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- use std::future::Future;
- use std::sync::atomic::{AtomicUsize, Ordering};
- use tokio::sync::OnceCell;
- use crate::common::{
- CommitSentinelArgs, CommitSentinelReply, GetArgs, GetReply, KVError,
- KVRaftOptions, PutAppendArgs, PutAppendEnum, PutAppendReply, UniqueId,
- UniqueIdSequence, ValidReply,
- };
- use crate::RemoteKvraft;
- pub struct AsyncClerk {
- pub inner: AsyncClient,
- }
- impl AsyncClerk {
- pub fn new(servers: Vec<impl RemoteKvraft>) -> Self {
- Self {
- inner: AsyncClient::new(servers),
- }
- }
- pub async fn get<K: AsRef<str>>(&self, key: K) -> Option<String> {
- self.inner
- .get(key.as_ref().to_owned(), KVRaftOptions::default())
- .await
- .expect("Get should never return error with unlimited retry.")
- }
- pub async fn put<K: AsRef<str>, V: AsRef<str>>(&self, key: K, value: V) {
- let key = key.as_ref();
- let value = value.as_ref();
- self.inner
- .put(key.to_owned(), value.to_owned(), KVRaftOptions::default())
- .await
- .expect("Put should never return error with unlimited retry.")
- }
- pub async fn append<K: AsRef<str>, V: AsRef<str>>(&self, key: K, value: V) {
- let key = key.as_ref();
- let value = value.as_ref();
- self.inner
- .append(key.to_owned(), value.to_owned(), KVRaftOptions::default())
- .await
- .expect("Append should never return error with unlimited retry.")
- }
- }
- pub struct AsyncClient {
- servers: Vec<Box<dyn RemoteKvraft>>,
- last_server_index: AtomicUsize,
- unique_id: OnceCell<UniqueIdSequence>,
- }
- impl AsyncClient {
- pub fn new(servers: Vec<impl RemoteKvraft>) -> Self {
- let servers = servers
- .into_iter()
- .map(|s| Box::new(s) as Box<dyn RemoteKvraft>)
- .collect();
- Self {
- servers,
- last_server_index: AtomicUsize::new(0),
- unique_id: OnceCell::new(),
- }
- }
- async fn next_unique_id(&self) -> UniqueId {
- self.unique_id
- .get_or_init(|| self.commit_sentinel())
- .await
- .inc()
- }
- async fn zero_unique_id(&self) -> UniqueId {
- self.unique_id
- .get_or_init(|| self.commit_sentinel())
- .await
- .zero()
- }
- async fn commit_sentinel(&self) -> UniqueIdSequence {
- loop {
- let unique_id = UniqueIdSequence::new();
- let args = CommitSentinelArgs {
- unique_id: unique_id.inc(),
- };
- let reply: Option<CommitSentinelReply> = self
- .retry_rpc(
- |remote, args| remote.commit_sentinel(args),
- args,
- None,
- )
- .await;
- if let Some(reply) = reply {
- match reply.result {
- Ok(_) => {
- break unique_id;
- }
- Err(KVError::Expired) | Err(KVError::Conflict) => {
- // The client ID happens to be re-used. The request does
- // not fail as "Duplicate", because another client has
- // committed more than just the sentinel.
- // Do nothing.
- }
- Err(e) => {
- panic!(
- "Unexpected error with indefinite retry: {:?}",
- e
- );
- }
- };
- };
- }
- }
- pub async fn retry_rpc<'a, Func, Fut, Args, Reply>(
- &'a self,
- mut future_func: Func,
- args: Args,
- max_retry: Option<usize>,
- ) -> Option<Reply>
- where
- Args: Clone,
- Reply: ValidReply,
- Fut: Future<Output = std::io::Result<Reply>> + Send + 'a,
- Func: FnMut(&'a dyn RemoteKvraft, Args) -> Fut,
- {
- let max_retry =
- std::cmp::max(max_retry.unwrap_or(usize::MAX), self.servers.len());
- let mut index = self.last_server_index.load(Ordering::Relaxed);
- for _ in 0..max_retry {
- let client = &self.servers[index];
- let rpc_response = future_func(client.as_ref(), args.clone()).await;
- if let Ok(ret) = rpc_response {
- if ret.is_reply_valid() {
- self.last_server_index.store(index, Ordering::Relaxed);
- return Some(ret);
- }
- }
- index += 1;
- index %= self.servers.len();
- }
- None
- }
- /// This function returns None when
- /// 1. No KVServer can be reached, or
- /// 2. No KVServer claimed to be the leader, or
- /// 3. When the KVServer committed the request but it was not passed
- /// back to the clerk. We must retry with a new unique_id.
- ///
- /// In all 3 cases the request can be retried.
- ///
- /// This function do not expect a Conflict request with the same unique_id.
- pub async fn get(
- &self,
- key: String,
- options: KVRaftOptions,
- ) -> Option<Option<String>> {
- self.zero_unique_id().await;
- let args = GetArgs { key };
- let reply: GetReply = self
- .retry_rpc(|remote, args| remote.get(args), args, options.max_retry)
- .await?;
- match reply.result {
- Ok(val) => Some(val),
- Err(KVError::Expired) => panic!("Get requests do not expire."),
- Err(KVError::Conflict) => panic!("We should never see a conflict."),
- _ => None,
- }
- }
- /// This function returns None when
- /// 1. No KVServer can be reached, or
- /// 2. No KVServer claimed to be the leader.
- ///
- /// Some(()) is returned if the request has been committed previously, under
- /// the assumption is that two different requests with the same unique_id
- /// must be identical.
- ///
- /// This function do not expect a Conflict request with the same unique_id.
