Sergiy Baydachnyy

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Posts Tagged ‘Mobile Apps

How to cook Azure Mobile Apps (node.js): “50 records” limit and lazy loading

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Code is available here: https://github.com/sbaidachni/XamarinMobileAppsDemo

In the previous posts we discussed how to create and setup node.js Azure Mobile Apps backend and how to start using .NET Standard libraries with Xamarin applications. Now, I am waiting for my next flight, and it’s time to build a basic interface using Xamarin.Forms.

I am going to work with records from the SalesLT.Product table. So, I need to make sure that my backend contains the MS_TableSchema application setting with the SalesLT value there, and my Product.json file contains autoIncrement property in true due to integer primary key there.

But there is one more problem: as we discussed in the first post, Azure Mobile Apps (node.js) service requires id name for the primary key rather than ProductID. In general, it’s not easy to change any column name, and even in our simplest case, we cannot do it using just sp_rename. You will be able to see that the database contains lots of dependencies to ProductID. So, I would recommend to create a new view rather than redesign the whole database. We will be able to work with the view like with the table, and we will be able to define new names for our columns.

CREATE VIEW [SalesLT].[vProductList]

WITH SCHEMABINDING

AS

SELECT

    p.[ProductID] as id,

    p.[Name],

. . . . .

      p.version,

      p.createdAt,

      p.updatedAt,

      p.deleted

FROM [SalesLT].[Product] p

Prior to create the view, you have to make sure that SalesLT.Product already contains version,createdAt, updatedAt and deleted columns. You can simply create Product.json and Product.js in your backend environment to force the framework to create these columns for you and after that you can rename Product.js and Product.json to vProductList. Once you finish, you will be able to use Easy Tables functionality and review your data in the portal:

clip_image002

Of course, if you create any additional column in the view, you will fail because views don’t allow you to alter associated tables.

Let’s go back to our Xamarin application and implement something simple.

I will not implement a really perfect MVVM approach, but we will need to create some classes in any case. First of all, we need to create a class that will represent our table. It’s exactly a model and we will implement all needed properties there. You can manage name-column relationships using attributes, but if you use identical to your db names in your class, you have to do almost nothing. So, you can find my class below:

vProductList.cs

You can see that I used vProductList as a class name and Id, Name, ProductNumber, Color and Size are my columns from the table.

Now, we need to implement a view-model class that will prepare all data to show UI. I am going to use an ObservableCollection to store our items to make sure that our UI will be updated automatically in the case of new items there. I am using the singleton approach to make sure that we have just one view-model in time and I will implement the Product class that will satisfy our needs better, compare to our vProductList. Of course, the Product class doesn’t have any specific things now, but later we will be able to add some UI-related features to it.

MainPageViewModel.cs

You can see that we use MobileServiceClient class to get a reference to our service, and once we need some data, I am using ToListAsync to download everything. At the same time you can find that I am using a strange property RecordCounts. It’s still not clear why I need it, but later we will be able to see why it’s important if you want to show all data from your table.

Let’s implement our UI:

MainPage.xaml

You can see that there is a ListView that just displays Id and Name fields from the table. Additionally, there is a label that shows number of records that we just downloaded.

Below you can find associated with the UI code:

MainPage.xaml.cs

We are just getting a reference to our view-model and download data once our UI is appearing.

Let’s start our application and you will be able to see that the UI displays just 50 records:

clip_image004

It’s happened because node.js implementation doesn’t allow you to get all records. By default, you can get just 50 records, but there is the pageSize parameter that you can provide in your app.js file.

clip_image006

In any case, if you change the parameter, you will be able to download fixed number of records only. That’s why we need to implement something on the client side to display everything.

In order to do it we can use ItemAppearing event handler for our ListView. The ItemAppearing event fires for every item before it will be displayed. We cannot guarantee exactly when, be it will fire in advance. So, we can use this event to download more and more records, implementing some sort of lazy loading approach. Just look at the following code:

protected async void ListView_ItemsAppearing(object sender, ItemVisibilityEventArgs e)

{

var itemTypeObject = e.Item as Product;

if (model.Items.Last() == itemTypeObject)

{

await model.LoadDataAsync();

}

}

You can see that if ItemAppearing fires for the last element in the list, we will be able to download more. The most important thing there that if ListView implements RecycleElement caching strategy, we will download more elements just if a user scrolls the list far enough.

