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Remove dangling thin_client

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This commit is contained in:
Tyera Eulberg
2019-03-18 22:54:30 -06:00
committed by Grimes
parent 4798612560
commit 5ff8f57c0e
1 changed files with 0 additions and 621 deletions
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621
core/src/thin_client.rs
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@ -1,621 +0,0 @@
//! The `thin_client` module is a client-side object that interfaces with
//! a server-side TPU. Client code should use this object instead of writing
//! messages to the network directly. The binary encoding of its messages are
//! unstable and may change in future releases.
use crate::contact_info::ContactInfo;
use crate::fullnode::{Fullnode, FullnodeConfig};
use crate::packet::PACKET_DATA_SIZE;
use crate::rpc_request::{RpcClient, RpcRequest, RpcRequestHandler};
use bincode::serialize_into;
use bs58;
use serde_json;
use solana_metrics;
use solana_metrics::influxdb;
use solana_sdk::account::Account;
use solana_sdk::hash::Hash;
use solana_sdk::pubkey::Pubkey;
use solana_sdk::signature::{Keypair, KeypairUtil, Signature};
use solana_sdk::system_transaction::SystemTransaction;
use solana_sdk::timing;
use solana_sdk::transaction::Transaction;
use std;
use std::io;
use std::net::{SocketAddr, UdpSocket};
use std::sync::Arc;
use std::thread::sleep;
use std::time::Duration;
use std::time::Instant;
/// An object for querying and sending transactions to the network.
pub struct ThinClient {
rpc_addr: SocketAddr,
transactions_addr: SocketAddr,
transactions_socket: UdpSocket,
rpc_client: RpcClient,
}
impl ThinClient {
/// Create a new ThinClient that will interface with the Rpc at `rpc_addr` using TCP
/// and the Tpu at `transactions_addr` over `transactions_socket` using UDP.
pub fn new(
rpc_addr: SocketAddr,
transactions_addr: SocketAddr,
transactions_socket: UdpSocket,
) -> Self {
Self::new_from_client(
rpc_addr,
transactions_addr,
transactions_socket,
RpcClient::new_from_socket(rpc_addr),
)
}
pub fn new_with_timeout(
rpc_addr: SocketAddr,
transactions_addr: SocketAddr,
transactions_socket: UdpSocket,
timeout: Duration,
) -> Self {
let rpc_client = RpcClient::new_with_timeout(rpc_addr, timeout);
Self::new_from_client(rpc_addr, transactions_addr, transactions_socket, rpc_client)
}
fn new_from_client(
rpc_addr: SocketAddr,
transactions_addr: SocketAddr,
transactions_socket: UdpSocket,
rpc_client: RpcClient,
) -> Self {
ThinClient {
rpc_client,
rpc_addr,
transactions_addr,
transactions_socket,
}
}
/// Send a signed Transaction to the server for processing. This method
/// does not wait for a response.
pub fn transfer_signed(&self, transaction: &Transaction) -> io::Result<Signature> {
let mut buf = vec![0; transaction.serialized_size().unwrap() as usize];
let mut wr = std::io::Cursor::new(&mut buf[..]);
serialize_into(&mut wr, &transaction)
.expect("serialize Transaction in pub fn transfer_signed");
assert!(buf.len() < PACKET_DATA_SIZE);
self.transactions_socket
.send_to(&buf[..], &self.transactions_addr)?;
Ok(transaction.signatures[0])
}
/// Retry a sending a signed Transaction to the server for processing.
pub fn retry_transfer(
&mut self,
keypair: &Keypair,
transaction: &mut Transaction,
tries: usize,
) -> io::Result<Signature> {
for x in 0..tries {
transaction.sign(&[keypair], self.get_recent_blockhash());
let mut buf = vec![0; transaction.serialized_size().unwrap() as usize];
let mut wr = std::io::Cursor::new(&mut buf[..]);
serialize_into(&mut wr, &transaction)
.expect("serialize Transaction in pub fn transfer_signed");
self.transactions_socket
.send_to(&buf[..], &self.transactions_addr)?;
if self.poll_for_signature(&transaction.signatures[0]).is_ok() {
return Ok(transaction.signatures[0]);
}
info!("{} tries failed transfer to {}", x, self.transactions_addr);
}
Err(io::Error::new(
io::ErrorKind::Other,
"retry_transfer failed",
))
}
/// Creates, signs, and processes a Transaction. Useful for writing unit-tests.
