Related
Recently, I needed to write a stored procedure to insert only one record when the first user come and ignore for others. I think the IF NOT EXISTS INSERT will not work for me. Also, some people saying online that MERGE adds race condition. Any quick way to achieve this? This is my code for now.
IF NOT EXISTS (SELECT ......)
INSERT
You might add another table to use as the lock mechanism.
Let's say your table's name is a, and the name of the table which has the locked value is check_a :
create table a (name varchar(10))
create table check_a (name varchar(10))
Insert only one record to the lock table:
insert into check_a values ('lock')
go
Then create a stored procedure which checks if there is a value in the main table. If there is no record, we might lock the only value in the table check_a and insert our value into the table a.
create proc insert_if_first
as
begin
set nocount on
if not exists (select name from a)
begin
declare #name varchar(10)
begin tran
select #name = name from check_a with (updlock)
if not exists (select name from a)
begin
insert into a values ('some value')
end
commit
end
end
go
First selection from the table a to check there is no record is for using system resources as low as we can. If there is a record in the table a, we can skip opening transaction and skip locking the row.
Second check is to make sure that while we are waiting to obtain the lock, no one inserted a row to the table a.
This way, only the first user which can lock check_a will be able to insert a value to the table a.
I'm guessing that you mean you want users to make a stored procedure that makes sure only one user can run the procedure. Then you need to use isolation levels. There are different Isolation levels, so you need to decide which one you need.
READ UNCOMMITTED
READ COMMITTED
REPEATABLE READ
SERIALIZABLE
You can read what they do here:
https://msdn.microsoft.com/en-us/library/ms173763.aspx
Assume a table structure of MyTable(KEY, datafield1, datafield2...).
Often I want to either update an existing record, or insert a new record if it doesn't exist.
Essentially:
IF (key exists)
run update command
ELSE
run insert command
What's the best performing way to write this?
don't forget about transactions. Performance is good, but simple (IF EXISTS..) approach is very dangerous.
When multiple threads will try to perform Insert-or-update you can easily
get primary key violation.
Solutions provided by #Beau Crawford & #Esteban show general idea but error-prone.
To avoid deadlocks and PK violations you can use something like this:
begin tran
if exists (select * from table with (updlock,serializable) where key = #key)
begin
update table set ...
where key = #key
end
else
begin
insert into table (key, ...)
values (#key, ...)
end
commit tran
or
begin tran
update table with (serializable) set ...
where key = #key
if ##rowcount = 0
begin
insert into table (key, ...) values (#key,..)
end
commit tran
See my detailed answer to a very similar previous question
#Beau Crawford's is a good way in SQL 2005 and below, though if you're granting rep it should go to the first guy to SO it. The only problem is that for inserts it's still two IO operations.
MS Sql2008 introduces merge from the SQL:2003 standard:
merge tablename with(HOLDLOCK) as target
using (values ('new value', 'different value'))
as source (field1, field2)
on target.idfield = 7
when matched then
update
set field1 = source.field1,
field2 = source.field2,
...
when not matched then
insert ( idfield, field1, field2, ... )
values ( 7, source.field1, source.field2, ... )
Now it's really just one IO operation, but awful code :-(
Do an UPSERT:
UPDATE MyTable SET FieldA=#FieldA WHERE Key=#Key
IF ##ROWCOUNT = 0
INSERT INTO MyTable (FieldA) VALUES (#FieldA)
http://en.wikipedia.org/wiki/Upsert
Many people will suggest you use MERGE, but I caution you against it. By default, it doesn't protect you from concurrency and race conditions any more than multiple statements, and it introduces other dangers:
Use Caution with SQL Server's MERGE Statement
So, you want to use MERGE, eh?
Even with this "simpler" syntax available, I still prefer this approach (error handling omitted for brevity):
BEGIN TRANSACTION;
UPDATE dbo.table WITH (UPDLOCK, SERIALIZABLE)
SET ... WHERE PK = #PK;
IF ##ROWCOUNT = 0
BEGIN
INSERT dbo.table(PK, ...) SELECT #PK, ...;
END
COMMIT TRANSACTION;
Please stop using this UPSERT anti-pattern
A lot of folks will suggest this way:
SET TRANSACTION ISOLATION LEVEL SERIALIZABLE;
BEGIN TRANSACTION;
IF EXISTS (SELECT 1 FROM dbo.table WHERE PK = #PK)
BEGIN
UPDATE ...
