Merge pull request #3801 from pi-hole/new/armv4_armv5_armv8

Add native ARMv4T, ARMv5TE and ARMv8-A support
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DL6ER 2020-10-18 19:53:56 +02:00 committed by GitHub
commit 83f2e2d85a
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GPG key ID: 4AEE18F83AFDEB23
2 changed files with 112 additions and 29 deletions

View file

@ -2394,7 +2394,7 @@ get_binary_name() {
local l_binary
local str="Detecting architecture"
local str="Detecting processor"
printf " %b %s..." "${INFO}" "${str}"
# If the machine is arm or aarch
if [[ "${machine}" == "arm"* || "${machine}" == *"aarch"* ]]; then
@ -2407,48 +2407,58 @@ get_binary_name() {
lib=$(ldd /bin/ls | grep -E '^\s*/lib' | awk '{ print $1 }')
#
if [[ "${lib}" == "/lib/ld-linux-aarch64.so.1" ]]; then
printf "%b %b Detected ARM-aarch64 architecture\\n" "${OVER}" "${TICK}"
printf "%b %b Detected AArch64 (64 Bit ARM) processor\\n" "${OVER}" "${TICK}"
# set the binary to be used
l_binary="pihole-FTL-aarch64-linux-gnu"
#
elif [[ "${lib}" == "/lib/ld-linux-armhf.so.3" ]]; then
#
if [[ "${rev}" -gt 6 ]]; then
printf "%b %b Detected ARM-hf architecture (armv7+)\\n" "${OVER}" "${TICK}"
# Hard-float available: Use gnueabihf binaries
# If ARMv8 or higher is found (e.g., BCM2837 as found in Raspberry Pi Model 3B)
if [[ "${rev}" -gt 7 ]]; then
printf "%b %b Detected ARMv8 (or newer) processor\\n" "${OVER}" "${TICK}"
# set the binary to be used
l_binary="pihole-FTL-arm-linux-gnueabihf"
# Otherwise,
l_binary="pihole-FTL-armv8-linux-gnueabihf"
# Otherwise, if ARMv7 is found (e.g., BCM2836 as found in Raspberry Pi Model 2)
elif [[ "${rev}" -eq 7 ]]; then
printf "%b %b Detected ARMv7 processor (with hard-float support)\\n" "${OVER}" "${TICK}"
# set the binary to be used
l_binary="pihole-FTL-armv7-linux-gnueabihf"
# Otherwise, use the ARMv6 binary (e.g., BCM2835 as found in Raspberry Pi Zero and Model 1)
else
printf "%b %b Detected ARM-hf architecture (armv6 or lower) Using ARM binary\\n" "${OVER}" "${TICK}"
printf "%b %b Detected ARMv6 processor (with hard-float support)\\n" "${OVER}" "${TICK}"
# set the binary to be used
l_binary="pihole-FTL-arm-linux-gnueabi"
l_binary="pihole-FTL-armv6-linux-gnueabihf"
fi
else
if [[ -f "/.dockerenv" ]]; then
printf "%b %b Detected ARM architecture in docker\\n" "${OVER}" "${TICK}"
# No hard-float support found: Use gnueabi binaries
# Use the ARMv4-compliant binary only if we detected an ARMv4T core
if [[ "${rev}" -eq 4 ]]; then
