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//proc/self/root/etc/rc5.d/S03vmware-tools
#!/bin/sh # # Copyright (c) 1998-2019 VMware, Inc. All rights reserved. # # This script manages the services needed to run VMware software # Basic support for IRIX style chkconfig # chkconfig: 2345 03 99 # description: Manages the services needed to run VMware software # BEGINNING_OF_UTIL_DOT_SH #!/bin/sh # # Copyright (c) 2005-2019 VMware, Inc. All rights reserved. # # A few utility functions used by our shell scripts. Some expect the settings # database to already be loaded and evaluated. vmblockmntpt="/proc/fs/vmblock/mountPoint" vmblockfusemntpt="/var/run/vmblock-fuse" have_vgauth=yes have_caf=yes vmware_warn_failure() { if [ "`type -t 'echo_warning' 2>/dev/null`" = 'function' ]; then echo_warning else echo -n "$rc_failed" fi } vmware_failed() { if [ "`type -t 'echo_failure' 2>/dev/null`" = 'function' ]; then echo_failure else echo -n "$rc_failed" fi } vmware_success() { if [ "`type -t 'echo_success' 2>/dev/null`" = 'function' ]; then echo_success else echo -n "$rc_done" fi } # Execute a macro vmware_exec() { local msg="$1" # IN local func="$2" # IN shift 2 echo -n ' '"$msg" # On Caldera 2.2, SIGHUP is sent to all our children when this script exits # I wanted to use shopt -u huponexit instead but their bash version # 1.14.7(1) is too old # # Ksh does not recognize the SIG prefix in front of a signal name if [ "$VMWARE_DEBUG" = 'yes' ]; then (trap '' HUP; "$func" "$@") else (trap '' HUP; "$func" "$@") >/dev/null 2>&1 fi if [ "$?" -gt 0 ]; then vmware_failed echo return 1 fi vmware_success echo return 0 } # Execute a macro in the background vmware_bg_exec() { local msg="$1" # IN local func="$2" # IN shift 2 if [ "$VMWARE_DEBUG" = 'yes' ]; then # Force synchronism when debugging vmware_exec "$msg" "$func" "$@" else echo -n ' '"$msg"' (background)' # On Caldera 2.2, SIGHUP is sent to all our children when this script exits # I wanted to use shopt -u huponexit instead but their bash version # 1.14.7(1) is too old # # Ksh does not recognize the SIG prefix in front of a signal name (trap '' HUP; "$func" "$@") 2>&1 | logger -t 'VMware[init]' -p daemon.err & vmware_success echo return 0 fi } # This is a function in case a future product name contains language-specific # escape characters. vmware_product_name() { echo 'VMware Tools' exit 0 } # This is a function in case a future product contains language-specific # escape characters. vmware_product() { echo 'tools-for-linux' exit 0 } is_dsp() { # This is the current way of indicating it is part of a # distribution-specific install. Currently only applies to Tools. [ -e "$vmdb_answer_LIBDIR"/dsp ] } # They are a lot of small utility programs to create temporary files in a # secure way, but none of them is standard. So I wrote this make_tmp_dir() { local dirname="$1" # OUT local prefix="$2" # IN local tmp local serial local loop tmp="${TMPDIR:-/tmp}" # Don't overwrite existing user data # -> Create a directory with a name that didn't exist before # # This may never succeed (if we are racing with a malicious process), but at # least it is secure serial=0 loop='yes' while [ "$loop" = 'yes' ]; do # Check the validity of the temporary directory. We do this in the loop # because it can change over time if [ ! -d "$tmp" ]; then echo 'Error: "'"$tmp"'" is not a directory.' echo exit 1 fi if [ ! -w "$tmp" -o ! -x "$tmp" ]; then echo 'Error: "'"$tmp"'" should be writable and executable.' echo exit 1 fi # Be secure # -> Don't give write access to other users (so that they can not use this # directory to launch a symlink attack) if mkdir -m 0755 "$tmp"'/'"$prefix$serial" >/dev/null 2>&1; then loop='no' else serial=`expr $serial + 1` serial_mod=`expr $serial % 200` if [ "$serial_mod" = '0' ]; then echo 'Warning: The "'"$tmp"'" directory may be under attack.' echo fi fi done eval "$dirname"'="$tmp"'"'"'/'"'"'"$prefix$serial"' } # Removes "stale" device node # On udev-based systems, this is never needed. # On older systems, after an unclean shutdown, we might end up with # a stale device node while the kernel driver has a new major/minor. vmware_rm_stale_node() { local node="$1" # IN if [ -e "/dev/$node" -a "$node" != "" ]; then local node_major=`ls -l "/dev/$node" | awk '{print \$5}' | sed -e s/,//` local node_minor=`ls -l "/dev/$node" | awk '{print \$6}'` if [ "$node_major" = "10" ]; then local real_minor=`cat /proc/misc | grep "$node" | awk '{print \$1}'` if [ "$node_minor" != "$real_minor" ]; then rm -f "/dev/$node" fi else local node_name=`echo $node | sed -e s/[0-9]*$//` local real_major=`cat /proc/devices | grep "$node_name" | awk '{print \$1}'` if [ "$node_major" != "$real_major" ]; then rm -f "/dev/$node" fi fi fi } # Checks if the given pid represents a live process. If an optional command # name is provided as argument #2, check that process PID is running that # command. Returns 0 if the pid is a live process and the optional command # name matches, 1 otherwise. vmware_is_process_alive() { local pid="$1" # IN if [ $# -gt 1 ]; then # Matching complete command name which must be immediately followed # by a space or NL. Older greps will not handle all POSIX regular # expressions such as "[ /]vmtoolsd\( \|$\)". { ps -f -p $pid | grep $pid | grep "[/ ]${2}$" > /dev/null 2>&1; } || \ { ps -f -p $pid | grep $pid | grep "[/ ]${2} " > /dev/null 2>&1; } else ps -p $pid | grep $pid > /dev/null 2>&1 fi } # Check if the process associated with a pidfile is running and, if the # optionally specified command is present, that the process is running # that command. Returns 0 if the process matches the specified criteria, # 1 otherwise. vmware_check_pidfile() { local pidfile="$1" # IN local cmd= # OPT command name local pid [ $# -gt 1 ] && cmd="$2" pid=`cat "$pidfile" 2>/dev/null` if [ "$pid" = '' ]; then # The file probably does not exist or is empty. Failure return 1 fi # Keep only the first number we find, because some Samba pid files are # really trashy: they end with NUL characters # There is no double quote around $pid on purpose set -- $pid pid="$1" vmware_is_process_alive $pid $cmd } # Note: # . Each daemon must be started from its own directory to avoid busy devices # . Each PID file doesn't need to be added to the installer database, because # it is going to be automatically removed when it becomes stale (after a # reboot). It must go directly under /var/run, or some distributions # (RedHat 6.0) won't clean it # # Terminate a process synchronously vmware_synchrone_kill() { local pid="$1" # IN local signal="$2" # IN local cmd= # OPT command name local second [ $# -gt 2 ] && cmd="$3" vmware_is_process_alive $pid $cmd if [ "$?" -ne 0 ]; then # The service is not running, the following 'kill' command could # kill another process if the PID has been reused. return 0 fi kill -"$signal" "$pid" # Wait a bit to see if the dirty job has really been done for second in 0 1 2 3 4 5 6 7 8 9 10; do vmware_is_process_alive "$pid" $cmd if [ "$?" -ne 0 ]; then # Success return 0 fi sleep 1 done # Timeout return 1 } # Kill the process associated with a pidfile provided that it is also # running the expected command if one is specified. vmware_stop_pidfile() { local pidfile="$1" # IN local cmd= # OPT command name local pid [ $# -gt 1 ] && cmd="$2" if [ ! -r "$pidfile" ]; then # Missing file. Success return 0 fi pid=`cat "$pidfile" 2>/dev/null` if [ "$pid" = '' ]; then # Empty file. Success return 0 fi # Keep only the first number we find, because some Samba pid files are # really trashy: they end with NUL characters # There is no double quote around $pid on purpose set -- $pid pid="$1" # First try a nice SIGTERM if vmware_synchrone_kill "$pid" 15 $cmd; then return 0 fi # Then send a strong SIGKILL if vmware_synchrone_kill "$pid" 9 $cmd; then return 0 fi return 1 } # Determine if SELinux is enabled isSELinuxEnabled() { if [ "`getenforce 2> /dev/null`" = "Enforcing" ]; then echo "yes" else echo "no" fi } # Runs a command normally if the SELinux is not enforced. # Runs a command under the provided SELinux context if the context is passed. # Runs a command under the parent SELinux context first, then retry under # the unconfined context if no context is passed. vmware_exec_selinux() { local command="$1" local context="$2" if [ "`isSELinuxEnabled`" = 'no' ]; then # ignore the context parameter $command return $? fi # selinux is enforcing... if [ -z "$context" ]; then # context paramter is missing, try use the parent context $command retval=$? if [ $retval -eq 0 ]; then return $retval fi # use the unconfined context context="unconfined_t" fi runcon -t $context -- $command return $? } # Start the blocking file system. This consists of loading the module and # mounting the file system. vmware_start_vmblock() { mkdir -p -m 1777 /tmp/VMwareDnD # Try FUSE first, fall back on in-kernel module. vmware_start_vmblock_fuse && return 0 vmware_exec 'Loading module' vmware_load_module $vmblock exitcode=`expr $exitcode + $?` # Check to see if the file system is already mounted. if grep -q " $vmblockmntpt vmblock " /etc/mtab; then # If it is mounted, do nothing true; else # If it's not mounted, mount it vmware_exec_selinux "mount -t vmblock none $vmblockmntpt" fi } # Stop the blocking file system vmware_stop_vmblock() { # Check if the file system is mounted and only unmount if so. # Start with FUSE-based version first, then legacy one. # # Vmblock-fuse dev path could be /var/run/vmblock-fuse, # or /run/vmblock-fuse. Bug 758526. if grep -q "/run/vmblock-fuse fuse\.vmware-vmblock " /etc/mtab; then # if it's mounted, then unmount it vmware_exec_selinux "umount $vmblockfusemntpt" fi if grep -q " $vmblockmntpt vmblock " /etc/mtab; then # if it's mounted, then unmount it vmware_exec_selinux "umount $vmblockmntpt" fi # Unload the kernel module vmware_unload_module $vmblock } # This is necessary to allow udev time to create a device node. If we don't # wait then udev will override the permissions we choose when it creates the # device node after us. vmware_delay_for_node() { local node="$1" local delay="$2" while [ ! -e $node -a ${delay} -gt 0 ]; do delay=`expr $delay - 1` sleep 1 done } vmware_real_modname() { # modprobe might be old and not understand the --resolve-alias option, or # there might not be an alias. In both cases we assume # that the module is not upstreamed. mod=$1 mod_alias=$2 modname=$(/sbin/modprobe --resolve-alias ${mod_alias} 2>/dev/null) if [ $? = 0 -a "$modname" != "" ] ; then echo $modname else echo $mod fi } vmware_is_upstream() { modname=$1 vmware_exec_selinux "$vmdb_answer_LIBDIR/sbin/vmware-modconfig-console \ --install-status" | grep -q "${modname}: other" if [ $? = 0 ]; then echo "yes" else echo 'no' fi } # starts after vmci is loaded vmware_start_vsock() { real_vmci=$(vmware_real_modname $vmci $vmci_alias) if [ "`isLoaded "$real_vmci"`" = 'no' ]; then # vsock depends on vmci return 1 fi real_vsock=$(vmware_real_modname $vsock $vsock_alias) vmware_load_module $real_vsock vmware_rm_stale_node vsock # Give udev 5 seconds to create our node vmware_delay_for_node "/dev/vsock" 5 if [ ! -e /dev/vsock ]; then local minor=`cat /proc/misc | grep vsock | awk '{print $1}'` mknod --mode=666 /dev/vsock c 10 "$minor" else chmod 666 /dev/vsock fi return 0 } # unloads before vmci vmware_stop_vsock() { # Nothing to do if module is upstream if [ "`vmware_is_upstream $vsock`" = 'yes' ]; then return 0 fi real_vsock=$(vmware_real_modname $vsock $vsock_alias) vmware_unload_module $real_vsock rm -f /dev/vsock } is_ESX_running() { if [ ! -f "$vmdb_answer_LIBDIR"/sbin/vmware-checkvm ] ; then echo no return fi if "$vmdb_answer_LIBDIR"/sbin/vmware-checkvm -p | grep -q ESX; then echo yes else echo no fi } # # Start vmblock only if ESX is not running and the config script # built/loaded it (kernel is >= 2.4.0 and product is tools-for-linux). # Also don't start when in open-vm compat mode # is_vmblock_needed() { if [ "`is_ESX_running`" = 'yes' -o "$vmdb_answer_OPEN_VM_COMPAT" = 'yes' ]; then echo no else if [ "$vmdb_answer_VMBLOCK_CONFED" = 'yes' -o \ "$vmdb_answer_VMBLOCK_CONFED_FUSE" = 'yes' ]; then echo yes else echo no fi fi } VMUSR_PATTERN="(vmtoolsd.*vmusr|vmware-user)" vmware_signal_vmware_user() { # Signal all running instances of the user daemon. # Our pattern ensures that we won't touch the system daemon. pkill -$1 -f "$VMUSR_PATTERN" return 0 } # A USR1 causes vmware-user to release any references to vmblock or # /proc/fs/vmblock/mountPoint, allowing vmblock to unload, but vmware-user # to continue running. This preserves the user context vmware-user is # running within. We also shutdown rpc connections to release usage of # vmci/vsocket. This is not necessary if operating in OPEN_VM_COMPAT mode. vmware_user_request_release_resources() { if [ "$vmdb_answer_OPEN_VM_COMPAT" != "yes" ]; then vmware_signal_vmware_user 'USR1' fi } # A USR2 causes vmware-user to relaunch itself, picking up vmblock anew. # This preserves the user context vmware-user is running within. # This is not necessary if operating in OPEN_VM_COMPAT mode. vmware_restart_vmware_user() { if [ "$vmdb_answer_OPEN_VM_COMPAT" != "yes" ]; then vmware_signal_vmware_user 'USR2' fi } # Checks if there an instance of vmware-user process exists in the system. is_vmware_user_running() { if pgrep -f "$VMUSR_PATTERN" > /dev/null 2>&1; then echo yes else echo no fi } wrap () { AMSG="$1" while [ `echo $AMSG | wc -c` -gt 75 ] ; do AMSG1=`echo $AMSG | sed -e 's/\(.\{1,75\} \).*/\1/' -e 's/ [ ]*/ /'` AMSG=`echo $AMSG | sed -e 's/.\{1,75\} //' -e 's/ [ ]*/ /'` echo " $AMSG1" done echo " $AMSG" echo " " } #--------------------------------------------------------------------------- # # load_settings # # Load VMware Installer Service settings # # Returns: # 0 on success, otherwise 1. # # Side Effects: # vmdb_* variables are set. #--------------------------------------------------------------------------- load_settings() { local settings=`$DATABASE/vmis-settings` if [ $? -eq 0 ]; then eval "$settings" return 0 else return 1 fi } #--------------------------------------------------------------------------- # # launch_binary # # Launch a binary with resolved dependencies. # # Returns: # None. # # Side Effects: # Process is replaced with the binary if successful, # otherwise returns 1. #--------------------------------------------------------------------------- launch_binary() { local component="$1" # IN: component name shift local binary="$2" # IN: binary name shift local args="$@" # IN: arguments shift # Convert -'s in component name to _ and lookup its libdir local component=`echo $component | tr '-' '_'` local libdir="vmdb_$component_libdir" exec "$libdir"'/bin/launcher.sh' \ "$libdir"'/lib' \ "$libdir"'/bin/'"$binary" \ "$libdir"'/libconf' "$args" return 1 } # END_OF_UTIL_DOT_SH vmware_etc_dir=/etc/vmware-tools # Since this script is installed, our main database should be installed too and # should contain the basic information vmware_db="$vmware_etc_dir"/locations if [ ! -r "$vmware_db" ]; then echo 'Warning: Unable to find '"`vmware_product_name`""'"'s main database '"$vmware_db"'.' echo exit 1 fi # BEGINNING_OF_DB_DOT_SH #!