/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include "pkcs11Global.h" #include "pkcs11Slot.h" #include "pkcs11Conf.h" #include "pkcs11Session.h" #pragma fini(pkcs11_fini) static struct CK_FUNCTION_LIST functionList = { { 2, 20 }, /* version */ C_Initialize, C_Finalize, C_GetInfo, C_GetFunctionList, C_GetSlotList, C_GetSlotInfo, C_GetTokenInfo, C_GetMechanismList, C_GetMechanismInfo, C_InitToken, C_InitPIN, C_SetPIN, C_OpenSession, C_CloseSession, C_CloseAllSessions, C_GetSessionInfo, C_GetOperationState, C_SetOperationState, C_Login, C_Logout, C_CreateObject, C_CopyObject, C_DestroyObject, C_GetObjectSize, C_GetAttributeValue, C_SetAttributeValue, C_FindObjectsInit, C_FindObjects, C_FindObjectsFinal, C_EncryptInit, C_Encrypt, C_EncryptUpdate, C_EncryptFinal, C_DecryptInit, C_Decrypt, C_DecryptUpdate, C_DecryptFinal, C_DigestInit, C_Digest, C_DigestUpdate, C_DigestKey, C_DigestFinal, C_SignInit, C_Sign, C_SignUpdate, C_SignFinal, C_SignRecoverInit, C_SignRecover, C_VerifyInit, C_Verify, C_VerifyUpdate, C_VerifyFinal, C_VerifyRecoverInit, C_VerifyRecover, C_DigestEncryptUpdate, C_DecryptDigestUpdate, C_SignEncryptUpdate, C_DecryptVerifyUpdate, C_GenerateKey, C_GenerateKeyPair, C_WrapKey, C_UnwrapKey, C_DeriveKey, C_SeedRandom, C_GenerateRandom, C_GetFunctionStatus, C_CancelFunction, C_WaitForSlotEvent }; boolean_t pkcs11_initialized = B_FALSE; boolean_t pkcs11_cant_create_threads = B_FALSE; boolean_t fini_called = B_FALSE; static boolean_t pkcs11_atfork_initialized = B_FALSE; static pid_t pkcs11_pid = 0; /* protects pkcs11_[initialized|pid], and fastpath */ static pthread_mutex_t globalmutex = PTHREAD_MUTEX_INITIALIZER; static CK_RV finalize_common(CK_VOID_PTR pReserved); static void pkcs11_fini(); /* * Ensure that before a fork, all mutexes are taken. * Order: * 1. globalmutex * 2. slottable->st_mutex * 3. all slottable->st_slots' mutexes */ static void pkcs11_fork_prepare(void) { int i; (void) pthread_mutex_lock(&globalmutex); if (slottable != NULL) { (void) pthread_mutex_lock(&slottable->st_mutex); /* Take the sl_mutex of all slots */ for (i = slottable->st_first; i <= slottable->st_last; i++) { if (slottable->st_slots[i] != NULL) { (void) pthread_mutex_lock( &slottable->st_slots[i]->sl_mutex); } } } } /* * Ensure that after a fork, in the parent, all mutexes are released in opposite * order to pkcs11_fork_prepare(). */ static void pkcs11_fork_parent(void) { int i; if (slottable != NULL) { /* Release the sl_mutex of all slots */ for (i = slottable->st_first; i <= slottable->st_last; i++) { if (slottable->st_slots[i] != NULL) { (void) pthread_mutex_unlock( &slottable->st_slots[i]->sl_mutex); } } (void) pthread_mutex_unlock(&slottable->st_mutex); } (void) pthread_mutex_unlock(&globalmutex); } /* * Ensure that after a fork, in the child, all mutexes are released in opposite * order to pkcs11_fork_prepare() and cleanup is done. */ static void pkcs11_fork_child(void) { int i; if (slottable != NULL) { /* Release the sl_mutex of all slots */ for (i = slottable->st_first; i <= slottable->st_last; i++) { if (slottable->st_slots[i] != NULL) { (void) pthread_mutex_unlock( &slottable->st_slots[i]->sl_mutex); } } (void) pthread_mutex_unlock(&slottable->st_mutex); } (void) pthread_mutex_unlock(&globalmutex); pkcs11_fini(); } CK_RV C_Initialize(CK_VOID_PTR pInitArgs) { CK_RV rv; uentrylist_t *pliblist = NULL; int initialize_pid; /* * Grab lock to insure only one thread enters * this function at a time. */ (void) pthread_mutex_lock(&globalmutex); initialize_pid = getpid(); /* Make sure function hasn't been called twice */ if (pkcs11_initialized) { if (initialize_pid == pkcs11_pid) { (void) pthread_mutex_unlock(&globalmutex); return (CKR_CRYPTOKI_ALREADY_INITIALIZED); } else { /* * A fork has happened and the child is * reinitializing. Do a finalize_common() to close * out any state from the parent, and then * continue on. */ (void) finalize_common(NULL); } } /* Check if application has provided mutex-handling functions */ if (pInitArgs != NULL) { CK_C_INITIALIZE_ARGS_PTR initargs = (CK_C_INITIALIZE_ARGS_PTR) pInitArgs; /* pReserved should not be set */ if (initargs->pReserved != NULL) { rv = CKR_ARGUMENTS_BAD; goto errorexit; } /* * Make sure function pointers are either all NULL or * all set. */ if (!