The user is not associated with a trusted SQL Server connection. (.Net SqlClient Data Provider)

I was also facing this issue every time I install the sql server. It occurs initially and once we fix this then onwards it disappears. I have followed the instructions explained in the below blog post. It was very useful to me. I hope you will also like it.

http://cherupally.blogspot.com/2009/04/user-is-not-associated-with-trusted-sql.html

 

CVS Version Control on Windows in 10 minutes

CVS Version Control on Windows in 10 minutes

 

Do you need a reliable version control for your website, personal notes, transferring data from work to home to university back & forth without any costs in time or budget?

Do you still don’t want to setup a Linux machine just because CVS requires Linux for stable use (like some dude told you ages ago?)

Do you not want to hassle around with flimsy Unix-stuff but only have convenient Version Control in a manner like PCVS or Microsoft VSS ??

Well just take CVS (CVSNT 2.x) and TortoiseCVS / WinCVS for your home/laptop/school machine and become happy with it… you don’t need anything else and get used to open-source industry-proven version and configuration management control.

Read on for a setup-howto consisting mainly of links to relevant pages and tools…

1) you need the CVSNT – version 2.x – for running the CVS server itself on your windows box. If you have a Linux-server, then forget this step and look up ordinary CVS on Linux setup guides… else

a) download the latest CVSNT 2.0.8 and start the setup. Don’t forget to install the services (Which are the actual CVS server services running in the background…) do a reboot afterwards, or you will receive some errors when creating your repository

b) checkout this Beginners guide to CVS for more detailled installation tips (i.e. user management)... I assume you simply install the stuff on your single PC/notebook with local users.

c) after Reboot your will have a panel “CVS For NT” in your Control Panel

2) The following steps explain a basic repository installation

a) stop the service in the CVS for NT panel

b) now create a repository for your PC – the repository is the directory where the internal representation of your version files are stored – sort of file-database…

c) Go to the tab “Repositories” and with a “prefix” of e.g. “c:\cvsrepos” you can define this basic path, which will be common for all repositories… Note: one repository is only a collection of many modules (which could be different projects )...

d) Use the Add button to add a repository. Enter TEST after the prefix in the box that appears. Accept the offer to create the repository. Again: You can have several separate repositories on the same server, in that case you will use the Add button once for each repository you need. Once the list of repositories contain those you want you are done here.

e) Go to the tab “ Advanced” and setup your temp-path to e.g. “c:\cvstemp”

e) Start the service again

3) The following steps explain a basic user setup – instead of localhost you can put in your IP or real hostname… these commands have to be performance in a commandline-window (CMD.EXE)

a) set cvsroot=:sspi:localhost:/TEST

b) cvs passwd -r {real account name} -a {new username}

e.g. cvs passwd -r Administrator -a Adminstrator

—- then enter the password on the commandline

Any user entered like this MUST be an NT user on the local system!

More tips to be found in this documentation about adding users to CVS if necessary, but for the first test it will be ok.

4) now for the connection testing – these commands have to be performance in a commandline-window (CMD.EXE)

a) set cvsroot=:{protocol}:{user}@{computername}:/TEST

e.g. set cvsroot=:pserver:Administrator@localhost:/TEST

b) cvs login

—- then enter the password on the commandline

c) cvs ls -l -R

to perform a basic query – don’t worry – the gui stuff is comming up right away…

5) Install TortoiseCVS

TortoiseCVS is a great plugin for the windows explorer that provides you all the necessary CVS functions via right-click&select like other version control systems do… I prefer it much more over WinCVS for daily use, because the standard-tasks of check-out (cvs:“update”) or check-in(cvs:“commit”) can be done very easy and seamless with it…

Don’t forget to reboot or at least re-login man…

6) now we will perform a simple module-import… a module-import bring files initially into CVS.

a) create a directory TestModule

b) right-click “TestModule” : CVS -> Create New Module

c) Enter the CVSROOT you used above like

</p>

    :sspi:Administrator@localhost:2401:/test

        <p>

and press OK to enter this module into CVS – that’s ONLY the directory so far!

d) now put some files/directories in this “module”-directory

e) right-click “TestModule” : CVS : add contents to add all the contained files/directories

f) and now “Commit” these changes, means to finish this “transaction” with

g) right-click “TestModule” : CVS : check in (einchecken)

Now these files are in an initial revision in your CVS repository! Congratulations!

