2025-12-30 05:08:05 +03:00
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//! Bidirectional Relay
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2026-02-12 18:38:05 +03:00
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use std::sync::Arc;
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use std::time::Duration;
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use tokio::io::{AsyncRead, AsyncWrite, AsyncReadExt, AsyncWriteExt};
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use tokio::time::Instant;
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use tracing::{debug, trace, warn};
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use crate::error::Result;
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use crate::stats::Stats;
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use crate::stream::BufferPool;
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2025-12-30 05:08:05 +03:00
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2026-02-12 18:38:05 +03:00
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// Activity timeout for iOS compatibility (30 minutes)
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const ACTIVITY_TIMEOUT_SECS: u64 = 1800;
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2025-12-30 05:08:05 +03:00
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2026-02-12 18:38:05 +03:00
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/// Relay data bidirectionally between client and server.
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///
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/// Uses a single-task select!-based loop instead of spawning two tasks.
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/// This eliminates:
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/// - 2× task spawn overhead per connection
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/// - Zombie task problem (old code used select! on JoinHandles but
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/// never aborted the losing task — it would run for up to 30 min)
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/// - Extra Arc<AtomicU64> allocations for cross-task byte counters
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///
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/// The flush()-per-write was also removed: TCP_NODELAY is set on all
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/// sockets (socket.rs), so data is pushed immediately without Nagle
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/// buffering. Explicit flush() on every small read was causing a
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/// syscall storm and defeating CryptoWriter's internal coalescing.
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pub async fn relay_bidirectional<CR, CW, SR, SW>(
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mut client_reader: CR,
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mut client_writer: CW,
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mut server_reader: SR,
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mut server_writer: SW,
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user: &str,
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stats: Arc<Stats>,
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buffer_pool: Arc<BufferPool>,
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) -> Result<()>
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where
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CR: AsyncRead + Unpin + Send + 'static,
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CW: AsyncWrite + Unpin + Send + 'static,
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SR: AsyncRead + Unpin + Send + 'static,
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SW: AsyncWrite + Unpin + Send + 'static,
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{
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// Get buffers from pool — one per direction
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let mut c2s_buf = buffer_pool.get();
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let cap = c2s_buf.capacity();
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c2s_buf.resize(cap, 0);
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2026-01-11 22:59:51 +03:00
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2026-02-12 18:38:05 +03:00
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let mut s2c_buf = buffer_pool.get();
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let cap = s2c_buf.capacity();
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s2c_buf.resize(cap, 0);
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2026-01-20 01:20:02 +03:00
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2026-02-12 18:38:05 +03:00
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let activity_timeout = Duration::from_secs(ACTIVITY_TIMEOUT_SECS);
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let mut c2s_total: u64 = 0;
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let mut s2c_total: u64 = 0;
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let mut c2s_msgs: u64 = 0;
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let mut s2c_msgs: u64 = 0;
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// For periodic rate logging
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let mut c2s_prev: u64 = 0;
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let mut s2c_prev: u64 = 0;
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2026-01-11 22:59:51 +03:00
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let mut last_log = Instant::now();
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2026-02-12 18:38:05 +03:00
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let user_owned = user.to_string();
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2025-12-30 05:08:05 +03:00
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loop {
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2026-02-12 18:38:05 +03:00
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tokio::select! {
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biased;
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// Client -> Server direction
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result = tokio::time::timeout(activity_timeout, client_reader.read(&mut c2s_buf)) => {
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match result {
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Err(_) => {
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// Activity timeout
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warn!(
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user = %user_owned,
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c2s_bytes = c2s_total,
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s2c_bytes = s2c_total,
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"Activity timeout (C->S)"
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);
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break;
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}
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Ok(Ok(0)) => {
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// Client closed
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debug!(
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user = %user_owned,
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c2s_bytes = c2s_total,
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s2c_bytes = s2c_total,
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"Client closed connection"
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);
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break;
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}
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Ok(Ok(n)) => {
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c2s_total += n as u64;
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c2s_msgs += 1;
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stats.add_user_octets_from(&user_owned, n as u64);
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stats.increment_user_msgs_from(&user_owned);
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trace!(user = %user_owned, bytes = n, "C->S");
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// Write without flush — TCP_NODELAY handles push
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if let Err(e) = server_writer.write_all(&c2s_buf[..n]).await {
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debug!(user = %user_owned, error = %e, "Write to server failed");
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break;
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}
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}
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Ok(Err(e)) => {
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debug!(user = %user_owned, error = %e, "Client read error");
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break;
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}
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2025-12-30 05:08:05 +03:00
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}
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}
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2026-02-12 18:38:05 +03:00
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// Server -> Client direction
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result = tokio::time::timeout(activity_timeout, server_reader.read(&mut s2c_buf)) => {
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match result {
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Err(_) => {
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warn!(
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user = %user_owned,
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c2s_bytes = c2s_total,
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s2c_bytes = s2c_total,
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"Activity timeout (S->C)"
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);
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break;
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}
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Ok(Ok(0)) => {
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debug!(
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user = %user_owned,
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c2s_bytes = c2s_total,
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s2c_bytes = s2c_total,
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"Server closed connection"
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);
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break;
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}
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Ok(Ok(n)) => {
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s2c_total += n as u64;
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s2c_msgs += 1;
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stats.add_user_octets_to(&user_owned, n as u64);
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stats.increment_user_msgs_to(&user_owned);
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trace!(user = %user_owned, bytes = n, "S->C");
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if let Err(e) = client_writer.write_all(&s2c_buf[..n]).await {
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debug!(user = %user_owned, error = %e, "Write to client failed");
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break;
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}
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}
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Ok(Err(e)) => {
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debug!(user = %user_owned, error = %e, "Server read error");
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break;
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}
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2025-12-30 05:08:05 +03:00
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}
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}
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}
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2026-02-12 18:38:05 +03:00
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// Periodic rate logging (every 10s)
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let elapsed = last_log.elapsed();
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if elapsed > Duration::from_secs(10) {
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let secs = elapsed.as_secs_f64();
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let c2s_delta = c2s_total - c2s_prev;
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let s2c_delta = s2c_total - s2c_prev;
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debug!(
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user = %user_owned,
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c2s_kbps = (c2s_delta as f64 / secs / 1024.0) as u64,
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s2c_kbps = (s2c_delta as f64 / secs / 1024.0) as u64,
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c2s_total = c2s_total,
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s2c_total = s2c_total,
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"Relay active"
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);
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c2s_prev = c2s_total;
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s2c_prev = s2c_total;
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last_log = Instant::now();
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2025-12-30 05:08:05 +03:00
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}
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}
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2026-02-12 18:38:05 +03:00
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// Clean shutdown of both directions
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let _ = server_writer.shutdown().await;
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let _ = client_writer.shutdown().await;
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2025-12-30 05:08:05 +03:00
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2026-02-12 18:38:05 +03:00
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debug!(
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user = %user_owned,
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c2s_bytes = c2s_total,
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s2c_bytes = s2c_total,
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c2s_msgs = c2s_msgs,
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s2c_msgs = s2c_msgs,
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"Relay finished"
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);
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Ok(())
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}
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