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[1mman-db - the database cached manual pager suite[0m [4mGraeme[24m [4mW.[24m [4mWilford[24m [4m<eep2gw@ee.surrey.ac.uk>[0m [4mColin[24m [4mWatson[24m [4m<cjwatson@debian.org>[0m This document describes the setup, maintenance and use of a generic online manual page system with special reference to the man-db package and its advanced features. [1mman-db v2.6.3 October 30, 2018[0m [1mUNIX [22mis a registered trademark of the X/Open Company, Ltd. NFS is a registered trademark of Sun Microsystems, Inc. PostScript is a registered trademark of Adobe in the United States. The general conventions used throughout this manual include +o file names and paths in [4mitalic[24m, e.g. [4m/usr/share/man[24m. +o variable strings (usually path components) enclosed within <> and in [4mitalic[24m, eg. [4m<sec>[24m, +o program names in [1mbold[22m, eg. [1mman[22m. _____ ____________ +o commands that can be typed at a shell prompt in a |_b_o_x_|_, eg. |_m_a_n__f_o_o_b_a_r_|_. +o environment variables denoted as follows: $[1mENV_VAR[0m Copyright (C) 1995 Graeme W. Wilford Copyright (C) 2001, 2002, 2003, 2007 Colin Watson Permission is granted to make and distribute verbatim copies of this manual provided the copyright notice and this permission notice are preserved on all copies. Permission is granted to copy and distribute modified versions of this manual under the conditions for verbatim copying, provided that the entire resulting derived work is distributed under the terms of a notice identical to this one. Permission is granted to copy and distribute translations of this manual into another language, under the above conditions for modified versions, except that this permission notice may be stated in a translation approved by the copyright holder. [1mman-db v2.6.3 October 30, 2018[0m [1m1. Introduction[0m [1m1.1. man-db[0m man-db is a package that is designed to provide users with online information in a fast and friendly manner while at the same time offering flexibility to the system administrator. It is made up of several user programs: [1m+o man [22m- an interface to the on-line reference manuals [1m+o whatis [22m- search the manual page names [1m+o apropos [22m- search the manual page names and descriptions [1m+o manpath [22m- determine search path for manual pages [1m+o lexgrog [22m- directly read header information in manual pages several maintenance programs: [1m+o mandb [22m- create or update the manual page index caches [1m+o catman [22m- create or update the pre-formatted manual pages and a special pre-formatter that knows about compressed manual pages: [1m+o zsoelim [22m- satisfy .so requests in roff input In addition to these compiled programs, there are two shell scripts, [1mmkcatdirs[0m and [1mcheckman [22min the [4mtools[24m subdirectory. These scripts aid the creation of cat directories and check for duplicated manual pages, respectively. The following manual pages are provided with this package to explain correct format and usage. [1mman[22m(1), [1mwhatis[22m(1), [1mapropos[22m(1), [1mmanpath[22m(1), [1mlexgrog[22m(1), [1mman-[0m [1mpath[22m(5), [1mmandb[22m(8), [1mcatman[22m(8) and [1mzsoelim[22m(1). [1m1.1.1. The concept[0m man-db originally started out life as program suite man-1.1B, written by John W. Eaton <jwe@che.utexas.edu> and maintained by Rik Faith <faith@cs.unc.edu> to which support proposed by the newly formed FSSTND committee regarding cat directories was added. Since then, man-db's most innovative feature: the database cache scheme1 has been significantly developed. The basic idea was to reduce manual page search times to a minimum. The following piece of text is included from the man- db-2.2 distribution: The theory: If you go to a library to take a book out, what do you do? a) Go and look where it might be on a micro-fiche/terminal, take a look where it is supposed to be on the shelf, and then go look at the new arrivals if it's not where it's supposed to be? OR ____________________ 1 originally conceived after observing the actions of the Perl-based manual pager suite, man-pl written by Tom Christiansen <tchrist@convex.com> [1m1[0m [1mman-db v2.6.3 October 30, 2018[0m b) Start at one end of the ground floor, look along every bookshelf until you've completed that floor, then go up a level and start again until you've found what you're looking for? Since then the database [1mindex [22mscheme has evolved greatly. Every manual page and stray cat page on the system is registered in an [1mindex [22mdatabase cache which stores various details about the file including the timestamp, the loca- tion and the whatis2 information. This information is kept up to date by reg- ular runs of [1mmandb[22m. In some configurations [1mman [22malso looks for filesystem changes each time it is invoked and helps to keep the database cache current, but this imposes a penalty on manual page search times. [1m1.2. The manual page system[0m The simplest manual page system will have a single manual page hierarchy. This will typically be [4m/usr/share/man[0m beneath which will be several subdirectories of the form [4mman<sec>[24m where [4m<sec>[0m is [1m1[22m, [1m2[22m, [1m3[22m, [1m4[22m, [1m5[22m, [1m6[22m, [1m7 [22mor [1m8[22m. These are referred to as [4msections[24m of the manual. Others may exist and they are not restricted to single character names. eg. [4m/usr/share/man/manfoo[0m is a valid section subdirectory. Other common sections include [1m9[22m, [1mn[22m, [1ml[22m, [1mp [22mand [1mo[22m. Within these section subdirectories reside the manual pages themselves. Their filenames follow the pattern [4m/usr/share/man/man<sec>/<name>.<sec><ext>[0m where in most cases [4m<ext>[24m is an empty string. An example is manual page [1mcp[0m [4m/usr/share/man/man1/cp.1[0m which resides in [4msection[24m [1m1 [22mand has no special [4mextension[24m. [1m1.3. Sections of the manual[0m The manual is split up into sections to ease access and to cater for manual pages that share the same name. It is common for a program and function to share the same name. [1mkill [22mis a good example. This is both a program which can be used to send a process a signal and an operating system call with simi- lar functionality. Their manual pages are stored under sections [1m1 [22mand [1m2[0m respectively. Thus, sections are used to separate out the program manual pages from the function manual pages and so on. The table below shows the ____________________ 2 one line description of the manual page [1m2[0m [1mman-db v2.6.3 October 30, 2018[0m [4msection[24m numbers of the manual followed by the types of pages they contain. +--------+------------------------------------------------------+ |Section | Section contents | +--------+------------------------------------------------------+ | 1 | user executable programs or shell commands | | 2 | system calls (functions provided by the kernel) | | 3 | library calls (functions within system libraries) | | 4 | special files (usually found in [4m/dev[24m) | | 5 | file formats and conventions eg. [4m/etc/passwd[24m | | 6 | games | | 7 | macro packages and conventions eg. [1mman[22m(7), [1mgroff[22m(7). | | 8 | system administration commands | | 9 | kernel routines [Non-standard] | | n | new [obsolete] | | l | local [obsolete] | | p | public [obsolete] | | o | old [obsolete] | +--------+------------------------------------------------------+ [1m1.4. The format of manual pages[0m The format in which manual pages are stored