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author | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
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committer | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
commit | 5f8de423f190bbb79a62f804151bc24824fa32d8 (patch) | |
tree | 10027f336435511475e392454359edea8e25895d /security/nss/cmd/pk11mode/pk11mode.c | |
parent | 49ee0794b5d912db1f95dce6eb52d781dc210db5 (diff) | |
download | UXP-5f8de423f190bbb79a62f804151bc24824fa32d8.tar UXP-5f8de423f190bbb79a62f804151bc24824fa32d8.tar.gz UXP-5f8de423f190bbb79a62f804151bc24824fa32d8.tar.lz UXP-5f8de423f190bbb79a62f804151bc24824fa32d8.tar.xz UXP-5f8de423f190bbb79a62f804151bc24824fa32d8.zip |
Add m-esr52 at 52.6.0
Diffstat (limited to 'security/nss/cmd/pk11mode/pk11mode.c')
-rw-r--r-- | security/nss/cmd/pk11mode/pk11mode.c | 5387 |
1 files changed, 5387 insertions, 0 deletions
diff --git a/security/nss/cmd/pk11mode/pk11mode.c b/security/nss/cmd/pk11mode/pk11mode.c new file mode 100644 index 000000000..2f1fa374e --- /dev/null +++ b/security/nss/cmd/pk11mode/pk11mode.c @@ -0,0 +1,5387 @@ +/* + * pk11mode.c - Test FIPS or NONFIPS Modes for the NSS PKCS11 api. + * The goal of this program is to test every function + * entry point of the PKCS11 api at least once. + * To test in FIPS mode: pk11mode + * To test in NONFIPS mode: pk11mode -n + * usage: pk11mode -h + * + * 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/. */ + +#include <assert.h> +#include <stdio.h> +#include <stdlib.h> +#include <string.h> +#include <stdarg.h> + +#if defined(XP_UNIX) && !defined(NO_FORK_CHECK) +#include <unistd.h> +#include <sys/wait.h> +#else +#ifndef NO_FORK_CHECK +#define NO_FORK_CHECK +#endif +#endif + +#ifdef _WIN32 +#include <windows.h> +#define LIB_NAME "softokn3.dll" +#endif +#include "prlink.h" +#include "prprf.h" +#include "plgetopt.h" +#include "prenv.h" + +#include "pk11table.h" + +#define NUM_ELEM(array) (sizeof(array) / sizeof(array[0])) + +#ifndef NULL_PTR +#define NULL_PTR 0 +#endif + +/* Returns constant error string for "CRV". + * Returns "unknown error" if errNum is unknown. + */ +const char * +PKM_CK_RVtoStr(CK_RV errNum) +{ + const char *err; + + err = getName(errNum, ConstResult); + + if (err) + return err; + + return "unknown error"; +} + +#include "pkcs11p.h" + +typedef struct CK_C_INITIALIZE_ARGS_NSS { + CK_CREATEMUTEX CreateMutex; + CK_DESTROYMUTEX DestroyMutex; + CK_LOCKMUTEX LockMutex; + CK_UNLOCKMUTEX UnlockMutex; + CK_FLAGS flags; + /* The official PKCS #11 spec does not have a 'LibraryParameters' field, but + * a reserved field. NSS needs a way to pass instance-specific information + * to the library (like where to find its config files, etc). This + * information is usually provided by the installer and passed uninterpreted + * by NSS to the library, though NSS does know the specifics of the softoken + * version of this parameter. Most compliant PKCS#11 modules expect this + * parameter to be NULL, and will return CKR_ARGUMENTS_BAD from + * C_Initialize if Library parameters is supplied. */ + CK_CHAR_PTR *LibraryParameters; + /* This field is only present if the LibraryParameters is not NULL. It must + * be NULL in all cases */ + CK_VOID_PTR pReserved; +} CK_C_INITIALIZE_ARGS_NSS; + +#include "pkcs11u.h" + +#define MAX_SIG_SZ 128 +#define MAX_CIPHER_SZ 128 +#define MAX_DATA_SZ 64 +#define MAX_DIGEST_SZ 64 +#define HMAC_MAX_LENGTH 64 +#define FIPSMODE 0 +#define NONFIPSMODE 1 +#define HYBRIDMODE 2 +#define NOMODE 3 +int MODE = FIPSMODE; + +CK_BBOOL true = CK_TRUE; +CK_BBOOL false = CK_FALSE; +static const CK_BYTE PLAINTEXT[] = { "Firefox Rules!" }; +static const CK_BYTE PLAINTEXT_PAD[] = + { "Firefox and thunderbird rule the world!" }; +CK_ULONG NUMTESTS = 0; + +static const char *slotFlagName[] = { + "CKF_TOKEN_PRESENT", + "CKF_REMOVABLE_DEVICE", + "CKF_HW_SLOT", + "unknown token flag 0x00000008", + "unknown token flag 0x00000010", + "unknown token flag 0x00000020", + "unknown token flag 0x00000040", + "unknown token flag 0x00000080", + "unknown token flag 0x00000100", + "unknown token flag 0x00000200", + "unknown token flag 0x00000400", + "unknown token flag 0x00000800", + "unknown token flag 0x00001000", + "unknown token flag 0x00002000", + "unknown token flag 0x00004000", + "unknown token flag 0x00008000" + "unknown token flag 0x00010000", + "unknown token flag 0x00020000", + "unknown token flag 0x00040000", + "unknown token flag 0x00080000", + "unknown token flag 0x00100000", + "unknown token flag 0x00200000", + "unknown token flag 0x00400000", + "unknown token flag 0x00800000" + "unknown token flag 0x01000000", + "unknown token flag 0x02000000", + "unknown token flag 0x04000000", + "unknown token flag 0x08000000", + "unknown token flag 0x10000000", + "unknown token flag 0x20000000", + "unknown token flag 0x40000000", + "unknown token flag 0x80000000" +}; + +static const char *tokenFlagName[] = { + "CKF_PKM_RNG", + "CKF_WRITE_PROTECTED", + "CKF_LOGIN_REQUIRED", + "CKF_USER_PIN_INITIALIZED", + "unknown token flag 0x00000010", + "CKF_RESTORE_KEY_NOT_NEEDED", + "CKF_CLOCK_ON_TOKEN", + "unknown token flag 0x00000080", + "CKF_PROTECTED_AUTHENTICATION_PATH", + "CKF_DUAL_CRYPTO_OPERATIONS", + "CKF_TOKEN_INITIALIZED", + "CKF_SECONDARY_AUTHENTICATION", + "unknown token flag 0x00001000", + "unknown token flag 0x00002000", + "unknown token flag 0x00004000", + "unknown token flag 0x00008000", + "CKF_USER_PIN_COUNT_LOW", + "CKF_USER_PIN_FINAL_TRY", + "CKF_USER_PIN_LOCKED", + "CKF_USER_PIN_TO_BE_CHANGED", + "CKF_SO_PIN_COUNT_LOW", + "CKF_SO_PIN_FINAL_TRY", + "CKF_SO_PIN_LOCKED", + "CKF_SO_PIN_TO_BE_CHANGED", + "unknown token flag 0x01000000", + "unknown token flag 0x02000000", + "unknown token flag 0x04000000", + "unknown token flag 0x08000000", + "unknown token flag 0x10000000", + "unknown token flag 0x20000000", + "unknown token flag 0x40000000", + "unknown token flag 0x80000000" +}; + +static const unsigned char TLSClientRandom[] = { + 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, + 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, + 0x0d, 0x90, 0xbb, 0x5e, 0xc6, 0xe1, 0x3f, 0x71, + 0x0a, 0xa2, 0x70, 0x5a, 0x4f, 0xbc, 0x3f, 0x0d +}; +static const unsigned char TLSServerRandom[] = { + 0x00, 0x00, 0x1d, 0x4a, 0x7a, 0x0a, 0xa5, 0x01, + 0x8e, 0x79, 0x72, 0xde, 0x9e, 0x2f, 0x8a, 0x0d, + 0xed, 0xb2, 0x5d, 0xf1, 0x14, 0xc2, 0xc6, 0x66, + 0x95, 0x86, 0xb0, 0x0d, 0x87, 0x2a, 0x2a, 0xc9 +}; + +typedef enum { + CORRECT, + BOGUS_CLIENT_RANDOM, + BOGUS_CLIENT_RANDOM_LEN, + BOGUS_SERVER_RANDOM, + BOGUS_SERVER_RANDOM_LEN +} enum_random_t; + +void +dumpToHash64(const unsigned char *buf, unsigned int bufLen) +{ + unsigned int i; + for (i = 0; i < bufLen; i += 8) { + if (i % 32 == 0) + printf("\n"); + printf(" 0x%02x,0x%02x,0x%02x,0x%02x,0x%02x,0x%02x,0x%02x,0x%02x,", + buf[i], buf[i + 1], buf[i + 2], buf[i + 3], + buf[i + 4], buf[i + 5], buf[i + 6], buf[i + 7]); + } + printf("\n"); +} + +#ifdef _WIN32 +HMODULE hModule; +#else +PRLibrary *lib; +#endif + +/* +* All api that belongs to pk11mode.c layer start with the prefix PKM_ +*/ +void PKM_LogIt(const char *fmt, ...); +void PKM_Error(const char *fmt, ...); +CK_SLOT_ID *PKM_GetSlotList(CK_FUNCTION_LIST_PTR pFunctionList, + CK_ULONG slotID); +CK_RV PKM_ShowInfo(CK_FUNCTION_LIST_PTR pFunctionList, CK_ULONG slotID); +CK_RV PKM_InitPWforDB(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen); +CK_RV PKM_Mechanism(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID); +CK_RV PKM_RNG(CK_FUNCTION_LIST_PTR pFunctionList, CK_SLOT_ID *pSlotList, + CK_ULONG slotID); +CK_RV PKM_SessionLogin(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen); +CK_RV PKM_SecretKey(CK_FUNCTION_LIST_PTR pFunctionList, CK_SLOT_ID *pSlotList, + CK_ULONG slotID, CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen); +CK_RV PKM_PublicKey(CK_FUNCTION_LIST_PTR pFunctionList, CK_SLOT_ID *pSlotList, + CK_ULONG slotID, CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen); +CK_RV PKM_HybridMode(CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen, + CK_C_INITIALIZE_ARGS_NSS *initArgs); +CK_RV PKM_FindAllObjects(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen); +CK_RV PKM_MultiObjectManagement(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen); +CK_RV PKM_OperationalState(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen); +CK_RV PKM_LegacyFunctions(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen); +CK_RV PKM_AttributeCheck(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hSession, CK_OBJECT_HANDLE obj, + CK_ATTRIBUTE_PTR expected_attrs, + CK_ULONG expected_attrs_count); +CK_RV PKM_MechCheck(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hSession, CK_MECHANISM_TYPE mechType, + CK_FLAGS flags, CK_BBOOL check_sizes, + CK_ULONG minkeysize, CK_ULONG maxkeysize); +CK_RV PKM_TLSKeyAndMacDerive(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen, + CK_MECHANISM_TYPE mechType, enum_random_t rnd); +CK_RV PKM_TLSMasterKeyDerive(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen, + CK_MECHANISM_TYPE mechType, + enum_random_t rnd); +CK_RV PKM_KeyTests(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen); +CK_RV PKM_DualFuncSign(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hRwSession, + CK_OBJECT_HANDLE publicKey, CK_OBJECT_HANDLE privateKey, + CK_MECHANISM *sigMech, CK_OBJECT_HANDLE secretKey, + CK_MECHANISM *cryptMech, + const CK_BYTE *pData, CK_ULONG pDataLen); +CK_RV PKM_DualFuncDigest(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hSession, + CK_OBJECT_HANDLE hSecKey, CK_MECHANISM *cryptMech, + CK_OBJECT_HANDLE hSecKeyDigest, + CK_MECHANISM *digestMech, + const CK_BYTE *pData, CK_ULONG pDataLen); +CK_RV PKM_PubKeySign(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hRwSession, + CK_OBJECT_HANDLE hPubKey, CK_OBJECT_HANDLE hPrivKey, + CK_MECHANISM *signMech, const CK_BYTE *pData, + CK_ULONG dataLen); +CK_RV PKM_SecKeyCrypt(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hSession, + CK_OBJECT_HANDLE hSymKey, CK_MECHANISM *cryptMech, + const CK_BYTE *pData, CK_ULONG dataLen); +CK_RV PKM_Hmac(CK_FUNCTION_LIST_PTR pFunctionList, CK_SESSION_HANDLE hSession, + CK_OBJECT_HANDLE sKey, CK_MECHANISM *hmacMech, + const CK_BYTE *pData, CK_ULONG pDataLen); +CK_RV PKM_Digest(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hRwSession, + CK_MECHANISM *digestMech, CK_OBJECT_HANDLE hSecretKey, + const CK_BYTE *pData, CK_ULONG pDataLen); +CK_RV PKM_wrapUnwrap(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hSession, + CK_OBJECT_HANDLE hPublicKey, + CK_OBJECT_HANDLE hPrivateKey, + CK_MECHANISM *wrapMechanism, + CK_OBJECT_HANDLE hSecretKey, + CK_ATTRIBUTE *sKeyTemplate, + CK_ULONG skeyTempSize); +CK_RV PKM_RecoverFunctions(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hSession, + CK_OBJECT_HANDLE hPubKey, CK_OBJECT_HANDLE hPrivKey, + CK_MECHANISM *signMech, const CK_BYTE *pData, + CK_ULONG pDataLen); +CK_RV PKM_ForkCheck(int expected, CK_FUNCTION_LIST_PTR fList, + PRBool forkAssert, CK_C_INITIALIZE_ARGS_NSS *initArgs); + +void PKM_Help(); +void PKM_CheckPath(char *string); +char *PKM_FilePasswd(char *pwFile); +static PRBool verbose = PR_FALSE; + +int +main(int argc, char **argv) +{ + CK_C_GetFunctionList pC_GetFunctionList; + CK_FUNCTION_LIST_PTR pFunctionList; + CK_RV crv = CKR_OK; + CK_C_INITIALIZE_ARGS_NSS initArgs; + CK_SLOT_ID *pSlotList = NULL; + CK_TOKEN_INFO tokenInfo; + CK_ULONG slotID = 0; /* slotID == 0 for FIPSMODE */ + + CK_UTF8CHAR *pwd = NULL; + CK_ULONG pwdLen = 0; + char *moduleSpec = NULL; + char *configDir = NULL; + char *dbPrefix = NULL; + char *disableUnload = NULL; + PRBool doForkTests = PR_TRUE; + + PLOptStatus os; + PLOptState *opt = PL_CreateOptState(argc, argv, "nvhf:Fd:p:"); + while (PL_OPT_EOL != (os = PL_GetNextOpt(opt))) { + if (PL_OPT_BAD == os) + continue; + switch (opt->option) { + case 'F': /* disable fork tests */ + doForkTests = PR_FALSE; + break; + case 'n': /* non fips mode */ + MODE = NONFIPSMODE; + slotID = 1; + break; + case 'f': /* password file */ + pwd = (CK_UTF8CHAR *)PKM_FilePasswd((char *)opt->value); + if (!pwd) + PKM_Help(); + break; + case 'd': /* opt_CertDir */ + if (!opt->value) + PKM_Help(); + configDir = strdup(opt->value); + PKM_CheckPath(configDir); + break; + case 'p': /* opt_DBPrefix */ + if (!opt->value) + PKM_Help(); + dbPrefix = strdup(opt->value); + break; + case 'v': + verbose = PR_TRUE; + break; + case 'h': /* help message */ + default: + PKM_Help(); + break; + } + } + PL_DestroyOptState(opt); + + if (!pwd) { + pwd = (CK_UTF8CHAR *)strdup("1Mozilla"); + } + pwdLen = strlen((const char *)pwd); + if (!configDir) { + configDir = strdup("."); + } + if (!dbPrefix) { + dbPrefix = strdup(""); + } + + if (doForkTests) { + /* first, try to fork without softoken loaded to make sure + * everything is OK */ + crv = PKM_ForkCheck(123, NULL, PR_FALSE, NULL); + if (crv != CKR_OK) + goto cleanup; + } + +#ifdef _WIN32 + hModule = LoadLibrary(LIB_NAME); + if (hModule == NULL) { + PKM_Error("cannot load %s\n", LIB_NAME); + goto cleanup; + } + if (MODE == FIPSMODE) { + /* FIPS mode == FC_GetFunctionList */ + pC_GetFunctionList = (CK_C_GetFunctionList) + GetProcAddress(hModule, "FC_GetFunctionList"); + } else { + /* NON FIPS mode == C_GetFunctionList */ + pC_GetFunctionList = (CK_C_GetFunctionList) + GetProcAddress(hModule, "C_GetFunctionList"); + } + if (pC_GetFunctionList == NULL) { + PKM_Error("cannot load %s\n", LIB_NAME); + goto cleanup; + } +#else + { + char *libname = NULL; + /* Get the platform-dependent library name of the NSS cryptographic module */ + libname = PR_GetLibraryName(NULL, "softokn3"); + assert(libname != NULL); + lib = PR_LoadLibrary(libname); + assert(lib != NULL); + PR_FreeLibraryName(libname); + } + if (MODE == FIPSMODE) { + pC_GetFunctionList = (CK_C_GetFunctionList)PR_FindFunctionSymbol(lib, + "FC_GetFunctionList"); + assert(pC_GetFunctionList != NULL); + slotID = 0; + } else { + pC_GetFunctionList = (CK_C_GetFunctionList)PR_FindFunctionSymbol(lib, + "C_GetFunctionList"); + assert(pC_GetFunctionList != NULL); + slotID = 1; + } +#endif + + if (MODE == FIPSMODE) { + printf("Loaded FC_GetFunctionList for FIPS MODE; slotID %d \n", + (int)slotID); + } else { + printf("loaded C_GetFunctionList for NON FIPS MODE; slotID %d \n", + (int)slotID); + } + + crv = (*pC_GetFunctionList)(&pFunctionList); + assert(crv == CKR_OK); + + if (doForkTests) { + /* now, try to fork with softoken loaded, but not initialized */ + crv = PKM_ForkCheck(CKR_CRYPTOKI_NOT_INITIALIZED, pFunctionList, + PR_TRUE, NULL); + if (crv != CKR_OK) + goto cleanup; + } + + initArgs.CreateMutex = NULL; + initArgs.DestroyMutex = NULL; + initArgs.LockMutex = NULL; + initArgs.UnlockMutex = NULL; + initArgs.flags = CKF_OS_LOCKING_OK; + moduleSpec = PR_smprintf("configdir='%s' certPrefix='%s' " + "keyPrefix='%s' secmod='secmod.db' flags= ", + configDir, dbPrefix, dbPrefix); + initArgs.LibraryParameters = (CK_CHAR_PTR *)moduleSpec; + initArgs.pReserved = NULL; + + /*DebugBreak();*/ + /* FIPSMODE invokes FC_Initialize as pFunctionList->C_Initialize */ + /* NSS cryptographic module library initialization for the FIPS */ + /* Approved mode when FC_Initialize is envoked will perfom */ + /* software integrity test, and power-up self-tests before */ + /* FC_Initialize returns */ + crv = pFunctionList->C_Initialize(&initArgs); + if (crv == CKR_OK) { + PKM_LogIt("C_Initialize succeeded\n"); + } else { + PKM_Error("C_Initialize failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + + if (doForkTests) { + /* Disable core on fork for this test, since we are testing the + * pathological case, and if enabled, the child process would dump + * core in C_GetTokenInfo . + * We can still differentiate the correct from incorrect behavior + * by the PKCS#11 return code. + */ + /* try to fork with softoken both loaded and initialized */ + crv = PKM_ForkCheck(CKR_DEVICE_ERROR, pFunctionList, PR_FALSE, NULL); + if (crv != CKR_OK) + goto cleanup; + } + + if (doForkTests) { + /* In this next test, we fork and try to re-initialize softoken in + * the child. This should now work because softoken has the ability + * to hard reset. + */ + /* try to fork with softoken both loaded and initialized */ + crv = PKM_ForkCheck(CKR_OK, pFunctionList, PR_TRUE, &initArgs); + if (crv != CKR_OK) + goto cleanup; + } + + crv = PKM_ShowInfo(pFunctionList, slotID); + if (crv == CKR_OK) { + PKM_LogIt("PKM_ShowInfo succeeded\n"); + } else { + PKM_Error("PKM_ShowInfo failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + pSlotList = PKM_GetSlotList(pFunctionList, slotID); + if (pSlotList == NULL) { + PKM_Error("PKM_GetSlotList failed with \n"); + goto cleanup; + } + crv = pFunctionList->C_GetTokenInfo(pSlotList[slotID], &tokenInfo); + if (crv == CKR_OK) { + PKM_LogIt("C_GetTokenInfo succeeded\n\n"); + } else { + PKM_Error("C_GetTokenInfo failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + + if (!