> On Jun 11, 2019, at 11:34 AM, Olga Kornievskaia <aglo@xxxxxxxxx> wrote: > > On Tue, Jun 11, 2019 at 10:52 AM Chuck Lever <chuck.lever@xxxxxxxxxx> wrote: >> >> Hi Neil- >> >> >>> On Jun 10, 2019, at 9:09 PM, NeilBrown <neilb@xxxxxxxx> wrote: >>> >>> On Fri, May 31 2019, Chuck Lever wrote: >>> >>>>> On May 30, 2019, at 6:56 PM, NeilBrown <neilb@xxxxxxxx> wrote: >>>>> >>>>> On Thu, May 30 2019, Chuck Lever wrote: >>>>> >>>>>> Hi Neil- >>>>>> >>>>>> Thanks for chasing this a little further. >>>>>> >>>>>> >>>>>>> On May 29, 2019, at 8:41 PM, NeilBrown <neilb@xxxxxxxx> wrote: >>>>>>> >>>>>>> This patch set is based on the patches in the multipath_tcp branch of >>>>>>> git://git.linux-nfs.org/projects/trondmy/nfs-2.6.git >>>>>>> >>>>>>> I'd like to add my voice to those supporting this work and wanting to >>>>>>> see it land. >>>>>>> We have had customers/partners wanting this sort of functionality for >>>>>>> years. In SLES releases prior to SLE15, we've provide a >>>>>>> "nosharetransport" mount option, so that several filesystem could be >>>>>>> mounted from the same server and each would get its own TCP >>>>>>> connection. >>>>>> >>>>>> Is it well understood why splitting up the TCP connections result >>>>>> in better performance? >>>>>> >>>>>> >>>>>>> In SLE15 we are using this 'nconnect' feature, which is much nicer. >>>>>>> >>>>>>> Partners have assured us that it improves total throughput, >>>>>>> particularly with bonded networks, but we haven't had any concrete >>>>>>> data until Olga Kornievskaia provided some concrete test data - thanks >>>>>>> Olga! >>>>>>> >>>>>>> My understanding, as I explain in one of the patches, is that parallel >>>>>>> hardware is normally utilized by distributing flows, rather than >>>>>>> packets. This avoid out-of-order deliver of packets in a flow. >>>>>>> So multiple flows are needed to utilizes parallel hardware. >>>>>> >>>>>> Indeed. >>>>>> >>>>>> However I think one of the problems is what happens in simpler scenarios. >>>>>> We had reports that using nconnect > 1 on virtual clients made things >>>>>> go slower. It's not always wise to establish multiple connections >>>>>> between the same two IP addresses. It depends on the hardware on each >>>>>> end, and the network conditions. >>>>> >>>>> This is a good argument for leaving the default at '1'. When >>>>> documentation is added to nfs(5), we can make it clear that the optimal >>>>> number is dependant on hardware. >>>> >>>> Is there any visibility into the NIC hardware that can guide this setting? >>>> >>> >>> I doubt it, partly because there is more than just the NIC hardware at issue. >>> There is also the server-side hardware and possibly hardware in the middle. >> >> So the best guidance is YMMV. :-) >> >> >>>>>> What about situations where the network capabilities between server and >>>>>> client change? Problem is that neither endpoint can detect that; TCP >>>>>> usually just deals with it. >>>>> >>>>> Being able to manually change (-o remount) the number of connections >>>>> might be useful... >>>> >>>> Ugh. I have problems with the administrative interface for this feature, >>>> and this is one of them. >>>> >>>> Another is what prevents your client from using a different nconnect= >>>> setting on concurrent mounts of the same server? It's another case of a >>>> per-mount setting being used to control a resource that is shared across >>>> mounts. >>> >>> I think that horse has well and truly bolted. >>> It would be nice to have a "server" abstraction visible to user-space >>> where we could adjust settings that make sense server-wide, and then a way >>> to mount individual filesystems from that "server" - but we don't. >> >> Even worse, there will be some resource sharing between containers that >> might be undesirable. The host should have ultimate control over those >> resources. >> >> But that is neither here nor there. >> >> >>> Probably the best we can do is to document (in nfs(5)) which options are >>> per-server and which are per-mount. >> >> Alternately, the behavior of this option could be documented this way: >> >> The default value is one. To resolve conflicts between nconnect settings on >> different mount points to the same server, the value set on the first mount >> applies until there are no more mounts of that server, unless nosharecache >> is specified. When following a referral to another server, the nconnect >> setting is inherited, but the effective value is determined by other mounts >> of that server that are already in place. >> >> I hate to say it, but the way to make this work deterministically is to >> ask administrators to ensure that the setting is the same on all mounts >> of the same server. Again I'd rather this take care of itself, but it >> appears that is not going to be possible. >> >> >>>> Adding user tunables has never been known to increase the aggregate >>>> amount of happiness in the universe. I really hope we can come up with >>>> a better administrative interface... ideally, none would be best. >>> >>> I agree that none would be best. It isn't clear to me that that is >>> possible. >>> At present, we really don't have enough experience with this >>> functionality to be able to say what the trade-offs are. >>> If we delay the functionality until we have the perfect interface, >>> we may never get that experience. >>> >>> We can document "nconnect=" as a hint, and possibly add that >>> "nconnect=1" is a firm guarantee that more will not be used. >> >> Agree that 1 should be the default. If we make this setting a >> hint, then perhaps it should be renamed; nconnect makes it sound >> like the client will always open N connections. How about "maxconn" ? > > "maxconn" sounds to me like it's possible that the code would choose a > number that's less than that which I think would be misleading given > that the implementation (as is now) will open the specified number of > connection (bounded by the hard coded default we currently have set at > some value X which I'm in favor is