mod testing;
use crate::testing::{get_client, Result, DEFAULT_TEST_ENDPOINT};
use etcd_client::{
AlarmAction, AlarmOptions, AlarmType, Client, Compare, CompareOp, ConnectOptions,
DeleteOptions, EventType, GetOptions, LeaseGrantOptions, MemberAddOptions, Permission,
PermissionType, ProclaimOptions, PutOptions, ResignOptions, RoleRevokePermissionOptions, Txn,
TxnOp, TxnOpResponse, UserAddOptions,
};
#[tokio::test]
async fn test_put() -> Result<()> {
let mut client = get_client().await?;
client.put("put", "123", None).await?;
{
let resp = client
.put("put", "456", Some(PutOptions::new().with_prev_key()))
.await?;
let prev_key = resp.prev_key();
assert!(prev_key.is_some());
let prev_key = prev_key.unwrap();
assert_eq!(prev_key.key(), b"put");
assert_eq!(prev_key.value(), b"123");
}
{
let resp = client
.put("put", "789", Some(PutOptions::new().with_prev_key()))
.await?;
let prev_key = resp.prev_key();
assert!(prev_key.is_some());
let prev_key = prev_key.unwrap();
assert_eq!(prev_key.key(), b"put");
assert_eq!(prev_key.value(), b"456");
}
Ok(())
}
#[tokio::test]
async fn test_get() -> Result<()> {
let mut client = get_client().await?;
client.put("get10", "10", None).await?;
client.put("get11", "11", None).await?;
client.put("get20", "20", None).await?;
client.put("get21", "21", None).await?;
{
let resp = client.get("get11", None).await?;
assert_eq!(resp.count(), 1);
assert!(!resp.more());
assert_eq!(resp.kvs().len(), 1);
assert_eq!(resp.kvs()[0].key(), b"get11");
assert_eq!(resp.kvs()[0].value(), b"11");
}
{
let resp = client
.get(
"get11",
Some(GetOptions::new().with_from_key().with_limit(2)),
)
.await?;
assert!(resp.more());
assert_eq!(resp.kvs().len(), 2);
assert_eq!(resp.kvs()[0].key(), b"get11");
assert_eq!(resp.kvs()[0].value(), b"11");
assert_eq!(resp.kvs()[1].key(), b"get20");
assert_eq!(resp.kvs()[1].value(), b"20");
}
{
let resp = client
.get("get1", Some(GetOptions::new().with_prefix()))
.await?;
assert_eq!(resp.count(), 2);
assert!(!resp.more());
assert_eq!(resp.kvs().len(), 2);
assert_eq!(resp.kvs()[0].key(), b"get10");
assert_eq!(resp.kvs()[0].value(), b"10");
assert_eq!(resp.kvs()[1].key(), b"get11");
assert_eq!(resp.kvs()[1].value(), b"11");
}
Ok(())
}
#[tokio::test]
async fn test_delete() -> Result<()> {
let mut client = get_client().await?;
client.put("del10", "10", None).await?;
client.put("del11", "11", None).await?;
client.put("del20", "20", None).await?;
client.put("del21", "21", None).await?;
client.put("del31", "31", None).await?;
client.put("del32", "32", None).await?;
{
let resp = client.delete("del11", None).await?;
assert_eq!(resp.deleted(), 1);
let resp = client
.get("del11", Some(GetOptions::new().with_count_only()))
.await?;
assert_eq!(resp.count(), 0);
}
{
let resp = client
.delete("del11", Some(DeleteOptions::new().with_range("del22")))
.await?;
assert_eq!(resp.deleted(), 2);
let resp = client
.get(
"del11",
Some(GetOptions::new().with_range("del22").with_count_only()),
)
.await?;
assert_eq!(resp.count(), 0);
}
{
let resp = client
.delete("del3", Some(DeleteOptions::new().with_prefix()))
.await?;
assert_eq!(resp.deleted(), 2);
let resp = client
.get("del32", Some(GetOptions::new().with_count_only()))
.await?;
assert_eq!(resp.count(), 0);
}
Ok(())
}
#[tokio::test]
async fn test_compact() -> Result<()> {
let mut client = get_client().await?;
let rev0 = client
.put("compact", "0", None)
.await?
