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(MFC) PDF Signature Page LocationSee more PDF Signatures ExamplesThis example demonstrates how to specify the location of a PDF signature on a page. Note: This example requires Chilkat v9.5.0.85 or greater.
#include <CkPdf.h> #include <CkJsonObject.h> #include <CkCert.h> void ChilkatSample(void) { CkString strOut; // This example requires the Chilkat API to have been previously unlocked. // See Global Unlock Sample for sample code. CkPdf pdf; // Load a PDF to be signed. // The "hello.pdf" is available at https://chilkatsoft.com/hello.pdf bool success = pdf.LoadFile("qa_data/pdf/hello.pdf"); if (success == false) { strOut.append(pdf.lastErrorText()); strOut.append("\r\n"); SetDlgItemText(IDC_EDIT1,strOut.getUnicode()); return; } // Options for signing are specified in JSON. CkJsonObject json; // In most cases, the signingCertificateV2 and signingTime attributes are required. json.UpdateInt("signingCertificateV2",1); json.UpdateInt("signingTime",1); // When cryptographically signing a PDF, the signature's appearance can be placed on a specific // page in the PDF document, and at a specified location on the page. // The 1st page of the PDF document is page number 1 (we don't use 0-based numbering for PDF page numbers). // The PDF object has a NumPages property, so we can use it to sign on the last page of the PDF. json.UpdateInt("page",pdf.get_NumPages()); // appearance.y and appearance.x JSON properties control the x,y location of the signature. // The "appearance.y" can be "top" or "bottom". // The "appearance.x" can be "left", "middle", or "right". // It is also possible to specify exact PDF location in user space coordinates, which is discussed below. json.UpdateString("appearance.y","bottom"); json.UpdateString("appearance.x","middle"); // In this example, the fontScale (in combination with the number of appearance text lines and the length of the longest text line), // automatically determine the width/height of the signature text box. Any included graphic (JPG image or built-in SVG) is automatically // scaled to fit. It is alternatively possible to specify the desired width/height of the signature rectangle. In that case // you would NOT specify a fontScale because Chilkat would automatically chose a font scale to fit the text to the desired rectangle. // This example demonstrates how to specify the exact width/height of the PDF signature text box. json.UpdateString("appearance.fontScale","9.0"); json.UpdateString("appearance.text[0]","Digitally signed by: cert_cn"); json.UpdateString("appearance.text[1]","current_dt"); json.UpdateString("appearance.image","document-accepted"); json.UpdateString("appearance.imagePlacement","left"); json.UpdateString("appearance.imageOpacity","100"); // Load the signing certificate. (Use your own certificate.) CkCert cert; success = cert.LoadPfxFile("qa_data/pfx/myPdfSigningCert.pfx","pfx_password"); if (success == false) { strOut.append(cert.lastErrorText()); strOut.append("\r\n"); SetDlgItemText(IDC_EDIT1,strOut.getUnicode()); return; } // Tell the pdf object to use the certificate for signing. success = pdf.SetSigningCert(cert); if (success == false) { strOut.append(pdf.lastErrorText()); strOut.append("\r\n"); SetDlgItemText(IDC_EDIT1,strOut.getUnicode()); return; } success = pdf.SignPdf(json,"qa_output/hello_signed.pdf"); if (success == false) { strOut.append(pdf.lastErrorText()); strOut.append("\r\n"); SetDlgItemText(IDC_EDIT1,strOut.getUnicode()); return; } strOut.append("The PDF has been successfully cryptographically signed."); strOut.append("\r\n"); // The appearance of the signature appears in Adobe Acrobat as shown here: // ---------------------------------------------------------------------------------------------------- // *** Scroll down for information about specifying the PDF signature x,y location in user space coordinates. // ---------------------------------------------------------------------------------------------------- // The x,y coordinates of a PDF page are in "user space", called "points", and there are 72 pointes per inch. // A PDF page (8.5" x 11") is 612 points wide and 792 points high. // The bottom left is at 0,0. The top right is at 612,792. // // To specify the location of a signature rectangle, the "appearance.y" is the y coordinate of the top of the signature rectangle, // and the "appearance.x" is the x coordinate of the left of the signature rectangle. // Therefore, to position the signature rectangle at the exact top/left of the page, we do this: json.UpdateString("appearance.y","792"); json.UpdateString("appearance.x","0"); json.UpdateString("appearance.text[0]","Digitally signed again by: cert_cn"); json.UpdateString("appearance.text[1]","current_dt"); json.UpdateString("appearance.image","document-accepted"); json.UpdateString("appearance.imagePlacement","right"); CkPdf pdf2; success = pdf2.LoadFile("qa_output/hello_signed.pdf"); success = pdf2.SetSigningCert(cert); success = pdf2.SignPdf(json,"qa_output/hello_signed2.pdf"); if (success == false) { strOut.append(pdf2.lastErrorText()); strOut.append("\r\n"); SetDlgItemText(IDC_EDIT1,strOut.getUnicode()); return; } strOut.append("The PDF has been successfully cryptographically signed again."); strOut.append("\r\n"); // Here we have the PDF with the signature just added at the exact top/left. SetDlgItemText(IDC_EDIT1,strOut.getUnicode()); } |
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