LLRO (Lowest Latency Routes Optimizer)

Service to measure ICMP latency from multiple uplinks and keep per-host /32 routes pinned to the best path.

LLRO continuously probes each monitored destination through each configured uplink source, compares packet loss and latency, and installs host routes using Linux ip route so traffic for that destination follows the healthiest path. It can freeze or override routing decisions per host through a local admin socket, and it can fall back to predefined routes when probes fail. In short, it automates per-destination path selection based on live network conditions instead of static one-time routing choices.

For a deeper technical walkthrough, see HOW_IT_WORKS.md.

Runtime requirements

• Linux with iproute2 (ip command available, default path /usr/sbin/ip)
• Root privileges or equivalent capabilities (CAP_NET_ADMIN and raw ICMP capability)
• Python >=3.7

Development setup

uv sync

Run locally

uv run llro --config ./config.yml

Configuration (recommended model)

Start from the example:

cp config.example.yml config.yml

Example:

monitor:
  - 1.1.1.1
  - 8.8.8.8

routes:
  - name: wan_fiber
    device: eth0
    probe_source: 192.168.0.8
    gateway: 192.168.0.1
  - name: wan_lte
    device: wwan0
    probe_source: 10.0.0.2
    gateway: 10.0.0.1

also_route:
  1.1.1.1:
    - 1.0.0.1
  8.8.8.8:
    - 8.8.4.4

fallback_routes:
  1.1.1.1: wan_fiber
  8.8.8.8: wan_lte

rtt_threshold: 20
packet_loss_threshold: 2
test_count: 5
test_interval: 1
scan_interval: 30
delete_preadded_routes: true
# ip_bin: /usr/sbin/ip
# admin_socket_path: /run/llro/admin.sock

Key fields

• monitor: host IPs to probe and route.
• routes: route candidates.
• routes[].name: unique route identifier.
• routes[].device: network device used for route installation.
• routes[].probe_source: source IP used for probing and route src.
• routes[].gateway: next-hop gateway for the host route.
• also_route: optional extra IPs that should follow a monitored host route.
• fallback_routes: optional fallback route name per monitored host.
• rtt_threshold: minimum RTT improvement (ms) required before switching.
• packet_loss_threshold: packet-loss threshold (%) that can force switching.
• test_count: number of probe rounds aggregated before routing decisions.
• test_interval: interval between ping packets in a probe run.
• scan_interval: delay between scan cycles.
• delete_preadded_routes: remove existing static /32 routes for monitored hosts on startup.
• ip_bin: optional ip binary path override.
• admin_socket_path: Unix socket path used by llro-cli for admin/monitoring.

Legacy config compatibility

The old interfaces model is still accepted for now:

interfaces:
  eth0:
    - 192.168.0.8

Compatibility mode maps each interfaces.<device>.<source> entry to a generated route candidate:

• name: "<device>:<source>"
• probe_source: <source>
• gateway: <source> (legacy behavior)

fallback_routes may reference either route names (new) or legacy source IPs (old).

Tooling (Make + uv)

make validate   # format check + lint + typecheck + dead-code scan
make test       # pytest
make integration-test  # dockerized route mutation integration test
make build      # build sdist/wheel + twine metadata check

Auto-fix formatting/lint issues:

make fix

Run integration tests directly:

RUN_DOCKER_INTEGRATION=1 uv run pytest -m integration

The compose integration scenario spins up multiple containers, blocks ICMP on one path, and verifies LLRO switches the monitored host route to the remaining healthy path.

Install as CLI

From local checkout:

uv pip install .

From wheel:

uv pip install dist/*.whl

Then run:

llro --config /etc/llro.yml

Admin commands (against running daemon):

llro-cli status
llro-cli override --host 1.1.1.1 --route wan_fiber
llro-cli disable-switching --all
llro-cli reset-auto --host 1.1.1.1

Example output:

$ llro-cli status
Host 1.1.1.1 | mode=auto | switching=yes | current=wan_fiber | override=-
  wan_fiber: rtt=14.2 ms, loss=0%, alive=yes
  wan_lte: rtt=35.8 ms, loss=0%, alive=yes
Host 8.8.8.8 | mode=frozen | switching=no | current=wan_lte | override=-
  wan_fiber: rtt=48.1 ms, loss=0%, alive=yes
  wan_lte: rtt=31.6 ms, loss=0%, alive=yes

$ llro-cli status --json
{
  "hosts": [
    {
      "current_route": "wan_fiber",
      "host": "1.1.1.1",
      "mode": "auto",
      "override_route": null,
      "routes": {
        "wan_fiber": {
          "avg_loss": 0,
          "avg_rtt": 14.2,
          "is_alive": true
        },
        "wan_lte": {
          "avg_loss": 0,
          "avg_rtt": 35.8,
          "is_alive": true
        }
      },
      "switching_enabled": true
    }
  ]
}

$ llro-cli override --host 1.1.1.1 --route wan_lte
{"host": "1.1.1.1", "mode": "override", "route": "wan_lte"}

$ llro-cli disable-switching --all
{"hosts": ["1.1.1.1", "8.8.8.8"], "mode": "frozen"}

$ llro-cli reset-auto --host 1.1.1.1
{"hosts": ["1.1.1.1"], "mode": "auto"}

systemd service

Use the provided unit as a base and verify the executable path in your environment:

which llro

Install:

sudo cp llro.service /etc/systemd/system/llro.service
sudo systemctl daemon-reload
sudo systemctl enable --now llro
sudo systemctl status llro

PyPI release flow

• Local dry-run build: make build
• Publish manually with Twine:
• make publish-testpypi
• make publish-pypi
• GitHub Actions publish:
• Push tag v* to trigger .github/workflows/publish-to-pypi.yml
• Workflow uses trusted publishing (id-token) for PyPI

Contributing

Inspired by https://malaty.net/linux-lowest-latency-routes-optimizer/