Linux Admin

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Documentation / Getting Help

yelp
Default Gnome help system. Contains basic documentation, manpages, and guides (which can even install applications if clicked on)
doc-base
The doc-base package implements a flexible mechanism for handling and presenting documentation. See doc-base on debian.org.
dwww
dwww is the web base documentation reader. When installed, you can browse the documentation available on your machine by opening your browser at http://localhost/dwww/. dwww has also command-line support.

32-bit / 64-bit

32-bit executables can still run on 64-bit architecture (amd-64). Check package ia32-libs.

Note that 32-bit libraries are located in /usr/lib32 and not in /usr/lib

/etc/sudoers

The man page gives a complete but unclear description of the file specification. Here a simplified but complete version:

First the description of possible entries in the file:

# Alias
'User_Alias'  NAME '=' User...         (':' NAME '=' User...        )*
'Runas_Alias' NAME '=' Runas_Member... (':' NAME '=' Runas_Member...)*
'Host_Alias'  NAME '=' Host...         (':' NAME '=' Host...        )*
'Cmnd_Alias'  NAME '=' Cmnd...         (':' NAME '=' Cmnd...        )*

#Default_Entry
'Defaults' ('@' Host... | ':' User... | '!' Cmnd... | '>' Runas_Member...)? Parameter...

#User_Spec
User... Host... '=' Cmnd_Spec...       (':' Host... '=' Cmnd_Spec...)*

Now the description of the syntactical elements (note the description of ..., which is simply a comma-separated list):

identifier... ::= identifier (',' identifier)*

NAME          ::= [A-Z]([a-z][A-Z][0-9]_)*

User /
Runas_Member  ::= '!'* ( username | '#'uid | '%'group | '+'netgroup | Alias | 'ALL' )

Host          ::= '!'* ( hostname | ip_addr | network(/netmask)? | '+'netgroup | Alias| 'ALL' )

Cmnd          ::= '!'* ( command filename (args | '""')? | directory | "sudoedit" | Alias | 'ALL' )

Parameter     ::= Parameter '=' Value | Parameter '+=' Value | Parameter '-=' Value | '!'* Parameter

Cmnd_Spec     ::= ('(' Runas_Member...? (':' ...? ')')? ('NOPASSWD:'|'PASSWD:'|'NOEXEC:'|'EXEC:'|'SETENV:'|'NOSETENV:')* Cmnd


  • HTTP Proxy — When using a HTTP proxy defined through the variable http_proxy, you have to add/change the following lines to /etc/sudoers:
Defaults	env_reset, env_keep=http_proxy

File Systems

Reiserfs

  • For better performance, use mount switch noatime,notail (see [1])

Hardware

Commands

Interesting commands:

  • lsmod, Show the status of modules in the Linux Kernel
  • [[Linux Commands#lspci|lspci, listing all PCI devices
  • modprobe, add and remove modules from the Linux kernel
  • modinfo, show information about a kernel module (incl. available parameters)
  • iwconfig, configure a wireless network interface

System information

  • lshw is available by default,
  • or use sysinfo (sudo apt-get install sysinfo),
  • or use hardinfo (sudo apt-get install hardinfo),

udev & devfs

Reference: [2]

This chapter is about the devices in /dev. Since kernel 2.6, the content of this directory is generated by udev rules.

These rules are located at:

  • /lib/udev/rules.d
  • /etc/udev/rules.d (these can be customized)

Use udevadm to get information on a given device:

udevadm info -q path -n /dev/sda2                                     # To get the path to the device /dev/sda2
udevadm info -q -n /dev/sda2                                          # To get all the attributes of device /dev/sda2
udevadm info -a -p $(udevadm info -q path -n /dev/sda2)               # Same as above
udevadm test $(udevadm info -q path -n /dev/sda2) 2>&1 | grep OWNER   # Test the effect of a new rule on device /dev/sda2

Libraries

See the Library HOWTO.

