#!/bin/sh - # # $OpenBSD: security,v 1.8 1996/09/15 20:29:41 deraadt Exp $ # PATH=/sbin:/usr/sbin:/bin:/usr/bin umask 077 DIR=/tmp/_secure$$ ERR=$DIR/_secure1 TMP1=$DIR/_secure2 TMP2=$DIR/_secure3 TMP3=$DIR/_secure4 LIST=$DIR/_secure5 OUTPUT=$DIR/_secure6 if ! mkdir $DIR ; then printf "tmp directory %s already exists, looks like:\n" $DIR ls -alF $DIR exit 1 fi trap 'rm -rf $DIR' 0 # Check the master password file syntax. MP=/etc/master.passwd awk -F: '{ if ($0 ~ /^[ ]*$/) { printf("Line %d is a blank line.\n", NR); next; } if (NF != 10) printf("Line %d has the wrong number of fields.\n", NR); if ($1 ~ /^[+-].*$/) next; if ($1 == "") printf("Line %d has an empty login field.\n",NR); else if ($1 !~ /^[A-Za-z0-9][A-Za-z0-9_-]*$/) printf("Login %s has non-alphanumeric characters.\n", $1); if (length($1) > 8) printf("Login %s has more than 8 characters.\n", $1); if ($2 == "") printf("Login %s has no password.\n", $1); if (length($2) != 13 && ($10 ~ /.*sh$/ || $10 == "")) printf("Login %s is off but still has a valid shell.\n", $1); if ($3 == 0 && $1 != "root" && $1 != "toor") printf("Login %s has a user id of 0.\n", $1); if ($3 < 0) printf("Login %s has a negative user id.\n", $1); if ($4 < 0) printf("Login %s has a negative group id.\n", $1); }' < $MP > $OUTPUT if [ -s $OUTPUT ] ; then printf "\nChecking the $MP file:\n" cat $OUTPUT fi awk -F: '{ print $1 }' $MP | sort | uniq -d > $OUTPUT if [ -s $OUTPUT ] ; then printf "\n$MP has duplicate user names.\n" column $OUTPUT fi awk -F: '$1 != "toor" { print $1 " " $3 }' $MP | sort -n +1 | tee $TMP1 | uniq -d -f 1 | awk '{ print $2 }' > $TMP2 if [ -s $TMP2 ] ; then printf "\n$MP has duplicate user id's.\n" while read uid; do grep -w $uid $TMP1 done < $TMP2 | column fi # Backup the master password file; a special case, the normal backup # mechanisms also print out file differences and we don't want to do # that because this file has encrypted passwords in it. if [ ! -d /var/backups ] ; then mkdir /var/backups chmod 755 /var/backups fi CUR=/var/backups/`basename $MP`.current BACK=/var/backups/`basename $MP`.backup if [ -s $CUR ] ; then if cmp -s $CUR $MP; then : else cp -p $CUR $BACK cp -p $MP $CUR chown root.wheel $CUR fi else cp -p $MP $CUR chown root.wheel $CUR fi # Check the group file syntax. GRP=/etc/group awk -F: '{ if ($0 ~ /^[ ]*$/) { printf("Line %d is a blank line.\n", NR); next; } if ($1 ~ /^[+-].*$/) next; if (NF != 4) printf("Line %d has the wrong number of fields.\n", NR); if ($1 !~ /^[A-za-z0-9]*$/) printf("Group %s has non-alphanumeric characters.\n", $1); if (length($1) > 8) printf("Group %s has more than 8 characters.\n", $1); if ($3 !~ /[0-9]*/) printf("Login %s has a negative group id.\n", $1); }' < $GRP > $OUTPUT if [ -s $OUTPUT ] ; then printf "\nChecking the $GRP file:\n" cat $OUTPUT fi awk -F: '{ print $1 }' $GRP | sort | uniq -d > $OUTPUT if [ -s $OUTPUT ] ; then printf "\n$GRP has duplicate group names.\n" column $OUTPUT fi # Check for root paths, umask values in startup files. # The check for the root paths is problematical -- it's likely to fail # in other environments. Once the shells have been modified to warn # of '.' in the path, the path tests should go away. > $OUTPUT rhome=/root umaskset=no list="/etc/csh.cshrc /etc/csh.login ${rhome}/.cshrc ${rhome}/.login" for i in $list ; do if [ -f $i ] ; then if egrep umask $i > /dev/null ; then umaskset=yes fi egrep umask $i | awk '$2 % 100 < 20 \ { print "Root umask is group writeable" } $2 % 10 < 2 \ { print "Root umask is other writeable" }' >> $OUTPUT /bin/csh -f -s << end-of-csh > /dev/null 2>&1 unset path source $i /bin/ls -ldgT \$path > $TMP1 end-of-csh awk '{ if ($10 ~ /^\.