is [1mNROFF[22m/[1mTROFF [22mor more generally ROFF. This is a typesetter style language3 which requires formatting before being viewed. In fact some manual pages require pre-format processing to cor- rectly format tables or equations. If the page is to be viewed on screen in a text environment, [1mNROFF [22mis used as the primary formatter. If the page is to be printed or displayed in a graphi- cal environment, [1mTROFF [22mis used. Traditionally, [1mTROFF [22mformatted files for a [1mC/A/T [22m(Computer aided Typesetter) which is now obsolete. The [1mGNU [22mROFF ([1mGROFF[22m4) suite of programs offer a choice of output types includ- ing [1mX[22m, [1mdvi [22mand [1mpostscript[22m. When configuring man-db, the preference is to use [1mGROFF [22mrather than [1mTROFF[22m. [1m1.5. Arguments to configure[0m To allow the configuration program, [1mconfigure[22m, to be non-interactive, it can be passed various options to alter the default settings. Generic [1mconfigure[0m options are discussed in [4mdocs/INSTALL[24m. Options that are specific to the man-db package are described below. --enable-setuid[=ARG] By default, [1mman [22mwill be installed as a setuid program to user man. Use ____________________ 3 similar in some aspects to [1mTeX[0m 4 Written by James Clark <jjc@jclark.com> and now maintained by Ted Harding <ted.harding@nessie.mcc.ac.uk> and Werner Lemberg <wl@gnu.org> [1m3[0m [1mman-db v2.6.3 October 30, 2018[0m this option with an argument to change the setuid owner. --disable-setuid Use this option to install [1mman [22mas a non-setuid program and to change the default cat and database files' access flags to allow users to modify them. --enable-mandirs=OS By default, man-db supports manual page directories in any of several layouts used by free and proprietary versions of [1mUNIX[22m. However, in cer- tain cases, this can cause man-db to find the wrong page by mistake, especially when the names of some manual pages on the system contain periods. Use this option with an argument of GNU, HPUX, IRIX, Solaris, or BSD (or more than one of these, separated by commas) to support only the layouts typically used on each of those systems. Note that man-db is not currently capable of writing cat pages in the proper BSD layout. --with-device=DEVICE Use this flag to alter the default output device used by [1mNROFF[22m. DEVICE is passed to [1mNROFF [22mwith the -T option. [1mconfigure [22mwill test that [1mNROFF [22mwill run with the supplied device argument. --with-db=LIBRARY configure will look for database interface libraries in the order gdbm, Berkeley DB and finally ndbm and will #define appropriate variables rela- tive to the first one found. To override the built-in order on platforms having a choice of interface library, use this option to specify which library to use. --enable-automatic-create If this flag is used, [1mman [22mwill automatically create index databases for users' private manual page hierarchies. --disable-automatic-update Normally, [1mman [22mwill update entries in index databases if it finds newly installed manual pages (if the [1m--update [22mflag is used) or delete entries if manual pages are removed. This flag suppresses this behaviour. --disable-cats Normally, [1mman [22mwill automatically try to create cat files corresponding to manual files when a manual page is read. This flag suppresses this be- haviour. [1m4[0m [1mman-db v2.6.3 October 30, 2018[0m [1m2. The specifics of Sections[0m [1m2.1. Package specific manual page sections[0m The use of package specific manual page sections is discouraged as packages large enough to warrant their own section probably contain manual pages that span other sections. An example might be package [1mfoo [22mthat has its own section [4m/usr/share/man/manfoo[0m which contains manual pages describing its programs, the library routines it offers and the format of several of its configuration files. These pages would normally be allocated to sections [1m1[22m, [1m3 [22mand [1m5 [22mrespectively and thus com- bining them all under section [1mfoo [22mis misleading. Subtle problems will arise if there are any base name-space clashes with standard manual pages, e.g. [1mexit[22m(3), [1mexit[22m(foo) and the order in which they should be shown. There are two standard solutions to this problem. (1) Create a separate manual page hierarchy for the package's manual pages such as [4m/usr/local/packages/foo/man[0m (2) Install the pages in their relevant sections, with a unique extension appended to the filename such that [4m/usr/share/man/manfoo/exit.foo[0m would instead be installed as [4m/usr/share/man/man1/exit.1foo[0m Only (2) offers a complete solution to manual page ordering problems and allows users to access the desired page directly. [1m2.2. Selecting a section type[0m [1m2.2.1. Specifying a section[0m This is done via use of the section argument to man ____________ |_m_a_n__1__e_x_i_t_|_ will look for [4mexit.1*[24m in section [1m1 [22mof the manual. If [4mexit.1[24m exists, it will be displayed in preference to [4mexit.1foo[0m _______________ |_m_a_n__1_f_o_o__e_x_i_t_|_ will look for [4mexit.1foo*[24m in section [1m1 [22mof the manual. The asterisk (*) repre- sents a wild-card of any type or length, including length zero. [1m5[0m [1mman-db v2.6.3 October 30, 2018[0m For an argument to be interpreted as a section name rather than a page name, it must either begin with a digit, or be included in the standard section list. The default section list is defined in [4minclude/manconfig.h[24m to be [1m1[22m, [1mn[22m, [1ml[22m, [1m8[22m, [1m3[22m, [1m2[22m, [1m5[22m, [1m4[22m, [1m9[22m, [1m6 [22mand [1m7[22m. This should be modified in order and content to meet the local conventions. It may be altered at run-time using the [1mSECTION[0m directive in the man-db configuration file. Every subdirectory section name in the entire system must be in the list, including sections found in imported manual page hierarchies. It is not nec- essary to list sections with extensions unless a special ordering for those extensions is desired. The order is important because in normal operation, [1mman [22mwill only display the first manual page it finds that meets the search criteria. Using the [1m--all [22margument will cause [1mman [22mto attempt to display all manual pages that meet the criteria. See [1mman[22m(1) for further information. Having an excess of sections listed will not slow [1mman [22mdown. [1m2.2.2. Specifying an extension[0m If the section is unknown, but the package extension is, it is possible to use the extension argument _________________ |_m_a_n__-_e__f_o_o__e_x_i_t_|_ to search in all sections for manual pages named [4mexit[24m from package [4mfoo[24m. [1m6[0m [1mman-db v2.6.3 October 30, 2018[0m [1m3. Filesystem structure[0m [1m3.1. Manual page hierarchies[0m It is often common for manual page systems to have more than one manual page hierarchy. Indeed one of the systems I use has the following globally acces- sible hierarchies [4m/usr/man[0m [4m/usr/local/man[0m [4m/usr/local/tex/man[0m [4m/usr/local/pbm/man[0m [4m/usr/X11R6/man[0m [4m/usr/openwin/man[0m [4m/usr/local/packages/pvm/man[0m A full system $[1mMANPATH [22mwould be a colon separated list of these directories. The order is important, and is observed by man-db's search algorithms. The order is very much related to the user's $[1mPATH [22menvironment variable, and should be set on a per user basis, or not set at all. If a user's $[1mPATH[0m causes [4m/usr/local/packages/bin/foobar[0m to be executed in preference to [4m/usr/bin/foobar[24m, it is essential that ____________ |_m_a_n__f_o_o_b_a_r_|_ displays the manual page located within [4m/usr/local/packages/man[0m rather than within [4m/usr/share/man[0m To ensure correct order, the program [1mmanpath [22mmay be used to set the $[1mMANPATH[0m environment variable. See [1mmanpath[22m(1) and [1mmanpath[22m(5) for details. [1m3.2. Setting the MANPATH[0m If using a Bourne style login shell such as [1mbash[22m, [1mksh[22m, or [1mzsh[22m, the commands export MANPATH MANPATH=`manpath -q` can be added to [1m$HOME[4m[22m/.profile[0m [1m7[0m [1mman-db v2.6.3 October 30, 2018[0m If using a C style login shell such as [1mcsh [22mor [1mtcsh[22m, the commands setenv MANPATH `manpath -q` can be added to [1m$HOME[4m[22m/.login[0m N.B. $[1mPATH [22mmust be set prior to using [1mmanpath[22m. The setting of $[1mMANPATH [22mis actually unnecessary as the man-db utilities will dynamically determine the manpath if $[1mMANPATH [22mis unset. [1m3.3. Determination of the internal manpath[0m All man-db utilities, [1mmanpath [22mincluded, will use the user's $[1mMANPATH [22menviron- ment variable if set and not equal to "". Otherwise the user's $[1mPATH [22menviron- ment variable is queried. If this is unset or is set to "", the determined manpath will simply be any [1mMANDATORY_MANPATH[0m elements defined in the man-db config file. Assuming that a $[1mPATH [22mexists, each path element it contains is scanned for in the config file. If found, the corresponding manpath element is appended to the internal manpath. However, if the element is not mentioned in the config file, a man directory relative to it will be sought. The subdirectories [4m../man[24m, [4mman[24m, [4m../share/man[24m, or [4mshare/man[24m relative to the path component are appended to the internal manpath if they exist. Finally, the internal manpath is stripped of duplicate paths before being processed by the [1mNLS [22mand `Other OS' routines. These may add to or modify the separate path elements giving priority to [1mNLS [22mmanual pages or add OS-relative manpaths. [1m3.4. Other OS's manual pages[0m It is common to have collections of heterogeneous computer systems linked together in a network. In some circumstances5 it is advantageous to be able to access the manual pages of these other systems directly from your system. This feature is known as alternate system support. The accepted way to setup this support is to NFS mount the respective systems' manual page hierarchies under the native manual page hierarchies. An example: ____________________ 5 writing portable software instantly comes to mind [1m8[0m [1mman-db v2.6.3 October 30, 2018[0m +--------+-----------------------+ |System | Manual page hierarchy | +--------+-----------------------+ |<local> | /usr/share/man | |newOS | /usr/share/man/newOS | |userix | /usr/share/man/userix | |<local> | /usr/local/man | |newOS | /usr/local/man/newOS | |userix | /usr/local/man/userix | +--------+-----------------------+ Rather than have multiple NFS mounts from a single machine, this may be accom- plished by NFS mounting [4m<other-sys>:/usr[0m somewhere on the local system and using symbolic links within the manual hier- archies. To access these [4malternate[24m [4msystems[24m using [1mman [22muse the [1m-m [22mor [1m--systems[0m option, eg. ___________________________________________ |_m_a_n__-_-_a_l_l__-_-_s_y_s_t_e_m_s__u_s_e_r_i_x_:_n_e_w_O_S__5__p_a_s_s_w_d_|_ would provide manual pages showing the structure of [4m/etc/passwd[24m on systems [1muserix [22mand [1mnewOS [22min that order. A manual page would [4mnot[24m be displayed about the local systems conventions. Please read the relevant man-db utility's man- ual page for further and more specific information. [1m3.5. NLS manual pages[0m NLS manual pages should be installed in NLS subdirectories of a standard man- ual page hierarchy. The subdirectory names should be made up of language, territory, and character set components as necessary to specify the locale of the manual page. The character set component describes the encoding of the manual page itself, and not the encoding in use by the user; a manual page installed under the [1mfr.UTF-8 [22msubdirectory will be used in the [1mfr_FR.ISO-8859-1 [22mlocale as well as [1mfr_FR.UTF-8[22m, and converted between encodings as necessary. If no character set is specified in the subdirectory name, man-db will attempt to detect whether each page is encoded using UTF-8 or a legacy character set appropriate for the language. Accordingly, the recommended scheme for installing manual pages is to encode them in UTF-8 (or, if that is not practical, in the legacy character set) and install them in directories [4mwithout[24m a character set compo- nent in their names. The territory should normally be omitted unless it is necessary to describe the manual page text. For example, Brazilian Portuguese is quite distinct from Portuguese and so should be installed under the [1mpt_BR [22msubdirectory, but a single German manual page will typically suffice in Austria as well as in Ger- many and so should be installed under the [1mde [22msubdirectory. [1m9[0m [1mman-db v2.6.3 October 30, 2018[0m The following table gives some examples. +---------+-------------+---------------------+---------------------------------+ |Language | Territory | Character Set | Directory | +---------+-------------+---------------------+---------------------------------+ |French | any | UTF-8 or ISO-8859-1 | /usr/share/man/fr | |French | Canada | ISO 8859-1 | /usr/share/man/fr_CA | |French | any | UTF-8 | /usr/share/man/fr.UTF-8 | |German | Germany | UTF-8 | /usr/share/man/de_DE.UTF-8 | |German | Switzerland | ISO 8859-1 | /usr/share/man/de_CH.ISO-8859-1 | |Japanese | Japan | UTF-8 or EUC-JP | /usr/share/man/ja_JP | |Japanese | Japan | EUC-JP | /usr/share/man/ja_JP.EUC-JP | |Japanese | any | UTF-8 | /usr/share/man/ja.UTF-8 | +---------+-------------+---------------------+---------------------------------+ On systems supporting UTF-8, it is recommended that all manual pages be encoded using UTF-8 where possible, in order to simplify the task of editing a variety of pages without reconfiguring editors and terminals and the like. Each of these directories are then interpreted as manual page hierarchies themselves and may contain the usual section subdirectories. Access to NLS manual pages is achieved via use of the [1msetlocale[22m(3) function which queries user environment variables to determine the current locale. Internally to the man-db utilities, this locale string is appended to each manpath element and the resultant NLS manpath element is searched before the standard manpath ele- ment. In this way, an NLS manual page that matches the search criteria will be shown before or in place of the standard American English page. If a user's $[1mMANPATH [22mconsists of or is determined as [4m/usr/local/man:/usr/share/man:/usr/X11R6/man[0m and their locale is set to [1mde_DE[22m, the command _________________________________ |_m_a_n__-_-_s_y_s_t_e_m_s__u_s_e_r_i_x_:_m_a_n__f_o_o_b_a_r_|_ would produce the following internal man-db manpath elements [4m/usr/local/man/userix/de_DE[0m [4m/usr/local/man/userix/de[0m [4m/usr/local/man/userix[0m [4m/usr/share/man/userix/de_DE[0m [4m/usr/share/man/userix/de[0m [4m/usr/share/man/userix[0m [4m/usr/X11R6/man/userix/de_DE[0m [4m/usr/X11R6/man/userix/de[0m [4m/usr/X11R6/man/userix[0m [4m/usr/local/man/de_DE[0m [4m/usr/local/man/de[0m [4m/usr/local/man[0m [1m10[0m [1mman-db v2.6.3 October 30, 2018[0m [4m/usr/share/man/de_DE[0m [4m/usr/share/man/de[0m [4m/usr/share/man[0m [4m/usr/X11R6/man/de_DE[0m [4m/usr/X11R6/man/de[0m [4m/usr/X11R6/man[0m [1mfoobar [22mwould be searched for in the order of manual page hierarchies listed. Additional directories corresponding to manual pages encoded in different character sets would be used if present. [1m3.5.1. ISO 8859-1 (latin1) manual pages[0m By default [1mNROFF [22mwill format manual pages into a form suitable for a type- writer style device, e.g. a terminal screen. [1mGNU NROFF [22mis capable6 of format- ting ROFF into a form suitable for 8-bit latin1 capable output devices. To enable output for such a device, give the option --with-device=DEVICE to [1mconfigure [22mwhere DEVICE is the suitable and supported output format, in this case [1mlatin1[22m. [1m3.5.2. Displaying non-ASCII characters on a Linux virtual terminal[0m To view non-ASCII characters at the Linux console, you must have one of the kbd7 and console-tools packages installed. If your system does not come with suitable configuration already, then please see the documentation in the kbd or console-tools package for details on how to configure the console for your locale. On modern systems, the best choice is likely to be to use the UTF-8 encoding with a font suitable for your language. Make sure that your locale environment variables match the encoding displayed by the console. For dis- play under the "X Window System", a suitable 8-bit-clean terminal emulator is required. [1m3.5.3. Viewing ASCII pages formatted for latin1 output device[0m When formatting an ASCII manual page for a latin1 output device, [1mGNU NROFF[0m will take advantage of the extra characters available and will always produce a text page containing some latin1 (8-bit) symbols. The table8 below, taken from [1mman[22m(1), illustrates the differences. ____________________ 6 see [1mnroff[22m(5) for the output device formats available with your [1mNROFF[0m 7 written and maintained by Andries Brouwer <aeb@cwi.nl>. 8 The ISO 8859-1 and ASCII columns of this table will be identical if this manual was formatted for an ASCII based typewriter display, i.e. using [1mNROFF[0m in its native mode. [1m11[0m [1mman-db v2.6.3 October 30, 2018[0m +--------------------+-------+------------+-------+ |Description | Octal | ISO 8859-1 | ASCII | +--------------------+-------+------------+-------+ |continuation hyphen | 255 | | - | |bullet (middle dot) | 267 | +o | o | |acute accent | 264 | ' | ' | |multiplication sign | 327 | x | x | +--------------------+-------+------------+-------+ To display such symbols on a 7 bit terminal or terminal emulator, they must be translated back into standard ASCII. The [1m-7 [22moption with [1mman [22mwill enable this simple reverse translation. This option may be useful if your site has both 7 and 8-bit capable output devices and nroff is using the latin1 output device to format manual pages. [1m3.6. Cat pages[0m It has become standard practice to store the formatted manual pages on disk so that subsequent requests for the manual page do not have to involve the for- matting process. These pre-formatted manual pages are known as [4mcat[24m pages. Although cat pages require additional disk storage requirements, they provide a substantial speed increase and their use is recommended. The automatic support for storing and using cat pages is brought about by sim- ply creating suitable directories for them. [1m3.7. Cat page hierarchies[0m Traditionally, cat pages were stored under the same manual hierarchy as their source manual pages, in [4mcat<sec>[24m subdirectories rather than [4mman<sec>[24m. This situation is rather limiting in several situations: +o When it is advantageous to mount [4m/usr[24m as a read-only filesystem. Cat pages cannot be supported in this situation without use of symbolic links to var- ious other areas of the filesystem. This situation is a greater problem if the media itself is read-only, such as CD-ROM. +o When NFS mounting alternate OS's manual page hierarchies. The alternate system may be under someone else's control and they may not want cat pages stored on their system. In fact, it is usually a good idea to export the manual page filesystems read-only, or import them that way. It is possible to avoid the problems, this time with even more symbolic links that may need periodic updating. +o If there is a mixture of normal cat files and stray cats9, it is very dif- ficult to periodically [4mtrim[24m the cat space disk usage by removing seldom accessed cat files. ____________________ 9 cat files that have no source manual page, i.e. they cannot be recreated. [1m12[0m [1mman-db v2.6.3 October 30, 2018[0m To avoid all of these problems simultaneously, it was decided to support local cat page directory caches. [1m3.8. Local cat page directory caches[0m Any location for cat page hierarchy may be specified in the man-db configura- tion file. The location of the database cache associated with each manual page hierarchy will always be at the root of the cat page hierarchy. By default, the cat page hierarchy shadows the manual page hierarchy. The [1mFHS[0m proposes [4m/var/cache/man[24m as the location for such directories, although man-db allows any directory hierarchy to be used. The [1mFHS [22mpath transformation rule is as follows: [4m/usr/<hierarchy>/share/man/<locale>/man<sec>/page.<sec><ext>[0m should be formatted into the cat file [4m/var/cache/man/<hierarchy>/<locale>/cat<sec>/page.<sec><ext>[0m where the [4m<locale>[24m directory component may be missing and [4m<ext>[24m may be an empty string. The suggestion is that stray cats are located in the traditional hierarchy under [4m/usr[24m whereas re-creatable cat pages are stored under the local writable hierarchy [4m/var/cache/man.[24m [1mman [22mfollows strict rules in determining which file is displayed. As an example, the following route is taken if all three files exist. (1) Check relative modification time stamps of the manual file and the tra- ditional cat file. If the cat file is up to date (has an equal time stamp), display it. (2) The traditional cat file is out of date. Check relative time stamps of the manual file and the alternate cat file. If the cat file is up to date, display it. (3) The alternate cat file is out of date. Format the manual file and dis- play the result in the foreground, while updating the alternate cat file in the background. When a cat file is created, its time stamp is set to that of the corresponding manual file. Manual files are often stored in [1mtar [22marchives, and time stamps may be preserved when these archives are unpacked. Simply checking whether the cat file is newer would sometimes cause [1mman [22mto display an out-of-date cat file in this case, when it should have reformatted the manual file instead. [1m13[0m [1mman-db v2.6.3 October 30, 2018[0m [1m4. Compression[0m [1m4.1. Compressed manual pages[0m It is possible to maintain a system of compressed manual pages. This imposes a small overhead on the formatting process, but is nevertheless usually rea- sonable in order to avoid unnecessary consumption of disk space. Presently, the compression extension/decompressor pairs must be known at com- pile time although any number may be defined and used. The following struc- ture is predefined in man-db: +----------+--------------+ |Extension | Decompressor | +----------+--------------+ |gz | gzip -dc | |z | gzip -dc | |Z | compress -dc | +----------+--------------+ It is a relatively easy operation to include further pairs in this structure. See [4minclude/comp_src.h[24m for details and an example. Support for compressed manual pages is compiled into the man-db utilities by default. To completely disable this support, edit [4mconfig.h[24m and comment out the following line #define COMP_SRC 1 This will enable a minor speed increase, but note that support for stray cats with any compression extension other than the default will also be disabled. [1m4.2. Compressed cat pages[0m man-db compresses cat files by default. During configuration, [1mconfigure [22mwill try to find [1mgzip [22mand, if found, all cat files produced by [1mman [22mwill be com- pressed with [1mgzip -7c[0m and have a [1m.gz [22mextension appended. If [1mgzip [22mis not found, [1mcompress -c[0m is used as the compressor and the extension [1m.Z [22mis appended. To store cat files in an uncompressed state and to disable compressed exten- sion processing completely, edit [4mconfig.h[24m and comment out the following line #define COMP_CAT 1 [1m14[0m [1mman-db v2.6.3 October 30, 2018[0m [1m4.2.1. Stray cats[0m Normally, [1mman [22mwill only look for cat files with the default compression exten- sion. The default compression extension is dependent on the default compres- sor and may be an empty string if the support for compressed cats is disabled. It is possible for a system to be supplied with stray cat files located in the traditional cat page hierarchy. To make matters worse, they may have compres- sion extensions other than the default and reside on read-only media. In such circumstances, stray cat files will be accepted with any compression extension that is also supported for manual pages. This special treatment of stray cat pages is removed if support for compressed manual pages is turned off or not available. [1m15[0m [1mman-db v2.6.3 October 30, 2018[0m [1m5. Formatting[0m As already pointed out in the introduction, there are two primary formatters common to [1mUNIX[22m: [1mNROFF [22mand [1mTROFF[22m. In the following sections, I will use the term [1mTROFF [22mto describe the typeset- ter formatter and [1mNROFF [22mto describe the typewriter formatter. The term ROFF will be used to describe a generic formatter. [1m5.1. GROFF[0m If using the [1mGROFF [22mpackage, there is a further choice, [1mGROFF [22mitself. Essen- tially, [1mGROFF [22mforms a pipeline of processors including [1mTROFF [22mand an output processor which translates the ditroff produced by [1mTROFF [22minto the appropriate output format. The default output format, or device, for [1mGROFF [22mis PostScript. Anything else must be specified using the device argument. To illustrate [1mGROFF[22m, the command _______________________ |_g_r_o_f_f__-_T_d_v_i__/_d_e_v_/_n_u_l_l_|_ will form the following pipeline troff -Tdvi /dev/null | grodvi If [1mGROFF [22mis tied to [1mman[22m's [1m-T [22moption, it is still possible for [1mman [22mto produce ditroff via use of the [1m-Z [22moption. In [1mGROFF [22m1.09, [1mNROFF [22mis bundled as a shell script that calls [1mGROFF[22m, which in turn calls [1mTROFF [22mwith the default options [1m-Wall -mtty-char -Tascii[22m, passing the result through [1mgrotty [22mbefore it finally reaches the screen. It is imperative that the script does not pass pre-processing options to [1mGROFF[22m's command line as [1mman [22mtakes care of this separately. [1m5.2. Devices[0m Both [1mNROFF [22mand [1mGROFF [22mmay allow output device selection. As mentioned previ- ously, classic [1mNROFF [22mproduces output suitable for a typewriter device, classic [1mTROFF [22mproduces output suitable for a [1mC/A/T [22mand [1mGROFF [22mproduces output suitable for a PostScript interpreting device by default. [1m5.3. Macros[0m There are several ROFF macro sets in existence that are suitable for manual pages. Unfortunately, they tend to be incompatible with each other. During configuration, [1mconfigure [22mwill attempt to determine a suitable macro set for the local system's manual page collection. It attempts to use [1mNROFF [22mwith the following three macro packages: [1m16[0m [1mman-db v2.6.3 October 30, 2018[0m +--------------+--------------------------+---------------+ |macro package | macro filename | nroff command | +--------------+--------------------------+---------------+ |andoc | tmac.andoc or andoc.tmac | nroff -mandoc | |an | tmac.an or an.tmac | nroff -man | |doc | tmac.doc or doc.tmac | nroff -mdoc | +--------------+--------------------------+---------------+ The first that succeeds is used. The [1mandoc [22mmacro set is suitable for manual pages written using either [1man [22mor [1mdoc [22mmacro commands, but not a combination of both. [1m5.4. Pre-format processors (pre-processors)[0m Manual pages may require pre-processing by any of the following +--------+----+------------------+ |Program | ID | Pre-processes | +--------+----+------------------+ |eqn | e | equations | |tbl | t | tables | |grap | g | graphs | |pic | p | pictures | |refer | r | A bibliography | |vgrind | v | program listings | +--------+----+------------------+ It is possible to assign a default pre-processor list that all manual pages will be passed through prior to the primary formatter. By default, this is empty. To define a default list, edit [4minclude/manconfig.h[24m and un-comment the following line /* #define DEFAULT_MANROFFSEQ "t" */ which will enable [1mtbl [22mprocessing by default. To change the list, replace the [1mt [22mwith a suitable string of processor ID's. Pre-process options may be provided at run time in various forms, but in gen- eral the pre-processors required by each manual page is indicated in the first line of the manual page itself. See [1mman[22m(1) for details. If a manual page does not contain a pre-processor string in its first line, it will be scanned for well-known ROFF requests used to pass input to certain pre-processors. Thus, the pre-processor string is often unnecessary for cor- rect output, but should nevertheless be included for efficiency. [1m5.5. Format scripts[0m It is very likely that alternate systems manual pages may require non-standard macro packages or possibly even special pre-processors. To tackle such prob- lems, special format scripts may be created on a per manual hierarchy basis. [1m17[0m [1mman-db v2.6.3 October 30, 2018[0m If the file [4m<manual_hierarchy>/mandb_nfmt[0m exists and is executable, it is expected to be able to correctly format a man- ual page originating from [4m<manual_hierarchy>[24m to its standard output. It will be supplied with either two or three arguments: +o manual page filename +o pre-processor string +o output device (optional) Similarly, if the option [1m-T[4m[22m<device>[24m or [1m-t [22mwas supplied to [1mman [22mand the file [4m<manual_hierarchy>/mandb_tfmt[0m exists and is executable, it will be used in the same way. An example of such a script, supplied by Markus Armbruster <arm- bru@pond.sub.org>, who provided support for external formatter scripts, can be found as [4mtools/mandb_fmt-script[0m The script can be used as both an [1mNROFF [22mand [1mTROFF[22m/[1mGROFF [22mformat script and can be installed as [4mmandb_nfmt[24m and hard linked to [4mmandb_tfmt[24m after modification appropriate for your particular site. [1m18[0m [1mman-db v2.6.3 October 30, 2018[0m [1m6. The index database caches[0m As mentioned in the introduction, man-db