, NO_DEPOSIT, CALL_GAS)
.then(
NearPromise.new(near.currentAccountId())
.functionCall("callback", bytes(JSON.stringify({})), NO_DEPOSIT, CALL_GAS)
)
.asReturn()
}
@call({privateFunction: true})
callback({}): boolean {
let result, success;
try{ result = near.promiseResult(0); success = true }
catch{ result = undefined; success = false }
if (success) {
near.log(`Success!`)
return true
} else {
near.log("Promise failed...")
return false
}
}
}
use near_sdk::{near, env, log, Promise, Gas, PromiseError};
use serde_json::json;
#[near(contract_state)]
#[derive(Default)]
pub struct Contract { }
const HELLO_NEAR: &str = "hello-nearverse.testnet";
const NO_DEPOSIT: u128 = 0;
const CALL_GAS: Gas = Gas(5_000_000_000_000);
#[near]
impl Contract {
pub fn call_method(&self){
let args = json!({ "message": "howdy".to_string() })
.to_string().into_bytes().to_vec();
Promise::new(HELLO_NEAR.parse().unwrap())
.function_call("set_greeting".to_string(), args, NO_DEPOSIT, CALL_GAS)
.then(
Promise::new(env::current_account_id())
.function_call("callback".to_string(), Vec::new(), NO_DEPOSIT, CALL_GAS)
);
}
pub fn callback(&self, #[callback_result] result: Result<(), PromiseError>){
if result.is_err(){
log!("Something went wrong")
}else{
log!("Message changed")
}
}
}
The snippet showed above is a low level way of calling other methods. We recommend make calls to other contracts as explained in the Cross-contract Calls section.
Create a Sub Account
Your contract can create direct sub accounts of itself, for example, user.near
can create sub.user.near
.
Accounts do NOT have control over their sub-accounts, since they have their own keys.
Sub-accounts are simply useful for organizing your accounts (e.g. dao.project.near
, token.project.near
).
- 🌐 JavaScript
- 🦀 Rust
import { NearBindgen, near, call, NearPromise } from 'near-sdk-js'
const MIN_STORAGE: bigint = BigInt("1000000000000000000000") // 0.001Ⓝ
@NearBindgen({})
class Contract {
@call({payableFunction:true})
create({prefix}:{prefix: String}) {
const account_id = `${prefix}.${near.currentAccountId()}`
NearPromise.new(account_id)
.createAccount()
.transfer(MIN_STORAGE)
}
}
use near_sdk::{near, env, Promise, NearToken};
#[near(contract_state)]
#[derive(Default)]
pub struct Contract { }
const MIN_STORAGE: Balance = 1_000_000_000_000_000_000_000; //0.001Ⓝ
#[near]
impl Contract {
pub fn create(&self, prefix: String){
let account_id = prefix + "." + &env::current_account_id().to_string();
Promise::new(account_id.parse().unwrap())
.create_account()
.transfer(MIN_STORAGE);
}
}
Notice that in the snippet we are transferring some money to the new account for storage
When you create an account from within a contract, it has no keys by default. If you don't explicitly add keys to it or deploy a contract on creation then it will be locked.
Creating .testnet
/ .near
Accounts
Accounts can only create immediate sub-accounts of themselves.
If your contract wants to create a .mainnet
or .testnet
account, then it needs to call
the create_account
method of near
or testnet
root contracts.
- 🌐 JavaScript
- 🦀 Rust
import { NearBindgen, near, call, bytes, NearPromise } from 'near-sdk-js'
const MIN_STORAGE: bigint = BigInt("1820000000000000000000"); //0.00182Ⓝ
const CALL_GAS: bigint = BigInt("28000000000000");
@NearBindgen({})
class Contract {
@call({})
create_account({account_id, public_key}:{account_id: String, public_key: String}) {
const args = bytes(JSON.stringify({
"new_account_id": account_id,
"new_public_key": public_key
}))
NearPromise.new("testnet")
.functionCall("create_account", args, MIN_STORAGE, CALL_GAS);
}
}
use near_sdk::{near, Promise, Gas, NearToken };
use serde_json::json;
#[near(contract_state)]
#[derive(Default)]
pub struct Contract { }
const CALL_GAS: Gas = Gas(28_000_000_000_000);
const MIN_STORAGE: Balance = 1_820_000_000_000_000_000_000; //0.00182Ⓝ
#[near]
impl Contract {
pub fn create_account(&self, account_id: String, public_key: String){
let args = json!({
"new_account_id": account_id,
"new_public_key": public_key,
}).to_string().into_bytes().to_vec();
// Use "near" to create mainnet accounts
Promise::new("testnet".parse().unwrap())
.function_call("create_account".to_string(), args, MIN_STORAGE, CALL_GAS);
}
}
Deploy a Contract
When creating an account you can also batch the action of deploying a contract to it. Note that for this, you will need to pre-load the byte-code you want to deploy in your contract.
