//
// This code is part of Document Solutions for PDF demos.
// Copyright (c) MESCIUS inc. All rights reserved.
//
using System;
using System.IO;
using System.Drawing;
using GrapeCity.Documents.Pdf;
using GrapeCity.Documents.Text;
using GrapeCity.Documents.Pdf.Security;
namespace DsPdfWeb.Demos
{
// This sample demonstrates how to create an encrypted PDF
// using the Standard Security Handler Revision 6.
//
// Standard Security Handler Revision 6 was added in PDF 2.0.
// It uses AES 256 encryption, same as the Standard Security Handler Revision 5
// described in "Adobe Supplement to the ISO 32000 BaseVersion: 1.7 ExtensionLevel: 3",
// but a new more complex algorithm is used to generate an encryption key.
//
// See SecurityHandlers for examples of using other security handlers.
public class SecurityHandlerRev6
{
public int CreatePDF(Stream stream)
{
// Sample passwords:
const string ownerPassword = "I'm the owner";
const string userPassword = "I'm a user";
// Step 1: Generate a document with some security attributes:
var doc0 = new GcPdfDocument();
var rc0 = Common.Util.AddNote(
"Demonstrating the use of the Standard Security Handler Revision 6.",
doc0.NewPage());
// Create a Rev6 security handler and set security properties:
var ssh6 = new StandardSecurityHandlerRev6()
{
OwnerPassword = ownerPassword,
UserPassword = userPassword,
CopyContent = false,
PrintingPermissions = PrintingPermissions.Disabled,
EncryptStrings = true,
};
// Assign the handler we created to the document so that it is used when saving the PDF:
doc0.Security.EncryptHandler = ssh6;
// Save the PDF in a temp file. It will be loaded and examined in the next step:
var fn = Path.GetTempFileName();
doc0.Save(fn);
// Step 2: Load the generated PDF and examine its security attributes:
var doc = new GcPdfDocument();
using (var fs = File.OpenRead(fn))
{
// User password is needed to load the document:
doc.Load(fs, userPassword);
// At this point we can examine doc.Security.DecryptHandler if it exists,
// but there is NO Security.EncryptHandler:
if (doc.Security.EncryptHandler != null)
throw new Exception("This should not happen.");
var dh = doc.Security.DecryptHandler;
if (dh is StandardSecurityHandlerRev6 dh_ssh6)
{
// Print out some of the permissions in the loaded PDF that was generated in Step 1:
var txt = $"Some of the security attributes found in the PDF " +
$"that was generated using StandardSecurityHandlerRev6:\n" +
$"- EncryptionAlgorithm: {dh_ssh6.EncryptionAlgorithm}\n" +
$"- EncryptionKeyLength: {dh_ssh6.EncryptionKeyLength}\n" +
$"- CopyContent: {dh_ssh6.CopyContent}\n" +
$"- PrintingPermissions: {dh_ssh6.PrintingPermissions}\n" +
$"- EncryptStrings: {dh_ssh6.EncryptStrings}\n" +
$"";
Common.Util.AddNote(
txt,
doc.Pages[0],
new RectangleF(72, rc0.Bottom + 36, 72 * 6, 72 * 2));
// This won't work, sorry:
var noway = dh_ssh6.OwnerPassword;
if (noway != null)
throw new Exception("This should not happen.");
}
// Save the new PDF. Please note that because we did not set the Security.EncryptHandler
// on this PDF, this document (unlike the one that was generated in Step 1) has no security:
doc.Save(stream);
}
// Clean up the temp file:
File.Delete(fn);
// Done:
return doc.Pages.Count;
}
}
}