/* ***** 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): * * 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 ***** */ #ifdef DEBUG static const char CVS_ID[] = "@(#) $RCSfile: devtoken.c,v $ $Revision: 1.38 $ $Date: 2004/05/17 20:08:37 $ $Name: $"; #endif /* DEBUG */ #ifndef NSSCKEPV_H #include "nssckepv.h" #endif /* NSSCKEPV_H */ #ifndef DEVM_H #include "devm.h" #endif /* DEVM_H */ #ifndef CKHELPER_H #include "ckhelper.h" #endif /* CKHELPER_H */ #ifdef NSS_3_4_CODE #include "pk11func.h" #include "dev3hack.h" #include "secerr.h" #endif extern const NSSError NSS_ERROR_NOT_FOUND; /* The number of object handles to grab during each call to C_FindObjects */ #define OBJECT_STACK_SIZE 16 #ifdef PURE_STAN_BUILD struct NSSTokenStr { struct nssDeviceBaseStr base; NSSSlot *slot; /* Peer */ CK_FLAGS ckFlags; /* from CK_TOKEN_INFO.flags */ nssSession *defaultSession; nssTokenObjectCache *cache; }; NSS_IMPLEMENT NSSToken * nssToken_Create ( CK_SLOT_ID slotID, NSSSlot *peer ) { NSSArena *arena; NSSToken *rvToken; nssSession *session = NULL; NSSUTF8 *tokenName = NULL; PRUint32 length; PRBool readWrite; CK_TOKEN_INFO tokenInfo; CK_RV ckrv; void *epv = nssSlot_GetCryptokiEPV(peer); arena = NSSArena_Create(); if(!arena) { return (NSSToken *)NULL; } rvToken = nss_ZNEW(arena, NSSToken); if (!rvToken) { goto loser; } /* Get token information */ ckrv = CKAPI(epv)->C_GetTokenInfo(slotID, &tokenInfo); if (ckrv != CKR_OK) { /* set an error here, eh? */ goto loser; } /* Grab the slot description from the PKCS#11 fixed-length buffer */ length = nssPKCS11String_Length(tokenInfo.label, sizeof(tokenInfo.label)); if (length > 0) { tokenName = nssUTF8_Create(arena, nssStringType_UTF8String, (void *)tokenInfo.label, length); if (!tokenName) { goto loser; } } /* Open a default session handle for the token. */ if (tokenInfo.ulMaxSessionCount == 1) { /* if the token can only handle one session, it must be RW. */ readWrite = PR_TRUE; } else { readWrite = PR_FALSE; } session = nssSlot_CreateSession(peer, arena, readWrite); if (session == NULL) { goto loser; } /* TODO: seed the RNG here */ rvToken->base.arena = arena; rvToken->base.refCount = 1; rvToken->base.name = tokenName; rvToken->base.lock = PZ_NewLock(nssNSSILockOther); /* XXX */ if (!rvToken->base.lock) { goto loser; } rvToken->slot = peer; /* slot owns ref to token */ rvToken->ckFlags = tokenInfo.flags; rvToken->defaultSession = session; if (nssSlot_IsHardware(peer)) { rvToken->cache = nssTokenObjectCache_Create(rvToken, PR_TRUE, PR_TRUE, PR_TRUE); if (!rvToken->cache) { nssSlot_Destroy(peer); goto loser; } } return rvToken; loser: if (session) { nssSession_Destroy(session); } nssArena_Destroy(arena); return (NSSToken *)NULL; } #endif /* PURE_STAN_BUILD */ NSS_IMPLEMENT PRStatus nssToken_Destroy ( NSSToken *tok ) { if (tok) { if (PR_AtomicDecrement(&tok->base.refCount) == 0) { PZ_DestroyLock(tok->base.lock); nssTokenObjectCache_Destroy(tok->cache); return nssArena_Destroy(tok->base.arena); } } return PR_SUCCESS; } NSS_IMPLEMENT void nssToken_Remove ( NSSToken *tok ) { nssTokenObjectCache_Clear(tok->cache); } NSS_IMPLEMENT void NSSToken_Destroy ( NSSToken *tok ) { (void)nssToken_Destroy(tok); } NSS_IMPLEMENT NSSToken * nssToken_AddRef ( NSSToken *tok ) { PR_AtomicIncrement(&tok->base.refCount); return tok; } NSS_IMPLEMENT NSSSlot * nssToken_GetSlot ( NSSToken *tok ) { return nssSlot_AddRef(tok->slot); } #ifdef PURE_STAN_BUILD NSS_IMPLEMENT NSSModule * nssToken_GetModule ( NSSToken *token ) { return nssSlot_GetModule(token->slot); } #endif NSS_IMPLEMENT void * nssToken_GetCryptokiEPV ( NSSToken *token ) { return nssSlot_GetCryptokiEPV(token->slot); } NSS_IMPLEMENT nssSession * nssToken_GetDefaultSession ( NSSToken *token ) { return token->defaultSession; } NSS_IMPLEMENT NSSUTF8 * nssToken_GetName ( NSSToken *tok ) { if (tok == NULL) { return ""; } if (tok->base.name[0] == 0) { (void) nssSlot_IsTokenPresent(tok->slot); } return tok->base.name; } NSS_IMPLEMENT NSSUTF8 * NSSToken_GetName ( NSSToken *token ) { return nssToken_GetName(token); } NSS_IMPLEMENT PRBool nssToken_IsLoginRequired ( NSSToken *token ) { return (token->ckFlags & CKF_LOGIN_REQUIRED); } NSS_IMPLEMENT PRBool nssToken_NeedsPINInitialization ( NSSToken *token ) { return (!(token->ckFlags & CKF_USER_PIN_INITIALIZED)); } NSS_IMPLEMENT PRStatus nssToken_DeleteStoredObject ( nssCryptokiObject *instance ) { CK_RV ckrv; PRStatus status; PRBool createdSession = PR_FALSE; NSSToken *token = instance->token; nssSession *session = NULL; void *epv = nssToken_GetCryptokiEPV(instance->token); if (token->cache) { nssTokenObjectCache_RemoveObject(token->cache, instance); } if (instance->isTokenObject) { if (nssSession_IsReadWrite(token->defaultSession)) { session = token->defaultSession; } else { session = nssSlot_CreateSession(token->slot, NULL, PR_TRUE); createdSession = PR_TRUE; } } if (session == NULL) { return PR_FAILURE; } nssSession_EnterMonitor(session); ckrv = CKAPI(epv)->C_DestroyObject(session->handle, instance->handle); nssSession_ExitMonitor(session); if (createdSession) { nssSession_Destroy(session); } status = (ckrv == CKR_OK) ? PR_SUCCESS : PR_FAILURE; return status; } static nssCryptokiObject * import_object ( NSSToken *tok, nssSession *sessionOpt, CK_ATTRIBUTE_PTR objectTemplate, CK_ULONG otsize ) { nssSession *session = NULL; PRBool createdSession = PR_FALSE; nssCryptokiObject *object = NULL; CK_OBJECT_HANDLE handle; CK_RV ckrv; void *epv = nssToken_GetCryptokiEPV(tok); if (nssCKObject_IsTokenObjectTemplate(objectTemplate, otsize)) { if (sessionOpt) { if (!nssSession_IsReadWrite(sessionOpt)) { return CK_INVALID_HANDLE; } else { session = sessionOpt; } } else if (nssSession_IsReadWrite(tok->defaultSession)) { session = tok->defaultSession; } else { session = nssSlot_CreateSession(tok->slot, NULL, PR_TRUE); createdSession = PR_TRUE; } } else { session = (sessionOpt) ? sessionOpt : tok->defaultSession; } if (session == NULL) { return CK_INVALID_HANDLE; } nssSession_EnterMonitor(session); ckrv = CKAPI(epv)->C_CreateObject(session->handle, objectTemplate, otsize, &handle); nssSession_ExitMonitor(session); if (ckrv == CKR_OK) { object = nssCryptokiObject_Create(tok, session, handle); } if (createdSession) { nssSession_Destroy(session); } return object; } static nssCryptokiObject ** create_objects_from_handles ( NSSToken *tok, nssSession *session, CK_OBJECT_HANDLE *handles, PRUint32 numH ) { nssCryptokiObject **objects; objects = nss_ZNEWARRAY(NULL, nssCryptokiObject *, numH + 1); if (objects) { PRInt32 i; for (i=0; i<(PRInt32)numH; i++) { objects[i] = nssCryptokiObject_Create(tok, session, handles[i]); if (!objects[i]) { for (--i; i>0; --i) { nssCryptokiObject_Destroy(objects[i]); } return (nssCryptokiObject **)NULL; } } } return objects; } static nssCryptokiObject ** find_objects ( NSSToken *tok, nssSession *sessionOpt, CK_ATTRIBUTE_PTR obj_template, CK_ULONG otsize, PRUint32 maximumOpt, PRStatus *statusOpt ) { CK_RV ckrv = CKR_OK; CK_ULONG count; CK_OBJECT_HANDLE *objectHandles; CK_OBJECT_HANDLE staticObjects[OBJECT_STACK_SIZE]; PRUint32 arraySize, numHandles; void *epv = nssToken_GetCryptokiEPV(tok); nssCryptokiObject **objects; nssSession *session = (sessionOpt) ? sessionOpt : tok->defaultSession; /* the arena is only for the array of object handles */ if (maximumOpt > 0) { arraySize = maximumOpt; } else { arraySize = OBJECT_STACK_SIZE; } numHandles = 0; if (arraySize <= OBJECT_STACK_SIZE) { objectHandles = staticObjects; } else { objectHandles = nss_ZNEWARRAY(NULL, CK_OBJECT_HANDLE, arraySize); } if (!objectHandles) { ckrv = CKR_HOST_MEMORY; goto loser; } nssSession_EnterMonitor(session); /* ==== session lock === */ /* Initialize the find with the template */ ckrv = CKAPI(epv)->C_FindObjectsInit(session->handle, obj_template, otsize); if (ckrv != CKR_OK) { nssSession_ExitMonitor(session); goto loser; } while (PR_TRUE) { /* Issue the find for up to arraySize - numHandles objects */ ckrv = CKAPI(epv)->C_FindObjects(session->handle, objectHandles + numHandles, arraySize - numHandles, &count); if (ckrv != CKR_OK) { nssSession_ExitMonitor(session); goto loser; } /* bump the number of found objects */ numHandles += count; if (maximumOpt > 0 || numHandles < arraySize) { /* When a maximum is provided, the search is done all at once, * so the search is finished. If the number returned was less * than the number sought, the search is finished. */ break; } /* the array is filled, double it and continue */ arraySize *= 2; if (objectHandles == staticObjects) { objectHandles = nss_ZNEWARRAY(NULL,CK_OBJECT_HANDLE, arraySize); if (objectHandles) { PORT_Memcpy(objectHandles, staticObjects, OBJECT_STACK_SIZE * sizeof(objectHandles[1])); } } else { objectHandles = nss_ZREALLOCARRAY(objectHandles, CK_OBJECT_HANDLE, arraySize); } if (!objectHandles) { nssSession_ExitMonitor(session); ckrv = CKR_HOST_MEMORY; goto loser; } } ckrv = CKAPI(epv)->C_FindObjectsFinal(session->handle); nssSession_ExitMonitor(session); /* ==== end session lock === */ if (ckrv != CKR_OK) { goto loser; } if (numHandles > 0) { objects = create_objects_from_handles(tok, session, objectHandles, numHandles); } else { nss_SetError(NSS_ERROR_NOT_FOUND); objects = NULL; } if (objectHandles && objectHandles != staticObjects) { nss_ZFreeIf(objectHandles); } if (statusOpt) *statusOpt = PR_SUCCESS; return objects; loser: if (objectHandles && objectHandles != staticObjects) { nss_ZFreeIf(objectHandles); } /* * These errors should be treated the same as if the objects just weren't * found.. */ if ((ckrv == CKR_ATTRIBUTE_TYPE_INVALID) || (ckrv == CKR_ATTRIBUTE_VALUE_INVALID) || (ckrv == CKR_DATA_INVALID) || (ckrv == CKR_DATA_LEN_RANGE) || (ckrv == CKR_FUNCTION_NOT_SUPPORTED) || (ckrv == CKR_TEMPLATE_INCOMPLETE) || (ckrv == CKR_TEMPLATE_INCONSISTENT)) { nss_SetError(NSS_ERROR_NOT_FOUND); if (statusOpt) *statusOpt = PR_SUCCESS; } else { if (statusOpt) *statusOpt = PR_FAILURE; } return (nssCryptokiObject **)NULL; } static nssCryptokiObject ** find_objects_by_template ( NSSToken *token, nssSession *sessionOpt, CK_ATTRIBUTE_PTR obj_template, CK_ULONG otsize, PRUint32 maximumOpt, PRStatus *statusOpt ) { CK_OBJECT_CLASS objclass = (CK_OBJECT_CLASS)-1; nssCryptokiObject **objects = NULL; PRUint32 i; for (i=0; icache && nssTokenObjectCache_HaveObjectClass(token->cache, objclass)) { PRStatus status; objects = nssTokenObjectCache_FindObjectsByTemplate(token->cache, objclass, obj_template, otsize, maximumOpt, &status); if (status == PR_SUCCESS) { if (statusOpt) *statusOpt = status; return objects; } } /* Either they are not cached, or cache failed; look on token. */ objects = find_objects(token, sessionOpt, obj_template, otsize, maximumOpt, statusOpt); return objects; } extern const NSSError NSS_ERROR_INVALID_CERTIFICATE; NSS_IMPLEMENT nssCryptokiObject * nssToken_ImportCertificate ( NSSToken *tok, nssSession *sessionOpt, NSSCertificateType certType, NSSItem *id, NSSUTF8 *nickname, NSSDER *encoding, NSSDER *issuer, NSSDER *subject, NSSDER *serial, NSSASCII7 *email, PRBool asTokenObject ) { PRStatus status; CK_CERTIFICATE_TYPE cert_type; CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE