1965 lines
67 KiB
Plaintext
1965 lines
67 KiB
Plaintext
Devfs (Device File System) FAQ
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Linux Devfs (Device File System) FAQ
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Richard Gooch
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20-AUG-2002
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Document languages:
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-----------------------------------------------------------------------------
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NOTE: the master copy of this document is available online at:
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http://www.atnf.csiro.au/~rgooch/linux/docs/devfs.html
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and looks much better than the text version distributed with the
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kernel sources. A mirror site is available at:
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http://www.ras.ucalgary.ca/~rgooch/linux/docs/devfs.html
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There is also an optional daemon that may be used with devfs. You can
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find out more about it at:
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http://www.atnf.csiro.au/~rgooch/linux/
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A mailing list is available which you may subscribe to. Send
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email
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to majordomo@oss.sgi.com with the following line in the
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body of the message:
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subscribe devfs
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To unsubscribe, send the message body:
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unsubscribe devfs
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instead. The list is archived at
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http://oss.sgi.com/projects/devfs/archive/.
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-----------------------------------------------------------------------------
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Contents
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What is it?
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Why do it?
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Who else does it?
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How it works
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Operational issues (essential reading)
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Instructions for the impatient
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Permissions persistence across reboots
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Dealing with drivers without devfs support
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All the way with Devfs
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Other Issues
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Kernel Naming Scheme
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Devfsd Naming Scheme
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Old Compatibility Names
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SCSI Host Probing Issues
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Device drivers currently ported
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Allocation of Device Numbers
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Questions and Answers
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Making things work
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Alternatives to devfs
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What I don't like about devfs
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How to report bugs
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Strange kernel messages
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Compilation problems with devfsd
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Other resources
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Translations of this document
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-----------------------------------------------------------------------------
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What is it?
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Devfs is an alternative to "real" character and block special devices
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on your root filesystem. Kernel device drivers can register devices by
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name rather than major and minor numbers. These devices will appear in
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devfs automatically, with whatever default ownership and
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protection the driver specified. A daemon (devfsd) can be used to
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override these defaults. Devfs has been in the kernel since 2.3.46.
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NOTE that devfs is entirely optional. If you prefer the old
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disc-based device nodes, then simply leave CONFIG_DEVFS_FS=n (the
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default). In this case, nothing will change. ALSO NOTE that if you do
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enable devfs, the defaults are such that full compatibility is
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maintained with the old devices names.
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There are two aspects to devfs: one is the underlying device
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namespace, which is a namespace just like any mounted filesystem. The
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other aspect is the filesystem code which provides a view of the
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device namespace. The reason I make a distinction is because devfs
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can be mounted many times, with each mount showing the same device
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namespace. Changes made are global to all mounted devfs filesystems.
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Also, because the devfs namespace exists without any devfs mounts, you
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can easily mount the root filesystem by referring to an entry in the
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devfs namespace.
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The cost of devfs is a small increase in kernel code size and memory
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usage. About 7 pages of code (some of that in __init sections) and 72
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bytes for each entry in the namespace. A modest system has only a
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couple of hundred device entries, so this costs a few more
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pages. Compare this with the suggestion to put /dev on a <a
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href="#why-faq-ramdisc">ramdisc.
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On a typical machine, the cost is under 0.2 percent. On a modest
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system with 64 MBytes of RAM, the cost is under 0.1 percent. The
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accusations of "bloatware" levelled at devfs are not justified.
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-----------------------------------------------------------------------------
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Why do it?
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There are several problems that devfs addresses. Some of these
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problems are more serious than others (depending on your point of
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view), and some can be solved without devfs. However, the totality of
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these problems really calls out for devfs.
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The choice is a patchwork of inefficient user space solutions, which
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are complex and likely to be fragile, or to use a simple and efficient
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devfs which is robust.
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There have been many counter-proposals to devfs, all seeking to
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provide some of the benefits without actually implementing devfs. So
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far there has been an absence of code and no proposed alternative has
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been able to provide all the features that devfs does. Further,
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alternative proposals require far more complexity in user-space (and
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still deliver less functionality than devfs). Some people have the
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mantra of reducing "kernel bloat", but don't consider the effects on
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user-space.
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A good solution limits the total complexity of kernel-space and
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user-space.
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Major&minor allocation
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The existing scheme requires the allocation of major and minor device
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numbers for each and every device. This means that a central
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co-ordinating authority is required to issue these device numbers
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(unless you're developing a "private" device driver), in order to
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preserve uniqueness. Devfs shifts the burden to a namespace. This may
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not seem like a huge benefit, but actually it is. Since driver authors
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will naturally choose a device name which reflects the functionality
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of the device, there is far less potential for namespace conflict.
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Solving this requires a kernel change.
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/dev management
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Because you currently access devices through device nodes, these must
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be created by the system administrator. For standard devices you can
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usually find a MAKEDEV programme which creates all these (hundreds!)
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of nodes. This means that changes in the kernel must be reflected by
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changes in the MAKEDEV programme, or else the system administrator
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creates device nodes by hand.
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The basic problem is that there are two separate databases of
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major and minor numbers. One is in the kernel and one is in /dev (or
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in a MAKEDEV programme, if you want to look at it that way). This is
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duplication of information, which is not good practice.
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Solving this requires a kernel change.
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/dev growth
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A typical /dev has over 1200 nodes! Most of these devices simply don't
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exist because the hardware is not available. A huge /dev increases the
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time to access devices (I'm just referring to the dentry lookup times
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and the time taken to read inodes off disc: the next subsection shows
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some more horrors).
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An example of how big /dev can grow is if we consider SCSI devices:
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host 6 bits (say up to 64 hosts on a really big machine)
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channel 4 bits (say up to 16 SCSI buses per host)
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id 4 bits
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lun 3 bits
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partition 6 bits
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TOTAL 23 bits
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This requires 8 Mega (1024*1024) inodes if we want to store all
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possible device nodes. Even if we scrap everything but id,partition
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and assume a single host adapter with a single SCSI bus and only one
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logical unit per SCSI target (id), that's still 10 bits or 1024
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inodes. Each VFS inode takes around 256 bytes (kernel 2.1.78), so
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that's 256 kBytes of inode storage on disc (assuming real inodes take
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a similar amount of space as VFS inodes). This is actually not so bad,
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because disc is cheap these days. Embedded systems would care about
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256 kBytes of /dev inodes, but you could argue that embedded systems
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would have hand-tuned /dev directories. I've had to do just that on my
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embedded systems, but I would rather just leave it to devfs.
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Another issue is the time taken to lookup an inode when first
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referenced. Not only does this take time in scanning through a list in
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memory, but also the seek times to read the inodes off disc.
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This could be solved in user-space using a clever programme which
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scanned the kernel logs and deleted /dev entries which are not
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available and created them when they were available. This programme
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would need to be run every time a new module was loaded, which would
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slow things down a lot.
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There is an existing programme called scsidev which will automatically
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create device nodes for SCSI devices. It can do this by scanning files
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in /proc/scsi. Unfortunately, to extend this idea to other device
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nodes would require significant modifications to existing drivers (so
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they too would provide information in /proc). This is a non-trivial
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change (I should know: devfs has had to do something similar). Once
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you go to this much effort, you may as well use devfs itself (which
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also provides this information). Furthermore, such a system would
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likely be implemented in an ad-hoc fashion, as different drivers will
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provide their information in different ways.
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Devfs is much cleaner, because it (naturally) has a uniform mechanism
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to provide this information: the device nodes themselves!
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Node to driver file_operations translation
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There is an important difference between the way disc-based character
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and block nodes and devfs entries make the connection between an entry
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in /dev and the actual device driver.
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With the current 8 bit major and minor numbers the connection between
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disc-based c&b nodes and per-major drivers is done through a
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fixed-length table of 128 entries. The various filesystem types set
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the inode operations for c&b nodes to {chr,blk}dev_inode_operations,
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so when a device is opened a few quick levels of indirection bring us
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to the driver file_operations.
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For miscellaneous character devices a second step is required: there
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is a scan for the driver entry with the same minor number as the file
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that was opened, and the appropriate minor open method is called. This
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scanning is done *every time* you open a device node. Potentially, you
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may be searching through dozens of misc. entries before you find your
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open method. While not an enormous performance overhead, this does
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seem pointless.
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Linux *must* move beyond the 8 bit major and minor barrier,
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somehow. If we simply increase each to 16 bits, then the indexing
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scheme used for major driver lookup becomes untenable, because the
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major tables (one each for character and block devices) would need to
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be 64 k entries long (512 kBytes on x86, 1 MByte for 64 bit
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systems). So we would have to use a scheme like that used for
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miscellaneous character devices, which means the search time goes up
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linearly with the average number of major device drivers on your
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system. Not all "devices" are hardware, some are higher-level drivers
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like KGI, so you can get more "devices" without adding hardware
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You can improve this by creating an ordered (balanced:-)
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binary tree, in which case your search time becomes log(N).
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Alternatively, you can use hashing to speed up the search.
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But why do that search at all if you don't have to? Once again, it
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seems pointless.
