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EDIT: I added all of the code for the logon trigger.

Why am I getting some incorrect results when trying to retrieve the total time it takes for a query to run? This is within the context of a logon trigger on SQL Server 2008 R2.

For testing purposes, I want to get the a rough estimate of the total time it takes for a logon trigger to run. Here is a small sample of the results:

LogonId  AppId  TotalLogonTime (in MS)
 101      1        0
 253      2        3
 289      2        3
 985      1       -3
 325      1        0

How can the total time evaluate to be negative? Out of the 2.3 million executions so far, there have been 25 that resulted in a time of -3 ms. Here is the code:

CREATE trigger [trgAudit]
on all server
with execute as 'TriggerLogonUser'
for logon
    set nocount on
    set transaction isolation level read committed

     @LoginTime datetime
    ,@IsWindowsUser bit
    ,@TotalLogonTimeMS int
    ,@ClientNetAddress varchar(48)
    ,@MacAddress nchar(12)
    ,@CurrentUserId int -- UserNames
    ,@ApplicationId int
    ,@HonId int --HostName
    ,@LogonId int --Logon
    ,@MacId int -- MacAddress
    ,@CnaId int -- ClientNetAddress

begin try
    *** Get the login time, user type, mac address, and client net address  
      @LoginTime = getdate(),
      @IsWindowsUser = case
                          when len(nt_domain) = 0
                             then 0
                          else 1
      @MacAddress = p.net_address,
      @ClientNetAddress = convert(varchar(48),connectionproperty('client_net_address'))
 from sys.sysprocesses p
      p.spid = @@spid

 *** Client Net Address
      select top 1
           @CnaId = CnaId
      from master.sysmaintenance.ClientNetAddress with(index(IX_CnaAddress))
      where @ClientNetAddress = CnaAddress

      --if the ip does not exist, insert it.
      if @CnaId is null
                insert master.sysmaintenance.ClientNetAddress(CnaAddress)
                     values (@ClientNetAddress)
                select @CnaId = @@identity

 *** Applications
      select top 1
           @ApplicationId = AppId
      from master.sysmaintenance.Applications with(index(IX_AppName))
      where app_name() = AppName

      if @ApplicationId is null
                insert master.sysmaintenance.Applications (AppName)
                     values (app_name())
                select @ApplicationId = @@identity

 *** HostName
      select top 1
           @HonId = HonId
      from master.sysmaintenance.HostName with(index(IX_HonName))
      where HonName = host_name()

      if @HonId is null
                insert master.sysmaintenance.HostName
                     values (host_name())

                select @HonId = @@identity

 *** UserNames
      select top 1
           @CurrentUserId = UsnId
      from master.sysmaintenance.Usernames with(index(IX_UsnName))
      where UsnName = original_login()

      if @CurrentUserId is null
                insert master.sysmaintenance.Usernames
                     values (original_login())

                select @CurrentUserId = @@identity

 *** MacAddress
      select top 1
           @MacId = MacId
      from master.sysmaintenance.MacAddress with(index(IX_MacAddress))
      where MacAddress = @MacAddress

      -- same logic is continued as in the applications
      if @MacId is null
                insert master.sysmaintenance.MacAddress (MacAddress)
                     values (@MacAddress)

                select @MacId = @@identity

 *** Get the total logon time
 select @TotalLogonTimeMS = datediff(ms,@LoginTime, getdate())

  -- insert ids of the data gathered on the logon event into the logon table.

           insert master.sysmaintenance.Logon ( LogAppId,
                                                LogonTimeMS )
                values ( @ApplicationId,
end try

begin catch
    print cast(error_number()    as nvarchar(11))
    print cast(error_severity()  as nvarchar(11))
    print cast(error_state()     as nvarchar(11))
    print cast(error_procedure() as nvarchar(126))
    print cast(error_line()      as nvarchar(11))
    print cast(error_message()   as nvarchar(2048))
end catch

Here is the DDL to the Logon Table:

CREATE TABLE [sysmaintenance].[Logon](
    [LogonId] [bigint] IDENTITY(1,1) NOT NULL,
    [LogAppId] [int] NULL,
    [LogHonId] [int] NULL,
    [LogMacId] [int] NULL,
    [LogCnaId] [int] NULL,
    [IsWindowsLogon] [bit] NULL,
    [CurrentLogonId] [int] NULL,
    [LogonDatetime] [datetime] NULL,
    [LogonTimeMS] [int] NULL

CREATE UNIQUE CLUSTERED INDEX [PK_Logon] ON [sysmaintenance].[Logon] 
    [LogonId] ASC

Any help or insight is appreciated.

share|improve this question
Try to split this line: select @TotalLogonTimeMS = datediff(ms,@LoginTime, getdate()) First: select @LoginTime_FINISH = getdate()) Second: select @TotalLogonTimeMS = datediff(ms,@LoginTime, @LoginTime_FINISH) –  Serg Jan 30 '13 at 19:55
TotalLogonTime of 2 is impossible as datetime always ends in 0,3, or 7 –  Martin Smith Jan 31 '13 at 12:46
You are correct, the 3rd record is supposed to be a 3. Copy-pasta error. It's fixed now. –  GGpsm Jan 31 '13 at 14:23

1 Answer 1


Returns the current database system timestamp as a datetime value without the database time zone offset. This value is derived from the operating system of the computer on which the instance of SQL Server is running.

Now, bearing in mind that computer clocks drift, I'd imagine that if the computer's time was corrected (either manually or automatically), the time reported by two successive calls to GETDATE() (that aren't part of a single query) could go backwards. All of the datetime methods ultimately rely on the computer's clock.

It's a shame you're not logging one of these GETDATE() results alongside the timing, so you could see if they all occurred at the same "time".

share|improve this answer
This issue is becoming more and more common. So far, there have been 5+ million connections since yesterday, and 78 resulted in a logon time of -3ms. 5.4 million were 0ms. Only about 50 connections were 16ms or lower. It doesn't seem likely that the computers time was corrected that causes this issue. By the way, the @LoginTime is being logged with the timing. I didn't post the entire code of the trigger because it was not relevant. I am using repetitive logic to capture the application name, ip address, username, etc. –  GGpsm Jan 31 '13 at 18:33
@GGpsm - "I didn't post the entire code of the trigger because it was not relevant" - it's possible that something you've deemed irrelevant is actually relevant. I posted my answer based on all of the information we have available. If you've correctly reduced the whole trigger down to just the relevant portions, then the above is the only vector I'm aware of that can cause multiple GETDATE() calls to return timestamps that run backwards. –  Damien_The_Unbeliever Jan 31 '13 at 19:18
@GGpsm - I've not validated this persons situation, but they claimed significant clock drift over a matter of minutes. And all we're looking for is a correction of ~7ms to happen. –  Damien_The_Unbeliever Jan 31 '13 at 19:25
I will edit the original post with the entire trigger without omitting any code. –  GGpsm Jan 31 '13 at 19:45

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