cert_tmpl[10]; CK_ULONG ctsize; nssTokenSearchType searchType; nssCryptokiObject *rvObject = NULL; if (certType == NSSCertificateType_PKIX) { cert_type = CKC_X_509; } else { return (nssCryptokiObject *)NULL; } NSS_CK_TEMPLATE_START(cert_tmpl, attr, ctsize); if (asTokenObject) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); searchType = nssTokenSearchType_TokenOnly; } else { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_false); searchType = nssTokenSearchType_SessionOnly; } NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_CLASS, &g_ck_class_cert); NSS_CK_SET_ATTRIBUTE_VAR( attr, CKA_CERTIFICATE_TYPE, cert_type); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_ID, id); NSS_CK_SET_ATTRIBUTE_UTF8(attr, CKA_LABEL, nickname); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_VALUE, encoding); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_ISSUER, issuer); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_SUBJECT, subject); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_SERIAL_NUMBER, serial); if (email) { NSS_CK_SET_ATTRIBUTE_UTF8(attr, CKA_NETSCAPE_EMAIL, email); } NSS_CK_TEMPLATE_FINISH(cert_tmpl, attr, ctsize); /* see if the cert is already there */ rvObject = nssToken_FindCertificateByIssuerAndSerialNumber(tok, sessionOpt, issuer, serial, searchType, NULL); if (rvObject) { NSSItem existingDER; NSSSlot *slot = nssToken_GetSlot(tok); nssSession *session = nssSlot_CreateSession(slot, NULL, PR_TRUE); if (!session) { nssCryptokiObject_Destroy(rvObject); nssSlot_Destroy(slot); return (nssCryptokiObject *)NULL; } /* Reject any attempt to import a new cert that has the same * issuer/serial as an existing cert, but does not have the * same encoding */ NSS_CK_TEMPLATE_START(cert_tmpl, attr, ctsize); NSS_CK_SET_ATTRIBUTE_NULL(attr, CKA_VALUE); NSS_CK_TEMPLATE_FINISH(cert_tmpl, attr, ctsize); status = nssCKObject_GetAttributes(rvObject->handle, cert_tmpl, ctsize, NULL, session, slot); NSS_CK_ATTRIBUTE_TO_ITEM(cert_tmpl, &existingDER); if (status == PR_SUCCESS) { if (!nssItem_Equal(encoding, &existingDER, NULL)) { nss_SetError(NSS_ERROR_INVALID_CERTIFICATE); status = PR_FAILURE; } nss_ZFreeIf(existingDER.data); } if (status == PR_FAILURE) { nssCryptokiObject_Destroy(rvObject); nssSession_Destroy(session); nssSlot_Destroy(slot); return (nssCryptokiObject *)NULL; } /* according to PKCS#11, label, ID, issuer, and serial number * may change after the object has been created. For PKIX, the * last two attributes can't change, so for now we'll only worry * about the first two. */ NSS_CK_TEMPLATE_START(cert_tmpl, attr, ctsize); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_ID, id); NSS_CK_SET_ATTRIBUTE_UTF8(attr, CKA_LABEL, nickname); NSS_CK_TEMPLATE_FINISH(cert_tmpl, attr, ctsize); /* reset the mutable attributes on the token */ nssCKObject_SetAttributes(rvObject->handle, cert_tmpl, ctsize, session, slot); if (!rvObject->label && nickname) { rvObject->label = nssUTF8_Duplicate(nickname, NULL); } nssSession_Destroy(session); nssSlot_Destroy(slot); } else { /* Import the certificate onto the token */ rvObject = import_object(tok, sessionOpt, cert_tmpl, ctsize); } if (rvObject && tok->cache) { /* The cache will overwrite the attributes if the object already * exists. */ nssTokenObjectCache_ImportObject(tok->cache, rvObject, CKO_CERTIFICATE, cert_tmpl, ctsize); } return rvObject; } /* traverse all certificates - this should only happen if the token * has been marked as "traversable" */ NSS_IMPLEMENT nssCryptokiObject ** nssToken_FindCertificates ( NSSToken *token, nssSession *sessionOpt, nssTokenSearchType searchType, PRUint32 maximumOpt, PRStatus *statusOpt ) { CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE cert_template[2]; CK_ULONG ctsize; nssCryptokiObject **objects; NSS_CK_TEMPLATE_START(cert_template, attr, ctsize); /* Set the search to token/session only if provided */ if (searchType == nssTokenSearchType_SessionOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_false); } else if (searchType == nssTokenSearchType_TokenOnly || searchType == nssTokenSearchType_TokenForced) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); } NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_CLASS, &g_ck_class_cert); NSS_CK_TEMPLATE_FINISH(cert_template, attr, ctsize); if (searchType == nssTokenSearchType_TokenForced) { objects = find_objects(token, sessionOpt, cert_template, ctsize, maximumOpt, statusOpt); } else { objects = find_objects_by_template(token, sessionOpt, cert_template, ctsize, maximumOpt, statusOpt); } return objects; } NSS_IMPLEMENT nssCryptokiObject ** nssToken_FindCertificatesBySubject ( NSSToken *token, nssSession *sessionOpt, NSSDER *subject, nssTokenSearchType searchType, PRUint32 maximumOpt, PRStatus *statusOpt ) { CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE subj_template[3]; CK_ULONG stsize; nssCryptokiObject **objects; NSS_CK_TEMPLATE_START(subj_template, attr, stsize); /* Set the search to token/session only if provided */ if (searchType == nssTokenSearchType_SessionOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_false); } else if (searchType == nssTokenSearchType_TokenOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); } NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_CLASS, &g_ck_class_cert); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_SUBJECT, subject); NSS_CK_TEMPLATE_FINISH(subj_template, attr, stsize); /* now locate the token certs matching this template */ objects = find_objects_by_template(token, sessionOpt, subj_template, stsize, maximumOpt, statusOpt); return