#include "keychain_regressions.h"
#include <CoreFoundation/CoreFoundation.h>
#include <Security/Security.h>
#include <Security/SecBase.h>
#include <Security/SecBasePriv.h>
#include <Security/SecKeychainPriv.h>
#include <TargetConditionals.h>
#include <Security/cssmapi.h>
#include <stdlib.h>
#include <sys/stat.h>
#include <copyfile.h>
#include <unistd.h>
#include "kc-30-xara-item-helpers.h"
#include "kc-30-xara-key-helpers.h"
#include "kc-30-xara-upgrade-helpers.h"
#if TARGET_OS_MAC
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wunused-variable"
#pragma clang diagnostic ignored "-Wunused-function"
static void *cssmMalloc(CSSM_SIZE size, void *allocRef) { return malloc(size); }
static void cssmFree(void *mem_ptr, void *allocRef) { free(mem_ptr); return; }
static void *cssmRealloc(void *ptr, CSSM_SIZE size, void *allocRef) { return realloc( ptr, size ); }
static void *cssmCalloc(uint32 num, CSSM_SIZE size, void *allocRef) { return calloc( num, size ); }
static CSSM_API_MEMORY_FUNCS memFuncs = { cssmMalloc, cssmFree, cssmRealloc, cssmCalloc, NULL };
static CSSM_DL_DB_HANDLE initializeDL() {
CSSM_VERSION version = { 2, 0 };
CSSM_DL_DB_HANDLE dldbHandle = { 0, 0 };
CSSM_GUID myGuid = { 0xFADE, 0, 0, { 1, 2, 3, 4, 5, 6, 7, 0 } };
CSSM_PVC_MODE pvcPolicy = CSSM_PVC_NONE;
ok_status(CSSM_Init(&version, CSSM_PRIVILEGE_SCOPE_NONE, &myGuid, CSSM_KEY_HIERARCHY_NONE, &pvcPolicy, NULL), "cssm_init");
ok_status(CSSM_ModuleLoad(&gGuidAppleFileDL, CSSM_KEY_HIERARCHY_NONE, NULL, NULL), "module_load");
ok_status(CSSM_ModuleAttach(&gGuidAppleFileDL, &version, &memFuncs, 0, CSSM_SERVICE_DL, 0, CSSM_KEY_HIERARCHY_NONE, NULL, 0, NULL, &dldbHandle.DLHandle), "module_attach");
return dldbHandle;
}
#define initializeDLTests 3
static void unloadDL(CSSM_DL_DB_HANDLE* dldbHandle) {
ok_status(CSSM_ModuleDetach(dldbHandle->DLHandle), "detach");
ok_status(CSSM_ModuleUnload(&gGuidAppleFileDL, NULL, NULL), "unload");
ok_status(CSSM_Terminate(), "terminate");
}
#define unloadDLTests 3
static void modifyAttributeInKeychain(char * name, CSSM_DL_DB_HANDLE dldbHandle, char * keychainName, CSSM_DB_RECORDTYPE recordType, char* attributeName, char* newValue, size_t len) {
CSSM_RETURN status = CSSM_OK;
ok_status(CSSM_DL_DbOpen(dldbHandle.DLHandle, keychainName,
NULL,
CSSM_DB_ACCESS_READ | CSSM_DB_ACCESS_WRITE,
NULL,
NULL,
&dldbHandle.DBHandle), "%s: CSSM_DL_DbOpen", name);
CSSM_QUERY queryAll = {};
queryAll.RecordType = recordType;
CSSM_HANDLE results = 0;
CSSM_DATA data = {};
CSSM_DB_UNIQUE_RECORD_PTR uniqueIdPtr = NULL;
CSSM_DB_RECORD_ATTRIBUTE_DATA attributes = {};
attributes.NumberOfAttributes = 1;
attributes.AttributeData = malloc(sizeof(CSSM_DB_ATTRIBUTE_DATA) * attributes.NumberOfAttributes);
attributes.AttributeData[0].Info.Label.AttributeName = attributeName;
attributes.AttributeData[0].Info.AttributeNameFormat = CSSM_DB_ATTRIBUTE_NAME_AS_STRING;
attributes.AttributeData[0].NumberOfValues = 1;
attributes.AttributeData[0].Value = malloc(sizeof(CSSM_DATA)*attributes.AttributeData[0].NumberOfValues);
status = CSSM_DL_DataGetFirst(dldbHandle, &queryAll, &results, &attributes, &data, &uniqueIdPtr);
while(status == CSSM_OK) {
attributes.AttributeData[0].Value[0].Data = (void*)newValue;
attributes.AttributeData[0].Value[0].Length = strlen(newValue);
CSSM_DL_DataModify(dldbHandle,
attributes.DataRecordType,
uniqueIdPtr,
&attributes,
NULL, CSSM_DB_MODIFY_ATTRIBUTE_REPLACE);
CSSM_DL_FreeUniqueRecord(dldbHandle, uniqueIdPtr);
status = CSSM_DL_DataGetNext(dldbHandle, results, &attributes, &data, &uniqueIdPtr);
}
ok_status(CSSM_DL_DbClose(dldbHandle), "%s: CSSM_DL_DbClose", name);
}
#define modifyAttributeInKeychainTests 2
static void testAttackItem(CSSM_DL_DB_HANDLE dldbHandle) {
char * name = "testAttackItem";
secnotice("integrity", "************************************* %s", name);
SecKeychainRef kc = newKeychain(name);
checkN(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 0);
makeItemWithIntegrity(name, kc, kSecClassGenericPassword, CFSTR("265438ea6807b509c9c6962df3f5033fd1af118f76c5f550e3ed90cb0d3ffce4"));
SecKeychainItemRef item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
CFReleaseNull(item);
CFReleaseNull(kc);
char * modification = "evil_application";
modifyAttributeInKeychain(name, dldbHandle, keychainDbFile, CSSM_DL_DB_RECORD_GENERIC_PASSWORD, "PrintName", modification, strlen(modification));
kc = openKeychain(name);
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
readPasswordContentsWithResult(item, errSecInvalidItemRef, NULL);
ok_status(SecKeychainDelete(kc), "%s: SecKeychainDelete", name);
CFReleaseNull(kc);
}
#define testAttackItemTests (newKeychainTests + checkNTests + makeItemWithIntegrityTests + checkNTests + modifyAttributeInKeychainTests + openKeychainTests + checkNTests + readPasswordContentsWithResultTests + 1)
static void testAttackKey(CSSM_DL_DB_HANDLE dldbHandle) {
char * name = "testAttackKey";
secnotice("integrity", "************************************* %s", name);
SecKeychainRef kc = newKeychain(name);
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassSymmetric), 0);
makeKeyWithIntegrity(name, kc, CFSTR("44f10f6bb508d47f8905859efc06eaee500304bc4da408b1f4d2a58c6502147b"));
SecKeychainItemRef item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassSymmetric), 1);
