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#include "nssckmdt.h"
#include "nssckfw.h"
#include "ckfwtm.h"
#include "ckfw.h"
#include "secder.h"
#include "secoid.h"
#include "secasn1.h"
#include "blapit.h"
#include "softoken.h"
/*
* I'm including this for access to the arena functions.
* Looks like we should publish that API.
*/
#ifndef BASE_H
#include "base.h"
#endif /* BASE_H */
/*
* This is where the Netscape extensions live, at least for now.
*/
#ifndef CKT_H
#include "ckt.h"
#endif /* CKT_H */
#define NUM_SLOTS 8
/*
* statically defined raw objects. Allows us to data description objects
* to this PKCS #11 module.
*/
struct pemRawObjectStr {
CK_ULONG n;
const CK_ATTRIBUTE_TYPE *types;
const NSSItem *items;
};
typedef struct pemRawObjectStr pemRawObject;
/*
* common values needed for both bare keys and cert referenced keys.
*/
struct pemKeyParamsStr {
NSSItem modulus;
NSSItem exponent;
NSSItem privateExponent;
NSSItem prime1;
NSSItem prime2;
NSSItem exponent1;
NSSItem exponent2;
NSSItem coefficient;
unsigned char publicExponentData[sizeof(CK_ULONG)];
SECItem *privateKey;
void *pubKey;
};
typedef struct pemKeyParamsStr pemKeyParams;
/*
* Key objects. Handles bare keys which do not yet have certs associated
* with them. These are usually short lived, but may exist for several days
* while the CA is issuing the certificate.
*/
struct pemKeyObjectStr {
char *provName;
char *containerName;
pemKeyParams key;
char *ivstring;
int cipher;
};
typedef struct pemKeyObjectStr pemKeyObject;
/*
* Certificate and certificate referenced keys.
*/
struct pemCertObjectStr {
const char *certStore;
NSSItem label;
NSSItem subject;
NSSItem issuer;
NSSItem serial;
NSSItem derCert;
unsigned char sha1_hash[SHA1_LENGTH];
unsigned char md5_hash[MD5_LENGTH];
pemKeyParams key;
unsigned char *labelData;
/* static data: to do, make this dynamic like labelData */
unsigned char derSerial[128];
};
typedef struct pemCertObjectStr pemCertObject;
/*
* Trust
*/
struct pemTrustObjectStr {
char *nickname;
};
typedef struct pemTrustObjectStr pemTrustObject;
typedef enum {
pemRaw,
pemCert,
pemBareKey,
pemTrust
} pemObjectType;
/*
* all the various types of objects are abstracted away in cobject and
* cfind as pemInternalObjects.
*/
struct pemInternalObjectStr {
pemObjectType type;
union {
pemRawObject raw;
pemCertObject cert;
pemKeyObject key;
pemTrustObject trust;
} u;
CK_OBJECT_CLASS objClass;
NSSItem hashKey;
NSSItem id;
void *idData;
unsigned char hashKeyData[128];
SECItem *derCert;
char *nickname;
NSSCKMDObject mdObject;
CK_SLOT_ID slotID;
};
typedef struct pemInternalObjectStr pemInternalObject;
struct pemTokenStr {
PRBool logged_in;
};
typedef struct pemTokenStr pemToken;
/* our raw object data array */
NSS_EXTERN_DATA pemInternalObject nss_pem_data[];
NSS_EXTERN_DATA const PRUint32 nss_pem_nObjects;
PRBool logged_in;
/* our raw object data array */
NSS_EXTERN_DATA pemInternalObject nss_pem_data[];
NSS_EXTERN_DATA const PRUint32 nss_pem_nObjects;