pub fn transfer(
&self,
lamports: u64,
keypair: &Keypair,
to: &Pubkey,
blockhash: &Hash,
) -> io::Result<Signature> {
debug!(
"transfer: lamports={} from={:?} to={:?} blockhash={:?}",
lamports,
keypair.pubkey(),
to,
blockhash
);
let now = Instant::now();
let transaction = SystemTransaction::new_account(keypair, to, lamports, *blockhash, 0);
let result = self.transfer_signed(&transaction);
solana_metrics::submit(
influxdb::Point::new("thinclient")
.add_tag("op", influxdb::Value::String("transfer".to_string()))
.add_field(
"duration_ms",
influxdb::Value::Integer(timing::duration_as_ms(&now.elapsed()) as i64),
)
.to_owned(),
);
result
}
pub fn get_account_userdata(&mut self, pubkey: &Pubkey) -> io::Result<Option<Vec<u8>>> {
let params = json!([format!("{}", pubkey)]);
let response =
self.rpc_client
.make_rpc_request(1, RpcRequest::GetAccountInfo, Some(params));
match response {
Ok(account_json) => {
let account: Account =
serde_json::from_value(account_json).expect("deserialize account");
Ok(Some(account.userdata))
}
Err(error) => {
debug!("get_account_userdata failed: {:?}", error);
Err(io::Error::new(
io::ErrorKind::Other,
"get_account_userdata failed",
))
}
}
}
/// Request the balance of the user holding `pubkey`. This method blocks
/// until the server sends a response. If the response packet is dropped
/// by the network, this method will hang indefinitely.
pub fn get_balance(&mut self, pubkey: &Pubkey) -> io::Result<u64> {
trace!("get_balance sending request to {}", self.rpc_addr);
let params = json!([format!("{}", pubkey)]);
let response =
self.rpc_client
.make_rpc_request(1, RpcRequest::GetAccountInfo, Some(params));
response
.and_then(|account_json| {
let account: Account =
serde_json::from_value(account_json).expect("deserialize account");
trace!("Response account {:?} {:?}", pubkey, account);
trace!("get_balance {:?}", account.lamports);
Ok(account.lamports)
})
.map_err(|error| {
debug!("Response account {}: None (error: {:?})", pubkey, error);
io::Error::new(io::ErrorKind::Other, "AccountNotFound")
})
}
/// Request the transaction count. If the response packet is dropped by the network,
/// this method will try again 5 times.
pub fn transaction_count(&mut self) -> u64 {
debug!("transaction_count");
for _tries in 0..5 {
let response =
self.rpc_client
.make_rpc_request(1, RpcRequest::GetTransactionCount, None);
match response {
Ok(value) => {
debug!("transaction_count response: {:?}", value);
let transaction_count = value.as_u64().unwrap();
return transaction_count;
}
Err(error) => {
debug!("transaction_count failed: {:?}", error);
}
};
}
0
}
/// Request the last Entry ID from the server without blocking.
/// Returns the blockhash Hash or None if there was no response from the server.
pub fn try_get_recent_blockhash(&mut self, mut num_retries: u64) -> Option<Hash> {
loop {
trace!("try_get_recent_blockhash send_to {}", &self.rpc_addr);
let response =
self.rpc_client
.make_rpc_request(1, RpcRequest::GetRecentBlockhash, None);
match response {
Ok(value) => {
let blockhash_str = value.as_str().unwrap();
let blockhash_vec = bs58::decode(blockhash_str).into_vec().unwrap();
return Some(Hash::new(&blockhash_vec));
}
Err(error) => {
debug!("thin_client get_recent_blockhash error: {:?}", error);
num_retries -= 1;
if num_retries == 0 {
return None;
}
}
}
}
}
/// Request the last Entry ID from the server. This method blocks
/// until the server sends a response.
