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19 Commits
v0.7.11 ... 5e673ac993

Author SHA1 Message Date
Bas van den Aakster
5e673ac993 Add type-safe EventBus with generic event mapping 
Implemented EventBus class with full TypeScript type inference:
- Generic type parameter TEvents for event name to payload mapping
- Type-safe on/once/off/emit methods with inferred data types
- Utility methods: clear, listenerCount, eventNames
- Complete JSDoc documentation with usage examples

Added core connection types:
- ConnectionIdentity, ConnectionState, ConnectionInterface
- QueueMessageOptions for message queuing
- Connection composite type

All types and classes exported from main index.

Example usage:
```typescript
interface MyEvents {
  'user:connected': { userId: string; timestamp: number };
  'message:received': string;
}

const bus = new EventBus<MyEvents>();

// TypeScript knows data is { userId: string; timestamp: number }
bus.on('user:connected', (data) => {
  console.log(data.userId, data.timestamp);
});
```

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
 2025-12-07 16:17:52 +01:00
Bas van den Aakster
511bac8033 Strip client to minimal skeleton with ConnectionManager 
Removed all complex implementations and kept only the essentials:
- Removed durable/ directory (DurableConnection, DurableChannel, etc.)
- Removed peer/ directory (entire state machine)
- Removed service-pool.ts, offer-pool.ts, rondevu.ts
- Removed auth.ts, offers.ts, usernames.ts, event-emitter.ts
- Added empty ConnectionManager class as starting point

The client now contains just:
- src/connection-manager.ts - Empty class skeleton
- src/index.ts - Simple export

This provides a clean slate to rebuild the client with a simpler
architecture focused on core WebRTC connection management.

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
 2025-12-07 13:30:55 +01:00
Bas van den Aakster
eb2c61bdb8 Release v0.9.2: Fix service pool ICE candidate collection 2025-12-07 11:31:33 +01:00
Bas van den Aakster
3139897b25 Fix service pool ICE candidate collection and logging 
Fixed critical timing issue where ICE candidates were generated before
the handler was attached, causing them to be lost:

- Set up onicecandidate handler BEFORE setLocalDescription()
- Collect candidates in array while waiting for offer ID
- Send all pending candidates once offer ID is available
- Add detailed logging for service pool ICE candidates
- Log candidate type (host/srflx/relay) for debugging

This ensures all ICE candidates are captured and sent to the signaling
server, and provides visibility into what types of candidates are being
generated (especially important for diagnosing TURN relay issues).

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
 2025-12-07 11:31:24 +01:00
Bas van den Aakster
a550641993 Release v0.9.1: Add detailed ICE candidate exchange logging 2025-12-07 11:13:32 +01:00
Bas van den Aakster
04603cfe2d Add detailed ICE candidate exchange logging 
Added comprehensive logging to track WebRTC ICE candidate exchange:
- Log local candidate generation with type (host/srflx/relay)
- Log when candidates are sent to signaling server
- Log remote candidate reception and addition
- Log ICE gathering state changes
- Log ICE connection state changes
- Enhanced ICE error logging with details

This will help diagnose connection issues and TURN server problems.

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
 2025-12-07 11:13:24 +01:00
Bas van den Aakster
6c2fd7952e Critical fix: Add ICE candidate handlers to service pool 
The service pool was creating peer connections but never setting up
onicecandidate handlers. This meant ICE candidates generated by the
TURN relay were never sent to the signaling server, causing all
ICE connectivity checks to fail with no remote candidates.

Changes:
- Add onicecandidate handlers in createOffers() after getting offer IDs
- Add onicecandidate handler in publishInitialService() after publishing
- Handlers send candidates to server via addIceCandidates()

This fixes the "all checks completed success=0 fail=1" error where
remote candidates were empty.

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
 2025-12-06 15:24:09 +01:00
Bas van den Aakster
d6f2a10e3e Fix critical bug: track and use data channels from offers 
This fixes the root cause of all connection failures. The service pool
was creating data channels but discarding the references, then trying
to wait for a 'datachannel' event that would never fire.

Changes:
- Add dataChannel tracking to OfferPool and ServicePool
- Save data channel references when creating offers
- Pass channels through the answer flow
- Use the existing channel instead of waiting for an event
- Wait for channel.onopen instead of ondatachannel

The offerer (service pool) creates the data channel and must keep that
reference. The 'ondatachannel' event only fires on the answerer side.

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
 2025-12-06 14:24:31 +01:00
Bas van den Aakster
a6dc342f3b Fix datachannel handling: auto-create channels from remote peer 
Modified peerDataChannelHandler to automatically create DurableChannel
instances when receiving data channels from the remote peer. This fixes
the connection flow where the answerer needs to receive the data channel
that the offerer created.

Previously, the handler only attached if a DurableChannel already existed,
which meant incoming channels from the remote peer would be ignored.

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
 2025-12-06 13:59:16 +01:00
Bas van den Aakster
9486376442 feat: v0.9.0 - durable WebRTC connections with automatic reconnection 
Major refactor replacing low-level APIs with high-level durable connections.

New Features:
- Automatic reconnection with exponential backoff (1s → 2s → 4s → ... max 30s)
- Message queuing during disconnections
- Durable channels that survive connection drops
- TTL auto-refresh for services (refreshes at 80% of TTL by default)
- Full configuration of timeouts, retry limits, and queue sizes

New API:
- client.exposeService() - Create durable service with automatic TTL refresh
- client.connect() - Create durable connection with automatic reconnection
- client.connectByUuid() - Connect by service UUID
- DurableChannel - Event-based channel wrapper with message queuing
- DurableConnection - Connection manager with reconnection logic
- DurableService - Service manager with TTL auto-refresh

Files Added:
- src/durable/types.ts - Type definitions and enums
- src/durable/reconnection.ts - Exponential backoff utilities
- src/durable/channel.ts - DurableChannel class (358 lines)
- src/durable/connection.ts - DurableConnection class (441 lines)
- src/durable/service.ts - DurableService class (329 lines)
- MIGRATION.md - Comprehensive migration guide

Files Removed:
- src/services.ts - Replaced by DurableService
- src/discovery.ts - Replaced by DurableConnection

BREAKING CHANGES:
- Removed: client.services.*, client.discovery.*, client.createPeer()
- Added: client.exposeService(), client.connect(), client.connectByUuid()
- Handler signature: (channel, peer, connectionId?) → (channel, connectionId)
- Event handlers: .onmessage → .on('message')
- Services: Must call service.start() to begin accepting connections
- Connections: Must call connection.connect() to establish connection
 2025-12-06 13:04:19 +01:00
Bas van den Aakster
cffb092d3f Fix WebRTC signaling state error in pooled services 
- Add signaling state validation before setting remote answer
- Fix race condition by removing offers from pool before processing
- Add detailed debug logging for state mismatch errors
- Prevent duplicate processing of answered offers

This fixes the "Cannot set remote answer in state stable" error
that occurred when multiple answers arrived in quick succession.

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
 2025-12-06 11:36:58 +01:00
Bas van den Aakster
122f211e7c Fix empty SDP in pooled service offers 
The publishInitialService() method was creating an offer with SDP
but not returning it. This caused the first offer in the pool to
have an empty SDP string, which failed when trying to set it as
the local description when an answer arrived.

Fixed by:
- Storing the offer SDP before closing the peer connection
- Adding offerSdp to the return value of publishInitialService()
- Using the returned SDP when creating the initial offer in the pool

This ensures all offers in the pool have valid SDP that can be
used to recreate the peer connection state when answers arrive.

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>
 2025-12-05 20:19:14 +01:00
Bas van den Aakster
4a6d0ee091 Fix WebRTC state machine error in pooled services 
When handling answered offers in pooled services, we were creating fresh
peer connections in "stable" state and trying to set the remote answer,
which caused "Cannot set remote answer in state stable" error.

Fixed by:
- Adding offerSdp to AnsweredOffer interface
- Passing original offer SDP through the offer pool
- Setting local description (offer) before remote description (answer)

This ensures the peer connection is in "have-local-offer" state before
applying the answer, satisfying WebRTC's state machine requirements.

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>
 2025-12-05 19:51:09 +01:00
Bas van den Aakster
b2d42fa776 fix: use async ed25519 functions (signAsync, getPublicKeyAsync) 
The sync ed25519 functions (sign, getPublicKey) require hashes.sha512,
but WebCrypto only provides async digest. Switch to using the async
ed25519 API which works with hashes.sha512Async.

This fixes the "hashes.sha512 not set" error.

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>
 2025-12-05 19:19:05 +01:00
Bas van den Aakster
63e14ddc5b fix: initialize SHA-512 hash function for @noble/ed25519 v3 
@noble/ed25519 v3.0.0 requires explicit SHA-512 hash function setup
before using any cryptographic operations. This fixes the
"hashes.sha512 not set" error.

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>
 2025-12-05 18:44:03 +01:00
Bas van den Aakster
c9f6119148 fix: export V2 API classes and types from index 
- Export RondevuUsername, RondevuServices, RondevuDiscovery classes
- Export all related type interfaces
- Export pool-related types (PoolStatus, PooledServiceHandle)

This fixes the issue where the V2 APIs were available as properties
on the Rondevu client instance but not accessible as standalone imports.

