Compressing man and info pages Man and info reader programs can transparently process gzip'ed or bzip2'ed pages, a feature you can use to free some disk space while keeping your documentation available. However, things are not that simple: man directories tend to contain links - hard and symbolic - which defeat simple ideas like recursively calling gzip on them. A better way to go is to use the script below. cat > /usr/bin/compressdoc << "EOF" #!/bin/bash # VERSION: 20031029.0025 # # Compress (with bzip2 or gzip) all man pages in a hierarchy and # update symlinks - By Marc Heerdink <marc @ koelkast.net> # Modified to be able to gzip or bzip2 files as an option and to deal # with all symlinks properly by Mark Hymers <markh @ linuxfromscratch.org> # # Modified 20030930 by Yann E. Morin <yann.morin.1998 @ anciens.enib.fr> # to accept compression/decompression, to correctly handle hard-links, # to allow for changing hard-links into soft- ones, to specify the # compression level, to parse the man.conf for all occurrences of MANPATH, # to allow for a backup, to allow to keep the newest version of a page. # # TODO: # - choose a default compress method to be based on the available # tool : gzip or bzip2; # - offer an option to automagically choose the best compression method # on a per page basis (eg. check which ofgzip/bzip2/whatever is the # most effective, page per page); # - when a MANPATH env var exists, use this instead of /etc/man.conf # (useful for users to (de)compress their man pages; # - offer an option to restore a previous backup; # - add other compression engines (compress, zip, etc?). Needed? # Funny enough, this function prints some help. function help () { if [ -n "$1" ]; then echo "Unknown option : $1" fi ( echo "Usage: $0 <comp_method> [options] [dirs]" && \ cat << EOT Where comp_method is one of : --gzip, --gz, -g --bzip2, --bz2, -b Compress using gzip or bzip2. --decompress, -d Decompress the man pages. --backup Specify a .tar backup shall be done for every directories. In case a backup already exists, it is saved as .tar.old prior to making the new backup. If an .tar.old backup exist, it is removed prior to saving the backup. In backup mode, no other action is performed. And where options are : -1 to -9, --fast, --best The compression level, as accepted by gzip and bzip2. When not specified, uses the default compression level for the given method (-6 for gzip, and -9 for bzip2). Not used when in backup or decompress modes. --force, -F Force (re-)compression, even if the previous one was the same method. Useful when changing the compression ratio. By default, a page will not be re-compressed if it ends with the same suffix as the method adds (.bz2 for bzip2, .gz for gzip). --soft, -S Change hard-links into soft-links. Use with _caution_ as the first encountered file will be used as a reference. Not used when in backup mode. --hard, -H Change soft-links into hard-links. Not used when in backup mode. --conf=dir, --conf dir Specify the location of man.conf. Defaults to /etc. --verbose, -v Verbose mode, print the name of the directory being processed. Double the flag to turn it even more verbose, and to print the name of the file being processed. --fake, -f Fakes it. Print the actual parameters compman will use. dirs A list of space-separated _absolute_ pathname to the man directories. When empty, and only then, parse ${MAN_CONF}/man.conf for all