// import key (+ encrypt, decrypt) test for nShield #include #include #include #include // openssl #include #include #include #include #include #include #include #include "nfastapp.h" #include "nfkm.h" #include "rqcard-applic.h" #include "rqcard-fips.h" //#include "picky-upcalls.h" #include "my_hsm_bignum.h" #include "my_hsm_alloc.h" #define PRIV_KEY_FILE "./test-ecdsa-privkey.der" #define PUB_KEY_FILE "./test-ecdsa-pubkey.der" #define MODULE_ID 1 #define DATA_LEN 256 // bytes // ECDSA private key data typedef struct { struct NFast_Bignum *d; } ECDSAPrivateKeyDataBn; // ECDSA public key data typedef struct { struct NFast_Bignum *qx; struct NFast_Bignum *qy; } ECDSAPublicKeyDataBn; // global variable NFast_AppHandle handle; NFastApp_Connection nc; NFKM_WorldInfo *world = NULL; RQCard card; RQCard_FIPS fips; M_KeyID ltid = 0; // the cardset loaded into the module NFKM_CardSet *cardset = NULL; NFKM_ModuleInfo *moduleinfo = NULL; const NFKM_KeyIdent priv_keyident = { (char*)"simple", (char*)"ecdsa-import-privkey" }; const NFKM_KeyIdent pub_keyident = { (char*)"simple", (char*)"ecdsa-import-pubkey" }; unsigned char save_enc[DATA_LEN]; // function int importECDSAPrivate( NFKM_KeyIdent keyident ); int importECDSAPublic( NFKM_KeyIdent keyident ); int verifyECDSAKeyPair( NFKM_KeyIdent priv_keyident, NFKM_KeyIdent pub_keyident ); void PrintArray( char *pStr, const unsigned char *pData, int length ); int importECDSAPrivate( NFKM_KeyIdent keyident ) { int result = Status_OK; EC_KEY *privkey = NULL; FILE *fp; unsigned char *dPtr = NULL; int dLen = 0; M_Command cmd; M_Reply reply; NFKM_MakeACLParams map; NFKM_MakeBlobsParams mbp; NFKM_Key reg_key; ECDSAPrivateKeyDataBn privBn; memset( &cmd, 0, sizeof( cmd ) ); memset( &reply, 0, sizeof( reply ) ); memset( &map, 0, sizeof( map ) ); memset( &mbp, 0, sizeof( mbp ) ); memset( ®_key, 0, sizeof( reg_key ) ); memset( &privBn, 0, sizeof( privBn ) ); // key data open fp = fopen( PRIV_KEY_FILE, "rb" ); if ( !fp ) { printf( "error : open %s file\n", PRIV_KEY_FILE ); return 1; } privkey = d2i_ECPrivateKey_fp( fp, NULL ); if ( !privkey ) { printf( "error : d2i_ECPrivateKey_fp\n" ); return 1; } fclose( fp ); #if 1 printf( "\nEC(d) = " ); BN_print_fp( stdout, privkey->priv_key ); printf( "\n" ); #endif #if 1 printf( "EC bignum(Openssl) size\n" ); printf( "EC(d) : %d bytes\n", BN_num_bytes( privkey->priv_key ) ); #endif // ECDSA priv key の構成要素をバイナリに変換 { // d dLen = BN_num_bytes( privkey->priv_key ); dPtr = (unsigned char *)malloc( dLen ); if ( pLen != BN_bn2bin( privkey->priv_key, dPtr ) ) { printf( "BN_bn2bin failed!(d)\n" ); return 1; } } // ec bignum(openssl) -> bin #if 1 printf( "EC bin addr\n" ); printf( "EC(d) : 0x%08X\n", (unsigned int)dPtr ); #endif // バイナリをHSMのBignumに変換 { my_bin2bignum( &(privBn.d), handle, dPtr, dLen ); free( dPtr ); } #if 1 my_printbignum ( stdout, "EC(d)", privBn.d ); #endif #if 1 printf( "EC bn addr\n" ); printf( "EC(d) : 0x%08X\n", (unsigned int)privBn.d ); #endif // make ACL if ( cardset != NULL ) map.f = NFKM_NKF_RecoveryEnabled | NFKM_NKF_ProtectionCardSet; else map.f = NFKM_NKF_RecoveryEnabled | NFKM_NKF_ProtectionModule; // 秘密鍵には DECRYPT と SIGN // 公開鍵には