v4.5.9

changelog.md

@@ -1,5 +1,175 @@
 # Changelog
 
+## 2026-03-16 - 4.5.9 - fix(remoteingress-core)
+delay stream close until downstream response draining finishes to prevent truncated transfers
+
+- Waits for the hub-to-client download task to finish before sending the stream CLOSE frame
+- Prevents upstream reads from being cancelled mid-response during asymmetric transfers such as git fetch
+- Retains the existing timeout so stalled downloads still clean up safely
+
+## 2026-03-16 - 4.5.8 - fix(remoteingress-core)
+ensure upstream writes cancel promptly and reliably deliver CLOSE_BACK frames
+
+- listen for stream cancellation while waiting on upstream write timeouts so FRAME_CLOSE does not block for up to 60 seconds
+- replace try_send with send().await when emitting CLOSE_BACK frames to avoid silently dropping close notifications when the data channel is full
+
+## 2026-03-16 - 4.5.7 - fix(remoteingress-core)
+improve tunnel reconnect and frame write efficiency
+
+- Reuse the TLS connector across edge reconnections to preserve session resumption state and reduce reconnect latency.
+- Buffer hub and edge frame writes to coalesce small control and data frames into fewer TLS records and syscalls while still flushing each frame promptly.
+
+## 2026-03-16 - 4.5.6 - fix(remoteingress-core)
+disable Nagle's algorithm on edge, hub, and upstream TCP sockets to reduce control-frame latency
+
+- Enable TCP_NODELAY on the edge connection to the hub for faster PING/PONG and WINDOW_UPDATE delivery
+- Apply TCP_NODELAY on accepted hub streams before TLS handling
+- Enable TCP_NODELAY on SmartProxy upstream connections before sending the PROXY header
+
+## 2026-03-16 - 4.5.5 - fix(remoteingress-core)
+wait for hub-to-client draining before cleanup and reliably send close frames
+
+- switch CLOSE frame delivery on the data channel from try_send to send().await to avoid dropping it when the channel is full
+- delay stream cleanup until the hub-to-client task finishes or times out so large downstream responses continue after upload EOF
+- add a bounded 5-minute wait for download draining to prevent premature termination of asymmetric transfers such as git fetch
+
+## 2026-03-15 - 4.5.4 - fix(remoteingress-core)
+preserve stream close ordering and add flow-control stall timeouts
+
+- Send CLOSE and CLOSE_BACK frames on the data channel so they arrive after the final stream data frames.
+- Log and abort stalled upload and download paths when flow-control windows stay empty for 120 seconds.
+- Apply a 60-second timeout when writing buffered stream data to the upstream connection to prevent hung streams.
+
+## 2026-03-15 - 4.5.3 - fix(remoteingress-core)
+prioritize control frames over data in edge and hub tunnel writers
+
+- Split tunnel/frame writers into separate control and data channels in edge and hub
+- Use biased select loops so PING, PONG, WINDOW_UPDATE, OPEN, and CLOSE frames are sent before data frames
+- Route stream data through dedicated data channels while keeping OPEN, CLOSE, and flow-control updates on control channels to prevent keepalive starvation under load
+
+## 2026-03-15 - 4.5.2 - fix(remoteingress-core)
+improve stream flow control retries and increase channel buffer capacity
+
+- increase per-stream mpsc channel capacity from 128 to 256 on both edge and hub paths
+- only reset accumulated window update bytes after a successful try_send to avoid dropping flow-control credits when the update channel is busy
+
+## 2026-03-15 - 4.5.1 - fix(protocol)
+increase per-stream flow control window and channel buffers to improve high-RTT throughput
+
+- raise the initial stream window from 256 KB to 4 MB to allow more in-flight data per stream
+- increase edge and hub mpsc channel capacities from 16 to 128 to better absorb throughput under flow control
+
+## 2026-03-15 - 4.5.0 - feat(remoteingress-core)
+add per-stream flow control for edge and hub tunnel data transfer
+
+- introduce WINDOW_UPDATE frame types and protocol helpers for per-stream flow control
+- track per-stream send windows on both edge and hub to limit reads based on available capacity
+- send window updates after downstream writes to reduce channel pressure during large transfers
+
+## 2026-03-15 - 4.4.1 - fix(remoteingress-core)
+prevent stream data loss by applying backpressure and closing saturated channels
+
+- replace non-blocking frame writes with awaited sends in per-stream tasks so large transfers respect backpressure instead of dropping data
+- close and remove streams when back-channel or data channels fill up to avoid TCP stream corruption from silently dropped frames
+
+## 2026-03-03 - 4.4.0 - feat(remoteingress)
+add heartbeat PING/PONG and liveness timeouts; implement fast-reconnect/backoff reset and JS crash-recovery auto-restart
+
+- protocol: add FRAME_PING and FRAME_PONG and unit tests for ping/pong frames
+- edge (Rust): reset backoff after successful connection, respond to PING with PONG, track liveness via deadline and reconnect on timeout, use Duration/Instant helpers
+- hub (Rust): send periodic PING to edges, handle PONGs, enforce liveness timeout and disconnect inactive edges, use tokio interval and time utilities
+- ts: RemoteIngressEdge and RemoteIngressHub: add crash-recovery auto-restart with exponential backoff and max attempts, save/restore config and allowed edges, register/remove exit handlers, ensure stop() marks stopping and cleans up listeners
+- minor API/typing: introduce TAllowedEdge alias and persist allowed edges for restart recovery
+
+## 2026-02-26 - 4.3.0 - feat(hub)
+add optional TLS certificate/key support to hub start config and bridge
+
+- TypeScript: add tls.certPem and tls.keyPem to IHubConfig and include tlsCertPem/tlsKeyPem in startHub bridge command when both are provided
+- TypeScript: extend startHub params with tlsCertPem and tlsKeyPem and conditionally send them
+- Rust: change HubConfig serde attributes for tls_cert_pem and tls_key_pem from skip to default so absent PEM fields deserialize as None
+- Enables optional provisioning of TLS certificate and key to the hub when provided from the JS side
+
+## 2026-02-26 - 4.2.0 - feat(core)
+expose edge peer address in hub events and migrate writers to channel-based, non-blocking framing with stream limits and timeouts
+
+- Add peerAddr to ConnectedEdgeStatus and HubEvent::EdgeConnected and surface it to the TS frontend event (management:edgeConnected).
+- Replace Arc<Mutex<WriteHalf>> writers with dedicated mpsc channel writer tasks in both hub and edge crates to serialize writes off the main tasks.
+- Use non-blocking try_send for data frames to avoid head-of-line blocking and drop frames with warnings when channels are full.
+- Introduce MAX_STREAMS_PER_EDGE semaphore to limit concurrent streams per edge and reject excess opens with a CLOSE_BACK frame.
+- Add a 10s timeout when connecting to SmartProxy to avoid hanging connections.
+- Ensure writer tasks are aborted on shutdown/cleanup and propagate cancellation tokens appropriately.
+
+## 2026-02-26 - 4.1.0 - feat(remoteingress-bin)
+use mimalloc as the global allocator to reduce memory overhead and improve allocation performance
+
+- added mimalloc = "0.1" dependency to rust/crates/remoteingress-bin/Cargo.toml
+- registered mimalloc as the #[global_allocator] in rust/crates/remoteingress-bin/src/main.rs
+- updated Cargo.lock with libmimalloc-sys and mimalloc package entries
+
+## 2026-02-26 - 4.0.1 - fix(hub)
+cancel per-stream tokens on stream close and avoid duplicate StreamClosed events; bump @types/node devDependency to ^25.3.0
+
+- Add CancellationToken to per-stream entries so each stream can be cancelled independently.
+- Ensure StreamClosed event is only emitted when a stream was actually present (guards against duplicate events).
+- Cancel the stream-specific token on FRAME_CLOSE to stop associated tasks and free resources.
+- DevDependency bump: @types/node updated from ^25.2.3 to ^25.3.0.
+
+## 2026-02-19 - 4.0.0 - BREAKING CHANGE(remoteingress-core)
+add cancellation tokens and cooperative shutdown; switch event channels to bounded mpsc and improve cleanup
+
+- Introduce tokio-util::sync::CancellationToken for hub/edge and per-connection/stream cancellation, enabling cooperative shutdown of spawned tasks.
+- Replace unbounded mpsc channels with bounded mpsc::channel(1024) and switch from UnboundedSender/Receiver to Sender/Receiver; use try_send where non-blocking sends are appropriate.
+- Wire cancellation tokens through edge and hub codepaths: child tokens per connection, per-port, per-stream; cancel tokens in stop() and Drop impls to ensure deterministic task termination and cleanup.
+- Reset stream id counters and clear listener state on reconnect; improved error handling around accept/read loops using tokio::select! and cancellation checks.
+- Update Cargo.toml and Cargo.lock to add tokio-util (and related futures entries) as dependencies.
+- BREAKING: public API/types changed — take_event_rx return types and event_tx/event_rx fields now use bounded mpsc::Sender/mpsc::Receiver instead of the unbounded variants; callers must adapt to the new types and bounded behavior.
+
+## 2026-02-18 - 3.3.0 - feat(readme)
+document dynamic port assignment and runtime port updates; clarify TLS multiplexing, frame format, and handshake sequence
+
+- Adds documentation for dynamic port configuration: hub-assigned listen ports, hot-reloadable via FRAME_CONFIG frames
+- Introduces new FRAME type CONFIG (0x06) and describes payload as JSON; notes immediate push of port changes to connected edges
+- Clarifies that the tunnel is a single encrypted TLS multiplexed connection to the hub (preserves PROXY v1 behavior)
+- Specifies frame integer fields are big-endian and that stream IDs are 32-bit unsigned integers
+- Adds new events: portsAssigned and portsUpdated, and updates examples showing updateAllowedEdges usage and live port changes
+
+## 2026-02-18 - 3.2.1 - fix(tests)
+add comprehensive unit and async tests across Rust crates and TypeScript runtime
+
+- Added IPC serialization tests in remoteingress-bin (IPC request/response/event)
+- Added serde and async tests for Edge and Handshake configs and EdgeEvent/EdgeStatus in remoteingress-core (edge.rs)
+- Added extensive Hub tests: constant_time_eq, PROXY header port parsing, serde/camelCase checks, Hub events and async TunnelHub behavior (hub.rs)
+- Added STUN parser unit tests including XOR_MAPPED_ADDRESS, MAPPED_ADDRESS fallback, truncated attribute handling and other edge cases (stun.rs)
+- Added protocol frame encoding and FrameReader tests covering all frame types, payload limits and EOF conditions (remoteingress-protocol)
+- Added TypeScript Node tests for token encode/decode edge cases and RemoteIngressHub/RemoteIngressEdge class basics (test/*.node.ts)
+
+## 2026-02-18 - 3.2.0 - feat(remoteingress (edge/hub/protocol))
+add dynamic port configuration: handshake, FRAME_CONFIG frames, and hot-reloadable listeners
+
+- Introduce a JSON handshake from hub -> edge with initial listen ports and stun interval so edges can configure listeners at connect time.
+- Add FRAME_CONFIG (0x06) to the protocol and implement runtime config updates pushed from hub to connected edges.
+- Edge now applies initial ports and supports hot-reloading: spawn/abort listeners when ports change, and emit PortsAssigned / PortsUpdated events.
+- Hub now stores allowed edge metadata (listen_ports, stun_interval_secs), sends handshake responses on auth, and forwards config updates to connected edges.
+- TypeScript bridge/client updated to emit new port events and periodically log status; updateAllowedEdges API accepts listenPorts and stunIntervalSecs.
+- Stun interval handling moved to use handshake-provided/stored value instead of config.listen_ports being static.
+
+## 2026-02-18 - 3.1.1 - fix(readme)
+update README: add issue reporting/security section, document connection tokens and token utilities, clarify architecture/API and improve examples/formatting
+
+- Added an 'Issue Reporting and Security' section linking to community.foss.global for bug/security reports and contributor onboarding.
+- Documented connection tokens: encodeConnectionToken/decodeConnectionToken utilities, token format (base64url), and examples for hub and edge provisioning.
+- Clarified Hub/Edge usage and examples: condensed event handlers, added token-based start() example, and provided explicit config alternative.
+- Improved README formatting: added emojis, rephrased architecture descriptions, fixed wording and license path capitalization, and expanded example scenarios and interfaces.
+
+## 2026-02-17 - 3.1.0 - feat(edge)
+support connection tokens when starting an edge and add token encode/decode utilities
+
+- Add classes.token.ts with encodeConnectionToken/decodeConnectionToken using a base64url compact JSON format
+- Export token utilities from ts/index.ts
+- RemoteIngressEdge.start now accepts a { token } option and decodes it to an IEdgeConfig before starting
+- Add tests covering export availability, encode→decode roundtrip, malformed token, and missing fields
+- Non-breaking change — recommend a minor version bump
+
 ## 2026-02-17 - 3.0.4 - fix(build)
 bump dev dependencies, update build script, and refresh README docs
 

package.json

@@ -1,6 +1,6 @@
 {
   "name": "@serve.zone/remoteingress",
-  "version": "3.0.4",
+  "version": "4.5.9",
   "private": false,
   "description": "Edge ingress tunnel for DcRouter - accepts incoming TCP connections at network edge and tunnels them to DcRouter SmartProxy preserving client IP via PROXY protocol v1.",
   "main": "dist_ts/index.js",
@@ -9,7 +9,7 @@
   "author": "Task Venture Capital GmbH",
   "license": "MIT",
   "scripts": {
-    "test": "(tstest test/ --web)",
+    "test": "(tstest test/ --verbose --logfile --timeout 60)",
     "build": "(tsbuild tsfolders --allowimplicitany && tsrust)",
     "buildDocs": "(tsdoc)"
   },
@@ -20,7 +20,7 @@
     "@git.zone/tsrust": "^1.3.0",
     "@git.zone/tstest": "^3.1.8",
     "@push.rocks/tapbundle": "^6.0.3",
-    "@types/node": "^25.2.3"
+    "@types/node": "^25.3.0"
   },
   "dependencies": {
     "@push.rocks/qenv": "^6.1.3",

pnpm-lock.yaml

@@ -34,8 +34,8 @@ importers:
         specifier: ^6.0.3
         version: 6.0.3(socks@2.8.7)
       '@types/node':
-        specifier: ^25.2.3
-        version: 25.2.3
+        specifier: ^25.3.0
+        version: 25.3.0
 
 packages:
 
@@ -1501,8 +1501,8 @@ packages:
   '@types/node@22.19.11':
     resolution: {integrity: sha512-BH7YwL6rA93ReqeQS1c4bsPpcfOmJasG+Fkr6Y59q83f9M1WcBRHR2vM+P9eOisYRcN3ujQoiZY8uk5W+1WL8w==}
 
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+  '@types/node@25.3.0':
+    resolution: {integrity: sha512-4K3bqJpXpqfg2XKGK9bpDTc6xO/xoUP/RBWS7AtRMug6zZFaRekiLzjVtAoZMquxoAbzBvy5nxQ7veS5eYzf8A==}
 
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@@ -3986,8 +3986,8 @@ packages:
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-  undici-types@7.16.0:
-    resolution: {integrity: sha512-Zz+aZWSj8LE6zoxD+xrjh4VfkIG8Ya6LvYkZqtUQGJPZjYl53ypCaUwWqo7eI0x66KBGeRo+mlBEkMSeSZ38Nw==}
+  undici-types@7.18.2:
+    resolution: {integrity: sha512-AsuCzffGHJybSaRrmr5eHr81mwJU3kjw6M+uprWvCXiNeN9SOGwQ3Jn8jb8m3Z6izVgknn1R0FTCEAP2QrLY/w==}
 
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@@ -5178,7 +5178,7 @@ snapshots:
       '@jest/schemas': 29.6.3
       '@types/istanbul-lib-coverage': 2.0.6
       '@types/istanbul-reports': 3.0.4
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
       '@types/yargs': 17.0.35
       chalk: 4.1.2
 
@@ -6736,14 +6736,14 @@ snapshots:
 
   '@types/accepts@1.3.7':
     dependencies:
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/babel__code-frame@7.27.0': {}
 
   '@types/body-parser@1.19.6':
     dependencies:
       '@types/connect': 3.4.38
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/buffer-json@2.0.3': {}
 
@@ -6760,17 +6760,17 @@ snapshots:
 
   '@types/clean-css@4.2.11':
     dependencies:
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
       source-map: 0.6.1
 
   '@types/co-body@6.1.3':
     dependencies:
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
       '@types/qs': 6.14.0
 
   '@types/connect@3.4.38':
     dependencies:
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/content-disposition@0.5.9': {}
 
@@ -6781,11 +6781,11 @@ snapshots:
       '@types/connect': 3.4.38
       '@types/express': 5.0.6
       '@types/keygrip': 1.0.6
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/cors@2.8.19':
     dependencies:
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/debounce@1.2.4': {}
 
@@ -6797,7 +6797,7 @@ snapshots:
 
   '@types/express-serve-static-core@5.1.1':
     dependencies:
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
       '@types/qs': 6.14.0
       '@types/range-parser': 1.2.7
       '@types/send': 1.2.1
@@ -6811,7 +6811,7 @@ snapshots:
   '@types/fs-extra@11.0.4':
     dependencies:
       '@types/jsonfile': 6.1.4
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/hast@3.0.4':
     dependencies:
@@ -6845,7 +6845,7 @@ snapshots:
 
   '@types/jsonfile@6.1.4':
     dependencies:
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/keygrip@1.0.6': {}
 
@@ -6862,7 +6862,7 @@ snapshots:
       '@types/http-errors': 2.0.5
       '@types/keygrip': 1.0.6
       '@types/koa-compose': 3.2.9
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/mdast@4.0.4':
     dependencies:
@@ -6876,19 +6876,19 @@ snapshots:
 
   '@types/mute-stream@0.0.4':
     dependencies:
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/node-forge@1.3.14':
     dependencies:
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/node@22.19.11':
     dependencies:
       undici-types: 6.21.0
 
-  '@types/node@25.2.3':
+  '@types/node@25.3.0':
     dependencies:
-      undici-types: 7.16.0
+      undici-types: 7.18.2
 
   '@types/parse5@6.0.3': {}
 
@@ -6904,18 +6904,18 @@ snapshots:
 
   '@types/s3rver@3.7.4':
     dependencies:
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/semver@7.7.1': {}
 
   '@types/send@1.2.1':
     dependencies:
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/serve-static@2.2.0':
     dependencies:
       '@types/http-errors': 2.0.5
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/sinon-chai@3.2.12':
     dependencies:
@@ -6934,11 +6934,11 @@ snapshots:
 
   '@types/tar-stream@3.1.4':
     dependencies:
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/through2@2.0.41':
     dependencies:
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/triple-beam@1.3.5': {}
 
@@ -6966,11 +6966,11 @@ snapshots:
 
   '@types/ws@7.4.7':
     dependencies:
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/ws@8.18.1':
     dependencies:
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
 
   '@types/yargs-parser@21.0.3': {}
 
@@ -6980,7 +6980,7 @@ snapshots:
 
   '@types/yauzl@2.10.3':
     dependencies:
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
     optional: true
 
   '@ungap/structured-clone@1.3.0': {}
@@ -7585,7 +7585,7 @@ snapshots:
   engine.io@6.6.4:
     dependencies:
       '@types/cors': 2.8.19
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
       accepts: 1.3.8
       base64id: 2.0.0
       cookie: 0.7.2
@@ -8299,7 +8299,7 @@ snapshots:
   jest-util@29.7.0:
     dependencies:
       '@jest/types': 29.6.3
-      '@types/node': 25.2.3
+      '@types/node': 25.3.0
       chalk: 4.1.2
       ci-info: 3.9.0
       graceful-fs: 4.2.11
@@ -9807,7 +9807,7 @@ snapshots:
 
   undici-types@6.21.0: {}
 
-  undici-types@7.16.0: {}
+  undici-types@7.18.2: {}
 
   unified@11.0.5:
     dependencies:

readme.md

@@ -1,6 +1,10 @@
 # @serve.zone/remoteingress
 
-Edge ingress tunnel for DcRouter — accepts incoming TCP connections at the network edge and tunnels them to a DcRouter SmartProxy instance, preserving the original client IP via PROXY protocol v1.
+Edge ingress tunnel for DcRouter — accepts incoming TCP connections at the network edge and tunnels them over a single encrypted TLS connection to a DcRouter SmartProxy instance, preserving the original client IP via PROXY protocol v1.
+
+## Issue Reporting and Security
+
+For reporting bugs, issues, or security vulnerabilities, please visit [community.foss.global/](https://community.foss.global/). This is the central community hub for all issue reporting. Developers who sign and comply with our contribution agreement and go through identification can also get a [code.foss.global/](https://code.foss.global/) account to submit Pull Requests directly.
 
