🍇 VintageNet

NOTE: If you’ve been using vintage_netv0.6.x or earlier, we split out network technology support out to separate libraries in v0.7.0. You’ll need to add those libraries to your mix dependency list and rename some atoms. Configurations stored on deployed devices will be automatically updated. See the v0.7.0 release notes for details.

VintageNet is network configuration library built specifically for Nerves Project devices. It has the following features:

Ethernet and WiFi support included. Extendible to other technologies
Default configurations specified in your Application config
Runtime updates to configurations are persisted and applied on next boot (configurations are obfuscated by default to hide WiFi passphrases)
Simple subscription to network status change events
Connect to multiple networks at a time and prioritize which interfaces are used (Ethernet over WiFi over cellular)
Internet connection monitoring and failure detection

TL;DR: Don’t care about any of this and just want the string to copy/paste to set up networking? See the VintageNet Cookbook.

The following network configurations are supported:

[x] Wired Ethernet, IPv4 DHCP
[x] Wired Ethernet, IPv4 static IP
[x] WiFi password-less and WEP
[x] WPA2 PSK and EAP
[x] USB gadget mode Ethernet, IPv4 DHCP server to supply host IP address
[ ] Cellular networks
[x] WiFi AP mode
[ ] IPv6

vintage_net takes a different approach to networking from nerves_network. Its focus is on building and applying network configurations. Where nerves_network provided configurable state machines, vintage_net turns human-readable configurations into everything from configuration files and calls to ip to starting up networking GenServers and routing table updates. This makes it easier to add support for new network technologies and features. While Elixir and Erlang were great to implement network protocols in, it was frequently more practical to reuse embedded Linux implementations. Importantly, though, vintage_net monitors Linux daemons under its OTP supervision tree so failures on both the “C” and Elixir sides propagate in the expected ways.

Another important difference is that VintageNet doesn’t attempt to make incremental modifications to configurations. It completely tears down an interface’s connection and then brings up new configurations in a fresh state. Network reconfiguration is assumed to be an infrequent event so while this can cause a hiccup in the network connectivity, it removes state machine code that made nerves_network hard to maintain.

Installation

First, if you’re modifying an existing project, you will need to remove nerves_network and nerves_init_gadget. vintage_net doesn’t work with either of them. You’ll get an error if any project references those packages.

There are two routes to integrating vintage_net:

Use nerves_pack. nerves_pack is like nerves_init_gadget, but for vintage_net.
Copy and paste from vintage_net_example

The next step is to make sure that your Nerves system is compatible. The official Nerves systems released after 12/11/2019 work without modification. If rolling your own Nerves port, you will need the following Linux kernel options enabled:

CONFIG_IP_ADVANCED_ROUTER=y
CONFIG_IP_MULTIPLE_TABLES=y

Then make sure that you have the following Busybox options enabled:

CONFIG_IFCONFIG=y - ifconfig ifconfig
CONFIG_UDHCPC=y - udhcpc DHCP Client
CONFIG_UDHCPD=y - udhcpd DHCP Server (optional)

You can avoid making the Busybox changes by adding :busybox to your project’s mix dependencies:

    {:busybox, "~> 0.1", targets: @all_targets}

Finally, you’ll need to choose what network connection technologies that you want available in your firmware. If using nerves_pack, you’ll get support for wired Ethernet, WiFi, and USB gadget networking automatically. Otherwise, add one or more of the following to your dependency list:

vintage_net_ethernet - Standard wired Ethernet
vintage_net_wifi - Client configurations for 802.11 WiFi
vintage_net_direct - Direct connections like those used for USB gadget

Configuration

VintageNet has many application configuration keys. Most defaults are fine. At a minimum, you’ll want to specify a default configuration and default regulatory domain if using WiFi. In your main config.exs, add the following:

config :vintage_net,
  regulatory_domain: "US",
  config: [
    {"eth0", %{type: VintageNetEthernet, ipv4: %{method: :dhcp}}},
    {"wlan0", %{type: VintageNetWiFi}}
  ]

This sets the regulatory domain to the US (set to your ISO 3166-1 alpha-2 country code. This code is passed on to the drivers for WiFi and other wireless networking technologies so that they comply with local regulations. If you need a global default, set to “00” or don’t set at all. Unfortunately, this may mean that an access point isn’t visible if it is running on a frequency that’s allowed in your country, but not globally.

The config section is a list of network configurations. The one shown above configures DHCP on wired Ethernet and minimally starts up a WiFi LAN so that it’s possible to scan for networks. The typical setup is to provide generic defaults here. Static IP addresses, WiFi SSIDs and credentials are more appropriately configured at run-time. VintageNet persists configurations too. Details on network configuration are described later.

The following table describes the other application config keys.

Key | Description —————– | ————————— config | A list of default network configurations tmpdir | Path to a temporary directory for VintageNet to_elixir_socket | Name to use for the Unix domain socket for C to Elixir communication bin_ifup | Path to ifup bin_ifdown | Path to ifdown bin_chat | Path to chat bin_pppd | Path to pppd bin_mknod | Path to mknod bin_killall | Path to killall bin_wpa_supplicant | Path to wpa_supplicant bin_ip | Path to ip udhcpc_handler | Module for handling notifications from udhcpc resolvconf | Path to /etc/resolv.conf persistence | Module for persisting network configurations persistence_dir | Path to a directory for storing persisted configurations persistence_secret | A 16-byte secret or an MFA for getting a secret internet_host | IP address for host to ping to check for Internet connectivity. Must be a tuple of integers ({1, 1, 1, 1}) or binary representation ("1.1.1.1") regulatory_domain | ISO 3166-1 alpha-2 country (00 for global, US, etc.)

