progs/quicktest.sh - platform/external/libcap - Gitiles

 #!/bin/bash
 #
 # Run through a series of tests to try out the various capability
 # manipulations posible through exec.
 #
 # [Run this as root in a root-enabled process tree.]

 try_capsh () {
     echo "TEST: ./capsh $*"
     ./capsh "$@"
     if [ $? -ne 0 ]; then
 	echo FAILED
 	return 1
     else
 	echo PASSED
 	return 0
     fi
 }

 fail_capsh () {
     echo -n "EXPECT FAILURE: "
     try_capsh "$@"
     if [ $? -eq 1 ]; then
 	echo "[WHICH MEANS A PASS!]"
 	return 0
     else
 	echo "Undesired result - aborting"
 	echo "PROBLEM TEST: $*"
 	exit 1
     fi
 }

 pass_capsh () {
     echo -n "EXPECT SUCCESS: "
     try_capsh "$@"
     if [ $? -eq 0 ]; then
 	return 0
     else
 	echo "Undesired result - aborting"
 	echo "PROBLEM TEST: $*"
 	exit 1
     fi
 }

 pass_capsh --print

 # Make a local non-setuid-0 version of capsh and call it privileged
 cp ./capsh ./privileged && /bin/chmod -s ./privileged
 if [ $? -ne 0 ]; then
     echo "Failed to copy capsh for capability manipulation"
     exit 1
 fi

 # Give it the forced capability it could need
 ./setcap all=ep ./privileged
 if [ $? -ne 0 ]; then
     echo "Failed to set all capabilities on file"
     exit 1
 fi
 ./setcap cap_setuid,cap_setgid=ep ./privileged
 if [ $? -ne 0 ]; then
     echo "Failed to set limited capabilities on privileged file"
     exit 1
 fi

 # validate libcap modes:
 pass_capsh --inh=cap_chown --mode=PURE1E --print --inmode=PURE1E
 pass_capsh --mode=NOPRIV --print --inmode=NOPRIV
 pass_capsh --mode=PURE1E --print --mode=NOPRIV --inmode=NOPRIV
 fail_capsh --mode=NOPRIV --print --mode=PURE1E
 fail_capsh --user=nobody --mode=NOPRIV --print -- ./privileged

 # simple IAB setting (no ambient) in pure1e mode.
 pass_capsh --mode=PURE1E --iab='!%cap_chown,cap_sys_admin'

 # Explore keep_caps support
 pass_capsh --keep=0 --keep=1 --keep=0 --keep=1 --print

 /bin/rm -f tcapsh
 /bin/cp capsh tcapsh
 /bin/chown root.root tcapsh
 /bin/chmod u+s tcapsh
 /bin/ls -l tcapsh

 # leverage keep caps to maintain capabilities accross a change of euid
 # from setuid root to capable luser (as per wireshark/dumpcap 0.99.7)
 # This test is subtle. It is testing that a change to self, dropping
 # euid=0 back to that of the luser keeps capabilities.
 pass_capsh --uid=500 -- -c "./tcapsh --keep=1 --caps=\"cap_net_raw,cap_net_admin=ip\" --print --uid=500 --print --caps=\"cap_net_raw,cap_net_admin=pie\" --print"

 # this test is a change of user to a new user, note we need to raise
 # the cap_setuid capability (libcap has a function for that) in this case.
 pass_capsh --uid=500 -- -c "./tcapsh --caps=\"cap_net_raw,cap_net_admin=ip cap_setuid=p\" --print --cap-uid=501 --print --caps=\"cap_net_raw,cap_net_admin=pie\" --print"

 # This fails, on 2.6.24, but shouldn't
 pass_capsh --uid=500 -- -c "./tcapsh --keep=1 --caps=\"cap_net_raw,cap_net_admin=ip\" --uid=500 --forkfor=10 --caps= --print --killit=9 --print"

 # only continue with these if --secbits is supported
 ./capsh --secbits=0x2f > /dev/null 2>&1
 if [ $? -ne 0 ]; then
     echo "unable to test securebits manipulation - assume not supported (PASS)"
     rm -f tcapsh
     rm -f privileged
     exit 0
 fi