(((initargs->CreateMutex != NULL) && (initargs->LockMutex != NULL) && (initargs->UnlockMutex != NULL) && (initargs->DestroyMutex != NULL)) || ((initargs->CreateMutex == NULL) && (initargs->LockMutex == NULL) && (initargs->UnlockMutex == NULL) && (initargs->DestroyMutex == NULL)))) { rv = CKR_ARGUMENTS_BAD; goto errorexit; } if (!(initargs->flags & CKF_OS_LOCKING_OK)) { if (initargs->CreateMutex != NULL) { /* * Do not accept application supplied * locking primitives. */ rv = CKR_CANT_LOCK; goto errorexit; } } if (initargs->flags & CKF_LIBRARY_CANT_CREATE_OS_THREADS) { /* * Calling application does not want the library * to create threads. This will effect * C_WaitForSlotEvent(). */ pkcs11_cant_create_threads = B_TRUE; } } /* Initialize slot table */ rv = pkcs11_slottable_initialize(); if (rv != CKR_OK) goto errorexit; /* Get the list of providers */ if (get_pkcs11conf_info(&pliblist) != SUCCESS) { rv = CKR_FUNCTION_FAILED; goto errorexit; } /* * Load each provider, check for accessible slots, * and populate slottable. If metaslot is enabled, * it will be initialized as well. */ rv = pkcs11_slot_mapping(pliblist, pInitArgs); if (rv != CKR_OK) goto errorexit; pkcs11_initialized = B_TRUE; pkcs11_pid = initialize_pid; /* Children inherit parent's atfork handlers */ if (!pkcs11_atfork_initialized) { (void) pthread_atfork(pkcs11_fork_prepare, pkcs11_fork_parent, pkcs11_fork_child); pkcs11_atfork_initialized = B_TRUE; } (void) pthread_mutex_unlock(&globalmutex); /* Cleanup data structures no longer needed */ free_uentrylist(pliblist); return (CKR_OK); errorexit: /* Cleanup any data structures that have already been allocated */ if (slottable) (void) pkcs11_slottable_delete(); if (pliblist) (void) free_uentrylist(pliblist); (void) pthread_mutex_unlock(&globalmutex); return (rv); } /* * C_Finalize is a wrapper around finalize_common. The * globalmutex should be locked by C_Finalize(). * * When an explicit C_Finalize() call is received, all * plugins currently in the slottable will also be * finalized. This must occur, even if libpkcs11(3lib) * was not the first one to initialize the plugins, since it * is the only way in PKCS#11 to force a refresh of the * slot listings (ie to get new hardware devices). */ CK_RV C_Finalize(CK_VOID_PTR pReserved) { CK_RV rv; (void) pthread_mutex_lock(&globalmutex); rv = finalize_common(pReserved); (void) pthread_mutex_unlock(&globalmutex); return (rv); } /* * finalize_common() does the work for C_Finalize. globalmutex * must be held before calling this function. */ static CK_RV finalize_common(CK_VOID_PTR pReserved) { CK_RV rv; if (!pkcs11_initialized) { return (CKR_CRYPTOKI_NOT_INITIALIZED); } if (pReserved != NULL) { return (CKR_ARGUMENTS_BAD); } purefastpath = B_FALSE; policyfastpath = B_FALSE; fast_funcs = NULL; fast_slot = 0; pkcs11_initialized = B_FALSE; pkcs11_cant_create_threads = B_FALSE; pkcs11_pid = 0; /* Check if C_WaitForSlotEvent() is currently active */ (void) pthread_mutex_lock(&slottable->st_mutex); if (slottable->st_wfse_active) { /* * Wait for this thread to proceed far enough to block or * end on its own. Otherwise, teardown of slottable may * occurr before this active function completes. */ while (slottable->st_wfse_active) { /* * If