From e43ad1f4ce7f1504e6f01fc8a90d5c0398013383 Mon Sep 17 00:00:00 2001 From: Lorry Date: Wed, 18 Jul 2012 20:31:20 +0100 Subject: Tarball conversion --- mozilla/security/nss/lib/freebl/loader.c | 1757 ++++++++++++++++++++++++++++++ 1 file changed, 1757 insertions(+) create mode 100644 mozilla/security/nss/lib/freebl/loader.c (limited to 'mozilla/security/nss/lib/freebl/loader.c') diff --git a/mozilla/security/nss/lib/freebl/loader.c b/mozilla/security/nss/lib/freebl/loader.c new file mode 100644 index 0000000..2bcf135 --- /dev/null +++ b/mozilla/security/nss/lib/freebl/loader.c @@ -0,0 +1,1757 @@ +/* + * loader.c - load platform dependent DSO containing freebl implementation. + * + * ***** 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) 2000 + * the Initial Developer. All Rights Reserved. + * + * Contributor(s): + * Dr Vipul Gupta , Sun Microsystems Laboratories + * + * Alternatively, the contents of this file may be used under the terms of + * either the GNU General Public License Version 2 or later (the "GPL"), or + * the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), + * in which case the provisions of the GPL or the LGPL are applicable instead + * of those above. If you wish to allow use of your version of this file only + * under the terms of either the GPL or the LGPL, and not to allow others to + * use your version of this file under the terms of the MPL, indicate your + * decision by deleting the provisions above and replace them with the notice + * and other provisions required by the GPL or the LGPL. If you do not delete + * the provisions above, a recipient may use your version of this file under + * the terms of any one of the MPL, the GPL or the LGPL. + * + * ***** END LICENSE BLOCK ***** */ +/* $Id: loader.c,v 1.44.22.2 2010/12/04 18:59:01 rrelyea%redhat.com Exp $ */ + +#include "loader.h" +#include "prmem.h" +#include "prerror.h" +#include "prinit.h" +#include "prenv.h" + +static const char* default_name = + SHLIB_PREFIX"freebl"SHLIB_VERSION"."SHLIB_SUFFIX; + +/* getLibName() returns the name of the library to load. */ + +#if defined(SOLARIS) && defined(__sparc) +#include +#include +#include + + +#if defined(NSS_USE_64) + +const static char fpu_hybrid_shared_lib[] = "libfreebl_64fpu_3.so"; +const static char int_hybrid_shared_lib[] = "libfreebl_64int_3.so"; +const static char non_hybrid_shared_lib[] = "libfreebl_64fpu_3.so"; + +const static char int_hybrid_isa[] = "sparcv9"; +const static char fpu_hybrid_isa[] = "sparcv9+vis"; + +#else + +const static char fpu_hybrid_shared_lib[] = "libfreebl_32fpu_3.so"; +const static char int_hybrid_shared_lib[] = "libfreebl_32int64_3.so"; +const static char non_hybrid_shared_lib[] = "libfreebl_32int_3.so"; + +const static char int_hybrid_isa[] = "sparcv8plus"; +const static char fpu_hybrid_isa[] = "sparcv8plus+vis"; + +#endif + +static const char * +getLibName(void) +{ + char * found_int_hybrid; + char * found_fpu_hybrid; + long buflen; + char buf[256]; + + buflen = sysinfo(SI_ISALIST, buf, sizeof buf); + if (buflen <= 0) + return NULL; + /* sysinfo output is always supposed to be NUL terminated, but ... */ + if (buflen < sizeof buf) + buf[buflen] = '\0'; + else + buf[(sizeof buf) - 1] = '\0'; + /* The ISA list is a space separated string of names of ISAs and + * ISA extensions, in order of decreasing performance. + * There are two different ISAs with which NSS's crypto code can be + * accelerated. If both are in the list, we take the first one. + * If one is in the list, we use it, and if neither then we use + * the base unaccelerated code. + */ + found_int_hybrid = strstr(buf, int_hybrid_isa); + found_fpu_hybrid = strstr(buf, fpu_hybrid_isa); + if (found_fpu_hybrid && + (!found_int_hybrid || + (found_int_hybrid - found_fpu_hybrid) >= 0)) { + return fpu_hybrid_shared_lib; + } + if (found_int_hybrid) { + return int_hybrid_shared_lib; + } + return non_hybrid_shared_lib; +} + +#elif defined(HPUX) && !defined(NSS_USE_64) && !defined(__ia64) +/* This code tests to see if we're running on a PA2.x CPU. +** It returns true (1) if so, and false (0) otherwise. +*/ +static const char * +getLibName(void) +{ + long cpu = sysconf(_SC_CPU_VERSION); + return (cpu == CPU_PA_RISC2_0) + ? "libfreebl_32fpu_3.sl" + : "libfreebl_32int32_3.sl" ; +} +#else +/* default case, for platforms/ABIs that have only one freebl shared lib. */ +static const char * getLibName(void) { return default_name; } +#endif + +#include "prio.h" +#include "prprf.h" +#include +#include "prsystem.h" + +static const char *NameOfThisSharedLib = + SHLIB_PREFIX"softokn"SOFTOKEN_SHLIB_VERSION"."SHLIB_SUFFIX; + +static PRLibrary* blLib; + +#define LSB(x) ((x)&0xff) +#define MSB(x) ((x)>>8) + +static const FREEBLVector *vector; +static const char *libraryName = NULL; + +#include "genload.c" + +/* This function must be run only once. */ +/* determine if hybrid platform, then actually load the DSO. */ +static PRStatus +freebl_LoadDSO( void ) +{ + PRLibrary * handle; + const char * name = getLibName(); + + if (!name) { + PR_SetError(PR_LOAD_LIBRARY_ERROR, 0); + return PR_FAILURE; + } + + handle = loader_LoadLibrary(name); + if (handle) { + PRFuncPtr address = PR_FindFunctionSymbol(handle, "FREEBL_GetVector"); + PRStatus status; + if (address) { + FREEBLGetVectorFn * getVector = (FREEBLGetVectorFn *)address; + const FREEBLVector * dsoVector = getVector(); + if (dsoVector) { + unsigned short dsoVersion = dsoVector->version; + unsigned short myVersion = FREEBL_VERSION; + if (MSB(dsoVersion) == MSB(myVersion) && + LSB(dsoVersion) >= LSB(myVersion) && + dsoVector->length >= sizeof(FREEBLVector)) { + vector = dsoVector; + libraryName = name; + blLib = handle; + return PR_SUCCESS; + } + } + } + status = PR_UnloadLibrary(handle); + PORT_Assert(PR_SUCCESS == status); + } + return PR_FAILURE; +} + +static const PRCallOnceType pristineCallOnce; +static PRCallOnceType loadFreeBLOnce; + +static PRStatus +freebl_RunLoaderOnce( void ) +{ + PRStatus status; + + status = PR_CallOnce(&loadFreeBLOnce, &freebl_LoadDSO); + return status; +} + +SECStatus +BL_Init(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_BL_Init)(); +} + +RSAPrivateKey * +RSA_NewKey(int keySizeInBits, SECItem * publicExponent) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_RSA_NewKey)(keySizeInBits, publicExponent); +} + +SECStatus +RSA_PublicKeyOp(RSAPublicKey * key, + unsigned char * output, + const unsigned char * input) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_RSA_PublicKeyOp)(key, output, input); +} + +SECStatus +RSA_PrivateKeyOp(RSAPrivateKey * key, + unsigned char * output, + const unsigned char * input) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_RSA_PrivateKeyOp)(key, output, input); +} + +SECStatus +RSA_PrivateKeyOpDoubleChecked(RSAPrivateKey *key, + unsigned char *output, + const unsigned char *input) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_RSA_PrivateKeyOpDoubleChecked)(key, output, input); +} + +SECStatus +RSA_PrivateKeyCheck(RSAPrivateKey *key) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_RSA_PrivateKeyCheck)(key); +} + +SECStatus +DSA_NewKey(const PQGParams * params, DSAPrivateKey ** privKey) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_DSA_NewKey)(params, privKey); +} + +SECStatus +DSA_SignDigest(DSAPrivateKey * key, SECItem * signature, const SECItem * digest) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_DSA_SignDigest)( key, signature, digest); +} + +SECStatus +DSA_VerifyDigest(DSAPublicKey * key, const SECItem * signature, + const SECItem * digest) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_DSA_VerifyDigest)( key, signature, digest); +} + +SECStatus +DSA_NewKeyFromSeed(const PQGParams *params, const unsigned char * seed, + DSAPrivateKey **privKey) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_DSA_NewKeyFromSeed)(params, seed, privKey); +} + +SECStatus +DSA_SignDigestWithSeed(DSAPrivateKey * key, SECItem * signature, + const SECItem * digest, const unsigned char * seed) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_DSA_SignDigestWithSeed)( key, signature, digest, seed); +} + +SECStatus +DSA_NewRandom(PLArenaPool * arena, const SECItem * q, SECItem * seed) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_DSA_NewRandom)(arena, q, seed); +} + +SECStatus +DH_GenParam(int primeLen, DHParams ** params) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_DH_GenParam)(primeLen, params); +} + +SECStatus +DH_NewKey(DHParams * params, DHPrivateKey ** privKey) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_DH_NewKey)( params, privKey); +} + +SECStatus +DH_Derive(SECItem * publicValue, SECItem * prime, SECItem * privateValue, + SECItem * derivedSecret, unsigned int maxOutBytes) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_DH_Derive)( publicValue, prime, privateValue, + derivedSecret, maxOutBytes); +} + +SECStatus +KEA_Derive(SECItem *prime, SECItem *public1, SECItem *public2, + SECItem *private1, SECItem *private2, SECItem *derivedSecret) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_KEA_Derive)(prime, public1, public2, + private1, private2, derivedSecret); +} + +PRBool +KEA_Verify(SECItem *Y, SECItem *prime, SECItem *subPrime) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return PR_FALSE; + return (vector->p_KEA_Verify)(Y, prime, subPrime); +} + +RC4Context * +RC4_CreateContext(const unsigned char *key, int len) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_RC4_CreateContext)(key, len); +} + +void +RC4_DestroyContext(RC4Context *cx, PRBool freeit) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_RC4_DestroyContext)(cx, freeit); +} + +SECStatus +RC4_Encrypt(RC4Context *cx, unsigned char *output, unsigned int *outputLen, + unsigned int maxOutputLen, const unsigned char *input, + unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_RC4_Encrypt)(cx, output, outputLen, maxOutputLen, input, + inputLen); +} + +SECStatus +RC4_Decrypt(RC4Context *cx, unsigned char *output, unsigned int *outputLen, + unsigned int maxOutputLen, const unsigned char *input, + unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_RC4_Decrypt)(cx, output, outputLen, maxOutputLen, input, + inputLen); +} + +RC2Context * +RC2_CreateContext(const unsigned char *key, unsigned int len, + const unsigned char *iv, int mode, unsigned effectiveKeyLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_RC2_CreateContext)(key, len, iv, mode, effectiveKeyLen); +} + +void +RC2_DestroyContext(RC2Context *cx, PRBool freeit) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_RC2_DestroyContext)(cx, freeit); +} + +SECStatus +RC2_Encrypt(RC2Context *cx, unsigned char *output, unsigned int *outputLen, + unsigned int maxOutputLen, const unsigned char *input, + unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_RC2_Encrypt)(cx, output, outputLen, maxOutputLen, input, + inputLen); +} + +SECStatus +RC2_Decrypt(RC2Context *cx, unsigned char *output, unsigned int *outputLen, + unsigned int maxOutputLen, const unsigned char *input, + unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_RC2_Decrypt)(cx, output, outputLen, maxOutputLen, input, + inputLen); +} + +RC5Context * +RC5_CreateContext(const SECItem *key, unsigned int rounds, + unsigned int wordSize, const unsigned char *iv, int mode) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_RC5_CreateContext)(key, rounds, wordSize, iv, mode); +} + +void +RC5_DestroyContext(RC5Context *cx, PRBool freeit) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_RC5_DestroyContext)(cx, freeit); +} + +SECStatus +RC5_Encrypt(RC5Context *cx, unsigned char *output, unsigned int *outputLen, + unsigned int maxOutputLen, const unsigned char *input, + unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_RC5_Encrypt)(cx, output, outputLen, maxOutputLen, input, + inputLen); +} + +SECStatus +RC5_Decrypt(RC5Context *cx, unsigned char *output, unsigned int *outputLen, + unsigned int maxOutputLen, const unsigned char *input, + unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_RC5_Decrypt)(cx, output, outputLen, maxOutputLen, input, + inputLen); +} + +DESContext * +DES_CreateContext(const unsigned char *key, const unsigned char *iv, + int mode, PRBool encrypt) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_DES_CreateContext)(key, iv, mode, encrypt); +} + +void +DES_DestroyContext(DESContext *cx, PRBool freeit) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_DES_DestroyContext)(cx, freeit); +} + +SECStatus +DES_Encrypt(DESContext *cx, unsigned char *output, unsigned int *outputLen, + unsigned int maxOutputLen, const unsigned char *input, + unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_DES_Encrypt)(cx, output, outputLen, maxOutputLen, input, + inputLen); +} + +SECStatus +DES_Decrypt(DESContext *cx, unsigned char *output, unsigned int *outputLen, + unsigned int maxOutputLen, const unsigned char *input, + unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_DES_Decrypt)(cx, output, outputLen, maxOutputLen, input, + inputLen); +} +SEEDContext * +SEED_CreateContext(const unsigned char *key, const unsigned char *iv, + int mode, PRBool encrypt) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_SEED_CreateContext)(key, iv, mode, encrypt); +} + +void +SEED_DestroyContext(SEEDContext *cx, PRBool freeit) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_SEED_DestroyContext)(cx, freeit); +} + +SECStatus +SEED_Encrypt(SEEDContext *cx, unsigned char *output, unsigned int *outputLen, + unsigned int maxOutputLen, const unsigned char *input, + unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_SEED_Encrypt)(cx, output, outputLen, maxOutputLen, input, + inputLen); +} + +SECStatus +SEED_Decrypt(SEEDContext *cx, unsigned char *output, unsigned int *outputLen, + unsigned int maxOutputLen, const unsigned char *input, + unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_SEED_Decrypt)(cx, output, outputLen, maxOutputLen, input, + inputLen); +} + +AESContext * +AES_CreateContext(const unsigned char *key, const unsigned char *iv, + int mode, int encrypt, + unsigned int keylen, unsigned int blocklen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_AES_CreateContext)(key, iv, mode, encrypt, keylen, + blocklen); +} + +void +AES_DestroyContext(AESContext *cx, PRBool freeit) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_AES_DestroyContext)(cx, freeit); +} + +SECStatus +AES_Encrypt(AESContext *cx, unsigned char *output, + unsigned int *outputLen, unsigned int maxOutputLen, + const unsigned char *input, unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_AES_Encrypt)(cx, output, outputLen, maxOutputLen, + input, inputLen); +} + +SECStatus +AES_Decrypt(AESContext *cx, unsigned char *output, + unsigned int *outputLen, unsigned int maxOutputLen, + const unsigned char *input, unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_AES_Decrypt)(cx, output, outputLen, maxOutputLen, + input, inputLen); +} + +SECStatus +MD5_Hash(unsigned char *dest, const char *src) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_MD5_Hash)(dest, src); +} + +SECStatus +MD5_HashBuf(unsigned char *dest, const unsigned char *src, uint32 src_length) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_MD5_HashBuf)(dest, src, src_length); +} + +MD5Context * +MD5_NewContext(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_MD5_NewContext)(); +} + +void +MD5_DestroyContext(MD5Context *cx, PRBool freeit) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_MD5_DestroyContext)(cx, freeit); +} + +void +MD5_Begin(MD5Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_MD5_Begin)(cx); +} + +void +MD5_Update(MD5Context *cx, const unsigned char *input, unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_MD5_Update)(cx, input, inputLen); +} + +void +MD5_End(MD5Context *cx, unsigned char *digest, + unsigned int *digestLen, unsigned int maxDigestLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_MD5_End)(cx, digest, digestLen, maxDigestLen); +} + +unsigned int +MD5_FlattenSize(MD5Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return 0; + return (vector->p_MD5_FlattenSize)(cx); +} + +SECStatus +MD5_Flatten(MD5Context *cx,unsigned char *space) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_MD5_Flatten)(cx, space); +} + +MD5Context * +MD5_Resurrect(unsigned char *space, void *arg) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_MD5_Resurrect)(space, arg); +} + +void +MD5_TraceState(MD5Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_MD5_TraceState)(cx); +} + +SECStatus +MD2_Hash(unsigned char *dest, const char *src) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_MD2_Hash)(dest, src); +} + +MD2Context * +MD2_NewContext(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_MD2_NewContext)(); +} + +void +MD2_DestroyContext(MD2Context *cx, PRBool freeit) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_MD2_DestroyContext)(cx, freeit); +} + +void +MD2_Begin(MD2Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_MD2_Begin)(cx); +} + +void +MD2_Update(MD2Context *cx, const unsigned char *input, unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_MD2_Update)(cx, input, inputLen); +} + +void +MD2_End(MD2Context *cx, unsigned char *digest, + unsigned int *digestLen, unsigned int maxDigestLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_MD2_End)(cx, digest, digestLen, maxDigestLen); +} + +unsigned int +MD2_FlattenSize(MD2Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return 0; + return (vector->p_MD2_FlattenSize)(cx); +} + +SECStatus +MD2_Flatten(MD2Context *cx,unsigned char *space) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_MD2_Flatten)(cx, space); +} + +MD2Context * +MD2_Resurrect(unsigned char *space, void *arg) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_MD2_Resurrect)(space, arg); +} + + +SECStatus +SHA1_Hash(unsigned char *dest, const char *src) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_SHA1_Hash)(dest, src); +} + +SECStatus +SHA1_HashBuf(unsigned char *dest, const unsigned char *src, uint32 src_length) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_SHA1_HashBuf)(dest, src, src_length); +} + +SHA1Context * +SHA1_NewContext(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_SHA1_NewContext)(); +} + +void +SHA1_DestroyContext(SHA1Context *cx, PRBool freeit) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA1_DestroyContext)(cx, freeit); +} + +void +SHA1_Begin(SHA1Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA1_Begin)(cx); +} + +void +SHA1_Update(SHA1Context *cx, const unsigned char *input, + unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA1_Update)(cx, input, inputLen); +} + +void +SHA1_End(SHA1Context *cx, unsigned char *digest, + unsigned int *digestLen, unsigned int maxDigestLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA1_End)(cx, digest, digestLen, maxDigestLen); +} + +void +SHA1_TraceState(SHA1Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA1_TraceState)(cx); +} + +unsigned int +SHA1_FlattenSize(SHA1Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return 0; + return (vector->p_SHA1_FlattenSize)(cx); +} + +SECStatus +SHA1_Flatten(SHA1Context *cx,unsigned char *space) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_SHA1_Flatten)(cx, space); +} + +SHA1Context * +SHA1_Resurrect(unsigned char *space, void *arg) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_SHA1_Resurrect)(space, arg); +} + +SECStatus +RNG_RNGInit(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_RNG_RNGInit)(); +} + +SECStatus +RNG_RandomUpdate(const void *data, size_t bytes) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_RNG_RandomUpdate)(data, bytes); +} + +SECStatus +RNG_GenerateGlobalRandomBytes(void *dest, size_t len) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_RNG_GenerateGlobalRandomBytes)(dest, len); +} + +void +RNG_RNGShutdown(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_RNG_RNGShutdown)(); +} + +SECStatus +PQG_ParamGen(unsigned int j, PQGParams **pParams, PQGVerify **pVfy) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_PQG_ParamGen)(j, pParams, pVfy); +} + +SECStatus +PQG_ParamGenSeedLen( unsigned int j, unsigned int seedBytes, + PQGParams **pParams, PQGVerify **pVfy) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_PQG_ParamGenSeedLen)(j, seedBytes, pParams, pVfy); +} + +SECStatus +PQG_VerifyParams(const PQGParams *params, const PQGVerify *vfy, + SECStatus *result) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_PQG_VerifyParams)(params, vfy, result); +} + +void +PQG_DestroyParams(PQGParams *params) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_PQG_DestroyParams)(params); +} + +void +PQG_DestroyVerify(PQGVerify *vfy) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_PQG_DestroyVerify)(vfy); +} + +void +BL_Cleanup(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_BL_Cleanup)(); +} + +void +BL_Unload(void) +{ + /* This function is not thread-safe, but doesn't need to be, because it is + * only called from functions that are also defined as not thread-safe, + * namely C_Finalize in softoken, and the SSL bypass shutdown callback called + * from NSS_Shutdown. */ + char *disableUnload = NULL; + vector = NULL; + /* If an SSL socket is configured with SSL_BYPASS_PKCS11, but the application + * never does a handshake on it, BL_Unload will be called even though freebl + * was never loaded. So, don't assert blLib. */ + if (blLib) { + disableUnload = PR_GetEnv("NSS_DISABLE_UNLOAD"); + if (!disableUnload) { + PRStatus status = PR_UnloadLibrary(blLib); + PORT_Assert(PR_SUCCESS == status); + } + blLib = NULL; + } + loadFreeBLOnce = pristineCallOnce; +} + +/* ============== New for 3.003 =============================== */ + +SECStatus +SHA256_Hash(unsigned char *dest, const char *src) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_SHA256_Hash)(dest, src); +} + +SECStatus +SHA256_HashBuf(unsigned char *dest, const unsigned char *src, uint32 src_length) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_SHA256_HashBuf)(dest, src, src_length); +} + +SHA256Context * +SHA256_NewContext(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_SHA256_NewContext)(); +} + +void +SHA256_DestroyContext(SHA256Context *cx, PRBool freeit) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA256_DestroyContext)(cx, freeit); +} + +void +SHA256_Begin(SHA256Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA256_Begin)(cx); +} + +void +SHA256_Update(SHA256Context *cx, const unsigned char *input, + unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA256_Update)(cx, input, inputLen); +} + +void +SHA256_End(SHA256Context *cx, unsigned char *digest, + unsigned int *digestLen, unsigned int maxDigestLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA256_End)(cx, digest, digestLen, maxDigestLen); +} + +void +SHA256_TraceState(SHA256Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA256_TraceState)(cx); +} + +unsigned int +SHA256_FlattenSize(SHA256Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return 0; + return (vector->p_SHA256_FlattenSize)(cx); +} + +SECStatus +SHA256_Flatten(SHA256Context *cx,unsigned char *space) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_SHA256_Flatten)(cx, space); +} + +SHA256Context * +SHA256_Resurrect(unsigned char *space, void *arg) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_SHA256_Resurrect)(space, arg); +} + +SECStatus +SHA512_Hash(unsigned char *dest, const char *src) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_SHA512_Hash)(dest, src); +} + +SECStatus +SHA512_HashBuf(unsigned char *dest, const unsigned char *src, uint32 src_length) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_SHA512_HashBuf)(dest, src, src_length); +} + +SHA512Context * +SHA512_NewContext(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_SHA512_NewContext)(); +} + +void +SHA512_DestroyContext(SHA512Context *cx, PRBool freeit) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA512_DestroyContext)(cx, freeit); +} + +void +SHA512_Begin(SHA512Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA512_Begin)(cx); +} + +void +SHA512_Update(SHA512Context *cx, const unsigned char *input, + unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA512_Update)(cx, input, inputLen); +} + +void +SHA512_End(SHA512Context *cx, unsigned char *digest, + unsigned int *digestLen, unsigned int maxDigestLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA512_End)(cx, digest, digestLen, maxDigestLen); +} + +void +SHA512_TraceState(SHA512Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA512_TraceState)(cx); +} + +unsigned int +SHA512_FlattenSize(SHA512Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return 0; + return (vector->p_SHA512_FlattenSize)(cx); +} + +SECStatus +SHA512_Flatten(SHA512Context *cx,unsigned char *space) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_SHA512_Flatten)(cx, space); +} + +SHA512Context * +SHA512_Resurrect(unsigned char *space, void *arg) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_SHA512_Resurrect)(space, arg); +} + + +SECStatus +SHA384_Hash(unsigned char *dest, const char *src) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_SHA384_Hash)(dest, src); +} + +SECStatus +SHA384_HashBuf(unsigned char *dest, const unsigned char *src, uint32 src_length) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_SHA384_HashBuf)(dest, src, src_length); +} + +SHA384Context * +SHA384_NewContext(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_SHA384_NewContext)(); +} + +void +SHA384_DestroyContext(SHA384Context *cx, PRBool freeit) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA384_DestroyContext)(cx, freeit); +} + +void +SHA384_Begin(SHA384Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA384_Begin)(cx); +} + +void +SHA384_Update(SHA384Context *cx, const unsigned char *input, + unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA384_Update)(cx, input, inputLen); +} + +void +SHA384_End(SHA384Context *cx, unsigned char *digest, + unsigned int *digestLen, unsigned int maxDigestLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA384_End)(cx, digest, digestLen, maxDigestLen); +} + +void +SHA384_TraceState(SHA384Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_SHA384_TraceState)(cx); +} + +unsigned int +SHA384_FlattenSize(SHA384Context *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return 0; + return (vector->p_SHA384_FlattenSize)(cx); +} + +SECStatus +SHA384_Flatten(SHA384Context *cx,unsigned char *space) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_SHA384_Flatten)(cx, space); +} + +SHA384Context * +SHA384_Resurrect(unsigned char *space, void *arg) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_SHA384_Resurrect)(space, arg); +} + + +AESKeyWrapContext * +AESKeyWrap_CreateContext(const unsigned char *key, const unsigned char *iv, + int encrypt, unsigned int keylen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return vector->p_AESKeyWrap_CreateContext(key, iv, encrypt, keylen); +} + +void +AESKeyWrap_DestroyContext(AESKeyWrapContext *cx, PRBool freeit) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + vector->p_AESKeyWrap_DestroyContext(cx, freeit); +} + +SECStatus +AESKeyWrap_Encrypt(AESKeyWrapContext *cx, unsigned char *output, + unsigned int *outputLen, unsigned int maxOutputLen, + const unsigned char *input, unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return vector->p_AESKeyWrap_Encrypt(cx, output, outputLen, maxOutputLen, + input, inputLen); +} +SECStatus +AESKeyWrap_Decrypt(AESKeyWrapContext *cx, unsigned char *output, + unsigned int *outputLen, unsigned int maxOutputLen, + const unsigned char *input, unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return vector->p_AESKeyWrap_Decrypt(cx, output, outputLen, maxOutputLen, + input, inputLen); +} + +PRBool +BLAPI_SHVerify(const char *name, PRFuncPtr addr) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return PR_FALSE; + return vector->p_BLAPI_SHVerify(name, addr); +} + +/* + * The Caller is expected to pass NULL as the name, which will + * trigger the p_BLAPI_VerifySelf() to return 'TRUE'. If we really loaded + * from a shared library, BLAPI_VerifySelf will get pick up the real name + * from the static set in freebl_LoadDSO( void ) + */ +PRBool +BLAPI_VerifySelf(const char *name) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return PR_FALSE; + return vector->p_BLAPI_VerifySelf(libraryName); +} + +/* ============== New for 3.006 =============================== */ + +SECStatus +EC_NewKey(ECParams * params, ECPrivateKey ** privKey) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_EC_NewKey)( params, privKey ); +} + +SECStatus +EC_NewKeyFromSeed(ECParams * params, ECPrivateKey ** privKey, + const unsigned char *seed, int seedlen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_EC_NewKeyFromSeed)( params, privKey, seed, seedlen ); +} + +SECStatus +EC_ValidatePublicKey(ECParams * params, SECItem * publicValue) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_EC_ValidatePublicKey)( params, publicValue ); +} + +SECStatus +ECDH_Derive(SECItem * publicValue, ECParams * params, SECItem * privateValue, + PRBool withCofactor, SECItem * derivedSecret) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_ECDH_Derive)( publicValue, params, privateValue, + withCofactor, derivedSecret ); +} + +SECStatus +ECDSA_SignDigest(ECPrivateKey * key, SECItem * signature, + const SECItem * digest) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_ECDSA_SignDigest)( key, signature, digest ); +} + +SECStatus +ECDSA_VerifyDigest(ECPublicKey * key, const SECItem * signature, + const SECItem * digest) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_ECDSA_VerifyDigest)( key, signature, digest ); +} + +SECStatus +ECDSA_SignDigestWithSeed(ECPrivateKey * key, SECItem * signature, + const SECItem * digest, const unsigned char *seed, const int seedlen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_ECDSA_SignDigestWithSeed)( key, signature, digest, + seed, seedlen ); +} + +/* ============== New for 3.008 =============================== */ + +AESContext * +AES_AllocateContext(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_AES_AllocateContext)(); +} + +AESKeyWrapContext * +AESKeyWrap_AllocateContext(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_AESKeyWrap_AllocateContext)(); +} + +DESContext * +DES_AllocateContext(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_DES_AllocateContext)(); +} + +RC2Context * +RC2_AllocateContext(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_RC2_AllocateContext)(); +} + +RC4Context * +RC4_AllocateContext(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_RC4_AllocateContext)(); +} + +SECStatus +AES_InitContext(AESContext *cx, const unsigned char *key, + unsigned int keylen, const unsigned char *iv, int mode, + unsigned int encrypt, unsigned int blocklen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_AES_InitContext)(cx, key, keylen, iv, mode, encrypt, + blocklen); +} + +SECStatus +AESKeyWrap_InitContext(AESKeyWrapContext *cx, const unsigned char *key, + unsigned int keylen, const unsigned char *iv, int mode, + unsigned int encrypt, unsigned int blocklen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_AESKeyWrap_InitContext)(cx, key, keylen, iv, mode, + encrypt, blocklen); +} + +SECStatus +DES_InitContext(DESContext *cx, const unsigned char *key, + unsigned int keylen, const unsigned char *iv, int mode, + unsigned int encrypt, unsigned int xtra) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_DES_InitContext)(cx, key, keylen, iv, mode, encrypt, xtra); +} + +SECStatus +SEED_InitContext(SEEDContext *cx, const unsigned char *key, + unsigned int keylen, const unsigned char *iv, int mode, + unsigned int encrypt, unsigned int xtra) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_SEED_InitContext)(cx, key, keylen, iv, mode, encrypt, xtra); +} + +SECStatus +RC2_InitContext(RC2Context *cx, const unsigned char *key, + unsigned int keylen, const unsigned char *iv, int mode, + unsigned int effectiveKeyLen, unsigned int xtra) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_RC2_InitContext)(cx, key, keylen, iv, mode, + effectiveKeyLen, xtra); +} + +SECStatus +RC4_InitContext(RC4Context *cx, const unsigned char *key, + unsigned int keylen, const unsigned char *x1, int x2, + unsigned int x3, unsigned int x4) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_RC4_InitContext)(cx, key, keylen, x1, x2, x3, x4); +} + +void +MD2_Clone(MD2Context *dest, MD2Context *src) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_MD2_Clone)(dest, src); +} + +void +MD5_Clone(MD5Context *dest, MD5Context *src) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_MD5_Clone)(dest, src); +} + +void +SHA1_Clone(SHA1Context *dest, SHA1Context *src) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_SHA1_Clone)(dest, src); +} + +void +SHA256_Clone(SHA256Context *dest, SHA256Context *src) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_SHA256_Clone)(dest, src); +} + +void +SHA384_Clone(SHA384Context *dest, SHA384Context *src) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_SHA384_Clone)(dest, src); +} + +void +SHA512_Clone(SHA512Context *dest, SHA512Context *src) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_SHA512_Clone)(dest, src); +} + +SECStatus +TLS_PRF(const SECItem *secret, const char *label, + SECItem *seed, SECItem *result, PRBool isFIPS) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_TLS_PRF)(secret, label, seed, result, isFIPS); +} + +const SECHashObject * +HASH_GetRawHashObject(HASH_HashType hashType) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_HASH_GetRawHashObject)(hashType); +} + + +void +HMAC_Destroy(HMACContext *cx, PRBool freeit) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_HMAC_Destroy)(cx, freeit); +} + +HMACContext * +HMAC_Create(const SECHashObject *hashObj, const unsigned char *secret, + unsigned int secret_len, PRBool isFIPS) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_HMAC_Create)(hashObj, secret, secret_len, isFIPS); +} + +SECStatus +HMAC_Init(HMACContext *cx, const SECHashObject *hashObj, + const unsigned char *secret, unsigned int secret_len, PRBool isFIPS) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_HMAC_Init)(cx, hashObj, secret, secret_len, isFIPS); +} + +void +HMAC_Begin(HMACContext *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_HMAC_Begin)(cx); +} + +void +HMAC_Update(HMACContext *cx, const unsigned char *data, unsigned int data_len) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_HMAC_Update)(cx, data, data_len); +} + +SECStatus +HMAC_Finish(HMACContext *cx, unsigned char *result, unsigned int *result_len, + unsigned int