checkKeyUse((SecKeyRef) item, errSecSuccess);
CFReleaseNull(item);
CFReleaseNull(kc);
char * modification = "evil_application";
modifyAttributeInKeychain(name, dldbHandle, keychainDbFile, CSSM_DL_DB_RECORD_SYMMETRIC_KEY, "Label", modification, strlen(modification));
kc = openKeychain(name);
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassSymmetric), 1);
checkKeyUse((SecKeyRef) item, errSecInvalidItemRef);
ok_status(SecKeychainDelete(kc), "%s: SecKeychainDelete", name);
CFReleaseNull(kc);
}
#define testAttackKeyTests (newKeychainTests + checkNTests + makeKeyWithIntegrityTests + checkNTests + checkKeyUseTests + modifyAttributeInKeychainTests \
+ openKeychainTests + checkNTests + checkKeyUseTests + 1)
static void testAddAfterCorruptItem(CSSM_DL_DB_HANDLE dldbHandle) {
char * name = "testAddAfterCorruptItem";
secnotice("integrity", "************************************* %s", name);
SecKeychainRef kc = newKeychain(name);
checkN(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 0);
makeCustomItemWithIntegrity(name, kc, kSecClassGenericPassword, CFSTR("test_label"), CFSTR("265438ea6807b509c9c6962df3f5033fd1af118f76c5f550e3ed90cb0d3ffce4"));
checkN(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
makeDuplicateItem(name, kc, kSecClassGenericPassword);
CFReleaseNull(kc);
char * modification = "evil_application";
modifyAttributeInKeychain(name, dldbHandle, keychainDbFile, CSSM_DL_DB_RECORD_GENERIC_PASSWORD, "PrintName", modification, strlen(modification));
kc = openKeychain(name);
SecKeychainItemRef item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
deleteItem(item);
checkN(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 0);
makeCustomItemWithIntegrity(name, kc, kSecClassGenericPassword, CFSTR("evil_application"), CFSTR("d2aa97b30a1f96f9e61fcade2b00d9f4284976a83a5b68392251ee5ec827f8cc"));
checkN(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
makeCustomDuplicateItem(name, kc, kSecClassGenericPassword, CFSTR("evil_application"));
ok_status(SecKeychainDelete(kc), "%s: SecKeychainDelete", name);
CFReleaseNull(kc);
}
#define testAddAfterCorruptItemTests (newKeychainTests + checkNTests + makeCustomItemWithIntegrityTests + checkNTests + makeDuplicateItemTests \
+ modifyAttributeInKeychainTests + openKeychainTests + checkNTests + deleteItemTests \
+ checkNTests + makeCustomItemWithIntegrityTests + checkNTests + makeCustomDuplicateItemTests + 1)
static void testAddAfterCorruptKey(CSSM_DL_DB_HANDLE dldbHandle) {
char * name = "testAddAfterCorruptKey";
secnotice("integrity", "************************************* %s", name);
SecKeychainRef kc = newKeychain(name);
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassSymmetric), 0);
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPublic), 0);
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPrivate), 0);
makeCustomKeyWithIntegrity(name, kc, CFSTR("test_key"), CFSTR("44f10f6bb508d47f8905859efc06eaee500304bc4da408b1f4d2a58c6502147b"));
SecKeychainItemRef item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassSymmetric), 1);
makeCustomDuplicateKey(name, kc, CFSTR("test_key"));
CFReleaseNull(item);
SecKeyRef pub;
SecKeyRef priv;
makeCustomKeyPair(name, kc, CFSTR("test_key_pair"), &pub, &priv);
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPublic), 1);
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPrivate), 1);
CFReleaseNull(pub);
CFReleaseNull(priv);
ok_status(SecKeychainListRemoveKeychain(&kc), "%s: SecKeychainListRemoveKeychain", name);
char * modification = "evil_application";
modifyAttributeInKeychain(name, dldbHandle, keychainDbFile, CSSM_DL_DB_RECORD_SYMMETRIC_KEY, "PrintName", modification, strlen(modification));
modifyAttributeInKeychain(name, dldbHandle, keychainDbFile, CSSM_DL_DB_RECORD_PUBLIC_KEY, "PrintName", modification, strlen(modification));
modifyAttributeInKeychain(name, dldbHandle, keychainDbFile, CSSM_DL_DB_RECORD_PRIVATE_KEY, "PrintName", modification, strlen(modification));
kc = openKeychain(name);
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassSymmetric), 1);
deleteItem(item);
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassSymmetric), 0);
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPublic), 1);
deleteItem(item);
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPublic), 0);
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPrivate), 1);
deleteItem(item);
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPrivate), 0);
makeCustomKeyWithIntegrity(name, kc, CFSTR("evil_application"), CFSTR("ca6d90a0b053113e43bbb67f64030230c96537f77601f66bdf821d8684431dfc"));
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassSymmetric), 1);
makeCustomDuplicateKey(name, kc, CFSTR("evil_application"));
makeCustomKeyPair(name, kc, CFSTR("evil_application"), &pub, &priv);
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPublic), 1);
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPrivate), 1);
CFReleaseNull(item);
ok_status(SecKeychainDelete(kc), "%s: SecKeychainDelete", name);
CFReleaseNull(kc);
}
#define testAddAfterCorruptKeyTests (newKeychainTests \
+ checkNTests + checkNTests + checkNTests \
+ makeCustomKeyWithIntegrityTests + checkNTests + makeCustomDuplicateKeyTests \