ENCRYPT と VERIFY しかセットできない?? map.op_base = NFKM_DEFOPPERMS_DECRYPT | NFKM_DEFOPPERMS_SIGN; map.cs = cardset; result = NFKM_newkey_makeaclx( handle, nc, world, &map, &(cmd.args.import.acl), NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_newkey_makeaclx\n", result ); return result; } // import key cmd.cmd = Cmd_Import; cmd.args.import.module = MODULE_ID; cmd.args.import.data.type = KeyType_ECDSAPrivate; cmd.args.import.data.data.ecdsaprivate.curve.name = ECName_NISTB233; // 名前を指定することで cmd.args.import.data.data.ecdsaprivate.d = privBn.d; // d だけ設定すれば良い result = NFastApp_Transact( nc, NULL, &cmd, &reply, NULL ); if ( result != Status_OK ) { printf( "error(%d) : Cmd_Import\n", result ); return 1; } result = reply.status; if ( result != Status_OK ) { printf( "error(%d) : Cmd_Import(reply)\n", result ); return 1; } // make blobs //reg_key.v = Key__maxversion; // TORIAEZU : Key__maxversion = 8 reg_key.name = keyident.ident; reg_key.appname = keyident.appname; reg_key.ident = keyident.ident; time( &(reg_key.gentime) ); mbp.f = map.f; mbp.kpriv = reply.reply.import.key; mbp.lt = ltid; mbp.cs = cardset; result = NFKM_newkey_makeblobsx( handle, nc, world, &mbp, ®_key, NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_newkey_makeblobsx\n", result ); return 1; } // record key to disk result = NFKM_recordkey( handle, ®_key, NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_recordkey\n", result ); return 1; } // destroy key result = NFKM_cmd_destroy( handle, nc, 0, reply.reply.import.key, "destroy import key", NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_cmd_destroy\n", result ); return 1; } return result; } // importECDSAPrivate int importECDSAPublic( NFKM_KeyIdent keyident ) { int result = Status_OK; EC_KEY *pubkey = NULL; FILE *fp; unsigned char *qxPtr, *qyPtr; int qxLen, qyLen; M_Command cmd; M_Reply reply; NFKM_MakeACLParams map; NFKM_MakeBlobsParams mbp; NFKM_Key reg_key; ECDSAPublicKeyDataBn pubBn; qxPtr = qyPtr = NULL; qxLen = qyLen = 0; memset( &cmd, 0, sizeof( cmd ) ); memset( &reply, 0, sizeof( reply ) ); memset( &map, 0, sizeof( map ) ); memset( &mbp, 0, sizeof( mbp ) ); memset( ®_key, 0, sizeof( reg_key ) ); memset( &pubBn, 0, sizeof( pubBn ) ); // key data open fp = fopen( PUB_KEY_FILE, "rb" ); if ( !fp ) { printf( "error : open %s file\n", PUB_KEY_FILE ); return 1; } pubkey = d2i_EC_PUBKEY_fp( fp, NULL ); if ( !pubkey ) { printf( "error : d2i_EC_PUBKEY_fp\n" ); return 1; } fclose( fp ); #if 1 printf( "EC bignum(Openssl) size\n" ); printf( "EC(qx) : %d bytes\n", BN_num_bytes( &pubkey->pub_key->X ) ); printf( "EC(qy) : %d bytes\n", BN_num_bytes( &pubkey->pub_key->Y ) ); #endif // ECDSA public key の構成要素をそれぞれバイナリに変換 { // qx qxLen = BN_num_bytes( &pubkey->pub_key->X ); qxPtr = (unsigned char *)malloc( qxLen ); if ( qxLen != BN_bn2bin( &pubkey->pub_key->X, qxPtr ) ) { printf( "BN_bn2bin failed!(qx)\n" ); return 1; } // qy qyLen = BN_num_bytes( &pubkey->pub_key->Y ); qyPtr = (unsigned char *)malloc( qyLen ); if ( qyLen != BN_bn2bin( &pubkey->pub_key->Y, qyPtr ) ) { printf( "BN_bn2bin failed!