We recently purchased a DigiCert EV code signing certificate. We are able to sign .exe files using signtool.exe. However, every time we sign a file, it prompts for the SafeNet eToken password.
How can we automate this process, without user intervention, by storing/caching the password somewhere?
Expanding on answers already in this thread, it is possible to provide the token password using the standard signtool program from microsoft.
0. Open SafeNet Client in Advanced View
Install paths may vary, but for me the SafeNet client is installed to: C:\Program Files\SafeNet\Authentication\SAC\x64\SACTools.exe
Click the gear icon in the upper right to open "advanced view".
1. Export your public certificate to a file from the SafeNet Client
2. Find your private key container name
3. Find your reader name
4. Format it all together
The eToken CSP has hidden (or at least not widely advertised) functionality to parse the token password out of the container name.
The format is one of the following four options:
[]=name
[reader]=name
[{{password}}]=name
[reader{{password}}]=name
Where:
reader is the "Reader name" from the SafeNet Client UIpassword is your token passwordname is the "Container name" from the SafeNet Client UIPresumably you must specify the reader name if you have more than one reader connected - as I only have one reader I cannot confirm this.
Note that the double curly braces ({{ and }}) are part of the syntax and must be included in the command line argument.
5. Pass the information to signtool
/f certfile.cer/csp "eToken Base Cryptographic Provider"/k "<value from step 4>"Example signtool command as follows
signtool sign /f mycert.cer /csp "eToken Base Cryptographic Provider" /k "[{{TokenPasswordHere}}]=KeyContainerNameHere" myfile.exe
Some Images taken from this answer: https://stackoverflow.com/a/47894907/5420193
SignTool Error: No private key is available. when trying to use this method? /c/PROGRA~2/WI3CF2~1/10/bin/10.0.19041.0/x64/signtool sign -f "certfile.cer" -csp "eToken Base Cryptographic Provide r" -k "[{{Password*Goes$Here}}]=te-UUID" file.exe
There is no way to bypass the login dialog AFAIK, but what you can do is configure the SafeNet Authentication Client so it only asks it once per login session.
I quote the SAC doc (found once installed in \ProgramFiles\SafeNet\Authentication\SAC\SACHelp.chm, chapter 'Client Settings', 'Enabling Client Logon') here:
When single logon is enabled, users can access multiple applications with only one request for the Token Password during each computer session. This alleviates the need for the user to log on to each application separately.
To enable this feature which is disabled by default, go to SAC advanced settings, and check the "enable single logon" box:
Restart your computer, and it should now only prompt for the token password once. In our case, we have more than 200 binaries to sign per each build, so this is a total must.
Otherwise, here is a small C# console sample code (equivalent to m1st0 one) that allows you to respond automatically to logon dialogs (probably needs to run as admin) (you need to reference from your console project (UIAutomationClient.dll and UIAutomationTypes.dll):
using System;
using System.Windows.Automation;
namespace AutoSafeNetLogon {
class Program {
static void Main(string[] args) {
SatisfyEverySafeNetTokenPasswordRequest("YOUR_TOKEN_PASSWORD");
}
static void SatisfyEverySafeNetTokenPasswordRequest(string password) {
int count = 0;
Automation.AddAutomationEventHandler(WindowPattern.WindowOpenedEvent, AutomationElement.RootElement, TreeScope.Children, (sender, e) =>
{
var element = sender as AutomationElement;
if (element.Current.Name == "Token Logon") {
WindowPattern pattern = (WindowPattern)element.GetCurrentPattern(WindowPattern.Pattern);
pattern.WaitForInputIdle(10000);
var edit = element.FindFirst(TreeScope.Descendants, new AndCondition(
new PropertyCondition(AutomationElement.ControlTypeProperty, ControlType.Edit),
new PropertyCondition(AutomationElement.NameProperty, "Token Password:")));
var ok = element.FindFirst(TreeScope.Descendants, new AndCondition(
new PropertyCondition(AutomationElement.ControlTypeProperty, ControlType.Button),
new PropertyCondition(AutomationElement.NameProperty, "OK")));
if (edit != null && ok != null) {
count++;
ValuePattern vp = (ValuePattern)edit.GetCurrentPattern(ValuePattern.Pattern);
vp.SetValue(password);
Console.WriteLine("SafeNet window (count: " + count + " window(s)) detected. Setting password...");
InvokePattern ip = (InvokePattern)ok.GetCurrentPattern(InvokePattern.Pattern);
ip.Invoke();
} else {
Console.WriteLine("SafeNet window detected but not with edit and button...");
}
}
});
do {
// press Q to quit...
