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-rw-r--r--docs/development/design/design.rst17
-rw-r--r--docs/development/design/traffic_desc.rst7
-rw-r--r--docs/development/design/versioning.rst2
3 files changed, 16 insertions, 10 deletions
diff --git a/docs/development/design/design.rst b/docs/development/design/design.rst
index 6de6007..75b90f8 100644
--- a/docs/development/design/design.rst
+++ b/docs/development/design/design.rst
@@ -15,9 +15,11 @@ Introduction
NFVbench can be decomposed in the following components:
- Configuration
-- Staging
-- Traffic generation
-- Traffic generator results analysis
+- Orchestration:
+
+ - Staging
+ - Traffic generation
+ - Results analysis
Configuration
-------------
@@ -34,7 +36,7 @@ User configuration can come from:
- custom platform pluging
The precedence order for configuration is (from highest precedence to lowest precedence)
-- CLI confguration or REST configuration
+- CLI configuration or REST configuration
- custom platform plugin
- default configuration
@@ -43,6 +45,11 @@ with default platform options which can be either hardcoded or calculated at run
(such as platform deployment configuration files).
A custom platform plugin class is a child of the parent class nfvbench.config_plugin.ConfigPlugin.
+Orchestration
+-------------
+Once the configuration is settled, benchmark orchestration is managed by the ChainRunner class (nfvbench.chain_runner.ChainRunner).
+The chain runner will take care of orchestrating the staging, traffic generation and results analysis.
+
Staging
-------
@@ -57,7 +64,7 @@ Traffic Generation
The traffic generation component is in charge of contrilling the TRex traffic generator using its python API.
It includes tasks such as:
- traffic check end to end to make sure the packet path is clear in both directions before starting a benchmark
-- programming the Trex traffic flows based on requested parameters
+- programming the TRex traffic flows based on requested parameters
- fixed rate control
- NDR/PDR binary search
diff --git a/docs/development/design/traffic_desc.rst b/docs/development/design/traffic_desc.rst
index 2a40b6a..6442013 100644
--- a/docs/development/design/traffic_desc.rst
+++ b/docs/development/design/traffic_desc.rst
@@ -10,11 +10,10 @@ The general packet path model followed by NFVbench requires injecting traffic in
number of service chains, where each service chain is identified by 2 edge networks (left and right).
In the current multi-chaining model:
-- all service chains share the same left and right edge networks
-- each port associated to the traffic generator is dedicated to send traffic to one edge network
+- all service chains can either share the same left and right edge networks or can have their own edge networks
+- each port associated to the traffic generator is dedicated to send traffic to one side of the edge networks
-In an OpenStack deployment, this corresponds to all chains sharing the same 2 neutron networks.
-If VLAN encapsulation is used, all traffic sent to a port will have the same VLAN id.
+If VLAN encapsulation is used, all traffic sent to a port will either have the same VLAN id (shared networks) or distinct VLAN ids (dedicated egde networks)
Basic Packet Description
------------------------
diff --git a/docs/development/design/versioning.rst b/docs/development/design/versioning.rst
index 8103534..40e70f2 100644
--- a/docs/development/design/versioning.rst
+++ b/docs/development/design/versioning.rst
@@ -13,4 +13,4 @@ These git tags are applied indepently of the OPNFV release tags which are applie
In general it is recommeneded to always have a project git version tag associated to any OPNFV release tag content obtained from a sync from master.
-NFVbench Docker containers will be versioned based on the OPNF release tags or based on NFVbench project tags.
+NFVbench Docker containers will be versioned based on the NFVbench project tags.