Re: [Tsv-art] Tsvart last call review of draft-ietf-nvo3-vmm-04

Bob Briscoe <ietf@bobbriscoe.net> Tue, 18 September 2018 23:03 UTC

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To: Linda Dunbar <linda.dunbar@huawei.com>, "tsv-art@ietf.org" <tsv-art@ietf.org>
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From: Bob Briscoe <ietf@bobbriscoe.net>
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Subject: Re: [Tsv-art] Tsvart last call review of draft-ietf-nvo3-vmm-04
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Linda,

Until we can all understand the answers to the following two questions, 
I don't think we can discuss what track this draft ought to be on, let 
alone move on to your responses to all my other points.

1/ Applicability

You say this draft solely applies to connections with both ends within 
the controlled DC environment. But the draft says it's about 
multi-tenant DCs. Are there any multi-tenant DCs that restrict all VMs 
to only communicate with other VMs within the same controlled DC 
environment?

2/ Purpose of publishing as an RFC

When I said:
> #. The introduction does not say what the purpose of publishing this 
> draft is.
you responded:
> [Linda] The first paragraph on Page 3 has the description why VM 
> Mobility is needed.

Whether VM Mobility is needed was not my question. My question was what 
is the purpose of the IETF publishing an RFC about VM Mobility? And 
particularly, what is /this/ RFC intended to achieve?

Are the authors trying to argue for a particular approach vs. others? 
Are you trying to write a tutorial? Are you trying to give the pros and 
cons of different approaches? Are you trying to give advice on good 
practice (with the implication that alternative practices are less 
good)? Are you trying to clarify ideas by writing them down? Are you 
trying to outline the implications of VM Mobility for other protocols 
being developed within the NVO WG?




