- # The following code applies raw instructions to packet (IP src increment).
- # It splits the generated traffic by "ip_src" variable to cores
- vm1 = STLScVmRaw([STLVmFlowVar(name="ipv6_src",
- min_value=base_p1,
- max_value=max_p1+base_p1,
- size=8, op="inc"),
- STLVmWrFlowVar(fv_name="ipv6_src", pkt_offset="IPv6.src",
- offset_fixup=8)
- ]
- , split_by_field="ipv6_src")
-
- # The following code applies raw instructions to packet (IP src increment).
- # It splits the generated traffic by "ip_src" variable to cores
- vm2 = STLScVmRaw([STLVmFlowVar(name="ipv6_src",
- min_value=base_p2,
- max_value=max_p2+base_p2,
- size=8, op="inc"),
- STLVmWrFlowVar(fv_name="ipv6_src", pkt_offset="IPv6.src",
- offset_fixup=8)
- ]
- , split_by_field="ipv6_src")
-
- pkt_a = STLPktBuilder(pkt=base_pkt_a/generate_payload(
- max(0, fsize_no_fcs-len(base_pkt_a))), vm=vm1)
- pkt_b = STLPktBuilder(pkt=base_pkt_b/generate_payload(
- max(0, fsize_no_fcs-len(base_pkt_b))), vm=vm2)
-
- return(pkt_a, pkt_b)
-
-
-def simple_burst(pkt_a, pkt_b, duration, rate, warmup_time, async_start):
+ # The following code applies raw instructions to packet (IP src/dst
+ # increment). It splits the generated traffic by "ip_src"/"ip_dst" variable
+ # to cores.
+ if p1_dst_end_ip and p2_dst_end_ip:
+ base_p1, max_p1 = get_start_end_ipv6(p1_dst_start_ip, p1_dst_end_ip)
+ base_p2, max_p2 = get_start_end_ipv6(p2_dst_start_ip, p2_dst_end_ip)
+
+ vm1 = STLScVmRaw([STLVmFlowVar(name="ipv6_dst",
+ min_value=base_p1,
+ max_value=max_p1+base_p1,
+ size=8, op="inc"),
+ STLVmWrFlowVar(fv_name="ipv6_dst",
+ pkt_offset="IPv6.dst",
+ offset_fixup=8)
+ ]
+ , split_by_field="ipv6_dst")
+ vm2 = STLScVmRaw([STLVmFlowVar(name="ipv6_dst",
+ min_value=base_p2,
+ max_value=max_p2+base_p2,
+ size=8, op="inc"),
+ STLVmWrFlowVar(fv_name="ipv6_dst",
+ pkt_offset="IPv6.dst",
+ offset_fixup=8)
+ ]
+ , split_by_field="ipv6_dst")
+ else:
+ base_p1, max_p1 = get_start_end_ipv6(p1_src_start_ip, p1_src_end_ip)
+ base_p2, max_p2 = get_start_end_ipv6(p2_src_start_ip, p2_src_end_ip)
+
+ vm1 = STLScVmRaw([STLVmFlowVar(name="ipv6_src",
+ min_value=base_p1,
+ max_value=max_p1+base_p1,
+ size=8, op="inc"),
+ STLVmWrFlowVar(fv_name="ipv6_src",
+ pkt_offset="IPv6.src",
+ offset_fixup=8)
+ ]
+ , split_by_field="ipv6_src")
+ vm2 = STLScVmRaw([STLVmFlowVar(name="ipv6_src",
+ min_value=base_p2,
+ max_value=max_p2+base_p2,
+ size=8, op="inc"),
+ STLVmWrFlowVar(fv_name="ipv6_src",
+ pkt_offset="IPv6.src",
+ offset_fixup=8)
+ ]
+ , split_by_field="ipv6_src")
+
+ return create_streams_v46(base_pkt_a, base_pkt_b, vm1, vm2, frame_size)
+
+def fmt_latency(lat_min, lat_avg, lat_max):
+ """ Return formatted, rounded latency
+
+ :param lat_min: Min latency
+ :param lat_avg: Average latency
+ :param lat_max: Max latency
+ :type lat_min: string
+ :type lat_avg: string
+ :type lat_max: string
+ :return: Formatted and rounded output "min/avg/max"
+ :rtype: string
+ """
+
+ try:
+ t_min = int(round(float(lat_min)))
+ except ValueError:
+ t_min = int(-1)
+ try:
+ t_avg = int(round(float(lat_avg)))
+ except ValueError:
+ t_avg = int(-1)
+ try:
+ t_max = int(round(float(lat_max)))
+ except ValueError:
+ t_max = int(-1)
+
+ return "/".join(str(tmp) for tmp in (t_min, t_avg, t_max))
+
+def simple_burst(stream_a, stream_b, stream_lat_a, stream_lat_b, duration, rate,
+ warmup_time, async_start, latency):