Now that I've restarted posting on this blog, I'm struggling to name the technologies consistently. It used to just be CRM (or Microsoft CRM, or Dynamics CRM, or Microsoft Dynamics CRM), but now it's Dynamics 365, or Dynamics 365 for Customer Engagement. And from the platform perspective, it's Common Data Services (CDS).
To an extent, we're necessarily at the whim of Microsoft branding, which can change, but I feel we're close to an overall set of terms that can be consistently applied. As I see it, there are 3 distinct things that can be named:
The overall suite of technologies
This has been Dynamics, Dynamics 365, or Microsoft Business Applications. Of these, Dynamics 365 is definitely the leader, though there has been recent use of Microsoft Business Applications, so we may find this to become more popular. To me, the main difference is that Microsoft Business Applications can include technologies such as PowerApps and Flow, which started out under the Office 365 brand
The applications that Microsoft deliver
We started with the separate Dynamics products (CRM, AX, GP, NAV etc). Several (but not all) were then included within Dynamics 365, along with some new application (e.g. Talent). From the original CRM application and implementations, we can refer to each Application, which are Sales, Customer Service, Marketing, Field Service and Project Service Automation. Here the roadmap is a useful reference. These applications can be usefully referred to individually, but we need to be able to refer to them collectively, and distinguish them from the other Dynamics 365 applications (Finance and Operations, Retail, Talent, Business Central) that are not based on the CRM technology. Rather than using the term 'CRM', Microsoft are pushing the term 'Microsoft Dynamics 365 Customer Engagement'. I do mostly understand the Microsoft approach, but it is a lot longer than 'CRM', so I'm going to struggle to move off CRM. For more on this, see Jukka's post
The platform - i.e. what underpins the applications
'Platform' itself can mean different things to different people, which we won't resolve here, but I'm taking about the technologies that started in CRM, and not just the Azure platform. Here we started with CRM, then the term xRM was introduced, but now (as of March 2018), I think that we should now be referring to CDS (Common Data Services). Now that Common Data Services for Applications and CRM are the same platform is a huge step. And from now on , I think the platform that started out as CRM is better termed CDS. There are a few details to sort out still; there are 'Common Data Services for Applications' and 'Common Data Services for Analytics', and I reckon only the former truly relates to the original CRM platform, but I'm not certain on that yet
Overall, I thing the picture will soon be reasonably clear, with a few caveats. For the foreseeable future, I expect I'll still preface most presentations by saying that I'll use the terms 'CRM' and 'Dynamics 365' interchangeably, unless there is a reason to differentiate between them, in which case I'll try and explain the difference. Similarly, I'll probably be using 'CRM' and 'xRM' and 'CDS' interchangeably for a while
Postings about Microsoft CRM customisation and development, with digressions into SQL Server, Reporting, SharePoint and .Net
Saturday, 31 March 2018
Common Data Services Architecture in CDS 2.0
I struggled to think of a good title for this post, and I hope to change it to something more inspirational, as this is a very significant topic.
Microsoft have made several recent announcements in March 2018, but for me the most significant is the PowerApps Spring Update. This may seem strange for me, a CRM MVP, to say, given how much there was on CRM in the Business Applications Spring ’18 Release Notes, but I think it makes sense once you realise that the PowerApps Update describes the new and future Common Data Services (CDS) architecture, and that in this architecture, much of CDS is the CRM platform (aka xRM).
Rather than CDS being a separate layer or component that then communicates with the CRM platform, CDS and CRM are a shared platform.
Strictly, it's not quite as simple as the last sentence makes out, especially as CDS now splits into Common Data Service for Applications and Common Data Service for Analytics (I'm hoping we'll soon get good acronyms to distinguish these), but for now it's worth emphasising that, if using Common Data Service for Applications, you are directly using the same platform components that CRM uses. This has several major implications (all of which are good to my mind):
Microsoft have made several recent announcements in March 2018, but for me the most significant is the PowerApps Spring Update. This may seem strange for me, a CRM MVP, to say, given how much there was on CRM in the Business Applications Spring ’18 Release Notes, but I think it makes sense once you realise that the PowerApps Update describes the new and future Common Data Services (CDS) architecture, and that in this architecture, much of CDS is the CRM platform (aka xRM).
