9. The Operating System¶
9.1. File system hierarchy¶
9.1.1. File System Structure¶
The location of all files and directories must comply with the Filesystem Hierarchy Standard (FHS), version 3.0, with the exceptions noted below, and except where doing so would violate other terms of Debian Policy. The following exceptions to the FHS apply:
The FHS requirement that architecture-independent application-specific static files be located in
/usr/share
is relaxed to a suggestion. In particular, a subdirectory of/usr/lib
may be used by a package (or a collection of packages) to hold a mixture of architecture-independent and architecture-dependent files. However, when a directory is entirely composed of architecture-independent files, it should be located in/usr/share
.The optional rules related to user specific configuration files for applications are stored in the user’s home directory are relaxed. It is recommended that such files start with the ‘
.
’ character (a “dot file”), and if an application needs to create more than one dot file then the preferred placement is in a subdirectory with a name starting with a ‘.’ character, (a “dot directory”). In this case it is recommended the configuration files not start with the ‘.’ character.Only the dynamic linker and libc are allowed to install files in
/lib64
.The requirement for object files, internal binaries, and libraries, including
libc.so.*
, to be located directly under/lib{,32}
and/usr/lib{,32}
is amended, permitting files to instead be installed to/lib/triplet
and/usr/lib/triplet
, wheretriplet
is the value returned bydpkg-architecture -qDEB_HOST_MULTIARCH
for the architecture of the package. Packages must not install files to any triplet path other than the one matching the architecture of that package; for instance, anArchitecture: amd64
package containing 32-bit x86 libraries must not install these libraries to/usr/lib/i386-linux-gnu
. 1Packages for 64-bit architectures must not install files in
/usr/lib64
or in a subdirectory of it.The requirement for C and C++ headers files to be accessible through the search path
/usr/include/
is amended, permitting files to be accessible through the search path/usr/include/triplet
wheretriplet
is as above. 2Applications may also use a single subdirectory under
/usr/lib/triplet
.The execution time linker/loader, ld*, must still be made available in the existing location under /lib or /lib64 since this is part of the ELF ABI for the architecture.
The requirement that
/usr/local/share/man
be “synonymous” with/usr/local/man
is relaxed to a recommendationThe requirement that window managers with a single configuration file call it
system.*wmrc
is removed, as is the restriction that the window manager subdirectory be named identically to the window manager name itself.The requirement that boot manager configuration files live in
/etc
, or at least are symlinked there, is relaxed to a recommendation./var/run
is required to be a symbolic link to/run
, and/var/lock
is required to be a symbolic link to/run/lock
.The
/var/www
directory is additionally allowed.The requirement for
/usr/local/share/color
to exist if/usr/share/color
exists is relaxed to a recommendation.The requirement for
/usr/local/libqual
to exist if/libqual
or/usr/libqual
exists (wherelibqual
is a variant oflib
such aslib32
orlib64
) is removed.On GNU/Hurd systems, the following additional directories are allowed in the root filesystem:
/hurd
and/servers
. 3As an exception to the requirement for there to be no subdirectories in
/usr/bin
, themh
mail-handling suite may create/usr/bin/mh/
, as was allowed in FHS version 2.3. Other subdirectories are not allowed.
The version of this document referred here can be found in the
debian-policy
package or on FHS (Debian
copy) alongside
this manual (or, if you have the debian-policy installed, you can try
FHS (local copy)). The
latest version, which may be a more recent version, may be found on FHS
(upstream). Specific
questions about following the standard may be asked on the
debian-devel
mailing list, or referred to the FHS mailing list
(see the FHS web site
for more information).
9.1.2. Site-specific programs¶
As mandated by the FHS, packages must not place any files in
/usr/local
, either by putting them in the file system archive to be
unpacked by dpkg
or by manipulating them in their maintainer
scripts.
However, the package may create empty directories below /usr/local
so that the system administrator knows where to place site-specific
files. These are not directories in /usr/local
, but are children
of directories in /usr/local
. These directories
(/usr/local/*/dir/
) should be removed on package removal if they are
empty.