 ## Install
 
@@ -8,7 +12,7 @@ Edge ingress tunnel for DcRouter — accepts incoming TCP connections at the net
 pnpm install @serve.zone/remoteingress
 ```
 
-## Architecture
+## 🏗️ Architecture
 
 `@serve.zone/remoteingress` uses a **Hub/Edge** topology with a high-performance Rust core and a TypeScript API surface:
 
@@ -17,9 +21,9 @@ pnpm install @serve.zone/remoteingress
 │   Network Edge      │  ◄══════════════════════════►  │   Private Cluster   │
 │                     │   (multiplexed frames +        │                     │
 │  RemoteIngressEdge  │    shared-secret auth)         │  RemoteIngressHub   │
-│  Listens on :80,:443│                                │  Forwards to        │
-│  Accepts client TCP │                                │  SmartProxy on      │
-│                     │                                │  local ports        │
+│  Accepts client TCP │                                │  Forwards to        │
+│  connections on     │                                │  SmartProxy on      │
+│  hub-assigned ports │                                │  local ports        │
 └─────────────────────┘                                └─────────────────────┘
         ▲                                                       │
         │  TCP from end users                                   ▼
@@ -28,26 +32,28 @@ pnpm install @serve.zone/remoteingress
 
 | Component | Role |
 |-----------|------|
-| **RemoteIngressEdge** | Deployed at the network edge (e.g. a VPS or cloud instance). Listens on public ports, accepts raw TCP connections, and multiplexes them over a single TLS tunnel to the hub. |
-| **RemoteIngressHub** | Deployed alongside DcRouter/SmartProxy in a private cluster. Accepts edge connections, demuxes streams, and forwards each to SmartProxy with a PROXY protocol v1 header so the real client IP is preserved. |
+| **RemoteIngressEdge** | Deployed at the network edge (e.g. a VPS or cloud instance). Listens on ports assigned by the hub, accepts raw TCP connections, and multiplexes them over a single TLS tunnel to the hub. Ports are hot-reloadable — the hub can change them at runtime. |
+| **RemoteIngressHub** | Deployed alongside DcRouter/SmartProxy in a private cluster. Accepts edge connections, demuxes streams, and forwards each to SmartProxy with a PROXY protocol v1 header so the real client IP is preserved. Controls which ports each edge listens on. |
 | **Rust Binary** (`remoteingress-bin`) | The performance-critical networking core. Managed via `@push.rocks/smartrust` RustBridge IPC — you never interact with it directly. Cross-compiled for `linux/amd64` and `linux/arm64`. |
 
-### Key Features
+### ✨ Key Features
 
-- **TLS-encrypted tunnel** between edge and hub (auto-generated self-signed cert or bring your own)
-- **Multiplexed streams** — thousands of client connections flow over a single tunnel
-- **PROXY protocol v1** — SmartProxy sees the real client IP, not the tunnel IP
-- **Shared-secret authentication** — edges must present valid credentials to connect
-- **STUN-based public IP discovery** — the edge automatically discovers its public IP via Cloudflare STUN
-- **Auto-reconnect** with exponential backoff if the tunnel drops
-- **Event-driven** — both Hub and Edge extend `EventEmitter` for real-time monitoring
-- **Rust core** — all frame encoding, TLS, and TCP proxying happen in native code for maximum throughput
+- 🔒 **TLS-encrypted tunnel** between edge and hub (auto-generated self-signed cert or bring your own)
+- 🔀 **Multiplexed streams** — thousands of client connections flow over a single tunnel
+- 🌐 **PROXY protocol v1** — SmartProxy sees the real client IP, not the tunnel IP
+- 🔑 **Shared-secret authentication** — edges must present valid credentials to connect
+- 🎫 **Connection tokens** — encode all connection details into a single opaque string
+- 📡 **STUN-based public IP discovery** — the edge automatically discovers its public IP via Cloudflare STUN
+- 🔄 **Auto-reconnect** with exponential backoff if the tunnel drops
+- 🎛️ **Dynamic port configuration** — the hub assigns listen ports per edge and can hot-reload them at runtime via `FRAME_CONFIG` frames
+- 📣 **Event-driven** — both Hub and Edge extend `EventEmitter` for real-time monitoring
+- ⚡ **Rust core** — all frame encoding, TLS, and TCP proxying happen in native code for maximum throughput
 
-## Usage
+## 🚀 Usage
 
 Both classes are imported from the package and communicate with the Rust binary under the hood. All you need to do is configure and start them.
 
-### Setting up the Hub (private cluster side)
+### Setting Up the Hub (Private Cluster Side)
 
 ```typescript
 import { RemoteIngressHub } from '@serve.zone/remoteingress';
@@ -74,10 +80,28 @@ await hub.start({
   targetHost: '127.0.0.1', // SmartProxy host to forward streams to (default: 127.0.0.1)
 });
 
-// Register which edges are allowed to connect
+// Register which edges are allowed to connect, including their listen ports
 await hub.updateAllowedEdges([
-  { id: 'edge-nyc-01', secret: 'supersecrettoken1' },
-  { id: 'edge-fra-02', secret: 'supersecrettoken2' },
+  {
+    id: 'edge-nyc-01',
+    secret: 'supersecrettoken1',
+    listenPorts: [80, 443],        // ports the edge should listen on
+    stunIntervalSecs: 300,         // STUN discovery interval (default: 300)
+  },
+  {
+    id: 'edge-fra-02',
+    secret: 'supersecrettoken2',
+    listenPorts: [443, 8080],
+  },
+]);
+
+// Dynamically update ports for a connected edge — changes are pushed instantly
+await hub.updateAllowedEdges([
+  {
+    id: 'edge-nyc-01',
+    secret: 'supersecrettoken1',
+    listenPorts: [80, 443, 8443],  // added port 8443 — edge picks it up in real time
+  },
 ]);
 
 // Check status at any time
@@ -95,32 +119,49 @@ console.log(status);
 await hub.stop();
 ```
 
-### Setting up the Edge (network edge side)
+### Setting Up the Edge (Network Edge Side)
+
+The edge can be configured in two ways: with an **opaque connection token** (recommended) or with explicit config fields.
+
+#### Option A: Connection Token (Recommended)
+
+A single token encodes all connection details — ideal for provisioning edges at scale:
 
 ```typescript
 import { RemoteIngressEdge } from '@serve.zone/remoteingress';
 
 const edge = new RemoteIngressEdge();
 
-// Listen for events
-edge.on('tunnelConnected', () => {
-  console.log('Tunnel to hub established');
-});
-edge.on('tunnelDisconnected', () => {
-  console.log('Tunnel to hub lost — will auto-reconnect');
-});
-edge.on('publicIpDiscovered', ({ ip }) => {
-  console.log(`Public IP: ${ip}`);
-});
+edge.on('tunnelConnected', () => console.log('Tunnel established'));
+edge.on('tunnelDisconnected', () => console.log('Tunnel lost — will auto-reconnect'));
+edge.on('publicIpDiscovered', ({ ip }) => console.log(`Public IP: ${ip}`));
+edge.on('portsAssigned', ({ listenPorts }) => console.log(`Listening on ports: ${listenPorts}`));
+edge.on('portsUpdated', ({ listenPorts }) => console.log(`Ports updated: ${listenPorts}`));
+
+// Single token contains hubHost, hubPort, edgeId, and secret
+await edge.start({
+  token: 'eyJoIjoiaHViLmV4YW1wbGUuY29tIiwicCI6ODQ0MywiZSI6ImVkZ2UtbnljLTAxIiwicyI6InN1cGVyc2VjcmV0dG9rZW4xIn0',
+});
+```
+
+#### Option B: Explicit Config
+
+```typescript
+import { RemoteIngressEdge } from '@serve.zone/remoteingress';
+
+const edge = new RemoteIngressEdge();
+
+edge.on('tunnelConnected', () => console.log('Tunnel established'));
+edge.on('tunnelDisconnected', () => console.log('Tunnel lost — will auto-reconnect'));
+edge.on('publicIpDiscovered', ({ ip }) => console.log(`Public IP: ${ip}`));
+edge.on('portsAssigned', ({ listenPorts }) => console.log(`Listening on ports: ${listenPorts}`));
+edge.on('portsUpdated', ({ listenPorts }) => console.log(`Ports updated: ${listenPorts}`));
 
-// Start the edge — it connects to the hub and starts listening for clients
 await edge.start({
   hubHost: 'hub.example.com',  // hostname or IP of the hub
   hubPort: 8443,               // must match hub's tunnelPort (default: 8443)
   edgeId: 'edge-nyc-01',       // unique edge identifier
   secret: 'supersecrettoken1', // must match the hub's allowed edge secret
-  listenPorts: [80, 443],      // public ports to accept TCP connections on
-  stunIntervalSecs: 300,       // STUN refresh interval in seconds (optional)
 });
 
 // Check status at any time
@@ -138,72 +179,185 @@ console.log(edgeStatus);
 await edge.stop();
 ```
 
-### API Reference
+### 🎫 Connection Tokens
 
-#### `RemoteIngressHub`
+Connection tokens let you distribute a single opaque string instead of four separate config values. The hub operator generates the token; the edge operator just pastes it in.
+
+```typescript
+import { encodeConnectionToken, decodeConnectionToken } from '@serve.zone/remoteingress';
+
+// Hub side: generate a token for a new edge
+const token = encodeConnectionToken({
+  hubHost: 'hub.example.com',
+  hubPort: 8443,
+  edgeId: 'edge-nyc-01',
+  secret: 'supersecrettoken1',
+});
+console.log(token);
+// => 'eyJoIjoiaHViLmV4YW1wbGUuY29tIiwi...'
+
+// Edge side: inspect a token (optional — start() does this automatically)
+const data = decodeConnectionToken(token);
+console.log(data);
+// {
+//   hubHost: 'hub.example.com',
+//   hubPort: 8443,
+//   edgeId: 'edge-nyc-01',
+//   secret: 'supersecrettoken1'
+// }
+```
+
+Tokens are base64url-encoded (URL-safe, no padding) — safe to pass as environment variables, CLI arguments, or store in config files.
+
+## 📖 API Reference
+
+### `RemoteIngressHub`
 
 | Method / Property | Description |
 |-------------------|-------------|
 | `start(config?)` | Spawns the Rust binary and starts the tunnel listener. Config: `{ tunnelPort?: number, targetHost?: string }` |
 | `stop()` | Gracefully shuts down the hub and kills the Rust process. |
-| `updateAllowedEdges(edges)` | Dynamically update which edges are authorized. Each edge: `{ id: string, secret: string }` |
+| `updateAllowedEdges(edges)` | Dynamically update which edges are authorized and what ports they listen on. Each edge: `{ id: string, secret: string, listenPorts?: number[], stunIntervalSecs?: number }`. If ports change for a connected edge, the update is pushed immediately via a `FRAME_CONFIG` frame. |
 | `getStatus()` | Returns current hub status including connected edges and active stream counts. |
 | `running` | `boolean` — whether the Rust binary is alive. |
 
 **Events:** `edgeConnected`, `edgeDisconnected`, `streamOpened`, `streamClosed`
 
-#### `RemoteIngressEdge`
+### `RemoteIngressEdge`
 
 | Method / Property | Description |
 |-------------------|-------------|
-| `start(config)` | Spawns the Rust binary, connects to the hub, and starts listening on the specified ports. |
+| `start(config)` | Spawns the Rust binary and connects to the hub. Accepts `{ token: string }` or `IEdgeConfig`. Listen ports are received from the hub during handshake. |
 | `stop()` | Gracefully shuts down the edge and kills the Rust process. |
-| `getStatus()` | Returns current edge status including connection state, public IP, and active streams. |
+| `getStatus()` | Returns current edge status including connection state, public IP, listen ports, and active streams. |
 | `running` | `boolean` — whether the Rust binary is alive. |
 
-**Events:** `tunnelConnected`, `tunnelDisconnected`, `publicIpDiscovered`
+**Events:** `tunnelConnected`, `tunnelDisconnected`, `publicIpDiscovered`, `portsAssigned`, `portsUpdated`
 
-### Wire Protocol
+### Token Utilities
+
+| Function | Description |
+|----------|-------------|
+| `encodeConnectionToken(data)` | Encodes `IConnectionTokenData` into a base64url token string. |
+| `decodeConnectionToken(token)` | Decodes a token back into `IConnectionTokenData`. Throws on malformed or incomplete tokens. |
+
+### Interfaces
+
+```typescript
+interface IHubConfig {
+  tunnelPort?: number;   // default: 8443
+  targetHost?: string;   // default: '127.0.0.1'
+}
+
+interface IEdgeConfig {
+  hubHost: string;
+  hubPort?: number;      // default: 8443
+  edgeId: string;
+  secret: string;
+}
+
+interface IConnectionTokenData {
+  hubHost: string;
+  hubPort: number;
+  edgeId: string;
+  secret: string;
+}
+```
+
+## 🔌 Wire Protocol
 
 The tunnel uses a custom binary frame protocol over TLS:
 