pub fn get_recent_blockhash(&mut self) -> Hash {
loop {
trace!("get_recent_blockhash send_to {}", &self.rpc_addr);
if let Some(hash) = self.try_get_recent_blockhash(10) {
return hash;
}
}
}
/// Request a new last Entry ID from the server. This method blocks
/// until the server sends a response.
pub fn get_next_blockhash(&mut self, previous_blockhash: &Hash) -> Hash {
self.get_next_blockhash_ext(previous_blockhash, &|| {
sleep(Duration::from_millis(100));
})
}
pub fn get_next_blockhash_ext(&mut self, previous_blockhash: &Hash, func: &Fn()) -> Hash {
loop {
let blockhash = self.get_recent_blockhash();
if blockhash != *previous_blockhash {
break blockhash;
}
debug!("Got same blockhash ({:?}), will retry...", blockhash);
func()
}
}
pub fn submit_poll_balance_metrics(elapsed: &Duration) {
solana_metrics::submit(
influxdb::Point::new("thinclient")
.add_tag("op", influxdb::Value::String("get_balance".to_string()))
.add_field(
"duration_ms",
influxdb::Value::Integer(timing::duration_as_ms(elapsed) as i64),
)
.to_owned(),
);
}
pub fn poll_balance_with_timeout(
&mut self,
pubkey: &Pubkey,
polling_frequency: &Duration,
timeout: &Duration,
) -> io::Result<u64> {
let now = Instant::now();
loop {
match self.get_balance(&pubkey) {
Ok(bal) => {
ThinClient::submit_poll_balance_metrics(&now.elapsed());
return Ok(bal);
}
Err(e) => {
sleep(*polling_frequency);
if now.elapsed() > *timeout {
ThinClient::submit_poll_balance_metrics(&now.elapsed());
return Err(e);
}
}
};
}
}
pub fn poll_get_balance(&mut self, pubkey: &Pubkey) -> io::Result<u64> {
self.poll_balance_with_timeout(pubkey, &Duration::from_millis(100), &Duration::from_secs(1))
}
/// Poll the server to confirm a transaction.
pub fn poll_for_signature(&mut self, signature: &Signature) -> io::Result<()> {
let now = Instant::now();
while !self.check_signature(signature) {
if now.elapsed().as_secs() > 15 {
// TODO: Return a better error.
return Err(io::Error::new(io::ErrorKind::Other, "signature not found"));
}
sleep(Duration::from_millis(250));
}
Ok(())
}
/// Check a signature in the bank. This method blocks
/// until the server sends a response.
pub fn check_signature(&mut self, signature: &Signature) -> bool {
trace!("check_signature: {:?}", signature);
let params = json!([format!("{}", signature)]);
let now = Instant::now();
loop {
let response = self.rpc_client.make_rpc_request(
1,
RpcRequest::ConfirmTransaction,
Some(params.clone()),
);
match response {
Ok(confirmation) => {
let signature_status = confirmation.as_bool().unwrap();
if signature_status {
trace!("Response found signature");
} else {
trace!("Response signature not found");
}
solana_metrics::submit(
influxdb::Point::new("thinclient")
.add_tag("op", influxdb::Value::String("check_signature".to_string()))
.add_field(
"duration_ms",
influxdb::Value::Integer(
timing::duration_as_ms(&now.elapsed()) as i64
),
)
.to_owned(),
);
return signature_status;
}
Err(err) => {
debug!("check_signature request failed: {:?}", err);
}
};
}
}
pub fn fullnode_exit(&mut self) -> io::Result<bool> {
trace!("fullnode_exit sending request to {}", self.rpc_addr);
let response = self
.rpc_client
.make_rpc_request(1, RpcRequest::FullnodeExit, None)
.map_err(|error| {
debug!("Response from {} fullndoe_exit: {}", self.rpc_addr, error);
io::Error::new(io::ErrorKind::Other, "FullodeExit request failure")
})?;
serde_json::from_value(response).map_err(|error| {
debug!(
"ParseError: from {} fullndoe_exit: {}",
self.rpc_addr, error
);
io::Error::new(io::ErrorKind::Other, "FullodeExit parse failure")
