----- Original Message -----
From: "Adam Litke" agl@us.ibm.com To: "Saggi Mizrahi" smizrahi@redhat.com Cc: engine-devel@linode01.ovirt.org, "Dan Kenigsberg" danken@redhat.com, "Federico Simoncelli" fsimonce@redhat.com, "Ayal Baron" abaron@redhat.com, vdsm-devel@lists.fedorahosted.org Sent: Thursday, November 29, 2012 5:22:43 PM Subject: Re: RFD: API: Identifying vdsm objects in the next-gen API
On Thu, Nov 29, 2012 at 04:52:14PM -0500, Saggi Mizrahi wrote:
They are not future proof as the paradigm is completely different. Storage domain IDs are not static any more (and are not guaranteed to be unique or the same across the cluster. Image IDs represent the ID of the projected data and not the actual unique path. Just as an example, to run a VM you give a list of domains that might contain the needed images in the chain and the image ID of the tip. The paradigm is changed to and most calls get non synchronous number of images and domains. Further more, the APIs themselves are completely different. So future proofing is not really an issue.
I don't understand this at all. Perhaps we could all use some education on the architecture of the planned architectural changes. If I can pass an arbitrary list of domainIDs that _might_ contain the data, why wouldn't I just pass all of them every time? In that case, why are they even required since vdsm would have to search anyway?
It's for optimization mostly, the engine usually has a good idea of where stuff are, having it give hints to VDSM can speed up the search process. also, then engines knows how transient some storage pieces are. If you have a domain that is only there for backup or "owned" by another manager sharing the host, you don't want you VMs using the disks that are on that storage effectively preventing it from being removed (though we do have plans to have qemu switch base snapshots at runtime for just that).
As to making the current API a bit simpler. As I said, making them opaque is problematic as currently the engine is responsible for creating the IDs.
As I mentioned in my last post, engine still can specify the ID's when the object is first created. From that point forward the ID never changes so it can be baked into the identifier.
Where will this identifier be persisted?
Further more, some calls require you to play with these (making a template instead of a snapshot). Also, the full chain and topology needs to be completely visible to the engine.
Please provide a specific example of how you play with the IDs. I can guess where you are going, but I don't want to divert the thread.
The relationship between volumes and images is deceptive at the moment. IMG is the chain and volume is a member, IMGUUID is only used to for verification and to detect when we hit a template going up the chain. When you do operation on images assumptions are being guaranteed about the resulting IDs. When you copy an image, you assume to know all the new IDs as they remain the same. With your method I can't tell what the new "opaque" result is going to be. Preview mode (another abomination being deprecated) relies on the disconnect between imgUUID and volUUID. Live migration currently moves a lot of the responsibility to the engine.
These things, as you said, are problematic. But this is the way things are today.
We are changing them.
Any intermediary step is needlessly problematic for existing clients. Work is already in progress for fixing the API properly, making some calls a bit nicer isn't an excuse to start making more compatibility code in the engine.
As for task IDs. Currently task IDs are only used for storage and they get persisted to disk. This is WRONG and is not the case with the new storage API. Because we moved to an asynchronous message based protocol (json-rpc over TCP\AMQP) there is no need to generate a task ID. it is built in to json-rpc. json-rpc specifies that the IDs have to be unique for a client as long as the request is still active. This is good enough as internally we can have a verb for a client to query it's own running tasks and a verb to query other host tasks by mangling in the client before the ID. Because the protocol is
So this would rely on the client keeping the connection open and as soon as it disconnects it would lose the ability to query tasks from before the connection went down? I don't know if it's a good idea to conflate message ID's with task ID's. While the protocol can operate asynchronously, some calls have synchronous semantics and others have asynchronous semantics. I would expect sync calls to return their data immediately and async calls to return immediately with either: an error code, or an 'operation started' message and associated ID for querying the status of the operation.
Upon reflection I agree that having the request ID unique per client is problematic and we need to make sure they are unique per host at every point in time.
asynchronous all calls are asynchronous by nature well. Tasks will no longer be persisted or expected to be persisted. It's the callers responsibility to query the state and see if the operation succeeded or failed if the caller or VDSM died in the middle of the call. The current "cleanTask()" system can't be used when more then one client is using VDSM and will not be used for anything other then legacy storage.