printf "%b %b Detected ARMv4 processor\\n" "${OVER}" "${TICK}"
# set the binary to be used
l_binary="pihole-FTL-armel-native"
l_binary="pihole-FTL-armv4-linux-gnueabi"
# Otherwise, use the ARMv5 binary. To date (end of 2020), all modern ARM processors
# are backwards-compatible to the ARMv5
else
printf "%b %b Detected ARM architecture\\n" "${OVER}" "${TICK}"
printf "%b %b Detected ARMv5 (or newer) processor\\n" "${OVER}" "${TICK}"
# set the binary to be used
l_binary="pihole-FTL-arm-linux-gnueabi"
l_binary="pihole-FTL-armv5-linux-gnueabi"
fi
fi
elif [[ "${machine}" == "x86_64" ]]; then
# This gives the architecture of packages dpkg installs (for example, "i386")
# This gives the processor of packages dpkg installs (for example, "i386")
local dpkgarch
dpkgarch=$(dpkg --print-architecture 2> /dev/null || true)
dpkgarch=$(dpkg --print-processor 2> /dev/null || true)
# Special case: This is a 32 bit OS, installed on a 64 bit machine
# -> change machine architecture to download the 32 bit executable
# -> change machine processor to download the 32 bit executable
# We only check this for Debian-based systems as this has been an issue
# in the past (see https://github.com/pi-hole/pi-hole/pull/2004)
if [[ "${dpkgarch}" == "i386" ]]; then
printf "%b %b Detected 32bit (i686) architecture\\n" "${OVER}" "${TICK}"
printf "%b %b Detected 32bit (i686) processor\\n" "${OVER}" "${TICK}"
l_binary="pihole-FTL-linux-x86_32"
else
# 64bit
printf "%b %b Detected x86_64 architecture\\n" "${OVER}" "${TICK}"
printf "%b %b Detected x86_64 processor\\n" "${OVER}" "${TICK}"
# set the binary to be used
l_binary="pihole-FTL-linux-x86_64"
fi
@ -2456,10 +2466,10 @@ get_binary_name() {
# Something else - we try to use 32bit executable and warn the user
if [[ ! "${machine}" == "i686" ]]; then
printf "%b %b %s...\\n" "${OVER}" "${CROSS}" "${str}"
printf " %b %bNot able to detect architecture (unknown: %s), trying 32bit executable%b\\n" "${INFO}" "${COL_LIGHT_RED}" "${machine}" "${COL_NC}"
printf " %b %bNot able to detect processor (unknown: %s), trying x86 (32bit) executable%b\\n" "${INFO}" "${COL_LIGHT_RED}" "${machine}" "${COL_NC}"
printf " %b Contact Pi-hole Support if you experience issues (e.g: FTL not running)\\n" "${INFO}"
else
printf "%b %b Detected 32bit (i686) architecture\\n" "${OVER}" "${TICK}"
printf "%b %b Detected 32bit (i686) processor\\n" "${OVER}" "${TICK}"
fi
l_binary="pihole-FTL-linux-x86_32"
fi