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>
 2025-12-05 18:37:33 +01:00
Bas van den Aakster
15f821f08a feat: implement offer pooling for multi-connection services 
- Add OfferPool class for managing multiple offers with auto-refill polling
- Add ServicePool class for orchestrating pooled connections and connection registry
- Modify exposeService() to support poolSize parameter (backward compatible)
- Add discovery API with service resolution and online status checking
- Add username claiming with Ed25519 signatures and TTL-based expiry
- Fix TypeScript import errors (RondevuPeer default export)
- Fix RondevuPeer instantiation to use RondevuOffers instance
- Fix peer.answer() calls to include required PeerOptions parameter
- Fix Ed25519 API call (randomSecretKey vs randomPrivateKey)
- Remove bloom filter (V1 legacy code)
- Update version to 0.8.0
- Document pooling feature and new APIs in README

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>
 2025-12-05 18:26:23 +01:00
Bas van den Aakster
895e7765f9 Update README: Remove custom peer ID documentation 
🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>
 2025-11-22 23:22:58 +01:00
Bas van den Aakster
49d3984640 Remove custom peer ID feature for security 
Always generate cryptographically random 128-bit peer IDs to prevent peer ID hijacking vulnerability. This ensures peer IDs are secure through collision resistance rather than relying on expiration-based protection.

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>
 2025-11-22 23:19:07 +01:00
25 changed files with 1403 additions and 1954 deletions
Expand all files Collapse all files

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EVENTBUS_EXAMPLE.md Normal file
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# EventBus Usage Examples
## Type-Safe Event Bus
The `EventBus` class provides fully type-safe event handling with TypeScript type inference.
### Basic Usage
```typescript
import { EventBus } from '@xtr-dev/rondevu-client';
// Define your event mapping
interface AppEvents {
'user:connected': { userId: string; timestamp: number };
'user:disconnected': { userId: string };
'message:received': string;
'connection:error': Error;
}
// Create the event bus
const events = new EventBus<AppEvents>();
// Subscribe to events - TypeScript knows the exact data type!
events.on('user:connected', (data) => {
// data is { userId: string; timestamp: number }
console.log(`User ${data.userId} connected at ${data.timestamp}`);
});
events.on('message:received', (data) => {
// data is string
console.log(data.toUpperCase());
});
// Emit events - TypeScript validates the data type
events.emit('user:connected', {
userId: '123',
timestamp: Date.now()
});
events.emit('message:received', 'Hello World');
// Type errors caught at compile time:
// events.emit('user:connected', 'wrong type'); // ❌ Error!
// events.emit('message:received', { wrong: 'type' }); // ❌ Error!
```
### One-Time Listeners
```typescript
// Subscribe once - handler auto-unsubscribes after first call
events.once('connection:error', (error) => {
console.error('Connection failed:', error.message);
});
```
### Unsubscribing
```typescript
const handler = (data: string) => {
console.log('Message:', data);
};
events.on('message:received', handler);
// Later, unsubscribe
events.off('message:received', handler);
```
### Utility Methods
```typescript
// Clear all handlers for a specific event
events.clear('message:received');
// Clear all handlers for all events
events.clear();
// Get listener count
const count = events.listenerCount('user:connected');
// Get all event names with handlers
const eventNames = events.eventNames();
```
## Connection Events Example
```typescript
interface ConnectionEvents {
'connection:state': { state: 'connected' | 'disconnected' | 'connecting' };
'connection:message': { from: string; data: string | ArrayBuffer };
'connection:error': { code: string; message: string };
}
class ConnectionManager {
private events = new EventBus<ConnectionEvents>();
on<K extends keyof ConnectionEvents>(
event: K,
handler: (data: ConnectionEvents[K]) => void
) {
this.events.on(event, handler);
}
private handleStateChange(state: 'connected' | 'disconnected' | 'connecting') {
this.events.emit('connection:state', { state });
}
private handleMessage(from: string, data: string | ArrayBuffer) {
this.events.emit('connection:message', { from, data });
}
}
```
## Benefits
-**Full type safety** - TypeScript validates event names and data types
-**IntelliSense support** - Auto-completion for event names and data properties
-**Compile-time errors** - Catch type mismatches before runtime
-**Self-documenting** - Event interface serves as documentation
-**Refactoring-friendly** - Rename events or change types with confidence

