2 files changed, 50 insertions, 14 deletions

diff --git a/tools/pkt_gen/moongen/moongen.py b/tools/pkt_gen/moongen/moongen.py
index 47f288a4..86a39a77 100644
--- a/tools/pkt_gen/moongen/moongen.py
+++ b/tools/pkt_gen/moongen/moongen.py
@@ -20,10 +20,11 @@ Moongen Traffic Generator Model
 """
 
 # python imports
-import logging
 from collections import OrderedDict
-import subprocess
+import logging
+import math
 import re
+import subprocess
 
 # VSPerf imports
 from conf import settings
@@ -49,6 +50,13 @@ class Moongen(ITrafficGenerator):
         self._moongen_user = settings.getValue('TRAFFICGEN_MOONGEN_USER')
         self._moongen_ports = settings.getValue('TRAFFICGEN_MOONGEN_PORTS')
 
+        if settings.getValue('TRAFFICGEN_MOONGEN_LINE_SPEED_GBPS') == '10':
+            self._moongen_line_speed = math.pow(10, 10)
+        else:
+            raise RuntimeError(
+                'MOONGEN: Invalid line speed in configuration ' + \
+                'file (today 10Gbps supported)')
+
     @property
     def traffic_defaults(self):
         """Default traffic values.
@@ -157,10 +165,17 @@ class Moongen(ITrafficGenerator):
         if one_shot:
             out_file.write("oneShot = true,\n")
 
-        # Assume 10G line rates at the moment.  Need to convert VSPERF
-        # frame_rate (percentage of line rate) to Mpps for Moongen
+        # Need to convert VSPERF frame_rate (percentage of line rate)
+        # to Mpps for Moongen
+        start_rate = str(
+            (traffic['frame_rate'] / 100) * (self._moongen_line_speed / \
+            (8 * (traffic['l2']['framesize'] + 20)) / math.pow(10, 6)))
+
+        logging.debug("startRate = " + start_rate)
+
+        out_file.write("startRate = " + \
+            start_rate + "\n")
 
-        out_file.write("startRate = " + str((traffic['frame_rate'] / 100) * 14.88) + "\n")
         out_file.write("}" + "\n")
         out_file.close()
 
@@ -473,10 +488,21 @@ class Moongen(ITrafficGenerator):
                     'PARAMETERS section of Moongen log file')
                 frame_size = 0
 
-        if results_match and parameters_match:
+            # Each packet stream in the MoonGen report is prefaced with the
+            # words '[REPORT]Device'.  Count the instances of this string to
+            # get the total aggregrate throughput.  For example:
+            #
+            # - If num_traffic_streams = 1, there is a single
+            #                               unidirectional stream
+            #
+            # - If num_traffic_streams = 2, there is a bidirectional
+            #                               traffic stream
+            num_traffic_streams = mytext.count('[REPORT]Device')
+
+        if results_match and parameters_match and num_traffic_streams:
             # Assume for now 10G link speed
-            max_theoretical_mfps = (
-                (10000000000 / 8) / (frame_size + 20))
+            max_theoretical_fps = (
+                num_traffic_streams * (10000000000 / 8) / (frame_size + 20))
 
             moongen_results[ResultsConstants.THROUGHPUT_RX_FPS] = (
                 float(results_match.group(6)) * 1000000)
@@ -485,8 +511,7 @@ class Moongen(ITrafficGenerator):
                 (float(results_match.group(6)) * frame_size + 20) * 8)
 
             moongen_results[ResultsConstants.THROUGHPUT_RX_PERCENT] = (
-                float(results_match.group(6)) * \
-                      1000000 / max_theoretical_mfps * 100)
+                (100 * float(results_match.group(6)) * 1000000) / max_theoretical_fps)
 
             moongen_results[ResultsConstants.TX_RATE_FPS] = (
                 float(results_match.group(5)) * 1000000)
@@ -495,8 +520,7 @@ class Moongen(ITrafficGenerator):
                 float(results_match.group(5)) * (frame_size + 20) * 8)
 
             moongen_results[ResultsConstants.TX_RATE_PERCENT] = (
-                float(results_match.group(5)) *
-                1000000 / max_theoretical_mfps * 100)
+                (100 * float(results_match.group(5)) * 1000000) / max_theoretical_fps)
 
             moongen_results[ResultsConstants.B2B_TX_COUNT] = (
                 float(results_match.group(1)))
diff --git a/tools/pkt_gen/xena/XenaDriver.py b/tools/pkt_gen/xena/XenaDriver.py
index aa8443c9..d3862312 100644
--- a/tools/pkt_gen/xena/XenaDriver.py
+++ b/tools/pkt_gen/xena/XenaDriver.py
@@ -1001,9 +1001,21 @@ class XenaTXStats(object):
         mydict = statdict
         return mydict
 
-
 def aggregate_stats(stat1, stat2):
     """
+    Judge whether stat1 and stat2 both have same key, if both have same key, 
+    call the aggregate fuction, else use the stat1's value
+    """
+    newstat = dict()
+    for keys in stat1.keys():
+        if keys in stat2 and isinstance(stat1[keys], dict):
+            newstat[keys] = aggregate(stat1[keys], stat2[keys])
+        else:
+            newstat[keys] = stat1[keys]
+    return newstat
+
+def aggregate(stat1, stat2):
+    """
     Recursive function to aggregate two sets of statistics. This is used when
     bi directional traffic is done and statistics need to be calculated based
     on two sets of statistics.
@@ -1014,7 +1026,7 @@ def aggregate_stats(stat1, stat2):
     newstat = dict()
     for (keys1, keys2) in zip(stat1.keys(), stat2.keys()):
         if isinstance(stat1[keys1], dict):
-            newstat[keys1] = aggregate_stats(stat1[keys1], stat2[keys2])
+            newstat[keys1] = aggregate(stat1[keys1], stat2[keys2])
         else:
             if not isinstance(stat1[keys1], int) and not isinstance(
                     [keys1], float):