Bob

On 10/09/18 19:16, Linda Dunbar wrote:
> Bob,
> Thank you very much for reviewing the draft and provided in-depth 
> comments. I am very sorry for the delayed response due to traveling.
> Replies to your comments are inserted below marked by [Linda]:
> -----Original Message-----
> From: Bob Briscoe [mailto:ietf@bobbriscoe.net]
> Sent: Monday, September 03, 2018 9:45 PM
> To: tsv-art@ietf.org
> Cc: nvo3@ietf.org; ietf@ietf.org; draft-ietf-nvo3-vmm.all@ietf.org
> Subject: Tsvart last call review of draft-ietf-nvo3-vmm-04
> Reviewer: Bob Briscoe
> Review result: Not Ready
> I have been selected as the Transport Directorate reviewer for this 
> draft. The Transport Directorate seeks to review all transport or 
> transport-related drafts as they pass through IETF last call and IESG 
> review, and sometimes on special request. The purpose of the review is 
> to provide assistance to the Transport ADs. For more information about 
> the Transport Directorate Reviews and the Transport Area Review Team, 
> please see ​https://trac.ietf.org/trac/tsv/wiki/TSV-Directorate-Reviews
> In this case, very very few of the review comments relate to transport 
> issues, although the greatest issue concerns a desire that the network 
> could pause or stop connections during L3 VM Mobility, which is 
> certainly a transport issue.
> [Linda] There is “Hot Migration” with transport service continuing, 
> and there is a “Cold Migration”, which is a common practice in many 
> data centers, which stop the task running on the old place and move to 
> the new place before restart as described in the Task Migration.
> Is it helpful to add this description to the draft?
> ==Summary==
> The technical aspects of the draft concerning L2 VM mobility (within a 
> subnet) seem sound. However, this is only part of the draft, which has 
> the following
> issues:
> #. The introduction does not say what the purpose of publishing this 
> draft is.
> It seems that, rather than describing a specific protocol or 
> protocols, it intends to describe the overall system procedure that 
> would typically be used in DCs for VM mobility. It is tagged as a BCP, 
> but it does not say who needs this BCP, why it is useful for the IETF 
> to publish this BCP, how wide the authors' knowledge is of current 
> practice (given DCs are private), or why this is a BCP rather than a 
> protocol spec.
> [Linda] The first paragraph on Page 3 has the description why VM 
> Mobility is needed. Is it helpful to move this paragraph to the 
> beginning of the Introduction Section?
> /“//Virtualization which is being used in almost all of today’s data/
> /centers enables many virtual machines to run on a single physical/
> /computer or compute server. Virtual machines (VM) need hypervisor/
> /running on the physical compute server to provide them shared/
> /processor/memory/storage. Network connectivity is provided by the/
> /network virtualization edge (NVE) [RFC8014]. Being able to move VMs/
> /dynamically, or live migration, from one server to another allows for/
> /dynamic load balancing or work distribution and thus it is a highly/
> /desirable feature [RFC7364].//”/
> The draft starts out (S.3) as if it intends to say what a good VM 
> Mobility protocol should or shouldn't do, but the rest of the document 
> doesn't give any reasoning for these recommendations, it just asserts 
> what appears to be one view of how a whole VM Mobility system works, 
> sometimes referring to one example protocol RFC for a component part, 
> but more often with no references or details.
> [Linda] Is it helpful to move the paragraph above to the beginning of 
> the Introduction Section? So that audience is aware of why VM Mobility 
> is needed. And then follow up with what a good VM Mobility protocol 
> should or shouldn't do?
> #. It does not seem as if the NVO WG has discussed the purpose of 
> using normative text in this draft. See detailed comments.
> [Linda] The “Intended status” of the draft is “Best Current Practice”. 
> So all the text are not “normative”. Is it Okay?
> #. The draft silently slips back and forth between VM mobility and VM 
> redundancy, without recognizing the differences. See detailed comments.
> [Linda] There is only one usage of “redundancy” in the entire 
> document, used under the context of “Hot standby option”, indicating  
> the “redundancy” of “the VMs in both primary and secondary domains 
> have identical information and can provide services simultaneously as 
> in load-share mode of operation” being expensive.
> #. Please adopt different terminology than "source NVE" and 
> "destination NVE", which are really poor choices of terms for an 
> intermediate node. See detailed comments. Why not use "old NVE" and 
> "new NVE", which is what you mean?
> [Linda] Thanks for the suggestion. We will change to “Old NVE”, and 
> “new NVE”.
> #. Applicability is fairly clearly outlined, but it is not clear 
> whether hosts corresponding with the mobile VMs are part of the same 
> controlled environment or on the uncontrolled public Internet. See 
> detailed comments.
> [Linda] “Hosts” are the App running on the VM. It is the under the 
> same controlled environment. Not on uncontrolled public internet.
> #. Section 4.2.1 on L3 VM mobility reads like some potential 
> half-thought-through ideas on how to solve L3 mobility, rather than 
> current practice, let alone best current practice. Either current 
> practice should be described instead, or the scope of the draft should 
> be narrowed solely to L2 VM mobility. See detailed comments.
> [Linda] This is refereeing to “Cold Migration”, which is a common 