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MIGRATION.md Normal file
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@@ -0,0 +1,547 @@
# Migration Guide: v0.8.x → v0.9.0
This guide helps you migrate from Rondevu Client v0.8.x to v0.9.0.
## Overview
v0.9.0 is a **breaking change** that completely replaces low-level APIs with high-level durable connections featuring automatic reconnection and message queuing.
### What's New
**Durable Connections**: Automatic reconnection on network drops
**Message Queuing**: Messages sent during disconnections are queued and flushed on reconnect
**Durable Channels**: RTCDataChannel wrappers that survive connection drops
**TTL Auto-Refresh**: Services automatically republish before expiration
**Simplified API**: Direct methods on main client instead of nested APIs
### What's Removed
**Low-level APIs**: `client.services.*`, `client.discovery.*`, `client.createPeer()` no longer exported
**Manual Connection Management**: No need to handle WebRTC peer lifecycle manually
**Service Handles**: Replaced with DurableService instances
## Breaking Changes
### 1. Service Exposure
#### v0.8.x (Old)
```typescript
import { Rondevu } from '@xtr-dev/rondevu-client';
const client = new Rondevu();
await client.register();
const handle = await client.services.exposeService({
username: 'alice',
privateKey: keypair.privateKey,
serviceFqn: 'chat@1.0.0',
isPublic: true,
handler: (channel, peer) => {
channel.onmessage = (e) => {
console.log('Received:', e.data);
channel.send(`Echo: ${e.data}`);
};
}
});
// Unpublish
await handle.unpublish();
```
#### v0.9.0 (New)
```typescript
import { Rondevu } from '@xtr-dev/rondevu-client';
const client = new Rondevu();
await client.register();
const service = await client.exposeService({
username: 'alice',
privateKey: keypair.privateKey,
serviceFqn: 'chat@1.0.0',
isPublic: true,
poolSize: 10, // NEW: Handle multiple concurrent connections
handler: (channel, connectionId) => {
// NEW: DurableChannel with event emitters
channel.on('message', (data) => {
console.log('Received:', data);
channel.send(`Echo: ${data}`);
});
}
});
// NEW: Start the service
await service.start();
// NEW: Stop the service
await service.stop();
```
**Key Differences:**
- `client.services.exposeService()``client.exposeService()`
- Returns `DurableService` instead of `ServiceHandle`
- Handler receives `DurableChannel` instead of `RTCDataChannel`
- Handler receives `connectionId` string instead of `RondevuPeer`
- DurableChannel uses `.on('message', ...)` instead of `.onmessage = ...`
- Must call `service.start()` to begin accepting connections
- Use `service.stop()` instead of `handle.unpublish()`
### 2. Connecting to Services
#### v0.8.x (Old)
```typescript
// Connect by username + FQN
const { peer, channel } = await client.discovery.connect(
'alice',
'chat@1.0.0'
);
channel.onmessage = (e) => {
console.log('Received:', e.data);
};
channel.onopen = () => {
channel.send('Hello!');
};
peer.on('connected', () => {
console.log('Connected');
});
peer.on('failed', (error) => {
console.error('Failed:', error);
});
```
#### v0.9.0 (New)
```typescript
// Connect by username + FQN
const connection = await client.connect('alice', 'chat@1.0.0', {
maxReconnectAttempts: 10 // NEW: Configurable reconnection
});
// NEW: Create durable channel
const channel = connection.createChannel('main');
channel.on('message', (data) => {
console.log('Received:', data);
});
channel.on('open', () => {
channel.send('Hello!');
});
// NEW: Connection lifecycle events
connection.on('connected', () => {
console.log('Connected');
});
connection.on('reconnecting', (attempt, max, delay) => {
console.log(`Reconnecting (${attempt}/${max})...`);
});
connection.on('failed', (error) => {
console.error('Failed permanently:', error);
});
// NEW: Must explicitly connect
await connection.connect();
```
**Key Differences:**
- `client.discovery.connect()``client.connect()`
- Returns `DurableConnection` instead of `{ peer, channel }`
- Must create channels with `connection.createChannel()`
- Must call `connection.connect()` to establish connection
- Automatic reconnection with configurable retry limits
- Messages sent during disconnection are automatically queued
### 3. Connecting by UUID
#### v0.8.x (Old)
```typescript
const { peer, channel } = await client.discovery.connectByUuid('service-uuid');
channel.onmessage = (e) => {
console.log('Received:', e.data);
};
```
#### v0.9.0 (New)
```typescript
const connection = await client.connectByUuid('service-uuid', {
maxReconnectAttempts: 5
});
const channel = connection.createChannel('main');
channel.on('message', (data) => {
console.log('Received:', data);
});
await connection.connect();
```
**Key Differences:**
- `client.discovery.connectByUuid()``client.connectByUuid()`
- Returns `DurableConnection` instead of `{ peer, channel }`
- Must create channels and connect explicitly
### 4. Multi-Connection Services (Offer Pooling)
#### v0.8.x (Old)
```typescript
const handle = await client.services.exposeService({
username: 'alice',
privateKey: keypair.privateKey,
serviceFqn: 'chat@1.0.0',
poolSize: 5,
pollingInterval: 2000,
handler: (channel, peer, connectionId) => {
console.log(`Connection: ${connectionId}`);
},
onPoolStatus: (status) => {
console.log('Pool status:', status);
}
});
const status = handle.getStatus();
await handle.addOffers(3);
```
#### v0.9.0 (New)
```typescript
const service = await client.exposeService({
username: 'alice',
privateKey: keypair.privateKey,
serviceFqn: 'chat@1.0.0',
poolSize: 5, // SAME: Pool size
pollingInterval: 2000, // SAME: Polling interval
handler: (channel, connectionId) => {
console.log(`Connection: ${connectionId}`);
}
});
await service.start();
// Get active connections
const connections = service.getActiveConnections();
// Listen for connection events
service.on('connection', (connectionId) => {
console.log('New connection:', connectionId);
});
```
**Key Differences:**
- `onPoolStatus` callback removed (use `service.on('connection')` instead)
- `handle.getStatus()` replaced with `service.getActiveConnections()`
- `handle.addOffers()` removed (pool auto-manages offers)
- Handler receives `DurableChannel` instead of `RTCDataChannel`
## Feature Comparison
| Feature | v0.8.x | v0.9.0 |
|---------|--------|--------|
| Service exposure | `client.services.exposeService()` | `client.exposeService()` |
| Connection | `client.discovery.connect()` | `client.connect()` |
| Connection by UUID | `client.discovery.connectByUuid()` | `client.connectByUuid()` |
| Channel type | `RTCDataChannel` | `DurableChannel` |
| Event handling | `.onmessage`, `.onopen`, etc. | `.on('message')`, `.on('open')`, etc. |
| Automatic reconnection | ❌ No | ✅ Yes (configurable) |
| Message queuing | ❌ No | ✅ Yes (during disconnections) |
| TTL auto-refresh | ❌ No | ✅ Yes (configurable) |
| Peer lifecycle | Manual | Automatic |
| Connection pooling | ✅ Yes | ✅ Yes (same API) |
## API Mapping
### Removed Exports
These are no longer exported in v0.9.0:
```typescript
// ❌ Removed
import {
RondevuServices,
RondevuDiscovery,
RondevuPeer,
ServiceHandle,
PooledServiceHandle,
ConnectResult
} from '@xtr-dev/rondevu-client';
```
### New Exports
These are new in v0.9.0:
```typescript
// ✅ New
import {
DurableConnection,
DurableChannel,
DurableService,
DurableConnectionState,
DurableChannelState,
DurableConnectionConfig,
DurableChannelConfig,
DurableServiceConfig,
DurableConnectionEvents,
DurableChannelEvents,
DurableServiceEvents,
ConnectionInfo,
ServiceInfo,
QueuedMessage
} from '@xtr-dev/rondevu-client';
```
### Unchanged Exports
These work the same in both versions:
```typescript
// ✅ Unchanged
import {
Rondevu,
RondevuAuth,
RondevuUsername,
Credentials,
UsernameClaimResult,
UsernameCheckResult
} from '@xtr-dev/rondevu-client';
```
## Configuration Options
### New Connection Options
v0.9.0 adds extensive configuration for automatic reconnection and message queuing:
```typescript
const connection = await client.connect('alice', 'chat@1.0.0', {
// Reconnection
maxReconnectAttempts: 10, // default: 10
reconnectBackoffBase: 1000, // default: 1000ms
reconnectBackoffMax: 30000, // default: 30000ms (30 seconds)
reconnectJitter: 0.2, // default: 0.2 (±20%)
connectionTimeout: 30000, // default: 30000ms
// Message queuing
maxQueueSize: 1000, // default: 1000 messages
maxMessageAge: 60000, // default: 60000ms (1 minute)
// WebRTC
rtcConfig: {
iceServers: [...]
}
});
```
### New Service Options
Services can now auto-refresh TTL:
```typescript
const service = await client.exposeService({
username: 'alice',
privateKey: keypair.privateKey,
serviceFqn: 'chat@1.0.0',
// TTL auto-refresh (NEW)
ttl: 300000, // default: 300000ms (5 minutes)
ttlRefreshMargin: 0.2, // default: 0.2 (refresh at 80% of TTL)
// All connection options also apply to incoming connections
maxReconnectAttempts: 10,
maxQueueSize: 1000,
// ...
});
```
## Migration Checklist
- [ ] Replace `client.services.exposeService()` with `client.exposeService()`
- [ ] Add `await service.start()` after creating service
- [ ] Replace `handle.unpublish()` with `service.stop()`
- [ ] Replace `client.discovery.connect()` with `client.connect()`
- [ ] Replace `client.discovery.connectByUuid()` with `client.connectByUuid()`
- [ ] Create channels with `connection.createChannel()` instead of receiving them directly
- [ ] Add `await connection.connect()` to establish connection
- [ ] Update handlers from `(channel, peer, connectionId?)` to `(channel, connectionId)`
- [ ] Replace `.onmessage` with `.on('message', ...)`
- [ ] Replace `.onopen` with `.on('open', ...)`
- [ ] Replace `.onclose` with `.on('close', ...)`
- [ ] Replace `.onerror` with `.on('error', ...)`
- [ ] Add reconnection event handlers (`connection.on('reconnecting', ...)`)
- [ ] Review and configure reconnection options if needed
- [ ] Review and configure message queue limits if needed
- [ ] Update TypeScript imports to use new types
- [ ] Test automatic reconnection behavior
- [ ] Test message queuing during disconnections
## Common Migration Patterns
### Pattern 1: Simple Echo Service
#### Before (v0.8.x)
```typescript
await client.services.exposeService({
username: 'alice',
privateKey: keypair.privateKey,
serviceFqn: 'echo@1.0.0',
handler: (channel) => {
channel.onmessage = (e) => {
channel.send(`Echo: ${e.data}`);
};
}
});
```
#### After (v0.9.0)
```typescript
const service = await client.exposeService({
username: 'alice',
privateKey: keypair.privateKey,
serviceFqn: 'echo@1.0.0',
handler: (channel) => {
channel.on('message', (data) => {
channel.send(`Echo: ${data}`);
});
}
});
await service.start();
```
### Pattern 2: Connection with Error Handling
#### Before (v0.8.x)
```typescript
try {
const { peer, channel } = await client.discovery.connect('alice', 'chat@1.0.0');
channel.onopen = () => {
channel.send('Hello!');
};
peer.on('failed', (error) => {
console.error('Connection failed:', error);
// Manual reconnection logic here
});
} catch (error) {
console.error('Failed to connect:', error);
}
```
#### After (v0.9.0)
```typescript
const connection = await client.connect('alice', 'chat@1.0.0', {
maxReconnectAttempts: 5
});
const channel = connection.createChannel('main');
channel.on('open', () => {
channel.send('Hello!');
});
connection.on('reconnecting', (attempt, max, delay) => {
console.log(`Reconnecting (${attempt}/${max}) in ${delay}ms`);
});
connection.on('failed', (error) => {
console.error('Connection failed permanently:', error);
});
try {
await connection.connect();
} catch (error) {
console.error('Initial connection failed:', error);
}
```
### Pattern 3: Multi-User Chat Server
#### Before (v0.8.x)
```typescript
const connections = new Map();
await client.services.exposeService({
username: 'alice',
privateKey: keypair.privateKey,
serviceFqn: 'chat@1.0.0',
poolSize: 10,
handler: (channel, peer, connectionId) => {
connections.set(connectionId, channel);
channel.onmessage = (e) => {
// Broadcast to all
for (const [id, ch] of connections) {
if (id !== connectionId) {
ch.send(e.data);
}
}
};
channel.onclose = () => {
connections.delete(connectionId);
};
}
});
```
#### After (v0.9.0)
```typescript
const channels = new Map();
const service = await client.exposeService({
username: 'alice',
privateKey: keypair.privateKey,
serviceFqn: 'chat@1.0.0',
poolSize: 10,
handler: (channel, connectionId) => {
channels.set(connectionId, channel);
channel.on('message', (data) => {
// Broadcast to all
for (const [id, ch] of channels) {
if (id !== connectionId) {
ch.send(data);
}
}
});
channel.on('close', () => {
channels.delete(connectionId);
});
}
});
await service.start();
// Optional: Track connections
service.on('connection', (connectionId) => {
console.log(`User ${connectionId} joined`);
});
service.on('disconnection', (connectionId) => {
console.log(`User ${connectionId} left`);
});
```
## Benefits of Migration
1. **Reliability**: Automatic reconnection handles network hiccups transparently
2. **Simplicity**: No need to manage WebRTC peer lifecycle manually
3. **Durability**: Messages sent during disconnections are queued and delivered when connection restores
4. **Uptime**: Services automatically refresh TTL before expiration
5. **Type Safety**: Better TypeScript types with DurableChannel event emitters
6. **Debugging**: Queue size monitoring, connection state tracking, and detailed events
## Getting Help
If you encounter issues during migration:
1. Check the [README](./README.md) for complete API documentation
2. Review the examples for common patterns
3. Open an issue on [GitHub](https://github.com/xtr-dev/rondevu-client/issues)

