500 lines
9.9 KiB
Rust
500 lines
9.9 KiB
Rust
use std::{
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collections::{
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HashMap,
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},
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iter::FromIterator,
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sync::{
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Arc,
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},
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};
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use hyper::{
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Body,
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Request,
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Response,
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StatusCode,
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};
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use tokio::{
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sync::Mutex,
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};
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pub struct HttpService {
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store: Arc <Store>,
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}
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pub struct Store {
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status_dirs: HashMap <Vec <u8>, StatusKeyDirectory>,
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}
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#[derive (thiserror::Error, Debug, PartialEq)]
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pub enum Error {
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#[error ("key too long")]
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KeyTooLong,
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#[error ("no such key dir")]
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NoSuchKeyDir,
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#[error ("value too long")]
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ValueTooLong,
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}
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pub struct StatusQuotas {
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pub max_keys: usize,
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pub max_key_bytes: usize,
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pub max_value_bytes: usize,
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pub max_payload_bytes: usize,
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}
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pub struct GetAfter {
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pub tuples: Vec <(Vec <u8>, Vec <u8>)>,
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pub sequence: u64,
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}
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impl HttpService {
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pub fn new (s: Store) -> Self {
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Self {
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store: Arc::new (s),
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}
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}
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pub fn inner (&self) -> &Store {
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&*self.store
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}
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pub async fn serve (&self, port: u16) -> Result <(), hyper::Error> {
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use std::net::SocketAddr;
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use hyper::{
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Server,
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service::{
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make_service_fn,
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service_fn,
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},
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};
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let make_svc = make_service_fn (|_conn| {
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let state = self.store.clone ();
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async {
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Ok::<_, String> (service_fn (move |req| {
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let state = state.clone ();
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Self::handle_all (req, state)
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}))
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}
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});
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let addr = SocketAddr::from(([127, 0, 0, 1], port));
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let server = Server::bind (&addr)
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.serve (make_svc)
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;
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server.await
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}
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}
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impl Store {
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pub fn new <I> (status_dirs: I)
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-> Self
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where I: Iterator <Item = (Vec <u8>, StatusQuotas)>
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{
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let status_dirs = status_dirs
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.map (|(name, quotas)| (name, StatusKeyDirectory::new (quotas)))
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.collect ();
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Self {
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status_dirs,
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}
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}
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pub fn list_key_dirs (&self) -> Vec <Vec <u8>> {
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self.status_dirs.iter ()
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.map (|(k, _)| k.clone ())
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.collect ()
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}
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pub async fn set (&self, name: &[u8], key: &[u8], value: Vec <u8>)
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-> Result <(), Error>
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{
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let dir = self.status_dirs.get (name)
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.ok_or (Error::NoSuchKeyDir)?;
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dir.set (key, value).await
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}
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async fn set_multi (&self, name: &[u8], tuples: Vec <(&[u8], Vec <u8>)>)
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-> Result <(), Error>
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{
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let dir = self.status_dirs.get (name)
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.ok_or (Error::NoSuchKeyDir)?;
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dir.set_multi (tuples).await
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}
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pub async fn get_after (&self, name: &[u8], thresh: Option <u64>)
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-> Result <GetAfter, Error>
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{
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let dir = self.status_dirs.get (name)
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.ok_or (Error::NoSuchKeyDir)?;
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dir.get_after (thresh).await
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}
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}
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// End of public interface
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const SET_BATCH_SIZE: usize = 32;
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enum StoreCommand {
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SetStatus (SetStatusCommand),
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Multi (Vec <StoreCommand>),
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}
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struct StatusKeyDirectory {
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quotas: StatusQuotas,
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// TODO: Make this tokio::sync::Mutex.
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table: Mutex <StatusTable>,
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}
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#[derive (Default)]
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struct StatusTable {
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map: HashMap <Vec <u8>, StatusValue>,
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sequence: u64,
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}
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struct StatusValue {
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value: Vec <u8>,
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sequence: u64,
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}
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struct SetStatusCommand {
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key_dir: Vec <u8>,
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key: Vec <u8>,
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value: Vec <u8>,
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}
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impl HttpService {
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async fn handle_all (req: Request <Body>, store: Arc <Store>)
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-> Result <Response <Body>, anyhow::Error>
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{
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Ok (Response::builder ()
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.body (Body::from ("hello\n"))?)