I agree about not persisting tasks in the future. Although I think finished tasks should remain in memory for some time so they can be queried by a client who must reconnect.
I am completely against keeping the task for a nominal amount of time, it just makes another flow. You need to have code that makes up in case you missed that window any way then just have one recovery code path, when VDSM looses you task or you lose VDSM recover immediately. Also, because task IDs can be reused once they expire assuming that the task you encountered is the same task you originally sent is problematic.
If you expect intermittent connections use the AMQP backend (which will support broker-less p2p communication as well)
AFAIK Apart from storage all objects IDs are constructed with a single ID, name or alias. VMs, storageConnections, network interfaces. So it's not a real issue. I agree that in the future we should keep the idiom of pass configuration once, name it, and keep using the name to reference the object.
Yes, storage is the major problem here.
And, as I said, changing the API is problematic for migration of current users.
----- Original Message -----
From: "Adam Litke" agl@us.ibm.com To: "Saggi Mizrahi" smizrahi@redhat.com Cc: engine-devel@linode01.ovirt.org, "Dan Kenigsberg" danken@redhat.com, "Federico Simoncelli" fsimonce@redhat.com, "Ayal Baron" abaron@redhat.com, vdsm-devel@lists.fedorahosted.org Sent: Thursday, November 29, 2012 4:18:40 PM Subject: Re: RFD: API: Identifying vdsm objects in the next-gen API
On Thu, Nov 29, 2012 at 02:16:42PM -0500, Saggi Mizrahi wrote:
This is all only valid for the current storage API the new one doesn't have pools or volumes. Only domains and images. Also, images and domains are more loosely coupled and make this method problematic.
I am looking for an incremental way to bridge the differences. It's been 2 years and we still don't have the revamped storage API so I am planning on what we have being around for awhile :) I think that defining object identifiers as opaque structured types is also future proof. In the future an Image-ng object we can drop 'storagepoolID' from the identifier and, if it makes sense, remove the hard association with a storageDomain as well. The point behind this refactoring is to give us the option of coupling multiple UUID's (or other data) to form a single, opaque identifier.
That being said, if we do choose to make the current storage API officially supported I do agree that it looks a bit simpler but for the price of forcing the user to construct these objects before sending the request. I know for a fact that the engine will just create these objects on the fly because they use their own objects to group things logically. This means adding more work instead of removing it. Most clients will do that anyway as they will use their own DAL to store these relationships.
Thanks for bringing up some of these points. All deserve attention so I will address each one individually:
The current API does not yet make an official statement of support for anything. I want to model the current storage API so that the node level API can have the same level of functionality as is currently supported. I am all for removing deprecated functions and redesigning in-place for a reasonable amount of time going forward. In a perfect world, libvdsm-1.0 would release with no mention of storage pools at all.
If properly designed, the end-user (including engine) would never be constructing these objects itself. Object identifiers are essentially opaque structures. In order to make this possible, we need to make sure that the API provides all of the functions needed to lookup objects. So far these are:
StoragePool: Host.getConnectedStoragePools StorageDomain: Host.getStorageDomains Image: StorageDomain.getImages Volume: StorageDomain.getVolumes / Image.getVolumes VM: Host.getVMList Task: Host.getAllTasks
All of the above would return object identifiers.
The other case is for creation of new resources. In that case, the create method needs to move to the owning object. The key example is VM.create which should move to Host.createVM. Functions such as Host.createVM could still accept a vmUUID (because I assume engine does want the ability to set this explicitly). However, they should be changed to return either a TaskIdentifier (if the creation is asynchronous) or a *Identifier (eg. VmIdentifier) if the object was created synchronously.
All told, I think the net is less work for clients. They will no longer need to model the object associations and relationships because the API will take care of that automatically.
