Integration Testing with NUnit and Entity Framework

This post gives a quick introduction into creating SQL CE dBs for performing Integration Tests using NUnit.

In the previous post Using NUnit and Entity Framework DbContext to programmatically create SQL Server CE databases and specify the databse directory a basic way was shown to how to create a new dB (using Entity Framework's DbContext) programmtically.  This was used to generate a new dB for a test hosted by NUnit.

The subsequent post Generating a SQL Server CE database schema from a SQL Server database using Entity Framework showed how to generate a SQL CE dB schema from an existing SQL Server database.

This post ties theprevious ones together.  As mentioned in the first post the reason for this is an attempt at what amounts to Integration Testing using NUnit.  I'm currently building a Repository and Unit Of Work abstraction on top of Entity Framework which will allow the isolation of the dB code (in fact it will isolate and abstract away most forms of data storage).  This means any business logic can be tested with a test-double that implements the Repository and UnitOfWork interfaces; which is straight forward Unit Testing.  The Integration Testing is to verify that the Repository and Unit Of Work implementations work correctly.

The rest of the post isn't focused on these two patterns; though it may mention them.  Instead it documents my further experience of using NUnit to writes tests that interact with dB via Entity Framework.  The premise for this is that a dB already exists.

As such the approach to using Entity Framework is a hybrid of Database First and Code First in that the dB schema exists and needs be maintained outside of EF and also that EF should not generate model classes, i.e. allowing the use of Code First POCOs.  This is possible as the POCOs can be defined, a connection made to dB and then the two are conflated via an EF DbContext.  It then seems that EF creates the model on the fly (internally compiles it) and as long as the POCO types map to the dB types then it all works as if by magic!

The advantage of doing it this way is that the existing dB is SQL Express based but for the Integration Testing a new dB can be created when needed, potentially one per test.  In order to keep the test dBs isolated from the real dB SQL Server Compact Edition (SQL Server CE V4) was used.  Therefore the requirement was for the EF code to be able to work with SQL Express and SQL CE with the primary definition of the schema taken from SQL Express.  It's not possible to use exactly the same schema as SQL CE only has a subset of the data-types provides by SQL CE.  However, the process described in the post 
Generating a SQL Server CE database schema from a SQL Server database using Entity Framework showed how to create semantically equivalent SQL.


From this point onwards it's assumed that an SQL file to create the dB has been generated.  Now create a new C# class library project and using the NUGet add Entity Framework, NUnit and SQL CE 4.0.  All my work has been with EF 4.3.1.  Following this drag the Model1.edmx.sqlce file from the project used to generate to new project.  You may wish to rename it, e.g. to test.sqlce.


Creating the database

The post Generating a SQL Server CE database schema from a SQL Server database using Entity Framework showed how to create a new CE dB per-test using the EF DbContext to do the hard work.  A different approach is now taken as the problem with creating a dB using DbContext is that in addition to creating any specified tables and indices etc. it also creates an additional table called '__MigrationHistory' which contains a description of the EF model used to create the dB.  The description of the problem caused by this will be delayed until the "Why DbContext is no longer used to create the database" section.  Suffice to say for the present using the new mechanism avoids the creation of this table.

The code below is the beginnings of a test class.  It is assumed all the tests need a fresh copy of the dB hence the creation is performed in the Setup method.  All this code does is create a SQL CE dB and then
creates the schema.

1:  [TestFixture]  
2: public class SimpleTests
3: {
4: const string DB_NAME = "test.sdf";
5: const string DB_PATH = @".\" + DB_NAME;
6: const string CONNECTION_STRING = "data source=" + DB_PATH;
7: [SetUp]
8: public void Setup()
9: {
10: DeleteDb();
11: using (var eng = new SqlCeEngine(CONNECTION_STRING))
12: eng.CreateDatabase();
13: using (var conn = new SqlCeConnection(CONNECTION_STRING))
14: {
15: conn.Open();
16: string sql=ReadSQLFromFile(@"C:\Users\Pete\work\Jub\EFTests\Test.sqlce");
17: string[] sqlCmds = sql.Split(new string[] { "GO" }, int.MaxValue, StringSplitOptions.RemoveEmptyEntries);
18: foreach (string sqlCmd in sqlCmds)
19: try
20: {
21: var cmd = conn.CreateCommand();
22:
23: cmd.CommandText = sqlCmd;
24: cmd.ExecuteNonQuery();
25: }
26: catch (Exception e)
27: {
28: Console.Error.WriteLine("{0}:{1}", e.Message, sqlCmd);
29: throw;
30: }
31: }
32: }
33: public void DeleteDb()
34: {
35: if (File.Exists(DB_PATH))
36: File.Delete(DB_PATH);
37: }
38: private string ReadSQLFromFile(string sqlFilePath)
39: {
40: using (TextReader r = new StreamReader(sqlFilePath))
41: {
42: return r.ReadToEnd();
43: }
44: }
45: }
46:
The dB file (Test.sdf) will be created in the current working directory.  As the test assembly is located in <project>\bin\debug which is where the NUnit test runner picks up the DLL from this directory this is where it is created.  If a specific directory is required then the '.\' can be replaced with the required path.