+ makeCustomKeyPairTests + checkNTests + checkNTests \
+ 1 \
+ modifyAttributeInKeychainTests \
+ modifyAttributeInKeychainTests \
+ modifyAttributeInKeychainTests \
+ openKeychainTests \
+ checkNTests + deleteItemTests + checkNTests \
+ checkNTests + deleteItemTests + checkNTests \
+ checkNTests + deleteItemTests + checkNTests \
+ makeCustomKeyWithIntegrityTests + checkNTests \
+ makeCustomDuplicateKeyTests \
+ makeCustomKeyPairTests + checkNTests + checkNTests \
+ 1)
#define version_MacOS_10_0 0x00000100
#define version_partition 0x00000200
static void testKeychainUpgrade() {
char name[100];
sprintf(name, "testKeychainUpgrade");
secnotice("integrity", "************************************* %s", name);
UInt32 version;
char* path = malloc(sizeof(char) * 400);
UInt32 len = 400;
char oldkcFile[MAXPATHLEN];
snprintf(oldkcFile, sizeof(oldkcFile), "%s/Library/test.keychain", getenv("HOME"));
unlink(oldkcFile);
writeOldKeychain(name, oldkcFile);
SecKeychainRef kc = openCustomKeychain(name, oldkcFile, "password");
for(int i = 0; i < 200; i++) {
CFTypeRef result = NULL;
CFStringRef cflabel = CFStringCreateWithFormat(NULL, NULL, CFSTR("item%d"), i);
CFMutableDictionaryRef query = createAddCustomItemDictionaryWithService(kc, kSecClassInternetPassword, cflabel, cflabel, CFSTR("no service"));
SecItemAdd(query, &result); CFReleaseNull(query);
CFReleaseNull(cflabel);
CFReleaseNull(result);
}
CFReleaseNull(kc);
ok_status(copyfile(oldkcFile, keychainFile, NULL, COPYFILE_UNLINK | COPYFILE_ALL), "%s: copyfile", name);
unlink(oldkcFile);
unlink(keychainDbFile);
static dispatch_once_t onceToken = 0;
static dispatch_queue_t release_queue = NULL;
dispatch_once(&onceToken, ^{
release_queue = dispatch_queue_create("com.apple.security.keychain-upgrade-queue", DISPATCH_QUEUE_CONCURRENT);
});
dispatch_group_t g = dispatch_group_create();
SecKeychainItemRef item;
char* __block blockName = NULL;
asprintf(&blockName, "%s", name);
kc = openCustomKeychain(name, keychainName, "password");
dispatch_group_async(g, release_queue, ^() {
secerror("beginning 1\n");
SecKeychainRef blockKc;
SecKeychainOpen(keychainName, &blockKc);
SecKeychainItemRef item = checkNCopyFirst(blockName, createQueryItemDictionary(blockKc, kSecClassGenericPassword), 1);
checkIntegrityHash(blockName, item, CFSTR("39c56eadd3e3b496b6099e5f3d5ff88eaee9ca2e3a50c1be8319807a72e451e5"));
checkPartitionIDs(blockName, item, 0);
CFReleaseSafe(blockKc);
CFReleaseSafe(item);
secerror("ending 1\n");
});
dispatch_group_async(g, release_queue, ^() {
usleep(0.1 * USEC_PER_SEC); secerror("beginning 2\n");
SecKeychainRef blockKc;
SecKeychainOpen(keychainName, &blockKc);
SecKeychainItemRef item = checkNCopyFirst(blockName, createQueryItemDictionaryWithService(blockKc, kSecClassInternetPassword, CFSTR("test_service")), 1);
checkIntegrityHash(blockName, item, CFSTR("4f1b64e3c156968916e72d8ff3f1a8eb78b32abe0b2b43f0578eb07c722aaf03"));
checkPartitionIDs(blockName, item, 0);
CFReleaseSafe(blockKc);
CFReleaseSafe(item);
secerror("ending 2\n");
});
dispatch_group_async(g, release_queue, ^() {
usleep(0.3 * USEC_PER_SEC);
secerror("beginning 3\n");
SecKeychainRef blockKc;
SecKeychainOpen(keychainName, &blockKc);
SecKeychainItemRef item = checkNCopyFirst(blockName, createQueryKeyDictionary(blockKc, kSecAttrKeyClassSymmetric), 1);
checkIntegrityHash(blockName, (SecKeychainItemRef) item, CFSTR("44f10f6bb508d47f8905859efc06eaee500304bc4da408b1f4d2a58c6502147b"));
checkPartitionIDs(blockName, (SecKeychainItemRef) item, 0);
CFReleaseSafe(blockKc);
CFReleaseSafe(item);
secerror("ending 3\n");
});
dispatch_group_async(g, release_queue, ^() {
usleep(0.5 * USEC_PER_SEC);
secerror("beginning 4\n");
SecKeychainRef blockKc;
SecKeychainOpen(keychainName, &blockKc);
SecKeychainItemRef item = checkNCopyFirst(blockName, createQueryKeyDictionary(blockKc, kSecAttrKeyClassPublic), 1);
checkIntegrityHash(blockName, (SecKeychainItemRef) item, CFSTR("42d29fd5e9935edffcf6d0261eabddb00782ec775caa93716119e8e553ab5578"));
checkPartitionIDs(blockName, (SecKeychainItemRef) item, 0);
CFReleaseSafe(blockKc);
CFReleaseSafe(item);
secerror("ending 4\n");
});
dispatch_group_async(g, release_queue, ^() {
usleep(1 * USEC_PER_SEC);
secerror("beginning 5\n");
SecKeychainRef blockKc;
SecKeychainOpen(keychainName, &blockKc);
SecKeychainItemRef item = checkNCopyFirst(blockName, createQueryKeyDictionary(blockKc, kSecAttrKeyClassPrivate), 1);
checkIntegrityHash(blockName, (SecKeychainItemRef) item, CFSTR("bdf219cdbc2dc6c4521cf39d1beda2e3491ef0330ba59eb41229dd909632f48d"));
checkPartitionIDs(blockName, (SecKeychainItemRef) item, 0);
CFReleaseSafe(blockKc);
CFReleaseSafe(item);
secerror("ending 5\n");
});
dispatch_group_wait(g, DISPATCH_TIME_FOREVER);
makeCustomDuplicateItem(name, kc, kSecClassGenericPassword, CFSTR("test_generic"));
makeCustomDuplicateItem(name, kc, kSecClassInternetPassword, CFSTR("test_internet"));
ok_status(SecKeychainGetKeychainVersion(kc, &version), "%s: SecKeychainGetKeychainVersion", name);
is(version, version_partition, "%s: version of upgraded keychain is incorrect", name);
ok_status(SecKeychainGetPath(kc, &len, path), "%s: SecKeychainGetKeychainPath", name);
eq_stringn(path, len, keychainDbFile, strlen(keychainDbFile), "%s: paths do not match", name);