occurrences of MANPATH. Note about compression There has been a discussion on blfs-support about compression ratios of both gzip and bzip2 on man pages, taking into account the hosting fs, the architecture, etc... On the overall, the conclusion was that gzip was much efficient on 'small' files, and bzip2 on 'big' files, small and big being very dependent on the content of the files. See the original post from Mickael A. Peters, titled "Bootable Utility CD", and dated 20030409.1816(+0200), and subsequent posts: http://linuxfromscratch.org/pipermail/blfs-support/2003-April/038817.html On my system (x86, ext3), man pages were 35564kiB before compression. gzip -9 compressed them down to 20372kiB (57.28%), bzip2 -9 got down to 19812kiB (55.71%). That is a 1.57% gain in space. YMMV. What was not taken into consideration was the decompression speed. But does it make sense to? You gain fast access with uncompressed man pages, or you gain space at the expense of a slight overhead in time. Well, my P4-2.5GHz does not even let me notice this... :-) EOT ) | less } # This function checks that the man page is unique amongst bzip2'd, gzip'd and # uncompressed versions. # $1 the directory in which the file resides # $2 the file name for the man page # Returns 0 (true) if the file is the latest and must be taken care of, and 1 # (false) if the file is not the latest (and has therefore been deleted). function check_unique () { # NB. When there are hard-links to this file, these are # _not_ deleted. In fact, if there are hard-links, they # all have the same date/time, thus making them ready # for deletion later on. # Build the list of all man pages with the same name DIR=$1 BASENAME=`basename "${2}" .bz2` BASENAME=`basename "${BASENAME}" .gz` GZ_FILE="$BASENAME".bz2 BZ_FILE="$BASENAME".bz2 # Look for, and keep, the most recent one LATEST=`(cd "$DIR"; ls -1rt "${BASENAME}" "${GZ_FILE}" "${BZ_FILE}" 2>/dev/null | tail -1)` for i in "${BASENAME}" "${GZ_FILE}" "${BZ_FILE}"; do [ "$LATEST" != "$i" ] && rm -f "$DIR"/"$i" done # In case the specified file was the latest, return 0 [ "$LATEST" = "$2" ] && return 0 # If the file was not the latest, return 1 return 1 } # OK, parse the command-line for arguments, and initialize to some sensible # state, that is : don't change links state, parse /etc/man.conf, be most # silent, search man.conf in /etc, and don't force (re-)compression. COMP_METHOD= COMP_SUF= COMP_LVL= FORCE_OPT= LN_OPT= MAN_DIR= VERBOSE_LVL=0 BACKUP=no FAKE=no MAN_CONF=/etc while [ -n "$1" ]; do case $1 in --gzip|--gz|-g) COMP_SUF=.gz COMP_METHOD=$1 shift ;; --bzip2|--bz2|-b) COMP_SUF=.bz2 COMP_METHOD=$1 shift ;; --decompress|-d) COMP_SUF= COMP_LVL= COMP_METHOD=$1 shift ;; -[1-9]|--fast|--best) COMP_LVL=$1 shift ;; --force|-F) FORCE_OPT=-F shift ;; --soft|-S) LN_OPT=-S shift ;; --hard|-H) LN_OPT=-H shift ;; --conf=*) MAN_CONF=`echo $1 | cut -d '=' -f2-` shift ;; --conf) MAN_CONF="$2" shift 2 ;; --verbose|-v) let VERBOSE_LVL++ shift ;; --backup) BACKUP=yes shift ;; --fake|-f) FAKE=yes shift ;; --help|-h) help exit 0 ;; /*) MAN_DIR="${MAN_DIR} ${1}" shift ;; -*) help $1 exit 1 ;; *) echo "\"$1\" is not an absolute path name" exit 1 ;; esac done # Redirections case $VERBOSE_LVL in 0) # O, be silent DEST_FD0=/dev/null DEST_FD1=/dev/null VERBOSE_OPT= ;; 1) # 1, be a bit verbose DEST_FD0=/dev/stdout DEST_FD1=/dev/null VERBOSE_OPT=-v ;; *) # 2 and above, be most verbose DEST_FD0=/dev/stdout