Merge branch '2.9dev' into run_beast_sockets

This commit is contained in:
David Cooper 2016-12-29 16:56:08 -05:00
commit 99290ea1a5
1 changed files with 535 additions and 146 deletions

View File

@ -573,7 +573,7 @@ pr_blue() { [[ "$COLOR" -eq 2 ]] && ( "$COLORBLIND" && out "\033[1;32m$1"
pr_blueln() { pr_blue "$1"; outln; } pr_blueln() { pr_blue "$1"; outln; }
pr_warning() { [[ "$COLOR" -eq 2 ]] && out "\033[0;35m$1" || pr_underline "$1"; pr_off; } # some local problem: one test cannot be done pr_warning() { [[ "$COLOR" -eq 2 ]] && out "\033[0;35m$1" || pr_underline "$1"; pr_off; } # some local problem: one test cannot be done
pr_warningln() { pr_warning "$1"; outln; } # litemagenya pr_warningln() { pr_warning "$1"; outln; } # litemagenta
pr_magenta() { [[ "$COLOR" -eq 2 ]] && out "\033[1;35m$1" || pr_underline "$1"; pr_off; } # fatal error: quitting because of this! pr_magenta() { [[ "$COLOR" -eq 2 ]] && out "\033[1;35m$1" || pr_underline "$1"; pr_off; } # fatal error: quitting because of this!
pr_magentaln() { pr_magenta "$1"; outln; } pr_magentaln() { pr_magenta "$1"; outln; }
@ -2188,10 +2188,20 @@ neat_list(){
} }
test_just_one(){ test_just_one(){
local hexcode n ciph sslvers kx auth enc mac export local hexc n auth export ciphers_to_test supported_sslv2_ciphers s
local dhlen local -a hexcode normalized_hexcode ciph sslvers kx enc export2 sigalg
local sclient_success local -a ciphers_found ciphers_found2 ciph2 rfc_ciph rfc_ciph2 ossl_supported
local -a -i index
local -i nr_ciphers=0 nr_ossl_ciphers=0 nr_nonossl_ciphers=0
local -i num_bundles mod_check bundle_size bundle end_of_bundle
local addcmd dhlen has_dh_bits="$HAS_DH_BITS"
local -i sclient_success
local re='^[0-9A-Fa-f]+$' local re='^[0-9A-Fa-f]+$'
local using_sockets=true
"$SSL_NATIVE" && using_sockets=false
"$FAST" && using_sockets=false
[[ $TLS_NR_CIPHERS == 0 ]] && using_sockets=false
pr_headline " Testing single cipher with " pr_headline " Testing single cipher with "
if [[ $1 =~ $re ]]; then if [[ $1 =~ $re ]]; then
@ -2202,46 +2212,240 @@ test_just_one(){
tjolines="$tjolines word pattern \"$1\" (ignore case)\n\n" tjolines="$tjolines word pattern \"$1\" (ignore case)\n\n"
fi fi
outln outln
! "$HAS_DH_BITS" && pr_warningln " (Your $OPENSSL cannot show DH/ECDH bits)" if ! "$using_sockets"; then
[[ $TLS_NR_CIPHERS == 0 ]] && ! "$SSL_NATIVE" && ! "$FAST" && pr_warning " Cipher mapping not available, doing a fallback to openssl"
if ! "$HAS_DH_BITS"; then
[[ $TLS_NR_CIPHERS == 0 ]] && ! "$SSL_NATIVE" && ! "$FAST" && out "."
pr_warningln " (Your $OPENSSL cannot show DH/ECDH bits)"
fi
fi
outln outln
neat_header neat_header
#for arg in $(echo $@ | sed 's/,/ /g'); do #for arg in $(echo $@ | sed 's/,/ /g'); do
for arg in ${*//, /}; do for arg in ${*//, /}; do
# 1st check whether openssl has cipher or not if "$using_sockets" || [[ $OSSL_VER_MAJOR -lt 1 ]]; then
$OPENSSL ciphers -V 'ALL:COMPLEMENTOFALL:@STRENGTH' 2>$ERRFILE | while read hexcode dash ciph sslvers kx auth enc mac export ; do for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
# FIXME: e.g. OpenSSL < 1.0 doesn't understand "-V" --> we can't do anything about it! hexc="${TLS_CIPHER_HEXCODE[i]}"
normalize_ciphercode $hexcode if [[ ${#hexc} -eq 9 ]]; then
# is argument a number? hexcode[nr_ciphers]="${hexc:2:2},${hexc:7:2}"
if [[ $arg =~ $re ]]; then if [[ "${hexc:2:2}" == "00" ]]; then
neat_list $HEXC $ciph $kx $enc | grep -qai "$arg" normalized_hexcode[nr_ciphers]="x${hexc:7:2}"
else else
neat_list $HEXC $ciph $kx $enc | grep -qwai "$arg" normalized_hexcode[nr_ciphers]="x${hexc:2:2}${hexc:7:2}"
fi
if [[ $? -eq 0 ]]; then # string matches, so we can ssl to it:
if [[ "$sslvers" == "SSLv2" ]]; then
$OPENSSL s_client -ssl2 -cipher $ciph $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY 2>$ERRFILE >$TMPFILE </dev/null
else
$OPENSSL s_client -cipher $ciph $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI 2>$ERRFILE >$TMPFILE </dev/null
fi
sclient_connect_successful $? $TMPFILE
sclient_success=$?
