wolfssl-w32/scripts/crl-revoked.test

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#!/bin/bash
#crl.test
# if we can, isolate the network namespace to eliminate port collisions.
if [[ -n "$NETWORK_UNSHARE_HELPER" ]]; then
if [[ -z "$NETWORK_UNSHARE_HELPER_CALLED" ]]; then
export NETWORK_UNSHARE_HELPER_CALLED=yes
exec "$NETWORK_UNSHARE_HELPER" "$0" "$@" || exit $?
fi
elif [ "${AM_BWRAPPED-}" != "yes" ]; then
bwrap_path="$(command -v bwrap)"
if [ -n "$bwrap_path" ]; then
export AM_BWRAPPED=yes
exec "$bwrap_path" --unshare-net --dev-bind / / "$0" "$@"
fi
unset AM_BWRAPPED
fi
# Workaround to not pollute the certs folder with our files that can impact other tests
RUNNING_DIR=$(mktemp -d)
cp -rp . $RUNNING_DIR/.
cd $RUNNING_DIR
revocation_code="-361"
revocation_code_openssl="23"
exit_code=1
counter=0
# need a unique resume port since may run the same time as testsuite
# use server port zero hack to get one
crl_port=0
#no_pid tells us process was never started if -1
no_pid=-1
#server_pid captured on startup, stores the id of the server process
server_pid=$no_pid
# let's use absolute path to a local dir (make distcheck may be in sub dir)
# also let's add some randomness by adding pid in case multiple 'make check's
# per source tree
ready_file=`pwd`/wolfssl_crl_ready$$
CERT_DIR=certs
remove_ready_file() {
if test -e "$ready_file"; then
echo -e "removing existing ready file"
rm "$ready_file"
fi
}
# trap this function so if user aborts with ^C or other kill signal we still
# get an exit that will in turn clean up the file system
abort_trap() {
echo "script aborted"
if [ $server_pid != $no_pid ]
then
echo "killing server"
kill -9 $server_pid
fi
exit_code=2 #different exit code in case of user interrupt
echo "got abort signal, exiting with $exit_code"
exit $exit_code
}
trap abort_trap INT TERM
# trap this function so that if we exit on an error the file system will still
# be restored and the other tests may still pass. Never call this function
# instead use "exit <some value>" and this function will run automatically
restore_file_system() {
remove_ready_file
cd / && rm -rf "$RUNNING_DIR"
}
trap restore_file_system EXIT
run_test() {
echo -e "\nStarting example server for crl test...\n"
remove_ready_file
# starts the server on crl_port, -R generates ready file to be used as a
# mutex lock, -c loads the revoked certificate. We capture the processid
# into the variable server_pid
./examples/server/server -R "$ready_file" -p $crl_port \
-c ${CERT_DIR}/server-revoked-cert.pem \
-k ${CERT_DIR}/server-revoked-key.pem &
server_pid=$!
while [ ! -s "$ready_file" -a "$counter" -lt 20 ]; do
echo -e "waiting for ready file..."
sleep 0.1
counter=$((counter+ 1))
done
# sleep for an additional 0.1 to mitigate race on write/read of $ready_file:
sleep 0.1
if test -e "$ready_file"; then
echo -e "found ready file, starting client..."
else
echo -e "NO ready file ending test..."
exit 1
fi
# get created port 0 ephemeral port
crl_port="$(cat "$ready_file")"
# starts client on crl_port and captures the output from client
capture_out=$(./examples/client/client -p $crl_port 2>&1)
client_result=$?
wait $server_pid
server_result=$?
case "$capture_out" in
*"$revocation_code"*|*"$revocation_code_openssl"*)
# only exit with zero on detection of the expected error code
echo ""
echo "Successful Revocation!!!!"
echo ""
if [ $exit_hash_dir_code -ne 0 ]; then
exit_code=1
else
exit_code=0
echo "exiting with $exit_code"
exit $exit_code
fi
;;
*)
echo ""
echo "Certificate was not revoked saw this instead: $capture_out"
echo ""
echo "configure with --enable-crl and run this script again"
echo ""
esac
}
run_hashdir_test() {
echo -e "\n\nHash dir with CRL and Certificate loading"
remove_ready_file
# create hashed cert and crl
pushd ${CERT_DIR}
# ca file
ca_hash_name=`openssl x509 -in ca-cert.pem -hash -noout`
if [ -f "$ca_hash_name".0 ]; then
rm "$ca_hash_name".0
fi
ln -s ca-cert.pem "$ca_hash_name".0
# crl file
crl_hash_name=`openssl crl -in ./crl/crl.pem -hash -noout`
if [ -f "$crl_hash_name".r0 ]; then
rm "$crl_hash_name".r0
fi
ln -s ./crl/crl.pem "$crl_hash_name".r0
popd
# starts the server on crl_port, -R generates ready file to be used as a
# mutex lock, -c loads the revoked certificate. We capture the processid
# into the variable server_pid
./examples/server/server -R "$ready_file" -p $crl_port \
-c ${CERT_DIR}/server-revoked-cert.pem \
-k ${CERT_DIR}/server-revoked-key.pem &
server_pid=$!
while [ ! -s "$ready_file" -a "$counter" -lt 20 ]; do
echo -e "waiting for ready file..."
sleep 0.1
counter=$((counter+ 1))
done
# get created port 0 ephemeral port
crl_port="$(cat "$ready_file")"
# starts client on crl_port and captures the output from client
capture_out=$(./examples/client/client -p $crl_port -9 2>&1)
client_result=$?
wait $server_pid
server_result=$?
case "$capture_out" in
*"$revocation_code"*|*"$revocation_code_openssl"*)
# only exit with zero on detection of the expected error code
echo ""
echo "Successful Revocation!!!! with hash dir"
echo ""
exit_hash_dir_code=0
;;
*)
echo ""
echo "Certificate was not revoked saw this instead: $capture_out"
echo ""
echo "configure with --enable-crl and run this script again"
echo ""
exit_hash_dir_code=1
esac
# clean up hashed cert and crl
pushd ${CERT_DIR}
rm "$ca_hash_name".0
rm "$crl_hash_name".r0
popd
}
######### begin program #########
# Check for enabling hash dir feature
./examples/client/client -? 2>&1 | grep -- 'hash dir'
if [ $? -eq 0 ]; then
hash_dir=yes
exit_hash_dir_code=1
fi
if [ "$hash_dir" = "yes" ]; then
run_hashdir_test
else
exit_hash_dir_code=0
fi
# run the test
run_test
# If we get to this exit, exit_code will be a 1 signaling failure
echo "exiting with $exit_code certificate was not revoked"
exit $exit_code
########## end program ##########