 # nobody's uid. Static compilation of the capsh binary can disable pwd
 # info discovery.
 nouid=$(/usr/bin/id nobody -u)

 pass_capsh --secbits=42 --print
 fail_capsh --secbits=32 --keep=1 --keep=0 --print
 pass_capsh --secbits=10 --keep=0 --keep=1 --print
 fail_capsh --secbits=47 -- -c "./tcapsh --uid=$nouid"

 /bin/rm -f tcapsh

 # Suppress uid=0 privilege
 fail_capsh --secbits=47 --print -- -c "./capsh --uid=$nouid"

 # suppress uid=0 privilege and test this privileged
 pass_capsh --secbits=0x2f --print -- -c "./privileged --uid=$nouid"

 # observe that the bounding set can be used to suppress this forced capability
 fail_capsh --drop=cap_setuid --secbits=0x2f --print -- -c "./privileged --uid=$nouid"

 # change the way the capability is obtained (make it inheritable)
 ./setcap cap_setuid,cap_setgid=ei ./privileged

 # Note, the bounding set (edited with --drop) only limits p
 # capabilities, not i's.
 pass_capsh --secbits=47 --inh=cap_setuid,cap_setgid --drop=cap_setuid \
     --uid=500 --print -- -c "./privileged --uid=$nouid"

 # test that we do not support capabilities on setuid shell-scripts
 /bin/cat > hack.sh <<EOF
 #!/bin/bash
 /usr/bin/id
 mypid=\$\$
 caps=\$(./getpcaps \$mypid 2>&1 | /usr/bin/cut -d: -f2)
 if [ "\$caps" != " =" ]; then
   echo "Shell script got [\$caps] - you should upgrade your kernel"
   exit 1
 else
   ls -l \$0
   echo "Good, no capabilities [\$caps] for this setuid-0 shell script"
 fi
 exit 0
 EOF
 /bin/chmod +xs hack.sh
 ./capsh --uid=500 --inh=none --print -- ./hack.sh
 status=$?
 /bin/rm -f ./hack.sh
 if [ $status -ne 0 ]; then
     echo "shell scripts can have capabilities (bug)"
     exit 1
 fi

 # Max lockdown (ie., pure capability model as POSIX.1e intended).
 secbits=0x2f
 if ./capsh --has-ambient ; then
     secbits="0xef --noamb"
 fi
 pass_capsh --keep=1 --uid=$nouid --caps=cap_setpcap=ep \
 	   --drop=all --secbits=$secbits --caps= --print

 # Verify we can chroot
 pass_capsh --chroot=$(/bin/pwd)
 pass_capsh --chroot=$(/bin/pwd) ==
 fail_capsh --chroot=$(/bin/pwd) -- -c "echo oops"

 ./capsh --has-ambient
 if [ $? -eq 0 ]; then
     echo "test ambient capabilities"

     # Ambient capabilities (any file can inherit capabilities)
     pass_capsh --noamb

     # test that shell scripts can inherit through ambient capabilities
     /bin/cat > hack.sh <<EOF
 #!/bin/bash
 /usr/bin/id
 mypid=\$\$
 caps=\$(./getpcaps \$mypid 2>&1 | /usr/bin/cut -d: -f2)
 if [ "\$caps" != " = cap_setuid+i" ]; then
   echo "Shell script got [\$caps]"
   exit 0
 fi
 ls -l \$0
 echo "no capabilities [\$caps] for this shell script"
 exit 1
 EOF
     /bin/chmod +x hack.sh
     pass_capsh --keep=1 --uid=$nouid --inh=cap_setuid --addamb=cap_setuid -- ./hack.sh

     /bin/rm -f hack.sh

     # Next force the privileged binary to have an empty capability set.
     # This is sort of the opposite of privileged - it should ensure that
     # the file can never aquire privilege by the ambient method.
     ./setcap = ./privileged
     fail_capsh --keep=1 --uid=$nouid --inh=cap_setuid --addamb=cap_setuid -- -c "./privileged --print --uid=500"