END
ELSE
BEGIN
INSERT ...
END
COMMIT TRANSACTION;
But all this accomplishes is ensuring you may need to read the table twice to locate the row(s) to be updated. In the first sample, you will only ever need to locate the row(s) once. (In both cases, if no rows are found from the initial read, an insert occurs.)
Others will suggest this way:
BEGIN TRY
INSERT ...
END TRY
BEGIN CATCH
IF ERROR_NUMBER() = 2627
UPDATE ...
END CATCH
However, this is problematic if for no other reason than letting SQL Server catch exceptions that you could have prevented in the first place is much more expensive, except in the rare scenario where almost every insert fails. I prove as much here:
Checking for potential constraint violations before entering TRY/CATCH
Performance impact of different error handling techniques
IF EXISTS (SELECT * FROM [Table] WHERE ID = rowID)
UPDATE [Table] SET propertyOne = propOne, property2 . . .
ELSE
INSERT INTO [Table] (propOne, propTwo . . .)
Edit:
Alas, even to my own detriment, I must admit the solutions that do this without a select seem to be better since they accomplish the task with one less step.
If you want to UPSERT more than one record at a time you can use the ANSI SQL:2003 DML statement MERGE.
MERGE INTO table_name WITH (HOLDLOCK) USING table_name ON (condition)
WHEN MATCHED THEN UPDATE SET column1 = value1 [, column2 = value2 ...]
WHEN NOT MATCHED THEN INSERT (column1 [, column2 ...]) VALUES (value1 [, value2 ...])
Check out Mimicking MERGE Statement in SQL Server 2005.
Although its pretty late to comment on this I want to add a more complete example using MERGE.
Such Insert+Update statements are usually called "Upsert" statements and can be implemented using MERGE in SQL Server.
A very good example is given here:
http://weblogs.sqlteam.com/dang/archive/2009/01/31/UPSERT-Race-Condition-With-MERGE.aspx
The above explains locking and concurrency scenarios as well.
I will be quoting the same for reference:
ALTER PROCEDURE dbo.Merge_Foo2
#ID int
AS
SET NOCOUNT, XACT_ABORT ON;
MERGE dbo.Foo2 WITH (HOLDLOCK) AS f
USING (SELECT #ID AS ID) AS new_foo
ON f.ID = new_foo.ID
WHEN MATCHED THEN
UPDATE
SET f.UpdateSpid = ##SPID,
UpdateTime = SYSDATETIME()
WHEN NOT MATCHED THEN
INSERT
(
ID,
InsertSpid,
InsertTime
)
VALUES
(
new_foo.ID,
##SPID,
SYSDATETIME()
);
RETURN ##ERROR;
/*
CREATE TABLE ApplicationsDesSocietes (
id INT IDENTITY(0,1) NOT NULL,
applicationId INT NOT NULL,
societeId INT NOT NULL,
suppression BIT NULL,
CONSTRAINT PK_APPLICATIONSDESSOCIETES PRIMARY KEY (id)
)
GO
--*/
DECLARE #applicationId INT = 81, #societeId INT = 43, #suppression BIT = 0
MERGE dbo.ApplicationsDesSocietes WITH (HOLDLOCK) AS target
--set the SOURCE table one row
USING (VALUES (#applicationId, #societeId, #suppression))
AS source (applicationId, societeId, suppression)
--here goes the ON join condition
ON target.applicationId = source.applicationId and target.societeId = source.societeId
WHEN MATCHED THEN
UPDATE
--place your list of SET here
SET target.suppression = source.suppression
WHEN NOT MATCHED THEN
--insert a new line with the SOURCE table one row
INSERT (applicationId, societeId, suppression)
VALUES (source.applicationId, source.societeId, source.suppression);
GO
Replace table and field names by whatever you need.
Take care of the using ON condition.
Then set the appropriate value (and type) for the variables on the DECLARE line.
Cheers.
That depends on the usage pattern. One has to look at the usage big picture without getting lost in the details. For example, if the usage pattern is 99% updates after the record has been created, then the 'UPSERT' is the best solution.
After the first insert (hit), it will be all single statement updates, no ifs or buts. The 'where' condition on the insert is necessary otherwise it will insert duplicates, and you don't want to deal with locking.
UPDATE <tableName> SET <field>=#field WHERE key=#key;
IF ##ROWCOUNT = 0
BEGIN
INSERT INTO <tableName> (field)
SELECT #field
WHERE NOT EXISTS (select * from tableName where key = #key);
END
You can use MERGE Statement, This statement is used to insert data if not exist or update if does exist.