objects; } NSS_IMPLEMENT nssCryptokiObject ** nssToken_FindCertificatesByNickname ( NSSToken *token, nssSession *sessionOpt, NSSUTF8 *name, nssTokenSearchType searchType, PRUint32 maximumOpt, PRStatus *statusOpt ) { CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE nick_template[3]; CK_ULONG ntsize; nssCryptokiObject **objects; NSS_CK_TEMPLATE_START(nick_template, attr, ntsize); NSS_CK_SET_ATTRIBUTE_UTF8(attr, CKA_LABEL, name); /* Set the search to token/session only if provided */ if (searchType == nssTokenSearchType_SessionOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_false); } else if (searchType == nssTokenSearchType_TokenOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); } NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_CLASS, &g_ck_class_cert); NSS_CK_TEMPLATE_FINISH(nick_template, attr, ntsize); /* now locate the token certs matching this template */ objects = find_objects_by_template(token, sessionOpt, nick_template, ntsize, maximumOpt, statusOpt); if (!objects) { /* This is to workaround the fact that PKCS#11 doesn't specify * whether the '\0' should be included. XXX Is that still true? * im - this is not needed by the current softoken. However, I'm * leaving it in until I have surveyed more tokens to see if it needed. * well, its needed by the builtin token... */ nick_template[0].ulValueLen++; objects = find_objects_by_template(token, sessionOpt, nick_template, ntsize, maximumOpt, statusOpt); } return objects; } /* XXX * This function *does not* use the token object cache, because not even * the softoken will return a value for CKA_NETSCAPE_EMAIL from a call * to GetAttributes. The softoken does allow searches with that attribute, * it just won't return a value for it. */ NSS_IMPLEMENT nssCryptokiObject ** nssToken_FindCertificatesByEmail ( NSSToken *token, nssSession *sessionOpt, NSSASCII7 *email, nssTokenSearchType searchType, PRUint32 maximumOpt, PRStatus *statusOpt ) { CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE email_template[3]; CK_ULONG etsize; nssCryptokiObject **objects; NSS_CK_TEMPLATE_START(email_template, attr, etsize); NSS_CK_SET_ATTRIBUTE_UTF8(attr, CKA_NETSCAPE_EMAIL, email); /* Set the search to token/session only if provided */ if (searchType == nssTokenSearchType_SessionOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_false); } else if (searchType == nssTokenSearchType_TokenOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); } NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_CLASS, &g_ck_class_cert); NSS_CK_TEMPLATE_FINISH(email_template, attr, etsize); /* now locate the token certs matching this template */ objects = find_objects(token, sessionOpt, email_template, etsize, maximumOpt, statusOpt); if (!objects) { /* This is to workaround the fact that PKCS#11 doesn't specify * whether the '\0' should be included. XXX Is that still true? * im - this is not needed by the current softoken. However, I'm * leaving it in until I have surveyed more tokens to see if it needed. * well, its needed by the builtin token... */ email_template[0].ulValueLen++; objects = find_objects(token, sessionOpt, email_template, etsize, maximumOpt, statusOpt); } return objects; } NSS_IMPLEMENT nssCryptokiObject ** nssToken_FindCertificatesByID ( NSSToken *token, nssSession *sessionOpt, NSSItem *id, nssTokenSearchType searchType, PRUint32 maximumOpt, PRStatus *statusOpt ) { CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE id_template[3]; CK_ULONG idtsize; nssCryptokiObject **objects; NSS_CK_TEMPLATE_START(id_template, attr, idtsize); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_ID, id); /* Set the search to token/session only if provided */ if (searchType == nssTokenSearchType_SessionOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_false); } else if (searchType == nssTokenSearchType_TokenOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); } NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_CLASS, &g_ck_class_cert); NSS_CK_TEMPLATE_FINISH(id_template, attr, idtsize); /* now locate the token certs matching this template */ objects = find_objects_by_template(token, sessionOpt, id_template, idtsize, maximumOpt, statusOpt); return objects; } /* * decode the serial item and return our result. * NOTE serialDecode's data is really stored in serial. Don't free it. */ static PRStatus nssToken_decodeSerialItem(NSSItem *serial, NSSItem *serialDecode) { unsigned char *data = (unsigned char *)serial->data; int data_left, data_len, index; if ((serial->size >= 3) && (data[0] == 0x2)) { /* remove the der encoding of the serial number before generating the * key.. */ data_left = serial->size-2; data_len = data[1]; index = 2; /* extended length ? (not very likely for a serial number) */ if (data_len & 0x80) { int len_count = data_len & 0x7f; data_len = 0; data_left -= len_count; if (data_left > 0) { while (len_count --) { data_len = (data_len << 8) | data[index++]; } } } /* XXX leaving any leading zeros on the serial number for backwards * compatibility */ /* not a valid der, must be just an unlucky serial number value */ if (data_len == data_left) { serialDecode->size = data_len; serialDecode->data = &data[index]; return PR_SUCCESS; } } return PR_FAILURE; } NSS_IMPLEMENT nssCryptokiObject * nssToken_FindCertificateByIssuerAndSerialNumber ( NSSToken *token, nssSession *sessionOpt, NSSDER *issuer, NSSDER *serial, nssTokenSearchType searchType, PRStatus *statusOpt ) { CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE_PTR serialAttr; CK_ATTRIBUTE cert_template[4]; CK_ULONG