max_result_len) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_HMAC_Finish)(cx, result, result_len, max_result_len); +} + +HMACContext * +HMAC_Clone(HMACContext *cx) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_HMAC_Clone)(cx); +} + +void +RNG_SystemInfoForRNG(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_RNG_SystemInfoForRNG)(); + +} + +SECStatus +FIPS186Change_GenerateX(unsigned char *XKEY, const unsigned char *XSEEDj, + unsigned char *x_j) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_FIPS186Change_GenerateX)(XKEY, XSEEDj, x_j); +} + +SECStatus +FIPS186Change_ReduceModQForDSA(const unsigned char *w, + const unsigned char *q, + unsigned char *xj) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_FIPS186Change_ReduceModQForDSA)(w, q, xj); +} + +/* === new for Camellia === */ +SECStatus +Camellia_InitContext(CamelliaContext *cx, const unsigned char *key, + unsigned int keylen, const unsigned char *iv, int mode, + unsigned int encrypt, unsigned int unused) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_Camellia_InitContext)(cx, key, keylen, iv, mode, encrypt, + unused); +} + +CamelliaContext * +Camellia_AllocateContext(void) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_Camellia_AllocateContext)(); +} + + +CamelliaContext * +Camellia_CreateContext(const unsigned char *key, const unsigned char *iv, + int mode, int encrypt, + unsigned int keylen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return NULL; + return (vector->p_Camellia_CreateContext)(key, iv, mode, encrypt, keylen); +} + +void +Camellia_DestroyContext(CamelliaContext *cx, PRBool freeit) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return ; + (vector->p_Camellia_DestroyContext)(cx, freeit); +} + +SECStatus +Camellia_Encrypt(CamelliaContext *cx, unsigned char *output, + unsigned int *outputLen, unsigned int maxOutputLen, + const unsigned char *input, unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_Camellia_Encrypt)(cx, output, outputLen, maxOutputLen, + input, inputLen); +} + +SECStatus +Camellia_Decrypt(CamelliaContext *cx, unsigned char *output, + unsigned int *outputLen, unsigned int maxOutputLen, + const unsigned char *input, unsigned int inputLen) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_Camellia_Decrypt)(cx, output, outputLen, maxOutputLen, + input, inputLen); +} + +void BL_SetForkState(PRBool forked) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return; + (vector->p_BL_SetForkState)(forked); +} + +SECStatus +PRNGTEST_Instantiate(const PRUint8 *entropy, unsigned int entropy_len, + const PRUint8 *nonce, unsigned int nonce_len, + const PRUint8 *personal_string, unsigned int ps_len) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_PRNGTEST_Instantiate)(entropy, entropy_len, + nonce, nonce_len, + personal_string, ps_len); +} + +SECStatus +PRNGTEST_Reseed(const PRUint8 *entropy, unsigned int entropy_len, + const PRUint8 *additional, unsigned int additional_len) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_PRNGTEST_Reseed)(entropy, entropy_len, + additional, additional_len); +} + +SECStatus +PRNGTEST_Generate(PRUint8 *bytes, unsigned int bytes_len, + const PRUint8 *additional, unsigned int additional_len) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_PRNGTEST_Generate)(bytes, bytes_len, + additional, additional_len); +} + +SECStatus +PRNGTEST_Uninstantiate() +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_PRNGTEST_Uninstantiate)(); +} + +SECStatus +RSA_PopulatePrivateKey(RSAPrivateKey *key) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_RSA_PopulatePrivateKey)(key); +} + +SECStatus +JPAKE_Sign(PLArenaPool * arena, const PQGParams * pqg, HASH_HashType hashType, + const SECItem * signerID, const SECItem * x, + const SECItem * testRandom, const SECItem * gxIn, SECItem * gxOut, + SECItem * gv, SECItem * r) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_JPAKE_Sign)(arena, pqg, hashType, signerID, x, + testRandom, gxIn, gxOut, gv, r); +} + +SECStatus +JPAKE_Verify(PLArenaPool * arena, const PQGParams * pqg, + HASH_HashType hashType, const SECItem * signerID, + const SECItem * peerID, const SECItem * gx, + const SECItem * gv, const SECItem * r) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_JPAKE_Verify)(arena, pqg, hashType, signerID, peerID, + gx, gv, r); +} + +SECStatus +JPAKE_Round2(PLArenaPool * arena, const SECItem * p, const SECItem *q, + const SECItem * gx1, const SECItem * gx3, const SECItem * gx4, + SECItem * base, const SECItem * x2, const SECItem * s, SECItem * x2s) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_JPAKE_Round2)(arena, p, q, gx1, gx3, gx4, base, x2, s, x2s); +} + +SECStatus +JPAKE_Final(PLArenaPool * arena, const SECItem * p, const SECItem *q, + const SECItem * x2, const SECItem * gx4, const SECItem * x2s, + const SECItem * B, SECItem * K) +{ + if (!vector && PR_SUCCESS != freebl_RunLoaderOnce()) + return SECFailure; + return (vector->p_JPAKE_Final)(arena, p, q, x2, gx4, x2s, B, K); +} -- cgit v1.2.1