     # finally remove the capability from the privileged binary and try again.
     ./setcap -r ./privileged
     pass_capsh --keep=1 --uid=$nouid --inh=cap_setuid --addamb=cap_setuid -- -c "./privileged --print --uid=500"

     # validate IAB setting with an ambient capability
     pass_capsh --iab='!%cap_chown,^cap_setpcap,cap_sys_admin'
     fail_capsh --mode=PURE1E --iab='!%cap_chown,^cap_sys_admin'
 fi
 /bin/rm -f ./privileged

 echo "testing namespaced file caps"

 # nsprivileged capsh will have an ns rootid value (this is
 # the same setup as an earlier test but with a ns file cap).
 rm -f nsprivileged
 cp ./capsh ./nsprivileged && /bin/chmod -s ./nsprivileged
 ./setcap -n 500 all=ep ./nsprivileged
 if [ $? -eq 0 ]; then
     ./getcap -n ./nsprivileged | fgrep "[rootid=500]"
     if [ $? -ne 0 ]; then
 	echo "FAILED setting ns rootid on file"
 	exit 1
     fi
     # since this is a ns file cap and not a regular one, it should not
     # lead to a privilege escalation outside of the namespace it
     # refers to. We suppress uid=0 privilege and confirm this
     # nsprivileged binary does not have the power to change uid.
     fail_capsh --secbits=$secbits --print -- -c "./nsprivileged --uid=$nouid"
 else
     echo "ns file caps not supported - skipping test"
 fi
 rm -f nsprivileged

 # If the build tree compiled the Go cap package.
 if [ -f ../go/compare-cap ]; then
     cp ../go/compare-cap .
     LD_LIBRARY_PATH=../libcap ./compare-cap
     if [ $? -ne 0 ]; then
 	echo "FAILED to execute go binary"
 	exit 1
     fi
     LD_LIBRARY_PATH=../libcap ./compare-cap 2>&1 | grep "skipping file cap tests"
     if [ $? -eq 0 ]; then
 	echo "FAILED not engaging file cap tests"
     fi
     echo "PASSED"
 else
     echo "no Go support compiled"
 fi
 rm -f compare-cap
	#!/bin/bash
	#
	# Run through a series of tests to try out the various capability
	# manipulations posible through exec.
	#
	# [Run this as root in a root-enabled process tree.]

	try_capsh () {
	echo "TEST: ./capsh $*"
	./capsh "$@"
	if [ $? -ne 0 ]; then
	echo FAILED
	return 1
	else
	echo PASSED
	return 0
	fi
	}

	fail_capsh () {
	echo -n "EXPECT FAILURE: "
	try_capsh "$@"
	if [ $? -eq 1 ]; then
	echo "[WHICH MEANS A PASS!]"
	return 0
	else
	echo "Undesired result - aborting"
	echo "PROBLEM TEST: $*"
	exit 1
	fi
	}

	pass_capsh () {
	echo -n "EXPECT SUCCESS: "
	try_capsh "$@"
	if [ $? -eq 0 ]; then
	return 0
	else
	echo "Undesired result - aborting"
	echo "PROBLEM TEST: $*"
	exit 1
	fi
	}

	pass_capsh --print

	# Make a local non-setuid-0 version of capsh and call it privileged
	cp ./capsh ./privileged && /bin/chmod -s ./privileged
	if [ $? -ne 0 ]; then
	echo "Failed to copy capsh for capability manipulation"
	exit 1
	fi

	# Give it the forced capability it could need
	./setcap all=ep ./privileged
	if [ $? -ne 0 ]; then
	echo "Failed to set all capabilities on file"
	exit 1
	fi
	./setcap cap_setuid,cap_setgid=ep ./privileged
	if [ $? -ne 0 ]; then
	echo "Failed to set limited capabilities on privileged file"
	exit 1
	fi

	# validate libcap modes:
	pass_capsh --inh=cap_chown --mode=PURE1E --print --inmode=PURE1E
	pass_capsh --mode=NOPRIV --print --inmode=NOPRIV
	pass_capsh --mode=PURE1E --print --mode=NOPRIV --inmode=NOPRIV
	fail_capsh --mode=NOPRIV --print --mode=PURE1E
	fail_capsh --user=nobody --mode=NOPRIV --print -- ./privileged