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}
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}
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impl StatusKeyDirectory {
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fn new (quotas: StatusQuotas) -> Self {
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Self {
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quotas,
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table: Mutex::new (Default::default ()),
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}
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}
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async fn set (&self, key: &[u8], value: Vec <u8>) -> Result <(), Error>
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{
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if key.len () > self.quotas.max_key_bytes {
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return Err (Error::KeyTooLong);
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}
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if value.len () > self.quotas.max_value_bytes {
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return Err (Error::ValueTooLong);
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}
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{
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let mut guard = self.table.lock ().await;
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guard.set (&self.quotas, key, value);
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}
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Ok (())
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}
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async fn set_multi (&self, tuples: Vec <(&[u8], Vec <u8>)>) -> Result <(), Error>
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{
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{
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let mut guard = self.table.lock ().await;
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for (key, value) in tuples {
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guard.set (&self.quotas, key, value);
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}
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}
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Ok (())
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}
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async fn get_after (&self, thresh: Option <u64>) -> Result <GetAfter, Error> {
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let guard = self.table.lock ().await;
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Ok (guard.get_after (thresh))
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}
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}
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impl StatusTable {
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fn payload_bytes (&self) -> usize {
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self.map.iter ()
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.map (|(k, v)| k.len () + v.len ())
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.sum ()
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}
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fn set (&mut self, quotas: &StatusQuotas, key: &[u8], value: Vec <u8>) {
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self.sequence += 1;
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if self.map.len () > quotas.max_keys {
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self.map.clear ();
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}
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let new_bytes = key.len () + value.len ();
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if self.payload_bytes () + new_bytes > quotas.max_payload_bytes {
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self.map.clear ();
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}
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let value = StatusValue {
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value,
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sequence: self.sequence,
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};
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// self.map.insert (key, value);
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match self.map.get_mut (key) {
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None => {
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self.map.insert (key.to_vec (), value);
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},
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Some (v) => *v = value,
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}
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}
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fn get_after (&self, thresh: Option <u64>) -> GetAfter {
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let thresh = thresh.unwrap_or (0);
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let tuples = self.map.iter ()
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.filter_map (|(key, value)| {
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if value.sequence <= thresh {
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return None;
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}
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Some ((key.clone (), value.value.clone ()))
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})
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.collect ();
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GetAfter {
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tuples,
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sequence: self.sequence,
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}
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}
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}
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impl StatusValue {
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fn len (&self) -> usize {
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self.value.len ()
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}
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}
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#[tokio::main]
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async fn main () -> Result <(), hyper::Error> {
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use std::time::Duration;
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use tokio::{
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spawn,
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time::interval,
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};
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let service = HttpService::new (Store::new (vec! [
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(b"key_dir".to_vec (), StatusQuotas {
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max_keys: 4,
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max_key_bytes: 16,
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max_value_bytes: 16,
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max_payload_bytes: 128,
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}),
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].into_iter ()));
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service.serve (4003).await
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}
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#[cfg (test)]
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mod tests {
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use tokio::runtime::Runtime;
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use super::*;
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fn get_after_eq (a: &GetAfter, b: &GetAfter) {
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assert_eq! (a.sequence, b.sequence);
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let a = a.tuples.clone ();
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let b = b.tuples.clone ();
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let a = HashMap::<Vec <u8>, Vec <u8>>::from_iter (a.into_iter ());
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let b = HashMap::from_iter (b.into_iter ());
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assert_eq! (a, b);
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}
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#[test]
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fn store () {
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let mut rt = Runtime::new ().unwrap ();
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rt.block_on (async {
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let s = Store::new (vec! [
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(b"key_dir".to_vec (), StatusQuotas {
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max_keys: 4,
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max_key_bytes: 16,
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max_value_bytes: 16,
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max_payload_bytes: 128,
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}),
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].into_iter ());
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let mut expected_sequence = 0;
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assert_eq! (s.list_key_dirs (), vec! [
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b"key_dir".to_vec (),
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]);
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assert_eq! (
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s.set (b"key_dir", b"this key is too long and will cause an error", b"bar".to_vec ()).await,