ConsoleKeyInfo k = Console.ReadKey(true);
if (k.Key == ConsoleKey.Q)
break;
}
while (true);
Automation.RemoveAllEventHandlers();
}
}
}
AutomationElement tree). I do not know if it can be worked around somehow. But visiting this question again and finding the answer by @Austin, I believe it's a better solution anyway.
Oct 22, 2020 at 9:21
Expanding on this answer, this can be automated using CryptAcquireContext and CryptSetProvParam to enter the token PIN programmatically and CryptUIWizDigitalSign to perform the signing programmatically. I created a console app (code below) that takes as input the certificate file (exported by right clicking the certificate in SafeNet Authentication Client and selecting "Export..."), the private key container name (found in SafeNet Authentication Client), the token PIN, timestamp URL, and the path of the file to sign. This console app worked when called by the TeamCity build agent where the USB token was connected.
Example Usage:
etokensign.exe c:\CodeSigning.cert CONTAINER PIN http://timestamp.digicert.com C:\program.exe
Code:
#include <windows.h>
#include <cryptuiapi.h>
#include <iostream>
#include <string>
const std::wstring ETOKEN_BASE_CRYPT_PROV_NAME = L"eToken Base Cryptographic Provider";
std::string utf16_to_utf8(const std::wstring& str)
{
if (str.empty())
{
return "";
}
auto utf8len = ::WideCharToMultiByte(CP_UTF8, 0, str.data(), str.size(), NULL, 0, NULL, NULL);
if (utf8len == 0)
{
return "";
}
std::string utf8Str;
utf8Str.resize(utf8len);
::WideCharToMultiByte(CP_UTF8, 0, str.data(), str.size(), &utf8Str[0], utf8Str.size(), NULL, NULL);
return utf8Str;
}
struct CryptProvHandle
{
HCRYPTPROV Handle = NULL;
CryptProvHandle(HCRYPTPROV handle = NULL) : Handle(handle) {}
~CryptProvHandle() { if (Handle) ::CryptReleaseContext(Handle, 0); }
};
HCRYPTPROV token_logon(const std::wstring& containerName, const std::string& tokenPin)
{
CryptProvHandle cryptProv;
if (!::CryptAcquireContext(&cryptProv.Handle, containerName.c_str(), ETOKEN_BASE_CRYPT_PROV_NAME.c_str(), PROV_RSA_FULL, CRYPT_SILENT))
{
std::wcerr << L"CryptAcquireContext failed, error " << std::hex << std::showbase << ::GetLastError() << L"\n";
return NULL;
}
if (!::CryptSetProvParam(cryptProv.Handle, PP_SIGNATURE_PIN, reinterpret_cast<const BYTE*>(tokenPin.c_str()), 0))
{
std::wcerr << L"CryptSetProvParam failed, error " << std::hex << std::showbase << ::GetLastError() << L"\n";
return NULL;
}
auto result = cryptProv.Handle;
cryptProv.Handle = NULL;
return result;
}
int wmain(int argc, wchar_t** argv)
{
if (argc < 6)
{
std::wcerr << L"usage: etokensign.exe <certificate file path> <private key container name> <token PIN> <timestamp URL> <path to file to sign>\n";
return 1;
}
const std::wstring certFile = argv[1];
const std::wstring containerName = argv[2];
const std::wstring tokenPin = argv[3];
const std::wstring timestampUrl = argv[4];
const std::wstring fileToSign = argv[5];
CryptProvHandle cryptProv = token_logon(containerName, utf16_to_utf8(tokenPin));