If you run the application, you will be able to see that there 100 or 150 records in the list (depends on your monitor and other parameters), but once you start scrolling down, the list will download more and more items (by 50 records in our case).

So, now you know how to deal with big table and aware about “50 records” limit. Next time we will discuss how to implement continues integration with GitHub.

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Written by Sergiy Baydachnyy

09/14/2017 at 12:25 AM

Posted in Microsoft Azure, Xamarin

Tagged with ,

How to cook Mobile Apps (node.js): table schemas, primary keys and existing tables

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In this post I am going to discuss how to start developing a Xamarin client application that should be connected to an existing database. As a backend I am going to use Azure Mobile Apps, because the service can minimize our work on server side and provides lots of useful features. But to get all benefits from the service, you need to know some tricks that it’s not easy to find in standard tutorials.

Today, I am going to discuss, how to use Mobile Apps in the case if you already have a database. Yes, Mobile App allows you to create a database from scratch using a graphical interface, but usually it’s not the case. I participated in lots of projects last year, and we always had a database in advance or designed it a few days before any client application. I know, it can hurt some client developers, but in many cases Xamarin app is not the centerpiece of your project. 

Before to create any database, I want to note couple things. 

First, you can develop your code for Mobile Apps in JavaScript or in C#. I like C# and don’t like JavaScript, but in the case of JavaScript/node.js implementation, you should do/know almost nothing to implement your backend. In the case of C#, you will need to generate lots of code, know Entity Framework details, and Azure Portal will provide limited number of features. In fact, C# and node.js implementations are fully different and if I don’t need to create a complex enterprise application I will always select node.js. If you want to use C# rather than JavaScript, this post will not be useful for you at all.

Second, Microsoft still supports an old implementation of the mobile backend called Azure Mobile Service. It’s not available in the new Azure portal, but there are still lots of content about it. I found that some developers continue to use Mobile Service term and it generates some messy. Try to use Mobile App everywhere. It’s the latest implementation under Azure App Service umbrella.

Ok. Let’s try to create a new database using SQL Azure. In order to have some tables and data, I would recommend selecting AdventureWorkLT database. It’s possible to do from the Azure portal. So, you can simple select New->Databases->SQL Database, and  you will be able to select the database from the “select source” field in the wizard:

image

Once you create your database, add a firewall rule to connect it from your SQL Management Studio or Visual Studio, you can note two things there:

  1. There are several schemas rather than just dbo one. It’s very important, because dbo is the default schema in Mobile Apps, and if we want to get some data from SalesLT.Product table, we have to deal with SalesLT schema;

image

  1. You can note that all tables contain primary keys of the int data type. In the case of the Product table we have ProductID as the key. It’s a very important note because some people likes to tell that you have to use guid as a data type for keys. I don’t think so, but we even should not discuss this question since we ALREADY HAVE a database that was designed by Microsoft as an example. I just want to connect my Xamarin app to it.

image

That’s all with the database and now we can create an instance of Mobile App:

image

It’s a trivial task and you should not select any specific parameters on this step.

Once you have your database and an instance of Mobile App, you can connect it together. To do it, you need to open Data Connections tab from the Mobile App dashboard and add a new connection:

image

Azure portal is clever enough to list your database. So, you should not provide any connection strings manually. You can see that a default name for the connection string is MS_TableConnectionString. DON’T TOUCH IT! Exactly this name is hardcoded in many places. 

In fact, using Add data connection tab, you are creating a new connection string that is available from the Application Settings tab. Therefore, Data Connections tab is just an easier way to create MS_TableConnectionString parameter, but you can use Application Settings as well and we are going to use this tab for some additional parameters:

image

Now, it’s time to select a programming language. In the case of C#, you can close the portal and just create all code in Visual Studio, but in our case, we want to use the portal and node.js. So, we have to initialize our empty hosting space with the right environment. It’s possible to do if you select Easy Tables tab:

image

Just click Initialize App and all needed components will be installed to your hosting space. Now, Easy Tables tab allows you to create new tables in the existing database and you can note that it doesn’t display our existing tables. Let’s try to understand, how to show our SalesLT.Product table in the list. To do it, I will just create a new table and check what is happening with my hosting space:

image

To create a new table, you can provide a table name and some security parameters for different operations with the table. 

