/* ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is the Netscape security libraries. * * The Initial Developer of the Original Code is * Netscape Communications Corporation. * Portions created by the Initial Developer are Copyright (C) 1994-2000 * the Initial Developer. All Rights Reserved. * * Contributor(s): * Dr Vipul Gupta , Sun Microsystems Laboratories * * Alternatively, the contents of this file may be used under the terms of * either the GNU General Public License Version 2 or later (the "GPL"), or * the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ /* * Deal with PKCS #11 Slots. */ #include "seccomon.h" #include "secmod.h" #include "nssilock.h" #include "secmodi.h" #include "secmodti.h" #include "pkcs11t.h" #include "pk11func.h" #include "secitem.h" #include "secerr.h" #include "dev.h" #include "dev3hack.h" #include "pkim.h" /************************************************************* * local static and global data *************************************************************/ /* * This array helps parsing between names, mechanisms, and flags. * to make the config files understand more entries, add them * to this table. (NOTE: we need function to export this table and it's size) */ PK11DefaultArrayEntry PK11_DefaultArray[] = { { "RSA", SECMOD_RSA_FLAG, CKM_RSA_PKCS }, { "DSA", SECMOD_DSA_FLAG, CKM_DSA }, { "DH", SECMOD_DH_FLAG, CKM_DH_PKCS_DERIVE }, { "RC2", SECMOD_RC2_FLAG, CKM_RC2_CBC }, { "RC4", SECMOD_RC4_FLAG, CKM_RC4 }, { "DES", SECMOD_DES_FLAG, CKM_DES_CBC }, { "AES", SECMOD_AES_FLAG, CKM_AES_CBC }, { "Camellia", SECMOD_CAMELLIA_FLAG, CKM_CAMELLIA_CBC }, { "SEED", SECMOD_SEED_FLAG, CKM_SEED_CBC }, { "RC5", SECMOD_RC5_FLAG, CKM_RC5_CBC }, { "SHA-1", SECMOD_SHA1_FLAG, CKM_SHA_1 }, { "SHA256", SECMOD_SHA256_FLAG, CKM_SHA256 }, /* { "SHA384", SECMOD_SHA512_FLAG, CKM_SHA384 }, */ { "SHA512", SECMOD_SHA512_FLAG, CKM_SHA512 }, { "MD5", SECMOD_MD5_FLAG, CKM_MD5 }, { "MD2", SECMOD_MD2_FLAG, CKM_MD2 }, { "SSL", SECMOD_SSL_FLAG, CKM_SSL3_PRE_MASTER_KEY_GEN }, { "TLS", SECMOD_TLS_FLAG, CKM_TLS_MASTER_KEY_DERIVE }, { "SKIPJACK", SECMOD_FORTEZZA_FLAG, CKM_SKIPJACK_CBC64 }, { "Publicly-readable certs", SECMOD_FRIENDLY_FLAG, CKM_INVALID_MECHANISM }, { "Random Num Generator", SECMOD_RANDOM_FLAG, CKM_FAKE_RANDOM }, }; const int num_pk11_default_mechanisms = sizeof(PK11_DefaultArray) / sizeof(PK11_DefaultArray[0]); PK11DefaultArrayEntry * PK11_GetDefaultArray(int *size) { if (size) { *size = num_pk11_default_mechanisms; } return PK11_DefaultArray; } /* * These slotlists are lists of modules which provide default support for * a given algorithm or mechanism. */ static PK11SlotList pk11_seedSlotList, pk11_camelliaSlotList, pk11_aesSlotList, pk11_desSlotList, pk11_rc4SlotList, pk11_rc2SlotList, pk11_rc5SlotList, pk11_sha1SlotList, pk11_md5SlotList, pk11_md2SlotList, pk11_rsaSlotList, pk11_dsaSlotList, pk11_dhSlotList, pk11_ecSlotList, pk11_ideaSlotList, pk11_sslSlotList, pk11_tlsSlotList, pk11_randomSlotList, pk11_sha256SlotList, pk11_sha512SlotList; /* slots do SHA512 and SHA384 */ /************************************************************ * Generic Slot List and Slot List element manipulations ************************************************************/ /* * allocate a new list */ PK11SlotList * PK11_NewSlotList(void) { PK11SlotList *list; list = (PK11SlotList *)PORT_Alloc(sizeof(PK11SlotList)); if (list == NULL) return NULL; list->head = NULL; list->tail = NULL; list->lock = PZ_NewLock(nssILockList); if (list->lock == NULL) { PORT_Free(list); return NULL; } return list; } /* * free a list element when all the references go away. */ SECStatus PK11_FreeSlotListElement(PK11SlotList *list, PK11SlotListElement *le) { PRBool freeit = PR_FALSE; if (list == NULL || le == NULL) { PORT_SetError(SEC_ERROR_INVALID_ARGS); return SECFailure; } PZ_Lock(list->lock); if (le->refCount-- == 1) { freeit = PR_TRUE; } PZ_Unlock(list->lock); if (freeit) { PK11_FreeSlot(le->slot); PORT_Free(le); } return SECSuccess; } static void pk11_FreeSlotListStatic(PK11SlotList *list) { PK11SlotListElement *le, *next ; if (list == NULL) return; for (le = list->head ; le; le = next) { next = le->next; PK11_FreeSlotListElement(list,le); } if (list->lock) { PZ_DestroyLock(list->lock); } list->lock = NULL; list->head = NULL; } /* * if we are freeing the list, we must be the only ones with a pointer * to the list. */ void PK11_FreeSlotList(PK11SlotList *list) { pk11_FreeSlotListStatic(list); PORT_Free(list); } /* * add a slot to a list */ SECStatus PK11_AddSlotToList(PK11SlotList *list,PK11SlotInfo *slot) { PK11SlotListElement *le; le = (PK11SlotListElement *) PORT_Alloc(sizeof(PK11SlotListElement)); if (le == NULL) return SECFailure; le->slot = PK11_ReferenceSlot(slot); le->prev = NULL; le->refCount = 1; PZ_Lock(list->lock); if (list->head) list->head->prev = le; else list->tail = le; le->next = list->head; list->head = le; PZ_Unlock(list->lock); return SECSuccess; } /* * remove a slot entry from the list */ SECStatus PK11_DeleteSlotFromList(PK11SlotList *list,PK11SlotListElement *le) { PZ_Lock(list->lock); if (le->prev) le->prev->next = le->next; else list->head = le->next; if (le->next) le->next->prev = le->prev; else list->tail = le->prev; le->next = le->prev = NULL; PZ_Unlock(list->lock); PK11_FreeSlotListElement(list,le); return SECSuccess; } /* * Move a list to the end of the target list. NOTE: There is no locking * here... This assumes BOTH lists are private copy lists. */ SECStatus PK11_MoveListToList(PK11SlotList *target,PK11SlotList *src) { if (src->head == NULL) return SECSuccess; if (target->tail == NULL) { target->head = src->head; } else { target->tail->next = src->head; } src->head->prev = target->tail; target->tail = src->tail; src->head = src->tail = NULL; return SECSuccess; } /* * get an element from the list with a reference. You must own the list. */ PK11SlotListElement * PK11_GetFirstRef(PK11SlotList *list) { PK11SlotListElement *le; le = list->head; if (le != NULL) (le)->refCount++; return le; } /* * get the next element from the list with a reference. You must own the list. */ PK11SlotListElement * PK11_GetNextRef(PK11SlotList *list, PK11SlotListElement *le, PRBool restart) { PK11SlotListElement *new_le; new_le = le->next; if (new_le) new_le->refCount++; PK11_FreeSlotListElement(list,le); return new_le; } /* * get an element safely from the list. This just makes sure that if * this element is not deleted while we deal with it. */ PK11SlotListElement * PK11_GetFirstSafe(PK11SlotList *list) { PK11SlotListElement *le; PZ_Lock(list->lock); le = list->head; if (le != NULL) (le)->refCount++; PZ_Unlock(list->lock); return le; } /* * NOTE: if this element gets deleted, we can no longer safely traverse using * it's pointers. We can either terminate the loop, or restart from the * beginning. This is controlled by the restart option. */ PK11SlotListElement * PK11_GetNextSafe(PK11SlotList *list, PK11SlotListElement *le, PRBool restart) { PK11SlotListElement *new_le; PZ_Lock(list->lock); new_le = le->next; if (le->next == NULL) { /* if the prev and next fields are NULL then either this element * has been removed and we