})
}
}
impl Drop for ThinClient {
fn drop(&mut self) {
solana_metrics::flush();
}
}
pub fn retry_get_balance(
client: &mut ThinClient,
bob_pubkey: &Pubkey,
expected_balance: Option<u64>,
) -> Option<u64> {
const LAST: usize = 30;
for run in 0..LAST {
let balance_result = client.poll_get_balance(bob_pubkey);
if expected_balance.is_none() {
return balance_result.ok();
}
trace!(
"retry_get_balance[{}] {:?} {:?}",
run,
balance_result,
expected_balance
);
if let (Some(expected_balance), Ok(balance_result)) = (expected_balance, balance_result) {
if expected_balance == balance_result {
return Some(balance_result);
}
}
}
None
}
pub fn new_fullnode() -> (Fullnode, ContactInfo, Keypair, String) {
use crate::blocktree::create_new_tmp_ledger;
use crate::cluster_info::Node;
use crate::fullnode::Fullnode;
use solana_sdk::genesis_block::GenesisBlock;
use solana_sdk::signature::KeypairUtil;
let node_keypair = Arc::new(Keypair::new());
let node = Node::new_localhost_with_pubkey(&node_keypair.pubkey());
let contact_info = node.info.clone();
let (genesis_block, mint_keypair) = GenesisBlock::new_with_leader(10_000, &contact_info.id, 42);
let (ledger_path, _blockhash) = create_new_tmp_ledger!(&genesis_block);
let voting_keypair = Keypair::new();
let node = Fullnode::new(
node,
&node_keypair,
&ledger_path,
&voting_keypair.pubkey(),
voting_keypair,
None,
&FullnodeConfig::default(),
);
(node, contact_info, mint_keypair, ledger_path)
}
#[cfg(test)]
mod tests {
use super::*;
use crate::client::mk_client;
use crate::gossip_service::discover;
use bincode::{deserialize, serialize};
use solana_sdk::system_instruction::SystemInstruction;
use solana_vote_api::vote_state::VoteState;
use solana_vote_api::vote_transaction::VoteTransaction;
use std::fs::remove_dir_all;
#[test]
fn test_thin_client_basic() {
solana_logger::setup();
let (server, leader_data, alice, ledger_path) = new_fullnode();
let bob_pubkey = Keypair::new().pubkey();
discover(&leader_data.gossip, 1).unwrap();
let mut client = mk_client(&leader_data);
let transaction_count = client.transaction_count();
assert_eq!(transaction_count, 0);
let blockhash = client.get_recent_blockhash();
info!("test_thin_client blockhash: {:?}", blockhash);
let signature = client
.transfer(500, &alice, &bob_pubkey, &blockhash)
.unwrap();
info!("test_thin_client signature: {:?}", signature);
client.poll_for_signature(&signature).unwrap();
let balance = client.get_balance(&bob_pubkey);
assert_eq!(balance.unwrap(), 500);
let transaction_count = client.transaction_count();
assert_eq!(transaction_count, 1);
server.close().unwrap();
remove_dir_all(ledger_path).unwrap();
}
#[test]
#[ignore]
fn test_bad_sig() {
solana_logger::setup();
let (server, leader_data, alice, ledger_path) = new_fullnode();
let bob_pubkey = Keypair::new().pubkey();
discover(&leader_data.gossip, 1).unwrap();
let mut client = mk_client(&leader_data);
let blockhash = client.get_recent_blockhash();
let tx = SystemTransaction::new_account(&alice, &bob_pubkey, 500, blockhash, 0);
let _sig = client.transfer_signed(&tx).unwrap();
let blockhash = client.get_recent_blockhash();
let mut tr2 = SystemTransaction::new_account(&alice, &bob_pubkey, 501, blockhash, 0);
let mut instruction2 = deserialize(tr2.userdata(0)).unwrap();
if let SystemInstruction::Move { ref mut lamports } = instruction2 {
*lamports = 502;
}
tr2.instructions[0].userdata = serialize(&instruction2).unwrap();
let signature = client.transfer_signed(&tr2).unwrap();
client.poll_for_signature(&signature).unwrap();