/bin/sh # # Manage an installer database # # Add an answer to a database in memory db_answer_add() { local dbvar="$1" # IN/OUT local id="$2" # IN local value="$3" # IN local answers local i eval "$dbvar"'_answer_'"$id"'="$value"' eval 'answers="$'"$dbvar"'_answers"' # There is no double quote around $answers on purpose for i in $answers; do if [ "$i" = "$id" ]; then return fi done answers="$answers"' '"$id" eval "$dbvar"'_answers="$answers"' } # Remove an answer from a database in memory db_answer_remove() { local dbvar="$1" # IN/OUT local id="$2" # IN local new_answers local answers local i eval 'unset '"$dbvar"'_answer_'"$id" new_answers='' eval 'answers="$'"$dbvar"'_answers"' # There is no double quote around $answers on purpose for i in $answers; do if [ "$i" != "$id" ]; then new_answers="$new_answers"' '"$i" fi done eval "$dbvar"'_answers="$new_answers"' } # Load all answers from a database on stdin to memory (<dbvar>_answer_* # variables) db_load_from_stdin() { local dbvar="$1" # OUT eval "$dbvar"'_answers=""' # read doesn't support -r on FreeBSD 3.x. For this reason, the following line # is patched to remove the -r in case of FreeBSD tools build. So don't make # changes to it. while read -r action p1 p2; do if [ "$action" = 'answer' ]; then db_answer_add "$dbvar" "$p1" "$p2" elif [ "$action" = 'remove_answer' ]; then db_answer_remove "$dbvar" "$p1" fi done } # Load all answers from a database on disk to memory (<dbvar>_answer_* # variables) db_load() { local dbvar="$1" # OUT local dbfile="$2" # IN db_load_from_stdin "$dbvar" < "$dbfile" } # Iterate through all answers in a database in memory, calling <func> with # id/value pairs and the remaining arguments to this function db_iterate() { local dbvar="$1" # IN local func="$2" # IN shift 2 local answers local i local value eval 'answers="$'"$dbvar"'_answers"' # There is no double quote around $answers on purpose for i in $answers; do eval 'value="$'"$dbvar"'_answer_'"$i"'"' "$func" "$i" "$value" "$@" done } # If it exists in memory, remove an answer from a database (disk and memory) db_remove_answer() { local dbvar="$1" # IN/OUT local dbfile="$2" # IN local id="$3" # IN local answers local i eval 'answers="$'"$dbvar"'_answers"' # There is no double quote around $answers on purpose for i in $answers; do if [ "$i" = "$id" ]; then echo 'remove_answer '"$id" >> "$dbfile" db_answer_remove "$dbvar" "$id" return fi done } # Add an answer to a database (disk and memory) db_add_answer() { local dbvar="$1" # IN/OUT local dbfile="$2" # IN local id="$3" # IN local value="$4" # IN db_remove_answer "$dbvar" "$dbfile" "$id" echo 'answer '"$id"' '"$value" >> "$dbfile" db_answer_add "$dbvar" "$id" "$value" } # Add a file to a database on disk # 'file' is the file to put in the database (it may not exist on the disk) # 'tsfile' is the file to get the timestamp from, '' if no timestamp db_add_file() { local dbfile="$1" # IN local file="$2" # IN local tsfile="$3" # IN local date if [ "$tsfile" = '' ]; then echo 'file '"$file" >> "$dbfile" else # We cannot guarantee existence of GNU coreutils date on all platforms # (e.g. Solaris). Ignore timestamps in that case. date=`date -r "$tsfile" '+%s' 2> /dev/null` || true if [ "$date" != '' ]; then date=' '"$date" fi echo 'file '"$file$date" >> "$dbfile" fi } # Remove file from database db_remove_file() { local dbfile="$1" # IN local file="$2" # IN echo "remove_file $file" >> "$dbfile" } # Add a directory to a database on disk db_add_dir() { local dbfile="$1" # IN local dir="$2" # IN echo 'directory '"$dir" >> "$dbfile" } # END_OF_DB_DOT_SH db_load 'vmdb' "$vmware_db" # This comment is a hack to prevent RedHat distributions from outputing # "Starting <basename of this script>" when running this startup script. # We just need to write the word daemon followed by a space --hpreg. # This defines echo_success() and echo_failure() on RedHat if [ -r "$vmdb_answer_INITSCRIPTSDIR"'/functions' ]; then . "$vmdb_answer_INITSCRIPTSDIR"'/functions' fi # This defines $rc_done and $rc_failed on S.u.S.E. if [ -f /etc/rc.config ]; then # Don't include the entire file: there could be conflicts rc_done=`(. /etc/rc.config; echo "$rc_done")` rc_failed=`(. /etc/rc.config; echo "$rc_failed")` else # Make sure the ESC byte is literal: Ash does not support echo -e rc_done='[71G done' rc_failed='[71Gfailed' fi # # Global variables # vmmemctl="vmmemctl" vmxnet="vmxnet" vmxnet3="vmxnet3" vmhgfs="vmhgfs" subsys="vmware-tools" vmblock="vmblock" vmci="vmci" vmci_alias='pci:v000015ADd00000740sv*sd*bc*sc*i*' vsock="vsock" vsock_alias="vmware_vsock" vmsync="vmsync" acpi="acpiphp" pvscsi="pvscsi" vmhgfs_mnt="/mnt/hgfs" VGAUTHSVC="VGAuthService" # # Utilities # # BEGINNING_OF_IPV4_DOT_SH #!/bin/sh # # IPv4 address functions # # Thanks to Owen DeLong <owen@delong.com> for pointing me at bash's arithmetic # expansion ability, which is a lot faster than using 'expr' # # Compute the subnet address associated to a couple IP/netmask ipv4_subnet() { local ip="$1" local netmask="$2" # Split quad-dotted addresses into bytes # There is no double quote around the back-quoted expression on purpose # There is no double quote around $ip and $netmask on purpose set -- `IFS='.'; echo $ip $netmask` echo $(($1 & $5)).