need to walk the list again (if restart * is true) or this was the only element on the list */ if ((le->prev == NULL) && restart && (list->head != le)) { new_le = list->head; } } if (new_le) new_le->refCount++; PZ_Unlock(list->lock); PK11_FreeSlotListElement(list,le); return new_le; } /* * Find the element that holds this slot */ PK11SlotListElement * PK11_FindSlotElement(PK11SlotList *list,PK11SlotInfo *slot) { PK11SlotListElement *le; for (le = PK11_GetFirstSafe(list); le; le = PK11_GetNextSafe(list,le,PR_TRUE)) { if (le->slot == slot) return le; } return NULL; } /************************************************************ * Generic Slot Utilities ************************************************************/ /* * Create a new slot structure */ PK11SlotInfo * PK11_NewSlotInfo(SECMODModule *mod) { PK11SlotInfo *slot; slot = (PK11SlotInfo *)PORT_Alloc(sizeof(PK11SlotInfo)); if (slot == NULL) return slot; slot->sessionLock = mod->isThreadSafe ? PZ_NewLock(nssILockSession) : mod->refLock; if (slot->sessionLock == NULL) { PORT_Free(slot); return NULL; } slot->freeListLock = PZ_NewLock(nssILockFreelist); if (slot->freeListLock == NULL) { if (mod->isThreadSafe) { PZ_DestroyLock(slot->sessionLock); } PORT_Free(slot); return NULL; } slot->freeSymKeysWithSessionHead = NULL; slot->freeSymKeysHead = NULL; slot->keyCount = 0; slot->maxKeyCount = 0; slot->functionList = NULL; slot->needTest = PR_TRUE; slot->isPerm = PR_FALSE; slot->isHW = PR_FALSE; slot->isInternal = PR_FALSE; slot->isThreadSafe = PR_FALSE; slot->disabled = PR_FALSE; slot->series = 1; slot->wrapKey = 0; slot->wrapMechanism = CKM_INVALID_MECHANISM; slot->refKeys[0] = CK_INVALID_HANDLE; slot->reason = PK11_DIS_NONE; slot->readOnly = PR_TRUE; slot->needLogin = PR_FALSE; slot->hasRandom = PR_FALSE; slot->defRWSession = PR_FALSE; slot->protectedAuthPath = PR_FALSE; slot->flags = 0; slot->session = CK_INVALID_SESSION; slot->slotID = 0; slot->defaultFlags = 0; slot->refCount = 1; slot->askpw = 0; slot->timeout = 0; slot->mechanismList = NULL; slot->mechanismCount = 0; slot->cert_array = NULL; slot->cert_count = 0; slot->slot_name[0] = 0; slot->token_name[0] = 0; PORT_Memset(slot->serial,' ',sizeof(slot->serial)); slot->module = NULL; slot->authTransact = 0; slot->authTime = LL_ZERO; slot->minPassword = 0; slot->maxPassword = 0; slot->hasRootCerts = PR_FALSE; slot->nssToken = NULL; return slot; } /* create a new reference to a slot so it doesn't go away */ PK11SlotInfo * PK11_ReferenceSlot(PK11SlotInfo *slot) { PR_ATOMIC_INCREMENT(&slot->refCount); return slot; } /* Destroy all info on a slot we have built up */ void PK11_DestroySlot(PK11SlotInfo *slot) { /* free up the cached keys and sessions */ PK11_CleanKeyList(slot); /* free up all the sessions on this slot */ if (slot->functionList) { PK11_GETTAB(slot)->C_CloseAllSessions(slot->slotID); } if (slot->mechanismList) { PORT_Free(slot->mechanismList); } if (slot->isThreadSafe && slot->sessionLock) { PZ_DestroyLock(slot->sessionLock); } slot->sessionLock = NULL; if (slot->freeListLock) { PZ_DestroyLock(slot->freeListLock); slot->freeListLock = NULL; } /* finally Tell our parent module that we've gone away so it can unload */ if (slot->module) { SECMOD_SlotDestroyModule(slot->module,PR_TRUE); } /* ok, well not quit finally... now we free the memory */ PORT_Free(slot); } /* We're all done with the slot, free it */ void PK11_FreeSlot(PK11SlotInfo *slot) { if (PR_ATOMIC_DECREMENT(&slot->refCount) == 0) { PK11_DestroySlot(slot); } } void PK11_EnterSlotMonitor(PK11SlotInfo *slot) { PZ_Lock(slot->sessionLock); } void PK11_ExitSlotMonitor(PK11SlotInfo *slot) { PZ_Unlock(slot->sessionLock); } /*********************************************************** * Functions to find specific slots. ***********************************************************/ PRBool SECMOD_HasRootCerts(void) { SECMODModuleList *mlp; SECMODModuleList *modules; SECMODListLock *moduleLock = SECMOD_GetDefaultModuleListLock(); int i; PRBool found = PR_FALSE; if (!moduleLock) { PORT_SetError(SEC_ERROR_NOT_INITIALIZED); return found; } /* work through all the slots */ SECMOD_GetReadLock(moduleLock); modules = SECMOD_GetDefaultModuleList(); for(mlp = modules; mlp != NULL; mlp = mlp->next) { for (i=0; i < mlp->module->slotCount; i++) { PK11SlotInfo *tmpSlot = mlp->module->slots[i]; if (PK11_IsPresent(tmpSlot)) { if (tmpSlot->hasRootCerts) { found = PR_TRUE; break; } } } if (found) break; } SECMOD_ReleaseReadLock(moduleLock); return found; } /*********************************************************** * Functions to find specific slots. ***********************************************************/ PK11SlotList * PK11_FindSlotsByNames(const char *dllName, const char* slotName, const char* tokenName, PRBool presentOnly) { SECMODModuleList *mlp; SECMODModuleList *modules; SECMODListLock *moduleLock = SECMOD_GetDefaultModuleListLock(); int i; PK11SlotList* slotList = NULL; PRUint32 slotcount = 0; SECStatus rv = SECSuccess; if (!moduleLock) { PORT_SetError(SEC_ERROR_NOT_INITIALIZED); return slotList; } slotList = PK11_NewSlotList(); if (!slotList) { PORT_SetError(SEC_ERROR_NO_MEMORY); return slotList; } if ( ((NULL == dllName) || (0 == *dllName)) && ((NULL == slotName) || (0 == *slotName)) && ((NULL == tokenName) || (0 == *tokenName)) ) { /* default to softoken */ PK11_AddSlotToList(slotList, PK11_GetInternalKeySlot()); return slotList; } /* work through all the slots */ SECMOD_GetReadLock(moduleLock); modules = SECMOD_GetDefaultModuleList(); for (mlp = modules; mlp != NULL; mlp = mlp->next) { PORT_Assert(mlp->module); if (!mlp->module) { rv = SECFailure; break; } if ((!dllName) || (mlp->module->dllName && (0 == PORT_Strcmp(mlp->module->dllName, dllName)))) { for (i=0; i < mlp->module->slotCount; i++) { PK11SlotInfo *tmpSlot = (mlp->module->slots?mlp->module->slots[i]:NULL); PORT_Assert(tmpSlot); if (!tmpSlot) { rv = SECFailure; break; } if ((PR_FALSE == presentOnly || PK11_IsPresent(tmpSlot)) && ( (!tokenName) || (tmpSlot->token_name && (0==PORT_Strcmp(tmpSlot->token_name, tokenName)))) && ( (!slotName) || (tmpSlot->slot_name && (0==PORT_Strcmp(tmpSlot->slot_name, slotName)))) ) { if (tmpSlot) { PK11_AddSlotToList(slotList, tmpSlot); slotcount++; } } } } } SECMOD_ReleaseReadLock(moduleLock); if ( (0 == slotcount) || (SECFailure == rv) ) { PORT_SetError(SEC_ERROR_NO_TOKEN); PK11_FreeSlotList(slotList); slotList = NULL; } if (SECFailure == rv) { PORT_SetError(SEC_ERROR_LIBRARY_FAILURE); } return slotList; } PK11SlotInfo * PK11_FindSlotByName(const char *name) { SECMODModuleList *mlp; SECMODModuleList *modules; SECMODListLock *moduleLock = SECMOD_GetDefaultModuleListLock(); int i; PK11SlotInfo *slot = NULL; if (!moduleLock) { PORT_SetError(SEC_ERROR_NOT_INITIALIZED); return slot; } if ((name == NULL) || (*name == 0)) { return PK11_GetInternalKeySlot(); } /* work through all the slots */ SECMOD_GetReadLock(moduleLock); modules = SECMOD_GetDefaultModuleList(); for(mlp = modules; mlp != NULL; mlp = mlp->next) { for (i=0; i < mlp->module->slotCount; i++) { PK11SlotInfo *tmpSlot = mlp->module->slots[i]; if (PK11_IsPresent(tmpSlot)) { if (PORT_Strcmp(tmpSlot->token_name,name) == 