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|
/**
* @file llsechandler_basic_test.cpp
* @author Roxie
* @date 2009-02-10
* @brief Test the 'basic' sec handler functions
*
* $LicenseInfo:firstyear=2005&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#include "../llviewerprecompiledheaders.h"
#include "../test/lltut.h"
#include "../llsecapi.h"
#include "../llsechandler_basic.h"
#include "../../llxml/llcontrol.h"
#include "../llviewernetwork.h"
#include "lluuid.h"
#include "llxorcipher.h"
#include "apr_base64.h"
#include <vector>
#include <ios>
#include <llsdserialize.h>
#include <openssl/pem.h>
#include <openssl/err.h>
#include <openssl/evp.h>
#include "llxorcipher.h"
#include <openssl/ossl_typ.h>
#include <openssl/x509.h>
#include <openssl/x509v3.h>
#include <openssl/pem.h>
#include <openssl/asn1.h>
#include <openssl/rand.h>
#include <openssl/err.h>
#include "../llmachineid.h"
#define ensure_throws(str, exc_type, cert, func, ...) \
try \
{ \
func(__VA_ARGS__); \
fail("throws, " str); \
} \
catch(exc_type& except) \
{ \
ensure("Exception cert is incorrect for " str, except.getCert() == cert); \
}
extern bool _cert_hostname_wildcard_match(const std::string& hostname, const std::string& wildcard_string);
//----------------------------------------------------------------------------
// Mock objects for the dependencies of the code we're testing
std::string gFirstName;
std::string gLastName;
LLControlGroup::LLControlGroup(const std::string& name)
: LLInstanceTracker<LLControlGroup, std::string>(name) {}
LLControlGroup::~LLControlGroup() {}
LLControlVariable* LLControlGroup::declareString(const std::string& name,
const std::string& initial_val,
const std::string& comment,
LLControlVariable::ePersist persist) {return NULL;}
void LLControlGroup::setString(const std::string& name, const std::string& val){}
std::string LLControlGroup::getString(const std::string& name)
{
if (name == "FirstName")
return gFirstName;
else if (name == "LastName")
return gLastName;
return "";
}
// Stub for --no-verify-ssl-cert
BOOL LLControlGroup::getBOOL(const std::string& name) { return FALSE; }
LLSD LLCredential::getLoginParams()
{
LLSD result = LLSD::emptyMap();
// legacy credential
result["passwd"] = "$1$testpasssd";
result["first"] = "myfirst";
result["last"] ="mylast";
return result;
}
void LLCredential::identifierType(std::string &idType)
{
}
void LLCredential::authenticatorType(std::string &idType)
{
}
LLControlGroup gSavedSettings("test");
unsigned char gMACAddress[MAC_ADDRESS_BYTES] = {77,21,46,31,89,2};
S32 LLMachineID::getUniqueID(unsigned char *unique_id, size_t len)
{
memcpy(unique_id, gMACAddress, len);
return 1;
}
S32 LLMachineID::init() { return 1; }
// -------------------------------------------------------------------------------------------
// TUT
// -------------------------------------------------------------------------------------------
namespace tut
{
// Test wrapper declaration : wrapping nothing for the moment
struct sechandler_basic_test
{
std::string mPemTestCert, mPemRootCert, mPemIntermediateCert, mPemChildCert, mSha1RSATestCert, mSha1RSATestCA;
std::string mDerFormat;
X509 *mX509TestCert, *mX509RootCert, *mX509IntermediateCert, *mX509ChildCert;
sechandler_basic_test()
{
LLMachineID::init();
OpenSSL_add_all_algorithms();
OpenSSL_add_all_ciphers();
OpenSSL_add_all_digests();
ERR_load_crypto_strings();
gFirstName = "";
gLastName = "";
LLFile::remove("test_password.dat");
LLFile::remove("sechandler_settings.tmp");
mPemTestCert = "-----BEGIN CERTIFICATE-----\n"
"MIIEuDCCA6CgAwIBAgIBBDANBgkqhkiG9w0BAQUFADCBtDELMAkGA1UEBhMCQlIx\n"
"EzARBgNVBAoTCklDUC1CcmFzaWwxPTA7BgNVBAsTNEluc3RpdHV0byBOYWNpb25h\n"
"bCBkZSBUZWNub2xvZ2lhIGRhIEluZm9ybWFjYW8gLSBJVEkxETAPBgNVBAcTCEJy\n"
"YXNpbGlhMQswCQYDVQQIEwJERjExMC8GA1UEAxMoQXV0b3JpZGFkZSBDZXJ0aWZp\n"
"Y2Fkb3JhIFJhaXogQnJhc2lsZWlyYTAeFw0wMTExMzAxMjU4MDBaFw0xMTExMzAy\n"
"MzU5MDBaMIG0MQswCQYDVQQGEwJCUjETMBEGA1UEChMKSUNQLUJyYXNpbDE9MDsG\n"
"A1UECxM0SW5zdGl0dXRvIE5hY2lvbmFsIGRlIFRlY25vbG9naWEgZGEgSW5mb3Jt\n"
"YWNhbyAtIElUSTERMA8GA1UEBxMIQnJhc2lsaWExCzAJBgNVBAgTAkRGMTEwLwYD\n"
"VQQDEyhBdXRvcmlkYWRlIENlcnRpZmljYWRvcmEgUmFpeiBCcmFzaWxlaXJhMIIB\n"
"IjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAwPMudwX/hvm+Uh2b/lQAcHVA\n"
"isamaLkWdkwP9/S/tOKIgRrL6Oy+ZIGlOUdd6uYtk9Ma/3pUpgcfNAj0vYm5gsyj\n"
"Qo9emsc+x6m4VWwk9iqMZSCK5EQkAq/Ut4n7KuLE1+gdftwdIgxfUsPt4CyNrY50\n"
"QV57KM2UT8x5rrmzEjr7TICGpSUAl2gVqe6xaii+bmYR1QrmWaBSAG59LrkrjrYt\n"
"bRhFboUDe1DK+6T8s5L6k8c8okpbHpa9veMztDVC9sPJ60MWXh6anVKo1UcLcbUR\n"
"yEeNvZneVRKAAU6ouwdjDvwlsaKydFKwed0ToQ47bmUKgcm+wV3eTRk36UOnTwID\n"
"AQABo4HSMIHPME4GA1UdIARHMEUwQwYFYEwBAQAwOjA4BggrBgEFBQcCARYsaHR0\n"
"cDovL2FjcmFpei5pY3BicmFzaWwuZ292LmJyL0RQQ2FjcmFpei5wZGYwPQYDVR0f\n"
"BDYwNDAyoDCgLoYsaHR0cDovL2FjcmFpei5pY3BicmFzaWwuZ292LmJyL0xDUmFj\n"
"cmFpei5jcmwwHQYDVR0OBBYEFIr68VeEERM1kEL6V0lUaQ2kxPA3MA8GA1UdEwEB\n"
"/wQFMAMBAf8wDgYDVR0PAQH/BAQDAgEGMA0GCSqGSIb3DQEBBQUAA4IBAQAZA5c1\n"
"U/hgIh6OcgLAfiJgFWpvmDZWqlV30/bHFpj8iBobJSm5uDpt7TirYh1Uxe3fQaGl\n"
"YjJe+9zd+izPRbBqXPVQA34EXcwk4qpWuf1hHriWfdrx8AcqSqr6CuQFwSr75Fos\n"
"SzlwDADa70mT7wZjAmQhnZx2xJ6wfWlT9VQfS//JYeIc7Fue2JNLd00UOSMMaiK/\n"
"t79enKNHEA2fupH3vEigf5Eh4bVAN5VohrTm6MY53x7XQZZr1ME7a55lFEnSeT0u\n"
"mlOAjR2mAbvSM5X5oSZNrmetdzyTj2flCM8CC7MLab0kkdngRIlUBGHF1/S5nmPb\n"
"K+9A46sd33oqK8n8\n"
"-----END CERTIFICATE-----\n";
mPemRootCert = "-----BEGIN CERTIFICATE-----\n"