if [[ $kx == "Kx=ECDH" ]] || [[ $kx == "Kx=DH" ]] || [[ $kx == "Kx=EDH" ]]; then
if [[ $sclient_success -eq 0 ]]; then
dhlen=$(read_dhbits_from_file $TMPFILE quiet)
kx="$kx $dhlen"
fi fi
fi
neat_list $HEXC $ciph "$kx" $enc
if [[ $sclient_success -eq 0 ]]; then
pr_cyan " available"
fileout "cipher_$HEXC" "INFO" "$(neat_header)(neat_list $HEXC $ciph "$kx" $enc) available"
else else
out " not a/v" hexc="$(tolower "$hexc")"
fileout "cipher_$HEXC" "INFO" "$(neat_header)(neat_list $HEXC $ciph "$kx" $enc) not a/v" hexcode[nr_ciphers]="${hexc:2:2},${hexc:7:2},${hexc:12:2}"
normalized_hexcode[nr_ciphers]="x${hexc:2:2}${hexc:7:2}${hexc:12:2}"
fi fi
outln if [[ $arg =~ $re ]]; then
neat_list "${normalized_hexcode[nr_ciphers]}" "${TLS_CIPHER_OSSL_NAME[i]}" "${TLS_CIPHER_KX[i]}" "${TLS_CIPHER_ENC[i]}" | grep -qai "$arg"
else
neat_list "${normalized_hexcode[nr_ciphers]}" "${TLS_CIPHER_OSSL_NAME[i]}" "${TLS_CIPHER_KX[i]}" "${TLS_CIPHER_ENC[i]}" | grep -qwai "$arg"
fi
if [[ $? -eq 0 ]] && ( "$using_sockets" || "${TLS_CIPHER_OSSL_SUPPORTED[i]}" ); then # string matches, so we can ssl to it:
normalized_hexcode[nr_ciphers]="$(tolower "${normalized_hexcode[nr_ciphers]}")"
ciph[nr_ciphers]="${TLS_CIPHER_OSSL_NAME[i]}"
rfc_ciph[nr_ciphers]="${TLS_CIPHER_RFC_NAME[i]}"
kx[nr_ciphers]="${TLS_CIPHER_KX[i]}"
enc[nr_ciphers]="${TLS_CIPHER_ENC[i]}"
sslvers[nr_ciphers]="${TLS_CIPHER_SSLVERS[i]}"
export2[nr_ciphers]="${TLS_CIPHER_EXPORT[i]}"
ciphers_found[nr_ciphers]=false
sigalg[nr_ciphers]=""
ossl_supported[nr_ciphers]="${TLS_CIPHER_OSSL_SUPPORTED[i]}"
if "$using_sockets" && ! "$has_dh_bits" && \
( [[ ${kx[nr_ciphers]} == "Kx=ECDH" ]] || [[ ${kx[nr_ciphers]} == "Kx=DH" ]] || [[ ${kx[nr_ciphers]} == "Kx=EDH" ]] ); then
ossl_supported[nr_ciphers]=false
fi
nr_ciphers+=1
fi
done
else
while read hexc n ciph[nr_ciphers] sslvers[nr_ciphers] kx[nr_ciphers] auth enc[nr_ciphers] mac export2[nr_ciphers]; do
normalize_ciphercode $hexc
# is argument a number?
if [[ $arg =~ $re ]]; then
neat_list "$HEXC" "${ciph[nr_ciphers]}" "${kx[nr_ciphers]}" "${enc[nr_ciphers]}" | grep -qai "$arg"
else
neat_list "$HEXC" "${ciph[nr_ciphers]}" "${kx[nr_ciphers]}" "${enc[nr_ciphers]}" | grep -qwai "$arg"
fi
if [[ $? -eq 0 ]]; then # string matches, so we can ssl to it:
ciphers_found[nr_ciphers]=false
normalized_hexcode[nr_ciphers]="$HEXC"
sigalg[nr_ciphers]=""
ossl_supported[nr_ciphers]=true
nr_ciphers+=1
fi
done < <($OPENSSL ciphers $ossl_ciphers_proto -V 'ALL:COMPLEMENTOFALL:@STRENGTH' 2>>$ERRFILE)
fi
# Test the SSLv2 ciphers, if any.
if "$using_sockets"; then
ciphers_to_test=""
for (( i=0; i < nr_ciphers; i++ )); do
if [[ "${sslvers[i]}" == "SSLv2" ]]; then
ciphers_to_test+=", ${hexcode[i]}"
fi
done
if [[ -n "$ciphers_to_test" ]]; then
sslv2_sockets "${ciphers_to_test:2}" "true"
if [[ $? -eq 3 ]] && [[ "$V2_HELLO_CIPHERSPEC_LENGTH" -ne 0 ]]; then
supported_sslv2_ciphers="$(grep "Supported cipher: " "$TEMPDIR/$NODEIP.parse_sslv2_serverhello.txt")"
"$SHOW_SIGALGO" && s="$($OPENSSL x509 -noout -text -in "$HOSTCERT" | awk -F':' '/Signature Algorithm/ { print $2 }' | head -1)"
for (( i=0 ; i<nr_ciphers; i++ )); do
if [[ "${sslvers[i]}" == "SSLv2" ]] && [[ "$supported_sslv2_ciphers" =~ "${normalized_hexcode[i]}" ]]; then
ciphers_found[i]=true
"$SHOW_SIGALGO" && sigalg[i]="$s"
fi
done
fi
fi
else
ciphers_to_test=""
for (( i=0; i < nr_ciphers; i++ )); do
if [[ "${sslvers[i]}" == "SSLv2" ]]; then
ciphers_to_test+=":${ciph[i]}"
fi
done
if [[ -n "$ciphers_to_test" ]]; then
$OPENSSL s_client -cipher "${ciphers_to_test:1}" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY -ssl2 >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful "$?" "$TMPFILE"
if [[ "$?" -eq 0 ]]; then
supported_sslv2_ciphers="$(grep -A 4 "Ciphers common between both SSL endpoints:" $TMPFILE)"
"$SHOW_SIGALGO" && s="$($OPENSSL x509 -noout -text -in $TMPFILE | awk -F':' '/Signature Algorithm/ { print $2 }' | head -1)"
for (( i=0 ; i<nr_ciphers; i++ )); do
if [[ "${sslvers[i]}" == "SSLv2" ]] && [[ "$supported_sslv2_ciphers" =~ "${ciph[i]}" ]]; then
ciphers_found[i]=true
"$SHOW_SIGALGO" && sigalg[i]="$s"
fi
done
fi
fi
fi
for (( i=0; i < nr_ciphers; i++ )); do
if "${ossl_supported[i]}" && [[ "${sslvers[i]}" != "SSLv2" ]]; then
ciphers_found2[nr_ossl_ciphers]=false
ciph2[nr_ossl_ciphers]="${ciph[i]}"
