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mirror of https://github.com/mozilla/cipherscan.git synced 2024-11-22 06:13:42 +01:00

Merge pull request #121 from tomato42/better-ca-handling

Better CA certificate handling
This commit is contained in:
Julien Vehent [:ulfr] 2016-07-23 10:27:00 -04:00 committed by GitHub
commit 38f5ffba9d
4 changed files with 225 additions and 12 deletions

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@ -564,7 +564,8 @@ test_cipher_on_target() {
# signed ones) # signed ones)
local saved="False" local saved="False"
if ${OPENSSLBIN} verify "${trust_source[@]}" \ if ${OPENSSLBIN} verify "${trust_source[@]}" \
-untrusted <(printf "%s" "${current_raw_certificates[@]}") <(echo "$cert") 2>/dev/null | \ -untrusted <(printf "%s" "${current_raw_certificates[@]}") \
<(echo "$cert") 2>/dev/null | \
grep ': OK$' >/dev/null; then grep ': OK$' >/dev/null; then
# if the certificate is an intermediate CA it may be useful # if the certificate is an intermediate CA it may be useful
@ -661,7 +662,8 @@ test_cipher_on_target() {
# Calculate the average handshake time for a specific ciphersuite # Calculate the average handshake time for a specific ciphersuite
bench_cipher() { bench_cipher() {
local ciphersuite="$1" local ciphersuite="$1"
local sslcommand="$TIMEOUTBIN $TIMEOUT $OPENSSLBIN s_client $SCLIENTARGS -connect $TARGET -cipher $ciphersuite" local sslcommand="$TIMEOUTBIN $TIMEOUT $OPENSSLBIN s_client $SCLIENTARGS"
sslcommand+=" -connect $TARGET -cipher $ciphersuite"
local t="$(date +%s%N)" local t="$(date +%s%N)"
verbose "Benchmarking handshake on '$TARGET' with ciphersuite '$ciphersuite'" verbose "Benchmarking handshake on '$TARGET' with ciphersuite '$ciphersuite'"
for i in $(seq 1 $BENCHMARKITER); do for i in $(seq 1 $BENCHMARKITER); do
@ -690,7 +692,8 @@ get_cipher_pref() {
elif [[ -e $CACERTS ]]; then elif [[ -e $CACERTS ]]; then
sslcommand+=" -CAfile $CACERTS" sslcommand+=" -CAfile $CACERTS"
fi fi
sslcommand+=" -status $SCLIENTARGS -connect $TARGET -cipher $ciphersuite" sslcommand+=" -trusted_first -status $SCLIENTARGS -connect $TARGET"
sslcommand+=" -cipher $ciphersuite"
verbose "Connecting to '$TARGET' with ciphersuite '$ciphersuite'" verbose "Connecting to '$TARGET' with ciphersuite '$ciphersuite'"
# If the connection succeeded with the current cipher, benchmark and store # If the connection succeeded with the current cipher, benchmark and store
@ -1095,7 +1098,8 @@ test_serverside_ordering() {
elif [[ -e "$CACERTS" ]]; then elif [[ -e "$CACERTS" ]]; then
sslcommand+=" -CAfile $CACERTS" sslcommand+=" -CAfile $CACERTS"
fi fi
sslcommand+=" -status $SCLIENTARGS -connect $TARGET -cipher $ciphersuite" sslcommand+=" -trusted_first -status $SCLIENTARGS -connect $TARGET"
sslcommand+=" -cipher $ciphersuite"
test_cipher_on_target "$sslcommand" test_cipher_on_target "$sslcommand"
if (( $? != 0 )); then if (( $? != 0 )); then
@ -1130,6 +1134,7 @@ test_curves() {
sslcommand+=" -CAfile $CACERTS" sslcommand+=" -CAfile $CACERTS"
fi fi
sslcommand+=" -status $SCLIENTARGS -connect $TARGET -cipher $current_cipher" sslcommand+=" -status $SCLIENTARGS -connect $TARGET -cipher $current_cipher"
sslcommand+=" -trusted_first"
# force the TLS to send a TLS1.0 client hello at least, as with SSLv2 # force the TLS to send a TLS1.0 client hello at least, as with SSLv2
# ciphers present it will try to send a SSLv2 compatible client hello # ciphers present it will try to send a SSLv2 compatible client hello
sslcommand+=" -no_ssl2 -no_ssl3" sslcommand+=" -no_ssl2 -no_ssl3"