MERGE INTO Employee AS e
using EmployeeUpdate AS eu
ON e.EmployeeID = eu.EmployeeID`
If going the UPDATE if-no-rows-updated then INSERT route, consider doing the INSERT first to prevent a race condition (assuming no intervening DELETE)
INSERT INTO MyTable (Key, FieldA)
SELECT #Key, #FieldA
WHERE NOT EXISTS
(
SELECT *
FROM MyTable
WHERE Key = #Key
)
IF ##ROWCOUNT = 0
BEGIN
UPDATE MyTable
SET FieldA=#FieldA
WHERE Key=#Key
IF ##ROWCOUNT = 0
... record was deleted, consider looping to re-run the INSERT, or RAISERROR ...
END
Apart from avoiding a race condition, if in most cases the record will already exist then this will cause the INSERT to fail, wasting CPU.
Using MERGE probably preferable for SQL2008 onwards.
MS SQL Server 2008 introduces the MERGE statement, which I believe is part of the SQL:2003 standard. As many have shown it is not a big deal to handle one row cases, but when dealing with large datasets, one needs a cursor, with all the performance problems that come along. The MERGE statement will be much welcomed addition when dealing with large datasets.
Before everyone jumps to HOLDLOCK-s out of fear from these nafarious users running your sprocs directly :-) let me point out that you have to guarantee uniqueness of new PK-s by design (identity keys, sequence generators in Oracle, unique indexes for external ID-s, queries covered by indexes). That's the alpha and omega of the issue. If you don't have that, no HOLDLOCK-s of the universe are going to save you and if you do have that then you don't need anything beyond UPDLOCK on the first select (or to use update first).
Sprocs normally run under very controlled conditions and with the assumption of a trusted caller (mid tier). Meaning that if a simple upsert pattern (update+insert or merge) ever sees duplicate PK that means a bug in your mid-tier or table design and it's good that SQL will yell a fault in such case and reject the record. Placing a HOLDLOCK in this case equals eating exceptions and taking in potentially faulty data, besides reducing your perf.
Having said that, Using MERGE, or UPDATE then INSERT is easier on your server and less error prone since you don't have to remember to add (UPDLOCK) to first select. Also, if you are doing inserts/updates in small batches you need to know your data in order to decide whether a transaction is appropriate or not. It it's just a collection of unrelated records then additional "enveloping" transaction will be detrimental.
Does the race conditions really matter if you first try an update followed by an insert?
Lets say you have two threads that want to set a value for key key:
Thread 1: value = 1
Thread 2: value = 2
Example race condition scenario
key is not defined
Thread 1 fails with update
Thread 2 fails with update
Exactly one of thread 1 or thread 2 succeeds with insert. E.g. thread 1
The other thread fails with insert (with error duplicate key) - thread 2.
Result: The "first" of the two treads to insert, decides value.
Wanted result: The last of the 2 threads to write data (update or insert) should decide value
But; in a multithreaded environment, the OS scheduler decides on the order of the thread execution - in the above scenario, where we have this race condition, it was the OS that decided on the sequence of execution. Ie: It is wrong to say that "thread 1" or "thread 2" was "first" from a system viewpoint.
When the time of execution is so close for thread 1 and thread 2, the outcome of the race condition doesn't matter. The only requirement should be that one of the threads should define the resulting value.
For the implementation: If update followed by insert results in error "duplicate key", this should be treated as success.
Also, one should of course never assume that value in the database is the same as the value you wrote last.
I had tried below solution and it works for me, when concurrent request for insert statement occurs.
begin tran
if exists (select * from table with (updlock,serializable) where key = #key)
begin
update table set ...
where key = #key
end
else
begin
insert table (key, ...)
values (#key, ...)
end
commit tran
You can use this query. Work in all SQL Server editions. It's simple, and clear. But you need use 2 queries. You can use if you can't use MERGE
BEGIN TRAN
UPDATE table
SET Id = #ID, Description = #Description
WHERE Id = #Id
INSERT INTO table(Id, Description)
SELECT #Id, #Description
WHERE NOT EXISTS (SELECT NULL FROM table WHERE Id = #Id)
COMMIT TRAN
NOTE: Please explain answer negatives
Assuming that you want to insert/update single row, most optimal approach is to use SQL Server's REPEATABLE READ transaction isolation level:
SET TRANSACTION ISOLATION LEVEL REPEATABLE READ;
BEGIN TRANSACTION
IF (EXISTS (SELECT * FROM myTable WHERE key=#key)
UPDATE myTable SET ...
