Difference between revisions of "Dumbbell-vicn"
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* vICN (Install instructions are [https://wiki.fd.io/view/Vicn here]) | * vICN (Install instructions are [https://wiki.fd.io/view/Vicn here]) | ||
− | * LXC image with the full CICN [https://cisco.box.com/shared/static/ | + | * LXC image with the full CICN [https://cisco.box.com/shared/static/jozkxqqjm0qbwcl414myp9whbn4cix5o.gz suite] |
=== How to === | === How to === | ||
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First (if you have not already done it), install the LXC CICN image: | First (if you have not already done it), install the LXC CICN image: | ||
− | $ wget https://cisco.box.com/shared/static/ | + | $ wget https://cisco.box.com/shared/static/jozkxqqjm0qbwcl414myp9whbn4cix5o.gz -O ubuntu1604-cicnsuite-rc4.tar.gz --delete-after |
$ lxc image import ubuntu1604-cicnsuite-rc4.tar.gz ubuntu1604-cicnsuite-rc4 | $ lxc image import ubuntu1604-cicnsuite-rc4.tar.gz ubuntu1604-cicnsuite-rc4 | ||
Latest revision as of 13:43, 25 October 2017
Contents
Setup a Dumbbell topology using vICN
This example shows how to create and set up a typical Dumbbell topology using vICN:
+-----+ +-----+ |cons1|---------+ +---------|prod1| +-----+ | | +-----+ +-----+ | | +-----+ |cons2|-------+ | | +-------|prod2| +-----+ | | | | +-----+ +-----+ +--+--+ +--+--+ +-----+ |cons3|------|core1|----------|core2|------|prod3| +-----+ +--+--+ +--+--+ +-----+ +-----+ | | | | +-----+ |cons4|-------+ | | +-------|prod4| +-----+ | | +-----+ +-----+ | | +-----+ |cons5|---------+ +---------|prod5| +-----+ +-----+
- Each node is deployed as an LXC container
- cons1, cons2, cons3, cons4, cons5 run an instance of Metis
- core1 and core2 run the CICN plugin for VPP
- prod1, prod2, prod3, prod4, prod5 run an instance of Metis
Deploying the topology
Requirements
How to
To setup the topology:
First (if you have not already done it), install the LXC CICN image:
$ wget https://cisco.box.com/shared/static/jozkxqqjm0qbwcl414myp9whbn4cix5o.gz -O ubuntu1604-cicnsuite-rc4.tar.gz --delete-after $ lxc image import ubuntu1604-cicnsuite-rc4.tar.gz ubuntu1604-cicnsuite-rc4
Update the MAC and PCI addresses of the DPDK interfaces in the tutorial02-dumbell.json. The mac address must be the actual mac address of the DPDK interfaces in the server.
You can now run the topology:
$ ./vicn/bin/vicn.py -s examples/tutorial/tutorial02-dumbell.json
Understanding the dumbbell.json file
Most of the resources reported in the tutorial02-dumbbell.json
file are already explained here. In the following, we walk through the vICN resources that are required to set up the two core nodes running the cicn-plugin and the connectivity among the containers. A detailed explanation of the attributes of each resource is given at the end of the tutorial.
Cores
Each of the two cores, core1
and core2
, is composed of the following resources:
- One
LxcContainer
- The LXC container used to emulate the node.
- Two
DpdkInterface
- These resources describe the two DPDK interfaces that connect the core node to the bridge and to the other core node.
- One
VPP
- This resource describes a VPP forwarder.
- One
CICNForwarder
- This resource describes the CICN plugin for the VPP forwarder.
The following code shows the list of vICN resources to deploy and set up core1
and core2
.