index[nr_ossl_ciphers]=$i
nr_ossl_ciphers+=1
fi fi
done done
if [[ $nr_ossl_ciphers -eq 0 ]]; then
num_bundles=0
else
# Some servers can't handle a handshake with >= 128 ciphers. So,
# test cipher suites in bundles of 128 or less.
num_bundles=$nr_ossl_ciphers/128
mod_check=$nr_ossl_ciphers%128
[[ $mod_check -ne 0 ]] && num_bundles=$num_bundles+1
bundle_size=$nr_ossl_ciphers/$num_bundles
mod_check=$nr_ossl_ciphers%$num_bundles
[[ $mod_check -ne 0 ]] && bundle_size+=1
fi
"$HAS_NO_SSL2" && addcmd="-no_ssl2" || addcmd=""
for (( bundle=0; bundle < num_bundles; bundle++ )); do
end_of_bundle=$bundle*$bundle_size+$bundle_size
[[ $end_of_bundle -gt $nr_ossl_ciphers ]] && end_of_bundle=$nr_ossl_ciphers
while true; do
ciphers_to_test=""
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
! "${ciphers_found2[i]}" && ciphers_to_test+=":${ciph2[i]}"
done
[[ -z "$ciphers_to_test" ]] && break
$OPENSSL s_client $addcmd -cipher "${ciphers_to_test:1}" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful "$?" "$TMPFILE" || break
cipher=$(awk '/Cipher *:/ { print $3 }' $TMPFILE)
[[ -z "$cipher" ]] && break
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
[[ "$cipher" == "${ciph2[i]}" ]] && ciphers_found2[i]=true && break
done
[[ $i -eq $end_of_bundle ]] && break
i=${index[i]}
ciphers_found[i]=true
if [[ ${kx[i]} == "Kx=ECDH" ]] || [[ ${kx[i]} == "Kx=DH" ]] || [[ ${kx[i]} == "Kx=EDH" ]]; then
dhlen=$(read_dhbits_from_file "$TMPFILE" quiet)
kx[i]="${kx[i]} $dhlen"
fi
"$SHOW_SIGALGO" && grep -q "\-\-\-\-\-BEGIN CERTIFICATE\-\-\-\-\-" $TMPFILE && \
sigalg[i]="$($OPENSSL x509 -noout -text -in $TMPFILE | awk -F':' '/Signature Algorithm/ { print $2 }' | head -1)"
done
done
if "$using_sockets"; then
for (( i=0; i < nr_ciphers; i++ )); do
if ! "${ciphers_found[i]}" && [[ "${sslvers[i]}" != "SSLv2" ]] && [[ "${hexcode[i]}" != "13"* ]]; then
ciphers_found2[nr_nonossl_ciphers]=false
hexcode2[nr_nonossl_ciphers]="${hexcode[i]}"
rfc_ciph2[nr_nonossl_ciphers]="${rfc_ciph[i]}"
index[nr_nonossl_ciphers]=$i
nr_nonossl_ciphers+=1
fi
done
fi
if [[ $nr_nonossl_ciphers -eq 0 ]]; then
num_bundles=0
else
# Some servers can't handle a handshake with >= 128 ciphers. So,
# test cipher suites in bundles of 128 or less.
num_bundles=$nr_nonossl_ciphers/128
mod_check=$nr_nonossl_ciphers%128
[[ $mod_check -ne 0 ]] && num_bundles=$num_bundles+1
bundle_size=$nr_nonossl_ciphers/$num_bundles
mod_check=$nr_nonossl_ciphers%$num_bundles
[[ $mod_check -ne 0 ]] && bundle_size+=1
fi
for (( bundle=0; bundle < num_bundles; bundle++ )); do
end_of_bundle=$bundle*$bundle_size+$bundle_size
[[ $end_of_bundle -gt $nr_nonossl_ciphers ]] && end_of_bundle=$nr_nonossl_ciphers
while true; do
ciphers_to_test=""
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
! "${ciphers_found2[i]}" && ciphers_to_test+=", ${hexcode2[i]}"
done
[[ -z "$ciphers_to_test" ]] && break
if "$SHOW_SIGALGO"; then
tls_sockets "03" "${ciphers_to_test:2}, 00,ff" "all"
else
tls_sockets "03" "${ciphers_to_test:2}, 00,ff" "ephemeralkey"
fi
sclient_success=$?
[[ $sclient_success -ne 0 ]] && [[ $sclient_success -ne 2 ]] && break
cipher=$(awk '/Cipher *:/ { print $3 }' "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
for (( i=bundle*bundle_size; i < end_of_bundle; i++ )); do
[[ "$cipher" == "${rfc_ciph2[i]}" ]] && ciphers_found2[i]=true && break
done
[[ $i -eq $end_of_bundle ]] && break
i=${index[i]}
ciphers_found[i]=true
if [[ ${kx[i]} == "Kx=ECDH" ]] || [[ ${kx[i]} == "Kx=DH" ]] || [[ ${kx[i]} == "Kx=EDH" ]]; then
dhlen=$(read_dhbits_from_file "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" quiet)
kx[i]="${kx[i]} $dhlen"
fi
"$SHOW_SIGALGO" && [[ -r "$HOSTCERT" ]] && \
sigalg[i]="$($OPENSSL x509 -noout -text -in "$HOSTCERT" | awk -F':' '/Signature Algorithm/ { print $2 }' | head -1)"
done
done
for (( i=0; i < nr_ciphers; i++ )); do
export="${export2[i]}"
neat_list "${normalized_hexcode[i]}" "${ciph[i]}" "${kx[i]}" "${enc[i]}"
if "${ciphers_found[i]}"; then
pr_cyan " available"
fileout "cipher_${normalized_hexcode[i]}" "INFO" "$(neat_list "${normalized_hexcode[i]}" "${ciph[i]}" "${kx[i]}" "${enc[i]}") available"