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Note that devfs doesn't use the major&minor system. For devfs
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entries, the connection is done when you lookup the /dev entry. When
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devfs_register() is called, an internal table is appended which has
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the entry name and the file_operations. If the dentry cache doesn't
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have the /dev entry already, this internal table is scanned to get the
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file_operations, and an inode is created. If the dentry cache already
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has the entry, there is *no lookup time* (other than the dentry scan
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itself, but we can't avoid that anyway, and besides Linux dentries
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cream other OS's which don't have them:-). Furthermore, the number of
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node entries in a devfs is only the number of available device
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entries, not the number of *conceivable* entries. Even if you remove
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unnecessary entries in a disc-based /dev, the number of conceivable
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entries remains the same: you just limit yourself in order to save
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space.
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Devfs provides a fast connection between a VFS node and the device
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driver, in a scalable way.
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/dev as a system administration tool
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Right now /dev contains a list of conceivable devices, most of which I
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don't have. Devfs only shows those devices available on my
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system. This means that listing /dev is a handy way of checking what
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devices are available.
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Major&minor size
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Existing major and minor numbers are limited to 8 bits each. This is
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now a limiting factor for some drivers, particularly the SCSI disc
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driver, which consumes a single major number. Only 16 discs are
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supported, and each disc may have only 15 partitions. Maybe this isn't
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a problem for you, but some of us are building huge Linux systems with
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disc arrays. With devfs an arbitrary pointer can be associated with
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each device entry, which can be used to give an effective 32 bit
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device identifier (i.e. that's like having a 32 bit minor
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number). Since this is private to the kernel, there are no C library
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compatibility issues which you would have with increasing major and
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minor number sizes. See the section on "Allocation of Device Numbers"
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for details on maintaining compatibility with userspace.
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Solving this requires a kernel change.
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Since writing this, the kernel has been modified so that the SCSI disc
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driver has more major numbers allocated to it and now supports up to
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128 discs. Since these major numbers are non-contiguous (a result of
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unplanned expansion), the implementation is a little more cumbersome
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than originally.
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Just like the changes to IPv4 to fix impending limitations in the
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address space, people find ways around the limitations. In the long
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run, however, solutions like IPv6 or devfs can't be put off forever.
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Read-only root filesystem
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Having your device nodes on the root filesystem means that you can't
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operate properly with a read-only root filesystem. This is because you
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want to change ownerships and protections of tty devices. Existing
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practice prevents you using a CD-ROM as your root filesystem for a
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*real* system. Sure, you can boot off a CD-ROM, but you can't change
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tty ownerships, so it's only good for installing.
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Also, you can't use a shared NFS root filesystem for a cluster of
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discless Linux machines (having tty ownerships changed on a common
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/dev is not good). Nor can you embed your root filesystem in a
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ROM-FS.
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You can get around this by creating a RAMDISC at boot time, making
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an ext2 filesystem in it, mounting it somewhere and copying the
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contents of /dev into it, then unmounting it and mounting it over
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/dev.
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A devfs is a cleaner way of solving this.
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Non-Unix root filesystem
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Non-Unix filesystems (such as NTFS) can't be used for a root
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filesystem because they variously don't support character and block
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special files or symbolic links. You can't have a separate disc-based
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or RAMDISC-based filesystem mounted on /dev because you need device
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nodes before you can mount these. Devfs can be mounted without any
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device nodes. Devlinks won't work because symlinks aren't supported.
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An alternative solution is to use initrd to mount a RAMDISC initial
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root filesystem (which is populated with a minimal set of device
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nodes), and then construct a new /dev in another RAMDISC, and finally
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switch to your non-Unix root filesystem. This requires clever boot
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scripts and a fragile and conceptually complex boot procedure.
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Devfs solves this in a robust and conceptually simple way.
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PTY security
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Current pseudo-tty (pty) devices are owned by root and read-writable
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by everyone. The user of a pty-pair cannot change
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ownership/protections without being suid-root.
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This could be solved with a secure user-space daemon which runs as
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root and does the actual creation of pty-pairs. Such a daemon would
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require modification to *every* programme that wants to use this new
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mechanism. It also slows down creation of pty-pairs.
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An alternative is to create a new open_pty() syscall which does much
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the same thing as the user-space daemon. Once again, this requires
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modifications to pty-handling programmes.
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The devfs solution allows a device driver to "tag" certain device
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files so that when an unopened device is opened, the ownerships are
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changed to the current euid and egid of the opening process, and the
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protections are changed to the default registered by the driver. When
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the device is closed ownership is set back to root and protections are
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set back to read-write for everybody. No programme need be changed.
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The devpts filesystem provides this auto-ownership feature for Unix98
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ptys. It doesn't support old-style pty devices, nor does it have all
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the other features of devfs.
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Intelligent device management
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Devfs implements a simple yet powerful protocol for communication with
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a device management daemon (devfsd) which runs in user space. It is
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possible to send a message (either synchronously or asynchronously) to
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devfsd on any event, such as registration/unregistration of device
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entries, opening and closing devices, looking up inodes, scanning
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directories and more. This has many possibilities. Some of these are
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already implemented. See:
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http://www.atnf.csiro.au/~rgooch/linux/
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Device entry registration events can be used by devfsd to change
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permissions of newly-created device nodes. This is one mechanism to
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control device permissions.
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Device entry registration/unregistration events can be used to run
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programmes or scripts. This can be used to provide automatic mounting
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of filesystems when a new block device media is inserted into the
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drive.
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Asynchronous device open and close events can be used to implement
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clever permissions management. For example, the default permissions on
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/dev/dsp do not allow everybody to read from the device. This is
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sensible, as you don't want some remote user recording what you say at
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your console. However, the console user is also prevented from
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recording. This behaviour is not desirable. With asynchronous device
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open and close events, you can have devfsd run a programme or script
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when console devices are opened to change the ownerships for *other*
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device nodes (such as /dev/dsp). On closure, you can run a different
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script to restore permissions. An advantage of this scheme over
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modifying the C library tty handling is that this works even if your
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programme crashes (how many times have you seen the utmp database with
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lingering entries for non-existent logins?).
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Synchronous device open events can be used to perform intelligent
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device access protections. Before the device driver open() method is
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called, the daemon must first validate the open attempt, by running an
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external programme or script. This is far more flexible than access
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control lists, as access can be determined on the basis of other
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system conditions instead of just the UID and GID.
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Inode lookup events can be used to authenticate module autoload
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requests. Instead of using kmod directly, the event is sent to
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devfsd which can implement an arbitrary authentication before loading
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the module itself.
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Inode lookup events can also be used to construct arbitrary
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namespaces, without having to resort to populating devfs with symlinks
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to devices that don't exist.
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Speculative Device Scanning
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Consider an application (like cdparanoia) that wants to find all
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CD-ROM devices on the system (SCSI, IDE and other types), whether or
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not their respective modules are loaded. The application must
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speculatively open certain device nodes (such as /dev/sr0 for the SCSI
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CD-ROMs) in order to make sure the module is loaded. This requires
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that all Linux distributions follow the standard device naming scheme
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(last time I looked RedHat did things differently). Devfs solves the
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naming problem.
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The same application also wants to see which devices are actually
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available on the system. With the existing system it needs to read the
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/dev directory and speculatively open each /dev/sr* device to
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determine if the device exists or not. With a large /dev this is an
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inefficient operation, especially if there are many /dev/sr* nodes. A
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solution like scsidev could reduce the number of /dev/sr* entries (but
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of course that also requires all that inefficient directory scanning).
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With devfs, the application can open the /dev/sr directory
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(which triggers the module autoloading if required), and proceed to
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read /dev/sr. Since only the available devices will have
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entries, there are no inefficencies in directory scanning or device
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openings.
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-----------------------------------------------------------------------------
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Who else does it?
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FreeBSD has a devfs implementation. Solaris and AIX each have a
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pseudo-devfs (something akin to scsidev but for all devices, with some
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unspecified kernel support). BeOS, Plan9 and QNX also have it. SGI's
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IRIX 6.4 and above also have a device filesystem.
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While we shouldn't just automatically do something because others do
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it, we should not ignore the work of others either. FreeBSD has a lot
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of competent people working on it, so their opinion should not be
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blithely ignored.
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-----------------------------------------------------------------------------
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How it works
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Registering device entries
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For every entry (device node) in a devfs-based /dev a driver must call
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devfs_register(). This adds the name of the device entry, the
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file_operations structure pointer and a few other things to an
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internal table. Device entries may be added and removed at any
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time. When a device entry is registered, it automagically appears in
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any mounted devfs'.
