Decide which FTL architecture to pick by by installed architectures rather than by detected processor (this may be wrong in an emulated Docker environment)

Signed-off-by: DL6ER <dl6er@dl6er.de>
This commit is contained in:
DL6ER 2023-06-08 14:10:04 +02:00
parent 7e95371fe8
commit 9c27e4766d
No known key found for this signature in database
GPG key ID: 00135ACBD90B28DD
2 changed files with 197 additions and 90 deletions

View file

@ -1806,10 +1806,19 @@ FTLinstall() {
}
get_binary_name() {
# This gives the machine architecture which may be different from the OS architecture...
# Get the OS architecture (we cannot use uname -m as this may return an incorrect architecture when buildx-compiling with QEMU for arm)
local machine
machine=$(uname -m)
# Get local GLIBC version (leave at "0.0" if no GLIBC, e.g., on musl)
local l_glibc_version="0.0"
if ldd --version 2>&1 | grep -q "GLIBC"; then
l_glibc_version=$(ldd --version | head -n1 | grep -o '[0-9.]*$')
printf "%b %b Detected GLIBC version %s\\n" "${OVER}" "${TICK}" "${l_glibc_version}"
else
printf "%b %b No GLIBC detected\\n" "${OVER}" "${CROSS}"
fi
local l_binary
local str="Detecting processor"
@ -1817,36 +1826,51 @@ get_binary_name() {
# If the machine is arm or aarch
if [[ "${machine}" == "arm"* || "${machine}" == *"aarch"* ]]; then
# ARM
# Get supported processor from other binaries installed on the system
local cpu_arch
cpu_arch=$(readelf -A "$(command -v sh)" | grep Tag_CPU_arch | awk '{ print $2 }')
# Get the revision from the CPU architecture
local rev
rev=$(uname -m | sed "s/[^0-9]//g;")
local lib
lib=$(ldd "$(command -v sh)" | grep -E '^\s*/lib' | awk '{ print $1 }')
if [[ "${lib}" == "/lib/ld-linux-aarch64.so.1" ]]; then
printf "%b %b Detected AArch64 (64 Bit ARM) processor\\n" "${OVER}" "${TICK}"
rev=$(echo "${cpu_arch}" | grep -o '[0-9]*')
if [[ "${machine}" == "aarch64" ]]; then
printf "%b %b Detected AArch64 (64 Bit ARM) architecture\\n" "${OVER}" "${TICK}"
# set the binary to be used
l_binary="pihole-FTL-arm64"
elif [[ "${lib}" == "/lib/ld-linux-armhf.so.3" ]]; then
# Hard-float available: Use gnueabihf binaries
elif [[ "${cpu_arch}" == "armv6KZ" ]]; then
printf "%b %b Detected ARMv6KZ architecture\\n" "${OVER}" "${TICK}"
# set the binary to be used
l_binary="pihole-FTL-armv6"
else
# If ARMv8 or higher is found (e.g., BCM2837 as found in Raspberry Pi Model 3B)
if [[ "${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-armv8"
elif [[ "${rev}" -eq 7 ]]; then
# Otherwise, if ARMv7 is found (e.g., BCM2836 as found in Raspberry Pi Model 2)
printf "%b %b Detected ARMv7 processor (with hard-float support)\\n" "${OVER}" "${TICK}"
printf "%b %b Detected ARMv8 (or newer) architecture\\n" "${OVER}" "${TICK}"
# set the binary to be used
l_binary="pihole-FTL-armv7"
else
# Otherwise, use the ARMv6 binary (e.g., BCM2835 as found in Raspberry Pi Zero and Model 1)
printf "%b %b Detected ARMv6 processor (with hard-float support)\\n" "${OVER}" "${TICK}"
elif [[ "${rev}" -gt 6 ]]; then
# Otherwise, if ARMv7 is found (e.g., BCM2836 as found in Raspberry Pi Model 2)
printf "%b %b Detected ARMv7 architecture\\n" "${OVER}" "${TICK}"
# set the binary to be used
l_binary="pihole-FTL-armv6"
elif [[ "${rev}" -gt 5 ]]; then
# Check if the system is using GLIBC 2.29 or higher
if [[ -n "${l_glibc_version}" && "$(printf '%s\n' "2.29" "${l_glibc_version}" | sort -V | head -n1)" == "2.29" ]]; then