 ```
-[stream_id: 4 bytes][type: 1 byte][length: 4 bytes][payload: N bytes]
+[stream_id: 4 bytes BE][type: 1 byte][length: 4 bytes BE][payload: N bytes]
 ```
 
 | Frame Type | Value | Direction | Purpose |
 |------------|-------|-----------|---------|
-| `OPEN` | `0x01` | Edge -> Hub | Open a new stream; payload is PROXY v1 header |
-| `DATA` | `0x02` | Edge -> Hub | Client data flowing upstream |
-| `CLOSE` | `0x03` | Edge -> Hub | Client closed the connection |
-| `DATA_BACK` | `0x04` | Hub -> Edge | Response data flowing downstream |
-| `CLOSE_BACK` | `0x05` | Hub -> Edge | Upstream (SmartProxy) closed the connection |
+| `OPEN` | `0x01` | Edge → Hub | Open a new stream; payload is PROXY v1 header |
+| `DATA` | `0x02` | Edge → Hub | Client data flowing upstream |
+| `CLOSE` | `0x03` | Edge → Hub | Client closed the connection |
+| `DATA_BACK` | `0x04` | Hub → Edge | Response data flowing downstream |
+| `CLOSE_BACK` | `0x05` | Hub → Edge | Upstream (SmartProxy) closed the connection |
+| `CONFIG` | `0x06` | Hub → Edge | Runtime configuration update (e.g. port changes); payload is JSON |
 
-Max payload size per frame: **16 MB**.
+Max payload size per frame: **16 MB**. Stream IDs are 32-bit unsigned integers.
 
-### Example Scenarios
+### Handshake Sequence
 
-1. **Expose a private Kubernetes cluster to the internet** — Deploy an Edge on a public VPS, configure your DNS to point to the VPS IP. The Edge tunnels all traffic to the Hub running inside the cluster, which hands it off to SmartProxy/DcRouter. Your cluster stays fully private — no public-facing ports needed.
+1. Edge opens a TLS connection to the hub
+2. Edge sends: `EDGE <edgeId> <secret>\n`
+3. Hub verifies credentials (constant-time comparison) and responds with JSON: `{"listenPorts":[...],"stunIntervalSecs":300}\n`
+4. Edge starts TCP listeners on the assigned ports
+5. Frame protocol begins — `OPEN`/`DATA`/`CLOSE` frames flow in both directions
+6. Hub can push `CONFIG` frames at any time to update the edge's listen ports
 
-2. **Multi-region edge ingress** — Run multiple Edges in different geographic regions (NYC, Frankfurt, Tokyo) all connecting to a single Hub. Use GeoDNS to route users to their nearest Edge. The Hub sees the real client IPs via PROXY protocol regardless of which edge they connected through.
+## 💡 Example Scenarios
 
-3. **Secure API exposure** — Your backend runs on a private network with no direct internet access. An Edge on a minimal cloud instance acts as the only public entry point. TLS tunnel + shared-secret auth ensure only your authorized Edge can forward traffic.
+### 1. Expose a Private Kubernetes Cluster to the Internet
+
+Deploy an Edge on a public VPS, point your DNS to the VPS IP. The Edge tunnels all traffic to the Hub running inside the cluster, which hands it off to SmartProxy/DcRouter. Your cluster stays fully private — no public-facing ports needed.
+
+### 2. Multi-Region Edge Ingress
+
+Run multiple Edges in different geographic regions (NYC, Frankfurt, Tokyo) all connecting to a single Hub. Use GeoDNS to route users to their nearest Edge. The Hub sees the real client IPs via PROXY protocol regardless of which edge they connected through.
+
+### 3. Secure API Exposure
+
+Your backend runs on a private network with no direct internet access. An Edge on a minimal cloud instance acts as the only public entry point. TLS tunnel + shared-secret auth ensure only your authorized Edge can forward traffic.
+
+### 4. Token-Based Edge Provisioning
+
+Generate connection tokens on the hub side and distribute them to edge operators. Each edge only needs a single token string to connect — no manual configuration of host, port, ID, and secret.
+
+```typescript
+// Hub operator generates token
+const token = encodeConnectionToken({
+  hubHost: 'hub.prod.example.com',
+  hubPort: 8443,
+  edgeId: 'edge-tokyo-01',
+  secret: 'generated-secret-abc123',
+});
+// Send `token` to the edge operator via secure channel
+
+// Edge operator starts with just the token
+const edge = new RemoteIngressEdge();
+await edge.start({ token });
+```
+
+### 5. Dynamic Port Management
+
+The hub controls which ports each edge listens on. Ports can be changed at runtime without restarting the edge — the hub pushes a `CONFIG` frame and the edge hot-reloads its TCP listeners.
+
+```typescript
+// Initially assign ports 80 and 443
+await hub.updateAllowedEdges([
+  { id: 'edge-nyc-01', secret: 'secret', listenPorts: [80, 443] },
+]);
+
+// Later, add port 8080 — the connected edge picks it up instantly
+await hub.updateAllowedEdges([
+  { id: 'edge-nyc-01', secret: 'secret', listenPorts: [80, 443, 8080] },
+]);
+```
 
 ## License and Legal Information
 
-This repository contains open-source code that is licensed under the MIT License. A copy of the MIT License can be found in the [license](license) file within this repository.
+This repository contains open-source code licensed under the MIT License. A copy of the license can be found in the [LICENSE](./LICENSE) file.
 
 **Please note:** The MIT License does not grant permission to use the trade names, trademarks, service marks, or product names of the project, except as required for reasonable and customary use in describing the origin of the work and reproducing the content of the NOTICE file.
 
 ### Trademarks
 
-This project is owned and maintained by Task Venture Capital GmbH. The names and logos associated with Task Venture Capital GmbH and any related products or services are trademarks of Task Venture Capital GmbH and are not included within the scope of the MIT license granted herein. Use of these trademarks must comply with Task Venture Capital GmbH's Trademark Guidelines, and any usage must be approved in writing by Task Venture Capital GmbH.
+This project is owned and maintained by Task Venture Capital GmbH. The names and logos associated with Task Venture Capital GmbH and any related products or services are trademarks of Task Venture Capital GmbH or third parties, and are not included within the scope of the MIT license granted herein.
+
+Use of these trademarks must comply with Task Venture Capital GmbH's Trademark Guidelines or the guidelines of the respective third-party owners, and any usage must be approved in writing. Third-party trademarks used herein are the property of their respective owners and used only in a descriptive manner, e.g. for an implementation of an API or similar.
 
 ### Company Information
 
 Task Venture Capital GmbH
-Registered at District court Bremen HRB 35230 HB, Germany
+Registered at District Court Bremen HRB 35230 HB, Germany
 
-For any legal inquiries or if you require further information, please contact us via email at hello@task.vc.
+For any legal inquiries or further information, please contact us via email at hello@task.vc.
 
 By using this repository, you acknowledge that you have read this section, agree to comply with its terms, and understand that the licensing of the code does not imply endorsement by Task Venture Capital GmbH of any derivative works.

rust/Cargo.lock

@@ -234,6 +234,18 @@ version = "1.3.0"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "42703706b716c37f96a77aea830392ad231f44c9e9a67872fa5548707e11b11c"
 
+[[package]]
+name = "futures-core"
+version = "0.3.32"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "7e3450815272ef58cec6d564423f6e755e25379b217b0bc688e295ba24df6b1d"
+
+[[package]]
+name = "futures-sink"
+version = "0.3.32"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "c39754e157331b013978ec91992bde1ac089843443c49cbc7f46150b0fad0893"
+
 [[package]]
 name = "getrandom"
 version = "0.2.17"
@@ -315,6 +327,16 @@ version = "0.2.182"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "6800badb6cb2082ffd7b6a67e6125bb39f18782f793520caee8cb8846be06112"
 
+[[package]]
+name = "libmimalloc-sys"
+version = "0.1.44"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "667f4fec20f29dfc6bc7357c582d91796c169ad7e2fce709468aefeb2c099870"
+dependencies = [
+ "cc",
+ "libc",
+]
+
 [[package]]
 name = "lock_api"
 version = "0.4.14"
@@ -336,6 +358,15 @@ version = "2.8.0"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "f8ca58f447f06ed17d5fc4043ce1b10dd205e060fb3ce5b979b8ed8e59ff3f79"
 
+[[package]]
+name = "mimalloc"
+version = "0.1.48"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "e1ee66a4b64c74f4ef288bcbb9192ad9c3feaad75193129ac8509af543894fd8"
+dependencies = [
+ "libmimalloc-sys",
+]
+
 [[package]]
 name = "mio"
 version = "1.1.1"
@@ -507,6 +538,7 @@ dependencies = [
  "clap",
  "env_logger",
  "log",
+ "mimalloc",
  "remoteingress-core",
  "remoteingress-protocol",
  "rustls",
@@ -528,6 +560,7 @@ dependencies = [
  "serde_json",
  "tokio",
  "tokio-rustls",
+ "tokio-util",
 ]
 
 [[package]]
@@ -758,6 +791,19 @@ dependencies = [
  "tokio",
 ]
 
+[[package]]
+name = "tokio-util"
+version = "0.7.18"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "9ae9cec805b01e8fc3fd2fe289f89149a9b66dd16786abd8b19cfa7b48cb0098"
+dependencies = [
+ "bytes",
+ "futures-core",
+ "futures-sink",
+ "pin-project-lite",
+ "tokio",
+]
+
 [[package]]
 name = "unicode-ident"
 version = "1.0.24"

rust/crates/remoteingress-bin/Cargo.toml

@@ -17,3 +17,4 @@ serde_json = "1"
 log = "0.4"
 env_logger = "0.11"
 rustls = { version = "0.23", default-features = false, features = ["ring"] }
+mimalloc = "0.1"

rust/crates/remoteingress-bin/src/main.rs

@@ -1,3 +1,6 @@
+#[global_allocator]
+static GLOBAL: mimalloc::MiMalloc = mimalloc::MiMalloc;
+
 use clap::Parser;
 use serde::{Deserialize, Serialize};
 use std::sync::Arc;
@@ -164,10 +167,10 @@ async fn handle_request(
                 tokio::spawn(async move {
                     while let Some(event) = event_rx.recv().await {
                         match &event {
-                            HubEvent::EdgeConnected { edge_id } => {
+                            HubEvent::EdgeConnected { edge_id, peer_addr } => {
                                 send_event(
                                     "edgeConnected",
-                                    serde_json::json!({ "edgeId": edge_id }),
+                                    serde_json::json!({ "edgeId": edge_id, "peerAddr": peer_addr }),
                                 );
                             }
                             HubEvent::EdgeDisconnected { edge_id } => {
@@ -301,6 +304,18 @@ async fn handle_request(
                                     serde_json::json!({ "ip": ip }),
                                 );
                             }
+                            EdgeEvent::PortsAssigned { listen_ports } => {
+                                send_event(
+                                    "portsAssigned",
+                                    serde_json::json!({ "listenPorts": listen_ports }),
+                                );
+                            }
+                            EdgeEvent::PortsUpdated { listen_ports } => {
+                                send_event(
+                                    "portsUpdated",
+                                    serde_json::json!({ "listenPorts": listen_ports }),
+                                );
+                            }
                         }
                     }
                 });
@@ -357,3 +372,58 @@ async fn handle_request(
         }
     }
 }
+
+#[cfg(test)]
+mod tests {
+    use super::*;
+
+    #[test]
+    fn test_ipc_request_deserialize() {
+        let json = r#"{"id": "1", "method": "ping", "params": {}}"#;
+        let req: IpcRequest = serde_json::from_str(json).unwrap();
+        assert_eq!(req.id, "1");
+        assert_eq!(req.method, "ping");
+        assert!(req.params.is_object());
+    }
+
+    #[test]
+    fn test_ipc_response_skip_error_when_none() {
+        let resp = IpcResponse {
+            id: "1".to_string(),
+            success: true,
+            result: Some(serde_json::json!({"pong": true})),
+            error: None,
+        };
+        let json = serde_json::to_value(&resp).unwrap();
+        assert_eq!(json["id"], "1");
+        assert_eq!(json["success"], true);
+        assert_eq!(json["result"]["pong"], true);
+        assert!(json.get("error").is_none());
+    }
+
+    #[test]
+    fn test_ipc_response_skip_result_when_none() {
+        let resp = IpcResponse {
+            id: "2".to_string(),
+            success: false,
+            result: None,
+            error: Some("something failed".to_string()),
+        };
+        let json = serde_json::to_value(&resp).unwrap();
+        assert_eq!(json["id"], "2");
+        assert_eq!(json["success"], false);
+        assert_eq!(json["error"], "something failed");
+        assert!(json.get("result").is_none());
+    }
+
+    #[test]
+    fn test_ipc_event_serialize() {
+        let evt = IpcEvent {
+            event: "ready".to_string(),
+            data: serde_json::json!({"version": "2.0.0"}),
+        };
+        let json = serde_json::to_value(&evt).unwrap();
+        assert_eq!(json["event"], "ready");
+        assert_eq!(json["data"]["version"], "2.0.0");
+    }
+}

rust/crates/remoteingress-core/Cargo.toml

@@ -13,3 +13,4 @@ serde = { version = "1", features = ["derive"] }
 serde_json = "1"
 log = "0.4"
 rustls-pemfile = "2"
+tokio-util = "0.7"

rust/crates/remoteingress-core/src/edge.rs

@@ -1,15 +1,30 @@
 use std::collections::HashMap;
 use std::sync::atomic::{AtomicU32, Ordering};
 use std::sync::Arc;
-use tokio::io::{AsyncReadExt, AsyncWriteExt};
+use std::time::Duration;
+use tokio::io::{AsyncBufReadExt, AsyncReadExt, AsyncWriteExt, BufReader};
 use tokio::net::{TcpListener, TcpStream};
-use tokio::sync::{mpsc, Mutex, RwLock};
+use tokio::sync::{mpsc, Mutex, Notify, RwLock};
+use tokio::task::JoinHandle;
+use tokio::time::{Instant, sleep_until};
 use tokio_rustls::TlsConnector;
+use tokio_util::sync::CancellationToken;
 use serde::{Deserialize, Serialize};
 
 use remoteingress_protocol::*;
 
-/// Edge configuration.
+/// Per-stream state tracked in the edge's client_writers map.
+struct EdgeStreamState {
+    /// Channel to deliver FRAME_DATA_BACK payloads to the hub_to_client task.
+    back_tx: mpsc::Sender<Vec<u8>>,
+    /// Send window for FRAME_DATA (upload direction).
+    /// Decremented by the client reader, incremented by FRAME_WINDOW_UPDATE_BACK from hub.
+    send_window: Arc<AtomicU32>,
+    /// Notifier to wake the client reader when the window opens.
+    window_notify: Arc<Notify>,
+}
+
+/// Edge configuration (hub-host + credentials only; ports come from hub).
 #[derive(Debug, Clone, Deserialize, Serialize)]
 #[serde(rename_all = "camelCase")]
 pub struct EdgeConfig {
@@ -17,8 +32,26 @@ pub struct EdgeConfig {
     pub hub_port: u16,
     pub edge_id: String,
     pub secret: String,
-    pub listen_ports: Vec<u16>,
-    pub stun_interval_secs: Option<u64>,
+}
+
+/// Handshake config received from hub after authentication.
+#[derive(Debug, Clone, Deserialize)]
+#[serde(rename_all = "camelCase")]
+struct HandshakeConfig {
+    listen_ports: Vec<u16>,
+    #[serde(default = "default_stun_interval")]
+    stun_interval_secs: u64,
+}
+
+fn default_stun_interval() -> u64 {
+    300
+}
+
+/// Runtime config update received from hub via FRAME_CONFIG.
+#[derive(Debug, Clone, Deserialize)]
+#[serde(rename_all = "camelCase")]
+struct ConfigUpdate {
+    listen_ports: Vec<u16>,
 }
 
 /// Events emitted by the edge.
@@ -30,6 +63,10 @@ pub enum EdgeEvent {
     TunnelDisconnected,
     #[serde(rename_all = "camelCase")]
     PublicIpDiscovered { ip: String },
+    #[serde(rename_all = "camelCase")]
+    PortsAssigned { listen_ports: Vec<u16> },
+    #[serde(rename_all = "camelCase")]
+    PortsUpdated { listen_ports: Vec<u16> },
 }
 
 /// Edge status response.
@@ -46,19 +83,21 @@ pub struct EdgeStatus {
 /// The tunnel edge that listens for client connections and multiplexes them to the hub.
 pub struct TunnelEdge {
     config: RwLock<EdgeConfig>,
-    event_tx: mpsc::UnboundedSender<EdgeEvent>,
-    event_rx: Mutex<Option<mpsc::UnboundedReceiver<EdgeEvent>>>,
+    event_tx: mpsc::Sender<EdgeEvent>,
+    event_rx: Mutex<Option<mpsc::Receiver<EdgeEvent>>>,
     shutdown_tx: Mutex<Option<mpsc::Sender<()>>>,
     running: RwLock<bool>,
     connected: Arc<RwLock<bool>>,
     public_ip: Arc<RwLock<Option<String>>>,
     active_streams: Arc<AtomicU32>,
     next_stream_id: Arc<AtomicU32>,
+    listen_ports: Arc<RwLock<Vec<u16>>>,
+    cancel_token: CancellationToken,
 }
 
 impl TunnelEdge {
     pub fn new(config: EdgeConfig) -> Self {
-        let (event_tx, event_rx) = mpsc::unbounded_channel();
+        let (event_tx, event_rx) = mpsc::channel(1024);
         Self {
             config: RwLock::new(config),
             event_tx,
@@ -69,11 +108,13 @@ impl TunnelEdge {
             public_ip: Arc::new(RwLock::new(None)),
             active_streams: Arc::new(AtomicU32::new(0)),
             next_stream_id: Arc::new(AtomicU32::new(1)),
+            listen_ports: Arc::new(RwLock::new(Vec::new())),
+            cancel_token: CancellationToken::new(),
         }
     }
 
     /// Take the event receiver (can only be called once).
-    pub async fn take_event_rx(&self) -> Option<mpsc::UnboundedReceiver<EdgeEvent>> {
+    pub async fn take_event_rx(&self) -> Option<mpsc::Receiver<EdgeEvent>> {
         self.event_rx.lock().await.take()
     }
 
@@ -84,7 +125,7 @@ impl TunnelEdge {
             connected: *self.connected.read().await,
             public_ip: self.public_ip.read().await.clone(),
             active_streams: self.active_streams.load(Ordering::Relaxed) as usize,
-            listen_ports: self.config.read().await.listen_ports.clone(),
+            listen_ports: self.listen_ports.read().await.clone(),
         }
     }
 
@@ -100,6 +141,8 @@ impl TunnelEdge {
         let active_streams = self.active_streams.clone();
         let next_stream_id = self.next_stream_id.clone();
         let event_tx = self.event_tx.clone();
+        let listen_ports = self.listen_ports.clone();
+        let cancel_token = self.cancel_token.clone();
 
         tokio::spawn(async move {
             edge_main_loop(
@@ -109,7 +152,9 @@ impl TunnelEdge {
                 active_streams,
                 next_stream_id,
                 event_tx,
+                listen_ports,
                 shutdown_rx,
+                cancel_token,
             )
             .await;
         });
@@ -119,11 +164,19 @@ impl TunnelEdge {
 
     /// Stop the edge.
     pub async fn stop(&self) {
+        self.cancel_token.cancel();
         if let Some(tx) = self.shutdown_tx.lock().await.take() {
             let _ = tx.send(()).await;
         }
         *self.running.write().await = false;
         *self.connected.write().await = false;
+        self.listen_ports.write().await.clear();
+    }
+}
+
+impl Drop for TunnelEdge {
+    fn drop(&mut self) {
+        self.cancel_token.cancel();
     }
 }
 
@@ -133,13 +186,26 @@ async fn edge_main_loop(
     public_ip: Arc<RwLock<Option<String>>>,
     active_streams: Arc<AtomicU32>,
     next_stream_id: Arc<AtomicU32>,
-    event_tx: mpsc::UnboundedSender<EdgeEvent>,
+    event_tx: mpsc::Sender<EdgeEvent>,
+    listen_ports: Arc<RwLock<Vec<u16>>>,
     mut shutdown_rx: mpsc::Receiver<()>,
+    cancel_token: CancellationToken,
 ) {
     let mut backoff_ms: u64 = 1000;
     let max_backoff_ms: u64 = 30000;
 
+    // Build TLS config ONCE outside the reconnect loop — preserves session
+    // cache across reconnections for TLS session resumption (saves 1 RTT).
+    let tls_config = rustls::ClientConfig::builder()
+        .dangerous()
+        .with_custom_certificate_verifier(Arc::new(NoCertVerifier))
+        .with_no_client_auth();
+    let connector = TlsConnector::from(Arc::new(tls_config));
+
     loop {
+        // Create a per-connection child token
+        let connection_token = cancel_token.child_token();
+
         // Try to connect to hub
         let result = connect_to_hub_and_run(
             &config,
@@ -148,20 +214,37 @@ async fn edge_main_loop(
             &active_streams,
             &next_stream_id,
             &event_tx,
+            &listen_ports,
             &mut shutdown_rx,
+            &connection_token,
+            &connector,
         )
         .await;
 
+        // Cancel connection token to kill all orphaned tasks from this cycle
+        connection_token.cancel();
+
+        // Reset backoff after a successful connection for fast reconnect
+        let was_connected = *connected.read().await;
+        if was_connected {
+            backoff_ms = 1000;
+            log::info!("Was connected; resetting backoff to {}ms for fast reconnect", backoff_ms);
+        }
+
         *connected.write().await = false;
-        let _ = event_tx.send(EdgeEvent::TunnelDisconnected);
+        let _ = event_tx.try_send(EdgeEvent::TunnelDisconnected);
         active_streams.store(0, Ordering::Relaxed);
+        // Reset stream ID counter for next connection cycle
+        next_stream_id.store(1, Ordering::Relaxed);
+        listen_ports.write().await.clear();
 
         match result {
             EdgeLoopResult::Shutdown => break,
             EdgeLoopResult::Reconnect => {
                 log::info!("Reconnecting in {}ms...", backoff_ms);
                 tokio::select! {
-                    _ = tokio::time::sleep(std::time::Duration::from_millis(backoff_ms)) => {}
+                    _ = tokio::time::sleep(Duration::from_millis(backoff_ms)) => {}
+                    _ = cancel_token.cancelled() => break,
                     _ = shutdown_rx.recv() => break,
                 }
                 backoff_ms = (backoff_ms * 2).min(max_backoff_ms);
@@ -181,20 +264,20 @@ async fn connect_to_hub_and_run(
     public_ip: &Arc<RwLock<Option<String>>>,
     active_streams: &Arc<AtomicU32>,
     next_stream_id: &Arc<AtomicU32>,
-    event_tx: &mpsc::UnboundedSender<EdgeEvent>,
+    event_tx: &mpsc::Sender<EdgeEvent>,
+    listen_ports: &Arc<RwLock<Vec<u16>>>,
     shutdown_rx: &mut mpsc::Receiver<()>,
+    connection_token: &CancellationToken,
+    connector: &TlsConnector,
 ) -> EdgeLoopResult {
-    // Build TLS connector that skips cert verification (auth is via secret)
-    let tls_config = rustls::ClientConfig::builder()
-        .dangerous()
-        .with_custom_certificate_verifier(Arc::new(NoCertVerifier))
-        .with_no_client_auth();
-
-    let connector = TlsConnector::from(Arc::new(tls_config));
 
     let addr = format!("{}:{}", config.hub_host, config.hub_port);
     let tcp = match TcpStream::connect(&addr).await {
-        Ok(s) => s,
+        Ok(s) => {
+            // Disable Nagle's algorithm for low-latency control frames (PING/PONG, WINDOW_UPDATE)
+            let _ = s.set_nodelay(true);
+            s
+        }
         Err(e) => {
