public string GetMacTransferSyntax(
DicomElement signatureItem
)
public:
String^ GetMacTransferSyntax(
DicomElement^ signatureItem
)
signatureItem
The Digital Signatures Sequence Item that corresponds to the Digital Signature. This cannot be null.
The MAC Calculation Transfer Syntax UID (0400,0010) used in the creation of the specified Digital Signature. The return value can be a null reference (Nothing in VB).
The Digital Signatures Sequence Item of a Digital Signature should reference an item under the MAC Parameters Sequence associated with the Digital Signatures Sequence. The MAC Calculation Transfer Syntax UID (0400,0010) under the referenced MAC Parameters Sequence Item specifies the Transfer Syntax used in the calculation of the Message Authentication Code (MAC). The encrypted MAC is the digital signature itself. Call this method to obtain the value of this Data Element. If the Data Set was properly encoded, the return value will be a Transfer Syntax that Explicitly includes the Value Representation (VR) and uses Little Endian encoding.
The following methods can also be used to get information about the Digital Signature:
using Leadtools;
using Leadtools.Dicom;
public void ExamineSignature(DicomDataSet dataset, DicomElement signatureItem)
{
// Verify the Digital Signature; if pSignatureItem is NULL, the function
// will verify all the Digital Signatures that exist in the Data Set
bool ret = dataset.VerifySignature(signatureItem);
if (ret == true)
{
if (signatureItem != null)
{
Console.WriteLine("Sample: The Digital Signature was verified.");
}
else
{
Console.WriteLine("Sample: All Digital Signatures were verified (if there are any).");
}
}
else
{
if (signatureItem != null)
{
Console.WriteLine("Sample: The Digital Signature is invalid.");
}
else
{
Console.WriteLine("Sample: At least one Digital Signature is invalid.");
}
}
// The Digital Signature UID
StringBuilder msg = new StringBuilder();
msg.Append(dataset.GetSignatureUID(signatureItem));
// The Digital Signature DateTime
DicomDateTimeValue digitalSignatureDateTime = dataset.GetSignatureDateTime(signatureItem);
if (digitalSignatureDateTime.IsEmpty == false)
{
msg.AppendFormat(" Digital Signature DateTime:{0}/{1}/{2} {3}:{4}:{5}.{6} {7}{8}{9}",
digitalSignatureDateTime.Month,
digitalSignatureDateTime.Day,
digitalSignatureDateTime.Year,
digitalSignatureDateTime.Hours,
digitalSignatureDateTime.Minutes,
digitalSignatureDateTime.Seconds,
digitalSignatureDateTime.Fractions,
(digitalSignatureDateTime.Offset >= 0) ? '+' : '-',
digitalSignatureDateTime.Offset,
Environment.NewLine);
}
string macTransferSyntax = dataset.GetMacTransferSyntax(signatureItem);
if (macTransferSyntax != null)
{
msg.AppendFormat("MAC Calculation Transfer Syntax UID: {0}", macTransferSyntax);
}
string macAlgorithm = dataset.GetMacAlgorithm(signatureItem);
if (macAlgorithm != null)
{
msg.AppendFormat("MAC Algorithm: {0}", macAlgorithm);
}
// The Data Elements Signed
if (dataset.GetSignedElementsCount(signatureItem) > 0)
{
// We will display only one
DicomElement element = dataset.GetSignedElement(signatureItem, 0);
msg.AppendFormat(" Data Elements Signed:{0}{1}{1}", element.Tag, Environment.NewLine);
}
msg.AppendFormat("{0}Do you want to save the Certificate of Signer?", Environment.NewLine);
Console.WriteLine($"Sample: {msg.ToString()}");
dataset.SaveCertificate(signatureItem, Path.Combine(LEAD_VARS.ImagesDir, "CertOfSigner.cer"), DicomCertificateFormat.Pem);
}
static class LEAD_VARS
{
public const string ImagesDir = @"C:\LEADTOOLS23\Resources\Images";
}
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