Note that this applies only to directories below /usr/local
, not
in /usr/local
. Packages must not create sub-directories in the
directory /usr/local
itself, except those listed in FHS, section
4.9. However, you may create directories below them as you wish. You
must not remove any of the directories listed in 4.9, even if you
created them.
If /etc/staff-group-for-usr-local
does not exist, /usr/local
and all subdirectories created by packages should have permissions
0755 and be owned by root:root
. If
/etc/staff-group-for-usr-local
exists, /usr/local
and
subdirectories should have permissions 2775 (group-writable and
set-group-id) and be owned by root:staff
.
Since /usr/local
can be mounted read-only from a remote server,
/usr/local/*/dir/
directories must be created and removed by the
postinst
and prerm
maintainer scripts and not be included in
the .deb
archive. These scripts must not fail if either of these
operations fail.
For example, the emacsen-common
package could contain something like
if [ ! -e /usr/local/share/emacs ]; then
if mkdir /usr/local/share/emacs 2>/dev/null; then
if test -e /etc/staff-group-for-usr-local ; then
if chown root:staff /usr/local/share/emacs; then
chmod 2775 /usr/local/share/emacs || true
fi
elif chown root:root /usr/local/share/emacs; then
chmod 0755 /usr/local/share/emacs || true
fi
fi
fi
in its postinst
script, and
rmdir /usr/local/share/emacs/site-lisp 2>/dev/null || true
rmdir /usr/local/share/emacs 2>/dev/null || true
in the prerm
script. (Note that this form is used to ensure that if
the script is interrupted, the directory /usr/local/share/emacs
will
still be removed.)
If you do create a directory in /usr/local
for local additions to a
package, you should ensure that settings in /usr/local
take
precedence over the equivalents in /usr
.
However, because /usr/local
and its contents are for exclusive use
of the local administrator, a package must not rely on the presence or
absence of files or directories in /usr/local
for normal operation.
9.1.3. The system-wide mail directory¶
The system-wide mail directory is /var/mail
. This directory is part
of the base system and should not be owned by any particular mail
agents. The use of the old location /var/spool/mail
is deprecated,
even though the spool may still be physically located there.
9.1.4. /run
and /run/lock
¶
The directory /run
is cleared at boot, normally by being a mount
point for a temporary file system. Packages therefore must not assume
that any files or directories under /run
other than /run/lock
exist unless the package has arranged to create those files or
directories since the last reboot. Normally, this is done by the package
via an init script. See Writing the scripts for more
information.
Packages must not include files or directories under /run
, or under
the older /var/run
and /var/lock
paths. The latter paths will
normally be symlinks or other redirections to /run
for backwards
compatibility.
9.2. Users and groups¶
9.2.1. Introduction¶
The Debian system can be configured to use either plain or shadow passwords.
Some user ids (UIDs) and group ids (GIDs) are reserved globally for use by certain packages. Because some packages need to include files which are owned by these users or groups, or need the ids compiled into binaries, these ids must be used on any Debian system only for the purpose for which they are allocated. This is a serious restriction, and we should avoid getting in the way of local administration policies. In particular, many sites allocate users and/or local system groups starting at 100.
Apart from this we should have dynamically allocated ids, which should by default be arranged in some sensible order, but the behavior should be configurable. When maintainers choose a new hardcoded or dynamically generated username for packages to use, they should start this username with an underscore. This minimizes collisions with locally created user accounts.
Packages other than base-passwd
must not modify /etc/passwd
,
/etc/shadow
, /etc/group
or /etc/gshadow
.
9.2.2. UID and GID classes¶
The UID and GID numbers are divided into classes as follows:
- 0-99:
Globally allocated by the Debian project, the same on every Debian system. These ids will appear in the
passwd
andgroup
files of all Debian systems, new ids in this range being added automatically as thebase-passwd
package is updated.Packages which need a single statically allocated uid or gid should use one of these; their maintainers should ask the
base-passwd
maintainer for ids.- 100-999:
Dynamically allocated system users and groups. Packages which need a user or group, but can have this user or group allocated dynamically and differently on each system, should use
adduser --system
to create the group and/or user.adduser
will check for the existence of the user or group, and if necessary choose an unused id based on the ranges specified inadduser.conf
.- 1000-59999:
Dynamically allocated user accounts. By default
adduser
will choose UIDs and GIDs for user accounts in this range, thoughadduser.conf
may be used to modify this behavior.- 60000-64999:
Globally allocated by the Debian project, but only created on demand. The ids are allocated centrally and statically, but the actual accounts are only created on users’ systems on demand.