(tokenInfo.flags & CKF_USER_PIN_INITIALIZED)) { + PKM_LogIt("Initing PW for DB\n"); + crv = PKM_InitPWforDB(pFunctionList, pSlotList, slotID, + pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("PKM_InitPWforDB succeeded\n\n"); + } else { + PKM_Error("PKM_InitPWforDB failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + } else { + PKM_LogIt("using existing DB\n"); + } + + /* general mechanism by token */ + crv = PKM_Mechanism(pFunctionList, pSlotList, slotID); + if (crv == CKR_OK) { + PKM_LogIt("PKM_Mechanism succeeded\n\n"); + } else { + PKM_Error("PKM_Mechanism failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + /* RNG example without Login */ + crv = PKM_RNG(pFunctionList, pSlotList, slotID); + if (crv == CKR_OK) { + PKM_LogIt("PKM_RNG succeeded\n\n"); + } else { + PKM_Error("PKM_RNG failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + + crv = PKM_SessionLogin(pFunctionList, pSlotList, slotID, + pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("PKM_SessionLogin succeeded\n\n"); + } else { + PKM_Error("PKM_SessionLogin failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + + /* + * PKM_KeyTest creates RSA,DSA public keys + * and AES, DES3 secret keys. + * then does digest, hmac, encrypt/decrypt, signing operations. + */ + crv = PKM_KeyTests(pFunctionList, pSlotList, slotID, + pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("PKM_KeyTests succeeded\n\n"); + } else { + PKM_Error("PKM_KeyTest failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + + crv = PKM_SecretKey(pFunctionList, pSlotList, slotID, pwd, + pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("PKM_SecretKey succeeded\n\n"); + } else { + PKM_Error("PKM_SecretKey failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + + crv = PKM_PublicKey(pFunctionList, pSlotList, slotID, + pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("PKM_PublicKey succeeded\n\n"); + } else { + PKM_Error("PKM_PublicKey failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + crv = PKM_OperationalState(pFunctionList, pSlotList, slotID, + pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("PKM_OperationalState succeeded\n\n"); + } else { + PKM_Error("PKM_OperationalState failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + crv = PKM_MultiObjectManagement(pFunctionList, pSlotList, slotID, + pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("PKM_MultiObjectManagement succeeded\n\n"); + } else { + PKM_Error("PKM_MultiObjectManagement failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + crv = PKM_LegacyFunctions(pFunctionList, pSlotList, slotID, + pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("PKM_LegacyFunctions succeeded\n\n"); + } else { + PKM_Error("PKM_LegacyFunctions failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + crv = PKM_TLSKeyAndMacDerive(pFunctionList, pSlotList, slotID, + pwd, pwdLen, + CKM_TLS_KEY_AND_MAC_DERIVE, CORRECT); + + if (crv == CKR_OK) { + PKM_LogIt("PKM_TLSKeyAndMacDerive succeeded\n\n"); + } else { + PKM_Error("PKM_TLSKeyAndMacDerive failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + crv = PKM_TLSMasterKeyDerive(pFunctionList, pSlotList, slotID, + pwd, pwdLen, + CKM_TLS_MASTER_KEY_DERIVE, + CORRECT); + if (crv == CKR_OK) { + PKM_LogIt("PKM_TLSMasterKeyDerive succeeded\n\n"); + } else { + PKM_Error("PKM_TLSMasterKeyDerive failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + crv = PKM_TLSMasterKeyDerive(pFunctionList, pSlotList, slotID, + pwd, pwdLen, + CKM_TLS_MASTER_KEY_DERIVE_DH, + CORRECT); + if (crv == CKR_OK) { + PKM_LogIt("PKM_TLSMasterKeyDerive succeeded\n\n"); + } else { + PKM_Error("PKM_TLSMasterKeyDerive failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + crv = PKM_FindAllObjects(pFunctionList, pSlotList, slotID, + pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("PKM_FindAllObjects succeeded\n\n"); + } else { + PKM_Error("PKM_FindAllObjects failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + crv = pFunctionList->C_Finalize(NULL); + if (crv == CKR_OK) { + PKM_LogIt("C_Finalize succeeded\n"); + } else { + PKM_Error("C_Finalize failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + + if (doForkTests) { + /* try to fork with softoken still loaded, but de-initialized */ + crv = PKM_ForkCheck(CKR_CRYPTOKI_NOT_INITIALIZED, pFunctionList, + PR_TRUE, NULL); + if (crv != CKR_OK) + goto cleanup; + } + + free(pSlotList); + + /* demonstrate how an application can be in Hybrid mode */ + /* PKM_HybridMode shows how to switch between NONFIPS */ + /* mode to FIPS mode */ + + PKM_LogIt("Testing Hybrid mode \n"); + crv = PKM_HybridMode(pwd, pwdLen, &initArgs); + if (crv == CKR_OK) { + PKM_LogIt("PKM_HybridMode succeeded\n"); + } else { + PKM_Error("PKM_HybridMode failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + + if (doForkTests) { + /* testing one more C_Initialize / C_Finalize to exercise getpid() + * fork check code */ + crv = pFunctionList->C_Initialize(&initArgs); + if (crv == CKR_OK) { + PKM_LogIt("C_Initialize succeeded\n"); + } else { + PKM_Error("C_Initialize failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + crv = pFunctionList->C_Finalize(NULL); + if (crv == CKR_OK) { + PKM_LogIt("C_Finalize succeeded\n"); + } else { + PKM_Error("C_Finalize failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + goto cleanup; + } + /* try to C_Initialize / C_Finalize in child. This should succeed */ + crv = PKM_ForkCheck(CKR_OK, pFunctionList, PR_TRUE, &initArgs); + } + + PKM_LogIt("unloading NSS PKCS # 11 softoken and exiting\n"); + +cleanup: + + if (pwd) { + free(pwd); + } + if (configDir) { + free(configDir); + } + if (dbPrefix) { + free(dbPrefix); + } + if (moduleSpec) { + PR_smprintf_free(moduleSpec); + } + +#ifdef _WIN32 + FreeLibrary(hModule); +#else + disableUnload = PR_GetEnvSecure("NSS_DISABLE_UNLOAD"); + if (!disableUnload) { + PR_UnloadLibrary(lib); + } +#endif + if (CKR_OK == crv && doForkTests && !disableUnload) { + /* try to fork with softoken both de-initialized and unloaded */ + crv = PKM_ForkCheck(123, NULL, PR_TRUE, NULL); + } + + printf("**** Total number of TESTS ran in %s is %d. ****\n", + ((MODE == FIPSMODE) ? "FIPS MODE" : "NON FIPS MODE"), (int)NUMTESTS); + if (CKR_OK == crv) { + printf("**** ALL TESTS PASSED ****\n"); + } + + return crv; +} + +/* +* PKM_KeyTests +* +* +*/ + +CK_RV +PKM_KeyTests(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen) +{ + CK_SESSION_HANDLE hRwSession; + + CK_RV crv = CKR_OK; + + /*** DSA Key ***/ + CK_MECHANISM dsaParamGenMech; + CK_ULONG primeBits = 1024; + CK_ATTRIBUTE dsaParamGenTemplate[1]; + CK_OBJECT_HANDLE hDsaParams = CK_INVALID_HANDLE; + CK_BYTE DSA_P[128]; + CK_BYTE DSA_Q[20]; + CK_BYTE DSA_G[128]; + CK_MECHANISM dsaKeyPairGenMech; + CK_ATTRIBUTE dsaPubKeyTemplate[5]; + CK_ATTRIBUTE dsaPrivKeyTemplate[5]; + CK_OBJECT_HANDLE hDSApubKey = CK_INVALID_HANDLE; + CK_OBJECT_HANDLE hDSAprivKey = CK_INVALID_HANDLE; + + /**** RSA Key ***/ + CK_KEY_TYPE rsatype = CKK_RSA; + CK_MECHANISM rsaKeyPairGenMech; + CK_BYTE subject[] = { "RSA Private Key" }; + CK_ULONG modulusBits = 1024; + CK_BYTE publicExponent[] = { 0x01, 0x00, 0x01 }; + CK_BYTE id[] = { "RSA123" }; + CK_ATTRIBUTE rsaPubKeyTemplate[9]; + CK_ATTRIBUTE rsaPrivKeyTemplate[11]; + CK_OBJECT_HANDLE hRSApubKey = CK_INVALID_HANDLE; + CK_OBJECT_HANDLE hRSAprivKey = CK_INVALID_HANDLE; + + /*** AES Key ***/ + CK_MECHANISM sAESKeyMech = { + CKM_AES_KEY_GEN, NULL, 0 + }; + CK_OBJECT_CLASS class = CKO_SECRET_KEY; + CK_KEY_TYPE keyAESType = CKK_AES; + CK_UTF8CHAR AESlabel[] = "An AES secret key object"; + CK_ULONG AESvalueLen = 32; + CK_ATTRIBUTE sAESKeyTemplate[9]; + CK_OBJECT_HANDLE hAESSecKey; + + /*** DES3 Key ***/ + CK_KEY_TYPE keyDES3Type = CKK_DES3; + CK_UTF8CHAR DES3label[] = "An Triple DES secret key object"; + CK_ULONG DES3valueLen = 56; + CK_MECHANISM sDES3KeyGenMechanism = { + CKM_DES3_KEY_GEN, NULL, 0 + }; + CK_ATTRIBUTE sDES3KeyTemplate[9]; + CK_OBJECT_HANDLE hDES3SecKey; + + CK_MECHANISM dsaWithSha1Mech = { + CKM_DSA_SHA1, NULL, 0 + }; + + CK_BYTE IV[16]; + CK_MECHANISM mech_DES3_CBC; + CK_MECHANISM mech_DES3_CBC_PAD; + CK_MECHANISM mech_AES_CBC_PAD; + CK_MECHANISM mech_AES_CBC; + struct mech_str { + CK_ULONG mechanism; + const char *mechanismStr; + }; + + typedef struct mech_str mech_str; + + mech_str digestMechs[] = { + { CKM_SHA_1, "CKM_SHA_1 " }, + { CKM_SHA224, "CKM_SHA224" }, + { CKM_SHA256, "CKM_SHA256" }, + { CKM_SHA384, "CKM_SHA384" }, + { CKM_SHA512, "CKM_SHA512" } + }; + mech_str hmacMechs[] = { + { CKM_SHA_1_HMAC, "CKM_SHA_1_HMAC" }, + { CKM_SHA224_HMAC, "CKM_SHA224_HMAC" }, + { CKM_SHA256_HMAC, "CKM_SHA256_HMAC" }, + { CKM_SHA384_HMAC, "CKM_SHA384_HMAC" }, + { CKM_SHA512_HMAC, "CKM_SHA512_HMAC" } + }; + mech_str sigRSAMechs[] = { + { CKM_SHA1_RSA_PKCS, "CKM_SHA1_RSA_PKCS" }, + { CKM_SHA224_RSA_PKCS, "CKM_SHA224_RSA_PKCS" }, + { CKM_SHA256_RSA_PKCS, "CKM_SHA256_RSA_PKCS" }, + { CKM_SHA384_RSA_PKCS, "CKM_SHA384_RSA_PKCS" }, + { CKM_SHA512_RSA_PKCS, "CKM_SHA512_RSA_PKCS" } + }; + + CK_ULONG digestMechsSZ = NUM_ELEM(digestMechs); + CK_ULONG sigRSAMechsSZ = NUM_ELEM(sigRSAMechs); + CK_ULONG hmacMechsSZ = NUM_ELEM(hmacMechs); + CK_MECHANISM mech; + + unsigned int i; + + NUMTESTS++; /* increment NUMTESTS */ + + /* DSA key init */ + dsaParamGenMech.mechanism = CKM_DSA_PARAMETER_GEN; + dsaParamGenMech.pParameter = NULL_PTR; + dsaParamGenMech.ulParameterLen = 0; + dsaParamGenTemplate[0].type = CKA_PRIME_BITS; + dsaParamGenTemplate[0].pValue = &primeBits; + dsaParamGenTemplate[0].ulValueLen = sizeof(primeBits); + dsaPubKeyTemplate[0].type = CKA_PRIME; + dsaPubKeyTemplate[0].pValue = DSA_P; + dsaPubKeyTemplate[0].ulValueLen = sizeof(DSA_P); + dsaPubKeyTemplate[1].type = CKA_SUBPRIME; + dsaPubKeyTemplate[1].pValue = DSA_Q; + dsaPubKeyTemplate[1].ulValueLen = sizeof(DSA_Q); + dsaPubKeyTemplate[2].type = CKA_BASE; + dsaPubKeyTemplate[2].pValue = DSA_G; + dsaPubKeyTemplate[2].ulValueLen = sizeof(DSA_G); + dsaPubKeyTemplate[3].type = CKA_TOKEN; + dsaPubKeyTemplate[3].pValue = &true; + dsaPubKeyTemplate[3].ulValueLen = sizeof(true); + dsaPubKeyTemplate[4].type = CKA_VERIFY; + dsaPubKeyTemplate[4].pValue = &true; + dsaPubKeyTemplate[4].ulValueLen = sizeof(true); + dsaKeyPairGenMech.mechanism = CKM_DSA_KEY_PAIR_GEN; + dsaKeyPairGenMech.pParameter = NULL_PTR; + dsaKeyPairGenMech.ulParameterLen = 0; + dsaPrivKeyTemplate[0].type = CKA_TOKEN; + dsaPrivKeyTemplate[0].pValue = &true; + dsaPrivKeyTemplate[0].ulValueLen = sizeof(true); + dsaPrivKeyTemplate[1].type = CKA_PRIVATE; + dsaPrivKeyTemplate[1].pValue = &true; + dsaPrivKeyTemplate[1].ulValueLen = sizeof(true); + dsaPrivKeyTemplate[2].type = CKA_SENSITIVE; + dsaPrivKeyTemplate[2].pValue = &true; + dsaPrivKeyTemplate[2].ulValueLen = sizeof(true); + dsaPrivKeyTemplate[3].type = CKA_SIGN, + dsaPrivKeyTemplate[3].pValue = &true; + dsaPrivKeyTemplate[3].ulValueLen = sizeof(true); + dsaPrivKeyTemplate[4].type = CKA_EXTRACTABLE; + dsaPrivKeyTemplate[4].pValue = &true; + dsaPrivKeyTemplate[4].ulValueLen = sizeof(true); + + /* RSA key init */ + rsaKeyPairGenMech.mechanism = CKM_RSA_PKCS_KEY_PAIR_GEN; + rsaKeyPairGenMech.pParameter = NULL_PTR; + rsaKeyPairGenMech.ulParameterLen = 0; + + rsaPubKeyTemplate[0].type = CKA_KEY_TYPE; + rsaPubKeyTemplate[0].pValue = &rsatype; + rsaPubKeyTemplate[0].ulValueLen = sizeof(rsatype); + rsaPubKeyTemplate[1].type = CKA_PRIVATE; + rsaPubKeyTemplate[1].pValue = &true; + rsaPubKeyTemplate[1].ulValueLen = sizeof(true); + rsaPubKeyTemplate[2].type = CKA_ENCRYPT; + rsaPubKeyTemplate[2].pValue = &true; + rsaPubKeyTemplate[2].ulValueLen = sizeof(true); + rsaPubKeyTemplate[3].type = CKA_DECRYPT; + rsaPubKeyTemplate[3].pValue = &true; + rsaPubKeyTemplate[3].ulValueLen = sizeof(true); + rsaPubKeyTemplate[4].type = CKA_VERIFY; + rsaPubKeyTemplate[4].pValue = &true; + rsaPubKeyTemplate[4].ulValueLen = sizeof(true); + rsaPubKeyTemplate[5].type = CKA_SIGN; + rsaPubKeyTemplate[5].pValue = &true; + rsaPubKeyTemplate[5].ulValueLen = sizeof(true); + rsaPubKeyTemplate[6].type = CKA_WRAP; + rsaPubKeyTemplate[6].pValue = &true; + rsaPubKeyTemplate[6].ulValueLen = sizeof(true); + rsaPubKeyTemplate[7].type = CKA_MODULUS_BITS; + rsaPubKeyTemplate[7].pValue = &modulusBits; + rsaPubKeyTemplate[7].ulValueLen = sizeof(modulusBits); + rsaPubKeyTemplate[8].type = CKA_PUBLIC_EXPONENT; + rsaPubKeyTemplate[8].pValue = publicExponent; + rsaPubKeyTemplate[8].ulValueLen = sizeof(publicExponent); + + rsaPrivKeyTemplate[0].type = CKA_KEY_TYPE; + rsaPrivKeyTemplate[0].pValue = &rsatype; + rsaPrivKeyTemplate[0].ulValueLen = sizeof(rsatype); + rsaPrivKeyTemplate[1].type = CKA_TOKEN; + rsaPrivKeyTemplate[1].pValue = &true; + rsaPrivKeyTemplate[1].ulValueLen = sizeof(true); + rsaPrivKeyTemplate[2].type = CKA_PRIVATE; + rsaPrivKeyTemplate[2].pValue = &true; + rsaPrivKeyTemplate[2].ulValueLen = sizeof(true); + rsaPrivKeyTemplate[3].type = CKA_SUBJECT; + rsaPrivKeyTemplate[3].pValue = subject; + rsaPrivKeyTemplate[3].ulValueLen = sizeof(subject); + rsaPrivKeyTemplate[4].type = CKA_ID; + rsaPrivKeyTemplate[4].pValue = id; + rsaPrivKeyTemplate[4].ulValueLen = sizeof(id); + rsaPrivKeyTemplate[5].type = CKA_SENSITIVE; + rsaPrivKeyTemplate[5].pValue = &true; + rsaPrivKeyTemplate[5].ulValueLen = sizeof(true); + rsaPrivKeyTemplate[6].type = CKA_ENCRYPT; + rsaPrivKeyTemplate[6].pValue = &true; + rsaPrivKeyTemplate[6].ulValueLen = sizeof(true); + rsaPrivKeyTemplate[7].type = CKA_DECRYPT; + rsaPrivKeyTemplate[7].pValue = &true; + rsaPrivKeyTemplate[7].ulValueLen = sizeof(true); + rsaPrivKeyTemplate[8].type = CKA_VERIFY; + rsaPrivKeyTemplate[8].pValue = &true; + rsaPrivKeyTemplate[8].ulValueLen = sizeof(true); + rsaPrivKeyTemplate[9].type = CKA_SIGN; + rsaPrivKeyTemplate[9].pValue = &true; + rsaPrivKeyTemplate[9].ulValueLen = sizeof(true); + rsaPrivKeyTemplate[10].type = CKA_UNWRAP; + rsaPrivKeyTemplate[10].pValue = &true; + rsaPrivKeyTemplate[10].ulValueLen = sizeof(true); + + /* AES key template */ + sAESKeyTemplate[0].type = CKA_CLASS; + sAESKeyTemplate[0].pValue = &class; + sAESKeyTemplate[0].ulValueLen = sizeof(class); + sAESKeyTemplate[1].type = CKA_KEY_TYPE; + sAESKeyTemplate[1].pValue = &keyAESType; + sAESKeyTemplate[1].ulValueLen = sizeof(keyAESType); + sAESKeyTemplate[2].type = CKA_LABEL; + sAESKeyTemplate[2].pValue = AESlabel; + sAESKeyTemplate[2].ulValueLen = sizeof(AESlabel) - 1; + sAESKeyTemplate[3].type = CKA_ENCRYPT; + sAESKeyTemplate[3].pValue = &true; + sAESKeyTemplate[3].ulValueLen = sizeof(true); + sAESKeyTemplate[4].type = CKA_DECRYPT; + sAESKeyTemplate[4].pValue = &true; + sAESKeyTemplate[4].ulValueLen = sizeof(true); + sAESKeyTemplate[5].type = CKA_SIGN; + sAESKeyTemplate[5].pValue = &true; + sAESKeyTemplate[5].ulValueLen = sizeof(true); + sAESKeyTemplate[6].type = CKA_VERIFY; + sAESKeyTemplate[6].pValue = &true; + sAESKeyTemplate[6].ulValueLen = sizeof(true); + sAESKeyTemplate[7].type = CKA_UNWRAP; + sAESKeyTemplate[7].pValue = &true; + sAESKeyTemplate[7].ulValueLen = sizeof(true); + sAESKeyTemplate[8].type = CKA_VALUE_LEN; + sAESKeyTemplate[8].pValue = &AESvalueLen; + sAESKeyTemplate[8].ulValueLen = sizeof(AESvalueLen); + + /* DES3 key template */ + sDES3KeyTemplate[0].type = CKA_CLASS; + sDES3KeyTemplate[0].pValue = &class; + sDES3KeyTemplate[0].ulValueLen = sizeof(class); + sDES3KeyTemplate[1].type = CKA_KEY_TYPE; + sDES3KeyTemplate[1].pValue = &keyDES3Type; + sDES3KeyTemplate[1].ulValueLen = sizeof(keyDES3Type); + sDES3KeyTemplate[2].type = CKA_LABEL; + sDES3KeyTemplate[2].pValue = DES3label; + sDES3KeyTemplate[2].ulValueLen = sizeof(DES3label) - 1; + sDES3KeyTemplate[3].type = CKA_ENCRYPT; + sDES3KeyTemplate[3].pValue = &true; + sDES3KeyTemplate[3].ulValueLen = sizeof(true); + sDES3KeyTemplate[4].type = CKA_DECRYPT; + sDES3KeyTemplate[4].pValue = &true; + sDES3KeyTemplate[4].ulValueLen = sizeof(true); + sDES3KeyTemplate[5].type = CKA_UNWRAP; + sDES3KeyTemplate[5].pValue = &true; + sDES3KeyTemplate[5].ulValueLen = sizeof(true); + sDES3KeyTemplate[6].type = CKA_SIGN, + sDES3KeyTemplate[6].pValue = &true; + sDES3KeyTemplate[6].ulValueLen = sizeof(true); + sDES3KeyTemplate[7].type = CKA_VERIFY; + sDES3KeyTemplate[7].pValue = &true; + sDES3KeyTemplate[7].ulValueLen = sizeof(true); + sDES3KeyTemplate[8].type = CKA_VALUE_LEN; + sDES3KeyTemplate[8].pValue = &DES3valueLen; + sDES3KeyTemplate[8].ulValueLen = sizeof(DES3valueLen); + + /* mech init */ + memset(IV, 0x01, sizeof(IV)); + mech_DES3_CBC.mechanism = CKM_DES3_CBC; + mech_DES3_CBC.pParameter = IV; + mech_DES3_CBC.ulParameterLen = sizeof(IV); + mech_DES3_CBC_PAD.mechanism = CKM_DES3_CBC_PAD; + mech_DES3_CBC_PAD.pParameter = IV; + mech_DES3_CBC_PAD.ulParameterLen = sizeof(IV); + mech_AES_CBC.mechanism = CKM_AES_CBC; + mech_AES_CBC.pParameter = IV; + mech_AES_CBC.ulParameterLen = sizeof(IV); + mech_AES_CBC_PAD.mechanism = CKM_AES_CBC_PAD; + mech_AES_CBC_PAD.pParameter = IV; + mech_AES_CBC_PAD.ulParameterLen = sizeof(IV); + + crv = pFunctionList->C_OpenSession(pSlotList[slotID], + CKF_RW_SESSION | CKF_SERIAL_SESSION, + NULL, NULL, &hRwSession); + if (crv == CKR_OK) { + PKM_LogIt("Opening a read/write session succeeded\n"); + } else { + PKM_Error("Opening a read/write session failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + if (MODE == FIPSMODE) { + crv = pFunctionList->C_GenerateKey(hRwSession, &sAESKeyMech, + sAESKeyTemplate, + NUM_ELEM(sAESKeyTemplate), + &hAESSecKey); + if (crv == CKR_OK) { + PKM_Error("C_GenerateKey succeeded when not logged in.\n"); + return CKR_GENERAL_ERROR; + } else { + PKM_LogIt("C_GenerateKey returned as EXPECTED with 0x%08X, %-26s\n" + "since not logged in\n", + crv, PKM_CK_RVtoStr(crv)); + } + crv = pFunctionList->C_GenerateKeyPair(hRwSession, &rsaKeyPairGenMech, + rsaPubKeyTemplate, + NUM_ELEM(rsaPubKeyTemplate), + rsaPrivKeyTemplate, + NUM_ELEM(rsaPrivKeyTemplate), + &hRSApubKey, &hRSAprivKey); + if (crv == CKR_OK) { + PKM_Error("C_GenerateKeyPair succeeded when not logged in.\n"); + return CKR_GENERAL_ERROR; + } else { + PKM_LogIt("C_GenerateKeyPair returned as EXPECTED with 0x%08X, " + "%-26s\n since not logged in\n", + crv, + PKM_CK_RVtoStr(crv)); + } + } + + crv = pFunctionList->C_Login(hRwSession, CKU_USER, pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("C_Login with correct password succeeded\n"); + } else { + PKM_Error("C_Login with correct password failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt("Generate an AES key ... \n"); + /* generate an AES Secret Key */ + crv = pFunctionList->C_GenerateKey(hRwSession, &sAESKeyMech, + sAESKeyTemplate, + NUM_ELEM(sAESKeyTemplate), + &hAESSecKey); + if (crv == CKR_OK) { + PKM_LogIt("C_GenerateKey AES succeeded\n"); + } else { + PKM_Error("C_GenerateKey AES failed with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt("Generate an 3DES key ...\n"); + /* generate an 3DES Secret Key */ + crv = pFunctionList->C_GenerateKey(hRwSession, &sDES3KeyGenMechanism, + sDES3KeyTemplate, + NUM_ELEM(sDES3KeyTemplate), + &hDES3SecKey); + if (crv == CKR_OK) { + PKM_LogIt("C_GenerateKey DES3 succeeded\n"); + } else { + PKM_Error("C_GenerateKey failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt("Generate DSA PQG domain parameters ... \n"); + /* Generate DSA domain parameters PQG */ + crv = pFunctionList->C_GenerateKey(hRwSession, &dsaParamGenMech, + dsaParamGenTemplate, + 1, + &hDsaParams); + if (crv == CKR_OK) { + PKM_LogIt("DSA domain parameter generation succeeded\n"); + } else { + PKM_Error("DSA domain parameter generation failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_GetAttributeValue(hRwSession, hDsaParams, + dsaPubKeyTemplate, 3); + if (crv == CKR_OK) { + PKM_LogIt("Getting DSA domain parameters succeeded\n"); + } else { + PKM_Error("Getting DSA domain parameters failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_DestroyObject(hRwSession, hDsaParams); + if (crv == CKR_OK) { + PKM_LogIt("Destroying DSA domain parameters succeeded\n"); + } else { + PKM_Error("Destroying DSA domain parameters failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt("Generate a DSA key pair ... \n"); + /* Generate a persistent DSA key pair */ + crv = pFunctionList->C_GenerateKeyPair(hRwSession, &dsaKeyPairGenMech, + dsaPubKeyTemplate, + NUM_ELEM(dsaPubKeyTemplate), + dsaPrivKeyTemplate, + NUM_ELEM(dsaPrivKeyTemplate), + &hDSApubKey, &hDSAprivKey); + if (crv == CKR_OK) { + PKM_LogIt("DSA key pair generation succeeded\n"); + } else { + PKM_Error("DSA key pair generation failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt("Generate a RSA key pair ... \n"); + /*** GEN RSA Key ***/ + crv = pFunctionList->C_GenerateKeyPair(hRwSession, &rsaKeyPairGenMech, + rsaPubKeyTemplate, + NUM_ELEM(rsaPubKeyTemplate), + rsaPrivKeyTemplate, + NUM_ELEM(rsaPrivKeyTemplate), + &hRSApubKey, &hRSAprivKey); + if (crv == CKR_OK) { + PKM_LogIt("C_GenerateKeyPair created an RSA key pair. \n"); + } else { + PKM_Error("C_GenerateKeyPair failed to create an RSA key pair.