pezkuwi-subxt/tests/integration/frame/balances.rs

// Copyright 2019-2022 Parity Technologies (UK) Ltd.
// This file is part of subxt.
//
// subxt is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// subxt is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with subxt.  If not, see <http://www.gnu.org/licenses/>.

use crate::{
    node_runtime::{
        balances,
        runtime_types,
        system,
        DispatchError,
    },
    pair_signer,
    test_context,
};
use codec::Decode;
use sp_core::{
    sr25519::Pair,
    Pair as _,
};
use sp_keyring::AccountKeyring;
use subxt::{
    DefaultConfig,
    Error,
    EventSubscription,
    Signer,
};

#[async_std::test]
async fn tx_basic_transfer() -> Result<(), subxt::Error<DispatchError>> {
    let alice = pair_signer(AccountKeyring::Alice.pair());
    let bob = pair_signer(AccountKeyring::Bob.pair());
    let bob_address = bob.account_id().clone().into();
    let cxt = test_context().await;
    let api = &cxt.api;

    let alice_pre = api
        .storage()
        .system()
        .account(alice.account_id().clone(), None)
        .await?;
    let bob_pre = api
        .storage()
        .system()
        .account(bob.account_id().clone(), None)
        .await?;

    let events = api
        .tx()
        .balances()
        .transfer(bob_address, 10_000)
        .sign_and_submit_then_watch(&alice)
        .await?
        .wait_for_finalized_success()
        .await?;
    let event = events
        .find_first_event::<balances::events::Transfer>()
        .expect("Failed to decode balances::events::Transfer")
        .expect("Failed to find balances::events::Transfer");
    let _extrinsic_success = events
        .find_first_event::<system::events::ExtrinsicSuccess>()
        .expect("Failed to decode ExtrinisicSuccess")
        .expect("Failed to find ExtrinisicSuccess");

    let expected_event = balances::events::Transfer {
        from: alice.account_id().clone(),
        to: bob.account_id().clone(),
        amount: 10_000,
    };
    assert_eq!(event, expected_event);

    let alice_post = api
        .storage()
        .system()
        .account(alice.account_id().clone(), None)
        .await?;
    let bob_post = api
        .storage()
        .system()
        .account(bob.account_id().clone(), None)
        .await?;

    assert!(alice_pre.data.free - 10_000 >= alice_post.data.free);
    assert_eq!(bob_pre.data.free + 10_000, bob_post.data.free);
    Ok(())
}

#[async_std::test]
async fn storage_total_issuance() {
    let cxt = test_context().await;
    let total_issuance = cxt
        .api
        .storage()
        .balances()
        .total_issuance(None)
        .await
        .unwrap();
    assert_ne!(total_issuance, 0);
}

#[async_std::test]
async fn storage_balance_lock() -> Result<(), subxt::Error<DispatchError>> {
    let bob = pair_signer(AccountKeyring::Bob.pair());
    let charlie = AccountKeyring::Charlie.to_account_id();
    let cxt = test_context().await;

    cxt.api
        .tx()
        .staking()
        .bond(
            charlie.into(),
            100_000_000_000_000,
            runtime_types::pallet_staking::RewardDestination::Stash,
        )
        .sign_and_submit_then_watch(&bob)
        .await?
        .wait_for_finalized_success()
        .await?
        .find_first_event::<system::events::ExtrinsicSuccess>()?
        .expect("No ExtrinsicSuccess Event found");

    let locks = cxt
        .api
        .storage()
        .balances()
        .locks(AccountKeyring::Bob.to_account_id(), None)
        .await?;

    assert_eq!(
        locks.0,
        vec![runtime_types::pallet_balances::BalanceLock {
            id: *b"staking ",
            amount: 100_000_000_000_000,
            reasons: runtime_types::pallet_balances::Reasons::All,
        }]
    );

    Ok(())
}

#[async_std::test]
async fn transfer_error() {
    env_logger::try_init().ok();
    let alice = pair_signer(AccountKeyring::Alice.pair());
    let alice_addr = alice.account_id().clone().into();
    let hans = pair_signer(Pair::generate().0);
    let hans_address = hans.account_id().clone().into();
    let cxt = test_context().await;

    cxt.api
        .tx()
        .balances()
        .transfer(hans_address, 100_000_000_000_000_000)
        .sign_and_submit_then_watch(&alice)
        .await
        .unwrap()
        .wait_for_finalized_success()
        .await
        .unwrap();

    let res = cxt
        .api
        .tx()
        .balances()
        .transfer(alice_addr, 100_000_000_000_000_000)
        .sign_and_submit_then_watch(&hans)
        .await
        .unwrap()
        .wait_for_finalized_success()
        .await;

    if let Err(Error::Runtime(err)) = res {
        let details = err.inner().details().unwrap();
        assert_eq!(details.pallet, "Balances");
        assert_eq!(details.error, "InsufficientBalance");
    } else {
        panic!("expected a runtime module error");
    }
}

#[async_std::test]
async fn transfer_subscription() {
    env_logger::try_init().ok();
    let alice = pair_signer(AccountKeyring::Alice.pair());
    let bob = AccountKeyring::Bob.to_account_id();
    let bob_addr = bob.clone().into();
    let cxt = test_context().await;
    let sub = cxt.client().rpc().subscribe_events().await.unwrap();
    let decoder = cxt.client().events_decoder();
    let mut sub = EventSubscription::<DefaultConfig>::new(sub, decoder);
    sub.filter_event::<balances::events::Transfer>();

    cxt.api
        .tx()
        .balances()
        .transfer(bob_addr, 10_000)
        .sign_and_submit_then_watch(&alice)
        .await
        .unwrap();

    let raw = sub.next().await.unwrap().unwrap();
    let event = balances::events::Transfer::decode(&mut &raw.data[..]).unwrap();
    assert_eq!(
        event,
        balances::events::Transfer {
            from: alice.account_id().clone(),
            to: bob.clone(),
            amount: 10_000
        }
    );
}

#[async_std::test]
async fn transfer_implicit_subscription() {
    env_logger::try_init().ok();
    let alice = pair_signer(AccountKeyring::Alice.pair());
    let bob = AccountKeyring::Bob.to_account_id();
    let bob_addr = bob.clone().into();
    let cxt = test_context().await;

    let event = cxt
        .api
        .tx()
        .balances()
        .transfer(bob_addr, 10_000)
        .sign_and_submit_then_watch(&alice)
        .await
        .unwrap()
        .wait_for_finalized_success()
        .await
        .unwrap()
        .find_first_event::<balances::events::Transfer>()
        .expect("Can decode events")
        .expect("Can find balance transfer event");

    assert_eq!(
        event,
        balances::events::Transfer {
            from: alice.account_id().clone(),
            to: bob.clone(),
            amount: 10_000
        }
    );
}

#[async_std::test]
async fn constant_existential_deposit() {
    let cxt = test_context().await;
    let balances_metadata = cxt.client().metadata().pallet("Balances").unwrap();
    let constant_metadata = balances_metadata.constant("ExistentialDeposit").unwrap();
    let existential_deposit = u128::decode(&mut &constant_metadata.value[..]).unwrap();
    assert_eq!(existential_deposit, 100_000_000_000_000);
    assert_eq!(
        existential_deposit,
        cxt.api
            .constants()
            .balances()
            .existential_deposit()
            .unwrap()
    );
}