On Wed, 2020-07-29 at 16:05 +0800, Yan Zhao wrote:
On Mon, Jul 27, 2020 at 04:23:21PM -0600, Alex Williamson wrote:
On Mon, 27 Jul 2020 15:24:40 +0800 Yan Zhao <yan.y.zhao@intel.com> wrote:
As you indicate, the vendor driver is responsible for checking version information embedded within the migration stream. Therefore a migration should fail early if the devices are incompatible. Is it
but as I know, currently in VFIO migration protocol, we have no way to get vendor specific compatibility checking string in migration setup stage (i.e. .save_setup stage) before the device is set to _SAVING state. In this way, for devices who does not save device data in precopy stage, the migration compatibility checking is as late as in stop-and-copy stage, which is too late. do you think we need to add the getting/checking of vendor specific compatibility string early in save_setup stage?
hi Alex, after an offline discussion with Kevin, I realized that it may not be a problem if migration compatibility check in vendor driver occurs late in stop-and-copy phase for some devices, because if we report device compatibility attributes clearly in an interface, the chances for libvirt/openstack to make a wrong decision is little.
I think it would be wise for a vendor driver to implement a pre-copy phase, even if only to send version information and verify it at the target. Deciding you have no device state to send during pre-copy does not mean your vendor driver needs to opt-out of the pre-copy phase entirely. Please also note that pre-copy is at the user's discretion, we've defined that we can enter stop-and-copy at any point, including without a pre-copy phase, so I would recommend that vendor drivers validate compatibility at the start of both the pre-copy and the stop-and-copy phases.
ok. got it!
so, do you think we are now arriving at an agreement that we'll give up the read-and-test scheme and start to defining one interface (perhaps in json format), from which libvirt/openstack is able to parse and find out compatibility list of a source mdev/physical device?
Based on the feedback we've received, the previously proposed interface is not viable. I think there's agreement that the user needs to be able to parse and interpret the version information. Using json seems viable, but I don't know if it's the best option. Is there any precedent of markup strings returned via sysfs we could follow?
I found some examples of using formatted string under /sys, mostly under tracing. maybe we can do a similar implementation.
#cat /sys/kernel/debug/tracing/events/kvm/kvm_mmio/format
name: kvm_mmio ID: 32 format: field:unsigned short common_type; offset:0; size:2; signed:0; field:unsigned char common_flags; offset:2; size:1; signed:0; field:unsigned char common_preempt_count; offset:3; size:1; signed:0; field:int common_pid; offset:4; size:4; signed:1;
field:u32 type; offset:8; size:4; signed:0; field:u32 len; offset:12; size:4; signed:0; field:u64 gpa; offset:16; size:8; signed:0; field:u64 val; offset:24; size:8; signed:0;
print fmt: "mmio %s len %u gpa 0x%llx val 0x%llx", __print_symbolic(REC->type, { 0, "unsatisfied-read" }, { 1, "read" }, { 2, "write" }), REC->len, REC->gpa, REC->val
this is not json fromat and its not supper frendly to parse. yes, it's just an example. It's exported to be used by userspace perf &
On Wed, Jul 29, 2020 at 12:28:46PM +0100, Sean Mooney wrote: trace_cmd.
#cat /sys/devices/pci0000:00/0000:00:02.0/uevent DRIVER=vfio-pci PCI_CLASS=30000 PCI_ID=8086:591D PCI_SUBSYS_ID=8086:2212 PCI_SLOT_NAME=0000:00:02.0 MODALIAS=pci:v00008086d0000591Dsv00008086sd00002212bc03sc00i00
this is ini format or conf formant this is pretty simple to parse whichi would be fine. that said you could also have a version or capablitiy directory with a file for each key and a singel value.
Your idea of having both a "self" object and an array of "compatible" objects is perhaps something we can build on, but we must not assume PCI devices at the root level of the object. Providing both the mdev-type and the driver is a bit redundant, since the former includes the latter. We can't have vendor specific versioning schemes though, ie. gvt-version. We need to agree on a common scheme and decide which fields the version is relative to, ex. just the mdev type?
what about making all comparing fields vendor specific? userspace like openstack only needs to parse and compare if target device is within source compatible list without understanding the meaning of each field.
i would prefer to only have to do one read personally the list the files in directory and then read tehm all ot build the datastucture myself but that is doable though the simple ini format use d for uevent seams the best of 3 options provided above. that kind of defeats the reason for having them be be parsable. the reason openstack want to be able to understand the capablitys is so we can staticaly declare the capablit of devices ahead of time on so our schduler can select host based on that. is the keys and data are opaquce to userspace becaue they are just random vendor sepecific blobs we cant do that. I heard that cyborg can parse the kernel interface and generate several
I had also proposed fields that provide information to create a compatible type, for example to create a type_x2 device from a type_x1 mdev type, they need to know to apply an aggregation attribute. If we need to explicitly list every aggregation value and the resulting type, I think we run aground of what aggregation was trying to avoid anyway, so we might need to pick a language that defines variable substitution or some kind of tagging. For example if we could define ${aggr} as an integer within a specified range, then we might be able to define a type relative to that value (type_x${aggr}) which requires an aggregation attribute using the same value. I dunno, just spit balling. Thanks,
what about a migration_compatible attribute under device node like below?