\n" + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt("**** Generation of keys completed ***** \n"); + + mech.mechanism = CKM_RSA_PKCS; + mech.pParameter = NULL; + mech.ulParameterLen = 0; + + crv = PKM_wrapUnwrap(pFunctionList, + hRwSession, + hRSApubKey, hRSAprivKey, + &mech, + hAESSecKey, + sAESKeyTemplate, + NUM_ELEM(sAESKeyTemplate)); + + if (crv == CKR_OK) { + PKM_LogIt("PKM_wrapUnwrap using RSA keypair to wrap AES key " + "succeeded\n\n"); + } else { + PKM_Error("PKM_wrapUnwrap using RSA keypair to wrap AES key failed " + "with 0x%08X, %-26s\n", + crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = PKM_wrapUnwrap(pFunctionList, + hRwSession, + hRSApubKey, hRSAprivKey, + &mech, + hDES3SecKey, + sDES3KeyTemplate, + NUM_ELEM(sDES3KeyTemplate)); + + if (crv == CKR_OK) { + PKM_LogIt("PKM_wrapUnwrap using RSA keypair to wrap DES3 key " + "succeeded\n\n"); + } else { + PKM_Error("PKM_wrapUnwrap using RSA keypair to wrap DES3 key " + "failed with 0x%08X, %-26s\n", + crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = PKM_SecKeyCrypt(pFunctionList, hRwSession, + hAESSecKey, &mech_AES_CBC_PAD, + PLAINTEXT_PAD, sizeof(PLAINTEXT_PAD)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_SecKeyCrypt succeeded \n\n"); + } else { + PKM_Error("PKM_SecKeyCrypt failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = PKM_SecKeyCrypt(pFunctionList, hRwSession, + hAESSecKey, &mech_AES_CBC, + PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_SecKeyCrypt AES succeeded \n\n"); + } else { + PKM_Error("PKM_SecKeyCrypt failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = PKM_SecKeyCrypt(pFunctionList, hRwSession, + hDES3SecKey, &mech_DES3_CBC, + PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_SecKeyCrypt DES3 succeeded \n"); + } else { + PKM_Error("PKM_SecKeyCrypt DES3 failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = PKM_SecKeyCrypt(pFunctionList, hRwSession, + hDES3SecKey, &mech_DES3_CBC_PAD, + PLAINTEXT_PAD, sizeof(PLAINTEXT_PAD)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_SecKeyCrypt DES3 succeeded \n\n"); + } else { + PKM_Error("PKM_SecKeyCrypt DES3 failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + mech.mechanism = CKM_RSA_PKCS; + crv = PKM_RecoverFunctions(pFunctionList, hRwSession, + hRSApubKey, hRSAprivKey, + &mech, + PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_RecoverFunctions for CKM_RSA_PKCS succeeded\n\n"); + } else { + PKM_Error("PKM_RecoverFunctions failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + mech.pParameter = NULL; + mech.ulParameterLen = 0; + + for (i = 0; i < sigRSAMechsSZ; i++) { + + mech.mechanism = sigRSAMechs[i].mechanism; + + crv = PKM_PubKeySign(pFunctionList, hRwSession, + hRSApubKey, hRSAprivKey, + &mech, + PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_PubKeySign succeeded for %-10s\n\n", + sigRSAMechs[i].mechanismStr); + } else { + PKM_Error("PKM_PubKeySign failed for %-10s " + "with 0x%08X, %-26s\n", + sigRSAMechs[i].mechanismStr, crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = PKM_DualFuncSign(pFunctionList, hRwSession, + hRSApubKey, hRSAprivKey, + &mech, + hAESSecKey, &mech_AES_CBC, + PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_DualFuncSign with AES secret key succeeded " + "for %-10s\n\n", + sigRSAMechs[i].mechanismStr); + } else { + PKM_Error("PKM_DualFuncSign with AES secret key failed " + "for %-10s " + "with 0x%08X, %-26s\n", + sigRSAMechs[i].mechanismStr, crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = PKM_DualFuncSign(pFunctionList, hRwSession, + hRSApubKey, hRSAprivKey, + &mech, + hDES3SecKey, &mech_DES3_CBC, + PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_DualFuncSign with DES3 secret key succeeded " + "for %-10s\n\n", + sigRSAMechs[i].mechanismStr); + } else { + PKM_Error("PKM_DualFuncSign with DES3 secret key failed " + "for %-10s " + "with 0x%08X, %-26s\n", + sigRSAMechs[i].mechanismStr, crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = PKM_DualFuncSign(pFunctionList, hRwSession, + hRSApubKey, hRSAprivKey, + &mech, + hAESSecKey, &mech_AES_CBC_PAD, + PLAINTEXT_PAD, sizeof(PLAINTEXT_PAD)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_DualFuncSign with AES secret key CBC_PAD " + "succeeded for %-10s\n\n", + sigRSAMechs[i].mechanismStr); + } else { + PKM_Error("PKM_DualFuncSign with AES secret key CBC_PAD " + "failed for %-10s " + "with 0x%08X, %-26s\n", + sigRSAMechs[i].mechanismStr, crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = PKM_DualFuncSign(pFunctionList, hRwSession, + hRSApubKey, hRSAprivKey, + &mech, + hDES3SecKey, &mech_DES3_CBC_PAD, + PLAINTEXT_PAD, sizeof(PLAINTEXT_PAD)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_DualFuncSign with DES3 secret key CBC_PAD " + "succeeded for %-10s\n\n", + sigRSAMechs[i].mechanismStr); + } else { + PKM_Error("PKM_DualFuncSign with DES3 secret key CBC_PAD " + "failed for %-10s " + "with 0x%08X, %-26s\n", + sigRSAMechs[i].mechanismStr, crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + } /* end of RSA for loop */ + + crv = PKM_PubKeySign(pFunctionList, hRwSession, + hDSApubKey, hDSAprivKey, + &dsaWithSha1Mech, PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_PubKeySign for DSAwithSHA1 succeeded \n\n"); + } else { + PKM_Error("PKM_PubKeySign failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = PKM_DualFuncSign(pFunctionList, hRwSession, + hDSApubKey, hDSAprivKey, + &dsaWithSha1Mech, + hAESSecKey, &mech_AES_CBC, + PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_DualFuncSign with AES secret key succeeded " + "for DSAWithSHA1\n\n"); + } else { + PKM_Error("PKM_DualFuncSign with AES secret key failed " + "for DSAWithSHA1 with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = PKM_DualFuncSign(pFunctionList, hRwSession, + hDSApubKey, hDSAprivKey, + &dsaWithSha1Mech, + hDES3SecKey, &mech_DES3_CBC, + PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_DualFuncSign with DES3 secret key succeeded " + "for DSAWithSHA1\n\n"); + } else { + PKM_Error("PKM_DualFuncSign with DES3 secret key failed " + "for DSAWithSHA1 with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = PKM_DualFuncSign(pFunctionList, hRwSession, + hDSApubKey, hDSAprivKey, + &dsaWithSha1Mech, + hAESSecKey, &mech_AES_CBC_PAD, + PLAINTEXT_PAD, sizeof(PLAINTEXT_PAD)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_DualFuncSign with AES secret key CBC_PAD succeeded " + "for DSAWithSHA1\n\n"); + } else { + PKM_Error("PKM_DualFuncSign with AES secret key CBC_PAD failed " + "for DSAWithSHA1 with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = PKM_DualFuncSign(pFunctionList, hRwSession, + hDSApubKey, hDSAprivKey, + &dsaWithSha1Mech, + hDES3SecKey, &mech_DES3_CBC_PAD, + PLAINTEXT_PAD, sizeof(PLAINTEXT_PAD)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_DualFuncSign with DES3 secret key CBC_PAD succeeded " + "for DSAWithSHA1\n\n"); + } else { + PKM_Error("PKM_DualFuncSign with DES3 secret key CBC_PAD failed " + "for DSAWithSHA1 with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + for (i = 0; i < digestMechsSZ; i++) { + mech.mechanism = digestMechs[i].mechanism; + crv = PKM_Digest(pFunctionList, hRwSession, + &mech, hAESSecKey, + PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_Digest with AES secret key succeeded for %-10s\n\n", + digestMechs[i].mechanismStr); + } else { + PKM_Error("PKM_Digest with AES secret key failed for " + "%-10s with 0x%08X, %-26s\n", + digestMechs[i].mechanismStr, crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = PKM_DualFuncDigest(pFunctionList, hRwSession, + hAESSecKey, &mech_AES_CBC, + 0, &mech, + PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_DualFuncDigest with AES secret key succeeded\n\n"); + } else { + PKM_Error("PKM_DualFuncDigest with AES secret key " + "failed with 0x%08X, %-26s\n", + crv, + PKM_CK_RVtoStr(crv)); + } + + crv = PKM_Digest(pFunctionList, hRwSession, + &mech, hDES3SecKey, + PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_Digest with DES3 secret key succeeded for %-10s\n\n", + digestMechs[i].mechanismStr); + } else { + PKM_Error("PKM_Digest with DES3 secret key failed for " + "%-10s with 0x%08X, %-26s\n", + digestMechs[i].mechanismStr, crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = PKM_DualFuncDigest(pFunctionList, hRwSession, + hDES3SecKey, &mech_DES3_CBC, + 0, &mech, + PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_DualFuncDigest DES3 secret key succeeded\n\n"); + } else { + PKM_Error("PKM_DualFuncDigest DES3 secret key " + "failed with 0x%08X, %-26s\n", + crv, + PKM_CK_RVtoStr(crv)); + } + + crv = PKM_Digest(pFunctionList, hRwSession, + &mech, 0, + PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_Digest with no secret key succeeded for %-10s\n\n", + digestMechs[i].mechanismStr); + } else { + PKM_Error("PKM_Digest with no secret key failed for %-10s " + "with 0x%08X, %-26s\n", + digestMechs[i].mechanismStr, crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + } /* end of digest loop */ + + for (i = 0; i < hmacMechsSZ; i++) { + mech.mechanism = hmacMechs[i].mechanism; + crv = PKM_Hmac(pFunctionList, hRwSession, + hAESSecKey, &mech, + PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_Hmac with AES secret key succeeded for %-10s\n\n", + hmacMechs[i].mechanismStr); + } else { + PKM_Error("PKM_Hmac with AES secret key failed for %-10s " + "with 0x%08X, %-26s\n", + hmacMechs[i].mechanismStr, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + if ((MODE == FIPSMODE) && (mech.mechanism == CKM_SHA512_HMAC)) + break; + crv = PKM_Hmac(pFunctionList, hRwSession, + hDES3SecKey, &mech, + PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_Hmac with DES3 secret key succeeded for %-10s\n\n", + hmacMechs[i].mechanismStr); + } else { + PKM_Error("PKM_Hmac with DES3 secret key failed for %-10s " + "with 0x%08X, %-26s\n", + hmacMechs[i].mechanismStr, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + } /* end of hmac loop */ + + crv = pFunctionList->C_Logout(hRwSession); + if (crv == CKR_OK) { + PKM_LogIt("C_Logout succeeded\n"); + } else { + PKM_Error("C_Logout failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_CloseSession(hRwSession); + if (crv != CKR_OK) { + PKM_Error("C_CloseSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + return crv; +} + +void +PKM_LogIt(const char *fmt, ...) +{ + va_list args; + + if (verbose) { + va_start(args, fmt); + if (MODE == FIPSMODE) { + printf("FIPS MODE: "); + } else if (MODE == NONFIPSMODE) { + printf("NON FIPS MODE: "); + } else if (MODE == HYBRIDMODE) { + printf("Hybrid MODE: "); + } + vprintf(fmt, args); + va_end(args); + } +} + +void +PKM_Error(const char *fmt, ...) +{ + va_list args; + va_start(args, fmt); + + if (MODE == FIPSMODE) { + fprintf(stderr, "\nFIPS MODE PKM_Error: "); + } else if (MODE == NONFIPSMODE) { + fprintf(stderr, "NON FIPS MODE PKM_Error: "); + } else if (MODE == HYBRIDMODE) { + fprintf(stderr, "Hybrid MODE PKM_Error: "); + } else + fprintf(stderr, "NOMODE PKM_Error: "); + vfprintf(stderr, fmt, args); + va_end(args); +} +CK_SLOT_ID * +PKM_GetSlotList(CK_FUNCTION_LIST_PTR pFunctionList, + CK_ULONG slotID) +{ + CK_RV crv = CKR_OK; + CK_SLOT_ID *pSlotList = NULL; + CK_ULONG slotCount; + + NUMTESTS++; /* increment NUMTESTS */ + + /* Get slot list */ + crv = pFunctionList->C_GetSlotList(CK_FALSE /* all slots */, + NULL, &slotCount); + if (crv != CKR_OK) { + PKM_Error("C_GetSlotList failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return NULL; + } + PKM_LogIt("C_GetSlotList reported there are %lu slots\n", slotCount); + pSlotList = (CK_SLOT_ID *)malloc(slotCount * sizeof(CK_SLOT_ID)); + if (!pSlotList) { + PKM_Error("failed to allocate slot list\n"); + return NULL; + } + crv = pFunctionList->C_GetSlotList(CK_FALSE /* all slots */, + pSlotList, &slotCount); + if (crv != CKR_OK) { + PKM_Error("C_GetSlotList failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + if (pSlotList) + free(pSlotList); + return NULL; + } + return pSlotList; +} + +CK_RV +PKM_InitPWforDB(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen) +{ + CK_RV crv = CKR_OK; + CK_SESSION_HANDLE hSession; + static const CK_UTF8CHAR testPin[] = { "0Mozilla" }; + static const CK_UTF8CHAR weakPin[] = { "mozilla" }; + + crv = pFunctionList->C_OpenSession(pSlotList[slotID], + CKF_RW_SESSION | CKF_SERIAL_SESSION, + NULL, NULL, &hSession); + if (crv != CKR_OK) { + PKM_Error("C_OpenSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + PKM_LogIt("CKU_USER 0x%08X \n", CKU_USER); + + crv = pFunctionList->C_Login(hSession, CKU_SO, NULL, 0); + if (crv != CKR_OK) { + PKM_Error("C_Login failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + if (MODE == FIPSMODE) { + crv = pFunctionList->C_InitPIN(hSession, (CK_UTF8CHAR *)weakPin, + strlen((char *)weakPin)); + if (crv == CKR_OK) { + PKM_Error("C_InitPIN with a weak password succeeded\n"); + return crv; + } else { + PKM_LogIt("C_InitPIN with a weak password failed with " + "0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + } + } + crv = pFunctionList->C_InitPIN(hSession, (CK_UTF8CHAR *)testPin, + strlen((char *)testPin)); + if (crv == CKR_OK) { + PKM_LogIt("C_InitPIN succeeded\n"); + } else { + PKM_Error("C_InitPIN failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_Logout(hSession); + if (crv != CKR_OK) { + PKM_Error("C_Logout failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_CloseSession(hSession); + if (crv != CKR_OK) { + PKM_Error("C_CloseSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_OpenSession(pSlotList[slotID], + CKF_RW_SESSION | CKF_SERIAL_SESSION, + NULL, NULL, &hSession); + if (crv != CKR_OK) { + PKM_Error("C_OpenSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt("CKU_USER 0x%08X \n", CKU_USER); + + crv = pFunctionList->C_Login(hSession, CKU_USER, (CK_UTF8CHAR *)testPin, + strlen((const char *)testPin)); + if (crv != CKR_OK) { + PKM_Error("C_Login failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + if (MODE == FIPSMODE) { + crv = pFunctionList->C_SetPIN( + hSession, (CK_UTF8CHAR *)testPin, + strlen((const char *)testPin), + (CK_UTF8CHAR *)weakPin, + strlen((const char *)weakPin)); + if (crv == CKR_OK) { + PKM_Error("C_SetPIN with a weak password succeeded\n"); + return crv; + } else { + PKM_LogIt("C_SetPIN with a weak password returned with " + "0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + } + } + crv = pFunctionList->C_SetPIN( + hSession, (CK_UTF8CHAR *)testPin, + strlen((const char *)testPin), + pwd, pwdLen); + if (crv != CKR_OK) { + PKM_Error("C_CSetPin failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_Logout(hSession); + if (crv != CKR_OK) { + PKM_Error("C_Logout failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_CloseSession(hSession); + if (crv != CKR_OK) { + PKM_Error("C_CloseSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + return crv; +} + +CK_RV +PKM_ShowInfo(CK_FUNCTION_LIST_PTR pFunctionList, CK_ULONG slotID) +{ + CK_RV crv = CKR_OK; + CK_INFO info; + CK_SLOT_ID *pSlotList = NULL; + unsigned i; + + CK_SLOT_INFO slotInfo; + CK_TOKEN_INFO tokenInfo; + CK_FLAGS bitflag; + + NUMTESTS++; /* increment NUMTESTS */ + + crv = pFunctionList->C_GetInfo(&info); + if (crv == CKR_OK) { + PKM_LogIt("C_GetInfo succeeded\n"); + } else { + PKM_Error("C_GetInfo failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + PKM_LogIt("General information about the PKCS #11 library:\n"); + PKM_LogIt(" PKCS #11 version: %d.%d\n", + (int)info.cryptokiVersion.major, + (int)info.cryptokiVersion.minor); + PKM_LogIt(" manufacturer ID: %.32s\n", info.manufacturerID); + PKM_LogIt(" flags: 0x%08lX\n", info.flags); + PKM_LogIt(" library description: %.32s\n", info.libraryDescription); + PKM_LogIt(" library version: %d.%d\n", + (int)info.libraryVersion.major, (int)info.libraryVersion.minor); + PKM_LogIt("\n"); + + /* Get slot list */ + pSlotList = PKM_GetSlotList(pFunctionList, slotID); + if (pSlotList == NULL) { + PKM_Error("PKM_GetSlotList failed with \n"); + return crv; + } + crv = pFunctionList->C_GetSlotInfo(pSlotList[slotID], &slotInfo); + if (crv == CKR_OK) { + PKM_LogIt("C_GetSlotInfo succeeded\n"); + } else { + PKM_Error("C_GetSlotInfo failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + PKM_LogIt("Information about slot %lu:\n", pSlotList[slotID]); + PKM_LogIt(" slot description: %.64s\n", slotInfo.slotDescription); + PKM_LogIt(" slot manufacturer ID: %.32s\n", slotInfo.manufacturerID); + PKM_LogIt(" flags: 0x%08lX\n", slotInfo.flags); + bitflag = 1; + for (i = 0; i < sizeof(slotFlagName) / sizeof(slotFlagName[0]); i++) { + if (slotInfo.flags & bitflag) { + PKM_LogIt(" %s\n", slotFlagName[i]); + } + bitflag <<= 1; + } + PKM_LogIt(" slot's hardware version number: %d.%d\n", + (int)slotInfo.hardwareVersion.major, + (int)slotInfo.hardwareVersion.minor); + PKM_LogIt(" slot's firmware version number: %d.%d\n", + (int)slotInfo.firmwareVersion.major, + (int)slotInfo.firmwareVersion.minor); + PKM_LogIt("\n"); + + crv = pFunctionList->C_GetTokenInfo(pSlotList[slotID], &tokenInfo); + if (crv == CKR_OK) { + PKM_LogIt("C_GetTokenInfo succeeded\n"); + } else { + PKM_Error("C_GetTokenInfo failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + PKM_LogIt("Information about the token in slot %lu:\n", + pSlotList[slotID]); + PKM_LogIt(" label: %.32s\n", tokenInfo.label); + PKM_LogIt(" device manufacturer ID: %.32s\n", + tokenInfo.manufacturerID); + PKM_LogIt(" device model: %.16s\n", tokenInfo.model); + PKM_LogIt(" device serial number: %.16s\n", tokenInfo.serialNumber); + PKM_LogIt(" flags: 0x%08lX\n", tokenInfo.flags); + bitflag = 1; + for (i = 0; i < sizeof(tokenFlagName) / sizeof(tokenFlagName[0]); i++) { + if (tokenInfo.flags & bitflag) { + PKM_LogIt(" %s\n", tokenFlagName[i]); + } + bitflag <<= 1; + } + PKM_LogIt(" maximum session count: %lu\n", + tokenInfo.ulMaxSessionCount); + PKM_LogIt(" session count: %lu\n", tokenInfo.ulSessionCount); + PKM_LogIt(" maximum read/write session count: %lu\n", + tokenInfo.ulMaxRwSessionCount); + PKM_LogIt(" read/write session count: %lu\n", + tokenInfo.ulRwSessionCount); + PKM_LogIt(" maximum PIN length: %lu\n", tokenInfo.ulMaxPinLen); + PKM_LogIt(" minimum PIN length: %lu\n", tokenInfo.ulMinPinLen); + PKM_LogIt(" total public memory: %lu\n", + tokenInfo.ulTotalPublicMemory); + PKM_LogIt(" free public memory: %lu\n", + tokenInfo.ulFreePublicMemory); + PKM_LogIt(" total private memory: %lu\n", + tokenInfo.ulTotalPrivateMemory); + PKM_LogIt(" free private memory: %lu\n", + tokenInfo.ulFreePrivateMemory); + PKM_LogIt(" hardware version number: %d.%d\n", + (int)tokenInfo.hardwareVersion.major, + (int)tokenInfo.hardwareVersion.minor); + PKM_LogIt(" firmware version number: %d.