$(($2 & $6)).$(($3 & $7)).$(($4 & $8)) } # Compute the broadcast address associated to a couple IP/netmask ipv4_broadcast() { local ip="$1" local netmask="$2" # Split quad-dotted addresses into bytes # There is no double quote around the back-quoted expression on purpose # There is no double quote around $ip and $netmask on purpose set -- `IFS='.'; echo $ip $netmask` echo $(($1 | (255 - $5))).$(($2 | (255 - $6))).$(($3 | (255 - $7))).$(($4 | (255 - $8))) } # END_OF_IPV4_DOT_SH upperCase() { echo "`echo $1|tr '[:lower:]' '[:upper:]'`" } kernAsKey() { uname -r | tr -d '+-.' } vmware_getModName() { local module=`upperCase $1` local var='vmdb_answer_'"${module}_`kernAsKey`"'_NAME' # Indirect references in sh. Oh sh, how I love thee... eval result=\$$var if [ "$result" != '' ]; then echo "$result" else echo "$1" fi } vmware_getModPath() { local module=`upperCase $1` local var='vmdb_answer_'"${module}_`kernAsKey`"'_PATH' eval result=\$$var if [ "$result" != '' ]; then echo "$result" else echo "$1" fi } if [ -e "$vmdb_answer_SBINDIR"/vmtoolsd ]; then SYSTEM_DAEMON=vmtoolsd else SYSTEM_DAEMON=vmware-guestd fi # Are we running in a VM? vmware_inVM() { "$vmdb_answer_LIBDIR"/sbin/vmware-checkvm >/dev/null 2>&1 } vmware_hwVersion() { "$vmdb_answer_LIBDIR"/sbin/vmware-checkvm -h | grep hw | cut -d ' ' -f 5 } # Is a given module loaded? isLoaded() { # Check for both the original module name and the newer module name local module="$1" local module_name="`vmware_getModName $1`" /sbin/lsmod | awk 'BEGIN {n = "no";} {if ($1 == "'"$module"'") n = "yes";} {if ($1 == "'"$module_name"'") n = "yes";} END {print n;}' } # Build a Linux kernel integer version kernel_version_integer() { echo $(((($1 * 256) + $2) * 256 + $3)) } # Get the running kernel integer version get_version_integer() { local IFS local v1 local v2 local v3 # Split uname -r output, trimming version annotations. # 3.2.0-53-generic -> 3 2 0 # 3.10-1 -> 3 10 0 # # POSIX shell uses '!' for negation during bracket expansion. # See http://pubs.opengroup.org/onlinepubs/9699919799/utilities/V3_chap02.html. IFS=. set -- `uname -r` v1=${1%%[!0-9]*}; [ -z "$v1" ] && v1=0 v2=${2%%[!0-9]*}; [ -z "$v2" ] && v2=0 v3=${3%%[!0-9]*}; [ -z "$v3" ] && v3=0 kernel_version_integer "$v1" "$v2" "$v3" } # # We exit on failure because these functions are called within the # context of vmware_exec, which sets up a trap that causes exit to jump # back to vmware_exec, like an exception handler. On success, we return # because our caller may want to perform additional instructions. # # XXX: This really belongs in util.sh but that requires reconciling # the hosted scripts as well. It would also allow it to be easily # overriden by the DSP init script. vmware_load_module() { local moduleName=`vmware_getModName $1` vmware_unload_module $1 vmware_insmod $1 return 0 } vmware_insmod() { local module_path="`vmware_getModPath $1`" local module_name="`vmware_getModName $1`" /sbin/modprobe $module_name >/dev/null 2>&1 || \ /sbin/insmod -s -f "$module_path" >/dev/null 2>&1 || \ /sbin/insmod -s -f "$module_name" >/dev/null 2>&1 || exit 1 return 0 } vmware_unload_module() { local module="$1" local module_name="`vmware_getModName $1`" if [ "`isLoaded "$1"`" = 'yes' ]; then /sbin/modprobe -r $module_name >/dev/null 2>&1 || \ /sbin/rmmod "$module" >/dev/null 2>&1 || \ /sbin/rmmod "$module_name" >/dev/null 2>&1 || exit 1 fi return 0 } # # Note: # . Each daemon must be started from its own directory to avoid busy devices # . Each PID file doesn't need to be added to the installer database, because # it is going to be automatically removed when it becomes stale (after a # reboot). It must go directly under /var/run, or some distributions # (RedHat 6.0) won't clean it. # The first parameter is the daemon binary. # The second parameter is the optional SELinux context to run under. vmware_start_daemon() { [ ! -d $vmdb_answer_SBINDIR ] && return 1 command="$vmdb_answer_SBINDIR/$1 --background /var/run/$1.pid" vmware_exec_selinux "$command" "$2" } vmware_stop_daemon() { local pidfile="/var/run/$1.pid" if vmware_stop_pidfile $pidfile $1; then rm -f $pidfile fi } vmware_start_vgauth() { [ -d /var/run/vmware ] || mkdir -p /var/run/vmware vgauthdir=$(dirname $vmdb_answer_LIBDIR)/vmware-vgauth command="$vgauthdir/$VGAUTHSVC -b" vmware_exec_selinux "$command" } vmware_stop_vgauth() { local pidfile="/var/run/vmware/vgauthsvclog_pid.txt" vmware_stop_pidfile $pidfile $VGAUTHSVC && rm -f $pidfile } vmware_start_caf() { cafscriptdir=/etc/vmware-caf/pme/scripts # TODO: Re-enable the listener once it's been configured. #${cafscriptdir}/start-listener ${cafscriptdir}/start-ma } vmware_stop_caf() { cafscriptdir=/etc/vmware-caf/pme/scripts ${cafscriptdir}/stop-ma ${cafscriptdir}/stop-listener } vmware_vgauth_enabled() { echo "$vmdb_answer_ENABLE_VGAUTH" } vmware_caf_enabled() { echo "$vmdb_answer_ENABLE_CAF" } vmware_daemon_status() { echo -n "$1 " if vmware_check_pidfile "/var/run/$1.pid" $1; then echo 'is running' else echo 'is not running' exitcode=$(($exitcode + 1)) fi } # Start the virtual ethernet kernel service vmware_start_vmxnet() { # only load vmxnet if it's not already loaded if [ "`isLoaded "$vmxnet"`" = 'no' ]; then vmware_load_module $vmxnet fi } vmware_start_vmxnet3() { # only load vmxnet3 if it's not already loaded if [ "`isLoaded "$vmxnet3"`" = 'no' ]; then vmware_load_module $vmxnet3 fi } vmware_switch() { "$vmdb_answer_BINDIR"/vmware-config-tools.pl --switch return 0 } # Start the guest virtual memory manager vmware_start_vmmemctl() { vmware_load_module $vmmemctl } # Stop the guest virtual memory manager vmware_stop_vmmemctl() { vmware_unload_module $vmmemctl } # Start the guest vmci driver vmware_start_vmci() { real_vmci=$(vmware_real_modname $vmci $vmci_alias) # only load vmci if it's not already loaded if [ "`isLoaded "$real_vmci"`" = 'no' ]; then vmware_load_module $real_vmci fi # Give udev 5 seconds to create our node vmware_delay_for_node "/dev/vmci" 5 if [ ! -e /dev/vmci ]; then # VMCI used to be registered with /proc/devices, but is now # registered with /proc/misc. Check both for the major device # node so we can create /dev/vmci. local major=`cat /proc/misc /proc/devices |grep vmci | awk '{print $1}'` # If there was no major number available, exit with an error if [ -z "$major" ]; then exit 1 fi # Otherwise create the device node mknod --mode=600 /dev/vmci c $major 0 else chmod 600 /dev/vmci fi } # unmount it vmware_stop_vmci() { real_vsock=$(vmware_real_modname $vsock $vsock_alias) if [ "`isLoaded "$real_vsock"`" = 'yes' ]; then vmware_stop_vsock fi # Nothing to do if module is upstream if [ "`vmware_is_upstream $vmci`" = 'yes' ]; then return 0 fi real_vmci=$(vmware_real_modname $vmci $vmci_alias) vmware_unload_module $real_vmci rm -f /dev/vmci } # hgfs filesystem to use fuse check # returns 0 (enabled) as the system meets the supported criteria vmware_vmhgfs_can_use_fuse() { "$vmdb_answer_BINDIR"/vmhgfs-fuse -e >/dev/null 2>&1 } vmware_vmhgfs_use_fuse() { if vmware_vmhgfs_can_use_fuse; then echo "yes" else echo "no" fi } # Identify whether there's a mount mounted on the default hgfs mountpoint is_vmhgfs_mounted() { # if [ `grep -q " $vmhgfs_mnt vmhgfs " /etc/mtab` ]; # Using this method instead as it is more robust. The above # line has the possibility of ALWAYS returning a failure. if [ "`vmware_vmhgfs_use_fuse`" = "yes" ]; then if grep -q "$vmhgfs_mnt fuse\.vmhgfs-fuse " /etc/mtab; then echo "yes" return fi else if grep -q " $vmhgfs_mnt vmhgfs " /etc/mtab; then echo "yes" return fi fi echo "no" } # Mount all hgfs filesystems vmware_mount_vmhgfs() { if [ "`is_vmhgfs_mounted`" = "no" ]; then if [ "`vmware_vmhgfs_use_fuse`" = "yes" ]; then mkdir -p $vmhgfs_mnt vmware_exec_selinux "$vmdb_answer_BINDIR/vmhgfs-fuse \ -o subtype=vmhgfs-fuse,allow_other $vmhgfs_mnt" else vmware_exec_selinux "mount -t vmhgfs .host:/ $vmhgfs_mnt" fi fi } # Start the fuse filesystem driver vmware_start_vmhgfs_fuse() { # Are we configured to run the fuse client if ! grep -q "fuse" /proc/filesystems; then # Try to load fuse module if it is not there yet. modprobe fuse > /dev/null 2>&1 || return 1 fi } # Start the guest filesystem driver and mount it vmware_start_vmhgfs() { # Try FUSE first, fall back on in-kernel module. # Are we configured to run the fuse client if [ "`vmware_vmhgfs_use_fuse`" = "yes" ]; then vmware_start_vmhgfs_fuse else # only load vmhgfs if it's not already loaded if [ "`isLoaded "$vmhgfs"`" = 'no' ]; then vmware_load_module $vmhgfs fi fi } # Unmount all hgfs filesystems left mounted vmware_unmount_vmhgfs() { if [ "`is_vmhgfs_mounted`" = "yes" ]; then vmware_exec_selinux "umount $vmhgfs_mnt" fi } # Stop the guest filesystem driver vmware_stop_vmhgfs() { if [ "`vmware_vmhgfs_use_fuse`" = "no" ]; then vmware_unload_module $vmhgfs fi } vmware_thinprint_get_tty() { "$vmdb_answer_SBINDIR"/$SYSTEM_DAEMON --cmd 'info-get guestinfo.vprint.thinprintBackend' | \ sed -e s/serial/ttyS/ } # Load the vmsync driver vmware_start_vmsync() { vmware_load_module $vmsync } # Unload the vmsync driver vmware_stop_vmsync() { vmware_unload_module $vmsync } vmware_start_acpi_hotplug() { if [ `isLoaded $acpi` = 'yes' ]; then # acpiphp is already loaded. Success. return 0 fi # Don't allow pciehp and acpiphp to overlap. Also don't unload # pciehp in order to then load acpiphp as this won't avoid acpiphp # crashing while trying to register a device node pciehp already has. # All this only before 2.6.17 - since 2.6.17 pciehp and acpiphp can # coexist. if [ `isLoaded pciehp` = 'yes' ]; then local ok_kver=`kernel_version_integer '2' '6' '17'` local run_kver=`get_version_integer` if [ $run_kver -lt $ok_kver ]; then return 1 fi fi modprobe $acpi return 0 } vmware_stop_acpi_hotplug() { vmware_unload_module $acpi } # Don't use vmware_load_module() because it first # tries to unload the module which we don't want here. vmware_start_pvscsi() { if ! /sbin/modinfo $pvscsi ; then # Apparently pvscsi does not exist on this system, so punt. return 0 fi if [ `isLoaded $pvscsi` != 'yes' ]; then vmware_insmod $pvscsi fi } vmware_stop_pvscsi() { vmware_unload_module $pvscsi } is_vmtoolsd_needed() { if [ "$vmdb_answer_OPEN_VM_COMPAT" = 'yes' ] ; then echo no else echo yes fi } is_vmhgfs_confed() { if [ "$vmdb_answer_VMHGFS_CONFED" = 'yes' -o \ "$vmdb_answer_VMHGFS_CONFED_FUSE" = 'yes' ]; then echo yes else echo no fi } is_vmhgfs_needed() { local min_kver=`kernel_version_integer '2' '4' '0'` local run_kver=`get_version_integer` if [ $min_kver -le $run_kver -a "`is_vmhgfs_confed`" = 'yes' ]; then echo yes else echo no fi } is_vmmemctl_needed() { if [ "$vmdb_answer_VMMEMCTL_CONFED" = 'yes' ]; then echo yes else echo no fi } is_pvscsi_needed() { if [ "$vmdb_answer_PVSCSI_CONFED" = 'yes' ]; then echo yes else echo no fi } is_acpi_hotplug_needed() { # Must have DVHP in ACPI tables. There are now two places we need to check for it. dev='' for path in /proc/acpi/dsdt /sys/firmware/acpi/tables/DSDT; do if [ -e $path ]; then dev="$path" fi done # If neither of those paths exist, return no if [ -z "$dev" ]; then echo no return fi # Otherwise search for DVHP if grep -q DVHP $dev; then # Look for bridge, PCI-PCI is 0790, PCIe is 07a0. cat /proc/bus/pci/devices | grep -qi "^[0-9a-f]* 15ad07[9a]0 " if [ "$?" -eq 0 ]; then echo yes return fi fi echo no } is_vmxnet_needed() { # First try vmxnet's vendor/device ID's cat /proc/bus/pci/devices | grep -qi "^[0-9a-f]* 15ad0720 " if [ "$?" -eq 0 -a "$vmdb_answer_VMXNET_CONFED" = 'yes' ]; then echo yes else # Now try pcnet32's vendor/device ID's...see bug 79352 # We only accept pcnet32 if the HW version of the VM is ws50 or later local hwver=`vmware_hwVersion` cat /proc/bus/pci/devices | grep -qi "^[0-9a-f]* 10222000 " if [ "$?" -eq 0 -a "$vmdb_answer_VMXNET_CONFED" = 'yes' -a \ $hwver -ge 4 ]; then echo yes else echo no fi fi } is_vmxnet3_needed() { cat /proc/bus/pci/devices | grep -qi "^[0-9a-f]* 15ad07b0 " if [ "$?" -eq 0 -a "$vmdb_answer_VMXNET3_CONFED" = 'yes' ]; then echo yes else echo no fi } is_vmci_needed() { if [ "`is_vsock_needed`" = 'yes' \ -o "$vmdb_answer_VMCI_CONFED" = 'yes' ]; then echo yes else echo no fi } is_vsock_needed() { if [ "$vmdb_answer_VSOCK_CONFED" = 'yes' ]; then echo yes else echo no fi } is_vmsync_needed() { local min_kver=`kernel_version_integer '2' '6' '6'` local run_kver=`get_version_integer` if [ $min_kver -le $run_kver -a "$vmdb_answer_VMSYNC_CONFED" = 'yes' ]; then echo yes else echo no fi } vmware_start_vmblock_fuse() { # 2.6.27 is pretty arbitrary but we already have in-kernel # vmblock for earlier versions local ok_kver=`kernel_version_integer '2' '6' '27'` local run_kver=`get_version_integer` if [ $run_kver -lt $ok_kver ]; then return 1 fi if ! grep -q "fuse" /proc/filesystems; then # Try to load fuse module if it is not there yet. modprobe fuse > /dev/null 2>&1 || return 1 fi # Vmblock-fuse dev path could be /var/run/vmblock-fuse # or /run/vmblock-fuse. Bug 758526. if grep -q "/run/vmblock-fuse fuse\.vmware-vmblock " /etc/mtab; then true; else mkdir -p $vmblockfusemntpt vmware_exec_selinux "$vmdb_answer_SBINDIR/vmware-vmblock-fuse \ -o subtype=vmware-vmblock,default_permissions,allow_other \ $vmblockfusemntpt" fi } vmware_auto_kmods_enabled() { echo "$vmdb_answer_AUTO_KMODS_ENABLED" } vmware_auto_kmods() { # Check if mods are confed, but not installed. vmware_exec_selinux "$vmdb_answer_LIBDIR/sbin/vmware-modconfig-console \ --configured-mods-installed" && exit 0 # Check that we have PBMs, of if not, then kernel headers and gcc. Otherwise don't waste time # check for vmhgfs because that is in all PBM sets if ! vmware_exec_selinux "$vmdb_answer_LIBDIR/sbin/vmware-modconfig-console --pbm-available vmhgfs"; then vmware_exec_selinux "$vmdb_answer_LIBDIR/sbin/vmware-modconfig-console \ --get-kernel-headers" || (echo "No kernel headers" && exit 1) vmware_exec_selinux "$vmdb_answer_LIBDIR/sbin/vmware-modconfig-console \ --get-gcc" || (echo "No gcc" && exit 1) fi # We assume config.pl has already been run since our init script is at this point. # If so, then lets build whatever mods are configured. vmware_exec_selinux "$vmdb_answer_BINDIR/vmware-config-tools.pl --default --modules-only --skip-stop-start" } main() { # See how we were called. case "$1" in start) # If the service has already been started exit right away [ -f /var/lock/subsys/"$subsys" ] && exit 0 exitcode='0' if [ "`is_acpi_hotplug_needed`" = 'yes' ]; then vmware_exec "Checking acpi hot plug" vmware_start_acpi_hotplug fi if vmware_inVM; then if ! is_dsp && [ -e "$vmware_etc_dir"/not_configured ]; then echo "`vmware_product_name`"' is installed, but it has not been ' echo '(correctly) configured for the running kernel.' echo 'To (re-)configure it, invoke the following command: ' echo "$vmdb_answer_BINDIR"'/vmware-config-tools.pl.' echo exit 1 fi echo 'Starting VMware Tools services in the virtual machine:' vmware_exec 'Switching to guest configuration:' vmware_switch