mirror of
https://github.com/logos-blockchain/lez-programs.git
synced 2026-07-05 14:40:15 +00:00
Enforce at the ATA layer that the recipient token holding is already initialized, owned by the same token program as the sender ATA, decodes to a valid `TokenHolding`, and points at the same token definition as the sender. Align the core instruction doc and guest wrapper doc with that contract, and cover the boundary with unit tests (default, foreign-owned, malformed, mismatched-definition recipients, plus the missing-owner-auth and happy paths) and end-to-end integration tests (default and mismatched-definition recipients). Without this, the downstream `token::Transfer` default-recipient `Claim::Authorized` path was reachable through ATA, so integrators had to reverse-engineer recipient semantics from token/runtime internals.
293 lines
8.4 KiB
Rust
293 lines
8.4 KiB
Rust
use ata_core::{compute_ata_seed, get_associated_token_account_id};
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use nssa_core::{
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account::{Account, AccountId, AccountWithMetadata, Data},
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program::{ChainedCall, Claim},
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};
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use token_core::{TokenDefinition, TokenHolding};
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const ATA_PROGRAM_ID: nssa_core::program::ProgramId = [1u32; 8];
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const TOKEN_PROGRAM_ID: nssa_core::program::ProgramId = [2u32; 8];
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fn owner_id() -> AccountId {
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AccountId::new([0x01u8; 32])
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}
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fn definition_id() -> AccountId {
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AccountId::new([0x02u8; 32])
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}
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fn ata_id() -> AccountId {
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get_associated_token_account_id(
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&ATA_PROGRAM_ID,
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&compute_ata_seed(owner_id(), definition_id()),
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)
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}
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fn owner_account() -> AccountWithMetadata {
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AccountWithMetadata {
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account: Account::default(),
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is_authorized: true,
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account_id: owner_id(),
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}
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}
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fn definition_account() -> AccountWithMetadata {
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AccountWithMetadata {
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account: Account {
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program_owner: TOKEN_PROGRAM_ID,
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balance: 0,
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data: Data::from(&TokenDefinition::Fungible {
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name: "TEST".to_string(),
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total_supply: 1000,
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metadata_id: None,
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}),
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nonce: nssa_core::account::Nonce(0),
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},
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is_authorized: false,
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account_id: definition_id(),
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}
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}
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fn uninitialized_ata_account() -> AccountWithMetadata {
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AccountWithMetadata {
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account: Account::default(),
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is_authorized: false,
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account_id: ata_id(),
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}
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}
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fn initialized_ata_account() -> AccountWithMetadata {
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AccountWithMetadata {
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account: Account {
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program_owner: TOKEN_PROGRAM_ID,
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balance: 0,
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data: Data::from(&TokenHolding::Fungible {
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definition_id: definition_id(),
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balance: 100,
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}),
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nonce: nssa_core::account::Nonce(0),
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},
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is_authorized: false,
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account_id: ata_id(),
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}
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}
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#[test]
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fn create_emits_chained_call_for_uninitialized_ata() {
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let (post_states, chained_calls) = crate::create::create_associated_token_account(
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owner_account(),
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definition_account(),
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uninitialized_ata_account(),
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ATA_PROGRAM_ID,
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);
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assert_eq!(post_states.len(), 3);
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assert_eq!(post_states[0].required_claim(), Some(Claim::Authorized));
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let mut authorized_ata = uninitialized_ata_account();
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authorized_ata.is_authorized = true;
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let expected_call = ChainedCall::new(
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TOKEN_PROGRAM_ID,
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vec![definition_account(), authorized_ata],
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&token_core::Instruction::InitializeAccount,
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)
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.with_pda_seeds(vec![compute_ata_seed(owner_id(), definition_id())]);
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assert_eq!(chained_calls, vec![expected_call]);
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}
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#[test]
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fn create_is_idempotent_for_initialized_ata() {
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let (post_states, chained_calls) = crate::create::create_associated_token_account(
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owner_account(),
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definition_account(),
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initialized_ata_account(),
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ATA_PROGRAM_ID,
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);
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assert_eq!(post_states.len(), 3);
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assert!(
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chained_calls.is_empty(),
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"Should emit no chained call for already-initialized ATA"
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);
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}
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#[test]
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#[should_panic(expected = "ATA account ID does not match expected derivation")]
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fn create_panics_on_wrong_ata_address() {
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let wrong_ata = AccountWithMetadata {
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account: Account::default(),
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is_authorized: false,
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account_id: AccountId::new([0xFFu8; 32]),
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};
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crate::create::create_associated_token_account(
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owner_account(),
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definition_account(),
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wrong_ata,
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ATA_PROGRAM_ID,
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);
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}
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#[test]
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fn get_associated_token_account_id_is_deterministic() {
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let seed = compute_ata_seed(owner_id(), definition_id());
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let id1 = get_associated_token_account_id(&ATA_PROGRAM_ID, &seed);
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let id2 = get_associated_token_account_id(&ATA_PROGRAM_ID, &seed);
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assert_eq!(id1, id2);
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}
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#[test]
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fn get_associated_token_account_id_differs_by_owner() {
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let other_owner = AccountId::new([0x99u8; 32]);
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let id1 = get_associated_token_account_id(