Network interface configuration

VintageNet supports several network technologies out of the box and third-party libraries can provide more via the VintageNet.Technology behaviour.

Configurations are Elixir maps. These are specified in three places:

The vintage_net application config (e.g., your config.exs)
Locally saved configuration (see the VintageNet.Persistence behaviour for replacing the default)
Calling VintageNet.configure/2 to change the configuration at run-time

When vintage_net starts, it applies saved configurations first and if any thing is wrong with those configs, it reverts to the application config. A good practice is to have safe defaults for all network interfaces in the application config.

The only required key in the configuration maps is :type. All other keys follow from the type. :type should be set to a module that implements the VintageNet.Technology behaviour. The following are common technologies:

VintageNetEthernet - Standard wired Ethernet
VintageNetWiFi - Client configurations for 802.11 WiFi
VintageNetDirect - Direct connections like those used for USB gadget connections
VintageNet.Technology.Null - An empty configuration useful for turning off a configuration

See the links above for specific documentation.

Persistence

By default, VintageNet stores network configuration to disk. If you are migrating from nerves_network you may already have a persistence implementation. To disable the default persistence, configure vintage_net as follows:

config :vintage_net,
  persistence: VintageNet.Persistence.Null

Debugging

Debugging networking issues is not fun. When you’re starting out with vintage_net, it is highly recommended to connect to your target using a method that doesn’t require networking to work. This could be a UART connection to an IEx console on a Nerves device or maybe just hooking up a keyboard and monitor.

If having trouble, first check VintageNet.info() to verify the configuration and connection status:

iex> VintageNet.info
VintageNet 0.3.0

All interfaces:       ["eth0", "lo", "tap0", "wlan0"]
Available interfaces: ["eth0", "wlan0"]

Interface eth0
  Type: VintageNetEthernet
  Present: true
  State: :configured
  Connection: :internet
  Configuration:
    %{ipv4: %{method: :dhcp}, type: VintageNetEthernet}

Interface wlan0
  Type: VintageNetWiFi
  Present: true
  State: :configured
  Connection: :internet
  Configuration:
    %{
      ipv4: %{method: :dhcp},
      type: VintageNetWiFi,
      wifi: %{
        key_mgmt: :wpa_psk,
        mode: :infrastructure,
        psk: "******",
        ssid: "MyLAN"
      }
    }

If you’re using Toolshed, try running the following:

iex> ifconfig
lo: flags=[:up, :loopback, :running]
    inet 127.0.0.1  netmask 255.0.0.0
    inet ::1  netmask ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff
    hwaddr 00:00:00:00:00:00

eth0: flags=[:up, :broadcast, :running, :multicast]
    inet 192.168.9.131  netmask 255.255.255.0  broadcast 192.168.9.255
    inet fe80::6264:5ff:fee1:4045  netmask ffff:ffff:ffff:ffff::
    hwaddr 60:64:05:e1:40:45

wlan0: flags=[:up, :broadcast, :running, :multicast]
    inet 192.168.9.175  netmask 255.255.255.0  broadcast 192.168.9.255
    inet fe80::20c:e7ff:fe11:3d46  netmask ffff:ffff:ffff:ffff::
    hwaddr 00:0c:e7:11:3d:46

Or ping:

iex> ping "nerves-project.com"
Press enter to stop
Response from nerves-project.com (96.126.123.244): time=48.87ms
Response from nerves-project.com (96.126.123.244): time=42.856ms
Response from nerves-project.com (96.126.123.244): time=43.097ms

You can also specify an interface to use with ping:

iex> ping "nerves-project.com", ifname: "wlan0"
Press enter to stop
Response from nerves-project.com (96.126.123.244): time=57.817ms
Response from nerves-project.com (96.126.123.244): time=46.796ms

iex> ping "nerves-project.com", ifname: "eth0"
Press enter to stop
Response from nerves-project.com (96.126.123.244): time=47.923ms
Response from nerves-project.com (96.126.123.244): time=48.688ms

If it looks like nothing is working, check the logs. On Nerves devices, this is frequently done by calling RingLogger.next or RingLogger.attach.

At a last resort, please open a GitHub issue. We would be glad to help. We only have one ask and that is that you get us started with an improvement to our documentation or code so that the next person to run into the issue will have an easier time. Thanks!

Properties

VintageNet maintains a key/value store for retrieving information on networking information:

iex> VintageNet.get(["interface", "eth0", "connection"])
:internet

iex> VintageNet.get_by_prefix([])
[
  {["interface", "eth0", "connection"], :internet},
  {["interface", "eth0", "state"], :configured},
  {["interface", "eth0", "type"], VintageNetEthernet},
  {["interface", "wlan0", "connection"], :internet},
  {["interface", "wlan0", "state"], :configured},
  {["interface", "wlan0", "type"], VintageNetWiFi}
]

You can also subscribe to keys and receive a message every time it or one its child keys changes:

iex> VintageNet.subscribe(["interface", "eth0"])
:ok

iex> flush
{VintageNet, ["interface", "eth0", "state"], :configuring, :configured, %{}}

The message format is {VintageNet, name, old_value, new_value, metadata}

Global properties

Common network interface properties

All network interface properties can be found under ["interface", ifname] in the PropertyTable. The following table lists out properties common to all interfaces:

Specific types of interfaces provide more parameters.