             log::error!("Failed to connect to hub at {}: {}", addr, e);
             return EdgeLoopResult::Reconnect;
@@ -220,106 +303,202 @@ async fn connect_to_hub_and_run(
         return EdgeLoopResult::Reconnect;
     }
 
+    // Read handshake response line from hub (JSON with initial config)
+    let mut buf_reader = BufReader::new(read_half);
+    let mut handshake_line = String::new();
+    match buf_reader.read_line(&mut handshake_line).await {
+        Ok(0) => {
+            log::error!("Hub rejected connection (EOF before handshake)");
+            return EdgeLoopResult::Reconnect;
+        }
+        Ok(_) => {}
+        Err(e) => {
+            log::error!("Failed to read handshake response: {}", e);
+            return EdgeLoopResult::Reconnect;
+        }
+    }
+
+    let handshake: HandshakeConfig = match serde_json::from_str(handshake_line.trim()) {
+        Ok(h) => h,
+        Err(e) => {
+            log::error!("Invalid handshake response: {}", e);
+            return EdgeLoopResult::Reconnect;
+        }
+    };
+
+    log::info!(
+        "Handshake from hub: ports {:?}, stun_interval {}s",
+        handshake.listen_ports,
+        handshake.stun_interval_secs
+    );
+
     *connected.write().await = true;
-    let _ = event_tx.send(EdgeEvent::TunnelConnected);
+    let _ = event_tx.try_send(EdgeEvent::TunnelConnected);
     log::info!("Connected to hub at {}", addr);
 
+    // Store initial ports and emit event
+    *listen_ports.write().await = handshake.listen_ports.clone();
+    let _ = event_tx.try_send(EdgeEvent::PortsAssigned {
+        listen_ports: handshake.listen_ports.clone(),
+    });
+
     // Start STUN discovery
-    let stun_interval = config.stun_interval_secs.unwrap_or(300);
+    let stun_interval = handshake.stun_interval_secs;
     let public_ip_clone = public_ip.clone();
     let event_tx_clone = event_tx.clone();
+    let stun_token = connection_token.clone();
     let stun_handle = tokio::spawn(async move {
         loop {
-            if let Some(ip) = crate::stun::discover_public_ip().await {
-                let mut pip = public_ip_clone.write().await;
-                let changed = pip.as_ref() != Some(&ip);
-                *pip = Some(ip.clone());
-                if changed {
-                    let _ = event_tx_clone.send(EdgeEvent::PublicIpDiscovered { ip });
+            tokio::select! {
+                ip_result = crate::stun::discover_public_ip() => {
+                    if let Some(ip) = ip_result {
+                        let mut pip = public_ip_clone.write().await;
+                        let changed = pip.as_ref() != Some(&ip);
+                        *pip = Some(ip.clone());
+                        if changed {
+                            let _ = event_tx_clone.try_send(EdgeEvent::PublicIpDiscovered { ip });
+                        }
+                    }
                 }
+                _ = stun_token.cancelled() => break,
+            }
+            tokio::select! {
+                _ = tokio::time::sleep(Duration::from_secs(stun_interval)) => {}
+                _ = stun_token.cancelled() => break,
             }
-            tokio::time::sleep(std::time::Duration::from_secs(stun_interval)).await;
         }
     });
 
-    // Client socket map: stream_id -> sender for writing data back to client
-    let client_writers: Arc<Mutex<HashMap<u32, mpsc::Sender<Vec<u8>>>>> =
+    // Client socket map: stream_id -> per-stream state (back channel + flow control)
+    let client_writers: Arc<Mutex<HashMap<u32, EdgeStreamState>>> =
         Arc::new(Mutex::new(HashMap::new()));
 
-    // Shared tunnel writer
-    let tunnel_writer = Arc::new(Mutex::new(write_half));
-
-    // Start TCP listeners for each port
-    let mut listener_handles = Vec::new();
-    for &port in &config.listen_ports {
-        let tunnel_writer = tunnel_writer.clone();
-        let client_writers = client_writers.clone();
-        let active_streams = active_streams.clone();
-        let next_stream_id = next_stream_id.clone();
-        let edge_id = config.edge_id.clone();
-
-        let handle = tokio::spawn(async move {
-            let listener = match TcpListener::bind(("0.0.0.0", port)).await {
-                Ok(l) => l,
-                Err(e) => {
-                    log::error!("Failed to bind port {}: {}", port, e);
-                    return;
-                }
-            };
-            log::info!("Listening on port {}", port);
-
-            loop {
-                match listener.accept().await {
-                    Ok((client_stream, client_addr)) => {
-                        let stream_id = next_stream_id.fetch_add(1, Ordering::Relaxed);
-                        let tunnel_writer = tunnel_writer.clone();
-                        let client_writers = client_writers.clone();
-                        let active_streams = active_streams.clone();
-                        let edge_id = edge_id.clone();
-
-                        active_streams.fetch_add(1, Ordering::Relaxed);
-
-                        tokio::spawn(async move {
-                            handle_client_connection(
-                                client_stream,
-                                client_addr,
-                                stream_id,
-                                port,
-                                &edge_id,
-                                tunnel_writer,
-                                client_writers,
-                            )
-                            .await;
-                            active_streams.fetch_sub(1, Ordering::Relaxed);
-                        });
-                    }
-                    Err(e) => {
-                        log::error!("Accept error on port {}: {}", port, e);
+    // QoS dual-channel tunnel writer: control frames (PONG/WINDOW_UPDATE/CLOSE/OPEN)
+    // have priority over data frames (DATA). Prevents PING starvation under load.
+    let (tunnel_ctrl_tx, mut tunnel_ctrl_rx) = mpsc::channel::<Vec<u8>>(64);
+    let (tunnel_data_tx, mut tunnel_data_rx) = mpsc::channel::<Vec<u8>>(4096);
+    // Legacy alias — control channel for PONG, CLOSE, WINDOW_UPDATE, OPEN
+    let tunnel_writer_tx = tunnel_ctrl_tx.clone();
+    let tw_token = connection_token.clone();
+    let tunnel_writer_handle = tokio::spawn(async move {
+        // BufWriter coalesces small writes (frame headers, control frames) into fewer
+        // TLS records and syscalls. Flushed after each frame to avoid holding data.
+        let mut writer = tokio::io::BufWriter::with_capacity(65536, write_half);
+        loop {
+            tokio::select! {
+                biased; // control frames always take priority over data
+                ctrl = tunnel_ctrl_rx.recv() => {
+                    match ctrl {
+                        Some(frame_data) => {
+                            if writer.write_all(&frame_data).await.is_err() { break; }
+                            if writer.flush().await.is_err() { break; }
+                        }
+                        None => break,
                     }
                 }
+                data = tunnel_data_rx.recv() => {
+                    match data {
+                        Some(frame_data) => {
+                            if writer.write_all(&frame_data).await.is_err() { break; }
+                            if writer.flush().await.is_err() { break; }
+                        }
+                        None => break,
+                    }
+                }
+                _ = tw_token.cancelled() => break,
             }
-        });
-        listener_handles.push(handle);
-    }
+        }
+    });
+
+    // Start TCP listeners for initial ports (hot-reloadable)
+    let mut port_listeners: HashMap<u16, JoinHandle<()>> = HashMap::new();
+    apply_port_config(
+        &handshake.listen_ports,
+        &mut port_listeners,
+        &tunnel_writer_tx,
+        &tunnel_data_tx,
+        &client_writers,
+        active_streams,
+        next_stream_id,
+        &config.edge_id,
+        connection_token,
+    );
+
+    // Heartbeat: liveness timeout detects silent hub failures
+    let liveness_timeout_dur = Duration::from_secs(45);
+    let mut last_activity = Instant::now();
+    let mut liveness_deadline = Box::pin(sleep_until(last_activity + liveness_timeout_dur));
 
     // Read frames from hub
-    let mut frame_reader = FrameReader::new(read_half);
+    let mut frame_reader = FrameReader::new(buf_reader);
     let result = loop {
         tokio::select! {
             frame_result = frame_reader.next_frame() => {
                 match frame_result {
                     Ok(Some(frame)) => {
+                        // Reset liveness on any received frame
+                        last_activity = Instant::now();
+                        liveness_deadline.as_mut().reset(last_activity + liveness_timeout_dur);
+
                         match frame.frame_type {
                             FRAME_DATA_BACK => {
-                                let writers = client_writers.lock().await;
-                                if let Some(tx) = writers.get(&frame.stream_id) {
-                                    let _ = tx.send(frame.payload).await;
+                                // Non-blocking dispatch to per-stream channel.
+                                // With flow control, the sender should rarely exceed the channel capacity.
+                                let mut writers = client_writers.lock().await;
+                                if let Some(state) = writers.get(&frame.stream_id) {
+                                    if state.back_tx.try_send(frame.payload).is_err() {
+                                        log::warn!("Stream {} back-channel full, closing stream", frame.stream_id);
+                                        writers.remove(&frame.stream_id);
+                                    }
+                                }
+                            }
+                            FRAME_WINDOW_UPDATE_BACK => {
+                                // Hub consumed data — increase our send window for this stream (upload direction)
+                                if let Some(increment) = decode_window_update(&frame.payload) {
+                                    if increment > 0 {
+                                        let writers = client_writers.lock().await;
+                                        if let Some(state) = writers.get(&frame.stream_id) {
+                                            let prev = state.send_window.fetch_add(increment, Ordering::Release);
+                                            if prev + increment > MAX_WINDOW_SIZE {
+                                                state.send_window.store(MAX_WINDOW_SIZE, Ordering::Release);
+                                            }
+                                            state.window_notify.notify_one();
+                                        }
+                                    }
                                 }
                             }
                             FRAME_CLOSE_BACK => {
                                 let mut writers = client_writers.lock().await;
                                 writers.remove(&frame.stream_id);
                             }
+                            FRAME_CONFIG => {
+                                if let Ok(update) = serde_json::from_slice::<ConfigUpdate>(&frame.payload) {
+                                    log::info!("Config update from hub: ports {:?}", update.listen_ports);
+                                    *listen_ports.write().await = update.listen_ports.clone();
+                                    let _ = event_tx.try_send(EdgeEvent::PortsUpdated {
+                                        listen_ports: update.listen_ports.clone(),
+                                    });
+                                    apply_port_config(
+                                        &update.listen_ports,
+                                        &mut port_listeners,
+                                        &tunnel_writer_tx,
+                                        &tunnel_data_tx,
+                                        &client_writers,
+                                        active_streams,
+                                        next_stream_id,
+                                        &config.edge_id,
+                                        connection_token,
+                                    );
+                                }
+                            }
+                            FRAME_PING => {
+                                let pong_frame = encode_frame(0, FRAME_PONG, &[]);
+                                if tunnel_writer_tx.try_send(pong_frame).is_err() {
+                                    log::warn!("Failed to send PONG, writer channel full/closed");
+                                    break EdgeLoopResult::Reconnect;
+                                }
+                                log::trace!("Received PING from hub, sent PONG");
+                            }
                             _ => {
                                 log::warn!("Unexpected frame type {} from hub", frame.frame_type);
                             }
@@ -335,29 +514,132 @@ async fn connect_to_hub_and_run(
                     }
                 }
             }
+            _ = &mut liveness_deadline => {
+                log::warn!("Hub liveness timeout (no frames for {}s), reconnecting",
+                    liveness_timeout_dur.as_secs());
+                break EdgeLoopResult::Reconnect;
+            }
+            _ = connection_token.cancelled() => {
+                log::info!("Connection cancelled");
+                break EdgeLoopResult::Shutdown;
+            }
             _ = shutdown_rx.recv() => {
                 break EdgeLoopResult::Shutdown;
             }
         }
     };
 
-    // Cleanup
+    // Cancel connection token to propagate to all child tasks BEFORE aborting
+    connection_token.cancel();
     stun_handle.abort();
-    for h in listener_handles {
+    tunnel_writer_handle.abort();
+    for (_, h) in port_listeners.drain() {
         h.abort();
     }
 
     result
 }
 
+/// Apply a new port configuration: spawn listeners for added ports, abort removed ports.
+fn apply_port_config(
+    new_ports: &[u16],
+    port_listeners: &mut HashMap<u16, JoinHandle<()>>,
+    tunnel_ctrl_tx: &mpsc::Sender<Vec<u8>>,
+    tunnel_data_tx: &mpsc::Sender<Vec<u8>>,
+    client_writers: &Arc<Mutex<HashMap<u32, EdgeStreamState>>>,
+    active_streams: &Arc<AtomicU32>,
+    next_stream_id: &Arc<AtomicU32>,
+    edge_id: &str,
+    connection_token: &CancellationToken,
+) {
+    let new_set: std::collections::HashSet<u16> = new_ports.iter().copied().collect();
+    let old_set: std::collections::HashSet<u16> = port_listeners.keys().copied().collect();
+
+    // Remove ports no longer needed
+    for &port in old_set.difference(&new_set) {
+        if let Some(handle) = port_listeners.remove(&port) {
+            log::info!("Stopping listener on port {}", port);
+            handle.abort();
+        }
+    }
+
+    // Add new ports
+    for &port in new_set.difference(&old_set) {
+        let tunnel_ctrl_tx = tunnel_ctrl_tx.clone();
+        let tunnel_data_tx = tunnel_data_tx.clone();
+        let client_writers = client_writers.clone();
+        let active_streams = active_streams.clone();
+        let next_stream_id = next_stream_id.clone();
+        let edge_id = edge_id.to_string();
+        let port_token = connection_token.child_token();
+
+        let handle = tokio::spawn(async move {
+            let listener = match TcpListener::bind(("0.0.0.0", port)).await {
+                Ok(l) => l,
+                Err(e) => {
+                    log::error!("Failed to bind port {}: {}", port, e);
+                    return;
+                }
+            };
+            log::info!("Listening on port {}", port);
+
+            loop {
+                tokio::select! {
+                    accept_result = listener.accept() => {
+                        match accept_result {
+                            Ok((client_stream, client_addr)) => {
+                                let stream_id = next_stream_id.fetch_add(1, Ordering::Relaxed);
+                                let tunnel_ctrl_tx = tunnel_ctrl_tx.clone();
+                                let tunnel_data_tx = tunnel_data_tx.clone();
+                                let client_writers = client_writers.clone();
+                                let active_streams = active_streams.clone();
+                                let edge_id = edge_id.clone();
+                                let client_token = port_token.child_token();
+
+                                active_streams.fetch_add(1, Ordering::Relaxed);
+
+                                tokio::spawn(async move {
+                                    handle_client_connection(
+                                        client_stream,
+                                        client_addr,
+                                        stream_id,
+                                        port,
+                                        &edge_id,
+                                        tunnel_ctrl_tx,
+                                        tunnel_data_tx,
+                                        client_writers,
+                                        client_token,
+                                    )
+                                    .await;
+                                    active_streams.fetch_sub(1, Ordering::Relaxed);
+                                });
+                            }
+                            Err(e) => {
+                                log::error!("Accept error on port {}: {}", port, e);
+                            }
+                        }
+                    }
+                    _ = port_token.cancelled() => {
+                        log::info!("Port {} listener cancelled", port);
+                        break;
+                    }
+                }
+            }
+        });
+        port_listeners.insert(port, handle);
+    }
+}
+
 async fn handle_client_connection(
     client_stream: TcpStream,
     client_addr: std::net::SocketAddr,
     stream_id: u32,
     dest_port: u16,
     edge_id: &str,
-    tunnel_writer: Arc<Mutex<tokio::io::WriteHalf<tokio_rustls::client::TlsStream<TcpStream>>>>,
-    client_writers: Arc<Mutex<HashMap<u32, mpsc::Sender<Vec<u8>>>>>,
+    tunnel_ctrl_tx: mpsc::Sender<Vec<u8>>,
+    tunnel_data_tx: mpsc::Sender<Vec<u8>>,
+    client_writers: Arc<Mutex<HashMap<u32, EdgeStreamState>>>,
+    client_token: CancellationToken,
 ) {
     let client_ip = client_addr.ip().to_string();
     let client_port = client_addr.port();
@@ -365,67 +647,314 @@ async fn handle_client_connection(
     // Determine edge IP (use 0.0.0.0 as placeholder — hub doesn't use it for routing)
     let edge_ip = "0.0.0.0";
 
-    // Send OPEN frame with PROXY v1 header
+    // Send OPEN frame with PROXY v1 header via control channel
     let proxy_header = build_proxy_v1_header(&client_ip, edge_ip, client_port, dest_port);
     let open_frame = encode_frame(stream_id, FRAME_OPEN, proxy_header.as_bytes());
-    {
-        let mut w = tunnel_writer.lock().await;
-        if w.write_all(&open_frame).await.is_err() {
-            return;
-        }
+    if tunnel_ctrl_tx.send(open_frame).await.is_err() {
+        return;
     }
 
-    // Set up channel for data coming back from hub
+    // Set up channel for data coming back from hub (capacity 16 is sufficient with flow control)
     let (back_tx, mut back_rx) = mpsc::channel::<Vec<u8>>(256);
+    let send_window = Arc::new(AtomicU32::new(INITIAL_STREAM_WINDOW));
+    let window_notify = Arc::new(Notify::new());
     {
         let mut writers = client_writers.lock().await;
-        writers.insert(stream_id, back_tx);
+        writers.insert(stream_id, EdgeStreamState {
+            back_tx,
+            send_window: Arc::clone(&send_window),
+            window_notify: Arc::clone(&window_notify),
+        });
     }
 
     let (mut client_read, mut client_write) = client_stream.into_split();
 
-    // Task: hub -> client
-    let hub_to_client = tokio::spawn(async move {
-        while let Some(data) = back_rx.recv().await {
-            if client_write.write_all(&data).await.is_err() {
-                break;
+    // Task: hub -> client (download direction)
+    // After writing to client TCP, send WINDOW_UPDATE to hub so it can send more
+    let hub_to_client_token = client_token.clone();
+    let wu_tx = tunnel_ctrl_tx.clone();
+    let mut hub_to_client = tokio::spawn(async move {
+        let mut consumed_since_update: u32 = 0;
+        loop {
+            tokio::select! {
+                data = back_rx.recv() => {
+                    match data {
+                        Some(data) => {
+                            let len = data.len() as u32;
+                            if client_write.write_all(&data).await.is_err() {
+                                break;
+                            }
+                            // Track consumption for flow control
+                            consumed_since_update += len;
+                            if consumed_since_update >= WINDOW_UPDATE_THRESHOLD {
+                                let frame = encode_window_update(stream_id, FRAME_WINDOW_UPDATE, consumed_since_update);
+                                if wu_tx.try_send(frame).is_ok() {
+                                    consumed_since_update = 0;
+                                }
+                                // If try_send fails, keep accumulating — retry on next threshold
+                            }
+                        }
+                        None => break,
+                    }
+                }
+                _ = hub_to_client_token.cancelled() => break,
             }
         }
+        // Send final window update for any remaining consumed bytes
+        if consumed_since_update > 0 {
+            let frame = encode_window_update(stream_id, FRAME_WINDOW_UPDATE, consumed_since_update);
+            let _ = wu_tx.try_send(frame);
+        }
         let _ = client_write.shutdown().await;
     });
 
-    // Task: client -> hub
+    // Task: client -> hub (upload direction) with per-stream flow control
     let mut buf = vec![0u8; 32768];
     loop {
-        match client_read.read(&mut buf).await {
-            Ok(0) => break,
-            Ok(n) => {
-                let data_frame = encode_frame(stream_id, FRAME_DATA, &buf[..n]);
-                let mut w = tunnel_writer.lock().await;
-                if w.write_all(&data_frame).await.is_err() {