(qy)\n" ); return 1; } } // ECDSA bignum(openssl) -> bin #if 1 printf( "EC bin addr\n" ); printf( "EC(qx) : 0x%08X\n", (unsigned int)qxPtr ); printf( "EC(qy) : 0x%08X\n", (unsigned int)qyPtr ); #endif // バイナリをHSMのBignumに変換 { my_bin2bignum( &(pubBn.qx), handle, qxPtr, qxLen ); my_bin2bignum( &(pubBn.qy), handle, qyPtr, qyLen ); free( qxPtr ); free( qyPtr ); } #if 1 printf( "EC bn addr\n" ); printf( "EC(qx) : 0x%08X\n", (unsigned int)pubBn.qx ); printf( "EC(qy) : 0x%08X\n", (unsigned int)pubBn.qy ); #endif // make ACL if ( cardset != NULL ) map.f = NFKM_NKF_RecoveryEnabled | NFKM_NKF_ProtectionCardSet | NFKM_NKF_PublicKey; else map.f = NFKM_NKF_RecoveryEnabled | NFKM_NKF_ProtectionModule | NFKM_NKF_PublicKey; // 秘密鍵には DECRYPT と SIGN // 公開鍵には ENCRYPT と VERIFY しかセットできない?? map.op_base = NFKM_DEFOPPERMS_ENCRYPT | NFKM_DEFOPPERMS_VERIFY; map.cs = cardset; result = NFKM_newkey_makeaclx( handle, nc, world, &map, &(cmd.args.import.acl), NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_newkey_makeaclx\n", result ); return result; } // import key cmd.cmd = Cmd_Import; cmd.args.import.module = MODULE_ID; cmd.args.import.data.type = KeyType_ECDSAPublic; cmd.args.import.data.data.ecdsapublic.curve.name = ECName_NISTB233; // 名前を指定することで cmd.args.import.data.data.ecdsapublic.Q.x = privBn.qx; // qx cmd.args.import.data.data.ecdsapublic.Q.y = privBn.qy; // qy だけを指定すればよい? result = NFastApp_Transact( nc, NULL, &cmd, &reply, NULL ); if ( result != Status_OK ) { printf( "error(%d) : Cmd_Import\n", result ); return 1; } result = reply.status; if ( result != Status_OK ) { printf( "error(%d) : Cmd_Import(reply)\n", result ); return 1; } // make blobs //reg_key.v = Key__maxversion; // TORIAEZU : Key__maxversion = 8 reg_key.name = keyident.ident; reg_key.appname = keyident.appname; reg_key.ident = keyident.ident; time( &(reg_key.gentime) ); mbp.f = map.f; mbp.kpub = reply.reply.import.key; mbp.lt = ltid; mbp.cs = cardset; result = NFKM_newkey_makeblobsx( handle, nc, world, &mbp, ®_key, NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_newkey_makeblobsx\n", result ); return 1; } // record key to disk result = NFKM_recordkey( handle, ®_key, NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_recordkey\n", result ); return 1; } // destroy key result = NFKM_cmd_destroy( handle, nc, 0, reply.reply.import.key, "destroy import key", NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_cmd_destroy\n", result ); return 1; } return result; } // importECDSAPublic int verifyECDSAKeyPair( NFKM_KeyIdent priv_ident, NFKM_KeyIdent pub_ident ) { int i; int result = Status_OK; M_ByteBlock *blobptr = NULL; M_KeyID priv_keyid, pub_keyid; NFKM_Key *keyinfo = NULL; M_Command cmd; M_Reply reply; priv_keyid = pub_keyid = 0; memset( &cmd, 0, sizeof( cmd ) ); memset( &reply, 0, sizeof( reply ) ); // find priv key result = NFKM_findkey( handle, priv_ident, &keyinfo, NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_findkey(priv)\n", result ); return result; } // load priv key blob blobptr = &(keyinfo->privblob); result = NFKM_cmd_loadblob( handle, nc, moduleinfo->module, blobptr, ltid, &priv_keyid, "loading priv key blob", NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_cmd_loadblob(priv)\n", result ); return result; } NFKM_freekey( handle, keyinfo, NULL ); keyinfo = NULL; #if 0 // get priv key info cmd.cmd = Cmd_GetKeyInfo; cmd.args.getkeyinfo.key = priv_keyid; result = NFastApp_Transact( nc, NULL, &cmd, &reply, NULL ); if ( result != Status_OK ) { printf( "error(%d) : FastApp_Transact(Cmd_GetKeyInfo)\n", result ); return result; } printf( "priv key ID : %08X\n", (unsigned int)priv_keyid ); printf( "priv keytype : %d\n", reply.reply.getkeyinfo.type ); NFastApp_Free_Command( handle, NULL, NULL, &cmd ); NFastApp_Free_Reply( handle, NULL, NULL, &reply ); memset( &cmd, 0, sizeof( cmd ) ); memset( &reply, 0, sizeof( reply ) ); #endif // find pub key result = NFKM_findkey( handle, pub_ident, &keyinfo, NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_findkey(pub)\n", result ); return result; } // load pub key blob blobptr = &(keyinfo->pubblob); // pub dakedo privblob result = NFKM_cmd_loadblob( handle, nc, moduleinfo->module, blobptr, ltid, &pub_keyid, "loading pub key blob", NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_cmd_loadblob(pub)\n", result ); return result; } NFKM_freekey( handle, keyinfo, NULL ); keyinfo = NULL; #if 0 // get priv key info cmd.cmd = Cmd_GetKeyInfo; cmd.args.getkeyinfo.key = pub_keyid; result = NFastApp_Transact( nc, NULL, &cmd, &reply, NULL ); if ( result != Status_OK ) { printf( "error(%d) : FastApp_Transact(Cmd_GetKeyInfo)\n", result ); return result; } printf( "pub key ID : %08X\n", (unsigned int)pub_keyid ); printf( "pub keytype : %d\n", reply.reply.getkeyinfo.type ); NFastApp_Free_Command( handle, NULL, NULL, &cmd ); NFastApp_Free_Reply( handle, NULL, NULL, &reply ); memset( &cmd, 0, sizeof( cmd ) ); memset( &reply, 0, sizeof( reply ) ); keyinfo = NULL; #endif // encrypt & dectypt test { unsigned char *beforePtr, *middlePtr, *afterPtr; int beforeLen, middleLen, afterLen; unsigned char *encPtr, *decPtr; struct NFast_Bignum *enc_bn, *dec_bn; M_Mech dec_mech; beforePtr = middlePtr = afterPtr = NULL; beforeLen = middleLen = afterLen = 0; encPtr = decPtr = NULL; enc_bn = dec_bn = NULL; // encrypt data setting beforeLen = DATA_LEN - 11; beforePtr = (unsigned char*)malloc( beforeLen ); for ( i = 0; i < beforeLen; i++ ) beforePtr[i] = ~i; my_bin2bignum( &(enc_bn), handle, beforePtr, beforeLen ); #if 0 // my_bignum2bin test unsigned char debug_buf[ DATA_LEN ]; PrintArray( (char*)"beforePtr", beforePtr, DATA_LEN ); printf( "beforePtr -> bin2bignum -> bignum2bin -> debug_buf\n" ); my_bignum2bin( debug_buf, DATA_LEN, handle, enc_bn ); PrintArray( (char*)"debug_buf", debug_buf, DATA_LEN ); #endif // encrypt transact cmd.cmd = Cmd_Encrypt; cmd.args.encrypt.flags = 0; // Cmd_Encrypt_Args_flags_given_iv_present; cmd.args.encrypt.key = pub_keyid; cmd.args.encrypt.mech = Mech_RSApPKCS1; cmd.args.encrypt.plain.type = PlainTextType_Bignum; cmd.args.encrypt.plain.data.bignum.m = enc_bn; //cmd.args.encrypt.given_iv = NULL; result = NFastApp_Transact( nc, NULL, &cmd, &reply, NULL ); if ( result != Status_OK ) { printf( "error(%d) : FastApp_Transact(Cmd_Encrypt)\n", result ); return 1; } result = reply.status; if ( result != Status_OK ) { printf( "error(%d) : reply.status(Cmd_Encrypt)\n", result ); return 1; } #if 0 if ( DATA_LEN != reply.reply.encrypt.cipher.data.rsappkcs1.m->nbytes ) { printf( "error : output size isn't %d bytes!