NSS_EXTERN_DATA pemInternalObject pem_data[];
NSS_EXTERN_DATA const PRUint32 pem_nObjects;
NSS_EXTERN_DATA const CK_VERSION pem_CryptokiVersion;
NSS_EXTERN_DATA const NSSUTF8 * pem_ManufacturerID;
NSS_EXTERN_DATA const NSSUTF8 * pem_LibraryDescription;
NSS_EXTERN_DATA const CK_VERSION pem_LibraryVersion;
NSS_EXTERN_DATA const NSSUTF8 * pem_SlotDescription;
NSS_EXTERN_DATA const CK_VERSION pem_HardwareVersion;
NSS_EXTERN_DATA const CK_VERSION pem_FirmwareVersion;
NSS_EXTERN_DATA const NSSUTF8 * pem_TokenLabel;
NSS_EXTERN_DATA const NSSUTF8 * pem_TokenModel;
NSS_EXTERN_DATA const NSSUTF8 * pem_TokenSerialNumber;
NSS_EXTERN_DATA const NSSCKMDInstance pem_mdInstance;
NSS_EXTERN_DATA const NSSCKMDSlot pem_mdSlot;
NSS_EXTERN_DATA const NSSCKMDToken pem_mdToken;
NSS_EXTERN_DATA const NSSCKMDMechanism pem_mdMechanismRSA;
NSS_EXTERN NSSCKMDSession *
pem_CreateSession
(
NSSCKFWSession *fwSession,
CK_RV *pError
);
NSS_EXTERN NSSCKMDFindObjects *
pem_FindObjectsInit
(
NSSCKFWSession *fwSession,
CK_ATTRIBUTE_PTR pTemplate,
CK_ULONG ulAttributeCount,
CK_RV *pError
);
NSS_EXTERN NSSCKMDObject *
pem_CreateMDObject
(
NSSArena *arena,
pemInternalObject *io,
CK_RV *pError
);
#define NSS_PEM_ARRAY_SIZE(x) ((sizeof (x))/(sizeof ((x)[0])))
typedef enum {
pemLOWKEYNullKey = 0,
pemLOWKEYRSAKey = 1,
pemLOWKEYDSAKey = 2,
pemLOWKEYDHKey = 4,
pemLOWKEYECKey = 5
} pemLOWKEYType;
/*
** Low Level private key object
** This is only used by the raw Crypto engines (crypto), keydb (keydb),
** and PKCS #11. Everyone else uses the high level key structure.
*/
struct pemLOWKEYPrivateKeyStr {
PLArenaPool *arena;
pemLOWKEYType keyType;
union {
RSAPrivateKey rsa;
DSAPrivateKey dsa;
DHPrivateKey dh;
ECPrivateKey ec;
} u;
};
typedef struct pemLOWKEYPrivateKeyStr pemLOWKEYPrivateKey;
SECStatus ReadDERFromFile(SECItem ***derlist, char *filename, PRBool ascii, int *cipher, char **ivstring, PRBool certsonly);
const NSSItem * pem_FetchAttribute ( pemInternalObject *io, CK_ATTRIBUTE_TYPE type);
void pem_PopulateModulusExponent(pemInternalObject *io);
NSSCKMDObject * pem_CreateObject(NSSCKFWInstance *fwInstance, NSSCKFWSession *fwSession, NSSCKMDToken *mdToken, CK_ATTRIBUTE_PTR pTemplate, CK_ULONG ulAttributeCount, CK_RV *pError);
NSSCKMDSlot *pem_NewSlot( NSSCKFWInstance *fwInstance, CK_RV *pError);
PRBool pem_ParseString(const char* inputstring, const char delimiter,
PRInt32* numStrings, char*** returnedstrings);
PRBool pem_FreeParsedStrings(PRInt32 numStrings, char** instrings);
pemInternalObject *
CreateObject(CK_OBJECT_CLASS objClass, pemObjectType type, SECItem *certDER,
SECItem *keyDER, char *filename, int objid, CK_SLOT_ID slotID);
/* prsa.c */
unsigned int pem_PrivateModulusLen(pemLOWKEYPrivateKey *privk);
/* ptoken.c */
NSSCKMDToken * pem_NewToken(NSSCKFWInstance *fwInstance, CK_RV *pError);
void open_log();
void close_log();
void plog(const char *fmt, ...);
#define PEM_H 1
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