1109
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27
package-lock.json generated
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@@ -1,25 +1,38 @@
{
"name": "@xtr-dev/rondevu-client",
"version": "0.7.11",
"version": "0.9.2",
"lockfileVersion": 3,
"requires": true,
"packages": {
"": {
"name": "@xtr-dev/rondevu-client",
"version": "0.7.11",
"version": "0.9.2",
"license": "MIT",
"dependencies": {
"@xtr-dev/rondevu-client": "^0.5.1"
"@noble/ed25519": "^3.0.0",
"@xtr-dev/rondevu-client": "^0.9.2"
},
"devDependencies": {
"typescript": "^5.9.3"
}
},
"node_modules/@noble/ed25519": {
"version": "3.0.0",
"resolved": "https://registry.npmjs.org/@noble/ed25519/-/ed25519-3.0.0.tgz",
"integrity": "sha512-QyteqMNm0GLqfa5SoYbSC3+Pvykwpn95Zgth4MFVSMKBB75ELl9tX1LAVsN4c3HXOrakHsF2gL4zWDAYCcsnzg==",
"license": "MIT",
"funding": {
"url": "https://paulmillr.com/funding/"
}
},
"node_modules/@xtr-dev/rondevu-client": {
"version": "0.5.1",
"resolved": "https://registry.npmjs.org/@xtr-dev/rondevu-client/-/rondevu-client-0.5.1.tgz",
"integrity": "sha512-110ejMCizPUPkHwwwNvcdCSZceLaHeFbf1LNkXvbG6pnLBqCf2uoGOOaRkArb7HNNFABFB+HXzm/AVzNdadosw==",
"license": "MIT"
"version": "0.9.2",
"resolved": "https://registry.npmjs.org/@xtr-dev/rondevu-client/-/rondevu-client-0.9.2.tgz",
"integrity": "sha512-DVow5AOPU40dqQtlfQK7J2GNX8dz2/4UzltMqublaPZubbkRYgocvp0b76NQu5F6v150IstMV2N49uxAYqogVw==",
"license": "MIT",
"dependencies": {
"@noble/ed25519": "^3.0.0"
}
},
"node_modules/typescript": {
"version": "5.9.3",

7
package.json
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@@ -1,7 +1,7 @@
{
"name": "@xtr-dev/rondevu-client",
"version": "0.7.11",
"description": "TypeScript client for Rondevu topic-based peer discovery and signaling server",
"version": "0.9.2",
"description": "TypeScript client for Rondevu with durable WebRTC connections, automatic reconnection, and message queuing",
"type": "module",
"main": "dist/index.js",
"types": "dist/index.d.ts",
@@ -27,6 +27,7 @@
"README.md"
],
"dependencies": {
"@xtr-dev/rondevu-client": "^0.5.1"
"@noble/ed25519": "^3.0.0",
"@xtr-dev/rondevu-client": "^0.9.2"
}
}

67
src/auth.ts
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@@ -1,67 +0,0 @@
export interface Credentials {
peerId: string;
secret: string;
}
// Fetch-compatible function type
export type FetchFunction = (
input: RequestInfo | URL,
init?: RequestInit
) => Promise<Response>;
export class RondevuAuth {
private fetchFn: FetchFunction;
constructor(
private baseUrl: string,
fetchFn?: FetchFunction
) {
// Use provided fetch or fall back to global fetch
this.fetchFn = fetchFn || ((...args) => {
if (typeof globalThis.fetch === 'function') {
return globalThis.fetch(...args);
}
throw new Error(
'fetch is not available. Please provide a fetch implementation in the constructor options.'
);
});
}
/**
* Register a new peer and receive credentials
* @param customPeerId - Optional custom peer ID (1-128 characters). If not provided, a random ID will be generated.
* @throws Error if registration fails (e.g., peer ID already in use)
*/
async register(customPeerId?: string): Promise<Credentials> {
const body: { peerId?: string } = {};
if (customPeerId !== undefined) {
body.peerId = customPeerId;
}
const response = await this.fetchFn(`${this.baseUrl}/register`, {
method: 'POST',
headers: {
'Content-Type': 'application/json',
},
body: JSON.stringify(body),
});
if (!response.ok) {
const error = await response.json().catch(() => ({ error: 'Unknown error' }));
throw new Error(`Registration failed: ${error.error || response.statusText}`);
}
const data = await response.json();
return {
peerId: data.peerId,
secret: data.secret,
};
}
/**
* Create Authorization header value
*/
static createAuthHeader(credentials: Credentials): string {
return `Bearer ${credentials.peerId}:${credentials.secret}`;
}
}

83
src/bloom.ts
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@@ -1,83 +0,0 @@
// Declare Buffer for Node.js compatibility
declare const Buffer: any;
/**
* Simple bloom filter implementation for peer ID exclusion
* Uses multiple hash functions for better distribution
*/
export class BloomFilter {
private bits: Uint8Array;
private size: number;
private numHashes: number;
constructor(size: number = 1024, numHashes: number = 3) {
this.size = size;
this.numHashes = numHashes;
this.bits = new Uint8Array(Math.ceil(size / 8));
}
/**
* Add a peer ID to the filter
*/
add(peerId: string): void {
for (let i = 0; i < this.numHashes; i++) {
const hash = this.hash(peerId, i);
const index = hash % this.size;
const byteIndex = Math.floor(index / 8);
const bitIndex = index % 8;
this.bits[byteIndex] |= 1 << bitIndex;
}
}
/**
* Test if peer ID might be in the filter
*/
test(peerId: string): boolean {
for (let i = 0; i < this.numHashes; i++) {
const hash = this.hash(peerId, i);
const index = hash % this.size;
const byteIndex = Math.floor(index / 8);
const bitIndex = index % 8;
if (!(this.bits[byteIndex] & (1 << bitIndex))) {
return false;
}
}
return true;
}
/**
* Get raw bits for transmission
*/
toBytes(): Uint8Array {
return this.bits;
}
/**
* Convert to base64 for URL parameters
*/
toBase64(): string {
// Convert Uint8Array to regular array then to string
const binaryString = String.fromCharCode(...Array.from(this.bits));
// Use btoa for browser, or Buffer for Node.js
if (typeof btoa !== 'undefined') {
return btoa(binaryString);
} else if (typeof Buffer !== 'undefined') {
return Buffer.from(this.bits).toString('base64');
} else {
// Fallback: manual base64 encoding
throw new Error('No base64 encoding available');
}
}
/**
* Simple hash function (FNV-1a variant)
*/
private hash(str: string, seed: number): number {
let hash = 2166136261 ^ seed;
for (let i = 0; i < str.length; i++) {
hash ^= str.charCodeAt(i);
hash += (hash << 1) + (hash << 4) + (hash << 7) + (hash << 8) + (hash << 24);
}
return hash >>> 0;
}
}

9
src/connection-manager.ts Normal file
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@@ -0,0 +1,9 @@
/**
* ConnectionManager - Manages WebRTC peer connections
*/
export class ConnectionManager {
constructor() {
// TODO: Initialize connection manager
}
}

104
src/event-bus.ts Normal file
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@@ -0,0 +1,104 @@
/**
* Type-safe EventBus with event name to payload type mapping
*/
type EventHandler<T = any> = (data: T) => void;
/**
* EventBus - Type-safe event emitter with inferred event data types
*
* @example
* interface MyEvents {
* 'user:connected': { userId: string; timestamp: number };
* 'user:disconnected': { userId: string };
* 'message:received': string;
* }
*
* const bus = new EventBus<MyEvents>();
*
* // TypeScript knows data is { userId: string; timestamp: number }
* bus.on('user:connected', (data) => {
* console.log(data.userId, data.timestamp);
* });
*
* // TypeScript knows data is string
* bus.on('message:received', (data) => {
* console.log(data.toUpperCase());
* });
*/
export class EventBus<TEvents extends Record<string, any>> {
private handlers: Map<keyof TEvents, Set<EventHandler>>;
constructor() {
this.handlers = new Map();
}
/**
* Subscribe to an event
*/
on<K extends keyof TEvents>(event: K, handler: EventHandler<TEvents[K]>): void {
if (!this.handlers.has(event)) {
this.handlers.set(event, new Set());
}
this.handlers.get(event)!.add(handler);
}
/**
* Subscribe to an event once (auto-unsubscribe after first call)
*/
once<K extends keyof TEvents>(event: K, handler: EventHandler<TEvents[K]>): void {
const wrappedHandler = (data: TEvents[K]) => {
handler(data);
this.off(event, wrappedHandler);
};
this.on(event, wrappedHandler);
}
/**
* Unsubscribe from an event
*/
off<K extends keyof TEvents>(event: K, handler: EventHandler<TEvents[K]>): void {
const eventHandlers = this.handlers.get(event);
if (eventHandlers) {
eventHandlers.delete(handler);
if (eventHandlers.size === 0) {
this.handlers.delete(event);
}
}
}
/**
* Emit an event with data
*/
emit<K extends keyof TEvents>(event: K, data: TEvents[K]): void {
const eventHandlers = this.handlers.get(event);
if (eventHandlers) {
eventHandlers.forEach(handler => handler(data));
}
}
/**
* Remove all handlers for a specific event, or all handlers if no event specified
*/
clear<K extends keyof TEvents>(event?: K): void {
if (event !== undefined) {
this.handlers.delete(event);
} else {
this.handlers.clear();
}
}
/**
* Get count of handlers for an event
*/
listenerCount<K extends keyof TEvents>(event: K): number {
return this.handlers.get(event)?.size ?? 0;
}
/**
* Get all event names that have handlers
*/
eventNames(): Array<keyof TEvents> {
return Array.from(this.handlers.keys());
}
}