View file

@ -187,7 +187,55 @@ def test_FTL_detect_aarch64_no_errors(Pihole):
''')
expected_stdout = info_box + ' FTL Checks...'
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + ' Detected ARM-aarch64 architecture'
expected_stdout = tick_box + ' Detected AArch64 (64 Bit ARM) processor'
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + ' Downloading and Installing FTL'
assert expected_stdout in detectPlatform.stdout
def test_FTL_detect_armv4t_no_errors(Pihole):
'''
confirms only armv4t package is downloaded for FTL engine
'''
# mock uname to return armv4t platform
mock_command('uname', {'-m': ('armv4t', '0')}, Pihole)
# mock ldd to respond with ld-linux shared library
mock_command('ldd', {'/bin/ls': ('/lib/ld-linux.so.3', '0')}, Pihole)
detectPlatform = Pihole.run('''
source /opt/pihole/basic-install.sh
create_pihole_user
funcOutput=$(get_binary_name)
binary="pihole-FTL${funcOutput##*pihole-FTL}"
theRest="${funcOutput%pihole-FTL*}"
FTLdetect "${binary}" "${theRest}"
''')
expected_stdout = info_box + ' FTL Checks...'
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + (' Detected ARMv4 processor')
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + ' Downloading and Installing FTL'
assert expected_stdout in detectPlatform.stdout
def test_FTL_detect_armv5te_no_errors(Pihole):
'''
confirms only armv5te package is downloaded for FTL engine
'''
# mock uname to return armv5te platform
mock_command('uname', {'-m': ('armv5te', '0')}, Pihole)
# mock ldd to respond with ld-linux shared library
mock_command('ldd', {'/bin/ls': ('/lib/ld-linux.so.3', '0')}, Pihole)
detectPlatform = Pihole.run('''
source /opt/pihole/basic-install.sh
create_pihole_user
funcOutput=$(get_binary_name)
binary="pihole-FTL${funcOutput##*pihole-FTL}"
theRest="${funcOutput%pihole-FTL*}"
FTLdetect "${binary}" "${theRest}"
''')
expected_stdout = info_box + ' FTL Checks...'
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + (' Detected ARMv5 (or newer) processor')
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + ' Downloading and Installing FTL'
assert expected_stdout in detectPlatform.stdout
@ -199,7 +247,7 @@ def test_FTL_detect_armv6l_no_errors(Pihole):
'''
# mock uname to return armv6l platform
mock_command('uname', {'-m': ('armv6l', '0')}, Pihole)
# mock ldd to respond with aarch64 shared library
# mock ldd to respond with ld-linux-armhf shared library
mock_command('ldd', {'/bin/ls': ('/lib/ld-linux-armhf.so.3', '0')}, Pihole)
detectPlatform = Pihole.run('''
source /opt/pihole/basic-install.sh
@ -211,8 +259,8 @@ def test_FTL_detect_armv6l_no_errors(Pihole):
''')
expected_stdout = info_box + ' FTL Checks...'
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + (' Detected ARM-hf architecture '
'(armv6 or lower)')
expected_stdout = tick_box + (' Detected ARMv6 processor '
'(with hard-float support)')
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + ' Downloading and Installing FTL'
assert expected_stdout in detectPlatform.stdout
@ -224,7 +272,7 @@ def test_FTL_detect_armv7l_no_errors(Pihole):
'''
# mock uname to return armv7l platform
mock_command('uname', {'-m': ('armv7l', '0')}, Pihole)
# mock ldd to respond with aarch64 shared library
# mock ldd to respond with ld-linux-armhf shared library
mock_command('ldd', {'/bin/ls': ('/lib/ld-linux-armhf.so.3', '0')}, Pihole)
detectPlatform = Pihole.run('''
source /opt/pihole/basic-install.sh
@ -236,7 +284,32 @@ def test_FTL_detect_armv7l_no_errors(Pihole):
''')
expected_stdout = info_box + ' FTL Checks...'
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + ' Detected ARM-hf architecture (armv7+)'
expected_stdout = tick_box + (' Detected ARMv7 processor '
'(with hard-float support)')
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + ' Downloading and Installing FTL'
assert expected_stdout in detectPlatform.stdout
def test_FTL_detect_armv8a_no_errors(Pihole):
'''
confirms only armv8a package is downloaded for FTL engine
'''
# mock uname to return armv8a platform
mock_command('uname', {'-m': ('armv8a', '0')}, Pihole)
# mock ldd to respond with ld-linux-armhf shared library
mock_command('ldd', {'/bin/ls': ('/lib/ld-linux-armhf.so.3', '0')}, Pihole)
detectPlatform = Pihole.run('''
source /opt/pihole/basic-install.sh
create_pihole_user
funcOutput=$(get_binary_name)
binary="pihole-FTL${funcOutput##*pihole-FTL}"
theRest="${funcOutput%pihole-FTL*}"
FTLdetect "${binary}" "${theRest}"
''')
expected_stdout = info_box + ' FTL Checks...'
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + ' Detected ARMv8 (or newer) processor'
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + ' Downloading and Installing FTL'
assert expected_stdout in detectPlatform.stdout
@ -256,7 +329,7 @@ def test_FTL_detect_x86_64_no_errors(Pihole):
''')
expected_stdout = info_box + ' FTL Checks...'
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + ' Detected x86_64 architecture'
expected_stdout = tick_box + ' Detected x86_64 processor'
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + ' Downloading and Installing FTL'
assert expected_stdout in detectPlatform.stdout
@ -274,7 +347,7 @@ def test_FTL_detect_unknown_no_errors(Pihole):
theRest="${funcOutput%pihole-FTL*}"
FTLdetect "${binary}" "${theRest}"
''')
expected_stdout = 'Not able to detect architecture (unknown: mips)'
expected_stdout = 'Not able to detect processor (unknown: mips)'
assert expected_stdout in detectPlatform.stdout