# If so, use the ARMv6 binary (e.g., BCM2835 as found in Raspberry Pi Zero and Model 1)
printf "%b %b Detected ARMv6 architecture (running GLIBC 2.29 or higher)\\n" "${OVER}" "${TICK}"
# set the binary to be used
l_binary="pihole-FTL-armv5"
else
# Otherwise, use the ARMv5 binary (e.g., BCM2835 as found in Raspberry Pi Zero and Model 1)
printf "%b %b Detected ARMv6 architecture (running GLIBC older than 2.29)\\n" "${OVER}" "${TICK}"
# set the binary to be used
l_binary="pihole-FTL-armv4"
fi
else
# Otherwise, use the ARMv4 binary (e.g., BCM2835 as found in Raspberry Pi Zero and Model 1)
printf "%b %b Detected ARMv4 or ARMv5 architecture\\n" "${OVER}" "${TICK}"
# set the binary to be used
l_binary="pihole-FTL-armv4"
fi
else
# No hard-float support found
printf "%b %b%b ARM processor without hard-float support detected%b\\n" "${OVER}" "${COL_LIGHT_RED}" "${CROSS}" "${COL_NC}"
l_binary=""
fi
elif [[ "${machine}" == "x86_64" ]]; then
# This gives the processor of packages dpkg installs (for example, "i386")
@ -1858,25 +1882,25 @@ get_binary_name() {
# We only check this for Debian-based systems as this has been an issue
# in the past (see https://github.com/pi-hole/pi-hole/pull/2004)
if [[ "${dpkgarch}" == "i386" ]]; then
printf "%b %b Detected 32bit (i686) processor\\n" "${OVER}" "${TICK}"
printf "%b %b Detected 32bit (i686) architecture\\n" "${OVER}" "${TICK}"
l_binary="pihole-FTL-386"
else
# 64bit
printf "%b %b Detected x86_64 processor\\n" "${OVER}" "${TICK}"
printf "%b %b Detected x86_64 architecture\\n" "${OVER}" "${TICK}"
# set the binary to be used
l_binary="pihole-FTL-amd64"
fi
elif [[ "${machine}" == "riscv64" ]]; then
printf "%b %b Detected riscv64 processor\\n" "${OVER}" "${TICK}"
printf "%b %b Detected riscv64 architecture\\n" "${OVER}" "${TICK}"
l_binary="pihole-FTL-riscv64"
else
# Something else - we try to use 32bit executable and warn the user
if [[ ! "${machine}" == "i686" ]]; then
printf "%b %b %s...\\n" "${OVER}" "${CROSS}" "${str}"
printf " %b %bNot able to detect processor (unknown: %s), trying x86 (32bit) executable%b\\n" "${INFO}" "${COL_LIGHT_RED}" "${machine}" "${COL_NC}"
printf " %b %bNot able to detect architecture (unknown: %s), trying x86 (32bit) executable%b\\n" "${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) processor\\n" "${OVER}" "${TICK}"
printf "%b %b Detected 32bit (i686) architecture\\n" "${OVER}" "${TICK}"
fi
l_binary="pihole-FTL-linux-386"
fi

View file

@ -241,12 +241,36 @@ def test_FTL_detect_aarch64_no_errors(host):
"""
# mock uname to return aarch64 platform
mock_command("uname", {"-m": ("aarch64", "0")}, host)
# mock ldd to respond with aarch64 shared library
mock_command(
"ldd",
detectPlatform = host.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 AArch64 (64 Bit ARM) architecture"
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + " Downloading and Installing FTL"
assert expected_stdout in detectPlatform.stdout
def test_FTL_detect_armv4_no_errors(host):
"""
confirms only armv4 package is downloaded for FTL engine
"""
# mock uname to return armv4 platform
mock_command("uname", {"-m": ("armv4t", "0")}, host)
# mock readelf to respond with armv4 CPU architecture
mock_command_2(
"readelf",
{
"/bin/sh": ("/lib/ld-linux-aarch64.so.1", "0"),
"/usr/bin/sh": ("/lib/ld-linux-aarch64.so.1", "0"),
"-A /bin/sh": ("Tag_CPU_arch: armv4t", "0"),
"-A /usr/bin/sh": ("Tag_CPU_arch: armv4t", "0"),
},
host,
)
@ -262,77 +286,65 @@ def test_FTL_detect_aarch64_no_errors(host):
)
expected_stdout = info_box + " FTL Checks..."