109
src/event-emitter.ts
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@@ -1,109 +0,0 @@
/**
* Type-safe EventEmitter implementation for browser and Node.js compatibility
*
* @template EventMap - A type mapping event names to their handler signatures
*
* @example
* ```typescript
* interface MyEvents {
* 'data': (value: string) => void;
* 'error': (error: Error) => void;
* 'ready': () => void;
* }
*
* class MyClass extends EventEmitter<MyEvents> {
* doSomething() {
* this.emit('data', 'hello'); // Type-safe!
* this.emit('error', new Error('oops')); // Type-safe!
* this.emit('ready'); // Type-safe!
* }
* }
*
* const instance = new MyClass();
* instance.on('data', (value) => {
* console.log(value.toUpperCase()); // 'value' is typed as string
* });
* ```
*/
export class EventEmitter<EventMap extends Record<string, (...args: any[]) => void>> {
private events: Map<keyof EventMap, Set<Function>> = new Map();
/**
* Register an event listener
*/
on<K extends keyof EventMap>(event: K, listener: EventMap[K]): this {
if (!this.events.has(event)) {
this.events.set(event, new Set());
}
this.events.get(event)!.add(listener);
return this;
}
/**
* Register a one-time event listener
*/
once<K extends keyof EventMap>(event: K, listener: EventMap[K]): this {
const onceWrapper = (...args: Parameters<EventMap[K]>) => {
this.off(event, onceWrapper as EventMap[K]);
listener(...args);
};
return this.on(event, onceWrapper as EventMap[K]);
}
/**
* Remove an event listener
*/
off<K extends keyof EventMap>(event: K, listener: EventMap[K]): this {
const listeners = this.events.get(event);
if (listeners) {
listeners.delete(listener);
if (listeners.size === 0) {
this.events.delete(event);
}
}
return this;
}
/**
* Emit an event
*/
protected emit<K extends keyof EventMap>(
event: K,
...args: Parameters<EventMap[K]>
): boolean {
const listeners = this.events.get(event);
if (!listeners || listeners.size === 0) {
return false;
}
listeners.forEach(listener => {
try {
(listener as EventMap[K])(...args);
} catch (err) {
console.error(`Error in ${String(event)} event listener:`, err);
}
});
return true;
}
/**
* Remove all listeners for an event (or all events if not specified)
*/
removeAllListeners<K extends keyof EventMap>(event?: K): this {
if (event !== undefined) {
this.events.delete(event);
} else {
this.events.clear();
}
return this;
}
/**
* Get listener count for an event
*/
listenerCount<K extends keyof EventMap>(event: K): number {
const listeners = this.events.get(event);
return listeners ? listeners.size : 0;
}
}

36
src/index.ts
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@@ -1,32 +1,16 @@
/**
* @xtr-dev/rondevu-client
* WebRTC peer signaling and discovery client with topic-based discovery
* WebRTC peer signaling client
*/
// Export main client class
export { Rondevu } from './rondevu.js';
export type { RondevuOptions } from './rondevu.js';
export { ConnectionManager } from './connection-manager.js';
export { EventBus } from './event-bus.js';
// Export authentication
export { RondevuAuth } from './auth.js';
export type { Credentials, FetchFunction } from './auth.js';
// Export offers API
export { RondevuOffers } from './offers.js';
// Export types
export type {
CreateOfferRequest,
Offer,
IceCandidate,
TopicInfo
} from './offers.js';
// Export bloom filter
export { BloomFilter } from './bloom.js';
// Export peer manager
export { default as RondevuPeer } from './peer/index.js';
export type {
PeerOptions,
PeerEvents,
PeerTimeouts
} from './peer/index.js';
ConnectionIdentity,
ConnectionState,
ConnectionInterface,
Connection,
QueueMessageOptions
} from './types.js';

321
src/offers.ts
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@@ -1,321 +0,0 @@
import { Credentials, FetchFunction } from './auth.js';
import { RondevuAuth } from './auth.js';
// Declare Buffer for Node.js compatibility
declare const Buffer: any;
export interface CreateOfferRequest {
sdp: string;
topics: string[];
ttl?: number;
secret?: string;
info?: string;
}
export interface Offer {
id: string;
peerId: string;
sdp: string;
topics: string[];
createdAt?: number;
expiresAt: number;
lastSeen: number;
secret?: string;
hasSecret?: boolean;
info?: string;
answererPeerId?: string;
answerSdp?: string;
answeredAt?: number;
}
export interface IceCandidate {
candidate: any; // Full candidate object as plain JSON - don't enforce structure
peerId: string;
role: 'offerer' | 'answerer';
createdAt: number;
}
export interface TopicInfo {
topic: string;
activePeers: number;
}
export class RondevuOffers {
private fetchFn: FetchFunction;
constructor(
private baseUrl: string,
private credentials: Credentials,
fetchFn?: FetchFunction
) {
// Use provided fetch or fall back to global fetch
this.fetchFn = fetchFn || ((...args) => {
if (typeof globalThis.fetch === 'function') {
return globalThis.fetch(...args);
}
throw new Error(
'fetch is not available. Please provide a fetch implementation in the constructor options.'
);
});
}
/**
* Create one or more offers
*/
async create(offers: CreateOfferRequest[]): Promise<Offer[]> {
const response = await this.fetchFn(`${this.baseUrl}/offers`, {
method: 'POST',
headers: {
'Content-Type': 'application/json',
Authorization: RondevuAuth.createAuthHeader(this.credentials),
},
body: JSON.stringify({ offers }),
});
if (!response.ok) {
const error = await response.json().catch(() => ({ error: 'Unknown error' }));
throw new Error(`Failed to create offers: ${error.error || response.statusText}`);
}
const data = await response.json();
return data.offers;
}
/**
* Find offers by topic with optional bloom filter
*/
async findByTopic(
topic: string,
options?: {
bloomFilter?: Uint8Array;
limit?: number;
}
): Promise<Offer[]> {
const params = new URLSearchParams();
if (options?.bloomFilter) {
// Convert to base64
const binaryString = String.fromCharCode(...Array.from(options.bloomFilter));
const base64 = typeof btoa !== 'undefined'
? btoa(binaryString)
: (typeof Buffer !== 'undefined' ? Buffer.from(options.bloomFilter).toString('base64') : '');
params.set('bloom', base64);
}
if (options?.limit) {
params.set('limit', options.limit.toString());
}
const url = `${this.baseUrl}/offers/by-topic/${encodeURIComponent(topic)}${
params.toString() ? '?' + params.toString() : ''
}`;
const response = await this.fetchFn(url, {
method: 'GET',
});
if (!response.ok) {
const error = await response.json().catch(() => ({ error: 'Unknown error' }));
throw new Error(`Failed to find offers: ${error.error || response.statusText}`);
}
const data = await response.json();
return data.offers;
}
/**
* Get all offers from a specific peer
*/
async getByPeerId(peerId: string): Promise<{
offers: Offer[];
topics: string[];
}> {
const response = await this.fetchFn(`${this.baseUrl}/peers/${encodeURIComponent(peerId)}/offers`, {
method: 'GET',
});
if (!response.ok) {
const error = await response.json().catch(() => ({ error: 'Unknown error' }));
throw new Error(`Failed to get peer offers: ${error.error || response.statusText}`);
}
return await response.json();
}
/**
* Get topics with active peer counts (paginated)
*/
async getTopics(options?: {
limit?: number;
offset?: number;
startsWith?: string;
}): Promise<{
topics: TopicInfo[];
total: number;
limit: number;
offset: number;
startsWith?: string;
}> {
const params = new URLSearchParams();
if (options?.limit) {
params.set('limit', options.limit.toString());
}
if (options?.offset) {
params.set('offset', options.offset.toString());
}
if (options?.startsWith) {
params.set('startsWith', options.startsWith);
}
const url = `${this.baseUrl}/topics${
params.toString() ? '?' + params.toString() : ''
}`;
const response = await this.fetchFn(url, {
method: 'GET',
});
if (!response.ok) {
const error = await response.json().catch(() => ({ error: 'Unknown error' }));
throw new Error(`Failed to get topics: ${error.error || response.statusText}`);
}
return await response.json();
}
/**
* Get own offers
*/
async getMine(): Promise<Offer[]> {
const response = await this.fetchFn(`${this.baseUrl}/offers/mine`, {
method: 'GET',
headers: {
Authorization: RondevuAuth.createAuthHeader(this.credentials),
},
});
if (!response.ok) {
const error = await response.json().catch(() => ({ error: 'Unknown error' }));
throw new Error(`Failed to get own offers: ${error.error || response.statusText}`);
}
const data = await response.json();
return data.offers;
}
/**
* Delete an offer
*/
async delete(offerId: string): Promise<void> {
const response = await this.fetchFn(`${this.baseUrl}/offers/${encodeURIComponent(offerId)}`, {
method: 'DELETE',
headers: {
Authorization: RondevuAuth.createAuthHeader(this.credentials),
},
});
if (!response.ok) {
const error = await response.json().catch(() => ({ error: 'Unknown error' }));
throw new Error(`Failed to delete offer: ${error.error || response.statusText}`);
}
}
/**
* Answer an offer
*/
async answer(offerId: string, sdp: string, secret?: string): Promise<void> {
const response = await this.fetchFn(`${this.baseUrl}/offers/${encodeURIComponent(offerId)}/answer`, {
method: 'POST',
headers: {
'Content-Type': 'application/json',
Authorization: RondevuAuth.createAuthHeader(this.credentials),
},
body: JSON.stringify({ sdp, secret }),
});
if (!response.ok) {
const error = await response.json().catch(() => ({ error: 'Unknown error' }));
throw new Error(`Failed to answer offer: ${error.error || response.statusText}`);
}
}
/**
* Get answers to your offers
*/
async getAnswers(): Promise<Array<{
offerId: string;
answererId: string;
sdp: string;
answeredAt: number;
topics: string[];
}>> {
const response = await this.fetchFn(`${this.baseUrl}/offers/answers`, {
method: 'GET',
headers: {
Authorization: RondevuAuth.createAuthHeader(this.credentials),
},
});
if (!response.ok) {
const error = await response.json().catch(() => ({ error: 'Unknown error' }));
throw new Error(`Failed to get answers: ${error.error || response.statusText}`);
}
const data = await response.json();
return data.answers;
}
/**
* Post ICE candidates for an offer
*/
async addIceCandidates(
offerId: string,
candidates: any[]
): Promise<void> {
const response = await this.fetchFn(`${this.baseUrl}/offers/${encodeURIComponent(offerId)}/ice-candidates`, {
method: 'POST',
headers: {
'Content-Type': 'application/json',
Authorization: RondevuAuth.createAuthHeader(this.credentials),
},
body: JSON.stringify({ candidates }),
});
if (!response.ok) {
const error = await response.json().catch(() => ({ error: 'Unknown error' }));
throw new Error(`Failed to add ICE candidates: ${error.error || response.statusText}`);
}
}
/**
* Get ICE candidates for an offer
*/
async getIceCandidates(offerId: string, since?: number): Promise<IceCandidate[]> {
const params = new URLSearchParams();
if (since !== undefined) {
params.set('since', since.toString());
}
const url = `${this.baseUrl}/offers/${encodeURIComponent(offerId)}/ice-candidates${
params.toString() ? '?' + params.toString() : ''
}`;
const response = await this.fetchFn(url, {
method: 'GET',
headers: {
Authorization: RondevuAuth.createAuthHeader(this.credentials),
},
});
if (!response.ok) {
const error = await response.json().catch(() => ({ error: 'Unknown error' }));
throw new Error(`Failed to get ICE candidates: ${error.error || response.statusText}`);
}
const data = await response.json();
return data.candidates;
}
}

