public virtual void AnnotationCheckTest09()
{
NUnit.Framework.Assert.That(() => {
PdfWriter writer = new PdfWriter(new ByteArrayOutputStream());
Stream @is = new FileStream(sourceFolder + "sRGB Color Space Profile.icm", FileMode.Open, FileAccess.Read);
PdfADocument doc = new PdfADocument(writer, PdfAConformanceLevel.PDF_A_2B, new PdfOutputIntent("Custom", ""
, "http://www.color.org", "sRGB IEC61966-2.1", @is));
PdfPage page = doc.AddNewPage();
Rectangle rect = new Rectangle(100, 650, 400, 100);
PdfAnnotation annot = new PdfWidgetAnnotation(rect);
annot.SetContents(new PdfString(""));
annot.SetFlags(PdfAnnotation.PRINT);
annot.SetNormalAppearance(new PdfDictionary());
page.AddAnnotation(annot);
doc.Close();
}
, NUnit.Framework.Throws.InstanceOf <PdfAConformanceException>().With.Message.EqualTo(PdfAConformanceException.APPEARANCE_DICTIONARY_SHALL_CONTAIN_ONLY_THE_N_KEY_WITH_STREAM_VALUE))
;
}
public virtual void AnnotationCheckTest10()
{
String outPdf = destinationFolder + "pdfA2b_annotationCheckTest10.pdf";
String cmpPdf = cmpFolder + "cmp_pdfA2b_annotationCheckTest10.pdf";
PdfWriter writer = new PdfWriter(outPdf);
Stream @is = new FileStream(sourceFolder + "sRGB Color Space Profile.icm", FileMode.Open, FileAccess.Read);
PdfADocument doc = new PdfADocument(writer, PdfAConformanceLevel.PDF_A_2B, new PdfOutputIntent("Custom", ""
, "http://www.color.org", "sRGB IEC61966-2.1", @is));
PdfPage page = doc.AddNewPage();
Rectangle rect = new Rectangle(100, 650, 400, 100);
Rectangle formRect = new Rectangle(400, 100);
PdfAnnotation annot = new PdfWidgetAnnotation(rect);
annot.SetContents(new PdfString(""));
annot.SetFlags(PdfAnnotation.PRINT);
annot.SetNormalAppearance(CreateAppearance(doc, formRect));
page.AddAnnotation(annot);
doc.Close();
CompareResult(outPdf, cmpPdf);
}
public virtual void AnnotationCheckTest08()
{
NUnit.Framework.Assert.That(() => {
PdfWriter writer = new PdfWriter(new ByteArrayOutputStream());
Stream @is = new FileStream(sourceFolder + "sRGB Color Space Profile.icm", FileMode.Open, FileAccess.Read);
PdfADocument doc = new PdfADocument(writer, PdfAConformanceLevel.PDF_A_2B, new PdfOutputIntent("Custom", ""
, "http://www.color.org", "sRGB IEC61966-2.1", @is));
PdfPage page = doc.AddNewPage();
Rectangle rect = new Rectangle(100, 650, 400, 100);
Rectangle formRect = new Rectangle(400, 100);
PdfAnnotation annot = new PdfWidgetAnnotation(rect);
annot.SetContents(new PdfString(""));
annot.SetFlags(PdfAnnotation.PRINT);
annot.GetPdfObject().Put(PdfName.FT, PdfName.Btn);
annot.SetNormalAppearance(CreateAppearance(doc, formRect));
page.AddAnnotation(annot);
doc.Close();
}
, NUnit.Framework.Throws.TypeOf <PdfAConformanceException>().With.Message.EqualTo(PdfAConformanceException.AppearanceDictionaryOfWidgetSubtypeAndBtnFieldTypeShallContainOnlyTheNKeyWithDictionaryValue));
;
}
/// <summary>This is the first method to be called when using external signatures.</summary>
/// <remarks>
/// This is the first method to be called when using external signatures. The general sequence is:
/// preClose(), getDocumentBytes() and close().
/// <p>
/// <CODE>exclusionSizes</CODE> must contain at least
/// the <CODE>PdfName.CONTENTS</CODE> key with the size that it will take in the
/// document. Note that due to the hex string coding this size should be byte_size*2+2.
