--- title: "Nym TcpProxy: Route TCP via the Mixnet" description: "Route TCP traffic through the Nym mixnet using the TcpProxy Rust module. Covers architecture, single and multi-connection patterns, and troubleshooting." schemaType: "TechArticle" section: "Developers" lastUpdated: "2026-03-27" --- # TcpProxy Module import { Callout } from 'nextra/components'; import { CodeVerified } from '../../../components/code-verified' **This module is unmaintained.** The TcpProxy is no longer actively developed in favour of the [Stream module](./stream), which provides `AsyncRead + AsyncWrite` streams directly over the Mixnet without the TCP socket overhead. Existing users should plan to migrate to streams when possible. The TcpProxy will continue to work but will not receive new features or bug fixes. The Stream module offers the same key benefit (familiar I/O patterns on top of the Mixnet) with a simpler API. Streams multiplex connections on a single client, eliminate the localhost socket overhead, and now include sequence-based message reordering. There is no remaining reason to choose TcpProxy over Streams for new projects. --- `NymProxyClient` and `NymProxyServer` proxy TCP traffic through the Mixnet. Both run in a background thread and expose a configurable `localhost` socket that you read and write to like any other TCP connection. > Non-Rust/Go developers who want to experiment with this module can start with the [standalone binaries](../tools/standalone-tcpproxy). ## Examples | Example | Source | |---|---| | Single connection | [`tcp_proxy_single_connection.rs`](https://github.com/nymtech/nym/blob/develop/sdk/rust/nym-sdk/examples/tcp_proxy_single_connection.rs) | | Multiple connections | [`tcp_proxy_multistream.rs`](https://github.com/nymtech/nym/blob/develop/sdk/rust/nym-sdk/examples/tcp_proxy_multistream.rs) | ```bash cargo run --example tcp_proxy_single_connection cargo run --example tcp_proxy_multistream ``` ## API reference - [API reference on docs.rs](https://docs.rs/nym-sdk/latest/nym_sdk/tcp_proxy/): architecture overview, client/server examples, and type documentation ## Tutorial Set up the project: ```sh cargo init nym-tcp-proxy cd nym-tcp-proxy rm src/main.rs ``` Add dependencies to `Cargo.toml`: ```toml [dependencies] nym-sdk = { git = "https://github.com/nymtech/nym", rev = "97068b2" } nym-network-defaults = { git = "https://github.com/nymtech/nym", rev = "97068b2" } nym-bin-common = { git = "https://github.com/nymtech/nym", rev = "97068b2", features = ["basic_tracing"] } tokio = { version = "1", features = ["full"] } anyhow = "1" blake3 = "=1.7.0" # required pin — see https://nymtech.net/docs/developers/rust/importing [[bin]] name = "proxy_server" path = "src/bin/proxy_server.rs" [[bin]] name = "proxy_client" path = "src/bin/proxy_client.rs" ``` ### Server The server connects to the Mixnet and forwards incoming traffic to a local TCP service (e.g. a web server on port 8000). ```rust use nym_sdk::tcp_proxy::NymProxyServer; #[tokio::main] async fn main() -> anyhow::Result<()> { nym_bin_common::logging::setup_tracing_logger(); let mut server = NymProxyServer::new( "127.0.0.1:8000", // upstream address (host:port) "./proxy-server-config", // config directory for persistent keys None, // env file (None = mainnet) None, // gateway (None = auto-select) ).await?; println!("Proxy server address: {}", server.nym_address()); server.run_with_shutdown().await?; Ok(()) } ``` ### Client The client opens a localhost TCP socket and tunnels all traffic through the Mixnet to the server. ```rust use nym_sdk::tcp_proxy::NymProxyClient; use nym_sdk::mixnet::Recipient; use nym_network_defaults::setup_env; use tokio::io::{AsyncReadExt, AsyncWriteExt}; use tokio::net::TcpStream; #[tokio::main] async fn main() -> anyhow::Result<()> { nym_bin_common::logging::setup_tracing_logger(); // Load mainnet network defaults into env vars (required by NymProxyClient's internal ClientPool) setup_env(None::); let server_addr: Recipient = std::env::args() .nth(1).expect("Usage: proxy_client ") .parse()?; let client = NymProxyClient::new( server_addr, "127.0.0.1", // listen host "8070", // listen port 60, // close timeout (seconds) None, // env file (None = mainnet) 1, // client pool size ).await?; let proxy = tokio::spawn(async move { client.run().await }); // Wait for the pool to create a client and the proxy to be ready. // The first startup takes ~10-15s while the client connects to the Mixnet. println!