"MIIB0TCCATqgAwIBAgIJANaTqrzEvHaRMA0GCSqGSIb3DQEBBAUAMBsxGTAXBgNV\n"
"BAMTEFJveGllcyB0ZXN0IHJvb3QwHhcNMDkwNDE1MjEwNzQ3WhcNMTAwNDE1MjEw\n"
"NzQ3WjAbMRkwFwYDVQQDExBSb3hpZXMgdGVzdCByb290MIGfMA0GCSqGSIb3DQEB\n"
"AQUAA4GNADCBiQKBgQCpo5nDW6RNz9IHUVZd7Tw2XAQiBniDF4xH0N1w7sUYTiFq\n"
"21mABsnOPJD3ra+MtOsXPHcaljm661JjTD8L40v5sfEbqDUPcOw76ClrPqnuAeyT\n"
"38qk8DHku/mT8YdprevGZdVcUXQg3vosVzOL93HOOHK+u61mEEoM9W5xoNVEdQID\n"
"AQABox0wGzAMBgNVHRMEBTADAQH/MAsGA1UdDwQEAwIBBjANBgkqhkiG9w0BAQQF\n"
"AAOBgQAzn0aW/+zWPmcTbvxonyiYYUr9b4SOB/quhAkT8KT4ir1dcZAXRR59+kEn\n"
"HSTu1FAodV0gvESqyobftF5hZ1XMxdJqGu//xP+YCwlv244G/0pp7KLI8ihNO2+N\n"
"lPBUJgbo++ZkhiE1jotZi9Ay0Oedh3s/AfbMZPyfpJ23ll6+BA==\n"
"-----END CERTIFICATE-----\n";
mPemIntermediateCert = "-----BEGIN CERTIFICATE-----\n"
"MIIBzzCCATigAwIBAgIBATANBgkqhkiG9w0BAQQFADAbMRkwFwYDVQQDExBSb3hp\n"
"ZXMgdGVzdCByb290MB4XDTA5MDQxNTIxMzE1NloXDTEwMDQxNTIxMzE1NlowITEf\n"
"MB0GA1UEAxMWUm94aWVzIGludGVybWVkaWF0ZSBDQTCBnzANBgkqhkiG9w0BAQEF\n"
"AAOBjQAwgYkCgYEA15MM0W1R37rx/24Q2Qkb5bSiQZxTUcQAhJ2pA8mwUucXuCVt\n"
"6ayI2TuN32nkjmsCgUkiT/bdXWp0OJo7/MXRIFeUNMCRxrpeFnxuigYEqbIXAdN6\n"
"qu/vdG2X4PRv/v9Ijrju4cBEiKIldIgOurWEIfXEsVSFP2XmFQHesF04qDcCAwEA\n"
"AaMdMBswDAYDVR0TBAUwAwEB/zALBgNVHQ8EBAMCAQYwDQYJKoZIhvcNAQEEBQAD\n"
"gYEAYljikYgak3W1jSo0vYthNHUy3lBVAKzDhpM96lY5OuXFslpCRX42zNL8X3kN\n"
"U/4IaJUVtZqx8WsUXl1eXHzBCaXCftapV4Ir6cENLIsXCdXs8paFYzN5nPJA5GYU\n"
"zWgkSEl1MEhNIc+bJW34vwi29EjrAShAhsIZ84Mt/lvD3Pc=\n"
"-----END CERTIFICATE-----\n";
mPemChildCert = "-----BEGIN CERTIFICATE-----\n"
"MIIB5DCCAU0CBEnm9eUwDQYJKoZIhvcNAQEEBQAwITEfMB0GA1UEAxMWUm94aWVz\n"
"IGludGVybWVkaWF0ZSBDQTAeFw0wOTA0MTYwMDAzNDlaFw0xMDA0MTYwMDAzNDla\n"
"MCAxHjAcBgNVBAMTFWVuaWFjNjMubGluZGVubGFiLmNvbTCBnzANBgkqhkiG9w0B\n"
"AQEFAAOBjQAwgYkCgYEAp9I5rofEzbjNht+9QejfnsIlEPqSxskoWKCG255TesWR\n"
"RTmw9wafHQQkJk/VIsaU4RMBYHkknGbHX2dGvMHmKZoWUPSQ/8FZz09o0Qx3TNUZ\n"
"l7KlGOD2d1c7ZxXDPqlLC6QW8DrE1/8zfwJ5cbYBXc8e7OKdSZeRrnwHyw4Q8r8C\n"
"AwEAAaMvMC0wEwYDVR0lBAwwCgYIKwYBBQUHAwEwCQYDVR0TBAIwADALBgNVHQ8E\n"
"BAMCBaAwDQYJKoZIhvcNAQEEBQADgYEAIG0M5tqYlXyMiGKPZfXy/R3M3ZZOapDk\n"
"W0dsXJYXAc35ftwtn0VYu9CNnZCcli17/d+AKhkK8a/oGPazqudjFF6WLJLTXaY9\n"
"NmhkJcOPADXkbyQPUPXzLe4YRrkEQeGhzMb4rKDQ1TKAcXfs0Y068pTpsixNSxja\n"
"NhAUUcve5Is=\n"
"-----END CERTIFICATE-----\n";
mDerFormat = "MIIEuDCCA6CgAwIBAgIBBDANBgkqhkiG9w0BAQUFADCBtDELMAkGA1UEBhMCQlIxEzARBgNVBAoT"
"CklDUC1CcmFzaWwxPTA7BgNVBAsTNEluc3RpdHV0byBOYWNpb25hbCBkZSBUZWNub2xvZ2lhIGRh"
"IEluZm9ybWFjYW8gLSBJVEkxETAPBgNVBAcTCEJyYXNpbGlhMQswCQYDVQQIEwJERjExMC8GA1UE"
"AxMoQXV0b3JpZGFkZSBDZXJ0aWZpY2Fkb3JhIFJhaXogQnJhc2lsZWlyYTAeFw0wMTExMzAxMjU4"
"MDBaFw0xMTExMzAyMzU5MDBaMIG0MQswCQYDVQQGEwJCUjETMBEGA1UEChMKSUNQLUJyYXNpbDE9"
"MDsGA1UECxM0SW5zdGl0dXRvIE5hY2lvbmFsIGRlIFRlY25vbG9naWEgZGEgSW5mb3JtYWNhbyAt"
"IElUSTERMA8GA1UEBxMIQnJhc2lsaWExCzAJBgNVBAgTAkRGMTEwLwYDVQQDEyhBdXRvcmlkYWRl"
"IENlcnRpZmljYWRvcmEgUmFpeiBCcmFzaWxlaXJhMIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIB"
"CgKCAQEAwPMudwX/hvm+Uh2b/lQAcHVAisamaLkWdkwP9/S/tOKIgRrL6Oy+ZIGlOUdd6uYtk9Ma"
"/3pUpgcfNAj0vYm5gsyjQo9emsc+x6m4VWwk9iqMZSCK5EQkAq/Ut4n7KuLE1+gdftwdIgxfUsPt"
"4CyNrY50QV57KM2UT8x5rrmzEjr7TICGpSUAl2gVqe6xaii+bmYR1QrmWaBSAG59LrkrjrYtbRhF"
"boUDe1DK+6T8s5L6k8c8okpbHpa9veMztDVC9sPJ60MWXh6anVKo1UcLcbURyEeNvZneVRKAAU6o"
"uwdjDvwlsaKydFKwed0ToQ47bmUKgcm+wV3eTRk36UOnTwIDAQABo4HSMIHPME4GA1UdIARHMEUw"
"QwYFYEwBAQAwOjA4BggrBgEFBQcCARYsaHR0cDovL2FjcmFpei5pY3BicmFzaWwuZ292LmJyL0RQ"
"Q2FjcmFpei5wZGYwPQYDVR0fBDYwNDAyoDCgLoYsaHR0cDovL2FjcmFpei5pY3BicmFzaWwuZ292"
"LmJyL0xDUmFjcmFpei5jcmwwHQYDVR0OBBYEFIr68VeEERM1kEL6V0lUaQ2kxPA3MA8GA1UdEwEB"
"/wQFMAMBAf8wDgYDVR0PAQH/BAQDAgEGMA0GCSqGSIb3DQEBBQUAA4IBAQAZA5c1U/hgIh6OcgLA"
"fiJgFWpvmDZWqlV30/bHFpj8iBobJSm5uDpt7TirYh1Uxe3fQaGlYjJe+9zd+izPRbBqXPVQA34E"
"Xcwk4qpWuf1hHriWfdrx8AcqSqr6CuQFwSr75FosSzlwDADa70mT7wZjAmQhnZx2xJ6wfWlT9VQf"
"S//JYeIc7Fue2JNLd00UOSMMaiK/t79enKNHEA2fupH3vEigf5Eh4bVAN5VohrTm6MY53x7XQZZr"
"1ME7a55lFEnSeT0umlOAjR2mAbvSM5X5oSZNrmetdzyTj2flCM8CC7MLab0kkdngRIlUBGHF1/S5"
"nmPbK+9A46sd33oqK8n8";
mSha1RSATestCert = "-----BEGIN CERTIFICATE-----\n"
"MIIDFDCCAn2gAwIBAgIDDqqYMA0GCSqGSIb3DQEBBQUAME4xCzAJBgNVBAYTAlVT\n"
"MRAwDgYDVQQKEwdFcXVpZmF4MS0wKwYDVQQLEyRFcXVpZmF4IFNlY3VyZSBDZXJ0\n"
"aWZpY2F0ZSBBdXRob3JpdHkwHhcNMTAwMTA1MDAzNjMwWhcNMTEwMTA3MjAyMTE0\n"
"WjCBnjEpMCcGA1UEBRMgQmNmc0RBRkl1U0YwdFpWVm5vOFJKbjVUbW9hNGR2Wkgx\n"
"CzAJBgNVBAYTAlVTMRMwEQYDVQQIEwpDYWxpZm9ybmlhMRYwFAYDVQQHEw1TYW4g\n"
"RnJhbmNpc2NvMR0wGwYDVQQKExRMaW5kZW4gUmVzZWFyY2ggSW5jLjEYMBYGA1UE\n"
"AxQPKi5saW5kZW5sYWIuY29tMIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQD2\n"
"14Jdko8v6GB33hHbW+lNQyloFQtc2h4ykjf+fYPJ27dw6tQO2if7N3k/5XDkwC1N\n"
"krGgE9vt3iecCPgasue6k67Zyfj9HbEP2D+j38eROudrsxLaRFDQx50BvZ5YMNl3\n"
"4zQCj8/gCMsuq8cvaP9/rbJTUpgYWFGLsm8yAYOgWwIDAQABo4GuMIGrMA4GA1Ud\n"
"DwEB/wQEAwIE8DAdBgNVHQ4EFgQUIBK/JB9AyqquSEbkzt2Zux6v9sYwOgYDVR0f\n"
"BDMwMTAvoC2gK4YpaHR0cDovL2NybC5nZW90cnVzdC5jb20vY3Jscy9zZWN1cmVj\n"
"YS5jcmwwHwYDVR0jBBgwFoAUSOZo+SvSspXXR9gjIBBPM5iQn9QwHQYDVR0lBBYw\n"
"FAYIKwYBBQUHAwEGCCsGAQUFBwMCMA0GCSqGSIb3DQEBBQUAA4GBAKKR84+hvLuB\n"
"pop9VG7HQPIyEKtZq3Nnk+UlJGfjGY3csLWSFmxU727r5DzdEP1W1PwF3rxuoKcZ\n"
"4nJJpKdzoGVujgBMP2U/J0PJvU7D8U3Zqu7nrXAjOHj7iVnvJ3EKJ1bvwXaisgPN\n"
"wt21kKfGnA4OlhJtJ6VQvUkcF12I3pTP\n"
"-----END CERTIFICATE-----\n";
mSha1RSATestCA = "-----BEGIN CERTIFICATE-----\n"
"MIIDIDCCAomgAwIBAgIENd70zzANBgkqhkiG9w0BAQUFADBOMQswCQYDVQQGEwJV\n"
"UzEQMA4GA1UEChMHRXF1aWZheDEtMCsGA1UECxMkRXF1aWZheCBTZWN1cmUgQ2Vy\n"