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Inode lookup
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When a lookup operation on an entry is performed and if there is no
|
|
driver information for that entry devfs will attempt to call
|
|
devfsd. If still no driver information can be found then a negative
|
|
dentry is yielded and the next stage operation will be called by the
|
|
VFS (such as create() or mknod() inode methods). If driver information
|
|
can be found, an inode is created (if one does not exist already) and
|
|
all is well.
|
|
|
|
Manually creating device nodes
|
|
|
|
The mknod() method allows you to create an ordinary named pipe in the
|
|
devfs, or you can create a character or block special inode if one
|
|
does not already exist. You may wish to create a character or block
|
|
special inode so that you can set permissions and ownership. Later, if
|
|
a device driver registers an entry with the same name, the
|
|
permissions, ownership and times are retained. This is how you can set
|
|
the protections on a device even before the driver is loaded. Once you
|
|
create an inode it appears in the directory listing.
|
|
|
|
Unregistering device entries
|
|
|
|
A device driver calls devfs_unregister() to unregister an entry.
|
|
|
|
Chroot() gaols
|
|
|
|
2.2.x kernels
|
|
|
|
The semantics of inode creation are different when devfs is mounted
|
|
with the "explicit" option. Now, when a device entry is registered, it
|
|
will not appear until you use mknod() to create the device. It doesn't
|
|
matter if you mknod() before or after the device is registered with
|
|
devfs_register(). The purpose of this behaviour is to support
|
|
chroot(2) gaols, where you want to mount a minimal devfs inside the
|
|
gaol. Only the devices you specifically want to be available (through
|
|
your mknod() setup) will be accessible.
|
|
|
|
2.4.x kernels
|
|
|
|
As of kernel 2.3.99, the VFS has had the ability to rebind parts of
|
|
the global filesystem namespace into another part of the namespace.
|
|
This now works even at the leaf-node level, which means that
|
|
individual files and device nodes may be bound into other parts of the
|
|
namespace. This is like making links, but better, because it works
|
|
across filesystems (unlike hard links) and works through chroot()
|
|
gaols (unlike symbolic links).
|
|
|
|
Because of these improvements to the VFS, the multi-mount capability
|
|
in devfs is no longer needed. The administrator may create a minimal
|
|
device tree inside a chroot(2) gaol by using VFS bindings. As this
|
|
provides most of the features of the devfs multi-mount capability, I
|
|
removed the multi-mount support code (after issuing an RFC). This
|
|
yielded code size reductions and simplifications.
|
|
|
|
If you want to construct a minimal chroot() gaol, the following
|
|
command should suffice:
|
|
|
|
mount --bind /dev/null /gaol/dev/null
|
|
|
|
|
|
Repeat for other device nodes you want to expose. Simple!
|
|
|
|
-----------------------------------------------------------------------------
|
|
|
|
|
|
Operational issues
|
|
|
|
|
|
Instructions for the impatient
|
|
|
|
Nobody likes reading documentation. People just want to get in there
|
|
and play. So this section tells you quickly the steps you need to take
|
|
to run with devfs mounted over /dev. Skip these steps and you will end
|
|
up with a nearly unbootable system. Subsequent sections describe the
|
|
issues in more detail, and discuss non-essential configuration
|
|
options.
|
|
|
|
Devfsd
|
|
OK, if you're reading this, I assume you want to play with
|
|
devfs. First you should ensure that /usr/src/linux contains a
|
|
recent kernel source tree. Then you need to compile devfsd, the device
|
|
management daemon, available at
|
|
|
|
http://www.atnf.csiro.au/~rgooch/linux/.
|
|
Because the kernel has a naming scheme
|
|
which is quite different from the old naming scheme, you need to
|
|
install devfsd so that software and configuration files that use the
|
|
old naming scheme will not break.
|
|
|
|
Compile and install devfsd. You will be provided with a default
|
|
configuration file /etc/devfsd.conf which will provide
|
|
compatibility symlinks for the old naming scheme. Don't change this
|
|
config file unless you know what you're doing. Even if you think you
|
|
do know what you're doing, don't change it until you've followed all
|
|
the steps below and booted a devfs-enabled system and verified that it
|
|
works.
|
|
|
|
Now edit your main system boot script so that devfsd is started at the
|
|
very beginning (before any filesystem
|
|
checks). /etc/rc.d/rc.sysinit is often the main boot script
|
|
on systems with SysV-style boot scripts. On systems with BSD-style
|
|
boot scripts it is often /etc/rc. Also check
|
|
/sbin/rc.
|
|
|
|
NOTE that the line you put into the boot
|
|
script should be exactly:
|
|
|
|
/sbin/devfsd /dev
|
|
|
|
DO NOT use some special daemon-launching
|
|
programme, otherwise the boot script may not wait for devfsd to finish
|
|
initialising.
|
|
|
|
System Libraries
|
|
There may still be some problems because of broken software making
|
|
assumptions about device names. In particular, some software does not
|
|
handle devices which are symbolic links. If you are running a libc 5
|
|
based system, install libc 5.4.44 (if you have libc 5.4.46, go back to
|
|
libc 5.4.44, which is actually correct). If you are running a glibc
|
|
based system, make sure you have glibc 2.1.3 or later.
|
|
|
|
/etc/securetty
|
|
PAM (Pluggable Authentication Modules) is supposed to be a flexible
|
|
mechanism for providing better user authentication and access to
|
|
services. Unfortunately, it's also fragile, complex and undocumented
|
|
(check out RedHat 6.1, and probably other distributions as well). PAM
|
|
has problems with symbolic links. Append the following lines to your
|
|
/etc/securetty file:
|
|
|
|
vc/1
|
|
vc/2
|
|
vc/3
|
|
vc/4
|
|
vc/5
|
|
vc/6
|
|
vc/7
|
|
vc/8
|
|
|
|
This will not weaken security. If you have a version of util-linux
|
|
earlier than 2.10.h, please upgrade to 2.10.h or later. If you
|
|
absolutely cannot upgrade, then also append the following lines to
|
|
your /etc/securetty file:
|
|
|
|
1
|
|
2
|
|
3
|
|
4
|
|
5
|
|
6
|
|
7
|
|
8
|
|
|
|
This may potentially weaken security by allowing root logins over the
|
|
network (a password is still required, though). However, since there
|
|
are problems with dealing with symlinks, I'm suspicious of the level
|
|
of security offered in any case.
|
|
|
|
XFree86
|
|
While not essential, it's probably a good idea to upgrade to XFree86
|
|
4.0, as patches went in to make it more devfs-friendly. If you don't,
|
|
you'll probably need to apply the following patch to
|
|
/etc/security/console.perms so that ordinary users can run
|
|
startx. Note that not all distributions have this file (e.g. Debian),
|
|
so if it's not present, don't worry about it.
|
|
|
|
--- /etc/security/console.perms.orig Sat Apr 17 16:26:47 1999
|
|
+++ /etc/security/console.perms Fri Feb 25 23:53:55 2000
|
|
@@ -14,7 +14,7 @@
|
|
# man 5 console.perms
|
|
|
|
# file classes -- these are regular expressions
|
|
-<console>=tty[0-9][0-9]* :[0-9]\.[0-9] :[0-9]
|
|
+<console>=tty[0-9][0-9]* vc/[0-9][0-9]* :[0-9]\.[0-9] :[0-9]
|
|
|
|
# device classes -- these are shell-style globs
|
|
<floppy>=/dev/fd[0-1]*
|
|
|
|
If the patch does not apply, then change the line:
|
|
|
|
<console>=tty[0-9][0-9]* :[0-9]\.[0-9] :[0-9]
|
|
|
|
with:
|
|
|
|
<console>=tty[0-9][0-9]* vc/[0-9][0-9]* :[0-9]\.[0-9] :[0-9]
|
|
|
|
|
|
Disable devpts
|
|
I've had a report of devpts mounted on /dev/pts not working
|
|
correctly. Since devfs will also manage /dev/pts, there is no
|
|
need to mount devpts as well. You should either edit your
|
|
/etc/fstab so devpts is not mounted, or disable devpts from
|
|
your kernel configuration.
|
|
|
|
Unsupported drivers
|
|
Not all drivers have devfs support. If you depend on one of these
|
|
drivers, you will need to create a script or tarfile that you can use
|
|
at boot time to create device nodes as appropriate. There is a
|
|
section which describes this. Another
|
|
section lists the drivers which have
|
|
devfs support.
|
|
|
|
/dev/mouse
|
|
|
|
Many disributions configure /dev/mouse to be the mouse device
|
|
for XFree86 and GPM. I actually think this is a bad idea, because it
|
|
adds another level of indirection. When looking at a config file, if
|
|
you see /dev/mouse you're left wondering which mouse
|
|
is being referred to. Hence I recommend putting the actual mouse
|
|
device (for example /dev/psaux) into your
|
|
/etc/X11/XF86Config file (and similarly for the GPM
|
|
configuration file).
|
|
|
|
Alternatively, use the same technique used for unsupported drivers
|
|
described above.
|
|
|
|
The Kernel
|
|
Finally, you need to make sure devfs is compiled into your kernel. Set
|
|
CONFIG_EXPERIMENTAL=y, CONFIG_DEVFS_FS=y and CONFIG_DEVFS_MOUNT=y by
|
|
using favourite configuration tool (i.e. make config or
|
|
make xconfig) and then make clean and then recompile your kernel and
|
|
modules. At boot, devfs will be mounted onto /dev.
|
|
|
|
If you encounter problems booting (for example if you forgot a
|
|
configuration step), you can pass devfs=nomount at the kernel
|
|
boot command line. This will prevent the kernel from mounting devfs at
|
|
boot time onto /dev.
|
|
|
|
In general, a kernel built with CONFIG_DEVFS_FS=y but without mounting
|
|
devfs onto /dev is completely safe, and requires no
|
|
configuration changes. One exception to take note of is when
|
|
LABEL= directives are used in /etc/fstab. In this
|
|
case you will be unable to boot properly. This is because the
|
|
mount(8) programme uses /proc/partitions as part of
|
|
the volume label search process, and the device names it finds are not
|
|
available, because setting CONFIG_DEVFS_FS=y changes the names in
|
|
/proc/partitions, irrespective of whether devfs is mounted.
|
|
|
|
Now you've finished all the steps required. You're now ready to boot
|
|
your shiny new kernel. Enjoy.