DEST_FD1=/dev/stdout VERBOSE_OPT="-v -v" ;; esac # Note: on my machine, 'man --path' gives /usr/share/man twice, once with a trailing '/', once without. if [ -z "$MAN_DIR" ]; then MAN_DIR=`man --path -C "$MAN_CONF"/man.conf \ | sed 's/:/\\n/g' \ | while read foo; do dirname "$foo"/.; done \ | sort -u \ | while read bar; do echo -n "$bar "; done` fi # If no MANPATH in ${MAN_CONF}/man.conf, abort as well if [ -z "$MAN_DIR" ]; then echo "No directory specified, and no directory found with \`man --path'" exit 1 fi # Fake? if [ "$FAKE" != "no" ]; then echo "Actual parameters used:" echo -n "Compression.......: " case $COMP_METHOD in --bzip2|--bz2|-b) echo -n "bzip2";; --gzip|__gz|-g) echo -n "gzip";; --decompress|-d) echo -n "decompressing";; *) echo -n "unknown";; esac echo " ($COMP_METHOD)" echo "Compression level.: $COMP_LVL" echo "Compression suffix: $COMP_SUF" echo -n "Force compression.: " [ "foo$FORCE_OPT" = "foo-F" ] && echo "yes" || echo "no" echo "man.conf is.......: ${MAN_CONF}/man.conf" echo -n "Hard-links........: " [ "foo$LN_OPT" = "foo-S" ] && echo "convert to soft-links" || echo "leave as is" echo -n "Soft-links........: " [ "foo$LN_OPT" = "foo-H" ] && echo "convert to hard-links" || echo "leave as is" echo "Backup............: $BACKUP" echo "Faking (yes!).....: $FAKE" echo "Directories.......: $MAN_DIR" echo "Verbosity level...: $VERBOSE_LVL" exit 0 fi # If no method was specified, print help if [ -z "${COMP_METHOD}" -a "${BACKUP}" = "no" ]; then help exit 1 fi # In backup mode, do the backup solely if [ "$BACKUP" = "yes" ]; then for DIR in $MAN_DIR; do cd "${DIR}/.." DIR_NAME=`basename "${DIR}"` echo "Backing up $DIR..." > $DEST_FD0 [ -f "${DIR_NAME}.tar.old" ] && rm -f "${DIR_NAME}.tar.old" [ -f "${DIR_NAME}.tar" ] && mv "${DIR_NAME}.tar" "${DIR_NAME}.tar.old" tar cfv "${DIR_NAME}.tar" "${DIR_NAME}" > $DEST_FD1 done exit 0 fi # I know MAN_DIR has only absolute path names # I need to take into account the localized man, so I'm going recursive for DIR in $MAN_DIR; do MEM_DIR=`pwd` cd "$DIR" for FILE in *; do # Fixes the case were the directory is empty if [ "foo$FILE" = "foo*" ]; then continue; fi # Fixes the case when hard-links see their compression scheme change # (from not compressed to compressed, or from bz2 to gz, or from gz to bz2) # Also fixes the case when multiple version of the page are present, which # are either compressed or not. if [ ! -L "$FILE" -a ! -e "$FILE" ]; then continue; fi # Do not compress whatis files if [ "$FILE" = "whatis" ]; then continue; fi if [ -d "$FILE" ]; then cd "${MEM_DIR}" # Go back to where we ran "$0", in case "$0"=="./compressdoc" ... # We are going recursive to that directory echo "-> Entering ${DIR}/${FILE}..." > $DEST_FD0 # I need not pass --conf, as I specify the directory to work on # But I need exit in case of error "$0" ${COMP_METHOD} ${COMP_LVL} ${LN_OPT} ${VERBOSE_OPT} ${FORCE_OPT} "${DIR}/${FILE}" || exit 1 echo "<- Leaving ${DIR}/${FILE}." > $DEST_FD1 cd "$DIR" # Needed for the next iteration of the loop else # !dir if ! check_unique "$DIR" "$FILE"; then continue; fi # Check if the file is already compressed with the specified method BASE_FILE=`basename "$FILE" .gz` BASE_FILE=`basename "$FILE" .bz2` if [ "${FILE}" = "${BASE_FILE}${COMP_SUF}" -a "foo${FORCE_OPT}" = "foo" ]; then continue; fi # If we have a symlink if [ -h "$FILE" ]; then case "$FILE" in *.bz2) EXT=bz2 ;; *.gz) EXT=gz ;; *) EXT=none ;; esac if [ ! "$EXT" = "none" ]; then LINK=`ls -l "$FILE" | cut -d ">" -f2 | tr -d " " | sed s/\.