"dGlmaWNhdGUgQXV0aG9yaXR5MB4XDTk4MDgyMjE2NDE1MVoXDTE4MDgyMjE2NDE1\n"
"MVowTjELMAkGA1UEBhMCVVMxEDAOBgNVBAoTB0VxdWlmYXgxLTArBgNVBAsTJEVx\n"
"dWlmYXggU2VjdXJlIENlcnRpZmljYXRlIEF1dGhvcml0eTCBnzANBgkqhkiG9w0B\n"
"AQEFAAOBjQAwgYkCgYEAwV2xWGcIYu6gmi0fCG2RFGiYCh7+2gRvE4RiIcPRfM6f\n"
"BeC4AfBONOziipUEZKzxa1NfBbPLZ4C/QgKO/t0BCezhABRP/PvwDN1Dulsr4R+A\n"
"cJkVV5MW8Q+XarfCaCMczE1ZMKxRHjuvK9buY0V7xdlfUNLjUA86iOe/FP3gx7kC\n"
"AwEAAaOCAQkwggEFMHAGA1UdHwRpMGcwZaBjoGGkXzBdMQswCQYDVQQGEwJVUzEQ\n"
"MA4GA1UEChMHRXF1aWZheDEtMCsGA1UECxMkRXF1aWZheCBTZWN1cmUgQ2VydGlm\n"
"aWNhdGUgQXV0aG9yaXR5MQ0wCwYDVQQDEwRDUkwxMBoGA1UdEAQTMBGBDzIwMTgw\n"
"ODIyMTY0MTUxWjALBgNVHQ8EBAMCAQYwHwYDVR0jBBgwFoAUSOZo+SvSspXXR9gj\n"
"IBBPM5iQn9QwHQYDVR0OBBYEFEjmaPkr0rKV10fYIyAQTzOYkJ/UMAwGA1UdEwQF\n"
"MAMBAf8wGgYJKoZIhvZ9B0EABA0wCxsFVjMuMGMDAgbAMA0GCSqGSIb3DQEBBQUA\n"
"A4GBAFjOKer89961zgK5F7WF0bnj4JXMJTENAKaSbn+2kmOeUJXRmm/kEd5jhW6Y\n"
"7qj/WsjTVbJmcVfewCHrPSqnI0kBBIZCe/zuf6IWUrVnZ9NA2zsmWLIodz2uFHdh\n"
"1voqZiegDfqnc1zqcPGUIWVEX/r87yloqaKHee9570+sB3c4\n"
"-----END CERTIFICATE-----\n";
mX509TestCert = NULL;
mX509RootCert = NULL;
mX509IntermediateCert = NULL;
mX509ChildCert = NULL;
BIO * validation_bio = BIO_new_mem_buf((void*)mPemTestCert.c_str(), mPemTestCert.length());
PEM_read_bio_X509(validation_bio, &mX509TestCert, 0, NULL);
BIO_free(validation_bio);
validation_bio = BIO_new_mem_buf((void*)mPemRootCert.c_str(), mPemRootCert.length());
PEM_read_bio_X509(validation_bio, &mX509RootCert, 0, NULL);
BIO_free(validation_bio);
validation_bio = BIO_new_mem_buf((void*)mPemIntermediateCert.c_str(), mPemIntermediateCert.length());
PEM_read_bio_X509(validation_bio, &mX509IntermediateCert, 0, NULL);
BIO_free(validation_bio);
validation_bio = BIO_new_mem_buf((void*)mPemChildCert.c_str(), mPemChildCert.length());
PEM_read_bio_X509(validation_bio, &mX509ChildCert, 0, NULL);
BIO_free(validation_bio);
}
~sechandler_basic_test()
{
LLFile::remove("test_password.dat");
LLFile::remove("sechandler_settings.tmp");
LLFile::remove("mycertstore.pem");
X509_free(mX509TestCert);
X509_free(mX509RootCert);
X509_free(mX509IntermediateCert);
X509_free(mX509ChildCert);
}
};
// Tut templating thingamagic: test group, object and test instance
typedef test_group<sechandler_basic_test> sechandler_basic_test_factory;
typedef sechandler_basic_test_factory::object sechandler_basic_test_object;
tut::sechandler_basic_test_factory tut_test("LLSecHandler");
// ---------------------------------------------------------------------------------------
// Test functions
// ---------------------------------------------------------------------------------------
// test cert data retrieval
template<> template<>
void sechandler_basic_test_object::test<1>()
{
char buffer[4096];
LLPointer<LLCertificate> test_cert = new LLBasicCertificate(mPemTestCert);
ensure_equals("Resultant pem is correct",
mPemTestCert, test_cert->getPem());
std::vector<U8> binary_cert = test_cert->getBinary();
apr_base64_encode(buffer, (const char *)&binary_cert[0], binary_cert.size());
ensure_equals("Der Format is correct", memcmp(buffer, mDerFormat.c_str(), mDerFormat.length()), 0);
LLSD llsd_cert;
test_cert->getLLSD(llsd_cert);
std::ostringstream llsd_value;
llsd_value << LLSDOStreamer<LLSDNotationFormatter>(llsd_cert) << std::endl;
std::string llsd_cert_str = llsd_value.str();
ensure_equals("Issuer Name/commonName",
(std::string)llsd_cert["issuer_name"]["commonName"], "Autoridade Certificadora Raiz Brasileira");
ensure_equals("Issure Name/countryName", (std::string)llsd_cert["issuer_name"]["countryName"], "BR");
ensure_equals("Issuer Name/localityName", (std::string)llsd_cert["issuer_name"]["localityName"], "Brasilia");
ensure_equals("Issuer Name/org name", (std::string)llsd_cert["issuer_name"]["organizationName"], "ICP-Brasil");
ensure_equals("IssuerName/org unit",
(std::string)llsd_cert["issuer_name"]["organizationalUnitName"], "Instituto Nacional de Tecnologia da Informacao - ITI");
ensure_equals("IssuerName/state", (std::string)llsd_cert["issuer_name"]["stateOrProvinceName"], "DF");
ensure_equals("Issuer name string",
(std::string)llsd_cert["issuer_name_string"], "CN=Autoridade Certificadora Raiz Brasileira,ST=DF,"
"L=Brasilia,OU=Instituto Nacional de Tecnologia da Informacao - ITI,O=ICP-Brasil,C=BR");
ensure_equals("subject Name/commonName",
(std::string)llsd_cert["subject_name"]["commonName"], "Autoridade Certificadora Raiz Brasileira");
ensure_equals("subject Name/countryName", (std::string)llsd_cert["subject_name"]["countryName"], "BR");
ensure_equals("subject Name/localityName", (std::string)llsd_cert["subject_name"]["localityName"], "Brasilia");
ensure_equals("subject Name/org name", (std::string)llsd_cert["subject_name"]["organizationName"], "ICP-Brasil");
ensure_equals("subjectName/org unit",
(std::string)llsd_cert["subject_name"]["organizationalUnitName"], "Instituto Nacional de Tecnologia da Informacao - ITI");
ensure_equals("subjectName/state", (std::string)llsd_cert["subject_name"]["stateOrProvinceName"], "DF");
ensure_equals("subject name string",
(std::string)llsd_cert["subject_name_string"], "CN=Autoridade Certificadora Raiz Brasileira,ST=DF,"
"L=Brasilia,OU=Instituto Nacional de Tecnologia da Informacao - ITI,O=ICP-Brasil,C=BR");
ensure_equals("md5 digest", (std::string)llsd_cert["md5_digest"], "96:89:7d:61:d1:55:2b:27:e2:5a:39:b4:2a:6c:44:6f");
ensure_equals("serial number", (std::string)llsd_cert["serial_number"], "04");
