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Thanks to Seemant Kulleen <seemant@gentoo.org> for pointing them out.
193 lines
9.1 KiB
Plaintext
193 lines
9.1 KiB
Plaintext
udev and devfs - The final word
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December 30, 2003
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Greg Kroah-Hartman
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<greg@kroah.com>
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Executive summary for those too lazy to read this whole thing:
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I don't care about devfs, and I don't want to talk about it at
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all anymore. If you love devfs, fine, I'm not trying to tell
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anyone what to do. But you really should be looking into using
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udev instead. All further email messages sent to me about devfs
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will be gladly ignored.
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First off, some background. For a description of udev, and what its
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original design goals were, please see the OLS 2003 paper on udev,
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available at:
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<http://www.kroah.com/linux/talks/ols_2003_udev_paper/Reprint-Kroah-Hartman-OLS2003.pdf>
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and the slides for the talk, available at:
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<http://www.kroah.com/linux/talks/ols_2003_udev_talk/>
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The OLS paper can also be found in the docs/ directory of the udev
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tarball, available on kernel.org in the /pub/linux/utils/kernel/hotplug/
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directory.
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In that OLS paper, I described the current situation of a static /dev
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and the current problems that a number of people have with it. I also
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detailed how devfs tries to solve a number of these problems. In
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hindsight, I should have never mentioned the word "devfs" when talking
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about udev. I did so only because it seemed like a good place to start
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with. Most people understood what devfs is, and what it does. To
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compare udev against it, showing how udev was more powerful, and a more
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complete solution to the problems people were having, seemed like a
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natural comparison to me.
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But no more. I hereby never want to compare devfs and udev again. With
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the exception of this message...
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The Problems:
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1) A static /dev is unwieldy and big. It would be nice to only show
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the /dev entries for the devices we actually have running in the
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system.
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2) We are (well, were) running out of major and minor numbers for
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devices.
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3) Users want a way to name devices in a persistent fashion (i.e. "This
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disk here, must _always_ be called "boot_disk" no matter where in
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the scsi tree I put it", or "This USB camera must always be called
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"camera" no matter if I have other USB scsi devices plugged in or
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not.")
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4) Userspace programs want to know when devices are created or removed,
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and what /dev entry is associated with them.
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The constraints:
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1) No policy in the kernel!
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2) Follow standards (like the LSB)
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3) must be small so embedded devices will use it.
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So, how does devfs stack up to the above problems and constraints:
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Problems:
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1) devfs only shows the dev entries for the devices in the system.
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2) devfs does not handle the need for dynamic major/minor numbers
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3) devfs does not provide a way to name devices in a persistent
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fashion.
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4) devfs does provide a deamon that userspace programs can hook into
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to listen to see what devices are being created or removed.
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Constraints:
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1) devfs forces the devfs naming policy into the kernel. If you
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don't like this naming scheme, tough.
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2) devfs does not follow the LSB device naming standard.
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3) devfs is small, and embedded devices use it. However it is
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implemented in non-pagable memory.
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Oh yeah, and there are the insolvable race conditions with the devfs
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implementation in the kernel, but I'm not going to talk about them right
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now, sorry. See the linux-kernel archives if you care about them (and
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if you use devfs, you should care...)
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So devfs is 2 for 7, ignoring the kernel races.
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And now for udev:
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Problems:
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1) using udev, the /dev tree only is populated for the devices that
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are currently present in the system.
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2) udev does not care about the major/minor number schemes. If the
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kernel tomorrow switches to randomly assign major and minor numbers
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to different devices, it would work just fine (this is exactly
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what I am proposing to do in 2.7...)
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3) This is the main reason udev is around. It provides the ability
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to name devices in a persistent manner. More on that below.
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4) udev emits D-BUS messages so that any other userspace program
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(like HAL) can listen to see what devices are created or removed.
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It also allows userspace programs to query its database to see
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what devices are present and what they are currently named as
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(providing a pointer into the sysfs tree for that specific device
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node.)