+        // Wait for send window to have capacity (with stall timeout)
+        loop {
+            let w = send_window.load(Ordering::Acquire);
+            if w > 0 { break; }
+            tokio::select! {
+                _ = window_notify.notified() => continue,
+                _ = client_token.cancelled() => break,
+                _ = tokio::time::sleep(Duration::from_secs(120)) => {
+                    log::warn!("Stream {} upload stalled (window empty for 120s)", stream_id);
                     break;
                 }
             }
-            Err(_) => break,
+        }
+        if client_token.is_cancelled() { break; }
+
+        // Limit read size to available window
+        let w = send_window.load(Ordering::Acquire) as usize;
+        let max_read = w.min(buf.len());
+
+        tokio::select! {
+            read_result = client_read.read(&mut buf[..max_read]) => {
+                match read_result {
+                    Ok(0) => break,
+                    Ok(n) => {
+                        send_window.fetch_sub(n as u32, Ordering::Release);
+                        let data_frame = encode_frame(stream_id, FRAME_DATA, &buf[..n]);
+                        if tunnel_data_tx.send(data_frame).await.is_err() {
+                            log::warn!("Stream {} data channel closed, closing", stream_id);
+                            break;
+                        }
+                    }
+                    Err(_) => break,
+                }
+            }
+            _ = client_token.cancelled() => break,
         }
     }
 
-    // Send CLOSE frame
-    let close_frame = encode_frame(stream_id, FRAME_CLOSE, &[]);
-    {
-        let mut w = tunnel_writer.lock().await;
-        let _ = w.write_all(&close_frame).await;
+    // Wait for the download task (hub → client) to finish BEFORE sending CLOSE.
+    // Upload EOF (client done sending) does NOT mean the response is done.
+    // For asymmetric transfers like git fetch (small request, large response),
+    // the response is still streaming when the upload finishes.
+    // Sending CLOSE before the response finishes would cause the hub to cancel
+    // the upstream reader mid-response, truncating the data.
+    let _ = tokio::time::timeout(
+        Duration::from_secs(300),  // 5 min max wait for download to finish
+        &mut hub_to_client,
+    ).await;
+
+    // NOW send CLOSE — the response has been fully delivered (or timed out).
+    if !client_token.is_cancelled() {
+        let close_frame = encode_frame(stream_id, FRAME_CLOSE, &[]);
+        let _ = tunnel_data_tx.send(close_frame).await;
     }
 
-    // Cleanup
+    // Clean up
     {
         let mut writers = client_writers.lock().await;
         writers.remove(&stream_id);
     }
-    hub_to_client.abort();
+    hub_to_client.abort(); // No-op if already finished; safety net if timeout fired
     let _ = edge_id; // used for logging context
 }
 
+#[cfg(test)]
+mod tests {
+    use super::*;
+
+    // --- Serde tests ---
+
+    #[test]
+    fn test_edge_config_deserialize_camel_case() {
+        let json = r#"{
+            "hubHost": "hub.example.com",
+            "hubPort": 8443,
+            "edgeId": "edge-1",
+            "secret": "my-secret"
+        }"#;
+        let config: EdgeConfig = serde_json::from_str(json).unwrap();
+        assert_eq!(config.hub_host, "hub.example.com");
+        assert_eq!(config.hub_port, 8443);
+        assert_eq!(config.edge_id, "edge-1");
+        assert_eq!(config.secret, "my-secret");
+    }
+
+    #[test]
+    fn test_edge_config_serialize_roundtrip() {
+        let config = EdgeConfig {
+            hub_host: "host.test".to_string(),
+            hub_port: 9999,
+            edge_id: "e1".to_string(),
+            secret: "sec".to_string(),
+        };
+        let json = serde_json::to_string(&config).unwrap();
+        let back: EdgeConfig = serde_json::from_str(&json).unwrap();
+        assert_eq!(back.hub_host, config.hub_host);
+        assert_eq!(back.hub_port, config.hub_port);
+        assert_eq!(back.edge_id, config.edge_id);
+        assert_eq!(back.secret, config.secret);
+    }
+
+    #[test]
+    fn test_handshake_config_deserialize_all_fields() {
+        let json = r#"{"listenPorts": [80, 443], "stunIntervalSecs": 120}"#;
+        let hc: HandshakeConfig = serde_json::from_str(json).unwrap();
+        assert_eq!(hc.listen_ports, vec![80, 443]);
+        assert_eq!(hc.stun_interval_secs, 120);
+    }
+
+    #[test]
+    fn test_handshake_config_default_stun_interval() {
+        let json = r#"{"listenPorts": [443]}"#;
+        let hc: HandshakeConfig = serde_json::from_str(json).unwrap();
+        assert_eq!(hc.listen_ports, vec![443]);
+        assert_eq!(hc.stun_interval_secs, 300);
+    }
+
+    #[test]
+    fn test_config_update_deserialize() {
+        let json = r#"{"listenPorts": [8080, 9090]}"#;
+        let update: ConfigUpdate = serde_json::from_str(json).unwrap();
+        assert_eq!(update.listen_ports, vec![8080, 9090]);
+    }
+
+    #[test]
+    fn test_edge_status_serialize() {
+        let status = EdgeStatus {
+            running: true,
+            connected: true,
+            public_ip: Some("1.2.3.4".to_string()),
+            active_streams: 5,
+            listen_ports: vec![443],
+        };
+        let json = serde_json::to_value(&status).unwrap();
+        assert_eq!(json["running"], true);
+        assert_eq!(json["connected"], true);
+        assert_eq!(json["publicIp"], "1.2.3.4");
+        assert_eq!(json["activeStreams"], 5);
+        assert_eq!(json["listenPorts"], serde_json::json!([443]));
+    }
+
+    #[test]
+    fn test_edge_status_serialize_none_ip() {
+        let status = EdgeStatus {
+            running: false,
+            connected: false,
+            public_ip: None,
+            active_streams: 0,
+            listen_ports: vec![],
+        };
+        let json = serde_json::to_value(&status).unwrap();
+        assert!(json["publicIp"].is_null());
+    }
+
+    #[test]
+    fn test_edge_event_tunnel_connected() {
+        let event = EdgeEvent::TunnelConnected;
+        let json = serde_json::to_value(&event).unwrap();
+        assert_eq!(json["type"], "tunnelConnected");
+    }
+
+    #[test]
+    fn test_edge_event_tunnel_disconnected() {
+        let event = EdgeEvent::TunnelDisconnected;
+        let json = serde_json::to_value(&event).unwrap();
+        assert_eq!(json["type"], "tunnelDisconnected");
+    }
+
+    #[test]
+    fn test_edge_event_public_ip_discovered() {
+        let event = EdgeEvent::PublicIpDiscovered {
+            ip: "203.0.113.1".to_string(),
+        };
+        let json = serde_json::to_value(&event).unwrap();
+        assert_eq!(json["type"], "publicIpDiscovered");
+        assert_eq!(json["ip"], "203.0.113.1");
+    }
+
+    #[test]
+    fn test_edge_event_ports_assigned() {
+        let event = EdgeEvent::PortsAssigned {
+            listen_ports: vec![443, 8080],
+        };
+        let json = serde_json::to_value(&event).unwrap();
+        assert_eq!(json["type"], "portsAssigned");
+        assert_eq!(json["listenPorts"], serde_json::json!([443, 8080]));
+    }
+
+    #[test]
+    fn test_edge_event_ports_updated() {
+        let event = EdgeEvent::PortsUpdated {
+            listen_ports: vec![9090],
+        };
+        let json = serde_json::to_value(&event).unwrap();
+        assert_eq!(json["type"], "portsUpdated");
+        assert_eq!(json["listenPorts"], serde_json::json!([9090]));
+    }
+
+    // --- Async tests ---
+
+    #[tokio::test]
+    async fn test_tunnel_edge_new_get_status() {
+        let edge = TunnelEdge::new(EdgeConfig {
+            hub_host: "localhost".to_string(),
+            hub_port: 8443,
+            edge_id: "test-edge".to_string(),
+            secret: "test-secret".to_string(),
+        });
+        let status = edge.get_status().await;
+        assert!(!status.running);
+        assert!(!status.connected);
+        assert!(status.public_ip.is_none());
+        assert_eq!(status.active_streams, 0);
+        assert!(status.listen_ports.is_empty());
+    }
+
+    #[tokio::test]
+    async fn test_tunnel_edge_take_event_rx() {
+        let edge = TunnelEdge::new(EdgeConfig {
+            hub_host: "localhost".to_string(),
+            hub_port: 8443,
+            edge_id: "e".to_string(),
+            secret: "s".to_string(),
+        });
+        let rx1 = edge.take_event_rx().await;
+        assert!(rx1.is_some());
+        let rx2 = edge.take_event_rx().await;
+        assert!(rx2.is_none());
+    }
+
+    #[tokio::test]
+    async fn test_tunnel_edge_stop_without_start() {
+        let edge = TunnelEdge::new(EdgeConfig {
+            hub_host: "localhost".to_string(),
+            hub_port: 8443,
+            edge_id: "e".to_string(),
+            secret: "s".to_string(),
+        });
+        edge.stop().await; // should not panic
+        let status = edge.get_status().await;
+        assert!(!status.running);
+    }
+}
+
 /// TLS certificate verifier that accepts any certificate (auth is via shared secret).
 #[derive(Debug)]
 struct NoCertVerifier;

rust/crates/remoteingress-core/src/hub.rs

@@ -1,22 +1,39 @@
 use std::collections::HashMap;
 use std::sync::Arc;
+use std::sync::atomic::{AtomicU32, Ordering};
+use std::time::Duration;
 use tokio::io::{AsyncBufReadExt, AsyncReadExt, AsyncWriteExt, BufReader};
 use tokio::net::{TcpListener, TcpStream};
-use tokio::sync::{mpsc, Mutex, RwLock};
+use tokio::sync::{mpsc, Mutex, Notify, RwLock, Semaphore};
+use tokio::time::{interval, sleep_until, Instant};
 use tokio_rustls::TlsAcceptor;
+use tokio_util::sync::CancellationToken;
 use serde::{Deserialize, Serialize};
 
 use remoteingress_protocol::*;
 
+/// Per-stream state tracked in the hub's stream map.
+struct HubStreamState {
+    /// Channel to deliver FRAME_DATA payloads to the upstream writer task.
+    data_tx: mpsc::Sender<Vec<u8>>,
+    /// Cancellation token for this stream.
+    cancel_token: CancellationToken,
+    /// Send window for FRAME_DATA_BACK (download direction).
+    /// Decremented by the upstream reader, incremented by FRAME_WINDOW_UPDATE from edge.
+    send_window: Arc<AtomicU32>,
+    /// Notifier to wake the upstream reader when the window opens.
+    window_notify: Arc<Notify>,
+}
+
 /// Hub configuration.
 #[derive(Debug, Clone, Deserialize, Serialize)]
 #[serde(rename_all = "camelCase")]
 pub struct HubConfig {
     pub tunnel_port: u16,
     pub target_host: Option<String>,
-    #[serde(skip)]
+    #[serde(default)]
     pub tls_cert_pem: Option<String>,
-    #[serde(skip)]
+    #[serde(default)]
     pub tls_key_pem: Option<String>,
 }
 
@@ -37,6 +54,24 @@ impl Default for HubConfig {
 pub struct AllowedEdge {
     pub id: String,
     pub secret: String,
+    #[serde(default)]
+    pub listen_ports: Vec<u16>,
+    pub stun_interval_secs: Option<u64>,
+}
+
+/// Handshake response sent to edge after authentication.
+#[derive(Debug, Clone, Serialize)]
+#[serde(rename_all = "camelCase")]
+struct HandshakeResponse {
+    listen_ports: Vec<u16>,
+    stun_interval_secs: u64,
+}
+
+/// Configuration update pushed to a connected edge at runtime.
+#[derive(Debug, Clone, Serialize)]
+#[serde(rename_all = "camelCase")]
+pub struct EdgeConfigUpdate {
+    pub listen_ports: Vec<u16>,
 }
 
 /// Runtime status of a connected edge.
@@ -46,6 +81,7 @@ pub struct ConnectedEdgeStatus {
     pub edge_id: String,
     pub connected_at: u64,
     pub active_streams: usize,
+    pub peer_addr: String,
 }
 
 /// Events emitted by the hub.
@@ -54,7 +90,7 @@ pub struct ConnectedEdgeStatus {
 #[serde(tag = "type")]
 pub enum HubEvent {
     #[serde(rename_all = "camelCase")]
-    EdgeConnected { edge_id: String },
+    EdgeConnected { edge_id: String, peer_addr: String },
     #[serde(rename_all = "camelCase")]
     EdgeDisconnected { edge_id: String },
     #[serde(rename_all = "camelCase")]
@@ -75,22 +111,27 @@ pub struct HubStatus {
 /// The tunnel hub that accepts edge connections and demuxes streams to SmartProxy.
 pub struct TunnelHub {
     config: RwLock<HubConfig>,
-    allowed_edges: Arc<RwLock<HashMap<String, String>>>, // id -> secret
+    allowed_edges: Arc<RwLock<HashMap<String, AllowedEdge>>>,
     connected_edges: Arc<Mutex<HashMap<String, ConnectedEdgeInfo>>>,
-    event_tx: mpsc::UnboundedSender<HubEvent>,
-    event_rx: Mutex<Option<mpsc::UnboundedReceiver<HubEvent>>>,
+    event_tx: mpsc::Sender<HubEvent>,
+    event_rx: Mutex<Option<mpsc::Receiver<HubEvent>>>,
     shutdown_tx: Mutex<Option<mpsc::Sender<()>>>,
     running: RwLock<bool>,
+    cancel_token: CancellationToken,
 }
 
 struct ConnectedEdgeInfo {
     connected_at: u64,
-    active_streams: Arc<Mutex<HashMap<u32, mpsc::Sender<Vec<u8>>>>>,
+    peer_addr: String,
+    active_streams: Arc<Mutex<HashMap<u32, HubStreamState>>>,
+    config_tx: mpsc::Sender<EdgeConfigUpdate>,
+    #[allow(dead_code)] // kept alive for Drop — cancels child tokens when edge is removed
+    cancel_token: CancellationToken,
 }
 
 impl TunnelHub {
     pub fn new(config: HubConfig) -> Self {
-        let (event_tx, event_rx) = mpsc::unbounded_channel();
+        let (event_tx, event_rx) = mpsc::channel(1024);
         Self {
             config: RwLock::new(config),
             allowed_edges: Arc::new(RwLock::new(HashMap::new())),
@@ -99,21 +140,45 @@ impl TunnelHub {
             event_rx: Mutex::new(Some(event_rx)),
             shutdown_tx: Mutex::new(None),
             running: RwLock::new(false),
+            cancel_token: CancellationToken::new(),
         }
     }
 
     /// Take the event receiver (can only be called once).
-    pub async fn take_event_rx(&self) -> Option<mpsc::UnboundedReceiver<HubEvent>> {
+    pub async fn take_event_rx(&self) -> Option<mpsc::Receiver<HubEvent>> {
         self.event_rx.lock().await.take()
     }
 
     /// Update the list of allowed edges.
+    /// For any currently-connected edge whose ports changed, push a config update.
     pub async fn update_allowed_edges(&self, edges: Vec<AllowedEdge>) {
         let mut map = self.allowed_edges.write().await;
-        map.clear();
-        for edge in edges {
-            map.insert(edge.id, edge.secret);
+
+        // Build new map
+        let mut new_map = HashMap::new();
+        for edge in &edges {
+            new_map.insert(edge.id.clone(), edge.clone());
         }
+
+        // Push config updates to connected edges whose ports changed
+        let connected = self.connected_edges.lock().await;
+        for edge in &edges {
+            if let Some(info) = connected.get(&edge.id) {
+                // Check if ports changed compared to old config
+                let ports_changed = match map.get(&edge.id) {
+                    Some(old) => old.listen_ports != edge.listen_ports,
+                    None => true, // newly allowed edge that's already connected
+                };
+                if ports_changed {
+                    let update = EdgeConfigUpdate {
+                        listen_ports: edge.listen_ports.clone(),
+                    };
+                    let _ = info.config_tx.try_send(update);
+                }
+            }
+        }
+
+        *map = new_map;
     }
 
     /// Get the current hub status.
@@ -129,6 +194,7 @@ impl TunnelHub {
                 edge_id: id.clone(),
                 connected_at: info.connected_at,
                 active_streams: streams.len(),
+                peer_addr: info.peer_addr.clone(),
             });
         }
 
@@ -156,6 +222,7 @@ impl TunnelHub {
         let connected = self.connected_edges.clone();
         let event_tx = self.event_tx.clone();
         let target_host = config.target_host.unwrap_or_else(|| "127.0.0.1".to_string());
+        let hub_token = self.cancel_token.clone();
 
         tokio::spawn(async move {
             loop {
@@ -169,9 +236,11 @@ impl TunnelHub {
                                 let connected = connected.clone();
                                 let event_tx = event_tx.clone();
                                 let target = target_host.clone();
+                                let edge_token = hub_token.child_token();
+                                let peer_addr = addr.ip().to_string();
                                 tokio::spawn(async move {
                                     if let Err(e) = handle_edge_connection(
-                                        stream, acceptor, allowed, connected, event_tx, target,
+                                        stream, acceptor, allowed, connected, event_tx, target, edge_token, peer_addr,
                                     ).await {
                                         log::error!("Edge connection error: {}", e);
                                     }
@@ -182,6 +251,10 @@ impl TunnelHub {
                             }
                         }
                     }
+                    _ = hub_token.cancelled() => {
+                        log::info!("Hub shutting down (token cancelled)");
+                        break;
+                    }
                     _ = shutdown_rx.recv() => {
                         log::info!("Hub shutting down");
                         break;
@@ -195,6 +268,7 @@ impl TunnelHub {
 
     /// Stop the hub.
     pub async fn stop(&self) {
+        self.cancel_token.cancel();
         if let Some(tx) = self.shutdown_tx.lock().await.take() {
             let _ = tx.send(()).await;
         }
@@ -204,17 +278,30 @@ impl TunnelHub {
     }
 }
 
+impl Drop for TunnelHub {
+    fn drop(&mut self) {
+        self.cancel_token.cancel();
+    }
+}
+
+/// Maximum concurrent streams per edge connection.
+const MAX_STREAMS_PER_EDGE: usize = 1024;
+
 /// Handle a single edge connection: authenticate, then enter frame loop.
 async fn handle_edge_connection(
     stream: TcpStream,
     acceptor: TlsAcceptor,
-    allowed: Arc<RwLock<HashMap<String, String>>>,
+    allowed: Arc<RwLock<HashMap<String, AllowedEdge>>>,
     connected: Arc<Mutex<HashMap<String, ConnectedEdgeInfo>>>,
-    event_tx: mpsc::UnboundedSender<HubEvent>,
+    event_tx: mpsc::Sender<HubEvent>,
     target_host: String,
+    edge_token: CancellationToken,
+    peer_addr: String,
 ) -> Result<(), Box<dyn std::error::Error + Send + Sync>> {
+    // Disable Nagle's algorithm for low-latency control frames (PING/PONG, WINDOW_UPDATE)
+    stream.set_nodelay(true)?;
     let tls_stream = acceptor.accept(stream).await?;
-    let (read_half, write_half) = tokio::io::split(tls_stream);
+    let (read_half, mut write_half) = tokio::io::split(tls_stream);
     let mut buf_reader = BufReader::new(read_half);
 
     // Read auth line: "EDGE <edgeId> <secret>\n"
@@ -230,179 +317,434 @@ async fn handle_edge_connection(
     let edge_id = parts[1].to_string();
     let secret = parts[2];
 
-    // Verify credentials
-    {
+    // Verify credentials and extract edge config
+    let (listen_ports, stun_interval_secs) = {
         let edges = allowed.read().await;
         match edges.get(&edge_id) {
-            Some(expected) => {
-                if !constant_time_eq(secret.as_bytes(), expected.as_bytes()) {
+            Some(edge) => {
+                if !constant_time_eq(secret.as_bytes(), edge.secret.as_bytes()) {
                     return Err(format!("invalid secret for edge {}", edge_id).into());
                 }
+                (edge.listen_ports.clone(), edge.stun_interval_secs.unwrap_or(300))
             }
             None => {
                 return Err(format!("unknown edge {}", edge_id).into());
             }
         }
-    }
+    };
 
-    log::info!("Edge {} authenticated", edge_id);
-    let _ = event_tx.send(HubEvent::EdgeConnected {
+    log::info!("Edge {} authenticated from {}", edge_id, peer_addr);
+    let _ = event_tx.try_send(HubEvent::EdgeConnected {
         edge_id: edge_id.clone(),
+        peer_addr: peer_addr.clone(),
     });
 
+    // Send handshake response with initial config before frame protocol begins
+    let handshake = HandshakeResponse {
+        listen_ports: listen_ports.clone(),
+        stun_interval_secs,
+    };
+    let mut handshake_json = serde_json::to_string(&handshake)?;
+    handshake_json.push('\n');
+    write_half.write_all(handshake_json.as_bytes()).await?;
+
     // Track this edge
-    let streams: Arc<Mutex<HashMap<u32, mpsc::Sender<Vec<u8>>>>> =
+    let streams: Arc<Mutex<HashMap<u32, HubStreamState>>> =
         Arc::new(Mutex::new(HashMap::new()));
     let now = std::time::SystemTime::now()
         .duration_since(std::time::UNIX_EPOCH)
         .unwrap_or_default()
         .as_secs();
 
+    // Create config update channel
+    let (config_tx, mut config_rx) = mpsc::channel::<EdgeConfigUpdate>(16);
+
     {
         let mut edges = connected.lock().await;
         edges.insert(
             edge_id.clone(),
             ConnectedEdgeInfo {
                 connected_at: now,
+                peer_addr,
                 active_streams: streams.clone(),
+                config_tx,
+                cancel_token: edge_token.clone(),
             },
         );
     }
 
-    // Shared writer for sending frames back to edge
-    let write_half = Arc::new(Mutex::new(write_half));
+    // QoS dual-channel tunnel writer: control frames (PING/PONG/WINDOW_UPDATE/CLOSE)
+    // have priority over data frames (DATA_BACK). This prevents PING starvation under load.
+    let (ctrl_tx, mut ctrl_rx) = mpsc::channel::<Vec<u8>>(64);
+    let (data_tx, mut data_rx) = mpsc::channel::<Vec<u8>>(4096);
+    // Legacy alias for code that sends both control and data (will be migrated)
+    let frame_writer_tx = ctrl_tx.clone();
+    let writer_token = edge_token.clone();
+    let writer_handle = tokio::spawn(async move {
+        // BufWriter coalesces small writes (frame headers, control frames) into fewer
+        // TLS records and syscalls. Flushed after each frame to avoid holding data.
+        let mut writer = tokio::io::BufWriter::with_capacity(65536, write_half);
+        loop {
+            tokio::select! {
+                biased; // control frames always take priority over data
+                ctrl = ctrl_rx.recv() => {
+                    match ctrl {
+                        Some(frame_data) => {
+                            if writer.write_all(&frame_data).await.is_err() { break; }
+                            if writer.flush().await.is_err() { break; }
+                        }
+                        None => break,
+                    }
+                }
+                data = data_rx.recv() => {
+                    match data {
+                        Some(frame_data) => {
+                            if writer.write_all(&frame_data).await.is_err() { break; }
