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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/*
* test_subjaltnamechecker.c
*
* Test Subject Alternative Name Checking
*
*/
/*
* There is no subjaltnamechecker. Instead, targetcertchecker is doing
* the job for checking subject alternative names' validity. For testing,
* in order to enter names with various type, we create this test excutable
* to parse different scenario.
*/
#include "testutil.h"
#include "testutil_nss.h"
#define PKIX_TEST_MAX_CERTS 10
static void *plContext = NULL;
static void
printUsage1(char *pName)
{
printf("\nUSAGE: %s test-name [ENE|EE] ", pName);
printf("cert [certs].\n");
}
static void
printUsage2(char *name)
{
printf("\ninvalid test-name syntax - %s", name);
printf("\ntest-name syntax: [01][DNORU]:<name>+...");
printf("\n [01] 1 - match all; 0 - match one");
printf("\n name - type can be specified as");
printf("\n [DNORU] D-Directory name");
printf("\n N-DNS name");
printf("\n O-OID name");
printf("\n R-RFC822 name");
printf("\n U-URI name");
printf("\n + separator for more names\n\n");
}
static void
printUsageMax(PKIX_UInt32 numCerts)
{
printf("\nUSAGE ERROR: number of certs %d exceed maximum %d\n",
numCerts, PKIX_TEST_MAX_CERTS);
}
static PKIX_UInt32
getNameType(char *name)
{
PKIX_UInt32 nameType;
PKIX_TEST_STD_VARS();
switch (*name) {
case 'D':
nameType = PKIX_DIRECTORY_NAME;
break;
case 'N':
nameType = PKIX_DNS_NAME;
break;
case 'O':
nameType = PKIX_OID_NAME;
break;
case 'R':
nameType = PKIX_RFC822_NAME;
break;
case 'U':
nameType = PKIX_URI_NAME;
break;
default:
printUsage2(name);
nameType = 0xFFFF;
}
goto cleanup;
cleanup:
PKIX_TEST_RETURN();
return (nameType);
}
int
test_subjaltnamechecker(int argc, char *argv[])
{
PKIX_List *chain = NULL;
PKIX_ValidateParams *valParams = NULL;
PKIX_ValidateResult *valResult = NULL;
PKIX_CertSelector *selector = NULL;
PKIX_ComCertSelParams *selParams = NULL;
PKIX_ProcessingParams *procParams = NULL;
PKIX_PL_GeneralName *name = NULL;
PKIX_UInt32 actualMinorVersion;
char *certNames[PKIX_TEST_MAX_CERTS];
PKIX_PL_Cert *certs[PKIX_TEST_MAX_CERTS];
PKIX_UInt32 chainLength = 0;
PKIX_UInt32 i = 0;
PKIX_UInt32 j = 0;
char *nameStr;
char *nameEnd;
char *names[PKIX_TEST_MAX_CERTS];
PKIX_UInt32 numNames = 0;
PKIX_UInt32 nameType;
PKIX_Boolean matchAll = PKIX_TRUE;
PKIX_Boolean testValid = PKIX_TRUE;
char *dirName = NULL;
char *anchorName = NULL;
PKIX_VerifyNode *verifyTree = NULL;
PKIX_PL_String *verifyString = NULL;
PKIX_TEST_STD_VARS();
if (argc < 5) {
printUsage1(argv[0]);
return (0);
}
startTests("SubjAltNameConstraintChecker");
PKIX_TEST_EXPECT_NO_ERROR(
PKIX_PL_NssContext_Create(0, PKIX_FALSE, NULL, &plContext));
j++; /* skip test-purpose string */
/* ENE = expect no error; EE = expect error */
if (PORT_Strcmp(argv[2 + j], "ENE") == 0) {
testValid = PKIX_TRUE;
} else if (PORT_Strcmp(argv[2 + j], "EE") == 0) {
testValid = PKIX_FALSE;
} else {
printUsage1(argv[0]);
return (0);
}
/* taking out leading and trailing ", if any */