let balance = client.get_balance(&bob_pubkey);
assert_eq!(balance.unwrap(), 1001);
server.close().unwrap();
remove_dir_all(ledger_path).unwrap();
}
#[test]
fn test_register_vote_account() {
solana_logger::setup();
let (server, leader_data, alice, ledger_path) = new_fullnode();
discover(&leader_data.gossip, 1).unwrap();
let mut client = mk_client(&leader_data);
// Create the validator account, transfer some lamports to that account
let validator_keypair = Keypair::new();
let blockhash = client.get_recent_blockhash();
let signature = client
.transfer(500, &alice, &validator_keypair.pubkey(), &blockhash)
.unwrap();
client.poll_for_signature(&signature).unwrap();
// Create and register the vote account
let validator_vote_account_keypair = Keypair::new();
let vote_account_id = validator_vote_account_keypair.pubkey();
let blockhash = client.get_recent_blockhash();
let transaction =
VoteTransaction::new_account(&validator_keypair, &vote_account_id, blockhash, 1, 1);
let signature = client.transfer_signed(&transaction).unwrap();
client.poll_for_signature(&signature).unwrap();
let balance = retry_get_balance(&mut client, &vote_account_id, Some(1))
.expect("Expected balance for new account to exist");
assert_eq!(balance, 1);
const LAST: usize = 30;
for run in 0..=LAST {
let account_user_data = client
.get_account_userdata(&vote_account_id)
.expect("Expected valid response for account userdata")
.expect("Expected valid account userdata to exist after account creation");
let vote_state = VoteState::deserialize(&account_user_data);
if vote_state.map(|vote_state| vote_state.delegate_id) == Ok(vote_account_id) {
break;
}
if run == LAST {
panic!("Expected successful vote account registration");
}
sleep(Duration::from_millis(900));
}
server.close().unwrap();
remove_dir_all(ledger_path).unwrap();
}
#[test]
fn test_transaction_count() {
// set a bogus address, see that we don't hang
solana_logger::setup();
let addr = "0.0.0.0:1234".parse().unwrap();
let transactions_socket = UdpSocket::bind("0.0.0.0:0").unwrap();
let mut client =
ThinClient::new_with_timeout(addr, addr, transactions_socket, Duration::from_secs(2));
assert_eq!(client.transaction_count(), 0);
}
#[test]
fn test_zero_balance_after_nonzero() {
solana_logger::setup();
let (server, leader_data, alice, ledger_path) = new_fullnode();
let bob_keypair = Keypair::new();
discover(&leader_data.gossip, 1).unwrap();
let mut client = mk_client(&leader_data);
let blockhash = client.get_recent_blockhash();
info!("test_thin_client blockhash: {:?}", blockhash);
let starting_alice_balance = client.poll_get_balance(&alice.pubkey()).unwrap();
info!("Alice has {} lamports", starting_alice_balance);
info!("Give Bob 500 lamports");
let signature = client
.transfer(500, &alice, &bob_keypair.pubkey(), &blockhash)
.unwrap();
client.poll_for_signature(&signature).unwrap();
let bob_balance = client.poll_get_balance(&bob_keypair.pubkey());
assert_eq!(bob_balance.unwrap(), 500);
info!("Take Bob's 500 lamports away");
let signature = client
.transfer(500, &bob_keypair, &alice.pubkey(), &blockhash)
.unwrap();
client.poll_for_signature(&signature).unwrap();
let alice_balance = client.poll_get_balance(&alice.pubkey()).unwrap();
assert_eq!(alice_balance, starting_alice_balance);
info!("Should get an error when Bob's balance hits zero and is purged");
let bob_balance = client.poll_get_balance(&bob_keypair.pubkey());
info!("Bob's balance is {:?}", bob_balance);
assert!(bob_balance.is_err(),);
server.close().unwrap();
remove_dir_all(ledger_path).unwrap();
}
}