The Setup method is marked with NUnit's SetUp attribute meaning it will be invoked on a per-test basis creating a new dB instance for each test.  The DeleteDb method could be marked with [TearDown] attribute but at the moment any previous dB is deleted before creating a new one.  It would be fine to do both as a belt and braces approach.  The reason I didn't make it the TearDown method is so that I could inspect the dB following a test if needed.

SQL CE does not support batch execution of SQL scripts which is where it gets interesting as the SQL generated previously is in batch form.  The code reads the entire file into a string and determines each individual statement by splitting string on the 'GO' command that separates each SQL command.

To help understand the SQL the following is the diagram of the dB I'm working with.  All fields are strings except for the Ids which are numeric.
Each of these commands is then executed.  The previously generated SQL (the SQL for the dB I'm working with is below) will not work completely out of the box.  The ALTER and DROP statements at the beginning don't apply as the schema is being applied to an empty dB, these should be removed.  Interestingly the schema generation step for my dB seems to miss out a 'GO' between the penultimate and ultimate statement.  I had to add one by hand.  Finally, the comments at the end prove a problem as there is no terminating 'GO'.  Removing these fixes the problem.  In the code above the exception handler re-throws the exception after writing out the details.  For everything to proceed the SQL needs modifying to execute perfectly.  If the re-throw is removed then the code will tolerate individual command failures which in this context really just amount to warnings.

NOTE: Text highlighted in red has been removed and text in blue added.

-- --------------------------------------------------
-- Entity Designer DDL Script for SQL Server Compact Edition
-- --------------------------------------------------
-- Date Created: 07/29/2012 12:28:35
-- Generated from EDMX file: C:\Users\Pete\work\Jub\DummyWebApplicationToGenerateSQLServerCE4Script\Model1.edmx
-- --------------------------------------------------


-- --------------------------------------------------
-- Dropping existing FOREIGN KEY constraints
-- NOTE: if the constraint does not exist, an ignorable error will be reported.
-- --------------------------------------------------

    ALTER TABLE [RepComments] DROP CONSTRAINT [FK_RepComments_Reps];
GO

-- --------------------------------------------------
-- Dropping existing tables
-- NOTE: if the table does not exist, an ignorable error will be reported.
-- --------------------------------------------------

    DROP TABLE [RepComments];
GO
    DROP TABLE [Reps];
GO
    DROP TABLE [Roads];
GO

-- --------------------------------------------------
-- Creating all tables
-- --------------------------------------------------

-- Creating table 'RepComments'
CREATE TABLE [RepComments] (
    [CommentId] int IDENTITY(1,1) NOT NULL,
    [RepId] int  NOT NULL,
    [Comment] ntext  NOT NULL
);
GO

-- Creating table 'Reps'
CREATE TABLE [Reps] (
    [RepId] int IDENTITY(1,1) NOT NULL,
    [RepName] nvarchar(50)  NOT NULL,
    [RoadName] nvarchar(256)  NOT NULL,
    [HouseNumberOrName] nvarchar(50)  NOT NULL,
    [ContactTelNumber] nvarchar(20)  NOT NULL,
    [Email] nvarchar(50)  NULL
);
GO

-- Creating table 'Roads'
CREATE TABLE [Roads] (
    [Name] nvarchar(256)  NOT NULL
);
GO

-- --------------------------------------------------
-- Creating all PRIMARY KEY constraints
-- --------------------------------------------------

-- Creating primary key on [CommentId] in table 'RepComments'
ALTER TABLE [RepComments]
ADD CONSTRAINT [PK_RepComments]
    PRIMARY KEY ([CommentId] );
GO