// sha1 digest is giving a weird value, and I've no idea why...feh
//ensure_equals("sha1 digest", (std::string)llsd_cert["sha1_digest"], "8e:fd:ca:bc:93:e6:1e:92:5d:4d:1d:ed:18:1a:43:20:a4:67:a1:39");
ensure_equals("valid from", (std::string)llsd_cert["valid_from"], "2001-11-30T12:58:00Z");
ensure_equals("valid to", (std::string)llsd_cert["valid_to"], "2011-11-30T23:59:00Z");
LLSD expectedKeyUsage = LLSD::emptyArray();
expectedKeyUsage.append(LLSD((std::string)"certSigning"));
expectedKeyUsage.append(LLSD((std::string)"crlSigning"));
ensure("key usage", valueCompareLLSD(llsd_cert["keyUsage"], expectedKeyUsage));
ensure("basic constraints", (bool)llsd_cert["basicConstraints"]["CA"]);
ensure("x509 is equal", !X509_cmp(mX509TestCert, test_cert->getOpenSSLX509()));
}
// test protected data
template<> template<>
void sechandler_basic_test_object::test<2>()
{
std::string protected_data = "sUSh3wj77NG9oAMyt3XIhaej3KLZhLZWFZvI6rIGmwUUOmmelrRg0NI9rkOj8ZDpTPxpwToaBT5u"
"GQhakdaGLJznr9bHr4/6HIC1bouKj4n2rs4TL6j2WSjto114QdlNfLsE8cbbE+ghww58g8SeyLQO"
"nyzXoz+/PBz0HD5SMFDuObccoPW24gmqYySz8YoEWhSwO0pUtEEqOjVRsAJgF5wLAtJZDeuilGsq"
"4ZT9Y4wZ9Rh8nnF3fDUL6IGamHe1ClXM1jgBu10F6UMhZbnH4C3aJ2E9+LiOntU+l3iCb2MpkEpr"
"82r2ZAMwIrpnirL/xoYoyz7MJQYwUuMvBPToZJrxNSsjI+S2Z+I3iEJAELMAAA==";
std::vector<U8> binary_data(apr_base64_decode_len(protected_data.c_str()));
apr_base64_decode_binary(&binary_data[0], protected_data.c_str());
LLXORCipher cipher(gMACAddress, MAC_ADDRESS_BYTES);
cipher.decrypt(&binary_data[0], 16);
unsigned char unique_id[MAC_ADDRESS_BYTES];
LLMachineID::getUniqueID(unique_id, sizeof(unique_id));
LLXORCipher cipher2(unique_id, sizeof(unique_id));
cipher2.encrypt(&binary_data[0], 16);
std::ofstream temp_file("sechandler_settings.tmp", std::ofstream::binary);
temp_file.write((const char *)&binary_data[0], binary_data.size());
temp_file.close();
LLPointer<LLSecAPIBasicHandler> handler = new LLSecAPIBasicHandler("sechandler_settings.tmp",
"test_password.dat");
handler->init();
// data retrieval for existing data
LLSD data = handler->getProtectedData("test_data_type", "test_data_id");
ensure_equals("retrieve existing data1", (std::string)data["data1"], "test_data_1");
ensure_equals("retrieve existing data2", (std::string)data["data2"], "test_data_2");
ensure_equals("retrieve existing data3", (std::string)data["data3"]["elem1"], "test element1");
// data storage
LLSD store_data = LLSD::emptyMap();
store_data["store_data1"] = "test_store_data1";
store_data["store_data2"] = 27;
store_data["store_data3"] = LLSD::emptyMap();
store_data["store_data3"]["subelem1"] = "test_subelem1";
handler->setProtectedData("test_data_type", "test_data_id1", store_data);
data = handler->getProtectedData("test_data_type", "test_data_id");
data = handler->getProtectedData("test_data_type", "test_data_id");
// verify no overwrite of existing data
ensure_equals("verify no overwrite 1", (std::string)data["data1"], "test_data_1");
ensure_equals("verify no overwrite 2", (std::string)data["data2"], "test_data_2");
ensure_equals("verify no overwrite 3", (std::string)data["data3"]["elem1"], "test element1");
// verify written data is good
data = handler->getProtectedData("test_data_type", "test_data_id1");
ensure_equals("verify stored data1", (std::string)data["store_data1"], "test_store_data1");
ensure_equals("verify stored data2", (int)data["store_data2"], 27);
ensure_equals("verify stored data3", (std::string)data["store_data3"]["subelem1"], "test_subelem1");
// verify overwrite works
handler->setProtectedData("test_data_type", "test_data_id", store_data);
data = handler->getProtectedData("test_data_type", "test_data_id");
ensure_equals("verify overwrite stored data1", (std::string)data["store_data1"], "test_store_data1");
ensure_equals("verify overwrite stored data2", (int)data["store_data2"], 27);
ensure_equals("verify overwrite stored data3", (std::string)data["store_data3"]["subelem1"], "test_subelem1");
// verify other datatype doesn't conflict
store_data["store_data3"] = "test_store_data3";
store_data["store_data4"] = 28;
store_data["store_data5"] = LLSD::emptyMap();
store_data["store_data5"]["subelem2"] = "test_subelem2";
handler->setProtectedData("test_data_type1", "test_data_id", store_data);
data = handler->getProtectedData("test_data_type1", "test_data_id");
ensure_equals("verify datatype stored data3", (std::string)data["store_data3"], "test_store_data3");
ensure_equals("verify datatype stored data4", (int)data["store_data4"], 28);
ensure_equals("verify datatype stored data5", (std::string)data["store_data5"]["subelem2"], "test_subelem2");
// test data not found
data = handler->getProtectedData("test_data_type1", "test_data_not_found");
ensure("not found", data.isUndefined());
// cause a 'write' by using 'LLPointer' to delete then instantiate a handler
handler = NULL;
handler = new LLSecAPIBasicHandler("sechandler_settings.tmp", "test_password.dat");
handler->init();
data = handler->getProtectedData("test_data_type1", "test_data_id");
ensure_equals("verify datatype stored data3a", (std::string)data["store_data3"], "test_store_data3");
ensure_equals("verify datatype stored data4a", (int)data["store_data4"], 28);
ensure_equals("verify datatype stored data5a", (std::string)data["store_data5"]["subelem2"], "test_subelem2");
// rewrite the initial file to verify reloads
handler = NULL;
