Ratan / Manoj,
Hypervisor (VM) Ethernet Interfaces is not a BIOS / Host firmware
settings right?. Is there any model, where the BIOS Settings of
Host Network interface like IPV4 / IPV6 is passed to the OS level
(If yes, through what mechanism, proprietary ?). We have BIOS
Network settings, but mostly that will be used in terms of PXE
boot etc., but this will not be passed to the Host OS/ Hypervisor
(which has to manage this on it's own). Let me know if i am
missing anything here. So not sure, why Hypervisor / OS Ethernet
interface must be passed to BIOS Settings instead of directly
communicating to the Hypervisor / OS level software directly.
For BIOS settings --> Pending v/s configured value, Remote
BIOS configuration design doc, already handles the same
using PendingAttributes. This is based on the AttributeRegistry
and as per the design it don't advertise every single setting in
D-Bus, instead it will be collection (dynamic in nature).
For Hypervisor / System Ethernet Interfaces I agree with James F,
As long as bmcweb does the mapper query and / or association to
determine the Service and Object path of the daemon, which will
handle the ComputerSystem (Host) EthernetInterfaces it should be
fine as the mechanism of forwarding the data to the OS will be
different based on implementation.
Regards,
Richard
Hi Pattrick, Ed,
We need to address the below two concerns with the existing settings infra.Regards
- Pending v/s configured value: Currently settings have single Dbus Object, Some properties which is for host firmware we need to have two placeholders one for Pending values and one for Configured values. Bios settings have this concept.
- Should we add two Dbus objects in settings infra?
- Dynamic Dbus objects: Currently settings infrastructure is only for static objects, Objects which gets added on runtime, settings infra doesn't support that.
- Eg: IP address on ethernet interface is dynamic in nature, An ethernet interface can have multiple IP address on it. considering if SLAAC is enabled(ipV6).
- Seems this problem is common for both(settings v/s bios-settings)
Ratan Gupta
On 9/16/20 11:14 PM, Ed Tanous wrote:
On Wed, Sep 16, 2020 at 10:20 AM Patrick Williams <patrick@stwcx.xyz> wrote:On Wed, Sep 16, 2020 at 08:17:01PM +0530, manoj kiran wrote:Hi Ed & James, Till now IBM was using phosphor-settings infrastructure as back-end and uses Ethernet Schema for Hypervisor computer system(hypervisor_ethernet.hpp) for setting the IP address of hypervisor. And now we are planning to leverage the capabilities of bios-settings-mgr(backend) as well to set the hypervisor attributes. do you see any concerns here ? Thanks, ManojThese end up being two quite different implementations from a dbus perspective, which could have implications to Redfish and webui users. With 'settings' there is no generic settings interfacess on dbus; every setting is required to have some modeled interface. This is great when you are exposing some hypervisor setting that the BMC also has for itself, such as network. We have a single dbus interface for all network end-points and it doesn't matter if it is for the BMC or the Hypervisor. With 'bios-settings-mgr' there are only generic free-form settings values, which presently can be either int64 or string[1].If this is correct, then I withdraw my support. I had assumed bios-settings-mgr would host several objects that contain an EthernetInterface [1] api, similar to what phosphor-networkd does, and whose endpoints require no new code in most of the endpoints. If we're talking about moving all this to a simple key-value store, running on yet another representation of what a network interface looks like, that's going in the wrong direction in terms of fidelity and complexity. With that said, if I'm mistaken, let me know.This means there is no overlap with any similar settings we have on the BMC and there is no programatic way to ensure the data is of the right type and named with the right key. This approach is better when you have large numbers of attributes for concepts which the BMC doesn't have itself. My understanding was that the 'bios-settings-mgr' was typically going to be used for uploading a large blob of configuration values and the external interfaces would have fairly minimal code related to individual settings. My concern with using 'bios-settings-mgr' in general is that it will end up being very tight coupling between external interfaces (Redfish / webui) and BIOS implementations. When you use 'settings', you can implement much more generic external interface code and likely limit the coupling, if any, to the PLDM provider.I think we have one benefit here in that there's going to be several implementations of the bios-settings-mgr for the various bios implementations that will keep us more "honest" about our APIs. It's not a satisfying answer, I realize, but I think it's the best we can do at the moment.Net is, if you're expecting to be able to modify hypervisor values through Redfish or WebUI, I think the best approach is to use 'settings'.The problem with the "settings" approach becomes error handling. Settingsd has no context of a transaction, or a backend on the other side, so when and if things fail, they fail silently, or possibly with a log. In the case of hosting this API in the BIOS daemon, it can actually do the "commit" of the parameters to BIOS as part of the dbus transaction, so once the return code is received from the method call, the user can know that the values were "latched", and can knowingly move on. If they weren't latched, the client can know if it makes sense to retry, or do some other procedure. This also has nice properties for the BMC, as it never has to "own" storage of the data, nor does it have to implement all the validation routines, as it can rely on the actual data owner to do so.1. https://github.com/openbmc/phosphor-dbus-interfaces/blob/77a742627edde54aec625d7c1a200d9f4832f0ba/xyz/openbmc_project/BIOSConfig/Manager.interface.yaml#L44 -- Patrick Williams1. https://github.com/openbmc/phosphor-dbus-interfaces/blob/master/xyz/openbmc_project/Network/EthernetInterface.interface.yaml