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[test] handle_commit_{new_process, new_state}

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This commit is contained in:
Sosthene 2024-11-18 15:35:13 +01:00
parent 1cb20527da
commit 398ee47612
2 changed files with 304 additions and 0 deletions
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3
Cargo.toml
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@ -19,3 +19,6 @@ tokio = { version = "1.0.0", features = ["io-util", "rt-multi-thread", "macros",
tokio-stream = "0.1"
tokio-tungstenite = "0.21.0"
zeromq = "0.4.1"
[dev-dependencies]
mockall = "0.13.0"

301
src/commit.rs
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@ -203,4 +203,305 @@ fn commit_new_transaction(
Ok(commited_in)
}
#[cfg(test)]
mod tests {
use super::*;
use bitcoincore_rpc::bitcoin::hex::DisplayHex;
use sdk_common::pcd::Member;
use sdk_common::pcd::RoleDefinition;
use sdk_common::pcd::ValidationRule;
use sdk_common::sp_client::silentpayments::utils::SilentPaymentAddress;
use serde_json::json;
use mockall::predicate::*;
use mockall::mock;
use std::collections::HashMap;
use std::sync::{Mutex, Arc};
use bitcoincore_rpc::bitcoin::*;
use crate::daemon::RpcCall;
use std::sync::OnceLock;
use sdk_common::sp_client::bitcoin::consensus::serialize;
use serde_json::{Map, Value};
const LOCAL_ADDRESS: &str = "sprt1qq222dhaxlzmjft2pa7qtspw2aw55vwfmtnjyllv5qrsqwm3nufxs6q7t88jf9asvd7rxhczt87de68du3jhem54xvqxy80wc6ep7lauxacsrq79v";
const INIT_TRANSACTION: &str = "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";
// Define the mock for Daemon with the required methods
mock! {
#[derive(Debug)]
pub Daemon {}
impl RpcCall for Daemon {
fn connect(
rpcwallet: Option<String>,
rpc_url: String,
network: bitcoincore_rpc::bitcoin::Network,
) -> Result<Self> where Self: Sized;
fn estimate_fee(&self, nblocks: u16) -> Result<Amount>;
fn get_relay_fee(&self) -> Result<Amount>;
fn get_current_height(&self) -> Result<u64>;
fn get_block(&self, block_hash: BlockHash) -> Result<Block>;
fn get_filters(&self, block_height: u32) -> Result<(u32, BlockHash, bip158::BlockFilter)>;
fn list_unspent_from_to(
&self,
minamt: Option<Amount>,
) -> Result<Vec<bitcoincore_rpc::json::ListUnspentResultEntry>>;
fn create_psbt(
&self,
unspents: &[bitcoincore_rpc::json::ListUnspentResultEntry],
spk: ScriptBuf,
network: Network,
) -> Result<String>;
fn process_psbt(&self, psbt: String) -> Result<String>;
fn finalize_psbt(&self, psbt: String) -> Result<String>;
fn get_network(&self) -> Result<Network>;
fn test_mempool_accept(
&self,
tx: &Transaction,
) -> Result<crate::bitcoin_json::TestMempoolAcceptResult>;
fn broadcast(&self, tx: &Transaction) -> Result<Txid>;
fn get_transaction_info(
&self,
txid: &Txid,
blockhash: Option<BlockHash>,
) -> Result<Value>;
fn get_transaction_hex(
&self,
txid: &Txid,
blockhash: Option<BlockHash>,
) -> Result<Value>;
fn get_transaction(
&self,
txid: &Txid,
blockhash: Option<BlockHash>,
) -> Result<Transaction>;
fn get_block_txids(&self, blockhash: BlockHash) -> Result<Vec<Txid>>;
fn get_mempool_txids(&self) -> Result<Vec<Txid>>;
fn get_mempool_entries(
&self,
txids: &[Txid],
) -> Result<Vec<Result<bitcoincore_rpc::json::GetMempoolEntryResult>>>;
fn get_mempool_transactions(
&self,
txids: &[Txid],
) -> Result<Vec<Result<Transaction>>>;
}
}
mock! {
#[derive(Debug)]
pub SpWallet {
fn get_receiving_address(&self) -> Result<String>;
}
}
mock! {
#[derive(Debug)]
pub SilentPaymentWallet {
fn get_sp_wallet(&self) -> Result<MockSpWallet>;
}
}
static WALLET: OnceLock<MockSilentPaymentWallet> = OnceLock::new();
pub fn initialize_static_variables() {
if DAEMON.get().is_none() {
let mut daemon = MockDaemon::new();
daemon.expect_broadcast()
.withf(|tx: &Transaction| serialize(tx).to_lower_hex_string() == INIT_TRANSACTION)
.returning(|tx| Ok(tx.txid()));
DAEMON.set(Mutex::new(Box::new(daemon))).expect("DAEMON should only be initialized once");
println!("Initialized DAEMON");
}
if WALLET.get().is_none() {
let mut wallet = MockSilentPaymentWallet::new();
wallet.expect_get_sp_wallet().returning(|| Ok(MockSpWallet::new()));
WALLET.set(wallet).expect("WALLET should only be initialized once");
println!("Initialized WALLET");
}
if CACHEDPROCESSES.get().is_none() {
CACHEDPROCESSES
.set(Mutex::new(HashMap::new()))
.expect("CACHEDPROCESSES should only be initialized once");
println!("Initialized CACHEDPROCESSES");
}
}
fn mock_commit_msg(init_tx: Transaction, first: bool) -> CommitMessage {
let field_name = "roles".to_owned();
let member = Member::new(vec![SilentPaymentAddress::try_from(LOCAL_ADDRESS).unwrap()]).unwrap();
let validation_rule = ValidationRule::new(1.0, vec![field_name.clone()], 1.0).unwrap();
let role_def = RoleDefinition {