-- Creating primary key on [RepId] in table 'Reps'
ALTER TABLE [Reps]
ADD CONSTRAINT [PK_Reps]
    PRIMARY KEY ([RepId] );
GO

-- Creating primary key on [Name] in table 'Roads'
ALTER TABLE [Roads]
ADD CONSTRAINT [PK_Roads]
    PRIMARY KEY ([Name] );
GO

-- --------------------------------------------------
-- Creating all FOREIGN KEY constraints
-- --------------------------------------------------

-- Creating foreign key on [RepId] in table 'RepComments'
ALTER TABLE [RepComments]
ADD CONSTRAINT [FK_RepComments_Reps]
    FOREIGN KEY ([RepId])
    REFERENCES [Reps]
        ([RepId])
    ON DELETE NO ACTION ON UPDATE NO ACTION;
GO
-- Creating non-clustered index for FOREIGN KEY 'FK_RepComments_Reps'
CREATE INDEX [IX_FK_RepComments_Reps]
ON [RepComments]
    ([RepId]);
GO

-- --------------------------------------------------
-- Script has ended
-- --------------------------------------------------

Getting the SQL into a state where it will run flawlessly is a little bit of a hassle but given the number of times it will be used subsequently it's job a big job, well for a small dB anyway.  To verify that your dB has been created as needed an quick and easy way to test is to comment out the call to DeleteDb() and after a test has run open to the dB using Server Explorer within VS, i.e.



Using the dB in a test

Now that a fresh dB will be created for each test it's time to look at simple test:

1:  [Test]  
2: public void TestOne()
3: {
4: using (var conn = new SqlCeConnection(CONNECTION_STRING))
5: using (var ctx = new TestCtx(conn))
6: {
7: ctx.Roads.Add(new Road() { Name = "Test" });
8: ctx.SaveChanges();
9: Assert.That(1, Is.EqualTo(ctx.Roads.Count()));
10: }
11: }
Road in this case is defined as:

1:  class Road  
2: {
3: [Key]
4: public string Name { get; set; }
5: }

The first thing to note is that EF is not used to form the connection to the dB, instead one is made using the SqlCe specific classes.  Attempting to get EF to connect to a specific dB instance when not referring to a named connection strings in the .config file is a bit of an art (I may write another entry about this).  However, EF is quite happy to work with an existing connection.  This makes for a good separation of responsibilities in the code where EF manages the interactions with the dB but the control of the connection is elsewhere.

NOTE: It is likely that each test will require a connection and a context hence rather it might make more sense to move the creation of the SqlCeConnection and the context (TestCtx in this case) to a SetUp method and as these resources need disposing of adding a TearDown method to do that.  TestCtx could also be modified to pass true to the DbContext constructor to give ownership of the connection to the context so that it will dispose of it then context is disposed off.

I would have preferred to avoid having to defined a specific derived context and instead use DbContext directory, e.g.
1:  [Test]  
2: public void TesTwo()
3: {
4: using (var conn = new SqlCeConnection(CONNECTION_STRING))
5: using (var ctx = new DbContext(conn, false))
6: {
7: ctx.Set<Road>().Add(new Road() { Name = "Test" });
8: ctx.SaveChanges();
9: Assert.That(1, Is.EqualTo(ctx.Set<Road>().Count()));
10: }
11: }

However when SaveChanges() is called the following exception is thrown:

System.InvalidOperationException : The entity type Road is not part of the model for the current context.

This is because EF knows nothing about the Road type.  When a derived context is created for the first time I think EF performs reflection on any properties that expose DbSet.  These are the types that form the Model.  Another option is to create the model, optionally compile it and then pass it to an instance of DbContext.  This way involves a lot less code.

That's it.  The final section is just footnote about the move away from using EF to create the dB.

Why DbContext is no longer used to create the database

As mentioned creating the dB using:
1:  using (var ctx = new DbContext("bar.sdf"))  
2: {
3: ctx.Database.Create();
4: // create schema etc.
5: }
causes the '__MigrationHistory' table to be created.  Assuming this method was used, later on when TestCtx was used top open the dB and perform an operation the following exception would be thrown:

System.InvalidOperationException : The model backing the 'DbContext' context has changed since the database was created. Consider using Code First Migrations to update the database (http://go.microsoft.com/fwlink/?LinkId=238269).
This is because the context used to create the model was a raw DbContext (as per the previous post) whereas the dB was accessed via the TestCtx.  If the context used to create the dB is also changed to TestCtx then this problem goes away.
However, given the original dB is not intended to be created nor be maintained (code migrations) by EF then using the non-context/EF approach to dB completely removes EF from the picture.









