> ## Documentation Index
> Fetch the complete documentation index at: https://docs.ironclaw.com/llms.txt
> Use this file to discover all available pages before exploring further.

# How to build a channel

> Build a WASM messaging channel that plugs into IronClaw

Channels are WASM components that handle communication with external messaging platforms (Telegram, WhatsApp, Slack, etc.). They run in a sandboxed environment and communicate with the host via the WIT (WebAssembly Interface Types) interface.

***

## Prerequisites

Install Rust and add the WASM target:

```bash theme={null}
rustup target add wasm32-wasip2
```

Optional but useful for component conversion workflows:

```bash theme={null}
cargo install wasm-tools
```

***

## 1. Create the project structure

Create a new crate under `channels-src/` (or another location) with this layout:

```text theme={null}
channels-src/
└── my-channel/
    ├── Cargo.toml
    ├── src/
    │   └── lib.rs
    └── my-channel.capabilities.json
```

After building, deploy to:

```text theme={null}
~/.ironclaw/channels/
├── my-channel.wasm
└── my-channel.capabilities.json
```

***

## 2. Configure Cargo.toml

```toml Cargo.toml theme={null}
[package]
name = "my-channel"
version = "0.1.0"
edition = "2021"
description = "My messaging platform channel for IronClaw"

[lib]
crate-type = ["cdylib"]

[dependencies]
wit-bindgen = "0.36"
serde = { version = "1", features = ["derive"] }
serde_json = "1"

[profile.release]
opt-level = "s"
lto = true
strip = true
codegen-units = 1
```

***

## 3. Implement the channel interface

Now that the crate is ready, implement the channel guest interface exposed by `wit/channel.wit`, and implement the guest trait methods to handle incoming messages and send responses.

### Required Imports

```rust theme={null}
// Generate bindings from the WIT file
wit_bindgen::generate!({
    world: "sandboxed-channel",
    path: "../../wit/channel.wit",  // Adjust path as needed
});

use serde::{Deserialize, Serialize};

// Re-export generated types
use exports::near::agent::channel::{
    AgentResponse, ChannelConfig, Guest, HttpEndpointConfig, IncomingHttpRequest,
    OutgoingHttpResponse, PollConfig,
};
use near::agent::channel_host::{self, EmittedMessage};
```

### Implementing the Guest Trait

```rust theme={null}
struct MyChannel;

impl Guest for MyChannel {
    /// Called once when the channel starts.
    /// Returns configuration for webhooks and polling.
    fn on_start(config_json: String) -> Result<ChannelConfig, String> {
        // Parse config from capabilities file
        let config: MyConfig = serde_json::from_str(&config_json)
            .unwrap_or_default();

        Ok(ChannelConfig {
            display_name: "My Channel".to_string(),
            http_endpoints: vec![
                HttpEndpointConfig {
                    path: "/webhook/my-channel".to_string(),
                    methods: vec!["POST".to_string()],
                    require_secret: true,  // Validate webhook secret
                },
            ],
            poll: None,  // Or Some(PollConfig { interval_ms, enabled })
        })
    }

    /// Handle incoming HTTP requests (webhooks).
    fn on_http_request(req: IncomingHttpRequest) -> OutgoingHttpResponse {
        // Parse webhook payload
        // Emit messages to agent
        // Return response to webhook caller
    }

    /// Called periodically if polling is enabled.
    fn on_poll() {
        // Fetch new messages from API
        // Emit any new messages
    }

    /// Send a response back to the messaging platform.
    fn on_respond(response: AgentResponse) -> Result<(), String> {
        // Parse metadata to get routing info
        // Call platform API to send message
    }

    /// Send a proactive message without a prior inbound event.
    fn on_broadcast(user_id: String, response: AgentResponse) -> Result<(), String> {
      // Send a message to a known user or chat ID.
    }

    /// React to agent status changes such as thinking or tool activity.
    fn on_status(update: StatusUpdate) {
      // Show typing indicators or status messages when useful.
    }

    /// Called when channel is shutting down.
    fn on_shutdown() {
        channel_host::log(channel_host::LogLevel::Info, "Channel shutting down");
    }
}

// Export the channel implementation
export!(MyChannel);
```

<Note>
  `on_start` configures how the host calls your channel. `on_http_request` and `on_poll` ingest external messages; `on_respond` delivers replies to an existing conversation; `on_broadcast` sends proactive messages; `on_status` lets channels surface thinking indicators and other progress updates.
</Note>

***

## 4. Preserve routing metadata (critical)

Once your channel can receive messages, keep enough metadata to send responses back to the right chat and sender.