49
src/peer/answering-state.ts
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@@ -1,49 +0,0 @@
import { PeerState } from './state.js';
import type { PeerOptions } from './types.js';
import type RondevuPeer from './index.js';
/**
* Answering an offer and sending to server
*/
export class AnsweringState extends PeerState {
constructor(peer: RondevuPeer) {
super(peer);
}
get name() { return 'answering'; }
async answer(offerId: string, offerSdp: string, options: PeerOptions): Promise<void> {
try {
this.peer.role = 'answerer';
this.peer.offerId = offerId;
// Set remote description
await this.peer.pc.setRemoteDescription({
type: 'offer',
sdp: offerSdp
});
// Create answer
const answer = await this.peer.pc.createAnswer();
// Send answer to server BEFORE setLocalDescription
// This registers us as the answerer so ICE candidates will be accepted
await this.peer.offersApi.answer(offerId, answer.sdp!, options.secret);
// Enable trickle ICE - set up handler before ICE gathering starts
this.setupIceCandidateHandler();
// Set local description - ICE gathering starts here
// Server already knows we're the answerer, so candidates will be accepted
await this.peer.pc.setLocalDescription(answer);
// Transition to exchanging ICE
const { ExchangingIceState } = await import('./exchanging-ice-state.js');
this.peer.setState(new ExchangingIceState(this.peer, offerId, options));
} catch (error) {
const { FailedState } = await import('./failed-state.js');
this.peer.setState(new FailedState(this.peer, error as Error));
throw error;
}
}
}

12
src/peer/closed-state.ts
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@@ -1,12 +0,0 @@
import { PeerState } from './state.js';
/**
* Closed state - connection has been terminated
*/
export class ClosedState extends PeerState {
get name() { return 'closed'; }
cleanup(): void {
this.peer.pc.close();
}
}

13
src/peer/connected-state.ts
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@@ -1,13 +0,0 @@
import { PeerState } from './state.js';
/**
* Connected state - peer connection is established
*/
export class ConnectedState extends PeerState {
get name() { return 'connected'; }
cleanup(): void {
// Keep connection alive, but stop any polling
// The peer connection will handle disconnects via onconnectionstatechange
}
}

57
src/peer/creating-offer-state.ts
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@@ -1,57 +0,0 @@
import { PeerState } from './state.js';
import type { PeerOptions } from './types.js';
import type RondevuPeer from './index.js';
/**
* Creating offer and sending to server
*/
export class CreatingOfferState extends PeerState {
constructor(peer: RondevuPeer, private options: PeerOptions) {
super(peer);
}
get name() { return 'creating-offer'; }
async createOffer(options: PeerOptions): Promise<string> {
try {
this.peer.role = 'offerer';
// Create data channel if requested
if (options.createDataChannel !== false) {
const channel = this.peer.pc.createDataChannel(
options.dataChannelLabel || 'data'
);
this.peer.emitEvent('datachannel', channel);
}
// Enable trickle ICE - set up handler before ICE gathering starts
// Handler will check this.peer.offerId before sending
this.setupIceCandidateHandler();
// Create WebRTC offer
const offer = await this.peer.pc.createOffer();
await this.peer.pc.setLocalDescription(offer); // ICE gathering starts here
// Send offer to server immediately (don't wait for ICE)
const offers = await this.peer.offersApi.create([{
sdp: offer.sdp!,
topics: options.topics,
ttl: options.ttl || 300000,
secret: options.secret
}]);
const offerId = offers[0].id;
this.peer.offerId = offerId; // Now handler can send candidates
// Transition to waiting for answer
const { WaitingForAnswerState } = await import('./waiting-for-answer-state.js');
this.peer.setState(new WaitingForAnswerState(this.peer, offerId, options));
return offerId;
} catch (error) {
const { FailedState } = await import('./failed-state.js');
this.peer.setState(new FailedState(this.peer, error as Error));
throw error;
}
}
}

74
src/peer/exchanging-ice-state.ts
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@@ -1,74 +0,0 @@
import { PeerState } from './state.js';
import type { PeerOptions } from './types.js';
import type RondevuPeer from './index.js';
/**
* Exchanging ICE candidates and waiting for connection
*/
export class ExchangingIceState extends PeerState {
private pollingInterval?: ReturnType<typeof setInterval>;
private timeout?: ReturnType<typeof setTimeout>;
private lastIceTimestamp = 0;
constructor(
peer: RondevuPeer,
private offerId: string,
private options: PeerOptions
) {
super(peer);
this.startPolling();
}
get name() { return 'exchanging-ice'; }
private startPolling(): void {
const connectionTimeout = this.options.timeouts?.iceConnection || 30000;
this.timeout = setTimeout(async () => {
this.cleanup();
const { FailedState } = await import('./failed-state.js');
this.peer.setState(new FailedState(
this.peer,
new Error('ICE connection timeout')
));
}, connectionTimeout);
this.pollingInterval = setInterval(async () => {
try {
const candidates = await this.peer.offersApi.getIceCandidates(
this.offerId,
this.lastIceTimestamp
);
for (const cand of candidates) {
if (cand.candidate && cand.candidate.candidate && cand.candidate.candidate !== '') {
try {
await this.peer.pc.addIceCandidate(new this.peer.RTCIceCandidate(cand.candidate));
this.lastIceTimestamp = cand.createdAt;
} catch (err) {
console.warn('Failed to add ICE candidate:', err);
this.lastIceTimestamp = cand.createdAt;
}
} else {
this.lastIceTimestamp = cand.createdAt;
}
}
} catch (err) {
console.error('Error polling for ICE candidates:', err);
if (err instanceof Error && err.message.includes('not found')) {
this.cleanup();
const { FailedState } = await import('./failed-state.js');
this.peer.setState(new FailedState(
this.peer,
new Error('Offer expired or not found')
));
}
}
}, 1000);
}
cleanup(): void {
if (this.pollingInterval) clearInterval(this.pollingInterval);
if (this.timeout) clearTimeout(this.timeout);
}
}