6) for more advanced use and topics I also recommend to install the WinCVS GUI front-end for CVS you can get here... I am already using the beta 1.3, so give it a try… also make sure to install Python 2.1.3 for advanced scripting features… I am not sure if 2.2 or 2.3 will work aswell!

7) Use above steps for other directories/projects you wish to version control and keep the following simple steps in mind:

a) Import Module for initial load to CVS – create a “clean” version of your files – deleting from CVS is a hassle

b) CVS Check-Out to get one module / project to your work-directory the first time as a sort of complete export

c) CVS Update to sync your local work-directory with the CVS repository

d) CVS Commit to “check-in” again and make sure everythings on the server…

More documentation is to be found in the CVS NT Reference Manual

so long for now…

Copied from  -

http://weblog.cemper.com/a/200307/28-cvs-version-control-on-windows-in-10-minutes.php

 

Kill process id in windows - force windows service to stop from stopping status

Kill process id in windows - force windows service to stop from stopping status

You can retrieve the PID for the process of the service through the command

sc queryex <servicename>

it returns some information like this

NOME_SERVIZIO: <servicename>
TIPO : 10 WIN32_OWN_PROCESS
STATO : 3 STOP_PENDING
(STOPPABLE, NOT_PAUSABLE, ACCEPTS_SHUTDOWN)
CODICE_USCITA_WIN32 : 0 (0x0)
CODICE_USCITA_SERVIZIO : 0 (0x0)
PUNTO_ARRESTO : 0x0
INDICAZIONE_ATTESA : 0x0
PID : 1824
FLAG :

Then you can stop the service by the command

taskkill /F /PID 1824 (the specific PID)

How to create a mounted drive

How to create a mounted drive

To mount a volume:

1. Click Start, click Run, and then type compmgmt.msc in the Open box.
2. In the left pane, click Disk Management.
3. Right-click the partition or volume that you want to mount, and then click Change Drive Letter and Paths.
4. Click Add.
5. Click Mount in the following empty NTFS folder (if it is not already selected), and then use one of the following steps:
• Type the path to an empty folder on an NTFS volume, and then click OK.
• Click Browse, locate the empty NTFS folder, click OK, and then click OK.
• If you have not yet created an empty folder, click Browse, click New Folder to create an empty folder on an NTFS volume, type a name for the new folder, click OK, and then click OK.
6. Quit the Disk Management snap-in.

How to remove a mounted drive

To remove a mounted volume:

1. Click Start, click Run, and then type compmgmt.msc in the Open box.
2. In the left pane, click Disk Management.
3. Right-click the partition or volume that you want to unmount, and then click Change Drive Letter and Paths.
4. Click the mounted drive path that you want to remove, and then click Remove.
5. Click Yes when you are prompted to remove the drive path.
6. Quit the Disk Management snap-in.

 

Sorting and Searching Using C# Lists

It is a fairly common programming scenario to find ourselves with a list of identical objects. In the past, without adequate support from programming languages, we found ourselves writing a lot of searching and sorting code, and that may have put you off using lists in favour of arrays. All that has changed with C# 2.0 - its implementation of a list makes handling such lists remarkably easy. For example, given the following class Person:

   public class Person

        {

            public int age;

            public string name;

            public Person(int age, string name)

            {

                this.age = age;

                this.name = name;

            }

        }

We can create a list of Person objects and add six people like so:

List<Person> people = new List<Person>();

people.Add(new Person(50, "Fred"));

people.Add(new Person(30, "John"));

people.Add(new Person(26, "Andrew"));

people.Add(new Person(24, "Xavier"));

people.Add(new Person(5, "Mark"));

people.Add(new Person(6, "Cameron"));

C# 2.0's list mechanism provides us with a number of useful methods. Personally, I find ForEach, FindAll and Sort to be very useful. ForEach allows us access to each item in the list. FindAll allows us to search for objects in the list that match a specific condition. Sort allows us to sort the objects in the list. The following code demonstrates how we might use each of these methods:

Console.WriteLine("Unsorted list");

people.ForEach(delegate(Person p) { Console.WriteLine(String.Format("{0} {1}", p.age, p.name)); });

List<Person> young = people.FindAll(delegate(Person p) { return p.age < 25; });