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + " Detected AArch64 (64 Bit ARM) processor"
expected_stdout = tick_box + " Detected ARMv4 or ARMv5 architecture"
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_install(host):
def test_FTL_detect_armv5_no_errors(host):
"""
confirms armv4t architecture is not supported
"""
# mock uname to return armv4t platform
mock_command("uname", {"-m": ("armv4t", "0")}, host)
# mock ldd to respond with armv4t shared library
mock_command(
"ldd",
{
"/bin/sh": ("/lib/ld-linux.so.3", "0"),
"/usr/bin/sh": ("/lib/ld-linux.so.3", "0"),
},
host,
)
detectPlatform = host.run(
"""
source /opt/pihole/basic-install.sh
get_binary_name
"""
)
expected_stdout = cross_box + (" ARM processor without hard-float support detected")
assert expected_stdout in detectPlatform.stdout
def test_FTL_detect_armv5te_no_install(host):
"""
confirms armv5te architecture is not supported
confirms only armv5 package is downloaded for FTL engine
"""
# mock uname to return armv5te platform
mock_command("uname", {"-m": ("armv5te", "0")}, host)
# mock ldd to respond with ld-linux shared library
mock_command(
"ldd",
# mock readelf to respond with armv5 CPU architecture
mock_command_2(
"readelf",
{
"/bin/sh": ("/lib/ld-linux.so.3", "0"),
"/usr/bin/sh": ("/lib/ld-linux.so.3", "0"),
"-A /bin/sh": ("Tag_CPU_arch: armv5te", "0"),
"-A /usr/bin/sh": ("Tag_CPU_arch: armv5te", "0"),
},
host,
)
detectPlatform = host.run(
"""
source /opt/pihole/basic-install.sh
get_binary_name
create_pihole_user
funcOutput=$(get_binary_name)
binary="pihole-FTL${funcOutput##*pihole-FTL}"
theRest="${funcOutput%pihole-FTL*}"
FTLdetect "${binary}" "${theRest}"
"""
)
expected_stdout = cross_box + (" ARM processor without hard-float support detected")
expected_stdout = info_box + " FTL Checks..."
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + " Detected ARMv4 or ARMv5 architecture"
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + " Downloading and Installing FTL"
assert expected_stdout in detectPlatform.stdout
def test_FTL_detect_armv6l_no_errors(host):
def test_FTL_detect_armv6_old_no_errors(host):
"""
confirms only armv6l package is downloaded for FTL engine
confirms only armv6 package is downloaded for FTL engine
"""
# mock uname to return armv6l platform
mock_command("uname", {"-m": ("armv6l", "0")}, host)
# mock ldd to respond with ld-linux-armhf shared library
mock_command(
"ldd",
# mock readelf to respond with armv6l CPU architecture
mock_command_2(
"readelf",
{
"/bin/sh": ("/lib/ld-linux-armhf.so.3", "0"),
"/usr/bin/sh": ("/lib/ld-linux-armhf.so.3", "0"),
"-A /bin/sh": ("Tag_CPU_arch: armv6l", "0"),
"-A /usr/bin/sh": ("Tag_CPU_arch: armv6l", "0"),
},
host,
)
# Mock old ldd GLIBC version
mock_command(
"ldd", {"--version": ("ldd (Debian GLIBC 2.13-38+deb7u8) 2.13", "0")}, host
)
detectPlatform = host.run(
"""
source /opt/pihole/basic-install.sh
@ -346,25 +358,98 @@ def test_FTL_detect_armv6l_no_errors(host):
expected_stdout = info_box + " FTL Checks..."
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + (
" Detected ARMv6 processor " "(with hard-float support)"
" Detected ARMv6 architecture (running GLIBC older than 2.29)"
)
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + " Downloading and Installing FTL"
assert expected_stdout in detectPlatform.stdout
def test_FTL_detect_armv6_recent_no_errors(host):
"""
confirms only armv6 package is downloaded for FTL engine
"""
# mock uname to return armv6l platform
mock_command("uname", {"-m": ("armv6l", "0")}, host)
# mock readelf to respond with armv6l CPU architecture
mock_command_2(
"readelf",
{
"-A /bin/sh": ("Tag_CPU_arch: armv6l", "0"),
"-A /usr/bin/sh": ("Tag_CPU_arch: armv6l", "0"),
},
host,
)
# Mock old ldd GLIBC version
mock_command(
"ldd", {"--version": ("'ldd (Debian GLIBC 2.35-38+deb7u8) 2.35'", "0")}, host
)
detectPlatform = host.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}" "${theRest}"
"""
)
expected_stdout = info_box + " FTL Checks..."
