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LOGIN(1)		   Linux Programmer's Manual		      LOGIN(1)

NAME
       login - sign on

SYNOPSIS
       login [ name ]
       login -p
       login -h hostname
       login -f name

DESCRIPTION
       login  is  used	when  signing  onto  a system.	It can also be used to
       switch from one user to another at any time (most  modern  shells  have
       support for this feature built into them, however).

       If an argument is not given, login prompts for the username.

       If  the	user  is not root, and if /etc/nologin exists, the contents of
       this file are printed to the screen, and the login is terminated.  This
       is  typically  used  to	prevent	 logins when the system is being taken
       down.

       If  special  access  restrictions  are  specified  for  the   user   in
       /etc/usertty,  these  must be met, or the log in attempt will be denied
       and a syslog message will be generated. See  the	 section  on  "Special
       Access Restrictions".

       If  the	user is root, then the login must be occurring on a tty listed
       in /etc/securetty.  Failures will be logged with the syslog facility.

       After  these  conditions	 have  been  checked,  the  password  will  be
       requested  and  checked	(if a password is required for this username).
       Ten attempts are allowed before login dies, but after the first	three,
       the  response starts to get very slow.  Login failures are reported via
       the syslog facility.  This facility is also used to report any success‐
       ful root logins.

       If  the file .hushlogin exists, then a "quiet" login is performed (this
       disables the checking of mail and the printing of the last  login  time
       and  message  of	 the day).  Otherwise, if /var/log/lastlog exists, the
       last login time is printed (and the current login is recorded).

       Random administrative things, such as setting the UID and  GID  of  the
       tty  are	 performed.  The TERM environment variable is preserved, if it
       exists (other environment variables are preserved if the -p  option  is
       used).  Then the HOME, PATH, SHELL, TERM, MAIL, and LOGNAME environment
       variables are set.  PATH defaults to  /usr/local/bin:/bin:/usr/bin  for
       normal		       users,		       and		    to
       /usr/local/sbin:/usr/local/bin:/sbin:/bin:/usr/sbin:/usr/bin for	 root.
       Last, if this is not a "quiet" login, the message of the day is printed
       and the file with the user's name in /var/spool/mail will  be  checked,
       and a message printed if it has non-zero length.

       The  user's  shell  is  then started.  If no shell is specified for the
       user in /etc/passwd, then /bin/sh is used.  If there  is	 no  directory
       specified in /etc/passwd, then / is used (the home directory is checked
       for the .hushlogin file described above).

OPTIONS
       -p     Used by getty(8) to tell login not to destroy the environment

       -f     Used to skip a second login authentication.   This  specifically
	      does  not	 work for root, and does not appear to work well under
	      Linux.

       -h     Used by other servers (i.e., telnetd(8)) to pass the name of the
	      remote  host to login so that it may be placed in utmp and wtmp.
	      Only the superuser may use this option.

SPECIAL ACCESS RESTRICTIONS
       The file /etc/securetty lists the names	of  the	 ttys  where  root  is
       allowed	to  log	 in. One name of a tty device without the /dev/ prefix
       must be specified on each line.	If the file does not  exist,  root  is
       allowed to log in on any tty.

       On  most modern Linux systems PAM (Pluggable Authentication Modules) is
       used. On systems that do not use PAM, the file  /etc/usertty  specifies
       additional  access  restrictions for specific users.  If this file does
       not exist, no additional access restrictions are imposed. The file con‐
       sists  of  a  sequence  of  sections.  There are three possible section
       types: CLASSES, GROUPS and USERS. A CLASSES section defines classes  of
       ttys  and  hostname patterns, A GROUPS section defines allowed ttys and
       hosts on a per group basis, and a USERS section	defines	 allowed  ttys
       and hosts on a per user basis.

       Each  line  in  this file in may be no longer than 255 characters. Com‐
       ments start with # character and extend to the end of the line.

   The CLASSES Section
       A CLASSES section begins with the word CLASSES at the start of  a  line
       in all upper case. Each following line until the start of a new section
       or the end of the file consists of a sequence  of  words	 separated  by
       tabs or spaces. Each line defines a class of ttys and host patterns.

       The  word  at  the  beginning of a line becomes defined as a collective
       name for the ttys and host patterns specified at the rest of the	 line.
       This collective name can be used in any subsequent GROUPS or USERS sec‐
       tion. No such class name must occur as part  of	the  definition	 of  a
       class in order to avoid problems with recursive classes.

       An example CLASSES section:

       CLASSES
       myclass1	      tty1 tty2
       myclass2	      tty3 @.foo.com

       This  defines  the  classes  myclass1 and myclass2 as the corresponding
       right hand sides.

   The GROUPS Section
       A GROUPS section defines allowed ttys and hosts on  a  per  Unix	 group
       basis.  If  a user is a member of a Unix group according to /etc/passwd
       and /etc/group and such a group is mentioned in	a  GROUPS  section  in
       /etc/usertty then the user is granted access if the group is.

       A  GROUPS  section starts with the word GROUPS in all upper case at the
       start of a line, and each following line is a sequence of  words	 sepa‐
       rated  by  spaces  or tabs. The first word on a line is the name of the
       group and the rest of the words on the  line  specifies	the  ttys  and
       hosts  where members of that group are allowed access. These specifica‐
       tions may involve the use of classes defined in previous	 CLASSES  sec‐
       tions.