uses database lookups to search for manual page locations and information. When performing a manual page lookup or a basic [1mwhatis [22msearch, the databases are searched in [4mkey[24m [4m->[24m [4mcontent[0m mode and are as fast as the underlying databases can be. When performing [1mapropos [22mor special [1mwhatis [22msearches, the databases are searched in a linear way, which, although far more expensive than [4mkeyed[24m lookup, is no worse than traditional text based file searching. [1m6.1. index database location[0m The databases are always located at the root of the cat page hierarchy, whether this is the same as the manual page hierarchy or not. As file locking mechanisms are employed to ensure that concurrent processes do not update a database simultaneously, it is almost imperative that the databases reside on a local filesystem since file locking across NFS filesystems may be unavail- able or flaky. To avoid such problems, [1mman [22mcan be compiled without database maintenance support. See the section titled "Modes of operation" for details. [1m6.1.1. Manual hierarchies with no index database[0m It is possible for the man-db utilities to operate without aid from an index database. Under such circumstances, search methods will use only file glob- bing and whatis type searches are performed on any traditional whatis text databases that may exist. Only the traditional cat hierarchy is searched for cat files. [1m6.1.2. User manual page hierarchies[0m A user may have any number of personal manual page hierarchies listed in their $[1mMANPATH[22m. By default, [1mman [22mwill maintain [1mmandb [22mcreated databases at the root of user manual page hierarchies. The definition of a user manual hierarchy is that it does not have an entry in the man-db configuration file. See [1mman-[0m [1mpath[22m(5) for details. [1m6.2. Contents of an index database[0m There are four kinds of entry in an index database. (1) A direct entry regarding a particular manual page. Manual pages that are unique in terms of name use just a single entry in the database and can be looked up by simply using the name as the key. (2) A common name index entry that lists the extensions of all of the man- ual pages sharing the common index entry name. Manual pages that share common names but have differing extensions each have a single database entry, but this time they are looked up with a key comprised of their name and their extension. The entire set of common named pages also has an common name index entry that informs of the extensions [1m19[0m [1mman-db v2.6.3 October 30, 2018[0m available. (3) An indirect entry that has a pointer to the real entry. Manual pages that are whatis references to a particular page do not physically exist so they have a pointer to the entry containing the location of the real manual page. (4) Special identification entries. There are two special key names, "$mtime$" that references an integer describing the last modification time of the database and "$version$" that identifies the database stor- age scheme version. In order to support looking up manual pages in a case-insensitive fashion, keys are stored in lower case. If the name of the page was not already in lower case, its true case is also stored in the common name index entry. In the following entries, the character "|" will be used to separate the fields. In reality a tab is used. Direct and indirect entries takes the form: [4m<name>[24m [4m->[24m [4m<realname>|<ext>|<sec>|<mtime>|<ID>|<ref>|<fil-[0m [4mter>|<comp>|<whatis>[0m Common name index entries take the form: [4m<name>[24m [4m->[24m [4m|<realname1>|<ext1>|<realname2>|<ext2>|<realname3>|<ext3>|[24m [4m...[0m [4m<realnamen>|<extn>[0m and common name direct or indirect entries take the form: [4m<name>|<ext>[24m [4m->[24m [4m<realname>|<ext>|<sec>|<mtime>|<ID>|<ref>|<fil-[0m [4mter>|<comp>|<whatis>[0m where in each case the filename being represented is formed as [4m<manual_hierarchy>/man<sec>/<name>.<ext>.<comp>[0m in the case of a manual page, or [4m<cat_hierarchy>/cat<sec>/<name>.<ext>.<comp>[0m in the case of a stray cat. If any of the fields would be empty, a single "-" is stored in its place. [4m<comp>[24m represents the compression extension, [4m<mtime>[24m is an integer represent- ing the last modification time of the manual page, [4m<ref>[24m points to the entry containing the location of the real page, [4m<ID>[24m is one of the following identi- fication letters, and [4m<filter>[24m represents any preprocessors that are needed to display the page. [1m20[0m [1mman-db v2.6.3 October 30, 2018[0m +---+------------+--------------------------------------------------------+ |ID | #define | Description | +---+------------+--------------------------------------------------------+ |A | ULT_MAN | ultimate manual page, the full source nroff file | |B | SO_MAN | manual page containing a .so request to an ULT_MAN | |C | WHATIS_MAN | virtual whatis referenced page pointing to an ULT_MAN | |D | STRAY_CAT | cat page with no source manual page | |E | WHATIS_CAT | virtual whatis referenced page pointing to a STRAY_CAT | +---+------------+--------------------------------------------------------+ The [4mID[24m illustrates the precedence. Some types of manual page can be refer- enced by several means, e.g. .so requested and whatis referred. In such a case, only one reference must be stored in the database, the precedence level decides which. [1m6.2.1. Favouring stray cats[0m With the above rules of precedence, it is possible for a valid stray cat page to be replaced by a whatis referred page sharing identical name-space. If you would like to see the stray cat page [1mkill[22m(1) instead of the [1mbash_builtins[22m(1) page referenced by [1mkill[22m(1), edit [4minclude/manconfig.h[24m and un- comment the following line /* #define FAVOUR_STRAYCATS */ [1m6.2.2. Accessdb[0m A simple program, [1maccessdb [22mis included with man-db. It will output the data contained within a man-db database in a human readable form. By default, it will [4mdump[24m the data from [4m/var/cache/man/index.<db-type>[24m, where [4m<db-type>[24m is dependent on the database library in use. Supplying an argument to [1maccessdb [22mwill override this default. Tabs are replaced in the output by a tilde "~" in the [4mkey[24m field and a single space in the [4mcontent[24m field. [1m6.2.3. Example database[0m As an example of both [1maccessdb [22mand the database storage method, the output of ___________________________ |_s_r_c_/_a_c_c_e_s_s_d_b__m_a_n_/_i_n_d_e_x_._b_t_|_ after first running _______________ |_s_r_c_/_m_a_n_d_b__m_a_n_|_ from the top level build directory is included below. $mtime$ -> "795987034" $version$ -> "2.3.1" apropos -> "1 1 795981542 A - - search the manual page names and descriptions" [1m21[0m [1mman-db v2.6.3 October 30, 2018[0m catman -> "8 8 795981544 A - - create or update the pre-formatted manual pages" man -> "1 1 795981542 A - - an interface to the on-line reference manuals" mandb -> "8 8 795981544 A - - create or update the manual page index caches" manpath -> " 1 5" manpath~1 -> "1 1 795981542 A - - determine search path for manual pages" manpath~5 -> "5 5 795981543 A - - format of the /etc/man_db.config file" whatis -> "1 1 795981543 A - - search the manual page names" zsoelim -> "1 1 795981543 A - - satisfy .so requests in roff input" [1m6.3. Database types[0m man-db has support for various low level database libraries commonly in use today. The interfaces to the