-----Original Message----- From: Petr Machata petrm@nvidia.com Sent: Tuesday, November 9, 2021 3:53 PM To: Machnikowski, Maciej maciej.machnikowski@intel.com Subject: Re: [PATCH v2 net-next 6/6] docs: net: Add description of SyncE interfaces
Machnikowski, Maciej maciej.machnikowski@intel.com writes:
Maciej Machnikowski maciej.machnikowski@intel.com writes:
RTM_GETRCLKRANGE would report number of "pins" that matches the number of lanes in the system. So e.g. a 32-port switch, where each port has 4 lanes, would give a range of [1; 128], inclusive. (Or maybe [0; 128) or whatever.)
RTM_GETRCLKSTATE would then return some subset of those pins, depending on which lanes actually managed to establish a connection and carry a valid clock signal. So, say, [1, 2, 3, 4] if the first port has e.g. a 100Gbps established.
Those 2 will be merged into a single RTM_GETRCLKSTATE that will report the state of all available pins for a given port.
Also lanes here should really be ports - will fix in next revision.
But the logic will be: Call the RTM_GETRCLKSTATE. It will return the list of pins and their state for a given port. Once you read the range you will send the
RTM_SETRCLKSTATE
to enable the redirection to a given RCLK output from the PHY. If your
DPLL/EEC
is configured to accept it automatically - it's all you need to do and you need
to
wait for the right state of the EEC (locked/locked with HO).
Ha, ok, so the RANGE call goes away, it's all in the RTM_GETRCLKSTATE.
The functionality needs to be there, but the message will be gone.
+RTM_SETRCLKSTATE +----------------- +Sets the redirection of the recovered clock for a given pin. This
message
+expects one attribute: +struct if_set_rclk_msg {
- __u32 ifindex; /* interface index */
- __u32 out_idx; /* output index (from a valid range)
- __u32 flags; /* configuration flags */
+};
+Supported flags are: +SET_RCLK_FLAGS_ENA - if set in flags - the given output will be
enabled,
if clear - the output will be disabled.
OK, so here I set up the tracking. ifindex tells me which EEC to configure, out_idx is the pin to track, flags tell me whether to set up the tracking or tear it down. Thus e.g. on port 2, track pin 2, because I somehow know that lane 2 has the best clock.
It's bound to ifindex to know which PHY port you interact with. It has
nothing to
do with the EEC yet.
It has in the sense that I'm configuring "TX CLK in", which leads from EEC to the port.
At this stage we only enable the recovered clock. EEC may or may not use it depending on many additional factors.
If the above is broadly correct, I've got some questions.
First, what if more than one out_idx is set? What are drivers / HW meant to do with this? What is the expected behavior?
Expected behavior is deployment specific. You can use different phy
recovered
clock outputs to implement active/passive mode of clock failover.
How? Which one is primary and which one is backup? I just have two enabled pins...
With this API you only have ports and pins and set up the redirection. The EEC part is out of picture and will be part of DPLL subsystem.
Wouldn't failover be implementable in a userspace daemon? That would get a notification from the system that holdover was entered, and can reconfigure tracking to another pin based on arbitrary rules.
Not necessarily. You can deploy the QL-disabled mode and rely on the local DPLL configuration to manage the switching. In that mode you're not passing the quality level downstream, so you only need to know if you have a source.
Also GETRCLKSTATE and SETRCLKSTATE have a somewhat different scope: one reports which pins carry a clock signal, the other influences tracking. That seems wrong. There also does not seems to be an UAPI to retrieve the tracking settings.
They don't. Get reads the redirection state and SET sets it - nothing more, nothing less. In ICE we use EEC pin indexes so that the model translates
easier
to the one when we support DPLL subsystem.
Second, as a user-space client, how do I know that if ports 1 and 2 both report pin range [A; B], that they both actually share the same underlying EEC? Is there some sort of coordination among the drivers, such that each pin in the system has a unique ID?
For now we don't, as we don't have EEC subsystem. But that can be solved by a config file temporarily.
I think it would be better to model this properly from day one.
I want to propose the simplest API that will work for the simplest device, follow that with the userspace tool that will help everyone understand what we need in the DPLL subsystem, otherwise it'll be hard to explain the requirements. The only change will be the addition of the DPLL index.
Further, how do I actually know the mapping from ports to pins? E.g. as a user, I might know my master is behind swp1. How do I know what pins correspond to that port? As a user-space tool author, how do I help users to do something like "eec set clock eec0 track swp1"?
That's why driver needs to be smart there and return indexes properly.
What do you mean, properly? Up there you have RTM_GETRCLKRANGE that just gives me a min and a max. Is there a policy about how to correlate numbers in that range to... ifindices, netdevice names, devlink port numbers, I don't know, something?
The driver needs to know the underlying HW and report those ranges correctly.
How do several drivers coordinate this numbering among themselves? Is there a core kernel authority that manages pin number de/allocations?
I believe the goal is to create something similar to the ptp subsystem. The driver will need to configure the relationship during initialization and the OS will manage the indexes.
Additionally, how would things like external GPSs or 1pps be modeled? I guess the driver would know about such interface, and would expose it as a "pin". When the GPS signal locks, the driver starts reporting the pin in the RCLK set. Then it is possible to set up tracking of that pin.
That won't be enabled before we get the DPLL subsystem ready.
It might prove challenging to retrofit an existing netdev-centric interface into a more generic model. It would be better to model this properly from day one, and OK, if we can carve out a subset of that model to implement now, and leave the rest for later, fine. But the current model does not strike me as having a natural migration path to something more generic. E.g. reporting the EEC state through the interfaces attached to that EEC... like, that will have to stay, even at a time when it is superseded by a better interface.
The recovered clock API will not change - only EEC_STATE is in question. We can either redirect the call to the DPLL subsystem, or just add the DPLL IDX Into that call and return it.
It seems to me it would be easier to understand, and to write user-space tools and drivers for, a model that has EEC as an explicit first-class object. That's where the EEC state naturally belongs, that's where the pin range naturally belongs. Netdevs should have a reference to EEC and pins, not present this information as if they own it. A first-class EEC would also allow to later figure out how to hook up PHC and EEC.
We have the userspace tool, but can’t upstream it until we define kernel Interfaces. It's paragraph 22 :(
I'm sure you do, presumably you test this somehow. Still, as a potential consumer of that interface, I will absolutely poke at it to figure out how to use it, what it lets me to do, and what won't work.
That's why now I want to enable very basic functionality that will not go away anytime soon. Mapping between port and recovered clock (as in take my clock and output on the first PHY's recovered clock output) and checking the state of the clock.
BTW, what we've done in the past in a situation like this was, here's the current submission, here's a pointer to a GIT with more stuff we plan to send later on, here's a pointer to a GIT with the userspace stuff. I doubt anybody actually looks at that code, ain't nobody got time for that, but really there's no catch 22.
Unfortunately, the userspace of it will be a part of linuxptp and we can't upstream it partially before we get those basics defined here. More advanced functionality will be grown organically, as I also have a limited view of SyncE and am not expert on switches.