----- Original Message -----
From: "Adam Litke" agl@us.ibm.com To: vdsm-devel@lists.fedorahosted.org Cc: engine-devel@linode01.ovirt.org, "Dan Kenigsberg" danken@redhat.com, "Federico Simoncelli" fsimonce@redhat.com, "Saggi Mizrahi" smizrahi@redhat.com, "Ayal Baron" abaron@redhat.com Sent: Thursday, November 29, 2012 12:19:06 PM Subject: RFD: API: Identifying vdsm objects in the next-gen API
Today in vdsm, every object (StoragePool, StorageDomain, VM, Volume, etc) is identified by a single UUID. On the surface, it seems like this is enough info to properly identify a resource but in practice it's not. For example, when you look at the API's dealing with Volumes, almost all of them require an sdUUID, spUUID, and imgUUID in order to provide proper context for the operation.
Needing to provide these extra UUIDs is a burden on the API user because knowing which values to pass requires internal knowledge of the API. For example, the spUUID parameter is almost always just the connected storage pool. Since we know there can currently be only one connected pool, the value is known.
I would like to move away from needing to understand all of these relationships from the end user perspective by encapsulating the extra context into new object identifier types as follows:
StoragePoolIdentifier: { 'storagepoolID': 'UUID' } StorageDomainIdentifier: { 'storagepoolID*': 'UUID', 'storagedomainID': 'UUID' } ImageIdentifier: { 'storagepoolID*': 'UUID', 'storagedomainID': 'UUID', 'imageID': 'UUID' } VolumeIdentifier: { 'storagepoolID*': 'UUID', 'storagedomainID': 'UUID', 'imageID': 'UUID', 'volumeID': 'UUID' } TaskIdentifier: { 'taskID': 'UUID' } VMIdentifier: { 'vmID': 'UUID' }
In the new API, anytime a reference to an object is required, one of the above structures must be passed in place of today's single UUID. In many cases, this will allow us to reduce the number of parameters to the function since the needed contextual parameters (spUUID, etc) will be part of the object's identifier. Similarly, any time the API returns an object reference it would return a *Identifier instead of a bare UUID.
These identifier types are basically opaque blobs to the API users and are only ever generated by vdsm itself. Because of this, we can change the internal structure of the identifier to require new information or (before freezing the API) remove fields that no longer make sense.
I would greatly appreciate your comments on this proposal. If it seems reasonable, I will revamp the current schema to make the necessary changes and provide the Bridge patch functions to convert between the current implementation and the new schema.
--- sample schema patch ---
commit 48f6b0f0a111dd0b372d211a4e566ce87f375cee Author: Adam Litke agl@us.ibm.com Date: Tue Nov 27 14:14:06 2012 -0600
schema: Introduce class identifier types When calling API methods that belong to a particular class, a class instance must be indicated by passing a set of identifiers in the request. The location of these parameters within the request is: 'params' -> '__obj__'. Since this set of identifiers must be used together to correctly instantiate an object, it makes sense to define these as proper types within the API. Then, functions that return an object (or list of objects) can refer to the correct type. Signed-off-by: Adam Litke <agl@us.ibm.com>
diff --git a/vdsm_api/vdsmapi-schema.json b/vdsm_api/vdsmapi-schema.json index 0418e6e..7e2e851 100644 --- a/vdsm_api/vdsmapi-schema.json +++ b/vdsm_api/vdsmapi-schema.json @@ -937,7 +937,7 @@ # Since: 4.10.0 ## {'command': {'class': 'Host', 'name': 'getConnectedStoragePools'},
- 'returns': ['StoragePool']}