Integration Testing with NUnit and Entity Framework

This post gives a quick introduction into creating SQL CE dBs for performing Integration Tests using NUnit.

In the previous post Using NUnit and Entity Framework DbContext to programmatically create SQL Server CE databases and specify the databse directory a basic way was shown to how to create a new dB (using Entity Framework's DbContext) programmtically.  This was used to generate a new dB for a test hosted by NUnit.

The subsequent post Generating a SQL Server CE database schema from a SQL Server database using Entity Framework showed how to generate a SQL CE dB schema from an existing SQL Server database.

This post ties theprevious ones together.  As mentioned in the first post the reason for this is an attempt at what amounts to Integration Testing using NUnit.  I'm currently building a Repository and Unit Of Work abstraction on top of Entity Framework which will allow the isolation of the dB code (in fact it will isolate and abstract away most forms of data storage).  This means any business logic can be tested with a test-double that implements the Repository and UnitOfWork interfaces; which is straight forward Unit Testing.  The Integration Testing is to verify that the Repository and Unit Of Work implementations work correctly.

The rest of the post isn't focused on these two patterns; though it may mention them.  Instead it documents my further experience of using NUnit to writes tests that interact with dB via Entity Framework.  The premise for this is that a dB already exists.

As such the approach to using Entity Framework is a hybrid of Database First and Code First in that the dB schema exists and needs be maintained outside of EF and also that EF should not generate model classes, i.e. allowing the use of Code First POCOs.  This is possible as the POCOs can be defined, a connection made to dB and then the two are conflated via an EF DbContext.  It then seems that EF creates the model on the fly (internally compiles it) and as long as the POCO types map to the dB types then it all works as if by magic!

The advantage of doing it this way is that the existing dB is SQL Express based but for the Integration Testing a new dB can be created when needed, potentially one per test.  In order to keep the test dBs isolated from the real dB SQL Server Compact Edition (SQL Server CE V4) was used.  Therefore the requirement was for the EF code to be able to work with SQL Express and SQL CE with the primary definition of the schema taken from SQL Express.  It's not possible to use exactly the same schema as SQL CE only has a subset of the data-types provides by SQL CE.  However, the process described in the post 
Generating a SQL Server CE database schema from a SQL Server database using Entity Framework showed how to create semantically equivalent SQL.


From this point onwards it's assumed that an SQL file to create the dB has been generated.  Now create a new C# class library project and using the NUGet add Entity Framework, NUnit and SQL CE 4.0.  All my work has been with EF 4.3.1.  Following this drag the Model1.edmx.sqlce file from the project used to generate to new project.  You may wish to rename it, e.g. to test.sqlce.


Creating the database

The post Generating a SQL Server CE database schema from a SQL Server database using Entity Framework showed how to create a new CE dB per-test using the EF DbContext to do the hard work.  A different approach is now taken as the problem with creating a dB using DbContext is that in addition to creating any specified tables and indices etc. it also creates an additional table called '__MigrationHistory' which contains a description of the EF model used to create the dB.  The description of the problem caused by this will be delayed until the "Why DbContext is no longer used to create the database" section.  Suffice to say for the present using the new mechanism avoids the creation of this table.

The code below is the beginnings of a test class.  It is assumed all the tests need a fresh copy of the dB hence the creation is performed in the Setup method.  All this code does is create a SQL CE dB and then
creates the schema.