if (!cryptProv.Handle)
{
return 1;
}
CRYPTUI_WIZ_DIGITAL_SIGN_EXTENDED_INFO extInfo = {};
extInfo.dwSize = sizeof(extInfo);
extInfo.pszHashAlg = szOID_NIST_sha256; // Use SHA256 instead of default SHA1
CRYPT_KEY_PROV_INFO keyProvInfo = {};
keyProvInfo.pwszContainerName = const_cast<wchar_t*>(containerName.c_str());
keyProvInfo.pwszProvName = const_cast<wchar_t*>(ETOKEN_BASE_CRYPT_PROV_NAME.c_str());
keyProvInfo.dwProvType = PROV_RSA_FULL;
CRYPTUI_WIZ_DIGITAL_SIGN_CERT_PVK_INFO pvkInfo = {};
pvkInfo.dwSize = sizeof(pvkInfo);
pvkInfo.pwszSigningCertFileName = const_cast<wchar_t*>(certFile.c_str());
pvkInfo.dwPvkChoice = CRYPTUI_WIZ_DIGITAL_SIGN_PVK_PROV;
pvkInfo.pPvkProvInfo = &keyProvInfo;
CRYPTUI_WIZ_DIGITAL_SIGN_INFO signInfo = {};
signInfo.dwSize = sizeof(signInfo);
signInfo.dwSubjectChoice = CRYPTUI_WIZ_DIGITAL_SIGN_SUBJECT_FILE;
signInfo.pwszFileName = fileToSign.c_str();
signInfo.dwSigningCertChoice = CRYPTUI_WIZ_DIGITAL_SIGN_PVK;
signInfo.pSigningCertPvkInfo = &pvkInfo;
signInfo.pwszTimestampURL = timestampUrl.c_str();
signInfo.pSignExtInfo = &extInfo;
if (!::CryptUIWizDigitalSign(CRYPTUI_WIZ_NO_UI, NULL, NULL, &signInfo, NULL))
{
std::wcerr << L"CryptUIWizDigitalSign failed, error " << std::hex << std::showbase << ::GetLastError() << L"\n";
return 1;
}
std::wcout << L"Successfully signed " << fileToSign << L"\n";
return 0;
}
Exporting the Certificate to a File:
Private Key Container Name:
#pragma comment(lib, "Cryptui.lib") after the #includes.
signtool.exe sign /fd sha256 /f "signing.cer" /csp "eToken Base Cryptographic Provider" /kc "[{{token password here}}]=Container name here" "ConsoleApp1.exe"
Use Microsoft Windows SDK 10 for signtool
I'm made beta tool which will help to automate build process.
It's Client-Server windows application. You can start server on computer where EV token inserted. Enter password for token on server-side application startup. After this you can sign files remotely. Client side application fully replaces signtool.exe so you can use existing build scripts.
Source code located here: https://github.com/SirAlex/RemoteSignTool
Edit: We successfully used this tool for code signing last half-year 24x7 on our Build server. All works fine.
Actually on Windows you can specify the token password fully programmatically. This can be done by creating a context (CryptAcquireContext) with flag CRYPT_SILENT using token name in form "\\.\AKS ifdh 0" or token container name, which is some guid visible in cerificate properties in the Authentication Client application. You then need to use CryptSetProvParam with parameter PP_SIGNATURE_PIN to specify your token password. After that the process can use certificates on that token to sign files.
Note: once you create the context is seems to just work for current process entirely, no need to pass it to other Crypto API functions or anything. But feel free to comment if you find a situation when some more efforts will be required.