	# simple IAB setting (no ambient) in pure1e mode.
	pass_capsh --mode=PURE1E --iab='!%cap_chown,cap_sys_admin'

	# Explore keep_caps support
	pass_capsh --keep=0 --keep=1 --keep=0 --keep=1 --print

	/bin/rm -f tcapsh
	/bin/cp capsh tcapsh
	/bin/chown root.root tcapsh
	/bin/chmod u+s tcapsh
	/bin/ls -l tcapsh

	# leverage keep caps to maintain capabilities accross a change of euid
	# from setuid root to capable luser (as per wireshark/dumpcap 0.99.7)
	# This test is subtle. It is testing that a change to self, dropping
	# euid=0 back to that of the luser keeps capabilities.
	pass_capsh --uid=500 -- -c "./tcapsh --keep=1 --caps=\"cap_net_raw,cap_net_admin=ip\" --print --uid=500 --print --caps=\"cap_net_raw,cap_net_admin=pie\" --print"

	# this test is a change of user to a new user, note we need to raise
	# the cap_setuid capability (libcap has a function for that) in this case.
	pass_capsh --uid=500 -- -c "./tcapsh --caps=\"cap_net_raw,cap_net_admin=ip cap_setuid=p\" --print --cap-uid=501 --print --caps=\"cap_net_raw,cap_net_admin=pie\" --print"

	# This fails, on 2.6.24, but shouldn't
	pass_capsh --uid=500 -- -c "./tcapsh --keep=1 --caps=\"cap_net_raw,cap_net_admin=ip\" --uid=500 --forkfor=10 --caps= --print --killit=9 --print"

	# only continue with these if --secbits is supported
	./capsh --secbits=0x2f > /dev/null 2>&1
	if [ $? -ne 0 ]; then
	echo "unable to test securebits manipulation - assume not supported (PASS)"
	rm -f tcapsh
	rm -f privileged
	exit 0
	fi

	# nobody's uid. Static compilation of the capsh binary can disable pwd
	# info discovery.
	nouid=$(/usr/bin/id nobody -u)

	pass_capsh --secbits=42 --print
	fail_capsh --secbits=32 --keep=1 --keep=0 --print
	pass_capsh --secbits=10 --keep=0 --keep=1 --print
	fail_capsh --secbits=47 -- -c "./tcapsh --uid=$nouid"

	/bin/rm -f tcapsh

	# Suppress uid=0 privilege
	fail_capsh --secbits=47 --print -- -c "./capsh --uid=$nouid"

	# suppress uid=0 privilege and test this privileged
	pass_capsh --secbits=0x2f --print -- -c "./privileged --uid=$nouid"

	# observe that the bounding set can be used to suppress this forced capability
	fail_capsh --drop=cap_setuid --secbits=0x2f --print -- -c "./privileged --uid=$nouid"

	# change the way the capability is obtained (make it inheritable)
	./setcap cap_setuid,cap_setgid=ei ./privileged

	# Note, the bounding set (edited with --drop) only limits p
	# capabilities, not i's.
	pass_capsh --secbits=47 --inh=cap_setuid,cap_setgid --drop=cap_setuid \
	--uid=500 --print -- -c "./privileged --uid=$nouid"

	# test that we do not support capabilities on setuid shell-scripts
	/bin/cat > hack.sh <<EOF
	#!/bin/bash
	/usr/bin/id
	mypid=\$\$
	caps=\$(./getpcaps \$mypid 2>&1 \| /usr/bin/cut -d: -f2)
	if [ "\$caps" != " =" ]; then
	echo "Shell script got [\$caps] - you should upgrade your kernel"
	exit 1
	else
	ls -l \$0
	echo "Good, no capabilities [\$caps] for this setuid-0 shell script"
	fi
	exit 0
	EOF
	/bin/chmod +xs hack.sh
	./capsh --uid=500 --inh=none --print -- ./hack.sh
	status=$?
	/bin/rm -f ./hack.sh
	if [ $status -ne 0 ]; then
	echo "shell scripts can have capabilities (bug)"
	exit 1
	fi