1:  [TestFixture]  
2: public class SimpleTests
3: {
4: const string DB_NAME = "test.sdf";
5: const string DB_PATH = @".\" + DB_NAME;
6: const string CONNECTION_STRING = "data source=" + DB_PATH;
7: [SetUp]
8: public void Setup()
9: {
10: DeleteDb();
11: using (var eng = new SqlCeEngine(CONNECTION_STRING))
12: eng.CreateDatabase();
13: using (var conn = new SqlCeConnection(CONNECTION_STRING))
14: {
15: conn.Open();
16: string sql=ReadSQLFromFile(@"C:\Users\Pete\work\Jub\EFTests\Test.sqlce");
17: string[] sqlCmds = sql.Split(new string[] { "GO" }, int.MaxValue, StringSplitOptions.RemoveEmptyEntries);
18: foreach (string sqlCmd in sqlCmds)
19: try
20: {
21: var cmd = conn.CreateCommand();
22:
23: cmd.CommandText = sqlCmd;
24: cmd.ExecuteNonQuery();
25: }
26: catch (Exception e)
27: {
28: Console.Error.WriteLine("{0}:{1}", e.Message, sqlCmd);
29: throw;
30: }
31: }
32: }
33: public void DeleteDb()
34: {
35: if (File.Exists(DB_PATH))
36: File.Delete(DB_PATH);
37: }
38: private string ReadSQLFromFile(string sqlFilePath)
39: {
40: using (TextReader r = new StreamReader(sqlFilePath))
41: {
42: return r.ReadToEnd();
43: }
44: }
45: }
46:
The dB file (Test.sdf) will be created in the current working directory.  As the test assembly is located in <project>\bin\debug which is where the NUnit test runner picks up the DLL from this directory this is where it is created.  If a specific directory is required then the '.\' can be replaced with the required path.

The Setup method is marked with NUnit's SetUp attribute meaning it will be invoked on a per-test basis creating a new dB instance for each test.  The DeleteDb method could be marked with [TearDown] attribute but at the moment any previous dB is deleted before creating a new one.  It would be fine to do both as a belt and braces approach.  The reason I didn't make it the TearDown method is so that I could inspect the dB following a test if needed.

SQL CE does not support batch execution of SQL scripts which is where it gets interesting as the SQL generated previously is in batch form.  The code reads the entire file into a string and determines each individual statement by splitting string on the 'GO' command that separates each SQL command.

To help understand the SQL the following is the diagram of the dB I'm working with.  All fields are strings except for the Ids which are numeric.
Each of these commands is then executed.  The previously generated SQL (the SQL for the dB I'm working with is below) will not work completely out of the box.  The ALTER and DROP statements at the beginning don't apply as the schema is being applied to an empty dB, these should be removed.  Interestingly the schema generation step for my dB seems to miss out a 'GO' between the penultimate and ultimate statement.  I had to add one by hand.  Finally, the comments at the end prove a problem as there is no terminating 'GO'.  Removing these fixes the problem.  In the code above the exception handler re-throws the exception after writing out the details.  For everything to proceed the SQL needs modifying to execute perfectly.  If the re-throw is removed then the code will tolerate individual command failures which in this context really just amount to warnings.

NOTE: Text highlighted in red has been removed and text in blue added.

-- --------------------------------------------------
-- Entity Designer DDL Script for SQL Server Compact Edition
-- --------------------------------------------------
-- Date Created: 07/29/2012 12:28:35
-- Generated from EDMX file: C:\Users\Pete\work\Jub\DummyWebApplicationToGenerateSQLServerCE4Script\Model1.edmx
-- --------------------------------------------------


-- --------------------------------------------------
-- Dropping existing FOREIGN KEY constraints
-- NOTE: if the constraint does not exist, an ignorable error will be reported.
-- --------------------------------------------------

    ALTER TABLE [RepComments] DROP CONSTRAINT [FK_RepComments_Reps];
GO

-- --------------------------------------------------
-- Dropping existing tables
-- NOTE: if the table does not exist, an ignorable error will be reported.
-- --------------------------------------------------

    DROP TABLE [RepComments];
GO
    DROP TABLE [Reps];
GO
    DROP TABLE [Roads];
GO

-- --------------------------------------------------
-- Creating all tables
-- --------------------------------------------------

-- Creating table 'RepComments'
CREATE TABLE [RepComments] (
    [CommentId] int IDENTITY(1,1) NOT NULL,
    [RepId] int  NOT NULL,
    [Comment] ntext  NOT NULL
);
GO

-- Creating table 'Reps'
CREATE TABLE [Reps] (
    [RepId] int IDENTITY(1,1) NOT NULL,
    [RepName] nvarchar(50)  NOT NULL,
    [RoadName] nvarchar(256)  NOT NULL,
    [HouseNumberOrName] nvarchar(50)  NOT NULL,
    [ContactTelNumber] nvarchar(20)  NOT NULL,
    [Email] nvarchar(50)  NULL
);
GO

-- Creating table 'Roads'
CREATE TABLE [Roads] (
    [Name] nvarchar(256)  NOT NULL
);
GO

-- --------------------------------------------------
-- Creating all PRIMARY KEY constraints
-- --------------------------------------------------