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Constraints:
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1) udev moves _all_ naming policies out of the kernel and into
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userspace.
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2) udev defaults to using the LSB device naming standard. If users
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want to deviate away from this standard (for example when naming
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some devices in a persistent manner), it is easily possible to do
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so.
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3) udev is small (49Kb binary) and is entirely in userspace, which
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is swapable, and doesn't have to be running at all times.
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Nice, 7 out of 7 for udev. Makes you think the problems and constraints
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were picked by a udev developer, right? No, the problems and
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constraints are ones I've seen over the years and so udev, along with
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the kernel driver model and sysfs, were created to solve these real
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problems. I also have had the luxury to see the problems that the
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current devfs implementation has, and have taken the time to work out
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something that does not have those same problems.
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So by just looking at the above descriptions, everyone should instantly
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realize that udev is far better than devfs and start helping out udev
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development, right? Oh, you want more info, ok...
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Back in May 2003 I released a very tiny version of udev that implemented
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everything that devfs currently does, in about 6Kb of userspace code:
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http://marc.theaimsgroup.com/?l=linux-kernel&m=105003185331553
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Yes, that's right, 6Kb. So, you are asking, why are you still working
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on udev if it did everything devfs did back in May 2003? That's because
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just managing static device nodes based on what the kernel calls the
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devices is _not_ the primary goal of udev. It's just a tiny side effect
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of its primary goal, the ability to never worry about major/minor
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number assignments and provide the ability to achieve persistent device
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names if wanted.
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All the people wanting to bring up the udev vs. devfs argument go back
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and read the previous paragraph. Yes, all Gentoo users who keep filling
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up my inbox with smoking emails, I mean you.
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So, how well does udev solve its goals:
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Prevent users from ever worrying about major/minor numbers
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And here you were, not knowing you ever needed to worry about
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major/minor numbers in the first place, right? Ah, I see you
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haven't plugged in 2 USB printers and tried to figure out which
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printer was which /dev entry? Or plugged in 4000 SCSI disks and
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tried to figure out how to access that 3642nd disk and what it was
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called in /dev. Or plugged in a USB camera and a USB flash drive
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and then tried to download the pictures off of the flash drive by
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accident?
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As the above scenarios show, both desktop users and big iron users
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both need to not worry about which device is assigned to what
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major/minor device.
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udev doesn't care what major/minor number is assigned to a device.
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It merely takes the numbers that the kernel says it assigned to the
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device and creates a device node based on it, which the user can
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then use (if you don't understand the whole major/minor to device
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node issue, or even what a device node is, trust me, you don't
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really want to, go install udev and don't worry about it...) As
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stated above, if the kernel decides to start randomly assigning
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major numbers to all devices, then udev will still work just fine.
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Provide a persistent device naming solution:
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Lots of people want to assign a specific name that they can talk to
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a device to, no matter where it is in the system, or what order they
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plugged the device in. USB printers, SCSI disks, PCI sound cards,
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Firewire disks, USB mice, and lots of other devices all need to be
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assigned a name in a consistent manner (udev doesn't handle network
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devices, naming them is already a solved solution, using nameif).
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udev allows users to create simple rules to describe what device to
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name. If users want to call a program running a large database
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half-way around the world, asking it what to name this device, it
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can. We don't put the naming database into the kernel (like other
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Unix variants have), everything is in userspace, and easily
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accessible. You can even run a perl script to name your device if
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you are that crazy...
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For more information on how to create udev rules to name devices,
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please see the udev man page, and look at the example udev rules
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that ship with the tarball.
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So, convinced already why you should use udev instead of devfs? No.
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Ok, fine, I'm not forcing you to abandon your bloated, stifling policy,
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nonextensible, end of life feature if you don't want to. But please
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don't bother me about it either, I don't care about devfs, only about
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udev.
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This is my last posting about this topic, all further emails sent to me
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about why devfs is wonderful, and why are you making fun of this
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wonderful, stable gift from the gods, will be gleefully ignored and
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possibly posted in a public place where others can see.
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thanks,
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greg k-h
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