$/) { print "The root path includes ."; next; } } $1 ~ /^d....w/ \ { print "Root path directory " $10 " is group writeable." } \ $1 ~ /^d.......w/ \ { print "Root path directory " $10 " is other writeable." }' \ < $TMP1 >> $OUTPUT fi done if [ $umaskset = "no" -o -s $OUTPUT ] ; then printf "\nChecking root csh paths, umask values:\n$list\n" if [ -s $OUTPUT ]; then cat $OUTPUT fi if [ $umaskset = "no" ] ; then printf "\nRoot csh startup files do not set the umask.\n" fi fi > $OUTPUT rhome=/root umaskset=no list="${rhome}/.profile" for i in $list; do if [ -f $i ] ; then if egrep umask $i > /dev/null ; then umaskset=yes fi egrep umask $i | awk '$2 % 100 < 20 \ { print "Root umask is group writeable" } \ $2 % 10 < 2 \ { print "Root umask is other writeable" }' >> $OUTPUT /bin/sh << end-of-sh > /dev/null 2>&1 PATH= . $i list=\`echo \$PATH | /usr/bin/sed -e 's/:/ /g'\` /bin/ls -ldgT \$list > $TMP1 end-of-sh awk '{ if ($10 ~ /^\.$/) { print "The root path includes ."; next; } } $1 ~ /^d....w/ \ { print "Root path directory " $10 " is group writeable." } \ $1 ~ /^d.......w/ \ { print "Root path directory " $10 " is other writeable." }' \ < $TMP1 >> $OUTPUT fi done if [ $umaskset = "no" -o -s $OUTPUT ] ; then printf "\nChecking root sh paths, umask values:\n$list\n" if [ -s $OUTPUT ]; then cat $OUTPUT fi if [ $umaskset = "no" ] ; then printf "\nRoot sh startup files do not set the umask.\n" fi fi # Root and uucp should both be in /etc/ftpusers. if egrep root /etc/ftpusers > /dev/null ; then : else printf "\nRoot not listed in /etc/ftpusers file.\n" fi if egrep uucp /etc/ftpusers > /dev/null ; then : else printf "\nUucp not listed in /etc/ftpusers file.\n" fi # Uudecode should not be in the /etc/aliases file. if egrep 'uudecode|decode' /etc/aliases; then printf "\nThere is an entry for uudecode in the /etc/aliases file.\n" fi # Files that should not have + signs. list="/etc/hosts.equiv /etc/shosts.equiv /etc/hosts.lpd" for f in $list ; do if [ -s $f ] ; then awk '{ if ($0 ~ /^\+@.*$/ ) next; if ($0 ~ /^\+.*$/ ) printf("\nPlus sign in %s file.\n", FILENAME); }' $f fi done # Check for special users with .rhosts/.shosts files. Only root and # toor should have .rhosts/.shosts files. Also, .rhosts/.shosts files # should not have plus signs. awk -F: '$1 != "root" && $1 != "toor" && $1 !~ /^[+-].*$/ && \ ($3 < 100 || $1 == "ftp" || $1 == "uucp") \ { print $1 " " $6 }' /etc/passwd | while read uid homedir; do for j in .rhosts .shosts; do if [ -f ${homedir}/$j ] ; then rhost=`ls -ldgT ${homedir}/$j` printf "$uid: $rhost\n" fi done done > $OUTPUT if [ -s $OUTPUT ] ; then printf "\nChecking for special users with .rhosts/.shosts files.\n" cat $OUTPUT fi awk -F: '{ print $1 " " $6 }' /etc/passwd | \ while read uid homedir; do for j in .rhosts .shosts; do if [ -f ${homedir}/$j ] ; then awk '{ if ($0 ~ /^+@.*$/ ) next; if ($0 ~ /^\+[ ]*$/ ) printf("%s has + sign in it.\n", FILENAME); }' ${homedir}/$j fi done done > $OUTPUT if [ -s $OUTPUT ] ; then printf "\nChecking .rhosts/.shosts files syntax.\n" cat $OUTPUT fi # Check home directories. Directories should not be owned by someone else # or writeable. awk -F: '{ if ( $1 !~ /^[+-].