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Quelle pk11pub.h Sprache: C |
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/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef _PK11PUB_H_ #define _PK11PUB_H_ #include "plarena.h" #include "seccomon.h" #include "secoidt.h" #include "secdert.h" #include "keythi.h" #include "certt.h" #include "pk11hpke.h" #include "pkcs11t.h" #include "secmodt.h" #include "seccomon.h" #include "pkcs7t.h" #include "cmsreclist.h" /* * Exported PK11 wrap functions. */ SEC_BEGIN_PROTOS /************************************************************ * Generic Slot Lists Management ************************************************************/ void PK11_FreeSlotList(PK11SlotList *list); SECStatus PK11_FreeSlotListElement(PK11SlotList *list, PK11SlotListElement *le); PK11SlotListElement *PK11_GetFirstSafe(PK11SlotList *list); PK11SlotListElement *PK11_GetNextSafe(PK11SlotList *list, PK11SlotListElement *le, PRBool restart); /************************************************************ * Generic Slot Management ************************************************************/ PK11SlotInfo *PK11_ReferenceSlot(PK11SlotInfo *slot); void PK11_FreeSlot(PK11SlotInfo *slot); SECStatus PK11_DestroyObject(PK11SlotInfo *slot, CK_OBJECT_HANDLE object); SECStatus PK11_DestroyTokenObject(PK11SlotInfo *slot, CK_OBJECT_HANDLE object); PK11SlotInfo *PK11_GetInternalKeySlot(void); PK11SlotInfo *PK11_GetInternalSlot(void); SECStatus PK11_Logout(PK11SlotInfo *slot); void PK11_LogoutAll(void); /************************************************************ * Slot Password Management ************************************************************/ void PK11_SetSlotPWValues(PK11SlotInfo *slot, int askpw, int timeout); void PK11_GetSlotPWValues(PK11SlotInfo *slot, int *askpw, int *timeout); SECStatus PK11_CheckSSOPassword(PK11SlotInfo *slot, char *ssopw); SECStatus PK11_CheckUserPassword(PK11SlotInfo *slot, const char *pw); PRBool PK11_IsLoggedIn(PK11SlotInfo *slot, void *wincx); SECStatus PK11_InitPin(PK11SlotInfo *slot, const char *ssopw, const char *pk11_userpwd); SECStatus PK11_ChangePW(PK11SlotInfo *slot, const char *oldpw, const char *newpw); void PK11_SetPasswordFunc(PK11PasswordFunc func); int PK11_GetMinimumPwdLength(PK11SlotInfo *slot); SECStatus PK11_ResetToken(PK11SlotInfo *slot, char *sso_pwd); SECStatus PK11_Authenticate(PK11SlotInfo *slot, PRBool loadCerts, void *wincx); SECStatus PK11_TokenRefresh(PK11SlotInfo *slot); /****************************************************************** * Slot info functions ******************************************************************/ PK11SlotInfo *PK11_FindSlotByName(const char *name); /****************************************************************** * PK11_FindSlotsByNames searches for a PK11SlotInfo using one or * more criteria : dllName, slotName and tokenName . In addition, if * presentOnly is set , only slots with a token inserted will be * returned. ******************************************************************/ PK11SlotList *PK11_FindSlotsByNames(const char *dllName, const char *slotName, const char *tokenName, PRBool presentOnly); PRBool PK11_IsReadOnly(PK11SlotInfo *slot); PRBool PK11_IsInternal(PK11SlotInfo *slot); PRBool PK11_IsInternalKeySlot(PK11SlotInfo *slot); char *PK11_GetTokenName(PK11SlotInfo *slot); char *PK11_GetTokenURI(PK11SlotInfo *slot); char *PK11_GetSlotName(PK11SlotInfo *slot); PRBool PK11_NeedLogin(PK11SlotInfo *slot); PRBool PK11_IsFriendly(PK11SlotInfo *slot); PRBool PK11_IsHW(PK11SlotInfo *slot); PRBool PK11_IsRemovable(PK11SlotInfo *slot); PRBool PK11_NeedUserInit(PK11SlotInfo *slot); PRBool PK11_ProtectedAuthenticationPath(PK11SlotInfo *slot); int PK11_GetSlotSeries(PK11SlotInfo *slot); int PK11_GetCurrentWrapIndex(PK11SlotInfo *slot); unsigned long PK11_GetDefaultFlags(PK11SlotInfo *slot); CK_SLOT_ID PK11_GetSlotID(PK11SlotInfo *slot); SECMODModuleID PK11_GetModuleID(PK11SlotInfo *slot); SECStatus PK11_GetSlotInfo(PK11SlotInfo *slot, CK_SLOT_INFO *info); SECStatus PK11_GetTokenInfo(PK11SlotInfo *slot, CK_TOKEN_INFO *info); PRBool PK11_IsDisabled(PK11SlotInfo *slot); PRBool PK11_HasRootCerts(PK11SlotInfo *slot); PK11DisableReasons PK11_GetDisabledReason(PK11SlotInfo *slot); /* Prevents the slot from being used, and set disable reason to user-disable */ /* NOTE: Mechanisms that were ON continue to stay ON */ /* Therefore, when the slot is enabled, it will remember */ /* what mechanisms needs to be turned on */ PRBool PK11_UserDisableSlot(PK11SlotInfo *slot); /* Allow all mechanisms that are ON before UserDisableSlot() */ /* was called to be available again */ PRBool PK11_UserEnableSlot(PK11SlotInfo *slot); /* * wait for a specific slot event. * event is a specific event to wait for. Currently only * PK11TokenChangeOrRemovalEvent and PK11TokenPresentEvents are defined. * timeout can be an interval time to wait, PR_INTERVAL_NO_WAIT (meaning only * poll once), or PR_INTERVAL_NO_TIMEOUT (meaning block until a change). * pollInterval is a suggested pulling interval value. '0' means use the * default. Future implementations that don't poll may ignore this value. * series is the current series for the last slot. This should be the series * value for the slot the last time you read persistant information from the * slot. For instance, if you publish a cert from the slot, you should obtain * the slot series at that time. Then PK11_WaitForTokenEvent can detect a * a change in the slot between the time you publish and the time * PK11_WaitForTokenEvent is called, elliminating potential race conditions. * * The current status that is returned is: * PK11TokenNotRemovable - always returned for any non-removable token. * PK11TokenPresent - returned when the token is present and we are waiting * on a PK11TokenPresentEvent. Then next event to look for is a * PK11TokenChangeOrRemovalEvent. * PK11TokenChanged - returned when the old token has been removed and a new * token ad been inserted, and we are waiting for a * PK11TokenChangeOrRemovalEvent. The next event to look for is another * PK11TokenChangeOrRemovalEvent. * PK11TokenRemoved - returned when the token is not present and we are * waiting for a PK11TokenChangeOrRemovalEvent. The next event to look for * is a PK11TokenPresentEvent. */ PK11TokenStatus PK11_WaitForTokenEvent(PK11SlotInfo *slot, PK11TokenEvent event, PRIntervalTime timeout, PRIntervalTime pollInterval, int series); PRBool PK11_NeedPWInit(void); PRBool