These ids are for packages which are obscure or which require many statically-allocated ids. These packages should check for and create the accounts in
/etc/passwd
or/etc/group
(usingadduser
if it has this facility) if necessary. Packages which are likely to require further allocations should have a “hole” left after them in the allocation, to give them room to grow.- 65000-65533:
Reserved.
- 65534:
User
nobody
. The corresponding gid refers to the groupnogroup
.- 65535:
This value must not be used, because it was the error return sentinel value when
uid_t
was 16 bits.- 65536-4294967293:
Dynamically allocated user accounts. By default
adduser
will not allocate UIDs and GIDs in this range, to ease compatibility with legacy systems whereuid_t
is still 16 bits.- 4294967294:
(uid_t)(-2) == (gid_t)(-2)
must not be used, because it is used as the anonymous, unauthenticated user by some NFS implementations.- 4294967295:
(uid_t)(-1) == (gid_t)(-1)
must not be used, because it is the error return sentinel value.
9.2.3. Non-existent home directories¶
The canonical non-existent home directory is /nonexistent
. Users
who should not have a home directory should have their home directory
set to this value.
The Debian autobuilders set HOME to /nonexistent
so that packages
which try to write to a home directory will fail to build.
9.3. Starting system services¶
9.3.1. Introduction¶
Packages that include system services should include systemd
service
units to start or stop those services. See systemd.service(5)
for details on the syntax of a service unit file. In the common case that
a package includes a single system service, the service unit should have
the same name as the package plus the .service
extension.
If the package does not include a service unit (if, for example, no one has yet written one), including an init script, as described below, to start the service is encouraged.
Packages including a service unit may optionally include an init script to
support other init systems. In this case, the init script should have the
same name as the systemd
service unit so that systemd
will ignore
it and use the service unit instead. Packages may also support other init
systems by including configuration in the native format of those init
systems.
If a service unit is not present, systemd
uses dependency information
contained within the init scripts and symlinks in /etc/rcn.d
to decide
which scripts to run and in which order. The sysv-rc
runlevel system
for sysvinit
uses the same symlinks in /etc/rcn.d
to decide which
scripts to run and in which order at boot time and when the init state (or
“runlevel”) is changed. See the README.runlevels
file shipped with
sysv-rc
for implementation details. Other alternatives might exist.
The sections below describe how to write those scripts and configure those symlinks.
9.3.2. Writing the scripts¶
Init scripts are placed in /etc/init.d
. In the common case that a
package starts a single service, they should be named
/etc/init.d/package
. They should accept one argument, saying what to
do:
start
start the service,
stop
stop the service,
restart
stop and restart the service if it’s already running, otherwise start the service
try-restart
restart the service if it’s already running, otherwise just report success.
reload
cause the configuration of the service to be reloaded without actually stopping and restarting the service,
force-reload
cause the configuration to be reloaded if the service supports this, otherwise restart the service.
status
report the current status of the service
The start
, stop
, restart
, and force-reload
options should
be supported by all init scripts. Supporting status
is encouraged.
The reload
and try-restart
options are optional.
The init.d
scripts must ensure that they will behave sensibly (i.e.,
returning success and not starting multiple copies of a service) if
invoked with start
when the service is already running, or with
stop
when it isn’t, and that they don’t kill unfortunately-named
user processes. The best way to achieve this is usually to use
start-stop-daemon
with the --oknodo
option.
Be careful of using set -e
in init.d
scripts. Writing correct
init.d
scripts requires accepting various error exit statuses when
daemons are already running or already stopped without aborting the
init.d
script, and common init.d
function libraries are not safe
to call with set -e
in effect. 4 For init.d
scripts, it’s
often easier to not use set -e
and instead check the result of each
command separately.
If a service reloads its configuration automatically (as in the case of
cron
, for example), the reload
option of the init.d
script
should behave as if the configuration has been reloaded successfully.
