+
+ @staticmethod
+ def get_affinity_trex(
+ node, if1_pci, if2_pci, tg_mtc=1, tg_dtc=1, tg_ltc=1):
+ """Get affinity for T-Rex. Result will be used to pin T-Rex threads.
+
+ :param node: TG node.
+ :param if1_pci: TG first interface.
+ :param if2_pci: TG second interface.
+ :param tg_mtc: TG main thread count.
+ :param tg_dtc: TG dataplane thread count.
+ :param tg_ltc: TG latency thread count.
+ :type node: dict
+ :type if1_pci: str
+ :type if2_pci: str
+ :type tg_mtc: int
+ :type tg_dtc: int
+ :type tg_ltc: int
+ :returns: List of CPUs allocated to T-Rex including numa node.
+ :rtype: int, int, int, list
+ """
+ interface_list = [if1_pci, if2_pci]
+ cpu_node = Topology.get_interfaces_numa_node(node, *interface_list)
+
+ master_thread_id = CpuUtils.cpu_slice_of_list_per_node(
+ node, cpu_node, skip_cnt=0, cpu_cnt=tg_mtc,
+ smt_used=False)
+
+ threads = CpuUtils.cpu_slice_of_list_per_node(
+ node, cpu_node, skip_cnt=tg_mtc, cpu_cnt=tg_dtc,
+ smt_used=False)
+
+ latency_thread_id = CpuUtils.cpu_slice_of_list_per_node(
+ node, cpu_node, skip_cnt=tg_mtc + tg_dtc, cpu_cnt=tg_ltc,
+ smt_used=False)
+
+ return master_thread_id[0], latency_thread_id[0], cpu_node, threads
+
+ @staticmethod
+ def get_affinity_iperf(
+ node, pf_key, cpu_skip_cnt=0, cpu_cnt=1):
+ """Get affinity for iPerf3. Result will be used to pin iPerf3 threads.
+
+ :param node: Topology node.
+ :param pf_key: Topology interface.
+ :param cpu_skip_cnt: Amount of CPU cores to skip.
+ :param cpu_cnt: CPU threads count.
+ :type node: dict
+ :type pf_key: str
+ :type cpu_skip_cnt: int
+ :type cpu_cnt: int
+ :returns: List of CPUs allocated to iPerf3.
+ :rtype: str
+ """
+ if pf_key:
+ cpu_node = Topology.get_interface_numa_node(node, pf_key)
+ else:
+ cpu_node = 0
+
+ return CpuUtils.cpu_range_per_node_str(
+ node, cpu_node, skip_cnt=cpu_skip_cnt, cpu_cnt=cpu_cnt,
+ smt_used=False)
+
+ @staticmethod
+ def get_affinity_vhost(
+ node, pf_key, skip_cnt=0, cpu_cnt=1):
+ """Get affinity for vhost. Result will be used to pin vhost threads.
+
+ :param node: Topology node.
+ :param pf_key: Topology interface.
+ :param skip_cnt: Amount of CPU cores to skip.
+ :param cpu_cnt: CPU threads count.
+ :type node: dict
+ :type pf_key: str
+ :type skip_cnt: int
+ :type cpu_cnt: int
+ :returns: List of CPUs allocated to vhost process.
+ :rtype: str
+ """
+ if pf_key:
+ cpu_node = Topology.get_interface_numa_node(node, pf_key)
+ else:
+ cpu_node = 0
+
+ smt_used = CpuUtils.is_smt_enabled(node[u"cpuinfo"])
+ if smt_used:
+ cpu_cnt = cpu_cnt // CpuUtils.NR_OF_THREADS
+
+ return CpuUtils.cpu_slice_of_list_per_node(
+ node, cpu_node=cpu_node, skip_cnt=skip_cnt, cpu_cnt=cpu_cnt,
+ smt_used=False)
+
+ @staticmethod
+ def get_cpu_idle_list(node, cpu_node, smt_used, cpu_alloc_str, sep=u","):
+ """Get idle CPU List.
+
+ :param node: Node dictionary with cpuinfo.
+ :param cpu_node: Numa node number.
+ :param smt_used: True - we want to use SMT, otherwise false.
+ :param cpu_alloc_str: vpp used cores.
+ :param sep: Separator, default: ",".
+ :type node: dict
+ :type cpu_node: int
+ :type smt_used: bool
+ :type cpu_alloc_str: str
+ :type smt_used: bool
+ :type sep: str
+ :rtype: list
+ """
+ cpu_list = CpuUtils.cpu_list_per_node(node, cpu_node, smt_used)
+ cpu_idle_list = [i for i in cpu_list
+ if str(i) not in cpu_alloc_str.split(sep)]
+ return cpu_idle_list
+
+ @staticmethod
+ def get_affinity_vswitch(
+ nodes, node, phy_cores, rx_queues=None, rxd=None, txd=None):
+ """Get affinity for vswitch.
