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I have triggers that manipulate and insert a lot of data into a Change tracking table for audit purposes on every insert, update and delete.

This trigger does its job very well, in other words, we are able to log the desired oldvalues/newvalues as per the business requirements for every transaction.

However in some cases where the source table has a lot columns, it can up to 30 seconds for the transaction to complete. This is the unacceptable part.

Is there a way to make the trigger run asynchronously? Any examples.

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Change tracking is an built-in feature btw :) – moander Mar 21 at 6:19

9 Answers 9

up vote 16 down vote accepted

You can't make the trigger run asynchronously, but you could have the trigger synchronously send a message to a SQL Service Broker queue. The queue can then be processed asynchronously by a stored procedure.

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But then you're still breaking transaction control. – dkretz Apr 20 '09 at 15:25
Can someone who really understands Service Broker explain whether the comment above ("breaking transaction control") is true? – Rob Garrison Apr 20 '09 at 17:46
In order to commit or roll back a transaction, you must wait until everything has succeeded (to commit), or something has failed (to roll back). Asynchronous means you don't wait for it to finish to continue the rest of the logic. – dkretz Apr 20 '09 at 22:13
But you've committed the data to Service Broker's queue, and that queue itself is reliable. I guess it could fail after being successfully written to SB's queue, but that seems like a different issue. It's an interesting question. – Rob Garrison Apr 20 '09 at 23:43
If you rollback the transaction, it reverts the "send to queue". If an error occurs processing the queue, the processor can send a reply to the original message. Asynchronous processing isn't exactly like traditional sql, but you have all the tools you need for reliable processing. – Sean Reilly Apr 21 '09 at 2:51

There's a basic conflict between "does its job very well" and "unacceptable", obviously.

It sounds to me that you're trying to use triggers the same way you would use events in an OO procedural application, which IMHO doesn't map.

I would call any trigger logic that takes 30 seconds - no, more that 0.1 second - as disfunctional. I think you really need to redesign your functionality and do it some other way. I'd say "if you want to make it asynchronous", but I don't think this design makes sense in any form.

As far as "asynchronous triggers", the basic fundamental conflict is that you could never include such a thing between BEGIN TRAN and COMMIT TRAN statements because you've lost track of whether it succeeded or not.

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You commented above that using Service Broker is "still breaking transaction control." I haven't used Service Broker, but wouldn't it be transactional? – Rob Garrison Apr 20 '09 at 17:42
It couldn't be if it's asynchronous. It can't be held in a transaction if you don't wait for it to finish to find out if it succeeded, to know whether to commit or roll ack. – dkretz Apr 20 '09 at 22:10
I apologize for splitting this conversation between two comment trails. I would think that if SB can allow a rollback from its queue, then that would be transactional. Once you've written it to the queue, you consider it successful. You make a good point, but I would see it as more of a design/definition issue (assuming that the write to the SB queue can be rolled back as part of the overall transaction). – Rob Garrison Apr 20 '09 at 23:46

I wonder if you could tag a record for the change tracking by inserting into a "too process" table including who did the change etc etc.

Then another process could come along and copy the rest of the data on a regular basis.

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similar approach is used by this tool to efficiently track changes – Tomek Jan 14 '11 at 11:31

Create history table(s). While updating (/deleting/inserting) main table, insert old values of record (deleted pseudo-table in trigger) into history table; some additional info is needed too (timestamp, operation type, maybe user context). New values are kept in live table anyway.

This way triggers run fast(er) and you can shift slow operations to log viewer (procedure).

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Not that I know of, but are you inserting values into the Audit table that also exist in the base table? If so, you could consider tracking just the changes. Therefore an insert would track the change time, user, extra and a bunch of NULLs (in effect the before value). An update would have the change time, user etc and the before value of the changed column only. A delete has the change at, etc and all values.

Also, do you have an audit table per base table or one audit table for the DB? Of course the later can more easily result in waits as each transaction tries to write to the one table.