WHERE key=#key
ELSE
INSERT INTO myTable (key, ...)
VALUES (#key, ...)
COMMIT TRANSACTION
This isolation level will prevent/block subsequent repeatable read transactions from accessing same row (WHERE key=#key) while currently running transaction is open.
On the other hand, operations on another row won't be blocked (WHERE key=#key2).
You can use:
INSERT INTO tableName (...) VALUES (...)
ON DUPLICATE KEY
UPDATE ...
Using this, if there is already an entry for the particular key, then it will UPDATE, else, it will INSERT.
In SQL Server 2008 you can use the MERGE statement
If you use ADO.NET, the DataAdapter handles this.
If you want to handle it yourself, this is the way:
Make sure there is a primary key constraint on your key column.
Then you:
Do the update
If the update fails because a record with the key already exists, do the insert. If the update does not fail, you are finished.
You can also do it the other way round, i.e. do the insert first, and do the update if the insert fails. Normally the first way is better, because updates are done more often than inserts.
Doing an if exists ... else ... involves doing two requests minimum (one to check, one to take action). The following approach requires only one where the record exists, two if an insert is required:
DECLARE #RowExists bit
SET #RowExists = 0
UPDATE MyTable SET DataField1 = 'xxx', #RowExists = 1 WHERE Key = 123
IF #RowExists = 0
INSERT INTO MyTable (Key, DataField1) VALUES (123, 'xxx')
I usually do what several of the other posters have said with regard to checking for it existing first and then doing whatever the correct path is. One thing you should remember when doing this is that the execution plan cached by sql could be nonoptimal for one path or the other. I believe the best way to do this is to call two different stored procedures.
FirstSP:
If Exists
Call SecondSP (UpdateProc)
Else
Call ThirdSP (InsertProc)
Now, I don't follow my own advice very often, so take it with a grain of salt.
Do a select, if you get a result, update it, if not, create it.
I have a SQL Server 2008 database. There are three terminals connected to it (A, B, C). There is a table SampleTable in the database, which reacts to any terminal activity. Every time there is some activity on any terminal, logged on to this DB, the new row is inserted into SampleTable.
I want to redirect traffic from one (C) of the three terminals to write to table RealTable and not SampleTable, but I have to do this on DB layer since services that write terminal activity to DB are in Black Box.
I already have some triggers working on SampleTable with the redirecting logic, but the problem is that rows are still being inserted into SampleTable.
What is the cleanest solution for this. I am certain that deleting rows in an inserting trigger is bad, bad, bad.
Please help.
Edit:
Our current logic is something like this (this is pseudo code):
ALTER TRIGGER DiffByTerminal
ON SampleTable
AFTER INSERT
AS
DECLARE #ActionCode VARCHAR(3),
#ActionTime DATETIME,
#TerminalId INT
SELECT #ActionCode = ins.ActionCode,
#ActionTime = ins.ActionTime,
#TerminalId = ins.TerminalId
FROM inserted ins
IF(#TerminalId = 'C')
BEGIN
INSERT INTO RealTable
(
...
)
VALUES
(
#ActionCode,
#ActionTime,
#TerminalId
)
END
In order to "intercept" something before a row gets inserted into a table, you need an INSTEAD OF trigger, not an AFTER trigger. So you can drop your existing trigger (which also included flawed logic that assumed all inserts would be single-row) and create this INSTEAD OF trigger instead:
DROP TRIGGER DiffByTerminal;
GO
CREATE TRIGGER dbo.DiffByTerminal
ON dbo.SampleTable
INSTEAD OF INSERT
AS
BEGIN
SET NOCOUNT ON;
INSERT dbo.RealTable(...) SELECT ActionCode, ActionTime, TerminalID
FROM inserted
WHERE TerminalID = 'C';
INSERT dbo.SampleTable(...) SELECT ActionCode, ActionTime, TerminalID
FROM inserted
WHERE TerminalID <> 'C';
END
GO
This will handle single-row inserts and multi-row inserts consisting of (a) only C (b) only non-C and (c) a mix.
One of the easiest solution for you is INSTEAD OF trigger. Simply stating, it's trigger that "fires" on very action you decide and lets you "override" the default behavior of the action.