free(path);
CFReleaseNull(kc);
kc = openCustomKeychain(name, keychainName, "password");
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
checkIntegrityHash(name, item, CFSTR("39c56eadd3e3b496b6099e5f3d5ff88eaee9ca2e3a50c1be8319807a72e451e5"));
checkPartitionIDs(name, item, 0);
makeCustomDuplicateItem(name, kc, kSecClassGenericPassword, CFSTR("test_generic"));
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassInternetPassword), 1);
checkIntegrityHash(name, item, CFSTR("4f1b64e3c156968916e72d8ff3f1a8eb78b32abe0b2b43f0578eb07c722aaf03"));
checkPartitionIDs(name, item, 0);
makeCustomDuplicateItem(name, kc, kSecClassInternetPassword, CFSTR("test_internet"));
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassSymmetric), 1);
checkIntegrityHash(name, (SecKeychainItemRef) item, CFSTR("44f10f6bb508d47f8905859efc06eaee500304bc4da408b1f4d2a58c6502147b"));
checkPartitionIDs(name, (SecKeychainItemRef) item, 0);
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPublic), 1);
checkIntegrityHash(name, (SecKeychainItemRef) item, CFSTR("42d29fd5e9935edffcf6d0261eabddb00782ec775caa93716119e8e553ab5578"));
checkPartitionIDs(name, (SecKeychainItemRef) item, 0);
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPrivate), 1);
checkIntegrityHash(name, (SecKeychainItemRef) item, CFSTR("bdf219cdbc2dc6c4521cf39d1beda2e3491ef0330ba59eb41229dd909632f48d"));
checkPartitionIDs(name, (SecKeychainItemRef) item, 0);
ok_status(SecKeychainDelete(kc), "%s: SecKeychainDelete", name);
CFReleaseNull(kc);
unlink(keychainDbFile);
unlink(keychainFile);
unlink(oldkcFile);
}
#define testKeychainUpgradeTests (openCustomKeychainTests + 1 + openCustomKeychainTests + 4 \
+ checkNTests + checkIntegrityHashTests + checkPartitionIDsTests + makeCustomDuplicateItemTests \
+ checkNTests + checkIntegrityHashTests + checkPartitionIDsTests + makeCustomDuplicateItemTests \
+ checkNTests + checkIntegrityHashTests + checkPartitionIDsTests \
+ checkNTests + checkIntegrityHashTests + checkPartitionIDsTests \
+ checkNTests + checkIntegrityHashTests + checkPartitionIDsTests \
+ openCustomKeychainTests \
+ checkNTests + checkIntegrityHashTests + checkPartitionIDsTests + makeCustomDuplicateItemTests \
+ checkNTests + checkIntegrityHashTests + checkPartitionIDsTests + makeCustomDuplicateItemTests \
+ checkNTests + checkIntegrityHashTests + checkPartitionIDsTests \
+ checkNTests + checkIntegrityHashTests + checkPartitionIDsTests \
+ checkNTests + checkIntegrityHashTests + checkPartitionIDsTests \
+ 1)
static void testKeychainCreateOver() {
char name[100];
sprintf(name, "testKeychainCreateOver");
secnotice("integrity", "************************************* %s", name);
UInt32 version;
char* path = malloc(sizeof(char) * 400);
UInt32 len = 400;
writeOldKeychain(name, keychainFile);
unlink(keychainDbFile);
SecKeychainItemRef item = NULL;
SecKeychainRef kc = openCustomKeychain(name, keychainName, "password");
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
checkIntegrityHash(name, item, CFSTR("39c56eadd3e3b496b6099e5f3d5ff88eaee9ca2e3a50c1be8319807a72e451e5"));
CFReleaseNull(item);
ok_status(SecKeychainDelete(kc));
CFReleaseNull(kc);
struct stat filebuf;
is(stat(keychainFile, &filebuf), 0, "%s: check %s exists", name, keychainFile);
isnt(stat(keychainDbFile, &filebuf), 0, "%s: check %s does not exist", name, keychainDbFile);
ok_status(SecKeychainCreate(keychainFile, (UInt32) strlen("password"), "password", false, NULL, &kc), "%s: SecKeychainCreate", name);
checkN(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 0);
checkN(name, createQueryItemDictionary(kc, kSecClassInternetPassword), 0);
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassSymmetric), 0);
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPublic), 0);
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPrivate), 0);
ok_status(SecKeychainGetKeychainVersion(kc, &version), "%s: SecKeychainGetKeychainVersion", name);
is(version, version_partition, "%s: version of upgraded keychain is incorrect", name);
ok_status(SecKeychainGetPath(kc, &len, path), "%s: SecKeychainGetKeychainPath", name);
eq_stringn(path, len, keychainDbFile, strlen(keychainDbFile), "%s: paths do not match", name);
free(path);
ok_status(SecKeychainDelete(kc), "%s: SecKeychainDelete", name);
CFReleaseNull(kc);
is(stat(keychainFile, &filebuf), 0, "%s: check %s exists", name, keychainFile);
isnt(stat(keychainDbFile, &filebuf), 0, "%s: check %s does not exist", name, keychainDbFile);
unlink(keychainDbFile);
unlink(keychainFile);
}
#define testKeychainCreateOverTests (openCustomKeychainTests + \
+ checkNTests + checkIntegrityHashTests \
+ 1 + 2 + 1 \
+ checkNTests \
+ checkNTests \
+ checkNTests \
+ checkNTests \
+ checkNTests \
+ 4 + 1 + 2)
static void testKeychainDowngrade() {
char *name = "testKeychainDowngrade";
secnotice("integrity", "************************************* %s", name);
writeFullV512Keychain(name, keychainDbFile);
unlink(keychainFile);
writeFullV512Keyfile(name, keychainTempFile);
SecKeychainRef kc = openCustomKeychain(name, keychainName, "password");
UInt32 version;
ok_status(SecKeychainGetKeychainVersion(kc, &version), "%s: SecKeychainGetKeychainVersion", name);
is(version, version_partition, "%s: version of initial keychain is incorrect", name);