std::ofstream temp_file2("sechandler_settings.tmp", std::ofstream::binary);
temp_file2.write((const char *)&binary_data[0], binary_data.size());
temp_file2.close();
// cause a 'write'
handler = new LLSecAPIBasicHandler("sechandler_settings.tmp", "test_password.dat");
handler->init();
data = handler->getProtectedData("test_data_type1", "test_data_id");
ensure("not found", data.isUndefined());
handler->deleteProtectedData("test_data_type", "test_data_id");
ensure("Deleted data not found", handler->getProtectedData("test_data_type", "test_data_id").isUndefined());
LLFile::remove("sechandler_settings.tmp");
handler = new LLSecAPIBasicHandler("sechandler_settings.tmp", "test_password.dat");
handler->init();
data = handler->getProtectedData("test_data_type1", "test_data_id");
ensure("not found", data.isUndefined());
handler = NULL;
ensure(LLFile::isfile("sechandler_settings.tmp"));
}
// test credenitals
template<> template<>
void sechandler_basic_test_object::test<3>()
{
LLPointer<LLSecAPIBasicHandler> handler = new LLSecAPIBasicHandler("sechandler_settings.tmp", "test_password.dat");
handler->init();
LLSD my_id = LLSD::emptyMap();
LLSD my_authenticator = LLSD::emptyMap();
my_id["type"] = "test_type";
my_id["username"] = "testuser@lindenlab.com";
my_authenticator["type"] = "test_auth";
my_authenticator["creds"] = "12345";
// test creation of credentials
LLPointer<LLCredential> my_cred = handler->createCredential("my_grid", my_id, my_authenticator);
// test retrieval of credential components
ensure_equals("basic credential creation: identifier", my_id, my_cred->getIdentifier());
ensure_equals("basic credential creation: authenticator", my_authenticator, my_cred->getAuthenticator());
ensure_equals("basic credential creation: grid", "my_grid", my_cred->getGrid());
// test setting/overwriting of credential components
my_id["first_name"] = "firstname";
my_id.erase("username");
my_authenticator.erase("creds");
my_authenticator["hash"] = "6563245";
my_cred->setCredentialData(my_id, my_authenticator);
ensure_equals("set credential data: identifier", my_id, my_cred->getIdentifier());
ensure_equals("set credential data: authenticator", my_authenticator, my_cred->getAuthenticator());
ensure_equals("set credential data: grid", "my_grid", my_cred->getGrid());
// test loading of a credential, that hasn't been saved, without
// any legacy saved credential data
LLPointer<LLCredential> my_new_cred = handler->loadCredential("my_grid2");
ensure("unknown credential load test", my_new_cred->getIdentifier().isMap());
ensure("unknown credential load test", !my_new_cred->getIdentifier().has("type"));
ensure("unknown credential load test", my_new_cred->getAuthenticator().isMap());
ensure("unknown credential load test", !my_new_cred->getAuthenticator().has("type"));
// test saving of a credential
handler->saveCredential(my_cred, true);
// test loading of a known credential
my_new_cred = handler->loadCredential("my_grid");
ensure_equals("load a known credential: identifier", my_id, my_new_cred->getIdentifier());
ensure_equals("load a known credential: authenticator",my_authenticator, my_new_cred->getAuthenticator());
ensure_equals("load a known credential: grid", "my_grid", my_cred->getGrid());
// test deletion of a credential
handler->deleteCredential(my_new_cred);
ensure("delete credential: identifier", my_new_cred->getIdentifier().isUndefined());
ensure("delete credentialt: authenticator", my_new_cred->getIdentifier().isUndefined());
ensure_equals("delete credential: grid", "my_grid", my_cred->getGrid());
// load unknown cred
my_new_cred = handler->loadCredential("my_grid");
ensure("deleted credential load test", my_new_cred->getIdentifier().isMap());
ensure("deleted credential load test", !my_new_cred->getIdentifier().has("type"));
ensure("deleted credential load test", my_new_cred->getAuthenticator().isMap());
ensure("deleted credential load test", !my_new_cred->getAuthenticator().has("type"));
// test loading of an unknown credential with legacy saved username, but without
// saved password
gFirstName = "myfirstname";
gLastName = "mylastname";
my_new_cred = handler->loadCredential("my_legacy_grid");
ensure_equals("legacy credential with no password: type",
(const std::string)my_new_cred->getIdentifier()["type"], "agent");
ensure_equals("legacy credential with no password: first_name",
(const std::string)my_new_cred->getIdentifier()["first_name"], "myfirstname");
ensure_equals("legacy credential with no password: last_name",
(const std::string)my_new_cred->getIdentifier()["last_name"], "mylastname");
ensure("legacy credential with no password: no authenticator", my_new_cred->getAuthenticator().isUndefined());
// test loading of an unknown credential with legacy saved password and username
std::string hashed_password = "fSQcLG03eyIWJmkzfyYaKm81dSweLmsxeSAYKGE7fSQ=";
int length = apr_base64_decode_len(hashed_password.c_str());
std::vector<char> decoded_password(length);
apr_base64_decode(&decoded_password[0], hashed_password.c_str());
LLXORCipher cipher(gMACAddress, MAC_ADDRESS_BYTES);
cipher.decrypt((U8*)&decoded_password[0], length);
unsigned char unique_id[MAC_ADDRESS_BYTES];
LLMachineID::getUniqueID(unique_id, sizeof(unique_id));
LLXORCipher cipher2(unique_id, sizeof(unique_id));
cipher2.encrypt((U8*)&decoded_password[0], length);
std::ofstream password_file("test_password.dat", std::ofstream::binary);
password_file.write(&decoded_password[0], length);