/// </remarks>
/// <param name="exclusionSizes">
/// Map with names and sizes to be excluded in the signature
/// calculation. The key is a PdfName and the value an Integer. At least the /Contents must be present
/// </param>
/// <exception cref="System.IO.IOException">on error</exception>
protected internal virtual void PreClose(IDictionary <PdfName, int?> exclusionSizes)
{
if (preClosed)
{
throw new PdfException(PdfException.DocumentAlreadyPreClosed);
}
// TODO: add mergeVerification functionality
preClosed = true;
PdfAcroForm acroForm = PdfAcroForm.GetAcroForm(document, true);
SignatureUtil sgnUtil = new SignatureUtil(document);
String name = GetFieldName();
bool fieldExist = sgnUtil.DoesSignatureFieldExist(name);
acroForm.SetSignatureFlags(PdfAcroForm.SIGNATURE_EXIST | PdfAcroForm.APPEND_ONLY);
PdfSigFieldLockDictionary fieldLock = null;
if (cryptoDictionary == null)
{
throw new PdfException(PdfException.NoCryptoDictionaryDefined);
}
cryptoDictionary.GetPdfObject().MakeIndirect(document);
if (fieldExist)
{
PdfSignatureFormField sigField = (PdfSignatureFormField)acroForm.GetField(fieldName);
sigField.Put(PdfName.V, cryptoDictionary.GetPdfObject());
fieldLock = sigField.GetSigFieldLockDictionary();
if (fieldLock == null && this.fieldLock != null)
{
this.fieldLock.GetPdfObject().MakeIndirect(document);
sigField.Put(PdfName.Lock, this.fieldLock.GetPdfObject());
fieldLock = this.fieldLock;
}
sigField.Put(PdfName.P, document.GetPage(appearance.GetPageNumber()).GetPdfObject());
sigField.Put(PdfName.V, cryptoDictionary.GetPdfObject());
PdfObject obj = sigField.GetPdfObject().Get(PdfName.F);
int flags = 0;
if (obj != null && obj.IsNumber())
{
flags = ((PdfNumber)obj).IntValue();
}
flags |= PdfAnnotation.LOCKED;
sigField.Put(PdfName.F, new PdfNumber(flags));
PdfDictionary ap = new PdfDictionary();
ap.Put(PdfName.N, appearance.GetAppearance().GetPdfObject());
sigField.Put(PdfName.AP, ap);
sigField.SetModified();
}
else
{
PdfWidgetAnnotation widget = new PdfWidgetAnnotation(appearance.GetPageRect());
widget.SetFlags(PdfAnnotation.PRINT | PdfAnnotation.LOCKED);
PdfSignatureFormField sigField = PdfFormField.CreateSignature(document);
sigField.SetFieldName(name);
sigField.Put(PdfName.V, cryptoDictionary.GetPdfObject());
sigField.AddKid(widget);
if (this.fieldLock != null)
{
this.fieldLock.GetPdfObject().MakeIndirect(document);
sigField.Put(PdfName.Lock, this.fieldLock.GetPdfObject());
fieldLock = this.fieldLock;
}
int pagen = appearance.GetPageNumber();
widget.SetPage(document.GetPage(pagen));
PdfDictionary ap = widget.GetAppearanceDictionary();
if (ap == null)
{
ap = new PdfDictionary();
widget.Put(PdfName.AP, ap);
}
ap.Put(PdfName.N, appearance.GetAppearance().GetPdfObject());
acroForm.AddField(sigField, document.GetPage(pagen));
if (acroForm.GetPdfObject().IsIndirect())
{
acroForm.SetModified();
}
else
{
//Acroform dictionary is a Direct dictionary,
//for proper flushing, catalog needs to be marked as modified
document.GetCatalog().SetModified();
}
}
exclusionLocations = new Dictionary <PdfName, PdfLiteral>();
PdfLiteral lit = new PdfLiteral(80);
exclusionLocations[PdfName.ByteRange] = lit;
cryptoDictionary.Put(PdfName.ByteRange, lit);
foreach (KeyValuePair <PdfName, int?> entry in exclusionSizes)
{
PdfName key = entry.Key;
lit = new PdfLiteral((int)entry.Value);
exclusionLocations[key] = lit;
cryptoDictionary.Put(key, lit);
}
if (certificationLevel > 0)
{
AddDocMDP(cryptoDictionary);
}
if (fieldLock != null)
{
AddFieldMDP(cryptoDictionary, fieldLock);
}
if (signatureEvent != null)
{
signatureEvent.GetSignatureDictionary(cryptoDictionary);
}
if (certificationLevel > 0)
{
// add DocMDP entry to root
PdfDictionary docmdp = new PdfDictionary();
docmdp.Put(PdfName.DocMDP, cryptoDictionary.GetPdfObject());
document.GetCatalog().Put(PdfName.Perms, docmdp);
document.GetCatalog().SetModified();
}
cryptoDictionary.GetPdfObject().Flush(false);
document.Close();
range = new long[exclusionLocations.Count * 2];
long byteRangePosition = exclusionLocations.Get(PdfName.ByteRange).GetPosition();
exclusionLocations.JRemove(PdfName.ByteRange);
int idx = 1;
foreach (PdfLiteral lit1 in exclusionLocations.Values)
{
long n = lit1.GetPosition();
range[idx++] = n;
range[idx++] = lit1.GetBytesCount() + n;
}
iText.IO.Util.JavaUtil.Sort(range, 1, range.Length - 1);
for (int k = 3; k < range.Length - 2; k += 2)
{
range[k] -= range[k - 1];
}
if (tempFile == null)
{
bout = temporaryOS.ToArray();
range[range.Length - 1] = bout.Length - range[range.Length - 2];
MemoryStream bos = new MemoryStream();
PdfOutputStream os = new PdfOutputStream(bos);
os.Write('[');
for (int k_1 = 0; k_1 < range.Length; ++k_1)
{
os.WriteLong(range[k_1]).Write(' ');
}
os.Write(']');
System.Array.Copy(bos.ToArray(), 0, bout, (int)byteRangePosition, bos.Length);
}
else
{
try {
raf = FileUtil.GetRandomAccessFile(tempFile);
long len = raf.Length;
range[range.Length - 1] = len - range[range.Length - 2];
MemoryStream bos = new MemoryStream();
PdfOutputStream os = new PdfOutputStream(bos);
os.Write('[');
for (int k_1 = 0; k_1 < range.Length; ++k_1)
{
os.WriteLong(range[k_1]).Write(' ');
}
os.Write(']');
raf.Seek(byteRangePosition);
raf.Write(bos.ToArray(), 0, (int)bos.Length);
}
catch (System.IO.IOException e) {
try {
raf.Close();
}
catch (Exception) {
}
try {
tempFile.Delete();
}
catch (Exception) {
}
throw;
}
}
}