First step is add the SQL Client namespace:
using System.Data.SqlClient;
Then we create a SqlConnection and specifying the connection string.
SqlConnection myConnection = new SqlConnection("user id=username;" +
"password=password;server=serverurl;" +
"Trusted_Connection=yes;" +
"database=database; " +
"connection timeout=30");
Note: line break in connection string is for formatting purposes only
SqlConnection.ConnectionString
The connection string is simply a compilation of options and values to specify how and what to connect to. Upon investigating the Visual Studio .NET help files I discovered that several fields had multiple names that worked the same, like Password and Pwd work interchangeably. I have not included all of the options for SqlConnection.ConnectionString at this time. As I get a chance to test and use these other options I will include them in the article.
User ID
The User ID is used when you are using SQL Authentication. In my experience this is ignored when using a Trusted_Connection, or Windows Authentication. If the username is associated with a password Password or Pwd will be used.
"user id=userid;"
Password or Pwd
The password field is to be used with the User ID, it just wouldn't make sense to log in without a username, just a password. Both Password and Pwd are completely interchangeable.
"Password=validpassword;"-or-
"Pwd=validpassword;"
Data Source or Server or Address or Addr or Network Address
Upon looking in the MSDN documentation I found that there are several ways to specify the network address. The documentation mentions no differences between them and they appear to be interchangeable. The address is an valid network address, for brevity I am only using the localhost address in the examples.
"Data Source=localhost;"
-or-
"Server=localhost;"
-or-
"Address=localhost;"-or-"Addr=localhost;"
-or-"Network Address=localhost;"
Integrated Sercurity or Trusted_Connection
Integrated Security and Trusted_Connection are used to specify wheter the connnection is secure, such as Windows Authentication or SSPI. The recognized values are true, false, and sspi. According to the MSDN documentation sspi is equivalent to true. Note: I do not know how SSPI works, or affects the connection.
Connect Timeout or Connection Timeout
These specify the time, in seconds, to wait for the server to respond before generating an error. The default value is 15 (seconds).
"Connect Timeout=10;"-or-
"Connection Timeout=10;"
Initial Catalog or Database
Initial Catalog and Database are simply two ways of selecting the database associated with the connection.
"Inital Catalog=main;"
-or-
"Database=main;"
Network Library or Net
The Network Library option is essential if your are communicating with the server on a protocl other than TCP/IP. The default value for Network Library is dbmssocn, or TCP/IP. The following options are available: dbnmpntw (Named Pipes), dbmsrpcn (Multiprotocol), dbmsadsn (Apple Talk), dbmsgnet (VIA), dbmsipcn (Shared Memory), and dbmsspxn (IPX/SPX), and dbmssocn (TCP/IP). And as before Network Library and Net can be user interchangably. Note: The corresponding network protocol must be installed on the system to which you connect.
SqlConnection.Open()
This is the last part of getting connected and is simply executed by the following (remember to make sure your connection has a connection string first):
try
{
myConnection.Open();
}
catch(Exception e)
{
Console.WriteLine(e.ToString());
}
SqlConnection.Open() is a void function and does not return an error but throws an exception so remember to put it in a try/catch brace. rather than having the program explode in front of the user.
Command thee
SQL commands are probably the most difficult part of using an SQL database, but the .NET framework has wrapped up everything up nicely and takes most of the guess work out.
SqlCommand
Any guesses on what SqlCommand is used for? If you guessed for SQL commands then you are right on. An SqlCommand needs at least two things to operate. A command string, and a connection. First we'll look at the connection requirement. There are two ways to specify the connection, both are illustrated below:
SqlCommand myCommand = new SqlCommand("Command String", myConnection);
// - or -
myCommand.Connection = myConnection;
The connection string can also be specified both ways using the SqlCommand.CommandText property. Now lets look at our first SqlCommand. To keep it simple it will be a simple INSERT command.
SqlCommand myCommand= new SqlCommand("INSERT INTO table (Column1, Column2) " +
"Values ('string', 1)", myConnection);
// - or -
myCommand.CommandText = "INSERT INTO table (Column1, Column2) " +
"Values ('string', 1)";
Now we will take a look at the values . table is simply the table within the database. Column1 and Column2 are merely the names of the columns. Within the values section I demonstrated how to insert a string type and an int type value. The string value is placed in single quotes and as you can see an integer is just passed as is. The final step is to execute the command with:
myCommand.ExecuteNonQuery();
SqlDataReader
Inserting data is good, but getting the data out is just as important. Thats when the SqlDataReader comes to the rescue. Not only do you need a data reader but you need a SqlCommand. The following code demonstrates how to set up and execute a simple reader:
try
{
SqlDataReader myReader = null;
SqlCommand myCommand = new SqlCommand("select * from table",
myConnection);
myReader = myCommand.ExecuteReader();
while(myReader.Read())
{
Console.WriteLine(myReader["Column1"].ToString());
Console.WriteLine(myReader["Column2"].ToString());
}
}
catch (Exception e)
{
Console.WriteLine(e.ToString());
}
As you can see the SqlDataReader does not access the database, it merely holds the data and provides an easy interface to use the data. The SqlCommand is fairly simple, table is the table your are going to read from. Column1 and Column2 are just the columns as in the table. Since there is a very high probability your will be reading more than one line a while loop is required to retrieve all of the records. And like always you want to try it and catch it so you don't break it.