nameStr = argv[1 + j];
subTest(nameStr);
if (*nameStr == '"') {
nameStr++;
nameEnd = nameStr;
while (*nameEnd != '"' && *nameEnd != '\0') {
nameEnd++;
}
*nameEnd = '\0';
}
/* extract first [0|1] inidcating matchAll or not */
matchAll = (*nameStr == '0') ? PKIX_FALSE : PKIX_TRUE;
nameStr++;
numNames = 0;
while (*nameStr != '\0') {
names[numNames++] = nameStr;
while (*nameStr != '+' && *nameStr != '\0') {
nameStr++;
}
if (*nameStr == '+') {
*nameStr = '\0';
nameStr++;
}
}
chainLength = (argc - j) - 4;
if (chainLength > PKIX_TEST_MAX_CERTS) {
printUsageMax(chainLength);
}
for (i = 0; i < chainLength; i++) {
certNames[i] = argv[(4 + j) + i];
certs[i] = NULL;
}
/* SubjAltName for validation */
subTest("Add Subject Alt Name for NameConstraint checking");
subTest("Create Selector and ComCertSelParams");
PKIX_TEST_EXPECT_NO_ERROR(PKIX_CertSelector_Create(NULL, NULL, &selector, plContext));
PKIX_TEST_EXPECT_NO_ERROR(PKIX_ComCertSelParams_Create(&selParams, plContext));
PKIX_TEST_EXPECT_NO_ERROR(PKIX_CertSelector_SetCommonCertSelectorParams(selector, selParams, plContext));
subTest("PKIX_ComCertSelParams_SetMatchAllSubjAltNames");
PKIX_TEST_EXPECT_NO_ERROR(PKIX_ComCertSelParams_SetMatchAllSubjAltNames(selParams, matchAll, plContext));
subTest("PKIX_ComCertSelParams_AddSubjAltName(s)");
for (i = 0; i < numNames; i++) {
nameType = getNameType(names[i]);
if (nameType == 0xFFFF) {
return (0);
}
nameStr = names[i] + 2;
name = createGeneralName(nameType, nameStr, plContext);
PKIX_TEST_EXPECT_NO_ERROR(PKIX_ComCertSelParams_AddSubjAltName(selParams, name, plContext));
PKIX_TEST_DECREF_BC(name);
}
subTest("SubjAltName-Constraints - Create Cert Chain");
dirName = argv[3 + j];
chain = createCertChainPlus(dirName, certNames, certs, chainLength, plContext);
subTest("SubjAltName-Constraints - Create Params");
valParams = createValidateParams(dirName,
argv[4 +
j],
NULL,
NULL,
NULL,
PKIX_FALSE,
PKIX_FALSE,
PKIX_FALSE,
PKIX_FALSE,
chain,
plContext);
subTest("PKIX_ValidateParams_getProcessingParams");
PKIX_TEST_EXPECT_NO_ERROR(PKIX_ValidateParams_GetProcessingParams(valParams, &procParams, plContext));
subTest("PKIX_ProcessingParams_SetTargetCertConstraints");
PKIX_TEST_EXPECT_NO_ERROR(PKIX_ProcessingParams_SetTargetCertConstraints(procParams, selector, plContext));
subTest("Subject Alt Name - Validate Chain");
if (testValid == PKIX_TRUE) {
PKIX_TEST_EXPECT_NO_ERROR(PKIX_ValidateChain(valParams, &valResult, &verifyTree, plContext));
} else {
PKIX_TEST_EXPECT_ERROR(PKIX_ValidateChain(valParams, &valResult, &verifyTree, plContext));
}
cleanup:
PKIX_PL_Free(anchorName, plContext);
PKIX_TEST_DECREF_AC(verifyString);
PKIX_TEST_DECREF_AC(verifyTree);
PKIX_TEST_DECREF_AC(chain);
PKIX_TEST_DECREF_AC(valParams);
PKIX_TEST_DECREF_AC(valResult);
PKIX_TEST_DECREF_AC(selector);
PKIX_TEST_DECREF_AC(selParams);
PKIX_TEST_DECREF_AC(procParams);
PKIX_TEST_DECREF_AC(name);
PKIX_Shutdown(plContext);
PKIX_TEST_RETURN();
endTests("SubjAltNameConstraintsChecker");
return (0);
}