else
out " not a/v"
fileout "cipher_${normalized_hexcode[i]}" "INFO" "$(neat_list "${normalized_hexcode[i]}" "${ciph[i]}" "${kx[i]}" "${enc[i]}") not a/v"
fi
outln
done
"$using_sockets" && HAS_DH_BITS="$has_dh_bits"
exit exit
done done
outln outln
@ -5946,38 +6150,98 @@ run_server_defaults() {
run_pfs() { run_pfs() {
local -i sclient_success local -i sclient_success
local pfs_offered=false ecdhe_offered=false local pfs_offered=false ecdhe_offered=false ffdhe_offered=false
local tmpfile local hexc dash pfs_cipher sslvers auth mac export curve dhlen
local dhlen local -a hexcode normalized_hexcode ciph rfc_ciph kx enc ciphers_found sigalg ossl_supported
local hexcode dash pfs_cipher sslvers kx auth enc mac curve local pfs_cipher_list="$ROBUST_PFS_CIPHERS" pfs_hex_cipher_list="" ciphers_to_test
local pfs_cipher_list="$ROBUST_PFS_CIPHERS" local ecdhe_cipher_list="" ecdhe_cipher_list_hex="" ffdhe_cipher_list_hex=""
local ecdhe_cipher_list="" local curves_hex=("00,01" "00,02" "00,03" "00,04" "00,05" "00,06" "00,07" "00,08" "00,09" "00,0a" "00,0b" "00,0c" "00,0d" "00,0e" "00,0f" "00,10" "00,11" "00,12" "00,13" "00,14" "00,15" "00,16" "00,17" "00,18" "00,19" "00,1a" "00,1b" "00,1c" "00,1d" "00,1e")
local -a curves_ossl=("sect163k1" "sect163r1" "sect163r2" "sect193r1" "sect193r2" "sect233k1" "sect233r1" "sect239k1" "sect283k1" "sect283r1" "sect409k1" "sect409r1" "sect571k1" "sect571r1" "secp160k1" "secp160r1" "secp160r2" "secp192k1" "prime192v1" "secp224k1" "secp224r1" "secp256k1" "prime256v1" "secp384r1" "secp521r1" "brainpoolP256r1" "brainpoolP384r1" "brainpoolP512r1" "X25519" "X448") local -a curves_ossl=("sect163k1" "sect163r1" "sect163r2" "sect193r1" "sect193r2" "sect233k1" "sect233r1" "sect239k1" "sect283k1" "sect283r1" "sect409k1" "sect409r1" "sect571k1" "sect571r1" "secp160k1" "secp160r1" "secp160r2" "secp192k1" "prime192v1" "secp224k1" "secp224r1" "secp256k1" "prime256v1" "secp384r1" "secp521r1" "brainpoolP256r1" "brainpoolP384r1" "brainpoolP512r1" "X25519" "X448")
local -a curves_ossl_output=("K-163" "sect163r1" "B-163" "sect193r1" "sect193r2" "K-233" "B-233" "sect239k1" "K-283" "B-283" "K-409" "B-409" "K-571" "B-571" "secp160k1" "secp160r1" "secp160r2" "secp192k1" "P-192" "secp224k1" "P-224" "secp256k1" "P-256" "P-384" "P-521" "brainpoolP256r1" "brainpoolP384r1" "brainpoolP512r1" "X25519" "X448") local -a curves_ossl_output=("K-163" "sect163r1" "B-163" "sect193r1" "sect193r2" "K-233" "B-233" "sect239k1" "K-283" "B-283" "K-409" "B-409" "K-571" "B-571" "secp160k1" "secp160r1" "secp160r2" "secp192k1" "P-192" "secp224k1" "P-224" "secp256k1" "P-256" "P-384" "P-521" "brainpoolP256r1" "brainpoolP384r1" "brainpoolP512r1" "X25519" "X448")
local -a supported_curves=() local -a ffdhe_groups_hex=("01,00" "01,01" "01,02" "01,03" "01,04")
local -i nr_supported_ciphers=0 nr_curves=0 i j low high local -a ffdhe_groups_output=("ffdhe2048" "ffdhe3072" "ffdhe4096" "ffdhe6144" "ffdhe8192")
local pfs_ciphers curves_offered curves_to_test temp local -a supported_curve bits
local curve_found curve_used local -i nr_supported_ciphers=0 nr_curves=0 nr_ossl_curves=0 i j low high
local pfs_ciphers curves_offered="" curves_offered_text="" curves_to_test temp
local len1 len2 curve_found
local has_dh_bits="$HAS_DH_BITS"
local using_sockets=true
"$SSL_NATIVE" && using_sockets=false
"$FAST" && using_sockets=false
[[ $TLS_NR_CIPHERS == 0 ]] && using_sockets=false
outln outln
pr_headlineln " Testing robust (perfect) forward secrecy, (P)FS -- omitting Null Authentication/Encryption, 3DES, RC4 " pr_headlineln " Testing robust (perfect) forward secrecy, (P)FS -- omitting Null Authentication/Encryption, 3DES, RC4 "
if ! "$HAS_DH_BITS" && "$WIDE"; then if ! "$using_sockets"; then
pr_warningln " (Your $OPENSSL cannot show DH/ECDH bits)" [[ $TLS_NR_CIPHERS == 0 ]] && ! "$SSL_NATIVE" && ! "$FAST" && pr_warning " Cipher mapping not available, doing a fallback to openssl"
fi if ! "$HAS_DH_BITS" && "$WIDE"; then
[[ $TLS_NR_CIPHERS == 0 ]] && ! "$SSL_NATIVE" && ! "$FAST" && out "."