       An example GROUPS section.

       GROUPS
       sys	 tty1 @.bar.edu
       stud	 myclass1 tty4

       This example specifies that members of group sys may log in on tty1 and
       from hosts in the bar.edu domain. Users in group stud may log  in  from
       hosts/ttys specified in the class myclass1 or from tty4.

   The USERS Section
       A  USERS	 section  starts  with the word USERS in all upper case at the
       start of a line, and each following line is a sequence of  words	 sepa‐
       rated  by  spaces  or  tabs. The first word on a line is a username and
       that user is allowed to log in on the ttys and from the hosts mentioned
       on  the	rest  of  the  line.  These specifications may involve classes
       defined in previous CLASSES sections.  If no section header  is	speci‐
       fied  at	 the top of the file, the first section defaults to be a USERS
       section.

       An example USERS section:

       USERS
       zacho	      tty1 @130.225.16.0/255.255.255.0
       blue	 tty3 myclass2

       This lets the user zacho login only on tty1  and	 from  hosts  with  IP
       addreses	 in  the range 130.225.16.0 - 130.225.16.255, and user blue is
       allowed to log in from tty3 and whatever	 is  specified	in  the	 class
       myclass2.

       There  may  be a line in a USERS section starting with a username of *.
       This is a default rule and it will be applied to any user not  matching
       any other line.

       If  both	 a  USERS  line	 and GROUPS line match a user then the user is
       allowed access from the union of all the ttys/hosts mentioned in	 these
       specifications.

   Origins
       The  tty	 and  host pattern specifications used in the specification of
       classes, group and user access are called origins. An origin string may
       have one of these formats:

       o      The  name	 of a tty device without the /dev/ prefix, for example
	      tty1 or ttyS0.

       o      The string @localhost, meaning that the user is allowed to  tel‐
	      net/rlogin  from	the  local  host  to  the same host. This also
	      allows the user  to  for	example	 run  the  command:  xterm  -e
	      /bin/login.

       o      A	 domain	 name suffix such as @.some.dom, meaning that the user
	      may rlogin/telnet from any host whose domain name has the suffix
	      .some.dom.

       o      A	 range	of  IPv4  addresses,  written  @x.x.x.x/y.y.y.y	 where
	      x.x.x.x is the IP address in the usual dotted quad decimal nota‐
	      tion,  and  y.y.y.y is a bitmask in the same notation specifying
	      which bits in the address to compare with the IP address of  the
	      remote  host. For example @130.225.16.0/255.255.254.0 means that
	      the user may rlogin/telnet from any host whose IP address is  in
	      the range 130.225.16.0 - 130.225.17.255.

       Any  of	the  above  origins  may  be  prefixed by a time specification
       according to the syntax:

       timespec	   ::= '[' <day-or-hour> [':' <day-or-hour>]* ']'
       day	   ::= 'mon' | 'tue' | 'wed' | 'thu' | 'fri' | 'sat' | 'sun'
       hour	   ::= '0' | '1' | ... | '23'
       hourspec	   ::= <hour> | <hour> '-' <hour>
       day-or-hour ::= <day> | <hourspec>

       For example, the origin [mon:tue:wed:thu:fri:8-17]tty3 means  that  log
       in  is  allowed on mondays through fridays between 8:00 and 17:59 (5:59
       pm) on tty3.  This also shows that  an  hour  range  a-b	 includes  all
       moments between a:00 and b:59. A single hour specification (such as 10)
       means the time span between 10:00 and 10:59.

       Not specifying any time prefix for a tty or host means log in from that
       origin  is allowed any time. If you give a time prefix be sure to spec‐
       ify both a set of days and one or more hours or	hour  ranges.  A  time
       specification may not include any white space.

       If  no  default	rule  is  given	 then  users  not  matching  any  line
       /etc/usertty are allowed to log in from anywhere as is standard	behav‐
       ior.

FILES
       /var/run/utmp
       /var/log/wtmp
       /var/log/lastlog
       /var/spool/mail/*
       /etc/motd
       /etc/passwd
       /etc/nologin
       /etc/usertty
       .hushlogin

SEE ALSO
       init(8),	 getty(8),  mail(1),  passwd(1),  passwd(5), environ(7), shut‐
       down(8)

BUGS
       The undocumented BSD -r option is not supported.	 This may be  required
       by some rlogind(8) programs.

       A  recursive  login,  as	 used  to be possible in the good old days, no
       longer works; for most purposes su(1)  is  a  satisfactory  substitute.
       Indeed,	for  security  reasons,	 login does a vhangup() system call to
       remove any possible listening processes on the tty. This	 is  to	 avoid
       password	 sniffing. If one uses the command "login", then the surround‐
       ing shell gets killed by vhangup() because  it's	 no  longer  the  true
       owner  of the tty.  This can be avoided by using "exec login" in a top-
       level shell or xterm.

AUTHOR
       Derived from BSD login 5.40 (5/9/89) by	Michael	 Glad  (glad@daimi.dk)
       for HP-UX
       Ported to Linux 0.12: Peter Orbaek (poe@daimi.aau.dk)

Util-linux 1.6			4 November 1996			      LOGIN(1)
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