|
|
|
|
Changing the configuration
|
|
|
|
OK, you've now booted a devfs-enabled system, and everything works.
|
|
Now you may feel like changing the configuration (common targets are
|
|
/etc/fstab and /etc/devfsd.conf). Since you have a
|
|
system that works, if you make any changes and it doesn't work, you
|
|
now know that you only have to restore your configuration files to the
|
|
default and it will work again.
|
|
|
|
|
|
Permissions persistence across reboots
|
|
|
|
If you don't use mknod(2) to create a device file, nor use chmod(2) or
|
|
chown(2) to change the ownerships/permissions, the inode ctime will
|
|
remain at 0 (the epoch, 12 am, 1-JAN-1970, GMT). Anything with a ctime
|
|
later than this has had it's ownership/permissions changed. Hence, a
|
|
simple script or programme may be used to tar up all changed inodes,
|
|
prior to shutdown. Although effective, many consider this approach a
|
|
kludge.
|
|
|
|
A much better approach is to use devfsd to save and restore
|
|
permissions. It may be configured to record changes in permissions and
|
|
will save them in a database (in fact a directory tree), and restore
|
|
these upon boot. This is an efficient method and results in immediate
|
|
saving of current permissions (unlike the tar approach, which saves
|
|
permissions at some unspecified future time).
|
|
|
|
The default configuration file supplied with devfsd has config entries
|
|
which you may uncomment to enable persistence management.
|
|
|
|
If you decide to use the tar approach anyway, be aware that tar will
|
|
first unlink(2) an inode before creating a new device node. The
|
|
unlink(2) has the effect of breaking the connection between a devfs
|
|
entry and the device driver. If you use the "devfs=only" boot option,
|
|
you lose access to the device driver, requiring you to reload the
|
|
module. I consider this a bug in tar (there is no real need to
|
|
unlink(2) the inode first).
|
|
|
|
Alternatively, you can use devfsd to provide more sophisticated
|
|
management of device permissions. You can use devfsd to store
|
|
permissions for whole groups of devices with a single configuration
|
|
entry, rather than the conventional single entry per device entry.
|
|
|
|
Permissions database stored in mounted-over /dev
|
|
|
|
If you wish to save and restore your device permissions into the
|
|
disc-based /dev while still mounting devfs onto /dev
|
|
you may do so. This requires a 2.4.x kernel (in fact, 2.3.99 or
|
|
later), which has the VFS binding facility. You need to do the
|
|
following to set this up:
|
|
|
|
|
|
|
|
make sure the kernel does not mount devfs at boot time
|
|
|
|
|
|
make sure you have a correct /dev/console entry in your
|
|
root file-system (where your disc-based /dev lives)
|
|
|
|
create the /dev-state directory
|
|
|
|
|
|
add the following lines near the very beginning of your boot
|
|
scripts:
|
|
|
|
mount --bind /dev /dev-state
|
|
mount -t devfs none /dev
|
|
devfsd /dev
|
|
|
|
|
|
|
|
|
|
add the following lines to your /etc/devfsd.conf file:
|
|
|
|
REGISTER ^pt[sy] IGNORE
|
|
CREATE ^pt[sy] IGNORE
|
|
CHANGE ^pt[sy] IGNORE
|
|
DELETE ^pt[sy] IGNORE
|
|
REGISTER .* COPY /dev-state/$devname $devpath
|
|
CREATE .* COPY $devpath /dev-state/$devname
|
|
CHANGE .* COPY $devpath /dev-state/$devname
|
|
DELETE .* CFUNCTION GLOBAL unlink /dev-state/$devname
|
|
RESTORE /dev-state
|
|
|
|
Note that the sample devfsd.conf file contains these lines,
|
|
as well as other sample configurations you may find useful. See the
|
|
devfsd distribution
|
|
|
|
|
|
reboot.
|
|
|
|
|
|
|
|
|
|
Permissions database stored in normal directory
|
|
|
|
If you are using an older kernel which doesn't support VFS binding,
|
|
then you won't be able to have the permissions database in a
|
|
mounted-over /dev. However, you can still use a regular
|
|
directory to store the database. The sample /etc/devfsd.conf
|
|
file above may still be used. You will need to create the
|
|
/dev-state directory prior to installing devfsd. If you have
|
|
old permissions in /dev, then just copy (or move) the device
|
|
nodes over to the new directory.
|
|
|
|
Which method is better?
|
|
|
|
The best method is to have the permissions database stored in the
|
|
mounted-over /dev. This is because you will not need to copy
|
|
device nodes over to /dev-state, and because it allows you to
|
|
switch between devfs and non-devfs kernels, without requiring you to
|
|
copy permissions between /dev-state (for devfs) and
|
|
/dev (for non-devfs).
|
|
|
|
|
|
Dealing with drivers without devfs support
|
|
|
|
Currently, not all device drivers in the kernel have been modified to
|
|
use devfs. Device drivers which do not yet have devfs support will not
|
|
automagically appear in devfs. The simplest way to create device nodes
|
|
for these drivers is to unpack a tarfile containing the required
|
|
device nodes. You can do this in your boot scripts. All your drivers
|
|
will now work as before.
|
|
|
|
Hopefully for most people devfs will have enough support so that they
|
|
can mount devfs directly over /dev without losing most functionality
|
|
(i.e. losing access to various devices). As of 22-JAN-1998 (devfs
|
|
patch version 10) I am now running this way. All the devices I have
|
|
are available in devfs, so I don't lose anything.
|
|
|
|
WARNING: if your configuration requires the old-style device names
|
|
(i.e. /dev/hda1 or /dev/sda1), you must install devfsd and configure
|
|
it to maintain compatibility entries. It is almost certain that you
|
|
will require this. Note that the kernel creates a compatibility entry
|
|
for the root device, so you don't need initrd.
|
|
|
|
Note that you no longer need to mount devpts if you use Unix98 PTYs,
|
|
as devfs can manage /dev/pts itself. This saves you some RAM, as you
|
|
don't need to compile and install devpts. Note that some versions of
|
|
glibc have a bug with Unix98 pty handling on devfs systems. Contact
|
|
the glibc maintainers for a fix. Glibc 2.1.3 has the fix.
|
|
|
|
Note also that apart from editing /etc/fstab, other things will need
|
|
to be changed if you *don't* install devfsd. Some software (like the X
|
|
server) hard-wire device names in their source. It really is much
|
|
easier to install devfsd so that compatibility entries are created.
|
|
You can then slowly migrate your system to using the new device names
|
|
(for example, by starting with /etc/fstab), and then limiting the
|
|
compatibility entries that devfsd creates.
|
|
|
|
IF YOU CONFIGURE TO MOUNT DEVFS AT BOOT, MAKE SURE YOU INSTALL DEVFSD
|
|
BEFORE YOU BOOT A DEVFS-ENABLED KERNEL!
|
|
|
|
Now that devfs has gone into the 2.3.46 kernel, I'm getting a lot of
|
|
reports back. Many of these are because people are trying to run
|
|
without devfsd, and hence some things break. Please just run devfsd if
|
|
things break. I want to concentrate on real bugs rather than
|
|
misconfiguration problems at the moment. If people are willing to fix
|
|
bugs/false assumptions in other code (i.e. glibc, X server) and submit
|
|
that to the respective maintainers, that would be great.
|
|
|
|
|
|
All the way with Devfs
|
|
|
|
The devfs kernel patch creates a rationalised device tree. As stated
|
|
above, if you want to keep using the old /dev naming scheme,
|
|
you just need to configure devfsd appopriately (see the man
|
|
page). People who prefer the old names can ignore this section. For
|
|
those of us who like the rationalised names and an uncluttered
|
|
/dev, read on.
|
|
|
|
If you don't run devfsd, or don't enable compatibility entry
|
|
management, then you will have to configure your system to use the new
|
|
names. For example, you will then need to edit your
|
|
/etc/fstab to use the new disc naming scheme. If you want to
|
|
be able to boot non-devfs kernels, you will need compatibility
|
|
symlinks in the underlying disc-based /dev pointing back to
|
|
the old-style names for when you boot a kernel without devfs.
|
|
|
|
You can selectively decide which devices you want compatibility
|
|
entries for. For example, you may only want compatibility entries for
|
|
BSD pseudo-terminal devices (otherwise you'll have to patch you C
|
|
library or use Unix98 ptys instead). It's just a matter of putting in
|
|
the correct regular expression into /dev/devfsd.conf.
|
|
|
|
There are other choices of naming schemes that you may prefer. For
|
|
example, I don't use the kernel-supplied
|
|
names, because they are too verbose. A common misconception is
|
|
that the kernel-supplied names are meant to be used directly in
|
|
configuration files. This is not the case. They are designed to
|
|
reflect the layout of the devices attached and to provide easy
|
|
classification.
|
|
|
|
If you like the kernel-supplied names, that's fine. If you don't then
|
|
you should be using devfsd to construct a namespace more to your
|
|
liking. Devfsd has built-in code to construct a
|
|
namespace that is both logical and easy to
|
|
manage. In essence, it creates a convenient abbreviation of the
|
|
kernel-supplied namespace.
|
|
|
|
You are of course free to build your own namespace. Devfsd has all the
|
|
infrastructure required to make this easy for you. All you need do is
|
|
write a script. You can even write some C code and devfsd can load the
|
|
shared object as a callable extension.