	# Max lockdown (ie., pure capability model as POSIX.1e intended).
	secbits=0x2f
	if ./capsh --has-ambient ; then
	secbits="0xef --noamb"
	fi
	pass_capsh --keep=1 --uid=$nouid --caps=cap_setpcap=ep \
	--drop=all --secbits=$secbits --caps= --print

	# Verify we can chroot
	pass_capsh --chroot=$(/bin/pwd)
	pass_capsh --chroot=$(/bin/pwd) ==
	fail_capsh --chroot=$(/bin/pwd) -- -c "echo oops"

	./capsh --has-ambient
	if [ $? -eq 0 ]; then
	echo "test ambient capabilities"

	# Ambient capabilities (any file can inherit capabilities)
	pass_capsh --noamb

	# test that shell scripts can inherit through ambient capabilities
	/bin/cat > hack.sh <<EOF
	#!/bin/bash
	/usr/bin/id
	mypid=\$\$
	caps=\$(./getpcaps \$mypid 2>&1 \| /usr/bin/cut -d: -f2)
	if [ "\$caps" != " = cap_setuid+i" ]; then
	echo "Shell script got [\$caps]"
	exit 0
	fi
	ls -l \$0
	echo "no capabilities [\$caps] for this shell script"
	exit 1
	EOF
	/bin/chmod +x hack.sh
	pass_capsh --keep=1 --uid=$nouid --inh=cap_setuid --addamb=cap_setuid -- ./hack.sh

	/bin/rm -f hack.sh

	# Next force the privileged binary to have an empty capability set.
	# This is sort of the opposite of privileged - it should ensure that
	# the file can never aquire privilege by the ambient method.
	./setcap = ./privileged
	fail_capsh --keep=1 --uid=$nouid --inh=cap_setuid --addamb=cap_setuid -- -c "./privileged --print --uid=500"

	# finally remove the capability from the privileged binary and try again.
	./setcap -r ./privileged
	pass_capsh --keep=1 --uid=$nouid --inh=cap_setuid --addamb=cap_setuid -- -c "./privileged --print --uid=500"

	# validate IAB setting with an ambient capability
	pass_capsh --iab='!%cap_chown,^cap_setpcap,cap_sys_admin'
	fail_capsh --mode=PURE1E --iab='!%cap_chown,^cap_sys_admin'
	fi
	/bin/rm -f ./privileged

	echo "testing namespaced file caps"

	# nsprivileged capsh will have an ns rootid value (this is
	# the same setup as an earlier test but with a ns file cap).
	rm -f nsprivileged
	cp ./capsh ./nsprivileged && /bin/chmod -s ./nsprivileged
	./setcap -n 500 all=ep ./nsprivileged
	if [ $? -eq 0 ]; then
	./getcap -n ./nsprivileged \| fgrep "[rootid=500]"
	if [ $? -ne 0 ]; then
	echo "FAILED setting ns rootid on file"
	exit 1
	fi
	# since this is a ns file cap and not a regular one, it should not
	# lead to a privilege escalation outside of the namespace it
	# refers to. We suppress uid=0 privilege and confirm this
	# nsprivileged binary does not have the power to change uid.
	fail_capsh --secbits=$secbits --print -- -c "./nsprivileged --uid=$nouid"
	else
	echo "ns file caps not supported - skipping test"
	fi
	rm -f nsprivileged

	# If the build tree compiled the Go cap package.
	if [ -f ../go/compare-cap ]; then
	cp ../go/compare-cap .
	LD_LIBRARY_PATH=../libcap ./compare-cap
	if [ $? -ne 0 ]; then
	echo "FAILED to execute go binary"
	exit 1
	fi
	LD_LIBRARY_PATH=../libcap ./compare-cap 2>&1 \| grep "skipping file cap tests"
	if [ $? -eq 0 ]; then
	echo "FAILED not engaging file cap tests"
	fi
	echo "PASSED"
	else
	echo "no Go support compiled"
	fi
	rm -f compare-cap