password_file.close();
my_new_cred = handler->loadCredential("my_legacy_grid2");
ensure_equals("legacy credential with password: type",
(const std::string)my_new_cred->getIdentifier()["type"], "agent");
ensure_equals("legacy credential with password: first_name",
(const std::string)my_new_cred->getIdentifier()["first_name"], "myfirstname");
ensure_equals("legacy credential with password: last_name",
(const std::string)my_new_cred->getIdentifier()["last_name"], "mylastname");
LLSD legacy_authenticator = my_new_cred->getAuthenticator();
ensure_equals("legacy credential with password: type",
(std::string)legacy_authenticator["type"],
"hash");
ensure_equals("legacy credential with password: algorithm",
(std::string)legacy_authenticator["algorithm"],
"md5");
ensure_equals("legacy credential with password: algorithm",
(std::string)legacy_authenticator["secret"],
"01234567890123456789012345678901");
// test creation of credentials
my_cred = handler->createCredential("mysavedgrid", my_id, my_authenticator);
// test save without saving authenticator.
handler->saveCredential(my_cred, FALSE);
my_new_cred = handler->loadCredential("mysavedgrid");
ensure_equals("saved credential without auth",
(const std::string)my_new_cred->getIdentifier()["type"], "test_type");
ensure("no authenticator values were saved", my_new_cred->getAuthenticator().isUndefined());
}
// test cert vector
template<> template<>
void sechandler_basic_test_object::test<4>()
{
// validate create from empty vector
LLPointer<LLBasicCertificateVector> test_vector = new LLBasicCertificateVector();
ensure_equals("when loading with nothing, we should result in no certs in vector", test_vector->size(), 0);
test_vector->add(new LLBasicCertificate(mPemTestCert));
ensure_equals("one element in vector", test_vector->size(), 1);
test_vector->add(new LLBasicCertificate(mPemChildCert));
ensure_equals("two elements in vector after add", test_vector->size(), 2);
test_vector->add(new LLBasicCertificate(mPemChildCert));
ensure_equals("two elements in vector after re-add", test_vector->size(), 2);
// validate order
X509* test_cert = (*test_vector)[0]->getOpenSSLX509();
ensure("first cert added remains first cert", !X509_cmp(test_cert, mX509TestCert));
X509_free(test_cert);
test_cert = (*test_vector)[1]->getOpenSSLX509();
ensure("adding a duplicate cert", !X509_cmp(test_cert, mX509ChildCert));
X509_free(test_cert);
//
// validate iterator
//
LLBasicCertificateVector::iterator current_cert = test_vector->begin();
LLBasicCertificateVector::iterator copy_current_cert = current_cert;
// operator++(int)
ensure("validate iterator++ element in vector is expected cert", *current_cert++ == (*test_vector)[0]);
ensure("validate 2nd iterator++ element in vector is expected cert", *current_cert++ == (*test_vector)[1]);
ensure("validate end iterator++", current_cert == test_vector->end());
// copy
ensure("validate copy iterator element in vector is expected cert", *copy_current_cert == (*test_vector)[0]);
// operator--(int)
current_cert--;
ensure("validate iterator-- element in vector is expected cert", *current_cert-- == (*test_vector)[1]);
ensure("validate iterator-- element in vector is expected cert", *current_cert == (*test_vector)[0]);
ensure("begin iterator is equal", current_cert == test_vector->begin());
// operator++
ensure("validate ++iterator element in vector is expected cert", *++current_cert == (*test_vector)[1]);
ensure("end of cert vector after ++iterator", ++current_cert == test_vector->end());
// operator--
ensure("validate --iterator element in vector is expected cert", *--current_cert == (*test_vector)[1]);
ensure("validate 2nd --iterator element in vector is expected cert", *--current_cert == (*test_vector)[0]);
// validate remove
// validate create from empty vector
test_vector = new LLBasicCertificateVector();
test_vector->add(new LLBasicCertificate(mPemTestCert));
test_vector->add(new LLBasicCertificate(mPemChildCert));
test_vector->erase(test_vector->begin());
ensure_equals("one element in store after remove", test_vector->size(), 1);
test_cert = (*test_vector)[0]->getOpenSSLX509();
ensure("validate cert was removed", !X509_cmp(test_cert, mX509ChildCert));
X509_free(test_cert);
// validate insert
test_vector->insert(test_vector->begin(), new LLBasicCertificate(mPemChildCert));
test_cert = (*test_vector)[0]->getOpenSSLX509();
ensure("validate cert was inserted", !X509_cmp(test_cert, mX509ChildCert));
X509_free(test_cert);
//validate find
LLSD find_info = LLSD::emptyMap();
test_vector->insert(test_vector->begin(), new LLBasicCertificate(mPemRootCert));
find_info["issuer_name"] = LLSD::emptyMap();
find_info["issuer_name"]["commonName"] = "Roxies intermediate CA";
find_info["md5_digest"] = "97:24:c7:4c:d4:ba:2d:0e:9c:a1:18:8e:3a:c6:1f:c3";
current_cert = test_vector->find(find_info);
ensure("found", current_cert != test_vector->end());
ensure("found cert", (*current_cert).get() == (*test_vector)[1].get());
find_info["sha1_digest"] = "bad value";
current_cert =test_vector->find(find_info);
ensure("didn't find cert", current_cert == test_vector->end());
}
// test cert store
template<> template<>
void sechandler_basic_test_object::test<5>()
{
// validate load with nothing
LLFile::remove("mycertstore.pem");
LLPointer<LLBasicCertificateStore> test_store = new LLBasicCertificateStore("mycertstore.pem");