nr_supported_ciphers=$(count_ciphers $(actually_supported_ciphers $pfs_cipher_list)) pr_warning " (Your $OPENSSL cannot show DH/ECDH bits)"
debugme echo $nr_supported_ciphers fi
debugme echo $(actually_supported_ciphers $pfs_cipher_list)
if [[ "$nr_supported_ciphers" -le "$CLIENT_MIN_PFS" ]]; then
outln outln
local_problem_ln "You only have $nr_supported_ciphers PFS ciphers on the client side "
fileout "pfs" "WARN" "(Perfect) Forward Secrecy tests: Skipped. You only have $nr_supported_ciphers PFS ciphers on the client site. ($CLIENT_MIN_PFS are required)"
return 1
fi fi
$OPENSSL s_client -cipher $pfs_cipher_list $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI >$TMPFILE 2>$ERRFILE </dev/null if "$using_sockets" || [[ $OSSL_VER_MAJOR -lt 1 ]]; then
sclient_connect_successful $? $TMPFILE for (( i=0; i < TLS_NR_CIPHERS; i++ )); do
if [[ $? -ne 0 ]] || [[ $(grep -ac "BEGIN CERTIFICATE" $TMPFILE) -eq 0 ]]; then pfs_cipher="${TLS_CIPHER_RFC_NAME[i]}"
if ( [[ "$pfs_cipher" == "TLS_DHE_"* ]] || [[ "$pfs_cipher" == "TLS_ECDHE_"* ]] ) && \
[[ ! "$pfs_cipher" =~ "NULL" ]] && [[ ! "$pfs_cipher" =~ "DES" ]] && [[ ! "$pfs_cipher" =~ "RC4" ]] && \
[[ ! "$pfs_cipher" =~ "PSK" ]] && ( "$using_sockets" || "${TLS_CIPHER_OSSL_SUPPORTED[i]}" ); then
hexc="${TLS_CIPHER_HEXCODE[i]}"
pfs_hex_cipher_list+=", ${hexc:2:2},${hexc:7:2}"
ciph[nr_supported_ciphers]="${TLS_CIPHER_OSSL_NAME[i]}"
rfc_ciph[nr_supported_ciphers]="${TLS_CIPHER_RFC_NAME[i]}"
kx[nr_supported_ciphers]="${TLS_CIPHER_KX[i]}"
enc[nr_supported_ciphers]="${TLS_CIPHER_ENC[i]}"
ciphers_found[nr_supported_ciphers]=false
sigalg[nr_supported_ciphers]=""
ossl_supported[nr_supported_ciphers]="${TLS_CIPHER_OSSL_SUPPORTED[i]}"
hexcode[nr_supported_ciphers]="${hexc:2:2},${hexc:7:2}"
if [[ "${hexc:2:2}" == "00" ]]; then
normalized_hexcode[nr_supported_ciphers]="x${hexc:7:2}"
else
normalized_hexcode[nr_supported_ciphers]="x${hexc:2:2}${hexc:7:2}"
fi
"$using_sockets" && ! "$has_dh_bits" && "$WIDE" && ossl_supported[nr_supported_ciphers]=false
nr_supported_ciphers+=1
fi
done
else
while read hexc dash ciph[nr_supported_ciphers] sslvers kx[nr_supported_ciphers] auth enc[nr_supported_ciphers] mac export; do
ciphers_found[nr_supported_ciphers]=false
if [[ "${hexc:2:2}" == "00" ]]; then
normalized_hexcode[nr_supported_ciphers]="x${hexc:7:2}"
else
normalized_hexcode[nr_supported_ciphers]="x${hexc:2:2}${hexc:7:2}"
fi
sigalg[nr_supported_ciphers]=""
ossl_supported[nr_supported_ciphers]=true
nr_supported_ciphers+=1
done < <($OPENSSL ciphers -V "$pfs_cipher_list" 2>$ERRFILE)
fi
export=""
if "$using_sockets"; then
tls_sockets "03" "${pfs_hex_cipher_list:2}"
sclient_success=$?
[[ $sclient_success -eq 2 ]] && sclient_success=0
else
debugme echo $nr_supported_ciphers
debugme echo $(actually_supported_ciphers $pfs_cipher_list)
if [[ "$nr_supported_ciphers" -le "$CLIENT_MIN_PFS" ]]; then
outln
local_problem_ln "You only have $nr_supported_ciphers PFS ciphers on the client side "
fileout "pfs" "WARN" "(Perfect) Forward Secrecy tests: Skipped. You only have $nr_supported_ciphers PFS ciphers on the client site. ($CLIENT_MIN_PFS are required)"
return 1
fi
$OPENSSL s_client -cipher $pfs_cipher_list $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI >$TMPFILE 2>$ERRFILE </dev/null
sclient_connect_successful $? $TMPFILE
sclient_success=$?
[[ $sclient_success -eq 0 ]] && [[ $(grep -ac "BEGIN CERTIFICATE" $TMPFILE) -eq 0 ]] && sclient_success=1
fi
if [[ $sclient_success -ne 0 ]]; then
outln outln
pr_svrty_mediumln " No ciphers supporting Forward Secrecy offered" pr_svrty_mediumln " No ciphers supporting Forward Secrecy offered"
fileout "pfs" "MEDIUM" "(Perfect) Forward Secrecy : No ciphers supporting Forward Secrecy offered" fileout "pfs" "MEDIUM" "(Perfect) Forward Secrecy : No ciphers supporting Forward Secrecy offered"
@ -5993,112 +6257,235 @@ run_pfs() {
else else
out " " out " "
fi fi
while read hexcode dash pfs_cipher sslvers kx auth enc mac; do while true; do
tmpfile=$TMPFILE.$hexcode ciphers_to_test=""
$OPENSSL s_client -cipher $pfs_cipher $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI &>$tmpfile </dev/null for (( i=0; i < nr_supported_ciphers; i++ )); do
sclient_connect_successful $? $tmpfile ! "${ciphers_found[i]}" && "${ossl_supported[i]}" && ciphers_to_test+=":${ciph[i]}"
sclient_success=$? done
if [[ "$sclient_success" -ne 0 ]] && ! "$SHOW_EACH_C"; then [[ -z "$ciphers_to_test" ]] && break
continue # no successful connect AND not verbose displaying each cipher $OPENSSL s_client -cipher "${ciphers_to_test:1}" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI &>$TMPFILE </dev/null
fi sclient_connect_successful $? $TMPFILE || break
[[ "$sclient_success" -eq 0 ]] && [[ $pfs_cipher == "ECDHE-"* ]] && ecdhe_offered=true && ecdhe_cipher_list+=":$pfs_cipher" pfs_cipher=$(awk '/Cipher *:/ { print $3 }' $TMPFILE)
[[ -z "$pfs_cipher" ]] && break
for (( i=0; i < nr_supported_ciphers; i++ )); do
[[ "$pfs_cipher" == "${ciph[i]}" ]] && break
done
ciphers_found[i]=true
if "$WIDE"; then if "$WIDE"; then
normalize_ciphercode $hexcode dhlen=$(read_dhbits_from_file "$TMPFILE" quiet)
if [[ $kx == "Kx=ECDH" ]] || [[ $kx == "Kx=DH" ]] || [[ $kx == "Kx=EDH" ]]; then kx[i]="${kx[i]} $dhlen"
dhlen=$(read_dhbits_from_file "$tmpfile" quiet) fi
kx="$kx $dhlen" "$WIDE" && "$SHOW_SIGALGO" && grep -q "\-\-\-\-\-BEGIN CERTIFICATE\-\-\-\-\-" $TMPFILE && \
sigalg[i]="$($OPENSSL x509 -noout -text -in $TMPFILE | awk -F':' '/Signature Algorithm/ { print $2 }' | head -1)"
done
if "$using_sockets"; then
while true; do
ciphers_to_test=""
for (( i=0; i < nr_supported_ciphers; i++ )); do
! "${ciphers_found[i]}" && ciphers_to_test+=", ${hexcode[i]}"
done
[[ -z "$ciphers_to_test" ]] && break
if "$WIDE" && "$SHOW_SIGALGO"; then
tls_sockets "03" "${ciphers_to_test:2}, 00,ff" "all"
else
tls_sockets "03" "${ciphers_to_test:2}, 00,ff" "ephemeralkey"
fi fi
neat_list $HEXC $pfs_cipher "$kx" $enc $strength sclient_success=$?