("Waiting for proxy to be ready..."); tokio::time::sleep(std::time::Duration::from_secs(15)).await; let mut stream = TcpStream::connect("127.0.0.1:8070").await?; stream.write_all(b"GET / HTTP/1.0\r\nHost: localhost\r\n\r\n").await?; let mut response = Vec::new(); stream.read_to_end(&mut response).await?; println!("Response:\n{}", String::from_utf8_lossy(&response)); drop(stream); proxy.abort(); Ok(()) } ``` ### Run it Start an upstream TCP service (e.g. a simple HTTP server): ```sh python3 -m http.server 8000 ``` In a second terminal, start the proxy server: ```sh RUST_LOG=info cargo run --bin proxy_server ``` Copy the Nym address it prints, then in a third terminal: ```sh RUST_LOG=info cargo run --bin proxy_client -- ``` The response will take 30–60 seconds to arrive as it traverses the Mixnet in both directions. ## Architecture Each sub-module handles Nym clients differently: - **`NymProxyClient`** relies on the [Client Pool](./client-pool) to create clients and keep a reserve. If incoming TCP connections outpace the pool, it creates an ephemeral client per connection. One client maps to one TCP connection. - **`NymProxyServer`** has a single Nym client with a persistent identity. ### Sessions & message ordering Messages are wrapped in a session ID per connection, with individual messages given an incrementing message ID. Once all messages are sent, the client sends a `Close` message to notify the server that there are no more outbound messages for this session. > Session management and message IDs are necessary since *the Mixnet guarantees message delivery but not message ordering*: in the case of trying to e.g. send gRPC protobuf through the Mixnet, ordering is required so that a buffer is not split across Sphinx packet payloads, and that the 2nd half of the frame is not passed upstream to the parser before the 1st half. The key data structure: ```rust pub struct ProxiedMessage { message: Payload, session_id: Uuid, message_id: u16, } ``` ### Full request/response flow ```mermaid --- config: theme: neo-dark layout: elk --- sequenceDiagram box Local Machine participant Client Process participant NymProxyClient end Client Process->>NymProxyClient: Request bytes NymProxyClient->>NymProxyClient: New session NymProxyClient->>Entry Gateway: Sphinx Packets: Message 1 Entry Gateway-->>NymProxyClient: Acks NymProxyClient->>Entry Gateway: Sphinx Packets: Message 2 Entry Gateway-->>NymProxyClient: Acks NymProxyClient->>Entry Gateway: Sphinx Packets: Close Message Entry Gateway-->>NymProxyClient: Acks Entry Gateway-->>Mix Nodes: All Packets, Acks, etc Note right of Mix Nodes: We are omitting the 3 hops etc for brevity here Mix Nodes-->> Exit Gateway: All Packets, Acks, etc Exit Gateway->>NymProxyServer: Sphinx Packets: Message 2 NymProxyServer-->>Exit Gateway: Acks loop Message Buffer NymProxyServer->>NymProxyServer: Wait for Message 1 Exit Gateway->>NymProxyServer: Sphinx Packets: Message 1 NymProxyServer-->>Exit Gateway: Acks NymProxyServer->>NymProxyServer: Message Received: trigger upstream send end Note right of NymProxyServer: Note this happens **per session** NymProxyServer->>Upstream Process: Reconstructed request bytes Upstream Process->>Upstream Process: Do something with request Exit Gateway->>NymProxyServer: Sphinx Packets: Close Message NymProxyServer-->>Exit Gateway: Acks NymProxyServer->>NymProxyServer: Trigger Client timeout start for session Upstream Process->>NymProxyServer: Response bytes NymProxyServer->>NymProxyServer: Write to provided SURB payloads NymProxyServer->>Exit Gateway: Anonymous replies box Remote Host participant NymProxyServer participant Upstream Process end Entry Gateway->>NymProxyClient: Sphinx Packets: Reply Message 2 NymProxyClient-->Entry Gateway: Ack Loop Message Buffer: NymProxyClient->>NymProxyClient: Wait for Message 1 Entry Gateway->>NymProxyClient: Sphinx Packets: Message 1 NymProxyClient-->>Entry Gateway: Acks NymProxyClient->>NymProxyClient: Message Received: trigger send NymProxyClient->>Client Process: Response bytes end Note right of NymProxyClient: Note this happens **per session** ``` ## Troubleshooting ### Lots of `duplicate fragment received` messages `WARN` level logs about duplicate fragments are caused by Mixnet-level packet retransmission, where both the original and the retransmitted copy arrive at the destination. This is expected behaviour, not a bug in the client or TcpProxy module.