Integration Services" (SSIS).
Please remember :
This is just a sample.
The code has not been tested.
If you want to use this stuff you have to compile and deploy it. Check out the post-build actions in the project to see which DLLs you have to copy to which folders in order to make them run.
Let's start by demonstrating how the resulting component works inside SSIS. For this I have created this very short video:
Now let's take a look at the source code.
The first problem that has to be solved is to read data from an Azure table without knowing it's schema at compile time. There is an
excellent post covering that in the Azure Community pages. I took the sourcecode shown there and extended/modified it a little bit so that it fits to what I needed.
First class is just a helper representing a column in the table store (Column.cs):
using System ;
using Microsoft.SqlServer.Dts.Runtime.Wrapper ;
namespace TableStorageSsisSource
{
public class Column
{
public Column ( string columnName , string typeName , string valueAsString )
{
this . ColumnName = columnName ;
this . ClrType = Column . GetType ( typeName );
this . DtsType = Column . GetSsisType ( typeName );
this . Value = Column . GetValue ( this . DtsType , valueAsString );
}
public string ColumnName { get ; private set ; }
public Type ClrType { get ; private set ; }
public DataType DtsType { get ; private set ; }
public object Value { get ; private set ; }
private static Type GetType ( string type )
{
switch ( type )
{
case "Edm.String" : return typeof ( string );
case "Edm.Int32" : return typeof ( int );
case "Edm.Int64" : return typeof ( long );
case "Edm.Double" : return typeof ( double );
case "Edm.Boolean" : return typeof ( bool );
case "Edm.DateTime" : return typeof ( DateTime );
case "Edm.Binary" : return typeof ( byte []);
case "Edm.Guid" : return typeof ( Guid );
default : throw new NotSupportedException ( string . Format ( "Unsupported data type {0}" , type ));
}
}
private static DataType GetSsisType ( string type )
{
switch ( type )
{
case "Edm.String" : return DataType . DT_NTEXT ;
case "Edm.Binary" : return DataType . DT_IMAGE ;
case "Edm.Int32" : return DataType . DT_I4 ;
case "Edm.Int64" : return DataType . DT_I8 ;
case "Edm.Boolean" : return DataType . DT_BOOL ;
case "Edm.DateTime" : return DataType . DT_DATE ;
case "Edm.Guid" : return DataType . DT_GUID ;
case "Edm.Double" : return DataType . DT_R8 ;
default : throw new NotSupportedException ( string . Format ( "Unsupported data type {0}" , type ));
}
}
private static object GetValue ( DataType dtsType , string valueAsString )
{
switch ( dtsType )
{
case DataType . DT_NTEXT : return valueAsString ;
case DataType . DT_IMAGE : return Convert . FromBase64String ( valueAsString );
case DataType . DT_BOOL : return bool . Parse ( valueAsString );
case DataType . DT_DATE : return DateTime . Parse ( valueAsString );
case DataType . DT_GUID : return new Guid ( valueAsString );
case DataType . DT_I2 : return Int32 . Parse ( valueAsString );
case DataType . DT_I4 : return Int64 . Parse ( valueAsString );
case DataType . DT_R8 : return double . Parse ( valueAsString );
default : throw new NotSupportedException ( string . Format ( "Unsupported data type {0}" , dtsType ));
}
}
}
}
Second class represents a row inside the table store (without strong schema; GenericEntity.cs):
using System.Collections.Generic ;
using Microsoft.WindowsAzure.StorageClient ;
namespace TableStorageSsisSource
{
public class GenericEntity : TableServiceEntity
{
private Dictionary < string , Column > properties = new Dictionary < string , Column >();
public Column this [ string key ]
{
get
{
if ( this . properties . ContainsKey ( key ))
{
return this . properties [ key ];
}
else
{
return null ;
}
}
set
{
this . properties [ key ] = value ;
}
}
public IEnumerable < Column > GetProperties ()
{
return this . properties . Values ;
}
public void SetProperties ( IEnumerable < Column > properties )
{
foreach ( var property in properties )
{
this [ property . ColumnName ] = property ;
}
}
}
}
Last but not least we need a context class that interprets the AtomPub format and builds the generic content objects (GenericTableContent.cs):
using System ;
using System.Data.Services.Client ;
using System.Linq ;
using System.Xml.Linq ;
using Microsoft.WindowsAzure ;
using Microsoft.WindowsAzure.StorageClient ;
namespace TableStorageSsisSource
{
public class GenericTableContext : TableServiceContext
{
public GenericTableContext ( string baseAddress , StorageCredentials credentials )
: base ( baseAddress , credentials )
{
this . IgnoreMissingProperties = true ;
this . ReadingEntity += new EventHandler < ReadingWritingEntityEventArgs >( GenericTableContext_ReadingEntity );
}
public GenericEntity GetFirstOrDefault ( string tableName )
{
return this . CreateQuery < GenericEntity >( tableName ). FirstOrDefault ();
}
private static readonly XNamespace AtomNamespace = "http://www.w3.org/2005/Atom" ;
private static readonly XNamespace AstoriaDataNamespace = "http://schemas.microsoft.com/ado/2007/08/dataservices" ;
private static readonly XNamespace AstoriaMetadataNamespace = "http://schemas.microsoft.com/ado/2007/08/dataservices/metadata" ;
private void GenericTableContext_ReadingEntity ( object sender , ReadingWritingEntityEventArgs e )
{
var entity = e . Entity as GenericEntity ;
if ( entity != null )
{
e . Data
. Element ( AtomNamespace + "content" )
. Element ( AstoriaMetadataNamespace + "properties" )
. Elements ()
. Select ( p =>
new
{
Name = p . Name . LocalName ,
IsNull = string . Equals ( "true" , p . Attribute ( AstoriaMetadataNamespace + "null" ) == null ? null : p . Attribute ( AstoriaMetadataNamespace + "null" ). Value , StringComparison . OrdinalIgnoreCase ),
TypeName = p . Attribute ( AstoriaMetadataNamespace + "type" ) == null ? null : p . Attribute ( AstoriaMetadataNamespace + "type" ). Value ,
p . Value
})
. Select ( dp => new Column ( dp . Name , dp . TypeName , dp . Value . ToString ()))
. ToList ()
. ForEach ( column => entity [ column . ColumnName ] = column );
}
}
}
}
The custom SSIS data source is quite simple (TableStorageSsisSource.cs):
using System.Collections.Generic ;
using Microsoft.SqlServer.Dts.Pipeline ;
using Microsoft.SqlServer.Dts.Pipeline.Wrapper ;
using Microsoft.WindowsAzure ;
namespace TableStorageSsisSource
{
[ DtsPipelineComponent ( DisplayName = "Azure Table Storage Source" , ComponentType = ComponentType . SourceAdapter )]
public class TableStorageSsisSource : PipelineComponent
{
public override void ProvideComponentProperties ()
{
// Reset the component.