ctsize; nssCryptokiObject **objects; nssCryptokiObject *rvObject = NULL; NSS_CK_TEMPLATE_START(cert_template, attr, ctsize); /* Set the search to token/session only if provided */ if (searchType == nssTokenSearchType_SessionOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_false); } else if ((searchType == nssTokenSearchType_TokenOnly) || (searchType == nssTokenSearchType_TokenForced)) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); } /* Set the unique id */ NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_CLASS, &g_ck_class_cert); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_ISSUER, issuer); serialAttr = attr; NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_SERIAL_NUMBER, serial); NSS_CK_TEMPLATE_FINISH(cert_template, attr, ctsize); /* get the object handle */ if (searchType == nssTokenSearchType_TokenForced) { objects = find_objects(token, sessionOpt, cert_template, ctsize, 1, statusOpt); } else { objects = find_objects_by_template(token, sessionOpt, cert_template, ctsize, 1, statusOpt); } if (objects) { rvObject = objects[0]; nss_ZFreeIf(objects); } /* * NSS used to incorrectly store serial numbers in their decoded form. * because of this old tokens have decoded serial numbers. */ if (!objects) { NSSItem serialDecode; PRStatus status; status = nssToken_decodeSerialItem(serial, &serialDecode); if (status != PR_SUCCESS) { return NULL; } NSS_CK_SET_ATTRIBUTE_ITEM(serialAttr,CKA_SERIAL_NUMBER,&serialDecode); if (searchType == nssTokenSearchType_TokenForced) { objects = find_objects(token, sessionOpt, cert_template, ctsize, 1, statusOpt); } else { objects = find_objects_by_template(token, sessionOpt, cert_template, ctsize, 1, statusOpt); } if (objects) { rvObject = objects[0]; nss_ZFreeIf(objects); } } return rvObject; } NSS_IMPLEMENT nssCryptokiObject * nssToken_FindCertificateByEncodedCertificate ( NSSToken *token, nssSession *sessionOpt, NSSBER *encodedCertificate, nssTokenSearchType searchType, PRStatus *statusOpt ) { CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE cert_template[3]; CK_ULONG ctsize; nssCryptokiObject **objects; nssCryptokiObject *rvObject = NULL; NSS_CK_TEMPLATE_START(cert_template, attr, ctsize); /* Set the search to token/session only if provided */ if (searchType == nssTokenSearchType_SessionOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_false); } else if (searchType == nssTokenSearchType_TokenOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); } NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_CLASS, &g_ck_class_cert); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_VALUE, encodedCertificate); NSS_CK_TEMPLATE_FINISH(cert_template, attr, ctsize); /* get the object handle */ objects = find_objects_by_template(token, sessionOpt, cert_template, ctsize, 1, statusOpt); if (objects) { rvObject = objects[0]; nss_ZFreeIf(objects); } return rvObject; } NSS_IMPLEMENT nssCryptokiObject ** nssToken_FindPrivateKeys ( NSSToken *token, nssSession *sessionOpt, nssTokenSearchType searchType, PRUint32 maximumOpt, PRStatus *statusOpt ) { CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE key_template[2]; CK_ULONG ktsize; nssCryptokiObject **objects; NSS_CK_TEMPLATE_START(key_template, attr, ktsize); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_CLASS, &g_ck_class_privkey); if (searchType == nssTokenSearchType_SessionOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_false); } else if (searchType == nssTokenSearchType_TokenOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); } NSS_CK_TEMPLATE_FINISH(key_template, attr, ktsize); objects = find_objects_by_template(token, sessionOpt, key_template, ktsize, maximumOpt, statusOpt); return objects; } /* XXX ?there are no session cert objects, so only search token objects */ NSS_IMPLEMENT nssCryptokiObject * nssToken_FindPrivateKeyByID ( NSSToken *token, nssSession *sessionOpt, NSSItem *keyID ) { CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE key_template[3]; CK_ULONG ktsize; nssCryptokiObject **objects; nssCryptokiObject *rvKey = NULL; NSS_CK_TEMPLATE_START(key_template, attr, ktsize); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_CLASS, &g_ck_class_privkey); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_ID, keyID); NSS_CK_TEMPLATE_FINISH(key_template, attr, ktsize); objects = find_objects_by_template(token, sessionOpt, key_template, ktsize, 1, NULL); if (objects) { rvKey = objects[0]; nss_ZFreeIf(objects); } return rvKey; } /* XXX ?there are no session cert objects, so only search token objects */ NSS_IMPLEMENT nssCryptokiObject * nssToken_FindPublicKeyByID ( NSSToken *token, nssSession *sessionOpt, NSSItem *keyID ) { CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE key_template[3]; CK_ULONG ktsize; nssCryptokiObject **objects; nssCryptokiObject *rvKey = NULL; NSS_CK_TEMPLATE_START(key_template, attr, ktsize); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_CLASS, &g_ck_class_pubkey); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_ID, keyID); NSS_CK_TEMPLATE_FINISH(key_template, attr, ktsize); objects = find_objects_by_template(token, sessionOpt, key_template, ktsize, 1, NULL); if (objects) { rvKey = objects[0]; nss_ZFreeIf(objects); } return rvKey; } static void sha1_hash(NSSItem *input, NSSItem *output) { NSSAlgorithmAndParameters *ap; #ifdef NSS_3_4_CODE PK11SlotInfo *internal = PK11_GetInternalSlot(); NSSToken *token = PK11Slot_GetNSSToken(internal); #else NSSToken *token = nss_GetDefaultCryptoToken(); #endif ap = NSSAlgorithmAndParameters_CreateSHA1Digest(NULL); (void)nssToken_Digest(token, NULL, ap, input, output, NULL); #ifdef