+                            if writer.flush().await.is_err() { break; }
+                        }
+                        None => break,
+                    }
+                }
+                _ = writer_token.cancelled() => break,
+            }
+        }
+    });
+
+    // Spawn task to forward config updates as FRAME_CONFIG frames
+    let config_writer_tx = frame_writer_tx.clone();
+    let config_edge_id = edge_id.clone();
+    let config_token = edge_token.clone();
+    let config_handle = tokio::spawn(async move {
+        loop {
+            tokio::select! {
+                update = config_rx.recv() => {
+                    match update {
+                        Some(update) => {
+                            if let Ok(payload) = serde_json::to_vec(&update) {
+                                let frame = encode_frame(0, FRAME_CONFIG, &payload);
+                                if config_writer_tx.send(frame).await.is_err() {
+                                    log::error!("Failed to send config update to edge {}", config_edge_id);
+                                    break;
+                                }
+                                log::info!("Sent config update to edge {}: ports {:?}", config_edge_id, update.listen_ports);
+                            }
+                        }
+                        None => break,
+                    }
+                }
+                _ = config_token.cancelled() => break,
+            }
+        }
+    });
+
+    // A4: Semaphore to limit concurrent streams per edge
+    let stream_semaphore = Arc::new(Semaphore::new(MAX_STREAMS_PER_EDGE));
+
+    // Heartbeat: periodic PING and liveness timeout
+    let ping_interval_dur = Duration::from_secs(15);
+    let liveness_timeout_dur = Duration::from_secs(45);
+    let mut ping_ticker = interval(ping_interval_dur);
+    ping_ticker.tick().await; // consume the immediate first tick
+    let mut last_activity = Instant::now();
+    let mut liveness_deadline = Box::pin(sleep_until(last_activity + liveness_timeout_dur));
 
     // Frame reading loop
     let mut frame_reader = FrameReader::new(buf_reader);
 
     loop {
-        match frame_reader.next_frame().await {
-            Ok(Some(frame)) => {
-                match frame.frame_type {
-                    FRAME_OPEN => {
-                        // Payload is PROXY v1 header line
-                        let proxy_header = String::from_utf8_lossy(&frame.payload).to_string();
+        tokio::select! {
+            frame_result = frame_reader.next_frame() => {
+                match frame_result {
+                    Ok(Some(frame)) => {
+                        // Reset liveness on any received frame
+                        last_activity = Instant::now();
+                        liveness_deadline.as_mut().reset(last_activity + liveness_timeout_dur);
 
-                        // Parse destination port from PROXY header
-                        let dest_port = parse_dest_port_from_proxy(&proxy_header).unwrap_or(443);
-
-                        let stream_id = frame.stream_id;
-                        let edge_id_clone = edge_id.clone();
-                        let event_tx_clone = event_tx.clone();
-                        let streams_clone = streams.clone();
-                        let writer_clone = write_half.clone();
-                        let target = target_host.clone();
-
-                        let _ = event_tx.send(HubEvent::StreamOpened {
-                            edge_id: edge_id.clone(),
-                            stream_id,
-                        });
-
-                        // Create channel for data from edge to this stream
-                        let (data_tx, mut data_rx) = mpsc::channel::<Vec<u8>>(256);
-                        {
-                            let mut s = streams.lock().await;
-                            s.insert(stream_id, data_tx);
-                        }
-
-                        // Spawn task: connect to SmartProxy, send PROXY header, pipe data
-                        tokio::spawn(async move {
-                            let result = async {
-                                let mut upstream =
-                                    TcpStream::connect((target.as_str(), dest_port)).await?;
-                                upstream.write_all(proxy_header.as_bytes()).await?;
-
-                                let (mut up_read, mut up_write) =
-                                    upstream.into_split();
-
-                                // Forward data from edge (via channel) to SmartProxy
-                                let writer_for_edge_data = tokio::spawn(async move {
-                                    while let Some(data) = data_rx.recv().await {
-                                        if up_write.write_all(&data).await.is_err() {
-                                            break;
-                                        }
+                        match frame.frame_type {
+                            FRAME_OPEN => {
+                                // A4: Check stream limit before processing
+                                let permit = match stream_semaphore.clone().try_acquire_owned() {
+                                    Ok(p) => p,
+                                    Err(_) => {
+                                        log::warn!("Edge {} exceeded max streams ({}), rejecting stream {}",
+                                            edge_id, MAX_STREAMS_PER_EDGE, frame.stream_id);
+                                        let close_frame = encode_frame(frame.stream_id, FRAME_CLOSE_BACK, &[]);
+                                        let _ = frame_writer_tx.try_send(close_frame);
+                                        continue;
                                     }
-                                    let _ = up_write.shutdown().await;
+                                };
+
+                                // Payload is PROXY v1 header line
+                                let proxy_header = String::from_utf8_lossy(&frame.payload).to_string();
+
+                                // Parse destination port from PROXY header
+                                let dest_port = parse_dest_port_from_proxy(&proxy_header).unwrap_or(443);
+
+                                let stream_id = frame.stream_id;
+                                let edge_id_clone = edge_id.clone();
+                                let event_tx_clone = event_tx.clone();
+                                let streams_clone = streams.clone();
+                                let writer_tx = ctrl_tx.clone();   // control: CLOSE_BACK, WINDOW_UPDATE_BACK
+                                let data_writer_tx = data_tx.clone(); // data: DATA_BACK
+                                let target = target_host.clone();
+                                let stream_token = edge_token.child_token();
+
+                                let _ = event_tx.try_send(HubEvent::StreamOpened {
+                                    edge_id: edge_id.clone(),
+                                    stream_id,
                                 });
 
-                                // Forward data from SmartProxy back to edge
-                                let mut buf = vec![0u8; 32768];
-                                loop {
-                                    match up_read.read(&mut buf).await {
-                                        Ok(0) => break,
-                                        Ok(n) => {
-                                            let frame =
-                                                encode_frame(stream_id, FRAME_DATA_BACK, &buf[..n]);
-                                            let mut w = writer_clone.lock().await;
-                                            if w.write_all(&frame).await.is_err() {
-                                                break;
-                                            }
-                                        }
-                                        Err(_) => break,
-                                    }
+                                // Create channel for data from edge to this stream (capacity 16 is sufficient with flow control)
+                                let (data_tx, mut data_rx) = mpsc::channel::<Vec<u8>>(256);
+                                let send_window = Arc::new(AtomicU32::new(INITIAL_STREAM_WINDOW));
+                                let window_notify = Arc::new(Notify::new());
+                                {
+                                    let mut s = streams.lock().await;
+                                    s.insert(stream_id, HubStreamState {
+                                        data_tx,
+                                        cancel_token: stream_token.clone(),
+                                        send_window: Arc::clone(&send_window),
+                                        window_notify: Arc::clone(&window_notify),
+                                    });
                                 }
 
-                                // Send CLOSE_BACK to edge
-                                let close_frame = encode_frame(stream_id, FRAME_CLOSE_BACK, &[]);
-                                let mut w = writer_clone.lock().await;
-                                let _ = w.write_all(&close_frame).await;
+                                // Spawn task: connect to SmartProxy, send PROXY header, pipe data
+                                tokio::spawn(async move {
+                                    let _permit = permit; // hold semaphore permit until stream completes
 
-                                writer_for_edge_data.abort();
-                                Ok::<(), Box<dyn std::error::Error + Send + Sync>>(())
-                            }
-                            .await;
+                                    let result = async {
+                                        // A2: Connect to SmartProxy with timeout
+                                        let mut upstream = tokio::time::timeout(
+                                            Duration::from_secs(10),
+                                            TcpStream::connect((target.as_str(), dest_port)),
+                                        )
+                                        .await
+                                        .map_err(|_| -> Box<dyn std::error::Error + Send + Sync> {
+                                            format!("connect to SmartProxy {}:{} timed out (10s)", target, dest_port).into()
+                                        })??;
 
-                            if let Err(e) = result {
-                                log::error!("Stream {} error: {}", stream_id, e);
-                                // Send CLOSE_BACK on error
-                                let close_frame = encode_frame(stream_id, FRAME_CLOSE_BACK, &[]);
-                                let mut w = writer_clone.lock().await;
-                                let _ = w.write_all(&close_frame).await;
-                            }
+                                        upstream.set_nodelay(true)?;
+                                        upstream.write_all(proxy_header.as_bytes()).await?;
 
-                            // Clean up stream
-                            {
-                                let mut s = streams_clone.lock().await;
-                                s.remove(&stream_id);
+                                        let (mut up_read, mut up_write) =
+                                            upstream.into_split();
+
+                                        // Forward data from edge (via channel) to SmartProxy
+                                        // After writing to upstream, send WINDOW_UPDATE_BACK to edge
+                                        let writer_token = stream_token.clone();
+                                        let wub_tx = writer_tx.clone();
+                                        let writer_for_edge_data = tokio::spawn(async move {
+                                            let mut consumed_since_update: u32 = 0;
+                                            loop {
+                                                tokio::select! {
+                                                    data = data_rx.recv() => {
+                                                        match data {
+                                                            Some(data) => {
+                                                                let len = data.len() as u32;
+                                                                // Check cancellation alongside the write so we respond
+                                                                // promptly to FRAME_CLOSE instead of blocking up to 60s.
+                                                                let write_result = tokio::select! {
+                                                                    r = tokio::time::timeout(
+                                                                        Duration::from_secs(60),
+                                                                        up_write.write_all(&data),
+                                                                    ) => r,
+                                                                    _ = writer_token.cancelled() => break,
+                                                                };
+                                                                match write_result {
+                                                                    Ok(Ok(())) => {}
+                                                                    Ok(Err(_)) => break,
+                                                                    Err(_) => {
+                                                                        log::warn!("Stream {} write to upstream timed out (60s)", stream_id);
+                                                                        break;
+                                                                    }
+                                                                }
+                                                                // Track consumption for flow control
+                                                                consumed_since_update += len;
+                                                                if consumed_since_update >= WINDOW_UPDATE_THRESHOLD {
+                                                                    let frame = encode_window_update(stream_id, FRAME_WINDOW_UPDATE_BACK, consumed_since_update);
+                                                                    if wub_tx.try_send(frame).is_ok() {
+                                                                        consumed_since_update = 0;
+                                                                    }
+                                                                    // If try_send fails, keep accumulating — retry on next threshold
+                                                                }
+                                                            }
+                                                            None => break,
+                                                        }
+                                                    }
+                                                    _ = writer_token.cancelled() => break,
+                                                }
+                                            }
+                                            // Send final window update for remaining consumed bytes
+                                            if consumed_since_update > 0 {
+                                                let frame = encode_window_update(stream_id, FRAME_WINDOW_UPDATE_BACK, consumed_since_update);
+                                                let _ = wub_tx.try_send(frame);
+                                            }
+                                            let _ = up_write.shutdown().await;
+                                        });
+
+                                        // Forward data from SmartProxy back to edge via writer channel
+                                        // with per-stream flow control (check send_window before reading)
+                                        let mut buf = vec![0u8; 32768];
+                                        loop {
+                                            // Wait for send window to have capacity (with stall timeout)
+                                            loop {
+                                                let w = send_window.load(Ordering::Acquire);
+                                                if w > 0 { break; }
+                                                tokio::select! {
+                                                    _ = window_notify.notified() => continue,
+                                                    _ = stream_token.cancelled() => break,
+                                                    _ = tokio::time::sleep(Duration::from_secs(120)) => {
+                                                        log::warn!("Stream {} download stalled (window empty for 120s)", stream_id);
+                                                        break;
+                                                    }
+                                                }
+                                            }
+                                            if stream_token.is_cancelled() { break; }
+
+                                            // Limit read size to available window
+                                            let w = send_window.load(Ordering::Acquire) as usize;
+                                            let max_read = w.min(buf.len());
+
+                                            tokio::select! {
+                                                read_result = up_read.read(&mut buf[..max_read]) => {
+                                                    match read_result {
+                                                        Ok(0) => break,
+                                                        Ok(n) => {
+                                                            send_window.fetch_sub(n as u32, Ordering::Release);
+                                                            let frame =
+                                                                encode_frame(stream_id, FRAME_DATA_BACK, &buf[..n]);
+                                                            if data_writer_tx.send(frame).await.is_err() {
+                                                                log::warn!("Stream {} data channel closed, closing", stream_id);
+                                                                break;
+                                                            }
+                                                        }
+                                                        Err(_) => break,
+                                                    }
+                                                }
+                                                _ = stream_token.cancelled() => break,
+                                            }
+                                        }
+
+                                        // Send CLOSE_BACK via DATA channel (must arrive AFTER last DATA_BACK).
+                                        // Use send().await to guarantee delivery (try_send silently drops if full).
+                                        if !stream_token.is_cancelled() {
+                                            let close_frame = encode_frame(stream_id, FRAME_CLOSE_BACK, &[]);
+                                            let _ = data_writer_tx.send(close_frame).await;
+                                        }
+
+                                        writer_for_edge_data.abort();
+                                        Ok::<(), Box<dyn std::error::Error + Send + Sync>>(())
+                                    }
+                                    .await;
+
+                                    if let Err(e) = result {
+                                        log::error!("Stream {} error: {}", stream_id, e);
+                                        // Send CLOSE_BACK via DATA channel on error (must arrive after any DATA_BACK).
+                                        // Use send().await to guarantee delivery.
+                                        if !stream_token.is_cancelled() {
+                                            let close_frame = encode_frame(stream_id, FRAME_CLOSE_BACK, &[]);
+                                            let _ = data_writer_tx.send(close_frame).await;
+                                        }
+                                    }
+
+                                    // Clean up stream (guard against duplicate if FRAME_CLOSE already removed it)
+                                    let was_present = {
+                                        let mut s = streams_clone.lock().await;
+                                        s.remove(&stream_id).is_some()
+                                    };
+                                    if was_present {
+                                        let _ = event_tx_clone.try_send(HubEvent::StreamClosed {
+                                            edge_id: edge_id_clone,
+                                            stream_id,
+                                        });
+                                    }
+                                });
+                            }
+                            FRAME_DATA => {
+                                // Non-blocking dispatch to per-stream channel.
+                                // With flow control, the sender should rarely exceed the channel capacity.
+                                let mut s = streams.lock().await;
+                                if let Some(state) = s.get(&frame.stream_id) {
+                                    if state.data_tx.try_send(frame.payload).is_err() {
+                                        log::warn!("Stream {} data channel full, closing stream", frame.stream_id);
+                                        if let Some(state) = s.remove(&frame.stream_id) {
+                                            state.cancel_token.cancel();
+                                        }
+                                    }
+                                }
+                            }
+                            FRAME_WINDOW_UPDATE => {
+                                // Edge consumed data — increase our send window for this stream
+                                if let Some(increment) = decode_window_update(&frame.payload) {