.header()
.unwrap()
.revision();
let rev1 = client
.put("compact", "1", None)
.await?
.header()
.unwrap()
.revision();
let rev0_resp = client
.get("compact", Some(GetOptions::new().with_revision(rev0)))
.await?;
assert_eq!(rev0_resp.kvs()[0].value(), b"0");
let rev1_resp = client
.get("compact", Some(GetOptions::new().with_revision(rev1)))
.await?;
assert_eq!(rev1_resp.kvs()[0].value(), b"1");
client.compact(rev1, None).await?;
let result = client
.get("compact", Some(GetOptions::new().with_revision(rev0)))
.await;
assert!(result.is_err());
let rev1_resp = client
.get("compact", Some(GetOptions::new().with_revision(rev1)))
.await?;
assert_eq!(rev1_resp.kvs()[0].value(), b"1");
Ok(())
}
#[tokio::test]
async fn test_txn() -> Result<()> {
let mut client = get_client().await?;
client.put("txn01", "01", None).await?;
{
let resp = client
.txn(
Txn::new()
.when(&[Compare::value("txn01", CompareOp::Equal, "01")][..])
.and_then(
&[TxnOp::put(
"txn01",
"02",
Some(PutOptions::new().with_prev_key()),
)][..],
)
.or_else(&[TxnOp::get("txn01", None)][..]),
)
.await?;
assert!(resp.succeeded());
let op_responses = resp.op_responses();
assert_eq!(op_responses.len(), 1);
match op_responses[0] {
TxnOpResponse::Put(ref resp) => assert_eq!(resp.prev_key().unwrap().value(), b"01"),
_ => panic!("unexpected response"),
}
let resp = client.get("txn01", None).await?;
assert_eq!(resp.kvs()[0].key(), b"txn01");
assert_eq!(resp.kvs()[0].value(), b"02");
}
{
let resp = client
.txn(
Txn::new()
.when(&[Compare::value("txn01", CompareOp::Equal, "01")][..])
.and_then(&[TxnOp::put("txn01", "02", None)][..])
.or_else(&[TxnOp::get("txn01", None)][..]),
)
.await?;
assert!(!resp.succeeded());
let op_responses = resp.op_responses();
assert_eq!(op_responses.len(), 1);
match op_responses[0] {
TxnOpResponse::Get(ref resp) => assert_eq!(resp.kvs()[0].value(), b"02"),
_ => panic!("unexpected response"),
}
}
Ok(())
}
#[tokio::test]
async fn test_watch() -> Result<()> {
let mut client = get_client().await?;
let mut watch_stream = client.watch("watch01", None).await?;
let first_response = watch_stream
.message()
.await?
.ok_or(etcd_client::Error::WatchError(
"No initial watch response".into(),
))?;
assert!(first_response.created());
assert!(!first_response.canceled());
let watch_id = first_response.watch_id();
client.put("watch01", "01", None).await?;
let resp = watch_stream.message().await?.unwrap();
assert_eq!(resp.watch_id(), watch_id);
assert_eq!(resp.events().len(), 1);
let kv = resp.events()[0].kv().unwrap();
assert_eq!(kv.key(), b"watch01");
assert_eq!(kv.value(), b"01");
assert_eq!(resp.events()[0].event_type(), EventType::Put);
watch_stream.cancel(watch_id).await?;
let resp = watch_stream.message().await?.unwrap();
assert_eq!(resp.watch_id(), watch_id);
assert!(resp.canceled());
Ok(())
}
#[tokio::test]
async fn test_grant_revoke() -> Result<()> {
let mut client = get_client().await?;
let resp = client.lease_grant(123, None).await?;
assert_eq!(resp.ttl(), 123);
let id = resp.id();
client.lease_revoke(id).await?;
Ok(())
}
#[tokio::test]
async fn test_keep_alive() -> Result<()> {
let mut client = get_client().await?;
let resp = client.lease_grant(60, None).await?;
assert_eq!(resp.ttl(), 60);
let id = resp.id();
let (mut keeper, mut stream) = client.lease_keep_alive(id).await?;
keeper.keep_alive().await?;
let resp = stream.message().await?.unwrap();
assert_eq!(resp.id(), keeper.id());
assert_eq!(resp.ttl(), 60);
client.lease_revoke(id).await?;
assert!(client.lease_keep_alive(id).await.is_err());
Ok(())
}
#[tokio::test]