Edit: added code sample
HCRYPTPROV OpenToken(const std::wstring& TokenName, const std::string& TokenPin)
{
const wchar_t DefProviderName[] = L"eToken Base Cryptographic Provider";
HCRYPTPROV hProv = NULL;
// Token naming can be found in "eToken Software Developer's Guide"
// Basically you can either use "\\.\AKS ifdh 0" form
// Or use token's default container name, which looks like "ab-c0473610-8e6f-4a6a-ae2c-af944d09e01c"
if(!CryptAcquireContextW(&hProv, TokenName.c_str(), DefProviderName, PROV_RSA_FULL, CRYPT_SILENT))
{
DWORD Error = GetLastError();
//TracePrint("CryptAcquireContext for token %ws failed, error 0x%08X\n", TokenName.c_str(), Error);
return NULL;
}
if(!CryptSetProvParam(hProv, PP_SIGNATURE_PIN, (BYTE*)TokenPin.c_str(), 0))
{
DWORD Error = GetLastError();
//TracePrint("Token %ws unlock failed, error 0x%08X\n", TokenName.c_str(), Error);
CryptReleaseContext(hProv, 0);
return NULL;
}
else
{
//TracePrint("Unlocked token %ws\n", TokenName.c_str());
return hProv;
}
}
I used AutoHotKey to automate the password entry using the script following. We have been trying to make a Web based front end for our developers to send the binaries to the Windows box with this script running so that it can be signed and returned.
Loop
{
Sleep 2000
if (WinExist("Token Logon"))
{
WinActivate ; use the window found above
SendInput [your_password]
SendInput {Enter}
}
if (WinExist("DigiCert Certificate Utility for Windows©"))
{
WinActivate ; use the window found above
SendInput [your_password]
SendInput {Enter}
}
}
I must note that what I shared is not completely not secure, but we also hit this issue requiring either purchasing signing keys for each developer or assigning a job of a signing manager that would approve the signature of released software. I believe those are the better, secure processes--that once things pass quality assurance and are approved for release, they can be officially signed. However, smaller company needs may dictate that this be done in some other automated way.
I originally used osslsigncode on Linux (before EV certificates) to automate signing of Windows executables (since we had a Linux server doing a lot of work for developer ease and collaboration). I have contacted the developer of osslsigncode to see if he can make use of the DigiCert SafeNet tokens to help automate it in a different way since I can see them on Linux. His reply provided hope but I am unsure of any progress and I could not dedicate more time to help
Install https://chocolatey.org/docs/installation (Can be done using one command from administrative command prompt)
(Restart command prompt)
Supress choco's constant prompting for each installation:
choco feature enable -n=allowGlobalConfirmation
Install python, using command:
choco install python
(Restart command prompt) Install additional python module:
pip install pypiwin32
Save following text into disableAutoprompt.py:
import pywintypes
import win32con
import win32gui
import time
DIALOG_CAPTION = 'Token Logon'
DIALOG_CLASS = '#32770'
PASSWORD_EDIT_ID = 0x3ea
TOKEN_PASSWORD_FILE = 'password.txt'
SLEEP_TIME = 10
def get_token_password():
password = getattr(get_token_password, '_password', None)
if password is None:
with open(TOKEN_PASSWORD_FILE, 'r') as f:
password = get_token_password._password = f.read()
return password
def enumHandler(hwnd, lParam):
if win32gui.IsWindowVisible(hwnd):
if win32gui.GetWindowText(hwnd) == DIALOG_CAPTION and win32gui.GetClassName(hwnd) == DIALOG_CLASS:
print('Token logon dialog has been detected, trying to enter password...')
try:
ed_hwnd = win32gui.GetDlgItem(hwnd, PASSWORD_EDIT_ID)
win32gui.SendMessage(ed_hwnd, win32con.WM_SETTEXT, None, get_token_password())
win32gui.PostMessage(ed_hwnd, win32con.WM_KEYDOWN, win32con.VK_RETURN, 0)
print('Success.')
except Exception as e:
print('Fail: {}'.format(str(e)))
return False
return True
def main():
while True:
try:
win32gui.EnumWindows(enumHandler, None)
time.sleep(SLEEP_TIME)
except pywintypes.error as e:
if e.winerror != 0:
raise e
if __name__ == '__main__':
print('Token unlocker has been started...')
print('DO NOT CLOSE THE WINDOW!')
main()
Save your password into passwd.txt, and after that run
python disableAutoprompt.py
From SafeNet Authentication Client - configuration > Client Settings > Advanced > Enable Single Log On
option can be enabled to minimize amount of password prompts, but
it does not fully disable them (Tested on version 10.4.26.0)
C# application (E.g. https://github.com/ganl/safenetpass) does not work with lock screen on, but does work with this python script.