[[ $sclient_success -ne 0 ]] && [[ $sclient_success -ne 2 ]] && break
pfs_cipher=$(awk '/Cipher *:/ { print $3 }' "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
for (( i=0; i < nr_supported_ciphers; i++ )); do
[[ "$pfs_cipher" == "${rfc_ciph[i]}" ]] && break
done
ciphers_found[i]=true
if "$WIDE"; then
dhlen=$(read_dhbits_from_file "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt" quiet)
kx[i]="${kx[i]} $dhlen"
fi
"$WIDE" && "$SHOW_SIGALGO" && [[ -r "$HOSTCERT" ]] && \
sigalg[i]="$($OPENSSL x509 -noout -text -in "$HOSTCERT" | awk -F':' '/Signature Algorithm/ { print $2 }' | head -1)"
done
fi
for (( i=0; i < nr_supported_ciphers; i++ )); do
! "${ciphers_found[i]}" && ! "$SHOW_EACH_C" && continue
if "${ciphers_found[i]}"; then
if [[ "${ciph[i]}" != "-" ]]; then
pfs_cipher="${ciph[i]}"
else
pfs_cipher="${rfc_ciph[i]}"
fi
pfs_ciphers+="$pfs_cipher "
! "$WIDE" && out "$pfs_cipher "
if [[ "${ciph[i]}" == "ECDHE-"* ]] || ( "$using_sockets" && [[ "${rfc_ciph[i]}" == "TLS_ECDHE_"* ]] ); then
ecdhe_offered=true
ecdhe_cipher_list_hex+=", ${hexcode[i]}"
[[ "${ciph[i]}" != "-" ]] && ecdhe_cipher_list+=":$pfs_cipher"
fi
if [[ "${ciph[i]}" == "DHE-"* ]] || ( "$using_sockets" && [[ "${rfc_ciph[i]}" == "TLS_DHE_"* ]] ); then
ffdhe_offered=true
ffdhe_cipher_list_hex+=", ${hexcode[i]}"
fi
fi
if "$WIDE"; then
neat_list "$(tolower "${normalized_hexcode[i]}")" "${ciph[i]}" "${kx[i]}" "${enc[i]}"
if "$SHOW_EACH_C"; then if "$SHOW_EACH_C"; then
if [[ $sclient_success -eq 0 ]]; then if ${ciphers_found[i]}; then
pr_done_best "available" pr_done_best "available"
else else
out "not a/v" out "not a/v"
fi fi
else
pfs_offered=true
fi
outln
else
if [[ $sclient_success -eq 0 ]]; then
out "$pfs_cipher "
fi fi
outln "${sigalg[i]}"
fi fi
[[ $sclient_success -eq 0 ]] && pfs_ciphers+="$pfs_cipher " done
debugme rm $tmpfile
done < <($OPENSSL ciphers -V "$pfs_cipher_list" 2>$ERRFILE) # -V doesn't work with openssl < 1.0
debugme echo $pfs_offered debugme echo $pfs_offered
"$WIDE" || outln "$WIDE" || outln
if ! "$pfs_offered"; then fileout "pfs_ciphers" "INFO" "(Perfect) Forward Secrecy Ciphers: $pfs_ciphers"
pr_svrty_medium "WARN: no PFS ciphers found"
fileout "pfs_ciphers" "MEDIUM" "(Perfect) Forward Secrecy Ciphers: no PFS ciphers found"
else
fileout "pfs_ciphers" "INFO" "(Perfect) Forward Secrecy Ciphers: $pfs_ciphers"
fi
fi fi
# find out what elliptic curves are supported.
if "$ecdhe_offered"; then if "$ecdhe_offered"; then
# find out what elliptic curves are supported.
curves_offered=""
for curve in "${curves_ossl[@]}"; do for curve in "${curves_ossl[@]}"; do
ossl_supported[nr_curves]=false
supported_curve[nr_curves]=false
$OPENSSL s_client -curves $curve -connect x 2>&1 | egrep -iaq "Error with command|unknown option" $OPENSSL s_client -curves $curve -connect x 2>&1 | egrep -iaq "Error with command|unknown option"
[[ $? -ne 0 ]] && nr_curves+=1 && supported_curves+=("$curve") [[ $? -ne 0 ]] && ossl_supported[nr_curves]=true && nr_ossl_curves+=1
nr_curves+=1
done done
# OpenSSL limits the number of curves that can be specified in the # OpenSSL limits the number of curves that can be specified in the
# "-curves" option to 28. So, the list is broken in two since there # "-curves" option to 28. So, break the list in two if there are more
# are currently 30 curves defined. # than 28 curves supported by OpenSSL.
for i in 1 2; do for j in 1 2; do
case $i in if [[ $j -eq 1 ]]; then
1) low=0; high=$nr_curves/2 ;; if [[ $nr_ossl_curves -le 28 ]]; then
2) low=$nr_curves/2; high=$nr_curves ;; low=0; high=$nr_curves
esac
sclient_success=0
while [[ "$sclient_success" -eq 0 ]]; do
curves_to_test=""
for (( j=low; j < high; j++ )); do
[[ ! " $curves_offered " =~ " ${supported_curves[j]} " ]] && curves_to_test+=":${supported_curves[j]}"
done
if [[ -n "$curves_to_test" ]]; then
$OPENSSL s_client -cipher "${ecdhe_cipher_list:1}" -curves "${curves_to_test:1}" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI &>$tmpfile </dev/null
sclient_connect_successful $? $tmpfile
sclient_success=$?