Static Libraries

See Library HOWTO - Static Libraries

Shared Libraries

See Library HOWTO - Shared Libraries

Path conventions according to the info:standards#Directory_Variables GNU Standards (used by developers):

  • /usr/local/lib: for all libraries when distributing source code (executables go to /usr/local/bin).

Path conventions according to the Filesystem Hierarchy Standard) (used by distributors through package management)

  • /usr/lib: for most libraries (executables go to /usr/bin, executables that users should not call directly go to /usr/libexec/).
  • /lib: for libraries needed at boot time.
  • /usr/local/lib: for libraries that are not part of the system (/usr/local/bin for executables, and /usr/local/libexec for library executable)
soname — real name — linker name
  • /usr/lib/libreadline.so.3 is a fully-qualified soname (symlinked to realname below by ldconfig)
  • /usr/lib/libreadline.so.3.0 is the realname
  • /usr/lib/libreadline.so is the linker name (symlinked to soname /usr/lib/libreadline.so.3)
Environment variables
  • LD_LIBRARY_PATH temporarily overrides the usual library path for a given executable (should only be used for debugging)
  • LD_DEBUG triggers debugging in C loader (e.g. LD_DEBUG=files /bin/ls)
Utilities
ldconfig -n directory_with_shared_libraries      #Creates soname links to realname when installing new libraries
ldd /bin/ls                                      #List shared libraries needed by a given executable

Dynamically Loaded (DL) Libraries

See Library HOWTO - Dynamically Loaded Libraries.


Kernel Stuff

Out of Memory

Kernel has an advanced algorithm to detect which process to kill when an Out of Memory occures (from [3]):

[...] But, actually, Linux doesn't just pick the process with the failed allocation to kill. Instead, when a process makes a memory request which cannot be fulfilled, the OS runs a quick calculation of the memory usage "badness" of all processes. The base of the badness score is the processes resident memory, plus the resident memory of child processes. Processes that have been "nice'd" get a score boost (on the theory they're likely to be less important), but long-running processes get a score decrease (on the theory they're likely to be more important). Superuser processes have their score decreased. Finally, processes have their scores decreased by a user-settable value in /proc//oom_adj (default is no adjustment). Also, if /proc//oom_adj is set to the constant OOM_DISABLE, then the process is not killable.

When memory runs out, Linux kills the process with the highest score. If a single ordinary user process, especially a short-lived desktop process, has consumed nearly all of the system RAM, and no one has messed with oom_adj for that process, then it WILL be the one that dies. [...]

The OOM score of each process can be obtained with:

find /proc -maxdepth 2 -name oom_score | while read i; do echo -n "$i "; cat $i; done | sort -n -k2


Managing Alternatives

For instance, to define the default cursor-theme, use update-alternatives:

sudo update-alternatives --config x-cursor-theme

Network

ZeroConfig

ZeroConfig refers to all utilities that help setting up network without any additional configuration. More information on wikipedia. See also zeroconf (open standard issued by Apple).

Address resolution
Name resolution
In Apple ZeroConf, you can access a given host with name hostname.local without need of a local DNS server.
Apple ZeroConf relies on mDNS (multicast DNS) protocol. mDNS client makes a request to a well-known multicast address (224.0.0.251 for IPv4 and ff02::fb for IPv6 link-local addressing).
On Linux, avahi package implements the Apple Zeroconf specification.
Service discovery

Network Manager - Search Path

See NetworkManager Ubuntu documtation for how to add a static local domain to resolv.conf search path.

Basically:

  1. In the NM applet, changed the network from DHCP (auto) to DHCP (address only)
  2. Edit the network configuration file in /etc/>NetworkManager/system-connections to appear as follows:
  3. [ipv4]
    method=auto
    dns-search=domain1.com;domain2.org;domain3.edu;
    ignore-auto-routes=false
    ignore-auto-dns=false                                # !!! Set this line back to FALSE !!!
    