%d\n", + (int)tokenInfo.firmwareVersion.major, + (int)tokenInfo.firmwareVersion.minor); + if (tokenInfo.flags & CKF_CLOCK_ON_TOKEN) { + PKM_LogIt(" current time: %.16s\n", tokenInfo.utcTime); + } + PKM_LogIt("PKM_ShowInfo done \n\n"); + free(pSlotList); + return crv; +} + +/* PKM_HybridMode */ +/* The NSS cryptographic module has two modes of operation: FIPS Approved */ +/* mode and NONFIPS Approved mode. The two modes of operation are */ +/* independent of each other -- they have their own copies of data */ +/* structures and they are even allowed to be active at the same time. */ +/* The module is FIPS 140-2 compliant only when the NONFIPS mode */ +/* is inactive. */ +/* PKM_HybridMode demostrates how an application can switch between the */ +/* two modes: FIPS Approved mode and NONFIPS mode. */ +CK_RV +PKM_HybridMode(CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen, + CK_C_INITIALIZE_ARGS_NSS *initArgs) +{ + + CK_C_GetFunctionList pC_GetFunctionList; /* NONFIPSMode */ + CK_FUNCTION_LIST_PTR pC_FunctionList; + CK_SLOT_ID *pC_SlotList = NULL; + CK_ULONG slotID_C = 1; + CK_C_GetFunctionList pFC_GetFunctionList; /* FIPSMode */ + CK_FUNCTION_LIST_PTR pFC_FunctionList; + CK_SLOT_ID *pFC_SlotList = NULL; + CK_ULONG slotID_FC = 0; + CK_RV crv = CKR_OK; + CK_SESSION_HANDLE hSession; + int origMode = MODE; /* remember the orginal MODE value */ + + NUMTESTS++; /* increment NUMTESTS */ + MODE = NONFIPSMODE; +#ifdef _WIN32 + /* NON FIPS mode == C_GetFunctionList */ + pC_GetFunctionList = (CK_C_GetFunctionList) + GetProcAddress(hModule, "C_GetFunctionList"); + if (pC_GetFunctionList == NULL) { + PKM_Error("cannot load %s\n", LIB_NAME); + return crv; + } +#else + pC_GetFunctionList = (CK_C_GetFunctionList)PR_FindFunctionSymbol(lib, + "C_GetFunctionList"); + assert(pC_GetFunctionList != NULL); +#endif + PKM_LogIt("loading C_GetFunctionList for Non FIPS Mode; slotID %d \n", + slotID_C); + crv = (*pC_GetFunctionList)(&pC_FunctionList); + assert(crv == CKR_OK); + + /* invoke C_Initialize as pC_FunctionList->C_Initialize */ + crv = pC_FunctionList->C_Initialize(initArgs); + if (crv == CKR_OK) { + PKM_LogIt("C_Initialize succeeded\n"); + } else { + PKM_Error("C_Initialize failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + pC_SlotList = PKM_GetSlotList(pC_FunctionList, slotID_C); + if (pC_SlotList == NULL) { + PKM_Error("PKM_GetSlotList failed with \n"); + return crv; + } + crv = pC_FunctionList->C_OpenSession(pC_SlotList[slotID_C], + CKF_SERIAL_SESSION, + NULL, NULL, &hSession); + if (crv == CKR_OK) { + PKM_LogIt("NONFIPS C_OpenSession succeeded\n"); + } else { + PKM_Error("C_OpenSession failed for NONFIPS token " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pC_FunctionList->C_Login(hSession, CKU_USER, pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("able to login in NONFIPS token\n"); + } else { + PKM_Error("Unable to login in to NONFIPS token " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pC_FunctionList->C_Logout(hSession); + if (crv == CKR_OK) { + PKM_LogIt("C_Logout succeeded\n"); + } else { + PKM_Error("C_Logout failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_ShowInfo(pC_FunctionList, slotID_C); + MODE = HYBRIDMODE; + + /* Now load the FIPS token */ + /* FIPS mode == FC_GetFunctionList */ + pFC_GetFunctionList = NULL; +#ifdef _WIN32 + pFC_GetFunctionList = (CK_C_GetFunctionList) + GetProcAddress(hModule, "FC_GetFunctionList"); +#else + pFC_GetFunctionList = (CK_C_GetFunctionList)PR_FindFunctionSymbol(lib, + "FC_GetFunctionList"); + assert(pFC_GetFunctionList != NULL); +#endif + + PKM_LogIt("loading FC_GetFunctionList for FIPS Mode; slotID %d \n", + slotID_FC); + PKM_LogIt("pFC_FunctionList->C_Foo == pFC_FunctionList->FC_Foo\n"); + if (pFC_GetFunctionList == NULL) { + PKM_Error("unable to load pFC_GetFunctionList\n"); + return crv; + } + + crv = (*pFC_GetFunctionList)(&pFC_FunctionList); + assert(crv == CKR_OK); + + /* invoke FC_Initialize as pFunctionList->C_Initialize */ + crv = pFC_FunctionList->C_Initialize(initArgs); + if (crv == CKR_OK) { + PKM_LogIt("FC_Initialize succeeded\n"); + } else { + PKM_Error("FC_Initialize failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + PKM_ShowInfo(pFC_FunctionList, slotID_FC); + + pFC_SlotList = PKM_GetSlotList(pFC_FunctionList, slotID_FC); + if (pFC_SlotList == NULL) { + PKM_Error("PKM_GetSlotList failed with \n"); + return crv; + } + + crv = pC_FunctionList->C_Login(hSession, CKU_USER, pwd, pwdLen); + if (crv != CKR_OK) { + PKM_LogIt("NONFIPS token cannot log in when FIPS token is loaded\n"); + } else { + PKM_Error("Able to login in to NONFIPS token\n"); + return crv; + } + crv = pC_FunctionList->C_CloseSession(hSession); + if (crv == CKR_OK) { + PKM_LogIt("NONFIPS pC_CloseSession succeeded\n"); + } else { + PKM_Error("pC_CloseSession failed for NONFIPS token " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt("The module is FIPS 140-2 compliant\n" + "only when the NONFIPS Approved mode is inactive by \n" + "calling C_Finalize on the NONFIPS token.\n"); + + /* to go in FIPSMODE you must Finalize the NONFIPS mode pointer */ + crv = pC_FunctionList->C_Finalize(NULL); + if (crv == CKR_OK) { + PKM_LogIt("C_Finalize of NONFIPS Token succeeded\n"); + MODE = FIPSMODE; + } else { + PKM_Error("C_Finalize of NONFIPS Token failed with " + "0x%08X, %-26s\n", + crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt("*** In FIPS mode! ***\n"); + + /* could do some operations in FIPS MODE */ + + crv = pFC_FunctionList->C_Finalize(NULL); + if (crv == CKR_OK) { + PKM_LogIt("Exiting FIPSMODE by caling FC_Finalize.\n"); + MODE = NOMODE; + } else { + PKM_Error("FC_Finalize failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + if (pC_SlotList) + free(pC_SlotList); + if (pFC_SlotList) + free(pFC_SlotList); + + MODE = origMode; /* set the mode back to the orginal Mode value */ + PKM_LogIt("PKM_HybridMode test Completed\n\n"); + return crv; +} + +CK_RV +PKM_Mechanism(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID) +{ + + CK_RV crv = CKR_OK; + CK_MECHANISM_TYPE *pMechanismList; + CK_ULONG mechanismCount; + CK_ULONG i; + const char *mechName = NULL; + + NUMTESTS++; /* increment NUMTESTS */ + + /* Get the mechanism list */ + crv = pFunctionList->C_GetMechanismList(pSlotList[slotID], + NULL, &mechanismCount); + if (crv != CKR_OK) { + PKM_Error("C_GetMechanismList failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + PKM_LogIt("C_GetMechanismList reported there are %lu mechanisms\n", + mechanismCount); + pMechanismList = (CK_MECHANISM_TYPE *) + malloc(mechanismCount * sizeof(CK_MECHANISM_TYPE)); + if (!pMechanismList) { + PKM_Error("failed to allocate mechanism list\n"); + return crv; + } + crv = pFunctionList->C_GetMechanismList(pSlotList[slotID], + pMechanismList, &mechanismCount); + if (crv != CKR_OK) { + PKM_Error("C_GetMechanismList failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + PKM_LogIt("C_GetMechanismList returned the mechanism types:\n"); + if (verbose) { + for (i = 0; i < mechanismCount; i++) { + mechName = getName(pMechanismList[(i)], ConstMechanism); + + /* output two mechanism name on each line */ + /* currently the longest known mechansim name length is 37 */ + if (mechName) { + printf("%-40s", mechName); + } else { + printf("Unknown mechanism: 0x%08lX ", pMechanismList[i]); + } + if ((i % 2) == 1) + printf("\n"); + } + printf("\n\n"); + } + + for (i = 0; i < mechanismCount; i++) { + CK_MECHANISM_INFO minfo; + + memset(&minfo, 0, sizeof(CK_MECHANISM_INFO)); + crv = pFunctionList->C_GetMechanismInfo(pSlotList[slotID], + pMechanismList[i], &minfo); + if (CKR_OK != crv) { + PKM_Error("C_GetMechanismInfo(%lu, %lu) returned 0x%08X, %-26s\n", + pSlotList[slotID], pMechanismList[i], crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + mechName = getName(pMechanismList[i], ConstMechanism); + if (!mechName) + mechName = "Unknown mechanism"; + PKM_LogIt(" [%lu]: CK_MECHANISM_TYPE = %s 0x%08lX\n", (i + 1), + mechName, + pMechanismList[i]); + PKM_LogIt(" ulMinKeySize = %lu\n", minfo.ulMinKeySize); + PKM_LogIt(" ulMaxKeySize = %lu\n", minfo.ulMaxKeySize); + PKM_LogIt(" flags = 0x%08x\n", minfo.flags); + PKM_LogIt(" -> HW = %s\n", minfo.flags & CKF_HW ? "TRUE" + : "FALSE"); + PKM_LogIt(" -> ENCRYPT = %s\n", minfo.flags & CKF_ENCRYPT ? "TRUE" + : "FALSE"); + PKM_LogIt(" -> DECRYPT = %s\n", minfo.flags & CKF_DECRYPT ? "TRUE" + : "FALSE"); + PKM_LogIt(" -> DIGEST = %s\n", minfo.flags & CKF_DIGEST ? "TRUE" + : "FALSE"); + PKM_LogIt(" -> SIGN = %s\n", minfo.flags & CKF_SIGN ? "TRUE" + : "FALSE"); + PKM_LogIt(" -> SIGN_RECOVER = %s\n", minfo.flags & + CKF_SIGN_RECOVER + ? "TRUE" + : "FALSE"); + PKM_LogIt(" -> VERIFY = %s\n", minfo.flags & CKF_VERIFY ? "TRUE" + : "FALSE"); + PKM_LogIt(" -> VERIFY_RECOVER = %s\n", + minfo.flags & CKF_VERIFY_RECOVER ? "TRUE" : "FALSE"); + PKM_LogIt(" -> GENERATE = %s\n", minfo.flags & CKF_GENERATE ? "TRUE" + : "FALSE"); + PKM_LogIt(" -> GENERATE_KEY_PAIR = %s\n", + minfo.flags & CKF_GENERATE_KEY_PAIR ? "TRUE" : "FALSE"); + PKM_LogIt(" -> WRAP = %s\n", minfo.flags & CKF_WRAP ? "TRUE" + : "FALSE"); + PKM_LogIt(" -> UNWRAP = %s\n", minfo.flags & CKF_UNWRAP ? "TRUE" + : "FALSE"); + PKM_LogIt(" -> DERIVE = %s\n", minfo.flags & CKF_DERIVE ? "TRUE" + : "FALSE"); + PKM_LogIt(" -> EXTENSION = %s\n", minfo.flags & CKF_EXTENSION ? "TRUE" + : "FALSE"); + + PKM_LogIt("\n"); + } + + return crv; +} + +CK_RV +PKM_RNG(CK_FUNCTION_LIST_PTR pFunctionList, CK_SLOT_ID *pSlotList, + CK_ULONG slotID) +{ + CK_SESSION_HANDLE hSession; + CK_RV crv = CKR_OK; + CK_BYTE randomData[16]; + CK_BYTE seed[] = { 0x01, 0x03, 0x35, 0x55, 0xFF }; + + NUMTESTS++; /* increment NUMTESTS */ + + crv = pFunctionList->C_OpenSession(pSlotList[slotID], CKF_SERIAL_SESSION, + NULL, NULL, &hSession); + if (crv != CKR_OK) { + PKM_Error("C_OpenSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_GenerateRandom(hSession, + randomData, sizeof randomData); + if (crv == CKR_OK) { + PKM_LogIt("C_GenerateRandom without login succeeded\n"); + } else { + PKM_Error("C_GenerateRandom without login failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_SeedRandom(hSession, seed, sizeof(seed)); + if (crv == CKR_OK) { + PKM_LogIt("C_SeedRandom without login succeeded\n"); + } else { + PKM_Error("C_SeedRandom without login failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_GenerateRandom(hSession, + randomData, sizeof randomData); + if (crv == CKR_OK) { + PKM_LogIt("C_GenerateRandom without login succeeded\n"); + } else { + PKM_Error("C_GenerateRandom without login failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_CloseSession(hSession); + if (crv != CKR_OK) { + PKM_Error("C_CloseSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + return crv; +} + +CK_RV +PKM_SessionLogin(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen) +{ + CK_SESSION_HANDLE hSession; + CK_RV crv = CKR_OK; + + NUMTESTS++; /* increment NUMTESTS */ + + crv = pFunctionList->C_OpenSession(pSlotList[slotID], CKF_SERIAL_SESSION, + NULL, NULL, &hSession); + if (crv != CKR_OK) { + PKM_Error("C_OpenSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_Login(hSession, CKU_USER, (unsigned char *)"netscape", 8); + if (crv == CKR_OK) { + PKM_Error("C_Login with wrong password succeeded\n"); + return CKR_FUNCTION_FAILED; + } else { + PKM_LogIt("As expected C_Login with wrong password returned 0x%08X, " + "%-26s.\n ", + crv, PKM_CK_RVtoStr(crv)); + } + crv = pFunctionList->C_Login(hSession, CKU_USER, (unsigned char *)"red hat", 7); + if (crv == CKR_OK) { + PKM_Error("C_Login with wrong password succeeded\n"); + return CKR_FUNCTION_FAILED; + } else { + PKM_LogIt("As expected C_Login with wrong password returned 0x%08X, " + "%-26s.\n ", + crv, PKM_CK_RVtoStr(crv)); + } + crv = pFunctionList->C_Login(hSession, CKU_USER, + (unsigned char *)"sun", 3); + if (crv == CKR_OK) { + PKM_Error("C_Login with wrong password succeeded\n"); + return CKR_FUNCTION_FAILED; + } else { + PKM_LogIt("As expected C_Login with wrong password returned 0x%08X, " + "%-26s.\n ", + crv, PKM_CK_RVtoStr(crv)); + } + crv = pFunctionList->C_Login(hSession, CKU_USER, pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("C_Login with correct password succeeded\n"); + } else { + PKM_Error("C_Login with correct password failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_Logout(hSession); + if (crv == CKR_OK) { + PKM_LogIt("C_Logout succeeded\n"); + } else { + PKM_Error("C_Logout failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_CloseSession(hSession); + if (crv != CKR_OK) { + PKM_Error("C_CloseSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + return crv; +} + +/* +* PKM_LegacyFunctions +* +* Legacyfunctions exist only for backwards compatibility. +* C_GetFunctionStatus and C_CancelFunction functions were +* meant for managing parallel execution of cryptographic functions. +* +* C_GetFunctionStatus is a legacy function which should simply return +* the value CKR_FUNCTION_NOT_PARALLEL. +* +* C_CancelFunction is a legacy function which should simply return the +* value CKR_FUNCTION_NOT_PARALLEL. +* +*/ +CK_RV +PKM_LegacyFunctions(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen) +{ + CK_SESSION_HANDLE hSession; + CK_RV crv = CKR_OK; + NUMTESTS++; /* increment NUMTESTS */ + + crv = pFunctionList->C_OpenSession(pSlotList[slotID], CKF_SERIAL_SESSION, + NULL, NULL, &hSession); + if (crv != CKR_OK) { + PKM_Error("C_OpenSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_Login(hSession, CKU_USER, pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("C_Login with correct password succeeded\n"); + } else { + PKM_Error("C_Login with correct password failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_GetFunctionStatus(hSession); + if (crv == CKR_FUNCTION_NOT_PARALLEL) { + PKM_LogIt("C_GetFunctionStatus correctly" + "returned CKR_FUNCTION_NOT_PARALLEL \n"); + } else { + PKM_Error("C_GetFunctionStatus failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_CancelFunction(hSession); + if (crv == CKR_FUNCTION_NOT_PARALLEL) { + PKM_LogIt("C_CancelFunction correctly " + "returned CKR_FUNCTION_NOT_PARALLEL \n"); + } else { + PKM_Error("C_CancelFunction failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_Logout(hSession); + if (crv == CKR_OK) { + PKM_LogIt("C_Logout succeeded\n"); + } else { + PKM_Error("C_Logout failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_CloseSession(hSession); + if (crv != CKR_OK) { + PKM_Error("C_CloseSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + return crv; +} + +/* +* PKM_DualFuncDigest - demostrates the Dual-function +* cryptograpic functions: +* +* C_DigestEncryptUpdate - multi-part Digest and Encrypt +* C_DecryptDigestUpdate - multi-part Decrypt and Digest +* +* +*/ + +CK_RV +PKM_DualFuncDigest(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hSession, + CK_OBJECT_HANDLE hSecKey, CK_MECHANISM *cryptMech, + CK_OBJECT_HANDLE hSecKeyDigest, + CK_MECHANISM *digestMech, + const CK_BYTE *pData, CK_ULONG pDataLen) +{ + CK_RV crv = CKR_OK; + CK_BYTE eDigest[MAX_DIGEST_SZ]; + CK_BYTE dDigest[MAX_DIGEST_SZ]; + CK_ULONG ulDigestLen; + CK_BYTE ciphertext[MAX_CIPHER_SZ]; + CK_ULONG ciphertextLen, lastLen; + CK_BYTE plaintext[MAX_DATA_SZ]; + CK_ULONG plaintextLen; + unsigned int i; + + memset(eDigest, 0, sizeof(eDigest)); + memset(dDigest, 0, sizeof(dDigest)); + memset(ciphertext, 0, sizeof(ciphertext)); + memset(plaintext, 0, sizeof(plaintext)); + + NUMTESTS++; /* increment NUMTESTS */ + + /* + * First init the Digest and Ecrypt operations + */ + crv = pFunctionList->C_EncryptInit(hSession, cryptMech, hSecKey); + if (crv != CKR_OK) { + PKM_Error("C_EncryptInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_DigestInit(hSession, digestMech); + if (crv != CKR_OK) { + PKM_Error("C_DigestInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + ciphertextLen = sizeof(ciphertext); + crv = pFunctionList->C_DigestEncryptUpdate(hSession, (CK_BYTE *)pData, + pDataLen, + ciphertext, &ciphertextLen); + if (crv != CKR_OK) { + PKM_Error("C_DigestEncryptUpdate failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + ulDigestLen = sizeof(eDigest); + crv = pFunctionList->C_DigestFinal(hSession, eDigest, &ulDigestLen); + if (crv != CKR_OK) { + PKM_Error("C_DigestFinal failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + /* get the last piece of ciphertext (length should be 0 */ + lastLen = sizeof(ciphertext) - ciphertextLen; + crv = pFunctionList->C_EncryptFinal(hSession, + (CK_BYTE *)&ciphertext[ciphertextLen], + &lastLen); + if (crv != CKR_OK) { + PKM_Error("C_EncryptFinal failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + ciphertextLen = ciphertextLen + lastLen; + if (verbose) { + printf("ciphertext = "); + for (i = 0; i < ciphertextLen; i++) { + printf("%02x", (unsigned)ciphertext[i]); + } + printf("\n"); + printf("eDigest = "); + for (i = 0; i < ulDigestLen; i++) { + printf("%02x", (unsigned)eDigest[i]); + } + printf("\n"); + } + + /* Decrypt the text */ + crv = pFunctionList->C_DecryptInit(hSession, cryptMech, hSecKey); + if (crv != CKR_OK) { + PKM_Error("C_DecryptInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_DigestInit(hSession, digestMech); + if (crv != CKR_OK) { + PKM_Error("C_DecryptInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + plaintextLen = sizeof(plaintext); + crv = pFunctionList->C_DecryptDigestUpdate(hSession, ciphertext, + ciphertextLen, + plaintext, + &plaintextLen); + if (crv != CKR_OK) { + PKM_Error("C_DecryptDigestUpdate failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + lastLen = sizeof(plaintext) - plaintextLen; + + crv = pFunctionList->C_DecryptFinal(hSession, + (CK_BYTE *)&plaintext[plaintextLen], + &lastLen); + if (crv != CKR_OK) { + PKM_Error("C_DecryptFinal failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + plaintextLen = plaintextLen + lastLen; + + ulDigestLen = sizeof(dDigest); + crv = pFunctionList->C_DigestFinal(hSession, dDigest, &ulDigestLen); + if (crv != CKR_OK) { + PKM_Error("C_DigestFinal failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + if (plaintextLen != pDataLen) { + PKM_Error("plaintextLen is %lu\n", plaintextLen); + return crv; + } + + if (verbose) { + printf("plaintext = "); + for (i = 0; i < plaintextLen; i++) { + printf("%02x", (unsigned)plaintext[i]); + } + printf("\n"); + printf("dDigest = "); + for (i = 0; i < ulDigestLen; i++) { + printf("%02x", (unsigned)dDigest[i]); + } + printf("\n"); + } + + if (memcmp(eDigest, dDigest, ulDigestLen) == 0) { + PKM_LogIt("Encrypted Digest equals Decrypted Digest\n"); + } else { + PKM_Error("Digests don't match\n"); + } + + if ((plaintextLen == pDataLen) && + (memcmp(plaintext, pData, pDataLen)) == 0) { + PKM_LogIt("DualFuncDigest decrypt test case passed\n"); + } else { + PKM_Error("DualFuncDigest derypt test case failed\n"); + } + + return crv; +} + +/* +* PKM_SecKeyCrypt - Symmetric key encrypt/decyprt +* +*/ + +CK_RV +PKM_SecKeyCrypt(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hSession, + CK_OBJECT_HANDLE hSymKey, CK_MECHANISM *cryptMech, + const CK_BYTE *pData, CK_ULONG dataLen) +{ + CK_RV crv = CKR_OK; + + CK_BYTE