Unicode C++
Unicode C++
Get PDF DSS (Document Security Store)
See more PDF Signatures Examples
This example demonstrates how to extract the information from a PDF's DSS (Document Security Store), if a /DSS exists. (Just because a PDF is signed does not mean a /DSS will exists. In fact, the /DSS is typically created at the point of adding the 2nd or greater signature because the /DSS contains LTV (long term validation) information about the previous signature at the time of adding an additional signature.)Note: This example requires Chilkat v9.5.0.85 or greater.
Chilkat Unicode C++ Downloads
#include <CkPdfW.h>
#include <CkJsonObjectW.h>
#include <CkDtObjW.h>
void ChilkatSample(void)
{
bool success = false;
// This example requires the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.
CkPdfW pdf;
success = pdf.LoadFile(L"qa_data/pdf/sign_testing_1/helloSigned2.pdf");
if (success == false) {
wprintf(L"%s\n",pdf.lastErrorText());
return;
}
CkJsonObjectW json;
json.put_EmitCompact(false);
success = pdf.GetDss(json);
wprintf(L"%s\n",json.emit());
// The document security store contains certificates, OCSP responses, and CRLs.
// The following JSON is a sample of what the /DSS can contain.
// Unfortunately, our sample contains /Certs and /OCSPs, but no /CRLs.
// It's no problem because whatever JSON you get back, you can use the
// following online tool to generate code to parse.
// Generate Parsing Code from JSON
// The code generated by the online tool for this JSON is shown below..
// {
// "/VRI": {
// "/EC5BB34CC1F8A0C5FE674427E16E313A08C80808": {}
// },
// "/Certs": [
// {
// "serial": "02",
// "validFrom": "2011-08-07T19:00:00-05:00",
// "validTo": "2021-08-10T23:59:59-05:00",
// "expired": false,
// "subject": {
// "CN": "XYZ Corporation",
// "O": "XYZ"
// },
// "issuer": {
// "CN": "XYZ Corporation",
// "O": "XYZ"
// },
// "keyType": "RSA",
// "keySize": "2048",
// "der": "MIIDz...Q4Zt"
// },
// {
// "serial": "01",
// "validFrom": "2011-08-07T19:00:00-05:00",
// "validTo": "2021-08-10T23:59:59-05:00",
// "expired": false,
// "subject": {
// "CN": "XYZ Corporation",
// "O": "XYZ"
// },
// "issuer": {
// "CN": "XYZ Corporation",
// "O": "XYZ"
// },
// "keyType": "RSA",
// "keySize": "2048",
// "der": "MIID...jXYFc="
// },
// {
// "serial": "0AA125D6D6321B7E41E405DA3697C215",
// "validFrom": "2016-01-07T06:00:00-06:00",
// "validTo": "2031-01-07T12:00:00-06:00",
// "expired": false,
// "subject": {
// "CN": "DigiCert SHA2 Assured ID Timestamping CA",
// "OU": "www.digicert.com",
// "O": "DigiCert Inc",
// "C": "US"
// },
// "issuer": {
// "CN": "DigiCert Assured ID Root CA",
// "OU": "www.digicert.com",
// "O": "DigiCert Inc",
// "C": "US"
// },
// "keyType": "RSA",
// "keySize": "2048",
// "der": "MIIF...OUg=="
// },
// {
// "serial": "04CD3F8568AE76C61BB0FE7160CCA76D",
// "validFrom": "2019-09-30T19:00:00-05:00",
// "validTo": "2030-10-17T00:00:00-05:00",
// "expired": false,
// "subject": {
// "CN": "TIMESTAMP-SHA256-2019-10-15",
// "O": "DigiCert, Inc.",
// "C": "US"
// },
// "issuer": {
// "CN": "DigiCert SHA2 Assured ID Timestamping CA",
// "OU": "www.digicert.com",
// "O": "DigiCert Inc",
// "C": "US"
// },
// "keyType": "RSA",
// "keySize": "2048",
// "der": "MIIG...MJtPc="
// },
// {
// "serial": "0CE7E0E517D846FE8FE560FC1BF03039",
// "validFrom": "2006-11-09T18:00:00-06:00",
// "validTo": "2031-11-10T00:00:00-06:00",
// "expired": false,
// "subject": {
// "CN": "DigiCert Assured ID Root CA",
// "OU": "www.digicert.com",
// "O": "DigiCert Inc",
// "C": "US"
// },
// "issuer": {
// "CN": "DigiCert Assured ID Root CA",
// "OU": "www.digicert.com",
// "O": "DigiCert Inc",
// "C": "US"
// },
// "keyType": "RSA",
// "keySize": "2048",
// "der": "MIIDt...FL6Lw8g=="
// },
// {
// "serial": "E4D34D01798BE686424AF7F6F0C3BF41",
// "validFrom": "2015-03-24T10:58:16-05:00",
// "validTo": "2039-12-31T23:59:59-06:00",
// "expired": false,
// "subject": {
// "CN": "www.xyz.com"
// },
// "issuer": {
// "CN": "www.xyz.com"
// },
// "keyType": "RSA",
// "keySize": "1024",
// "der": "MIIB9DCCAWG...UR10lz"
// }
// ],
// "/OCSPs": [
// {
// "responseStatus": 0,
// "responseTypeOid": "1.3.6.1.5.5.7.48.1.1",
// "responseTypeName": "ocspBasic",
// "response": {
// "responderIdChoice": "KeyHash",
// "responderKeyHash": "Reuir/SSy4IxLVGLp6chnfNtyA8=",
// "dateTime": "20201005173921Z",
// "cert": [
// {
// "hashOid": "1.3.14.3.2.26",
// "hashAlg": "SHA-1",
// "issuerNameHash": "98S+C0C1w0QzPT+uuU1uONr67FE=",
// "issuerKeyHash": "Reuir/SSy4IxLVGLp6chnfNtyA8=",
// "serialNumber": "0AA125D6D6321B7E41E405DA3697C215",
// "status": 0,
// "thisUpdate": "20201005173921Z",
// "nextUpdate": "20201012173921Z"
// }
// ]
// }
// },
// {
// "responseStatus": 0,
// "responseTypeOid": "1.3.6.1.5.5.7.48.1.1",
// "responseTypeName": "ocspBasic",
// "response": {
// "responderIdChoice": "KeyHash",
// "responderKeyHash": "9LbhIB3+Ka7S5GGlsqIlssgXNW4=",
// "dateTime": "20201006114501Z",
// "cert": [
// {
// "hashOid": "1.3.14.3.2.26",
// "hashAlg": "SHA-1",
// "issuerNameHash": "+YYA+KSr7NIxRSxCjUNQo25SyD0=",
// "issuerKeyHash": "9LbhIB3+Ka7S5GGlsqIlssgXNW4=",
// "serialNumber": "04CD3F8568AE76C61BB0FE7160CCA76D",
// "status": 0,
// "thisUpdate": "20201006114501Z",
// "nextUpdate": "20201013110001Z"
// }
// ]
// }
// }
// ]
// }
// Chilkat functions returning "const char *" return a pointer to temporary internal memory owned and managed by Chilkat.