|
|
|
|
|
|
Other Issues
|
|
|
|
The init programme
|
|
Another thing to take note of is whether your init programme
|
|
creates a Unix socket /dev/telinit. Some versions of init
|
|
create /dev/telinit so that the telinit programme can
|
|
communicate with the init process. If you have such a system you need
|
|
to make sure that devfs is mounted over /dev *before* init
|
|
starts. In other words, you can't leave the mounting of devfs to
|
|
/etc/rc, since this is executed after init. Other
|
|
versions of init require a named pipe /dev/initctl
|
|
which must exist *before* init starts. Once again, you need to
|
|
mount devfs and then create the named pipe *before* init
|
|
starts.
|
|
|
|
The default behaviour now is not to mount devfs onto /dev at
|
|
boot time for 2.3.x and later kernels. You can correct this with the
|
|
"devfs=mount" boot option. This solves any problems with init,
|
|
and also prevents the dreaded:
|
|
|
|
Cannot open initial console
|
|
|
|
message. For 2.2.x kernels where you need to apply the devfs patch,
|
|
the default is to mount.
|
|
|
|
If you have automatic mounting of devfs onto /dev then you
|
|
may need to create /dev/initctl in your boot scripts. The
|
|
following lines should suffice:
|
|
|
|
mknod /dev/initctl p
|
|
kill -SIGUSR1 1 # tell init that /dev/initctl now exists
|
|
|
|
Alternatively, if you don't want the kernel to mount devfs onto
|
|
/dev then you could use the following procedure is a
|
|
guideline for how to get around /dev/initctl problems:
|
|
|
|
# cd /sbin
|
|
# mv init init.real
|
|
# cat > init
|
|
#! /bin/sh
|
|
mount -n -t devfs none /dev
|
|
mknod /dev/initctl p
|
|
exec /sbin/init.real $*
|
|
[control-D]
|
|
# chmod a+x init
|
|
|
|
Note that newer versions of init create /dev/initctl
|
|
automatically, so you don't have to worry about this.
|
|
|
|
Module autoloading
|
|
You will need to configure devfsd to enable module
|
|
autoloading. The following lines should be placed in your
|
|
/etc/devfsd.conf file:
|
|
|
|
LOOKUP .* MODLOAD
|
|
|
|
|
|
As of devfsd-v1.3.10, a generic /etc/modules.devfs
|
|
configuration file is installed, which is used by the MODLOAD
|
|
action. This should be sufficient for most configurations. If you
|
|
require further configuration, edit your /etc/modules.conf
|
|
file. The way module autoloading work with devfs is:
|
|
|
|
|
|
a process attempts to lookup a device node (e.g. /dev/fred)
|
|
|
|
|
|
if that device node does not exist, the full pathname is passed to
|
|
devfsd as a string
|
|
|
|
|
|
devfsd will pass the string to the modprobe programme (provided the
|
|
configuration line shown above is present), and specifies that
|
|
/etc/modules.devfs is the configuration file
|
|
|
|
|
|
/etc/modules.devfs includes /etc/modules.conf to
|
|
access local configurations
|
|
|
|
modprobe will search it's configuration files, looking for an alias
|
|
that translates the pathname into a module name
|
|
|
|
|
|
the translated pathname is then used to load the module.
|
|
|
|
|
|
If you wanted a lookup of /dev/fred to load the
|
|
mymod module, you would require the following configuration
|
|
line in /etc/modules.conf:
|
|
|
|
alias /dev/fred mymod
|
|
|
|
The /etc/modules.devfs configuration file provides many such
|
|
aliases for standard device names. If you look closely at this file,
|
|
you will note that some modules require multiple alias configuration
|
|
lines. This is required to support module autoloading for old and new
|
|
device names.
|
|
|
|
Mounting root off a devfs device
|
|
If you wish to mount root off a devfs device when you pass the
|
|
"devfs=only" boot option, then you need to pass in the
|
|
"root=<device>" option to the kernel when booting. If you use
|
|
LILO, then you must have this in lilo.conf:
|
|
|
|
append = "root=<device>"
|
|
|
|
Surprised? Yep, so was I. It turns out if you have (as most people
|
|
do):
|
|
|
|
root = <device>
|
|
|
|
|
|
then LILO will determine the device number of <device> and will
|
|
write that device number into a special place in the kernel image
|
|
before starting the kernel, and the kernel will use that device number
|
|
to mount the root filesystem. So, using the "append" variety ensures
|
|
that LILO passes the root filesystem device as a string, which devfs
|
|
can then use.
|
|
|
|
Note that this isn't an issue if you don't pass "devfs=only".
|
|
|
|
TTY issues
|
|
The ttyname(3) function in some versions of the C library makes
|
|
false assumptions about device entries which are symbolic links. The
|
|
tty(1) programme is one that depends on this function. I've
|
|
written a patch to libc 5.4.43 which fixes this. This has been
|
|
included in libc 5.4.44 and a similar fix is in glibc 2.1.3.
|
|
|
|
|
|
Kernel Naming Scheme
|
|
|
|
The kernel provides a default naming scheme. This scheme is designed
|
|
to make it easy to search for specific devices or device types, and to
|
|
view the available devices. Some device types (such as hard discs),
|
|
have a directory of entries, making it easy to see what devices of
|
|
that class are available. Often, the entries are symbolic links into a
|
|
directory tree that reflects the topology of available devices. The
|
|
topological tree is useful for finding how your devices are arranged.
|
|
|
|
Below is a list of the naming schemes for the most common drivers. A
|
|
list of reserved device names is
|
|
available for reference. Please send email to
|
|
rgooch@atnf.csiro.au to obtain an allocation. Please be
|
|
patient (the maintainer is busy). An alternative name may be allocated
|
|
instead of the requested name, at the discretion of the maintainer.
|
|
|
|
Disc Devices
|
|
|
|
All discs, whether SCSI, IDE or whatever, are placed under the
|
|
/dev/discs hierarchy:
|
|
|
|
/dev/discs/disc0 first disc
|
|
/dev/discs/disc1 second disc
|
|
|
|
|
|
Each of these entries is a symbolic link to the directory for that
|
|
device. The device directory contains:
|
|
|
|
disc for the whole disc
|
|
part* for individual partitions
|
|
|
|
|
|
CD-ROM Devices
|
|
|
|
All CD-ROMs, whether SCSI, IDE or whatever, are placed under the
|
|
/dev/cdroms hierarchy:
|
|
|
|
/dev/cdroms/cdrom0 first CD-ROM
|
|
/dev/cdroms/cdrom1 second CD-ROM
|
|
|
|
|
|
Each of these entries is a symbolic link to the real device entry for
|
|
that device.
|
|
|
|
Tape Devices
|
|
|
|
All tapes, whether SCSI, IDE or whatever, are placed under the
|
|
/dev/tapes hierarchy:
|
|
|
|
/dev/tapes/tape0 first tape
|
|
/dev/tapes/tape1 second tape
|
|
|
|
|
|
Each of these entries is a symbolic link to the directory for that
|
|
device. The device directory contains:
|
|
|
|
mt for mode 0
|
|
mtl for mode 1
|
|
mtm for mode 2
|
|
mta for mode 3
|
|
mtn for mode 0, no rewind
|
|
mtln for mode 1, no rewind
|
|
mtmn for mode 2, no rewind
|
|
mtan for mode 3, no rewind
|
|
|
|
|
|
SCSI Devices
|
|
|
|
To uniquely identify any SCSI device requires the following
|
|
information:
|
|
|
|
controller (host adapter)
|
|
bus (SCSI channel)
|
|
target (SCSI ID)
|
|
unit (Logical Unit Number)
|
|
|
|
|
|
All SCSI devices are placed under /dev/scsi (assuming devfs
|
|
is mounted on /dev). Hence, a SCSI device with the following
|
|
parameters: c=1,b=2,t=3,u=4 would appear as:
|
|
|
|
/dev/scsi/host1/bus2/target3/lun4 device directory
|
|
|
|
|
|
Inside this directory, a number of device entries may be created,
|
|
depending on which SCSI device-type drivers were installed.
|
|
|
|
See the section on the disc naming scheme to see what entries the SCSI
|
|
disc driver creates.
|
|
|
|
See the section on the tape naming scheme to see what entries the SCSI
|
|
tape driver creates.
|
|
|
|
The SCSI CD-ROM driver creates:
|
|
|
|
cd
|
|
|
|
|
|
The SCSI generic driver creates:
|
|
|
|
generic
|
|
|
|
|
|
IDE Devices
|
|
|
|
To uniquely identify any IDE device requires the following
|
|
information:
|
|
|
|
controller
|
|
bus (aka. primary/secondary)
|
|
target (aka. master/slave)
|
|
unit
|
|
|
|
|
|
All IDE devices are placed under /dev/ide, and uses a similar
|
|
naming scheme to the SCSI subsystem.
|
|
|
|
XT Hard Discs
|
|
|
|
All XT discs are placed under /dev/xd. The first XT disc has
|
|
the directory /dev/xd/disc0.