Rather than CDS being a separate layer or component that then communicates with the CRM platform, CDS and CRM are a shared platform.
Strictly, it's not quite as simple as the last sentence makes out, especially as CDS now splits into Common Data Service for Applications and Common Data Service for Analytics (I'm hoping we'll soon get good acronyms to distinguish these), but for now it's worth emphasising that, if using Common Data Service for Applications, you are directly using the same platform components that CRM uses. This has several major implications (all of which are good to my mind):
- CDS for Apps can fully use the CRM platform features, such as workflow, business process flows, calculated fields. This immediately makes CDS a hugely powerful platform, but also means there are no decisions to take on which platform to use, or differences to take into account, because they are the same platform
- There are no extra integration steps. Commissioning a CDS environment will give you a CRM organisation, and equally, commissioning a CRM organisation will give you a CDS environment. This is not a duplication of data or platforms, because again, they are the same platform
There's a lot to play with, and explore, but for now this seems a major step forward for the platform, and I feel I'll be writing a lot more about CDS (though I'm still not sure when I'll stop referring to CRM when describing the platform).
The one area that still needs to be confirmed, and which could have a major impact on adoption, is licensing, but I hope we'll get clarity on this soon.
Thursday, 29 March 2018
Concurrent or Consistent - or both
A lesser-known feature that CRM 2016 brought to us is support for optimistic concurrency in the web service API. This may not be as exciting as some features, but as it's something I find exciting, I thought I write about it.
Am I an optimist
So, what is it about ? Concurrency control is used to ensure data remains consistent when multiple users are making concurrent modifications to the same data. The two main models are pessimistic concurrency and optimistic concurrency. The difference between the 2 can be illustrated by considering two users (Albert and Brenda), who are trying to update the same field (X) on the same record (Y). In each case the update is actually 2 steps (reading the existing record, then updating it), and Albert and Brenda's try and do the steps in the following time sequence:
Am I an optimist
So, what is it about ? Concurrency control is used to ensure data remains consistent when multiple users are making concurrent modifications to the same data. The two main models are pessimistic concurrency and optimistic concurrency. The difference between the 2 can be illustrated by considering two users (Albert and Brenda), who are trying to update the same field (X) on the same record (Y). In each case the update is actually 2 steps (reading the existing record, then updating it), and Albert and Brenda's try and do the steps in the following time sequence:
- Albert reads X from record Y (let's say the value is 30)
- Brenda reads record Y (while it's still 30)
- Albert updates record Y (Albert wants to add 20, so he updates X to 50)
- Brenda updates record Y (she wants to subtract 10, so subtracts 10 from the value (30) she read in step 2, so she updates X to 20)
If we had no concurrency control, we would have started with 30, added 20, subtracted 10, and found that apparently 30 + 20 - 10 = 20. Arguably we have a concurrency model, which is called 'chaos', because we end up with inconsistent data.
To avoid chaos, we can use pessimistic concurrency control. With this, the sequence is:
- Albert reads X from record Y (when the value is 30), and the system locks record Y
- Brenda tries to read record Y, but Albert's lock blocks her read, so she sits waiting for a response
- Albert adds 20 to his value (30), and updates X to 50, then the system releases the lock on Y
- Brenda now gets her response, which is that X is now 50
- Brenda subtracts 10 from her value (50), and updates X to 40
So, 30 + 20 - 10 = 40, and we have consistent data. So we're all happy now, and I can finish this post.
Or maybe not. Brenda had to wait between steps 2 and 4. Maybe Albert is quick, but then again, maybe he isn't, or he's been distracted, or gone for a coffee. For this to be robust, locks would have to placed whenever a record is read, and only released when the system knows the Albert is not still about to come back from his extended coffee break. In low latency client-server systems this can be managed reasonably well (and we can use different locks to distinguish between an 'I'm just reading', and 'I'm reading and intending to update'), but with a web front-end like CRM, we have no such control. We've gained consistency, but at a huge cost of concurrency. This is pessimistic concurrency.