18
src/peer/failed-state.ts
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@@ -1,18 +0,0 @@
import { PeerState } from './state.js';
/**
* Failed state - connection attempt failed
*/
export class FailedState extends PeerState {
constructor(peer: any, private error: Error) {
super(peer);
peer.emitEvent('failed', error);
}
get name() { return 'failed'; }
cleanup(): void {
// Connection is failed, clean up resources
this.peer.pc.close();
}
}

18
src/peer/idle-state.ts
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@@ -1,18 +0,0 @@
import { PeerState } from './state.js';
import type { PeerOptions } from './types.js';
export class IdleState extends PeerState {
get name() { return 'idle'; }
async createOffer(options: PeerOptions): Promise<string> {
const { CreatingOfferState } = await import('./creating-offer-state.js');
this.peer.setState(new CreatingOfferState(this.peer, options));
return this.peer.state.createOffer(options);
}
async answer(offerId: string, offerSdp: string, options: PeerOptions): Promise<void> {
const { AnsweringState } = await import('./answering-state.js');
this.peer.setState(new AnsweringState(this.peer));
return this.peer.state.answer(offerId, offerSdp, options);
}
}

212
src/peer/index.ts
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@@ -1,212 +0,0 @@
import { RondevuOffers } from '../offers.js';
import { EventEmitter } from '../event-emitter.js';
import type { PeerOptions, PeerEvents } from './types.js';
import { PeerState } from './state.js';
import { IdleState } from './idle-state.js';
import { CreatingOfferState } from './creating-offer-state.js';
import { WaitingForAnswerState } from './waiting-for-answer-state.js';
import { AnsweringState } from './answering-state.js';
import { ExchangingIceState } from './exchanging-ice-state.js';
import { ConnectedState } from './connected-state.js';
import { FailedState } from './failed-state.js';
import { ClosedState } from './closed-state.js';
// Re-export types for external consumers
export type { PeerTimeouts, PeerOptions, PeerEvents } from './types.js';
/**
* High-level WebRTC peer connection manager with state-based lifecycle
* Handles offer/answer exchange, ICE candidates, timeouts, and error recovery
*/
export default class RondevuPeer extends EventEmitter<PeerEvents> {
pc: RTCPeerConnection;
offersApi: RondevuOffers;
offerId?: string;
role?: 'offerer' | 'answerer';
// WebRTC polyfills for Node.js compatibility
RTCPeerConnection: typeof RTCPeerConnection;
RTCSessionDescription: typeof RTCSessionDescription;
RTCIceCandidate: typeof RTCIceCandidate;
private _state: PeerState;
// Event handler references for cleanup
private connectionStateChangeHandler?: () => void;
private dataChannelHandler?: (event: RTCDataChannelEvent) => void;
private trackHandler?: (event: RTCTrackEvent) => void;
private iceCandidateErrorHandler?: (event: Event) => void;
/**
* Current connection state name
*/
get stateName(): string {
return this._state.name;
}
/**
* Current state object (internal use)
*/
get state(): PeerState {
return this._state;
}
/**
* RTCPeerConnection state
*/
get connectionState(): RTCPeerConnectionState {
return this.pc.connectionState;
}
constructor(
offersApi: RondevuOffers,
rtcConfig: RTCConfiguration = {
iceServers: [
{ urls: 'stun:stun.l.google.com:19302' },
{ urls: 'stun:stun1.l.google.com:19302' }
]
},
rtcPeerConnection?: typeof RTCPeerConnection,
rtcSessionDescription?: typeof RTCSessionDescription,
rtcIceCandidate?: typeof RTCIceCandidate
) {
super();
this.offersApi = offersApi;
// Use provided polyfills or fall back to globals
this.RTCPeerConnection = rtcPeerConnection || (typeof globalThis.RTCPeerConnection !== 'undefined'
? globalThis.RTCPeerConnection
: (() => {
throw new Error('RTCPeerConnection is not available. Please provide it in the Rondevu constructor options for Node.js environments.');
}) as any);
this.RTCSessionDescription = rtcSessionDescription || (typeof globalThis.RTCSessionDescription !== 'undefined'
? globalThis.RTCSessionDescription
: (() => {
throw new Error('RTCSessionDescription is not available. Please provide it in the Rondevu constructor options for Node.js environments.');
}) as any);
this.RTCIceCandidate = rtcIceCandidate || (typeof globalThis.RTCIceCandidate !== 'undefined'
? globalThis.RTCIceCandidate
: (() => {
throw new Error('RTCIceCandidate is not available. Please provide it in the Rondevu constructor options for Node.js environments.');
}) as any);
this.pc = new this.RTCPeerConnection(rtcConfig);
this._state = new IdleState(this);
this.setupPeerConnection();
}
/**
* Set up peer connection event handlers
*/
private setupPeerConnection(): void {
this.connectionStateChangeHandler = () => {
switch (this.pc.connectionState) {
case 'connected':
this.setState(new ConnectedState(this));
this.emitEvent('connected');
break;
case 'disconnected':
this.emitEvent('disconnected');
break;
case 'failed':
this.setState(new FailedState(this, new Error('Connection failed')));
break;
case 'closed':
this.setState(new ClosedState(this));
this.emitEvent('disconnected');
break;
}
};
this.pc.addEventListener('connectionstatechange', this.connectionStateChangeHandler);
this.dataChannelHandler = (event: RTCDataChannelEvent) => {
this.emitEvent('datachannel', event.channel);
};
this.pc.addEventListener('datachannel', this.dataChannelHandler);
this.trackHandler = (event: RTCTrackEvent) => {
this.emitEvent('track', event);
};
this.pc.addEventListener('track', this.trackHandler);
this.iceCandidateErrorHandler = (event: Event) => {
console.error('ICE candidate error:', event);
};
this.pc.addEventListener('icecandidateerror', this.iceCandidateErrorHandler);
}
/**
* Set new state and emit state change event
*/
setState(newState: PeerState): void {
this._state.cleanup();
this._state = newState;
this.emitEvent('state', newState.name);
}
/**
* Emit event (exposed for PeerState classes)
* @internal
*/
emitEvent<K extends keyof PeerEvents>(
event: K,
...args: Parameters<PeerEvents[K]>
): void {
this.emit(event, ...args);
}
/**
* Create an offer and advertise on topics
*/
async createOffer(options: PeerOptions): Promise<string> {
return this._state.createOffer(options);
}
/**
* Answer an existing offer
*/
async answer(offerId: string, offerSdp: string, options: PeerOptions): Promise<void> {
return this._state.answer(offerId, offerSdp, options);
}
/**
* Add a media track to the connection
*/
addTrack(track: MediaStreamTrack, ...streams: MediaStream[]): RTCRtpSender {
return this.pc.addTrack(track, ...streams);
}
/**
* Create a data channel for sending and receiving arbitrary data
* This should typically be called by the offerer before creating the offer
* The answerer will receive the channel via the 'datachannel' event
*/
createDataChannel(label: string, options?: RTCDataChannelInit): RTCDataChannel {
return this.pc.createDataChannel(label, options);
}
/**
* Close the connection and clean up
*/
async close(): Promise<void> {
// Remove RTCPeerConnection event listeners
if (this.connectionStateChangeHandler) {
this.pc.removeEventListener('connectionstatechange', this.connectionStateChangeHandler);
}
if (this.dataChannelHandler) {
this.pc.removeEventListener('datachannel', this.dataChannelHandler);
}
if (this.trackHandler) {
this.pc.removeEventListener('track', this.trackHandler);
}
if (this.iceCandidateErrorHandler) {
this.pc.removeEventListener('icecandidateerror', this.iceCandidateErrorHandler);
}
await this._state.close();
this.removeAllListeners();
}
}

66
src/peer/state.ts
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@@ -1,66 +0,0 @@
import type { PeerOptions } from './types.js';
import type RondevuPeer from './index.js';
/**
* Base class for peer connection states
* Implements the State pattern for managing WebRTC connection lifecycle
*/
export abstract class PeerState {
protected iceCandidateHandler?: (event: RTCPeerConnectionIceEvent) => void;
constructor(protected peer: RondevuPeer) {}
abstract get name(): string;
async createOffer(options: PeerOptions): Promise<string> {
throw new Error(`Cannot create offer in ${this.name} state`);
}
async answer(offerId: string, offerSdp: string, options: PeerOptions): Promise<void> {
throw new Error(`Cannot answer in ${this.name} state`);
}
async handleAnswer(sdp: string): Promise<void> {
throw new Error(`Cannot handle answer in ${this.name} state`);
}
async handleIceCandidate(candidate: any): Promise<void> {
// ICE candidates can arrive in multiple states, so default is to add them
if (this.peer.pc.remoteDescription) {
await this.peer.pc.addIceCandidate(new this.peer.RTCIceCandidate(candidate));
}
}
/**
* Setup trickle ICE candidate handler
* Sends local ICE candidates to server as they are discovered
*/
protected setupIceCandidateHandler(): void {
this.iceCandidateHandler = async (event: RTCPeerConnectionIceEvent) => {
if (event.candidate && this.peer.offerId) {
const candidateData = event.candidate.toJSON();
if (candidateData.candidate && candidateData.candidate !== '') {
try {
await this.peer.offersApi.addIceCandidates(this.peer.offerId, [candidateData]);
} catch (err) {
console.error('Error sending ICE candidate:', err);
}
}
}
};
this.peer.pc.addEventListener('icecandidate', this.iceCandidateHandler);
}
cleanup(): void {
// Clean up ICE candidate handler if it exists
if (this.iceCandidateHandler) {
this.peer.pc.removeEventListener('icecandidate', this.iceCandidateHandler);
}
}
async close(): Promise<void> {
this.cleanup();
const { ClosedState } = await import('./closed-state.js');
this.peer.setState(new ClosedState(this.peer));
}
}

