# SPDX-License-Identifier: BSD-3-Clause # Copyright(c) 2017 Intel Corporation. # Copyright(c) 2017 Cavium, Inc # for checking defines we need to use the correct compiler flags march_opt = '-march=@0@'.format(machine) arm_force_native_march = false arm_force_default_march = (machine == 'default') flags_common = [ # Accelarate rte_memcpy. Be sure to run unit test (memcpy_perf_autotest) # to determine the best threshold in code. Refer to notes in source file # (lib/librte_eal/arm/include/rte_memcpy_64.h) for more info. ['RTE_ARCH_ARM64_MEMCPY', false], # ['RTE_ARM64_MEMCPY_ALIGNED_THRESHOLD', 2048], # ['RTE_ARM64_MEMCPY_UNALIGNED_THRESHOLD', 512], # Leave below RTE_ARM64_MEMCPY_xxx options commented out, unless there're # strong reasons. # ['RTE_ARM64_MEMCPY_SKIP_GCC_VER_CHECK', false], # ['RTE_ARM64_MEMCPY_ALIGN_MASK', 0xF], # ['RTE_ARM64_MEMCPY_STRICT_ALIGN', false], ['RTE_NET_FM10K', false], ['RTE_NET_AVP', false], ['RTE_SCHED_VECTOR', false], ['RTE_ARM_USE_WFE', false], ] flags_implementer_generic = [ ['RTE_MACHINE', '"armv8a"'], ['RTE_MAX_LCORE', 256], ['RTE_USE_C11_MEM_MODEL', true], ['RTE_CACHE_LINE_SIZE', 128]] flags_implementer_arm = [ ['RTE_MACHINE', '"armv8a"'], ['RTE_MAX_LCORE', 16], ['RTE_USE_C11_MEM_MODEL', true], ['RTE_CACHE_LINE_SIZE', 64]] flags_implementer_cavium = [ ['RTE_CACHE_LINE_SIZE', 128], ['RTE_MAX_NUMA_NODES', 2], ['RTE_MAX_LCORE', 96], ['RTE_MAX_VFIO_GROUPS', 128]] flags_implementer_dpaa = [ ['RTE_MACHINE', '"dpaa"'], ['RTE_USE_C11_MEM_MODEL', true], ['RTE_CACHE_LINE_SIZE', 64], ['RTE_MAX_NUMA_NODES', 1], ['RTE_MAX_LCORE', 16], ['RTE_LIBRTE_DPAA2_USE_PHYS_IOVA', false]] flags_implementer_emag = [ ['RTE_MACHINE', '"emag"'], ['RTE_CACHE_LINE_SIZE', 64], ['RTE_MAX_NUMA_NODES', 1], ['RTE_MAX_LCORE', 32]] flags_implementer_armada = [ ['RTE_MACHINE', '"armv8a"'], ['RTE_CACHE_LINE_SIZE', 64], ['RTE_MAX_NUMA_NODES', 1], ['RTE_MAX_LCORE', 16]] flags_part_number_default = [] flags_part_number_thunderx = [ ['RTE_MACHINE', '"thunderx"'], ['RTE_USE_C11_MEM_MODEL', false]] flags_part_number_thunderx2 = [ ['RTE_MACHINE', '"thunderx2"'], ['RTE_CACHE_LINE_SIZE', 64], ['RTE_MAX_NUMA_NODES', 2], ['RTE_MAX_LCORE', 256], ['RTE_ARM_FEATURE_ATOMICS', true], ['RTE_USE_C11_MEM_MODEL', true]] flags_part_number_octeontx2 = [ ['RTE_MACHINE', '"octeontx2"'], ['RTE_MAX_NUMA_NODES', 1], ['RTE_MAX_LCORE', 36], ['RTE_ARM_FEATURE_ATOMICS', true], ['RTE_EAL_IGB_UIO', false], ['RTE_USE_C11_MEM_MODEL', true]] flags_part_number_n1generic = [ ['RTE_MACHINE', '"neoverse-n1"'], ['RTE_MAX_LCORE', 64], ['RTE_CACHE_LINE_SIZE', 64], ['RTE_ARM_FEATURE_ATOMICS', true], ['RTE_USE_C11_MEM_MODEL', true], ['RTE_MAX_MEM_MB', 1048576], ['RTE_MAX_NUMA_NODES', 1], ['RTE_EAL_NUMA_AWARE_HUGEPAGES', false], ['RTE_LIBRTE_VHOST_NUMA', false]] flags_part_number_n2generic = [ ['RTE_MACHINE', '"neoverse-n2"'], ['RTE_MAX_LCORE', 64], ['RTE_CACHE_LINE_SIZE', 