+                                    if increment > 0 {
+                                        let s = streams.lock().await;
+                                        if let Some(state) = s.get(&frame.stream_id) {
+                                            let prev = state.send_window.fetch_add(increment, Ordering::Release);
+                                            if prev + increment > MAX_WINDOW_SIZE {
+                                                state.send_window.store(MAX_WINDOW_SIZE, Ordering::Release);
+                                            }
+                                            state.window_notify.notify_one();
+                                        }
+                                    }
+                                }
+                            }
+                            FRAME_CLOSE => {
+                                let mut s = streams.lock().await;
+                                if let Some(state) = s.remove(&frame.stream_id) {
+                                    state.cancel_token.cancel();
+                                    let _ = event_tx.try_send(HubEvent::StreamClosed {
+                                        edge_id: edge_id.clone(),
+                                        stream_id: frame.stream_id,
+                                    });
+                                }
+                            }
+                            FRAME_PONG => {
+                                log::debug!("Received PONG from edge {}", edge_id);
+                            }
+                            _ => {
+                                log::warn!("Unexpected frame type {} from edge", frame.frame_type);
                             }
-                            let _ = event_tx_clone.send(HubEvent::StreamClosed {
-                                edge_id: edge_id_clone,
-                                stream_id,
-                            });
-                        });
-                    }
-                    FRAME_DATA => {
-                        let s = streams.lock().await;
-                        if let Some(tx) = s.get(&frame.stream_id) {
-                            let _ = tx.send(frame.payload).await;
                         }
                     }
-                    FRAME_CLOSE => {
-                        let mut s = streams.lock().await;
-                        s.remove(&frame.stream_id);
+                    Ok(None) => {
+                        log::info!("Edge {} disconnected (EOF)", edge_id);
+                        break;
                     }
-                    _ => {
-                        log::warn!("Unexpected frame type {} from edge", frame.frame_type);
+                    Err(e) => {
+                        log::error!("Edge {} frame error: {}", edge_id, e);
+                        break;
                     }
                 }
             }
-            Ok(None) => {
-                log::info!("Edge {} disconnected (EOF)", edge_id);
+            _ = ping_ticker.tick() => {
+                let ping_frame = encode_frame(0, FRAME_PING, &[]);
+                if frame_writer_tx.try_send(ping_frame).is_err() {
+                    log::warn!("Failed to send PING to edge {}, writer channel full/closed", edge_id);
+                    break;
+                }
+                log::trace!("Sent PING to edge {}", edge_id);
+            }
+            _ = &mut liveness_deadline => {
+                log::warn!("Edge {} liveness timeout (no frames for {}s), disconnecting",
+                    edge_id, liveness_timeout_dur.as_secs());
                 break;
             }
-            Err(e) => {
-                log::error!("Edge {} frame error: {}", edge_id, e);
+            _ = edge_token.cancelled() => {
+                log::info!("Edge {} cancelled by hub", edge_id);
                 break;
             }
         }
     }
 
-    // Cleanup
+    // Cleanup: cancel edge token to propagate to all child tasks
+    edge_token.cancel();
+    config_handle.abort();
+    writer_handle.abort();
     {
         let mut edges = connected.lock().await;
         edges.remove(&edge_id);
     }
-    let _ = event_tx.send(HubEvent::EdgeDisconnected {
+    let _ = event_tx.try_send(HubEvent::EdgeDisconnected {
         edge_id: edge_id.clone(),
     });
 
@@ -475,3 +817,212 @@ fn constant_time_eq(a: &[u8], b: &[u8]) -> bool {
     }
     diff == 0
 }
+
+#[cfg(test)]
+mod tests {
+    use super::*;
+
+    // --- constant_time_eq tests ---
+
+    #[test]
+    fn test_constant_time_eq_equal() {
+        assert!(constant_time_eq(b"hello", b"hello"));
+    }
+
+    #[test]
+    fn test_constant_time_eq_different_content() {
+        assert!(!constant_time_eq(b"hello", b"world"));
+    }
+
+    #[test]
+    fn test_constant_time_eq_different_lengths() {
+        assert!(!constant_time_eq(b"short", b"longer"));
+    }
+
+    #[test]
+    fn test_constant_time_eq_both_empty() {
+        assert!(constant_time_eq(b"", b""));
+    }
+
+    #[test]
+    fn test_constant_time_eq_one_empty() {
+        assert!(!constant_time_eq(b"", b"notempty"));
+    }
+
+    #[test]
+    fn test_constant_time_eq_single_bit_difference() {
+        // 'A' = 0x41, 'a' = 0x61 — differ by one bit
+        assert!(!constant_time_eq(b"A", b"a"));
+    }
+
+    // --- parse_dest_port_from_proxy tests ---
+
+    #[test]
+    fn test_parse_dest_port_443() {
+        let header = "PROXY TCP4 1.2.3.4 5.6.7.8 12345 443\r\n";
+        assert_eq!(parse_dest_port_from_proxy(header), Some(443));
+    }
+
+    #[test]
+    fn test_parse_dest_port_80() {
+        let header = "PROXY TCP4 10.0.0.1 10.0.0.2 54321 80\r\n";
+        assert_eq!(parse_dest_port_from_proxy(header), Some(80));
+    }
+
+    #[test]
+    fn test_parse_dest_port_65535() {
+        let header = "PROXY TCP4 10.0.0.1 10.0.0.2 1 65535\r\n";
+        assert_eq!(parse_dest_port_from_proxy(header), Some(65535));
+    }
+
+    #[test]
+    fn test_parse_dest_port_too_few_fields() {
+        let header = "PROXY TCP4 1.2.3.4";
+        assert_eq!(parse_dest_port_from_proxy(header), None);
+    }
+
+    #[test]
+    fn test_parse_dest_port_empty_string() {
+        assert_eq!(parse_dest_port_from_proxy(""), None);
+    }
+
+    #[test]
+    fn test_parse_dest_port_non_numeric() {
+        let header = "PROXY TCP4 1.2.3.4 5.6.7.8 12345 abc\r\n";
+        assert_eq!(parse_dest_port_from_proxy(header), None);
+    }
+
+    // --- Serde tests ---
+
+    #[test]
+    fn test_allowed_edge_deserialize_all_fields() {
+        let json = r#"{
+            "id": "edge-1",
+            "secret": "s3cret",
+            "listenPorts": [443, 8080],
+            "stunIntervalSecs": 120
+        }"#;
+        let edge: AllowedEdge = serde_json::from_str(json).unwrap();
+        assert_eq!(edge.id, "edge-1");
+        assert_eq!(edge.secret, "s3cret");
+        assert_eq!(edge.listen_ports, vec![443, 8080]);
+        assert_eq!(edge.stun_interval_secs, Some(120));
+    }
+
+    #[test]
+    fn test_allowed_edge_deserialize_with_defaults() {
+        let json = r#"{"id": "edge-2", "secret": "key"}"#;
+        let edge: AllowedEdge = serde_json::from_str(json).unwrap();
+        assert_eq!(edge.id, "edge-2");
+        assert_eq!(edge.secret, "key");
+        assert!(edge.listen_ports.is_empty());
+        assert_eq!(edge.stun_interval_secs, None);
+    }
+
+    #[test]
+    fn test_handshake_response_serializes_camel_case() {
+        let resp = HandshakeResponse {
+            listen_ports: vec![443, 8080],
+            stun_interval_secs: 300,
+        };
+        let json = serde_json::to_value(&resp).unwrap();
+        assert_eq!(json["listenPorts"], serde_json::json!([443, 8080]));
+        assert_eq!(json["stunIntervalSecs"], 300);
+        // Ensure snake_case keys are NOT present
+        assert!(json.get("listen_ports").is_none());
+        assert!(json.get("stun_interval_secs").is_none());
+    }
+
+    #[test]
+    fn test_edge_config_update_serializes_camel_case() {
+        let update = EdgeConfigUpdate {
+            listen_ports: vec![80, 443],
+        };
+        let json = serde_json::to_value(&update).unwrap();
+        assert_eq!(json["listenPorts"], serde_json::json!([80, 443]));
+        assert!(json.get("listen_ports").is_none());
+    }
+
+    #[test]
+    fn test_hub_config_default() {
+        let config = HubConfig::default();
+        assert_eq!(config.tunnel_port, 8443);
+        assert_eq!(config.target_host, Some("127.0.0.1".to_string()));
+        assert!(config.tls_cert_pem.is_none());
+        assert!(config.tls_key_pem.is_none());
+    }
+
+    #[test]
+    fn test_hub_event_edge_connected_serialize() {
+        let event = HubEvent::EdgeConnected {
+            edge_id: "edge-1".to_string(),
+            peer_addr: "203.0.113.5".to_string(),
+        };
+        let json = serde_json::to_value(&event).unwrap();
+        assert_eq!(json["type"], "edgeConnected");
+        assert_eq!(json["edgeId"], "edge-1");
+        assert_eq!(json["peerAddr"], "203.0.113.5");
+    }
+
+    #[test]
+    fn test_hub_event_edge_disconnected_serialize() {
+        let event = HubEvent::EdgeDisconnected {
+            edge_id: "edge-2".to_string(),
+        };
+        let json = serde_json::to_value(&event).unwrap();
+        assert_eq!(json["type"], "edgeDisconnected");
+        assert_eq!(json["edgeId"], "edge-2");
+    }
+
+    #[test]
+    fn test_hub_event_stream_opened_serialize() {
+        let event = HubEvent::StreamOpened {
+            edge_id: "e".to_string(),
+            stream_id: 42,
+        };
+        let json = serde_json::to_value(&event).unwrap();
+        assert_eq!(json["type"], "streamOpened");
+        assert_eq!(json["edgeId"], "e");
+        assert_eq!(json["streamId"], 42);
+    }
+
+    #[test]
+    fn test_hub_event_stream_closed_serialize() {
+        let event = HubEvent::StreamClosed {
+            edge_id: "e".to_string(),
+            stream_id: 7,
+        };
+        let json = serde_json::to_value(&event).unwrap();
+        assert_eq!(json["type"], "streamClosed");
+        assert_eq!(json["edgeId"], "e");
+        assert_eq!(json["streamId"], 7);
+    }
+
+    // --- Async tests ---
+
+    #[tokio::test]
+    async fn test_tunnel_hub_new_get_status() {
+        let hub = TunnelHub::new(HubConfig::default());
+        let status = hub.get_status().await;
+        assert!(!status.running);
+        assert!(status.connected_edges.is_empty());
+        assert_eq!(status.tunnel_port, 8443);
+    }
+
+    #[tokio::test]
+    async fn test_tunnel_hub_take_event_rx() {
+        let hub = TunnelHub::new(HubConfig::default());
+        let rx1 = hub.take_event_rx().await;
+        assert!(rx1.is_some());
+        let rx2 = hub.take_event_rx().await;
+        assert!(rx2.is_none());
+    }
+
+    #[tokio::test]
+    async fn test_tunnel_hub_stop_without_start() {
+        let hub = TunnelHub::new(HubConfig::default());
+        hub.stop().await; // should not panic
+        let status = hub.get_status().await;
+        assert!(!status.running);
+    }
+}

rust/crates/remoteingress-core/src/stun.rs

@@ -121,6 +121,133 @@ fn parse_stun_response(data: &[u8], _txn_id: &[u8; 12]) -> Option<String> {
     None
 }
 
+#[cfg(test)]
+mod tests {
+    use super::*;
+
+    /// Build a synthetic STUN Binding Response with given attributes.
+    fn build_stun_response(attrs: &[(u16, &[u8])]) -> Vec<u8> {
+        let mut attrs_bytes = Vec::new();
+        for &(attr_type, attr_data) in attrs {
+            attrs_bytes.extend_from_slice(&attr_type.to_be_bytes());
+            attrs_bytes.extend_from_slice(&(attr_data.len() as u16).to_be_bytes());
+            attrs_bytes.extend_from_slice(attr_data);
+            // Pad to 4-byte boundary
+            let pad = (4 - (attr_data.len() % 4)) % 4;
+            attrs_bytes.extend(std::iter::repeat(0u8).take(pad));
+        }
+
+        let mut response = Vec::new();
+        // msg_type = 0x0101 (Binding Response)
+        response.extend_from_slice(&0x0101u16.to_be_bytes());
+        // message length
+        response.extend_from_slice(&(attrs_bytes.len() as u16).to_be_bytes());
+        // magic cookie
+        response.extend_from_slice(&STUN_MAGIC_COOKIE.to_be_bytes());
+        // transaction ID (12 bytes)
+        response.extend_from_slice(&[0u8; 12]);
+        // attributes
+        response.extend_from_slice(&attrs_bytes);
+        response
+    }
+
+    #[test]
+    fn test_xor_mapped_address_ipv4() {
+        // IP 203.0.113.1 = 0xCB007101, XOR'd with magic 0x2112A442 = 0xEA12D543
+        let attr_data: [u8; 8] = [
+            0x00, 0x01, // reserved + family (IPv4)
+            0x11, 0x2B, // port XOR'd with 0x2112 (port 0x3039 = 12345)
+            0xEA, 0x12, 0xD5, 0x43, // IP XOR'd
+        ];
+        let data = build_stun_response(&[(ATTR_XOR_MAPPED_ADDRESS, &attr_data)]);
+        let txn_id = [0u8; 12];
+        let result = parse_stun_response(&data, &txn_id);
+        assert_eq!(result, Some("203.0.113.1".to_string()));
+    }
+
+    #[test]
+    fn test_mapped_address_fallback_ipv4() {
+        // IP 192.168.1.1 = 0xC0A80101 (no XOR)
+        let attr_data: [u8; 8] = [
+            0x00, 0x01, // reserved + family (IPv4)
+            0x00, 0x50, // port 80
+            0xC0, 0xA8, 0x01, 0x01, // IP
+        ];
+        let data = build_stun_response(&[(ATTR_MAPPED_ADDRESS, &attr_data)]);
+        let txn_id = [0u8; 12];
+        let result = parse_stun_response(&data, &txn_id);
+        assert_eq!(result, Some("192.168.1.1".to_string()));
+    }
+
+    #[test]
+    fn test_response_too_short() {
+        let data = vec![0u8; 19]; // < 20 bytes
+        let txn_id = [0u8; 12];
+        assert_eq!(parse_stun_response(&data, &txn_id), None);
+    }
+
+    #[test]
+    fn test_wrong_msg_type() {
+        // Build with correct helper then overwrite msg_type to 0x0001 (Binding Request)
+        let mut data = build_stun_response(&[]);
+        data[0] = 0x00;
+        data[1] = 0x01;
+        let txn_id = [0u8; 12];
+        assert_eq!(parse_stun_response(&data, &txn_id), None);
+    }
+
+    #[test]
+    fn test_no_mapped_address_attributes() {
+        // Valid response with no attributes
+        let data = build_stun_response(&[]);
+        let txn_id = [0u8; 12];
+        assert_eq!(parse_stun_response(&data, &txn_id), None);
+    }
+
+    #[test]
+    fn test_xor_preferred_over_mapped() {
+        // XOR gives 203.0.113.1, MAPPED gives 192.168.1.1
+        let xor_data: [u8; 8] = [
+            0x00, 0x01,
+            0x11, 0x2B,
+            0xEA, 0x12, 0xD5, 0x43,
+        ];
+        let mapped_data: [u8; 8] = [
+            0x00, 0x01,
+            0x00, 0x50,
+            0xC0, 0xA8, 0x01, 0x01,
+        ];
+        // XOR listed first — should be preferred
+        let data = build_stun_response(&[
+            (ATTR_XOR_MAPPED_ADDRESS, &xor_data),
+            (ATTR_MAPPED_ADDRESS, &mapped_data),
+        ]);
+        let txn_id = [0u8; 12];
+        let result = parse_stun_response(&data, &txn_id);
+        assert_eq!(result, Some("203.0.113.1".to_string()));
+    }
+
+    #[test]
+    fn test_truncated_attribute_data() {
+        // Attribute claims 8 bytes but only 4 are present
+        let mut data = build_stun_response(&[]);
+        // Manually append a truncated XOR_MAPPED_ADDRESS attribute
+        let attr_type = ATTR_XOR_MAPPED_ADDRESS.to_be_bytes();
+        let attr_len = 8u16.to_be_bytes(); // claims 8 bytes
+        let truncated = [0x00, 0x01, 0x11, 0x2B]; // only 4 bytes
+        // Update message length
+        let new_msg_len = (attr_type.len() + attr_len.len() + truncated.len()) as u16;
+        data[2..4].copy_from_slice(&new_msg_len.to_be_bytes());
+        data.extend_from_slice(&attr_type);
+        data.extend_from_slice(&attr_len);
+        data.extend_from_slice(&truncated);
+
+        let txn_id = [0u8; 12];
+        // Should return None, not panic
+        assert_eq!(parse_stun_response(&data, &txn_id), None);
+    }
+}
+
 /// Generate 12 random bytes for transaction ID.
 fn rand_bytes() -> [u8; 12] {
     let mut bytes = [0u8; 12];

rust/crates/remoteingress-protocol/src/lib.rs

@@ -6,6 +6,11 @@ pub const FRAME_DATA: u8 = 0x02;
 pub const FRAME_CLOSE: u8 = 0x03;
 pub const FRAME_DATA_BACK: u8 = 0x04;
 pub const FRAME_CLOSE_BACK: u8 = 0x05;
+pub const FRAME_CONFIG: u8 = 0x06;     // Hub -> Edge: configuration update
+pub const FRAME_PING: u8 = 0x07;       // Hub -> Edge: heartbeat probe
+pub const FRAME_PONG: u8 = 0x08;       // Edge -> Hub: heartbeat response
+pub const FRAME_WINDOW_UPDATE: u8 = 0x09;      // Edge -> Hub: per-stream flow control
+pub const FRAME_WINDOW_UPDATE_BACK: u8 = 0x0A;  // Hub -> Edge: per-stream flow control
 
 // Frame header size: 4 (stream_id) + 1 (type) + 4 (length) = 9 bytes
 pub const FRAME_HEADER_SIZE: usize = 9;
@@ -13,6 +18,28 @@ pub const FRAME_HEADER_SIZE: usize = 9;
 // Maximum payload size (16 MB)
 pub const MAX_PAYLOAD_SIZE: u32 = 16 * 1024 * 1024;
 
+// Per-stream flow control constants
+/// Initial per-stream window size (4 MB). Sized for full throughput at high RTT:
+/// at 100ms RTT, this sustains ~40 MB/s per stream.
+pub const INITIAL_STREAM_WINDOW: u32 = 4 * 1024 * 1024;
+/// Send WINDOW_UPDATE after consuming this many bytes (half the initial window).
+pub const WINDOW_UPDATE_THRESHOLD: u32 = INITIAL_STREAM_WINDOW / 2;
+/// Maximum window size to prevent overflow.
+pub const MAX_WINDOW_SIZE: u32 = 16 * 1024 * 1024;
+
+/// Encode a WINDOW_UPDATE frame for a specific stream.
+pub fn encode_window_update(stream_id: u32, frame_type: u8, increment: u32) -> Vec<u8> {
+    encode_frame(stream_id, frame_type, &increment.to_be_bytes())
+}
+
+/// Decode a WINDOW_UPDATE payload into a byte increment. Returns None if payload is malformed.
+pub fn decode_window_update(payload: &[u8]) -> Option<u32> {
+    if payload.len() != 4 {
+        return None;
+    }
+    Some(u32::from_be_bytes([payload[0], payload[1], payload[2], payload[3]]))
+}
+
 /// A single multiplexed frame.
 #[derive(Debug, Clone)]
 pub struct Frame {
@@ -169,4 +196,144 @@ mod tests {
         // EOF
         assert!(reader.next_frame().await.unwrap().is_none());
     }
+
+    #[test]
+    fn test_encode_frame_config_type() {
+        let payload = b"{\"listenPorts\":[443]}";
+        let encoded = encode_frame(0, FRAME_CONFIG, payload);
+        assert_eq!(encoded[4], FRAME_CONFIG);
+        assert_eq!(&encoded[0..4], &0u32.to_be_bytes());
+        assert_eq!(&encoded[9..], payload.as_slice());
+    }
+
+    #[test]
+    fn test_encode_frame_data_back_type() {
+        let payload = b"response data";
+        let encoded = encode_frame(7, FRAME_DATA_BACK, payload);
+        assert_eq!(encoded[4], FRAME_DATA_BACK);
+        assert_eq!(&encoded[0..4], &7u32.to_be_bytes());
+        assert_eq!(&encoded[5..9], &(payload.len() as u32).to_be_bytes());
+        assert_eq!(&encoded[9..], payload.as_slice());
+    }
+
+    #[test]
+    fn test_encode_frame_close_back_type() {
+        let encoded = encode_frame(99, FRAME_CLOSE_BACK, &[]);
+        assert_eq!(encoded[4], FRAME_CLOSE_BACK);
+        assert_eq!(&encoded[0..4], &99u32.to_be_bytes());
+        assert_eq!(&encoded[5..9], &0u32.to_be_bytes());
+        assert_eq!(encoded.len(), FRAME_HEADER_SIZE);
+    }
+
+    #[test]
+    fn test_encode_frame_large_stream_id() {
+        let encoded = encode_frame(u32::MAX, FRAME_DATA, b"x");
+        assert_eq!(&encoded[0..4], &u32::MAX.to_be_bytes());
+        assert_eq!(encoded[4], FRAME_DATA);
+        assert_eq!(&encoded[5..9], &1u32.to_be_bytes());
+        assert_eq!(encoded[9], b'x');
+    }
+
+    #[tokio::test]
+    async fn test_frame_reader_max_payload_rejection() {
+        let mut data = Vec::new();
+        data.extend_from_slice(&1u32.to_be_bytes());
+        data.push(FRAME_DATA);
+        data.extend_from_slice(&(MAX_PAYLOAD_SIZE + 1).to_be_bytes());
+
+        let cursor = std::io::Cursor::new(data);
+        let mut reader = FrameReader::new(cursor);
+
+        let result = reader.next_frame().await;
+        assert!(result.is_err());
+        let err = result.unwrap_err();
+        assert_eq!(err.kind(), std::io::ErrorKind::InvalidData);
+    }
+
+    #[tokio::test]
+    async fn test_frame_reader_eof_mid_header() {
+        // Only 5 bytes — not enough for a 9-byte header
+        let data = vec![0u8; 5];
+        let cursor = std::io::Cursor::new(data);
+        let mut reader = FrameReader::new(cursor);
+
+        // Should return Ok(None) on partial header EOF
+        let result = reader.next_frame().await;
+        assert!(result.unwrap().is_none());
+    }
+
+    #[tokio::test]
+    async fn test_frame_reader_eof_mid_payload() {
+        // Full header claiming 100 bytes of payload, but only 10 bytes present
+        let mut data = Vec::new();
+        data.extend_from_slice(&1u32.to_be_bytes());
+        data.push(FRAME_DATA);
+        data.extend_from_slice(&100u32.to_be_bytes());
+        data.extend_from_slice(&[0xAB; 10]);
+
+        let cursor = std::io::Cursor::new(data);
+        let mut reader = FrameReader::new(cursor);
+
+        let result = reader.next_frame().await;
+        assert!(result.is_err());
+    }
+
+    #[tokio::test]
+    async fn test_frame_reader_all_frame_types() {
+        let types = [
+            FRAME_OPEN,
+            FRAME_DATA,
+            FRAME_CLOSE,
+            FRAME_DATA_BACK,
+            FRAME_CLOSE_BACK,
+            FRAME_CONFIG,
+            FRAME_PING,
+            FRAME_PONG,
+        ];
+
+        let mut data = Vec::new();
+        for (i, &ft) in types.iter().enumerate() {
+            let payload = format!("payload_{}", i);
+            data.extend_from_slice(&encode_frame(i as u32, ft, payload.as_bytes()));
+        }
+
+        let cursor = std::io::Cursor::new(data);
+        let mut reader = FrameReader::new(cursor);
+
+        for (i, &ft) in types.iter().enumerate() {
+            let frame = reader.next_frame().await.unwrap().unwrap();
+            assert_eq!(frame.stream_id, i as u32);
+            assert_eq!(frame.frame_type, ft);
+            assert_eq!(frame.payload, format!("payload_{}", i).as_bytes());
+        }
+
+        assert!(reader.next_frame().await.unwrap().is_none());
+    }
+
+    #[tokio::test]
+    async fn test_frame_reader_zero_length_payload() {
+        let data = encode_frame(42, FRAME_CLOSE, &[]);
+        let cursor = std::io::Cursor::new(data);
+        let mut reader = FrameReader::new(cursor);
+
+        let frame = reader.next_frame().await.unwrap().unwrap();
+        assert_eq!(frame.stream_id, 42);
+        assert_eq!(frame.frame_type, FRAME_CLOSE);
+        assert!(frame.payload.is_empty());
+    }
