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- #[macro_use]
- extern crate anyhow;
- extern crate labrpc;
- extern crate ruaft;
- use rand::{thread_rng, Rng};
- mod config;
- #[test]
- fn basic_agreement() -> config::Result<()> {
- const SERVERS: usize = 5;
- let cfg = config::make_config(SERVERS, false);
- let _guard = cfg.deferred_cleanup();
- cfg.begin("Test (2B): basic agreement");
- for index in 1..4 {
- let committed = cfg.committed_count(index)?;
- assert_eq!(0, committed.0, "some have committed before start()");
- let commit_index = cfg.one(index as i32 * 100, SERVERS, false)?;
- assert_eq!(
- index, commit_index,
- "got index {} but expected {}",
- commit_index, index
- );
- }
- drop(_guard);
- Ok(())
- }
- #[test]
- fn fail_agree() -> config::Result<()> {
- const SERVERS: usize = 3;
- let cfg = config::make_config(SERVERS, false);
- let _guard = cfg.deferred_cleanup();
- cfg.begin("Test (2B): agreement despite follower disconnection");
- cfg.one(101, SERVERS, false)?;
- // follower network disconnection
- let leader = cfg.check_one_leader()?;
- cfg.disconnect((leader + 1) % SERVERS);
- // agree despite one disconnected server?
- cfg.one(102, SERVERS - 1, false)?;
- cfg.one(103, SERVERS - 1, false)?;
- config::sleep_election_timeouts(1);
- cfg.one(104, SERVERS - 1, false)?;
- cfg.one(105, SERVERS - 1, false)?;
- // re-connect
- cfg.connect((leader + 1) % SERVERS);
- // agree with full set of servers?
- cfg.one(106, SERVERS, true)?;
- config::sleep_election_timeouts(1);
- cfg.one(107, SERVERS, true)?;
- cfg.end();
- drop(_guard);
- Ok(())
- }
- #[test]
- fn fail_no_agree() -> config::Result<()> {
- const SERVERS: usize = 5;
- let cfg = config::make_config(SERVERS, false);
- let _guard = cfg.deferred_cleanup();
- cfg.begin("Test (2B): no agreement if too many followers disconnect");
- cfg.one(10, SERVERS, false)?;
- // 3 of 5 followers disconnect
- let leader = cfg.check_one_leader()?;
- cfg.disconnect((leader + 1) % SERVERS);
- cfg.disconnect((leader + 2) % SERVERS);
- cfg.disconnect((leader + 3) % SERVERS);
- let result = cfg.leader_start(leader, 20);
- assert!(result.is_some(), "leader rejected start()");
- let index = result.unwrap().1;
- assert_eq!(2, index, "expected index 2, got {}", index);
- config::sleep_election_timeouts(2);
- let (commit_count, _) = cfg.committed_count(index)?;
- assert_eq!(
- 0, commit_count,
- "{} committed but no majority",
- commit_count
- );
- // repair
- cfg.connect((leader + 1) % SERVERS);
- cfg.connect((leader + 2) % SERVERS);
- cfg.connect((leader + 3) % SERVERS);
- // the disconnected majority may have chosen a leader from
- // among their own ranks, forgetting index 2.
- let leader2 = cfg.check_one_leader()?;
- let result = cfg.leader_start(leader2, 30);
- assert!(result.is_some(), "leader2 rejected start()");
- let index = result.unwrap().1;
- assert!(index == 2 || index == 3, "unexpected index {}", index);
- cfg.one(1000, SERVERS, true)?;
- cfg.end();
- drop(_guard);
- Ok(())
- }
- #[test]
- fn rejoin() -> config::Result<()> {
- const SERVERS: usize = 3;
- let cfg = config::make_config(SERVERS, false);
- let _guard = cfg.deferred_cleanup();
- cfg.begin("Test (2B): rejoin of partitioned leader");
- cfg.one(101, SERVERS, true)?;
- // leader network failure
- let leader1 = cfg.check_one_leader()?;
- cfg.disconnect(leader1);
- // make old leader try to agree on some entries
- cfg.leader_start(leader1, 102);
- cfg.leader_start(leader1, 103);
- cfg.leader_start(leader1, 104);
- // new leader commits, also for index=2
- cfg.one(103, 2, true)?;
- // new leader network failure
- let leader2 = cfg.check_one_leader()?;
- cfg.disconnect(leader2);
- // old leader connected again
- cfg.connect(leader1);
- cfg.one(104, 2, true)?;
- // all together now
- cfg.connect(leader2);
- cfg.one(105, SERVERS, true)?;
- cfg.end();
- drop(_guard);
- Ok(())
- }
- #[test]
- fn backup() -> config::Result<()> {
- const SERVERS: usize = 5;
- let cfg = config::make_config(SERVERS, false);
- let _guard = cfg.deferred_cleanup();
- cfg.begin(
- "Test (2B): leader backs up quickly over incorrect follower logs",
- );
- cfg.one(thread_rng().gen(), SERVERS, true)?;
- // put leader and one follower in a partition
- let leader1 = cfg.check_one_leader()?;
- cfg.disconnect((leader1 + 2) % SERVERS);
- cfg.disconnect((leader1 + 3) % SERVERS);
- cfg.disconnect((leader1 + 4) % SERVERS);
- // submit lots of commands that won't commit
- for _ in 0..SERVERS {
- cfg.leader_start(leader1, thread_rng().gen());
- }
- config::sleep_election_timeouts(2);
- cfg.disconnect((leader1 + 0) % SERVERS);
- cfg.disconnect((leader1 + 1) % SERVERS);
- // allow other partition to recover
- cfg.connect((leader1 + 2) % SERVERS);
- cfg.connect((leader1 + 3) % SERVERS);
- cfg.connect((leader1 + 4) % SERVERS);
- // lots of successful commands to new group.
