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Document application network interface order
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Describe both the legacy and the user-enforced interface ordering
with all its limitations.

Signed-off-by: Milan Lenco <milan@zededa.com>
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milan-zededa authored and eriknordmark committed Dec 6, 2024
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60 changes: 53 additions & 7 deletions docs/APP-CONNECTIVITY.md
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Expand Up @@ -10,13 +10,59 @@ Network connectivity is enabled for an application by configuring one or more ne
These consists of [virtual network interfaces](#virtual-network-interfaces), connecting
application with [network instances](#network-instances), and directly assigned
[physical NIC](#physical-network-ports) or [SR-IOV virtual functions](#sr-iov-vfs).
The order of network adapter configurations inside `AppInstanceConfig` matters, because this
is the same order at which these network adapters will be presented to the application by the
Virtual Machine Manager (VMM).
This order is reflected in the PCI addresses of the adapters. It is important to note that VIFs
and direct assignments are configured in two separate lists. The VMM is configured to present
VIFs first, adhering to their configured order, followed by direct assignments in their respective
order. User cannot enforce direct assignment to appear before VIF.

### Interface order

To match an application's network interface with its logical representation from the configuration,
using MAC addresses is recommended. For virtual network interfaces, users can configure MAC
addresses for easier interface identification. Meanwhile, directly assigned NICs are passed
through to applications with their original MAC addresses unchanged.

However, since MAC addresses differ across a fleet of devices, having a predictable application
network interface order provides a simpler and more scalable matching solution.
But there are two main challenges related to application interface ordering, which make this method
less recommended:

#### 1. Interface Order Configuration Limitations

Virtual and directly assigned NICs are configured in two separate lists within `AppInstanceConfig`:
`Interfaces` (VIFs) and `Adapters` (direct assignments, including physical NICs and SR-IOV virtual
functions). Until EVE version 13.8.0, it was not possible to configure the order between items
of these two lists. Consequently, EVE would configure the VMM to present the VIFs first, followed
by direct assignments. While directly assigned NICs adhered to the `Adapters` list order, virtual
interfaces were ordered based on the lowest ACL rule ID assigned to each VIF. This caused undesired
behavior when ACL rule IDs (assigned by the controller) did not align with the user-defined VIF order.
Furthermore, VIFs without ACLs (rather useless interfaces since all traffic is blocked) were
represented with an ACL ID of 0 and always placed first in the interface list.

EVE version 13.8.0 addressed this by allowing users to define the desired position of each VIF and
directly assigned network devices. This is propagated from controller to EVE via the `InterfaceOrder`
fields with unique (integer) values across both the `Interfaces` and `Adapters` lists. To maintain
backward compatibility and avoid changing interface order in existing deployments, the user-defined
order is applied only if `VmConfig.EnforceNetworkInterfaceOrder` is set to true. Otherwise, EVE
defaults to the legacy behavior described above.

#### 2. Hypervisor Limitations

The second, more fundamental challenge lies in the hypervisor's limited ability to control the order
of network interfaces inside VM applications. The actual interface order depends on the application OS,
and EVE cannot guarantee the desired outcome.

For the KVM hypervisor, EVE attempts to enforce legacy or user-defined orders via the virtualized
PCI topology. Devices expected to appear earlier in the interface list are assigned lower PCI
addresses. This generally works for Linux-based systems, especially those using
the [systemd's naming scheme](https://www.freedesktop.org/software/systemd/man/latest/systemd.net-naming-scheme.html).
However, some limitations persist:

* Devices of different types (e.g., Wi-Fi adapters vs. Ethernet NICs) often receive distinct name
prefixes from the application OS, making reordering impossible.
* Multifunction PCI devices must have all functions connected to the same PCI bridge and cannot be
interleaved with other devices. If a user places a VIF or another NIC between functions
of a multifunction device (with `EnforceNetworkInterfaceOrder` enabled), EVE will return an error,
and the application will not be deployed.

For Xen and KubeVirt hypervisors, application interface order is undefined, and
`EnforceNetworkInterfaceOrder` is not yet supported.

### Physical network ports

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