else else
sclient_success=1 low=0; high=$nr_curves/2
fi fi
if [[ "$sclient_success" -eq 0 ]]; then else
temp=$(awk -F': ' '/^Server Temp Key/ { print $2 }' "$tmpfile") if [[ $nr_ossl_curves -le 28 ]]; then
curve_found="$(awk -F',' '{ print $1 }' <<< $temp)" continue # all curves tested in first round
[[ "$curve_found" == "ECDH" ]] && curve_found="$(awk -F', ' '{ print $2 }' <<< $temp)" else
j=0; curve_used="" low=$nr_curves/2; high=$nr_curves
for curve in "${curves_ossl[@]}"; do
[[ "${curves_ossl_output[j]}" == "$curve_found" ]] && curve_used="${curves_ossl[j]}" && break
j+=1
done
if [[ -n "$curve_used" ]]; then
curves_offered+="$curve "
else
sclient_success=1
fi
fi fi
fi
while true; do
curves_to_test=""
for (( i=low; i < high; i++ )); do
"${ossl_supported[i]}" && ! "${supported_curve[i]}" && curves_to_test+=":${curves_ossl[i]}"
done
[[ -z "$curves_to_test" ]] && break
$OPENSSL s_client -cipher "${ecdhe_cipher_list:1}" -curves "${curves_to_test:1}" $STARTTLS $BUGS -connect $NODEIP:$PORT $PROXY $SNI &>$TMPFILE </dev/null
sclient_connect_successful $? $TMPFILE || break
temp=$(awk -F': ' '/^Server Temp Key/ { print $2 }' "$TMPFILE")
curve_found="$(awk -F',' '{ print $1 }' <<< $temp)"
[[ "$curve_found" == "ECDH" ]] && curve_found="$(awk -F', ' '{ print $2 }' <<< $temp)"
for (( i=low; i < high; i++ )); do
! "${supported_curve[i]}" && [[ "${curves_ossl_output[i]}" == "$curve_found" ]] && break
done
[[ $i -eq $high ]] && break
supported_curve[i]=true
bits[i]=$(awk -F',' '{ print $3 }' <<< $temp)
grep -q bits <<< ${bits[i]} || bits[i]=$(awk -F',' '{ print $2 }' <<< $temp)
bits[i]=$(tr -d ' bits' <<< ${bits[i]})
done done
done done
# Reorder list of curves that were found to match their ordering in NamedCurve fi
curve_found="" if "$ecdhe_offered" && "$using_sockets"; then
for curve in "${curves_ossl[@]}"; do while true; do
[[ " $curves_offered " =~ " $curve " ]] && curve_found+="$curve " curves_to_test=""
for (( i=0; i < nr_curves; i++ )); do
! "${supported_curve[i]}" && curves_to_test+=", ${curves_hex[i]}"
done
[[ -z "$curves_to_test" ]] && break
len1=$(printf "%02x" "$((2*${#curves_to_test}/7))")
len2=$(printf "%02x" "$((2*${#curves_to_test}/7+2))")
tls_sockets "03" "${ecdhe_cipher_list_hex:2}" "ephemeralkey" "00, 0a, 00, $len2, 00, $len1, ${curves_to_test:2}"
sclient_success=$?
[[ $sclient_success -ne 0 ]] && [[ $sclient_success -ne 2 ]] && break
temp=$(awk -F': ' '/^Server Temp Key/ { print $2 }' "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
curve_found="$(awk -F',' '{ print $1 }' <<< $temp)"
[[ "$curve_found" == "ECDH" ]] && curve_found="$(awk -F', ' '{ print $2 }' <<< $temp)"
for (( i=0; i < nr_curves; i++ )); do
! "${supported_curve[i]}" && [[ "${curves_ossl_output[i]}" == "$curve_found" ]] && break
done
[[ $i -eq $nr_curves ]] && break
supported_curve[i]=true
bits[i]=$(awk -F',' '{ print $3 }' <<< $temp)
grep -q bits <<< ${bits[i]} || bits[i]=$(awk -F',' '{ print $2 }' <<< $temp)
bits[i]=$(tr -d ' bits' <<< ${bits[i]})
done
fi
if "$ecdhe_offered"; then
for (( i=0; i < nr_curves; i++ )); do
if "${supported_curve[i]}"; then
curves_offered+="${curves_ossl[i]} "
if [[ "${bits[i]}" -le 163 ]]; then
curves_offered_text+="$(pr_svrty_medium "${curves_ossl[i]}") "
elif [[ "${bits[i]}" -le 193 ]]; then # hmm, according to https://wiki.openssl.org/index.php/Elliptic_Curve_Cryptography it should ok
curves_offered_text+="$(pr_svrty_minor "${curves_ossl[i]}") " # but openssl removed it https://github.com/drwetter/testssl.sh/issues/299#issuecomment-220905416
elif [[ "${bits[i]}" -le 224 ]]; then
curves_offered_text+="${curves_ossl[i]} "
else
curves_offered_text+="$(pr_done_good "${curves_ossl[i]}") "
fi
fi
done done
if [[ -n "$curves_offered" ]]; then if [[ -n "$curves_offered" ]]; then
"$WIDE" && outln "$WIDE" && outln
pr_bold " Elliptic curves offered: "; outln "$curves_offered" pr_bold " Elliptic curves offered: "; outln "$curves_offered_text"
fileout "ecdhe_curves" "INFO" "Elliptic curves offered $curves_offered" fileout "ecdhe_curves" "INFO" "Elliptic curves offered $curves_offered"
fi fi
fi fi
outln outln
if "$ffdhe_offered" && "$using_sockets" && "$EXPERIMENTAL"; then
# Check to see whether RFC 7919 is supported (see Section 4 of RFC 7919)
tls_sockets "03" "${ffdhe_cipher_list_hex:2}" "ephemeralkey" "00, 0a, 00, 04, 00, 02, 01, fb"
sclient_success=$?
if [[ $sclient_success -ne 0 ]] && [[ $sclient_success -ne 2 ]]; then
# find out what groups from RFC 7919 are supported.
nr_curves=0
for curve in "${ffdhe_groups_output[@]}"; do
supported_curve[nr_curves]=false
nr_curves+=1
done
while true; do
curves_to_test=""
for (( i=0; i < nr_curves; i++ )); do
! "${supported_curve[i]}" && curves_to_test+=", ${ffdhe_groups_hex[i]}"
done
[[ -z "$curves_to_test" ]] && break
len1=$(printf "%02x" "$((2*${#curves_to_test}/7))")
len2=$(printf "%02x" "$((2*${#curves_to_test}/7+2))")
tls_sockets "03" "${ffdhe_cipher_list_hex:2}" "ephemeralkey" "00, 0a, 00, $len2, 00, $len1, ${curves_to_test:2}"
sclient_success=$?