The /etc/init.d
scripts must be treated as configuration files,
either (if they are present in the package, that is, in the .deb file)
by marking them as conffile
s, or, (if they do not exist in the
.deb) by managing them correctly in the maintainer scripts (see
Configuration files). This is important since we want
to give the local system administrator the chance to adapt the scripts
to the local system, e.g., to disable a service without de-installing
the package, or to specify some special command line options when
starting a service, while making sure their changes aren’t lost during
the next package upgrade.
These scripts should not fail obscurely when the configuration files
remain but the package has been removed, as configuration files remain
on the system after the package has been removed. Only when dpkg
is
executed with the --purge
option will configuration files be
removed. In particular, as the /etc/init.d/package
script itself is
usually a conffile
, it will remain on the system if the package is
removed but not purged. Therefore, you should include a test
statement at the top of the script, like this:
test -f program-executed-later-in-script || exit 0
Often there are some variables in the init.d
scripts whose values
control the behavior of the scripts, and which a system administrator is
likely to want to change. As the scripts themselves are frequently
conffile
s, modifying them requires that the administrator merge in
their changes each time the package is upgraded and the conffile
changes. To ease the burden on the system administrator, such
configurable values should not be placed directly in the script.
Instead, they should be placed in a file in /etc/default
, which
typically will have the same base name as the init.d
script. This
extra file should be sourced by the script when the script runs. It must
contain only variable settings and comments in POSIX.1-2017 sh
format. It
must either be a conffile
or a configuration file maintained by the
package maintainer scripts. See Configuration files for
more details.
To ensure that vital configurable values are always available, the
init.d
script should set default values for each of the shell
variables it uses, either before sourcing the /etc/default/
file or
afterwards using something like the : ${VAR:=default}
syntax. Also,
the init.d
script must behave sensibly and not fail if the
/etc/default
file is deleted.
Files and directories under /run
, including ones referred to via the
compatibility paths /var/run
and /var/lock
, are normally stored
on a temporary filesystem and are normally not persistent across a
reboot. The init.d
scripts must handle this correctly. This will
typically mean creating any required subdirectories dynamically when the
init.d
script is run. See /run and /run/lock for more
information.
9.3.3. Interfacing with init systems¶
Maintainer scripts for packages including init scripts must use
update-rc.d
as described below to interact with the service manager
for requests such as enabling or disabling services. They should use
invoke-rc.d
as described below to invoke init scripts for requests
such as starting and stopping service.
Directly managing the /etc/rc?.d
links and directly invoking the
/etc/init.d/
init scripts should be done only by packages providing
the init script subsystem (such as init-system-helpers
).
9.3.3.1. Managing the links¶
The program update-rc.d
is provided for package maintainers to
arrange for the proper creation and removal of /etc/rcn.d
symbolic
links, or their functional equivalent if another method is being used.
It is intended for use in package maintainer scripts.
You must not include any /etc/rcn.d
symbolic links in the actual
archive or manually create or remove the symbolic links in maintainer
scripts; you must use the update-rc.d
program instead. (The former
will fail if an alternative method of maintaining runlevel information
is being used.) You must not include the /etc/rcn.d
directories
themselves in the archive either. (Only the init-system-helpers
package is permitted to do so.)
To get the default behavior for your package, put in your postinst
script:
update-rc.d package defaults
and in your postrm
:
if [ "$1" = purge ]; then
update-rc.d package remove
fi
The default behaviour is to enable autostarting your package’s daemon.
The local administrator can override this using the command
update-rc.d package disable
. If, however, the daemon should not
be autostarted unless the local administrator has explicitly requested
this, instead add to your postinst
script:
update-rc.d package defaults-disabled
and add a dependency on init-system-helpers (>= 1.50)
, which
introduced the defaults-disabled
option. Then the local
administrator can enable autostarting the daemon using the command
update-rc.d package enable
.
An older practice, which should not be used, was to include a line
like DISABLED=yes
in the package’s /etc/default
file. The
package’s init script would not start the service until the local
system administrator changed this to DISABLED=no
, or similar. The
problem with this approach was that it hides from the init system
whether or not the daemon should actually be started, which leads to
inconsistent and confusing behavior: service <package> start
could
return success but not start the service; services with a dependency
on this service will be started even though the service isn’t running;
and init system status commands could incorrectly claim that the service
was started.