exitcode=$(($exitcode + $?)) if [ "`vmware_auto_kmods_enabled`" = 'yes' ] && ! grep -q "vmw_no_akmod" /proc/cmdline; then vmware_exec 'VMware Automatic Kmods:' vmware_auto_kmods # After doing this reload the database as its contents will have changed db_load 'vmdb' "$vmware_db" fi if [ "`is_pvscsi_needed`" = 'yes' ]; then vmware_exec 'Paravirtual SCSI module:' vmware_start_pvscsi exitcode=$(($exitcode + $?)) fi if [ "`is_vmmemctl_needed`" = 'yes' ]; then vmware_exec 'Guest memory manager:' vmware_start_vmmemctl exitcode=$(($exitcode + $?)) fi if [ "`is_vmxnet_needed`" = 'yes' ]; then vmware_exec 'Guest vmxnet fast network device:' vmware_start_vmxnet exitcode=$(($exitcode + $?)) fi if [ "`is_vmxnet3_needed`" = 'yes' ]; then vmware_exec 'Driver for the VMXNET 3 virtual network card:' vmware_start_vmxnet3 exitcode=$(($exitcode + $?)) fi if [ "`is_vmci_needed`" = 'yes' ]; then vmware_exec 'VM communication interface:' vmware_start_vmci fi # vsock needs vmci started first if [ "`is_vsock_needed`" = 'yes' ]; then vmware_exec 'VM communication interface socket family:' vmware_start_vsock exitcode=$(($exitcode + $?)) fi if [ "`is_vmhgfs_needed`" = 'yes' -a "`is_ESX_running`" = 'no' ]; then vmware_exec 'Guest filesystem driver:' vmware_start_vmhgfs exitcode=$(($exitcode + $?)) vmware_exec 'Mounting HGFS shares:' vmware_mount_vmhgfs # Ignore the exitcode. The mount may fail if HGFS is disabled # in the host, in which case requiring a rerun of the Tools # configurator is useless. fi if [ "`is_vmblock_needed`" = 'yes' ] ; then vmware_exec 'Blocking file system:' vmware_start_vmblock exitcode=$(($exitcode + $?)) fi # Signal vmware-user to relaunch itself and maybe restore # contact with the blocking file system. if [ "`is_vmware_user_running`" = 'yes' ]; then vmware_exec 'VMware User Agent:' vmware_restart_vmware_user fi if [ "`is_vmsync_needed`" = 'yes' ] ; then vmware_exec 'File system sync driver:' vmware_start_vmsync exitcode=$(($exitcode + $?)) fi if [ "`is_vmtoolsd_needed`" = 'yes' ] ; then vmware_exec 'Guest operating system daemon:' vmware_start_daemon $SYSTEM_DAEMON fi if [ "$have_vgauth" = "yes" -a "`vmware_vgauth_enabled`" = "yes" ]; then vmware_exec "$VGAUTHSVC:" vmware_start_vgauth exitcode=$(($exitcode + $?)) fi if [ "$have_caf" = "yes" -a "`vmware_caf_enabled`" = "yes" ]; then vmware_exec 'Common Agent:' vmware_start_caf exitcode=$(($exitcode + $?)) fi else echo 'Starting VMware Tools services on the host:' vmware_exec 'Switching to host config:' vmware_switch exitcode=$(($exitcode + $?)) fi if ! is_dsp && [ "$exitcode" -gt 0 ]; then exit 1 fi [ -d /var/lock/subsys ] || mkdir -p /var/lock/subsys touch /var/lock/subsys/"$subsys" ;; stop) exitcode='0' if vmware_inVM; then echo 'Stopping VMware Tools services in the virtual machine:' if [ "`is_vmtoolsd_needed`" = 'yes' ] ; then vmware_exec 'Guest operating system daemon:' vmware_stop_daemon $SYSTEM_DAEMON exitcode=$(($exitcode + $?)) fi if [ "$have_caf" = "yes" -a "`vmware_caf_enabled`" = "yes" ]; then vmware_exec 'Common Agent:' vmware_stop_caf fi if [ "$have_vgauth" = "yes" -a "`vmware_vgauth_enabled`" = "yes" ]; then vmware_exec "$VGAUTHSVC:" vmware_stop_vgauth exitcode=$(($exitcode + $?)) fi # Signal vmware-user to release any contact with the blocking fs, closing rpc connections etc. vmware_exec 'VMware User Agent (vmware-user):' vmware_user_request_release_resources rv=$? exitcode=$(($exitcode + $rv)) if [ "`is_vmblock_needed`" = 'yes' ] ; then # If unblocking vmware-user fails then stopping and unloading vmblock # probably will also fail. if [ $rv -eq 0 ]; then vmware_exec 'Blocking file system:' vmware_stop_vmblock exitcode=$(($exitcode + $?)) fi fi vmware_exec 'Unmounting HGFS shares:' vmware_unmount_vmhgfs rv=$? vmware_exec 'Guest filesystem driver:' vmware_stop_vmhgfs rv=$(($rv + $?)) if [ "`is_vmhgfs_needed`" = 'yes' ]; then exitcode=$(($exitcode + $rv)) fi if [ "`is_vmmemctl_needed`" = 'yes' ]; then vmware_exec 'Guest memory manager:' vmware_stop_vmmemctl exitcode=$(($exitcode + $?)) fi # vsock requires vmci to work so it must be unloaded before vmci if [ "`is_vsock_needed`" = 'yes' ]; then vmware_exec 'VM communication interface socket family:' vmware_stop_vsock exitcode=$(($exitcode + $?)) fi if [ "`is_vmci_needed`" = 'yes' ]; then vmware_exec 'VM communication interface:' vmware_stop_vmci exitcode=$(($exitcode + $?)) fi if [ "`is_vmsync_needed`" = 'yes' ] ; then vmware_exec 'File system sync driver:' vmware_stop_vmsync exitcode=$(($exitcode + $?)) fi else echo -n 'Skipping VMware Tools services shutdown on the host:' vmware_success echo fi if [ "$exitcode" -gt 0 ]; then exit 1 fi rm -f /var/lock/subsys/"$subsys" ;; status) exitcode='0' vmware_daemon_status $SYSTEM_DAEMON exitcode=$(($exitcode + $?)) if [ "$exitcode" -ne 0 ]; then exit 1 fi ;; restart | force-reload) "$0" stop && "$0" start ;; source) # Used to source the script so that functions can be # selectively overriden. return 0 ;; *) echo "Usage: `basename "$0"` {start|stop|status|restart|force-reload}" exit 1 esac exit 0 } main "$@"