{ "type": "LxcContainer", "node": "server", "name": "core1", "groups": ["topology"], "image": "lxcimage" }, { "type": "VPP", "node": "core1", "name": "core1-vpp" }, { "type": "DpdkDevice", "node": "core1", "device_name": "GigabitEthernet0/9/0", "pci_address": "0000:00:09.0", "mac_address": "08:00:27:d1:b5:d1", "name": "core1-dpdk1" }, { "type": "CICNForwarder", "node": "core1", "name": "core1-fwd" } { "type": "LxcContainer", "node": "server", "name": "core2", "groups": ["topology"], "image": "lxcimage" }, { "type": "VPP", "node": "core2", "name": "core2-vpp" }, { "type": "DpdkDevice", "node": "core2", "device_name": "GigabitEthernet0/a/0", "pci_address": "0000:00:0a.0", "mac_address": "08:00:27:8c:e3:49", "name": "core1-dpdk1" }, { "type": "CICNForwarder", "node": "core2", "name": "core2-fwd" }
Connectivity
To connect the two cores together, it is required to use a link type resource. vICN provides three different types of link resources to connect two LXC containers running VPP and the cicn-plugin:
- PhyLink
- MemifLink
- Link
In tutorial02-dumbell.json
we show how to use a PhyLink
.
PhyLink
A PhyLink
resource represents a physical link that connects two LXC containers. A PhyLink requires two DpdkDevice
, the two endpoints of the link.
In the tutorial02-dumbell.json
, core1-dpdk1
and core2-dpdk1
belong to core1
core2
respectively, and they identify the DPDK nics with the pci addresses equal to 0000:00:09.0 and 0000:00:0a.0. Those two nics are connected through a cable and the PhyLink
resource represents such physical connection.
In the tutorial02-dumbell.json
, the definition of the PhyLink
resource for <core1> and <core2> is the following:
{ "type": "PhyLink", "src": "core1-dpdk1", "dst": "core2-dpdk1", "groups": ["topology"] }
MemifLink
If there are no DPDK nics available, a convenient way for connecting two LXC containers runnig VPP and the cicn-plugin is to use a MemifLink
resource. Such resource connects two containers through VPP MemIf interfaces. Those interfaces exploits a shared memory between the two VPP forwarders to provide a userspace implementation of zero-copy interfaces. As a consequence they can only be used between LXC containers running on the same server.
A MemIfLink resource requires the name of two node to connect:
{ "type": "MemifLink", "src_node": "core1", "dst_node": "core2", "groups": ["topology"] }
Link
A third option to connect two LXC containers runnig VPP and the cicn-plugin is to use a Link
resource. A Link
resource connects two containers using interfaces handled by the linux kernel. Such resource is useful to a container running VPP and the cicn-plugin wih a container runnig metis.
We discourage to use a Link
resource to connect two LXC containers running VPP and the cicn-plugin, as they do not allow to achieve high troughput due to the interaction of VPP with the kernel.
A Link resource requires the name of two node to connect. In the tutorial02-dumbell.json
we use them to connect each producer and consumer to core1
or core2
:
{ "type": "Link", "src_node": "cons1", "dst_node": "core1", "groups": ["topology"] }
Attributes description
-
LxcContainer
- Details for such resource can be found [here]
-
DpdkInterface
- Attributes:
-
node
: the node that controls the DPDK interface. -
device_name
: the name of the DPDK device given by VPP. -
pci_address
: the PCI address of the interface (can be retrieved vialspci
) -
mac_address
: the mac address assigned to the DPDK device. -
name
: the name of the resource.
-
- Attributes:
-
VPP
- Attributes:
-
node
: the node on which VPP will be installed and run. -
name
: the name of the resource.
-
- Attributes:
-
CICNForwarder
- Attributes:
-
node
: the node on which the VPP forwarder is installed and run. -
name
: the name of the resource.
-
- Attributes:
-
PhyLink
- Attributes:
-
src
: the DPDK interface belonging to the node at one of the two side of the link. -
dst
: the DPDK interface belonging to the node at other side of the link.
-
- Attributes:
-
MemifLink
- Attributes:
-
src_node
: the name of the node running VPP and the cicn-plugin at one side of the link. -
dst_node
: the name of the node running VPP and the cicn-plugin at the other side of the link.
-
- Attributes:
-
Link
- Attributes:
-
src_node
: the name of the node at one side of the link. -
dst_node
: the name of the node at the other side of the link.
-
- Attributes: