@@ -15,3 +15,4 @@ endian = 'little'
[properties]
implementer_id = '0x56'
+part_number = 'generic'
@@ -15,3 +15,4 @@ endian = 'little'
[properties]
implementer_id = 'dpaa'
+part_number = 'generic'
@@ -14,3 +14,4 @@ endian = 'little'
[properties]
implementer_id = '0x50'
+part_number = 'generic'
@@ -14,3 +14,4 @@ endian = 'little'
[properties]
implementer_id = '0x43'
+part_number = 'generic'
@@ -3,8 +3,6 @@
# Copyright(c) 2017 Cavium, Inc
# Copyright(c) 2020 PANTHEON.tech s.r.o.
-arm_force_native_march = false
-
# common flags to all aarch64 builds, with lowest priority
flags_common_default = [
# Accelarate rte_memcpy. Be sure to run unit test (memcpy_perf_autotest)
@@ -28,6 +26,8 @@ flags_common_default = [
['RTE_ARCH_ARM64', true],
['RTE_CACHE_LINE_SIZE', 128]
]
+generic_machine_args = ['-march=armv8-a+crc', '-moutline-atomics']
+native_machine_args = ['-march=native', '-mtune=native']
# implementer specific aarch64 flags, with middle priority
# (will overwrite common flags)
@@ -101,47 +101,46 @@ flags_part_number_octeontx2 = [
]
# arm config (implementer 0x41) is the default config
-part_number_config_arm = {
- 'generic': [['-march=armv8-a+crc', '-moutline-atomics']],
- 'native': [['-march=native']],
- '0xd03': [['-mcpu=cortex-a53']],
- '0xd04': [['-mcpu=cortex-a35']],
- '0xd07': [['-mcpu=cortex-a57']],
- '0xd08': [['-mcpu=cortex-a72']],
- '0xd09': [['-mcpu=cortex-a73']],
- '0xd0a': [['-mcpu=cortex-a75']],
- '0xd0b': [['-mcpu=cortex-a76']],
- '0xd0c': [['-march=armv8.2-a+crc+crypto', '-mcpu=neoverse-n1'], flags_part_number_n1generic]
-}
-part_number_config_cavium = {
- 'generic': [['-march=armv8-a+crc+crypto', '-mcpu=thunderx']],
- 'native': [['-march=native']],
- '0xa1': [['-mcpu=thunderxt88'], flags_part_number_thunderx],
- '0xa2': [['-mcpu=thunderxt81'], flags_part_number_thunderx],
- '0xa3': [['-mcpu=thunderxt83'], flags_part_number_thunderx],
- '0xaf': [['-march=armv8.1-a+crc+crypto','-mcpu=thunderx2t99'], flags_part_number_thunderx2],
- '0xb2': [['-march=armv8.2-a+crc+crypto+lse','-mcpu=octeontx2'], flags_part_number_octeontx2]
+part_number_machine_args = {
+ '0xd03': ['-mcpu=cortex-a53'],
+ '0xd04': ['-mcpu=cortex-a35'],
+ '0xd07': ['-mcpu=cortex-a57'],
+ '0xd08': ['-mcpu=cortex-a72'],
+ '0xd09': ['-mcpu=cortex-a73'],
+ '0xd0a': ['-mcpu=cortex-a75'],
+ '0xd0b': ['-mcpu=cortex-a76'],
+ '0xd0c': ['-march=armv8.2-a+crc+crypto', '-mcpu=neoverse-n1'],
+ '0xa1': ['-mcpu=thunderxt88'],
+ '0xa2': ['-mcpu=thunderxt81'],
+ '0xa3': ['-mcpu=thunderxt83'],
+ '0xaf': ['-march=armv8.1-a+crc+crypto','-mcpu=thunderx2t99'],
+ '0xb2': ['-march=armv8.2-a+crc+crypto+lse','-mcpu=octeontx2']
}
-part_number_config_emag = {
- 'generic': [['-march=armv8-a+crc+crypto', '-mtune=emag']],
- 'native': [['-march=native']]
+
+part_number_flags = {
+ '0xd0c': flags_part_number_n1generic,
+ '0xa1': flags_part_number_thunderx,
+ '0xa2': flags_part_number_thunderx,
+ '0xa3': flags_part_number_thunderx,
+ '0xaf': flags_part_number_thunderx2,
+ '0xb2': flags_part_number_octeontx2
}
## Arm implementer ID (MIDR in Arm Architecture Reference Manual)
-implementer_generic = ['Generic armv8', flags_implementer_generic, part_number_config_arm]
-implementer_0x41 = ['Arm', flags_implementer_arm, part_number_config_arm]
-implementer_0x42 = ['Broadcom', flags_implementer_generic, part_number_config_arm]
-implementer_0x43 = ['Cavium', flags_implementer_cavium, part_number_config_cavium]
-implementer_0x44 = ['DEC', flags_implementer_generic, part_number_config_arm]
-implementer_0x49 = ['Infineon', flags_implementer_generic, part_number_config_arm]
-implementer_0x4d = ['Motorola', flags_implementer_generic, part_number_config_arm]
-implementer_0x4e = ['NVIDIA', flags_implementer_generic, part_number_config_arm]
-implementer_0x50 = ['Ampere Computing', flags_implementer_emag, part_number_config_emag]
-implementer_0x51 = ['Qualcomm', flags_implementer_generic, part_number_config_arm]
-implementer_0x53 = ['Samsung', flags_implementer_generic, part_number_config_arm]
-implementer_0x56 = ['Marvell ARMADA', flags_implementer_armada, part_number_config_arm]
-implementer_0x69 = ['Intel', flags_implementer_generic, part_number_config_arm]
-implementer_dpaa = ['NXP DPAA', flags_implementer_dpaa, part_number_config_arm]
+implementer_generic = ['Generic armv8', flags_implementer_generic]
+implementer_0x41 = ['Arm', flags_implementer_arm]
+implementer_0x42 = ['Broadcom', flags_implementer_generic]
+implementer_0x43 = ['Cavium', flags_implementer_cavium]
+implementer_0x44 = ['DEC', flags_implementer_generic]
