Coin Standard
The Coin standard is the technical standard used for smart contracts on Sui for creating coins on the Sui blockchain. The standardization of coin creation on Sui means that wallets, exchanges, and other smart contracts can manage coins created on Sui the same as they manage SUI, without any additional processing logic.
See Sui Tokenomics to learn more about the SUI native coin and its use on the Sui network.
Although coins on Sui follow the Coin standard, they can offer specialized abilities. For example, you can create a regulated token that allows its creator to add specific addresses to a deny list, so that the identified addresses cannot use the token as inputs to transactions.
See the coin module documentation for all available options when creating a coin-type token on Sui.
Fungible tokens
In the Sui blockchain ecosystem, the Coin<T> type represents open-loop fungible tokens (see Token<T> for closed-loop tokens). Coins are denominated by their type parameter, T, which is also associated with metadata (like name, symbol, decimal precision, and so on) that applies to all instances of Coin<T>. The sui::coin module exposes an interface over Coin<T> that treats it as fungible, meaning that a unit of T held in one instance of Coin<T> is interchangeable with any other unit of T, much like how traditional fiat currencies operate.
The documentation refers to fungible tokens created on Sui using the Coin standard as "coins". For fungible tokens created on Sui using the Closed-Loop Token standard, the documentation uses the term "tokens". In practice, the terms for both these objects are often interchangeable.
Treasury capability
When you create a coin using the coin::create_currency function, the publisher of the smart contract that creates the coin receives a TreasuryCap object. The TreasuryCap object is required to mint new coins or to burn current ones. Consequently, only addresses that have access to this object are able to maintain the coin supply on the Sui network.
The TreasuryCap object is transferable, so a third party can take over the management of a coin that you create if you transfer the TreasuryCap. After transferring the capability, however, you are no longer able to mint and burn tokens yourself.
Regulated coins
The Coin standard includes the ability to create regulated coins. To create a regulated coin, you use the coin::create_regulated_currency function (which uses the coin::create_currency function itself), but which also returns a DenyCap capability. The DenyCap capability allows the bearer to maintain a list of addresses that aren't allowed to use the token.
The regulated-coin-sample repository provides an example of regulated coin creation.
DenyList object
The list of addresses that aren't able to use a particular regulated coin is held within a system-created DenyList shared object. If you have access to the DenyCap, then you can use the coin::deny_list_add and coin::deny_list_remove functions to add and remove addresses. You can also use the coin::deny_list_contains function to check if an address is already on the list.
Coin metadata
Each coin you create includes metadata that describes it. Typically, smart contracts freeze this object upon creation using the transfer::public_freeze_object function because the metadata for coins should almost never change. Regulated coins freeze the metadata they create automatically.
Regular coins using the Coin standard include a CoinMetadata object. As mentioned previously, regulated coins build on top of the same procedure that creates regular coins, so they receive the same metadata object in addition to a RegulatedCoinMetadata object that includes deny list information.
The fields of the metadata objects include the following:
CoinMetadata
| Name | Description |
|---|---|
id | The object ID of the metadata for the token. |
decimals | The number of decimals the token uses. If you set this field to 3, then a token of value 1000 would display as 1.000. |
name | Name of the coin. |
symbol | Symbol for the coin. This might be the same as name, but is typically fewer than five all capital letters. For example, SUI is the symbol for the native coin on Sui but its name is also SUI. |
description | A short description to describe the token. |
icon_url | The URL for the token's icon, used for display in wallets, explorers, and other apps. |
RegulatedCoinMetadata
| Name | Description |
|---|---|
id | The ID of the metadata object for the regulated token. |
coin_metadata_object | The ID of the underlying metadata object (CoinMetadata) for the regulated token. |
deny_cap_object | The ID of the token's DenyCap object, which is necessary to maintain the deny list entries that controls who can and cannot use the token. |
Minting and burning coins
The coin module provides the logic for creating and destroying coins on the Sui network (as long as you own the associated TreasuryCap). These functions are the same for all coins and each requires the TreasuryCap as an input.
Mint
Use the coin::mint function to create new tokens. The signature for the function is:
public fun mint<T>(
cap: &mut coin::TreasuryCap<T>,
value: u64,
ctx: &mut tx_context::TxContext
): coin::Coin<T>
The signature shows that a Coin<T> results from calling the function with a TreasuryCap, value for the coin created, and the transaction context. The function updates the total supply in TreasuryCap automatically. Upon display, the coin value respects the decimals value in the metadata. So, if you supply 1000000 as the coin value that has a decimal value of 6, the coin's value displays as 1.000000.
Burn
Use the coin::burn function to destroy current tokens. The signature for the function is:
public entry fun burn<T>(
cap: &mut coin::TreasuryCap<T>,
c: coin::Coin<T>
): u64
The signature shows that only the TreasuryCap and coin object you want to burn are necessary inputs, returning the amount by which the supply was decreased (value of the coin). The function does not allow you to burn more coins than are available in the supply.
Adding and removing addresses to and from the deny list
The deny list is only applicable to regulated coins. As mentioned previously, when you create a regulated coin you receive a DenyCap that authorizes the bearer to add and remove addresses from the system-created DenyList object. Any address on the list for your coin is unable to use the coin as an input to transactions.
