It's not difficult to make a simple mistake as root that can cause real problems on your system, such as not being able to log in or losing important files. This is especially true for novice system administrators who are beginning to explore the system. Nearly all new system admins learn their lessons the hard way, by being forced to recover from a real emergency. In this section, we'll give you some hints about what to do when the inevitable happens.
You should always be aware of preventative measures that reduce the impact of such emergencies. For example, take backups of all important system files, if not the entire system. If you happen to have a Linux distribution on CD-ROM, the CD-ROM itself acts as a wonderful backup for most files (as long as you have a way to access the CD-ROM in a tight situation--more on this later). Backups are vital to recovering from many problems; don't let the many weeks of hard work configuring your Linux system go to waste.
Also, be sure to keep notes on your system configuration, such as your partition table entries, partition sizes and types, and filesystems. If you were to trash your partition table somehow, fixing the problem might be a simple matter of rerunning fdisk, but this only helps as long as you can remember what your partition table used to look like. (True story: one of the authors once did this by booting a blank floppy, and had no record of the partition table contents. Needless to say, some guesswork was necessary to restore the partition table to its previous state!)
Of course, for any of these measures to work, you'll need a way to boot the system and access your files, or recover from backups, in an emergency. This is best accomplished with an "emergency disk," or "root disk." Such a disk contains a small root filesystem with the basics required to run a Linux system from floppy--just the essential commands and system files, as well as tools to repair problems. Such a disk is used by booting a kernel from another floppy (see the section "Section 5.2.1, "Using a Boot Floppy"" in Chapter 5, "Essential System Management") and telling the kernel to use the emergency disk as the root filesystem.
Most distributions of Linux include such a boot/root floppy combination as the original installation floppies. The installation disks usually contain a small Linux system that can be used to install the software as well as perform basic system maintenance. Some systems include both the kernel and root filesystem on one floppy, but this severely limits the number of files that can be stored on the emergency disk. How useful these disks are as a maintenance tool depends on whether they contain the tools (such as fsck, fdisk, a small editor such as vi, and so on) necessary for problem recovery. Some distributions have such an elaborate installation process, the installation floppies don't have room for much else.
At any rate, you can create such a root floppy yourself. Being able to do this from scratch requires an intimate knowledge of what's required to boot and use a Linux system, and exactly what can be trimmed down and cut out. For example, you could dispose of the startup programs init, getty, and login, as long as you know how to rig things so that the kernel starts a shell on the console instead of using a real boot procedure. (One way to do this is to have /etc/init be a symbolic link to /sbin/bash, all on the floppy filesystem.)
While we can't cover all of the details here, the first step in creating an emergency floppy is to use mkfs to create a filesystem on a floppy (see the section "Section 6.1.4, "Creating Filesystems"" in Chapter 6, "Managing Filesystems, Swap, and Devices"). You then mount the floppy and place whatever files on it that you'll need, including appropriate entries in /dev (most of which can be copied from /dev on your hard drive root filesystem). You'll also need a boot floppy, which merely contains a kernel. The kernel should have its root device set to /dev/fd0, using rdev. This is covered in the section "Section 5.2.1, "Using a Boot Floppy"" in Chapter 5, "Essential System Management". You'll also have to decide if you want the root floppy filesystem loaded into a ramdisk (which can be set using rdev as well). If you have more than 4 MB of RAM, this is a good idea because it can free up the floppy drive to be used for, say, mounting another floppy containing additional tools. If you have two floppy drives, you can do this without using a ramdisk. If you feel that setting up an emergency floppy is too hard for you now after reading all this, you might also want to try some of the scripts available that do it for you. But whatever you do, be sure to try the emergency floppy before disaster happens!
At any rate, the best place to start is your installation floppies. If those floppies don't contain all of the tools you need, create a filesystem on a separate floppy and place the missing programs on it. If you load the root filesystem from floppy into a ramdisk, or have a second floppy drive, you can mount the other floppy to access your maintenance tools.
What tools do you need? In the following sections, we'll talk about common emergencies and how to recover from them; this should guide you to what programs would be required for various situations.
As discussed in the section "Section 6.1.5, "Checking and Repairing Filesystems"" in Chapter 6, "Managing Filesystems, Swap, and Devices", you can use fsck to recover from several kinds of filesystem corruption. Most of these filesystem problems are relatively minor, however, and can be repaired by booting your system in the usual way and running fsck from the hard drive. However, it is usually better to check and repair your root filesystem while it is unmounted. In this case, it's easier to run fsck from an emergency floppy.
There are no differences between running fsck from floppy and from the hard drive; the syntax is exactly the same as described earlier in the chapter. However, remember that fsck is usually a frontend to tools such as fsck.ext2. On other systems, you'll need to use e2fsck (for Second Extended Filesystems).
It is possible to corrupt a filesystem so that it cannot be mounted. This is usually the result of damage to the filesystem's superblock, which stores information about the filesystem as a whole. If the superblock is corrupted, the system won't be able to access the filesystem at all, and any attempt to mount it will fail (probably with an error to the effect of "can't read superblock").