- 🦀 Rust
use near_sdk::{near, env, Promise, NearToken};
#[near(contract_state)]
#[derive(Default)]
pub struct Contract { }
const MIN_STORAGE: Balance = 1_100_000_000_000_000_000_000_000; //1.1Ⓝ
const HELLO_CODE: &[u8] = include_bytes!("./hello.wasm");
#[near]
impl Contract {
pub fn create_hello(&self, prefix: String){
let account_id = prefix + "." + &env::current_account_id().to_string();
Promise::new(account_id.parse().unwrap())
.create_account()
.transfer(MIN_STORAGE)
.deploy_contract(HELLO_CODE.to_vec());
}
}
If an account with a contract deployed does not have any access keys, this is known as a locked contract. When the account is locked, it cannot sign transactions therefore, actions can only be performed from within the contract code.
Add Keys
When you use actions to create a new account, the created account does not have any access keys, meaning that it cannot sign transactions (e.g. to update its contract, delete itself, transfer money).
There are two options for adding keys to the account:
add_access_key
: adds a key that can only call specific methods on a specified contract.add_full_access_key
: adds a key that has full access to the account.
- 🌐 JavaScript
- 🦀 Rust
import { NearBindgen, near, call, NearPromise } from 'near-sdk-js'
import { PublicKey } from 'near-sdk-js/lib/types'
const MIN_STORAGE: bigint = BigInt("1000000000000000000000") // 0.001Ⓝ
@NearBindgen({})
class Contract {
@call({})
create_hello({prefix, public_key}:{prefix: String, public_key: PublicKey}) {
const account_id = `${prefix}.${near.currentAccountId()}`
NearPromise.new(account_id)
.createAccount()
.transfer(MIN_STORAGE)
.addFullAccessKey(public_key)
}
}
use near_sdk::{near, env, Promise, Balance, PublicKey};
#[near(serializers = [json, borsh])]
#[derive(Default)]
pub struct Contract { }
const MIN_STORAGE: Balance = 1_100_000_000_000_000_000_000_000; //1.1Ⓝ
const HELLO_CODE: &[u8] = include_bytes!("./hello.wasm");
#[near]
impl Contract {
pub fn create_hello(&self, prefix: String, public_key: PublicKey){
let account_id = prefix + "." + &env::current_account_id().to_string();
Promise::new(account_id.parse().unwrap())
.create_account()
.transfer(MIN_STORAGE)
.deploy_contract(HELLO_CODE.to_vec())
.add_full_access_key(public_key);
}
}
Notice that what you actually add is a "public key". Whoever holds its private counterpart, i.e. the private-key, will be able to use the newly access key.
If an account with a contract deployed does not have any access keys, this is known as a locked contract. When the account is locked, it cannot sign transactions therefore, actions can only be performed from within the contract code.
Delete Account
There are two scenarios in which you can use the delete_account
action:
- As the last action in a chain of batched actions.
- To make your smart contract delete its own account.
- 🌐 JavaScript
- 🦀 Rust
import { NearBindgen, near, call, NearPromise } from 'near-sdk-js'
import { AccountId } from 'near-sdk-js/lib/types'
const MIN_STORAGE: bigint = BigInt("1000000000000000000000") // 0.001Ⓝ
@NearBindgen({})
class Contract {
@call({})
create_delete({prefix, beneficiary}:{prefix: String, beneficiary: AccountId}) {
const account_id = `${prefix}.${near.currentAccountId()}`
NearPromise.new(account_id)
.createAccount()
.transfer(MIN_STORAGE)
.deleteAccount(beneficiary)
}
@call({})
self_delete({beneficiary}:{beneficiary: AccountId}) {
NearPromise.new(near.currentAccountId())
.deleteAccount(beneficiary)
}
}
use near_sdk::{near, env, Promise, Neartoken, AccountId};
#[near(contract_state)]
#[derive(Default)]
pub struct Contract { }
const MIN_STORAGE: Balance = 1_000_000_000_000_000_000_000; //0.001Ⓝ
#[near]
impl Contract {
pub fn create_delete(&self, prefix: String, beneficiary: AccountId){
let account_id = prefix + "." + &env::current_account_id().to_string();
Promise::new(account_id.parse().unwrap())
.create_account()
.transfer(MIN_STORAGE)
.delete_account(beneficiary);
}
pub fn self_delete(beneficiary: AccountId){
Promise::new(env::current_account_id())
.delete_account(beneficiary);
}
}
If the beneficiary account does not exist the funds will be dispersed among validators.
Do not use delete
to try fund a new account. Since the account doesn't exist the tokens will be lost.