@ -1248,6 +1253,7 @@ test_curves_fallback() {
elif [[ -e "$CACERTS" ]]; then elif [[ -e "$CACERTS" ]]; then
sslcommand+=" -CAfile $CACERTS" sslcommand+=" -CAfile $CACERTS"
fi fi
sslcommand+=" -trusted_first"
sslcommand+=" -status $SCLIENTARGS -connect $TARGET -cipher $ecc_ciphers" sslcommand+=" -status $SCLIENTARGS -connect $TARGET -cipher $ecc_ciphers"
# force the TLS to send a TLS1.0 client hello at least, as with SSLv2 # force the TLS to send a TLS1.0 client hello at least, as with SSLv2
# ciphers present it will try to send a SSLv2 compatible client hello # ciphers present it will try to send a SSLv2 compatible client hello
@ -1310,7 +1316,12 @@ test_tls_tolerance() {
tls_vers_tests['big-SSLv3']="-no_tls1_2 -no_tls1_1 -no_tls1" tls_vers_tests['big-SSLv3']="-no_tls1_2 -no_tls1_1 -no_tls1"
local sslcommand="$TIMEOUTBIN $TIMEOUT $OPENSSLBIN s_client" local sslcommand="$TIMEOUTBIN $TIMEOUT $OPENSSLBIN s_client"
sslcommand+=" -status -nextprotoneg 'http/1.1'" if [ -n "$CAPATH" ]; then
sslcommand+=" -CApath $CAPATH -showcerts"
elif [ -e "$CACERTS" ]; then
sslcommand+=" -CAfile $CACERTS"
fi
sslcommand+=" -trusted_first -status -nextprotoneg 'http/1.1'"
sslcommand+=" $SCLIENTARGS -connect $TARGET -cipher $CIPHERSUITE" sslcommand+=" $SCLIENTARGS -connect $TARGET -cipher $CIPHERSUITE"
for version in "${!tls_vers_tests[@]}"; do for version in "${!tls_vers_tests[@]}"; do
@ -1350,7 +1361,7 @@ test_tls_tolerance() {
elif [[ -e "$CACERTS" ]]; then elif [[ -e "$CACERTS" ]]; then
sslcommand+=" -CAfile $CACERTS" sslcommand+=" -CAfile $CACERTS"
fi fi
sslcommand+=" -connect $TARGET -cipher $CIPHERSUITE" sslcommand+=" -trusted_first -connect $TARGET -cipher $CIPHERSUITE"
ratelimit ratelimit
verbose "Testing fallback with $sslcommand" verbose "Testing fallback with $sslcommand"
@ -1375,7 +1386,7 @@ test_tls_tolerance() {
elif [[ -e "$CACERTS" ]]; then elif [[ -e "$CACERTS" ]]; then
sslcommand+=" -CAfile $CACERTS" sslcommand+=" -CAfile $CACERTS"
fi fi
sslcommand+=" -connect $TARGET -cipher $ciphers" sslcommand+=" -trusted_first -connect $TARGET -cipher $ciphers"
ratelimit ratelimit
verbose "Testing fallback with $sslcommand" verbose "Testing fallback with $sslcommand"
@ -1446,6 +1457,7 @@ test_tls_tolerance() {
elif [[ -e "$CACERTS" ]]; then elif [[ -e "$CACERTS" ]]; then
sslcommand+=" -CAfile $CACERTS" sslcommand+=" -CAfile $CACERTS"
fi fi
sslcommand+=" -trusted_first"
sslcommand+=" $SCLIENTARGS -connect $TARGET -cipher $ciphers:!SSLv2" sslcommand+=" $SCLIENTARGS -connect $TARGET -cipher $ciphers:!SSLv2"
ratelimit ratelimit
@ -1581,7 +1593,8 @@ test_kex_sigalgs() {
elif [ -e "$CACERTS" ]; then elif [ -e "$CACERTS" ]; then
sslcommand+=" -CAfile $CACERTS" sslcommand+=" -CAfile $CACERTS"
fi fi
sslcommand+=" $SCLIENTARGS -connect $TARGET -cipher $supported_ecdsa_ciphers" sslcommand+=" -trusted_first $SCLIENTARGS -connect $TARGET"
sslcommand+=" -cipher $supported_ecdsa_ciphers"
# since some ciphers supported by server may be SSLv2 only, we need to # since some ciphers supported by server may be SSLv2 only, we need to
# force use of TLSv1.2, otherwise openssl will send a SSLv2 compatible # force use of TLSv1.2, otherwise openssl will send a SSLv2 compatible
# client hello # client hello
@ -1661,7 +1674,8 @@ test_kex_sigalgs() {
elif [ -e "$CACERTS" ]; then elif [ -e "$CACERTS" ]; then
sslcommand+=" -CAfile $CACERTS" sslcommand+=" -CAfile $CACERTS"
fi fi
sslcommand+=" $SCLIENTARGS -connect $TARGET -cipher $supported_rsa_ciphers" sslcommand+=" -trusted_first $SCLIENTARGS -connect $TARGET"