ensure_equals("when loading with nothing, we should result in no certs in store", test_store->size(), 0);
// validate load with empty file
test_store->save();
test_store = NULL;
test_store = new LLBasicCertificateStore("mycertstore.pem");
ensure_equals("when loading with nothing, we should result in no certs in store", test_store->size(), 0);
test_store=NULL;
// instantiate a cert store from a file
std::ofstream certstorefile("mycertstore.pem", std::ios::out);
certstorefile << mPemChildCert << std::endl << mPemTestCert << std::endl;
certstorefile.close();
// validate loaded certs
test_store = new LLBasicCertificateStore("mycertstore.pem");
ensure_equals("two elements in store", test_store->size(), 2);
// operator[]
X509* test_cert = (*test_store)[0]->getOpenSSLX509();
ensure("validate first element in store is expected cert", !X509_cmp(test_cert, mX509ChildCert));
X509_free(test_cert);
test_cert = (*test_store)[1]->getOpenSSLX509();
ensure("validate second element in store is expected cert", !X509_cmp(test_cert, mX509TestCert));
X509_free(test_cert);
// validate save
LLFile::remove("mycertstore.pem");
test_store->save();
test_store = NULL;
test_store = new LLBasicCertificateStore("mycertstore.pem");
ensure_equals("two elements in store after save", test_store->size(), 2);
LLCertificateStore::iterator current_cert = test_store->begin();
test_cert = (*current_cert)->getOpenSSLX509();
ensure("validate first element in store is expected cert", !X509_cmp(test_cert, mX509ChildCert));
current_cert++;
X509_free(test_cert);
test_cert = (*current_cert)->getOpenSSLX509();
ensure("validate second element in store is expected cert", !X509_cmp(test_cert, mX509TestCert));
X509_free(test_cert);
current_cert++;
ensure("end of cert store", current_cert == test_store->end());
}
// cert name wildcard matching
template<> template<>
void sechandler_basic_test_object::test<6>()
{
ensure("simple name match",
_cert_hostname_wildcard_match("foo", "foo"));
ensure("simple name match, with end period",
_cert_hostname_wildcard_match("foo.", "foo."));
ensure("simple name match, with begin period",
_cert_hostname_wildcard_match(".foo", ".foo"));
ensure("simple name match, with mismatched period cn",
_cert_hostname_wildcard_match("foo.", "foo"));
ensure("simple name match, with mismatched period hostname",
_cert_hostname_wildcard_match("foo", "foo."));
ensure("simple name match, with subdomain",
_cert_hostname_wildcard_match("foo.bar", "foo.bar"));
ensure("stutter name match",
_cert_hostname_wildcard_match("foobbbbfoo", "foo*bbbfoo"));
ensure("simple name match, with beginning wildcard",
_cert_hostname_wildcard_match("foobar", "*bar"));
ensure("simple name match, with ending wildcard",
_cert_hostname_wildcard_match("foobar", "foo*"));
ensure("simple name match, with beginning null wildcard",
_cert_hostname_wildcard_match("foobar", "*foobar"));
ensure("simple name match, with ending null wildcard",
_cert_hostname_wildcard_match("foobar", "foobar*"));
ensure("simple name match, with embedded wildcard",
_cert_hostname_wildcard_match("foobar", "f*r"));
ensure("simple name match, with embedded null wildcard",
_cert_hostname_wildcard_match("foobar", "foo*bar"));
ensure("simple name match, with dual embedded wildcard",
_cert_hostname_wildcard_match("foobar", "f*o*ar"));
ensure("simple name mismatch",
!_cert_hostname_wildcard_match("bar", "foo"));
ensure("simple name mismatch, with end period",
!_cert_hostname_wildcard_match("foobar.", "foo."));
ensure("simple name mismatch, with begin period",
!_cert_hostname_wildcard_match(".foobar", ".foo"));
ensure("simple name mismatch, with subdomain",
!_cert_hostname_wildcard_match("foobar.bar", "foo.bar"));
ensure("simple name mismatch, with beginning wildcard",
!_cert_hostname_wildcard_match("foobara", "*bar"));
ensure("simple name mismatch, with ending wildcard",
!_cert_hostname_wildcard_match("oobar", "foo*"));
ensure("simple name mismatch, with embedded wildcard",
!_cert_hostname_wildcard_match("oobar", "f*r"));
ensure("simple name mismatch, with dual embedded wildcard",
!_cert_hostname_wildcard_match("foobar", "f*d*ar"));
ensure("simple wildcard",
_cert_hostname_wildcard_match("foobar", "*"));
ensure("long domain",
_cert_hostname_wildcard_match("foo.bar.com", "foo.bar.com"));
ensure("long domain with multiple wildcards",
_cert_hostname_wildcard_match("foo.bar.com", "*.b*r.com"));
ensure("end periods",
_cert_hostname_wildcard_match("foo.bar.com.", "*.b*r.com."));
ensure("match end period",
_cert_hostname_wildcard_match("foo.bar.com.", "*.b*r.com"));
ensure("match end period2",
_cert_hostname_wildcard_match("foo.bar.com", "*.b*r.com."));
ensure("wildcard mismatch",
!_cert_hostname_wildcard_match("bar.com", "*.bar.com"));
ensure("wildcard match",
_cert_hostname_wildcard_match("foo.bar.com", "*.bar.com"));
ensure("wildcard match",
_cert_hostname_wildcard_match("foo.foo.bar.com", "*.bar.com"));
ensure("wildcard match",
_cert_hostname_wildcard_match("foo.foo.bar.com", "*.*.com"));
ensure("wildcard mismatch",
!_cert_hostname_wildcard_match("foo.foo.bar.com", "*.foo.com"));
}
// test cert chain
template<> template<>
void sechandler_basic_test_object::test<7>()
{
// validate create from empty chain
LLPointer<LLBasicCertificateChain> test_chain = new LLBasicCertificateChain(NULL);
ensure_equals("when loading with nothing, we should result in no certs in chain", test_chain->size(), 0);
// Single cert in the chain.