0) { slot = PK11_ReferenceSlot(tmpSlot); break; } } } if (slot != NULL) break; } SECMOD_ReleaseReadLock(moduleLock); if (slot == NULL) { PORT_SetError(SEC_ERROR_NO_TOKEN); } return slot; } PK11SlotInfo * PK11_FindSlotBySerial(char *serial) { SECMODModuleList *mlp; SECMODModuleList *modules; SECMODListLock *moduleLock = SECMOD_GetDefaultModuleListLock(); int i; PK11SlotInfo *slot = NULL; if (!moduleLock) { PORT_SetError(SEC_ERROR_NOT_INITIALIZED); return slot; } /* work through all the slots */ SECMOD_GetReadLock(moduleLock); modules = SECMOD_GetDefaultModuleList(); for(mlp = modules; mlp != NULL; mlp = mlp->next) { for (i=0; i < mlp->module->slotCount; i++) { PK11SlotInfo *tmpSlot = mlp->module->slots[i]; if (PK11_IsPresent(tmpSlot)) { if (PORT_Memcmp(tmpSlot->serial,serial, sizeof(tmpSlot->serial)) == 0) { slot = PK11_ReferenceSlot(tmpSlot); break; } } } if (slot != NULL) break; } SECMOD_ReleaseReadLock(moduleLock); if (slot == NULL) { PORT_SetError(SEC_ERROR_NO_TOKEN); } return slot; } /* * notification stub. If we ever get interested in any events that * the pkcs11 functions may pass back to use, we can catch them here... * currently pdata is a slotinfo structure. */ CK_RV pk11_notify(CK_SESSION_HANDLE session, CK_NOTIFICATION event, CK_VOID_PTR pdata) { return CKR_OK; } /* * grab a new RW session * !!! has a side effect of grabbing the Monitor if either the slot's default * session is RW or the slot is not thread safe. Monitor is release in function * below */ CK_SESSION_HANDLE PK11_GetRWSession(PK11SlotInfo *slot) { CK_SESSION_HANDLE rwsession; CK_RV crv; PRBool haveMonitor = PR_FALSE; if (!slot->isThreadSafe || slot->defRWSession) { PK11_EnterSlotMonitor(slot); haveMonitor = PR_TRUE; } if (slot->defRWSession) { PORT_Assert(slot->session != CK_INVALID_SESSION); if (slot->session != CK_INVALID_SESSION) return slot->session; } crv = PK11_GETTAB(slot)->C_OpenSession(slot->slotID, CKF_RW_SESSION|CKF_SERIAL_SESSION, slot, pk11_notify,&rwsession); PORT_Assert(rwsession != CK_INVALID_SESSION || crv != CKR_OK); if (crv != CKR_OK || rwsession == CK_INVALID_SESSION) { if (crv == CKR_OK) crv = CKR_DEVICE_ERROR; if (haveMonitor) PK11_ExitSlotMonitor(slot); PORT_SetError(PK11_MapError(crv)); return CK_INVALID_SESSION; } if (slot->defRWSession) { /* we have the monitor */ slot->session = rwsession; } return rwsession; } PRBool PK11_RWSessionHasLock(PK11SlotInfo *slot,CK_SESSION_HANDLE session_handle) { PRBool hasLock; hasLock = (PRBool)(!slot->isThreadSafe || (slot->defRWSession && slot->session != CK_INVALID_SESSION)); return hasLock; } static PRBool pk11_RWSessionIsDefault(PK11SlotInfo *slot,CK_SESSION_HANDLE rwsession) { PRBool isDefault; isDefault = (PRBool)(slot->session == rwsession && slot->defRWSession && slot->session != CK_INVALID_SESSION); return isDefault; } /* * close the rwsession and restore our readonly session * !!! has a side effect of releasing the Monitor if either the slot's default * session is RW or the slot is not thread safe. */ void PK11_RestoreROSession(PK11SlotInfo *slot,CK_SESSION_HANDLE rwsession) { PORT_Assert(rwsession != CK_INVALID_SESSION); if (rwsession != CK_INVALID_SESSION) { PRBool doExit = PK11_RWSessionHasLock(slot, rwsession); if (!pk11_RWSessionIsDefault(slot, rwsession)) PK11_GETTAB(slot)->C_CloseSession(rwsession); if (doExit) PK11_ExitSlotMonitor(slot); } } /************************************************************ * Manage the built-In Slot Lists ************************************************************/ /* Init the static built int slot list (should actually integrate * with PK11_NewSlotList */ static void pk11_InitSlotListStatic(PK11SlotList *list) { list->lock = PZ_NewLock(nssILockList); list->head = NULL; } /* initialize the system slotlists */ SECStatus PK11_InitSlotLists(void) { pk11_InitSlotListStatic(&pk11_seedSlotList); pk11_InitSlotListStatic(&pk11_camelliaSlotList); pk11_InitSlotListStatic(&pk11_aesSlotList); pk11_InitSlotListStatic(&pk11_desSlotList); pk11_InitSlotListStatic(&pk11_rc4SlotList); pk11_InitSlotListStatic(&pk11_rc2SlotList); pk11_InitSlotListStatic(&pk11_rc5SlotList); pk11_InitSlotListStatic(&pk11_md5SlotList); pk11_InitSlotListStatic(&pk11_md2SlotList); pk11_InitSlotListStatic(&pk11_sha1SlotList); pk11_InitSlotListStatic(&pk11_rsaSlotList); pk11_InitSlotListStatic(&pk11_dsaSlotList); pk11_InitSlotListStatic(&pk11_dhSlotList); pk11_InitSlotListStatic(&pk11_ecSlotList); pk11_InitSlotListStatic(&pk11_ideaSlotList); pk11_InitSlotListStatic(&pk11_sslSlotList); pk11_InitSlotListStatic(&pk11_tlsSlotList); pk11_InitSlotListStatic(&pk11_randomSlotList); pk11_InitSlotListStatic(&pk11_sha256SlotList); pk11_InitSlotListStatic(&pk11_sha512SlotList); return SECSuccess; } void PK11_DestroySlotLists(void) { pk11_FreeSlotListStatic(&pk11_seedSlotList); pk11_FreeSlotListStatic(&pk11_camelliaSlotList); pk11_FreeSlotListStatic(&pk11_aesSlotList); pk11_FreeSlotListStatic(&pk11_desSlotList); pk11_FreeSlotListStatic(&pk11_rc4SlotList); pk11_FreeSlotListStatic(&pk11_rc2SlotList); pk11_FreeSlotListStatic(&pk11_rc5SlotList); pk11_FreeSlotListStatic(&pk11_md5SlotList); pk11_FreeSlotListStatic(&pk11_md2SlotList); pk11_FreeSlotListStatic(&pk11_sha1SlotList); pk11_FreeSlotListStatic(&pk11_rsaSlotList); pk11_FreeSlotListStatic(&pk11_dsaSlotList); pk11_FreeSlotListStatic(&pk11_dhSlotList); pk11_FreeSlotListStatic(&pk11_ecSlotList); pk11_FreeSlotListStatic(&pk11_ideaSlotList); pk11_FreeSlotListStatic(&pk11_sslSlotList); pk11_FreeSlotListStatic(&pk11_tlsSlotList); pk11_FreeSlotListStatic(&pk11_randomSlotList); pk11_FreeSlotListStatic(&pk11_sha256SlotList); pk11_FreeSlotListStatic(&pk11_sha512SlotList); return; } /* return a system slot list based on mechanism */ PK11SlotList * PK11_GetSlotList(CK_MECHANISM_TYPE type) { /* XXX a workaround for Bugzilla bug #55267 */ #if defined(HPUX) && defined(__LP64__) if (CKM_INVALID_MECHANISM == type) return NULL; #endif switch (type) { case CKM_SEED_CBC: case CKM_SEED_ECB: return &pk11_seedSlotList; case CKM_CAMELLIA_CBC: case CKM_CAMELLIA_ECB: return &pk11_camelliaSlotList; case CKM_AES_CBC: case CKM_AES_ECB: return &pk11_aesSlotList; case CKM_DES_CBC: case CKM_DES_ECB: case CKM_DES3_ECB: case CKM_DES3_CBC: return &pk11_desSlotList; case CKM_RC4: return &pk11_rc4SlotList; case CKM_RC5_CBC: return &pk11_rc5SlotList; case CKM_SHA_1: return &pk11_sha1SlotList; case CKM_SHA256: return &pk11_sha256SlotList; case CKM_SHA384: case CKM_SHA512: return &pk11_sha512SlotList; case CKM_MD5: return &pk11_md5SlotList; case CKM_MD2: return &pk11_md2SlotList; case CKM_RC2_ECB: case CKM_RC2_CBC: return &pk11_rc2SlotList; case CKM_RSA_PKCS: case CKM_RSA_PKCS_KEY_PAIR_GEN: case CKM_RSA_X_509: return &pk11_rsaSlotList; case CKM_DSA: return &pk11_dsaSlotList; case CKM_DH_PKCS_KEY_PAIR_GEN: case CKM_DH_PKCS_DERIVE: return &pk11_dhSlotList; case CKM_ECDSA: case CKM_ECDSA_SHA1: case CKM_EC_KEY_PAIR_GEN: /* aka CKM_ECDSA_KEY_PAIR_GEN */ case CKM_ECDH1_DERIVE: return &pk11_ecSlotList; case CKM_SSL3_PRE_MASTER_KEY_GEN: case CKM_SSL3_MASTER_KEY_DERIVE: case CKM_SSL3_SHA1_MAC: case CKM_SSL3_MD5_MAC: return &pk11_sslSlotList; case CKM_TLS_MASTER_KEY_DERIVE: case CKM_TLS_KEY_AND_MAC_DERIVE: return &pk11_tlsSlotList; case CKM_IDEA_CBC: case CKM_IDEA_ECB: return &pk11_ideaSlotList; case CKM_FAKE_RANDOM: return &pk11_randomSlotList; } return NULL; } /* * load the static SlotInfo structures used to select a PKCS11 slot. * preSlotInfo has a list of all the default flags for the slots on this * module. */ void PK11_LoadSlotList(PK11SlotInfo *slot, PK11PreSlotInfo *psi, int count) { int i; for (i=0; i < count; i++) { if (psi[i].slotID == slot->slotID) break; } if (i == count) return; slot->defaultFlags = psi[i].defaultFlags; slot->askpw = psi[i].askpw; slot->timeout = psi[i].timeout; slot->hasRootCerts = psi[i].hasRootCerts; /* if the slot is already disabled, don't load them into the * default slot lists. We get here so we can save the default * list value. */ if (slot->disabled) return; /* if the user has disabled us, don't load us in */ if (slot->defaultFlags & PK11_DISABLE_FLAG) { slot->disabled = PR_TRUE; slot->reason = PK11_DIS_USER_SELECTED; /* free up sessions and things?? */ return; } for (i=0; i < num_pk11_default_mechanisms; i++) { if (slot->defaultFlags & PK11_DefaultArray[i].flag) { CK_MECHANISM_TYPE mechanism = PK11_DefaultArray[i].mechanism; PK11SlotList *slotList = PK11_GetSlotList(mechanism); if (slotList) PK11_AddSlotToList(slotList,slot); } } return; } /* * update a slot to its new attribute according to the slot list * returns: SECSuccess if nothing to do or add/delete is successful */ SECStatus PK11_UpdateSlotAttribute(PK11SlotInfo *slot, PK11DefaultArrayEntry *entry, PRBool add) /* add: PR_TRUE if want to turn on */ { SECStatus result = SECSuccess; PK11SlotList *slotList = PK11_GetSlotList(entry->mechanism); if (add) { /* trying to turn on a mechanism */ /* turn on the default flag in the slot */ slot->defaultFlags |= entry->flag; /* add this slot to the list */ if (slotList!=NULL) result = PK11_AddSlotToList(slotList, slot); } else { /* trying to turn off */ /* turn OFF the flag in the slot */ slot->defaultFlags &= ~entry->flag; if (slotList) { /* find the element in the list & delete it */ PK11SlotListElement *le = PK11_FindSlotElement(slotList, slot); /* remove the slot from the list */ if (le) result = PK11_DeleteSlotFromList(slotList, le); } } return result; } /* * clear a slot off of all of it's default list */ void PK11_ClearSlotList(PK11SlotInfo *slot) { int i; if (slot->disabled) return; if (slot->defaultFlags == 0) return; for (i=0; i < num_pk11_default_mechanisms; i++) { if (slot->defaultFlags & PK11_DefaultArray[i].flag) { CK_MECHANISM_TYPE mechanism = PK11_DefaultArray[i].mechanism; PK11SlotList *slotList = PK11_GetSlotList(mechanism); PK11SlotListElement *le = NULL; if (slotList) le = PK11_FindSlotElement(slotList,slot); if (le) { PK11_DeleteSlotFromList(slotList,le); PK11_FreeSlotListElement(slotList,le); } } } } /****************************************************************** * Slot initialization ******************************************************************/ /* * turn a PKCS11 Static Label into a string */ char * PK11_MakeString(PRArenaPool *arena,char *space, char *staticString,int stringLen) { int i; char *newString; for(i=(stringLen-1); i >= 0; i--) { if (staticString[i] != ' ') break; } /* move i to point to the last space */ i++; if (arena) { newString = (char*)PORT_ArenaAlloc(arena,i+1 /* space for NULL */); } else if (space) { newString = space; } else { newString = (char*)PORT_Alloc(i+1 /* space for NULL */); } if (newString == NULL) return NULL; if (i) PORT_Memcpy(newString,staticString, i); newString[i] = 0; return newString; } /* * Reads in the slots mechanism list for later use */ SECStatus PK11_ReadMechanismList(PK11SlotInfo *slot) { CK_ULONG count; CK_RV crv; PRUint32 i; if (slot->mechanismList) { PORT_Free(slot->mechanismList); slot->mechanismList = NULL; } slot->mechanismCount = 0; if (!slot->isThreadSafe) PK11_EnterSlotMonitor(slot); crv = PK11_GETTAB(slot)->C_GetMechanismList(slot->slotID,NULL,&count); if (crv != CKR_OK) { if (!slot->isThreadSafe) PK11_ExitSlotMonitor(slot); PORT_SetError(PK11_MapError(crv)); return SECFailure; } slot->mechanismList = (CK_MECHANISM_TYPE *) PORT_Alloc(count *sizeof(CK_MECHANISM_TYPE)); if (slot->mechanismList == NULL) { if (!slot->isThreadSafe) PK11_ExitSlotMonitor(slot); return SECFailure; } crv = PK11_GETTAB(slot)->C_GetMechanismList(slot->slotID, slot->mechanismList, &count); if (!slot->isThreadSafe) PK11_ExitSlotMonitor(slot); if (crv != CKR_OK) { PORT_Free(slot->mechanismList); slot->mechanismList = NULL; PORT_SetError(PK11_MapError(crv)); return SECSuccess; } slot->mechanismCount = count; PORT_Memset(slot->mechanismBits, 0, sizeof(slot->mechanismBits)); for (i=0; i < count; i++) { CK_MECHANISM_TYPE mech = slot->mechanismList[i]; if (mech < 0x7ff) { slot->mechanismBits[mech & 0xff] |= 1 << (mech >> 8); } } return SECSuccess; } /* * initialize a new token * unlike initialize slot, this can be called multiple times in the lifetime * of NSS. It reads the information associated with a card or token, * that is not going to change unless the card or token changes. */ SECStatus PK11_InitToken(PK11SlotInfo *slot, PRBool loadCerts) { CK_TOKEN_INFO tokenInfo; CK_RV crv; char *tmp; SECStatus rv; PRStatus status; /* set the slot flags to the current token values */ if (!slot->isThreadSafe) PK11_EnterSlotMonitor(slot); crv = PK11_GETTAB(slot)->C_GetTokenInfo(slot->slotID,&tokenInfo); if (!slot->isThreadSafe) PK11_ExitSlotMonitor(slot); if (crv != CKR_OK) { PORT_SetError(PK11_MapError(crv)); return SECFailure; } /* set the slot flags to the current token values */ slot->series++; /* allow other objects to detect that the * slot is different */ slot->flags = tokenInfo.flags; slot->needLogin = ((tokenInfo.flags & CKF_LOGIN_REQUIRED) ? PR_TRUE : PR_FALSE); slot->readOnly = ((tokenInfo.flags & CKF_WRITE_PROTECTED) ? PR_TRUE : PR_FALSE); slot->hasRandom = ((tokenInfo.flags & CKF_RNG) ? PR_TRUE : PR_FALSE); slot->protectedAuthPath = ((tokenInfo.flags & CKF_PROTECTED_AUTHENTICATION_PATH) ? PR_TRUE : PR_FALSE); slot->lastLoginCheck = 0; slot->lastState = 0; /* on some platforms Active Card incorrectly sets the * CKF_PROTECTED_AUTHENTICATION_PATH bit when it doesn't mean to. */ if (slot->isActiveCard) { slot->protectedAuthPath = PR_FALSE; } tmp = PK11_MakeString(NULL,slot->token_name, (char *)tokenInfo.label, sizeof(tokenInfo.label)); slot->minPassword = tokenInfo.ulMinPinLen; slot->maxPassword = tokenInfo.ulMaxPinLen; PORT_Memcpy(slot->serial,tokenInfo.serialNumber,sizeof(slot->serial)); nssToken_UpdateName(slot->nssToken); slot->defRWSession = (PRBool)((!slot->readOnly) && (tokenInfo.ulMaxSessionCount == 1)); rv = PK11_ReadMechanismList(slot); if (rv != SECSuccess) return rv; slot->hasRSAInfo = PR_FALSE; slot->RSAInfoFlags = 0; /* initialize the maxKeyCount value */ if (tokenInfo.ulMaxSessionCount == 0) { slot->maxKeyCount = 800; /* should be #define or a config param */ } else if (tokenInfo.ulMaxSessionCount < 20) { /* don't have enough sessions to keep that many keys around */ slot->maxKeyCount = 0; } else { slot->maxKeyCount = tokenInfo.ulMaxSessionCount/2; } /* Make sure our