|
|
|
|
TTY devices
|
|
|
|
The tty devices now appear as:
|
|
|
|
New name Old-name Device Type
|
|
-------- -------- -----------
|
|
/dev/tts/{0,1,...} /dev/ttyS{0,1,...} Serial ports
|
|
/dev/cua/{0,1,...} /dev/cua{0,1,...} Call out devices
|
|
/dev/vc/0 /dev/tty Current virtual console
|
|
/dev/vc/{1,2,...} /dev/tty{1...63} Virtual consoles
|
|
/dev/vcc/{0,1,...} /dev/vcs{1...63} Virtual consoles
|
|
/dev/pty/m{0,1,...} /dev/ptyp?? PTY masters
|
|
/dev/pty/s{0,1,...} /dev/ttyp?? PTY slaves
|
|
|
|
|
|
RAMDISCS
|
|
|
|
The RAMDISCS are placed in their own directory, and are named thus:
|
|
|
|
/dev/rd/{0,1,2,...}
|
|
|
|
|
|
Meta Devices
|
|
|
|
The meta devices are placed in their own directory, and are named
|
|
thus:
|
|
|
|
/dev/md/{0,1,2,...}
|
|
|
|
|
|
Floppy discs
|
|
|
|
Floppy discs are placed in the /dev/floppy directory.
|
|
|
|
Loop devices
|
|
|
|
Loop devices are placed in the /dev/loop directory.
|
|
|
|
Sound devices
|
|
|
|
Sound devices are placed in the /dev/sound directory
|
|
(audio, sequencer, ...).
|
|
|
|
|
|
Devfsd Naming Scheme
|
|
|
|
Devfsd provides a naming scheme which is a convenient abbreviation of
|
|
the kernel-supplied namespace. In some
|
|
cases, the kernel-supplied naming scheme is quite convenient, so
|
|
devfsd does not provide another naming scheme. The convenience names
|
|
that devfsd creates are in fact the same names as the original devfs
|
|
kernel patch created (before Linus mandated the Big Name
|
|
Change). These are referred to as "new compatibility entries".
|
|
|
|
In order to configure devfsd to create these convenience names, the
|
|
following lines should be placed in your /etc/devfsd.conf:
|
|
|
|
REGISTER .* MKNEWCOMPAT
|
|
UNREGISTER .* RMNEWCOMPAT
|
|
|
|
This will cause devfsd to create (and destroy) symbolic links which
|
|
point to the kernel-supplied names.
|
|
|
|
SCSI Hard Discs
|
|
|
|
All SCSI discs are placed under /dev/sd (assuming devfs is
|
|
mounted on /dev). Hence, a SCSI disc with the following
|
|
parameters: c=1,b=2,t=3,u=4 would appear as:
|
|
|
|
/dev/sd/c1b2t3u4 for the whole disc
|
|
/dev/sd/c1b2t3u4p5 for the 5th partition
|
|
/dev/sd/c1b2t3u4p5s6 for the 6th slice in the 5th partition
|
|
|
|
|
|
SCSI Tapes
|
|
|
|
All SCSI tapes are placed under /dev/st. A similar naming
|
|
scheme is used as for SCSI discs. A SCSI tape with the
|
|
parameters:c=1,b=2,t=3,u=4 would appear as:
|
|
|
|
/dev/st/c1b2t3u4m0 for mode 0
|
|
/dev/st/c1b2t3u4m1 for mode 1
|
|
/dev/st/c1b2t3u4m2 for mode 2
|
|
/dev/st/c1b2t3u4m3 for mode 3
|
|
/dev/st/c1b2t3u4m0n for mode 0, no rewind
|
|
/dev/st/c1b2t3u4m1n for mode 1, no rewind
|
|
/dev/st/c1b2t3u4m2n for mode 2, no rewind
|
|
/dev/st/c1b2t3u4m3n for mode 3, no rewind
|
|
|
|
|
|
SCSI CD-ROMs
|
|
|
|
All SCSI CD-ROMs are placed under /dev/sr. A similar naming
|
|
scheme is used as for SCSI discs. A SCSI CD-ROM with the
|
|
parameters:c=1,b=2,t=3,u=4 would appear as:
|
|
|
|
/dev/sr/c1b2t3u4
|
|
|
|
|
|
SCSI Generic Devices
|
|
|
|
The generic (aka. raw) interface for all SCSI devices are placed under
|
|
/dev/sg. A similar naming scheme is used as for SCSI discs. A
|
|
SCSI generic device with the parameters:c=1,b=2,t=3,u=4 would appear
|
|
as:
|
|
|
|
/dev/sg/c1b2t3u4
|
|
|
|
|
|
IDE Hard Discs
|
|
|
|
All IDE discs are placed under /dev/ide/hd, using a similar
|
|
convention to SCSI discs. The following mappings exist between the new
|
|
and the old names:
|
|
|
|
/dev/hda /dev/ide/hd/c0b0t0u0
|
|
/dev/hdb /dev/ide/hd/c0b0t1u0
|
|
/dev/hdc /dev/ide/hd/c0b1t0u0
|
|
/dev/hdd /dev/ide/hd/c0b1t1u0
|
|
|
|
|
|
IDE Tapes
|
|
|
|
A similar naming scheme is used as for IDE discs. The entries will
|
|
appear in the /dev/ide/mt directory.
|
|
|
|
IDE CD-ROM
|
|
|
|
A similar naming scheme is used as for IDE discs. The entries will
|
|
appear in the /dev/ide/cd directory.
|
|
|
|
IDE Floppies
|
|
|
|
A similar naming scheme is used as for IDE discs. The entries will
|
|
appear in the /dev/ide/fd directory.
|
|
|
|
XT Hard Discs
|
|
|
|
All XT discs are placed under /dev/xd. The first XT disc
|
|
would appear as /dev/xd/c0t0.
|
|
|
|
|
|
Old Compatibility Names
|
|
|
|
The old compatibility names are the legacy device names, such as
|
|
/dev/hda, /dev/sda, /dev/rtc and so on.
|
|
Devfsd can be configured to create compatibility symlinks so that you
|
|
may continue to use the old names in your configuration files and so
|
|
that old applications will continue to function correctly.
|
|
|
|
In order to configure devfsd to create these legacy names, the
|
|
following lines should be placed in your /etc/devfsd.conf:
|
|
|
|
REGISTER .* MKOLDCOMPAT
|
|
UNREGISTER .* RMOLDCOMPAT
|
|
|
|
This will cause devfsd to create (and destroy) symbolic links which
|
|
point to the kernel-supplied names.
|
|
|
|
|
|
-----------------------------------------------------------------------------
|
|
|
|
|
|
Device drivers currently ported
|
|
|
|
- All miscellaneous character devices support devfs (this is done
|
|
transparently through misc_register())
|
|
|
|
- SCSI discs and generic hard discs
|
|
|
|
- Character memory devices (null, zero, full and so on)
|
|
Thanks to C. Scott Ananian <cananian@alumni.princeton.edu>
|
|
|
|
- Loop devices (/dev/loop?)
|
|
|
|
- TTY devices (console, serial ports, terminals and pseudo-terminals)
|
|
Thanks to C. Scott Ananian <cananian@alumni.princeton.edu>
|
|
|
|
- SCSI tapes (/dev/scsi and /dev/tapes)
|
|
|
|
- SCSI CD-ROMs (/dev/scsi and /dev/cdroms)
|
|
|
|
- SCSI generic devices (/dev/scsi)
|
|
|
|
- RAMDISCS (/dev/ram?)
|
|
|
|
- Meta Devices (/dev/md*)
|
|
|
|
- Floppy discs (/dev/floppy)
|
|
|
|
- Parallel port printers (/dev/printers)
|
|
|
|
- Sound devices (/dev/sound)
|
|
Thanks to Eric Dumas <dumas@linux.eu.org> and
|
|
C. Scott Ananian <cananian@alumni.princeton.edu>
|
|
|
|
- Joysticks (/dev/joysticks)
|
|
|
|
- Sparc keyboard (/dev/kbd)
|
|
|
|
- DSP56001 digital signal processor (/dev/dsp56k)
|
|
|
|
- Apple Desktop Bus (/dev/adb)
|
|
|
|
- Coda network file system (/dev/cfs*)
|
|
|
|
- Virtual console capture devices (/dev/vcc)
|
|
Thanks to Dennis Hou <smilax@mindmeld.yi.org>
|
|
|
|
- Frame buffer devices (/dev/fb)
|
|
|
|
- Video capture devices (/dev/v4l)
|
|
|
|
|
|
-----------------------------------------------------------------------------
|
|
|
|
|
|
Allocation of Device Numbers
|
|
|
|
Devfs allows you to write a driver which doesn't need to allocate a
|
|
device number (major&minor numbers) for the internal operation of the
|
|
kernel. However, there are a number of userspace programmes that use
|
|
the device number as a unique handle for a device. An example is the
|
|
find programme, which uses device numbers to determine whether
|
|
an inode is on a different filesystem than another inode. The device
|
|
number used is the one for the block device which a filesystem is
|
|
using. To preserve compatibility with userspace programmes, block
|
|
devices using devfs need to have unique device numbers allocated to
|
|
them. Furthermore, POSIX specifies device numbers, so some kind of
|
|
device number needs to be presented to userspace.
|
|
|
|
The simplest option (especially when porting drivers to devfs) is to
|
|
keep using the old major and minor numbers. Devfs will take whatever
|
|
values are given for major&minor and pass them onto userspace.
|
|
|
|
This device number is a 16 bit number, so this leaves plenty of space
|
|
for large numbers of discs and partitions. This scheme can also be
|
|
used for character devices, in particular the tty devices, which are
|
|
currently limited to 256 pseudo-ttys (this limits the total number of
|
|
simultaneous xterms and remote logins). Note that the device number
|
|
is limited to the range 36864-61439 (majors 144-239), in order to
|
|
avoid any possible conflicts with existing official allocations.
