serai/substrate/client/tests/batch.rs

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use rand_core::{RngCore, OsRng};
use serai_client::{
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primitives::{BITCOIN_NET_ID, BITCOIN, BlockHash, SeraiAddress, Amount, Balance},
in_instructions::{
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primitives::{InInstruction, InInstructionWithBalance, Batch},
InInstructionsEvent,
},
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tokens::TokensEvent,
Serai,
};
mod common;
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use common::{serai, in_instructions::provide_batch};
serai_test!(
async fn publish_batch() {
let network = BITCOIN_NET_ID;
let id = 0;
let mut block_hash = BlockHash([0; 32]);
OsRng.fill_bytes(&mut block_hash.0);
let mut address = SeraiAddress::new([0; 32]);
OsRng.fill_bytes(&mut address.0);
let coin = BITCOIN;
let amount = Amount(OsRng.next_u64().saturating_add(1));
let balance = Balance { coin, amount };
let batch = Batch {
network,
id,
block: block_hash,
instructions: vec![InInstructionWithBalance {
instruction: InInstruction::Transfer(address),
balance,
}],
};
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let block = provide_batch(batch).await;
let serai = serai().await;
let batches = serai.get_batch_events(block).await.unwrap();
assert_eq!(batches, vec![InInstructionsEvent::Batch { network, id, block: block_hash }]);
assert_eq!(
serai.get_mint_events(block).await.unwrap(),
vec![TokensEvent::Mint { address, balance }],
);
assert_eq!(serai.get_token_supply(block, coin).await.unwrap(), amount);
assert_eq!(serai.get_token_balance(block, coin, address).await.unwrap(), amount);
}
);