PK11_TokenExists(CK_MECHANISM_TYPE); SECStatus PK11_GetModInfo(SECMODModule *mod, CK_INFO *info); char *PK11_GetModuleURI(SECMODModule *mod); PRBool PK11_IsFIPS(void); SECMODModule *PK11_GetModule(PK11SlotInfo *slot); /********************************************************************* * Slot mapping utility functions. *********************************************************************/ PRBool PK11_IsPresent(PK11SlotInfo *slot); PRBool PK11_DoesMechanism(PK11SlotInfo *slot, CK_MECHANISM_TYPE type); PK11SlotList *PK11_GetAllTokens(CK_MECHANISM_TYPE type, PRBool needRW, PRBool loadCerts, void *wincx); PK11SlotInfo *PK11_GetBestSlotMultipleWithAttributes(CK_MECHANISM_TYPE *type, CK_FLAGS *mechFlag, unsigned int *keySize, unsigned int count, void *wincx); PK11SlotInfo *PK11_GetBestSlotMultiple(CK_MECHANISM_TYPE *type, unsigned int count, void *wincx); PK11SlotInfo *PK11_GetBestSlot(CK_MECHANISM_TYPE type, void *wincx); PK11SlotInfo *PK11_GetBestSlotWithAttributes(CK_MECHANISM_TYPE type, CK_FLAGS mechFlag, unsigned int keySize, void *wincx); CK_MECHANISM_TYPE PK11_GetBestWrapMechanism(PK11SlotInfo *slot); int PK11_GetBestKeyLength(PK11SlotInfo *slot, CK_MECHANISM_TYPE type); /* * Open a new database using the softoken. The caller is responsible for making * sure the module spec is correct and usable. The caller should ask for one * new database per call if the caller wants to get meaningful information * about the new database. * * moduleSpec is the same data that you would pass to softoken at * initialization time under the 'tokens' options. For example, if you were * to specify tokens=<0x4=[configdir='./mybackup' tokenDescription='Backup']> * You would specify "configdir='./mybackup' tokenDescription='Backup'" as your * module spec here. The slot ID will be calculated for you by * SECMOD_OpenUserDB(). * * Typical parameters here are configdir, tokenDescription and flags. * * a Full list is below: * * * configDir - The location of the databases for this token. If configDir is * not specified, and noCertDB and noKeyDB is not specified, the load * will fail. * certPrefix - Cert prefix for this token. * keyPrefix - Prefix for the key database for this token. (if not specified, * certPrefix will be used). * tokenDescription - The label value for this token returned in the * CK_TOKEN_INFO structure with an internationalize string (UTF8). * This value will be truncated at 32 bytes (no NULL, partial UTF8 * characters dropped). You should specify a user friendly name here * as this is the value the token will be referred to in most * application UI's. You should make sure tokenDescription is unique. * slotDescription - The slotDescription value for this token returned * in the CK_SLOT_INFO structure with an internationalize string * (UTF8). This value will be truncated at 64 bytes (no NULL, partial * UTF8 characters dropped). This name will not change after the * database is closed. It should have some number to make this unique. * minPWLen - minimum password length for this token. * flags - comma separated list of flag values, parsed case-insensitive. * Valid flags are: * readOnly - Databases should be opened read only. * noCertDB - Don't try to open a certificate database. * noKeyDB - Don't try to open a key database. * forceOpen - Don't fail to initialize the token if the * databases could not be opened. * passwordRequired - zero length passwords are not acceptable * (valid only if there is a keyDB). * optimizeSpace - allocate smaller hash tables and lock tables. * When this flag is not specified, Softoken will allocate * large tables to prevent lock contention. */ PK11SlotInfo *SECMOD_OpenUserDB(const char *moduleSpec); SECStatus SECMOD_CloseUserDB(PK11SlotInfo *slot); /* * This is exactly the same as OpenUserDB except it can be called on any * module that understands softoken style new slot entries. The resulting * slot can be closed using SECMOD_CloseUserDB above. Value of moduleSpec * is token specific. */ PK11SlotInfo *SECMOD_OpenNewSlot(SECMODModule *mod, const char *moduleSpec); /* * merge the permanent objects from on token to another */ SECStatus PK11_MergeTokens(PK11SlotInfo *targetSlot, PK11SlotInfo *sourceSlot, PK11MergeLog *log, void *targetPwArg, void *sourcePwArg); /* * create and destroy merge logs needed by PK11_MergeTokens */ PK11MergeLog *PK11_CreateMergeLog(void); void PK11_DestroyMergeLog(PK11MergeLog *log); /********************************************************************* * Mechanism Mapping functions *********************************************************************/ CK_KEY_TYPE PK11_GetKeyType(CK_MECHANISM_TYPE type, unsigned long len); CK_MECHANISM_TYPE PK11_GetKeyGen(CK_MECHANISM_TYPE type); int PK11_GetBlockSize(CK_MECHANISM_TYPE type, SECItem *params); int PK11_GetIVLength(CK_MECHANISM_TYPE type); SECItem *PK11_ParamFromIV(CK_MECHANISM_TYPE type, SECItem *iv); unsigned char *PK11_IVFromParam(CK_MECHANISM_TYPE type, SECItem *param, int *len); SECItem *PK11_BlockData(SECItem *data, unsigned long size); int PK11_GetMaxKeyLength(CK_MECHANISM_TYPE type); /* PKCS #11 to DER mapping functions */ SECItem *PK11_ParamFromAlgid(SECAlgorithmID *algid); SECItem *PK11_GenerateNewParam(CK_MECHANISM_TYPE, PK11SymKey *); CK_MECHANISM_TYPE PK11_AlgtagToMechanism(SECOidTag algTag); SECOidTag PK11_MechanismToAlgtag(CK_MECHANISM_TYPE type); SECOidTag PK11_FortezzaMapSig(SECOidTag algTag); SECStatus PK11_ParamToAlgid(SECOidTag algtag, SECItem *param, PLArenaPool *arena, SECAlgorithmID *algid); SECStatus PK11_SeedRandom(PK11SlotInfo *, unsigned char *data, int len); SECStatus PK11_GenerateRandomOnSlot(PK11SlotInfo *, unsigned char *data, int len); SECStatus PK11_RandomUpdate(void *data, size_t bytes); SECStatus PK11_GenerateRandom(unsigned char *data, int len); /* warning: cannot work with pkcs 5 v2 * use algorithm ID s instead of pkcs #11 mechanism pointers */ CK_RV PK11_MapPBEMechanismToCryptoMechanism(CK_MECHANISM_PTR pPBEMechanism, CK_MECHANISM_PTR pCryptoMechanism, SECItem *pbe_pwd, PRBool bad3DES); CK_MECHANISM_TYPE PK11_GetPadMechanism(CK_MECHANISM_TYPE); CK_MECHANISM_TYPE PK11_MapSignKeyType(KeyType keyType); /********************************************************************** * Symmetric, Public, and Private Keys **********************************************************************/ void PK11_FreeSymKey(PK11SymKey *key); PK11SymKey *PK11_ReferenceSymKey(PK11SymKey *symKey); PK11SymKey *PK11_ImportDataKey(PK11SlotInfo *slot, CK_MECHANISM_TYPE type, PK11Origin CK_ATTRIBUTE_TYPE operation, SECItem *key, void *wincx); PK11SymKey *PK11_ImportSymKey(PK11SlotInfo *slot, CK_MECHANISM_TYPE type, PK11Origin origin, CK_ATTRIBUTE_TYPE operation, SECItem *key, void *wincx); PK11SymKey *PK11_ImportSymKeyWithFlags(PK11SlotInfo *slot, CK_MECHANISM_TYPE type, PK11Origin origin, CK_ATTRIBUTE_TYPE operation, SECItem *key, CK_FLAGS flags, PRBool isPerm, void *wincx); PK11SymKey *PK11_SymKeyFromHandle(PK11SlotInfo *slot, PK11SymKey *parent, PK11Origin origin, CK_MECHANISM_TYPE type, CK_OBJECT_HANDLE keyID, PRBool owner, void *wincx); /* PK11_GetWrapKey and PK11_SetWrapKey are not thread safe. */ PK11SymKey *PK11_GetWrapKey(PK11SlotInfo *slot, int wrap, CK_MECHANISM_TYPE type, int series, void *wincx); void PK11_SetWrapKey(PK11SlotInfo *slot, int wrap, PK11SymKey *wrapKey); CK_MECHANISM_TYPE PK11_GetMechanism(PK11SymKey *symKey); /* * import a public key into the desired slot * * This function takes a public key structure and creates a public key in a * given slot. If isToken is set, then a persistant public key is created. * * Note: it is possible for this function to return a handle for a key which * is persistant, even if isToken is not set. */ CK_OBJECT_HANDLE PK11_ImportPublicKey(PK11SlotInfo *slot, SECKEYPublicKey *pubKey, PRBool isToken); PK11SymKey *PK11_KeyGen(PK11SlotInfo *slot, CK_MECHANISM_TYPE type, SECItem *param, int keySize, void *wincx); PK11SymKey *PK11_TokenKeyGen(PK11SlotInfo *slot, CK_MECHANISM_TYPE type, SECItem *param, int keySize, SECItem *keyid, PRBool isToken, void *wincx); PK11SymKey *PK11_TokenKeyGenWithFlags(PK11SlotInfo *slot, CK_MECHANISM_TYPE type, SECItem *param, int keySize, SECItem *keyid, CK_FLAGS opFlags, PK11AttrFlags attrFlags, void *wincx); /* Generates a key using the exact template supplied by the caller. The other * PK11_[Token]KeyGen mechanisms should be used instead of this one whenever * they work because they include/exclude the CKA_VALUE_LEN template value * based on the mechanism type as required by many tokens. * * keyGenType should be PK11_GetKeyGenWithSize(type, <key size>) or it should * be equal to type if PK11_GetKeyGenWithSize cannot be used (e.g. because * pk11wrap does not know about the mechanisms). */ PK11SymKey *PK11_KeyGenWithTemplate(PK11SlotInfo *slot, CK_MECHANISM_TYPE type, CK_MECHANISM_TYPE keyGenType, SECItem *param, CK_ATTRIBUTE *attrs, unsigned int attrsCount, void *wincx); PK11SymKey *PK11_ListFixedKeysInSlot(PK11SlotInfo *slot, char *nickname, void *wincx); PK11SymKey *PK11_GetNextSymKey(PK11SymKey *symKey); CK_KEY_TYPE PK11_GetSymKeyType(PK11SymKey *key); CK_OBJECT_HANDLE PK11_GetSymKeyHandle(PK11SymKey *symKey); /* * PK11_SetSymKeyUserData * sets generic user data on keys (usually a pointer to a data structure) * that can later be retrieved by PK11_GetSymKeyUserData(). * symKey - key where data will be set. * data - data to be set. * freefunc - function used to free the data. * Setting user data on symKeys with existing user data already set will cause * the existing user data to be freed before the new user data is set. * Freeing user data is done by calling the user specified freefunc. * If freefunc is NULL, the user data is assumed to be global or static an * not freed. Passing NULL for user data to PK11_SetSymKeyUserData has the * effect of freeing any existing user data, and clearing the user data * pointer. If user data exists when the symKey is finally freed, that * data will be freed with freefunc. * * Applications should only use this function on keys which the application * has created directly, as there is only one user data value per key. */ void PK11_SetSymKeyUserData(PK11SymKey *symKey, void *data, PK11FreeDataFunc freefunc); /* PK11_GetSymKeyUserData * retrieves generic user data which was set on a key by * PK11_SetSymKeyUserData. * symKey - key with data to be fetched * * If no data exists, or the data has been cleared, PK11_GetSymKeyUserData * will return NULL. Returned data is still owned and managed by the SymKey, * the caller should not free the data. * */ void *PK11_GetSymKeyUserData(PK11SymKey *symKey); SECStatus PK11_PubWrapSymKey(CK_MECHANISM_TYPE type, SECKEYPublicKey *pubKey, PK11SymKey *symKey, SECItem *wrappedKey); SECStatus PK11_PubWrapSymKeyWithMechanism(SECKEYPublicKey *pubKey, CK_MECHANISM_TYPE mechType, SECItem *param, PK11SymKey *symKey, SECItem *wrappedKey); SECStatus PK11_WrapSymKey(CK_MECHANISM_TYPE type, SECItem *params, PK11SymKey *wrappingKey, PK11SymKey *symKey, SECItem *wrappedKey); /* move a key to 'slot' optionally set the key attributes according to either * operation or the flags and making the key permanent at the same time. * If the key is moved to the same slot, operation and flags values are * currently ignored */ PK11SymKey *PK11_MoveSymKey(PK11SlotInfo *slot, CK_ATTRIBUTE_TYPE operation, CK_FLAGS flags, PRBool perm, PK11SymKey *symKey); /* * To do joint operations, we often need two keys in the same slot. * Usually the PKCS #11 wrappers handle this correctly (like for PK11_WrapKey), * but sometimes the wrappers don't know about mechanism specific keys in * the Mechanism params. This function makes sure the two keys are in the * same slot by copying one or both of the keys into a common slot. This * functions makes sure the slot can handle the target mechanism. If the copy * is warranted, this function will prefer to move the movingKey first, then * the preferedKey. If the keys are moved, the new keys are returned in * newMovingKey and/or newPreferedKey. The application is responsible * for freeing those keys one the operation is complete. */ SECStatus PK11_SymKeysToSameSlot(CK_MECHANISM_TYPE mech, CK_ATTRIBUTE_TYPE preferedOperation, CK_ATTRIBUTE_TYPE movingOperation, PK11SymKey *preferedKey, PK11SymKey *movingKey, PK11SymKey **newPreferedKey, PK11SymKey **newMovingKey); /* * derive a new key from the base key. * PK11_Derive returns a key which can do exactly one operation, and is * ephemeral (session key). * PK11_DeriveWithFlags is the same as PK11_Derive, except you can use * CKF_ flags to enable more than one operation. * PK11_DeriveWithFlagsPerm is the same as PK11_DeriveWithFlags except you can * (optionally) make the key permanent (token key). */ PK11SymKey *PK11_Derive(PK11SymKey *baseKey, CK_MECHANISM_TYPE mechanism, SECItem *param, CK_MECHANISM_TYPE target, CK_ATTRIBUTE_TYPE operation, int keySize); PK11SymKey *PK11_DeriveWithFlags(PK11SymKey *baseKey, CK_MECHANISM_TYPE derive, SECItem *param, CK_MECHANISM_TYPE target, CK_ATTRIBUTE_TYPE operation, int keySize, CK_FLAGS flags); PK11SymKey *PK11_DeriveWithFlagsPerm(PK11SymKey *baseKey, CK_MECHANISM_TYPE derive, SECItem *param, CK_MECHANISM_TYPE target, CK_ATTRIBUTE_TYPE operation, int keySize, CK_FLAGS flags, PRBool isPerm); PK11SymKey * PK11_DeriveWithTemplate(PK11SymKey *baseKey, CK_MECHANISM_TYPE derive, SECItem *param, CK_MECHANISM_TYPE target, CK_ATTRIBUTE_TYPE operation, int keySize, CK_ATTRIBUTE *userAttr, unsigned int numAttrs, PRBool isPerm); PK11SymKey *PK11_PubDerive(SECKEYPrivateKey *privKey, SECKEYPublicKey *pubKey, PRBool isSender, SECItem *randomA, SECItem *randomB, CK_MECHANISM_TYPE derive, CK_MECHANISM_TYPE target, CK_ATTRIBUTE_TYPE operation, int keySize, void *wincx); PK11SymKey *PK11_PubDeriveWithKDF(SECKEYPrivateKey *privKey, SECKEYPublicKey *pubKey, PRBool isSender, SECItem *randomA, SECItem *randomB, CK_MECHANISM_TYPE derive, CK_MECHANISM_TYPE target, CK_ATTRIBUTE_TYPE operation, int keySize, CK_ULONG kdf, SECItem *sharedData, void *wincx); /* * Concatenate a pair of symmetric keys. */ PK11SymKey *PK11_ConcatSymKeys(PK11SymKey *left, PK11SymKey *right, CK_MECHANISM_TYPE /* * unwrap a new key with a symetric key. * PK11_Unwrap returns a key which can do exactly one operation, and is * ephemeral (session key). * PK11_UnwrapWithFlags is the same as PK11_Unwrap, except you can use * CKF_ flags to enable more than one operation. * PK11_UnwrapWithFlagsPerm is the same as PK11_UnwrapWithFlags except you can * (optionally) make the key permanent (token key). */ PK11SymKey *PK11_UnwrapSymKey(PK11SymKey *key, CK_MECHANISM_TYPE wraptype, SECItem *param, SECItem *wrapppedKey, CK_MECHANISM_TYPE target, CK_ATTRIBUTE_TYPE operation, int keySize); PK11SymKey *PK11_UnwrapSymKeyWithFlags(PK11SymKey *wrappingKey, CK_MECHANISM_TYPE wrapType, SECItem *param, SECItem *wrappedKey, CK_MECHANISM_TYPE target, CK_ATTRIBUTE_TYPE operation, int keySize, CK_FLAGS flags); PK11SymKey *PK11_UnwrapSymKeyWithFlagsPerm(PK11SymKey *wrappingKey, CK_MECHANISM_TYPE wrapType, SECItem *param, SECItem *wrappedKey, CK_MECHANISM_TYPE target, CK_ATTRIBUTE_TYPE operation, int keySize, CK_FLAGS flags, PRBool isPerm); /* * unwrap a new key with a private key. * PK11_PubUnwrap returns a key which can do exactly one operation, and is * ephemeral (session key). * PK11_PubUnwrapWithFlagsPerm is the same as PK11_PubUnwrap except you can * use * CKF_ flags to enable more than one operation, and optionally make * the key permanent (token key). */ PK11SymKey *PK11_PubUnwrapSymKey(SECKEYPrivateKey *key, SECItem *wrapppedKey, CK_MECHANISM_TYPE target, CK_ATTRIBUTE_TYPE operation, int keySize); PK11SymKey *PK11_PubUnwrapSymKeyWithMechanism(SECKEYPrivateKey *key, CK_MECHANISM_TYPE mechType, SECItem *param, SECItem *wrapppedKey, CK_MECHANISM_TYPE target, CK_ATTRIBUTE_TYPE operation, int keySize); PK11SymKey *PK11_PubUnwrapSymKeyWithFlagsPerm(SECKEYPrivateKey *wrappingKey, SECItem *wrappedKey, CK_MECHANISM_TYPE target, CK_ATTRIBUTE_TYPE operation, int keySize, CK_FLAGS flags, PRBool isPerm); PK11SymKey *PK11_FindFixedKey(PK11SlotInfo *slot, CK_MECHANISM_TYPE type, SECItem *keyID, void *wincx); SECStatus PK11_DeleteTokenPrivateKey(SECKEYPrivateKey *privKey, PRBool force); SECStatus PK11_DeleteTokenPublicKey(SECKEYPublicKey *pubKey); SECStatus PK11_DeleteTokenSymKey(PK11SymKey *symKey); SECStatus PK11_DeleteTokenCertAndKey(CERTCertificate *cert, void *wincx); SECKEYPrivateKey *PK11_LoadPrivKey(PK11SlotInfo *slot, SECKEYPrivateKey *privKey, SECKEYPublicKey *pubKey, PRBool token, PRBool sensitive); char *PK11_GetSymKeyNickname(PK11SymKey *symKey); char *PK11_GetPrivateKeyNickname(SECKEYPrivateKey *privKey); char *PK11_GetPublicKeyNickname(SECKEYPublicKey *pubKey); SECStatus PK11_SetSymKeyNickname(PK11SymKey *symKey, const char *nickname); SECStatus PK11_SetPrivateKeyNickname(SECKEYPrivateKey *privKey, const char *nickname); SECStatus PK11_SetPublicKeyNickname(SECKEYPublicKey *pubKey, const char *nickname); /* * Using __PK11_SetCertificateNickname is *DANGEROUS*. * * The API will update the NSS database, but it *will NOT* update the in-memory data. * As a result, after calling this API, there will be INCONSISTENCY between * in-memory data and the database. * * Use of the API should be limited to short-lived tools, which will exit immediately * after using this API. * * If you ignore this warning, your process is TAINTED and will most likely misbehave. */ SECStatus __PK11_SetCertificateNickname(CERTCertificate *cert, const char *nickname); /* size to hold key in bytes */ unsigned int PK11_GetKeyLength(PK11SymKey *key); /* size of actual secret parts of key in bits */ /* algid is because RC4 strength is determined by the effective bits as well * as the key bits */ unsigned int PK11_GetKeyStrength(PK11SymKey *key, SECAlgorithmID *algid); SECStatus PK11_ExtractKeyValue(PK11SymKey *symKey); SECItem *PK11_GetKeyData(PK11SymKey *symKey); PK11SlotInfo *PK11_GetSlotFromKey(PK11SymKey *symKey); void *PK11_GetWindow(PK11SymKey *symKey); /* * Explicitly set the key usage for the generated private key. * * This allows us to specify single use EC and RSA keys whose usage * can be regulated by the underlying token. * * The underlying key usage is set using opFlags. opFlagsMask specifies * which operations are specified by opFlags. For instance to turn encrypt * on and signing off, opFlags would be CKF_ENCRYPT|CKF_DECRYPT and * opFlagsMask would be CKF_ENCRYPT|CKF_DECRYPT|CKF_SIGN|CKF_VERIFY. You * need to specify both the public and private key flags, * PK11_GenerateKeyPairWithOpFlags will sort out the correct flag to the * correct key type. Flags not specified in opFlagMask will be defaulted * according to mechanism type and token capabilities. */ SECKEYPrivateKey *PK11_GenerateKeyPairWithOpFlags(PK11SlotInfo *slot, CK_MECHANISM_TYPE type, void *param, SECKEYPublicKey **pubk, PK11AttrFlags attrFlags, CK_FLAGS opFlags, CK_FLAGS opFlagsMask, void *wincx); /* * The attrFlags is the logical OR of the PK11_ATTR_XXX bitflags. * These flags apply to the private key. The PK11_ATTR_TOKEN, * PK11_ATTR_SESSION, PK11_ATTR_MODIFIABLE, and PK11_ATTR_UNMODIFIABLE * flags also apply to the public key. */ SECKEYPrivateKey *PK11_GenerateKeyPairWithFlags(PK11SlotInfo *slot, CK_MECHANISM_TYPE type, void *param, SECKEYPublicKey **pubk, PK11AttrFlags attrFlags, void *wincx); SECKEYPrivateKey *PK11_GenerateKeyPair(PK11SlotInfo *slot, CK_MECHANISM_TYPE type, void *param, SECKEYPublicKey **pubk, PRBool isPerm, PRBool isSensitive, void *wincx); SECKEYPrivateKey *PK11_FindPrivateKeyFromCert(PK11SlotInfo *slot, CERTCertificate *cert, void *wincx); SECKEYPrivateKey *PK11_FindKeyByAnyCert(CERTCertificate *cert, void *wincx); SECKEYPrivateKey *PK11_FindKeyByKeyID(PK11SlotInfo *slot, SECItem *keyID, void *wincx); int PK11_GetPrivateModulusLen(SECKEYPrivateKey *key); SECStatus PK11_Decrypt(PK11SymKey *symkey, CK_MECHANISM_TYPE mechanism, SECItem *param, unsigned char *out, unsigned int *outLen, unsigned int maxLen, const unsigned char *enc, unsigned int encLen); SECStatus PK11_Encrypt(PK11SymKey *symKey, CK_MECHANISM_TYPE mechanism, SECItem *param, unsigned char *out, unsigned int *outLen, unsigned int maxLen, const unsigned char *data, unsigned int dataLen); /* note: despite the name, this function takes a private key. */ SECStatus PK11_PubDecryptRaw(SECKEYPrivateKey *key, unsigned char *data, unsigned *outLen, unsigned int maxLen, const unsigned char *enc, unsigned encLen); #define PK11_PrivDecryptRaw PK11_PubDecryptRaw /* The encrypt function that complements the above decrypt function. */ SECStatus PK11_PubEncryptRaw(SECKEYPublicKey *key, unsigned char *enc, const unsigned char *data, unsigned dataLen, void *wincx); SECStatus PK11_PrivDecryptPKCS1(SECKEYPrivateKey *key, unsigned char *data, unsigned *outLen, unsigned int maxLen, const unsigned char *enc, unsigned encLen); /* The encrypt function that complements the above decrypt function. */ SECStatus PK11_PubEncryptPKCS1(SECKEYPublicKey *key, unsigned char *enc, const unsigned char *data, unsigned dataLen, void *wincx); SECStatus PK11_PrivDecrypt(SECKEYPrivateKey *key, CK_MECHANISM_TYPE mechanism, SECItem *param, unsigned char *out, unsigned int *outLen, unsigned int maxLen, const unsigned char *enc, unsigned int encLen); SECStatus PK11_PubEncrypt(SECKEYPublicKey *key, CK_MECHANISM_TYPE mechanism, SECItem *param, unsigned char *out, unsigned int *outLen, unsigned int maxLen, const unsigned char *data, unsigned int dataLen, void *wincx); SECStatus PK11_ImportPrivateKeyInfo(PK11SlotInfo *slot, SECKEYPrivateKeyInfo *pki, SECItem *nickname, SECItem *publicValue, PRBool isPerm, PRBool isPrivate, unsigned int usage, void *wincx); SECStatus PK11_ImportPrivateKeyInfoAndReturnKey(PK11SlotInfo *slot, SECKEYPrivateKeyInfo *pki, SECItem *nickname, SECItem *publicValue, PRBool isPerm, PRBool isPrivate, unsigned int usage, SECKEYPrivateKey **privk, void *wincx); SECStatus PK11_ImportDERPrivateKeyInfo(PK11SlotInfo *slot, SECItem *derPKI, SECItem *nickname, SECItem *publicValue, PRBool isPerm, PRBool isPrivate, unsigned int usage, void *wincx); SECStatus PK11_ImportDERPrivateKeyInfoAndReturnKey(PK11SlotInfo *slot, SECItem *derPKI, SECItem *nickname, SECItem *publicValue, PRBool isPerm, PRBool isPrivate, unsigned int usage, SECKEYPrivateKey **privk, void *wincx); SECStatus PK11_ImportEncryptedPrivateKeyInfo(PK11SlotInfo *slot, SECKEYEncryptedPrivateKeyInfo *epki, SECItem *pwitem, SECItem *nickname, SECItem *publicValue, PRBool isPerm, PRBool isPrivate, KeyType type, unsigned int usage, void *wincx); SECStatus PK11_ImportEncryptedPrivateKeyInfoAndReturnKey(PK11SlotInfo *slot, SECKEYEncryptedPrivateKeyInfo *epki, SECItem *pwitem, SECItem *nickname, SECItem *publicValue, PRBool isPerm, PRBool isPrivate, KeyType type, unsigned int usage, SECKEYPrivateKey **privk, void *wincx); SECItem *PK11_ExportDERPrivateKeyInfo(SECKEYPrivateKey *pk, void *wincx); SECKEYPrivateKeyInfo *PK11_ExportPrivKeyInfo( SECKEYPrivateKey *pk, void *wincx); SECKEYPrivateKeyInfo *PK11_ExportPrivateKeyInfo( CERTCertificate *cert, void *wincx); SECKEYEncryptedPrivateKeyInfo *PK11_ExportEncryptedPrivKeyInfo( PK11SlotInfo *slot, SECOidTag algTag, SECItem *pwitem, SECKEYPrivateKey *pk, int iteration, void *pwArg); SECKEYEncryptedPrivateKeyInfo *PK11_ExportEncryptedPrivateKeyInfo( PK11SlotInfo *slot, SECOidTag algTag, SECItem *pwitem, CERTCertificate *cert, int iteration, void *pwArg); /* V2 refers to PKCS #5 V2 here. If a PKCS #5 v1 or PKCS #12 pbe is passed * for pbeTag, then encTag and hashTag are ignored. If pbe is an encryption * algorithm, then PKCS #5 V2 is used with prfTag for the prf. If prfTag isn't * supplied prf will be SEC_OID_HMAC_SHA1 */ SECKEYEncryptedPrivateKeyInfo *PK11_ExportEncryptedPrivKeyInfoV2( PK11SlotInfo *slot, SECOidTag pbeTag, SECOidTag encTag, SECOidTag prfTag, SECItem *pwitem, SECKEYPrivateKey *pk, int iteration, void *pwArg); SECKEYEncryptedPrivateKeyInfo *PK11_ExportEncryptedPrivateKeyInfoV2( PK11SlotInfo *slot, SECOidTag pbeTag, SECOidTag encTag, SECOidTag prfTag, SECItem *pwitem, CERTCertificate *cert, int iteration, void *pwArg); SECKEYPrivateKey *PK11_FindKeyByDERCert(PK11SlotInfo *slot, CERTCertificate *cert, void *wincx); SECKEYPublicKey *PK11_MakeKEAPubKey(unsigned char *data, int length); SECStatus PK11_DigestKey(PK11Context *context, PK11SymKey *key); PRBool PK11_VerifyKeyOK(PK11SymKey *key); SECKEYPrivateKey *PK11_UnwrapPrivKey(PK11SlotInfo *slot, PK11SymKey *wrappingKey, CK_MECHANISM_TYPE wrapType, SECItem *param, SECItem *wrappedKey, SECItem *label, SECItem *publicValue, PRBool token, PRBool sensitive, CK_KEY_TYPE keyType, CK_ATTRIBUTE_TYPE *usage, int usageCount, void *wincx); SECStatus PK11_WrapPrivKey(PK11SlotInfo *slot, PK11SymKey *wrappingKey, SECKEYPrivateKey *privKey, CK_MECHANISM_TYPE wrapType, SECItem *param, SECItem *wrappedKey, void *wincx); /* * The caller of PK11_DEREncodePublicKey should free the returned SECItem with * a SECITEM_FreeItem(..., PR_TRUE) call. */ SECItem *PK11_DEREncodePublicKey(const SECKEYPublicKey *pubk); PK11SymKey *PK11_CopySymKeyForSigning(PK11SymKey *originalKey, CK_MECHANISM_TYPE mech); SECKEYPrivateKeyList *PK11_ListPrivKeysInSlot(PK11SlotInfo *slot, char *nickname, void *wincx); SECKEYPublicKeyList *PK11_ListPublicKeysInSlot(PK11SlotInfo *slot, char *nickname); SECKEYPQGParams *PK11_GetPQGParamsFromPrivateKey(SECKEYPrivateKey *privKey); /* deprecated */ SECKEYPrivateKeyList *PK11_ListPrivateKeysInSlot(PK11SlotInfo *slot); PK11SymKey *PK11_ConvertSessionSymKeyToTokenSymKey(PK11SymKey *symk, void *wincx); SECKEYPrivateKey *PK11_ConvertSessionPrivKeyToTokenPrivKey( SECKEYPrivateKey *privk, void *wincx); SECKEYPrivateKey *PK11_CopyTokenPrivKeyToSessionPrivKey(PK11SlotInfo *destSlot, SECKEYPrivateKey *privKey); /********************************************************************** * Certs **********************************************************************/ SECItem *PK11_MakeIDFromPubKey(SECItem *pubKeyData); SECStatus PK11_TraverseSlotCerts( SECStatus (*callback)(CERTCertificate *, SECItem *, void *), void *arg, void *wincx); CERTCertificate *PK11_FindCertFromNickname(const char *nickname, void *wincx); CERTCertificate *PK11_FindCertFromURI(const char *uri, void *wincx); CERTCertList *PK11_FindCertsFromURI(const char *uri, void *wincx); CERTCertList *PK11_FindCertsFromEmailAddress(const char *email, void *wincx); CERTCertList *PK11_FindCertsFromNickname(const char *nickname, void *wincx); CERTCertificate *PK11_GetCertFromPrivateKey(SECKEYPrivateKey *privKey); SECStatus PK11_ImportCert(PK11SlotInfo *slot, CERTCertificate *cert, CK_OBJECT_HANDLE key, const char *nickname, PRBool includeTrust); SECStatus PK11_ImportDERCert(PK11SlotInfo *slot, SECItem *derCert, CK_OBJECT_HANDLE key, char *nickname, PRBool includeTrust); PK11SlotInfo *PK11_ImportCertForKey(CERTCertificate *cert, const char *nickname, void *wincx); PK11SlotInfo *PK11_ImportDERCertForKey(SECItem *derCert, char *nickname, void *wincx); PK11SlotInfo *PK11_KeyForCertExists(CERTCertificate *cert, CK_OBJECT_HANDLE *keyPtr, void *wincx); PK11SlotInfo *PK11_KeyForDERCertExists(SECItem *derCert, CK_OBJECT_HANDLE *keyPtr, void *wincx); CERTCertificate *PK11_FindCertByIssuerAndSN(PK11SlotInfo **slot, CERTIssuerAndSN *sn, void *wincx); CERTCertificate *PK11_FindCertAndKeyByRecipientList(PK11SlotInfo **slot, SEC_PKCS7RecipientInfo **array, SEC_PKCS7RecipientInfo **rip, SECKEYPrivateKey **privKey, void *wincx); int PK11_FindCertAndKeyByRecipientListNew(NSSCMSRecipient **recipientlist, void *wincx); SECStatus PK11_TraverseCertsForSubjectInSlot(CERTCertificate *cert, PK11SlotInfo *slot, SECStatus (*callback)(CERTCertificate *, void *), void *arg); CERTCertificate *PK11_FindCertFromDERCert(PK11SlotInfo *slot, CERTCertificate *cert, void *wincx); CERTCertificate *PK11_FindCertFromDERCertItem(PK11SlotInfo *slot, const SECItem *derCert, void *wincx); SECStatus PK11_ImportCertForKeyToSlot(PK11SlotInfo *slot, CERTCertificate *cert, char *nickname, PRBool addUsage, void *wincx); CERTCertificate *PK11_FindBestKEAMatch(CERTCertificate *serverCert, void *wincx); PRBool PK11_FortezzaHasKEA(CERTCertificate *cert); CK_OBJECT_HANDLE PK11_FindEncodedCertInSlot(PK11SlotInfo *slot, SECItem *derCert, voi CK_OBJECT_HANDLE PK11_FindCertInSlot(PK11SlotInfo *slot, CERTCertificate *cert, void *wincx); CK_OBJECT_HANDLE PK11_FindObjectForCert(CERTCertificate *cert, void *wincx, PK11SlotInfo **pSlot); SECStatus PK11_TraverseCertsForNicknameInSlot(SECItem *nickname, PK11SlotInfo *slot, SECStatus (*callback)(CERTCertificate *, void *), void *arg); CERTCertList *PK11_ListCerts(PK11CertListType type, void *pwarg); CERTCertList *PK11_ListCertsInSlot(PK11SlotInfo *slot); CERTSignedCrl *PK11_ImportCRL(PK11SlotInfo *slot, SECItem *derCRL, char *url, int type, void *wincx, PRInt32 importOptions, PLArenaPool *arena, PRInt32 decodeOptions); CK_BBOOL PK11_HasAttributeSet(PK11SlotInfo *slot, CK_OBJECT_HANDLE id, CK_ATTRIBUTE_TYPE type, PRBool haslock /* must be set to PR_FALSE */); /********************************************************************** * Hybrid Public Key Encryption **********************************************************************/ /* Some of the various HPKE arguments would ideally be const, but the * underlying PK11 functions take them as non-const. To avoid lying to * the application with a cast, this idiosyncrasy is exposed. */ SECStatus PK11_HPKE_ValidateParameters(HpkeKemId kemId, HpkeKdfId kdfId, HpkeAeadId ae HpkeContext *PK11_HPKE_NewContext(HpkeKemId kemId, HpkeKdfId kdfId, HpkeAeadId aeadId, PK11SymKey *psk, const SECItem *pskId); SECStatus PK11_HPKE_Deserialize(const HpkeContext *cx, const PRUint8 *enc, unsigned int encLen, SECKEYPublicKey **outPubKey); void PK11_HPKE_DestroyContext(HpkeContext *cx, PRBool freeit); /* Serialize an initialized receiver context. This only retains the keys and * associated information necessary to resume Export and Open operations after * import. Serialization is currently supported for receiver contexts only. * This is done for two reasons: 1) it avoids having to move the encryption * sequence number outside of the token (or adding encryption context * serialization support to softoken), and 2) we don't have to worry about IV * reuse due to sequence number cloning. * * |wrapKey| is required when exporting in FIPS mode. If exported with a * wrapping key, that same key must be provided to the import function, * otherwise behavior is undefined. * * Even when exported with key wrap, HPKE expects the nonce to also be kept * secret and that value is not protected by wrapKey. Applications are * responsible for maintaining the confidentiality of the exported information. */ SECStatus PK11_HPKE_ExportContext(const HpkeContext *cx, PK11SymKey *wrapKey, SECItem * SECStatus PK11_HPKE_ExportSecret(const HpkeContext *cx, const SECItem *info, unsigned in PK11SymKey **outKey); const SECItem *PK11_HPKE_GetEncapPubKey(const HpkeContext *cx); HpkeContext *PK11_HPKE_ImportContext(const SECItem *serialized, PK11SymKey *wrapKey); SECStatus PK11_HPKE_Open(HpkeContext *cx, const SECItem *aad, const SECItem *ct, SECItem * SECStatus PK11_HPKE_Seal(HpkeContext *cx, const SECItem *aad, const SECItem *pt, SECItem * SECStatus PK11_HPKE_Serialize(const SECKEYPublicKey *pk, PRUint8 *buf, unsigned int *len SECStatus PK11_HPKE_SetupS(HpkeContext *cx, const SECKEYPublicKey *pkE, SECKEYPrivateK SECKEYPublicKey *pkR, const SECItem *info); SECStatus PK11_HPKE_SetupR(HpkeContext *cx, const SECKEYPublicKey *pkR, SECKEYPrivateK const SECItem *enc, const SECItem *info); /********************************************************************** * Sign/Verify **********************************************************************/ /* * Return the length in bytes of a signature generated with the * private key. * * Return 0 or -1 on failure. (XXX Should we fix it to always return * -1 on failure?) */ int PK11_SignatureLen(SECKEYPrivateKey *key); PK11SlotInfo *PK11_GetSlotFromPrivateKey(SECKEYPrivateKey *key); SECStatus PK11_Sign(SECKEYPrivateKey *key, SECItem *sig, const SECItem *hash); SECStatus PK11_SignWithMechanism(SECKEYPrivateKey *key, CK_MECHANISM_TYPE mechanism, const SECItem *param, SECItem *sig, const SECItem *hash); SECStatus PK11_SignWithSymKey(PK11SymKey *symKey, CK_MECHANISM_TYPE mechanism, SECItem *param, SECItem *sig, const SECItem *data); SECStatus PK11_VerifyRecover(SECKEYPublicKey *key, const SECItem *sig, SECItem *dsig, void *wincx); SECStatus PK11_Verify(SECKEYPublicKey *key, const SECItem *sig, const SECItem *hash, void *wincx); SECStatus PK11_VerifyWithMechanism(SECKEYPublicKey *key, CK_MECHANISM_TYPE mechanism, const SECItem *param, const SECItem *sig, const SECItem *hash, void *wincx); /********************************************************************** * Key Encapsulation Mechanisms **********************************************************************/ /* * Using the given |pubKey|, generate a shared secret in |outKey| and an * encapsulation of it in |ciphertext|. |outKey| will have usage attributes as * specified in |attrFlags| and operation attributes as specified in |opFlags|. * * The function asserts that |pubKey|, |outKey|, and |ciphertext| are not NULL. * If an error occurs, no allocations are made to |outKey| and |ciphertext|; * otherwise (if SECSuccess is returned) allocations are made to |outKey| and * |ciphertext| and the caller is responsible for freeing the memory occupied * by these structures. */ SECStatus PK11_Encapsulate(SECKEYPublicKey *pubKey, CK_MECHANISM_TYPE target, PK11AttrFlags attrFlags, CK_FLAGS opFlags, PK11SymKey **outKey, SECItem **outCiphertext); /* * Using the given |privKey|, decapsulate |ciphertext| and put the resulting * shared secret in |outKey|. |outKey| will have usage attributes as specified * in |attrFlags| and operation attributes as specified in |opFlags|. * * The function asserts that |privKey|, |ciphertext|, and |outKey| are not NULL. * If an error occurs, |outKey| is not allocated; otherwise (if SECSuccess is * returned) |outKey| is allocated and the caller is responsible for freeing * the memory occupied by it. */ SECStatus PK11_Decapsulate(SECKEYPrivateKey *privKey, const SECItem *ciphertext, CK_MECHANISM_TYPE target, PK11AttrFlags attrFlags, CK_FLAGS opFlags, PK11SymKey **outKey); /********************************************************************** * Crypto Contexts **********************************************************************/ void PK11_DestroyContext(PK11Context *context, PRBool freeit); PK11Context *PK11_CreateContextBySymKey(CK_MECHANISM_TYPE type, CK_ATTRIBUTE_TYPE operation, PK11SymKey *symKey, const SECItem *param); PK11Context *PK11_CreateContextByPubKey(CK_MECHANISM_TYPE type, CK_ATTRIBUTE_TYPE operation, SECKEYPublicKey *pubKey, const SECItem *param, void *pwArg); PK11Context *PK11_CreateContextByPrivKey(CK_MECHANISM_TYPE type, CK_ATTRIBUTE_TYPE operation, SECKEYPrivateKey *privKey, const SECItem *param); PK11Context *PK11_CreateDigestContext(SECOidTag hashAlg); PK11Context *PK11_CloneContext(PK11Context *old); SECStatus PK11_DigestBegin(PK11Context *cx); /* * The output buffer 'out' must be big enough to hold the output of * the hash algorithm 'hashAlg'. */ SECStatus PK11_HashBuf(SECOidTag hashAlg, unsigned char *out, const unsigned char *in, PRInt32 len); SECStatus PK11_DigestOp(PK11Context *context, const unsigned char *in, unsigned len); SECStatus PK11_CipherOp(PK11Context *context, unsigned char *out, int *outlen, int maxout, const unsigned char *in, int inlen); /* application builds the mechanism specific params */ SECStatus PK11_AEADRawOp(PK11Context *context, void *params, int paramslen, const unsigned char *aad, int aadlen, unsigned char *out, int *outlen, int maxout, const unsigned char *in, int inlen); /* NSS builds the mechanism specific params */ SECStatus PK11_AEADOp(PK11Context *context, CK_GENERATOR_FUNCTION ivGen, int fixedbits, unsigned char *iv, int ivlen, const unsigned char *aad, int aadlen, unsigned char *out, int *outlen, int maxout, unsigned char *tag, int taglen, const unsigned char *in, int inlen); SECStatus PK11_Finalize(PK11Context *context); SECStatus PK11_DigestFinal(PK11Context *context, unsigned char *data, unsigned int *outLen, unsigned int length); #define PK11_CipherFinal PK11_DigestFinal SECStatus PK11_SaveContext(PK11Context *cx, unsigned char *save, int *len, int saveLength); /* Save the context's state, with possible allocation. * The caller may supply an already allocated buffer in preAllocBuf, * with length pabLen. If the buffer is large enough for the context's * state, it will receive the state. * If the buffer is not large enough (or NULL), then a new buffer will * be allocated with PORT_Alloc. * In either case, the state will be returned as a buffer, and the length * of the state will be given in *stateLen. */ unsigned char * PK11_SaveContextAlloc(PK11Context *cx, unsigned char *preAllocBuf, unsigned int pabLen, unsigned int *stateLen); SECStatus PK11_RestoreContext(PK11Context *cx, unsigned char *save, int len); SECStatus PK11_GenerateFortezzaIV(PK11SymKey *symKey, unsigned char *iv, int len); void PK11_SetFortezzaHack(PK11SymKey *symKey); /********************************************************************** * PBE functions **********************************************************************/ /* This function creates PBE parameters from the given inputs. The result * can be used to create a password integrity key for PKCS#12, by sending * the return value to PK11_KeyGen along with the appropriate mechanism. */ SECItem * PK11_CreatePBEParams(SECItem *salt, SECItem *pwd, unsigned int iterations); /* free params created above (can be called after keygen is done */ void PK11_DestroyPBEParams(SECItem *params); SECAlgorithmID * PK11_CreatePBEAlgorithmID(SECOidTag algorithm, int iteration, SECItem *salt); /* use to create PKCS5 V2 algorithms with finder control than that provided * by PK11_CreatePBEAlgorithmID. */ SECAlgorithmID * PK11_CreatePBEV2AlgorithmID(SECOidTag pbeAlgTag, SECOidTag cipherAlgTag, SECOidTag prfAlgTag, int keyLength, int iteration, SECItem *salt); PK11SymKey * PK11_PBEKeyGen(PK11SlotInfo *slot, SECAlgorithmID *algid, SECItem *pwitem, PRBool faulty3DES, void *wincx); /* warning: cannot work with PKCS 5 v2 use PK11_PBEKeyGen instead */ PK11SymKey * PK11_RawPBEKeyGen(PK11SlotInfo *slot, CK_MECHANISM_TYPE type, SECItem *params, SECItem *pwitem, PRBool faulty3DES, void *wincx); SECItem * PK11_GetPBEIV(SECAlgorithmID *algid, SECItem *pwitem); /* * Get the Mechanism and parameter of the base encryption or mac scheme from * a PBE algorithm ID. * Caller is responsible for freeing the return parameter (param). */ CK_MECHANISM_TYPE PK11_GetPBECryptoMechanism(SECAlgorithmID *algid, SECItem **param, SECItem *pwd); /********************************************************************** * Functions to manage secmod flags **********************************************************************/ const PK11DefaultArrayEntry *PK11_GetDefaultArray(int *size); SECStatus PK11_UpdateSlotAttribute(PK11SlotInfo *slot, const PK11DefaultArrayEntry *entry, PRBool add); /********************************************************************** * Functions to look at PKCS #11 dependent data **********************************************************************/ PK11GenericObject *PK11_FindGenericObjects(PK11SlotInfo *slot, CK_OBJECT_CLASS objClass); PK11GenericObject *PK11_GetNextGenericObject(PK11GenericObject *object); PK11GenericObject *PK11_GetPrevGenericObject(PK11GenericObject *object); SECStatus PK11_UnlinkGenericObject(PK11GenericObject *object); SECStatus PK11_LinkGenericObject(PK11GenericObject *list, PK11GenericObject *object); SECStatus PK11_DestroyGenericObjects(PK11GenericObject *object); SECStatus PK11_DestroyGenericObject(PK11GenericObject *object); PK11GenericObject *PK11_CreateManagedGenericObject(PK11SlotInfo *slot, const CK_ATTRIBUTE *pTemplate, int count, PRBool token); /* deprecated */ PK11GenericObject *PK11_CreateGenericObject(PK11SlotInfo *slot, const CK_ATTRIBUTE *pTemplate, int count, PRBool token); /* * PK11_ReadRawAttribute and PK11_WriteRawAttribute are generic * functions to read and modify the actual PKCS #11 attributes of * the underlying pkcs #11 object. * * object is a pointer to an NSS object that represents the underlying * PKCS #11 object. It's type must match the type of PK11ObjectType * as follows: * * type object * PK11_TypeGeneric PK11GenericObject * * PK11_TypePrivKey SECKEYPrivateKey * * PK11_TypePubKey SECKEYPublicKey * * PK11_TypeSymKey PK11SymKey * * * All other types are considered invalid. If type does not match the object * passed, unpredictable results will occur. * * PK11_ReadRawAttribute allocates the buffer for returning the attribute * value. The caller of PK11_ReadRawAttribute should free the data buffer * pointed to by item using a SECITEM_FreeItem(item, PR_FALSE) or * PORT_Free(item->data) call. */ SECStatus PK11_ReadRawAttribute(PK11ObjectType type, void *object, CK_ATTRIBUTE_TYPE attr, SECItem *item); SECStatus PK11_ReadRawAttributes(PLArenaPool *arena, PK11ObjectType type, void *object CK_ATTRIBUTE *pTemplate, unsigned int count); SECStatus PK11_WriteRawAttribute(PK11ObjectType type, void *object, CK_ATTRIBUTE_TYPE attr, SECItem *item); /* get the PKCS #11 handle and slot for a generic object */ CK_OBJECT_HANDLE PK11_GetObjectHandle(PK11ObjectType objType, void *objSpec, PK11SlotInfo **slotp); /* PK11_ReadDistrustAfterAttribute reads either the * CKA_NSS_SERVER_DISTRUST_AFTER or the CKA_NSS_EMAIL_DISTRUST_AFTER attribute * from the specified object. The "CK_ATTRIBUTE_TYPE type" input must be one of * these. If this function returns SECSuccess, then an attribute of the * requested type was found and it was either: * (1) a single zero byte (indicating no distrust after date), or * (2) a valid 13 byte UTCTime. * In case (1), the value *distrusted is set to PR_FALSE and the value *time * is undefined. In case (2), the value *distrusted is set to PR_TRUE and the * value *time is set by DER_UTCTimeToTime(). Neither *distrusted nor *time * is defined if this function returns SECFailure. */ SECStatus PK11_ReadDistrustAfterAttribute(PK11SlotInfo *slot, CK_OBJECT_HANDLE object, CK_ATTRIBUTE_TYPE type, /* out */ PRBool *distrusted, /* out */ PRTime *time); /* * PK11_GetAllSlotsForCert returns all the slots that a given certificate * exists on, since it's possible for a cert to exist on more than one * PKCS#11 token. */ PK11SlotList * PK11_GetAllSlotsForCert(CERTCertificate *cert, void *arg); /* * Finds all certificates on the given slot with the given subject distinguished * name and returns them as DER bytes. If no such certificates can be found, * returns SECSuccess and sets *results to NULL. If a failure is encountered * while fetching any of the matching certificates, SECFailure is returned and * *results will be NULL. */ SECStatus PK11_FindRawCertsWithSubject(PK11SlotInfo *slot, SECItem *derSubject, CERTCertificateList **results); /* * Finds and returns all certificates with a public key that matches the given * private key. May return an empty list if no certificates match. Returns NULL * if a failure is encountered. */ CERTCertList * PK11_GetCertsMatchingPrivateKey(SECKEYPrivateKey *privKey); /********************************************************************** * New functions which are already deprecated.... **********************************************************************/ SECItem * PK11_GetLowLevelKeyIDForCert(PK11SlotInfo *slot, CERTCertificate *cert, void *pwarg); SECItem * PK11_GetLowLevelKeyIDForPrivateKey(SECKEYPrivateKey *key); PRBool SECMOD_HasRootCerts(void); /********************************************************************** * Other Utilities **********************************************************************/ /* * Get the state of the system FIPS mode - * NSS uses this to force FIPS mode if the system bit is on. This returns * the system state independent of the database state and can be called * before NSS initializes. */ int SECMOD_GetSystemFIPSEnabled(void); /* FIPS indicator functions. Some operations are physically allowed, but * are against the NSS FIPS security policy. This is because sometimes NSS * functions are used in non-security contexts. You can call these functions * to determine if you are operating inside or outside the the current vendor's * FIPS Security Policy for NSS. NOTE: if the current version of NSS is not * actually FIPS certified, then these functions will always return PR_FALSE */ /* This function tells if if the last single shot operation on the slot * was inside or outside the FIPS security policy */ PRBool PK11_SlotGetLastFIPSStatus(PK11SlotInfo *slot); /* This tells you if the current operation is within the FIPS security policy. If * you have called finalize on the context, it tells you if the last operation * was within the FIPS security policy */ PRBool PK11_ContextGetFIPSStatus(PK11Context *context); /* This tells you if the requested object was created in accordance to the * NSS FIPS security policy. */ PRBool PK11_ObjectGetFIPSStatus(PK11ObjectType objType, void *objSpec); SEC_END_PROTOS #endif
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