X509_STORE_CTX *test_store = X509_STORE_CTX_new();
test_store->cert = mX509ChildCert;
test_store->untrusted = NULL;
test_chain = new LLBasicCertificateChain(test_store);
X509_STORE_CTX_free(test_store);
ensure_equals("two elements in store", test_chain->size(), 1);
X509* test_cert = (*test_chain)[0]->getOpenSSLX509();
ensure("validate first element in store is expected cert", !X509_cmp(test_cert, mX509ChildCert));
X509_free(test_cert);
// cert + CA
test_store = X509_STORE_CTX_new();
test_store->cert = mX509ChildCert;
test_store->untrusted = sk_X509_new_null();
sk_X509_push(test_store->untrusted, mX509IntermediateCert);
test_chain = new LLBasicCertificateChain(test_store);
X509_STORE_CTX_free(test_store);
ensure_equals("two elements in store", test_chain->size(), 2);
test_cert = (*test_chain)[0]->getOpenSSLX509();
ensure("validate first element in store is expected cert", !X509_cmp(test_cert, mX509ChildCert));
X509_free(test_cert);
test_cert = (*test_chain)[1]->getOpenSSLX509();
ensure("validate second element in store is expected cert", !X509_cmp(test_cert, mX509IntermediateCert));
X509_free(test_cert);
// cert + nonrelated
test_store = X509_STORE_CTX_new();
test_store->cert = mX509ChildCert;
test_store->untrusted = sk_X509_new_null();
sk_X509_push(test_store->untrusted, mX509TestCert);
test_chain = new LLBasicCertificateChain(test_store);
X509_STORE_CTX_free(test_store);
ensure_equals("two elements in store", test_chain->size(), 1);
test_cert = (*test_chain)[0]->getOpenSSLX509();
ensure("validate first element in store is expected cert", !X509_cmp(test_cert, mX509ChildCert));
X509_free(test_cert);
// cert + CA + nonrelated
test_store = X509_STORE_CTX_new();
test_store->cert = mX509ChildCert;
test_store->untrusted = sk_X509_new_null();
sk_X509_push(test_store->untrusted, mX509IntermediateCert);
sk_X509_push(test_store->untrusted, mX509TestCert);
test_chain = new LLBasicCertificateChain(test_store);
X509_STORE_CTX_free(test_store);
ensure_equals("two elements in store", test_chain->size(), 2);
test_cert = (*test_chain)[0]->getOpenSSLX509();
ensure("validate first element in store is expected cert", !X509_cmp(test_cert, mX509ChildCert));
X509_free(test_cert);
test_cert = (*test_chain)[1]->getOpenSSLX509();
ensure("validate second element in store is expected cert", !X509_cmp(test_cert, mX509IntermediateCert));
X509_free(test_cert);
// cert + intermediate + CA
test_store = X509_STORE_CTX_new();
test_store->cert = mX509ChildCert;
test_store->untrusted = sk_X509_new_null();
sk_X509_push(test_store->untrusted, mX509IntermediateCert);
sk_X509_push(test_store->untrusted, mX509RootCert);
test_chain = new LLBasicCertificateChain(test_store);
X509_STORE_CTX_free(test_store);
ensure_equals("three elements in store", test_chain->size(), 3);
test_cert = (*test_chain)[0]->getOpenSSLX509();
ensure("validate first element in store is expected cert", !X509_cmp(test_cert, mX509ChildCert));
X509_free(test_cert);
test_cert = (*test_chain)[1]->getOpenSSLX509();
ensure("validate second element in store is expected cert", !X509_cmp(test_cert, mX509IntermediateCert));
X509_free(test_cert);
test_cert = (*test_chain)[2]->getOpenSSLX509();
ensure("validate second element in store is expected cert", !X509_cmp(test_cert, mX509RootCert));
X509_free(test_cert);
}
// test cert validation
template<> template<>
void sechandler_basic_test_object::test<8>()
{
// start with a trusted store with our known root cert
LLFile::remove("mycertstore.pem");
LLPointer<LLBasicCertificateStore> test_store = new LLBasicCertificateStore("mycertstore.pem");
test_store->add(new LLBasicCertificate(mX509RootCert));
LLSD validation_params;
// validate basic trust for a chain containing only the intermediate cert. (1 deep)
LLPointer<LLBasicCertificateChain> test_chain = new LLBasicCertificateChain(NULL);
test_chain->add(new LLBasicCertificate(mX509IntermediateCert));
test_store->validate(0, test_chain, validation_params);
// add the root certificate to the chain and revalidate
test_chain->add(new LLBasicCertificate(mX509RootCert));
test_store->validate(0, test_chain, validation_params);
// add the child cert at the head of the chain, and revalidate (3 deep chain)
test_chain->insert(test_chain->begin(), new LLBasicCertificate(mX509ChildCert));
test_store->validate(0, test_chain, validation_params);
// basic failure cases
test_chain = new LLBasicCertificateChain(NULL);
//validate with only the child cert in chain, but child cert was previously
// trusted
test_chain->add(new LLBasicCertificate(mX509ChildCert));
// validate without the trust flag.
test_store->validate(VALIDATION_POLICY_TRUSTED, test_chain, validation_params);
// Validate with child cert but no parent, and no parent in CA store
test_store = new LLBasicCertificateStore("mycertstore.pem");
ensure_throws("no CA, with only a child cert",
LLCertValidationTrustException,
(*test_chain)[0],
test_store->validate,
VALIDATION_POLICY_TRUSTED,
test_chain,
validation_params);
// validate without the trust flag.
test_store->validate(0, test_chain, validation_params);
// clear out the store
test_store = new LLBasicCertificateStore("mycertstore.pem");
// append the intermediate cert
test_chain->add(new LLBasicCertificate(mX509IntermediateCert));
ensure_throws("no CA, with child and intermediate certs",
LLCertValidationTrustException,
(*test_chain)[1],
test_store->validate,
VALIDATION_POLICY_TRUSTED,
test_chain,
validation_params);
// validate without the trust flag
test_store->validate(0, test_chain, validation_params);
// Test time validity
LLSD child_info;
((*test_chain)[0])->getLLSD(child_info);
validation_params = LLSD::emptyMap();
validation_params[CERT_VALIDATION_DATE] = LLDate(child_info[CERT_VALID_FROM].asDate().secondsSinceEpoch() + 1.0);
test_store->validate(VALIDATION_POLICY_TIME, test_chain, validation_params);
validation_params = LLSD::emptyMap();
validation_params[CERT_VALIDATION_DATE] = child_info[CERT_VALID_FROM].asDate();
validation_params[CERT_VALIDATION_DATE] = LLDate(child_info[CERT_VALID_FROM].asDate().secondsSinceEpoch() - 1.0);
// test not yet valid
ensure_throws("Child cert not yet valid" ,
LLCertValidationExpirationException,
(*test_chain)[0],
test_store->validate,
VALIDATION_POLICY_TIME,
test_chain,
validation_params);
validation_params = LLSD::emptyMap();
validation_params[CERT_VALIDATION_DATE] = LLDate(child_info[CERT_VALID_TO].asDate().secondsSinceEpoch() + 1.0);
// test cert expired
ensure_throws("Child cert expired",
LLCertValidationExpirationException,
(*test_chain)[0],
test_store->validate,
VALIDATION_POLICY_TIME,
test_chain,
validation_params);
// test SSL KU
// validate basic trust for a chain containing child and intermediate.
test_chain = new LLBasicCertificateChain(NULL);
test_chain->add(new LLBasicCertificate(mX509ChildCert));
test_chain->add(new LLBasicCertificate(mX509IntermediateCert));
test_store->validate(VALIDATION_POLICY_SSL_KU, test_chain, validation_params);
test_chain = new LLBasicCertificateChain(NULL);
test_chain->add(new LLBasicCertificate(mX509TestCert));
test_store = new LLBasicCertificateStore("mycertstore.pem");
ensure_throws("Cert doesn't have ku",
LLCertKeyUsageValidationException,
(*test_chain)[0],
test_store->validate,
VALIDATION_POLICY_SSL_KU,
test_chain,
validation_params);
// test sha1RSA validation
test_chain = new LLBasicCertificateChain(NULL);
test_chain->add(new LLBasicCertificate(mSha1RSATestCert));
test_chain->add(new LLBasicCertificate(mSha1RSATestCA));
test_store->validate(0, test_chain, validation_params);
}
};
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