I have a workflow and am persisting it into the database. It all worked fine until I tried using entities in the workflow. Because I'm using POCOs the workflow seems to have trouble serializing the object, especially the relationships.
Now the weird thing is, the first time I start the workflow the serialization works and the object is realoaded into the workflow on resuming the bookmark. But this time when persisting the workflow, I get the following exception:
"The EntityCollection object could not be serialized. This type of object cannot be serialized when the RelationshipManager belongs to an entity object that does not implement IEntityWithRelationships."
I saw that this might help, but I don't have a service and haven't figured out how to get it working without one.
http://msdn.microsoft.com/en-us/library/ee705457.aspx
Does anyone have suggestions? Or do you think switching to use services would solve my problem?
Thanks
Objects stored as variables in Workflow are serialized and deserialized when saved to persistence.
There is no opportunity for you to get involved in this serialization process as there is with a WCF service.
Your options would be to use types that dont come from your Entity Framework POCO library or move the code to a service that you call from WF.
Related
We are currently rewriting an existing internal ASP.NET Web Forms application. Our application consists of a Web Api back end which uses Entity Framework 6 for data access and an front end which uses AngularJS.
We have an existing large database that I've created EF models using the Code-First Using Existing Database method and we are using data transfer object classes as inputs/outputs to our API methods so we aren't directly exposing our model classes. So basically, I'm trying to become proficient with EF, Web Api and AngularJS all at the same time. For the most part I'm fairly comfortable with the latter two, but for EF I haven't completely gotten comfortable with. I've watched a lot of the videos on Microsoft Virtual Academy but this is the first time I've had some hands-on experience with it.
We've been working on this application for a few months and so far we've only had to work with CRUD operations on our entities (POCO DTO's) which are flat objects with simple properties. However, we've finally come across some situations where we need to deal not only with our classes, but properties which are classes themselves; a parent-child relationship.
Therefore, I have the following questions:
I see that when we have a proper foreign key relationship in our DB, that virtual properties are created in EF, which from what I recall are to support lazy-loading. However, lazy-loading isn't really feasible in this environment where we are using web services (Web Api). Our object model does allow for some really large hierarchy of classes where a fully populated object and its children would mean a large amount of data would be passed around when that really isn't necessary, so in most cases a first level object is all we need. In some cases however, we do want to populate child classes, so my question is how do we do that, and where do we do that? I've looked at the automatically-generated code in the DB Context but we have also used scaffolded code to create our controllers. Which place do we need to do this? I've seen code samples showing how do to this but it hasn't said specifically where this code lies. It appears to be within a controller but I could be wrong.
If we do allow for 2- or more level hierarchy of objects, does EF automatically handle operations (updates, deletes, etc.) -- for example, if we have a "Company" object which has a collection of "Customer" objects, and we delete the "Company" object, do the related "Customer" objects get deleted too? Also, is a multi-step operation like that automatically performed within a transaction or do we need to explicitly set that up?
If I modify a model class or the DB context, seeing as this code is automatically-generated, that's generally bad practice as my changes could be overwritten, so I am assuming the controller code is where I want to make my changes. I am aware of database migrations but I have no experience with them and I am sure I'll need to use them at some point because I am fairly confident that our database may not have all the foreign key relationships necessary for EF to do everything we need at the moment.
I know this is a long post, but if anyone can give some guidance on how to do some of these things because it's not only me that's having to deal with this but I have two other developers on my team who are working on this project and we are all as inexperienced with this as the others are. Thanks
For the purpose of sending data across a web service, I'd suggest creating a DTO to hold the data you want to send and mapping your entities to the DTO instead of trying to send the entities themselves in your payload. It also protects your API from changes to your entity.
Cascading deletes are configurable, iirc, but I'm not 100% sure what the default is. Transactions are generally not implicit, so you will want to use those where you require them.
Not exactly sure what you are asking here. In general, how your entities/tables change depends on if you are using database-first or code-first. If you are using database-first (you will have a .edmx file in your solution that has the model matching your schema), you just update the SQL directly and update your entity model via the .edmx. If you use code-first, you will change the entities how you want them and run a database migration to update your database to match.