session handle is valid */ if (slot->session == CK_INVALID_SESSION) { /* we know we don't have a valid session, go get one */ CK_SESSION_HANDLE session; /* session should be Readonly, serial */ if (!slot->isThreadSafe) PK11_EnterSlotMonitor(slot); crv = PK11_GETTAB(slot)->C_OpenSession(slot->slotID, (slot->defRWSession ? CKF_RW_SESSION : 0) | CKF_SERIAL_SESSION, slot,pk11_notify,&session); if (!slot->isThreadSafe) PK11_ExitSlotMonitor(slot); if (crv != CKR_OK) { PORT_SetError(PK11_MapError(crv)); return SECFailure; } slot->session = session; } else { /* The session we have may be defunct (the token associated with it) * has been removed */ CK_SESSION_INFO sessionInfo; if (!slot->isThreadSafe) PK11_EnterSlotMonitor(slot); crv = PK11_GETTAB(slot)->C_GetSessionInfo(slot->session,&sessionInfo); if (crv == CKR_DEVICE_ERROR) { PK11_GETTAB(slot)->C_CloseSession(slot->session); crv = CKR_SESSION_CLOSED; } if ((crv==CKR_SESSION_CLOSED) || (crv==CKR_SESSION_HANDLE_INVALID)) { crv =PK11_GETTAB(slot)->C_OpenSession(slot->slotID, (slot->defRWSession ? CKF_RW_SESSION : 0) | CKF_SERIAL_SESSION, slot,pk11_notify,&slot->session); if (crv != CKR_OK) { PORT_SetError(PK11_MapError(crv)); slot->session = CK_INVALID_SESSION; if (!slot->isThreadSafe) PK11_ExitSlotMonitor(slot); return SECFailure; } } if (!slot->isThreadSafe) PK11_ExitSlotMonitor(slot); } status = nssToken_Refresh(slot->nssToken); if (status != PR_SUCCESS) return SECFailure; if (!(slot->isInternal) && (slot->hasRandom)) { /* if this slot has a random number generater, use it to add entropy * to the internal slot. */ PK11SlotInfo *int_slot = PK11_GetInternalSlot(); if (int_slot) { unsigned char random_bytes[32]; /* if this slot can issue random numbers, get some entropy from * that random number generater and give it to our internal token. */ PK11_EnterSlotMonitor(slot); crv = PK11_GETTAB(slot)->C_GenerateRandom (slot->session,random_bytes, sizeof(random_bytes)); PK11_ExitSlotMonitor(slot); if (crv == CKR_OK) { PK11_EnterSlotMonitor(int_slot); PK11_GETTAB(int_slot)->C_SeedRandom(int_slot->session, random_bytes, sizeof(random_bytes)); PK11_ExitSlotMonitor(int_slot); } /* Now return the favor and send entropy to the token's random * number generater */ PK11_EnterSlotMonitor(int_slot); crv = PK11_GETTAB(int_slot)->C_GenerateRandom(int_slot->session, random_bytes, sizeof(random_bytes)); PK11_ExitSlotMonitor(int_slot); if (crv == CKR_OK) { PK11_EnterSlotMonitor(slot); crv = PK11_GETTAB(slot)->C_SeedRandom(slot->session, random_bytes, sizeof(random_bytes)); PK11_ExitSlotMonitor(slot); } PK11_FreeSlot(int_slot); } } /* work around a problem in softoken where it incorrectly * reports databases opened read only as read/write. */ if (slot->isInternal && !slot->readOnly) { CK_SESSION_HANDLE session = CK_INVALID_SESSION; /* try to open a R/W session */ crv =PK11_GETTAB(slot)->C_OpenSession(slot->slotID, CKF_RW_SESSION|CKF_SERIAL_SESSION, slot, pk11_notify ,&session); /* what a well behaved token should return if you open * a RW session on a read only token */ if (crv == CKR_TOKEN_WRITE_PROTECTED) { slot->readOnly = PR_TRUE; } else if (crv == CKR_OK) { CK_SESSION_INFO sessionInfo; /* Because of a second bug in softoken, which silently returns * a RO session, we need to check what type of session we got. */ crv = PK11_GETTAB(slot)->C_GetSessionInfo(session, &sessionInfo); if (crv == CKR_OK) { if ((sessionInfo.flags & CKF_RW_SESSION) == 0) { /* session was readonly, so this softoken slot must be * readonly */ slot->readOnly = PR_TRUE; } } PK11_GETTAB(slot)->C_CloseSession(session); } } return SECSuccess; } /* * initialize a new token * unlike initialize slot, this can be called multiple times in the lifetime * of NSS. It reads the information associated with a card or token, * that is not going to change unless the card or token changes. */ SECStatus PK11_TokenRefresh(PK11SlotInfo *slot) { CK_TOKEN_INFO tokenInfo; CK_RV crv; /* set the slot flags to the current token values */ if (!slot->isThreadSafe) PK11_EnterSlotMonitor(slot); crv = PK11_GETTAB(slot)->C_GetTokenInfo(slot->slotID,&tokenInfo); if (!slot->isThreadSafe) PK11_ExitSlotMonitor(slot); if (crv != CKR_OK) { PORT_SetError(PK11_MapError(crv)); return SECFailure; } slot->flags = tokenInfo.flags; slot->needLogin = ((tokenInfo.flags & CKF_LOGIN_REQUIRED) ? PR_TRUE : PR_FALSE); slot->readOnly = ((tokenInfo.flags & CKF_WRITE_PROTECTED) ? PR_TRUE : PR_FALSE); slot->hasRandom = ((tokenInfo.flags & CKF_RNG) ? PR_TRUE : PR_FALSE); slot->protectedAuthPath = ((tokenInfo.flags & CKF_PROTECTED_AUTHENTICATION_PATH) ? PR_TRUE : PR_FALSE); /* on some platforms Active Card incorrectly sets the * CKF_PROTECTED_AUTHENTICATION_PATH bit when it doesn't mean to. */ if (slot->isActiveCard) { slot->protectedAuthPath = PR_FALSE; } return SECSuccess; } static PRBool pk11_isRootSlot(PK11SlotInfo *slot) { CK_ATTRIBUTE findTemp[1]; CK_ATTRIBUTE *attrs; CK_OBJECT_CLASS oclass = CKO_NETSCAPE_BUILTIN_ROOT_LIST; int tsize; CK_OBJECT_HANDLE handle; attrs = findTemp; PK11_SETATTRS(attrs, CKA_CLASS, &oclass, sizeof(oclass)); attrs++; tsize = attrs - findTemp; PORT_Assert(tsize <= sizeof(findTemp)/sizeof(CK_ATTRIBUTE)); handle = pk11_FindObjectByTemplate(slot,findTemp,tsize); if (handle == CK_INVALID_HANDLE) { return PR_FALSE; } return PR_TRUE; } /* * Initialize the slot : * This initialization code is called on each slot a module supports when * it is loaded. It does the bringup initialization. The difference between * this and InitToken is Init slot does those one time initialization stuff, * usually associated with the reader, while InitToken may get called multiple * times as tokens are removed and re-inserted. */ void PK11_InitSlot(SECMODModule *mod,CK_SLOT_ID slotID,PK11SlotInfo *slot) { SECStatus rv; char *tmp; CK_SLOT_INFO slotInfo; slot->functionList = mod->functionList; slot->isInternal = mod->internal; slot->slotID = slotID; slot->isThreadSafe = mod->isThreadSafe; slot->hasRSAInfo = PR_FALSE; if (PK11_GETTAB(slot)->C_GetSlotInfo(slotID,&slotInfo) != CKR_OK) { slot->disabled = PR_TRUE; slot->reason = PK11_DIS_COULD_NOT_INIT_TOKEN; return; } /* test to make sure claimed mechanism work */ slot->needTest = mod->internal ? PR_FALSE : PR_TRUE; slot->module = mod; /* NOTE: we don't make a reference here because * modules have references to their slots. This * works because modules keep implicit references * from their slots, and won't unload and disappear * until all their slots have been freed */ tmp = PK11_MakeString(NULL,slot->slot_name, (char *)slotInfo.slotDescription, sizeof(slotInfo.slotDescription)); slot->isHW = (PRBool)((slotInfo.flags & CKF_HW_SLOT) == CKF_HW_SLOT); #define ACTIVE_CARD "ActivCard SA" slot->isActiveCard = (PRBool)(PORT_Strncmp((char *)slotInfo.manufacturerID, ACTIVE_CARD, sizeof(ACTIVE_CARD)-1) == 0); if ((slotInfo.flags & CKF_REMOVABLE_DEVICE) == 0) { slot->isPerm = PR_TRUE; /* permanment slots must have the token present always */ if ((slotInfo.flags & CKF_TOKEN_PRESENT) == 0) { slot->disabled = PR_TRUE; slot->reason = PK11_DIS_TOKEN_NOT_PRESENT; return; /* nothing else to do */ } } /* if the token is present, initialize it */ if ((slotInfo.flags & CKF_TOKEN_PRESENT) != 0) { rv = PK11_InitToken(slot,PR_TRUE); /* the only hard failures are on permanent devices, or function * verify failures... function verify failures are already handled * by tokenInit */ if ((rv != SECSuccess) && (slot->isPerm) && (!slot->disabled)) { slot->disabled = PR_TRUE; slot->reason = PK11_DIS_COULD_NOT_INIT_TOKEN; } if (rv == SECSuccess && pk11_isRootSlot(slot)) { if (!slot->hasRootCerts) { slot->module->trustOrder = 100; } slot->hasRootCerts= PR_TRUE; } } } /********************************************************************* * Slot mapping utility functions. *********************************************************************/ /* * determine if the token is present. If the token is present, make sure * we have a valid session handle. Also set the value of needLogin * appropriately. */ static PRBool pk11_IsPresentCertLoad(PK11SlotInfo *slot, PRBool loadCerts) { CK_SLOT_INFO slotInfo; CK_SESSION_INFO sessionInfo; CK_RV crv; /* disabled slots are never present */ if (slot->disabled) { return PR_FALSE; } /* permanent slots are always present */ if (slot->isPerm && (slot->session != CK_INVALID_SESSION)) { return PR_TRUE; } if (slot->nssToken) { return nssToken_IsPresent(slot->nssToken); } /* removable slots have a flag that says they are present */ if (!slot->isThreadSafe) PK11_EnterSlotMonitor(slot); if (PK11_GETTAB(slot)->C_GetSlotInfo(slot->slotID,&slotInfo) != CKR_OK) { if (!slot->isThreadSafe) PK11_ExitSlotMonitor(slot); return PR_FALSE; } if ((slotInfo.flags & CKF_TOKEN_PRESENT) == 0) { /* if the slot is no longer present, close the session */ if (slot->session != CK_INVALID_SESSION) { PK11_GETTAB(slot)->C_CloseSession(slot->session); slot->session = CK_INVALID_SESSION; } if (!slot->isThreadSafe) PK11_ExitSlotMonitor(slot); return PR_FALSE; } /* use the session Info to determine if the card has been removed and then * re-inserted */ if (slot->session != CK_INVALID_SESSION) { if (slot->isThreadSafe) PK11_EnterSlotMonitor(slot); crv = PK11_GETTAB(slot)->C_GetSessionInfo(slot->session, &sessionInfo); if (crv != CKR_OK) { PK11_GETTAB(slot)->C_CloseSession(slot->session); slot->session = CK_INVALID_SESSION; } if (slot->isThreadSafe) PK11_ExitSlotMonitor(slot); } if (!slot->isThreadSafe) PK11_ExitSlotMonitor(slot); /* card has not been removed, current token info is correct */ if (slot->session != CK_INVALID_SESSION) return PR_TRUE; /* initialize the token info state */ if (PK11_InitToken(slot,loadCerts) != SECSuccess) { return PR_FALSE; } return PR_TRUE; } /* * old version of the routine */ PRBool PK11_IsPresent(PK11SlotInfo *slot) { return pk11_IsPresentCertLoad(slot,PR_TRUE); } /* is the slot disabled? */ PRBool PK11_IsDisabled(PK11SlotInfo *slot) { return slot->disabled; } /* and why? */ PK11DisableReasons PK11_GetDisabledReason(PK11SlotInfo *slot) { return slot->reason; } /* returns PR_TRUE if successfully disable the slot */ /* returns PR_FALSE otherwise */ PRBool PK11_UserDisableSlot(PK11SlotInfo *slot) { slot->defaultFlags |= PK11_DISABLE_FLAG; slot->disabled = PR_TRUE; slot->reason = PK11_DIS_USER_SELECTED; return PR_TRUE; } PRBool PK11_UserEnableSlot(PK11SlotInfo *slot) { slot->defaultFlags &= ~PK11_DISABLE_FLAG; slot->disabled = PR_FALSE; slot->reason = PK11_DIS_NONE; return PR_TRUE; } PRBool PK11_HasRootCerts(PK11SlotInfo *slot) { return slot->hasRootCerts; } /* Get the module this slot is attached to */ SECMODModule * PK11_GetModule(PK11SlotInfo *slot) { return slot->module; } /* return the default flags of a slot */ unsigned long PK11_GetDefaultFlags(PK11SlotInfo *slot) { return slot->defaultFlags; } /* * The following wrapper functions allow us to export an opaque slot * function to the rest of libsec and the world... */ PRBool PK11_IsReadOnly(PK11SlotInfo *slot) { return slot->readOnly; } PRBool PK11_IsHW(PK11SlotInfo *slot) { return slot->isHW; } PRBool PK11_IsRemovable(PK11SlotInfo *slot) { return !slot->isPerm; } PRBool PK11_IsInternal(PK11SlotInfo *slot) { return slot->isInternal; } PRBool PK11_IsInternalKeySlot(PK11SlotInfo *slot) { PK11SlotInfo *int_slot; PRBool result; if (!slot->isInternal) { return PR_FALSE; } int_slot = PK11_GetInternalKeySlot(); result = (int_slot == slot) ? PR_TRUE : PR_FALSE; PK11_FreeSlot(int_slot); return result; } PRBool PK11_NeedLogin(PK11SlotInfo *slot) { return slot->needLogin; } PRBool PK11_IsFriendly(PK11SlotInfo *slot) { /* internal slot always has public readable certs */ return (PRBool)(slot->isInternal || ((slot->defaultFlags & SECMOD_FRIENDLY_FLAG) == SECMOD_FRIENDLY_FLAG)); } char * PK11_GetTokenName(PK11SlotInfo *slot) { return slot->token_name; } char * PK11_GetSlotName(PK11SlotInfo *slot) { return slot->slot_name; } int PK11_GetSlotSeries(PK11SlotInfo *slot) { return slot->series; } int PK11_GetCurrentWrapIndex(PK11SlotInfo *slot) { return slot->wrapKey; } CK_SLOT_ID PK11_GetSlotID(PK11SlotInfo *slot) { return slot->slotID; } SECMODModuleID PK11_GetModuleID(PK11SlotInfo *slot) { return slot->module->moduleID; } static void pk11_zeroTerminatedToBlankPadded(CK_CHAR *buffer, size_t buffer_size) { CK_CHAR *walk = buffer; CK_CHAR *end = buffer + buffer_size; /* find the NULL */ while (walk < end && *walk != '\0') { walk++; } /* clear out the buffer */ while (walk < end) { *walk++ = ' '; } } /* return the slot info structure */ SECStatus PK11_GetSlotInfo(PK11SlotInfo *slot, CK_SLOT_INFO *info) { CK_RV crv; if (!slot->isThreadSafe) PK11_EnterSlotMonitor(slot); /* * some buggy drivers do not fill the buffer completely, * erase the buffer first */ PORT_Memset(info->slotDescription,' ',sizeof(info->slotDescription)); PORT_Memset(info->manufacturerID,' ',sizeof(info->manufacturerID)); crv = PK11_GETTAB(slot)->C_GetSlotInfo(slot->slotID,info); pk11_zeroTerminatedToBlankPadded(info->slotDescription, sizeof(info->slotDescription)); pk11_zeroTerminatedToBlankPadded(info->manufacturerID, sizeof(info->manufacturerID)); if (!slot->isThreadSafe) PK11_ExitSlotMonitor(slot); if (crv != CKR_OK) { PORT_SetError(PK11_MapError(crv)); return SECFailure; } return SECSuccess; } /* return the token info structure */ SECStatus PK11_GetTokenInfo(PK11SlotInfo *slot, CK_TOKEN_INFO *info) { CK_RV crv; if (!slot->isThreadSafe) PK11_EnterSlotMonitor(slot); /* * some buggy drivers do not fill the buffer completely, * erase the buffer first */ PORT_Memset(info->label,' ',sizeof(info->label)); PORT_Memset(info->manufacturerID,' ',sizeof(info->manufacturerID)); PORT_Memset(info->model,' ',sizeof(info->model)); PORT_Memset(info->serialNumber,' ',sizeof(info->serialNumber)); crv = PK11_GETTAB(slot)->C_GetTokenInfo(slot->slotID,info); pk11_zeroTerminatedToBlankPadded(info->label,sizeof(info->label)); pk11_zeroTerminatedToBlankPadded(info->manufacturerID, sizeof(info->manufacturerID)); pk11_zeroTerminatedToBlankPadded(info->model,sizeof(info->model)); pk11_zeroTerminatedToBlankPadded(info->serialNumber, sizeof(info->serialNumber)); if (!slot->isThreadSafe) PK11_ExitSlotMonitor(slot); if (crv != CKR_OK) { PORT_SetError(PK11_MapError(crv)); return SECFailure; } return SECSuccess; } /* Find out if we need to initialize the user's pin */ PRBool PK11_NeedUserInit(PK11SlotInfo *slot) { PRBool needUserInit = (PRBool) ((slot->flags & CKF_USER_PIN_INITIALIZED) == 0); if (needUserInit) { CK_TOKEN_INFO info; SECStatus rv; /* see if token has been initialized off line */ rv = PK11_GetTokenInfo(slot, &info); if (rv == SECSuccess) { slot->flags = info.flags; } } return (PRBool)((slot->flags & CKF_USER_PIN_INITIALIZED) == 0); } static PK11SlotInfo *pk11InternalKeySlot = NULL; void pk11_SetInternalKeySlot(PK11SlotInfo *slot) { if (pk11InternalKeySlot) { PK11_FreeSlot(pk11InternalKeySlot); } pk11InternalKeySlot = slot ? PK11_ReferenceSlot(slot) : NULL; } /* get the internal key slot. FIPS has only one slot for both key slots and * default slots */ PK11SlotInfo * PK11_GetInternalKeySlot(void) { SECMODModule *mod; if (pk11InternalKeySlot) { return PK11_ReferenceSlot(pk11InternalKeySlot); } mod = SECMOD_GetInternalModule(); PORT_Assert(mod != NULL); if (!mod) { PORT_SetError( SEC_ERROR_NO_MODULE ); return NULL; } return PK11_ReferenceSlot(mod->isFIPS ? mod->slots[0] : mod->slots[1]); } /* get the internal default slot */ PK11SlotInfo * PK11_GetInternalSlot(void) { SECMODModule * mod = SECMOD_GetInternalModule(); PORT_Assert(mod != NULL); if (!mod) { PORT_SetError( SEC_ERROR_NO_MODULE ); return NULL; } if (mod->isFIPS) { return PK11_GetInternalKeySlot(); } return PK11_ReferenceSlot(mod->slots[0]); } /* * check if a given slot supports the requested mechanism */ PRBool PK11_DoesMechanism(PK11SlotInfo *slot, CK_MECHANISM_TYPE type) { int i; /* CKM_FAKE_RANDOM is not a real PKCS mechanism. It's a marker to * tell us we're looking form someone that has implemented get * random bits */ if (type == CKM_FAKE_RANDOM) { return slot->hasRandom; } /* for most mechanism, bypass the linear lookup */ if (type < 0x7ff) { return (slot->mechanismBits[type & 0xff] & (1 << (type >> 8))) ? PR_TRUE : PR_FALSE; } for (i=0; i < (int) slot->mechanismCount; i++) { if (slot->mechanismList[i] == type) return PR_TRUE; } return PR_FALSE; } /* * Return true if a token that can do the desired mechanism exists. * This allows us to have hardware tokens that can do function XYZ magically * allow SSL Ciphers to appear if they are plugged in. */ PRBool PK11_TokenExists(CK_MECHANISM_TYPE type) { SECMODModuleList *mlp; SECMODModuleList *modules; SECMODListLock *moduleLock = SECMOD_GetDefaultModuleListLock(); PK11SlotInfo *slot; PRBool found = PR_FALSE; int i; if (!moduleLock) { PORT_SetError(SEC_ERROR_NOT_INITIALIZED); return found; } /* we only need to know if there is a token that does this mechanism. * check the internal module first because it's fast, and supports * almost everything. */ slot = PK11_GetInternalSlot(); if (slot) { found = PK11_DoesMechanism(slot,type); PK11_FreeSlot(slot); } if (found) return PR_TRUE; /* bypass getting module locks */ SECMOD_GetReadLock(moduleLock); modules = SECMOD_GetDefaultModuleList(); for(mlp = modules; mlp != NULL && (!found); mlp = mlp->next) { for (i=0; i < mlp->module->slotCount; i++) { slot = mlp->module->slots[i]; if (PK11_IsPresent(slot)) { if (PK11_DoesMechanism(slot,type)) { found = PR_TRUE; break; } } } } SECMOD_ReleaseReadLock(moduleLock); return found; } /* * get all the currently available tokens in a list. * that can perform the given mechanism. If mechanism is CKM_INVALID_MECHANISM, * get all the tokens. Make sure tokens that need authentication are put at * the end of this list. */ PK11SlotList * PK11_GetAllTokens(CK_MECHANISM_TYPE type, PRBool needRW, PRBool loadCerts, void *wincx) { PK11SlotList * list; PK11SlotList * loginList; PK11SlotList * friendlyList; SECMODModuleList * mlp; SECMODModuleList * modules; SECMODListLock * moduleLock; int i; #if defined( XP_WIN32 ) int j = 0; PRInt32 waste[16]; #endif moduleLock = SECMOD_GetDefaultModuleListLock(); if (!moduleLock) { PORT_SetError(SEC_ERROR_NOT_INITIALIZED); return NULL; } list = PK11_NewSlotList(); loginList = PK11_NewSlotList(); friendlyList = PK11_NewSlotList(); if ((list == NULL) || (loginList == NULL) || (friendlyList == NULL)) { if (list) PK11_FreeSlotList(list); if (loginList) PK11_FreeSlotList(loginList); if (friendlyList) PK11_FreeSlotList(friendlyList); return NULL; } SECMOD_GetReadLock(moduleLock); modules = SECMOD_GetDefaultModuleList(); for(mlp = modules; mlp != NULL; mlp = mlp->next) { #if defined( XP_WIN32 ) /* This is works around some horrible cache/page thrashing problems ** on Win32. Without this, this loop can take up to 6 seconds at ** 100% CPU on a Pentium-Pro 200. The thing this changes is to ** increase the size of the stack frame and modify it. ** Moving the loop code itself seems to have no effect. ** Dunno why this combination makes a difference, but it does. */ waste[ j & 0xf] = j++; #endif for (i = 0; i < mlp->module->slotCount; i++) { PK11SlotInfo *slot = mlp->module->slots[i]; if (pk11_IsPresentCertLoad(slot, loadCerts)) { if (needRW && slot->readOnly) continue; if ((type == CKM_INVALID_MECHANISM) || PK11_DoesMechanism(slot, type)) { if (pk11_LoginStillRequired(slot,wincx)) { if (PK11_IsFriendly(slot)) { PK11_AddSlotToList(friendlyList, slot); } else { PK11_AddSlotToList(loginList, slot); } } else { PK11_AddSlotToList(list, slot); } } } } } SECMOD_ReleaseReadLock(moduleLock); PK11_MoveListToList(list,friendlyList); PK11_FreeSlotList(friendlyList); PK11_MoveListToList(list,loginList); PK11_FreeSlotList(loginList); return list; } /* * NOTE: This routine is working from a private List generated by * PK11_GetAllTokens. That is why it does not need to lock. */ PK11SlotList * PK11_GetPrivateKeyTokens(CK_MECHANISM_TYPE type,PRBool needRW,void *wincx) { PK11SlotList *list = PK11_GetAllTokens(type,needRW,PR_TRUE,wincx); PK11SlotListElement *le, *next ; SECStatus rv; if (list == NULL) return list; for (le = list->head ; le; le = next) { next = le->next; /* save the pointer here in case we have to * free the element later */ rv = PK11_Authenticate(le->slot,PR_TRUE,wincx); if (rv != SECSuccess) { PK11_DeleteSlotFromList(list,le); continue; } } return list; } /* * find the best slot which supports the given * Mechanism. In normal cases this should grab the first slot on the list * with no fuss. */ PK11SlotInfo * PK11_GetBestSlotMultiple(CK_MECHANISM_TYPE *type, int mech_count, void *wincx) { PK11SlotList *list = NULL; PK11SlotListElement *le ; PK11SlotInfo *slot = NULL; PRBool freeit = PR_FALSE; PRBool listNeedLogin = PR_FALSE; int i; SECStatus rv; list = PK11_GetSlotList(type[0]); if ((list == NULL) || (list->head == NULL)) { /* We need to look up all the tokens for the mechanism */ list = PK11_GetAllTokens(type[0],PR_FALSE,PR_TRUE,wincx); freeit = PR_TRUE; } /* no one can do it! */ if (list == NULL) { PORT_SetError(SEC_ERROR_NO_TOKEN); return NULL; } PORT_SetError(0); listNeedLogin = PR_FALSE; for (i=0; i < mech_count; i++) { if ((type[i] != CKM_FAKE_RANDOM) && (type[i] != CKM_SHA_1) && (type[i] != CKM_SHA256) && (type[i] != CKM_SHA384) && (type[i] != CKM_SHA512) && (type[i] != CKM_MD5) && (type[i] != CKM_MD2)) { listNeedLogin = PR_TRUE; break; } } for (le = PK11_GetFirstSafe(list); le; le = PK11_GetNextSafe(list,le,PR_TRUE)) { if (PK11_IsPresent(le->slot)) { PRBool