Now for optimistic concurrency, which goes like this:
- Albert reads X (30) from record Y (when the value is 30), and also reads a system-generated record version number (let's say it's version 1)
- Brenda reads record Y (while it's still 30), and the system-generated record version number (which is still version 1, as the record's not changed yet)
- Albert adds 20 to his value (30), and updates X to 50. The update is only permitted because Albert's version number (1) matches the current version number (1). The system updates the version number to 2
- Brenda subtracts 10 from her value (30), and tries to update X to 20.This update is not permitted as Brenda's version number (2) does not match the current version number (1). So, Brenda will get an error
- Brenda now tries again, reading now read the current value (50) and version number (2), then subtracting 10, and the update is allowed
The concurrency gain is that Albert, Brenda and the rest of the alphabetical users can read and update with no blocks, except when there is a conflict. The drawback is that the system will need to do something (even if it is just give an error message), when there is a conflict.
.
What are the options
Given this post is about a feature that was introduced in CRM 2016, what do you think happened before (and now, because you have to explicitly use optimistic concurrency). If it's not optimistic concurrency, then it's either pessimistic or chaos. And it's not pessimistic locking, as if Microsoft defaulted to this, then CRM would grind to a locked halt if users often tried to concurrently access records.
Maybe I want to be a pessimist
As chaos sounds bad, maybe you don't believe that CRM would grind to a locked halt, or you're happy that users don't need concurrent access, or you've been asked to prevent concurrent access to records (see note 1). So, can we apply pessimistic locking ? The short answer is 'no', and most longer answers also end up 'no'. Microsoft give us almost no control over locking (see note 2 for completeness) within CRM, and definitely no means to hold locks beyond any one call. If you want to prolong the answer as much as you can, you might conceive a mechanism whereby users only get user-level update access to records, and have to assign the record to themselves before they can update it, but this doesn't actually work either, as a user may still be making the update based on a value they read earlier. And you can't make it user-level read access, and the user then wouldn't be able to see a record owned by someone else to be able to assign it to themselves.
OK, I'll be an optimist
So, how do we use optimistic concurrency ? First of all, not every entity is enabled for optimistic concurrency, but most are. This is controlled by the IsOptimisticConcurrencyEnabled property of the entity, and by default it is true for all out-of-box entities enabled for offline sync, and for all custom entities. You can check this property by querying the entity metadata (but not in the EntityMetadata.xlsx document in the SDK, despite the SDK documentation)
Then, to use optimistic concurrency you need to do at least 2 things, and preferrably 3:
- In the Entity instance that you are sending to the Update, ensure the RowVersion property is set to the RowVersion that you received when you read this record
- In the UpdateRequest, set the ConcurrencyBehavior to IfRowVersionMatches
- Handle any exceptions. If there is a row version conflict (as per my optimistic scenario above), then you get a ConcurrencyVersionMismatch exception.
For a code example, see the SDK
I've described this for an Update request, and you can also use it for a Delete request, and I hope you'll understand why it doesn't apply to a Create request.
One word of warning; I believe that some entities fail when using optimistic concurrency - this seems to be the entities that are metadata related (e.g. webresource or savedquery). I suspect this is because the metadata-related internals work on different internal (at the SQL level) concurrency from most other entities.
How much does it matter
I've left this till last, otherwise you may not have read the rest of
the post, as it often doesn't matter. Consistency issues are most relevant if
there's a long time between a read and the corresponding update. The classic
example is offline usage (hence why it's enabled for out-of-box entities
enabled for offline sync). I also see it as relevant for some bulk operations;
for example we do a lot of bulk operations with SSIS, and for performance
reasons, there's often a noticeable time gap between reads and writes in an
SSIS data flow.
Notes
Notes
- During CRM implementatons, if asked 'Can we do X in CRM ?', I very rarely just so no, and I'm more likely to say no for reasons other than purely technical ones. However, when I've been asked to prevent concurrent access to records, then this is a rare case when I go for the short answer of 'no'
- We can get a little bit of control over locking within a synchronous plugin, as this runs within the CRM transaction. This is the basis of the most robust CRM-based autonumber implementations. However, the lock can't be held outside of the platform operation
- My examples have concentrated on updating a single field, but any talk of locking or row version is at a record level. If Albert and Brenda were changing different fields, then we may not have a consistency issue to address. However, for practical reasons, any system applies locks and row versioning at a record, and not field level. Also, even if the updates are to different fields, it is possible that the change they make is dependent on other fields that may have changed, so for optimistic concurrency we do get a ConcurrencyVersionMismatch if any fields had changed