# Vortex Rust SDK
This crate provides the Vortex Rust SDK for authentication and invitation management.
With this SDK, you can generate JWTs for use with the Vortex Widget and make API calls to the Vortex API.
## Installation
Add the SDK to your `Cargo.toml`:
```toml
[dependencies]
vortex-sdk = "1.0"
tokio = { version = "1.0", features = ["full"] }
```
## Getting Started
Once you have the SDK installed, [login](https://admin.vortexsoftware.com/signin) to Vortex and [create an API Key](https://admin.vortexsoftware.com/members/api-keys). Keep your API key safe! Vortex does not store the API key and it is not retrievable once it has been created.
Your API key is used to:
- Sign JWTs for use with the Vortex Widget
- Make API calls against the [Vortex API](https://api.vortexsoftware.com/api)
## Usage
### Generate a JWT for the Vortex Widget
The Vortex Widget requires a JWT to authenticate users. Here's how to generate one:
```rust
use vortex_sdk::{VortexClient, User};
fn main() {
// Initialize the Vortex client with your API key
let client = VortexClient::new(std::env::var("VORTEX_API_KEY").unwrap());
// Create a user and generate JWT
let user = User::new("user-123", "user@example.com")
.with_admin_scopes(vec!["autojoin".to_string()]);
let jwt = client.generate_jwt(&user, None).unwrap();
println!("JWT: {}", jwt);
}
```
### Generate a JWT with Additional Properties
You can include additional properties in the JWT payload:
```rust
use vortex_sdk::{VortexClient, User};
use std::collections::HashMap;
fn main() {
let client = VortexClient::new(std::env::var("VORTEX_API_KEY").unwrap());
let user = User::new("user-123", "user@example.com");
let mut extra = HashMap::new();
extra.insert("role".to_string(), serde_json::json!("admin"));
extra.insert("department".to_string(), serde_json::json!("Engineering"));
let jwt = client.generate_jwt(&user, Some(extra)).unwrap();
println!("JWT: {}", jwt);
}
```
### Async API Usage
All API methods are async and require a tokio runtime:
```rust
use vortex_sdk::{VortexClient, User};
#[tokio::main]
async fn main() -> Result<(), Box<dyn std::error::Error>> {
let client = VortexClient::new(std::env::var("VORTEX_API_KEY")?);
// Generate a JWT
let user = User::new("user-123", "user@example.com")
.with_admin_scopes(vec!["autojoin".to_string()]);
let jwt = client.generate_jwt(&user, None)?;
println!("JWT: {}", jwt);
// Get invitations by target
let invitations = client
.get_invitations_by_target("email", "user@example.com")
.await?;
println!("Found {} invitations", invitations.len());
Ok(())
}
```
### Using with Axum (Web Framework)
Here's an example of using the SDK with the Axum web framework:
```rust
use axum::{
extract::State,
http::StatusCode,
response::Json,
routing::get,
Router,
};
use serde::{Deserialize, Serialize};
use std::sync::Arc;
use vortex_sdk::VortexClient;
#[derive(Clone)]
struct AppState {
vortex: Arc<VortexClient>,
}
#[derive(Serialize)]
struct JwtResponse {
jwt: String,
}
async fn get_jwt(State(state): State<AppState>) -> Result<Json<JwtResponse>, StatusCode> {
let user = vortex_sdk::User::new("user-123", "user@example.com");
let jwt = state
.vortex
.generate_jwt(&user, None)
.map_err(|_| StatusCode::INTERNAL_SERVER_ERROR)?;
Ok(Json(JwtResponse { jwt }))
}
#[tokio::main]
async fn main() {
let vortex = Arc::new(VortexClient::new(
std::env::var("VORTEX_API_KEY").unwrap(),
));
let app = Router::new()
.route("/api/vortex-jwt", get(get_jwt))
.with_state(AppState { vortex });
let listener = tokio::net::TcpListener::bind("127.0.0.1:3000")
.await
.unwrap();
axum::serve(listener, app).await.unwrap();
}
```
## API Methods
All API methods are asynchronous and require the tokio runtime.
### Invitation Management
#### Get Invitations by Target
```rust
let invitations = client
.get_invitations_by_target("email", "user@example.com")
.await?;
```
#### Get Invitation by ID
```rust
let invitation = client.get_invitation("invitation-id").await?;
```
#### Revoke Invitation
```rust
client.revoke_invitation("invitation-id").await?;
```
#### Accept Invitations
```rust
use vortex_sdk::InvitationTarget;
let target = InvitationTarget::new("email", "user@example.com");
let result = client
.accept_invitations(
vec!["invitation-id-1".to_string(), "invitation-id-2".to_string()],
target,
)
.await?;
```
#### Get Invitations by Group
```rust
let invitations = client
.get_invitations_by_group("workspace", "workspace-123")
.await?;
```
#### Delete Invitations by Group
```rust
client
.delete_invitations_by_group("workspace", "workspace-123")
.await?;
```
#### Reinvite
```rust
let result = client.reinvite("invitation-id").await?;
```
## Error Handling
The SDK uses a custom `VortexError` type for error handling:
```rust
use vortex_sdk::{VortexClient, VortexError};
match client.get_invitation("invalid-id").await {
Ok(invitation) => println!("Got invitation: {:?}", invitation),
Err(VortexError::ApiError(msg)) => eprintln!("API error: {}", msg),
Err(VortexError::HttpError(msg)) => eprintln!("HTTP error: {}", msg),
Err(e) => eprintln!("Other error: {}", e),
}
```
## Requirements
- Rust 1.70 or higher
- Tokio runtime for async operations
## Features
- **Type-safe**: Full type safety with Rust's type system
- **Async/await**: Built on tokio for efficient async operations
- **React Compatible**: JWTs generated using the same algorithm as Node.js SDK
- **Comprehensive**: All Vortex API endpoints supported
- **Error handling**: Rich error types for better debugging
- **Flexible**: User-based JWT generation with support for admin scopes and custom properties
## License
MIT
## Support
For support, please contact support@vortexsoftware.com or visit our [documentation](https://docs.vortexsoftware.com).