C_WaitForSlotEvent is blocking, wake it up and * return error to calling application. */ if (slottable->st_blocking) { slottable->st_list_signaled = B_TRUE; (void) pthread_cond_signal( &slottable->st_wait_cond); (void) pthread_mutex_unlock( &slottable->st_mutex); (void) pthread_join(slottable->st_tid, NULL); } } } else { (void) pthread_mutex_unlock(&slottable->st_mutex); } rv = pkcs11_slottable_delete(); return (rv); } /* * pkcs11_fini() function required to make sure complete cleanup * is done of plugins if the framework is ever unloaded without * a C_Finalize() call. This would be common when applications * load and unload other libraries that use libpkcs11(3lib), since * shared libraries should not call C_Finalize(). * * If pkcs11_fini() is used, we set fini_called to B_TRUE so that * pkcs11_slottable_delete() will not call C_Finalize() on the plugins. * * This is to protect in cases where the application has dlopened * an object (for example, dlobj) that links to libpkcs11(3lib), but * the application is unaware that the object is doing PKCS#11 calls * underneath. This application may later directly dlopen one of the * plugins (like pkcs11_softtoken.so, or any other 3rd party provided * plugin) in order to directly perform PKCS#11 operations. * * While it is still actively using the PKCS#11 plugin directly, * the application may finish with dlobj and dlclose it. As the * reference count for libpkcs11(3lib) has become 0, pkcs11_fini() * will be run by the linker. Even though libpkcs11(3lib) was the * first to initialize the plugin in this case, it is not safe for * libpkcs11(3lib) to finalize the plugin, as the application would * lose state. */ static void pkcs11_fini() { (void) pthread_mutex_lock(&globalmutex); /* if we're not initilized, do not attempt to finalize */ if (!pkcs11_initialized) { (void) pthread_mutex_unlock(&globalmutex); return; } fini_called = B_TRUE; (void) finalize_common(NULL_PTR); (void) pthread_mutex_unlock(&globalmutex); } CK_RV C_GetInfo(CK_INFO_PTR pInfo) { /* Check for a fastpath */ if (purefastpath || policyfastpath) { return (fast_funcs->C_GetInfo(pInfo)); } if (!pkcs11_initialized) return (CKR_CRYPTOKI_NOT_INITIALIZED); if (pInfo == NULL) { return (CKR_ARGUMENTS_BAD); } /* * Copy data into the provided buffer, use strncpy() instead * of strlcpy() so that the strings are NOT NULL terminated, * as required by the PKCS#11 standard */ (void) strncpy((char *)pInfo->manufacturerID, MANUFACTURER_ID, PKCS11_STRING_LENGTH); (void) strncpy((char *)pInfo->libraryDescription, LIBRARY_DESCRIPTION, PKCS11_STRING_LENGTH); pInfo->cryptokiVersion.major = CRYPTOKI_VERSION_MAJOR; pInfo->cryptokiVersion.minor = CRYPTOKI_VERSION_MINOR; pInfo->flags = 0; pInfo->libraryVersion.major = LIBRARY_VERSION_MAJOR; pInfo->libraryVersion.minor = LIBRARY_VERSION_MINOR; return (CKR_OK); } /* * This function is unaffected by the fast-path, since it is likely * called before C_Initialize is, so we will not yet know the status * of the fast-path. Additionally, policy will still need to be * enforced if applicable. */ CK_RV C_GetFunctionList(CK_FUNCTION_LIST_PTR_PTR ppFunctionList) { if (ppFunctionList == NULL) { return (CKR_ARGUMENTS_BAD); } *ppFunctionList = &functionList; return (CKR_OK); } /* * This function is no longer supported in this revision of the PKCS#11 * standard. It is maintained for backwards compatibility only. */ /*ARGSUSED*/ CK_RV C_GetFunctionStatus(CK_SESSION_HANDLE hSession) { return (CKR_FUNCTION_NOT_PARALLEL); } /* * This function is no longer supported in this revision of the PKCS#11 * standard. It is maintained for backwards compatibility only. */ /*ARGSUSED*/ CK_RV C_CancelFunction(CK_SESSION_HANDLE hSession) { return (CKR_FUNCTION_NOT_PARALLEL); }