247 lines
8.2 KiB
Rust
247 lines
8.2 KiB
Rust
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use signature::{KeyPair, PublicKey};
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use std::io;
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use std::net::{IpAddr, SocketAddr, UdpSocket};
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use std::time::Duration;
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use thin_client::ThinClient;
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use transaction::Transaction;
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pub const TIME_SLICE: u64 = 1;
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pub const REQUEST_CAP: u64 = 500;
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pub const SMALL_BATCH: i64 = 50;
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pub const TPS_BATCH: i64 = 5_000_000;
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#[derive(Serialize, Deserialize, Debug)]
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pub enum DroneRequest {
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GetAirdrop { request_type: DroneRequestType, client_public_key: PublicKey },
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}
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#[derive(Serialize, Deserialize, Debug)]
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pub enum DroneRequestType {
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SmallBatch,
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TPSBatch,
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}
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pub struct Drone {
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mint_keypair: KeyPair,
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ip_cache: Vec<IpAddr>,
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airdrop_addr: SocketAddr,
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transactions_addr: SocketAddr,
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requests_addr: SocketAddr,
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time_slice: Duration,
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request_cap: u64,
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request_current: u64,
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}
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impl Drone {
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pub fn new(
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mint_keypair: KeyPair,
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airdrop_addr: SocketAddr,
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transactions_addr: SocketAddr,
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requests_addr: SocketAddr,
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time_input: Option<u64>,
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request_cap_input: Option<u64>,
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) -> Drone {
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let time_slice = match time_input {
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Some(time) => Duration::new(time, 0),
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None => Duration::new(TIME_SLICE, 0)
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};
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let request_cap = match request_cap_input {
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Some(cap) => cap,
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None => REQUEST_CAP
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};
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Drone {
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mint_keypair,
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ip_cache: Vec::new(),
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airdrop_addr,
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transactions_addr,
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requests_addr,
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time_slice,
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request_cap,
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request_current: 0,
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}
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}
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pub fn add_ip_to_cache(&mut self, ip: IpAddr) {
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self.ip_cache.push(ip);
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}
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pub fn clear_ip_cache(&mut self) {
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self.ip_cache.clear();
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}
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pub fn check_rate_limit(&mut self, ip: IpAddr) -> Result<IpAddr, IpAddr> {
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// [WIP] This is placeholder code for a proper rate limiter.
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// Right now it will only allow one total drone request per IP
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if self.ip_cache.contains(&ip) {
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// Add proper error handling here
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Err(ip)
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}
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else {
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self.add_ip_to_cache(ip);
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Ok(ip)
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}
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// Test for quota limit met
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}
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pub fn send_airdrop(&mut self, req: DroneRequest) -> Result<usize, io::Error> {
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let tx: Transaction;
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let requests_socket = UdpSocket::bind("0.0.0.0:0").unwrap();
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let transactions_socket = UdpSocket::bind("0.0.0.0:0").unwrap();
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let mut client = ThinClient::new(
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self.requests_addr,
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requests_socket,
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self.transactions_addr,
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transactions_socket,
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);
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let last_id = client.get_last_id();
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match req {
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DroneRequest::GetAirdrop { request_type, client_public_key } => {
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match request_type {
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DroneRequestType::SmallBatch => {
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tx = Transaction::new(&self.mint_keypair, client_public_key, SMALL_BATCH, last_id);
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}
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DroneRequestType::TPSBatch => {
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tx = Transaction::new(&self.mint_keypair, client_public_key, TPS_BATCH, last_id);
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}
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}
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}
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}
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client.transfer_signed(tx)
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}
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}
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#[cfg(test)]
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mod tests {
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use bank::Bank;
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use crdt::{get_ip_addr, TestNode};
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use drone::{Drone, DroneRequest, DroneRequestType, TIME_SLICE, REQUEST_CAP, SMALL_BATCH, TPS_BATCH};
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use logger;
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use mint::Mint;
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use server::Server;
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use signature::{KeyPair, KeyPairUtil};
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use std::io::sink;
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use std::net::{SocketAddr, UdpSocket};
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use std::sync::atomic::{AtomicBool, Ordering};
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use std::sync::Arc;
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use std::thread::sleep;
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use std::time::Duration;