Got an answer from Digicert:
Unfortunately, part of the security with the EV Code Signing Certificate is that you must enter the password everytime. There is not a way to automate it.
I my case Digicert issue an Standard (OV) certificate for the CI, for free if you already have an EV certificate.
I know this is not the solution but if you cant put the token in the server (a cloud server) this is the way to go.
The way I do it is :
Open the token
PCCERT_CONTEXT cert = OpenToken(SAFENET_TOKEN, EV_PASS);
Sign the file using the token, root / cross certificates when required and the EV certificate loaded into memory.
HRESULT hr = SignAppxPackage(cert, FILETOSIGN);
Using SignerSignEx2():
The file is signed using SignerSignEx2() which needs to be loaded into memory using LoadLibrary() and GetProcAddress():
// Type definition for invoking SignerSignEx2 via GetProcAddress
typedef HRESULT(WINAPI *SignerSignEx2Function)(
DWORD,
PSIGNER_SUBJECT_INFO,
PSIGNER_CERT,
PSIGNER_SIGNATURE_INFO,
PSIGNER_PROVIDER_INFO,
DWORD,
PCSTR,
PCWSTR,
PCRYPT_ATTRIBUTES,
PVOID,
PSIGNER_CONTEXT *,
PVOID,
PVOID);
// Load the SignerSignEx2 function from MSSign32.dll
HMODULE msSignModule = LoadLibraryEx(
L"MSSign32.dll",
NULL,
LOAD_LIBRARY_SEARCH_SYSTEM32);
if (msSignModule)
{
SignerSignEx2Function SignerSignEx2 = reinterpret_cast<SignerSignEx2Function>(
GetProcAddress(msSignModule, "SignerSignEx2"));
if (SignerSignEx2)
{
hr = SignerSignEx2(
signerParams.dwFlags,
signerParams.pSubjectInfo,
signerParams.pSigningCert,
signerParams.pSignatureInfo,
signerParams.pProviderInfo,
signerParams.dwTimestampFlags,
signerParams.pszAlgorithmOid,
signerParams.pwszTimestampURL,
signerParams.pCryptAttrs,
signerParams.pSipData,
signerParams.pSignerContext,
signerParams.pCryptoPolicy,
signerParams.pReserved);
}
else
{
DWORD lastError = GetLastError();
hr = HRESULT_FROM_WIN32(lastError);
}
FreeLibrary(msSignModule);
}
else
{
DWORD lastError = GetLastError();
hr = HRESULT_FROM_WIN32(lastError);
}
// Free any state used during app package signing
if (sipClientData.pAppxSipState)
{
sipClientData.pAppxSipState->Release();
}
Time Stamping
Further, you must Time Stamp your signed file and do that using a Time Stamping authority to which you connect.
That is done by securely checking a Time Stamping server via URL for the current date and time. Each Signing authority have their own Time Stamping server. Time Stamping is an extra step in the Code Signing process, but when it comes to EV Code Signing it is a requirement which adds an additional layer of security to the signed PE. For that reason, add to your code a check whether the user is connected to the Internet.