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I suspect that your trigger is of of these generic csv/text generating triggers designed to log all changes for all table in one place. Good in theory (perhaps...), but difficult to maintain and use in practice.

If you could run asynchronously (which would still require storing data somewhere for logging again later), then you are not auditing and neither do have history to use.

Perhaps you could look at the trigger execution plan and see what bit is taking the longest?

Can you change how you audit, say, to per table? You could split the current log data into the relevant tables.

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SQL Server 2014 introduced a very interesting feature called Delayed Durability. If you can tolerate loosing a few rows in case of an catastrophic event, like a server crash, you could really boost your performance in schenarios like yours.

Delayed transaction durability is accomplished using asynchronous log writes to disk. Transaction log records are kept in a buffer and written to disk when the buffer fills or a buffer flushing event takes place. Delayed transaction durability reduces both latency and contention within the system

The database containing the table must first be altered to allow delayed durability.


Then you could control the durability on a per-transaction basis.

begin tran

insert into ChangeTrackingTable select * from inserted


The transaction will be commited as durable if the transaction is cross-database, so this will only work if your audit table is located in the same database as the trigger.

There is also a possibility to alter the database as forced instead of allowed. This causes all transactions in the database to become delayed durable.


For delayed durability, there is no difference between an unexpected shutdown and an expected shutdown/restart of SQL Server. Like catastrophic events, you should plan for data loss. In a planned shutdown/restart some transactions that have not been written to disk may first be saved to disk, but you should not plan on it. Plan as though a shutdown/restart, whether planned or unplanned, loses the data the same as a catastrophic event.

This strange defect will hopefully be addressed in a future release, but until then it may be wise to make sure to automatically execute the 'sp_flush_log' procedure when SQL server is restarting or shutting down.

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To perform asynchronous processing you can use Service Broker, but it isn't the only option, you can also use CLR objects.

The following is an example of an stored procedure (AsyncProcedure) that asynchronous calls another procedure (SyncProcedure):

using System;
using System.Data;
using System.Data.SqlClient;
using System.Data.SqlTypes;
using Microsoft.SqlServer.Server;
using System.Runtime.Remoting.Messaging;
using System.Diagnostics;

public delegate void AsyncMethodCaller(string data, string server, string dbName);

public partial class StoredProcedures
    public static void AsyncProcedure(SqlXml data)
        AsyncMethodCaller methodCaller = new AsyncMethodCaller(ExecuteAsync);
        string server = null;
        string dbName = null;
        using (SqlConnection cn = new SqlConnection("context connection=true"))
        using (SqlCommand cmd = new SqlCommand("SELECT @@SERVERNAME AS [Server], DB_NAME() AS DbName", cn))
            using (SqlDataReader reader = cmd.ExecuteReader())
                server = reader.GetString(0);
                dbName = reader.GetString(1);
        methodCaller.BeginInvoke(data.Value, server, dbName, new AsyncCallback(Callback), null);
        //methodCaller.BeginInvoke(data.Value, server, dbName, null, null);

    private static void ExecuteAsync(string data, string server, string dbName)
        string connectionString = string.Format("Data Source={0};Initial Catalog={1};Integrated Security=SSPI", server, dbName);
        using (SqlConnection cn = new SqlConnection(connectionString))
        using (SqlCommand cmd = new SqlCommand("SyncProcedure", cn))
            cmd.CommandType = CommandType.StoredProcedure;
            cmd.Parameters.Add("@data", SqlDbType.Xml).Value = data;

    private static void Callback(IAsyncResult ar)
        AsyncResult result = (AsyncResult)ar;
        AsyncMethodCaller caller = (AsyncMethodCaller)result.AsyncDelegate;
        catch (Exception ex)
            // handle the exception

It uses asynchronous delegates to call SyncProcedure:

CREATE PROCEDURE SyncProcedure(@data xml)
  INSERT INTO T(Data) VALUES (@data)

Example of calling AsyncProcedure:

EXEC dbo.AsyncProcedure N'<doc><id>1</id></doc>'

Unfortunatelly, the assembly requires UNSAFE permission.

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