Because of the importance of the superblock, the filesystem keeps backup copies of it at intervals on the filesystem. Second Extended Filesystems are divided into "block groups," where each group has, by default, 8192 blocks. Therefore, there are backup copies of the superblock at block offsets 8193, 16385 (that's 8192 × 2 + 1), 24577, and so on. If you use the ext2 filesystem, check that the filesystem has 8192-block groups with the following command:
(Of course, this works only when the master superblock is intact.) This command will print a great deal of information about the filesystem, and you should see something like:dumpe2fs device | more
If another offset is given, use it for computing offsets to the superblock copies, as mentioned earlier.Blocks per group: 8192
If you can't mount a filesystem because of superblock problems, chances are that fsck (or e2fsck) will fail as well. You can tell e2fsck to use one of the superblock copies, instead, to repair the filesystem. The command is:
where offset is the block offset to a superblock copy; usually, this is 8193. The -f switch is used to force a check of the filesystem; when using superblock backups, the filesystem may appear "clean," in which case no check is needed. -f overrides this. For example, to repair the filesystem on /dev/hda2 with a bad superblock, we can say:e2fsck -f -b offset device
Superblock copies save the day. The previous commands can be executed from an emergency floppy system and will hopefully allow you to mount your filesystems again.e2fsck -f -b 8193 /dev/hda2
You might need to access the files on your hard-drive filesystems when booting from an emergency floppy. In order to do this, simply use the mount command as described in the section "Section 6.1.2, "Mounting Filesystems"" in Chapter 6, "Managing Filesystems, Swap, and Devices", mounting your filesystems under a directory such as /mnt. (This directory must exist on the root filesystem contained on the floppy.) For example:
will allow us to access the files on the Second Extended filesystem stored on /dev/hda2 in the directory /mnt. You can then access the files directly and even execute programs from your hard-drive filesystems. For example, if you wish to execute vi from the hard drive, normally found in /usr/bin/vi, you would use the command:mount -t ext2 /dev/hda2 /mnt
You could even place subdirectories of /mnt on your path to make this easier./mnt/usr/bin/vi filename
Be sure to unmount your hard-drive filesystems before rebooting the system. If your emergency disks don't have the ability to do a clean shutdown, unmount your filesystems explicitly with umount, to be safe.
One problem that is easily fixed by doing this is forgetting the root password or trashing the contents of /etc/passwd. In either case, it might be impossible to log in to the system or su to root. To repair this problem, boot from your emergency disks, mount your root filesystem under /mnt, and edit /mnt/etc/passwd. (It might be a good idea to keep a backup copy of this file somewhere in case you delete it accidentally.) For example, to clear the root password altogether, change the entry for root to:
Now root will have no password; you can reboot the system from hard drive and use the passwd command to reset it.root::0:0:The root of all evil:/:/bin/bash
Another common problem is corrupt links to system shared libraries. The shared library images in /lib are generally accessed through symbolic links, such as /lib/libc.so.5, which point to the actual library, /lib/libc.so.version. If this link is removed or is pointing to the wrong place, many commands on the system won't run. You can fix this problem by mounting your hard-drive filesystems and re-linking the library with a command such as:
to force the libc.so.5 link to point to libc.so.5.4.47. Remember that symbolic links use the pathname given on the ln command line. For this reason, the command:cd /mnt/lib; ln -sf libc.so.5.4.47 libc.so.5
won't do the right thing; libc.so.5 will point to /mnt/lib/libc.so.5.4.47. When you boot from the hard drive, /mnt/lib can't be accessed, and the library won't be located. The first command works because the symbolic link points to a file in the same directory.ln -sf /mnt/lib/libc.so.5.4.47 /mnt/lib/libc.so.5
If you have deleted important system files, it might be necessary to restore backups while booting from an emergency disk. For this reason, it's important to be sure your emergency disk has the tools you need to restore backups; this includes programs such as tar and gzip, as well as the drivers necessary to access the backup device. For instance, if your backups are made using the floppy tape device driver, be sure that the ftape module and insmod command are available on your emergency disk. See the section "Section 7.5, "Loadable Device Drivers"" in Chapter 7, "Upgrading Software and the Kernel" for more about this.
All that's required to restore backups to your hard-drive filesystems is to mount those filesystems, as described earlier, and unpack the contents of the archives over those filesystems (using the appropriate tar and gzip commands, for example; see the section "Section 8.1, "Making Backups"") earlier in this chapter. Remember that every time you restore a backup you will be overwriting other system files; be sure you're doing everything correctly and not make the situation worse. With most archiving programs, you can extract individual files from the archive.
Likewise, if you want to use your original CD-ROM to restore files, be sure the kernel used on your emergency disks has the drivers necessary to access the CD-ROM drive. You can then mount the CD-ROM (remember the mount flags -r -t iso9660) and copy files from there.
The filesystems on your emergency disks should also contain important system files; if you have deleted one of these from your system, it's easy to copy the lost file from the emergency disk to your hard-drive filesystem.
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