libraries are known as +o ndbm ([1mUNIX[22m) +o gdbm ([1mGNU[22m) +o btree (Berkeley DB) man-db currently does not hold more than one database open at any time, so +o dbm ([1mUNIX[22m) support could be added in the future. [1m6.4. Limitations[0m The general differences and limitations are best compared in a table. +------+-------------+----------+-----------------+--------------+-----------+ | | | File | Content memory | Concurrent | | |Name | Type | +---------+-------+ | Shareable | | | | name | type | limit | access | | +------+-------------+----------+---------+-------+--------------+-----------+ |ndbm | hash | index10 | static | 1Kb | none | no | |gdbm | hash | index.db | dynamic | - | file locking | no | |btree | binary tree | index.bt | static | - | none | yes | +------+-------------+----------+---------+-------+--------------+-----------+ Those types that have no built in concurrent access strategy are provided with [1mflock[22m(2) based file locking by man-db. Berkeley DB initializes its databases very quickly, so [1mbtree [22mmay have some performance advantages when doing [1mman [22msearches. However, it is quite heavy- weight and its library SONAME and on-disk formats have changed a number of times to provide features considerably beyond what man-db needs, so the pre- ferred library interface is now [1mgdbm[22m. [1mconfigure [22mwill look for [1mgdbm[22m, [1mbtree [22mand then finally [1mndbm [22mroutines when configuring man-db. ____________________ 10 ndbm databases are physically represented by two files, [4mindex.dir[24m and [4mindex.pag[24m, but are referred to simply as [4mindex[24m by the interface routines. [1m22[0m [1mman-db v2.6.3 October 30, 2018[0m [1m6.5. Sharing databases in a heterogeneous environment[0m It may be necessary or advantageous to share databases across platforms, regardless of the potential file locking problems. An example would be a user having a personal manual page hierarchy in an NFS based home directory environment, whereby the home directory is held on and mounted from a single machine in a heterogeneous network. In this context, the database cache will have the same name and reside in the same place on all machines. There are at least two ways to deal with this problem. +o Hack the [4minclude/manconfig.h[24m file on each platform to provide a unique database name for each system. No databases will be shared. +o Install and use the Berkeley DB database interface library on each plat- form. These databases can be shared across big-endian/little-endian plat- forms although a database created on a big-endian platform will suffer a small access penalty when used by a litle-endian machine and vice-versa. [1m23[0m [1mman-db v2.6.3 October 30, 2018[0m [1m7. Miscellaneous[0m [1m7.1. Modes of operation[0m The man-db utilities can operate in many different modes, allowing varying degrees of freedom, functionality and security. No mode requires that the manual page hierarchies be writable. (1) Default mode [1mman [22mis setuid to the user MAN_OWNER which is `man' by default and is changeable via options to [1mconfigure[22m. [1mmandb[22m, if run by the superuser or MAN_OWNER, creates globally accessible index databases owned by MAN_OWNER. Once the databases are created, [1mman [22mwill update entries in them if it finds newly installed manual pages (if the [1m--update [22mflag is used) or delete entries if manual pages are removed. In this mode it is possible for a malicious [1mman [22muser to deliberately lock a database as a writer, thus denying read access to other users. If cat directories exist and have the correct permissions, [1mman [22mwill take care of producing cat files. These will be owned by MAN_OWNER. The default permissions of both cat files and databases are 0644. (2) No man database updates This mode also requires [1mman [22mto be setuid, but is favoured where databases must be shared in an environment unfriendly to kernel locking procedures, eg. NFS. It also prevents possible "denial of service" attacks by mali- cious [1mman [22musers as [1mman [22mnever opens the databases as a writer in this mode. To replace the functionality lost by disallowing [1mman [22mwrite access to the databases, [1mmandb [22mshould be rerun whenever new manual pages are installed. Otherwise, [1mman [22mwill not be able to use the database to find and display the newly added manual pages, and will have to use the filesystem instead. Each index database may be owned by an arbitrary user who will have subsequent write access to the database. Cat files are created in the same way as for mode (1) above. To use the man-db utilities in this mode, give the option `--dis- able-automatic-update' to [1mconfigure[22m. (3) No man database updates or cat production [1mman [22mis installed not setuid. This mode of operation probably offers the highest level of security but it requires higher levels of maintenance than other modes due to the restrictions imposed upon [1mman[22m. Each database is owned by an arbitrary user as in mode (2). Each cat hierarchy is also owned by an arbitrary user who is responsible for creating cat files using [1mcatman [22mwhenever new manual files are installed. [1mman [22mwill be com- pletely passive in its action, i.e. no index databases will be written to and no cat files are ever produced. To use the man-db utilities in this mode, supply the options `--dis- able-setuid --disable-automatic-update --disable-cats' to [1mconfigure[22m, or build man-db as in mode (1) and install the binaries without the setuid bit set. (4) Wide open [1mman [22mis installed not setuid. This mode is similar in operation to the majority of vendor supplied, non setuid, cat file supporting manual pager [1m24[0m [1mman-db v2.6.3 October 30, 2018[0m suites. It is not recommended. The databases are owned by an arbitrary user who maintains them using [1mmandb[22m. [1mman [22mdoes not update the databases. Cat files are produced and stored in world writable cat directories and have world write access themselves. To use the man-db utilities in this mode, supply the options `--dis- able-setuid --disable-automatic-update' to [1mconfigure[22m, edit [4minclude/man-[0m [4mconfig.h[24m and change the definition of CATMODE from 0644 to 0666. Other variations can also be used. In fact it is possible for [1mman [22mto actually create index databases, usually the job of [1mmandb[22m, for users' private manual page hierarchies. This is enabled by giving the option `--enable-auto- matic-create' to [1mconfigure[22m. In summary, [4minclude/manconfig.h[24m contains definitions for +o CATMODE +o DBMODE the setuid installation and operation of [1mman [22mis modified by supplying either of the following options to [1mconfigure[22m: +o --enable-setuid=USER +o --disable-setuid and other aspects of [1mman[22m's behaviour are controlled by the following options to [1mconfigure[22m: +o --enable-automatic-create +o --disable-automatic-update +o --disable-cats [1m7.2. NFS root squash[0m If [1mman [22mis installed setuid to an arbitrary user and is run by root, instead of gaining the effective user id of the setuid user, [1mman [22mis run with both uid and euid as root. This is neccesary due to infelicities with the [1mPOSIX [22msetuid() function call: All users except root may change to and from the effective (setuid) user, however once root has setuid(user), there is no way back. A side effect of this is that [1mNFS [22mmounted cat hierarchies or databases will be unwritable if the