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authorVratko Polak <vrpolak@cisco.com>2021-02-09 18:18:12 +0100
committerTibor Frank <tifrank@cisco.com>2021-02-10 11:59:11 +0000
commit24012f71b90d48dbaab941a8815427bbf54ba5c1 (patch)
tree1366aa4dbe28e7db6f5ecd8e33a281609d854c75 /docs
parent72f18772740b0dde1ed6e44d740f8456ce0546e9 (diff)
Methodology: Add NAT44ed tput tests
Change-Id: I22a38ca98cb0aa4bac9a03d3943e807c26ce4474 Signed-off-by: Vratko Polak <vrpolak@cisco.com>
Diffstat (limited to 'docs')
-rw-r--r--docs/report/introduction/methodology_nat44.rst26
1 files changed, 12 insertions, 14 deletions
diff --git a/docs/report/introduction/methodology_nat44.rst b/docs/report/introduction/methodology_nat44.rst
index ba12f7d49b..29b7dfdf24 100644
--- a/docs/report/introduction/methodology_nat44.rst
+++ b/docs/report/introduction/methodology_nat44.rst
@@ -128,15 +128,6 @@ NAT44det scenario tested:
NAT44 Endpoint-Dependent
^^^^^^^^^^^^^^^^^^^^^^^^
-..
- TODO: Is it possible to test a NAT44ed scenario where the outside source
- address and port is limited to just one value?
- In theory, as long as every inside source address&port traffic
- uses a different destination address&port, there will be no conflicts,
- and we could use bidirectional stateless profiles.
- Possibly, VPP requires some amount of outside source address&port
- to remain unused for security reasons. But we can try to see what happens.
-
In order to excercise NAT44ed ability to translate based on both
source and destination address and port, the inside-to-outside traffic
varies also destination address and port. Destination port is the same
@@ -154,13 +145,17 @@ Therefore, NAT44ed is benchmarked using following methodologies:
- Unidirectional throughput using *stateless* traffic profile.
- Connections-per-second using *stateful* traffic profile.
- Bidirectional PPS (see below) using *stateful* traffic profile.
+- Bidirectional throughput (see below) using *stateful* traffic profile.
Unidirectional NAT44ed throughput tests are using TRex STL (Stateless)
APIs and traffic profiles, but with packets sent only in
inside-to-outside direction.
Similarly to NAT44det, NAT44ed unidirectional throughput tests include
a ramp-up phase to establish and verify the presence of required NAT44ed
-binding entries.
+binding entries. As the sessions have finite duration, the test code
+keeps inserting ramp-up trials during the search, if it detects a risk
+of sessions timing out. Any zero loss trial visits all sessions,
+so it acts also as a ramp-up.
Stateful NAT44ed tests are using TRex ASTF (Advanced Stateful) APIs and
traffic profiles, with packets sent in both directions. Tests are run
@@ -168,7 +163,9 @@ with both UDP and TCP/IP sessions.
As both NAT44ed CPS (connections-per-second) and PPS (packets-per-second)
stateful tests measure (also) session opening performance,
they use state reset instead of ramp-up trial.
-That is also the reason why PPS tests are not called throughput tests.
+NAT44ed bidirectional throughput tests use the same traffic profile
+as PPS tests, but also prepend ramp-up trials as in the unidirectional tests,
+so the test results describe performance without session opening overhead.
Associated CSIT test cases use the following naming scheme to indicate
NAT44det case tested:
@@ -182,15 +179,16 @@ NAT44det case tested:
- udir-[mrr|ndrpdr|soak], unidirectional stateless tests MRR, NDRPDR
or SOAK.
-- Stateful: ethip4[udp|tcp]-nat44ed-h{H}-p{P}-s{S}-[cps|pps]-[mrr|ndrpdr]
+- Stateful: ethip4[udp|tcp]-nat44ed-h{H}-p{P}-s{S}-[cps|pps|tput]-[mrr|ndrpdr]
- [udp|tcp], UDP or TCP/IP sessions
- {H}, number of inside hosts, H = 1024, 4096, 16384, 65536, 262144.
- {P}, number of ports per inside host, P = 63.
- {S}, number of sessions, S = 64512, 258048, 1032192, 4128768,
16515072.
- - [cps|pps], connections-per-second session establishment rate or
- packets-per-second average rate.
+ - [cps|pps|tput], connections-per-second session establishment rate or
+ packets-per-second average rate, or packets-per-second rate
+ without session establishment.
- [mrr|ndrpdr], bidirectional stateful tests MRR, NDRPDR.
Stateful traffic profiles