-1

I am using dot net Core. I need to convert a base64 string(convert excel to base64) into the data table.

It gives the following error

System.NotSupportedException: 'No data is available for encoding 1252. For information on defining a custom encoding, see the documentation for the Encoding.RegisterProvider method.

string Base64Str = "";
byte[] fileAsBytes = Convert.FromBase64String(Base64Str);
Stream stream = new MemoryStream(fileAsBytes);
IExcelDataReader excelReader = ExcelReaderFactory.CreateOpenXmlReader(stream);
var ds = excelReader.AsDataSet(new ExcelDataSetConfiguration() {
 ConfigureDataTable = (_) => new ExcelDataTableConfiguration() {
  UseHeaderRow = true
 }
});
excelReader.Close();
return ds;
  • Welcome to Stack Overflow! Questions seeking debugging help ("why isn't this code working?") must include the desired behavior, a specific problem or error and the shortest code necessary to reproduce it in the question itself. Questions without a clear problem statement are not useful to other readers. See: How to create a Minimal, Reproducible example. – Draken Sep 16 at 13:07
  • I make error ExcelDataReader.Exceptions.HeaderException: 'Invalid file signature.' by using your code.Please provide the code that could reproduce your issue. – Rena Sep 17 at 2:17
0

System.NotSupportedException: 'No data is available for encoding 1252. For information on defining a custom encoding, see the documentation for the Encoding.RegisterProvider method.

1.Please check if you have installed System.Text.Encoding.CodePages NuGet package.

Reference: https://stackoverflow.com/a/50875725/11398810

2.Here is a simple workaround:

public class TestController : Controller
{
    // GET: /<controller>/
    public DataSet Index()
    {
        string Base64Str = "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";
        byte[] fileAsBytes = Convert.FromBase64String(Base64Str);
        Stream stream = new MemoryStream(fileAsBytes);
        IExcelDataReader excelReader = ExcelReaderFactory.CreateOpenXmlReader(stream);
        var ds = excelReader.AsDataSet(new ExcelDataSetConfiguration()
        {
            ConfigureDataTable = (_) => new ExcelDataTableConfiguration()
            {
                UseHeaderRow = true
            }
        });
        excelReader.Close();
        return ds;          
    }
}

3.Get the result: enter image description here

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