async fn test_time_to_live() -> Result<()> {
let mut client = get_client().await?;
let lease_id = 200;
let resp = client
.lease_grant(60, Some(LeaseGrantOptions::new().with_id(lease_id)))
.await?;
assert_eq!(resp.ttl(), 60);
assert_eq!(resp.id(), lease_id);
let resp = client.lease_time_to_live(lease_id, None).await?;
assert_eq!(resp.id(), lease_id);
assert_eq!(resp.granted_ttl(), 60);
client.lease_revoke(lease_id).await?;
Ok(())
}
#[tokio::test]
async fn test_leases() -> Result<()> {
let lease1 = 100;
let lease2 = 101;
let lease3 = 102;
let mut client = get_client().await?;
let resp = client
.lease_grant(60, Some(LeaseGrantOptions::new().with_id(lease1)))
.await?;
assert_eq!(resp.ttl(), 60);
assert_eq!(resp.id(), lease1);
let resp = client
.lease_grant(60, Some(LeaseGrantOptions::new().with_id(lease2)))
.await?;
assert_eq!(resp.ttl(), 60);
assert_eq!(resp.id(), lease2);
let resp = client
.lease_grant(60, Some(LeaseGrantOptions::new().with_id(lease3)))
.await?;
assert_eq!(resp.ttl(), 60);
assert_eq!(resp.id(), lease3);
let resp = client.leases().await?;
let leases: Vec<_> = resp.leases().iter().map(|status| status.id()).collect();
assert!(leases.contains(&lease1));
assert!(leases.contains(&lease2));
assert!(leases.contains(&lease3));
client.lease_revoke(lease1).await?;
client.lease_revoke(lease2).await?;
client.lease_revoke(lease3).await?;
Ok(())
}
#[tokio::test]
async fn test_lock() -> Result<()> {
let mut client = get_client().await?;
let resp = client.lock("lock-test", None).await?;
let key = resp.key();
let key_str = std::str::from_utf8(key)?;
assert!(key_str.starts_with("lock-test/"));
client.unlock(key).await?;
Ok(())
}
#[ignore]
#[tokio::test]
async fn test_auth() -> Result<()> {
let mut client = get_client().await?;
client.auth_enable().await?;
client.put("auth-test", "value", None).await.unwrap_err();
let options = Some(ConnectOptions::new().with_user(
"root", "rootpwd", ));
let mut client_auth = Client::connect(["localhost:2379"], options).await?;
client_auth.put("auth-test", "value", None).await?;
client_auth.auth_disable().await?;
let mut client = get_client().await?;
client.put("auth-test", "value", None).await?;
Ok(())
}
#[tokio::test]
async fn test_role() -> Result<()> {
let mut client = get_client().await?;
let role1 = "role1";
let role2 = "role2";
let _ = client.role_delete(role1).await;
let _ = client.role_delete(role2).await;
client.role_add(role1).await?;
client.role_get(role1).await?;
client.role_delete(role1).await?;
client.role_get(role1).await.unwrap_err();
client.role_add(role2).await?;
client.role_get(role2).await?;
{
let resp = client.role_list().await?;
assert!(resp.roles().contains(&role2.to_string()));
}
client
.role_grant_permission(role2, Permission::read("123"))
.await?;
client
.role_grant_permission(role2, Permission::write("abc").with_from_key())
.await?;
client
.role_grant_permission(role2, Permission::read_write("hi").with_range_end("hjj"))
.await?;
client
.role_grant_permission(
role2,
Permission::new(PermissionType::Write, "pp").with_prefix(),
)
.await?;
client
.role_grant_permission(
role2,
Permission::new(PermissionType::Read, "xyz").with_all_keys(),
)
.await?;
{
let resp = client.role_get(role2).await?;
let permissions = resp.permissions();
assert!(permissions.contains(&Permission::read("123")));
assert!(permissions.contains(&Permission::write("abc").with_from_key()));
assert!(permissions.contains(&Permission::read_write("hi").with_range_end("hjj")));
assert!(permissions.contains(&Permission::write("pp").with_prefix()));
assert!(permissions.contains(&Permission::read("xyz").with_all_keys()));