NSS_3_4_CODE PK11_FreeSlot(token->pk11slot); #endif nss_ZFreeIf(ap); } static void md5_hash(NSSItem *input, NSSItem *output) { NSSAlgorithmAndParameters *ap; #ifdef NSS_3_4_CODE PK11SlotInfo *internal = PK11_GetInternalSlot(); NSSToken *token = PK11Slot_GetNSSToken(internal); #else NSSToken *token = nss_GetDefaultCryptoToken(); #endif ap = NSSAlgorithmAndParameters_CreateMD5Digest(NULL); (void)nssToken_Digest(token, NULL, ap, input, output, NULL); #ifdef NSS_3_4_CODE PK11_FreeSlot(token->pk11slot); #endif nss_ZFreeIf(ap); } static CK_TRUST get_ck_trust ( nssTrustLevel nssTrust ) { CK_TRUST t; switch (nssTrust) { case nssTrustLevel_NotTrusted: t = CKT_NETSCAPE_UNTRUSTED; break; case nssTrustLevel_TrustedDelegator: t = CKT_NETSCAPE_TRUSTED_DELEGATOR; break; case nssTrustLevel_ValidDelegator: t = CKT_NETSCAPE_VALID_DELEGATOR; break; case nssTrustLevel_Trusted: t = CKT_NETSCAPE_TRUSTED; break; case nssTrustLevel_Valid: t = CKT_NETSCAPE_VALID; break; case nssTrustLevel_Unknown: default: t = CKT_NETSCAPE_TRUST_UNKNOWN; break; } return t; } NSS_IMPLEMENT nssCryptokiObject * nssToken_ImportTrust ( NSSToken *tok, nssSession *sessionOpt, NSSDER *certEncoding, NSSDER *certIssuer, NSSDER *certSerial, nssTrustLevel serverAuth, nssTrustLevel clientAuth, nssTrustLevel codeSigning, nssTrustLevel emailProtection, PRBool stepUpApproved, PRBool asTokenObject ) { nssCryptokiObject *object; CK_OBJECT_CLASS tobjc = CKO_NETSCAPE_TRUST; CK_TRUST ckSA, ckCA, ckCS, ckEP; CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE trust_tmpl[11]; CK_ULONG tsize; PRUint8 sha1[20]; /* this is cheating... */ PRUint8 md5[16]; NSSItem sha1_result, md5_result; sha1_result.data = sha1; sha1_result.size = sizeof sha1; md5_result.data = md5; md5_result.size = sizeof md5; sha1_hash(certEncoding, &sha1_result); md5_hash(certEncoding, &md5_result); ckSA = get_ck_trust(serverAuth); ckCA = get_ck_trust(clientAuth); ckCS = get_ck_trust(codeSigning); ckEP = get_ck_trust(emailProtection); NSS_CK_TEMPLATE_START(trust_tmpl, attr, tsize); if (asTokenObject) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); } else { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_false); } NSS_CK_SET_ATTRIBUTE_VAR( attr, CKA_CLASS, tobjc); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_ISSUER, certIssuer); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_SERIAL_NUMBER, certSerial); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_CERT_SHA1_HASH, &sha1_result); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_CERT_MD5_HASH, &md5_result); /* now set the trust values */ NSS_CK_SET_ATTRIBUTE_VAR(attr, CKA_TRUST_SERVER_AUTH, ckSA); NSS_CK_SET_ATTRIBUTE_VAR(attr, CKA_TRUST_CLIENT_AUTH, ckCA); NSS_CK_SET_ATTRIBUTE_VAR(attr, CKA_TRUST_CODE_SIGNING, ckCS); NSS_CK_SET_ATTRIBUTE_VAR(attr, CKA_TRUST_EMAIL_PROTECTION, ckEP); if (stepUpApproved) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TRUST_STEP_UP_APPROVED, &g_ck_true); } else { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TRUST_STEP_UP_APPROVED, &g_ck_false); } NSS_CK_TEMPLATE_FINISH(trust_tmpl, attr, tsize); /* import the trust object onto the token */ object = import_object(tok, sessionOpt, trust_tmpl, tsize); if (object && tok->cache) { nssTokenObjectCache_ImportObject(tok->cache, object, tobjc, trust_tmpl, tsize); } return object; } NSS_IMPLEMENT nssCryptokiObject ** nssToken_FindTrustObjects ( NSSToken *token, nssSession *sessionOpt, nssTokenSearchType searchType, PRUint32 maximumOpt, PRStatus *statusOpt ) { CK_OBJECT_CLASS tobjc = CKO_NETSCAPE_TRUST; CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE tobj_template[2]; CK_ULONG tobj_size; nssCryptokiObject **objects; nssSession *session = sessionOpt ? sessionOpt : token->defaultSession; NSS_CK_TEMPLATE_START(tobj_template, attr, tobj_size); if (searchType == nssTokenSearchType_SessionOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_false); } else if (searchType == nssTokenSearchType_TokenOnly || searchType == nssTokenSearchType_TokenForced) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); } NSS_CK_SET_ATTRIBUTE_VAR( attr, CKA_CLASS, tobjc); NSS_CK_TEMPLATE_FINISH(tobj_template, attr, tobj_size); if (searchType == nssTokenSearchType_TokenForced) { objects = find_objects(token, session, tobj_template, tobj_size, maximumOpt, statusOpt); } else { objects = find_objects_by_template(token, session, tobj_template, tobj_size, maximumOpt, statusOpt); } return objects; } NSS_IMPLEMENT nssCryptokiObject * nssToken_FindTrustForCertificate ( NSSToken *token, nssSession *sessionOpt, NSSDER *certEncoding, NSSDER *certIssuer, NSSDER *certSerial, nssTokenSearchType searchType ) { CK_OBJECT_CLASS tobjc = CKO_NETSCAPE_TRUST; CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE tobj_template[5]; CK_ULONG tobj_size; nssSession *session = sessionOpt ? sessionOpt : token->defaultSession; nssCryptokiObject *object, **objects; NSS_CK_TEMPLATE_START(tobj_template, attr, tobj_size); if (searchType == nssTokenSearchType_SessionOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_false); } else if (searchType == nssTokenSearchType_TokenOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); } NSS_CK_SET_ATTRIBUTE_VAR( attr, CKA_CLASS, tobjc); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_ISSUER, certIssuer); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_SERIAL_NUMBER , certSerial); NSS_CK_TEMPLATE_FINISH(tobj_template, attr, tobj_size); object = NULL; objects = find_objects_by_template(token, session, tobj_template, tobj_size, 1, NULL); if (objects) { object = objects[0]; nss_ZFreeIf(objects); } return object; } NSS_IMPLEMENT nssCryptokiObject * nssToken_ImportCRL ( NSSToken *token, nssSession *sessionOpt, NSSDER *subject, NSSDER *encoding, PRBool isKRL, NSSUTF8 *url, PRBool asTokenObject ) { nssCryptokiObject *object; CK_OBJECT_CLASS crlobjc = CKO_NETSCAPE_CRL; CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE crl_tmpl[6]; CK_ULONG crlsize; NSS_CK_TEMPLATE_START(crl_tmpl, attr, crlsize); if (asTokenObject) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); } else { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_false); } NSS_CK_SET_ATTRIBUTE_VAR( attr, CKA_CLASS, crlobjc); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_SUBJECT, subject); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_VALUE, encoding); NSS_CK_SET_ATTRIBUTE_UTF8(attr, CKA_NETSCAPE_URL, url); if (isKRL) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_NETSCAPE_KRL, &g_ck_true); } else { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_NETSCAPE_KRL, &g_ck_false); } NSS_CK_TEMPLATE_FINISH(crl_tmpl, attr, crlsize); /* import the crl object onto the token */ object = import_object(token, sessionOpt, crl_tmpl, crlsize); if (object && token->cache) { nssTokenObjectCache_ImportObject(token->cache, object, crlobjc, crl_tmpl, crlsize); } return object; } NSS_IMPLEMENT nssCryptokiObject ** nssToken_FindCRLs ( NSSToken *token, nssSession *sessionOpt, nssTokenSearchType searchType, PRUint32 maximumOpt, PRStatus *statusOpt ) { CK_OBJECT_CLASS crlobjc = CKO_NETSCAPE_CRL; CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE crlobj_template[2]; CK_ULONG crlobj_size; nssCryptokiObject **objects; nssSession *session = sessionOpt ? sessionOpt : token->defaultSession; NSS_CK_TEMPLATE_START(crlobj_template, attr, crlobj_size); if (searchType == nssTokenSearchType_SessionOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_false); } else if (searchType == nssTokenSearchType_TokenOnly || searchType == nssTokenSearchType_TokenForced) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); } NSS_CK_SET_ATTRIBUTE_VAR( attr, CKA_CLASS, crlobjc); NSS_CK_TEMPLATE_FINISH(crlobj_template, attr, crlobj_size); if (searchType == nssTokenSearchType_TokenForced) { objects = find_objects(token, session, crlobj_template, crlobj_size, maximumOpt, statusOpt); } else { objects = find_objects_by_template(token, session, crlobj_template, crlobj_size, maximumOpt, statusOpt); } return objects; } NSS_IMPLEMENT nssCryptokiObject ** nssToken_FindCRLsBySubject ( NSSToken *token, nssSession *sessionOpt, NSSDER *subject, nssTokenSearchType searchType, PRUint32 maximumOpt, PRStatus *statusOpt ) { CK_OBJECT_CLASS crlobjc = CKO_NETSCAPE_CRL; CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE crlobj_template[3]; CK_ULONG crlobj_size; nssCryptokiObject **objects; nssSession *session = sessionOpt ? sessionOpt : token->defaultSession; NSS_CK_TEMPLATE_START(crlobj_template, attr, crlobj_size); if (searchType == nssTokenSearchType_SessionOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_false); } else if (searchType == nssTokenSearchType_TokenOnly || searchType == nssTokenSearchType_TokenForced) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); } NSS_CK_SET_ATTRIBUTE_VAR( attr, CKA_CLASS, crlobjc); NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_SUBJECT, subject); NSS_CK_TEMPLATE_FINISH(crlobj_template, attr, crlobj_size); objects = find_objects_by_template(token, session, crlobj_template, crlobj_size, maximumOpt, statusOpt); return objects; } NSS_IMPLEMENT PRStatus nssToken_GetCachedObjectAttributes ( NSSToken *token, NSSArena *arenaOpt, nssCryptokiObject *object, CK_OBJECT_CLASS objclass, CK_ATTRIBUTE_PTR atemplate, CK_ULONG atlen ) { if (!token->cache) { return PR_FAILURE; } return nssTokenObjectCache_GetObjectAttributes(token->cache, arenaOpt, object, objclass, atemplate, atlen); } NSS_IMPLEMENT NSSItem * nssToken_Digest ( NSSToken *tok, nssSession *sessionOpt, NSSAlgorithmAndParameters *ap, NSSItem *data, NSSItem *rvOpt, NSSArena *arenaOpt ) { CK_RV ckrv; CK_ULONG digestLen; CK_BYTE_PTR digest; NSSItem *rvItem = NULL; void *epv = nssToken_GetCryptokiEPV(tok); nssSession *session; session = (sessionOpt) ? sessionOpt : tok->defaultSession; nssSession_EnterMonitor(session); ckrv = CKAPI(epv)->C_DigestInit(session->handle, &ap->mechanism); if (ckrv != CKR_OK) { nssSession_ExitMonitor(session); return NULL; } #if 0 /* XXX the standard says this should work, but it doesn't */ ckrv = CKAPI(epv)->C_Digest(session->handle, NULL, 0, NULL, &digestLen); if (ckrv != CKR_OK) { nssSession_ExitMonitor(session); return NULL; } #endif digestLen = 0; /* XXX for now */ digest = NULL; if (rvOpt) { if (rvOpt->size > 0 && rvOpt->size < digestLen) { nssSession_ExitMonitor(session); /* the error should be bad args */ return NULL; } if (rvOpt->data) { digest = rvOpt->data; } digestLen = rvOpt->size; } if (!digest) { digest = (CK_BYTE_PTR)nss_ZAlloc(arenaOpt, digestLen); if (!digest) { nssSession_ExitMonitor(session); return NULL; } } ckrv = CKAPI(epv)->C_Digest(session->handle, (CK_BYTE_PTR)data->data, (CK_ULONG)data->size, (CK_BYTE_PTR)digest, &digestLen); nssSession_ExitMonitor(session); if (ckrv != CKR_OK) { nss_ZFreeIf(digest); return NULL; } if (!rvOpt) { rvItem = nssItem_Create(arenaOpt, NULL, digestLen, (void *)digest); } return rvItem; } NSS_IMPLEMENT PRStatus nssToken_BeginDigest ( NSSToken *tok, nssSession *sessionOpt, NSSAlgorithmAndParameters *ap ) { CK_RV ckrv; nssSession *session; void *epv = nssToken_GetCryptokiEPV(tok); session = (sessionOpt) ? sessionOpt : tok->defaultSession; nssSession_EnterMonitor(session); ckrv = CKAPI(epv)->C_DigestInit(session->handle, &ap->mechanism); nssSession_ExitMonitor(session); return (ckrv == CKR_OK) ? PR_SUCCESS : PR_FAILURE; } NSS_IMPLEMENT PRStatus nssToken_ContinueDigest ( NSSToken *tok, nssSession *sessionOpt, NSSItem *item ) { CK_RV ckrv; nssSession *session; void *epv = nssToken_GetCryptokiEPV(tok); session = (sessionOpt) ? sessionOpt : tok->defaultSession; nssSession_EnterMonitor(session); ckrv = CKAPI(epv)->C_DigestUpdate(session->handle, (CK_BYTE_PTR)item->data, (CK_ULONG)item->size); nssSession_ExitMonitor(session); return (ckrv == CKR_OK) ? PR_SUCCESS : PR_FAILURE; } NSS_IMPLEMENT NSSItem * nssToken_FinishDigest ( NSSToken *tok, nssSession *sessionOpt, NSSItem *rvOpt, NSSArena *arenaOpt ) { CK_RV ckrv; CK_ULONG digestLen; CK_BYTE_PTR digest; NSSItem *rvItem = NULL; void *epv = nssToken_GetCryptokiEPV(tok); nssSession *session; session = (sessionOpt) ? sessionOpt : tok->defaultSession; nssSession_EnterMonitor(session); ckrv = CKAPI(epv)->C_DigestFinal(session->handle, NULL, &digestLen); if (ckrv != CKR_OK || digestLen == 0) { nssSession_ExitMonitor(session); return NULL; } digest = NULL; if (rvOpt) { if (rvOpt->size > 0 && rvOpt->size < digestLen) { nssSession_ExitMonitor(session); /* the error should be bad args */ return NULL; } if (rvOpt->data) { digest = rvOpt->data; } digestLen = rvOpt->size; } if (!digest) { digest = (CK_BYTE_PTR)nss_ZAlloc(arenaOpt, digestLen); if (!digest) { nssSession_ExitMonitor(session); return NULL; } } ckrv = CKAPI(epv)->C_DigestFinal(session->handle, digest, &digestLen); nssSession_ExitMonitor(session); if (ckrv != CKR_OK) { nss_ZFreeIf(digest); return NULL; } if (!rvOpt) { rvItem = nssItem_Create(arenaOpt, NULL, digestLen, (void *)digest); } return rvItem; } NSS_IMPLEMENT PRBool nssToken_IsPresent ( NSSToken *token ) { return nssSlot_IsTokenPresent(token->slot); } /* Sigh. The methods to find objects declared above cause problems with * the low-level object cache in the softoken -- the objects are found in * toto, then one wave of GetAttributes is done, then another. Having a * large number of objects causes the cache to be thrashed, as the objects * are gone before there's any chance to ask for their attributes. * So, for now, bringing back traversal methods for certs. This way all of * the cert's attributes can be grabbed immediately after finding it, * increasing the likelihood that the cache takes care of it. */ NSS_IMPLEMENT PRStatus nssToken_TraverseCertificates ( NSSToken *token, nssSession *sessionOpt, nssTokenSearchType searchType, PRStatus (* callback)(nssCryptokiObject *instance, void *arg), void *arg ) { CK_RV ckrv; CK_ULONG count; CK_OBJECT_HANDLE *objectHandles; CK_ATTRIBUTE_PTR attr; CK_ATTRIBUTE cert_template[2]; CK_ULONG ctsize; NSSArena *arena; PRStatus status; PRUint32 arraySize, numHandles; nssCryptokiObject **objects; void *epv = nssToken_GetCryptokiEPV(token); nssSession *session = (sessionOpt) ? sessionOpt : token->defaultSession; /* template for all certs */ NSS_CK_TEMPLATE_START(cert_template, attr, ctsize); if (searchType == nssTokenSearchType_SessionOnly) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_false); } else if (searchType == nssTokenSearchType_TokenOnly || searchType == nssTokenSearchType_TokenForced) { NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_TOKEN, &g_ck_true); } NSS_CK_SET_ATTRIBUTE_ITEM(attr, CKA_CLASS, &g_ck_class_cert); NSS_CK_TEMPLATE_FINISH(cert_template, attr, ctsize); /* the arena is only for the array of object handles */ arena = nssArena_Create(); if (!arena) { return PR_FAILURE; } arraySize = OBJECT_STACK_SIZE; numHandles = 0; objectHandles = nss_ZNEWARRAY(arena, CK_OBJECT_HANDLE, arraySize); if (!objectHandles) { goto loser; } nssSession_EnterMonitor(session); /* ==== session lock === */ /* Initialize the find with the template */ ckrv = CKAPI(epv)->C_FindObjectsInit(session->handle, cert_template, ctsize); if (ckrv != CKR_OK) { nssSession_ExitMonitor(session); goto loser; } while (PR_TRUE) { /* Issue the find for up to arraySize - numHandles objects */ ckrv = CKAPI(epv)->C_FindObjects(session->handle, objectHandles + numHandles, arraySize - numHandles, &count); if (ckrv != CKR_OK) { nssSession_ExitMonitor(session); goto loser; } /* bump the number of found objects */ numHandles += count; if (numHandles < arraySize) { break; } /* the array is filled, double it and continue */ arraySize *= 2; objectHandles = nss_ZREALLOCARRAY(objectHandles, CK_OBJECT_HANDLE, arraySize); if (!objectHandles) { nssSession_ExitMonitor(session); goto loser; } } ckrv = CKAPI(epv)->C_FindObjectsFinal(session->handle); nssSession_ExitMonitor(session); /* ==== end session lock === */ if (ckrv != CKR_OK) { goto loser; } if (numHandles > 0) { objects = create_objects_from_handles(token, session, objectHandles, numHandles); if (objects) { nssCryptokiObject **op; for (op = objects; *op; op++) { status = (*callback)(*op, arg); } nss_ZFreeIf(objects); } } nssArena_Destroy(arena); return PR_SUCCESS; loser: nssArena_Destroy(arena); return PR_FAILURE; } NSS_IMPLEMENT PRBool nssToken_IsPrivateKeyAvailable ( NSSToken *token, NSSCertificate *c, nssCryptokiObject *instance ) { CK_OBJECT_CLASS theClass; if (token == NULL) return PR_FALSE; if (c == NULL) return PR_FALSE; theClass = CKO_PRIVATE_KEY; if (!nssSlot_IsLoggedIn(token->slot)) { theClass = CKO_PUBLIC_KEY; } if (PK11_MatchItem(token->pk11slot, instance->handle, theClass) != CK_INVALID_HANDLE) { return PR_TRUE; } return PR_FALSE; }