following conditions exist: +o man/catman/mandb is run by root +o The NFS mount has the root squash flag set To get around this problem, the root user must first attain the ID of the cat hierarchy or database owner before running [1mman/catman/mandb [22mwhenever the data- bases need updating or cat files are to be produced. [1m7.3. NLS message catalogues[0m man-db has built in support for native language message catalogues. That is, it can issue messages in the locale of the user's choice. This will only [1m25[0m [1mman-db v2.6.3 October 30, 2018[0m occur if the locale's translation has been written. Before undertaking a translation, please contact the Translation Project (http://translationpro- ject.org/) who are coordinating such activities. [1m7.4. Credits[0m The authors would like to thank the following people for their time, effort, support, ideas and code which went into man-db: Markus Armbruster <armbru@pond.sub.org> Lionel Cons & colleages <cons@dxcern.cern.ch> Carl Edman <cedman@princeton.edu> Caleb Epstein <epstein_caleb@jpmorgan.com> Lars Fenneberg <lf@gimli.comlink.de> Zoltan Hidvegi <hzoli@cs.elte.hu> Nils Magnus <magnus@unix-ag.uni-kl.de> Daniel Quinlan <quinlan@yggdrasil.com> Fabrizio Polacco <fpolacco@debian.org> Gordon Sadler <gbsadler1@lcisp.com> Colin Phipps <cph@cph.demon.co.uk> Paul Slootman <paul@wurtel.net> Jose Rodriguez <boriel@airtel.net> Eirik Fuller <eirik@hackrat.com> Matej Vela <vela@debian.org> Clint Adams <schizo@debian.org> Jeremy C. Reed <reed@reedmedia.net> Erik Andersen <andersen@codepoet.org> Giuseppe Sacco <eppesuig@debian.org> David Weinehall <tao@debian.org> Ralph Corderoy <ralph@inputplus.co.uk> Yuri Kozlov <kozlov.y@gmail.com> Henning Makholm <henning@makholm.net> Lars Wirzenius <liw@iki.fi> Nicolas Fran,cois <nicolas.francois@centraliens.net> Ivan Shmakov <oneingray@gmail.com> Peter Breitenlohner <peb@mppmu.mpg.de> Robert Luberda <robert@debian.org> Chusslove Illich <caslav.ilic@gmx.net> and all those translators listed in the [1mman/THANKS [22mfile. [1m26[0m Glossary manual page A file containing descriptions related to the use of a function or pro- gram or the structure of a file. The name of the file is formed from the title of the manual page followed by a period followed by the name of the section that it resides in, optionally followed by an extension. The format of the file is [1mNROFF [22mand may be compressed, having a suitable com- pression extension appended. cat page A formatted manual page suitable for viewing on a vt100-type terminal. stray cat page A cat page that does not have a relative manual page on the system, i.e. only the cat page was supplied or the manual page was removed after the cat page had been created. section Each manual page or cat page hierarchy is divided into sections, each section having its own directory. Manual page hierarchy section names begin with `man' and cat page sections with `cat'. extension A package may provide manual pages with filenames ending in a package- specific extension name. This allows manual pages with the same title to coexist in the same manual page hierarchy and section without sharing the same filename. It also provides a further mechanism for man to select the correct manual page. manual page hierarchy A directory tree divided into manual page sections, each containing a collection of manual pages. cat page hierarchy A directory tree divided into cat page sections, each containing a col- lection of cat pages. traditional cat page hierarchy The same location as the manual page hierarchy. alternate cat page hierarchy A separate location to that of the traditional cat page hierarchy. traditional cat page A cat page located in a traditional cat page hierarchy. alternate cat page A cat page located in an alternate cat page hierarchy. [1mi[0m Contents 1. Introduction ........................................................ 1 1.1 man-db ......................................................... 1 1.1.1 The concept ............................................. 1 1.2 The manual page system ......................................... 2 1.3 Sections of the manual ......................................... 2 1.4 The format of manual pages ..................................... 3 1.5 Arguments to configure ......................................... 3 2. The specifics of Sections ........................................... 5 2.1 Package specific manual page sections .......................... 5 2.2 Selecting a section type ....................................... 5 2.2.1 Specifying a section .................................... 5 2.2.2 Specifying an extension ................................. 6 3. Filesystem structure ................................................ 7 3.1 Manual page hierarchies ........................................ 7 3.2 Setting the MANPATH ............................................ 7 3.3 Determination of the internal manpath .......................... 8 3.4 Other OS's manual pages ........................................ 8 3.5 NLS manual pages ............................................... 9 3.5.1 ISO 8859-1 (latin1) manual pages ........................ 11 3.5.2 Displaying non-ASCII characters on a Linux virtual terminal ....................................................... 11 3.5.3 Viewing ASCII pages formatted for latin1 output device ................................................................ 11 3.6 Cat pages ...................................................... 12 3.7 Cat page hierarchies ........................................... 12 3.8 Local cat page directory caches ................................ 13 4. Compression ......................................................... 14 4.1 Compressed manual pages ........................................ 14 4.2 Compressed cat pages ........................................... 14 4.2.1 Stray cats .............................................. 15 5. Formatting .......................................................... 16 5.1 [1mGROFF [22m.......................................................... 16 5.2 Devices ........................................................ 16 5.3 Macros ......................................................... 16 5.4 Pre-format processors (pre-processors) ......................... 17 5.5 Format scripts ................................................. 17 6. The index database caches ........................................... 19 6.1 index database location ........................................ 19 6.1.1 Manual hierarchies with no index database ............... 19 6.1.2 User manual page hierarchies ............................ 19 6.2 Contents of an index database .................................. 19 6.2.1 Favouring stray cats .................................... 21 6.2.2 Accessdb ................................................ 21 6.2.3 Example database ........................................ 21 6.3 Database types ................................................. 22 [1mi[0m 6.4 Limitations .................................................... 22 6.5 Sharing databases in a heterogeneous environment ............... 23 7. Miscellaneous ....................................................... 24 7.1 Modes of operation ............................................. 24 7.2 NFS root squash ................................................ 25 7.3 NLS message catalogues ......................................... 25 7.4 Credits ........................................................ 26 [1mii[0m