cipher1[MAX_CIPHER_SZ]; + CK_BYTE cipher2[MAX_CIPHER_SZ]; + CK_BYTE data1[MAX_DATA_SZ]; + CK_BYTE data2[MAX_DATA_SZ]; + CK_ULONG cipher1Len = 0, cipher2Len = 0, lastLen = 0; + CK_ULONG data1Len = 0, data2Len = 0; + + NUMTESTS++; /* increment NUMTESTS */ + + memset(cipher1, 0, sizeof(cipher1)); + memset(cipher2, 0, sizeof(cipher2)); + memset(data1, 0, sizeof(data1)); + memset(data2, 0, sizeof(data2)); + + /* C_Encrypt */ + crv = pFunctionList->C_EncryptInit(hSession, cryptMech, hSymKey); + if (crv != CKR_OK) { + PKM_Error("C_EncryptInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + cipher1Len = sizeof(cipher1); + crv = pFunctionList->C_Encrypt(hSession, (CK_BYTE *)pData, dataLen, + cipher1, &cipher1Len); + if (crv != CKR_OK) { + PKM_Error("C_Encrypt failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + /* C_EncryptUpdate */ + crv = pFunctionList->C_EncryptInit(hSession, cryptMech, hSymKey); + if (crv != CKR_OK) { + PKM_Error("C_EncryptInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + cipher2Len = sizeof(cipher2); + crv = pFunctionList->C_EncryptUpdate(hSession, (CK_BYTE *)pData, + dataLen, + cipher2, &cipher2Len); + if (crv != CKR_OK) { + PKM_Error("C_EncryptUpdate failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + lastLen = sizeof(cipher2) - cipher2Len; + + crv = pFunctionList->C_EncryptFinal(hSession, + (CK_BYTE *)&cipher2[cipher2Len], + &lastLen); + cipher2Len = cipher2Len + lastLen; + + if ((cipher1Len == cipher2Len) && + (memcmp(cipher1, cipher2, sizeof(cipher1Len)) == 0)) { + PKM_LogIt("encrypt test case passed\n"); + } else { + PKM_Error("encrypt test case failed\n"); + return CKR_GENERAL_ERROR; + } + + /* C_Decrypt */ + crv = pFunctionList->C_DecryptInit(hSession, cryptMech, hSymKey); + if (crv != CKR_OK) { + PKM_Error("C_DecryptInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + data1Len = sizeof(data1); + crv = pFunctionList->C_Decrypt(hSession, cipher1, cipher1Len, + data1, &data1Len); + if (crv != CKR_OK) { + PKM_Error("C_DecryptInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + /* now use C_DecryptUpdate the text */ + crv = pFunctionList->C_DecryptInit(hSession, cryptMech, hSymKey); + if (crv != CKR_OK) { + PKM_Error("C_DecryptInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + data2Len = sizeof(data2); + crv = pFunctionList->C_DecryptUpdate(hSession, cipher2, + cipher2Len, + data2, &data2Len); + if (crv != CKR_OK) { + PKM_Error("C_DecryptUpdate failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + lastLen = sizeof(data2) - data2Len; + crv = pFunctionList->C_DecryptFinal(hSession, + (CK_BYTE *)&data2[data2Len], + &lastLen); + if (crv != CKR_OK) { + PKM_Error("C_DecryptFinal failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + data2Len = data2Len + lastLen; + + /* Comparison of Decrypt data */ + + if ((data1Len == data2Len) && (dataLen == data1Len) && + (memcmp(data1, pData, dataLen) == 0) && + (memcmp(data2, pData, dataLen) == 0)) { + PKM_LogIt("decrypt test case passed\n"); + } else { + PKM_Error("derypt test case failed\n"); + } + + return crv; +} + +CK_RV +PKM_SecretKey(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen) +{ + CK_SESSION_HANDLE hSession; + CK_RV crv = CKR_OK; + CK_MECHANISM sAESKeyMech = { + CKM_AES_KEY_GEN, NULL, 0 + }; + CK_OBJECT_CLASS class = CKO_SECRET_KEY; + CK_KEY_TYPE keyAESType = CKK_AES; + CK_UTF8CHAR AESlabel[] = "An AES secret key object"; + CK_ULONG AESvalueLen = 16; + CK_ATTRIBUTE sAESKeyTemplate[9]; + CK_OBJECT_HANDLE hKey = CK_INVALID_HANDLE; + + CK_BYTE KEY[16]; + CK_BYTE IV[16]; + static const CK_BYTE CIPHERTEXT[] = { + 0x7e, 0x6a, 0x3f, 0x3b, 0x39, 0x3c, 0xf2, 0x4b, + 0xce, 0xcc, 0x23, 0x6d, 0x80, 0xfd, 0xe0, 0xff + }; + CK_BYTE ciphertext[64]; + CK_BYTE ciphertext2[64]; + CK_ULONG ciphertextLen, ciphertext2Len, lastLen; + CK_BYTE plaintext[32]; + CK_BYTE plaintext2[32]; + CK_ULONG plaintextLen, plaintext2Len; + CK_BYTE wrappedKey[16]; + CK_ULONG wrappedKeyLen; + CK_MECHANISM aesEcbMech = { + CKM_AES_ECB, NULL, 0 + }; + CK_OBJECT_HANDLE hTestKey; + CK_MECHANISM mech_AES_CBC; + + NUMTESTS++; /* increment NUMTESTS */ + + memset(ciphertext, 0, sizeof(ciphertext)); + memset(ciphertext2, 0, sizeof(ciphertext2)); + memset(IV, 0x00, sizeof(IV)); + memset(KEY, 0x00, sizeof(KEY)); + + mech_AES_CBC.mechanism = CKM_AES_CBC; + mech_AES_CBC.pParameter = IV; + mech_AES_CBC.ulParameterLen = sizeof(IV); + + /* AES key template */ + sAESKeyTemplate[0].type = CKA_CLASS; + sAESKeyTemplate[0].pValue = &class; + sAESKeyTemplate[0].ulValueLen = sizeof(class); + sAESKeyTemplate[1].type = CKA_KEY_TYPE; + sAESKeyTemplate[1].pValue = &keyAESType; + sAESKeyTemplate[1].ulValueLen = sizeof(keyAESType); + sAESKeyTemplate[2].type = CKA_LABEL; + sAESKeyTemplate[2].pValue = AESlabel; + sAESKeyTemplate[2].ulValueLen = sizeof(AESlabel) - 1; + sAESKeyTemplate[3].type = CKA_ENCRYPT; + sAESKeyTemplate[3].pValue = &true; + sAESKeyTemplate[3].ulValueLen = sizeof(true); + sAESKeyTemplate[4].type = CKA_DECRYPT; + sAESKeyTemplate[4].pValue = &true; + sAESKeyTemplate[4].ulValueLen = sizeof(true); + sAESKeyTemplate[5].type = CKA_SIGN; + sAESKeyTemplate[5].pValue = &true; + sAESKeyTemplate[5].ulValueLen = sizeof(true); + sAESKeyTemplate[6].type = CKA_VERIFY; + sAESKeyTemplate[6].pValue = &true; + sAESKeyTemplate[6].ulValueLen = sizeof(true); + sAESKeyTemplate[7].type = CKA_UNWRAP; + sAESKeyTemplate[7].pValue = &true; + sAESKeyTemplate[7].ulValueLen = sizeof(true); + sAESKeyTemplate[8].type = CKA_VALUE_LEN; + sAESKeyTemplate[8].pValue = &AESvalueLen; + sAESKeyTemplate[8].ulValueLen = sizeof(AESvalueLen); + + crv = pFunctionList->C_OpenSession(pSlotList[slotID], CKF_SERIAL_SESSION, + NULL, NULL, &hSession); + if (crv != CKR_OK) { + PKM_Error("C_OpenSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_Login(hSession, CKU_USER, pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("C_Login with correct password succeeded\n"); + } else { + PKM_Error("C_Login with correct password failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt("Generate an AES key ... \n"); + /* generate an AES Secret Key */ + crv = pFunctionList->C_GenerateKey(hSession, &sAESKeyMech, + sAESKeyTemplate, + NUM_ELEM(sAESKeyTemplate), + &hKey); + if (crv == CKR_OK) { + PKM_LogIt("C_GenerateKey AES succeeded\n"); + } else { + PKM_Error("C_GenerateKey AES failed with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_EncryptInit(hSession, &aesEcbMech, hKey); + if (crv != CKR_OK) { + PKM_Error("C_EncryptInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + wrappedKeyLen = sizeof(wrappedKey); + crv = pFunctionList->C_Encrypt(hSession, KEY, sizeof(KEY), + wrappedKey, &wrappedKeyLen); + if (crv != CKR_OK) { + PKM_Error("C_Encrypt failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + if (wrappedKeyLen != sizeof(wrappedKey)) { + PKM_Error("wrappedKeyLen is %lu\n", wrappedKeyLen); + return crv; + } + /* Import an encrypted key */ + crv = pFunctionList->C_UnwrapKey(hSession, &aesEcbMech, hKey, + wrappedKey, wrappedKeyLen, + sAESKeyTemplate, + NUM_ELEM(sAESKeyTemplate), + &hTestKey); + if (crv != CKR_OK) { + PKM_Error("C_UnwraPKey failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + /* AES Encrypt the text */ + crv = pFunctionList->C_EncryptInit(hSession, &mech_AES_CBC, hTestKey); + if (crv != CKR_OK) { + PKM_Error("C_EncryptInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + ciphertextLen = sizeof(ciphertext); + crv = pFunctionList->C_Encrypt(hSession, (CK_BYTE *)PLAINTEXT, + sizeof(PLAINTEXT), + ciphertext, &ciphertextLen); + if (crv != CKR_OK) { + PKM_Error("C_Encrypt failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + if ((ciphertextLen == sizeof(CIPHERTEXT)) && + (memcmp(ciphertext, CIPHERTEXT, ciphertextLen) == 0)) { + PKM_LogIt("AES CBCVarKey128 encrypt test case 1 passed\n"); + } else { + PKM_Error("AES CBCVarKey128 encrypt test case 1 failed\n"); + return crv; + } + + /* now use EncryptUpdate the text */ + crv = pFunctionList->C_EncryptInit(hSession, &mech_AES_CBC, hTestKey); + if (crv != CKR_OK) { + PKM_Error("C_EncryptInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + ciphertext2Len = sizeof(ciphertext2); + crv = pFunctionList->C_EncryptUpdate(hSession, (CK_BYTE *)PLAINTEXT, + sizeof(PLAINTEXT), + ciphertext2, &ciphertext2Len); + if (crv != CKR_OK) { + PKM_Error("C_EncryptUpdate failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + lastLen = sizeof(ciphertext2) - ciphertext2Len; + + crv = pFunctionList->C_EncryptFinal(hSession, + (CK_BYTE *)&ciphertext2[ciphertext2Len], + &lastLen); + ciphertext2Len = ciphertext2Len + lastLen; + + if ((ciphertextLen == ciphertext2Len) && + (memcmp(ciphertext, ciphertext2, sizeof(CIPHERTEXT)) == 0) && + (memcmp(ciphertext2, CIPHERTEXT, sizeof(CIPHERTEXT)) == 0)) { + PKM_LogIt("AES CBCVarKey128 encrypt test case 2 passed\n"); + } else { + PKM_Error("AES CBCVarKey128 encrypt test case 2 failed\n"); + return CKR_GENERAL_ERROR; + } + + /* AES CBC Decrypt the text */ + crv = pFunctionList->C_DecryptInit(hSession, &mech_AES_CBC, hTestKey); + if (crv != CKR_OK) { + PKM_Error("C_DecryptInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + plaintextLen = sizeof(plaintext); + crv = pFunctionList->C_Decrypt(hSession, ciphertext, ciphertextLen, + plaintext, &plaintextLen); + if (crv != CKR_OK) { + PKM_Error("C_DecryptInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + if ((plaintextLen == sizeof(PLAINTEXT)) && + (memcmp(plaintext, PLAINTEXT, plaintextLen) == 0)) { + PKM_LogIt("AES CBCVarKey128 decrypt test case 1 passed\n"); + } else { + PKM_Error("AES CBCVarKey128 derypt test case 1 failed\n"); + } + /* now use DecryptUpdate the text */ + crv = pFunctionList->C_DecryptInit(hSession, &mech_AES_CBC, hTestKey); + if (crv != CKR_OK) { + PKM_Error("C_DecryptInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + plaintext2Len = sizeof(plaintext2); + crv = pFunctionList->C_DecryptUpdate(hSession, ciphertext2, + ciphertext2Len, + plaintext2, &plaintext2Len); + if (crv != CKR_OK) { + PKM_Error("C_DecryptUpdate failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + lastLen = sizeof(plaintext2) - plaintext2Len; + crv = pFunctionList->C_DecryptFinal(hSession, + (CK_BYTE *)&plaintext2[plaintext2Len], + &lastLen); + plaintext2Len = plaintext2Len + lastLen; + + if ((plaintextLen == plaintext2Len) && + (memcmp(plaintext, plaintext2, plaintext2Len) == 0) && + (memcmp(plaintext2, PLAINTEXT, sizeof(PLAINTEXT)) == 0)) { + PKM_LogIt("AES CBCVarKey128 decrypt test case 2 passed\n"); + } else { + PKM_Error("AES CBCVarKey128 decrypt test case 2 failed\n"); + return CKR_GENERAL_ERROR; + } + + crv = pFunctionList->C_Logout(hSession); + if (crv == CKR_OK) { + PKM_LogIt("C_Logout succeeded\n"); + } else { + PKM_Error("C_Logout failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_CloseSession(hSession); + if (crv != CKR_OK) { + PKM_Error("C_CloseSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + return crv; +} + +CK_RV +PKM_PubKeySign(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hRwSession, + CK_OBJECT_HANDLE hPubKey, CK_OBJECT_HANDLE hPrivKey, + CK_MECHANISM *signMech, const CK_BYTE *pData, + CK_ULONG pDataLen) +{ + CK_RV crv = CKR_OK; + CK_BYTE sig[MAX_SIG_SZ]; + CK_ULONG sigLen = 0; + + NUMTESTS++; /* increment NUMTESTS */ + memset(sig, 0, sizeof(sig)); + + /* C_Sign */ + crv = pFunctionList->C_SignInit(hRwSession, signMech, hPrivKey); + if (crv != CKR_OK) { + PKM_Error("C_SignInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + sigLen = sizeof(sig); + crv = pFunctionList->C_Sign(hRwSession, (CK_BYTE *)pData, pDataLen, + sig, &sigLen); + if (crv != CKR_OK) { + PKM_Error("C_Sign failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + /* C_Verify the signature */ + crv = pFunctionList->C_VerifyInit(hRwSession, signMech, hPubKey); + if (crv != CKR_OK) { + PKM_Error("C_VerifyInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_Verify(hRwSession, (CK_BYTE *)pData, pDataLen, + sig, sigLen); + if (crv == CKR_OK) { + PKM_LogIt("C_Verify succeeded\n"); + } else { + PKM_Error("C_Verify failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + /* Check that the mechanism is Multi-part */ + if (signMech->mechanism == CKM_DSA || + signMech->mechanism == CKM_RSA_PKCS) { + return crv; + } + + memset(sig, 0, sizeof(sig)); + /* SignUpdate */ + crv = pFunctionList->C_SignInit(hRwSession, signMech, hPrivKey); + if (crv != CKR_OK) { + PKM_Error("C_SignInit failed with 0x%08lX %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_SignUpdate(hRwSession, (CK_BYTE *)pData, pDataLen); + if (crv != CKR_OK) { + PKM_Error("C_Sign failed with 0x%08lX %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + sigLen = sizeof(sig); + crv = pFunctionList->C_SignFinal(hRwSession, sig, &sigLen); + if (crv != CKR_OK) { + PKM_Error("C_Sign failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + /* C_VerifyUpdate the signature */ + crv = pFunctionList->C_VerifyInit(hRwSession, signMech, + hPubKey); + if (crv != CKR_OK) { + PKM_Error("C_VerifyInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_VerifyUpdate(hRwSession, (CK_BYTE *)pData, + pDataLen); + if (crv != CKR_OK) { + PKM_Error("C_VerifyUpdate failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_VerifyFinal(hRwSession, sig, sigLen); + if (crv == CKR_OK) { + PKM_LogIt("C_VerifyFinal succeeded\n"); + } else { + PKM_Error("C_VerifyFinal failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + return crv; +} + +CK_RV +PKM_PublicKey(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, + CK_ULONG slotID, CK_UTF8CHAR_PTR pwd, + CK_ULONG pwdLen) +{ + CK_SESSION_HANDLE hSession; + CK_RV crv = CKR_OK; + + /*** DSA Key ***/ + CK_MECHANISM dsaParamGenMech; + CK_ULONG primeBits = 1024; + CK_ATTRIBUTE dsaParamGenTemplate[1]; + CK_OBJECT_HANDLE hDsaParams = CK_INVALID_HANDLE; + CK_BYTE DSA_P[128]; + CK_BYTE DSA_Q[20]; + CK_BYTE DSA_G[128]; + CK_MECHANISM dsaKeyPairGenMech; + CK_ATTRIBUTE dsaPubKeyTemplate[5]; + CK_ATTRIBUTE dsaPrivKeyTemplate[5]; + CK_OBJECT_HANDLE hDSApubKey = CK_INVALID_HANDLE; + CK_OBJECT_HANDLE hDSAprivKey = CK_INVALID_HANDLE; + + /* From SHA1ShortMsg.req, Len = 136 */ + CK_BYTE MSG[] = { + 0xba, 0x33, 0x95, 0xfb, + 0x5a, 0xfa, 0x8e, 0x6a, + 0x43, 0xdf, 0x41, 0x6b, + 0x32, 0x7b, 0x74, 0xfa, + 0x44 + }; + CK_BYTE MD[] = { + 0xf7, 0x5d, 0x92, 0xa4, + 0xbb, 0x4d, 0xec, 0xc3, + 0x7c, 0x5c, 0x72, 0xfa, + 0x04, 0x75, 0x71, 0x0a, + 0x06, 0x75, 0x8c, 0x1d + }; + + CK_BYTE sha1Digest[20]; + CK_ULONG sha1DigestLen; + CK_BYTE dsaSig[40]; + CK_ULONG dsaSigLen; + CK_MECHANISM sha1Mech = { + CKM_SHA_1, NULL, 0 + }; + CK_MECHANISM dsaMech = { + CKM_DSA, NULL, 0 + }; + CK_MECHANISM dsaWithSha1Mech = { + CKM_DSA_SHA1, NULL, 0 + }; + + NUMTESTS++; /* increment NUMTESTS */ + + /* DSA key init */ + dsaParamGenMech.mechanism = CKM_DSA_PARAMETER_GEN; + dsaParamGenMech.pParameter = NULL_PTR; + dsaParamGenMech.ulParameterLen = 0; + dsaParamGenTemplate[0].type = CKA_PRIME_BITS; + dsaParamGenTemplate[0].pValue = &primeBits; + dsaParamGenTemplate[0].ulValueLen = sizeof(primeBits); + dsaPubKeyTemplate[0].type = CKA_PRIME; + dsaPubKeyTemplate[0].pValue = DSA_P; + dsaPubKeyTemplate[0].ulValueLen = sizeof(DSA_P); + dsaPubKeyTemplate[1].type = CKA_SUBPRIME; + dsaPubKeyTemplate[1].pValue = DSA_Q; + dsaPubKeyTemplate[1].ulValueLen = sizeof(DSA_Q); + dsaPubKeyTemplate[2].type = CKA_BASE; + dsaPubKeyTemplate[2].pValue = DSA_G; + dsaPubKeyTemplate[2].ulValueLen = sizeof(DSA_G); + dsaPubKeyTemplate[3].type = CKA_TOKEN; + dsaPubKeyTemplate[3].pValue = &true; + dsaPubKeyTemplate[3].ulValueLen = sizeof(true); + dsaPubKeyTemplate[4].type = CKA_VERIFY; + dsaPubKeyTemplate[4].pValue = &true; + dsaPubKeyTemplate[4].ulValueLen = sizeof(true); + dsaKeyPairGenMech.mechanism = CKM_DSA_KEY_PAIR_GEN; + dsaKeyPairGenMech.pParameter = NULL_PTR; + dsaKeyPairGenMech.ulParameterLen = 0; + dsaPrivKeyTemplate[0].type = CKA_TOKEN; + dsaPrivKeyTemplate[0].pValue = &true; + dsaPrivKeyTemplate[0].ulValueLen = sizeof(true); + dsaPrivKeyTemplate[1].type = CKA_PRIVATE; + dsaPrivKeyTemplate[1].pValue = &true; + dsaPrivKeyTemplate[1].ulValueLen = sizeof(true); + dsaPrivKeyTemplate[2].type = CKA_SENSITIVE; + dsaPrivKeyTemplate[2].pValue = &true; + dsaPrivKeyTemplate[2].ulValueLen = sizeof(true); + dsaPrivKeyTemplate[3].type = CKA_SIGN, + dsaPrivKeyTemplate[3].pValue = &true; + dsaPrivKeyTemplate[3].ulValueLen = sizeof(true); + dsaPrivKeyTemplate[4].type = CKA_EXTRACTABLE; + dsaPrivKeyTemplate[4].pValue = &true; + dsaPrivKeyTemplate[4].ulValueLen = sizeof(true); + + crv = pFunctionList->C_OpenSession(pSlotList[slotID], + CKF_RW_SESSION | CKF_SERIAL_SESSION, + NULL, NULL, &hSession); + if (crv != CKR_OK) { + PKM_Error("C_OpenSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_Login(hSession, CKU_USER, pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("C_Login with correct password succeeded\n"); + } else { + PKM_Error("C_Login with correct password failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt("Generate DSA PQG domain parameters ... \n"); + /* Generate DSA domain parameters PQG */ + crv = pFunctionList->C_GenerateKey(hSession, &dsaParamGenMech, + dsaParamGenTemplate, + 1, + &hDsaParams); + if (crv == CKR_OK) { + PKM_LogIt("DSA domain parameter generation succeeded\n"); + } else { + PKM_Error("DSA domain parameter generation failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_GetAttributeValue(hSession, hDsaParams, + dsaPubKeyTemplate, 3); + if (crv == CKR_OK) { + PKM_LogIt("Getting DSA domain parameters succeeded\n"); + } else { + PKM_Error("Getting DSA domain parameters failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_DestroyObject(hSession, hDsaParams); + if (crv == CKR_OK) { + PKM_LogIt("Destroying DSA domain parameters succeeded\n"); + } else { + PKM_Error("Destroying DSA domain parameters failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt("Generate a DSA key pair ... \n"); + /* Generate a persistent DSA key pair */ + crv = pFunctionList->C_GenerateKeyPair(hSession, &dsaKeyPairGenMech, + dsaPubKeyTemplate, + NUM_ELEM(dsaPubKeyTemplate), + dsaPrivKeyTemplate, + NUM_ELEM(dsaPrivKeyTemplate), + &hDSApubKey, &hDSAprivKey); + if (crv == CKR_OK) { + PKM_LogIt("DSA key pair generation succeeded\n"); + } else { + PKM_Error("DSA key pair generation failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + /* Compute SHA-1 digest */ + crv = pFunctionList->C_DigestInit(hSession, &sha1Mech); + if (crv != CKR_OK) { + PKM_Error("C_DigestInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + sha1DigestLen = sizeof(sha1Digest); + crv = pFunctionList->C_Digest(hSession, MSG, sizeof(MSG), + sha1Digest, &sha1DigestLen); + if (crv != CKR_OK) { + PKM_Error("C_Digest failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + if (sha1DigestLen != sizeof(sha1Digest)) { + PKM_Error("sha1DigestLen is %lu\n", sha1DigestLen); + return crv; + } + + if (memcmp(sha1Digest, MD, sizeof(MD)) == 0) { + PKM_LogIt("SHA-1 