This is an example project to demonstrate usage of the @oxheadalpha/fa2-contracts package, a library and a tool to generate modular Tezos FA2 contracts and TypeScript interfaces.
Once we have created a TypeScript project, we need to add a development
dependency on @oxheadalpha/fa2-contracts package and dependency on
@oxheadalpha/fa2-interfaces package.
$ yarn add -D @oxheadalpha/fa2-contracts
...
$ yarn add @oxheadalpha/fa2-interfacesAs an example, we are going to implement a single fungible token FA2 contract
where the FA2 token can be exchanged for Tez. Any address can invoke the mint
contract entry point and transfer some Tez to exchange for the FA2 token. Any
FA2 token owner can also exchange FA2 tokens for Tez by calling the burn
contract entry point. The exchange rate is always one Mutez per one FA2 token.
In addition, the contract collects a flat exchange fee that can be set by the
contract admin. The contract admin can change the exchange fee and withdraw
collected fees. The contract admin can pause and unpause the contract. If the
contract is paused, token owners cannot transfer, mint and burn tokens.
First, we will generate the LIGO code and TypeScript API for the base fungible
token contract using tzGen tool from the @oxheadalpha/fa2-contracts package.
Then, we will extend the contract code with the custom mint, burn and the
admin entry points. Finally, we will extend generated TypeScript API with the new
entry points' methods and storage origination function.
Import LIGO library sources from @oxheadalpha/fa2-contracts package with the
yarn tzGen import-ligo command. We are using the default destination directory
for the LIGO code ./ligo.
$ yarn tzgen import-ligo
importing LIGO sources from ~/composed-fa2-example/node_modules/@oxheadalpha/fa2-contracts/ligo to ~/composed-fa2-example/ligo
LIGO sources imported to ~/composed-fa2-example/ligoInitialize tzGen tool environment. We are using the default settings for LIGO
source code directory (./ligo) and TypeScript source code directory (./src).
For the contract compilation output we specify .\dist directory.
$ yarn tzgen init --compile-out ./dist
~/composed-fa2-example/tzgen.json config file createdGenerate base FA2 contract specification: single fungible token (FT) and simple pausable admin. We do not specify any standard minting functionality since we are going to extend the base contract with the custom implementation.
$ yarn tzgen spec my_contract.json --kind FT --admin PAUSABLE
~/composed-fa2-example/my_contract.json spec file createdGenerate base contract LIGO source code
$ yarn tzgen contract my_contract.json base_ft_contract.mligo
~/composed-fa2-example/ligo/src/base_ft_contract.mligo is generatedGenerate TypeScript API for the base contract.
$ yarn tzgen type-script my_contract.json base_ft_contract.ts
~/composed-fa2-example/src/base_ft_contract.ts is generatedThe generated contract already has the standard FA2 functionality: token transfer, operators etc. On the next step we are going to extend it with the custom mint and burn implementation, and exchange admin entry points to change the fee and withdraw collected fees.
First we need to define LIGO types for the custom contract storage and the main
entry point. In the ./ligo/src directory we create a new contract
file tzfa2_contract.mligo and include the
generated base_ft_contract.mligo. Then we
define a new storage type as a record combining asset_storage from the
generated contract and the exchange fee related fields:
#include "base_ft_contract.mligo"
type tzfa2_storage = {
asset : asset_storage;
fee : tez;
collected_fees: tez;
}Define the custom entry points type:
type change_fee_param = {
old_fee : tez;
new_fee : tez;
}
type tzfa2_entrypoints =
| Mint of tez (* param is expected exchange fee *)
| Burn of nat (* param is the number of tokens to burn *)
| Change_fee of change_fee_param
| Withdraw_fees (* the admin withdraws collected fees *)Define a new main entry point function and dispatch the calls to handler functions:
let custom_entrypoints (param, storage : tzfa2_entrypoints * tzfa2_storage)
: (operation list) * tzfa2_storage =
(* will add custom entry points handlers later *)
([] : operation list), storage
module TzFa2 = struct
[@entry]
let asset (param : Asset.entrypoints) (storage : tzfa2_storage)
: (operation list) * tzfa2_storage =
(* dispatch call to the generated contract main function implementation *)
let ops, new_asset = Asset.main (param, storage.asset) in
let new_s = { storage with asset = new_asset } in
(ops, new_s)
[@entry]
let tzfa2 (param : tzfa2_entrypoints) (storage : tzfa2_storage)
: (operation list) * tzfa2_storage =
custom_entrypoints (param, storage)
endTo test that our contract code compiles, we can add a build script based on
tzGen to the package.json file:
"build:contract": "yarn tzgen michelson tzfa2_contract tzfa2_contract --main TzFa2"Now we can run the following command
$ yarn build:contractany time we made changes to the contract code.
The next step is to implement handlers for the custom entry points. The final
implementation of custom entry points can be found in
tzfa2_contract.mligo. The implementation uses
the fail_if_not_admin guard for the custom admin entry points, and
fail_if_paused and fail_if_not_minter guards for the mint and burn entry
points, Those guards are part of the public admin and minter admin modules API
(see
LIGO modules
description in @oxheadalpha/fa2-contracts package for more details). If we
decide to change the specification for the contract admin and/or minter admin and
regenerate the base FA2 contract, we do not need to change our custom extension
code, since the public modules API will remain the same.
On previous steps we have generated the TypeScript createStorage() function. The function accepts a parameter object with three fields:
metadata- a string representing the contract TZIP-16 metadataowner- the address of the contract owner/admintoken- token metadata
The custom contract extension defines two extra fields: fee and collected-fees
that need to be initialized.
type tzfa2_storage = {
asset : asset_storage;
fee : tez;
collected_fees: tez;
}The collected_fees should be 0 mutez during the contract origination and we
would need an extra parameter specifying the initial fee. Based on the generated
createStorage() function, we can define the
createCustomStorage() function like this:
export const createCustomStorage = (
metadata: string,
owner: address,
token: TokenMetadataInternal,
fee: mutez //fee is a part of the custom storage extension
) => {
const baseStorage = createStorage({
metadata,
owner,
token
});
return { asset: baseStorage, fee, collected_fees: 0 };
};We have defined the following custom entry points:
change_fee- the admin can change the exchange fee.withdraw_fees- the admin can withdraw collected fees.mint- any token owner can mint some FA2 tokens in exchange for transferred tez.burn- any token owner can exchange his FA2 tokens for tez.
We are going to split those entry points into two different TypeScript interfaces:
ExchangeAdminContract and MinterContract. Each entry point is represented by
the interface method that returns ContractMethod<ContractProvider>. The
underlying implementation will invoke Taquito's contract method and can be mixed
with other contract method calls.
export interface ExchangeAdminContract {
withdrawFees: () => ContractMethod<ContractProvider>;
changeFee: (
old_fee: mutez,
new_fee: mutez
) => ContractMethod<ContractProvider>;
}
export interface MinterContract {
mint: (expected_fee: mutez) => ContractMethod<ContractProvider>;
burn: (ntokens: nat) => ContractMethod<ContractProvider>;
}In the next step we are going to implement two constructor functions:
ExchangeAdmin and Minter. The actual implementation can be found
here.
See
for more details.
Now we can use newly-defined API like this:
const ownerApi = (
await tezosApi(toolkit).at(contractAddress)
).with(Minter);
await runMethod(ownerApi.mint(1000000), { amount: 5000000, mutez: true });and
const adminApi = (await tezosApi(toolkit).at(contractAddress)).with(
ExchangeAdmin
);
const run = runMethod(adminApi.changeFee(1, 2));