-- Creating primary key on [CommentId] in table 'RepComments'
ALTER TABLE [RepComments]
ADD CONSTRAINT [PK_RepComments]
    PRIMARY KEY ([CommentId] );
GO

-- Creating primary key on [RepId] in table 'Reps'
ALTER TABLE [Reps]
ADD CONSTRAINT [PK_Reps]
    PRIMARY KEY ([RepId] );
GO

-- Creating primary key on [Name] in table 'Roads'
ALTER TABLE [Roads]
ADD CONSTRAINT [PK_Roads]
    PRIMARY KEY ([Name] );
GO

-- --------------------------------------------------
-- Creating all FOREIGN KEY constraints
-- --------------------------------------------------

-- Creating foreign key on [RepId] in table 'RepComments'
ALTER TABLE [RepComments]
ADD CONSTRAINT [FK_RepComments_Reps]
    FOREIGN KEY ([RepId])
    REFERENCES [Reps]
        ([RepId])
    ON DELETE NO ACTION ON UPDATE NO ACTION;
GO
-- Creating non-clustered index for FOREIGN KEY 'FK_RepComments_Reps'
CREATE INDEX [IX_FK_RepComments_Reps]
ON [RepComments]
    ([RepId]);
GO

-- --------------------------------------------------
-- Script has ended
-- --------------------------------------------------

Getting the SQL into a state where it will run flawlessly is a little bit of a hassle but given the number of times it will be used subsequently it's job a big job, well for a small dB anyway.  To verify that your dB has been created as needed an quick and easy way to test is to comment out the call to DeleteDb() and after a test has run open to the dB using Server Explorer within VS, i.e.



Using the dB in a test

Now that a fresh dB will be created for each test it's time to look at simple test:

1:  [Test]  
2: public void TestOne()
3: {
4: using (var conn = new SqlCeConnection(CONNECTION_STRING))
5: using (var ctx = new TestCtx(conn))
6: {
7: ctx.Roads.Add(new Road() { Name = "Test" });
8: ctx.SaveChanges();
9: Assert.That(1, Is.EqualTo(ctx.Roads.Count()));
10: }
11: }
Road in this case is defined as:

1:  class Road  
2: {
3: [Key]
4: public string Name { get; set; }
5: }

The first thing to note is that EF is not used to form the connection to the dB, instead one is made using the SqlCe specific classes.  Attempting to get EF to connect to a specific dB instance when not referring to a named connection strings in the .config file is a bit of an art (I may write another entry about this).  However, EF is quite happy to work with an existing connection.  This makes for a good separation of responsibilities in the code where EF manages the interactions with the dB but the control of the connection is elsewhere.

NOTE: It is likely that each test will require a connection and a context hence rather it might make more sense to move the creation of the SqlCeConnection and the context (TestCtx in this case) to a SetUp method and as these resources need disposing of adding a TearDown method to do that.  TestCtx could also be modified to pass true to the DbContext constructor to give ownership of the connection to the context so that it will dispose of it then context is disposed off.

I would have preferred to avoid having to defined a specific derived context and instead use DbContext directory, e.g.
1:  [Test]  
2: public void TesTwo()
3: {
4: using (var conn = new SqlCeConnection(CONNECTION_STRING))
5: using (var ctx = new DbContext(conn, false))
6: {
7: ctx.Set<Road>().Add(new Road() { Name = "Test" });
8: ctx.SaveChanges();
9: Assert.That(1, Is.EqualTo(ctx.Set<Road>().Count()));
10: }
11: }

However when SaveChanges() is called the following exception is thrown:

System.InvalidOperationException : The entity type Road is not part of the model for the current context.

This is because EF knows nothing about the Road type.  When a derived context is created for the first time I think EF performs reflection on any properties that expose DbSet.  These are the types that form the Model.  Another option is to create the model, optionally compile it and then pass it to an instance of DbContext.  This way involves a lot less code.

That's it.  The final section is just footnote about the move away from using EF to create the dB.

Why DbContext is no longer used to create the database

As mentioned creating the dB using:
1:  using (var ctx = new DbContext("bar.sdf"))  
2: {
3: ctx.Database.Create();
4: // create schema etc.
5: }
causes the '__MigrationHistory' table to be created.  Assuming this method was used, later on when TestCtx was used top open the dB and perform an operation the following exception would be thrown:

System.InvalidOperationException : The model backing the 'DbContext' context has changed since the database was created. Consider using Code First Migrations to update the database (http://go.microsoft.com/fwlink/?LinkId=238269).
This is because the context used to create the model was a raw DbContext (as per the previous post) whereas the dB was accessed via the TestCtx.  If the context used to create the dB is also changed to TestCtx then this problem goes away.
However, given the original dB is not intended to be created nor be maintained (code migrations) by EF then using the non-context/EF approach to dB completely removes EF from the picture.









Generating a SQL Server CE database schema from a SQL Server database using Entity Framework

In a previous entry I described how to programmatically create (& destroy) a SQL CE dB for integration testing using NUnit.  Since getting that working I ran into a couple of other problems which I've more or less solved so I thought I'd write those up.  To begin with though this is a prequel post describing how to obtain the SQL script to create the SQL CE dB.

If you happen to be working exclusively with CE then you'll already have your schema file.  In my case I'm using SQLExpress and as this is experimental work I created my dB by hand.  However, using the EF it's pretty easy to obtain the schema and have the EF wizard generate the CE schema.  This is important as there are differences in the dialect of SQL used by SQL Express and SQL CE and its easier to have a tool handle those, though it doesn't do all of them.

The basic flow is to generate an EF model (EDMX) file from the existing SQL Express database and then use the 'Generate database from model' functionality.  It is at this point that the target SQL dB can be chosen, i.e. SQL Server, SQL Server CE or some others.

To create a model requires adding a 'New Item' of type 'ADO.Net Entity Data Model' to a VS project so first a new dummy project needs creating.  This is where it gets a little complicated as not any type of project will do.  I'm working with CE 4 and require a schema for that version of the dB (though creating one for 3.5 works but I like to things as close to ideal as possible).  Due to this constraint it is necessary to chose a Web type project as for some reason the VS2010 integration provided by EF only supports the generation of CE 4 dBs for Web projects.  If a simple C# Windows Console project is selected then you're limited to CE 3.5.  Thus the simplest project type is the 'ASP.Net Empty Web Application' as shown below.


Having done this, next add a new item of type ADO.Net Entity Data Model as below. NOTE: The project will have to reference the Entity Framework assemblies.  The easiest way to do this (& the one most people are probably using) is to use the NuGet package.


Then follow the wizard.


Selecting "Generate from database".


Choose your SQLExpress (or SQL Server) dB but uncheck the "Save entity connection settings in Web.Config as:" as we're converting to SQLCE so want to minimize anything related to other types of SQL Server.


Finally select the SQL elements you require.  In this example only the existing tables were selected.  As this is generating the EF model from an existing database no SQL file is generated just the model for which the diagram is shown, i.e.


The next phase is to generate the SQL from the model (which was generated from the hand crafted db) but to make sure the SQL that's generated is compliant with SQL CE.

To generate the schema right click and select "Generate model from database..."


This brings up the "Generate database" wizard which is very similar to the previously used "Entity Data Model" wizard used to create the model.  From here choose the "New Connection" option which pops up another set of dialogs.  On the first choose the type of data source as "Microsoft SQL Server Compact 4.0".

Clicking on continue then leads to the next dialog where you need to create a dB.



Ok-ing this leads back to the "Generate database wizard".


This time check the "Save entity connection settings in Web.Config" checkbox.  This information will be useful later (to be covered in a different post).  Clicking "Next" the SQL is generated and present in the wizard.


This can be copied & pasted directly from here or pressing "Finish" will save the SQL to the file indicated at the top of the dialog box.  This file is added to the project.  The following prompt will appear when "Finish" is pressed.
 

This doesn't really matter as this is a throw away project but having the updated schemas maybe useful so go with "Yes".

The SQL can now be used to configure an empty SQL CE 4.0 database.  The easiest way is to open the SQL file and right-click selecting the "Execute SQL" menu item.


This brings up the SQL Server dialog from which if "New Database" is selected an CE 4 one can be specified.


Having specified a location and pressed "Ok" the SQL script is executed.  As can be seen below this is not without errors.  However, this isn't anything to worry about as the errors are to do with dropping tables and indices that currently don't exist as it's a newly created dB.  Performing the same steps but missing out the creation of the dB file as it already exists sees the SQL script execute flawlessly.



The final picture shows the newly created database in VS2010's Server Explorer demonstrating that the tables were indeed created.


The basis for this post is my experimentation on using NUnit to programmatically test some dB based functionality.  If a single instance of a database suffices for all your tests and you can execute the SQL by hand as above and then you can follow these steps.  In may case I want to a fresh database per test so I need to automate the running of the SQL Script combined the with the creation and destruction of the underlying database.  The creation and deletion aspect were covered in a previous post but the next step will have to wait until a later one.