SecKeychainItemRef item;
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
checkIntegrityHash(name, item, CFSTR("6ba8d9f77ddba54d9373b11ae5c8f7b55a5e81da27e05e86723eeceb0a9a8e0c"));
makeCustomDuplicateItem(name, kc, kSecClassGenericPassword, CFSTR("test_generic"));
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassInternetPassword), 1);
checkIntegrityHash(name, item, CFSTR("630a9fe4f0191db8a99d6e8455e7114f628ce8f0f9eb3559efa572a98877a2b2"));
makeCustomDuplicateItem(name, kc, kSecClassInternetPassword, CFSTR("test_internet"));
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassSymmetric), 1);
checkIntegrityHash(name, (SecKeychainItemRef) item, CFSTR("44f10f6bb508d47f8905859efc06eaee500304bc4da408b1f4d2a58c6502147b"));
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPublic), 1);
checkIntegrityHash(name, (SecKeychainItemRef) item, CFSTR("d27ee2be4920d5b6f47f6b19696d09c9a6c1a5d80c6f148f778db27b4ba99d9a"));
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPrivate), 1);
checkIntegrityHash(name, (SecKeychainItemRef) item, CFSTR("4b3f7bd7f9e48dc71006ce670990aed9dba6d5089b84d4113121bab41d0a3228"));
ok_status(SecKeychainAttemptMigrationWithMasterKey(kc, version_MacOS_10_0, keychainTempFile), "%s: SecKeychainAttemptKeychainMigrationWithMasterKey", name);
ok_status(SecKeychainGetKeychainVersion(kc, &version), "%s: SecKeychainGetKeychainVersion", name);
is(version, version_MacOS_10_0, "%s: version of downgraded keychain is incorrect", name);
checkN(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
makeCustomDuplicateItem(name, kc, kSecClassGenericPassword, CFSTR("test_generic"));
checkN(name, createQueryItemDictionary(kc, kSecClassInternetPassword), 1);
makeCustomDuplicateItem(name, kc, kSecClassInternetPassword, CFSTR("test_internet"));
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassSymmetric), 1);
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPublic), 1);
checkN(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPrivate), 1);
ok_status(SecKeychainDelete(kc), "%s: SecKeychainDelete", name);
CFReleaseNull(kc);
unlink(keychainTempFile);
unlink(keychainDbFile);
unlink(keychainFile);
}
#define testKeychainDowngradeTests (openCustomKeychainTests + 2 \
+ checkNTests + checkIntegrityHashTests + makeCustomDuplicateItemTests \
+ checkNTests + checkIntegrityHashTests + makeCustomDuplicateItemTests \
+ checkNTests + checkIntegrityHashTests +\
+ checkNTests + checkIntegrityHashTests +\
+ checkNTests + checkIntegrityHashTests +\
+ 3 + \
+ checkNTests + makeCustomDuplicateItemTests \
+ checkNTests + makeCustomDuplicateItemTests \
+ checkNTests \
+ checkNTests \
+ checkNTests \
+ 1)\
static void testKeychainWrongFile256() {
char name[100];
sprintf(name, "testKeychainWrongFile256");
secnotice("integrity", "************************************* %s", name);
UInt32 version;
unlink(keychainFile);
writeOldKeychain(name, keychainDbFile);
struct stat filebuf;
isnt(stat(keychainFile, &filebuf), 0, "%s: %s exists and shouldn't", name, keychainFile);
is(stat(keychainDbFile, &filebuf), 0, "%s: %s does not exist", name, keychainDbFile);
SecKeychainRef kc = openCustomKeychain(name, keychainName, "password");
SecKeychainItemRef item;
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
makeCustomDuplicateItem(name, kc, kSecClassGenericPassword, CFSTR("test_generic"));
is(stat(keychainFile, &filebuf), 0, "%s: %s does not exist", name, keychainFile);
is(stat(keychainDbFile, &filebuf), 0, "%s: %s does not exist", name, keychainDbFile);
char path[400];
UInt32 len = sizeof(path);
ok_status(SecKeychainGetKeychainVersion(kc, &version), "%s: SecKeychainGetKeychainVersion", name);
is(version, version_partition, "%s: version of re-upgraded keychain is incorrect", name);
ok_status(SecKeychainGetPath(kc, &len, path), "%s: SecKeychainGetPath", name);
eq_stringn(path, len, keychainDbFile, strlen(keychainDbFile), "%s: paths do not match", name);
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
makeCustomDuplicateItem(name, kc, kSecClassGenericPassword, CFSTR("test_generic"));
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassInternetPassword), 1);
makeCustomDuplicateItem(name, kc, kSecClassInternetPassword, CFSTR("test_internet"));
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassSymmetric), 1);
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPublic), 1);
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPrivate), 1);
ok_status(SecKeychainDelete(kc), "%s: SecKeychainDelete", name);
CFReleaseNull(kc);
unlink(keychainDbFile);
unlink(keychainFile);
}
#define testKeychainWrongFile256Tests (2 + openCustomKeychainTests \
+ checkNTests + makeCustomDuplicateItemTests \
+ 2 + 4 \
+ checkNTests + makeCustomDuplicateItemTests \
+ checkNTests + makeCustomDuplicateItemTests \
+ checkNTests \
+ checkNTests \
+ checkNTests \
+ 1)
static void testKeychainWrongFile512() {
char name[100];
sprintf(name, "testKeychainWrongFile512");
secnotice("integrity", "************************************* %s", name);
UInt32 version;
writeFullV512Keychain(name, keychainFile);
unlink(keychainDbFile);
struct stat filebuf;
isnt(stat(keychainDbFile, &filebuf), 0, "%s: %s exists and shouldn't", name, keychainFile);