MSDN article about code-first migration: https://msdn.microsoft.com/en-us/data/jj591621.aspx
I'm currently creating an application which is highly modular (using the Prism-Framework) and accesses a database via the EntityFramework implemented in CodeFirst.
My goal is to seperate the actual writing of the data into the Database from the "normal" use of the created Entities. Writing to the Database shall only be done by the main-Application but the Modules should still be able to use the Entity-Classes.
Thus, they must know the DataContext or at least the Entiy Classes. Here is the problem, though: If a module changes a property of an Entity Class and the main-Application calls "SaveChanges()" on the DataContext for some other reason, the changes made by the module are automatically saved to the Database without the main-Application having control over it.
How can I prevent this behaviour? The Modules must not be able to change the Database-Content, except via a defined Interface to the main-Application.
My first thought was to implement ICloneable in every entity-Class and to only pass clones of the Entity-Objects to the Modules to work with. The modules would then, if they wanted to request a change in the database, pass the cloned Objects to the main-Application which updates the original object and calls "SaveChanges()" on the DataContext.
Do you guys think this is a viable solution, or might there be a better way to implement this behaviour?
Thanks in advance!
Use the DbSet.AsNoTracking() Method to enable reading data from the database that will not be tracked by the DbContext.
I am playing around with Entity Framework to see how it can be used in a new project I am working on. I put my edmx file in a class library so the Entities (and database access) can be used in multiple places. Currently I have a web project and a console project both referencing the class library.
One of my Entities has a Partial class defined with a static method. The purpose of the method is to accept some parameters and create one or more instances of the specific class. My first version of the method created an ObjectContext instance, created the Entity class (or classes), and returned the Entities to the calling method. The calling method then updated some properties and tried to save the Entities using a new ObjectContext instance. Obviously this did not work because the Entities were bound (correct term ??) to the Context created within the static method.
After some research, I modified the static method to also accept an ObjectContext reference to ensure that all the Entities where created and then later on manipulated and saved using the same Context. This works fine but the design just feels wrong.
Assuming that my one static method may grow into many more, or that my app (especially the web app) would probably benefit from additional layers (DAL or even a Service Layer), does it make sense for all these classes to require an ObjectContext parameter?
I have read on many postings that creating an ObjectContext via a Singleton pattern is a bad idea because "many clients would use the same object". My problem with that is I do not see how that is possible. In a local console app there is only a single user running the app. In a web app there would only be a single user on each request. Where is the user sharing problem? Not a single article/posting mentioned it...but where they referring to a Singleton pattern storing the object instance in the Application context?
I have also seen postings focused on web usage and storing the object instance in the users Session object via the HttpContext object. This makes sense but does not seem to address non-web usage.
I think that whatever solution is appropriate (static methodm, Factory object, etc.) would most likely be implemented in my class library so obviously it needs to support both web and non-web solutions. Maybe check for HttpContext to determine what environment it is running in.
I was hoping http://www.west-wind.com/weblog/posts/2008/Feb/05/Linq-to-SQL-DataContext-Lifetime-Management would be informative but I am having a hard time wrapping my head around the post and the example code seems like overkill for instantiating and sharing a simple object. (Although I am sure I am just not getting it...)
Any thoughts are appreciated.
Thanks.
The issue is not that “many clients would use the same object.” The issue is that the ObjectContext is intended to be a single unit of work. If you use it for many different units of work, you will find that there are a number of problems.
Memory usage will grow and grow.
Your application will become slower as object fixup has to do increasing amounts of work.
Multithreading won't work
The solution is to use the ObjectContext in the manner it is intended, namely, as a single unit of work.
I have an architectural question about EF and WCF.
We are developing a three-tier application using Entity Framework (with an Oracle database), and a GUI based on WPF. The GUI communicates with the server through WCF.
Our data model is quite complex (more than a hundred tables), with lots of relations. We are currently using the default EF code generation template, and we are having a lot of trouble with tracking the state of our entities.