SqlParameter
There is a small problem with using SqlCommand as I have demonstrated, it leaves a large security hole. For example, with the way previously demonstrated your command string would be constructed something like this if you were to get input from a user:
SqlCommand myCommand = new SqlCommand(
"SELECT * FROM table WHERE Column = " + input.Text, myConnection);
Its all fine and dandy if the user puts in correct syntax, however, what happens if the user puts value1, DROP table. Best case scenario it will cause an exception (I haven't checked to see what this example will do but it demonstrates a point), worst case you can kiss your table goodbye. You could parse all user input and strip out anything that could cause problems OR you could use an SqlParameter. Now the SqlParameter class is pretty big, but I will just show you a basic parameter usage. Basically you need three things to create a parameter. A name, data type, and size. (note for some data types you will want to leave off the size, such as Text).
SqlParameter myParam = new SqlParameter("@Param1", SqlDbType.VarChar, 11);
myParam.Value = "Garden Hose";
SqlParameter myParam2 = new SqlParameter("@Param2", SqlDbType.Int, 4);
myParam2.Value = 42;
SqlParameter myParam3 = new SqlParameter("@Param3", SqlDbType.Text);
myParam.Value = "Note that I am not specifying size. " +
"If I did that it would trunicate the text.";
It is naming convention, it might be required I'm not sure, to name all parameters starting with the @ symbol. Now how do you use a parameter? Will its pretty easy as the following code shows.
SqlCommand myCommand = new SqlCommand(
"SELECT * FROM table WHERE Column = @Param2", myConnection);
myCommand.Parameters.Add(myParam2);
Now this keeps a rogue user from high-jacking your command string. This isn't all there is to parameters if you want to learn more advanced topics a good place to start is here[^].
Don't forget to close up when your done!
Closing a connection is just as easy as opening it. Just callSqlConnection.Close() but remember to put it in try/catch because like SqlConnection.Open() it does not return errors but throws an exception instead.
try
{
myConnection.Close();
}
catch(Exception e)
{
Console.WriteLine(e.ToString());
}
When good connections go bad
The trusted connection had always been a mystery to me, I had never figured why IIS and SQL server never seemed to get along. Fortunately Pete (moredip) pointed out a helpful section of the documentation. To make it more simple I have decided to add it to this article. I am going to split this into 2 different sections. IIS 6, and other versions of IIS. To get started your going to want to make sure osql.exe is in your system path, or find it. It should be located wherever your SQL Server 2000 server/client tools directory. On my system it is something like this: %Install Directory%\80\Tools\BINN\.For simplicity I will use psuedo-variables in the examples so as not to create confusion. For example a psuedo-variable will look like this: %VARIABLE%. The server will be referred to as %SERVER%\%INSTANCE%. If you aren't using any instance names it can be just %SERVER%, (local) if the server is the local machine. If you are instance names it would be something like ServerName\ServerInstance etc etc. I will also be using %DATABASE% to refer to the database name.
IIS 6 on Windows 2003 Server
I know this will work on IIS 6 with Windows 2003 Server because I have done it and that is currently the only OS with IIS 6. On IIS 6 the ASP.NET process runs under the account 'NT AUTHORITY\NETWORK SERVICE'.
osql -E -S %SERVER%\%INSTANCE% -Q "sp_grantlogin 'NT AUTHORITY\NETWORK SERVICE'"
Now our ASP.NET application will be able to log into the server. Now all thats left is to grant access to the databases.
osql -E -S %SERVER%\%INSTANCE% -d %DATABASE% -Q
"sp_grantdbaccess 'NT AUTHORITY\NETWORK SERVICE'"
osql -E -S %SERVER%\%INSTANCE% -d %DATABASE% -Q
"sp_addrolemember 'db_owner', 'NT AUTHORITY\NETWORK SERVICE'"
These 2 lines will add access to one of the databases. So if you want to add access to another database just change %DATABASE% and run both lines.
IIS 5.1
This should work on all other IIS 5.1 (possibly other versions) combinations. The only difference between IIS 5.1 and IIS 6 is the account the ASP.NET process runs under. IIS 5.1 runs under a %MACHINENAME%\ASPNET where %MACHINENAME% is the machine name.
osql -E -S %SERVER%\%INSTANCE% -Q "sp_grantlogin '%MACHINENAME%\ASPNET'"
Now our ASP.NET application will be able to log into the server. Now all thats left is to grant access to the databases.
osql -E -S %SERVER%\%INSTANCE% -d %DATABASE%
-Q "sp_grantdbaccess '%MACHINENAME%\ASPNET'"
osql -E -S %SERVER%\%INSTANCE% -d %DATABASE%
-Q "sp_addrolemember 'db_owner', '%MACHINENAME%\ASPNET'"
These 2 lines will add access to one of the databases. So if you want to add access to another database just change %DATABASE% and run both lines.
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