Note that if your package changes runlevels or priority, you may have to
remove and recreate the links, since otherwise the old links may
persist. Refer to the documentation of update-rc.d
.
For more information about using update-rc.d
, please consult its man
page, update-rc.d(8).
It is easiest for packages not to call update-rc.d
directly, but
instead use debhelper programs that add the required update-rc.d
calls automatically. See dh_installinit
, dh_installsystemd
, etc.
9.3.3.2. Running init scripts¶
The program invoke-rc.d
is provided to make it easier for package
maintainers to properly invoke an init script, obeying runlevel and other
locally-defined constraints that might limit a package’s right to start,
stop and otherwise manage services. This program may be used by
maintainers in their packages’ scripts.
The package maintainer scripts must use invoke-rc.d
to invoke the
/etc/init.d/*
init scripts or equivalent instead of calling them
directly.
By default, invoke-rc.d
will pass any action requests (start, stop,
reload, restart…) to the /etc/init.d
script, filtering out
requests to start or restart a service out of its intended runlevels.
Most packages will simply use:
invoke-rc.d package action
in their postinst
and prerm
scripts.
A package should register its init script services using update-rc.d
before it tries to invoke them using invoke-rc.d
. Invocation of
unregistered services may fail.
For more information about using invoke-rc.d
, please consult its man
page, invoke-rc.d(8).
It is easiest for packages not to call invoke-rc.d
directly, but
instead use debhelper programs that add the required invoke-rc.d
calls automatically. See dh_installinit
, dh_installsystemd
, etc.
9.3.4. Boot-time initialization¶
This section has been deleted.
9.3.5. Example¶
Examples on which you can base your systemd
service units are
available in the man page systemd.unit(5). An example on which
you can base your init scripts is available in the man page
init-d-script(5).
9.4. Console messages from init.d
scripts¶
This section has been deleted.
9.5. Cron jobs¶
Packages must not modify the configuration file /etc/crontab
, and
they must not modify the files in /var/spool/cron/crontabs
.
If a package wants to install a job that has to be executed via cron, it should place a file named as specified in Cron job file names into one or more of the following directories:
/etc/cron.hourly
/etc/cron.daily
/etc/cron.weekly
/etc/cron.monthly
As these directory names imply, the files within them are executed on an
hourly, daily, weekly, or monthly basis, respectively. The exact times
are listed in /etc/crontab
.
All files installed in any of these directories must be scripts (e.g., shell scripts or Perl scripts) so that they can easily be modified by the local system administrator. In addition, they must be treated as configuration files.
If a certain job has to be executed at some other frequency or at a
specific time, the package should install a file in /etc/cron.d
with
a name as specified in Cron job file names. This file
uses the same syntax as /etc/crontab
and is processed by cron
automatically. The file must also be treated as a configuration file.
(Note that entries in the /etc/cron.d
directory are not handled by
anacron
. Thus, you should only use this directory for jobs which may
be skipped if the system is not running.)
Unlike crontab
files described in the IEEE Std 1003.1-2008 (POSIX.1)
available from The Open
Group, the files
in /etc/cron.d
and the file /etc/crontab
have seven fields;
namely:
Minute [0,59]
Hour [0,23]
Day of the month [1,31]
Month of the year [1,12]
Day of the week ([0,6] with 0=Sunday)
Username
Command to be run
Ranges of numbers are allowed. Ranges are two numbers separated with a hyphen. The specified range is inclusive. Lists are allowed. A list is a set of numbers (or ranges) separated by commas. Step values can be used in conjunction with ranges.
The scripts or crontab
entries in these directories should check if
all necessary programs are installed before they try to execute them.
Otherwise, problems will arise when a package was removed but not purged
since configuration files are kept on the system in this situation.
Any cron
daemon must provide /usr/bin/crontab
and support normal
crontab
entries as specified in POSIX. The daemon must also support
names for days and months, ranges, and step values. It has to support
/etc/crontab
, and correctly execute the scripts in /etc/cron.d
.