The user interfaces on the client are also fairly complex, sometimes an object graph with more than 50 objects are sent down to a single user interface, with several layers of aggregation between the entities. It is an important goal to be able to easily decide in the BLL layer, which of the objects have been modified on the client, and which objects have been newly created.
What would be the clearest approach to manage entities and entity states between the two layers? Self tracking entities? What are the most common pitfalls in this scenario?
Could those who have used STEs in a real production environment tell their experiences?
STEs are supposed to solve this scenario but they are not silver bullet. I have never used them in real project (I don't like them) but I spent some time playing with them. The main pitfalls I found are:
Coupling your data layer with your client application - you must share entity assembly between projects (it also means it is .NET only solution but it should not be a problem in your case)
Large data transfers - you pass 50 entities to clients, client change single entity and you will pass 50 entities back. It will require some fighting with STEs to avoid passing unnecessary data
Unnecessary updates to database - normally when EF works with attached entities it track changes on property level but with STEs it track changes on entity level. So if user modify single property in entity with 100 properties it will generate update with setting all of them. It will require modifying template and adding property level change tracking to avoid this.
Client application should use STEs directly (binding STEs to UI) to get most of its self tracking ability. Otherwise you will have to implement code which will move data from UI back to self tracking entity and modify its state.
They are not proxied = they don't support lazy loading (in case of WCF service it is good behavior)
I described today the way to solve this without STEs. There is also related question about tracking over web services (check #Richard's answer and provided links).
We have developed a layered application with STE's. A user interface layer with ASP.NET and ModelViewPresenter, a business layer, a WCF service layer and the data layer with Entity Framework.
When I first read about STE's the documentation said that they are easier then using custom DTO's. They should be the 'quick and easy way' and that only on really big projects you should use hand written DTO's.
But we've run in a lot of problems using STE's. One of the main problems is that if your entities come from multiple service calls (for example in a master detail view) and so from different contexts you will run into problems when composing the graphs on the server and trying to save them. So our server function still have to check manually which data has changed and then recompose the object graph on the server. A lot has been written about this topic but it's still not easy to fix.
Another problem we ran into was that the STE's wouldn't work without WCF. The change tracking is activated when the entities are serialized. We've originally designed an architecture where WCF could be disabled and the service calls would just be in process (this was a requirement for our unit tests, which would run a lot faster without wcf and be easier to setup). It turned out that STE's are not the right choice for this.
I've also noticed that developers sometimes included a lot of data in their query and just send it to the client instead of really thinking about which data they needed.
After this project we've decided to use custom DTO's with automapper from server to client and use the POCO template in our data layer in a new project.
So since you already state that your project is big I would opt for custom DTO's and service functions that are a specifically created for one goal instead of 'Update(Person person)' functions that send a lot of data
Hope this helps :)
So I was reading about Entity Framework and based on my agile development scenario I decided to go with POCO objects.
But now I'm having some extra problems I don't know how to get away with.
I'm working with RIA services and Silverlight so when I'm going to Save an object of the server side I have to attach the object to an ObjectContext. The thing is that I must then change the ObjectState to Added or Modified.
So my question is what's the best approach to really know what state to change it to. I saw in Julia Lerman's book that she uses a State attribute in her POCO objects and she takes care managing that state on the client side before sending the object to the server. That state then is used to change the real EntitySate once attached.
I've also seen other samples where the Insert implementation checks on the Key of the Entity (object) to know whether it is new or not. For example, if ProjectId in my Project entity is 0 (zero) I know it has to be a new object.
To be honest I don't like any of those approaches because in both cases my developers have to do some extra-work to actually save the object.
I'd like the know pros and cons of both solutions and hopefully a new (better) solution I'm still not seing.
You can still have self tracking entities and poco. In visual studio if you search the community templates there is a self tracking poco template. this is what you want to use. If you can find the template look for your entities using Ientitywithobjecttracker.
http://msdn.microsoft.com/en-us/library/dd456848.aspx