Console.WriteLine("Age is less than 25");

young.ForEach(delegate(Person p) { Console.WriteLine(String.Format("{0} {1}", p.age, p.name)); });

Console.WriteLine("Sorted list, by name");

people.Sort(delegate(Person p1, Person  p2) { return p1.name.CompareTo(p2.name); });

people.ForEach(delegate(Person p) { Console.WriteLine(String.Format("{0} {1}", p.age, p.name)); });

people.Sort(delegate(Person p1, Person  p2) { return p1.age.CompareTo(p2.age); });

Console.WriteLine("Sorted list, by age");

people.ForEach(delegate(Person p) { Console.WriteLine(String.Format("{0} {1}", p.age, p.name)); });

And here is the output that we should expect:

Unsorted list

50 Fred

30 John

26 Andrew

24 Xavier

5 Mark

6 Cameron

Age is less than 25

24 Xavier

5 Mark

6 Cameron

Sorted list, by name

26 Andrew

6 Cameron

50 Fred

30 John

5 Mark

24 Xavier

Sorted list, by age

5 Mark

6 Cameron

24 Xavier

26 Andrew

30 John

50 Fred

Lists are powerful and result in fewer, and more elegant, lines of code. Hopefully this short example has demonstrated their ease and you will find yourself using them in your day-to-day development activities.

 

View all constraint of table in SQL Server.

Query is to view all constraints of the table in SQL Server.

 

 

SELECT * FROM (

Select SysObjects.[Name] As [Contraint Name] ,Tab.[Name] as [Table Name],Col.[Name] As [Column Name]

 From SysObjects Inner Join (Select [Name],[ID] From SysObjects Where XType = 'U') As Tab

On Tab.[ID] = Sysobjects.[Parent_Obj]

Inner Join sysconstraints On sysconstraints.Constid = Sysobjects.[ID]

Inner Join SysColumns Col On Col.[ColID] = sysconstraints.[ColID] And Col.[ID] = Tab.[ID]

 ) A WHERE A.[TABLE NAME]='TABLENAME'

 

 

 

Thanks,

Siddu

 

P Please consider the environment before printing this e-mail

 

 

Defining SQL Server constraints with TSQL

 

Types of constraints

I focus on four types of constraints: primary key, foreign key, unique, and check. Here's a brief overview of each.

Primary key
This constraint is used to guarantee that a column or set of columns on a table contain unique values for every record in the given table. This lets you ensure data integrity by always being able to uniquely identify the record in the table.

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A table can have only one primary key constraint defined on it, and the rows in the primary key columns cannot contain null values. A primary key constraint can be defined when a table is created, or it can be added later.

This script creates a primary key constraint on a single field when the table is created:

IF OBJECT_ID('SalesHistory')>0
       DROP TABLE SalesHistory;
 
 

GO
 
 

CREATE TABLE [dbo].[SalesHistory](
       [SaleID] [int] IDENTITY(1,1) NOT NULL PRIMARY KEY,
       [Product] [char](150) NULL,
       [SaleDate] [datetime] NULL,
       [SalePrice] [money] NULL
 )
 
 

GO

The followings script creates the primary key constraint when the table is created. This method allows you to define a name for the constraint and to create the constraint on multiple columns if necessary.

IF OBJECT_ID('SalesHistory')>0
       DROP TABLE SalesHistory;
 
 

GO
 CREATE TABLE [dbo].[SalesHistory](
       [SaleID] [int] IDENTITY(1,1) NOT NULL,
       [Product] [char](150) NULL,
       [SaleDate] [datetime] NULL,
       [SalePrice] [money] NULL, 
       CONSTRAINT pk_SaleID PRIMARY KEY (SaleID)
 
 

)
 
 

GO

This script creates the primary key constraint on the table after it is created:

IF OBJECT_ID('SalesHistory')>0
       DROP TABLE SalesHistory;
 
 

GO
 
 

CREATE TABLE [dbo].[SalesHistory](
       [SaleID] [int] IDENTITY(1,1) NOT NULL,
       [Product] [char](150) NULL,
       [SaleDate] [datetime] NULL,
       [SalePrice] [money] NULL
 
 

)
 
 

GO
 
 

ALTER TABLE SalesHistory
 
 

ADD CONSTRAINT  pk_SaleID PRIMARY KEY (SaleID)
 
 

GO

Foreign key
This constraint limits the values of columns in one table based upon the values of columns in another table. This link between the two tables requires the use of a "lookup table," which contains the accepted list of values; this list must contain a unique or primary key constraint. After the constraint is established between the two tables, any data modifications to the fields defined in the constraint on the foreign key table will cause a validation to ensure that the data being updated or inserted is contained in the lookup table.