rather then listing comaptiable devices it would be better if you could declaritivly list the feature supported and we could compare those along with a simple semver version string. I think below is already in a way of listing feature supported. The reason I also want to declare compatible lists of features is that sometimes it's not a simple 1:1 matching of source list and target list. as I demonstrated below,
if this is easy for openstack, maybe we can organize the data like below way? |- [device] |- migration |-self |-compatible1 |-compatible2 e.g. #cat /sys/bus/pci/devices/0000:00:02.0/UUID1/migration/self filed1=xxx filed2=xxx filed3=xxx filed3=xxx #cat /sys/bus/pci/devices/0000:00:02.0/UUID1/migration/compatible filed1=xxx filed2=xxx filed3=xxx filed3=xxx or in a flat layer |- [device] |- migration-self-traits |- migration-compatible-traits I'm not sure whether json format in a single file is better, as I didn't find any precedent. traits without understanding the meaning of each trait. Then it reports those traits to placement for scheduling. but I agree if mdev creation is involved, those traits need to match to mdev attributes and mdev_type. could you explain a little how you plan to create a target mdev device? is it dynamically created during searching of compatible mdevs or just statically created before migration? source mdev of (mdev_type i915-GVTg_V5_2 + aggregator 1) is compatible to target mdev of (mdev_type i915-GVTg_V5_4 + aggregator 2), (mdev_type i915-GVTg_V5_8 + aggregator 4) and aggragator may be just one of such examples that 1:1 matching is not fit. so I guess it's best not to leave the hard decision to openstack. Thanks Yan
#cat /sys/bus/pci/devices/0000\:00\:02.0/UUID1/migration_compatible SELF: device_type=pci device_id=8086591d mdev_type=i915-GVTg_V5_2 aggregator=1 pv_mode="none+ppgtt+context" interface_version=3 COMPATIBLE: device_type=pci device_id=8086591d mdev_type=i915-GVTg_V5_{val1:int:1,2,4,8}
this mixed notation will be hard to parse so i would avoid that.
aggregator={val1}/2 pv_mode={val2:string:"none+ppgtt","none+context","none+ppgtt+context"}
interface_version={val3:int:2,3} COMPATIBLE: device_type=pci device_id=8086591d mdev_type=i915-GVTg_V5_{val1:int:1,2,4,8} aggregator={val1}/2 pv_mode="" #"" meaning empty, could be absent in a compatible device interface_version=1 if you presented this information the only way i could see to use it would be to extract the mdev_type name and interface_vertion and build a database table as follows
source_mdev_type | source_version | target_mdev_type | target_version i915-GVTg_V5_2 | 3 | 915-GVTg_V5_{val1:int:1,2,4,8} | {val3:int:2,3} i915-GVTg_V5_2 | 3 | 915-GVTg_V5_{val1:int:1,2,4,8} | 1
this would either reuiqre use to use a post placment sechudler filter to itrospec this data base or thansform the target_mdev_type and target_version colum data into CUSTOM_* traits we apply to our placment resouce providers and we would have to prefrom multiple reuqest for each posible compatiable alternitive. if the vm has muplite mdevs this is combinatorially problmenatic as it is 1 query for each device * the number of possible compatible devices for that device.
in other word if this is just opaque data we cant ever represent it efficently in our placment service and have to fall back to an explisive post placment schdluer filter base on the db table approch.
this also ignore the fact that at present the mdev_type cannot change druing a migration so the compatiable devicve with a different mdev type would not be considerd accpetable choice in openstack. they way you select a host with a specific vgpu mdev type today is to apply a custome trait which is CUSTOM_<medev_type_goes_here> to the vGPU resouce provider and then in the flavor you request 1 allcoaton of vGPU and require the CUSTOM_<medev_type_goes_here> trait. so going form i915-GVTg_V5_2 to i915-GVTg_V5_{val1:int:1,2,4,8} would not currently be compatiable with that workflow.
#cat /sys/bus/pci/dei915-GVTg_V5_{val1:int:1,2,4,8}vices/0000\:00\:i915- GVTg_V5_{val1:int:1,2,4,8}2.0/UUID2/migration_compatible SELF: device_type=pci device_id=8086591d mdev_type=i915-GVTg_V5_4 aggregator=2 interface_version=1 COMPATIBLE: device_type=pci device_id=8086591d mdev_type=i915-GVTg_V5_{val1:int:1,2,4,8} aggregator={val1}/2 interface_version=1 by the way this is closer to yaml format then it is to json but it does not align with any exsiting format i know of so that just make the representation needless hard to consume if we are going to use a markup lanag let use a standard one like yaml json or toml and not invent a new one.
Notes: - A COMPATIBLE object is a line starting with COMPATIBLE. It specifies a list of compatible devices that are allowed to migrate in. The reason to allow multiple COMPATIBLE objects is that when it is hard to express a complex compatible logic in one COMPATIBLE object, a simple enumeration is still a fallback. in the above example, device UUID2 is in the compatible list of device UUID1, but device UUID1 is not in the compatible list of device UUID2, so device UUID2 is able to migrate to device UUID1, but device UUID1 is not able to migrate to device UUID2.
- fields under each object are of "and" relationship to each other, meaning all fields of SELF object of a target device must be equal to corresponding fields of a COMPATIBLE object of source device, otherwise it is regarded as not compatible.
- each field, however, is able to specify multiple allowed values, using variables as explained below.
- variables are represented with {}, the first appearance of one variable specifies its type and allowed list. e.g. {val1:int:1,2,4,8} represents var1 whose type is integer and allowed values are 1, 2, 4, 8.
- vendors are able to specify which fields are within the comparing list and which fields are not. e.g. for physical VF migration, it may not choose mdev_type as a comparing field, and maybe use driver name instead. this format might be useful to vendors but from a orcestrator perspecive i dont think this has value to us likely we would not use this api if it was added as it does not help us with schduling. ideally instead fo declaring which other mdev types a device is compatiable with (which could presumably change over time as new device and firmwares are released) i would prefer to see a declaritive non vendor specific api that declares the feature set provided by each mdev_type from which we can infer comaptiablity similar to cpu feature flags. for devices fo the same mdev_type name addtionally a declaritive version sting could also be used if required for addtional compatiablity checks.
Thanks Yan