Now, you can use Mobile App dashboard to open App Service Editor to review all available code in your hosting space:

image

You can see that for our faketable we have two files faketable.js and faketable.json. The first file imports azure-mobile-apps module and creates a table object, and the second one contains some parameters for the table:


{ 
  "softDelete" : true, 
  "autoIncrement": false, 
  "insert": { 
    "access": "anonymous" 
  }, 
  "update": { 
    "access": "authenticated" 
  }, 
  "delete": { 
    "access": "anonymous" 
  }, 
  "read": { 
    "access": "anonymous" 
  }, 
  "undelete": { 
    "access": "anonymous" 
  }}

Both files contain important information for our research. Now, we can see that there is a module that contains implementation for the backend, and if we check the module, we can find it on github: https://github.com/Azure/azure-mobile-apps-node. So, node.js implementation for Azure Mobile Apps IS IN OPEN-SOURCE. It’s great because we can find some answers there. The second file allows us to tune the backend behavior a little bit providing some parameters per table. 

In fact, in order to connect a table to our service from our database, we need to create these two files. Let’s make the experiment and create product.json and product.js files with the same content as faketable.js and faketable.json. Of course, if you go back to Easy Table, you will not be able to see any Product table due to some problems. In order to understand all these problems let’s look at faketable structure:

image

You can see that the backend created five columns for the table and the table was created in the dbo schema. So, to make our table available we have to manage several things:

  • Table schema

  • Additional columns

  • Primary key that is GUID rather than int

In the case of columns createdAt, updatedAt, version and deleted you should nor care too much. Once we fix all other problems, the framework will add all columns automatically and we will not loose our existing data. Of course, if you suddenly have some columns with the same names, you are in trouble, but it’s a very rare case.

Let’s fix the table schema. In our case we have SalesLT rather than dbo. To understand how to change the table schema for all tables, I would recommend to open node.js implementation on github: https://github.com/Azure/azure-mobile-apps-node. You can open environment.js in src/configuration/from subfolder and check all available parameters there. One of the parameters is MS_TableSchema that you can provide from the Application Settings tab on Azure portal. 

* @param {string} MS_TableSchema Default schema name for sql tables. Can override in table config

image

Therefore, we can specify SalesLT schema for the project. 

Now, you should be able to see Product table in the list, but it will not work due to the problem with the key. By default the key is GUID, but in our case it’s int and we are not going to change it because it will lead to huge amount of problems. In fact, Mobile Apps allow us to use int, but we need to configure it. In order to understand where to make all needed changes, I would recommend to check /src/data/mssql/statements/createTable.js on github. There is some code:

pkType = tableConfig.autoIncrement ? 'INT' :
 

It’s just the beginning of the line, but you can see that this line is setting up the primary key type. It’s clear that it will be int if autoIncrement property from Product.json is true.

Therefore, we fixed almost all problems, but we still have one left: the primary key MUST have “id” name. If you open src/data/mssql/statements/insert.js on github, you can find something like this:

sql += util.format('SELECT * FROM %s WHERE [id] = SCOPE_IDENTITY()', tableName);
 

You can see that id is hardcoded inside the query. I really don’t know why it was implemented in this way, but it’s something that you cannot modify it in any config file. Of course, it’s possible to assign own commands, but I am not sure if you want to implement own data provider. Additionally, it’s possible to modify existing code and redeploy it, but it’s not easy as well. The fastest way to fix the problem, it’s renaming our ProductId to id:

EXEC sp_rename 'SalesLT.Product.ProductID', 'id', 'COLUMN';  
 

It’s not the best way, because you have to check all your stored procedures, modules and other client applications. So, it will not work in enterprise. 

Now you can use Easy Tables to see all data, and all additional columns will be created.

That’s all for today and next time we will discuss how to develop a basic Xamarin application, but there are still some things to research, which you can do yourselves: find a way to work with app.js in order to use more parameters (including schema); try to understand if it’s possible to modify table schema per table (schema parameter in table config file); how to modify the code to use any primary key name.

Written by Sergiy Baydachnyy

08/22/2017 at 9:08 AM

Posted in Microsoft Azure, Xamarin

Tagged with