ext-cryptopp/TestScripts/cryptest-android.sh
Jeffrey Walton 5250ab2bf2
Remove ARIA SIMD code (GH #1235)
ARIA SIMD code existed to perform an XOR and the end of encryption and decryption. It was a lot of work to save for the final XOR.
Worse, the final XOR seemed to be causing problems as described in GH #1235. Once we unrolled the XOR and used them when building outBlock, the 1235 issue went away.
2023-09-30 03:11:15 -04:00

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#!/usr/bin/env bash
#############################################################################
#
# This script tests Android cross-compiles using setenv-android.sh script.
#
# Written and placed in public domain by Jeffrey Walton and Uri Blumenthal.
#
# Crypto++ Library is copyrighted as a compilation and (as of version 5.6.2)
# licensed under the Boost Software License 1.0, while the individual files
# in the compilation are all public domain.
#
# See http://www.cryptopp.com/wiki/Android_(Command_Line) for more details
#
#############################################################################
# Error checking
if [ -z "$(command -v ./setenv-android.sh 2>/dev/null)" ]; then
echo "Failed to locate setenv-android.sh."
exit 1
fi
# Error checking
if [ ! -d "${ANDROID_NDK_ROOT}" ]; then
echo "ERROR: ANDROID_NDK_ROOT is not a valid path for ${USER}. Please set it."
echo "ANDROID_NDK_ROOT is '${ANDROID_NDK_ROOT}'"
exit 1
fi
# Error checking
if [ ! -d "${ANDROID_SDK_ROOT}" ]; then
echo "ERROR: ANDROID_SDK_ROOT is not a valid path for ${USER}. Please set it."
echo "ANDROID_SDK_ROOT is '${ANDROID_SDK_ROOT}'"
exit 1
fi
# Error checking
if [ -z "$(command -v ndk-build 2>/dev/null)" ]; then
echo "ERROR: ndk-build is not on-path for ${USER}. Please set it."
echo "PATH is '${PATH}'"
exit 1
fi
# Temp directory
if [[ -z "${TMPDIR}" ]]; then
TMPDIR="$HOME/tmp"
mkdir -p "${TMPDIR}"
if [ -n "${SUDO_USER}" ]; then
chown -R "${SUDO_USER}" "${TMPDIR}"
fi
fi
# Sane default
if [[ -z "${MAKE_JOBS}" ]]; then
MAKE_JOBS=4
fi
# Cleanup old artifacts
rm -rf "${TMPDIR}/build.failed" 2>/dev/null
rm -rf "${TMPDIR}/build.log" 2>/dev/null
#############################################################################
# Prepare the environment
unset CXX CPPFLAGS CXXFLAGS LDFLAGS
unset ANDROID_CPPFLAGS ANDROID_CXXFLAGS ANDROID_LDFLAGS ANDROID_SYSROOT
if [[ -e TestScripts/setenv-android.sh ]]; then
cp TestScripts/setenv-android.sh .
chmod u+x setenv-android.sh
fi
#############################################################################
PLATFORMS=(armv7a aarch64 x86 x86_64)
for platform in "${PLATFORMS[@]}"
do
# setenv-android.sh reads these two variables for configuration info.
# Android 5.0 is 21. Android 6.0 is 23.
export ANDROID_API="23"
export ANDROID_CPU="${platform}"
make -f GNUmakefile-cross distclean > /dev/null 2>&1
echo
echo "===================================================================="
echo "Testing for Android support of ${platform}"
# Test if we can set the environment for the platform
if ! ./setenv-android.sh > /dev/null 2>&1;
then
echo
echo "There were problems testing ${platform}"
echo "${platform} ==> SKIPPED" >> "${TMPDIR}/build.log"
continue
fi
echo
echo "===================================================================="
echo "Building for ${platform}..."
# run in subshell to not keep any envars
(
source ./setenv-android.sh
if make -k -j "${MAKE_JOBS}" -f GNUmakefile-cross static dynamic cryptest.exe;
then
echo "${platform} ==> SUCCESS" >> "${TMPDIR}/build.log"
else
echo "${platform} ==> FAILURE" >> "${TMPDIR}/build.log"
touch "${TMPDIR}/build.failed"
fi
# Test code generation
if [[ "${platform}" == "armv7a" ]]
then
# Test NEON code generation
# In the past we looked for the vector loads, stores and shifts using vld and friends.
# It looks like objdump changed its output format on Android after Clang, so we need
# to check for statements like eor v0.16b, v2.16b, v0.16b nowadays.
count=$(${OBJDUMP} --disassemble chacha_simd.o 2>&1 | grep -c -E 'vld|vst|vshl|vshr|veor|v0\.|v1\.|v2\.|v3\.|v4\.|v5\.|v6\.|v7\.')