- 'returns': ['StoragePoolIdentifier']}
## # @BlockDeviceType: @@ -1572,7 +1572,7 @@ {'command': {'class': 'Host', 'name': 'getStorageDomains'}, 'data': {'*storagepoolID': 'UUID', '*domainClass': 'StorageDomainImageClass', '*storageType': 'StorageDomainType', '*remotePath': 'str'},
- 'returns': ['StorageDomain']}
- 'returns': ['StorageDomainIdentifier']}
## # @Host.getStorageRepoStats: @@ -2406,7 +2406,7 @@ ## {'command': {'class': 'Host', 'name': 'getVMList'}, 'data': {'*vmList': ['UUID']},
- 'returns': ['VM']}
- 'returns': ['VMIdentifier']}
## # @Host.ping: @@ -2744,10 +2744,11 @@ 'returns': 'ConnectionRefMap'}
## Category: @ISCSIConnection ##################################################
## -# @ISCSIConnection: +# @ISCSIConnectionIdentifier: # -# ISCSIConnection API object. +# Identifier for an ISCSIConnection object. # # @host: A fully-qualified domain name (FQDN) or IP address # @@ -2757,11 +2758,21 @@ # # @password: #optional The password associated with the given username # -# Since: 4.10.0 +# Since: 4.10.1 +## +{'type': 'ISCSIConnectionIdentifier',
- 'data': {'host': 'str', 'port': 'int', '*user': 'str',
'*password': 'str'}}
+## +# @ISCSIConnection: +# +# ISCSIConnection API object. +# +# @ident: The object identifier +# +# Since: 4.10.1 ## -{'class': 'ISCSIConnection',
- 'data': {'host': 'str', 'port': 'int', '*user': 'str',
'*password': 'str'}}
+{'class': 'ISCSIConnection', 'ident': 'ISCSIConnectionIdentifier'}
## # @ISCSIConnection.discoverSendTargets: @@ -2777,10 +2788,11 @@ 'returns': ['str']}
## Category: @Image ############################################################
## -# @Image: +# @ImageIdentifier: # -# Image API object. +# Identifier for an Image object. # # @imageID: The UUID of the Image # @@ -2788,13 +2800,24 @@ # # @storagedomainID: The UUID of the Storage Domain associated with the Image # -# Since: 4.10.0 +# Since: 4.10.1 ## -{'class': 'Image', +{'type': 'ImageIdentifier', 'data': {'imageID': 'UUID', 'storagepoolID': 'UUID', 'storagedomainID': 'UUID'}}
## +# @Image: +# +# Image API object. +# +# @ident: The object identifier +# +# Since: 4.10.1 +## +{'class': 'Image', 'ident': 'ImageIdentifier'}
+## # @Image.delete: # # Delete the Image and all of its Volumes. @@ -2843,7 +2866,7 @@ # Since: 4.10.0 ## {'command': {'class': 'Image', 'name': 'getVolumes'},
- 'returns': ['Volume']}
- 'returns': ['VolumeIdentifier']}
## # @Image.mergeSnapshots: @@ -2905,17 +2928,26 @@
## Category: @LVMVolumeGroup ################################################### ## +# @LVMVolumeGroupIdentifier: +# +# An identifier for a LVMVolumeGroup object. +# +# @lvmvolumegroupID: The volume group UUID +# +# Since: 4.10.1 +## +{'type': 'LVMVolumeGroupIdentifier', 'data': {'lvmvolumegroupID': 'UUID'}}
+## # @LVMVolumeGroup: # # LVMVolumeGroup API object. # -# @lvmvolumegroupID: #optional Associate this object with an existing LVM -# Volume Group +# @ident: The object identifier # -# Since: 4.10.0 +# Since: 4.10.1 ## -{'class': 'LVMVolumeGroup',
- 'data': {'lvmvolumegroupID': 'UUID'}}
+{'class': 'LVMVolumeGroup', 'ident': 'LVMVolumeGroupIdentifier'}
## # @LVMVolumeGroup.create: @@ -2964,21 +2996,32 @@
## Category: @StorageDomain #################################################### ## -# @StorageDomain: +# @StorageDomainIdentifier: # -# StorageDomain API object. +# An identifier for a StorageDomain object. # # @storagedomainID: Associate this object with a new or existing Storage Domain # # @storagepoolID: #optional The Storage Pool UUID if this Storage Domain is # attached # -# Since: 4.10.0 +# Since: 4.10.1 ## -{'class': 'StorageDomain', +{'type': 'StorageDomainIdentifier', 'data': {'storagedomainID': 'UUID', 'storagepoolID': 'UUID'}}
## +# @StorageDomain: +# +# StorageDomain API object. +# +# @ident: The object identifier +# +# Since: 4.10.1 +## +{'class': 'StorageDomain', 'ident': 'StorageDomainIdentifier'}
+## # @StorageDomain.activate: # # Activate an attached but inactive Storage Domain. @@ -3184,7 +3227,7 @@ # Since: 4.10.0 ## {'command': {'class': 'StorageDomain', 'name': 'getImages'},