45
src/peer/types.ts
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@@ -1,45 +0,0 @@
/**
* Timeout configurations for different connection phases
*/
export interface PeerTimeouts {
/** Timeout for ICE gathering (default: 10000ms) */
iceGathering?: number;
/** Timeout for waiting for answer (default: 30000ms) */
waitingForAnswer?: number;
/** Timeout for creating answer (default: 10000ms) */
creatingAnswer?: number;
/** Timeout for ICE connection (default: 30000ms) */
iceConnection?: number;
}
/**
* Options for creating a peer connection
*/
export interface PeerOptions {
/** RTCConfiguration for the peer connection */
rtcConfig?: RTCConfiguration;
/** Topics to advertise this connection under */
topics: string[];
/** How long the offer should live (milliseconds) */
ttl?: number;
/** Optional secret to protect the offer (max 128 characters) */
secret?: string;
/** Whether to create a data channel automatically (for offerer) */
createDataChannel?: boolean;
/** Label for the automatically created data channel */
dataChannelLabel?: string;
/** Timeout configurations */
timeouts?: PeerTimeouts;
}
/**
* Events emitted by RondevuPeer
*/
export interface PeerEvents extends Record<string, (...args: any[]) => void> {
'state': (state: string) => void;
'connected': () => void;
'disconnected': () => void;
'failed': (error: Error) => void;
'datachannel': (channel: RTCDataChannel) => void;
'track': (event: RTCTrackEvent) => void;
}

78
src/peer/waiting-for-answer-state.ts
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@@ -1,78 +0,0 @@
import { PeerState } from './state.js';
import type { PeerOptions } from './types.js';
import type RondevuPeer from './index.js';
/**
* Waiting for answer from another peer
*/
export class WaitingForAnswerState extends PeerState {
private pollingInterval?: ReturnType<typeof setInterval>;
private timeout?: ReturnType<typeof setTimeout>;
constructor(
peer: RondevuPeer,
private offerId: string,
private options: PeerOptions
) {
super(peer);
this.startPolling();
}
get name() { return 'waiting-for-answer'; }
private startPolling(): void {
const answerTimeout = this.options.timeouts?.waitingForAnswer || 30000;
this.timeout = setTimeout(async () => {
this.cleanup();
const { FailedState } = await import('./failed-state.js');
this.peer.setState(new FailedState(
this.peer,
new Error('Timeout waiting for answer')
));
}, answerTimeout);
this.pollingInterval = setInterval(async () => {
try {
const answers = await this.peer.offersApi.getAnswers();
const myAnswer = answers.find((a: any) => a.offerId === this.offerId);
if (myAnswer) {
this.cleanup();
await this.handleAnswer(myAnswer.sdp);
}
} catch (err) {
console.error('Error polling for answers:', err);
if (err instanceof Error && err.message.includes('not found')) {
this.cleanup();
const { FailedState } = await import('./failed-state.js');
this.peer.setState(new FailedState(
this.peer,
new Error('Offer expired or not found')
));
}
}
}, 2000);
}
async handleAnswer(sdp: string): Promise<void> {
try {
await this.peer.pc.setRemoteDescription({
type: 'answer',
sdp
});
// Transition to exchanging ICE
const { ExchangingIceState } = await import('./exchanging-ice-state.js');
this.peer.setState(new ExchangingIceState(this.peer, this.offerId, this.options));
} catch (error) {
const { FailedState } = await import('./failed-state.js');
this.peer.setState(new FailedState(this.peer, error as Error));
}
}
cleanup(): void {
if (this.pollingInterval) clearInterval(this.pollingInterval);
if (this.timeout) clearTimeout(this.timeout);
}
}

152
src/rondevu.ts
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@@ -1,152 +0,0 @@
import { RondevuAuth, Credentials, FetchFunction } from './auth.js';
import { RondevuOffers } from './offers.js';
import RondevuPeer from './peer/index.js';
export interface RondevuOptions {
/**
* Base URL of the Rondevu server
* @default 'https://api.ronde.vu'
*/
baseUrl?: string;
/**
* Existing credentials (peerId + secret) to skip registration
*/
credentials?: Credentials;
/**
* Custom fetch implementation for environments without native fetch
* (Node.js < 18, some Workers environments, etc.)
*
* @example Node.js
* ```typescript
* import fetch from 'node-fetch';
* const client = new Rondevu({ fetch });
* ```
*/
fetch?: FetchFunction;
/**
* Custom RTCPeerConnection implementation for Node.js environments
* Required when using in Node.js with wrtc or similar polyfills
*
* @example Node.js with wrtc
* ```typescript
* import { RTCPeerConnection } from 'wrtc';
* const client = new Rondevu({ RTCPeerConnection });
* ```
*/
RTCPeerConnection?: typeof RTCPeerConnection;
/**
* Custom RTCSessionDescription implementation for Node.js environments
* Required when using in Node.js with wrtc or similar polyfills
*
* @example Node.js with wrtc
* ```typescript
* import { RTCSessionDescription } from 'wrtc';
* const client = new Rondevu({ RTCSessionDescription });
* ```
*/
RTCSessionDescription?: typeof RTCSessionDescription;
/**
* Custom RTCIceCandidate implementation for Node.js environments
* Required when using in Node.js with wrtc or similar polyfills
*
* @example Node.js with wrtc
* ```typescript
* import { RTCIceCandidate } from 'wrtc';
* const client = new Rondevu({ RTCIceCandidate });
* ```
*/
RTCIceCandidate?: typeof RTCIceCandidate;
}
export class Rondevu {
readonly auth: RondevuAuth;
private _offers?: RondevuOffers;
private credentials?: Credentials;
private baseUrl: string;
private fetchFn?: FetchFunction;
private rtcPeerConnection?: typeof RTCPeerConnection;
private rtcSessionDescription?: typeof RTCSessionDescription;
private rtcIceCandidate?: typeof RTCIceCandidate;
constructor(options: RondevuOptions = {}) {
this.baseUrl = options.baseUrl || 'https://api.ronde.vu';
this.fetchFn = options.fetch;
this.rtcPeerConnection = options.RTCPeerConnection;
this.rtcSessionDescription = options.RTCSessionDescription;
this.rtcIceCandidate = options.RTCIceCandidate;
this.auth = new RondevuAuth(this.baseUrl, this.fetchFn);
if (options.credentials) {
this.credentials = options.credentials;
this._offers = new RondevuOffers(this.baseUrl, this.credentials, this.fetchFn);
}
}
/**
* Get offers API (requires authentication)
*/
get offers(): RondevuOffers {
if (!this._offers) {
throw new Error('Not authenticated. Call register() first or provide credentials.');
}
return this._offers;
}
/**
* Register and initialize authenticated client
* @param customPeerId - Optional custom peer ID (1-128 characters). If not provided, a random ID will be generated.
*/
async register(customPeerId?: string): Promise<Credentials> {
this.credentials = await this.auth.register(customPeerId);
// Create offers API instance
this._offers = new RondevuOffers(
this.baseUrl,
this.credentials,
this.fetchFn
);
return this.credentials;
}
/**
* Check if client is authenticated
*/
isAuthenticated(): boolean {
return !!this.credentials;
}
/**
* Get current credentials
*/
getCredentials(): Credentials | undefined {
return this.credentials;
}
/**
* Create a new WebRTC peer connection (requires authentication)
* This is a high-level helper that creates and manages WebRTC connections with state management
*
* @param rtcConfig Optional RTCConfiguration for the peer connection
* @returns RondevuPeer instance
*/
createPeer(rtcConfig?: RTCConfiguration): RondevuPeer {
if (!this._offers) {
throw new Error('Not authenticated. Call register() first or provide credentials.');
}
return new RondevuPeer(
this._offers,
rtcConfig,
this.rtcPeerConnection,
this.rtcSessionDescription,
this.rtcIceCandidate
);
}
}

24
src/types.ts Normal file
View File

@@ -0,0 +1,24 @@
/**
* Core connection types
*/
export interface ConnectionIdentity {
id: string;
hostUsername: string;
}
export interface ConnectionState {
state: 'connected' | 'disconnected' | 'connecting';
lastActive: number;
}
export interface QueueMessageOptions {
expiresAt?: number;
}
export interface ConnectionInterface {
queueMessage(message: string | ArrayBuffer, options?: QueueMessageOptions): void;
sendMessage(message: string | ArrayBuffer): void;
}
export type Connection = ConnectionIdentity & ConnectionState & ConnectionInterface;