}
client.role_revoke_permission(role2, "123", None).await?;
client
.role_revoke_permission(
role2,
"abc",
Some(RoleRevokePermissionOptions::new().with_from_key()),
)
.await?;
client
.role_revoke_permission(
role2,
"hi",
Some(RoleRevokePermissionOptions::new().with_range_end("hjj")),
)
.await?;
client
.role_revoke_permission(
role2,
"pp",
Some(RoleRevokePermissionOptions::new().with_prefix()),
)
.await?;
client
.role_revoke_permission(
role2,
"xyz",
Some(RoleRevokePermissionOptions::new().with_all_keys()),
)
.await?;
let resp = client.role_get(role2).await?;
assert!(resp.permissions().is_empty());
client.role_delete(role2).await?;
Ok(())
}
#[tokio::test]
async fn test_user() -> Result<()> {
let name1 = "usr1";
let password1 = "pwd1";
let name2 = "usr2";
let password2 = "pwd2";
let name3 = "usr3";
let password3 = "pwd3";
let role1 = "role1";
let mut client = get_client().await?;
let _resp = client.user_delete(name1).await;
let _resp = client.user_delete(name2).await;
let _resp = client.user_delete(name3).await;
let _resp = client.role_delete(role1).await;
client
.user_add(name1, password1, Some(UserAddOptions::new()))
.await?;
client
.user_add(name2, password2, Some(UserAddOptions::new().with_no_pwd()))
.await?;
client.user_add(name3, password3, None).await?;
client.user_get(name1).await?;
{
let resp = client.user_list().await?;
assert!(resp.users().contains(&name1.to_string()));
}
client.user_delete(name2).await?;
client.user_get(name2).await.unwrap_err();
client.user_change_password(name1, password2).await?;
client.user_get(name1).await?;
client.role_add(role1).await?;
client.user_grant_role(name1, role1).await?;
client.user_get(name1).await?;
client.user_revoke_role(name1, role1).await?;
client.user_get(name1).await?;
let _ = client.user_delete(name1).await;
let _ = client.user_delete(name2).await;
let _ = client.user_delete(name3).await;
let _ = client.role_delete(role1).await;
Ok(())
}
#[tokio::test]
async fn test_alarm() -> Result<()> {
let mut client = get_client().await?;
{
let options = AlarmOptions::new();
let _resp = client
.alarm(AlarmAction::Deactivate, AlarmType::None, Some(options))
.await?;
}
let member_id = {
let resp = client
.alarm(AlarmAction::Get, AlarmType::None, None)
.await?;
let mems = resp.alarms();
assert_eq!(mems.len(), 0);
0
};
let mut options = AlarmOptions::new();
options.with_member(member_id);
{
let resp = client
.alarm(AlarmAction::Get, AlarmType::Nospace, Some(options.clone()))
.await?;
let mems = resp.alarms();
assert_eq!(mems.len(), 0);
}
Ok(())
}
#[tokio::test]
async fn test_status() -> Result<()> {
let mut client = get_client().await?;
let resp = client.status().await?;
let db_size = resp.db_size();
assert_ne!(db_size, 0);
Ok(())
}
#[tokio::test]
async fn test_defragment() -> Result<()> {
let mut client = get_client().await?;
let resp = client.defragment().await?;
let hd = resp.header();
assert!(hd.is_none());
Ok(())
}
#[tokio::test]
async fn test_hash() -> Result<()> {
let mut client = get_client().await?;
let resp = client.hash().await?;
let hd = resp.header();
assert!(hd.is_some());
assert_ne!(resp.hash(), 0);
Ok(())
}
#[tokio::test]
async fn test_hash_kv() -> Result<()> {
let mut client = get_client().await?;
let resp = client.hash_kv(0).await?;
let hd = resp.header();
assert!(hd.is_some());
assert_ne!(resp.hash(), 0);
assert_ne!(resp.compact_version(), 0);
Ok(())
}
#[tokio::test]
async fn test_snapshot() -> Result<()> {
let mut client = get_client().await?;
let mut msg = client.snapshot().await?;
loop {