- 'returns': ['Image']}
- 'returns': ['ImageIdentifier']}
## # @StorageDomainRole: @@ -3295,7 +3338,7 @@ ## {'command': {'class': 'StorageDomain', 'name': 'getVolumes'}, 'data': {'imageID': 'UUID'},
- 'returns': ['Volume']}
- 'returns': ['VolumeIdentifier']}
## # @StorageDomain.setDescription: @@ -3355,15 +3398,26 @@
## Category: @StoragePool ###################################################### ## +# @StoragePoolIdentifier: +# +# An identifier for a StoragePool object. +# +# @storagepoolID: Associate this object with a new or existing Storage Pool +# +# Since: 4.10.1 +## +{'type': 'StoragePoolIdentifier', 'data': {'storagepoolID': 'UUID'}}
+## # @StoragePool: # # StoragePool API object. # -# @storagepoolID: Associate this object with a new or existing Storage Pool +# @ident: The object identifier # -# Since: 4.10.0 +# Since: 4.10.1 ## -{'class': 'StoragePool', 'data': {'storagepoolID': 'UUID'}} +{'class': 'StoragePool', 'ident': 'StoragePoolIdentifier'}
## # @StoragePool.connect: @@ -3629,7 +3683,7 @@ ## {'command': {'class': 'StoragePool', 'name': 'getDomainsContainingImage'}, 'data': {'imageID': 'UUID', '*onlyDataDomains': 'bool'},
- 'returns': ['StorageDomain']}
- 'returns': ['StorageDomainIdentifier']}
## # @StoragePool.getIsoList: @@ -4058,15 +4112,27 @@
## Category: @Task ############################################################# ## +# @TaskIdentifier: +# +# An identifier for a Task object. +# +# @taskID: The task UUID +# +# Since: 4.10.1 +## +{'type': 'TaskIdentifier', 'data': {'taskID': 'UUID'}}
+## # @Task: # # Task API object. # -# @taskID: Associate this object with an existing Task +# @ident: The object identifier # -# Since: 4.10.0 +# Since: 4.10.1 ## -{'class': 'Task', 'data': {'taskID': 'UUID'}} +{'class': 'Task', 'ident': 'TaskIdentifier'}
## # @Task.clear: @@ -4123,15 +4189,26 @@
## Category: @VM ############################################################### ## +# @VMIdentifier: +# +# An identifier for a VM object. +# +# @vmID: The task UUID +# +# Since: 4.10.1 +## +{'type': 'VMIdentifier', 'data': {'vmID': 'UUID'}}
+## # @VM: # # VM API object. # -# @vmID: Associate this object with an existing VM +# @ident: The object identifier # -# Since: 4.10.0 +# Since: 4.10.1 ## -{'class': 'VM', 'data': {'vmID': 'UUID'}} +{'class': 'VM', 'ident': 'VMIdentifier'}
## # @DriveSpecVolume: @@ -5161,9 +5238,9 @@
## Category: @Volume ########################################################### ## -# @Volume: +# @VolumeIdentifier: # -# Volume API object. +# An identifier for a Volume object. # # @volumeID: The UUID of the Volume # @@ -5173,13 +5250,24 @@ # # @imageID: The Image associated with @UUID # -# Since: 4.10.0 +# Since: 4.10.1 ## -{'class': 'Volume', +{'type': 'VolumeIdentifier', 'data': {'volumeID': 'UUID', 'storagepoolID': 'UUID', 'storagedomainID': 'UUID', 'imageID': 'UUID'}}
## +# @Volume: +# +# Volume API object. +# +# @ident: The object identifier +# +# Since: 4.10.1 +## +{'class': 'Volume', 'ident': 'VolumeIdentifier'}
+## # @VolumeRole: # # An enumeration of Volume Roles.
-- Adam Litke agl@us.ibm.com IBM Linux Technology Center
-- Adam Litke agl@us.ibm.com IBM Linux Technology Center
-- Adam Litke agl@us.ibm.com IBM Linux Technology Center