64], ['RTE_ARM_FEATURE_ATOMICS', true], ['RTE_USE_C11_MEM_MODEL', true], ['RTE_EAL_NUMA_AWARE_HUGEPAGES', false], ['RTE_LIBRTE_VHOST_NUMA', false]] 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+crypto', '-mcpu=neoverse-n1'], flags_part_number_n1generic], ['0xd49', ['-march=armv8.5-a+crypto+sve2'], flags_part_number_n2generic]] 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_config_emag = [ ['generic', ['-march=armv8-a+crc+crypto', '-mtune=emag']], ['native', ['-march=native']]] ## Arm implementer ID (ARM DDI 0487C.a, Section G7.2.106, Page G7-5321) 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] dpdk_conf.set('RTE_ARCH_ARM', 1) dpdk_conf.set('RTE_FORCE_INTRINSICS', 1) if dpdk_conf.get('RTE_ARCH_32') dpdk_conf.set('RTE_CACHE_LINE_SIZE', 64) dpdk_conf.set('RTE_ARCH_ARMv7', 1) # the minimum architecture supported, armv7-a, needs the following, # mk/machine/armv7a/rte.vars.mk sets it too machine_args += '-mfpu=neon' else dpdk_conf.set('RTE_CACHE_LINE_SIZE', 128) dpdk_conf.set('RTE_ARCH_ARM64', 1) implementer_config = [] cmd_generic = ['generic', '', '', 'generic', ''] cmd_output = cmd_generic # Set generic by default machine_args = [] # Clear previous machine args if arm_force_default_march 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(' ') endif # Set to generic if variable is not found implementer_config = get_variable('implementer_' + cmd_output[0], ['generic']) if implementer_config[0] == 'generic' implementer_config = implementer_generic cmd_output = cmd_generic endif part_number = cmd_output[3] if arm_force_native_march == true part_number = 'native' endif else implementer_id = meson.get_cross_property('implementer_id', 'generic') part_number = meson.get_cross_property('part_number', 'generic') implementer_config = get_variable('implementer_' + implementer_id) endif # Apply Common Defaults. These settings may be overwritten by machine # settings later. foreach flag: flags_common if flag.length() > 0 dpdk_conf.set(flag[0], flag[1]) endif endforeach message('Implementer : ' + implementer_config[0]) foreach flag: implementer_config[1] if flag.length() > 0 dpdk_conf.set(flag[0], flag[1]) endif endforeach foreach marg: implementer_config[2] if marg[0] == part_number foreach flag: marg[1] if cc.has_argument(flag) machine_args += flag endif endforeach # Apply any extra machine specific flags. foreach flag: marg.get(2, flags_part_number_default) if flag.length() > 0 dpdk_conf.set(flag[0], flag[1]) endif endforeach endif endforeach endif message(machine_args) if (cc.get_define('__ARM_NEON', args: machine_args) != '' or cc.get_define('__aarch64__', args: machine_args) != '') compile_time_cpuflags += ['RTE_CPUFLAG_NEON'] endif if cc.get_define('__ARM_FEATURE_CRC32', args: machine_args) != '' compile_time_cpuflags += ['RTE_CPUFLAG_CRC32'] endif if cc.get_define('__ARM_FEATURE_CRYPTO', args: machine_args) != '' compile_time_cpuflags += ['RTE_CPUFLAG_AES', 'RTE_CPUFLAG_PMULL', 'RTE_CPUFLAG_SHA1', 'RTE_CPUFLAG_SHA2'] endif