Generating a SQL Server CE database schema from a SQL Server database using Entity Framework

In a previous entry I described how to programmatically create (& destroy) a SQL CE dB for integration testing using NUnit.  Since getting that working I ran into a couple of other problems which I've more or less solved so I thought I'd write those up.  To begin with though this is a prequel post describing how to obtain the SQL script to create the SQL CE dB.

If you happen to be working exclusively with CE then you'll already have your schema file.  In my case I'm using SQLExpress and as this is experimental work I created my dB by hand.  However, using the EF it's pretty easy to obtain the schema and have the EF wizard generate the CE schema.  This is important as there are differences in the dialect of SQL used by SQL Express and SQL CE and its easier to have a tool handle those, though it doesn't do all of them.

The basic flow is to generate an EF model (EDMX) file from the existing SQL Express database and then use the 'Generate database from model' functionality.  It is at this point that the target SQL dB can be chosen, i.e. SQL Server, SQL Server CE or some others.

To create a model requires adding a 'New Item' of type 'ADO.Net Entity Data Model' to a VS project so first a new dummy project needs creating.  This is where it gets a little complicated as not any type of project will do.  I'm working with CE 4 and require a schema for that version of the dB (though creating one for 3.5 works but I like to things as close to ideal as possible).  Due to this constraint it is necessary to chose a Web type project as for some reason the VS2010 integration provided by EF only supports the generation of CE 4 dBs for Web projects.  If a simple C# Windows Console project is selected then you're limited to CE 3.5.  Thus the simplest project type is the 'ASP.Net Empty Web Application' as shown below.


Having done this, next add a new item of type ADO.Net Entity Data Model as below. NOTE: The project will have to reference the Entity Framework assemblies.  The easiest way to do this (& the one most people are probably using) is to use the NuGet package.


Then follow the wizard.


Selecting "Generate from database".


Choose your SQLExpress (or SQL Server) dB but uncheck the "Save entity connection settings in Web.Config as:" as we're converting to SQLCE so want to minimize anything related to other types of SQL Server.


Finally select the SQL elements you require.  In this example only the existing tables were selected.  As this is generating the EF model from an existing database no SQL file is generated just the model for which the diagram is shown, i.e.


The next phase is to generate the SQL from the model (which was generated from the hand crafted db) but to make sure the SQL that's generated is compliant with SQL CE.

To generate the schema right click and select "Generate model from database..."


This brings up the "Generate database" wizard which is very similar to the previously used "Entity Data Model" wizard used to create the model.  From here choose the "New Connection" option which pops up another set of dialogs.  On the first choose the type of data source as "Microsoft SQL Server Compact 4.0".

Clicking on continue then leads to the next dialog where you need to create a dB.



Ok-ing this leads back to the "Generate database wizard".


This time check the "Save entity connection settings in Web.Config" checkbox.  This information will be useful later (to be covered in a different post).  Clicking "Next" the SQL is generated and present in the wizard.


This can be copied & pasted directly from here or pressing "Finish" will save the SQL to the file indicated at the top of the dialog box.  This file is added to the project.  The following prompt will appear when "Finish" is pressed.
 

This doesn't really matter as this is a throw away project but having the updated schemas maybe useful so go with "Yes".

The SQL can now be used to configure an empty SQL CE 4.0 database.  The easiest way is to open the SQL file and right-click selecting the "Execute SQL" menu item.


This brings up the SQL Server dialog from which if "New Database" is selected an CE 4 one can be specified.


Having specified a location and pressed "Ok" the SQL script is executed.  As can be seen below this is not without errors.  However, this isn't anything to worry about as the errors are to do with dropping tables and indices that currently don't exist as it's a newly created dB.  Performing the same steps but missing out the creation of the dB file as it already exists sees the SQL script execute flawlessly.



The final picture shows the newly created database in VS2010's Server Explorer demonstrating that the tables were indeed created.


The basis for this post is my experimentation on using NUnit to programmatically test some dB based functionality.  If a single instance of a database suffices for all your tests and you can execute the SQL by hand as above and then you can follow these steps.  In may case I want to a fresh database per test so I need to automate the running of the SQL Script combined the with the creation and destruction of the underlying database.  The creation and deletion aspect were covered in a previous post but the next step will have to wait until a later one.