> practice in many data centers.
> # The VM's file system is described as state that moves with the VM 
> (S.6), but VM mobility solutions often move the VM but stitch it back 
> to its (unmoved) storage. Conversely, the storage can also move 
> independent of the VM.
> [Linda] It depends. When a VM move to a different zone, the 
> storage/file can becomes inaccessible.
> #. The draft omits some of the security, transport and management 
> aspects of VM mobility. See detailed comments.
> [Linda] Can you provide some text?
> #. The draft reads as if different sections have been written by 
> different authors and no-one has edited the whole to give it a 
> coherent structure, or to ensure consistency (both technical and 
> editorial) between the parts. See detailed comments.
> [Linda] we can improve.
> #. The quality of the English grammar does not allow a reviewer to 
> concentrate on the technical aspects rather than the English. It would 
> have been useful if one of the English-speaking co-authors had 
> improved the English before submission for review. See detailed comments.
> [Linda] can you help?  Becoming a co-author to improve?
> ==Detailed Comments==
> ===#. Normative statements===
> In the body of the document, there is just one occurrence of normative 
> text (actually two "MUST"s, but both state a common requirement - just 
> written separately for IPv4 and IPv6). This merely serves to imply 
> that everything else the document says is less important or optional, 
> which was probably not the intention.
> [Linda] The goal is to indicate any solution in moving the VM “MUST” 
> follow this rule. They make sense, aren’t they?
> At the start there is a requirements section, which states what a VM 
> Mobility protocol "SHOULD" or "SHOULD NOT" do. I think this is 
> intended as a set of goals for the rest of the document. If so, these 
> "SHOULDs" are not intended to apply to implementations, so they ought 
> not to be capitalized.
> [Linda] okay, will change.
> The first requirement, "Data center network SHOULD support virtual 
> machine mobility in IPv6", is written as a requirement on all DC 
> networks, not on implementations. I assume this was intended to read 
> as "Data center network virtual machine mobility protocols SHOULD 
> support IPv6". Even then, it doesn't really add anything to say VM 
> mobility should support v6 and it should support v4. A L2 solution 
> won't. While undoubtedly, a L3 solution will at least support one of them.
> [Linda]Agree. Will change it to “Data center that support IPv6 address 
> should …”
> I'm not sure that 'protocol' is the right word anyway; I think 'VM 
> Mobility procedure' would be a better phrase, because it includes 
> steps such as suspending the VM, which is more than a protocol.
> [Linda] yes. Will change to “Procedure”.
> The requirement "Virtual machine mobility protocol MAY support host 
> routes to accomplish virtualization", is not followed up at all in the 
> rest of the draft.
> Even if this requirement stays, the last 3 words should be deleted.
> [Linda] will change to “Host Route can be used to support the Virtual 
> Machine Mobility Procedure.”
> By the end of the draft, the solution falls far short of the most 
> relevant "Requirements" anyway, so one assumes the title of the 
> section ought to have been "Goals". Specifically, even in the simpler 
> case of L2 VM mobility, S.4.1 says that triangular routing and 
> tunnelling persist "until a neighbour cache entry times out". A cache 
> timeout is about 10 orders of magnitude longer than the requirement to 
> only persist "while handling packets in flight", which would be a few 
> milliseconds at most (the time for packets to clear the network that 
> were already launched into flight when the old VM stopped).
> Whatever, it would be preferable for the draft to give rationale for 
> these requirements, rather than just assert them. This would help to 
> shed light on the merits of the different trade offs that solutions 
> choose.
> [Linda] Agree, will add.
> ===#. Mobility vs. Redundancy===
> Redundancy and mobility have a lot of similarities, but they have 
> different goals. With mobility, it is necessary to know the exact 
> instant when one set of state is identical to the other so it can hand 
> over. With redundancy, the aim is to keep two (or more) sets of state 
> evolving through the same sequence of changes, but there is no need to 
> know the point at which one is the same as the other was at a certain 
> point.
> [Linda] Agree with what you said. There is only one usage of 
> “redundancy” in the entire document, used under the context of “Hot 
> standby option”, indicating  the “redundancy” of  “the VMs in both 
> primary and secondary domains have identical information and can 
> provide services simultaneously as in load-share mode of operation” 
> being expensive.
> The draft slips from mobility to resilience in the following places:
> * S.2. Terminology: Warm VM Mobility is defined without any ending, as 
> if it is permanent replication. * S.7. "Handling of Hot, Warm and Cold 
> Virtual Machine Mobility" is actually all about redundancy, and 
> doesn't address mobility explicitly.
> [Linda] Will add the definition “Hot Migration”, “cold migration”, and 
> “warm migration”.
> ===#. Terminology===
> Packets run from the source at A to the destination at B via NVE1, 
> then via NVE2. Please don't call NVE1 and NVE2 the source NVE and the 
> destination NVE.
> In future, no-one will thank you for the apparent contradictions when 
> they continually stumble over phrases like this one in S.4.1: "...send 
> their packets to the source NVE".