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Err (Error::KeyTooLong)
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);
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assert_eq! (
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s.set (b"key_dir", b"foo", b"this value is too long and will cause an error".to_vec ()).await,
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Err (Error::ValueTooLong)
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);
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assert_eq! (
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s.set (b"invalid_key_dir", b"foo", b"bar".to_vec ()).await,
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Err (Error::NoSuchKeyDir)
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);
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let ga = s.get_after (b"key_dir", None).await.unwrap ();
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assert_eq! (ga.sequence, expected_sequence);
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assert_eq! (ga.tuples, vec! []);
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s.set (b"key_dir", b"foo_1", b"bar_1".to_vec ()).await.unwrap ();
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expected_sequence += 1;
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let ga = s.get_after (b"key_dir", None).await.unwrap ();
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assert_eq! (ga.sequence, expected_sequence);
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assert_eq! (ga.tuples, vec! [
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(b"foo_1".to_vec (), b"bar_1".to_vec ()),
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]);
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get_after_eq (&ga, &GetAfter {
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sequence: expected_sequence,
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tuples: vec! [
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(b"foo_1".to_vec (), b"bar_1".to_vec ()),
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]
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});
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s.set (b"key_dir", b"foo_2", b"bar_2".to_vec ()).await.unwrap ();
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expected_sequence += 1;
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let ga = s.get_after (b"key_dir", None).await.unwrap ();
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get_after_eq (&ga, &GetAfter {
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sequence: expected_sequence,
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tuples: vec! [
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(b"foo_1".to_vec (), b"bar_1".to_vec ()),
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(b"foo_2".to_vec (), b"bar_2".to_vec ()),
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]
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});
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s.set (b"key_dir", b"foo_1", b"bar_3".to_vec ()).await.unwrap ();
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expected_sequence += 1;
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let ga = s.get_after (b"key_dir", None).await.unwrap ();
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get_after_eq (&ga, &GetAfter {
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sequence: expected_sequence,
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tuples: vec! [
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(b"foo_1".to_vec (), b"bar_3".to_vec ()),
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(b"foo_2".to_vec (), b"bar_2".to_vec ()),
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]
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});
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let ga = s.get_after (b"key_dir", Some (2)).await.unwrap ();
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get_after_eq (&ga, &GetAfter {
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sequence: expected_sequence,
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tuples: vec! [
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(b"foo_1".to_vec (), b"bar_3".to_vec ()),
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]
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});
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let ga = s.get_after (b"key_dir", Some (3)).await.unwrap ();
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get_after_eq (&ga, &GetAfter {
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sequence: expected_sequence,
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tuples: vec! []
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});
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});
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}
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#[test]
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#[cfg (not (debug_assertions))]
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fn perf () {
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use std::time::Instant;
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let mut rt = Runtime::new ().unwrap ();
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rt.block_on (async {
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let s = Store::new (vec! [
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(b"key_dir".to_vec (), StatusQuotas {
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max_keys: 4,
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max_key_bytes: 16,
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max_value_bytes: 16,
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max_payload_bytes: 128,
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}),
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].into_iter ());
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let num_iters = 1_000_000;
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let key = b"foo";
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let start_time = Instant::now ();
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for i in 0..num_iters {
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let value = format! ("{}", i);
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s.set (b"key_dir", key, value.into ()).await.unwrap ();
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}
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let end_time = Instant::now ();
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let total_dur = end_time - start_time;
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let avg_nanos = total_dur.as_nanos () / num_iters;
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assert! (avg_nanos < 250, dbg! (avg_nanos));
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});
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}
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#[test]
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#[cfg (not (debug_assertions))]
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fn perf_multi () {
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use std::time::Instant;
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let mut rt = Runtime::new ().unwrap ();
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rt.block_on (async {
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let s = Store::new (vec! [
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(b"key_dir".to_vec (), StatusQuotas {
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max_keys: 8,
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max_key_bytes: 16,
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max_value_bytes: 16,
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max_payload_bytes: 128,
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}),
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].into_iter ());
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let num_iters = 1_000_000;
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let start_time = Instant::now ();
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for i in 0..num_iters {
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let value = Vec::<u8>::from (format! ("{}", i));
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let tuples = vec! [
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(&b"foo_0"[..], value.clone ()),
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(b"foo_1", value.clone ()),
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(b"foo_2", value.clone ()),
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(b"foo_3", value.clone ()),
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(b"foo_4", value.clone ()),
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(b"foo_5", value.clone ()),
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(b"foo_6", value.clone ()),
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(b"foo_7", value.clone ()),
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];
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s.set_multi (b"key_dir", tuples).await.unwrap ();
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}
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let end_time = Instant::now ();
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let total_dur = end_time - start_time;
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let avg_nanos = total_dur.as_nanos () / (num_iters * 8);
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assert! (avg_nanos < 150, dbg! (avg_nanos));
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});
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}
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}
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