Add address to deny list
Use the coin::deny_list_add function to add the provided address to the deny list for your coin. The signature for the function is:
public fun deny_list_add<T>(
deny_list: &mut deny_list::DenyList,
_deny_cap: &mut coin::DenyCap<T>,
addr: address,
_ctx: &mut tx_context::TxContext
)
When using this function, you provide the DenyList object (0x403), the DenyCap you receive on coin creation, the address to add to the list, and the transaction context. After using this function, the address you provide is unable to use your coin by the next epoch.
Remove address from deny list
Use the coin::deny_list_remove function to remove addresses from the deny list for your coin. The signature for the function is:
public fun deny_list_remove<T>(
deny_list: &mut deny_list::DenyList,
_deny_cap: &mut coin::DenyCap<T>,
addr: address,
_ctx: &mut tx_context::TxContext
)
When using this function, you provide the DenyList object (0x403), the DenyCap you receive on coin creation, the address to remove from the list, and the transaction context. If you try to remove an address that isn't on the list, you receive an ENotFrozen error and the function aborts. After calling this function, the address you provide is able to use your coin by the next epoch.
Using an SDK
You can use either the TypeScript or Rust SDK to manipulate the addresses held in the DenyList for your coin. The following examples are based on the regulated coin sample.
- TypeScript
- Rust
const tx = new Transaction();
tx.moveCall({
target: `0x2::coin::deny_list_add`,
arguments: [
tx.object(<SUI-DENY-LIST-OBJECT-ID>),
tx.object(<DENY-CAP-ID>),
tx.pure.address(options.address),
],
typeArguments: [<COIN-TYPE>],
});
<SUI-DENY-LIST-OBJECT-ID>is"0x403"<DENY-CAP-ID>is the object of typeDenyCap<REGULATED_COIN>we received from publishing the contractoptions.addressis the address to ban<COIN-TYPE>is${PACKAGE-ID}::${MODULE-NAME}::${COIN-NAME}, which is${PACKAGE-ID}::regulated_coin::REGULATED_COINbased on the example.
let mut ptb = ProgrammableTransactionBuilder::new();
let deny_list = ptb.obj(ObjectArg::SharedObject {
id: deny_list.0,
initial_shared_version: deny_list.1,
mutable: true,
})?;
let deny_cap = ptb.obj(ObjectArg::ImmOrOwnedObject(deny_cap))?;
let address = ptb.pure(cmd.address())?;
ptb.command(Command::move_call(
SUI_FRAMEWORK_PACKAGE_ID,
Identifier::from(COIN_MODULE_NAME),
Identifier::from_str("deny_list_add".to_string())?,
vec![<otw-type>],
vec![deny_list, deny_cap, address],
));
let builder = ptb.finish();
deny_listis of type(ObjectID, SequenceNumber).ObjectIDis0x403.SequenceNumberis theinitial_shared_versionof theDenyListsingleton.
deny_capis theObjectRef((ObjectID, SequenceNumber, ObjectDigest)) of theDenyCap<REGULATED_COIN>the publisher has received.otw_typeis theTypeTagcreated from<PACKAGE_ID>::regulated_coin::REGULATED_COINtype.cmd.address()returns the address to ban as aSuiAddress.
Query coin data
You can use the following functions to retrieve data from coins.
Metadata
Use the following functions to get the values for the respective fields on the metadata object for coins.
| Function | Signature |
|---|---|
get_decimals | public fun get_decimals<T>(metadata: &coin::CoinMetadata<T>): u8 |
get_name | public fun get_name<T>(metadata: &coin::CoinMetadata<T>): string::String |
get_symbol | public fun get_symbol<T>(metadata: &coin::CoinMetadata<T>): ascii::String |
get_description | public fun get_description<T>(metadata: &coin::CoinMetadata<T>): string::String |
get_icon_url | public fun get_icon_url<T>(metadata: &coin::CoinMetadata<T>): option::Option<url::Url> |
Supply
Use the coin::supply function to get the current supply of a given coin.
Check for address on deny list
Use the coin::deny_list_contains function to check if an address exists on the deny list for your coin. The signature of the function is:
public fun deny_list_contains<T>(
freezer: &deny_list::DenyList,
addr: address
): bool
The function returns true if the address is found on the coin's list, otherwise it returns false.
Update coin metadata
If the CoinMetadata object was not frozen upon creation, you can use the following functions to update its values.
Each function signature is similar. Replace <FUNCTION-NAME> and <ATTRIBUTE-TYPE> with the values defined in the table to get the signature of each function:
public entry fun <FUNCTION-NAME><T>(
_treasury: &coin::TreasuryCap<T>,
metadata: &mut coin::CoinMetadata<T>,
<ATTRIBUTE-TYPE>
)
<FUNCTION-NAME> | <ATTRIBUTE-TYPE> |
|---|---|
update_name | name: string::String |
update_symbol | symbol: ascii::String |
update_description | description: string::String |
update_icon_url | url: ascii::String |
RegulatedCoinMetadata is frozen upon creation, so there are no functions to update its data.
Related links
Check out the following content for more information about coins and tokens on Sui:
- Create a Coin: Guide for creating coins and regulated coins in your smart contracts.
- Closed-Loop Token Standard: Details the Token standard on Sui.
coinmodule rustdoc documentation: Automated documentation output for the Sui frameworkcoinmodule.tokenmodule rustdoc documentation: Automated documentation output for the Sui frameworktokenmodule.- Tokenomics: Discover the Sui ecosystem and where SUI coins fit within it.