  4. Select the network in the wired network

Import Windows Settings for Enterprise Wireless Network (Dynamic WEP, TLS)

This chapter explains how to import the network configuration settings from Windows for an enterprise wireless network using Dynamic WEP (802.1x), with TLS authentication.

  1. In Windows, export the client Authentication certificate and private key from Windows Certificate Store:
    • In Control PanelInternet OptionsContent tab, click Certificates.
    • In the Personal tab, select the certificate used for client authentication, and click Export.
    • In the new window, click Next, then select Yes, export the private key and click Next.
      (If this option is grayed out, and you also have the message "The associated private key is marked as not exportable. Only the certificate can be exported", you can use the tool Jailbreak)
    • Select format Personal information interchange - PKCS #12 (.PFX), and select Include all the certificates in the certificate path if possible and Enable strong protection.
    • Select a password, and save the file (say mywindowscert.pfx).
  2. In Ubuntu, split the exported certificate in the components CA / Cert / Private key (see [4]):
  3. openssl pkcs12 -in mywindowscert.pfx -nocerts -out mycert.key.p12
    openssl pkcs12 -in mywindowscert.pfx -clcerts -nokeys -out mycert.crt.pem
    openssl pkcs12 -in mywindowscert.pfx -cacerts -nokeys -out mycert.ca.pem
    
  4. Now create a new wireless network connection in Ubuntu:
    • Security: Dynamic WEP (802.1x)
    • Authentication: TLS
    • Identity: the account name (this is not necessarily the same as the name whom the certificate was issued to)
    • User Certificate: mycert.crt.pem
    • CA certificate: mycert.ca.pem
    • Private key: mycert.key.p12
    • Private key password: as required

Rescue

Some tips to rescue a broken linux installation.

Using GRUB

See Grub#Rescue on how to fix a broken GRUB installation or on how to use GRUB to fix a broken linux installation.

Kernel line

To boot a minimal bash shell, edit the kernel line as follows:

  • Change rorw to allow read-write access to file system
  • Add init=/bin/bash to run Bash shell

After that, one can uses eg. nano to edit text configuration files.

To get boot messages:

  • Remove quiet splash
  • Add --verbose

/var/log

Some external links:

syslog is an utility to log all system messages, from information messages to critical errors. Log files are stored in /var/log. On Ubuntu, the default logging system is rsyslog, with configuration files /etc/rsyslog.conf and in /etc/rsyslog.conf.d/.

Logs generated by rsyslog (see /etc/rsyslog.d/50-default.conf):

file source description
aptitude
auth.log rsyslog Messages to facilities auth and authpriv
boot
boot.log
btmp
daemon.log rsyslog Messages to facility daemon
debug rsyslog Messages with debug priority, but excluding facilities auth, mail and news
dmesg kernel' Boot time hardware detection and driver setup (i.e. kernel messages before syslog daemon is launched).
Note the same as dmesg output (which is kern.log stripped to current day)!
dpkg.log
faillog
fontconfig.log
jockey.log
kern.log rsyslog Messages to facility kern
lastlog lastlog last login of each user ([5]). It looks big, but it's a sparse file (du -h lastlog) !!!
lpr.log rsyslog Messages to facility lpr
mail.info rsyslog Messages to facility mail, priority ≥ info
mail.err rsyslog Messages to facility mail, priority ≥ err
mail.log rsyslog Messages to facility mail
mail.warn rsyslog Messages to facility mail, priority ≥ warn
messages rsyslog Messages with info,notice and warn priority, but excluding facilities auth, daemon, mail and news
MountManager.log
mysql.err
mysql.log
pm-powersave.log
pm-suspend.log
pycentral.log
syslog.log rsyslog All messages except those in auth.log (i.e. facilities auth and authpriv)
udev
ufw.log rsyslog All messages from UFW firewall
user.log rsyslog All messages targeting facility user
vbox-install.log
wtmp
Xorg.0.log
Xorg.failsafe.log