You can override the INSERT, DELETE and UPDATE statements for specific table/view (you use it a lot with views that combine data from different tables and you want make the view insert-able) using INSTEAD OF trigger, where you can put your logic. inside the trigger you can then call again to INSERT when it's appropriate, and you don't have to worry about recursion - INSTEAD OF triggers won't apply on statements from inside the trigger code itself.
Enjoy.
I am working on a work queueing solution. I want to query a given row in the database, where a status column has a specific value, modify that value and return the row, and I want to do it atomically, so that no other query will see it:
begin transaction
select * from table where pk = x and status = y
update table set status = z where pk = x
commit transaction
--(the row would be returned)
it must be impossible for 2 or more concurrent queries to return the row (one query execution would see the row while its status = y) -- sort of like an interlocked CompareAndExchange operation.
I know the code above runs (for SQL server), but will the swap always be atomic?
I need a solution that will work for SQL Server and Oracle
Is PK the primary key? Then this is a non issue, if you already know the primary key there is no sport. If pk is the primary key, then this begs the obvious question how do you know the pk of the item to dequeue...
The problem is if you don't know the primary key and want to dequeue the next 'available' (ie. status = y) and mark it as dequeued (delete it or set status = z).
The proper way to do this is to use a single statement. Unfortunately the syntax differs between Oracle and SQL Server. The SQL Server syntax is:
update top (1) [<table>]
set status = z
output DELETED.*
where status = y;
I'm not familiar enough with Oracle's RETURNING clause to give an example similar to SQL's OUTPUT one.
Other SQL Server solutions require lock hints on the SELECT (with UPDLOCK) to be correct.
In Oracle the preffered avenue is use the FOR UPDATE, but that does not work in SQL Server since FOR UPDATE is to be used in conjunction with cursors in SQL.
In any case, the behavior you have in the original post is incorrect. Multiple sessions can all select the same row(s) and even all update it, returning the same dequeued item(s) to multiple readers.
As a general rule, to make an operation like this atomic you'll need to ensure that you set an exclusive (or update) lock when you perform the select so that no other transaction can read the row before your update.
The typical syntax for this is something like:
select * from table where pk = x and status = y for update
but you'd need to look it up to be sure.
I have some applications that follow a similar pattern. There is a table like yours that represents a queue of work. The table has two extra columns: thread_id and thread_date. When the app asks for work froom the queue, it submits a thread id. Then a single update statement updates all applicable rows with the thread id column with the submitted id and the thread date column with the current time. After that update, it selects all rows with that thread id. This way you dont need to declare an explicit transaction. The "locking" occurs in the initial update.
The thread_date column is used to ensure that you do not end up with orphaned work items. What happens if items are pulled from the queue and then your app crashes? You have to have the ability to try those work items again. So you might grab all items off the queue that have not been marked completed but have been assigned to a thread with a thread date in the distant past. Its up to you to define "distant."
Try this. The validation is in the UPDATE statement.
Code
IF EXISTS (SELECT * FROM sys.tables WHERE name = 't1')
DROP TABLE dbo.t1
GO
CREATE TABLE dbo.t1 (
ColID int IDENTITY,
[Status] varchar(20)
)
GO
DECLARE #id int
DECLARE #initialValue varchar(20)
DECLARE #newValue varchar(20)
SET #initialValue = 'Initial Value'
INSERT INTO dbo.t1 (Status) VALUES (#initialValue)
SELECT #id = SCOPE_IDENTITY()
SET #newValue = 'Updated Value'
BEGIN TRAN
UPDATE dbo.t1
SET
#initialValue = [Status],
[Status] = #newValue
WHERE ColID = #id
AND [Status] = #initialValue
SELECT ColID, [Status] FROM dbo.t1
COMMIT TRAN
SELECT #initialValue AS '#initialValue', #newValue AS '#newValue'
Results
ColID Status
----- -------------
1 Updated Value
#initialValue #newValue
------------- -------------
Initial Value Updated Value
Assume a table structure of MyTable(KEY, datafield1, datafield2...).
Often I want to either update an existing record, or insert a new record if it doesn't exist.
Essentially:
IF (key exists)
run update command
ELSE
run insert command
What's the best performing way to write this?
don't forget about transactions. Performance is good, but simple (IF EXISTS..) approach is very dangerous.
When multiple threads will try to perform Insert-or-update you can easily
get primary key violation.
Solutions provided by #Beau Crawford & #Esteban show general idea but error-prone.
