http://blog.sqlauthority.com/2007/04/27/sql-server-2005-locking-hints-and-examples/
In SQL Server 2000 (Enterprise Manager)
1. Expand server – management-currentActivity-expand
locks/processid and you will be able to see all the locks related information.
2.Expand server – management-currentActivity-expand Locks/object you can see locks by object information.
In SQL Server 2005 (SSMS, object Explorer)
Expand-server-management-double click Activity Monitor.
on left side you have three options to choose from, select those options and you can see all the locks related information.
run this stored procedure in the database.
1. sp_lock
to know the running process in the sql server, run this query,
2. select * from sysprocesses ( in sql server 2000)
3. select * from sys.sysprocesses ( in sql server 2005)
4. sp_who
5. sp_who2 will also give you some good information.
To work around the locks, you can run profiler to check which query is is creating a lock and if that is necessary.
Types of locks on object level, ( general idea)
Database : Database.
Extent : Contiguous group of eight data pages or index pages.
Key: Row lock within an index.
Page: 8-kilobyte (KB) data page or index page.
RID :Row ID. Used to lock a single row within a table.
Table: Entire table, including all data and indexes.
Types of locks;
Shared (S) – more than one Query can access the object.
Exclusive lock (X) – only one Query can access the object.
Update lock (U)
Intent share (IS)
Intent Exclusive (IX)
Just to give you a brief idea about locks, We have something called as transaction levels in sql server databases.
TRANSACTION ISOLATION LEVEL
level 0. READ UNCOMMITTED
level 1. READ COMMITTED (default)
level 2. REPEATABLE READ
level 3. SERIALIZABLE
level 0 is the lowest level isloation level, if your database is setin this isolation level, no query will lock any resources,Under thislevel, there will be no locks on the database, not even shared locks.
SET TRANSACTION ISOLATION LEVEL READ UNCOMMITTED
This data will also read uncommitted data. Data which you have not comitted, you can still read that data.
level1 is the default isolation level of the database.
Under this category you will not be able to read uncomitted data, thisis also called as dirty data. Under this we will have shared locks.
As the level increases the locks also increases. The highest is the serializable.
To make you understand in detail, lets see an example of what is committed data and what is uncomitted data.
use pubs
create table example1 ( eid int, ename varchar(10))
begin tran T1
insert into example1 values ( 1, ‘example’)
go
select * from example1 — this is uncomitted data.
The above is uncomitted transaction, because you started thetransaction with a begin, you have to commit the transaction, untillthen the transaction will not be uncommitted.
to commit the same transaction
commit tran T1
select * from example1 — this is committed data.
To check what is the current isolation level of your database, run this command,
Dbcc useroptions — check for isolation level.
If you dont want your query to put locks on objects you might want to use something like this,
select * from example1_1 with (nolock)
This will not keep any lock, not even a shared lock on the table.
This is indepth concept try looking BOL.
Hope this helps,