$EXT$//` NEWNAME=`echo "$FILE" | sed s/\.$EXT$//` mv "$FILE" "$NEWNAME" FILE="$NEWNAME" else LINK=`ls -l "$FILE" | cut -d ">" -f2 | tr -d " "` fi if [ "$LN_OPT" = "-H" ]; then # Change this soft-link into a hard- one rm -f "$FILE" && ln "${LINK}$COMP_SUF" "${FILE}$COMP_SUF" chmod --reference "${LINK}$COMP_SUF" "${FILE}$COMP_SUF" else # Keep this soft-link a soft- one. rm -f "$FILE" && ln -s "${LINK}$COMP_SUF" "${FILE}$COMP_SUF" fi echo "Relinked $FILE" > $DEST_FD1 # else if we have a plain file elif [ -f "$FILE" ]; then # Take care of hard-links: build the list of files hard-linked # to the one we are {de,}compressing. # NB. This is not optimum has the file will eventually be compressed # as many times it has hard-links. But for now, that's the safe way. inode=`ls -li "$FILE" | awk '{print $1}'` HLINKS=`find . \! -name "$FILE" -inum $inode` if [ -n "$HLINKS" ]; then # We have hard-links! Remove them now. for i in $HLINKS; do rm -f "$i"; done fi # Now take care of the file that has no hard-link # We do decompress first to re-compress with the selected # compression ratio later on... case "$FILE" in *.bz2) bunzip2 $FILE FILE=`basename "$FILE" .bz2` ;; *.gz) gunzip $FILE FILE=`basename "$FILE" .gz` ;; esac # Compress the file with the given compression ratio, if needed case $COMP_SUF in *bz2) bzip2 ${COMP_LVL} "$FILE" && chmod 644 "${FILE}${COMP_SUF}" echo "Compressed $FILE" > $DEST_FD1 ;; *gz) gzip ${COMP_LVL} "$FILE" && chmod 644 "${FILE}${COMP_SUF}" echo "Compressed $FILE" > $DEST_FD1 ;; *) echo "Uncompressed $FILE" > $DEST_FD1 ;; esac # If the file had hard-links, recreate those (either hard or soft) if [ -n "$HLINKS" ]; then for i in $HLINKS; do NEWFILE=`echo "$i" | sed s/\.gz$// | sed s/\.bz2$//` if [ "$LN_OPT" = "-S" ]; then # Make this hard-link a soft- one ln -s "${FILE}$COMP_SUF" "${NEWFILE}$COMP_SUF" else # Keep the hard-link a hard- one ln "${FILE}$COMP_SUF" "${NEWFILE}$COMP_SUF" fi chmod 644 "${NEWFILE}$COMP_SUF" # Really work only for hard-links. Harmless for soft-links done fi else # There is a problem when we get neither a symlink nor a plain file # Obviously, we shall never ever come here... :-( echo "Whaooo... \"${DIR}/${FILE}\" is neither a symlink nor a plain file. Please check:" ls -l "${DIR}/${FILE}" exit 1 fi fi done # for FILE done # for DIR EOF chmod 755 /usr/bin/compressdoc Now, as root, you can issue a /usr/bin/compressdoc --bz2 to compress all your system man pages. You can also run /usr/bin/compressdoc --help to get a comprehensive help about what the script is able to do. Don't forget that a few programs, like the X Window system, XEmacs, also install their documentation in non standard places (such as /usr/X11R6/man, etc...). Don't forget to add those locations in the file /etc/man.conf, as a MANPATH=/path section. Example: ... MANPATH=/usr/share/man MANPATH=/usr/local/man MANPATH=/usr/X11R6/man MANPATH=/opt/qt/doc/man ... Generally, package installation systems do not compress man/info pages, which means you will need to run the script again if you want to keep the size of your documentation as small as possible. Also, note that running the script after upgrading a package is safe: when you have several versions of a page (for example, one compressed and one uncompressed), the most recent one is kept and the others deleted.