The daemon must also correctly execute scripts in
/etc/cron.{hourly,daily,weekly,monthly}
.
9.5.1. Cron job file names¶
The file name of a cron job file should normally match the name of the package from which it comes.
If a package supplies multiple cron job files files in the same
directory, the file names should all start with the name of the package
(possibly modified as described below) followed by a hyphen (-
) and
a suitable suffix.
A cron job file name must not include any period or plus characters
(.
or +
) characters as this will cause cron to ignore the file.
Underscores (_
) should be used instead of .
and +
characters.
9.7. Multimedia handlers¶
Media types (formerly known as MIME types, Multipurpose Internet Mail
Extensions, RFCs 2045-2049) is a mechanism for encoding files and data
streams and providing meta-information about them, in particular their
type and format (e.g. image/png
, text/html
, audio/ogg
).
Registration of media type handlers allows programs like mail user agents and web browsers to invoke these handlers to view, edit or display media types they don’t support directly.
There are two overlapping systems to associate media types to programs which can handle them. The mailcap system is found on a large number of Unix systems. The FreeDesktop system is aimed at Desktop environments. In Debian, FreeDesktop entries are automatically translated in mailcap entries, therefore packages already using desktop entries should not use the mailcap system directly.
9.7.1. Registration of media type handlers with desktop entries¶
Packages shipping an application able to view, edit or point to files of
a given media type, or open links with a given URI scheme, should list
it in the MimeType
key of the application’s desktop
entry. For URI schemes, the relevant MIME types are
x-scheme-handler/*
(e.g. x-scheme-handler/https
).
9.7.2. Registration of media type handlers with mailcap entries¶
Packages that are not using desktop entries for registration should
install a file in mailcap(5) format (RFC 1524) in the directory
/usr/lib/mime/packages/
. The file name should be the binary package’s
name.
The mailcap package provides the update-mime
program, which
integrates these registrations in the /etc/mailcap
file, using dpkg
triggers. 5
Packages installing desktop entries should not install mailcap entries for the same program, because the mailcap package already reads desktop entries.
Packages using these facilities should not depend on, recommend, or
suggest mailcap
.
9.7.3. Providing media types to files¶
The media type of a file is discovered by inspecting the file’s extension or its magic(5) pattern, and interrogating a database associating them with media types.
To support new associations between media types and files, their characteristic file extensions and magic patterns should be registered to the IANA (Internet Assigned Numbers Authority). See https://www.iana.org/assignments/media-types and RFC 6838 for details. This information will then propagate to the systems discovering file media types in Debian, provided by the shared-mime-info, media-types and file packages. If registration and propagation can not be waited for, support can be asked to the maintainers of the packages mentioned above.
For files that are produced and read by a single application, it is also
possible to declare this association to the Shared MIME Info system by
installing in the directory /usr/share/mime/packages
a file in the
XML format specified at
https://standards.freedesktop.org/shared-mime-info-spec/latest/.
9.8. Keyboard configuration¶
To achieve a consistent keyboard configuration so that all applications interpret a keyboard event the same way, all programs in the Debian distribution must be configured to comply with the following guidelines.
The following keys must have the specified interpretations:
<--
delete the character to the left of the cursor
Delete
delete the character to the right of the cursor
Control+H
emacs: the help prefix
The interpretation of any keyboard events should be independent of the terminal that is used, be it a virtual console, an X terminal emulator, an rlogin/telnet session, etc.
The following list explains how the different programs should be set up to achieve this:
<--
generatesKB_BackSpace
in X.Delete
generatesKB_Delete
in X.X translations are set up to make
KB_Backspace
generate ASCII DEL, and to makeKB_Delete
generateESC [ 3 ~
(this is the vt220 escape code for the “delete character” key). This must be done by loading the X resources usingxrdb
on all local X displays, not using the application defaults, so that the translation resources used correspond to thexmodmap
settings.The Linux console is configured to make
<--
generate DEL, andDelete
generateESC [ 3 ~
.X applications are configured so that
<
deletes left, andDelete
deletes right. Motif applications already work like this.Terminals should have
stty erase ^?
