- for vpci_idx, interface in enumerate(self.vnfd_helper.interfaces):
- name = "xe{0}".format(vpci_idx)
- samples[name] = {
- "rx_throughput_kps": float(last_result["Rx_Rate_Kbps"][vpci_idx]),
- "tx_throughput_kps": float(last_result["Tx_Rate_Kbps"][vpci_idx]),
- "rx_throughput_mbps": float(last_result["Rx_Rate_Mbps"][vpci_idx]),
- "tx_throughput_mbps": float(last_result["Tx_Rate_Mbps"][vpci_idx]),
- "in_packets": int(last_result["Valid_Frames_Rx"][vpci_idx]),
- "out_packets": int(last_result["Frames_Tx"][vpci_idx]),
- "RxThroughput": int(last_result["Valid_Frames_Rx"][vpci_idx]) / 30,
- "TxThroughput": int(last_result["Frames_Tx"][vpci_idx]) / 30,
- }
+ # this is not DPDK port num, but this is whatever number we gave
+ # when we selected ports and programmed the profile
+ for port_num in ports:
+ try:
+ # reverse lookup port name from port_num so the stats dict is descriptive
+ intf = self.vnfd_helper.find_interface_by_port(port_num)
+ port_name = intf["name"]
+ samples[port_name] = {
+ "rx_throughput_kps": float(last_result["Rx_Rate_Kbps"][port_num]),
+ "tx_throughput_kps": float(last_result["Tx_Rate_Kbps"][port_num]),
+ "rx_throughput_mbps": float(last_result["Rx_Rate_Mbps"][port_num]),
+ "tx_throughput_mbps": float(last_result["Tx_Rate_Mbps"][port_num]),
+ "in_packets": int(last_result["Valid_Frames_Rx"][port_num]),
+ "out_packets": int(last_result["Frames_Tx"][port_num]),
+ "RxThroughput": int(last_result["Valid_Frames_Rx"][port_num]) / 30,
+ "TxThroughput": int(last_result["Frames_Tx"][port_num]) / 30,
+ }
+ if key:
+ avg_latency = latency["Store-Forward_Avg_latency_ns"][port_num]
+ min_latency = latency["Store-Forward_Min_latency_ns"][port_num]
+ max_latency = latency["Store-Forward_Max_latency_ns"][port_num]
+ samples[port_name][key] = \
+ {"Store-Forward_Avg_latency_ns": avg_latency,
+ "Store-Forward_Min_latency_ns": min_latency,
+ "Store-Forward_Max_latency_ns": max_latency}
+ except IndexError:
+ pass