base . RemoveAllInputsOutputsAndCustomProperties ();
ComponentMetaData . RuntimeConnectionCollection . RemoveAll ();
// Add output
IDTSOutput100 output = ComponentMetaData . OutputCollection . New ();
output . Name = "Output" ;
// Properties
var storageConnectionStringProperty = this . ComponentMetaData . CustomPropertyCollection . New ();
storageConnectionStringProperty . Name = "StorageConnectionString" ;
storageConnectionStringProperty . Description = "Azure storage connection string" ;
storageConnectionStringProperty . Value = "UseDevelopmentStorage=true" ;
var tableNameProperty = this . ComponentMetaData . CustomPropertyCollection . New ();
tableNameProperty . Name = "TableName" ;
tableNameProperty . Description = "Name of the source table" ;
tableNameProperty . Value = string . Empty ;
}
public override IDTSCustomProperty100 SetComponentProperty ( string propertyName , object propertyValue )
{
var resultingColumn = base . SetComponentProperty ( propertyName , propertyValue );
var storageConnectionString = ( string ) this . ComponentMetaData . CustomPropertyCollection [ "StorageConnectionString" ]. Value ;
var tableName = ( string ) this . ComponentMetaData . CustomPropertyCollection [ "TableName" ]. Value ;
if (! string . IsNullOrEmpty ( storageConnectionString ) && ! string . IsNullOrEmpty ( tableName ))
{
var cloudStorageAccount = CloudStorageAccount . Parse ( storageConnectionString );
var context = new GenericTableContext ( cloudStorageAccount . TableEndpoint . AbsoluteUri , cloudStorageAccount . Credentials );
var firstRow = context . GetFirstOrDefault ( tableName );
if ( firstRow != null )
{
var output = this . ComponentMetaData . OutputCollection [ 0 ];
foreach ( var column in firstRow . GetProperties ())
{
var newOutputCol = output . OutputColumnCollection . New ();
newOutputCol . Name = column . ColumnName ;
newOutputCol . SetDataTypeProperties ( column . DtsType , 0 , 0 , 0 , 0 );
}
}
}
return resultingColumn ;
}
private List < ColumnInfo > columnInformation ;
private GenericTableContext context ;
private struct ColumnInfo
{
public int BufferColumnIndex ;
public string ColumnName ;
}
public override void PreExecute ()
{
this . columnInformation = new List < ColumnInfo >();
IDTSOutput100 output = ComponentMetaData . OutputCollection [ 0 ];
var cloudStorageAccount = CloudStorageAccount . Parse (( string ) this . ComponentMetaData . CustomPropertyCollection [ "StorageConnectionString" ]. Value );
context = new GenericTableContext ( cloudStorageAccount . TableEndpoint . AbsoluteUri , cloudStorageAccount . Credentials );
foreach ( IDTSOutputColumn100 col in output . OutputColumnCollection )
{
ColumnInfo ci = new ColumnInfo ();
ci . BufferColumnIndex = BufferManager . FindColumnByLineageID ( output . Buffer , col . LineageID );
ci . ColumnName = col . Name ;
columnInformation . Add ( ci );
}
}
public override void PrimeOutput ( int outputs , int [] outputIDs , PipelineBuffer [] buffers )
{
IDTSOutput100 output = ComponentMetaData . OutputCollection [ 0 ];
PipelineBuffer buffer = buffers [ 0 ];
foreach ( var item in this . context . CreateQuery < GenericEntity >(( string ) this . ComponentMetaData . CustomPropertyCollection [ "TableName" ]. Value ))
{
buffer . AddRow ();
for ( int x = 0 ; x < columnInformation . Count ; x ++)
{
var ci = ( ColumnInfo ) columnInformation [ x ];
var value = item [ ci . ColumnName ]. Value ;
if ( value != null )
{
buffer [ ci . BufferColumnIndex ] = value ;
}
else
{
buffer . SetNull ( ci . BufferColumnIndex );
}
}
}
buffer . SetEndOfRowset ();
}
}
}
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