is(stat(keychainFile, &filebuf), 0, "%s: %s does not exist", name, keychainDbFile);
SecKeychainRef kc = openCustomKeychain(name, keychainName, "password");
SecKeychainItemRef item;
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
makeCustomDuplicateItem(name, kc, kSecClassGenericPassword, CFSTR("test_generic"));
isnt(stat(keychainFile, &filebuf), 0, "%s: %s still exists", name, keychainFile);
is(stat(keychainDbFile, &filebuf), 0, "%s: %s does not exist", name, keychainDbFile);
char path[400];
UInt32 len = sizeof(path);
ok_status(SecKeychainGetKeychainVersion(kc, &version), "%s: SecKeychainGetKeychainVersion", name);
is(version, version_partition, "%s: version of moved keychain is incorrect", name);
ok_status(SecKeychainGetPath(kc, &len, path), "%s: SecKeychainGetPath", name);
eq_stringn(path, len, keychainDbFile, strlen(keychainDbFile), "%s: paths do not match", name);
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
makeCustomDuplicateItem(name, kc, kSecClassGenericPassword, CFSTR("test_generic"));
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassInternetPassword), 1);
makeCustomDuplicateItem(name, kc, kSecClassInternetPassword, CFSTR("test_internet"));
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassSymmetric), 1);
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPublic), 1);
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPrivate), 1);
ok_status(SecKeychainDelete(kc), "%s: SecKeychainDelete", name);
CFReleaseNull(kc);
unlink(keychainDbFile);
unlink(keychainFile);
}
#define testKeychainWrongFile512Tests (2 + openCustomKeychainTests \
+ checkNTests + makeCustomDuplicateItemTests \
+ 2 + 4 \
+ checkNTests + makeCustomDuplicateItemTests \
+ checkNTests + makeCustomDuplicateItemTests \
+ checkNTests \
+ checkNTests \
+ checkNTests \
+ 1)
#undef version_partition
#undef version_MacOS_10_0
static SecAccessRef makeUidAccess(uid_t uid)
{
CSSM_ACL_PROCESS_SUBJECT_SELECTOR selector = {
CSSM_ACL_PROCESS_SELECTOR_CURRENT_VERSION, CSSM_ACL_MATCH_UID, uid, 0 };
CSSM_LIST_ELEMENT subject2 = { NULL, 0 };
subject2.Element.Word.Data = (UInt8 *)&selector;
subject2.Element.Word.Length = sizeof(selector);
CSSM_LIST_ELEMENT subject1 = {
&subject2, CSSM_ACL_SUBJECT_TYPE_PROCESS, CSSM_LIST_ELEMENT_WORDID
};
CSSM_ACL_AUTHORIZATION_TAG rights[] = {
CSSM_ACL_AUTHORIZATION_ANY };
CSSM_ACL_OWNER_PROTOTYPE owner = {
{ CSSM_LIST_TYPE_UNKNOWN, &subject1, &subject2 },
false
};
CSSM_ACL_ENTRY_INFO acls[] = {
{
{
{ CSSM_LIST_TYPE_UNKNOWN, &subject1, &subject2 },
false, { sizeof(rights) / sizeof(rights[0]), rights },
}
}
};
SecAccessRef access;
SecAccessCreateFromOwnerAndACL(&owner, sizeof(acls) / sizeof(acls[0]), acls, &access);
return access;
}
static void checkAccessLength(const char * name, SecAccessRef access, int expected) {
CFArrayRef acllist = NULL;
ok_status(SecAccessCopyACLList(access, &acllist), "%s: SecAccessCopyACLList", name);
int aclsFound = 0;
CFStringRef output = NULL;
if(acllist) {
for(int i = 0; i < CFArrayGetCount(acllist); i++) {
SecACLRef acl = (SecACLRef) CFArrayGetValueAtIndex(acllist, i);
CFArrayRef auths = SecACLCopyAuthorizations(acl);
CFRange searchrange = CFRangeMake(0, CFArrayGetCount(auths));
if(!CFArrayContainsValue(auths, searchrange, kSecACLAuthorizationIntegrity) &&
!CFArrayContainsValue(auths, searchrange, kSecACLAuthorizationPartitionID)) {
aclsFound += 1;
}
CFReleaseNull(auths);
}
CFReleaseNull(acllist);
}
is(aclsFound, expected, "%s: ACL has correct number of entries", name);
}
#define checkAccessLengthTests 2
static void testUidAccess() {
char name[100];
sprintf(name, "testUidAccess");
secnotice("integrity", "************************************* %s", name);
SecAccessRef access = makeUidAccess(getuid());
SecKeychainRef kc = newKeychain(name);
CFMutableDictionaryRef query = createAddItemDictionary(kc, kSecClassGenericPassword, CFSTR("test label"));
CFDictionarySetValue(query, kSecAttrAccess, access);
CFTypeRef result = NULL;
ok_status(SecItemAdd(query, &result), "%s: SecItemAdd", name);
CFReleaseNull(query);
ok(result != NULL, "%s: SecItemAdd returned a result", name);
SecKeychainItemRef item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
ok_status(SecKeychainItemSetAccess(item, access), "%s: SecKeychainItemSetAccess", name);
checkN(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
access = NULL;
ok_status(SecKeychainItemCopyAccess(item, &access), "%s: SecKeychainItemCopyAccess", name);
checkAccessLength(name, access, 2);
const char * newPassword = "newPassword";
ok_status(SecKeychainItemModifyContent(item, NULL, (UInt32) strlen(newPassword), newPassword), "%s: SecKeychainItemModifyContent", name);
access = NULL;
ok_status(SecKeychainItemCopyAccess(item, &access), "%s: SecKeychainItemCopyAccess", name);
checkAccessLength(name, access, 2);
ok_status(SecKeychainDelete(kc), "%s: SecKeychainDelete", name);
CFReleaseNull(kc);
}
#define testUidAccessTests (newKeychainTests + 2 + checkNTests + 1 + checkNTests + 1 + checkAccessLengthTests \
+ 2 + checkAccessLengthTests + 1)
static SecAccessRef makeMultipleUidAccess(uid_t* uids, uint32 count)
{
CSSM_ACL_AUTHORIZATION_TAG rights[] =
{
CSSM_ACL_AUTHORIZATION_ANY };
size_t numRights = sizeof(rights) / sizeof(rights[0]);
CSSM_ACL_PROCESS_SUBJECT_SELECTOR selectors[count];
CSSM_LIST_ELEMENT heads[count], tails[count];