+
+    #[test]
+    fn test_encode_frame_ping_pong() {
+        // PING: stream_id=0, empty payload (control frame)
+        let ping = encode_frame(0, FRAME_PING, &[]);
+        assert_eq!(ping[4], FRAME_PING);
+        assert_eq!(&ping[0..4], &0u32.to_be_bytes());
+        assert_eq!(ping.len(), FRAME_HEADER_SIZE);
+
+        // PONG: stream_id=0, empty payload (control frame)
+        let pong = encode_frame(0, FRAME_PONG, &[]);
+        assert_eq!(pong[4], FRAME_PONG);
+        assert_eq!(&pong[0..4], &0u32.to_be_bytes());
+        assert_eq!(pong.len(), FRAME_HEADER_SIZE);
+    }
 }

test/test.classes.node.ts

@@ -0,0 +1,35 @@
+import { expect, tap } from '@push.rocks/tapbundle';
+import { EventEmitter } from 'events';
+import { RemoteIngressHub, RemoteIngressEdge } from '../ts/index.js';
+
+tap.test('RemoteIngressHub constructor does not throw', async () => {
+  const hub = new RemoteIngressHub();
+  expect(hub).toBeTruthy();
+});
+
+tap.test('RemoteIngressHub is instanceof EventEmitter', async () => {
+  const hub = new RemoteIngressHub();
+  expect(hub).toBeInstanceOf(EventEmitter);
+});
+
+tap.test('RemoteIngressHub.running is false before start', async () => {
+  const hub = new RemoteIngressHub();
+  expect(hub.running).toBeFalse();
+});
+
+tap.test('RemoteIngressEdge constructor does not throw', async () => {
+  const edge = new RemoteIngressEdge();
+  expect(edge).toBeTruthy();
+});
+
+tap.test('RemoteIngressEdge is instanceof EventEmitter', async () => {
+  const edge = new RemoteIngressEdge();
+  expect(edge).toBeInstanceOf(EventEmitter);
+});
+
+tap.test('RemoteIngressEdge.running is false before start', async () => {
+  const edge = new RemoteIngressEdge();
+  expect(edge.running).toBeFalse();
+});
+
+export default tap.start();

test/test.token.node.ts

@@ -0,0 +1,152 @@
+import { expect, tap } from '@push.rocks/tapbundle';
+import { encodeConnectionToken, decodeConnectionToken, type IConnectionTokenData } from '../ts/classes.token.js';
+
+tap.test('token roundtrip with unicode chars in secret', async () => {
+  const data: IConnectionTokenData = {
+    hubHost: 'hub.example.com',
+    hubPort: 8443,
+    edgeId: 'edge-1',
+    secret: 'sécret-with-ünïcödé-日本語',
+  };
+  const token = encodeConnectionToken(data);
+  const decoded = decodeConnectionToken(token);
+  expect(decoded.secret).toEqual(data.secret);
+});
+
+tap.test('token roundtrip with empty edgeId', async () => {
+  const data: IConnectionTokenData = {
+    hubHost: 'hub.test',
+    hubPort: 443,
+    edgeId: '',
+    secret: 'key',
+  };
+  const token = encodeConnectionToken(data);
+  const decoded = decodeConnectionToken(token);
+  expect(decoded.edgeId).toEqual('');
+});
+
+tap.test('token roundtrip with port 0', async () => {
+  const data: IConnectionTokenData = {
+    hubHost: 'h',
+    hubPort: 0,
+    edgeId: 'e',
+    secret: 's',
+  };
+  const token = encodeConnectionToken(data);
+  const decoded = decodeConnectionToken(token);
+  expect(decoded.hubPort).toEqual(0);
+});
+
+tap.test('token roundtrip with port 65535', async () => {
+  const data: IConnectionTokenData = {
+    hubHost: 'h',
+    hubPort: 65535,
+    edgeId: 'e',
+    secret: 's',
+  };
+  const token = encodeConnectionToken(data);
+  const decoded = decodeConnectionToken(token);
+  expect(decoded.hubPort).toEqual(65535);
+});
+
+tap.test('token roundtrip with very long secret (10k chars)', async () => {
+  const longSecret = 'x'.repeat(10000);
+  const data: IConnectionTokenData = {
+    hubHost: 'host',
+    hubPort: 1234,
+    edgeId: 'edge',
+    secret: longSecret,
+  };
+  const token = encodeConnectionToken(data);
+  const decoded = decodeConnectionToken(token);
+  expect(decoded.secret).toEqual(longSecret);
+  expect(decoded.secret.length).toEqual(10000);
+});
+
+tap.test('token string is URL-safe', async () => {
+  const data: IConnectionTokenData = {
+    hubHost: 'hub.example.com',
+    hubPort: 8443,
+    edgeId: 'edge-001',
+    secret: 'super+secret/key==with+special/chars',
+  };
+  const token = encodeConnectionToken(data);
+  expect(token).toMatch(/^[A-Za-z0-9_-]+$/);
+});
+
+tap.test('decode empty string throws', async () => {
+  let error: Error | undefined;
+  try {
+    decodeConnectionToken('');
+  } catch (e) {
+    error = e as Error;
+  }
+  expect(error).toBeInstanceOf(Error);
+});
+
+tap.test('decode valid base64 but wrong JSON shape throws missing required fields', async () => {
+  // Encode { "a": 1, "b": 2 } — valid JSON but wrong shape
+  const token = Buffer.from(JSON.stringify({ a: 1, b: 2 }), 'utf-8')
+    .toString('base64')
+    .replace(/\+/g, '-')
+    .replace(/\//g, '_')
+    .replace(/=+$/, '');
+
+  let error: Error | undefined;
+  try {
+    decodeConnectionToken(token);
+  } catch (e) {
+    error = e as Error;
+  }
+  expect(error).toBeInstanceOf(Error);
+  expect(error!.message).toInclude('missing required fields');
+});
+
+tap.test('decode valid JSON but wrong field types throws missing required fields', async () => {
+  // h is number instead of string, p is string instead of number
+  const token = Buffer.from(JSON.stringify({ h: 123, p: 'notnum', e: 'e', s: 's' }), 'utf-8')
+    .toString('base64')
+    .replace(/\+/g, '-')
+    .replace(/\//g, '_')
+    .replace(/=+$/, '');
+
+  let error: Error | undefined;
+  try {
+    decodeConnectionToken(token);
+  } catch (e) {
+    error = e as Error;
+  }
+  expect(error).toBeInstanceOf(Error);
+  expect(error!.message).toInclude('missing required fields');
+});
+
+tap.test('decode with extra fields succeeds', async () => {
+  const token = Buffer.from(
+    JSON.stringify({ h: 'host', p: 443, e: 'edge', s: 'secret', extra: 'ignored' }),
+    'utf-8',
+  )
+    .toString('base64')
+    .replace(/\+/g, '-')
+    .replace(/\//g, '_')
+    .replace(/=+$/, '');
+
+  const decoded = decodeConnectionToken(token);
+  expect(decoded.hubHost).toEqual('host');
+  expect(decoded.hubPort).toEqual(443);
+  expect(decoded.edgeId).toEqual('edge');
+  expect(decoded.secret).toEqual('secret');
+});
+
+tap.test('encode is deterministic', async () => {
+  const data: IConnectionTokenData = {
+    hubHost: 'hub.test',
+    hubPort: 8443,
+    edgeId: 'edge-1',
+    secret: 'deterministic-key',
+  };
+  const token1 = encodeConnectionToken(data);
+  const token2 = encodeConnectionToken(data);
+  expect(token1).toEqual(token2);
+});
+
+export default tap.start();

test/test.ts

@@ -9,4 +9,53 @@ tap.test('should export RemoteIngressEdge', async () => {
   expect(remoteingress.RemoteIngressEdge).toBeTypeOf('function');
 });
 
+tap.test('should export encodeConnectionToken and decodeConnectionToken', async () => {
+  expect(remoteingress.encodeConnectionToken).toBeTypeOf('function');
+  expect(remoteingress.decodeConnectionToken).toBeTypeOf('function');
+});
+
+tap.test('should roundtrip encode → decode a connection token', async () => {
+  const data: remoteingress.IConnectionTokenData = {
+    hubHost: 'hub.example.com',
+    hubPort: 8443,
+    edgeId: 'edge-001',
+    secret: 'super-secret-key',
+  };
+  const token = remoteingress.encodeConnectionToken(data);
+  const decoded = remoteingress.decodeConnectionToken(token);
+  expect(decoded.hubHost).toEqual(data.hubHost);
+  expect(decoded.hubPort).toEqual(data.hubPort);
+  expect(decoded.edgeId).toEqual(data.edgeId);
+  expect(decoded.secret).toEqual(data.secret);
+});
+
+tap.test('should throw on malformed token', async () => {
+  let error: Error | undefined;
+  try {
+    remoteingress.decodeConnectionToken('not-valid-json!!!');
+  } catch (e) {
+    error = e as Error;
+  }
+  expect(error).toBeInstanceOf(Error);
+  expect(error!.message).toInclude('Invalid connection token');
+});
+
+tap.test('should throw on token with missing fields', async () => {
+  // Encode a partial object (missing 'p' and 's')
+  const partial = Buffer.from(JSON.stringify({ h: 'host', e: 'edge' }), 'utf-8')
+    .toString('base64')
+    .replace(/\+/g, '-')
+    .replace(/\//g, '_')
+    .replace(/=+$/, '');
+
+  let error: Error | undefined;
+  try {
+    remoteingress.decodeConnectionToken(partial);
+  } catch (e) {
+    error = e as Error;
+  }
+  expect(error).toBeInstanceOf(Error);
+  expect(error!.message).toInclude('missing required fields');
+});
+
 export default tap.start();

ts/00_commitinfo_data.ts

@@ -3,6 +3,6 @@
  */
 export const commitinfo = {
   name: '@serve.zone/remoteingress',
-  version: '3.0.4',
+  version: '4.5.9',
   description: 'Edge ingress tunnel for DcRouter - accepts incoming TCP connections at network edge and tunnels them to DcRouter SmartProxy preserving client IP via PROXY protocol v1.'
 }

ts/classes.remoteingressedge.ts

@@ -1,5 +1,6 @@
 import * as plugins from './plugins.js';
 import { EventEmitter } from 'events';
+import { decodeConnectionToken } from './classes.token.js';
 
 // Command map for the edge side of remoteingress-bin
 type TEdgeCommands = {
@@ -13,8 +14,6 @@ type TEdgeCommands = {
       hubPort: number;
       edgeId: string;
       secret: string;
-      listenPorts: number[];
-      stunIntervalSecs?: number;
     };
     result: { started: boolean };
   };
@@ -39,13 +38,19 @@ export interface IEdgeConfig {
   hubPort?: number;
   edgeId: string;
   secret: string;
-  listenPorts: number[];
-  stunIntervalSecs?: number;
 }
 
+const MAX_RESTART_ATTEMPTS = 10;
+const MAX_RESTART_BACKOFF_MS = 30_000;
+
 export class RemoteIngressEdge extends EventEmitter {
   private bridge: InstanceType<typeof plugins.smartrust.RustBridge<TEdgeCommands>>;
   private started = false;
+  private stopping = false;
+  private savedConfig: IEdgeConfig | null = null;
+  private restartBackoffMs = 1000;
+  private restartAttempts = 0;
+  private statusInterval: ReturnType<typeof setInterval> | undefined;
 
   constructor() {
     super();
@@ -82,39 +87,88 @@ export class RemoteIngressEdge extends EventEmitter {
     this.bridge.on('management:publicIpDiscovered', (data: { ip: string }) => {
       this.emit('publicIpDiscovered', data);
     });
+    this.bridge.on('management:portsAssigned', (data: { listenPorts: number[] }) => {
+      console.log(`[RemoteIngressEdge] Ports assigned by hub: ${data.listenPorts.join(', ')}`);
+      this.emit('portsAssigned', data);
+    });
+    this.bridge.on('management:portsUpdated', (data: { listenPorts: number[] }) => {
+      console.log(`[RemoteIngressEdge] Ports updated by hub: ${data.listenPorts.join(', ')}`);
+      this.emit('portsUpdated', data);
+    });
   }
 
   /**
    * Start the edge — spawns the Rust binary and connects to the hub.
+   * Accepts either a connection token or an explicit IEdgeConfig.
    */
-  public async start(config: IEdgeConfig): Promise<void> {
+  public async start(config: { token: string } | IEdgeConfig): Promise<void> {
+    let edgeConfig: IEdgeConfig;
+
+    if ('token' in config) {
+      const decoded = decodeConnectionToken(config.token);
+      edgeConfig = {
+        hubHost: decoded.hubHost,
+        hubPort: decoded.hubPort,
+        edgeId: decoded.edgeId,
+        secret: decoded.secret,
+      };
+    } else {
+      edgeConfig = config;
+    }
+
+    this.savedConfig = edgeConfig;
+    this.stopping = false;
+
     const spawned = await this.bridge.spawn();
     if (!spawned) {
       throw new Error('Failed to spawn remoteingress-bin');
     }
 
+    // Register crash recovery handler
+    this.bridge.on('exit', this.handleCrashRecovery);
+
     await this.bridge.sendCommand('startEdge', {
-      hubHost: config.hubHost,
-      hubPort: config.hubPort ?? 8443,
-      edgeId: config.edgeId,
-      secret: config.secret,
-      listenPorts: config.listenPorts,
-      stunIntervalSecs: config.stunIntervalSecs,
+      hubHost: edgeConfig.hubHost,
+      hubPort: edgeConfig.hubPort ?? 8443,
+      edgeId: edgeConfig.edgeId,
+      secret: edgeConfig.secret,
     });
 
     this.started = true;
+    this.restartAttempts = 0;
+    this.restartBackoffMs = 1000;
+
+    // Start periodic status logging
+    this.statusInterval = setInterval(async () => {
+      try {
+        const status = await this.getStatus();
+        console.log(
+          `[RemoteIngressEdge] Status: connected=${status.connected}, ` +
+          `streams=${status.activeStreams}, ports=[${status.listenPorts.join(',')}], ` +
+          `publicIp=${status.publicIp ?? 'unknown'}`
+        );
+      } catch {
+        // Bridge may be shutting down
+      }
+    }, 60_000);
   }
 
   /**
    * Stop the edge and kill the Rust process.
    */
   public async stop(): Promise<void> {
+    this.stopping = true;
+    if (this.statusInterval) {
+      clearInterval(this.statusInterval);
+      this.statusInterval = undefined;
+    }
     if (this.started) {
       try {
         await this.bridge.sendCommand('stopEdge', {} as Record<string, never>);
       } catch {
         // Process may already be dead
       }
+      this.bridge.removeListener('exit', this.handleCrashRecovery);
       this.bridge.kill();
       this.started = false;
     }
@@ -133,4 +187,55 @@ export class RemoteIngressEdge extends EventEmitter {
   public get running(): boolean {
     return this.bridge.running;
   }
+
+  /**
+   * Handle unexpected Rust binary crash — auto-restart with backoff.
+   */
+  private handleCrashRecovery = async (code: number | null, signal: string | null) => {
+    if (this.stopping || !this.started || !this.savedConfig) {
+      return;
+    }
+
+    console.error(
+      `[RemoteIngressEdge] Rust binary crashed (code=${code}, signal=${signal}), ` +
+      `attempt ${this.restartAttempts + 1}/${MAX_RESTART_ATTEMPTS}`
+    );
+
+    this.started = false;
+
+    if (this.restartAttempts >= MAX_RESTART_ATTEMPTS) {
+      console.error('[RemoteIngressEdge] Max restart attempts reached, giving up');
+      this.emit('crashRecoveryFailed');
+      return;
+    }
+
+    await new Promise(resolve => setTimeout(resolve, this.restartBackoffMs));
+    this.restartBackoffMs = Math.min(this.restartBackoffMs * 2, MAX_RESTART_BACKOFF_MS);
+    this.restartAttempts++;
+
+    try {
+      const spawned = await this.bridge.spawn();
+      if (!spawned) {
+        console.error('[RemoteIngressEdge] Failed to respawn binary');
+        return;
+      }
+
+      this.bridge.on('exit', this.handleCrashRecovery);
+
+      await this.bridge.sendCommand('startEdge', {
+        hubHost: this.savedConfig.hubHost,
+        hubPort: this.savedConfig.hubPort ?? 8443,
+        edgeId: this.savedConfig.edgeId,
+        secret: this.savedConfig.secret,
+      });
+
+      this.started = true;
+      this.restartAttempts = 0;
+      this.restartBackoffMs = 1000;
+      console.log('[RemoteIngressEdge] Successfully recovered from crash');
+      this.emit('crashRecovered');
+    } catch (err) {
+      console.error(`[RemoteIngressEdge] Crash recovery failed: ${err}`);
+    }
+  };
 }

ts/classes.remoteingresshub.ts

@@ -11,6 +11,8 @@ type THubCommands = {
     params: {
       tunnelPort: number;
       targetHost?: string;
+      tlsCertPem?: string;
+      tlsKeyPem?: string;
     };
     result: { started: boolean };
   };
@@ -20,7 +22,7 @@ type THubCommands = {
   };
   updateAllowedEdges: {
     params: {
-      edges: Array<{ id: string; secret: string }>;
+      edges: Array<{ id: string; secret: string; listenPorts?: number[]; stunIntervalSecs?: number }>;
     };
     result: { updated: boolean };
   };
@@ -33,6 +35,7 @@ type THubCommands = {
         edgeId: string;
         connectedAt: number;
         activeStreams: number;
+        peerAddr: string;
       }>;
     };
   };
@@ -41,11 +44,25 @@ type THubCommands = {
 export interface IHubConfig {
   tunnelPort?: number;
   targetHost?: string;
+  tls?: {
+    certPem?: string;
+    keyPem?: string;
+  };
 }
 
+type TAllowedEdge = { id: string; secret: string; listenPorts?: number[]; stunIntervalSecs?: number };
+
+const MAX_RESTART_ATTEMPTS = 10;
+const MAX_RESTART_BACKOFF_MS = 30_000;
+
 export class RemoteIngressHub extends EventEmitter {
   private bridge: InstanceType<typeof plugins.smartrust.RustBridge<THubCommands>>;
   private started = false;
+  private stopping = false;
+  private savedConfig: IHubConfig | null = null;
+  private savedEdges: TAllowedEdge[] = [];
+  private restartBackoffMs = 1000;
+  private restartAttempts = 0;
 
   constructor() {
     super();
@@ -73,7 +90,7 @@ export class RemoteIngressHub extends EventEmitter {
     });
 
     // Forward events from Rust binary
-    this.bridge.on('management:edgeConnected', (data: { edgeId: string }) => {
+    this.bridge.on('management:edgeConnected', (data: { edgeId: string; peerAddr: string }) => {
       this.emit('edgeConnected', data);
     });
     this.bridge.on('management:edgeDisconnected', (data: { edgeId: string }) => {
@@ -91,29 +108,42 @@ export class RemoteIngressHub extends EventEmitter {
    * Start the hub — spawns the Rust binary and starts the tunnel server.
    */
   public async start(config: IHubConfig = {}): Promise<void> {
+    this.savedConfig = config;
+    this.stopping = false;
+
     const spawned = await this.bridge.spawn();
     if (!spawned) {
       throw new Error('Failed to spawn remoteingress-bin');
     }
 
+    // Register crash recovery handler
+    this.bridge.on('exit', this.handleCrashRecovery);
+
     await this.bridge.sendCommand('startHub', {
       tunnelPort: config.tunnelPort ?? 8443,
       targetHost: config.targetHost ?? '127.0.0.1',
+      ...(config.tls?.certPem && config.tls?.keyPem
+        ? { tlsCertPem: config.tls.certPem, tlsKeyPem: config.tls.keyPem }
+        : {}),
     });
 
     this.started = true;
+    this.restartAttempts = 0;
+    this.restartBackoffMs = 1000;
   }
 
   /**
    * Stop the hub and kill the Rust process.
    */
   public async stop(): Promise<void> {
+    this.stopping = true;
     if (this.started) {
       try {
         await this.bridge.sendCommand('stopHub', {} as Record<string, never>);
       } catch {
         // Process may already be dead
       }
+      this.bridge.removeListener('exit', this.handleCrashRecovery);
       this.bridge.kill();
       this.started = false;
     }
@@ -122,7 +152,8 @@ export class RemoteIngressHub extends EventEmitter {
   /**
    * Update the list of allowed edges that can connect to this hub.
    */
-  public async updateAllowedEdges(edges: Array<{ id: string; secret: string }>): Promise<void> {
+  public async updateAllowedEdges(edges: TAllowedEdge[]): Promise<void> {
+    this.savedEdges = edges;
     await this.bridge.sendCommand('updateAllowedEdges', { edges });
   }
 
@@ -139,4 +170,62 @@ export class RemoteIngressHub extends EventEmitter {
   public get running(): boolean {
     return this.bridge.running;
   }
+
+  /**
+   * Handle unexpected Rust binary crash — auto-restart with backoff.
+   */
+  private handleCrashRecovery = async (code: number | null, signal: string | null) => {
+    if (this.stopping || !this.started || !this.savedConfig) {
+      return;
+    }
+
+    console.error(
+      `[RemoteIngressHub] Rust binary crashed (code=${code}, signal=${signal}), ` +
+      `attempt ${this.restartAttempts + 1}/${MAX_RESTART_ATTEMPTS}`
+    );
+
+    this.started = false;
+
+    if (this.restartAttempts >= MAX_RESTART_ATTEMPTS) {
+      console.error('[RemoteIngressHub] Max restart attempts reached, giving up');
+      this.emit('crashRecoveryFailed');
+      return;
+    }
+
+    await new Promise(resolve => setTimeout(resolve, this.restartBackoffMs));
+    this.restartBackoffMs = Math.min(this.restartBackoffMs * 2, MAX_RESTART_BACKOFF_MS);
+    this.restartAttempts++;
+
+    try {
+      const spawned = await this.bridge.spawn();
+      if (!spawned) {
+        console.error('[RemoteIngressHub] Failed to respawn binary');
+        return;
+      }
+
+      this.bridge.on('exit', this.handleCrashRecovery);
+
+      const config = this.savedConfig;
+      await this.bridge.sendCommand('startHub', {
+        tunnelPort: config.tunnelPort ?? 8443,
+        targetHost: config.targetHost ?? '127.0.0.1',
+        ...(config.tls?.certPem && config.tls?.keyPem
+          ? { tlsCertPem: config.tls.certPem, tlsKeyPem: config.tls.keyPem }
+          : {}),
+      });
+
+      // Restore allowed edges
+      if (this.savedEdges.length > 0) {
+        await this.bridge.sendCommand('updateAllowedEdges', { edges: this.savedEdges });
+      }
+
+      this.started = true;
+      this.restartAttempts = 0;
+      this.restartBackoffMs = 1000;
+      console.log('[RemoteIngressHub] Successfully recovered from crash');
+      this.emit('crashRecovered');
+    } catch (err) {
+      console.error(`[RemoteIngressHub] Crash recovery failed: ${err}`);
+    }
+  };
 }

ts/classes.token.ts

@@ -0,0 +1,66 @@
+/**
+ * Connection token utilities for RemoteIngress edge connections.
+ * A token is a base64url-encoded compact JSON object carrying hub connection details.
+ */
+
+export interface IConnectionTokenData {
+  hubHost: string;
+  hubPort: number;
+  edgeId: string;
+  secret: string;
+}
+
+/**
+ * Encode connection data into a single opaque token string (base64url).
+ */
+export function encodeConnectionToken(data: IConnectionTokenData): string {
+  const compact = JSON.stringify({
+    h: data.hubHost,
+    p: data.hubPort,
+    e: data.edgeId,
+    s: data.secret,
+  });
+  // base64url: standard base64 with + → -, / → _, trailing = stripped
+  return Buffer.from(compact, 'utf-8')
+    .toString('base64')
+    .replace(/\+/g, '-')
+    .replace(/\//g, '_')
+    .replace(/=+$/, '');
+}
+
+/**
+ * Decode a connection token back into its constituent fields.
+ * Throws on malformed or incomplete tokens.
+ */
+export function decodeConnectionToken(token: string): IConnectionTokenData {
+  let parsed: { h?: unknown; p?: unknown; e?: unknown; s?: unknown };
+  try {
+    // Restore standard base64 from base64url
+    let base64 = token.replace(/-/g, '+').replace(/_/g, '/');
+    // Re-add padding
+    const remainder = base64.length % 4;
+    if (remainder === 2) base64 += '==';
+    else if (remainder === 3) base64 += '=';
+
+    const json = Buffer.from(base64, 'base64').toString('utf-8');
+    parsed = JSON.parse(json);
+  } catch {
+    throw new Error('Invalid connection token');
+  }
+
+  if (
+    typeof parsed.h !== 'string' ||
+    typeof parsed.p !== 'number' ||
+    typeof parsed.e !== 'string' ||
+    typeof parsed.s !== 'string'
+  ) {
+    throw new Error('Invalid connection token: missing required fields');
+  }
+
+  return {
+    hubHost: parsed.h,
+    hubPort: parsed.p,
+    edgeId: parsed.e,
+    secret: parsed.s,
+  };
+}

ts/index.ts

@@ -1,2 +1,3 @@
 export * from './classes.remoteingresshub.js';
 export * from './classes.remoteingressedge.js';
+export * from './classes.token.js';