9 stable releases
1.4.0 | Dec 17, 2023 |
---|---|
1.3.7 | Dec 14, 2023 |
1.3.6 | Nov 18, 2023 |
1.3.5 | Aug 29, 2023 |
1.3.2 | May 13, 2023 |
#491 in Magic Beans
47 downloads per month
Used in 10 crates
(3 directly)
190KB
3.5K
SLoC
Metaplex Token Authorization Rules
A program that provides the ability to create and execute rules to restrict common token operations such as transferring and selling.
Overview
Authorization rules are variants of a Rule
enum that implements a validate()
function.
There are Primitive Rules and Composed Rules that are created by combining of one or more primitive rules.
Primitive Rules store any accounts or data needed for evaluation, and at runtime will produce a true or false output based on accounts and a well-defined Payload
that are passed into the validate()
function.
Composed Rules return a true or false based on whether any or all of the primitive rules return true. Composed rules can then be combined into higher-level composed rules that implement more complex boolean logic. Because of the recursive definition of the Rule
enum, calling validate()
on a top-level composed rule will start at the top and validate at every level, down to the component primitive rules.
Environment Setup
- Install Rust from https://rustup.rs/
- Install Solana from https://docs.solana.com/cli/install-solana-cli-tools#use-solanas-install-tool
- Run
yarn install
to install dependencies
Build and test the Rust program
$ cd program/
$ cargo build-bpf
$ cargo test-bpf
$ cd ..
Build the program, generate the JS API, and rebuild IDL (using Shank and Solita)
$ yarn build:rust
$ yarn solita
Build the JS SDK only (must be generated first)
$ yarn build:sdk
Build the program and generate/build the IDL/SDK/docs
$ yarn build
Start Amman and run the test script
Run the following command in a separate shell
$ amman start
Then, run the Amman script
$ yarn amman
Examples
Rust
Note: Additional Rust examples can be found in the program/tests directory.
use mpl_token_auth_rules::{
instruction::{
builders::{CreateOrUpdateBuilder, ValidateBuilder},
CreateOrUpdateArgs, InstructionBuilder, ValidateArgs,
},
payload::{Payload, PayloadType},
state::{CompareOp, Rule, RuleSetV1},
};
use num_derive::ToPrimitive;
use rmp_serde::Serializer;
use serde::Serialize;
use solana_client::rpc_client::RpcClient;
use solana_sdk::{
instruction::AccountMeta, native_token::LAMPORTS_PER_SOL, signature::Signer,
signer::keypair::Keypair, transaction::Transaction,
};
#[repr(C)]
#[derive(ToPrimitive)]
pub enum Operation {
OwnerTransfer,
Delegate,
SaleTransfer,
}
impl ToString for Operation {
fn to_string(&self) -> String {
match self {
Operation::OwnerTransfer => "OwnerTransfer".to_string(),
Operation::Delegate => "Delegate".to_string(),
Operation::SaleTransfer => "SaleTransfer".to_string(),
}
}
}
fn main() {
let url = "https://api.devnet.solana.com".to_string();
let rpc_client = RpcClient::new(url);
let payer = Keypair::new();
let signature = rpc_client
.request_airdrop(&payer.pubkey(), LAMPORTS_PER_SOL)
.unwrap();
loop {
let confirmed = rpc_client.confirm_transaction(&signature).unwrap();
if confirmed {
break;
}
}
// --------------------------------
// Create RuleSet
// --------------------------------
// Find RuleSet PDA.
let (rule_set_addr, _ruleset_bump) = mpl_token_auth_rules::pda::find_rule_set_address(
payer.pubkey(),
"test rule_set".to_string(),
);
// Additional signer.
let adtl_signer = Keypair::new();
// Create some rules.
let adtl_signer_rule = Rule::AdditionalSigner {
account: adtl_signer.pubkey(),
};
let amount_rule = Rule::Amount {
amount: 1,
operator: CompareOp::LtEq,
field: "Amount".to_string(),
};
let overall_rule = Rule::All {
rules: vec![adtl_signer_rule, amount_rule],
};
// Create a RuleSet.
