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-rw-r--r--docs/report/introduction/methodology_nat44.rst238
1 files changed, 230 insertions, 8 deletions
diff --git a/docs/report/introduction/methodology_nat44.rst b/docs/report/introduction/methodology_nat44.rst
index 198837d17d..484bf3d493 100644
--- a/docs/report/introduction/methodology_nat44.rst
+++ b/docs/report/introduction/methodology_nat44.rst
@@ -91,7 +91,7 @@ NAT44 session scale tested is govern by the following logic:
NAT44 Deterministic
^^^^^^^^^^^^^^^^^^^
-NAT44det throughput tests are using TRex STL (Stateless) API and traffic
+NAT44det performance tests are using TRex STL (Stateless) API and traffic
profiles, similar to all other stateless packet forwarding tests like
ip4, ip6 and l2, sending UDP packets in both directions
inside-to-outside and outside-to-inside. See
@@ -102,10 +102,10 @@ and port (1024).
The inside-to-outside traffic covers whole inside address and port range,
the outside-to-inside traffic covers whole outside address and port range.
-NAT44det translation entries are created during the ramp-up phase
-preceding the throughput test, followed by verification that all entries
-are present, before proceeding to the throughput test. This ensures
-session setup does not impact the forwarding performance test.
+NAT44det translation entries are created during the ramp-up phase,
+followed by verification that all entries are present,
+before proceeding to the main measurements of the test.
+This ensures session setup does not impact the forwarding performance test.
Associated CSIT test cases use the following naming scheme to indicate
NAT44det scenario tested:
@@ -169,7 +169,7 @@ they use state reset instead of ramp-up trial.
That is also the reason why PPS tests are not called throughput tests.
Associated CSIT test cases use the following naming scheme to indicate
-NAT44DET case tested:
+NAT44det case tested:
- Stateless: ethip4udp-nat44ed-h{H}-p{P}-s{S}-udir-[mrr|ndrpdr|soak]
@@ -188,26 +188,248 @@ NAT44DET case tested:
- {S}, number of sessions, S = 64512, 258048, 1032192, 4128768,
16515072.
- [cps|pps], connections-per-second session establishment rate or
- packets-per-second throughput rate.
+ packets-per-second average rate.
- [mrr|ndrpdr], bidirectional stateful tests MRR, NDRPDR.
Stateful traffic profiles
^^^^^^^^^^^^^^^^^^^^^^^^^
-WiP.
+There are several important detais which distinguish ASTF profiles
+from stateless profiles.
+
+General considerations
+~~~~~~~~~~~~~~~~~~~~~~
+
+Protocols
+_________
+
+ASTF profiles are limited to either UDP or TCP protocol.
+
+Programs
+________
+
+Each template in the profile defines two "programs", one for client side
+and one for server side. Each program specifies when that side has to wait
+until enough data is received (counted in packets for UDP and in bytes for TCP)
+and when to send additional data. Together, the two programs
+define a single transaction. Due to packet loss, transaction may take longer,
+use more packets (retransmission) or never finish in its entirety.
+
+Instances
+_________
+
+Client instance is created according to TPS parameter for the trial,
+and sends the first packet of the transaction (in some cases more packets).
+Server instance is created when first packet arrives on server side,
+each instance has different address or port.
+When a program reaches its end, the instance is deleted.
+
+This creates possible issues with server instances. If the server instance
+does not read all the data client has sent, late data packets
+can cause second copy of server instance to be created,
+which breaks assumptions on how many packet a transaction should have.
+
+The need for server instances to read all the data reduces the overall
+bandwidth TRex is able to create in ASTF mode.
+
+Note that client instances are not created on packets,
+so it is safe to end client program without reading all server data
+(unless the definition of transaction success requires that).
+
+Sequencing
+__________
+
+ASTF profiles offer two modes for choosing source and destination IP addresses
+for client programs: seqential and pseudorandom.
+In current tests we are using sequential addressing only (if destination
+address varies at all).
+
+For choosing client source UDP/TCP port, there is only one mode.
+We have not investigated whether it results in sequential or pseudorandom order.
+
+For client destination UDP/TCP port, we use a constant value,
+as typical TRex usage pattern binds the server instances (of the same program)
+to a single port. (If profile defines multiple server programs, different
+programs use different ports.)
+
+Transaction overlap
+___________________
+
+If a transaction takes longer to finish, compared to period implied by TPS,
+TRex will have multiple client or server instances active at a time.
+
+During calibration testing we have found this increases CPU utilization,
+and for high TPS it can lead to TRex's Rx or Tx buffers becoming full.
+This generally leads to duration stretching, and/or packet loss on TRex.
+
+Currently used transactions were chosen to be short, so risk of bad behavior
+is decreased. But in MRR tests, where load is computed based on NIC ability,
+not TRex ability, anomalous behavior is still possible.
+
+Delays
+______
+
+TRex supports adding constant delays to ASTF programs.
+This can be useful, for example if we want to separate connection establishment
+from data transfer.
+
+But as TRex tracks delayed instances as active, this still results
+in higher CPU utilization and reduced performance issues
+(as other overlaping transactions). So the current tests do not use any delays.
+
+Keepalives
+__________
+
+Both UDP and TCP protocol implementations in TRex programs support keepalive
+duration. That means there is a configurable period of keepalive time,
+and TRex sends keepalive packets automatically (outside the program)
+for the time the program is active (started, not ended yet)
+but not sending any packets.
+
+For TCP this is generally not a big deal, as the other side usually
+retransmits faster. But for UDP it means a packet loss may leave
+the receiving program running.