**The most important pattern**: Store routing info in message metadata so responses can be delivered.

```rust theme={null}
// When receiving a message, store routing info:
#[derive(Debug, Serialize, Deserialize)]
struct MyMessageMetadata {
    chat_id: String,           // Where to send response
    sender_id: String,         // Who sent it (becomes recipient)
    original_message_id: String,
}

// In on_http_request or on_poll:
let metadata = MyMessageMetadata {
    chat_id: message.chat.id.clone(),
    sender_id: message.from.clone(),  // CRITICAL: Store sender!
    original_message_id: message.id.clone(),
};

channel_host::emit_message(&EmittedMessage {
    user_id: message.from.clone(),
    user_name: Some(name),
    content: text,
    thread_id: None,
    metadata_json: serde_json::to_string(&metadata).unwrap_or_default(),
});

// In on_respond, use the ORIGINAL message's metadata:
fn on_respond(response: AgentResponse) -> Result<(), String> {
    let metadata: MyMessageMetadata = serde_json::from_str(&response.metadata_json)?;

    // sender_id becomes the recipient!
    send_message(metadata.chat_id, metadata.sender_id, response.content);
}
```

<Note>
  `response.metadata_json` contains the metadata from the original inbound message. Treat it as the source of truth for reply routing.
</Note>

***

## 5. Add secure credential placeholders

Now that the message path is set, configure API credentials using placeholders instead of hardcoded tokens.

<Warning>
  **Never hardcode credentials!** Use placeholders that the host replaces
</Warning>

### URL Placeholders (Telegram-style)

```rust theme={null}
// The host replaces {TELEGRAM_BOT_TOKEN} with the actual token
let url = "https://api.telegram.org/bot{TELEGRAM_BOT_TOKEN}/sendMessage";
channel_host::http_request("POST", url, &headers_json, Some(&body));
```

### Header Placeholders (WhatsApp-style)

```rust theme={null}
let headers = serde_json::json!({
    "Content-Type": "application/json",
    "Authorization": "Bearer {WHATSAPP_ACCESS_TOKEN}"
});
channel_host::http_request("POST", &url, &headers.to_string(), Some(&body));
```

The placeholder format is `{SECRET_NAME}` where `SECRET_NAME` matches the credential name in uppercase with underscores (e.g., `whatsapp_access_token` → `{WHATSAPP_ACCESS_TOKEN}`).

***

## 6. Define capabilities

The capabilities file declares setup prompts, allowlists, and rate limits.

```json my-channel.capabilities.json theme={null}
{
  "type": "channel",
  "name": "my-channel",
  "description": "My messaging platform channel",
  "setup": {
    "required_secrets": [
      {
        "name": "my_channel_api_token",
        "prompt": "Enter your API token",
        "validation": "^[A-Za-z0-9_-]+$"
      },
      {
        "name": "my_channel_webhook_secret",
        "prompt": "Webhook secret (leave empty to auto-generate)",
        "optional": true,
        "auto_generate": { "length": 32 }
      }
    ],
    "validation_endpoint": "https://api.my-platform.com/verify?token={my_channel_api_token}"
  },
  "capabilities": {
    "http": {
      "allowlist": [
        { "host": "api.my-platform.com", "path_prefix": "/" }
      ],
      "rate_limit": {
        "requests_per_minute": 60,
        "requests_per_hour": 1000
      }
    },
    "secrets": {
      "allowed_names": ["my_channel_*"]
    },
    "channel": {
      "allowed_paths": ["/webhook/my-channel"],
      "allow_polling": false,
      "workspace_prefix": "channels/my-channel/",
      "emit_rate_limit": {
        "messages_per_minute": 100,
        "messages_per_hour": 5000
      },
      "webhook": {
        "secret_header": "X-Webhook-Secret",
        "secret_name": "my_channel_webhook_secret"
      }
    }
  },
  "config": {
    "custom_option": "value"
  }
}
```

***

## 7. Build and install

With code and capabilities in place, build the channel and copy the two required artifacts.