*$/ ) print $1 " " $6 }' /etc/passwd | \ while read uid homedir; do if [ -d ${homedir}/ ] ; then file=`ls -ldgT ${homedir}` printf "$uid $file\n" fi done | awk '$1 != $4 && $4 != "root" \ { print "user " $1 " home directory is owned by " $4 } $2 ~ /^-....w/ \ { print "user " $1 " home directory is group writeable" } $2 ~ /^-.......w/ \ { print "user " $1 " home directory is other writeable" }' > $OUTPUT if [ -s $OUTPUT ] ; then printf "\nChecking home directories.\n" cat $OUTPUT fi # Files that should not be owned by someone else or readable. list=".netrc .rhosts .shosts" awk -F: '{ print $1 " " $6 }' /etc/passwd | \ while read uid homedir; do for f in $list ; do file=${homedir}/${f} if [ -f $file ] ; then printf "$uid $f `ls -ldgT $file`\n" fi done done | awk '$1 != $5 && $5 != "root" \ { print "user " $1 " " $2 " file is owned by " $5 } $3 ~ /^-......r/ \ { print "user " $1 " " $2 " file is other readable" } $3 ~ /^-....w/ \ { print "user " $1 " " $2 " file is group writeable" } $3 ~ /^-.......w/ \ { print "user " $1 " " $2 " file is other writeable" }' > $OUTPUT # Files that should not be owned by someone else or writeable. list=".bashrc .cshrc .emacs .exrc .forward .klogin .login .logout \ .profile .tcshrc" awk -F: '{ print $1 " " $6 }' /etc/passwd | \ while read uid homedir; do for f in $list ; do file=${homedir}/${f} if [ -f $file ] ; then printf "$uid $f `ls -ldgT $file`\n" fi done done | awk '$1 != $5 && $5 != "root" \ { print "user " $1 " " $2 " file is owned by " $5 } $3 ~ /^-....w/ \ { print "user " $1 " " $2 " file is group writeable" } $3 ~ /^-.......w/ \ { print "user " $1 " " $2 " file is other writeable" }' >> $OUTPUT if [ -s $OUTPUT ] ; then printf "\nChecking dot files.\n" cat $OUTPUT fi # Mailboxes should be owned by user and unreadable. ls -l /var/mail | sed 1d | \ awk '$3 != $9 \ { print "user " $9 " mailbox is owned by " $3 } $1 != "-rw-------" \ { print "user " $9 " mailbox is " $1 ", group " $4 }' > $OUTPUT if [ -s $OUTPUT ] ; then printf "\nChecking mailbox ownership.\n" cat $OUTPUT fi if [ -f /etc/exports ]; then # File systems should not be globally exported. awk '{ readonly = 0; for (i = 2; i <= NF; ++i) { if ($i ~ /-ro/) readonly = 1; else if ($i !~ /^-/) next; } if (readonly) print "File system " $1 " globally exported, read-only." else print "File system " $1 " globally exported, read-write." }' < /etc/exports > $OUTPUT if [ -s $OUTPUT ] ; then printf "\nChecking for globally exported file systems.\n" cat $OUTPUT fi fi # Display any changes in setuid/setgid files and devices. pending="\nChecking setuid/setgid files and devices:\n" (find / \( ! -fstype local -o -fstype fdesc -o -fstype kernfs \ -o -fstype procfs \) -a -prune -o \ -type f -a \( -perm -u+s -o -perm -g+s \) -print -o \ ! -type d -a ! -type f -a ! -type l -a ! -type s -print | \ sort | sed -e 's/^/ls -ldgT /' | sh > $LIST) 2> $OUTPUT # Display any errors that occurred during system file walk. if [ -s $OUTPUT ] ; then printf "${pending}Setuid/device find errors:\n" pending= cat $OUTPUT printf "\n" fi # Display any changes in the setuid file list. egrep -v '^[bc]' $LIST > $TMP1 if [ -s $TMP1 ] ; then # Check to make sure uudecode isn't setuid. if grep -w uudecode $TMP1 > /dev/null ; then printf "${pending}\nUudecode is setuid.