- for _ in 0..50 {
- cfg.one(thread_rng().gen(), 3, true)?;
- }
- // now another partitioned leader and one follower
- let leader2 = cfg.check_one_leader()?;
- let mut other = (leader1 + 2) % SERVERS;
- if leader2 == other {
- other = (leader2 + 1) % SERVERS;
- }
- cfg.disconnect(other);
- // lots more commands that won't commit
- for _ in 0..50 {
- cfg.leader_start(leader2, thread_rng().gen());
- }
- config::sleep_election_timeouts(2);
- // bring original leader back to life,
- for i in 0..SERVERS {
- cfg.disconnect(i);
- }
- cfg.connect((leader1 + 0) % SERVERS);
- cfg.connect((leader1 + 1) % SERVERS);
- cfg.connect(other);
- // lots of successful commands to new group.
- for _ in 0..50 {
- cfg.one(thread_rng().gen(), 3, true)?;
- }
- // now everyone
- for i in 0..SERVERS {
- cfg.connect(i);
- }
- cfg.one(thread_rng().gen(), SERVERS, true)?;
- cfg.end();
- drop(_guard);
- Ok(())
- }
- #[test]
- fn count() -> config::Result<()> {
- const SERVERS: usize = 3;
- let cfg = config::make_config(SERVERS, false);
- let _guard = cfg.deferred_cleanup();
- cfg.begin("Test (2B): RPC counts aren't too high");
- cfg.check_one_leader()?;
- let total = cfg.total_rpcs();
- assert!(
- total >= 1 && total <= 30,
- "too many or few RPCs ({}) to elect initial leader",
- total
- );
- let mut retries = 0;
- let (success, total) = loop {
- if retries == 5 {
- break (false, 0);
- }
- if retries != 0 {
- config::sleep_millis(3000);
- }
- retries += 1;
- let leader = cfg.check_one_leader()?;
- let start_total = cfg.total_rpcs();
- const ITERS: usize = 10;
- let (term, start_index) = match cfg.leader_start(leader, 1) {
- Some(pair) => pair,
- None => continue,
- };
- let mut cmds = vec![];
- for i in 1..(ITERS + 2) {
- let cmd: i32 = thread_rng().gen();
- cmds.push(cmd);
- let index = match cfg.leader_start(leader, cmd) {
- Some((new_term, index)) => {
- if new_term == term {
- Some(index)
- } else {
- None
- }
- }
- None => None,
- };
- if let Some(index) = index {
- assert_eq!(start_index + i, index, "start() failed");
- } else {
- retries = 0;
- break;
- }
- }
- if retries == 0 {
- continue;
- }
- for i in 1..(ITERS + 1) {
- let cmd = cfg.wait(start_index + i, SERVERS, Some(term))?;
- if let Some(cmd) = cmd {
- assert_eq!(
- cmd,
- cmds[i - 1],
- "wrong value {} committed for index {}; expected {:?}",
- cmd,
- start_index + i,
- cmds
- )
- } else {
- retries = 0;
- break;
- }
- }
- if term != cfg.check_terms()?.expect("terms should be agreed on") {
- retries = 0;
- }
- if retries == 0 {
- continue;
- }
- let diff = cfg.total_rpcs() - start_total;
- if diff > (ITERS + 1 + 3) * 3 {
- panic!("too many RPCs ({}) for {} entries", diff, ITERS);
- }
- break (true, cfg.total_rpcs());
- };
- assert!(success, "term change too often");
- config::sleep_election_timeouts(1);
- let diff = cfg.total_rpcs() - total;
- assert!(diff < 3 * 20, "too many RPCs ({}) for 1 second of idleness");
- cfg.end();
- drop(_guard);
- Ok(())
- }
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