### Generic channel build

```bash theme={null}
cd channels-src/my-channel
cargo build --release --target wasm32-wasip2

# Convert the raw wasm module into a component and strip it
wasm-tools component new target/wasm32-wasip2/release/my_channel.wasm -o my-channel.wasm \
  2>/dev/null || cp target/wasm32-wasip2/release/my_channel.wasm my-channel.wasm
wasm-tools strip my-channel.wasm -o my-channel.wasm

mkdir -p ~/.ironclaw/channels
cp my-channel.wasm ~/.ironclaw/channels/my-channel.wasm
cp my-channel.capabilities.json ~/.ironclaw/channels/
```

<Note>
  The channels shipped in `channels-src/` use small `build.sh` wrappers that do exactly this component-conversion step. If your channel lives in the repo, following that pattern is the safest option.
</Note>

### Telegram channel example

```bash theme={null}
rustup target add wasm32-wasip2
./channels-src/telegram/build.sh

mkdir -p ~/.ironclaw/channels
cp channels-src/telegram/telegram.wasm channels-src/telegram/telegram.capabilities.json ~/.ironclaw/channels/
```

<Danger>
  If you are contributing a channel to the public repository, **do not commit compiled WASM binaries.** They are a supply chain risk — the binary in a PR may not match the source. IronClaw builds channels from source.
</Danger>

***

## 8. Host functions you can call

Channel modules get a small host API for logging, storage, HTTP, and message emission:

```rust theme={null}
channel_host::log(channel_host::LogLevel::Info, "message");

let _now = channel_host::now_millis();

let _ = channel_host::workspace_write("state/offset", "12345");
let _ = channel_host::workspace_read("state/offset");

let _response = channel_host::http_request("POST", &url, &headers, Some(&body));

channel_host::emit_message(&EmittedMessage { /* ... */ });
```

Real channels also use a few additional host APIs:

```rust theme={null}
let has_secret = channel_host::secret_exists("telegram_bot_token");

let _ = channel_host::store_attachment_data("attachment-id", &bytes);

let _ = channel_host::pairing_upsert_request("telegram", "123456", "{}")?;
let _ = channel_host::pairing_resolve_identity("telegram", "123456")?;
let _ = channel_host::pairing_read_allow_from("telegram")?;
```

Use `store_attachment_data` when you download binary payloads such as voice notes or images during webhook or polling callbacks. Use the pairing APIs when your channel supports owner approval for unknown direct-message senders.

***

## 9. Common patterns

### Polling with stored offsets

```rust theme={null}
const OFFSET_PATH: &str = "state/last_offset";

fn on_poll() {
    let offset = channel_host::workspace_read(OFFSET_PATH)
        .and_then(|s| s.parse::<i64>().ok())
        .unwrap_or(0);

    let updates = fetch_updates(offset);
    let mut new_offset = offset;

    for update in updates {
        if update.id >= new_offset {
            new_offset = update.id + 1;
        }
        emit_message(update);
    }

    if new_offset != offset {
        let _ = channel_host::workspace_write(OFFSET_PATH, &new_offset.to_string());
    }
}
```

### Ignore status-only payloads

```rust theme={null}
if !payload.statuses.is_empty() && payload.messages.is_empty() {
    return;
}
```

### Ignore bot senders

```rust theme={null}
if sender.is_bot {
    return;
}
```

***

## 10. Testing and troubleshooting

Add basic parsing and metadata round-trip tests:

```rust theme={null}
#[cfg(test)]
mod tests {
    use super::*;

    #[test]
    fn test_parse_webhook() {
        let json = r#"{\"messages\":[]}"#;
        let v: serde_json::Value = serde_json::from_str(json).expect("valid json in test");
        assert!(v.get("messages").is_some());
    }
}
```

If you see `byte index N is not a char boundary`, avoid byte slicing and truncate by characters:

```rust theme={null}
let preview: String = content.chars().take(50).collect();
```

If credential placeholders are not resolved:

1. Verify secret names match the declared placeholders.
2. Confirm the secret is permitted in `allowed_names`.
3. Check runtime logs for unresolved placeholder warnings.