DWORD dwReturnedFlag;
if (InternetGetConnectedState(&dwReturnedFlag,0) == NULL) // use https://learn.microsoft.com/en-us/windows/desktop/api/netlistmgr/nf-netlistmgr-inetworklistmanager-getconnectivity
{
wprintf(L"Certificate can't be dated with no Internet connection\n");
return 1;
}
Loading a certificate from a file
std::tuple<DWORD, DWORD, std::string> GetCertificateFromFile
(const wchar_t* FileName
, std::shared_ptr<const CERT_CONTEXT>* ResultCert)
{
std::vector<unsigned char> vecAsn1CertBuffer;
auto tuple_result = ReadFileToVector(FileName, &vecAsn1CertBuffer);
if (std::get<0>(tuple_result) != 0)
{
return tuple_result;
}
return GetCertificateFromMemory(vecAsn1CertBuffer, ResultCert);
}
Loading a certificate into memory
std::tuple<DWORD, DWORD, std::string> GetCertificateFromMemory
(const std::vector<unsigned char>& CertData
, std::shared_ptr<const CERT_CONTEXT>* ResultCert)
{
const CERT_CONTEXT* crtResultCert = ::CertCreateCertificateContext
(X509_ASN_ENCODING | PKCS_7_ASN_ENCODING
, &CertData[0]
, static_cast<DWORD>(CertData.size()));
if (crtResultCert == NULL)
{
return std::make_tuple(E_FAIL
, ::GetLastError()
, "CertCreateCertificateContext");
}
*ResultCert = std::shared_ptr<const CERT_CONTEXT>(crtResultCert
, ::CertFreeCertificateContext);
return std::make_tuple(0, 0, "");
}
After the certificate has been loaded following accessing the hardware token we load it:
std::vector<unsigned char> dataCertEV(signingCertContext->pbCertEncoded,
signingCertContext->pbCertEncoded + signingCertContext->cbCertEncoded);
Finally, the signing is done in the following function:
HRESULT SignAppxPackage(
_In_ PCCERT_CONTEXT signingCertContext,
_In_ LPCWSTR packageFilePath)
{
HRESULT hr = S_OK;
if (PathFileExists(CertAuthority_ROOT))
{
wprintf(L"Cross Certificate '%s' was found\n", CertAuthority_ROOT);
}
else
{
wprintf(L"Error: Cross Certificate '%s' was not found\n", CertAuthority_ROOT);
return 3;
}
DWORD dwReturnedFlag;
if (InternetGetConnectedState(&dwReturnedFlag,0) == NULL)
{
wprintf(L"Certificate can't be dated with no Internet connection\n");
return 1;
}
if (PathFileExists(CertAuthority_RSA))
{
wprintf(L"Cross Certificate '%s' was found\n", CertAuthority_RSA);
}
else
{
wprintf(L"Error: Cross Certificate '%s' was not found\n", CertAuthority_RSA);
return 2;
}
if (PathFileExists(CROSSCERTPATH))
{
wprintf(L"Microsoft Cross Certificate '%s' was found\n", CROSSCERTPATH);
}
else
{
wprintf(L"Error: Microsoft Cross Certificate '%s' was not found\n", CROSSCERTPATH);
return 3;
}
// Initialize the parameters for SignerSignEx2
DWORD signerIndex = 0;
SIGNER_FILE_INFO fileInfo = {};
fileInfo.cbSize = sizeof(SIGNER_FILE_INFO);
fileInfo.pwszFileName = packageFilePath;
SIGNER_SUBJECT_INFO subjectInfo = {};
subjectInfo.cbSize = sizeof(SIGNER_SUBJECT_INFO);
subjectInfo.pdwIndex = &signerIndex;
subjectInfo.dwSubjectChoice = SIGNER_SUBJECT_FILE;
subjectInfo.pSignerFileInfo = &fileInfo;
SIGNER_CERT_STORE_INFO certStoreInfo = {};
certStoreInfo.cbSize = sizeof(SIGNER_CERT_STORE_INFO);
certStoreInfo.dwCertPolicy = SIGNER_CERT_POLICY_STORE;// SIGNER_CERT_POLICY_CHAIN_NO_ROOT;
certStoreInfo.pSigningCert = signingCertContext;
// Issuer: 'CertAuthority RSA Certification Authority'
// Subject 'CertAuthority RSA Extended Validation Code Signing CA'
auto fileCertAuthorityRsaEVCA = CertAuthority_RSA;