|
|
|
|
Please note that using dynamically allocated block device numbers may
|
|
break the NFS daemons (both user and kernel mode), which expect dev_t
|
|
for a given device to be constant over the lifetime of remote mounts.
|
|
|
|
A final note on this scheme: since it doesn't increase the size of
|
|
device numbers, there are no compatibility issues with userspace.
|
|
|
|
-----------------------------------------------------------------------------
|
|
|
|
|
|
Questions and Answers
|
|
|
|
|
|
Making things work
|
|
Alternatives to devfs
|
|
What I don't like about devfs
|
|
How to report bugs
|
|
Strange kernel messages
|
|
Compilation problems with devfsd
|
|
|
|
|
|
|
|
Making things work
|
|
|
|
Here are some common questions and answers.
|
|
|
|
|
|
|
|
Devfsd doesn't start
|
|
|
|
Make sure you have compiled and installed devfsd
|
|
Make sure devfsd is being started from your boot
|
|
scripts
|
|
Make sure you have configured your kernel to enable devfs (see
|
|
below)
|
|
Make sure devfs is mounted (see below)
|
|
|
|
|
|
Devfsd is not managing all my permissions
|
|
|
|
Make sure you are capturing the appropriate events. For example,
|
|
device entries created by the kernel generate REGISTER events,
|
|
but those created by devfsd generate CREATE events.
|
|
|
|
|
|
Devfsd is not capturing all REGISTER events
|
|
|
|
See the previous entry: you may need to capture CREATE events.
|
|
|
|
|
|
X will not start
|
|
|
|
Make sure you followed the steps
|
|
outlined above.
|
|
|
|
|
|
Why don't my network devices appear in devfs?
|
|
|
|
This is not a bug. Network devices have their own, completely separate
|
|
namespace. They are accessed via socket(2) and
|
|
setsockopt(2) calls, and thus require no device nodes. I have
|
|
raised the possibilty of moving network devices into the device
|
|
namespace, but have had no response.
|
|
|
|
|
|
How can I test if I have devfs compiled into my kernel?
|
|
|
|
All filesystems built-in or currently loaded are listed in
|
|
/proc/filesystems. If you see a devfs entry, then
|
|
you know that devfs was compiled into your kernel. If you have
|
|
correctly configured and rebuilt your kernel, then devfs will be
|
|
built-in. If you think you've configured it in, but
|
|
/proc/filesystems doesn't show it, you've made a mistake.
|
|
Common mistakes include:
|
|
|
|
Using a 2.2.x kernel without applying the devfs patch (if you
|
|
don't know how to patch your kernel, use 2.4.x instead, don't bother
|
|
asking me how to patch)
|
|
Forgetting to set CONFIG_EXPERIMENTAL=y
|
|
Forgetting to set CONFIG_DEVFS_FS=y
|
|
Forgetting to set CONFIG_DEVFS_MOUNT=y (if you want devfs
|
|
to be automatically mounted at boot)
|
|
Editing your .config manually, instead of using make
|
|
config or make xconfig
|
|
Forgetting to run make dep; make clean after changing the
|
|
configuration and before compiling
|
|
Forgetting to compile your kernel and modules
|
|
Forgetting to install your kernel
|
|
Forgetting to install your modules
|
|
|
|
Please check twice that you've done all these steps before sending in
|
|
a bug report.
|
|
|
|
|
|
|
|
How can I test if devfs is mounted on /dev?
|
|
|
|
The device filesystem will always create an entry called
|
|
".devfsd", which is used to communicate with the daemon. Even
|
|
if the daemon is not running, this entry will exist. Testing for the
|
|
existence of this entry is the approved method of determining if devfs
|
|
is mounted or not. Note that the type of entry (i.e. regular file,
|
|
character device, named pipe, etc.) may change without notice. Only
|
|
the existence of the entry should be relied upon.
|
|
|
|
|
|
When I start devfsd, I see the error:
|
|
Error opening file: ".devfsd" No such file or directory?
|
|
|
|
This means that devfs is not mounted. Make sure you have devfs mounted.
|
|
|
|
|
|
How do I mount devfs?
|
|
|
|
First make sure you have devfs compiled into your kernel (see
|
|
above). Then you will either need to:
|
|
|
|
set CONFIG_DEVFS_MOUNT=y in your kernel config
|
|
pass devfs=mount to your boot loader
|
|
mount devfs manually in your boot scripts with:
|
|
mount -t none devfs /dev
|
|
|
|
|
|
|
|
Mount by volume LABEL=<label> doesn't work with
|
|
devfs
|
|
|
|
Most probably you are not mounting devfs onto /dev. What
|
|
happens is that if your kernel config has CONFIG_DEVFS_FS=y
|
|
then the contents of /proc/partitions will have the devfs
|
|
names (such as scsi/host0/bus0/target0/lun0/part1). The
|
|
contents of /proc/partitions are used by mount(8) when
|
|
mounting by volume label. If devfs is not mounted on /dev,
|
|
then mount(8) will fail to find devices. The solution is to
|
|
make sure that devfs is mounted on /dev. See above for how to
|
|
do that.
|
|
|
|
|
|
I have extra or incorrect entries in /dev
|
|
|
|
You may have stale entries in your dev-state area. Check for a
|
|
RESTORE configuration line in your devfsd configuration
|
|
(typically /etc/devfsd.conf). If you have this line, check
|
|
the contents of the specified directory for stale entries. Remove
|
|
any entries which are incorrect, then reboot.
|
|
|
|
|
|
I get "Unable to open initial console" messages at boot
|
|
|
|
This usually happens when you don't have devfs automounted onto
|
|
/dev at boot time, and there is no valid
|
|
/dev/console entry on your root file-system. Create a valid
|
|
/dev/console device node.
|
|
|
|
|
|
|
|
|
|
|
|
Alternatives to devfs
|
|
|
|
I've attempted to collate all the anti-devfs proposals and explain
|
|
their limitations. Under construction.
|
|
|
|
|
|
Why not just pass device create/remove events to a daemon?
|
|
|
|
Here the suggestion is to develop an API in the kernel so that devices
|
|
can register create and remove events, and a daemon listens for those
|
|
events. The daemon would then populate/depopulate /dev (which
|
|
resides on disc).
|
|
|
|
This has several limitations:
|
|
|
|
|
|
it only works for modules loaded and unloaded (or devices inserted
|
|
and removed) after the kernel has finished booting. Without a database
|
|
of events, there is no way the daemon could fully populate
|
|
/dev
|
|
|
|
|
|
if you add a database to this scheme, the question is then how to
|
|
present that database to user-space. If you make it a list of strings
|
|
with embedded event codes which are passed through a pipe to the
|
|
daemon, then this is only of use to the daemon. I would argue that the
|
|
natural way to present this data is via a filesystem (since many of
|
|
the events will be of a hierarchical nature), such as devfs.
|
|
Presenting the data as a filesystem makes it easy for the user to see
|
|
what is available and also makes it easy to write scripts to scan the
|
|
"database"
|
|
|
|
|
|
the tight binding between device nodes and drivers is no longer
|
|
possible (requiring the otherwise perfectly avoidable
|
|
table lookups)
|
|
|
|
|
|
you cannot catch inode lookup events on /dev which means
|
|
that module autoloading requires device nodes to be created. This is a
|
|
problem, particularly for drivers where only a few inodes are created
|
|
from a potentially large set
|
|
|
|
|
|
this technique can't be used when the root FS is mounted
|
|
read-only
|
|
|
|
|
|
|
|
|
|
Just implement a better scsidev
|
|
|
|
This suggestion involves taking the scsidev programme and
|
|
extending it to scan for all devices, not just SCSI devices. The
|
|
scsidev programme works by scanning /proc/scsi
|
|
|
|
Problems:
|
|
|
|
|
|
the kernel does not currently provide a list of all devices
|
|
available. Not all drivers register entries in /proc or
|
|
generate kernel messages
|
|
|
|
|
|
there is no uniform mechanism to register devices other than the
|
|
devfs API
|
|
|
|
|
|
implementing such an API is then the same as the
|
|
proposal above
|
|
|
|
|
|
|
|
|
|
Put /dev on a ramdisc
|
|
|
|
This suggestion involves creating a ramdisc and populating it with
|
|
device nodes and then mounting it over /dev.