+
+ :param nodes: Topology nodes.
+ :param node: Topology node string.
+ :param phy_cores: Number of physical cores to allocate.
+ :param rx_queues: Number of RX queues. (Optional, Default: None)
+ :param rxd: Number of RX descriptors. (Optional, Default: None)
+ :param txd: Number of TX descriptors. (Optional, Default: None)
+ :type nodes: dict
+ :type node: str
+ :type phy_cores: int
+ :type rx_queues: int
+ :type rxd: int
+ :type txd: int
+ :returns: Compute resource information dictionary.
+ :rtype: dict
+ """
+ # Number of Data Plane physical cores.
+ dp_cores_count = BuiltIn().get_variable_value(
+ f"${{dp_cores_count}}", phy_cores
+ )
+ # Number of Feature Plane physical cores.
+ fp_cores_count = BuiltIn().get_variable_value(
+ f"${{fp_cores_count}}", phy_cores - dp_cores_count
+ )
+ # Ratio between RX queues and data plane threads.
+ rxq_ratio = BuiltIn().get_variable_value(
+ f"${{rxq_ratio}}", 1
+ )
+
+ dut_pf_keys = BuiltIn().get_variable_value(
+ f"${{{node}_pf_keys}}"
+ )
+ # SMT override in case of non standard test cases.
+ smt_used = BuiltIn().get_variable_value(
+ f"${{smt_used}}", CpuUtils.is_smt_enabled(nodes[node][u"cpuinfo"])
+ )
+
+ cpu_node = Topology.get_interfaces_numa_node(nodes[node], *dut_pf_keys)
+ skip_cnt = Constants.CPU_CNT_SYSTEM
+ cpu_main = CpuUtils.cpu_list_per_node_str(
+ nodes[node], cpu_node,
+ skip_cnt=skip_cnt,
+ cpu_cnt=Constants.CPU_CNT_MAIN,
+ smt_used=False
+ )
+ skip_cnt += Constants.CPU_CNT_MAIN
+ cpu_dp = CpuUtils.cpu_list_per_node_str(
+ nodes[node], cpu_node,
+ skip_cnt=skip_cnt,
+ cpu_cnt=int(dp_cores_count),
+ smt_used=smt_used
+ ) if int(dp_cores_count) else u""
+ skip_cnt = skip_cnt + int(dp_cores_count)
+ cpu_fp = CpuUtils.cpu_list_per_node_str(
+ nodes[node], cpu_node,
+ skip_cnt=skip_cnt,
+ cpu_cnt=int(fp_cores_count),
+ smt_used=smt_used
+ ) if int(fp_cores_count) else u""
+
+ fp_count_int = \
+ int(fp_cores_count) * CpuUtils.NR_OF_THREADS if smt_used \
+ else int(fp_cores_count)
+ dp_count_int = \
+ int(dp_cores_count) * CpuUtils.NR_OF_THREADS if smt_used \
+ else int(dp_cores_count)
+
+ rxq_count_int = rx_queues if rx_queues else int(dp_count_int/rxq_ratio)
+ rxq_count_int = 1 if not rxq_count_int else rxq_count_int
+
+ compute_resource_info = dict()
+ compute_resource_info[u"buffers_numa"] = 215040 if smt_used else 107520
+ compute_resource_info[u"smt_used"] = smt_used
+ compute_resource_info[u"cpu_main"] = cpu_main
+ compute_resource_info[u"cpu_dp"] = cpu_dp
+ compute_resource_info[u"cpu_fp"] = cpu_fp
+ compute_resource_info[u"cpu_wt"] = \
+ u",".join(filter(None, [cpu_dp, cpu_fp]))
+ compute_resource_info[u"cpu_alloc_str"] = \
+ u",".join(filter(None, [cpu_main, cpu_dp, cpu_fp]))
+ compute_resource_info[u"cpu_count_int"] = \
+ int(dp_cores_count) + int(fp_cores_count)
+ compute_resource_info[u"rxd_count_int"] = rxd
+ compute_resource_info[u"txd_count_int"] = txd
+ compute_resource_info[u"rxq_count_int"] = rxq_count_int
+ compute_resource_info[u"fp_count_int"] = fp_count_int
+ compute_resource_info[u"dp_count_int"] = dp_count_int
+
+ return compute_resource_info