> The term "packets in flight" is used incorrectly to refer to all the 
> packets sent to the old NVE after the VM has moved, even if they were 
> launched into flight long after the old VM stopped receiving packets.
> [Linda] thank for the comments. Will change.
> BTW, I think s/before/after/ in: "that have old ARP or neighbor cache 
> entry before VM or task migration".
> I think: s/IP-based VM mobility/L3 VM mobility/ throughout, because 
> "based"
> sounds (to me) like the mobility control protocol is over (i.e. based 
> on) IP.
> ===#. Applicability===
> In section 4.2 it says that the protocol mostly used as the IP based 
> task migration protocol is ILA. This implies that all hosts 
> corresponding with the mobile VMs are either part of the same 
> controlled environment, or they are proxied via nodes that are part of 
> the same controlled environment (I only have passing knowledge of ILA, 
> but I understand that it depends on ILA routers on the path). If I am 
> correct, this aspect of scope needs to be made clear from the start.
> Also under the heading of applicabiliy, the sentence "Since migrations 
> should be relatively rare events" appears very late in the document 
> (S.4.2.1). The assumed level of churn ought to be stated nearer the start.
> [Linda] yes, under the same controlled environment.
> ===#. L3 Mobility===
> L2 VM mobility is independent of the application, because resolution 
> of L2 mappings is delegated to the stack. In contrast, L3 VM mobility 
> is only feasible under certain conditions, because an application 
> needs an IP address to open a socket (resolution of DNS names is not 
> delegated to the stack, and apps can use IP addresses directly anyway).
> Examples of the 'certain conditions':
> a) /All/ applications used in the whole DC load balancing scheme 
> contain IP address migration logic for /all/ their connections; b) VMs 
> running solely applications that support IP address migration register 
> this fact with the NVA, and it only select such VMs for mobility. c) 
> An abstraction is layered over /all/ the IP addresses exposed to 
> applications (at both ends) so that the IP addresses that applications 
> use are solely identifiers  (e.g. ILA, LISP, HIP), not also locators.
> The introduction says the draft is about VM mobility in a multi-tenant 
> DC, so the DC admin will not know the range of applications being 
> used. This excludes condition (a) above. When the draft says "...if 
> all applications running are known to handle this gracefully...", it 
> doesn't quantify just how restrictive this condition is, and it gives 
> no explanation of how this knowledge might be 'known' or which 
> function within the system 'knows' it.
> S.4.2.1 contains what seems like plenty of arm-waving.
> * "TCP connections could be automatically closed in the network stack 
> during a migration event."
>         o There is no TCP connection state in the network stack.
>         o Even if the network starts to drop every packet, the TCP 
> connection
>         state persists in the end-points for a duration of the order 
> of 30-90
>         minutes (OS-dependent) before TCP deems the connection is 
> broken. o
>         Other transport protocols have similar designs (including the 
> app-layer
>         of protocols over UDP).
> * "More involved approach to connection migration":
>         o pausing the connection [does this refer to an actual feature 
> of any
>         L4 protocol?] o packaging connection state and sending to 
> target [does
>         this assume logic written into the application, or is this 
> assuming the
>         stack handles this and the app is restricted to using some form of
>         separate identifier/locator addresses?] o instantiating connection
>         state in the peer stack [ditto?].
> There's some arm-waving in S.7 too:
>   "Cold Virtual Machine mobility is facilitated by the VM initially
>    sending an ARP or Neighbor Discovery message at the destination NVE
>    but the source NVE not receiving any packets inflight."
>    [How is it arranged for the source NVE not to receive any packets 
> in flight?]
> And in S.7:
>   "In hot
>    standby option, regarding TCP connections, one option is to start
>    with and maintain TCP connections to two different VMs at the same
>    time."
>    [This sounds like resilience logic has been written into the 
> application,
>    which would be a special case but not something VM mobility 
> infrastructure
>    could depend on.]
> [Linda] will add.
> ===#. Gaps===
> #. Security Considerations: repeats issues in other drafts that are 
> not specific to mobility, but it does not mention any security issues 
> specifically due to VM mobility. It says that address spoofing may 
> arise in a DC (sort-of implying it is worse than in non-DC 
> environments, but not saying why). The handshake at the start of a 
> connection (e.g. TCP, SCTP, QUIC) checks for source address spoofing. 
> So L3 VM mobility would be more vulnerable to source address spoofing 
> in cases where the mobile VM was the connection initiator and there 
> was not a new handshake after the move. However, this draft does not 
> contain any detailed mobility protocols, so it is not possible to 
> identify any specific security flaws.
> #. Transport Issues: Effect of delay on the transport: Cold mobility 
> introduces significant delay, and other forms less, but still some 
> delay. It should be pointed out that some applications (e.g. 
> real-time) will therefore not be useful if subjected to VM mobility. 
> Similarly, even a short period of delay will drive most congestion 