[[ $sclient_success -ne 0 ]] && [[ $sclient_success -ne 2 ]] && break
temp=$(awk -F': ' '/^Server Temp Key/ { print $2 }' "$TEMPDIR/$NODEIP.parse_tls_serverhello.txt")
curve_found="$(awk -F', ' '{ print $2 }' <<< $temp)"
[[ ! "$curve_found" =~ "ffdhe" ]] && break
for (( i=0; i < nr_curves; i++ )); do
! "${supported_curve[i]}" && [[ "${ffdhe_groups_output[i]}" == "$curve_found" ]] && break
done
[[ $i -eq $nr_curves ]] && break
supported_curve[i]=true
done
curves_offered=""
for (( i=0; i < nr_curves; i++ )); do
"${supported_curve[i]}" && curves_offered+="${ffdhe_groups_output[i]} "
done
if [[ -n "$curves_offered" ]]; then
pr_bold " RFC 7919 DH groups offered: "
outln "$curves_offered"
fileout "rfc7919_groups" "INFO" "RFC 7919 DH groups offered $curves_offered"
fi
fi
fi
tmpfile_handle $FUNCNAME.txt tmpfile_handle $FUNCNAME.txt
"$using_sockets" && HAS_DH_BITS="$has_dh_bits"
# sub1_curves # sub1_curves
if "$pfs_offered"; then if "$pfs_offered"; then
return 0 return 0
@ -9610,10 +9997,11 @@ get_install_dir() {
if [[ ! -r "$CIPHERS_BY_STRENGTH_FILE" ]] ; then if [[ ! -r "$CIPHERS_BY_STRENGTH_FILE" ]] ; then
unset ADD_RFC_STR unset ADD_RFC_STR
pr_warningln "\nNo cipher mapping file found "
debugme echo "$CIPHERS_BY_STRENGTH_FILE" debugme echo "$CIPHERS_BY_STRENGTH_FILE"
pr_warningln "Please note from 2.9dev on testssl.sh needs some files in \$TESTSSL_INSTALL_DIR/etc to function correctly" pr_warningln "\nATTENTION: No cipher mapping file found!"
ignore_no_or_lame "Type \"yes\" to ignore " outln "Please note from 2.9dev on $PROG_NAME needs files in \"\$TESTSSL_INSTALL_DIR/etc/\" to function correctly."
outln
ignore_no_or_lame "Type \"yes\" to ignore this warning and proceed at your own risk" "yes"
[[ $? -ne 0 ]] && exit -2 [[ $? -ne 0 ]] && exit -2
fi fi
} }
@ -9731,7 +10119,7 @@ find_openssl_binary() {
fi fi
else else
outln outln
ignore_no_or_lame " neccessary binary \"timeout\" not found. Continue without timeout?" ignore_no_or_lame " Neccessary binary \"timeout\" not found. Continue without timeout? " "y"
[[ $? -ne 0 ]] && exit -2 [[ $? -ne 0 ]] && exit -2
unset OPENSSL_TIMEOUT unset OPENSSL_TIMEOUT
fi fi
@ -9761,7 +10149,7 @@ check4openssl_oldfarts() {
*) outln " Update openssl binaries or compile from github.com/PeterMosmans/openssl" *) outln " Update openssl binaries or compile from github.com/PeterMosmans/openssl"
fileout "too_old_openssl" "WARN" "Update openssl binaries or compile from github.com/PeterMosmans/openssl .";; fileout "too_old_openssl" "WARN" "Update openssl binaries or compile from github.com/PeterMosmans/openssl .";;
esac esac
ignore_no_or_lame " Type \"yes\" to accept false negatives or positives " ignore_no_or_lame " Type \"yes\" to accept false negatives or positives" "yes"
[[ $? -ne 0 ]] && exit -2 [[ $? -ne 0 ]] && exit -2
fi fi
outln outln
@ -10119,20 +10507,21 @@ EOF
return 0 return 0
} }
# arg1: text to display before "-->"
# arg2: arg needed to accept to continue
ignore_no_or_lame() { ignore_no_or_lame() {
local a local a
[[ "$WARNINGS" == off ]] && return 0 [[ "$WARNINGS" == off ]] && return 0
[[ "$WARNINGS" == false ]] && return 0 [[ "$WARNINGS" == false ]] && return 0
[[ "$WARNINGS" == batch ]] && return 1 [[ "$WARNINGS" == batch ]] && return 1
pr_magenta "$1 " pr_warning "$1 --> "
read a read a
case $a in if [[ "$a" == "$(tolower "$2")" ]]; then
Y|y|Yes|YES|yes) return 0;; $ok_arg return 0
default) ;; else
esac return 1
return 1 fi
} }
# arg1: URI # arg1: URI
@ -10544,7 +10933,7 @@ determine_optimal_proto() {
debugme echo "OPTIMAL_PROTO: $OPTIMAL_PROTO" debugme echo "OPTIMAL_PROTO: $OPTIMAL_PROTO"
if [[ "$OPTIMAL_PROTO" == "-ssl2" ]]; then if [[ "$OPTIMAL_PROTO" == "-ssl2" ]]; then
pr_magentaln "$NODEIP:$PORT appears to only support SSLv2." pr_magentaln "$NODEIP:$PORT appears to only support SSLv2."
ignore_no_or_lame " Type \"yes\" to accept some false negatives or positives " ignore_no_or_lame " Type \"yes\" to proceed and accept false negatives or positives" "yes"
[[ $? -ne 0 ]] && exit -2 [[ $? -ne 0 ]] && exit -2
fi fi
fi fi
@ -10559,7 +10948,7 @@ determine_optimal_proto() {
fi fi
tmpfile_handle $FUNCNAME.txt tmpfile_handle $FUNCNAME.txt
pr_boldln "doesn't seem to be a TLS/SSL enabled server"; pr_boldln "doesn't seem to be a TLS/SSL enabled server";
ignore_no_or_lame " Note that the results might look ok but they are nonsense. Proceed ? " ignore_no_or_lame " The results might look ok but they could be nonsense. Really proceed ? (\"yes\" to continue)" "yes"
[[ $? -ne 0 ]] && exit -2 [[ $? -ne 0 ]] && exit -2
fi fi
@ -11351,10 +11740,10 @@ lets_roll() {
################# main ################# ################# main #################
get_install_dir
initialize_globals initialize_globals
parse_cmd_line "$@" parse_cmd_line "$@"
get_install_dir
set_color_functions set_color_functions
maketempf maketempf
find_openssl_binary find_openssl_binary