SHA1ShortMsg test case Len = 136 passed\n"); + } else { + PKM_Error("SHA-1 SHA1ShortMsg test case Len = 136 failed\n"); + } + + crv = PKM_PubKeySign(pFunctionList, hSession, + hDSApubKey, hDSAprivKey, + &dsaMech, sha1Digest, sizeof(sha1Digest)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_PubKeySign CKM_DSA succeeded \n"); + } else { + PKM_Error("PKM_PubKeySign failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = PKM_PubKeySign(pFunctionList, hSession, + hDSApubKey, hDSAprivKey, + &dsaWithSha1Mech, PLAINTEXT, sizeof(PLAINTEXT)); + if (crv == CKR_OK) { + PKM_LogIt("PKM_PubKeySign CKM_DSA_SHA1 succeeded \n"); + } else { + PKM_Error("PKM_PubKeySign failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + /* Sign with DSA */ + crv = pFunctionList->C_SignInit(hSession, &dsaMech, hDSAprivKey); + if (crv != CKR_OK) { + PKM_Error("C_SignInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + dsaSigLen = sizeof(dsaSig); + crv = pFunctionList->C_Sign(hSession, sha1Digest, sha1DigestLen, + dsaSig, &dsaSigLen); + if (crv != CKR_OK) { + PKM_Error("C_Sign failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + /* Verify the DSA signature */ + crv = pFunctionList->C_VerifyInit(hSession, &dsaMech, hDSApubKey); + if (crv != CKR_OK) { + PKM_Error("C_VerifyInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_Verify(hSession, sha1Digest, sha1DigestLen, + dsaSig, dsaSigLen); + if (crv == CKR_OK) { + PKM_LogIt("C_Verify succeeded\n"); + } else { + PKM_Error("C_Verify failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + /* Verify the signature in a different way */ + crv = pFunctionList->C_VerifyInit(hSession, &dsaWithSha1Mech, + hDSApubKey); + if (crv != CKR_OK) { + PKM_Error("C_VerifyInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_VerifyUpdate(hSession, MSG, 1); + if (crv != CKR_OK) { + PKM_Error("C_VerifyUpdate failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_VerifyUpdate(hSession, MSG + 1, sizeof(MSG) - 1); + if (crv != CKR_OK) { + PKM_Error("C_VerifyUpdate failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_VerifyFinal(hSession, dsaSig, dsaSigLen); + if (crv == CKR_OK) { + PKM_LogIt("C_VerifyFinal succeeded\n"); + } else { + PKM_Error("C_VerifyFinal failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + /* Verify the signature in a different way */ + crv = pFunctionList->C_VerifyInit(hSession, &dsaWithSha1Mech, + hDSApubKey); + if (crv != CKR_OK) { + PKM_Error("C_VerifyInit failed with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_VerifyUpdate(hSession, MSG, 1); + if (crv != CKR_OK) { + PKM_Error("C_VerifyUpdate failed with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_VerifyUpdate(hSession, MSG + 1, sizeof(MSG) - 1); + if (crv != CKR_OK) { + PKM_Error("C_VerifyUpdate failed with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_VerifyFinal(hSession, dsaSig, dsaSigLen); + if (crv == CKR_OK) { + PKM_LogIt("C_VerifyFinal of multi update succeeded.\n"); + } else { + PKM_Error("C_VerifyFinal of multi update failed with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + /* Now modify the data */ + MSG[0] += 1; + /* Compute SHA-1 digest */ + crv = pFunctionList->C_DigestInit(hSession, &sha1Mech); + if (crv != CKR_OK) { + PKM_Error("C_DigestInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + sha1DigestLen = sizeof(sha1Digest); + crv = pFunctionList->C_Digest(hSession, MSG, sizeof(MSG), + sha1Digest, &sha1DigestLen); + if (crv != CKR_OK) { + PKM_Error("C_Digest failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_VerifyInit(hSession, &dsaMech, hDSApubKey); + if (crv != CKR_OK) { + PKM_Error("C_VerifyInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_Verify(hSession, sha1Digest, sha1DigestLen, + dsaSig, dsaSigLen); + if (crv != CKR_SIGNATURE_INVALID) { + PKM_Error("C_Verify of modified data succeeded\n"); + return crv; + } else { + PKM_LogIt("C_Verify of modified data returned as EXPECTED " + " with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + } + + crv = pFunctionList->C_Logout(hSession); + if (crv == CKR_OK) { + PKM_LogIt("C_Logout succeeded\n"); + } else { + PKM_Error("C_Logout failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_CloseSession(hSession); + if (crv != CKR_OK) { + PKM_Error("C_CloseSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + return crv; +} + +CK_RV +PKM_Hmac(CK_FUNCTION_LIST_PTR pFunctionList, CK_SESSION_HANDLE hSession, + CK_OBJECT_HANDLE sKey, CK_MECHANISM *hmacMech, + const CK_BYTE *pData, CK_ULONG pDataLen) +{ + + CK_RV crv = CKR_OK; + + CK_BYTE hmac1[HMAC_MAX_LENGTH]; + CK_ULONG hmac1Len = 0; + CK_BYTE hmac2[HMAC_MAX_LENGTH]; + CK_ULONG hmac2Len = 0; + + memset(hmac1, 0, sizeof(hmac1)); + memset(hmac2, 0, sizeof(hmac2)); + + NUMTESTS++; /* increment NUMTESTS */ + + crv = pFunctionList->C_SignInit(hSession, hmacMech, sKey); + if (crv == CKR_OK) { + PKM_LogIt("C_SignInit succeeded\n"); + } else { + PKM_Error("C_SignInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + hmac1Len = sizeof(hmac1); + crv = pFunctionList->C_Sign(hSession, (CK_BYTE *)pData, + pDataLen, + (CK_BYTE *)hmac1, &hmac1Len); + if (crv == CKR_OK) { + PKM_LogIt("C_Sign succeeded\n"); + } else { + PKM_Error("C_Sign failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_SignInit(hSession, hmacMech, sKey); + if (crv == CKR_OK) { + PKM_LogIt("C_SignInit succeeded\n"); + } else { + PKM_Error("C_SignInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_SignUpdate(hSession, (CK_BYTE *)pData, + pDataLen); + if (crv == CKR_OK) { + PKM_LogIt("C_SignUpdate succeeded\n"); + } else { + PKM_Error("C_SignUpdate failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + hmac2Len = sizeof(hmac2); + crv = pFunctionList->C_SignFinal(hSession, (CK_BYTE *)hmac2, &hmac2Len); + if (crv == CKR_OK) { + PKM_LogIt("C_SignFinal succeeded\n"); + } else { + PKM_Error("C_SignFinal failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + if ((hmac1Len == hmac2Len) && (memcmp(hmac1, hmac2, hmac1Len) == 0)) { + PKM_LogIt("hmacs are equal!\n"); + } else { + PKM_Error("hmacs are not equal!\n"); + } + crv = pFunctionList->C_VerifyInit(hSession, hmacMech, sKey); + if (crv != CKR_OK) { + PKM_Error("C_VerifyInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_Verify(hSession, (CK_BYTE *)pData, + pDataLen, + (CK_BYTE *)hmac2, hmac2Len); + if (crv == CKR_OK) { + PKM_LogIt("C_Verify of hmac succeeded\n"); + } else { + PKM_Error("C_Verify failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_VerifyInit(hSession, hmacMech, sKey); + if (crv != CKR_OK) { + PKM_Error("C_VerifyInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_VerifyUpdate(hSession, (CK_BYTE *)pData, + pDataLen); + if (crv == CKR_OK) { + PKM_LogIt("C_VerifyUpdate of hmac succeeded\n"); + } else { + PKM_Error("C_VerifyUpdate failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_VerifyFinal(hSession, (CK_BYTE *)hmac1, + hmac1Len); + if (crv == CKR_OK) { + PKM_LogIt("C_VerifyFinal of hmac succeeded\n"); + } else { + PKM_Error("C_VerifyFinal failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + return crv; +} + +CK_RV +PKM_FindAllObjects(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen) +{ + CK_RV crv = CKR_OK; + + CK_SESSION_HANDLE h = (CK_SESSION_HANDLE)0; + CK_SESSION_INFO sinfo; + CK_ATTRIBUTE_PTR pTemplate; + CK_ULONG tnObjects = 0; + int curMode; + unsigned int i; + unsigned int number_of_all_known_attribute_types = totalKnownType(ConstAttribute); + + NUMTESTS++; /* increment NUMTESTS */ + + crv = pFunctionList->C_OpenSession(pSlotList[slotID], CKF_SERIAL_SESSION, + NULL, NULL, &h); + if (CKR_OK != crv) { + PKM_Error("C_OpenSession(%lu, CKF_SERIAL_SESSION, , )" + "returned 0x%08X, %-26s\n", + pSlotList[slotID], crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt(" Opened a session: handle = 0x%08x\n", h); + + (void)memset(&sinfo, 0, sizeof(CK_SESSION_INFO)); + crv = pFunctionList->C_GetSessionInfo(h, &sinfo); + if (CKR_OK != crv) { + PKM_LogIt("C_GetSessionInfo(%lu, ) returned 0x%08X, %-26s\n", h, crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt(" SESSION INFO:\n"); + PKM_LogIt(" slotID = %lu\n", sinfo.slotID); + PKM_LogIt(" state = %lu\n", sinfo.state); + PKM_LogIt(" flags = 0x%08x\n", sinfo.flags); +#ifdef CKF_EXCLUSIVE_SESSION + PKM_LogIt(" -> EXCLUSIVE SESSION = %s\n", sinfo.flags & + CKF_EXCLUSIVE_SESSION + ? "TRUE" + : "FALSE"); +#endif /* CKF_EXCLUSIVE_SESSION */ + PKM_LogIt(" -> RW SESSION = %s\n", sinfo.flags & + CKF_RW_SESSION + ? "TRUE" + : "FALSE"); + PKM_LogIt(" -> SERIAL SESSION = %s\n", sinfo.flags & + CKF_SERIAL_SESSION + ? "TRUE" + : "FALSE"); +#ifdef CKF_INSERTION_CALLBACK + PKM_LogIt(" -> INSERTION CALLBACK = %s\n", sinfo.flags & + CKF_INSERTION_CALLBACK + ? "TRUE" + : "FALSE"); +#endif /* CKF_INSERTION_CALLBACK */ + PKM_LogIt(" ulDeviceError = %lu\n", sinfo.ulDeviceError); + PKM_LogIt("\n"); + + crv = pFunctionList->C_FindObjectsInit(h, NULL, 0); + if (CKR_OK != crv) { + PKM_LogIt("C_FindObjectsInit(%lu, NULL, 0) returned " + "0x%08X, %-26s\n", + h, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + pTemplate = (CK_ATTRIBUTE_PTR)calloc(number_of_all_known_attribute_types, + sizeof(CK_ATTRIBUTE)); + if ((CK_ATTRIBUTE_PTR)NULL == pTemplate) { + PKM_Error("[pTemplate memory allocation of %lu bytes failed]\n", + number_of_all_known_attribute_types * + sizeof(CK_ATTRIBUTE)); + return crv; + } + + PKM_LogIt(" All objects:\n"); + /* Printing table set to NOMODE */ + curMode = MODE; + MODE = NOMODE; + + while (1) { + CK_OBJECT_HANDLE o = (CK_OBJECT_HANDLE)0; + CK_ULONG nObjects = 0; + CK_ULONG k; + CK_ULONG nAttributes = 0; + CK_ATTRIBUTE_PTR pT2; + CK_ULONG l; + const char *attName = NULL; + + crv = pFunctionList->C_FindObjects(h, &o, 1, &nObjects); + if (CKR_OK != crv) { + PKM_Error("C_FindObjects(%lu, , 1, ) returned 0x%08X, %-26s\n", + h, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + if (0 == nObjects) { + PKM_LogIt("\n"); + break; + } + + tnObjects++; + + PKM_LogIt(" OBJECT HANDLE %lu:\n", o); + + k = 0; + for (i = 0; i < constCount; i++) { + if (consts[i].type == ConstAttribute) { + pTemplate[k].type = consts[i].value; + pTemplate[k].pValue = (CK_VOID_PTR)NULL; + pTemplate[k].ulValueLen = 0; + k++; + } + assert(k <= number_of_all_known_attribute_types); + } + + crv = pFunctionList->C_GetAttributeValue(h, o, pTemplate, + number_of_all_known_attribute_types); + switch (crv) { + case CKR_OK: + case CKR_ATTRIBUTE_SENSITIVE: + case CKR_ATTRIBUTE_TYPE_INVALID: + case CKR_BUFFER_TOO_SMALL: + break; + default: + PKM_Error("C_GetAtributeValue(%lu, %lu, {all attribute types}," + "%lu) returned 0x%08X, %-26s\n", + h, o, number_of_all_known_attribute_types, crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + for (k = 0; k < (CK_ULONG)number_of_all_known_attribute_types; k++) { + if (-1 != (CK_LONG)pTemplate[k].ulValueLen) { + nAttributes++; + } + } + + PKM_LogIt(" %lu attributes:\n", nAttributes); + for (k = 0; k < (CK_ULONG)number_of_all_known_attribute_types; + k++) { + if (-1 != (CK_LONG)pTemplate[k].ulValueLen) { + attName = getNameFromAttribute(pTemplate[k].type); + if (!attName) { + PKM_Error("Unable to find attribute name update pk11table.c\n"); + } + PKM_LogIt(" %s 0x%08x (len = %lu)\n", + attName, + pTemplate[k].type, + pTemplate[k].ulValueLen); + } + } + PKM_LogIt("\n"); + + pT2 = (CK_ATTRIBUTE_PTR)calloc(nAttributes, sizeof(CK_ATTRIBUTE)); + if ((CK_ATTRIBUTE_PTR)NULL == pT2) { + PKM_Error("[pT2 memory allocation of %lu bytes failed]\n", + nAttributes * sizeof(CK_ATTRIBUTE)); + return crv; + } + + /* allocate memory for the attribute values */ + for (l = 0, k = 0; k < (CK_ULONG)number_of_all_known_attribute_types; + k++) { + if (-1 != (CK_LONG)pTemplate[k].ulValueLen) { + pT2[l].type = pTemplate[k].type; + pT2[l].ulValueLen = pTemplate[k].ulValueLen; + if (pT2[l].ulValueLen > 0) { + pT2[l].pValue = (CK_VOID_PTR)malloc(pT2[l].ulValueLen); + if ((CK_VOID_PTR)NULL == pT2[l].pValue) { + PKM_Error("pValue memory allocation of %lu bytes failed]\n", + pT2[l].ulValueLen); + return crv; + } + } else + pT2[l].pValue = (CK_VOID_PTR)NULL; + l++; + } + } + + assert(l == nAttributes); + + crv = pFunctionList->C_GetAttributeValue(h, o, pT2, nAttributes); + switch (crv) { + case CKR_OK: + case CKR_ATTRIBUTE_SENSITIVE: + case CKR_ATTRIBUTE_TYPE_INVALID: + case CKR_BUFFER_TOO_SMALL: + break; + default: + PKM_Error("C_GetAtributeValue(%lu, %lu, {existent attribute" + " types}, %lu) returned 0x%08X, %-26s\n", + h, o, nAttributes, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + for (l = 0; l < nAttributes; l++) { + attName = getNameFromAttribute(pT2[l].type); + if (!attName) + attName = "unknown attribute"; + PKM_LogIt(" type = %s len = %ld", + attName, (CK_LONG)pT2[l].ulValueLen); + + if (-1 == (CK_LONG)pT2[l].ulValueLen) { + ; + } else { + CK_ULONG m; + + if (pT2[l].ulValueLen <= 8) { + PKM_LogIt(", value = "); + } else { + PKM_LogIt(", value = \n "); + } + + for (m = 0; (m < pT2[l].ulValueLen) && (m < 20); m++) { + PKM_LogIt("%02x", (CK_ULONG)(0xff & + ((CK_CHAR_PTR)pT2[l].pValue)[m])); + } + + PKM_LogIt(" "); + + for (m = 0; (m < pT2[l].ulValueLen) && (m < 20); m++) { + CK_CHAR c = ((CK_CHAR_PTR)pT2[l].pValue)[m]; + if ((c < 0x20) || (c >= 0x7f)) { + c = '.'; + } + PKM_LogIt("%c", c); + } + } + + PKM_LogIt("\n"); + } + + PKM_LogIt("\n"); + + for (l = 0; l < nAttributes; l++) { + if (pT2[l].pValue) { + free(pT2[l].pValue); + } + } + free(pT2); + } /* while(1) */ + + MODE = curMode; /* reset the logging MODE */ + + crv = pFunctionList->C_FindObjectsFinal(h); + if (CKR_OK != crv) { + PKM_Error("C_FindObjectsFinal(%lu) returned 0x%08X, %-26s\n", h, crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt(" (%lu objects total)\n", tnObjects); + + crv = pFunctionList->C_CloseSession(h); + if (CKR_OK != crv) { + PKM_Error("C_CloseSession(%lu) returned 0x%08X, %-26s\n", h, crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + return crv; +} +/* session to create, find, and delete a couple session objects */ +CK_RV +PKM_MultiObjectManagement(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen) +{ + + CK_RV crv = CKR_OK; + + CK_SESSION_HANDLE h = (CK_SESSION_HANDLE)0; + CK_SESSION_HANDLE h2 = (CK_SESSION_HANDLE)0; + CK_ATTRIBUTE one[7], two[7], three[7], delta[1], mask[1]; + CK_OBJECT_CLASS cko_data = CKO_DATA; + char *key = "TEST PROGRAM"; + CK_ULONG key_len = 0; + CK_OBJECT_HANDLE hOneIn = (CK_OBJECT_HANDLE)0; + CK_OBJECT_HANDLE hTwoIn = (CK_OBJECT_HANDLE)0; + CK_OBJECT_HANDLE hThreeIn = (CK_OBJECT_HANDLE)0; + CK_OBJECT_HANDLE hDeltaIn = (CK_OBJECT_HANDLE)0; + CK_OBJECT_HANDLE found[10]; + CK_ULONG nFound; + CK_ULONG hDeltaLen, hThreeLen = 0; + + CK_TOKEN_INFO tinfo; + + NUMTESTS++; /* increment NUMTESTS */ + key_len = sizeof(key); + crv = pFunctionList->C_OpenSession(pSlotList[slotID], + CKF_SERIAL_SESSION, NULL, NULL, &h); + if (CKR_OK != crv) { + PKM_Error("C_OpenSession(%lu, CKF_SERIAL_SESSION, , )" + "returned 0x%08X, %-26s\n", + pSlotList[slotID], crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_Login(h, CKU_USER, pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("C_Login with correct password succeeded\n"); + } else { + PKM_Error("C_Login with correct password failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + (void)memset(&tinfo, 0, sizeof(CK_TOKEN_INFO)); + crv = pFunctionList->C_GetTokenInfo(pSlotList[slotID], &tinfo); + if (CKR_OK != crv) { + PKM_Error("C_GetTokenInfo(%lu, ) returned 0x%08X, %-26s\n", + pSlotList[slotID], crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt(" Opened a session: handle = 0x%08x\n", h); + + one[0].type = CKA_CLASS; + one[0].pValue = &cko_data; + one[0].ulValueLen = sizeof(CK_OBJECT_CLASS); + one[1].type = CKA_TOKEN; + one[1].pValue = &false; + one[1].ulValueLen = sizeof(CK_BBOOL); + one[2].type = CKA_PRIVATE; + one[2].pValue = &false; + one[2].ulValueLen = sizeof(CK_BBOOL); + one[3].type = CKA_MODIFIABLE; + one[3].pValue = &true; + one[3].ulValueLen = sizeof(CK_BBOOL); + one[4].type = CKA_LABEL; + one[4].pValue = "Test data object one"; + one[4].ulValueLen = strlen(one[4].pValue); + one[5].type = CKA_APPLICATION; + one[5].pValue = key; + one[5].ulValueLen = key_len; + one[6].type = CKA_VALUE; + one[6].pValue = "Object one"; + one[6].ulValueLen = strlen(one[6].pValue); + + two[0].type = CKA_CLASS; + two[0].pValue = &cko_data; + two[0].ulValueLen = sizeof(CK_OBJECT_CLASS); + two[1].type = CKA_TOKEN; + two[1].pValue = &false; + two[1].ulValueLen = sizeof(CK_BBOOL); + two[2].type = CKA_PRIVATE; + two[2].pValue = &false; + two[2].ulValueLen = sizeof(CK_BBOOL); + two[3].type = CKA_MODIFIABLE; + two[3].pValue = &true; + two[3].ulValueLen = sizeof(CK_BBOOL); + two[4].type = CKA_LABEL; + two[4].pValue = "Test data object two"; + two[4].ulValueLen = strlen(two[4].pValue); + two[5].type = CKA_APPLICATION; + two[5].pValue = key; + two[5].ulValueLen = key_len; + two[6].type = CKA_VALUE; + two[6].pValue = "Object two"; + two[6].ulValueLen = strlen(two[6].pValue); + + three[0].type = CKA_CLASS; + three[0].pValue = &cko_data; + three[0].ulValueLen = sizeof(CK_OBJECT_CLASS); + three[1].type = CKA_TOKEN; + three[1].pValue = &false; + three[1].ulValueLen = sizeof(CK_BBOOL); + three[2].type = CKA_PRIVATE; + three[2].pValue = &false; + three[2].ulValueLen = sizeof(CK_BBOOL); + three[3].type = CKA_MODIFIABLE; + three[3].pValue = &true; + three[3].ulValueLen = sizeof(CK_BBOOL); + three[4].type = CKA_LABEL; + three[4].pValue = "Test data object three"; + three[4].ulValueLen = strlen(three[4].pValue); + three[5].type = CKA_APPLICATION; + three[5].pValue = key; + three[5].ulValueLen = key_len; + three[6].type = CKA_VALUE; + three[6].pValue = "Object three"; + three[6].ulValueLen = strlen(three[6].pValue); + + crv = pFunctionList->C_CreateObject(h, one, 7, &hOneIn); + if (CKR_OK != crv) { + PKM_Error("C_CreateObject(%lu, one, 7, ) returned 0x%08X, %-26s\n", + h, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt(" Created object one: handle = %lu\n", hOneIn); + + crv = pFunctionList->C_CreateObject(h, two, 7, &hTwoIn); + if (CKR_OK != crv) { + PKM_Error("C_CreateObject(%lu, two, 7, ) returned 0x%08X, %-26s\n", + h, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt(" Created object two: handle = %lu\n", hTwoIn); + + crv = pFunctionList->C_CreateObject(h, three, 7, &hThreeIn); + if (CKR_OK != crv) { + PKM_Error("C_CreateObject(%lu, three, 7, ) returned 0x%08x\n", + h, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_GetObjectSize(h, hThreeIn, &hThreeLen); + if (crv == CKR_OK) { + PKM_LogIt("C_GetObjectSize succeeded\n"); + } else { + PKM_Error("C_GetObjectSize failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt(" Created object three: handle = %lu\n", hThreeIn); + + delta[0].type = CKA_VALUE; + delta[0].pValue = "Copied object"; + delta[0].ulValueLen = strlen(delta[0].pValue); + + crv = pFunctionList->C_CopyObject(h, hThreeIn, delta, 1, &hDeltaIn); + if (CKR_OK != crv) { + PKM_Error("C_CopyObject(%lu, %lu, delta, 1, ) returned " + "0x%08X, %-26s\n", + h, hThreeIn, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_GetObjectSize(h, hDeltaIn, &hDeltaLen); + if (crv == CKR_OK) { + PKM_LogIt("C_GetObjectSize succeeded\n"); + } else { + PKM_Error("C_GetObjectSize failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + if (hThreeLen == hDeltaLen) { + PKM_LogIt("Copied object size same as orginal\n"); + } else { + PKM_Error("Copied object different from original\n"); + return CKR_DEVICE_ERROR; + } + + PKM_LogIt(" Copied object three: new handle = %lu\n", hDeltaIn); + + mask[0].type = CKA_APPLICATION; + mask[0].pValue = key; + mask[0].ulValueLen = key_len; + + crv = pFunctionList->C_FindObjectsInit(h, mask, 1); + if (CKR_OK != crv) { + PKM_Error("C_FindObjectsInit(%lu, mask, 1) returned 0x%08X, %-26s\n", + h, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + (void)memset(&found, 0, sizeof(found)); + nFound = 0; + crv = pFunctionList->C_FindObjects(h, found, 10, &nFound); + if (CKR_OK != crv) { + PKM_Error("C_FindObjects(%lu,, 10, ) returned 0x%08X, %-26s\n", + h, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + if (4 != nFound) { + PKM_Error("Found %lu objects, not 4.