if let Some(resp) = msg.message().await? {
assert!(!resp.blob().is_empty());
if resp.remaining_bytes() == 0 {
break;
}
}
}
Ok(())
}
#[ignore]
#[tokio::test]
async fn test_cluster() -> Result<()> {
let node1 = "localhost:2520";
let node2 = "localhost:2530";
let node3 = "localhost:2540";
let mut client = get_client().await?;
let resp = client
.member_add([node1], Some(MemberAddOptions::new().with_is_learner()))
.await?;
let id1 = resp.member().unwrap().id();
let resp = client.member_add([node2], None).await?;
let id2 = resp.member().unwrap().id();
let resp = client.member_add([node3], None).await?;
let id3 = resp.member().unwrap().id();
let resp = client.member_list().await?;
let members: Vec<_> = resp.members().iter().map(|member| member.id()).collect();
assert!(members.contains(&id1));
assert!(members.contains(&id2));
assert!(members.contains(&id3));
Ok(())
}
#[tokio::test]
async fn test_move_leader() -> Result<()> {
let mut client = get_client().await?;
let resp = client.member_list().await?;
let member_list = resp.members();
let resp = client.status().await?;
let leader_id = resp.leader();
println!("status {:?}, leader_id {:?}", resp, resp.leader());
let mut member_id = leader_id;
for member in member_list {
println!("member_id {:?}, name is {:?}", member.id(), member.name());
if member.id() != leader_id {
member_id = member.id();
break;
}
}
let resp = client.move_leader(member_id).await?;
let header = resp.header();
if member_id == leader_id {
assert!(header.is_none());
} else {
assert!(header.is_some());
}
Ok(())
}
#[tokio::test]
async fn test_election() -> Result<()> {
let mut client = get_client().await?;
let resp = client.lease_grant(10, None).await?;
let lease_id = resp.id();
assert_eq!(resp.ttl(), 10);
let resp = client.campaign("myElection", "123", lease_id).await?;
let leader = resp.leader().unwrap();
assert_eq!(leader.name(), b"myElection");
assert_eq!(leader.lease(), lease_id);
let resp = client
.proclaim(
"123",
Some(ProclaimOptions::new().with_leader(leader.clone())),
)
.await?;
let header = resp.header();
println!("proclaim header {:?}", header.unwrap());
assert!(header.is_some());
let mut msg = client.observe(leader.name()).await?;
loop {
if let Some(resp) = msg.message().await? {
assert!(resp.kv().is_some());
println!("observe key {:?}", resp.kv().unwrap().key_str());
if resp.kv().is_some() {
break;
}
}
}
let resp = client.leader("myElection").await?;
let kv = resp.kv().unwrap();
assert_eq!(kv.value(), b"123");
assert_eq!(kv.key(), leader.key());
println!("key is {:?}", kv.key_str());
println!("value is {:?}", kv.value_str());
let resign_option = ResignOptions::new().with_leader(leader.clone());
let resp = client.resign(Some(resign_option)).await?;
let header = resp.header();
println!("resign header {:?}", header.unwrap());
assert!(header.is_some());
Ok(())
}
#[tokio::test]
async fn test_remove_and_add_endpoint() -> Result<()> {
let mut client = get_client().await?;
client.put("endpoint", "add_remove", None).await?;
{
let resp = client.get("endpoint", None).await?;
assert_eq!(resp.count(), 1);
assert!(!resp.more());
assert_eq!(resp.kvs().len(), 1);
assert_eq!(resp.kvs()[0].key(), b"endpoint");
assert_eq!(resp.kvs()[0].value(), b"add_remove");
}
client.remove_endpoint(DEFAULT_TEST_ENDPOINT).await?;
client.add_endpoint(DEFAULT_TEST_ENDPOINT).await?;
{
let resp = client.get("endpoint", None).await?;
assert_eq!(resp.count(), 1);
assert!(!resp.more());
assert_eq!(resp.kvs().len(), 1);
assert_eq!(resp.kvs()[0].key(), b"endpoint");
assert_eq!(resp.kvs()[0].value(), b"add_remove");
}
Ok(())
}