if [[ "${count}" -gt 64 ]]
then
echo "${platform} : NEON ==> SUCCESS" >> "${TMPDIR}/build.log"
else
echo "${platform} : NEON ==> FAILURE" >> "${TMPDIR}/build.log"
touch "${TMPDIR}/build.failed"
fi
elif [[ "${platform}" == "aarch64" ]]
then
# Test ASIMD code generation
# In the past we looked for the vector loads, stores and shifts using vld and friends.
# It looks like objdump changed its output format on Android after Clang, so we need
# to check for statements like eor v0.16b, v2.16b, v0.16b nowadays.
count=$(${OBJDUMP} --disassemble chacha_simd.o 2>&1 | grep -c -E 'vld|vst|vshl|vshr|veor|v0\.|v1\.|v2\.|v3\.|v4\.|v5\.|v6\.|v7\.')
if [[ "${count}" -gt 64 ]]
then
echo "${platform} : ASIMD ==> SUCCESS" >> "${TMPDIR}/build.log"
else
echo "${platform} : ASIMD ==> FAILURE" >> "${TMPDIR}/build.log"
touch "${TMPDIR}/build.failed"
fi
# Test AES code generation
count=$(${OBJDUMP} --disassemble rijndael_simd.o 2>&1 | grep -c -E 'aese|aesd|aesmc|aesimc')
if [[ "${count}" -gt 32 ]]
then
echo "${platform} : AES ==> SUCCESS" >> "${TMPDIR}/build.log"
else
echo "${platform} : AES ==> FAILURE" >> "${TMPDIR}/build.log"
touch "${TMPDIR}/build.failed"
fi
# Test PMULL code generation
count=$(${OBJDUMP} --disassemble gcm_simd.o 2>&1 | grep -c -E 'pmull|pmull2')
if [[ "${count}" -gt 16 ]]
then
echo "${platform} : PMULL ==> SUCCESS" >> "${TMPDIR}/build.log"
else
echo "${platform} : PMULL ==> FAILURE" >> "${TMPDIR}/build.log"
touch "${TMPDIR}/build.failed"
fi
# Test SHA1 code generation
count=$(${OBJDUMP} --disassemble sha_simd.o 2>&1 | grep -c -E 'sha1c|sha1m|sha1p|sha1h|sha1su0|sha1su1')
if [[ "${count}" -gt 32 ]]
then
echo "${platform} : SHA1 ==> SUCCESS" >> "${TMPDIR}/build.log"
else
echo "${platform} : SHA1 ==> FAILURE" >> "${TMPDIR}/build.log"
touch "${TMPDIR}/build.failed"
fi
# Test SHA2 code generation
count=$(${OBJDUMP} --disassemble sha_simd.o | grep -c -E 'sha256h|sha256su0|sha256su1')
if [[ "${count}" -gt 32 ]]
then
echo "${platform} : SHA2 ==> SUCCESS" >> "${TMPDIR}/build.log"
else
echo "${platform} : SHA2 ==> FAILURE" >> "${TMPDIR}/build.log"
touch "${TMPDIR}/build.failed"
fi
elif [[ "${platform}" == "x86" || "${platform}" == "x86_64" ]]
then
# Test AES code generation
count=$(${OBJDUMP} --disassemble rijndael_simd.o 2>&1 | grep -c -E 'aesenc|aesdec|aesenclast|aesdeclast|aesimc')
if [[ "${count}" -gt 32 ]]
then
echo "${platform} : AES ==> SUCCESS" >> "${TMPDIR}/build.log"
else
echo "${platform} : AES ==> FAILURE" >> "${TMPDIR}/build.log"
touch "${TMPDIR}/build.failed"
fi
# Test CLMUL code generation
count=$(${OBJDUMP} --disassemble gcm_simd.o 2>&1 | grep -c -E 'pclmulqdq|pclmullqlq|pclmullqhq|vpclmulqdq')
if [[ "${count}" -gt 16 ]]
then
echo "${platform} : CLMUL ==> SUCCESS" >> "${TMPDIR}/build.log"
else
echo "${platform} : CLMUL ==> FAILURE" >> "${TMPDIR}/build.log"
touch "${TMPDIR}/build.failed"
fi
# Test SHA1 code generation
count=$(${OBJDUMP} --disassemble sha_simd.o 2>&1 | grep -c -E 'sha1rnds4|sha1nexte|sha1msg1|sha1msg2')
if [[ "${count}" -gt 32 ]]
then
echo "${platform} : SHA1 ==> SUCCESS" >> "${TMPDIR}/build.log"
else
echo "${platform} : SHA1 ==> FAILURE" >> "${TMPDIR}/build.log"
touch "${TMPDIR}/build.failed"
fi
# Test SHA2 code generation
count=$(${OBJDUMP} --disassemble sha_simd.o | grep -c -E 'sha256rnds2|sha256msg1|sha256msg2')
if [[ "${count}" -gt 32 ]]
then
echo "${platform} : SHA2 ==> SUCCESS" >> "${TMPDIR}/build.log"
else
echo "${platform} : SHA2 ==> FAILURE" >> "${TMPDIR}/build.log"
touch "${TMPDIR}/build.failed"
fi
fi
)
done
echo
echo "====================================================="
cat "${TMPDIR}/build.log"
# let the script fail if any of the builds failed
if [ -f "${TMPDIR}/build.failed" ]; then
exit 1
fi
exit 0