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use thin_client::ThinClient;
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#[test]
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fn test_add_ip_to_cache() {
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let keypair = KeyPair::new();
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let mut addr: SocketAddr = "0.0.0.0:9900".parse().unwrap();
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addr.set_ip(get_ip_addr().unwrap());
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let mut transactions_addr = addr.clone();
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transactions_addr.set_port(8000);
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let mut requests_addr = addr.clone();
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requests_addr.set_port(8003);
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let mut drone = Drone::new(keypair, addr, transactions_addr, requests_addr, None, None);
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let ip = "127.0.0.1".parse().expect("create IpAddr from string");
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assert_eq!(drone.ip_cache.len(), 0);
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drone.add_ip_to_cache(ip);
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assert_eq!(drone.ip_cache.len(), 1);
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assert!(drone.ip_cache.contains(&ip));
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}
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#[test]
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fn test_clear_ip_cache() {
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let keypair = KeyPair::new();
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let mut addr: SocketAddr = "0.0.0.0:9900".parse().unwrap();
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addr.set_ip(get_ip_addr().unwrap());
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let mut transactions_addr = addr.clone();
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transactions_addr.set_port(8000);
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let mut requests_addr = addr.clone();
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requests_addr.set_port(8003);
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let mut drone = Drone::new(keypair, addr, transactions_addr, requests_addr, None, None);
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let ip = "127.0.0.1".parse().expect("create IpAddr from string");
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assert_eq!(drone.ip_cache.len(), 0);
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drone.add_ip_to_cache(ip);
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assert_eq!(drone.ip_cache.len(), 1);
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drone.clear_ip_cache();
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assert_eq!(drone.ip_cache.len(), 0);
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assert!(drone.ip_cache.is_empty());
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}
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#[test]
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fn test_drone_default_init() {
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let keypair = KeyPair::new();
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let mut addr: SocketAddr = "0.0.0.0:9900".parse().unwrap();
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addr.set_ip(get_ip_addr().unwrap());
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let mut transactions_addr = addr.clone();
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transactions_addr.set_port(8000);
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let mut requests_addr = addr.clone();
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requests_addr.set_port(8003);
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let time_slice: Option<u64> = None;
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let request_cap: Option<u64> = None;
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let drone = Drone::new(keypair, addr, transactions_addr, requests_addr, time_slice, request_cap);
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assert_eq!(drone.time_slice, Duration::new(TIME_SLICE, 0));
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assert_eq!(drone.request_cap, REQUEST_CAP);
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}
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#[test]
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fn test_send_airdrop() {
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logger::setup();
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let leader = TestNode::new();
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let alice = Mint::new(10_000_000);
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let bank = Bank::new(&alice);
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let bob_pubkey = KeyPair::new().pubkey();
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let carlos_pubkey = KeyPair::new().pubkey();
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let exit = Arc::new(AtomicBool::new(false));
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let server = Server::new_leader(
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bank,
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Some(Duration::from_millis(30)),
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leader.data.clone(),
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leader.sockets.requests,
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leader.sockets.transaction,
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leader.sockets.broadcast,
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leader.sockets.respond,
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leader.sockets.gossip,
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exit.clone(),
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sink(),
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);
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sleep(Duration::from_millis(900));
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let mut addr: SocketAddr = "0.0.0.0:9900".parse().unwrap();
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addr.set_ip(get_ip_addr().unwrap());
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let mut drone = Drone::new(alice.keypair(), addr, leader.data.transactions_addr, leader.data.requests_addr, None, None);
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let bob_req = DroneRequest::GetAirdrop{ request_type: DroneRequestType::SmallBatch, client_public_key: bob_pubkey };
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let bob_result = drone.send_airdrop(bob_req).expect("send airdrop test");
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assert!(bob_result > 0);
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let carlos_req = DroneRequest::GetAirdrop{ request_type: DroneRequestType::TPSBatch, client_public_key: carlos_pubkey };
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let carlos_result = drone.send_airdrop(carlos_req).expect("send airdrop test");
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assert!(carlos_result > 0);
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let requests_socket = UdpSocket::bind("0.0.0.0:0").unwrap();
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let transactions_socket = UdpSocket::bind("0.0.0.0:0").unwrap();
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let mut client = ThinClient::new(
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leader.data.requests_addr,
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requests_socket,
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leader.data.transactions_addr,
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transactions_socket,
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);
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let bob_balance = client.poll_get_balance(&bob_pubkey);
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info!("Small batch balance: {:?}", bob_balance);
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assert_eq!(bob_balance.unwrap(), SMALL_BATCH);
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let carlos_balance = client.poll_get_balance(&carlos_pubkey);
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info!("TPS batch balance: {:?}", carlos_balance);
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assert_eq!(carlos_balance.unwrap(), TPS_BATCH);
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exit.store(true, Ordering::Relaxed);
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for t in server.thread_hdls {
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t.join().unwrap();
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}
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}
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}
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