doExit = PR_FALSE; for (i=0; i < mech_count; i++) { if (!PK11_DoesMechanism(le->slot,type[i])) { doExit = PR_TRUE; break; } } if (doExit) continue; if (listNeedLogin && le->slot->needLogin) { rv = PK11_Authenticate(le->slot,PR_TRUE,wincx); if (rv != SECSuccess) continue; } slot = le->slot; PK11_ReferenceSlot(slot); PK11_FreeSlotListElement(list,le); if (freeit) { PK11_FreeSlotList(list); } return slot; } } if (freeit) { PK11_FreeSlotList(list); } if (PORT_GetError() == 0) { PORT_SetError(SEC_ERROR_NO_TOKEN); } return NULL; } /* original get best slot now calls the multiple version with only one type */ PK11SlotInfo * PK11_GetBestSlot(CK_MECHANISM_TYPE type, void *wincx) { return PK11_GetBestSlotMultiple(&type, 1, wincx); } int PK11_GetBestKeyLength(PK11SlotInfo *slot,CK_MECHANISM_TYPE mechanism) { CK_MECHANISM_INFO mechanism_info; CK_RV crv; if (!slot->isThreadSafe) PK11_EnterSlotMonitor(slot); crv = PK11_GETTAB(slot)->C_GetMechanismInfo(slot->slotID, mechanism,&mechanism_info); if (!slot->isThreadSafe) PK11_ExitSlotMonitor(slot); if (crv != CKR_OK) return 0; if (mechanism_info.ulMinKeySize == mechanism_info.ulMaxKeySize) return 0; return mechanism_info.ulMaxKeySize; } /* * This function uses the existing PKCS #11 module to find the * longest supported key length in the preferred token for a mechanism. * This varies from the above function in that 1) it returns the key length * even for fixed key algorithms, and 2) it looks through the tokens * generally rather than for a specific token. This is used in liu of * a PK11_GetKeyLength function in pk11mech.c since we can actually read * supported key lengths from PKCS #11. * * For symmetric key operations the length is returned in bytes. */ int PK11_GetMaxKeyLength(CK_MECHANISM_TYPE mechanism) { CK_MECHANISM_INFO mechanism_info; PK11SlotList *list = NULL; PK11SlotListElement *le ; PRBool freeit = PR_FALSE; int keyLength = 0; list = PK11_GetSlotList(mechanism); if ((list == NULL) || (list->head == NULL)) { /* We need to look up all the tokens for the mechanism */ list = PK11_GetAllTokens(mechanism,PR_FALSE,PR_FALSE,NULL); freeit = PR_TRUE; } /* no tokens recognize this mechanism */ if (list == NULL) { PORT_SetError(SEC_ERROR_INVALID_ALGORITHM); return 0; } for (le = PK11_GetFirstSafe(list); le; le = PK11_GetNextSafe(list,le,PR_TRUE)) { PK11SlotInfo *slot = le->slot; CK_RV crv; if (PK11_IsPresent(slot)) { if (!slot->isThreadSafe) PK11_EnterSlotMonitor(slot); crv = PK11_GETTAB(slot)->C_GetMechanismInfo(slot->slotID, mechanism,&mechanism_info); if (!slot->isThreadSafe) PK11_ExitSlotMonitor(slot); if ((crv == CKR_OK) && (mechanism_info.ulMaxKeySize != 0) && (mechanism_info.ulMaxKeySize != 0xffffffff)) { keyLength = mechanism_info.ulMaxKeySize; break; } } } if (le) PK11_FreeSlotListElement(list, le); if (freeit) PK11_FreeSlotList(list); return keyLength; } SECStatus PK11_SeedRandom(PK11SlotInfo *slot, unsigned char *data, int len) { CK_RV crv; PK11_EnterSlotMonitor(slot); crv = PK11_GETTAB(slot)->C_SeedRandom(slot->session, data, (CK_ULONG)len); PK11_ExitSlotMonitor(slot); if (crv != CKR_OK) { PORT_SetError(PK11_MapError(crv)); return SECFailure; } return SECSuccess; } SECStatus PK11_GenerateRandomOnSlot(PK11SlotInfo *slot, unsigned char *data, int len) { CK_RV crv; if (!slot->isInternal) PK11_EnterSlotMonitor(slot); crv = PK11_GETTAB(slot)->C_GenerateRandom(slot->session,data, (CK_ULONG)len); if (!slot->isInternal) PK11_ExitSlotMonitor(slot); if (crv != CKR_OK) { PORT_SetError(PK11_MapError(crv)); return SECFailure; } return SECSuccess; } /* Attempts to update the Best Slot for "FAKE RANDOM" generation. ** If that's not the internal slot, then it also attempts to update the ** internal slot. ** The return value indicates if the INTERNAL slot was updated OK. */ SECStatus PK11_RandomUpdate(void *data, size_t bytes) { PK11SlotInfo *slot; PRBool bestIsInternal; SECStatus status; slot = PK11_GetBestSlot(CKM_FAKE_RANDOM, NULL); if (slot == NULL) { slot = PK11_GetInternalSlot(); if (!slot) return SECFailure; } bestIsInternal = PK11_IsInternal(slot); status = PK11_SeedRandom(slot, data, bytes); PK11_FreeSlot(slot); if (!bestIsInternal) { /* do internal slot, too. */ slot = PK11_GetInternalSlot(); /* can't fail */ status = PK11_SeedRandom(slot, data, bytes); PK11_FreeSlot(slot); } return status; } SECStatus PK11_GenerateRandom(unsigned char *data,int len) { PK11SlotInfo *slot; SECStatus rv; slot = PK11_GetBestSlot(CKM_FAKE_RANDOM,NULL); if (slot == NULL) return SECFailure; rv = PK11_GenerateRandomOnSlot(slot, data, len); PK11_FreeSlot(slot); return rv; } /* * Reset the token to it's initial state. For the internal module, this will * Purge your keydb, and reset your cert db certs to USER_INIT. */ SECStatus PK11_ResetToken(PK11SlotInfo *slot, char *sso_pwd) { unsigned char tokenName[32]; int tokenNameLen; CK_RV crv; /* reconstruct the token name */ tokenNameLen = PORT_Strlen(slot->token_name); if (tokenNameLen > sizeof(tokenName)) { tokenNameLen = sizeof(tokenName); } PORT_Memcpy(tokenName,slot->token_name,tokenNameLen); if (tokenNameLen < sizeof(tokenName)) { PORT_Memset(&tokenName[tokenNameLen],' ', sizeof(tokenName)-tokenNameLen); } /* initialize the token */ PK11_EnterSlotMonitor(slot); /* first shutdown the token. Existing sessions will get closed here */ PK11_GETTAB(slot)->C_CloseAllSessions(slot->slotID); slot->session = CK_INVALID_SESSION; /* now re-init the token */ crv = PK11_GETTAB(slot)->C_InitToken(slot->slotID, (unsigned char *)sso_pwd, sso_pwd ? PORT_Strlen(sso_pwd): 0, tokenName); /* finally bring the token back up */ PK11_InitToken(slot,PR_TRUE); PK11_ExitSlotMonitor(slot); if (crv != CKR_OK) { PORT_SetError(PK11_MapError(crv)); return SECFailure; } nssTrustDomain_UpdateCachedTokenCerts(slot->nssToken->trustDomain, slot->nssToken); return SECSuccess; } void PK11Slot_SetNSSToken(PK11SlotInfo *sl, NSSToken *nsst) { sl->nssToken = nsst; } NSSToken * PK11Slot_GetNSSToken(PK11SlotInfo *sl) { return sl->nssToken; } /* * wait for a token to change it's state. The application passes in the expected * new state in event. */ PK11TokenStatus PK11_WaitForTokenEvent(PK11SlotInfo *slot, PK11TokenEvent event, PRIntervalTime timeout, PRIntervalTime latency, int series) { PRIntervalTime first_time = 0; PRBool first_time_set = PR_FALSE; PRBool waitForRemoval; if (slot->isPerm) { return PK11TokenNotRemovable; } if (latency == 0) { latency = PR_SecondsToInterval(5); } waitForRemoval = (PRBool) (event == PK11TokenRemovedOrChangedEvent); if (series == 0) { series = PK11_GetSlotSeries(slot); } while (PK11_IsPresent(slot) == waitForRemoval ) { PRIntervalTime interval; if (waitForRemoval && series != PK11_GetSlotSeries(slot)) { return PK11TokenChanged; } if (timeout == PR_INTERVAL_NO_WAIT) { return waitForRemoval ? PK11TokenPresent : PK11TokenRemoved; } if (timeout != PR_INTERVAL_NO_TIMEOUT ) { interval = PR_IntervalNow(); if (!first_time_set) { first_time = interval; first_time_set = PR_TRUE; } if ((interval-first_time) > timeout) { return waitForRemoval ? PK11TokenPresent : PK11TokenRemoved; } } PR_Sleep(latency); } return waitForRemoval ? PK11TokenRemoved : PK11TokenPresent; }