let mut rule_set = RuleSetV1::new("test rule_set".to_string(), payer.pubkey());
rule_set
.add(Operation::OwnerTransfer.to_string(), overall_rule)
.unwrap();
println!("{:#?}", rule_set);
// Serialize the RuleSet using RMP serde.
let mut serialized_rule_set = Vec::new();
rule_set
.serialize(&mut Serializer::new(&mut serialized_rule_set))
.unwrap();
// Create a `create` instruction.
let create_ix = CreateOrUpdateBuilder::new()
.payer(payer.pubkey())
.rule_set_pda(rule_set_addr)
.build(CreateOrUpdateArgs::V1 {
serialized_rule_set,
})
.unwrap()
.instruction();
// Add it to a transaction.
let latest_blockhash = rpc_client.get_latest_blockhash().unwrap();
let create_tx = Transaction::new_signed_with_payer(
&[create_ix],
Some(&payer.pubkey()),
&[&payer],
latest_blockhash,
);
// Send and confirm transaction.
let signature = rpc_client.send_and_confirm_transaction(&create_tx).unwrap();
println!("Create tx signature: {}", signature);
// --------------------------------
// Validate Operation
// --------------------------------
// Create a Keypair to simulate a token mint address.
let mint = Keypair::new().pubkey();
// Store the payload of data to validate against the rule definition.
let payload = Payload::from([("Amount".to_string(), PayloadType::Number(1))]);
// Create a `validate` instruction with the additional signer.
let validate_ix = ValidateBuilder::new()
.rule_set_pda(rule_set_addr)
.mint(mint)
.additional_rule_accounts(vec![AccountMeta::new_readonly(adtl_signer.pubkey(), true)])
.build(ValidateArgs::V1 {
operation: Operation::OwnerTransfer.to_string(),
payload,
update_rule_state: false,
rule_set_revision: None,
})
.unwrap()
.instruction();
// Add it to a transaction.
let latest_blockhash = rpc_client.get_latest_blockhash().unwrap();
let validate_tx = Transaction::new_signed_with_payer(
&[validate_ix],
Some(&payer.pubkey()),
&[&payer, &adtl_signer],
latest_blockhash,
);
// Send and confirm transaction.
let signature = rpc_client
.send_and_confirm_transaction(&validate_tx)
.unwrap();
println!("Validate tx signature: {}", signature);
}
JavaScript
Note: Additional JS examples can be found in the /cli/ source along with the example rulesets in /cli/examples/
import { encode, decode } from '@msgpack/msgpack';
import { createCreateInstruction, createTokenAuthorizationRules, PREFIX, PROGRAM_ID } from './helpers/mpl-token-auth-rules';
import { Keypair, Connection, PublicKey, Transaction, SystemProgram } from '@solarti/web3.js';
export const findRuleSetPDA = async (payer: PublicKey, name: string) => {
return await PublicKey.findProgramAddress(
[
Buffer.from(PREFIX),
payer.toBuffer(),
Buffer.from(name),
],
PROGRAM_ID,
);
}
export const createTokenAuthorizationRules = async (
connection: Connection,
payer: Keypair,
name: string,
data: Uint8Array,
) => {
const ruleSetAddress = await findRuleSetPDA(payer.publicKey, name);
let createIX = createCreateOrUpdateInstruction(
{
payer: payer.publicKey,
ruleSetPda: ruleSetAddress[0],
systemProgram: SystemProgram.programId,
},
{
createOrUpdateArgs: {__kind: "V1", serializedRuleSet: data },
},
PROGRAM_ID,
)
const tx = new Transaction().add(createIX);
const { blockhash } = await connection.getLatestBlockhash();
tx.recentBlockhash = blockhash;
tx.feePayer = payer.publicKey;
const sig = await connection.sendTransaction(tx, [payer], { skipPreflight: true });
await connection.confirmTransaction(sig, "finalized");
return ruleSetAddress[0];
}
const connection = new Connection("<YOUR_RPC_HERE>", "finalized");
let payer = Keypair.generate()
// Encode the file using msgpack so the pre-encoded data can be written directly to a Solana program account
const encoded = encode(JSON.parse(fs.readFileSync("./examples/pubkey_list_match.json")));
// Create the ruleset
await createTokenAuthorizationRules(connection, payer, name, encoded);
Dependencies
~22–31MB
~503K SLoC