\n" pending= fi CUR=/var/backups/setuid.current BACK=/var/backups/setuid.backup if [ -s $CUR ] ; then if cmp -s $CUR $TMP1 ; then : else > $TMP2 join -110 -210 -v2 $CUR $TMP1 > $OUTPUT if [ -s $OUTPUT ] ; then printf "${pending}Setuid additions:\n" pending= tee -a $TMP2 < $OUTPUT printf "\n" fi join -110 -210 -v1 $CUR $TMP1 > $OUTPUT if [ -s $OUTPUT ] ; then printf "${pending}Setuid deletions:\n" pending= tee -a $TMP2 < $OUTPUT printf "\n" fi sort +9 $TMP2 $CUR $TMP1 | \ sed -e 's/[ ][ ]*/ /g' | uniq -u > $OUTPUT if [ -s $OUTPUT ] ; then printf "${pending}Setuid changes:\n" pending= column -t $OUTPUT printf "\n" fi cp $CUR $BACK cp $TMP1 $CUR fi else printf "${pending}Setuid additions:\n" pending= column -t $TMP1 printf "\n" cp $TMP1 $CUR fi fi # Check for block and character disk devices that are readable or writeable # or not owned by root.operator. >$TMP1 DISKLIST="dk fd hd hk hp jb kra ra rb rd rl rx xd rz sd up wd vnd ccd" for i in $DISKLIST; do egrep "^b.*/${i}[0-9][0-9]*[a-h]$" $LIST >> $TMP1 egrep "^c.*/r${i}[0-9][0-9]*[a-h]$" $LIST >> $TMP1 done awk '$3 != "root" || $4 != "operator" || $1 !~ /.rw-r-----/ \ { printf("Disk %s is user %s, group %s, permissions %s.\n", \ $11, $3, $4, $1); }' < $TMP1 > $OUTPUT if [ -s $OUTPUT ] ; then printf "\nChecking disk ownership and permissions.\n" cat $OUTPUT printf "\n" fi # Display any changes in the device file list. egrep '^[bc]' $LIST | sort +10 > $TMP1 if [ -s $TMP1 ] ; then CUR=/var/backups/device.current BACK=/var/backups/device.backup if [ -s $CUR ] ; then if cmp -s $CUR $TMP1 ; then : else > $TMP2 join -111 -211 -v2 $CUR $TMP1 > $OUTPUT if [ -s $OUTPUT ] ; then printf "Device additions:\n" tee -a $TMP2 < $OUTPUT printf "\n" fi join -111 -211 -v1 $CUR $TMP1 > $OUTPUT if [ -s $OUTPUT ] ; then printf "Device deletions:\n" tee -a $TMP2 < $OUTPUT printf "\n" fi # Report any block device change. Ignore character # devices, only the name is significant. cat $TMP2 $CUR $TMP1 | \ sed -e '/^c/d' | \ sort +10 | \ sed -e 's/[ ][ ]*/ /g' | \ uniq -u > $OUTPUT if [ -s $OUTPUT ] ; then printf "Block device changes:\n" column -t $OUTPUT printf "\n" fi cp $CUR $BACK cp $TMP1 $CUR fi else printf "Device additions:\n" column -t $TMP1 printf "\n" cp $TMP1 $CUR fi fi # Check special files. # Check system binaries. # # Create the mtree tree specifications using: # # mtree -cx -pDIR -kcksum,gid,mode,nlink,size,link,time,uid > DIR.secure # chown root.wheel DIR.secure # chmod 600 DIR.secure # # Note, this is not complete protection against Trojan horsed binaries, as # the hacker can modify the tree specification to match the replaced binary. # For details on really protecting yourself against modified binaries, see # the mtree(8) manual page. if [ -d /etc/mtree ]; then cd /etc/mtree mtree -e -p / -f /etc/mtree/special > $OUTPUT if [ -s $OUTPUT ] ; then printf "\nChecking special files and directories.\n" cat $OUTPUT fi > $OUTPUT for file in *.secure; do [ $file = '*.secure' ] && continue tree=`sed -n -e '3s/.* //p' -e 3q $file` mtree -f $file -p $tree > $TMP1 if [ -s $TMP1 ]; then printf "\nChecking $tree:\n" >> $OUTPUT cat $TMP1 >> $OUTPUT fi done if [ -s $OUTPUT ] ; then printf "\nChecking system binaries:\n" cat $OUTPUT fi else echo /etc/mtree is missing fi # List of files that get backed up and checked for any modifications. Each # file is expected to have two backups, /var/backups/file.{current,backup}. # Any changes cause the files to rotate. if [ -s /etc/changelist ] ; then for file in `cat /etc/changelist`; do CUR=/var/backups/`basename $file`.current BACK=/var/backups/`basename $file`.backup if [ -s $file ]; then if [ -s $CUR ] ; then diff $CUR $file > $OUTPUT if [ -s $OUTPUT ] ; then printf "\n======\n%s diffs (OLD < > NEW)\n======\n" $file cat $OUTPUT cp -p $CUR $BACK cp -p $file $CUR chown root.wheel $CUR $BACK fi else cp -p $file $CUR chown root.wheel $CUR fi fi done fi