// See this example explaining how this memory should be used: const char * functions.
CkDtObjW responseDateTime;
CkDtObjW thisUpdate;
CkDtObjW nextUpdate;
const wchar_t *serial = 0;
const wchar_t *validFrom = 0;
const wchar_t *validTo = 0;
bool expired;
const wchar_t *subjectCN = 0;
const wchar_t *subjectO = 0;
const wchar_t *issuerCN = 0;
const wchar_t *issuerO = 0;
const wchar_t *keyType = 0;
const wchar_t *keySize = 0;
const wchar_t *der = 0;
const wchar_t *subjectOU = 0;
const wchar_t *subjectC = 0;
const wchar_t *issuerOU = 0;
const wchar_t *issuerC = 0;
int responseStatus;
const wchar_t *responseTypeOid = 0;
const wchar_t *responseTypeName = 0;
const wchar_t *responseResponderIdChoice = 0;
const wchar_t *responseResponderKeyHash = 0;
int j;
int count_j;
const wchar_t *hashOid = 0;
const wchar_t *hashAlg = 0;
const wchar_t *issuerNameHash = 0;
const wchar_t *issuerKeyHash = 0;
const wchar_t *serialNumber = 0;
int status;
int i = 0;
int count_i = json.SizeOfArray(L"/Certs");
while (i < count_i) {
json.put_I(i);
serial = json.stringOf(L"/Certs[i].serial");
validFrom = json.stringOf(L"/Certs[i].validFrom");
validTo = json.stringOf(L"/Certs[i].validTo");
expired = json.BoolOf(L"/Certs[i].expired");
subjectCN = json.stringOf(L"/Certs[i].subject.CN");
subjectO = json.stringOf(L"/Certs[i].subject.O");
issuerCN = json.stringOf(L"/Certs[i].issuer.CN");
issuerO = json.stringOf(L"/Certs[i].issuer.O");
keyType = json.stringOf(L"/Certs[i].keyType");
keySize = json.stringOf(L"/Certs[i].keySize");
der = json.stringOf(L"/Certs[i].der");
subjectOU = json.stringOf(L"/Certs[i].subject.OU");
subjectC = json.stringOf(L"/Certs[i].subject.C");
issuerOU = json.stringOf(L"/Certs[i].issuer.OU");
issuerC = json.stringOf(L"/Certs[i].issuer.C");
i = i + 1;
}
i = 0;
count_i = json.SizeOfArray(L"/OCSPs");
while (i < count_i) {
json.put_I(i);
responseStatus = json.IntOf(L"/OCSPs[i].responseStatus");
responseTypeOid = json.stringOf(L"/OCSPs[i].responseTypeOid");
responseTypeName = json.stringOf(L"/OCSPs[i].responseTypeName");
responseResponderIdChoice = json.stringOf(L"/OCSPs[i].response.responderIdChoice");
responseResponderKeyHash = json.stringOf(L"/OCSPs[i].response.responderKeyHash");
json.DtOf(L"/OCSPs[i].response.dateTime",false,responseDateTime);
j = 0;
count_j = json.SizeOfArray(L"/OCSPs[i].response.cert");
while (j < count_j) {
json.put_J(j);
hashOid = json.stringOf(L"/OCSPs[i].response.cert[j].hashOid");
hashAlg = json.stringOf(L"/OCSPs[i].response.cert[j].hashAlg");
issuerNameHash = json.stringOf(L"/OCSPs[i].response.cert[j].issuerNameHash");
issuerKeyHash = json.stringOf(L"/OCSPs[i].response.cert[j].issuerKeyHash");
serialNumber = json.stringOf(L"/OCSPs[i].response.cert[j].serialNumber");
status = json.IntOf(L"/OCSPs[i].response.cert[j].status");
json.DtOf(L"/OCSPs[i].response.cert[j].thisUpdate",false,thisUpdate);
json.DtOf(L"/OCSPs[i].response.cert[j].nextUpdate",false,nextUpdate);
j = j + 1;
}
i = i + 1;
}
}