+
+In order to avoid keepalive packets, keepalive value is set to a high number.
+Here, "high number" means that even at maximum scale and minimum TPS,
+there are still no keepalive packets sent within the corresponding
+(computed) trial duration. This number is kept the same also for
+smaller scale traffic profiles, to simplify maintenance.
+
+Transaction success
+___________________
+
+The transaction is considered successful at Layer-7 (L7) level
+when both program instances close. At this point, various L7 counters
+(unofficial name) are updated on TRex.
+
+We found that proper close and L7 counter update can be CPU intensive,
+whereas lower-level counters (ipackets, opackets) called L2 counters
+can keep up with higher loads.
+
+For some tests, we do not need to confirm the whole transaction was successful.
+CPS (connections per second) tests are a typical example.
+We care only for NAT44ed creating a session (needs one packet in inside-to-outside
+direction per session) and being able to use it (needs one packet
+in outside-to-inside direction).
+
+Similarly in PPS (packets per second, combining session creation
+with data transfer) tests, we care about NAT44ed ability to forward packets,
+we do not care whether aplications (TRex) can fully process them at that rate.
+
+Therefore each type of tests has its own formula (usually just one counter
+already provided by TRex) to count "successful enough" transactions
+and attempted transactions. Currently, all tests relying on L7 counters
+use size-limited profiles, so they know what the count of attempted
+transactions should be, but due to duration stretching
+TRex might have been unable to send that many packets.
+For search purposes, unattempted transactions are treated the same
+as attemted byt failed transactions.
+
+Sometimes even the number of transactions as tracked by search algorithm
+does not match the transactions as defined by ASTF programs.
+See PPS profiles below.
UDP CPS
~~~~~~~
+This profile uses a minimalistic transaction to verify NAT44ed session has been
+created and it allows outside-to-inside traffic.
+
+Client instance sends one packet and ends.
+Server instance sends one packet upon creation and ends.
+
+In principle, packet size is configurable,
+but currently used tests apply only one value (64 bytes frame).
+
+Transaction counts as attempted when opackets counter increases on client side.
+Transaction counts as successful when ipackets counter increases on client side.
+
TCP CPS
~~~~~~~
+This profile uses a minimalistic transaction to verify NAT44ed session has been
+created and it allows outside-to-inside traffic.
+
+Client initiates TCP connection. Client waits until connection is confirmed
+(by reading zero data bytes). Client ends.
+Server accepts the connection. Server waits for indirect confirmation
+from client (by waiting for client to initiate close). Server ends.
+
+Without packet loss, the whole transaction takes 7 packets to finish
+(4 and 3 per direction, respectively).
+From NAT44ed point of view, only the first two are needed to verify
+the session got created.
+
+Packet size is not configurable, but currently used tests report
+frame size as 64 bytes.
+
+Transaction counts as attempted when tcps_connattempt counter increases
+on client side.
+Transaction counts as successful when tcps_connects counter increases
+on client side.
+
UDP PPS
~~~~~~~
+This profile uses a small transaction of "request-response" type,
+with several packets simulating data payload.
+
+Client sends 33 packets and closes immediately.
+Server reads all 33 packets (needed to avoid late packets creating new
+server instances), then sends 33 packets and closes.
+The value 33 was chosen ad-hoc (1 "protocol" packet and 32 "data" packets).
+It is possible other values would still be safe from avoiding overlapping
+transactions point of view.
+
+..
+ TODO: 32 was chosen as it is a batch size DPDK driver puts on the PCIe bus
+ at a time. May want to verify this with TRex ASTF devs and see if better
+ UDP transaction sizes can be found to yield higher performance out of TRex.
+
+In principle, packet size is configurable,
+but currently used tests apply only one value (64 bytes frame)
+for both "protocol" and "data" packets.
+
+As this is a PPS tests, we do not track the big 66 packet transaction.
+Similarly to stateless tests, we treat each packet as a "transaction"
+for search algorthm purposes. Therefore a "transaction" is attempted
+when opacket counter on client or server side is increased.
+Transaction is successful if ipacket counter on client or server side
+is increased.
+
+If one of 33 client packets is lost, server instance will get stuck
+in the reading phase. This probably decreases TRex performance,
+but it leads to more stable results.
+
TCP PPS
~~~~~~~
+This profile uses a small transaction of "request-response" type,
+with some data size to be transferred both ways.
+
+Client connects, sends 11111 bytes of data, receives 11111 of data and closes.
+Server accepts connection, reads 11111 bytes of data, sends 11111 bytes
+of data and closes.
+Server read is needed to avoid premature close and second server instance.
+Client read is not stricly needed, but acks help TRex to close server quickly,
+thus saving CPU and improving performance.
+
+The value of 11111 bytes was chosen ad-hoc. It leads to 22 packets
+(11 each direction) to be exchanged if no loss occurs.
+In principle, size of data packets is configurable via setting
+maximum segment size. Currently that is not applied, so the TRex default value
+(1460 bytes) is used, while the test name still (wrongly) mentions
+64 byte frame size.
+
+Exactly as in UDP_PPS, ipackets and opackets counters are used for counting
+"transactions" (in fact packets).
+
+If packet loss occurs, there is large transaction overlap, even if most
+ASTF programs finish eventually. This leads to big duration stretching
+and somehow uneven rate of packets sent. This makes it hard to interpret
+MRR results, but NDR and PDR results tend to be stable enough.
+
Ip4base tests
^^^^^^^^^^^^^