\n", DATA_LEN ); return 1; } #endif printf( "RSA data encrypt ok\n" ); // decrypt data setting middleLen = reply.reply.encrypt.cipher.data.rsappkcs1.m->nbytes; middlePtr = (unsigned char*)malloc( middleLen ); my_bignum2bin( middlePtr, middleLen, handle, reply.reply.encrypt.cipher.data.rsappkcs1.m ); my_bin2bignum( &dec_bn, handle, middlePtr, middleLen ); dec_mech = reply.reply.encrypt.cipher.mech; NFastApp_Free_Command( handle, NULL, NULL, &cmd ); NFastApp_Free_Reply( handle, NULL, NULL, &reply ); memset( &cmd, 0, sizeof( cmd ) ); memset( &reply, 0, sizeof( reply ) ); // decrypt transact cmd.cmd = Cmd_Decrypt; cmd.args.decrypt.flags = 0; cmd.args.decrypt.key = priv_keyid; cmd.args.decrypt.mech = Mech_RSApPKCS1; cmd.args.decrypt.cipher.mech = dec_mech; cmd.args.decrypt.cipher.data.rsappkcs1.m = dec_bn; cmd.args.decrypt.reply_type = PlainTextType_Bignum; result = NFastApp_Transact( nc, NULL, &cmd, &reply, NULL ); if ( result != Status_OK ) { printf( "error(%d) : FastApp_Transact(Cmd_Decrypt)\n", result ); return 1; } result = reply.status; if ( result != Status_OK ) { printf( "error(%d) : reply.status(Cmd_Decrypt)\n", result ); return 1; } #if 0 if ( DATA_LEN != reply.reply.decrypt.plain.data.bignum.m->nbytes ) { printf( "error : output size isn't %d bytes!\n", DATA_LEN ); return 1; } #endif printf( "RSA data decrypt ok\n" ); // after afterLen = reply.reply.encrypt.cipher.data.rsappkcs1.m->nbytes; afterPtr = (unsigned char*)malloc( afterLen ); my_bignum2bin( afterPtr, afterLen, handle, reply.reply.decrypt.plain.data.bignum.m ); NFastApp_Free_Command( handle, NULL, NULL, &cmd ); NFastApp_Free_Reply( handle, NULL, NULL, &reply ); // data show PrintArray( (char*)"before", beforePtr, beforeLen ); PrintArray( (char*)"middle", middlePtr, middleLen ); PrintArray( (char*)"after", afterPtr, afterLen ); } // encrypt & decrypt return result; } // verifyECDSAkeypair void PrintArray( char *pStr, const unsigned char *pData, int length ) { int i; printf( "%s(%d bytes)", pStr, length ); for ( i = 0; i < length; i++ ) { if ( (i % 16) == 0 ) printf( "\n" ); printf( "%02X ", pData[ i ] ); } printf( "\n" ); } // PrintArray int main( int argc, char *argv[] ) { int result = Status_OK; M_Command cmd; M_Reply reply; memset( &cmd, 0, sizeof( cmd ) ); memset( &reply, 0, sizeof( reply ) ); // init nFast result = NFastApp_InitEx( &handle, NULL, NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFastApp_InitEx\n", result ); return 1; } // connecting to hardserver result = NFastApp_Connect( handle, &nc, 0, NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFastApp_Connect\n", result ); return 1; } // set bignum upcalls setting result = NFastApp_SetBignumUpcalls( handle, my_bignumreceiveupcall, my_bignumsendlenupcall, my_bignumsendupcall, my_bignumfreeupcall, my_bignumformatupcall, NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFastApp_SetBignumUpcalls\n", result ); return 1; } // NFKM getinfo result = NFKM_getinfo( handle, &world, NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_getinfo\n", result ); return 1; } // init