sslcommand+=" -cipher $supported_rsa_ciphers"
# since some ciphers supported by server may be SSLv2 only, we need to # since some ciphers supported by server may be SSLv2 only, we need to
# force use of TLSv1.2, otherwise openssl will send a SSLv2 compatible # force use of TLSv1.2, otherwise openssl will send a SSLv2 compatible
# client hello # client hello
@ -1761,7 +1775,8 @@ test_kex_sigalgs() {
elif [ -e "$CACERTS" ]; then elif [ -e "$CACERTS" ]; then
sslcommand+=" -CAfile $CACERTS" sslcommand+=" -CAfile $CACERTS"
fi fi
sslcommand+=" $SCLIENTARGS -connect $TARGET -cipher $supported_ecdsa_ciphers" sslcommand+=" -trusted_first $SCLIENTARGS -connect $TARGET"
sslcommand+=" -cipher $supported_ecdsa_ciphers"
# since some ciphers supported by server may be SSLv2 only, we need to # since some ciphers supported by server may be SSLv2 only, we need to
# force use of TLSv1.2, otherwise openssl will send a SSLv2 compatible # force use of TLSv1.2, otherwise openssl will send a SSLv2 compatible
# client hello # client hello
@ -1805,7 +1820,8 @@ test_kex_sigalgs() {
elif [ -e "$CACERTS" ]; then elif [ -e "$CACERTS" ]; then
sslcommand+=" -CAfile $CACERTS" sslcommand+=" -CAfile $CACERTS"
fi fi
sslcommand+=" $SCLIENTARGS -connect $TARGET -cipher $supported_rsa_ciphers" sslcommand+=" -trusted_first $SCLIENTARGS -connect $TARGET"
sslcommand+=" -cipher $supported_rsa_ciphers"
# since some ciphers supported by server may be SSLv2 only, we need to # since some ciphers supported by server may be SSLv2 only, we need to
# force use of TLSv1.2, otherwise openssl will send a SSLv2 compatible # force use of TLSv1.2, otherwise openssl will send a SSLv2 compatible
# client hello # client hello

104
top1m/make_ca_files.sh Executable file
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@ -0,0 +1,104 @@
#!/bin/bash
if [[ ${1,,} == "-h" ]] || [[ ${1,,} == "-help" ]] || \
[[ ${1,,} == "-help" ]] || [[ ${#} -lt 1 ]]; then
echo "Usage: ${0} certs_dir [target_dir]"
echo "Create an OpenSSL -CApath compatible dir with intermediate certificates"
echo "using a set of potentially untrusted intermediate CA certificates"
echo "and trusted, root CAs"
echo
echo " certs_dir - Directory containing untrusted certificates to test"
echo " one certificate per file, in PEM format"
echo " target_dir - where to create the -CApath directory,"
echo " \`ca_files' by default"
echo
echo "Script expects make_ca_trusted.sh in same directory as it is"
if [[ ${#} -lt 1 ]]; then
exit 1
else
exit 0
fi
fi
UNTRUSTED="$1"
DIR="${2:-ca_files}"
# search for make_ca_trusted.sh
MAKE_CA_TRUSTED="$(dirname $0)/make_ca_trusted.sh"
if [ ! -x $MAKE_CA_TRUSTED ]; then
echo "$MAKE_CA_TRUSTED not executable or missing" >&2
fi
# search for openssl
for f in "$(dirname $0)/openssl" \
"$(dirname $0)/../openssl" \
"$(which openssl 2>/dev/null)"; do
if [ -x "$f" ]; then
OPENSSL="$f"
break
fi
done
if [ ! -x "$OPENSSL" ]; then
echo "openssl not found!" >&2
return 1
fi
# create a directory with initial trust anchors
"${MAKE_CA_TRUSTED}" "${DIR}"
pushd "${DIR}" >/dev/null
# find CA certificates in untrusted certs directory
unset CA_FILES
declare -a CA_FILES
CA_FILES=()
for file in "${UNTRUSTED}"/*; do
if ${OPENSSL} x509 -in "$file" -noout -text 2>/dev/null | \
grep -q 'CA:TRUE'; then
CA_FILES+=("$file")
fi
done
echo "CA's found: ${#CA_FILES[@]}"
files_added=0
# check which CA files are actually trusted, add them to the directory
cont="True"
while [[ $cont == "True" ]]; do
cont="False"
