Udev/fr

udev is the device manager for the Linux kernel. It manages device nodes in and handles all user space actions when adding or removing devices. Readers of this article should also look at eudev, a fork of udev.

Le répertoire /dev
When Linux users talk about the hardware on their system in the vicinity of people who believe Linux is some sort of virus or brand of coffee, the use of "slash dev slash foo" will return strange looks for sure. But for the fortunate user (and that includes the reader of this article) using is just a fast way of referring to the primary master SATA, first partition. That's pretty easy, right?

Most Linux users know what a device file is. Some even know why device files have special numbers. Take a close look at device list when is issued in the  folder. What users take for granted is that the primary SATA disk is referred to as Some users might not see it this way, but this is a flaw by design.

Think about hotpluggable devices like USB, IEEE1394, hot-swappable PCI, etc. What is the first device? And for how long? What will the other devices be named when the first one disappears? How will that affect ongoing transactions? Wouldn't it be fun that a printing job is suddenly moved from a super-new laser printer to an almost-dead matrix printer because someone's mom decided to pull the plug of the laser printer which just so happened to be the first printer?

Enter. The goals of the udev project are both interesting and needed. Udev:


 * Runs in userspace;
 * Dynamically creates and removes device files;
 * Provides consistent naming;
 * Provides a userspace application program interface (API).

Every time a change happens within the device structure, the kernel emits a uevent which gets picked up by. then follows the rules as declared in the, and  directories. Based on the information contained within the uevent, it finds the rule or rules it needs to trigger and performs the required actions. These actions can be creating or deleting device files, but can also trigger the loading of particular firmware files into kernel memory.

Noyau
requires the following kernel options:

USE flags
Portage knows the  global USE flag for enabling support for udev in other packages. Adding this USE flag value to the USE flag list (default in all Linux profiles) will pull in the package automatically:

Emerge
After setting USE flags update the system so the changes take effect:

Service
To start udev at boot time, add it to the sysinit runlevel. This can be done by issuing the following command with root privileges:

Règles
udev provides a set of rules that match against exported values of uevents (events sent by the kernel) and properties of the discovered device. A matching rule will possibly name and create a device node and run configured programs to setup and configure the device.

The rule definitions are stored in two locations:


 * 1)  - Rules in this directory are installed by certain packages, they generally should not be changed by users;
 * 2)  - This folder is for end-user specified rules. Any new rules should be added in this directory;

In these directories, multiple rule files (with suffix ) are traversed in alphanumerical order. Inside the rules files, udev will find expressions that might match a uevent together with the state to match (is the uevent because a device is added or removed) and the command to execute.

The event matching is based on information such as:


 * The SUBSYSTEM of the uevent (for which type of device is the uevent fired);
 * The ACTION that is taken (add, change, or remove);
 * One or more attributes (through ATTR or ATTRS), such as the device class, vendor or other device information;
 * The kernel-provided name (through KERNEL), such as sd* (for SCSI/SATA disks) or input* (for input devices such as mice and keyboards);
 * One or more environment settings (through ENV), used to send information between multiple rules.

Based on this information, the rule can then state if:


 * 1) Some information needs to be shared with later events (through environment variables)
 * 2) Links need to be created in
 * 3) Commands need to be executed

Udev does this for every rule that matches (it does not stop after the first match) to allow a flexible device management approach.

Noms de périphérique persistants
The kernel detects devices asynchronously, udev mirrors the kernel's sysfs filesystem and so the devices are named and numbered in order of detection. So by default udev provides no persistent device names. However there are mechanisms for some device classes to provide these:


 * Udev creates for storage devices additional symlinks based on the device's ID, label, UUID and path. See the directory. So instead of using e.g. the device file  use the file.


 * C'est la même chose pour les périphériques d'entrée dans le répertoire.


 * Using custom rules enables users to create their own device files.

Utilisation
Quelques commandes utiles :


 * Affiche tous les messages concernant un fichier de périphérique donné :


 * Surveille les activités de udev :


 * Assign a persistent name to an ethernet device:

Reportez-vous à la page de manuel de udevadm pour plus d'information.

Journaliser les messages de surveillance
To log all message when is ran, modify the following configuration file:

It will create the new log file located at

Mode de déverminage
Enabling debug mode will output more log messages:

Set the logging priority:

The log file will be created but no messages will be logged to it. The most recent versions of udev will log all messages to.

Fichiers de périphériques manquants et
Some udev versions need the and  files in order to work properly, but can not create them on their own. To manually create these files for udev run the following commands with root privileges:

NIC (Carte interface réseau) désignée comme eth0, mais a été déplacée en eth1
Those having dual network cards on their motherboards may run into a situation where may show no eth0 or eth1. may show their NIC detected as eth0, and later moved to eth1. Performing a will also show the NIC as eth1. This is caused by using the kernel assigned names in the first place. Users should write custom rules like to use free names like lan0 or wireless0 or use predictable interface names (which have been enabled by default since udev version 197).

Pensez aussi à retirer les anciens fichiers des versions antérieures de udev :