increasing from 16 to 32). Earlier in this thread, Neil proposed to make nconnect a hint. Sounds like the long term plan is to allow "up to N" connections with some mechanism to create new connections on-demand." maxconn fits that idea better, though I'd prefer no new mount options... the point being that eventually, this setting is likely to be an upper bound rather than a fixed value. >> Then, to better define the behavior: >> >> The range of valid maxconn values is 1 to 3? to 8? to NCPUS? to the >> count of the client’s NUMA nodes? I’d be in favor of a small number >> to start with. Solaris' experience with multiple connections is that >> there is very little benefit past 8. > > My linux to linux experience has been that there is benefit of having > more than 8 connections. I have previously posted results that went > upto 10 connection (it's on my list of thing to test uptown 16). With > the Netapp performance lab they have maxed out 25G connection setup > they were using with so they didn't experiment with nconnect=8 but no > evidence that with a larger network pipe performance would stop > improving. > > Given the existing performance studies, I would like to argue that > having such low values are not warranted. They are warranted until we have a better handle on the risks of a performance regression occurring with large nconnect settings. The maximum number can always be raised once we are confident the behaviors are well understood. Also, I'd like to see some careful studies that demonstrate why you don't see excellent results with just two or three connections. Nearly full link bandwidth has been achieved with MP-TCP and two or three subflows on one NIC. Why is it not possible with NFS/TCP ? >> If maxconn is specified with a datagram transport, does the mount >> operation fail, or is the setting is ignored? > > Perhaps we can add a warning on the mount command saying that option > is ignored but succeed the mount. > >> If maxconn is a hint, when does the client open additional >> connections? >> >> IMO documentation should be clear that this setting is not for the >> purpose of multipathing/trunking (using multiple NICs on the client >> or server). The client has to do trunking detection/discovery in that >> case, and nconnect doesn't add that logic. This is strictly for >> enabling multiple connections between one client-server IP address >> pair. > > I agree this should be as that last statement says multiple connection > to the same IP and in my option this shouldn't be a hint. > >> Do we need to state explicitly that all transport connections for a >> mount (or client-server pair) are the same connection type (i.e., all >> TCP or all RDMA, never a mix)? > > That might be an interesting future option but I think for now, we can > clearly say it's a TCP only option in documentation which can always > be changed if extension to that functionality will be implemented. Is there a reason you feel RDMA shouldn't be included? I've tried nconnect with my RDMA rig, and didn't see any problem with it. >>> Then further down the track, we might change the actual number of >>> connections automatically if a way can be found to do that without cost. >> >> Fair enough. >> >> >>> Do you have any objections apart from the nconnect= mount option? >> >> Well I realize my last e-mail sounded a little negative, but I'm >> actually in favor of adding the ability to open multiple connections >> per client-server pair. I just want to be careful about making this >> a feature that has as few downsides as possible right from the start. >> I'll try to be more helpful in my responses. >> >> Remaining implementation issues that IMO need to be sorted: > > I'm curious are you saying all this need to be resolved before we > consider including this functionality? These are excellent questions > but I think they imply some complex enhancements (like ability to do > different schedulers and not only round robin) that are "enhancement" > and not requirements. > >> • We want to take care that the client can recover network resources >> that have gone idle. Can we reuse the auto-close logic to close extra >> connections? > Since we are using round-robin scheduler then can we consider any > resources going idle? Again, I was thinking of nconnect as a hint here, not as a fixed number of connections. > It's hard to know the future, we might set a > timer after which we can say that a connection has been idle for long > enough time and we close it and as soon as that happens the traffic is > going to be generated again and we'll have to pay the penalty of > establishing a new connection before sending traffic. > >> • How will the client schedule requests on multiple connections? >> Should we enable the use of different schedulers? > That's an interesting idea but I don't think it shouldn't stop the > round robin solution from going thru. > >> • How will retransmits be handled? >> • How will the client recover from broken connections? Today's clients >> use disconnect to determine when to retransmit, thus there might be >> some unwanted interactions here that result in mount hangs. >> • Assume NFSv4.1 session ID rather than client ID trunking: is Linux >> client support in place for this already? >> • Are there any concerns about how the Linux server DRC will behave in >> multi-connection scenarios? > > I think we've talked about retransmission question. Retransmission are > handled by existing logic and are done by the same transport (ie > connection). Given the proposition that nconnect will be a hint (eventually) in the form of a dynamically managed set of connections, I think we need to answer some of these questions again. The answers could be "not yet implemented" or "no way jose". It would be helpful if the answers were all in one place (eg a design document or FAQ). >> None of these seem like a deal breaker. And possibly several of these >> are already decided, but just need to be published/documented. >> >> >> -- >> Chuck Lever -- Chuck Lever