members: vec![member],
validation_rules: vec![validation_rule]
};
let roles = HashMap::from([(String::from("role_name"), role_def)]);
let pcd_commitment = json!({field_name: "b30212b9649054b71f938fbe0d1c08e72de95bdb12b8008082795c6e9c4ad26a"});
let init_tx = if first { serialize(&init_tx).to_lower_hex_string() } else { OutPoint::new(init_tx.txid(), 0).to_string() };
let commit_msg = CommitMessage {
init_tx,
roles: roles.clone(),
validation_tokens: vec![],
pcd_commitment: pcd_commitment.clone(),
error: None,
};
commit_msg
}
#[test]
fn test_handle_commit_new_process() {
initialize_static_variables();
let init_tx = deserialize::<Transaction>(&Vec::from_hex(INIT_TRANSACTION).unwrap()).unwrap();
let init_txid = init_tx.txid();
let init_commitment = OutPoint::new(init_txid, 0);
let commit_msg = mock_commit_msg(init_tx, true);
let roles = commit_msg.roles.clone();
let pcd_commitment = commit_msg.pcd_commitment.clone();
let empty_state = ProcessState {
commited_in: init_commitment,
..Default::default()
};
let result = handle_commit_request(commit_msg);
assert_eq!(result.unwrap(), init_commitment);
let cache = CACHEDPROCESSES.get().unwrap().lock().unwrap();
let updated_process = cache.get(&init_commitment);
assert!(updated_process.is_some());
let concurrent_states = updated_process.unwrap().get_latest_concurrent_states().unwrap();
// Constructing the roles_map that was inserted in the process
let roles_object = serde_json::to_value(roles).unwrap();
let mut roles_map = Map::new();
roles_map.insert("roles".to_owned(), roles_object);
let new_state = ProcessState {
commited_in: init_commitment,
pcd_commitment,
encrypted_pcd: Value::Object(roles_map),
..Default::default()
};
let target = vec![&empty_state, &new_state];
assert_eq!(concurrent_states, target);
}
#[test]
fn test_handle_commit_new_state() {
initialize_static_variables();
let init_tx = deserialize::<Transaction>(&Vec::from_hex(INIT_TRANSACTION).unwrap()).unwrap();
let init_txid = init_tx.txid();
let init_commitment = OutPoint::new(init_txid, 0);
let commit_msg = mock_commit_msg(init_tx, false);
let roles = commit_msg.roles.clone();
let pcd_commitment = commit_msg.pcd_commitment.clone();
let empty_state = ProcessState {
commited_in: init_commitment,
..Default::default()
};
let process = Process::new(vec![empty_state.clone()], vec![]);
CACHEDPROCESSES.get().unwrap().lock().unwrap().insert(init_commitment, process);
let result = handle_commit_request(commit_msg);
assert_eq!(result.unwrap(), init_commitment);
let cache = CACHEDPROCESSES.get().unwrap().lock().unwrap();
let updated_process = cache.get(&init_commitment);
assert!(updated_process.is_some());
let concurrent_states = updated_process.unwrap().get_latest_concurrent_states().unwrap();
let roles_object = serde_json::to_value(roles).unwrap();
let mut roles_map = Map::new();
roles_map.insert("roles".to_owned(), roles_object);
let new_state = ProcessState {
commited_in: init_commitment,
pcd_commitment,
encrypted_pcd: Value::Object(roles_map),
..Default::default()
};
let target = vec![&empty_state, &new_state];
assert_eq!(concurrent_states, target);
}
// #[test]
// fn test_handle_commit_request_invalid_init_tx() {
// let commit_msg = CommitMessage {
// init_tx: "invalid_tx_hex".to_string(),
// roles: HashMap::new(),
// validation_tokens: vec![],
// pcd_commitment: json!({"roles": "expected_roles"}).as_object().unwrap().clone(),
// };
// // Call the function under test
// let result = handle_commit_request(commit_msg);
// // Assertions for error
// assert!(result.is_err());
// assert_eq!(result.unwrap_err().to_string(), "init_tx must be a valid transaction or txid");
// }
// // Example test for adding a new state to an existing commitment
// #[test]
// fn test_handle_commit_request_add_state() {
// // Set up data for adding a state to an existing commitment
// let commit_msg = CommitMessage {
// init_tx: "existing_outpoint_hex".to_string(),
// roles: HashMap::new(),
// validation_tokens: vec![],
// pcd_commitment: json!({"roles": "expected_roles"}).as_object().unwrap().clone(),
// };
// // Mock daemon and cache initialization
// let mut daemon = MockDaemon::new();
// daemon.expect_broadcast().returning(|_| Ok(Txid::new()));
// DAEMON.set(Arc::new(Mutex::new(daemon))).unwrap();
// let process_state = Process::new(vec![], vec![]);
// CACHEDPROCESSES.lock().unwrap().insert(OutPoint::new("mock_txid", 0), process_state);
// // Run the function
// let result = handle_commit_request(commit_msg);
// // Assert success and that a new state was added
// assert!(result.is_ok());
// assert_eq!(result.unwrap(), OutPoint::new("mock_txid", 0));
// }
// // Additional tests for errors and validation tokens would follow a similar setup
}