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + (
" Detected ARMv6 architecture (running GLIBC 2.29 or higher)"
)
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + " Downloading and Installing FTL"
assert expected_stdout in detectPlatform.stdout
def test_FTL_detect_armv6KZ_no_errors(host):
"""
confirms only armv6KZ package is downloaded for FTL engine
"""
# mock uname to return armv6KZ platform
mock_command("uname", {"-m": ("armv6KZ", "0")}, host)
# mock readelf to respond with armv6l CPU architecture
mock_command_2(
"readelf",
{
"-A /bin/sh": ("Tag_CPU_arch: armv6KZ", "0"),
"-A /usr/bin/sh": ("Tag_CPU_arch: armv6KZ", "0"),
},
host,
)
detectPlatform = host.run(
"""
source /opt/pihole/basic-install.sh
create_pihole_user
funcOutput=$(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 ARMv6KZ architecture"
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + " Downloading and Installing FTL"
assert expected_stdout in detectPlatform.stdout
def test_FTL_detect_armv7l_no_errors(host):
"""
confirms only armv7l package is downloaded for FTL engine
"""
# mock uname to return armv7l platform
mock_command("uname", {"-m": ("armv7l", "0")}, host)
# mock ldd to respond with ld-linux-armhf shared lib rary
mock_command(
"ldd",
# mock readelf to respond with armv7l CPU architecture
mock_command_2(
"readelf",
{
"/bin/sh": ("/lib/ld-linux-armhf.so.3", "0"),
"/usr/bin/sh": ("/lib/ld-linux-armhf.so.3", "0"),
"-A /bin/sh": ("Tag_CPU_arch: armv7l", "0"),
"-A /usr/bin/sh": ("Tag_CPU_arch: armv7l", "0"),
},
host,
)
@ -380,9 +465,7 @@ def test_FTL_detect_armv7l_no_errors(host):
)
expected_stdout = info_box + " FTL Checks..."
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + (
" Detected ARMv7 processor " "(with hard-float support)"
)
expected_stdout = tick_box + (" Detected ARMv7 architecture")
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + " Downloading and Installing FTL"
assert expected_stdout in detectPlatform.stdout
@ -394,12 +477,12 @@ def test_FTL_detect_armv8a_no_errors(host):
"""
# mock uname to return armv8a platform
mock_command("uname", {"-m": ("armv8a", "0")}, host)
# mock ldd to respond with ld-linux-armhf shared library
mock_command(
"ldd",
# mock readelf to respond with armv8a CPU architecture
mock_command_2(
"readelf",
{
"/bin/sh": ("/lib/ld-linux-armhf.so.3", "0"),
"/usr/bin/sh": ("/lib/ld-linux-armhf.so.3", "0"),
"-A /bin/sh": ("Tag_CPU_arch: armv8a", "0"),
"-A /usr/bin/sh": ("Tag_CPU_arch: armv8a", "0"),
},
host,
)
@ -415,7 +498,7 @@ def test_FTL_detect_armv8a_no_errors(host):
)
expected_stdout = info_box + " FTL Checks..."
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + " Detected ARMv8 (or newer) processor"
expected_stdout = tick_box + " Detected ARMv8 (or newer) architecture"
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + " Downloading and Installing FTL"
assert expected_stdout in detectPlatform.stdout
@ -437,7 +520,7 @@ def test_FTL_detect_x86_64_no_errors(host):
)
expected_stdout = info_box + " FTL Checks..."
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + " Detected x86_64 processor"
expected_stdout = tick_box + " Detected x86_64 architecture"
assert expected_stdout in detectPlatform.stdout
expected_stdout = tick_box + " Downloading and Installing FTL"
assert expected_stdout in detectPlatform.stdout
@ -457,7 +540,7 @@ def test_FTL_detect_unknown_no_errors(host):
FTLdetect "${binary}" "${theRest}"
"""
)
expected_stdout = "Not able to detect processor (unknown: mips)"
expected_stdout = "Not able to detect architecture (unknown: mips)"
assert expected_stdout in detectPlatform.stdout