std::shared_ptr<const CERT_CONTEXT> certCertAuthorityRsaEVCA;
auto tuple_result = GetCertificateFromFile(fileCertAuthorityRsaEVCA, &certCertAuthorityRsaEVCA);
if (std::get<0>(tuple_result) != 0)
{
std::cout << "Error: " << std::get<0>(tuple_result) << " " << std::get<1>(tuple_result) << " " << std::get<2>(tuple_result) << "\n";
return std::get<0>(tuple_result);
}
std::shared_ptr<const CERT_CONTEXT> certCertEV;
std::vector<unsigned char> dataCertEV(signingCertContext->pbCertEncoded,
signingCertContext->pbCertEncoded + signingCertContext->cbCertEncoded);
tuple_result = GetCertificateFromMemory(dataCertEV, &certCertEV);
if (std::get<0>(tuple_result) != 0)
{
std::cout << "Error: " << std::get<0>(tuple_result) << " " << std::get<1>(tuple_result) << " " << std::get<2>(tuple_result) << "\n";
return std::get<0>(tuple_result);
}
// Issuer: 'Microsoft Code Verification Root'
// Subject: 'CertAuthority RSA Certification Authority'
auto fileCertCross = CertAuthority_ROOT;
std::shared_ptr<const CERT_CONTEXT> certCertCross;
tuple_result = GetCertificateFromFile(fileCertCross, &certCertCross);
if (std::get<0>(tuple_result) != 0)
{
std::cout << "Error: " << std::get<0>(tuple_result) << " " << std::get<1>(tuple_result) << " " << std::get<2>(tuple_result) << "\n";
return std::get<0>(tuple_result);
}
//certificate 1 Issuer : '<Certificate Provider> RSA Certification Authority'
// Subject : '<Certificate Provider> Extended Validation Code Signing CA'
//
//certificate 2 Issuer : '<Certificate Provider> Extended Validation Code Signing CA'
// Subject : '<Your company / entity name>'
//
//certificate 3 Issuer : 'Microsoft Code Verification Root'
// Subject : '<Certificate Provider> Certification Authority'
std::vector<std::shared_ptr<const CERT_CONTEXT> > certs;
certs.push_back(certCertAuthorityRsaEVCA);
certs.push_back(certCertEV);
certs.push_back(certCertCross);
std::shared_ptr<void> resultStore;
tuple_result = FormMemoryCertStore(certs, CERT_STORE_ADD_NEW, &resultStore);
if (std::get<0>(tuple_result) != 0)
{
std::cout << "Error: " << std::get<0>(tuple_result) << " " << std::get<1>(tuple_result) << " " << std::get<2>(tuple_result) << "\n";
return std::get<0>(tuple_result);
}
certStoreInfo.hCertStore = resultStore.get();
//--------------------------------------------------------------------
SIGNER_CERT cert = {};
cert.cbSize = sizeof(SIGNER_CERT);
cert.dwCertChoice = SIGNER_CERT_STORE;
cert.pCertStoreInfo = &certStoreInfo;
// The algidHash of the signature to be created must match the
// hash algorithm used to create the app package
SIGNER_SIGNATURE_INFO signatureInfo = {};
signatureInfo.cbSize = sizeof(SIGNER_SIGNATURE_INFO);
signatureInfo.algidHash = CALG_SHA_256;
signatureInfo.dwAttrChoice = SIGNER_NO_ATTR;
SIGNER_SIGN_EX2_PARAMS signerParams = {};
signerParams.pSubjectInfo = &subjectInfo;
signerParams.pSigningCert = &cert;
signerParams.pSignatureInfo = &signatureInfo;
signerParams.dwTimestampFlags = SIGNER_TIMESTAMP_RFC3161;
signerParams.pszAlgorithmOid = szOID_NIST_sha256;
//signerParams.dwTimestampFlags = SIGNER_TIMESTAMP_AUTHENTICODE;
//signerParams.pszAlgorithmOid = NULL;
signerParams.pwszTimestampURL = TIMESTAMPURL;
APPX_SIP_CLIENT_DATA sipClientData = {};
sipClientData.pSignerParams = &signerParams;
signerParams.pSipData = &sipClientData;