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&ATA_PROGRAM_ID,
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&compute_ata_seed(owner_id(), definition_id()),
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);
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let id2 = get_associated_token_account_id(
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&ATA_PROGRAM_ID,
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&compute_ata_seed(other_owner, definition_id()),
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);
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assert_ne!(id1, id2);
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}
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#[test]
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fn get_associated_token_account_id_differs_by_definition() {
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let other_def = AccountId::new([0x99u8; 32]);
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let id1 = get_associated_token_account_id(
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&ATA_PROGRAM_ID,
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&compute_ata_seed(owner_id(), definition_id()),
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);
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let id2 =
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get_associated_token_account_id(&ATA_PROGRAM_ID, &compute_ata_seed(owner_id(), other_def));
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assert_ne!(id1, id2);
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}
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fn recipient_id() -> AccountId {
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AccountId::new([0x03u8; 32])
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}
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fn initialized_recipient_account() -> AccountWithMetadata {
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AccountWithMetadata {
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account: Account {
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program_owner: TOKEN_PROGRAM_ID,
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balance: 0,
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data: Data::from(&TokenHolding::Fungible {
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definition_id: definition_id(),
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balance: 0,
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}),
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nonce: nssa_core::account::Nonce(0),
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},
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is_authorized: false,
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account_id: recipient_id(),
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}
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}
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#[test]
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fn transfer_emits_chained_call_for_initialized_recipient() {
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let (post_states, chained_calls) = crate::transfer::transfer_from_associated_token_account(
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owner_account(),
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initialized_ata_account(),
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initialized_recipient_account(),
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ATA_PROGRAM_ID,
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25,
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);
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assert_eq!(post_states.len(), 3);
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assert_eq!(chained_calls.len(), 1);
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let mut sender_auth = initialized_ata_account();
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sender_auth.is_authorized = true;
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let expected_call = ChainedCall::new(
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TOKEN_PROGRAM_ID,
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vec![sender_auth, initialized_recipient_account()],
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&token_core::Instruction::Transfer {
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amount_to_transfer: 25,
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},
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)
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.with_pda_seeds(vec![compute_ata_seed(owner_id(), definition_id())]);
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assert_eq!(chained_calls, vec![expected_call]);
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}
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#[test]
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#[should_panic(expected = "Owner authorization is missing")]
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fn transfer_panics_when_owner_not_authorized() {
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let mut unauthorized_owner = owner_account();
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unauthorized_owner.is_authorized = false;
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crate::transfer::transfer_from_associated_token_account(
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unauthorized_owner,
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initialized_ata_account(),
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initialized_recipient_account(),
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ATA_PROGRAM_ID,
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1,
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);
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}
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#[test]
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#[should_panic(expected = "Recipient token holding must be initialized")]
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fn transfer_panics_when_recipient_is_default() {
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let default_recipient = AccountWithMetadata {
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account: Account::default(),
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is_authorized: false,
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account_id: recipient_id(),
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};
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crate::transfer::transfer_from_associated_token_account(
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owner_account(),
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initialized_ata_account(),
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default_recipient,
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ATA_PROGRAM_ID,
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1,
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);
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}
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#[test]
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#[should_panic(expected = "Recipient must be owned by the same token program as the sender ATA")]
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fn transfer_panics_when_recipient_is_foreign_owned() {
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let mut foreign_recipient = initialized_recipient_account();
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foreign_recipient.account.program_owner = [9u32; 8];
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crate::transfer::transfer_from_associated_token_account(
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owner_account(),
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initialized_ata_account(),
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foreign_recipient,
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ATA_PROGRAM_ID,
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1,
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);
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}
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#[test]
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#[should_panic(expected = "Recipient must hold a valid token")]
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fn transfer_panics_when_recipient_data_is_malformed() {
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let mut malformed_recipient = initialized_recipient_account();
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malformed_recipient.account.data = Data::try_from(vec![0xFFu8, 0xFE, 0xFD]).unwrap();
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crate::transfer::transfer_from_associated_token_account(
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owner_account(),
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initialized_ata_account(),
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malformed_recipient,
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ATA_PROGRAM_ID,
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1,
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);
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}
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#[test]
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#[should_panic(expected = "Recipient and sender token definitions do not match")]
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fn transfer_panics_when_recipient_definition_mismatches_sender() {
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let mut mismatched_recipient = initialized_recipient_account();
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mismatched_recipient.account.data = Data::from(&TokenHolding::Fungible {
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definition_id: AccountId::new([0xAAu8; 32]),
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balance: 0,
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});
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crate::transfer::transfer_from_associated_token_account(
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owner_account(),
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initialized_ata_account(),
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mismatched_recipient,
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ATA_PROGRAM_ID,
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1,
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);
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}
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