|
|
|
|
Problems:
|
|
|
|
|
|
|
|
this doesn't help when mounting the root filesystem, since you
|
|
still need a device node to do that
|
|
|
|
|
|
if you want to use this technique for the root device node as
|
|
well, you need to use initrd. This complicates the booting sequence
|
|
and makes it significantly harder to administer and configure. The
|
|
initrd is essentially opaque, robbing the system administrator of easy
|
|
configuration
|
|
|
|
|
|
insufficient information is available to correctly populate the
|
|
ramdisc. So we come back to the
|
|
proposal above to "solve" this
|
|
|
|
|
|
a ramdisc-based solution would take more kernel memory, since the
|
|
backing store would be (at best) normal VFS inodes and dentries, which
|
|
take 284 bytes and 112 bytes, respectively, for each entry. Compare
|
|
that to 72 bytes for devfs
|
|
|
|
|
|
|
|
|
|
Do nothing: there's no problem
|
|
|
|
Sometimes people can be heard to claim that the existing scheme is
|
|
fine. This is what they're ignoring:
|
|
|
|
|
|
device number size (8 bits each for major and minor) is a real
|
|
limitation, and must be fixed somehow. Systems with large numbers of
|
|
SCSI devices, for example, will continue to consume the remaining
|
|
unallocated major numbers. USB will also need to push beyond the 8 bit
|
|
minor limitation
|
|
|
|
|
|
simply increasing the device number size is insufficient. Apart
|
|
from causing a lot of pain, it doesn't solve the management issues
|
|
of a /dev with thousands or more device nodes
|
|
|
|
|
|
ignoring the problem of a huge /dev will not make it go
|
|
away, and dismisses the legitimacy of a large number of people who
|
|
want a dynamic /dev
|
|
|
|
|
|
the standard response then becomes: "write a device management
|
|
daemon", which brings us back to the
|
|
proposal above
|
|
|
|
|
|
|
|
|
|
What I don't like about devfs
|
|
|
|
Here are some common complaints about devfs, and some suggestions and
|
|
solutions that may make it more palatable for you. I can't please
|
|
everybody, but I do try :-)
|
|
|
|
I hate the naming scheme
|
|
|
|
First, remember that no naming scheme will please everybody. You hate
|
|
the scheme, others love it. Who's to say who's right and who's wrong?
|
|
Ultimately, the person who writes the code gets to choose, and what
|
|
exists now is a combination of the choices made by the
|
|
devfs author and the
|
|
kernel maintainer (Linus).
|
|
|
|
However, not all is lost. If you want to create your own naming
|
|
scheme, it is a simple matter to write a standalone script, hack
|
|
devfsd, or write a script called by devfsd. You can create whatever
|
|
naming scheme you like.
|
|
|
|
Further, if you want to remove all traces of the devfs naming scheme
|
|
from /dev, you can mount devfs elsewhere (say
|
|
/devfs) and populate /dev with links into
|
|
/devfs. This population can be automated using devfsd if you
|
|
wish.
|
|
|
|
You can even use the VFS binding facility to make the links, rather
|
|
than using symbolic links. This way, you don't even have to see the
|
|
"destination" of these symbolic links.
|
|
|
|
Devfs puts policy into the kernel
|
|
|
|
There's already policy in the kernel. Device numbers are in fact
|
|
policy (why should the kernel dictate what device numbers I use?).
|
|
Face it, some policy has to be in the kernel. The real difference
|
|
between device names as policy and device numbers as policy is that
|
|
no one will use device numbers directly, because device
|
|
numbers are devoid of meaning to humans and are ugly. At least with
|
|
the devfs device names, (even though you can add your own naming
|
|
scheme) some people will use the devfs-supplied names directly. This
|
|
offends some people :-)
|
|
|
|
Devfs is bloatware
|
|
|
|
This is not even remotely true. As shown above,
|
|
both code and data size are quite modest.
|
|
|
|
|
|
How to report bugs
|
|
|
|
If you have (or think you have) a bug with devfs, please follow the
|
|
steps below:
|
|
|
|
|
|
|
|
make sure you have enabled debugging output when configuring your
|
|
kernel. You will need to set (at least) the following config options:
|
|
|
|
CONFIG_DEVFS_DEBUG=y
|
|
CONFIG_DEBUG_KERNEL=y
|
|
CONFIG_DEBUG_SLAB=y
|
|
|
|
|
|
|
|
please make sure you have the latest devfs patches applied. The
|
|
latest kernel version might not have the latest devfs patches applied
|
|
yet (Linus is very busy)
|
|
|
|
|
|
save a copy of your complete kernel logs (preferably by
|
|
using the dmesg programme) for later inclusion in your bug
|
|
report. You may need to use the -s switch to increase the
|
|
internal buffer size so you can capture all the boot messages.
|
|
Don't edit or trim the dmesg output
|
|
|
|
|
|
|
|
|
|
try booting with devfs=dall passed to the kernel boot
|
|
command line (read the documentation on your bootloader on how to do
|
|
this), and save the result to a file. This may be quite verbose, and
|
|
it may overflow the messages buffer, but try to get as much of it as
|
|
you can
|
|
|
|
|
|
if you get an Oops, run ksymoops to decode it so that the
|
|
names of the offending functions are provided. A non-decoded Oops is
|
|
pretty useless
|
|
|
|
|
|
send a copy of your devfsd configuration file(s)
|
|
|
|
send the bug report to me first.
|
|
Don't expect that I will see it if you post it to the linux-kernel
|
|
mailing list. Include all the information listed above, plus
|
|
anything else that you think might be relevant. Put the string
|
|
devfs somewhere in the subject line, so my mail filters mark
|
|
it as urgent
|
|
|
|
|
|
|
|
|
|
Here is a general guide on how to ask questions in a way that greatly
|
|
improves your chances of getting a reply:
|
|
|
|
http://www.tuxedo.org/~esr/faqs/smart-questions.html. If you have
|
|
a bug to report, you should also read
|
|
|
|
http://www.chiark.greenend.org.uk/~sgtatham/bugs.html.
|
|
|
|
|
|
Strange kernel messages
|
|
|
|
You may see devfs-related messages in your kernel logs. Below are some
|
|
messages and what they mean (and what you should do about them, if
|
|
anything).
|
|
|
|
|
|
|
|
devfs_register(fred): could not append to parent, err: -17
|
|
|
|
You need to check what the error code means, but usually 17 means
|
|
EEXIST. This means that a driver attempted to create an entry
|
|
fred in a directory, but there already was an entry with that
|
|
name. This is often caused by flawed boot scripts which untar a bunch
|
|
of inodes into /dev, as a way to restore permissions. This
|
|
message is harmless, as the device nodes will still
|
|
provide access to the driver (unless you use the devfs=only
|
|
boot option, which is only for dedicated souls:-). If you want to get
|
|
rid of these annoying messages, upgrade to devfsd-v1.3.20 and use the
|
|
recommended RESTORE directive to restore permissions.
|
|
|
|
|
|
devfs_mk_dir(bill): using old entry in dir: c1808724 ""
|
|
|
|
This is similar to the message above, except that a driver attempted
|
|
to create a directory named bill, and the parent directory
|
|
has an entry with the same name. In this case, to ensure that drivers
|
|
continue to work properly, the old entry is re-used and given to the
|
|
driver. In 2.5 kernels, the driver is given a NULL entry, and thus,
|
|
under rare circumstances, may not create the require device nodes.
|
|
The solution is the same as above.
|
|
|
|
|
|
|
|
|
|
|
|
Compilation problems with devfsd
|
|
|
|
Usually, you can compile devfsd just by typing in
|
|
make in the source directory, followed by a make
|
|
install (as root). Sometimes, you may have problems, particularly
|
|
on broken configurations.
|
|
|
|
|
|
|
|
error messages relating to DEVFSD_NOTIFY_DELETE
|
|
|
|
This happened because you have an ancient set of kernel headers
|
|
installed in /usr/include/linux or /usr/src/linux.
|
|
Install kernel 2.4.10 or later. You may need to pass the
|
|
KERNEL_DIR variable to make (if you did not install
|
|
the new kernel sources as /usr/src/linux), or you may copy
|
|
the devfs_fs.h file in the kernel source tree into
|
|
/usr/include/linux.
|
|
|
|
|
|
|
|
|
|
-----------------------------------------------------------------------------
|
|
|
|
|
|
Other resources
|
|
|
|
|
|
|
|
Douglas Gilbert has written a useful document at
|
|
|
|
http://www.torque.net/sg/devfs_scsi.html which
|
|
explores the SCSI subsystem and how it interacts with devfs
|
|
|
|
|
|
Douglas Gilbert has written another useful document at
|
|
|
|
http://www.torque.net/scsi/SCSI-2.4-HOWTO/ which
|
|
discusses the Linux SCSI subsystem in 2.4.
|
|
|
|
|
|
Johannes Erdfelt has started a discussion paper on Linux and
|
|
hot-swap devices, describing what the requirements are for a scalable
|
|
solution and how and why he's used devfs+devfsd. Note that this is an
|
|
early draft only, available in plain text form at:
|
|
|
|
http://johannes.erdfelt.com/hotswap.txt.
|
|
Johannes has promised a HTML version will follow.
|
|
|
|
|
|
I presented an invited
|
|
paper
|
|
at the
|
|
|
|
2nd Annual Storage Management Workshop held in Miamia, Florida,
|
|
U.S.A. in October 2000.
|
|
|
|
|
|
|
|
|
|
-----------------------------------------------------------------------------
|
|
|
|
|
|
Translations of this document
|
|
|
|
This document has been translated into other languages.
|
|
|
|
|
|
|
|
|
|
The document master (in English) by rgooch@atnf.csiro.au is
|
|
available at
|
|
|
|
http://www.atnf.csiro.au/~rgooch/linux/docs/devfs.html
|
|
|
|
|
|
|
|
A Korean translation by viatoris@nownuri.net is available at
|
|
|
|
http://your.destiny.pe.kr/devfs/devfs.html
|
|
|
|
|
|
|
|
|
|
-----------------------------------------------------------------------------
|
|
Most flags courtesy of ITA's
|
|
Flags of All Countries
|
|
used with permission.
|