// Type definition for invoking SignerSignEx2 via GetProcAddress
typedef HRESULT(WINAPI *SignerSignEx2Function)(
DWORD,
PSIGNER_SUBJECT_INFO,
PSIGNER_CERT,
PSIGNER_SIGNATURE_INFO,
PSIGNER_PROVIDER_INFO,
DWORD,
PCSTR,
PCWSTR,
PCRYPT_ATTRIBUTES,
PVOID,
PSIGNER_CONTEXT *,
PVOID,
PVOID);
// Load the SignerSignEx2 function from MSSign32.dll
HMODULE msSignModule = LoadLibraryEx(
L"MSSign32.dll",
NULL,
LOAD_LIBRARY_SEARCH_SYSTEM32);
if (msSignModule)
{
SignerSignEx2Function SignerSignEx2 = reinterpret_cast<SignerSignEx2Function>(
GetProcAddress(msSignModule, "SignerSignEx2"));
if (SignerSignEx2)
{
hr = SignerSignEx2(
signerParams.dwFlags,
signerParams.pSubjectInfo,
signerParams.pSigningCert,
signerParams.pSignatureInfo,
signerParams.pProviderInfo,
signerParams.dwTimestampFlags,
signerParams.pszAlgorithmOid,
signerParams.pwszTimestampURL,
signerParams.pCryptAttrs,
signerParams.pSipData,
signerParams.pSignerContext,
signerParams.pCryptoPolicy,
signerParams.pReserved);
}
else
{
DWORD lastError = GetLastError();
hr = HRESULT_FROM_WIN32(lastError);
}
FreeLibrary(msSignModule);
}
else
{
DWORD lastError = GetLastError();
hr = HRESULT_FROM_WIN32(lastError);
}
// Free any state used during app package signing
if (sipClientData.pAppxSipState)
{
sipClientData.pAppxSipState->Release();
}
return hr;
}
See this article I wrote.
I am using a globalsign certificate and they nicely said the same thing.
It is not possible to script the signature with a standard EV code signing, they are promoting the use of an HSM platform
...which is far beyond my budget. Contrary what they said, I succeeded to make it work :
"C:\Program Files (x86)\Microsoft SDKs\ClickOnce\SignTool\signtool.exe" sign /fd sha256 /f "MyCertificate.cer" /csp "eToken Base Cryptographic Provider" /kc "[{{TokenPassword}}]=ContainerTame" "FileToSign"
=> this command returns the following error :
Error information: "CryptExportPublicKeyInfoEx failed" (87/0x57)
I dont really understand this issue. BUT if you run another time the following command it works
"C:\Program Files (x86)\Microsoft SDKs\ClickOnce\SignTool\SignTool.exe" sign /tr http://timestamp.globalsign.com/scripts/timestamp.dll "MyFileToSign"
Done Adding Additional Store
Successfully signed: MyFileToSign
This works within teamcity build, and no need for an active account log in in teamcity build agent.
Edit : this solution does not work anymore for me, globalsign changed the timestamp url to http://rfc3161timestamp.globalsign.com/advanced. Since that i cant sign with TokenPassword/ContainerName anymore. The only solution I found is to unable single logon and make sure the server does not logoff (i run a video on the server so my account is not loggued off automatically). this is a quick and dirty solution but the only one I found. Thank you globalsign for your poor support.
We were able to automate both Windows EV code signing and Apple Notarization on a single Mac mini with install4j.
If install4j can do it, there must be a way for your technology stack as well.
signtool.exe. With an out-of-date version (mine was from 2016) I got the error ``` Error information: "CryptExportPublicKeyInfoEx failed" (87/0x57) ``` You can get an up-to-date version by installing the Windows SDK. At least at the time of writing this, the version provided with the SDK supports using [method described by Austin Mor