To avoid deadlocks and PK violations you can use something like this:
begin tran
if exists (select * from table with (updlock,serializable) where key = #key)
begin
update table set ...
where key = #key
end
else
begin
insert into table (key, ...)
values (#key, ...)
end
commit tran
or
begin tran
update table with (serializable) set ...
where key = #key
if ##rowcount = 0
begin
insert into table (key, ...) values (#key,..)
end
commit tran
See my detailed answer to a very similar previous question
#Beau Crawford's is a good way in SQL 2005 and below, though if you're granting rep it should go to the first guy to SO it. The only problem is that for inserts it's still two IO operations.
MS Sql2008 introduces merge from the SQL:2003 standard:
merge tablename with(HOLDLOCK) as target
using (values ('new value', 'different value'))
as source (field1, field2)
on target.idfield = 7
when matched then
update
set field1 = source.field1,
field2 = source.field2,
...
when not matched then
insert ( idfield, field1, field2, ... )
values ( 7, source.field1, source.field2, ... )
Now it's really just one IO operation, but awful code :-(
Do an UPSERT:
UPDATE MyTable SET FieldA=#FieldA WHERE Key=#Key
IF ##ROWCOUNT = 0
INSERT INTO MyTable (FieldA) VALUES (#FieldA)
http://en.wikipedia.org/wiki/Upsert
Many people will suggest you use MERGE, but I caution you against it. By default, it doesn't protect you from concurrency and race conditions any more than multiple statements, and it introduces other dangers:
Use Caution with SQL Server's MERGE Statement
So, you want to use MERGE, eh?
Even with this "simpler" syntax available, I still prefer this approach (error handling omitted for brevity):
BEGIN TRANSACTION;
UPDATE dbo.table WITH (UPDLOCK, SERIALIZABLE)
SET ... WHERE PK = #PK;
IF ##ROWCOUNT = 0
BEGIN
INSERT dbo.table(PK, ...) SELECT #PK, ...;
END
COMMIT TRANSACTION;
Please stop using this UPSERT anti-pattern
A lot of folks will suggest this way:
SET TRANSACTION ISOLATION LEVEL SERIALIZABLE;
BEGIN TRANSACTION;
IF EXISTS (SELECT 1 FROM dbo.table WHERE PK = #PK)
BEGIN
UPDATE ...
END
ELSE
BEGIN
INSERT ...
END
COMMIT TRANSACTION;
But all this accomplishes is ensuring you may need to read the table twice to locate the row(s) to be updated. In the first sample, you will only ever need to locate the row(s) once. (In both cases, if no rows are found from the initial read, an insert occurs.)
Others will suggest this way:
BEGIN TRY
INSERT ...
END TRY
BEGIN CATCH
IF ERROR_NUMBER() = 2627
UPDATE ...
END CATCH
However, this is problematic if for no other reason than letting SQL Server catch exceptions that you could have prevented in the first place is much more expensive, except in the rare scenario where almost every insert fails. I prove as much here:
Checking for potential constraint violations before entering TRY/CATCH
Performance impact of different error handling techniques
IF EXISTS (SELECT * FROM [Table] WHERE ID = rowID)
UPDATE [Table] SET propertyOne = propOne, property2 . . .
ELSE
INSERT INTO [Table] (propOne, propTwo . . .)
Edit:
Alas, even to my own detriment, I must admit the solutions that do this without a select seem to be better since they accomplish the task with one less step.
If you want to UPSERT more than one record at a time you can use the ANSI SQL:2003 DML statement MERGE.
MERGE INTO table_name WITH (HOLDLOCK) USING table_name ON (condition)
WHEN MATCHED THEN UPDATE SET column1 = value1 [, column2 = value2 ...]
WHEN NOT MATCHED THEN INSERT (column1 [, column2 ...]) VALUES (value1 [, value2 ...])
Check out Mimicking MERGE Statement in SQL Server 2005.
Although its pretty late to comment on this I want to add a more complete example using MERGE.
Such Insert+Update statements are usually called "Upsert" statements and can be implemented using MERGE in SQL Server.
A very good example is given here:
http://weblogs.sqlteam.com/dang/archive/2009/01/31/UPSERT-Race-Condition-With-MERGE.aspx
The above explains locking and concurrency scenarios as well.