The script in Listing A creates a ProductTypes table, which will serve as the lookup table and the SalesHistory table, which will reference the ProductID in the ProductTypes table. If I had excluded the constraint definition in the table declaration, I could go back later and add it. You can do this with the script in Listing B.

The previous script contains the WITH NOCHECK clause. I use it so that any existing values in the table are not considered when the constraint is added. Any records in the table that violate the newly added constraint will be ignored so that the constraint is created. The constraint will only be applicable to new records entered into the SalesHistory table.

Unique
This constraint guarantees that the values in a column or set of columns are unique. Unique and primary key constraints are somewhat similar because each provide a guarantee for uniqueness for a column or set of columns. A primary key constraint automatically has a unique constraint defined on it.

There are two differences between the constraints: (1) You may have only one primary key constraint per table, yet you may have many unique constraints per table; (2) A primary key constraint will not allow null values but a unique constraint will (although it will only allow one null value per field).

This script creates a unique constraint on the SaleID column when the table is created:

IF OBJECT_ID('SalesHistory')>0
       DROP TABLE SalesHistory;
 
 

GO
 CREATE TABLE [dbo].[SalesHistory](
       [SaleID] [int] NOT NULL UNIQUE,
       [Product] [char](150) NULL,
       [SaleDate] [datetime] NULL,
       [SalePrice] [money] NULL
 
 

)
 
 

GO

The following script creates a unique constraint on the table at creation, and it allows for constraint naming and for defining the unique constraint on multiple columns if necessary.

IF OBJECT_ID('SalesHistory')>0
       DROP TABLE SalesHistory;
 
 

GO
 
 

CREATE TABLE [dbo].[SalesHistory](
       [SaleID] [int]  NOT NULL,
       [Product] [char](150) NULL,
       [SaleDate] [datetime] NULL,
       [SalePrice] [money] NULL, 
       CONSTRAINT uc_SaleID UNIQUE (SaleID)
 
 

)
 
 

GO

This script creates the unique constraint on the SalesHistory table by altering the table after it has been created:

IF OBJECT_ID('SalesHistory')>0
       DROP TABLE SalesHistory;
 
 

GO
 
 

CREATE TABLE [dbo].[SalesHistory](
       [SaleID] [int] NOT NULL,
       [Product] [char](150) NULL,
       [SaleDate] [datetime] NULL,
       [SalePrice] [money] NULL
 
 

)
 
 

GO
 
 

ALTER TABLE SalesHistory
 
 

ADD CONSTRAINT  uc_SaleID UNIQUE(SaleID)
 
 

GO

Check
This constraint limits the value range, or domain, in a column. Check constraints check the acceptable values against a logical expression defined in the constraint. These constraints are similar to foreign key constraints in that they both govern the acceptable values for a column or set of columns in a given row in a table. You can create a check constraint at the column or table level. A check constraint on a single column allows only certain values for those columns, while a table check constraint can limit values in certain columns based on values in other fields in the row.

The following script creates a check constraint on the SalePrice column in the SalesHistory table, limiting entries where the SalePrice must be greater than 4. Any attempt to enter a record with the SalePrice present and less than 4 will result in an error.

IF OBJECT_ID('SalesHistory')>0
       DROP TABLE SalesHistory;
 
 

GO
 
 

CREATE TABLE [dbo].[SalesHistory](
       [SaleID] [int]  NOT NULL,
       [Product] [char](150) NULL,
       [SaleDate] [datetime] NULL,
       [SalePrice] [money] NULL CHECK (SalePrice > 4)
 
 

)
 
 

GO

The script in Listing C creates a check constraint on the SalesHistory table, limiting the SalePrice to be greater than 10 and the Product field to have the value Computer. This isn't a very practical constraint, but it does illustrate how you can set constraints on multiple columns for a table. Listing D is effectively the same as the script in Listing C, but it defines the constraint after the table is created.