CSSM_ACL_ENTRY_INFO acls[count];
memset(heads, 0, sizeof(heads));
memset(acls, 0, sizeof(acls));
uint32 i = count;
while (i--)
{
selectors[i].version = CSSM_ACL_PROCESS_SELECTOR_CURRENT_VERSION;
selectors[i].mask = CSSM_ACL_MATCH_UID; selectors[i].uid = uids[i]; selectors[i].gid = 0;
heads[i].NextElement = &(tails[i]);
heads[i].WordID = CSSM_ACL_SUBJECT_TYPE_PROCESS;
heads[i].ElementType = CSSM_LIST_ELEMENT_WORDID;
tails[i].NextElement = NULL;
tails[i].WordID = CSSM_WORDID__NLU_;
tails[i].ElementType = CSSM_LIST_ELEMENT_DATUM;
tails[i].Element.Word.Data = (UInt8 *)&selectors[i];
tails[i].Element.Word.Length = sizeof(selectors[i]);
acls[i].EntryPublicInfo.TypedSubject.ListType = CSSM_LIST_TYPE_UNKNOWN;
acls[i].EntryPublicInfo.TypedSubject.Head = &heads[i];
acls[i].EntryPublicInfo.TypedSubject.Tail = &tails[i];
acls[i].EntryPublicInfo.Delegate = CSSM_FALSE;
acls[i].EntryPublicInfo.Authorization.NumberOfAuthTags = (uint32) numRights;
acls[i].EntryPublicInfo.Authorization.AuthTags = rights;
acls[i].EntryHandle = i;
}
CSSM_ACL_OWNER_PROTOTYPE owner;
owner.TypedSubject = acls[0].EntryPublicInfo.TypedSubject;
owner.Delegate = acls[0].EntryPublicInfo.Delegate;
SecAccessRef access;
SecAccessCreateFromOwnerAndACL(&owner, count, acls, &access);
return access;
}
static void testMultipleUidAccess() {
char name[100];
sprintf(name, "testMultipleUidAccess");
secnotice("integrity", "************************************* %s", name);
uid_t uids[5];
uids[0] = getuid();
uids[1] = 0;
uids[2] = 500;
uids[3] = 501;
uids[4] = 502;
SecAccessRef access = makeMultipleUidAccess(uids, 5);
SecKeychainRef kc = newKeychain(name);
CFMutableDictionaryRef query = createAddItemDictionary(kc, kSecClassGenericPassword, CFSTR("test label"));
CFDictionarySetValue(query, kSecAttrAccess, access);
CFTypeRef result = NULL;
ok_status(SecItemAdd(query, &result), "%s: SecItemAdd", name);
CFReleaseNull(query);
ok(result != NULL, "%s: SecItemAdd returned a result", name);
checkN(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
ok_status(SecKeychainDelete(kc), "%s: SecKeychainDelete", name);
CFReleaseNull(kc);
}
#define testMultipleUidAccessTests (newKeychainTests + checkNTests + 3)
static void testRootUidAccess() {
char name[100];
sprintf(name, "testRootUidAccess");
secnotice("integrity", "************************************* %s", name);
CFErrorRef error = NULL;
SecAccessRef access = SecAccessCreateWithOwnerAndACL(getuid(), 0, (kSecUseOnlyUID | kSecHonorRoot), NULL, &error);
ok(access, "%s: SecAccessCreateWithOwnerAndACL returned an access", name);
CFStringRef errorDesc = error ? CFErrorCopyDescription(error) : NULL;
is(error, NULL, "%s: SecAccessCreateWithOwnerAndACL did not return an error: %@", name, errorDesc ? errorDesc : CFSTR("no error"));
CFReleaseNull(errorDesc);
SecKeychainRef kc = newKeychain(name);
CFMutableDictionaryRef query = createAddItemDictionary(kc, kSecClassGenericPassword, CFSTR("test label"));
CFDictionarySetValue(query, kSecAttrAccess, access);
CFTypeRef result = NULL;
ok_status(SecItemAdd(query, &result), "%s: SecItemAdd", name);
CFReleaseNull(query);
ok(result != NULL, "%s: SecItemAdd returned a result", name);
query = createQueryItemDictionary(kc, kSecClassGenericPassword);
SecKeychainItemRef item = checkNCopyFirst(name, query, 1);
ok_status(SecKeychainItemSetAccess(item, access), "%s: SecKeychainItemSetAccess", name);
CFReleaseNull(access);
checkN(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
ok_status(SecKeychainDelete(kc), "%s: SecKeychainDelete", name);
CFReleaseNull(kc);
}
#define testRootUidAccessTests (newKeychainTests + 2 + checkNTests + 4 + checkNTests)
static void testBadACL() {
char name[100];
sprintf(name, "testBadACL");
secnotice("integrity", "************************************* %s", name);
SecKeychainItemRef item = NULL;
unlink(keychainFile);
writeFullV512Keychain(name, keychainDbFile);
SecKeychainRef kc = openCustomKeychain(name, keychainName, "password");
checkN(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
checkN(name, createQueryItemDictionary(kc, kSecClassInternetPassword), 1);
ok_status(SecKeychainDelete(kc), "%s: SecKeychainDelete", name);
CFRelease(kc);
uint8_t * fileBuffer = (uint8_t*) malloc(FULL_V512_SIZE);
memcpy(fileBuffer, full_v512, FULL_V512_SIZE);
void* p;
char * str = "<key>Partitions</key>";
while( (p = memmem(fileBuffer, FULL_V512_SIZE, (void*) str, strlen(str))) ) {
*(uint8_t*) p = 0;
}
writeFile(keychainDbFile, fileBuffer, FULL_V512_SIZE);
free(fileBuffer);
kc = openCustomKeychain(name, keychainName, "password");
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
readPasswordContentsWithResult(item, errSecInvalidItemRef, NULL); deleteItem(item);
checkN(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 0);
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassInternetPassword), 1);
readPasswordContentsWithResult(item, errSecInvalidItemRef, NULL); deleteItem(item);
checkN(name, createQueryItemDictionary(kc, kSecClassInternetPassword), 0);
makeItem(name, kc, kSecClassGenericPassword, CFSTR("test_generic"));
makeItem(name, kc, kSecClassInternetPassword, CFSTR("test_internet"));
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
readPasswordContents(item, CFSTR("data"));