I will be quoting the same for reference:
ALTER PROCEDURE dbo.Merge_Foo2
#ID int
AS
SET NOCOUNT, XACT_ABORT ON;
MERGE dbo.Foo2 WITH (HOLDLOCK) AS f
USING (SELECT #ID AS ID) AS new_foo
ON f.ID = new_foo.ID
WHEN MATCHED THEN
UPDATE
SET f.UpdateSpid = ##SPID,
UpdateTime = SYSDATETIME()
WHEN NOT MATCHED THEN
INSERT
(
ID,
InsertSpid,
InsertTime
)
VALUES
(
new_foo.ID,
##SPID,
SYSDATETIME()
);
RETURN ##ERROR;
/*
CREATE TABLE ApplicationsDesSocietes (
id INT IDENTITY(0,1) NOT NULL,
applicationId INT NOT NULL,
societeId INT NOT NULL,
suppression BIT NULL,
CONSTRAINT PK_APPLICATIONSDESSOCIETES PRIMARY KEY (id)
)
GO
--*/
DECLARE #applicationId INT = 81, #societeId INT = 43, #suppression BIT = 0
MERGE dbo.ApplicationsDesSocietes WITH (HOLDLOCK) AS target
--set the SOURCE table one row
USING (VALUES (#applicationId, #societeId, #suppression))
AS source (applicationId, societeId, suppression)
--here goes the ON join condition
ON target.applicationId = source.applicationId and target.societeId = source.societeId
WHEN MATCHED THEN
UPDATE
--place your list of SET here
SET target.suppression = source.suppression
WHEN NOT MATCHED THEN
--insert a new line with the SOURCE table one row
INSERT (applicationId, societeId, suppression)
VALUES (source.applicationId, source.societeId, source.suppression);
GO
Replace table and field names by whatever you need.
Take care of the using ON condition.
Then set the appropriate value (and type) for the variables on the DECLARE line.
Cheers.
That depends on the usage pattern. One has to look at the usage big picture without getting lost in the details. For example, if the usage pattern is 99% updates after the record has been created, then the 'UPSERT' is the best solution.
After the first insert (hit), it will be all single statement updates, no ifs or buts. The 'where' condition on the insert is necessary otherwise it will insert duplicates, and you don't want to deal with locking.
UPDATE <tableName> SET <field>=#field WHERE key=#key;
IF ##ROWCOUNT = 0
BEGIN
INSERT INTO <tableName> (field)
SELECT #field
WHERE NOT EXISTS (select * from tableName where key = #key);
END
You can use MERGE Statement, This statement is used to insert data if not exist or update if does exist.
MERGE INTO Employee AS e
using EmployeeUpdate AS eu
ON e.EmployeeID = eu.EmployeeID`
If going the UPDATE if-no-rows-updated then INSERT route, consider doing the INSERT first to prevent a race condition (assuming no intervening DELETE)
INSERT INTO MyTable (Key, FieldA)
SELECT #Key, #FieldA
WHERE NOT EXISTS
(
SELECT *
FROM MyTable
WHERE Key = #Key
)
IF ##ROWCOUNT = 0
BEGIN
UPDATE MyTable
SET FieldA=#FieldA
WHERE Key=#Key
IF ##ROWCOUNT = 0
... record was deleted, consider looping to re-run the INSERT, or RAISERROR ...
END
Apart from avoiding a race condition, if in most cases the record will already exist then this will cause the INSERT to fail, wasting CPU.
Using MERGE probably preferable for SQL2008 onwards.
MS SQL Server 2008 introduces the MERGE statement, which I believe is part of the SQL:2003 standard. As many have shown it is not a big deal to handle one row cases, but when dealing with large datasets, one needs a cursor, with all the performance problems that come along. The MERGE statement will be much welcomed addition when dealing with large datasets.
Before everyone jumps to HOLDLOCK-s out of fear from these nafarious users running your sprocs directly :-) let me point out that you have to guarantee uniqueness of new PK-s by design (identity keys, sequence generators in Oracle, unique indexes for external ID-s, queries covered by indexes). That's the alpha and omega of the issue. If you don't have that, no HOLDLOCK-s of the universe are going to save you and if you do have that then you don't need anything beyond UPDLOCK on the first select (or to use update first).
Sprocs normally run under very controlled conditions and with the assumption of a trusted caller (mid tier). Meaning that if a simple upsert pattern (update+insert or merge) ever sees duplicate PK that means a bug in your mid-tier or table design and it's good that SQL will yell a fault in such case and reject the record. Placing a HOLDLOCK in this case equals eating exceptions and taking in potentially faulty data, besides reducing your perf.