+implementer_0x49 = ['Infineon', flags_implementer_generic]
+implementer_0x4d = ['Motorola', flags_implementer_generic]
+implementer_0x4e = ['NVIDIA', flags_implementer_generic]
+implementer_0x50 = ['Ampere Computing', flags_implementer_emag]
+implementer_0x51 = ['Qualcomm', flags_implementer_generic]
+implementer_0x53 = ['Samsung', flags_implementer_generic]
+implementer_0x56 = ['Marvell ARMADA', flags_implementer_armada]
+implementer_0x69 = ['Intel', flags_implementer_generic]
+implementer_dpaa = ['NXP DPAA', flags_implementer_dpaa]
dpdk_conf.set('RTE_ARCH_ARM', 1)
dpdk_conf.set('RTE_FORCE_INTRINSICS', 1)
@@ -154,69 +153,64 @@ if dpdk_conf.get('RTE_ARCH_32')
machine_args += '-mfpu=neon'
else
# aarch64 build
- implementer_id = 'generic'
- if machine == 'generic' and not meson.is_cross_build()
- implementer_config = implementer_generic
- part_number = 'generic'
- elif not meson.is_cross_build()
- # The script returns ['Implementer', 'Variant', 'Architecture',
- # 'Primary Part number', 'Revision']
- detect_vendor = find_program(join_paths(
- meson.current_source_dir(), 'armv8_machine.py'))
- cmd = run_command(detect_vendor.path())
- if cmd.returncode() == 0
- cmd_output = cmd.stdout().to_lower().strip().split(' ')
- implementer_id = cmd_output[0]
- part_number = cmd_output[3]
- endif
- # Set to generic if variable is not found
- implementer_config = get_variable('implementer_' + implementer_id, ['generic'])
- if implementer_config[0] == 'generic'
+ if not meson.is_cross_build()
+ if machine == 'generic'
+ # generic native build
implementer_config = implementer_generic
part_number = 'generic'
- endif
- if arm_force_native_march == true
- part_number = 'native'
+ target_machine_args = generic_machine_args
+ else
+ # native build
+ # The script returns ['Implementer', 'Variant', 'Architecture',
+ # 'Primary Part number', 'Revision']
+ detect_vendor = find_program(join_paths(
+ meson.current_source_dir(), 'armv8_machine.py'))
+ cmd = run_command(detect_vendor.path())
+ if cmd.returncode() == 0
+ cmd_output = cmd.stdout().to_lower().strip().split(' ')
+ implementer_id = cmd_output[0]
+ part_number = cmd_output[3]
+ else
+ error('Failed to get Arm MIDR information.')
+ endif
+ # Set to generic if implementer is not found
+ implementer_config = get_variable('implementer_' + implementer_id, implementer_generic)
+ target_machine_args = native_machine_args
endif
else
- implementer_id = meson.get_cross_property('implementer_id', 'generic')
- part_number = meson.get_cross_property('part_number', 'generic')
+ # cross build
+ implementer_id = meson.get_cross_property('implementer_id', '')
+ if implementer_id == ''
+ error('Arm implementer ID must be specified in the cross file.')
+ endif
implementer_config = get_variable('implementer_' + implementer_id)
+ part_number = meson.get_cross_property('part_number', '')
+ if part_number == ''
+ error('Arm part number must be specified in the cross file.')
+ elif part_number == 'generic'
+ target_machine_args = generic_machine_args
+ else
+ target_machine_args = part_number_machine_args[part_number]
+ endif
endif
message('Arm implementer: ' + implementer_config[0])
message('Arm part number: ' + part_number)
- part_number_config = implementer_config[2]
- if part_number_config.has_key(part_number)
- # use the specified part_number machine args if found
- part_number_config = part_number_config[part_number]
- elif not meson.is_cross_build()
- # default to generic machine args if part_number is not found
- # and not forcing native machine args
- # but don't default in cross-builds; if part_number is specified
- # incorrectly in a cross-file, it needs to be fixed there
- part_number_config = part_number_config['generic']
- else
- # doing cross build and part number is not in part_number_config
- error('Cross build part number 0@0 not found.'.format(part_number))
- endif
-
- # use default flags with implementer flags
dpdk_flags = flags_common_default + implementer_config[1]
- if part_number_config.length() > 1
- # add extra flags from the part number
- dpdk_flags += part_number_config[1]
+ if part_number_flags.has_key(part_number)
+ dpdk_flags += part_number_flags[part_number]
endif
# apply supported machine args
machine_args = [] # Clear previous machine args
- foreach flag: part_number_config[0]
+ foreach flag: target_machine_args
if cc.has_argument(flag)
machine_args += flag
endif
endforeach
+ # use default flags with implementer flags and part number flags
# apply flags
foreach flag: dpdk_flags
if flag.length() > 0