- async fn put_append(
- &self,
- key: String,
- value: String,
- op: PutAppendEnum,
- options: KVRaftOptions,
- ) -> Option<()> {
- let unique_id = self.next_unique_id().await;
- let args = PutAppendArgs {
- key,
- value,
- op,
- unique_id,
- };
- let reply: PutAppendReply = self
- .retry_rpc(
- |remote, args| remote.put_append(args),
- args,
- options.max_retry,
- )
- .await?;
- match reply.result {
- Ok(val) => Some(val),
- Err(KVError::Expired) => Some(()),
- Err(KVError::Conflict) => panic!("We should never see a conflict."),
- _ => None,
- }
- }
- pub async fn put(
- &self,
- key: String,
- value: String,
- options: KVRaftOptions,
- ) -> Option<()> {
- self.put_append(key, value, PutAppendEnum::Put, options)
- .await
- }
- pub async fn append(
- &self,
- key: String,
- value: String,
- options: KVRaftOptions,
- ) -> Option<()> {
- self.put_append(key, value, PutAppendEnum::Append, options)
- .await
- }
- }
- #[cfg(test)]
- mod tests {
- use std::collections::hash_map::DefaultHasher;
- use std::collections::HashMap;
- use std::hash::Hasher;
- use std::sync::Arc;
- use async_trait::async_trait;
- use futures::executor::block_on;
- use parking_lot::Mutex;
- use super::*;
- /// A fake server that is only leader when certain requests are received.
- #[derive(Clone)]
- struct FakeRemoteKvraft {
- peer_size: usize,
- id: usize,
- data: Arc<Mutex<HashMap<String, String>>>,
- }
- impl FakeRemoteKvraft {
- fn is_leader(&self, key: &str) -> bool {
- let mut hasher = DefaultHasher::new();
- hasher.write(key.as_bytes());
- let hash_code = hasher.finish();
- return (hash_code % (self.peer_size as u64)) as usize == self.id;
- }
- }
- #[async_trait]
- impl RemoteKvraft for FakeRemoteKvraft {
- async fn get(&self, args: GetArgs) -> std::io::Result<GetReply> {
- let result = if self.is_leader(&args.key) {
- Ok(self.data.lock().get(&args.key).cloned())
- } else {
- Err(KVError::NotLeader)
- };
- Ok(GetReply { result })
- }
- async fn put_append(
- &self,
- args: PutAppendArgs,
- ) -> std::io::Result<PutAppendReply> {
- assert_ne!(0, args.key.len());
- let result = if self.is_leader(&args.key) {
- let mut data = self.data.lock();
- match args.op {
- PutAppendEnum::Put => data.insert(args.key, args.value),
- PutAppendEnum::Append => {
- let value = args.value + data.get(&args.key).unwrap();
- data.insert(args.key, value)
- }
- };
- Ok(())
- } else {
- Err(KVError::NotLeader)
- };
- Ok(PutAppendReply { result })
- }
- async fn commit_sentinel(
- &self,
- args: CommitSentinelArgs,
- ) -> std::io::Result<CommitSentinelReply> {
- let result = if self.is_leader("") {
- let mut data = self.data.lock();
- assert!(!data.contains_key(""));
- let clerk_id = args.unique_id.clerk_id.to_string();
- data.insert("".to_owned(), clerk_id);
- Ok(())
- } else {
- Err(KVError::NotLeader)
- };
- Ok(CommitSentinelReply { result })
- }
- }
- fn create_client() -> AsyncClerk {
- let fake_remote_kvraft0 = FakeRemoteKvraft {
- peer_size: 5,
- id: 0,
- data: Arc::new(Mutex::new(HashMap::new())),
- };
- fake_remote_kvraft0
- .data
- .lock()
- .insert("What clerk?".to_owned(), "async_clerk".to_owned());
- let mut fake_remote_kvraft1 = fake_remote_kvraft0.clone();
- fake_remote_kvraft1.id = 1;
- let mut fake_remote_kvraft2 = fake_remote_kvraft0.clone();
- fake_remote_kvraft2.id = 2;
- let mut fake_remote_kvraft3 = fake_remote_kvraft0.clone();
- fake_remote_kvraft3.id = 3;
- let mut fake_remote_kvraft4 = fake_remote_kvraft0.clone();
- fake_remote_kvraft4.id = 4;
- AsyncClerk::new(vec![
- fake_remote_kvraft0,
- fake_remote_kvraft1,
- fake_remote_kvraft2,
- fake_remote_kvraft3,
- fake_remote_kvraft4,
- ])
- }
- #[test]
- fn test_get_existing_data() {
- let clerk = create_client();
- let existing_data = block_on(clerk.get("What clerk?"));
- assert_eq!(Some("async_clerk".to_owned()), existing_data,);
- let client_id = block_on(clerk.get(""));
- assert!(client_id.is_some());
- }
- #[test]
- fn test_get_put_append() {
- let clerk = create_client();
- block_on(clerk.put("Date", "2017-01-01"));
- block_on(clerk.put("Balance", "97"));
- let date = block_on(clerk.get("Date"));
- assert_eq!(Some("2017-01-01".to_owned()), date);
- let balance = block_on(clerk.get("Balance"));
- assert_eq!(Some("97".to_owned()), balance);
- block_on(clerk.append("Balance", "00"));
- let balance = block_on(clerk.get("Balance"));
- assert_eq!(Some("0097".to_owned()), balance);
- block_on(clerk.put("Balance", "10000"));
- let balance = block_on(clerk.get("Balance"));
- assert_eq!(Some("10000".to_owned()), balance);
- }
- }
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