Having said that, Using MERGE, or UPDATE then INSERT is easier on your server and less error prone since you don't have to remember to add (UPDLOCK) to first select. Also, if you are doing inserts/updates in small batches you need to know your data in order to decide whether a transaction is appropriate or not. It it's just a collection of unrelated records then additional "enveloping" transaction will be detrimental.
Does the race conditions really matter if you first try an update followed by an insert?
Lets say you have two threads that want to set a value for key key:
Thread 1: value = 1
Thread 2: value = 2
Example race condition scenario
key is not defined
Thread 1 fails with update
Thread 2 fails with update
Exactly one of thread 1 or thread 2 succeeds with insert. E.g. thread 1
The other thread fails with insert (with error duplicate key) - thread 2.
Result: The "first" of the two treads to insert, decides value.
Wanted result: The last of the 2 threads to write data (update or insert) should decide value
But; in a multithreaded environment, the OS scheduler decides on the order of the thread execution - in the above scenario, where we have this race condition, it was the OS that decided on the sequence of execution. Ie: It is wrong to say that "thread 1" or "thread 2" was "first" from a system viewpoint.
When the time of execution is so close for thread 1 and thread 2, the outcome of the race condition doesn't matter. The only requirement should be that one of the threads should define the resulting value.
For the implementation: If update followed by insert results in error "duplicate key", this should be treated as success.
Also, one should of course never assume that value in the database is the same as the value you wrote last.
I had tried below solution and it works for me, when concurrent request for insert statement occurs.
begin tran
if exists (select * from table with (updlock,serializable) where key = #key)
begin
update table set ...
where key = #key
end
else
begin
insert table (key, ...)
values (#key, ...)
end
commit tran
You can use this query. Work in all SQL Server editions. It's simple, and clear. But you need use 2 queries. You can use if you can't use MERGE
BEGIN TRAN
UPDATE table
SET Id = #ID, Description = #Description
WHERE Id = #Id
INSERT INTO table(Id, Description)
SELECT #Id, #Description
WHERE NOT EXISTS (SELECT NULL FROM table WHERE Id = #Id)
COMMIT TRAN
NOTE: Please explain answer negatives
Assuming that you want to insert/update single row, most optimal approach is to use SQL Server's REPEATABLE READ transaction isolation level:
SET TRANSACTION ISOLATION LEVEL REPEATABLE READ;
BEGIN TRANSACTION
IF (EXISTS (SELECT * FROM myTable WHERE key=#key)
UPDATE myTable SET ...
WHERE key=#key
ELSE
INSERT INTO myTable (key, ...)
VALUES (#key, ...)
COMMIT TRANSACTION
This isolation level will prevent/block subsequent repeatable read transactions from accessing same row (WHERE key=#key) while currently running transaction is open.
On the other hand, operations on another row won't be blocked (WHERE key=#key2).
You can use:
INSERT INTO tableName (...) VALUES (...)
ON DUPLICATE KEY
UPDATE ...
Using this, if there is already an entry for the particular key, then it will UPDATE, else, it will INSERT.
In SQL Server 2008 you can use the MERGE statement
If you use ADO.NET, the DataAdapter handles this.
If you want to handle it yourself, this is the way:
Make sure there is a primary key constraint on your key column.
Then you:
Do the update
If the update fails because a record with the key already exists, do the insert. If the update does not fail, you are finished.
You can also do it the other way round, i.e. do the insert first, and do the update if the insert fails. Normally the first way is better, because updates are done more often than inserts.
Doing an if exists ... else ... involves doing two requests minimum (one to check, one to take action). The following approach requires only one where the record exists, two if an insert is required:
DECLARE #RowExists bit
SET #RowExists = 0
UPDATE MyTable SET DataField1 = 'xxx', #RowExists = 1 WHERE Key = 123
IF #RowExists = 0
INSERT INTO MyTable (Key, DataField1) VALUES (123, 'xxx')
I usually do what several of the other posters have said with regard to checking for it existing first and then doing whatever the correct path is. One thing you should remember when doing this is that the execution plan cached by sql could be nonoptimal for one path or the other. I believe the best way to do this is to call two different stored procedures.
FirstSP:
If Exists
Call SecondSP (UpdateProc)
Else
Call ThirdSP (InsertProc)
Now, I don't follow my own advice very often, so take it with a grain of salt.
Do a select, if you get a result, update it, if not, create it.