card-loading lib result = RQCard_init( &card, handle, nc, world, NULL ); if ( result != Status_OK ) { printf( "error(%d) : RQCard_init\n", result ); return 1; } // init FIPS state result = RQCard_fips_init( &card, &fips ); if ( result != Status_OK ) { printf( "error(%d) : RQCard_fips_init\n", result ); return 1; } // ui select result = RQCard_ui_default( &card ); if ( result != Status_OK ) { printf( "error(%d) : RQCard_ui_default\n", result ); return 1; } // get strict-FIPS authorization #if 0 NFKM_FIPS140AuthHandle fipsHandle; M_SlotID slotId; result = RQCard_fips_get( &fips, 1, &fipsHandle, &slotId ); if ( result != Status_OK ) { printf( "error(%d) : RQCard_fips_get\n", result ); return 0; } if ( fipsHandle == NULL ) { printf( "this sworld isn't strict-FIPS.\n" ); } #endif #if 0 // list cardsets int card_num; NFKM_CardSetIdent *cardident = NULL; result = NFKM_listcardsets( handle, &card_num, &cardident, NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_listcardsets\n", result ); return 0; } // find cardsets result = NFKM_findcardset( handle, cardident, &cardset, NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_findcardset\n", result ); return 0; } // load cardset result = RQCard_logic_ocs_specific( &card, &(cardset->hkltu), "Load Cardset" ); if ( result != Status_OK ) { printf( "error(%d) : RQCard_logic_ocs_specific\n", result ); return 0; } // use specific module : #1 // important!! : if you set resultplace=NULL, abort. (possibility is 100%) result = RQCard_whichmodule_specific( &card, world->modules[0]->module, <id ); if ( result != Status_OK ) { printf( "error(%d) : RQCard_whichmodule_specific\n", result ); } // wait event loop result = card.uf->eventloop( &card ); if ( result != Status_OK ) { printf( "error(%d) : card module event loop\n", result ); } #endif // get usable module moduleinfo = world->modules[0]; result = NFKM_getusablemodule( world, MODULE_ID, &moduleinfo ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_getusablemodule\n", result ); return 1; } // ECDSA privkey のインポート result = importECDSAPrivate( priv_keyident ); if ( result != Status_OK ) { printf( "error : importECDSAPrivate\n" ); return 1; } printf( "ECDSA privkey import success.\n" ); // ECDSA pubkey result = importECDSAPublic( pub_keyident ); if ( result != Status_OK ) { printf( "error : importECDSAPublic\n" ); return 1; } printf( "ECDSA pubkey import success.\n" ); // list key #if 0 int key_num; NFKM_KeyIdent *keylist = NULL; result = NFKM_listkeys( handle, &key_num, &keylist, "simple", NULL ); if ( result != Status_OK ) { printf( "error(%d) : NFKM_listkeys\n", result ); } NFKM_KeyIdent **tkp = &keylist; for ( i = 0; i < key_num; i++ ) { printf( "appname : %s, ident : %s\n", tkp[i]->appname, tkp[i]->ident ); } #endif // verify key pair result = verifyECDSAKeyPair( priv_keyident, pub_keyident ); if ( result != Status_OK ) { printf( "error : verifyECDSAKeyPair\n" ); return 1; } printf( "ECDSA keypair verify success.\n" ); // end processing RQCard_fips_free( &card, &fips ); RQCard_destroy( &card ); NFKM_freeinfo( handle, &world, NULL ); NFastApp_Disconnect( nc, NULL ); NFastApp_Finish( handle, NULL ); return 0; } // main