.The
xterm
terminfo entry should haveESC [ 3 ~
forkdch1
, just as forTERM=linux
andTERM=vt220
.Emacs is programmed to map
KB_Backspace
or thestty erase
character todelete-backward-char
, andKB_Delete
orkdch1
todelete-forward-char
, and^H
tohelp
as always.Other applications use the
stty erase
character andkdch1
for the two delete keys, with ASCII DEL being “delete previous character” andkdch1
being “delete character under cursor”.
This will solve the problem except for the following cases:
Some terminals have a
<--
key that cannot be made to produce anything except^H
. On these terminals Emacs help will be unavailable on^H
(assuming that thestty erase
character takes precedence in Emacs, and has been set correctly).M-x help
orF1
(if available) can be used instead.Some operating systems use
^H
forstty erase
. However, modern telnet versions and all rlogin versions propagatestty
settings, and almost all UNIX versions honourstty erase
. Where thestty
settings are not propagated correctly, things can be made to work by usingstty
manually.Some systems (including previous Debian versions) use
xmodmap
to arrange for both<--
andDelete
to generateKB_Delete
. We can change the behavior of their X clients using the same X resources that we use to do it for our own clients, or configure our clients using their resources when things are the other way around. On displays configured like thisDelete
will not work, but<--
will.Some operating systems have different
kdch1
settings in theirterminfo
database forxterm
and others. On these systems theDelete
key will not work correctly when you log in from a system conforming to our policy, but<--
will.
9.9. Environment variables¶
Programs installed on the system PATH (/bin
, /usr/bin
,
/sbin
, /usr/sbin
, or similar directories) must not depend on
custom environment variable settings to get reasonable defaults. This is
because such environment variables would have to be set in a system-wide
configuration file such as a file in /etc/profile.d
, which is not
supported by all shells.
If a program usually depends on environment variables for its configuration, the program should be changed to fall back to a reasonable default configuration if these environment variables are not present. If this cannot be done easily (e.g., if the source code of a non-free program is not available), the program must be replaced by a small “wrapper” shell script that sets the environment variables if they are not already defined, and calls the original program.
Here is an example of a wrapper script for this purpose:
#!/bin/sh
BAR=${BAR:-/var/lib/fubar}
export BAR
exec /usr/lib/foo/foo "$@"
9.10. Registering Documents using doc-base¶
The doc-base package implements a mechanism for handling and
presenting documentation. Debian packages that provides online
documentation (other than just manual pages) may register these
documents with doc-base by installing a doc-base control file in
/usr/share/doc-base/
.
Please refer to the documentation that comes with the doc-base package for information and details.
9.11. Alternate init systems¶
This section has been deleted.
9.11.1. Event-based boot with upstart¶
The upstart
event-based boot system is no longer maintained in
Debian, so this section has been removed.
- 1
This is necessary in order to reserve the directories for use in cross-installation of library packages from other architectures, as part of
multiarch
.- 2
This is necessary for architecture-dependent headers file to coexist in a
multiarch
setup.- 3
These directories are used to store translators and as a set of standard names for mount points, respectively.
- 4
/lib/lsb/init-functions
, which assists in writing LSB-compliant init scripts, may fail ifset -e
is in effect and echoing status messages to the console fails, for example.- 5
Creating, modifying or removing a file in
/usr/lib/mime/packages/
using maintainer scripts will not activate the trigger. In that case, it can be done by callingdpkg-trigger --no-await /usr/lib/mime/packages
from the maintainer script after creating, modifying, or removing the file.
9.12. Signaling that a reboot is required¶
Programs can signal that a reboot is required by touch
ing
/run/reboot-required
. It is conventional to add the name of the
package(s) requiring the reboot to
/run/reboot-required.pkgs
. Programs should not add a package name
to /run/reboot-required.pkgs
if it is already present there.
The /run/reboot-required
mechanism is used when a reboot is
needed to fully apply the changes introduced by package
installation or upgrade. Typically it is the postinst
maintainer script that touches /run/reboot-required
, at the end
of a successful configuration of the package.
There are no guarantees provided by the /run/reboot-required
convention as to when or whether the requested reboot will occur.