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassInternetPassword), 1);
readPasswordContents(item, CFSTR("data"));
ok_status(SecKeychainDelete(kc), "%s: SecKeychainDelete", name);
CFReleaseNull(kc);
}
#define testBadACLTests (openCustomKeychainTests + checkNTests * 2 + 1 + openCustomKeychainTests \
+ 2*(checkNTests + readPasswordContentsWithResultTests + deleteItemTests + checkNTests) \
+ makeItemTests*2 + checkNTests*2 + readPasswordContentsTests*2 + 1)
static void testIterateLockedKeychain() {
char name[100];
sprintf(name, "testIterateLockedKeychain");
secnotice("integrity", "************************************* %s", name);
SecKeychainItemRef item = NULL;
unlink(keychainFile);
writeFullV512Keychain(name, keychainDbFile);
SecKeychainRef kc = openCustomKeychain(name, keychainName, "password");
ok_status(SecKeychainLock(kc), "%s: SecKeychainLock", name);
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassGenericPassword), 1);
item = checkNCopyFirst(name, createQueryItemDictionary(kc, kSecClassInternetPassword), 1);
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassSymmetric), 1);
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPublic), 1);
item = checkNCopyFirst(name, createQueryKeyDictionary(kc, kSecAttrKeyClassPrivate), 1);
ok_status(SecKeychainDelete(kc), "%s: SecKeychainDelete", name);
CFReleaseNull(kc);
}
#define testIterateLockedKeychainTests (openCustomKeychainTests + 1 + checkNTests*5 + 1)
#define kTestCount (0 \
+ testAddItemTests \
+ testAddItemTests \
+ testCopyMatchingItemTests \
+ testCopyMatchingItemTests \
+ testUpdateItemTests \
+ testUpdateItemTests \
+ testAddDuplicateItemTests \
+ testAddDuplicateItemTests \
+ testDeleteItemTests \
+ testDeleteItemTests \
+ testUpdateRetainedItemTests \
+ testUpdateRetainedItemTests \
\
+ testAddKeyTests \
+ testAddFreeKeyTests \
+ testCopyMatchingKeyTests \
+ testUpdateKeyTests \
+ testAddDuplicateKeyTests \
+ testKeyPairTests \
+ testExportImportKeyPairTests \
\
+ initializeDLTests \
+ testAttackItemTests \
+ testAttackKeyTests \
+ testAddAfterCorruptItemTests \
+ testAddAfterCorruptKeyTests \
+ unloadDLTests \
\
+ testKeychainUpgradeTests \
+ testKeychainCreateOverTests \
+ testKeychainDowngradeTests \
+ testKeychainWrongFile256Tests \
+ testKeychainWrongFile512Tests \
+ testUidAccessTests \
+ testMultipleUidAccessTests \
+ testRootUidAccessTests \
+ testBadACLTests \
+ testIterateLockedKeychainTests \
)
static void tests(void)
{
initializeKeychainTests("kc-30-xara");
testKeychainUpgrade();
testKeychainCreateOver();
testKeychainDowngrade();
testKeychainWrongFile256();
testKeychainWrongFile512();
testUidAccess();
testMultipleUidAccess();
testRootUidAccess();
testBadACL();
testIterateLockedKeychain();
testAddItem(kSecClassGenericPassword, CFSTR("265438ea6807b509c9c6962df3f5033fd1af118f76c5f550e3ed90cb0d3ffce4"));
testAddItem(kSecClassInternetPassword, CFSTR("be34c4562153063ce9cdefc2c34451d5e6e98a447f293d68a67349c1b5d1164f"));
testCopyMatchingItem(kSecClassGenericPassword, CFSTR("265438ea6807b509c9c6962df3f5033fd1af118f76c5f550e3ed90cb0d3ffce4"));
testCopyMatchingItem(kSecClassInternetPassword, CFSTR("be34c4562153063ce9cdefc2c34451d5e6e98a447f293d68a67349c1b5d1164f"));
testUpdateItem(kSecClassGenericPassword, CFSTR("265438ea6807b509c9c6962df3f5033fd1af118f76c5f550e3ed90cb0d3ffce4"),
CFSTR("7b7be2fd6ee9f81ba4c5575ea451f2c21117fc0f241625a6cf90c65180b8c9f5"));
testUpdateItem(kSecClassInternetPassword, CFSTR("be34c4562153063ce9cdefc2c34451d5e6e98a447f293d68a67349c1b5d1164f"),
CFSTR("d71af9e4d54127a5dbc10c5ec097b828065cfbaf2b775caf1a3c4e3410f80851"));
testAddDuplicateItem(kSecClassGenericPassword, CFSTR("265438ea6807b509c9c6962df3f5033fd1af118f76c5f550e3ed90cb0d3ffce4"));
testAddDuplicateItem(kSecClassInternetPassword, CFSTR("be34c4562153063ce9cdefc2c34451d5e6e98a447f293d68a67349c1b5d1164f"));
testDeleteItem(kSecClassGenericPassword, CFSTR("265438ea6807b509c9c6962df3f5033fd1af118f76c5f550e3ed90cb0d3ffce4"));
testDeleteItem(kSecClassInternetPassword, CFSTR("be34c4562153063ce9cdefc2c34451d5e6e98a447f293d68a67349c1b5d1164f"));
testUpdateRetainedItem(kSecClassGenericPassword);
testUpdateRetainedItem(kSecClassInternetPassword);
testAddKey( CFSTR("44f10f6bb508d47f8905859efc06eaee500304bc4da408b1f4d2a58c6502147b"));
testAddFreeKey( CFSTR("44f10f6bb508d47f8905859efc06eaee500304bc4da408b1f4d2a58c6502147b"));
testCopyMatchingKey(CFSTR("44f10f6bb508d47f8905859efc06eaee500304bc4da408b1f4d2a58c6502147b"));
testUpdateKey( CFSTR("44f10f6bb508d47f8905859efc06eaee500304bc4da408b1f4d2a58c6502147b"),
CFSTR("a744ce6db8359ad264ed5f4a35ecfcc8b6599b89319e7ea316035acd3fb02c22"));
testAddDuplicateKey(CFSTR("44f10f6bb508d47f8905859efc06eaee500304bc4da408b1f4d2a58c6502147b"));
testAddDuplicateFreeKey(CFSTR("44f10f6bb508d47f8905859efc06eaee500304bc4da408b1f4d2a58c6502147b"));
testKeyPair();
testExportImportKeyPair();
CSSM_DL_DB_HANDLE dldbHandle = initializeDL();
testAttackItem(dldbHandle);
testAttackKey(dldbHandle);
testAddAfterCorruptItem(dldbHandle);
testAddAfterCorruptKey(dldbHandle);
unloadDL(&dldbHandle);
}
#pragma clang diagnostic pop
#else
#define kTestCount (0)
static void tests(void)
{
}
#endif
int kc_30_xara(int argc, char *const *argv)
{
plan_tests(kTestCount);
tests();
deleteTestFiles();
return 0;
}