\n", nFound); + return crv; + } + + PKM_LogIt(" Found 4 objects: %lu, %lu, %lu, %lu\n", + found[0], found[1], found[2], found[3]); + + crv = pFunctionList->C_FindObjectsFinal(h); + if (CKR_OK != crv) { + PKM_Error("C_FindObjectsFinal(%lu) returned 0x%08X, %-26s\n", + h, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_DestroyObject(h, hThreeIn); + if (CKR_OK != crv) { + PKM_Error("C_DestroyObject(%lu, %lu) returned 0x%08X, %-26s\n", h, + hThreeIn, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt(" Destroyed object three (handle = %lu)\n", hThreeIn); + + delta[0].type = CKA_APPLICATION; + delta[0].pValue = "Changed application"; + delta[0].ulValueLen = strlen(delta[0].pValue); + + crv = pFunctionList->C_SetAttributeValue(h, hTwoIn, delta, 1); + if (CKR_OK != crv) { + PKM_Error("C_SetAttributeValue(%lu, %lu, delta, 1) returned " + "0x%08X, %-26s\n", + h, hTwoIn, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt(" Changed object two (handle = %lu).\n", hTwoIn); + + /* Can another session find these session objects? */ + + crv = pFunctionList->C_OpenSession(pSlotList[slotID], CKF_SERIAL_SESSION, + NULL, NULL, &h2); + if (CKR_OK != crv) { + PKM_Error("C_OpenSession(%lu, CKF_SERIAL_SESSION, , )" + " returned 0x%08X, %-26s\n", + pSlotList[slotID], crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + PKM_LogIt(" Opened a second session: handle = 0x%08x\n", h2); + + /* mask is still the same */ + + crv = pFunctionList->C_FindObjectsInit(h2, mask, 1); + if (CKR_OK != crv) { + PKM_Error("C_FindObjectsInit(%lu, mask, 1) returned 0x%08X, %-26s\n", + h2, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + (void)memset(&found, 0, sizeof(found)); + nFound = 0; + crv = pFunctionList->C_FindObjects(h2, found, 10, &nFound); + if (CKR_OK != crv) { + PKM_Error("C_FindObjects(%lu,, 10, ) returned 0x%08X, %-26s\n", + h2, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + if (2 != nFound) { + PKM_Error("Found %lu objects, not 2.\n", nFound); + return crv; + } + + PKM_LogIt(" Found 2 objects: %lu, %lu\n", + found[0], found[1]); + + crv = pFunctionList->C_FindObjectsFinal(h2); + if (CKR_OK != crv) { + PKM_Error("C_FindObjectsFinal(%lu) returned 0x%08X, %-26s\n", h2, crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_Logout(h); + if (crv == CKR_OK) { + PKM_LogIt("C_Logout succeeded\n"); + } else { + PKM_Error("C_Logout failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_CloseAllSessions(pSlotList[slotID]); + if (CKR_OK != crv) { + PKM_Error("C_CloseAllSessions(%lu) returned 0x%08X, %-26s\n", + pSlotList[slotID], crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt("\n"); + return crv; +} + +CK_RV +PKM_OperationalState(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen) +{ + CK_SESSION_HANDLE hSession; + CK_RV crv = CKR_OK; + CK_MECHANISM sAESKeyMech = { + CKM_AES_KEY_GEN, NULL, 0 + }; + CK_OBJECT_CLASS class = CKO_SECRET_KEY; + CK_KEY_TYPE keyAESType = CKK_AES; + CK_UTF8CHAR AESlabel[] = "An AES secret key object"; + CK_ULONG AESvalueLen = 16; + CK_ATTRIBUTE sAESKeyTemplate[9]; + CK_OBJECT_HANDLE sKey = CK_INVALID_HANDLE; + CK_BYTE_PTR pstate = NULL; + CK_ULONG statelen, digestlen, plainlen, plainlen_1, plainlen_2, slen; + + static const CK_UTF8CHAR *plaintext = (CK_UTF8CHAR *)"Firefox rules."; + static const CK_UTF8CHAR *plaintext_1 = (CK_UTF8CHAR *)"Thunderbird rules."; + static const CK_UTF8CHAR *plaintext_2 = (CK_UTF8CHAR *)"Firefox and Thunderbird."; + + char digest[MAX_DIGEST_SZ], digest_1[MAX_DIGEST_SZ]; + char sign[MAX_SIG_SZ]; + CK_MECHANISM signmech; + CK_MECHANISM digestmech; + + NUMTESTS++; /* increment NUMTESTS */ + + /* AES key template */ + sAESKeyTemplate[0].type = CKA_CLASS; + sAESKeyTemplate[0].pValue = &class; + sAESKeyTemplate[0].ulValueLen = sizeof(class); + sAESKeyTemplate[1].type = CKA_KEY_TYPE; + sAESKeyTemplate[1].pValue = &keyAESType; + sAESKeyTemplate[1].ulValueLen = sizeof(keyAESType); + sAESKeyTemplate[2].type = CKA_LABEL; + sAESKeyTemplate[2].pValue = AESlabel; + sAESKeyTemplate[2].ulValueLen = sizeof(AESlabel) - 1; + sAESKeyTemplate[3].type = CKA_ENCRYPT; + sAESKeyTemplate[3].pValue = &true; + sAESKeyTemplate[3].ulValueLen = sizeof(true); + sAESKeyTemplate[4].type = CKA_DECRYPT; + sAESKeyTemplate[4].pValue = &true; + sAESKeyTemplate[4].ulValueLen = sizeof(true); + sAESKeyTemplate[5].type = CKA_SIGN; + sAESKeyTemplate[5].pValue = &true; + sAESKeyTemplate[5].ulValueLen = sizeof(true); + sAESKeyTemplate[6].type = CKA_VERIFY; + sAESKeyTemplate[6].pValue = &true; + sAESKeyTemplate[6].ulValueLen = sizeof(true); + sAESKeyTemplate[7].type = CKA_UNWRAP; + sAESKeyTemplate[7].pValue = &true; + sAESKeyTemplate[7].ulValueLen = sizeof(true); + sAESKeyTemplate[8].type = CKA_VALUE_LEN; + sAESKeyTemplate[8].pValue = &AESvalueLen; + sAESKeyTemplate[8].ulValueLen = sizeof(AESvalueLen); + + signmech.mechanism = CKM_SHA_1_HMAC; + signmech.pParameter = NULL; + signmech.ulParameterLen = 0; + digestmech.mechanism = CKM_SHA256; + digestmech.pParameter = NULL; + digestmech.ulParameterLen = 0; + + plainlen = strlen((char *)plaintext); + plainlen_1 = strlen((char *)plaintext_1); + plainlen_2 = strlen((char *)plaintext_2); + digestlen = MAX_DIGEST_SZ; + + crv = pFunctionList->C_OpenSession(pSlotList[slotID], CKF_SERIAL_SESSION, + NULL, NULL, &hSession); + if (crv != CKR_OK) { + PKM_Error("C_OpenSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_Login(hSession, CKU_USER, pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("C_Login with correct password succeeded\n"); + } else { + PKM_Error("C_Login with correct password failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + PKM_LogIt("Generate an AES key ...\n"); + /* generate an AES Secret Key */ + crv = pFunctionList->C_GenerateKey(hSession, &sAESKeyMech, + sAESKeyTemplate, + NUM_ELEM(sAESKeyTemplate), + &sKey); + if (crv == CKR_OK) { + PKM_LogIt("C_GenerateKey AES succeeded\n"); + } else { + PKM_Error("C_GenerateKey AES failed with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_SignInit(hSession, &signmech, sKey); + if (crv != CKR_OK) { + PKM_Error("C_SignInit failed returned 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + slen = sizeof(sign); + crv = pFunctionList->C_Sign(hSession, (CK_BYTE_PTR)plaintext, plainlen, + (CK_BYTE_PTR)sign, &slen); + if (crv != CKR_OK) { + PKM_Error("C_Sign failed returned 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_DestroyObject(hSession, sKey); + if (crv != CKR_OK) { + PKM_Error("C_DestroyObject failed returned 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + digestlen = MAX_DIGEST_SZ; + crv = pFunctionList->C_DigestInit(hSession, &digestmech); + if (crv != CKR_OK) { + PKM_Error("C_DigestInit failed returned 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_DigestUpdate(hSession, (CK_BYTE_PTR)plaintext, + plainlen); + if (crv != CKR_OK) { + PKM_Error("C_DigestUpdate failed returned 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_GetOperationState(hSession, NULL, &statelen); + if (crv != CKR_OK) { + PKM_Error("C_GetOperationState failed returned 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + pstate = (CK_BYTE_PTR)malloc(statelen * sizeof(CK_BYTE_PTR)); + crv = pFunctionList->C_GetOperationState(hSession, pstate, &statelen); + if (crv != CKR_OK) { + PKM_Error("C_GetOperationState failed returned 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_DigestUpdate(hSession, (CK_BYTE_PTR)plaintext_1, + plainlen_1); + if (crv != CKR_OK) { + PKM_Error("C_DigestUpdate failed returned 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_DigestUpdate(hSession, (CK_BYTE_PTR)plaintext_2, + plainlen_2); + if (crv != CKR_OK) { + PKM_Error("C_DigestUpdate failed returned 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + /* + * This will override/negate the above 2 digest_update + * operations + */ + crv = pFunctionList->C_SetOperationState(hSession, pstate, statelen, + 0, 0); + if (crv != CKR_OK) { + PKM_Error("C_SetOperationState failed returned 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_DigestFinal(hSession, (CK_BYTE_PTR)digest, + &digestlen); + if (crv != CKR_OK) { + PKM_Error("C_DigestFinal failed returned 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + digestlen = MAX_DIGEST_SZ; + crv = pFunctionList->C_DigestInit(hSession, &digestmech); + if (crv != CKR_OK) { + PKM_Error("C_DigestInit failed returned 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_Digest(hSession, (CK_BYTE_PTR)plaintext, plainlen, + (CK_BYTE_PTR)digest_1, &digestlen); + if (crv != CKR_OK) { + PKM_Error("C_Digest failed returned 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + if (memcmp(digest, digest_1, digestlen) == 0) { + PKM_LogIt("Digest and digest_1 are equal!\n"); + } else { + PKM_Error("Digest and digest_1 are not equal!\n"); + } + crv = pFunctionList->C_Logout(hSession); + if (crv == CKR_OK) { + PKM_LogIt("C_Logout succeeded\n"); + } else { + PKM_Error("C_Logout failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_CloseSession(hSession); + if (CKR_OK != crv) { + PKM_Error("C_CloseSession(%lu) returned 0x%08X, %-26s\n", + hSession, crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + return crv; +} + +/* +* Recover Functions +*/ +CK_RV +PKM_RecoverFunctions(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hSession, + CK_OBJECT_HANDLE hPubKey, CK_OBJECT_HANDLE hPrivKey, + CK_MECHANISM *signMech, const CK_BYTE *pData, + CK_ULONG pDataLen) +{ + CK_RV crv = CKR_OK; + CK_BYTE sig[MAX_SIG_SZ]; + CK_ULONG sigLen = MAX_SIG_SZ; + CK_BYTE recover[MAX_SIG_SZ]; + CK_ULONG recoverLen = MAX_SIG_SZ; + + NUMTESTS++; /* increment NUMTESTS */ + + /* initializes a signature operation, + * where the data can be recovered from the signature + */ + crv = pFunctionList->C_SignRecoverInit(hSession, signMech, + hPrivKey); + if (crv == CKR_OK) { + PKM_LogIt("C_SignRecoverInit succeeded. \n"); + } else { + PKM_Error("C_SignRecoverInit failed.\n" + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + /* signs single-part data, + * where the data can be recovered from the signature + */ + crv = pFunctionList->C_SignRecover(hSession, (CK_BYTE *)pData, + pDataLen, + (CK_BYTE *)sig, &sigLen); + if (crv == CKR_OK) { + PKM_LogIt("C_SignRecover succeeded. \n"); + } else { + PKM_Error("C_SignRecoverInit failed to create an RSA key pair.\n" + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + /* + * initializes a verification operation + *where the data is recovered from the signature + */ + crv = pFunctionList->C_VerifyRecoverInit(hSession, signMech, + hPubKey); + if (crv == CKR_OK) { + PKM_LogIt("C_VerifyRecoverInit succeeded. \n"); + } else { + PKM_Error("C_VerifyRecoverInit failed.\n" + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + /* + * verifies a signature on single-part data, + * where the data is recovered from the signature + */ + crv = pFunctionList->C_VerifyRecover(hSession, (CK_BYTE *)sig, + sigLen, + (CK_BYTE *)recover, &recoverLen); + if (crv == CKR_OK) { + PKM_LogIt("C_VerifyRecover succeeded. \n"); + } else { + PKM_Error("C_VerifyRecover failed.\n" + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + if ((recoverLen == pDataLen) && + (memcmp(recover, pData, pDataLen) == 0)) { + PKM_LogIt("VerifyRecover test case passed\n"); + } else { + PKM_Error("VerifyRecover test case failed\n"); + } + + return crv; +} +/* +* wrapUnwrap +* wrap the secretkey with the public key. +* unwrap the secretkey with the private key. +*/ +CK_RV +PKM_wrapUnwrap(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hSession, + CK_OBJECT_HANDLE hPublicKey, + CK_OBJECT_HANDLE hPrivateKey, + CK_MECHANISM *wrapMechanism, + CK_OBJECT_HANDLE hSecretKey, + CK_ATTRIBUTE *sKeyTemplate, + CK_ULONG skeyTempSize) +{ + CK_RV crv = CKR_OK; + CK_OBJECT_HANDLE hSecretKeyUnwrapped = CK_INVALID_HANDLE; + CK_BYTE wrappedKey[128]; + CK_ULONG ulWrappedKeyLen = 0; + + NUMTESTS++; /* increment NUMTESTS */ + + ulWrappedKeyLen = sizeof(wrappedKey); + crv = pFunctionList->C_WrapKey( + hSession, wrapMechanism, + hPublicKey, hSecretKey, + wrappedKey, &ulWrappedKeyLen); + if (crv == CKR_OK) { + PKM_LogIt("C_WrapKey succeeded\n"); + } else { + PKM_Error("C_WrapKey failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_UnwrapKey( + hSession, wrapMechanism, hPrivateKey, + wrappedKey, ulWrappedKeyLen, sKeyTemplate, + skeyTempSize, + &hSecretKeyUnwrapped); + if ((crv == CKR_OK) && (hSecretKeyUnwrapped != CK_INVALID_HANDLE)) { + PKM_LogIt("C_UnwrapKey succeeded\n"); + } else { + PKM_Error("C_UnwrapKey failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + return crv; +} + +/* + * Tests if the object's attributes match the expected_attrs + */ +CK_RV +PKM_AttributeCheck(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hSession, CK_OBJECT_HANDLE obj, + CK_ATTRIBUTE_PTR expected_attrs, + CK_ULONG expected_attrs_count) +{ + CK_RV crv; + CK_ATTRIBUTE_PTR tmp_attrs; + unsigned int i; + + NUMTESTS++; /* increment NUMTESTS */ + + /* First duplicate the themplate */ + tmp_attrs = malloc(expected_attrs_count * sizeof(CK_ATTRIBUTE)); + + if (tmp_attrs == NULL) { + PKM_Error("Internal test memory failure\n"); + return (CKR_HOST_MEMORY); + } + + for (i = 0; i < expected_attrs_count; i++) { + tmp_attrs[i].type = expected_attrs[i].type; + tmp_attrs[i].ulValueLen = expected_attrs[i].ulValueLen; + + /* Don't give away the expected one. just zeros */ + tmp_attrs[i].pValue = calloc(expected_attrs[i].ulValueLen, 1); + + if (tmp_attrs[i].pValue == NULL) { + unsigned int j; + for (j = 0; j < i; j++) + free(tmp_attrs[j].pValue); + + free(tmp_attrs); + printf("Internal test memory failure\n"); + return (CKR_HOST_MEMORY); + } + } + + /* then get the attributes from the object */ + crv = pFunctionList->C_GetAttributeValue(hSession, obj, tmp_attrs, + expected_attrs_count); + if (crv != CKR_OK) { + PKM_Error("C_GetAttributeValue failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + crv = CKR_FUNCTION_FAILED; + goto out; + } + + /* Finally compare with the expected ones */ + for (i = 0; i < expected_attrs_count; i++) { + + if (memcmp(tmp_attrs[i].pValue, expected_attrs[i].pValue, + expected_attrs[i].ulValueLen) != 0) { + PKM_LogIt("comparing attribute type 0x%x with expected 0x%x\n", + tmp_attrs[i].type, expected_attrs[i].type); + PKM_LogIt("comparing attribute type value 0x%x with expected 0x%x\n", + tmp_attrs[i].pValue, expected_attrs[i].pValue); + /* don't report error at this time */ + } + } + +out: + for (i = 0; i < expected_attrs_count; i++) + free(tmp_attrs[i].pValue); + free(tmp_attrs); + return (crv); +} + +/* + * Check the validity of a mech + */ +CK_RV +PKM_MechCheck(CK_FUNCTION_LIST_PTR pFunctionList, CK_SESSION_HANDLE hSession, + CK_MECHANISM_TYPE mechType, CK_FLAGS flags, + CK_BBOOL check_sizes, CK_ULONG minkeysize, CK_ULONG maxkeysize) +{ + CK_SESSION_INFO sess_info; + CK_MECHANISM_INFO mech_info; + CK_RV crv; + + NUMTESTS++; /* increment NUMTESTS */ + + if ((crv = pFunctionList->C_GetSessionInfo(hSession, &sess_info)) != + CKR_OK) { + PKM_Error("C_GetSessionInfo failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return (CKR_FUNCTION_FAILED); + } + + crv = pFunctionList->C_GetMechanismInfo(0, mechType, + &mech_info); + + crv = pFunctionList->C_GetMechanismInfo(sess_info.slotID, mechType, + &mech_info); + + if (crv != CKR_OK) { + PKM_Error("C_GetMechanismInfo failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return (CKR_FUNCTION_FAILED); + } + + if ((mech_info.flags & flags) == 0) { + PKM_Error("0x%x flag missing from mech\n", flags); + return (CKR_MECHANISM_INVALID); + } + if (!check_sizes) + return (CKR_OK); + + if (mech_info.ulMinKeySize != minkeysize) { + PKM_Error("Bad MinKeySize %d expected %d\n", mech_info.ulMinKeySize, + minkeysize); + return (CKR_MECHANISM_INVALID); + } + if (mech_info.ulMaxKeySize != maxkeysize) { + PKM_Error("Bad MaxKeySize %d expected %d\n", mech_info.ulMaxKeySize, + maxkeysize); + return (CKR_MECHANISM_INVALID); + } + return (CKR_OK); +} + +/* + * Can be called with a non-null premaster_key_len for the + * *_DH mechanisms. In that case, no checking for the matching of + * the expected results is done. + * The rnd argument tells which correct/bogus randomInfo to use. + */ +CK_RV +PKM_TLSMasterKeyDerive(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen, + CK_MECHANISM_TYPE mechType, + enum_random_t rnd) +{ + CK_SESSION_HANDLE hSession; + CK_RV crv; + CK_MECHANISM mk_mech; + CK_VERSION version; + CK_OBJECT_CLASS class = CKO_SECRET_KEY; + CK_KEY_TYPE type = CKK_GENERIC_SECRET; + CK_BBOOL derive_bool = true; + CK_ATTRIBUTE attrs[4]; + CK_ULONG attrs_count = 4; + CK_OBJECT_HANDLE pmk_obj = CK_INVALID_HANDLE; + CK_OBJECT_HANDLE mk_obj = CK_INVALID_HANDLE; + CK_SSL3_MASTER_KEY_DERIVE_PARAMS mkd_params; + CK_MECHANISM skmd_mech; + + CK_BBOOL isDH = false; + + NUMTESTS++; /* increment NUMTESTS */ + + attrs[0].type = CKA_CLASS; + attrs[0].pValue = &class; + attrs[0].ulValueLen = sizeof(class); + attrs[1].type = CKA_KEY_TYPE; + attrs[1].pValue = &type; + attrs[1].ulValueLen = sizeof(type); + attrs[2].type = CKA_DERIVE; + attrs[2].pValue = &derive_bool; + attrs[2].ulValueLen = sizeof(derive_bool); + attrs[3].type = CKA_VALUE; + attrs[3].pValue = NULL; + attrs[3].ulValueLen = 0; + + crv = pFunctionList->C_OpenSession(pSlotList[slotID], CKF_SERIAL_SESSION, + NULL, NULL, &hSession); + if (crv != CKR_OK) { + PKM_Error("C_OpenSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_Login(hSession, CKU_USER, pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("C_Login with correct password succeeded\n"); + } else { + PKM_Error("C_Login with correct password failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + /* Before all, check if the mechanism is supported correctly */ + if (MODE == FIPSMODE) { + crv = PKM_MechCheck(pFunctionList, hSession, mechType, CKF_DERIVE, false, + 0, 0); + if (crv != CKR_OK) { + PKM_Error("PKM_MechCheck failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return (crv); + } + } + + mk_mech.mechanism = mechType; + mk_mech.pParameter = &mkd_params; + mk_mech.ulParameterLen = sizeof(mkd_params); + + switch (mechType) { + case CKM_TLS_MASTER_KEY_DERIVE_DH: + isDH = true; + /* FALLTHRU */ + case CKM_TLS_MASTER_KEY_DERIVE: + attrs[3].pValue = NULL; + attrs[3].ulValueLen = 0; + + mkd_params.RandomInfo.pClientRandom = (unsigned char *)TLSClientRandom; + mkd_params.RandomInfo.ulClientRandomLen = + sizeof(TLSClientRandom); + mkd_params.RandomInfo.pServerRandom = (unsigned char *)TLSServerRandom; + mkd_params.RandomInfo.ulServerRandomLen = + sizeof(TLSServerRandom); + break; + } + mkd_params.pVersion = (!isDH) ? &version : NULL; + + /* First create the pre-master secret key */ + + skmd_mech.mechanism = CKM_SSL3_PRE_MASTER_KEY_GEN; + skmd_mech.pParameter = &mkd_params; + skmd_mech.ulParameterLen = sizeof(mkd_params); + + crv = pFunctionList->C_GenerateKey(hSession, &skmd_mech, + attrs, + attrs_count, + &pmk_obj); + if (crv == CKR_OK) { + PKM_LogIt("C_GenerateKey succeeded\n"); + } else { + PKM_Error("C_GenerateKey failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + /* Test the bad cases */ + switch (rnd) { + case CORRECT: + goto correct; + + case BOGUS_CLIENT_RANDOM: + mkd_params.RandomInfo.pClientRandom = NULL; + break; + + case BOGUS_CLIENT_RANDOM_LEN: + mkd_params.RandomInfo.ulClientRandomLen = 0; + break; + + case BOGUS_SERVER_RANDOM: + mkd_params.RandomInfo.pServerRandom = NULL; + break; + + case BOGUS_SERVER_RANDOM_LEN: + mkd_params.RandomInfo.ulServerRandomLen = 0; + break; + } + crv = pFunctionList->C_DeriveKey(hSession, &mk_mech, pmk_obj, NULL, 0, + &mk_obj); + if (crv != CKR_MECHANISM_PARAM_INVALID) { + PKM_LogIt("C_DeriveKey returned as EXPECTED with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + } else { + PKM_Error("C_DeriveKey did not fail with bad data \n"); + } + goto out; + +correct: + /* Now derive the master secret key */ + crv = pFunctionList->C_DeriveKey(hSession, &mk_mech, pmk_obj, NULL, 0, + &mk_obj); + if (crv == CKR_OK) { + PKM_LogIt("C_DeriveKey succeeded\n"); + } else { + PKM_Error("C_DeriveKey failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + +out: + if (pmk_obj != CK_INVALID_HANDLE) + (void)pFunctionList->C_DestroyObject(hSession, pmk_obj); + if (mk_obj != CK_INVALID_HANDLE) + (void)pFunctionList->C_DestroyObject(hSession, mk_obj); + crv = pFunctionList->C_Logout(hSession); + + if (crv == CKR_OK) { + PKM_LogIt("C_Logout succeeded\n"); + } else { + PKM_Error("C_Logout failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_CloseSession(hSession); + if (crv != CKR_OK) { + PKM_Error("C_CloseSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + return (crv); +} + +CK_RV +PKM_TLSKeyAndMacDerive(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SLOT_ID *pSlotList, CK_ULONG slotID, + CK_UTF8CHAR_PTR pwd, CK_ULONG pwdLen, + CK_MECHANISM_TYPE mechType, enum_random_t rnd) +{ + CK_SESSION_HANDLE hSession; + CK_RV crv; + CK_MECHANISM kmd_mech; + CK_MECHANISM skmd_mech; + CK_OBJECT_CLASS class = CKO_SECRET_KEY; + CK_KEY_TYPE type = CKK_GENERIC_SECRET; + CK_BBOOL derive_bool = true; + CK_BBOOL sign_bool = true, verify_bool = true; + CK_BBOOL encrypt_bool = true, decrypt_bool = true; + CK_ULONG value_len; + + /* + * We arrange this template so that: + * . Attributes 0-6 are good for a MAC key comparison template. + * . Attributes 2-5 are good for the master key creation template. + * . Attributes 3-8 are good for a cipher key comparison template. + */ + CK_ATTRIBUTE attrs[9]; + + CK_OBJECT_HANDLE mk_obj = CK_INVALID_HANDLE; + CK_SSL3_KEY_MAT_PARAMS km_params; + CK_SSL3_KEY_MAT_OUT kmo; + CK_BYTE IVClient[8]; + CK_BYTE IVServer[8]; + + NUMTESTS++; /* increment NUMTESTS */ + + attrs[0].type = CKA_SIGN; + attrs[0].pValue = &sign_bool; + attrs[0].ulValueLen = sizeof(sign_bool); + attrs[1].type = CKA_VERIFY; + attrs[1].pValue = &verify_bool; + attrs[1].ulValueLen = sizeof(verify_bool); + attrs[2].type = CKA_KEY_TYPE; + attrs[2].pValue = &type; + attrs[2].ulValueLen = sizeof(type); + attrs[3].type = CKA_CLASS; + attrs[3].pValue = &class; + attrs[3].ulValueLen = sizeof(class); + attrs[4].type = CKA_DERIVE; + attrs[4].pValue = &derive_bool; + attrs[4].ulValueLen = sizeof(derive_bool); + attrs[5].type = CKA_VALUE; + attrs[5].pValue = NULL; + attrs[5].ulValueLen = 0; + attrs[6].type = CKA_VALUE_LEN; + attrs[6].pValue = &value_len; + attrs[6].ulValueLen = sizeof(value_len); + attrs[7].type = CKA_ENCRYPT; + attrs[7].pValue = &encrypt_bool; + attrs[7].ulValueLen = sizeof(encrypt_bool); + attrs[8].type = CKA_DECRYPT; + attrs[8].pValue = &decrypt_bool; + attrs[8].ulValueLen = sizeof(decrypt_bool); + + crv = pFunctionList->C_OpenSession(pSlotList[slotID], CKF_SERIAL_SESSION, + NULL, NULL, &hSession); + if (crv != CKR_OK) { + PKM_Error("C_OpenSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_Login(hSession, CKU_USER, pwd, pwdLen); + if (crv == CKR_OK) { + PKM_LogIt("C_Login with correct password succeeded\n"); + } else { + PKM_Error("C_Login with correct password failed " + "with 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + return crv; + } + + /* Before all, check if the mechanism is supported correctly */ + if (MODE == FIPSMODE) { + crv = PKM_MechCheck(pFunctionList, hSession, mechType, CKF_DERIVE, + CK_TRUE, 48, 48); + + if (crv != CKR_OK) { + PKM_Error("PKM_MechCheck failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return (crv); + } + } + kmd_mech.mechanism = mechType; + kmd_mech.pParameter = &km_params; + kmd_mech.ulParameterLen = sizeof(km_params); + + km_params.ulMacSizeInBits = 128; /* an MD5 based MAC */ + km_params.ulKeySizeInBits = 192; /* 3DES key size */ + km_params.ulIVSizeInBits = 64; /* 3DES block size */ + km_params.pReturnedKeyMaterial = &kmo; + km_params.bIsExport = false; + kmo.hClientMacSecret = CK_INVALID_HANDLE; + kmo.hServerMacSecret = CK_INVALID_HANDLE; + kmo.hClientKey = CK_INVALID_HANDLE; + kmo.hServerKey = CK_INVALID_HANDLE; + kmo.pIVClient = IVClient; + kmo.pIVServer = IVServer; + + skmd_mech.mechanism = CKM_SSL3_PRE_MASTER_KEY_GEN; + skmd_mech.pParameter = &km_params; + skmd_mech.ulParameterLen = sizeof(km_params); + + crv = pFunctionList->C_GenerateKey(hSession, &skmd_mech, + &attrs[2], + 4, + &mk_obj); + if (crv == CKR_OK) { + PKM_LogIt("C_GenerateKey succeeded\n"); + } else { + PKM_Error("C_GenerateKey failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + attrs[5].pValue = NULL; + attrs[5].ulValueLen = 0; + + km_params.RandomInfo.pClientRandom = (unsigned char *)TLSClientRandom; + km_params.RandomInfo.ulClientRandomLen = + sizeof(TLSClientRandom); + km_params.RandomInfo.pServerRandom = (unsigned char *)TLSServerRandom; + km_params.RandomInfo.ulServerRandomLen = + sizeof(TLSServerRandom); + + /* Test the bad cases */ + switch (rnd) { + case CORRECT: + goto correct; + + case BOGUS_CLIENT_RANDOM: + km_params.RandomInfo.pClientRandom = NULL; + break; + + case BOGUS_CLIENT_RANDOM_LEN: + km_params.RandomInfo.ulClientRandomLen = 0; + break; + + case BOGUS_SERVER_RANDOM: + km_params.RandomInfo.pServerRandom = NULL; + break; + + case BOGUS_SERVER_RANDOM_LEN: + km_params.RandomInfo.ulServerRandomLen = 0; + break; + } + crv = pFunctionList->C_DeriveKey(hSession, &kmd_mech, mk_obj, NULL, 0, + NULL); + if (crv != CKR_MECHANISM_PARAM_INVALID) { + PKM_Error("key materials derivation returned unexpected " + "error 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + (void)pFunctionList->C_DestroyObject(hSession, mk_obj); + return (CKR_FUNCTION_FAILED); + } + return (CKR_OK); + +correct: + /* + * Then use the master key and the client 'n server random data to + * derive the key materials + */ + crv = pFunctionList->C_DeriveKey(hSession, &kmd_mech, mk_obj, NULL, 0, + NULL); + if (crv != CKR_OK) { + PKM_Error("Cannot derive the key materials, crv 0x%08X, %-26s\n", + crv, PKM_CK_RVtoStr(crv)); + (void)pFunctionList->C_DestroyObject(hSession, mk_obj); + return (crv); + } + + if (mk_obj != CK_INVALID_HANDLE) + (void)pFunctionList->C_DestroyObject(hSession, mk_obj); + if (kmo.hClientMacSecret != CK_INVALID_HANDLE) + (void)pFunctionList->C_DestroyObject(hSession, kmo.hClientMacSecret); + if (kmo.hServerMacSecret != CK_INVALID_HANDLE) + (void)pFunctionList->C_DestroyObject(hSession, kmo.hServerMacSecret); + if (kmo.hClientKey != CK_INVALID_HANDLE) + (void)pFunctionList->C_DestroyObject(hSession, kmo.hClientKey); + if (kmo.hServerKey != CK_INVALID_HANDLE) + (void)pFunctionList->C_DestroyObject(hSession, kmo.hServerKey); + + crv = pFunctionList->C_Logout(hSession); + if (crv == CKR_OK) { + PKM_LogIt("C_Logout succeeded\n"); + } else { + PKM_Error("C_Logout failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_CloseSession(hSession); + if (crv != CKR_OK) { + PKM_Error("C_CloseSession failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + return (crv); +} + +CK_RV +PKM_DualFuncSign(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hRwSession, + CK_OBJECT_HANDLE publicKey, CK_OBJECT_HANDLE privateKey, + CK_MECHANISM *sigMech, + CK_OBJECT_HANDLE secretKey, CK_MECHANISM *cryptMech, + const CK_BYTE *pData, CK_ULONG pDataLen) +{ + + CK_RV crv = CKR_OK; + CK_BYTE encryptedData[MAX_CIPHER_SZ]; + CK_ULONG ulEncryptedDataLen = 0; + CK_ULONG ulLastUpdateSize = 0; + CK_BYTE sig[MAX_SIG_SZ]; + CK_ULONG ulSigLen = 0; + CK_BYTE data[MAX_DATA_SZ]; + CK_ULONG ulDataLen = 0; + + memset(encryptedData, 0, sizeof(encryptedData)); + memset(sig, 0, sizeof(sig)); + memset(data, 0, sizeof(data)); + + NUMTESTS++; /* increment NUMTESTS */ + + /* Check that the mechanism is Multi-part */ + if (sigMech->mechanism == CKM_DSA || sigMech->mechanism == CKM_RSA_PKCS) { + PKM_Error("PKM_DualFuncSign must be called with a Multi-part " + "operation mechanism\n"); + return CKR_DEVICE_ERROR; + } + + /* Sign and Encrypt */ + if (privateKey == 0 && publicKey == 0) { + crv = pFunctionList->C_SignInit(hRwSession, sigMech, secretKey); + if (crv != CKR_OK) { + PKM_Error("C_SignInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + } else { + crv = pFunctionList->C_SignInit(hRwSession, sigMech, privateKey); + if (crv != CKR_OK) { + PKM_Error("C_SignInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + } + crv = pFunctionList->C_EncryptInit(hRwSession, cryptMech, secretKey); + if (crv != CKR_OK) { + PKM_Error("C_EncryptInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + ulEncryptedDataLen = sizeof(encryptedData); + crv = pFunctionList->C_SignEncryptUpdate(hRwSession, (CK_BYTE *)pData, + pDataLen, + encryptedData, + &ulEncryptedDataLen); + if (crv != CKR_OK) { + PKM_Error("C_Sign failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + ulLastUpdateSize = sizeof(encryptedData) - ulEncryptedDataLen; + crv = pFunctionList->C_EncryptFinal(hRwSession, + (CK_BYTE *)&encryptedData[ulEncryptedDataLen], &ulLastUpdateSize); + if (crv != CKR_OK) { + PKM_Error("C_EncryptFinal failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + ulEncryptedDataLen = ulEncryptedDataLen + ulLastUpdateSize; + ulSigLen = sizeof(sig); + crv = pFunctionList->C_SignFinal(hRwSession, sig, &ulSigLen); + if (crv != CKR_OK) { + PKM_Error("C_SignFinal failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + /* Decrypt and Verify */ + + crv = pFunctionList->C_DecryptInit(hRwSession, cryptMech, secretKey); + if (crv != CKR_OK) { + PKM_Error("C_DecryptInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + crv = pFunctionList->C_VerifyInit(hRwSession, sigMech, + publicKey); + if (crv != CKR_OK) { + PKM_Error("C_VerifyInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + ulDataLen = sizeof(data); + crv = pFunctionList->C_DecryptVerifyUpdate(hRwSession, + encryptedData, + ulEncryptedDataLen, + data, &ulDataLen); + if (crv != CKR_OK) { + PKM_Error("C_DecryptVerifyUpdate failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + ulLastUpdateSize = sizeof(data) - ulDataLen; + /* Get last little piece of plaintext. Should have length 0 */ + crv = pFunctionList->C_DecryptFinal(hRwSession, &data[ulDataLen], + &ulLastUpdateSize); + if (crv != CKR_OK) { + PKM_Error("C_DecryptFinal failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + if (ulLastUpdateSize != 0) { + crv = pFunctionList->C_VerifyUpdate(hRwSession, &data[ulDataLen], + ulLastUpdateSize); + if (crv != CKR_OK) { + PKM_Error("C_DecryptFinal failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + } + ulDataLen = ulDataLen + ulLastUpdateSize; + + /* input for the verify operation is the decrypted data */ + crv = pFunctionList->C_VerifyFinal(hRwSession, sig, ulSigLen); + if (crv == CKR_OK) { + PKM_LogIt("C_VerifyFinal succeeded\n"); + } else { + PKM_Error("C_VerifyFinal failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + /* Comparison of Decrypted data with inputed data */ + if ((ulDataLen == pDataLen) && + (memcmp(data, pData, pDataLen) == 0)) { + PKM_LogIt("PKM_DualFuncSign decrypt test case passed\n"); + } else { + PKM_Error("PKM_DualFuncSign derypt test case failed\n"); + } + + return crv; +} + +CK_RV +PKM_Digest(CK_FUNCTION_LIST_PTR pFunctionList, + CK_SESSION_HANDLE hSession, + CK_MECHANISM *digestMech, CK_OBJECT_HANDLE hSecretKey, + const CK_BYTE *pData, CK_ULONG pDataLen) +{ + CK_RV crv = CKR_OK; + CK_BYTE digest1[MAX_DIGEST_SZ]; + CK_ULONG digest1Len = 0; + CK_BYTE digest2[MAX_DIGEST_SZ]; + CK_ULONG digest2Len = 0; + + /* Tested with CKM_SHA_1, CKM_SHA224, CKM_SHA256, CKM_SHA384, CKM_SHA512 */ + + memset(digest1, 0, sizeof(digest1)); + memset(digest2, 0, sizeof(digest2)); + + NUMTESTS++; /* increment NUMTESTS */ + + crv = pFunctionList->C_DigestInit(hSession, digestMech); + if (crv != CKR_OK) { + PKM_Error("C_SignInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + digest1Len = sizeof(digest1); + crv = pFunctionList->C_Digest(hSession, (CK_BYTE *)pData, pDataLen, + digest1, &digest1Len); + if (crv != CKR_OK) { + PKM_Error("C_Sign failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_DigestInit(hSession, digestMech); + if (crv != CKR_OK) { + PKM_Error("C_DigestInit failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + crv = pFunctionList->C_DigestUpdate(hSession, (CK_BYTE *)pData, pDataLen); + if (crv != CKR_OK) { + PKM_Error("C_DigestUpdate failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + /* C_DigestKey continues a multiple-part message-digesting operation by*/ + /* digesting the value of a secret key. (only used with C_DigestUpdate)*/ + if (hSecretKey != 0) { + crv = pFunctionList->C_DigestKey(hSession, hSecretKey); + if (crv != CKR_OK) { + PKM_Error("C_DigestKey failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + } + + digest2Len = sizeof(digest2); + crv = pFunctionList->C_DigestFinal(hSession, digest2, &digest2Len); + if (crv != CKR_OK) { + PKM_Error("C_DigestFinal failed with 0x%08X, %-26s\n", crv, + PKM_CK_RVtoStr(crv)); + return crv; + } + + if (hSecretKey == 0) { + /* did not digest a secret key so digests should equal */ + if ((digest1Len == digest2Len) && + (memcmp(digest1, digest2, digest1Len) == 0)) { + PKM_LogIt("Single and Multiple-part message digest " + "operations successful\n"); + } else { + PKM_Error("Single and Multiple-part message digest " + "operations failed\n"); + } + } else { + if (digest1Len == digest2Len) { + PKM_LogIt("PKM_Digest Single and Multiple-part message digest " + "operations successful\n"); + } else { + PKM_Error("PKM_Digest Single and Multiple-part message digest " + "operations failed\n"); + } + } + + return crv; +} + +char * +PKM_FilePasswd(char *pwFile) +{ + unsigned char phrase[200]; + PRFileDesc *fd; + PRInt32 nb; + int i; + + if (!pwFile) + return 0; + + fd = PR_Open(pwFile, PR_RDONLY, 0); + if (!fd) { + fprintf(stderr, "No password file \"%s\" exists.\n", pwFile); + return NULL; + } + + nb = PR_Read(fd, phrase, sizeof(phrase)); + + PR_Close(fd); + /* handle the Windows EOL case */ + i = 0; + while (phrase[i] != '\r' && phrase[i] != '\n' && i < nb) + i++; + phrase[i] = '\0'; + if (nb == 0) { + fprintf(stderr, "password file contains no data\n"); + return NULL; + } + return (char *)strdup((char *)phrase); +} + +void +PKM_Help() +{ + PRFileDesc *debug_out = PR_GetSpecialFD(PR_StandardError); + PR_fprintf(debug_out, "pk11mode test program usage:\n"); + PR_fprintf(debug_out, "\t-f <file> Password File : echo pw > file \n"); + PR_fprintf(debug_out, "\t-F Disable Unix fork tests\n"); + PR_fprintf(debug_out, "\t-n Non Fips Mode \n"); + PR_fprintf(debug_out, "\t-d <path> Database path location\n"); + PR_fprintf(debug_out, "\t-p <prefix> DataBase prefix\n"); + PR_fprintf(debug_out, "\t-v verbose\n"); + PR_fprintf(debug_out, "\t-h this help message\n"); + exit(1); +} + +void +PKM_CheckPath(char *string) +{ + char *src; + char *dest; + + /* + * windows support convert any back slashes to + * forward slashes. + */ + for (src = string, dest = string; *src; src++, dest++) { + if (*src == '\\') { + *dest = '/'; + } + } + dest--; + /* if the last char is a / set it to 0 */ + if (*dest == '/') + *dest = 0; +} + +CK_RV +PKM_ForkCheck(int expected, CK_FUNCTION_LIST_PTR fList, + PRBool forkAssert, CK_C_INITIALIZE_ARGS_NSS *initArgs) +{ + CK_RV crv = CKR_OK; +#ifndef NO_FORK_CHECK + int rc = -1; + pid_t child, ret; + NUMTESTS++; /* increment NUMTESTS */ + if (forkAssert) { + putenv("NSS_STRICT_NOFORK=1"); + } else { + putenv("NSS_STRICT_NOFORK=0"); + } + child = fork(); + switch (child) { + case -1: + PKM_Error("Fork failed.\n"); + crv = CKR_DEVICE_ERROR; + break; + case 0: + if (fList) { + if (!initArgs) { + /* If softoken is loaded, make a PKCS#11 call to C_GetTokenInfo + * in the child. This call should always fail. + * If softoken is uninitialized, + * it fails with CKR_CRYPTOKI_NOT_INITIALIZED. + * If it was initialized in the parent, the fork check should + * kick in, and make it return CKR_DEVICE_ERROR. + */ + CK_RV child_crv = fList->C_GetTokenInfo(0, NULL); + exit(child_crv & 255); + } else { + /* If softoken is loaded, make a PKCS#11 call to C_Initialize + * in the child. This call should always fail. + * If softoken is uninitialized, this should succeed. + * If it was initialized in the parent, the fork check should + * kick in, and make it return CKR_DEVICE_ERROR. + */ + CK_RV child_crv = fList->C_Initialize(initArgs); + if (CKR_OK == child_crv) { + child_crv = fList->C_Finalize(NULL); + } + exit(child_crv & 255); + } + } + exit(expected & 255); + default: + PKM_LogIt("Fork succeeded.\n"); + ret = wait(&rc); + if (ret != child || (!WIFEXITED(rc)) || + ((expected & 255) != (WEXITSTATUS(rc) & 255))) { + int retStatus = -1; + if (WIFEXITED(rc)) { + retStatus = WEXITSTATUS(rc); + } + PKM_Error("Child misbehaved.\n"); + printf("Child return status : %d.\n", retStatus & 255); + crv = CKR_DEVICE_ERROR; + } + break; + } +#endif + return crv; +} |