for file_id in "${!CA_FILES[@]}"; do
file="${CA_FILES[$file_id]}"
# making an "untrusted" file and using it to verify certificates
# ends up taking much more time (6m vs 2m for 2500 certs)
if ${OPENSSL} verify -CApath . -trusted_first\
"$file" 2>/dev/null | grep -q ': OK$'; then
unset CA_FILES[$file_id]
c_sha256hash=($(${OPENSSL} x509 -in "$file" -outform DER 2>/dev/null | \
${OPENSSL} dgst -sha256 -r 2>/dev/null))
if [ -e "${c_sha256hash}.pem" ]; then
continue
fi
cp "$file" "${c_sha256hash}.pem"
files_added=$((files_added+1))
cont="True"
c_hash=$(${OPENSSL} x509 -in "$file" -noout -hash 2>/dev/null)
for ((i=0; i<=100; i++)); do
if [[ ${c_hash}.$i -ef ${c_sha256hash}.pem ]]; then
# already linked, skip
break
fi
if [[ ! -e ${c_hash}.$i ]]; then
ln -s "${c_sha256hash}.pem" "${c_hash}.$i"
break
fi
done
fi
done
done
echo "CAs added: $files_added"
popd >/dev/null

92
top1m/make_ca_trusted.sh Executable file
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@ -0,0 +1,92 @@
#!/bin/bash
if [[ ${1,,} == "-h" ]] || [[ ${1,,} == "-help" ]] || \
[[ ${1,,} == "--help" ]]; then
echo "Usage: $0 [dir_name]"
echo "Convert the system default trust store into an OpenSSL -CApath"
echo "compatible dir"
echo
echo "dir_name - name of the directory in which the certificates will be"
echo " placed, \`ca_trusted' by default"
exit 0
fi
DIR="${1:-ca_trusted}"
# sanity check the target directory
if [[ -e $DIR ]] && [[ ! -d $DIR ]]; then
echo "$DIR must either not exist or be a directory!" >&2
exit 1
fi
# prepare directory
if [[ ! -e $DIR ]]; then
mkdir "$DIR"
if [ $? -ne 0 ]; then
echo "mkdir failed, check your privileges" >&2
return 1
fi
fi
pushd "$DIR" >/dev/null
# search for trust anchors
for f in "${CACERTS}" \
/etc/pki/tls/certs/ca-bundle.crt \
/etc/ssl/certs/ca-certificates.crt \
"$(dirname $0)/../ca-bundle.crt" \
"$(dirname $0)/../../ca-bundle.crt"; do
if [ -e "$f" ]; then
CACERTS="$f"
break
fi
done
if [ ! -e "$CACERTS" ]; then
echo "No CA trust root store found" >&2
return 1
fi
# search for openssl
for f in "$(dirname $0)/../openssl" \
"$(dirname $0)/../../openssl" \
"$(which openssl 2>/dev/null)"; do
if [ -x "$f" ]; then
OPENSSL="$f"
break
fi
done
if [ ! -x "$OPENSSL" ]; then
echo "openssl not found!" >&2
return 1
fi
# split the file with all CA certs into single certs
awk '
split_after == 1 {n++;split_after=0}
/-----END CERTIFICATE-----/ {split_after=1}
{print > ".tmp.cert" n ".pem"}' < "$CACERTS"
# rename the files to their sha256 hashes
for file in .tmp.cert*.pem; do
f_hash=($(${OPENSSL} x509 -in "${file}" -outform der 2>/dev/null | \
${OPENSSL} dgst -r -sha256 2>/dev/null))
f_name="${f_hash[0]}.pem"
mv ${file} ${f_name}
done
# create links that make the directory into -CApath compatible dir
for file in *.pem; do
h=$(${OPENSSL} x509 -in "$file" -noout -hash 2>/dev/null)
for ((num=0; num<=100; num++)); do
if [[ ${h}.${num} -ef ${file} ]]; then
# file already linked, skip
break
fi
if [[ ! -e ${h}.${num} ]]; then
ln -s "${file}" "${h}.${num}"
break
fi
done
done
popd >/dev/null

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@ -61,7 +61,8 @@ def get_path_for_hash(cert_hash):
if not os.path.exists(f_name): if not os.path.exists(f_name):
f_name = ca_certs_path + '/' + cert_hash + '.pem' f_name = ca_certs_path + '/' + cert_hash + '.pem'
if not os.path.exists(f_name): if not os.path.exists(f_name):
#print("File with hash " + c_hash + " is missing!") sys.stderr.write("File with hash {0} ({1}) is missing!\n".format(
cert_hash, f_name))
return None return None
return f_name return f_name