I think the main problem is how OLEDB source detect the parameter data type, i didn't find an official documentation that mentioned that, but you can do a small experiment to see this:
Try to write the following Query in the SQL Command in the OLEDB Source:
SELECT ? as Column1
And then try to parse the query, you will get the following error:
The parameter type for '@P1' cannot be uniquely deduced; two possibilities are 'sql_variant' and 'xml'.
Which means that the query parser try to figure out what is the data type of these parameter, it is not related to the variable data type that you have mapped to it.
Then try to write the following query:
SELECT CAST(? AS INT) AS Column1
And then try to parse the query, you will get:
The SQL Statement was successfully parsed.
Now, let's apply these experiment to your query:
SELECT CAST(GETDATE() - ? AS DATE) as Column1 and you will get a wrong value, then try
SELECT CAST(GETDATE() - CAST(? AS INT) AS DATE) AS Column1 and you will get a correct value.
Update 1 - Info from official documentation
From the following OLEDB Source - Documentation:
The parameters are mapped to variables that provide the parameter values at run time. The variables are typically user-defined variables, although you can also use the system variables that Integration Services provides. If you use user-defined variables, make sure that you set the data type to a type that is compatible with the data type of the column that the mapped parameter references.
Which implies that the parameter datatype is not related to the variable data type.
Update 2 - Experiments using SQL Profiler
As experiments, i created an SSIS package that export data from OLEDB Source to Recordset Destination. The Data source is the result of the following query:
WHERE PostTime < CAST(GETDATE() - ? as date)
And The Parameter
? is mapped to a Variable of type
Int32 and has the Value
Before executing the package, i started and SQL Profiler Trace on the SQL Server Instance, after executing the package the following queries are recorded into the trace:
exec [sys].sp_describe_undeclared_parameters N'SELECT *
WHERE PostTime < CAST(GETDATE() -@P1 as date)'
declare @p1 int
exec sp_prepare @p1 output,N'@P1 datetime',N'SELECT *
WHERE PostTime < CAST(GETDATE() -@P1 as date)',1
exec sp_execute 1,'1900-01-09 00:00:00'
exec sp_unprepare 1
The first command
exec [sys].sp_describe_undeclared_parameters is to describe the parameter type, if we run it separately it returns the following information:
It shows that the parameter data type is considered as
The other commands shows some weird statement:
- First, the value of
@P1 is set to
- The final query is executed with the following value
In SQL Server database engine the base datetime value is
1900-01-01 00:00:00 which can be retrieved by executing the folloing query:
declare @dt datetime
set @dt = 0
On the other hand, in SSIS:
A date structure that consists of year, month, day, hour, minute, seconds, and fractional seconds. The fractional seconds have a fixed scale of 7 digits.
The DT_DATE data type is implemented using an 8-byte floating-point number. Days are represented by whole number increments, starting with 30 December 1899, and midnight as time zero. Hour values are expressed as the absolute value of the fractional part of the number. However, a floating point value cannot represent all real values; therefore, there are limits on the range of dates that can be presented in DT_DATE.
On the other hand, DT_DBTIMESTAMP is represented by a structure that internally has individual fields for year, month, day, hours, minutes, seconds, and milliseconds. This data type has larger limits on ranges of the dates it can present.
Based on that, i think that there is a difference between the datetime base value between SSIS date data type (
1899-12-30) and the SQL Server datetime (
1900-01-01), which leads to a difference in two days when performing an implicit conversion to evaluate the parameter value.