> controls to severely reduce throughput. These points might be 
> self-evident, but perhaps they should be stated explicitly.
> BTW, in the L3 VM mobility case, the draft often refers to TCP 
> connections, but the address bindings of any transport protocols would 
> have to be migrated due to VM mobility (e.g. SCTP; sequences of 
> datagrams over UDP; streams over UDP such as with RTP, QUIC).
> #. Management Issues: perhaps the draft ought to recommend statistics 
> gathering (e.g. time taken, amount of duplicate data) to aid a DC's 
> future decisions on the cost-benefit of moving a VM. The OPSDIR review 
> says a BCP does not /have/ to describe management issues, but this 
> document seems to describe a whole system procedure, not just a 
> protocol, which then surely includes the management plane.
> [Linda] can you become a co-author and add those in?
> ===#. Incoherent Structure===
> S.4.1. happens to talk about VMs moving, while S.4.2. happens to talk 
> about tasks moving, but this is not the distinguishing aspect of these 
> two sections (anyway, S.2. says "the draft uses task and VM 
> interchangeably"): * "4.1 VM Migration" is about "L2 VM Mobility" so 
> this ought to be the section heading, *
> "4.2 Task Migration" is about "L3 VM Mobility" so this ought to be the 
> section heading. It would also help not to switch from VM to task 
> across these sections
> - it's just a distraction.
> S.4.1 needs better signposting of where each sub-case ends 
> (Subsections might be useful to solve this): * IPv4 * end-user client 
> * 2 paras starting "All NVEs communicating with this virtual 
> machine..." [Not clear that the end-user case has ended and we have 
> returned to the general IPv4 case?] * IPv6 [Strictly, it still hasn't 
> said whether the end-user client case has ended.] [Also, it doesn't 
> explain why there is no need for an end-user client case under IPv6?] 
> Sections 5 & 6 seem to be about either L2 or L3 mobility, whereas 
> Sections 7 &
> 8 seem to be restricted to L2.
> The draft vacillates over what to do with packets arriving at the old 
> NVE in the L3 case (see also L3 mobility above): * S4.2 first says 
> packets are dropped, possibly with an ICMP error message;
>   o then later it says they are silently dropped;
>   o then in the very next sentence it says either silently drop them 
> or forward
>   them to the new location
> * S.5 says they should not be lost, but instead delivered to the 
> destination hypervisor
>   o then it describes how they are tunnelled (which is not the same as
>   "forwarding").
> The order in which all the stages of mobilty are given is jumbled up 
> across sections that also appear in arbitrary order: * S.5 prepares, 
> establishes uses then stops a tunnel, but it doesn't say where the 
> other stages fit between these steps
>         o When tunneling packets, it talks about the *migrating* VM 
> not the
>         *migrated* VM, which implies tunnelling has started before the 
> new VM
>         is running. Does this imply there is a huge buffer? o It says 
> "Stop
>         Tunneling Packets - When source NVE stops receiving packets 
> destined
>         to..." but it is never clear when a source has stopped sending 
> packets
>         to a destination, unless it explicitly closes the connection 
> (e.g. with
>         a FIN in the case of TCP). Often there are long gaps between 
> packets,
>         because many flows are 'thin' (meaning the application 
> frequently has
>         nothing to send). These gaps can last for milliseconds, hours 
> or even
>         days without any implication that the connection has ended.
> * Then S.6. describes moving state, but doesn't say that this is not 
> after the previous tunnelling steps (or where it fits within those 
> steps). * Then S.7 describes hot, warm and cold mobility, but doesn't 
> lay out the tunnelling or steps to move state in each case. * Then S.8 
> says it's about VM life-cycle, but just gives the very first 3 steps 
> for allocation of resources to a VM, then abruptly ends, without even 
> starting the VM, let alone getting to move it.
> S.5 exhibits another inconsistency by talking about the hypervisor, 
> not the NVE.
> ==#. Nits==
> Nits with the English are too numerous to mention them all. Below are 
> pointers to general problems as well as some individual instances.
> S.4
>   "Layer 2 and Layer 3 protocols are described next.  In the following
>    sections, we examine more advanced features."
>         s/following/subsequent/
> S.4.1
> Expand WSC, MSC and NVA on first use.
> s/the VM moves in the same link/the VM moves in the same subnet/
> "i.e. end-user clients ask for the same MAC address upon migration. 
> [...] to ensure that the same IPv4 address is assigned to the VM." I 
> think s/IPv4/MAC/ was intended?
> "  All NVEs communicating with this virtual machine uses the old ARP
>    entry.  If any VM in those NVEs need to talk to the new VM in the
>    destination NVE, it uses the old ARP entry."
> Repetition: these 2 sentences say the same. (The mistake is also 
> repeated when these 2 sentences are repeated for IPv6).
> S.4.2.1
> s/Push the new mapping to hosts./Push the new mapping to communicating 
> hosts./
> S.5.
> The IPv4/IPv6 pairs of paras for "tunnel estabilshment" and "tunneling 
> packets"
> only differ in the words "IPv4"/"IPv6". So in each case a single para 
> could be given for IP (irrespective of whether v4 or v6).
> Thank you very much.
> Linda Dunbar
>
>
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-- 
________________________________________________________________
Bob Briscoe                               http://bobbriscoe.net/