/* * Please do not edit this file. * It was generated using rpcgen. */ #ifndef _KEY_PROT_H_RPCGEN #define _KEY_PROT_H_RPCGEN #include <rpc/rpc.h> /* * Sun RPC is a product of Sun Microsystems, Inc. and is provided for * unrestricted use provided that this legend is included on all tape * media and as a part of the software program in whole or part. Users * may copy or modify Sun RPC without charge, but are not authorized * to license or distribute it to anyone else except as part of a product or * program developed by the user. * * SUN RPC IS PROVIDED AS IS WITH NO WARRANTIES OF ANY KIND INCLUDING THE * WARRANTIES OF DESIGN, MERCHANTIBILITY AND FITNESS FOR A PARTICULAR * PURPOSE, OR ARISING FROM A COURSE OF DEALING, USAGE OR TRADE PRACTICE. * * Sun RPC is provided with no support and without any obligation on the * part of Sun Microsystems, Inc. to assist in its use, correction, * modification or enhancement. * * SUN MICROSYSTEMS, INC. SHALL HAVE NO LIABILITY WITH RESPECT TO THE * INFRINGEMENT OF COPYRIGHTS, TRADE SECRETS OR ANY PATENTS BY SUN RPC * OR ANY PART THEREOF. * * In no event will Sun Microsystems, Inc. be liable for any lost revenue * or profits or other special, indirect and consequential damages, even if * Sun has been advised of the possibility of such damages. * * Sun Microsystems, Inc. * 2550 Garcia Avenue * Mountain View, California 94043 */ #if 0 #pragma ident "@(#)key_prot.x 1.7 94/04/29 SMI" #endif /* Copyright (c) 1990, 1991 Sun Microsystems, Inc. */ /* * Compiled from key_prot.x using rpcgen. * DO NOT EDIT THIS FILE! * This is NOT source code! */ #define PROOT 3 #define HEXMODULUS "d4a0ba0250b6fd2ec626e7efd637df76c716e22d0944b88b" #define HEXKEYBYTES 48 #define KEYSIZE 192 #define KEYBYTES 24 #define KEYCHECKSUMSIZE 16 enum keystatus { KEY_SUCCESS = 0, KEY_NOSECRET = 1, KEY_UNKNOWN = 2, KEY_SYSTEMERR = 3, }; typedef enum keystatus keystatus; #ifdef __cplusplus extern "C" bool_t xdr_keystatus(XDR *, keystatus*); #elif __STDC__ extern bool_t xdr_keystatus(XDR *, keystatus*); #else /* Old Style C */ bool_t xdr_keystatus(); #endif /* Old Style C */ typedef char keybuf[HEXKEYBYTES]; #ifdef __cplusplus extern "C" bool_t xdr_keybuf(XDR *, keybuf); #elif __STDC__ extern bool_t xdr_keybuf(XDR *, keybuf); #else /* Old Style C */ bool_t xdr_keybuf(); #endif /* Old Style C */ typedef char *netnamestr; #ifdef __cplusplus extern "C" bool_t xdr_netnamestr(XDR *, netnamestr*); #elif __STDC__ extern bool_t xdr_netnamestr(XDR *, netnamestr*); #else /* Old Style C */ bool_t xdr_netnamestr(); #endif /* Old Style C */ struct cryptkeyarg { netnamestr remotename; des_block deskey; }; typedef struct cryptkeyarg cryptkeyarg; #ifdef __cplusplus extern "C" bool_t xdr_cryptkeyarg(XDR *, cryptkeyarg*); #elif __STDC__ extern bool_t xdr_cryptkeyarg(XDR *, cryptkeyarg*); #else /* Old Style C */ bool_t xdr_cryptkeyarg(); #endif /* Old Style C */ struct cryptkeyarg2 { netnamestr remotename; netobj remotekey; des_block deskey; }; typedef struct cryptkeyarg2 cryptkeyarg2; #ifdef __cplusplus extern "C" bool_t xdr_cryptkeyarg2(XDR *, cryptkeyarg2*); #elif __STDC__ extern bool_t xdr_cryptkeyarg2(XDR *, cryptkeyarg2*); #else /* Old Style C */ bool_t xdr_cryptkeyarg2(); #endif /* Old Style C */ struct cryptkeyres { keystatus status; union { des_block deskey; } cryptkeyres_u; }; typedef struct cryptkeyres cryptkeyres; #ifdef __cplusplus extern "C" bool_t xdr_cryptkeyres(XDR *, cryptkeyres*); #elif __STDC__ extern bool_t xdr_cryptkeyres(XDR *, cryptkeyres*); #else /* Old Style C */ bool_t xdr_cryptkeyres(); #endif /* Old Style C */ #define MAXGIDS 16 struct unixcred { u_int uid; u_int gid; struct { u_int gids_len; u_int *gids_val; } gids; }; typedef struct unixcred unixcred; #ifdef __cplusplus extern "C" bool_t xdr_unixcred(XDR *, unixcred*); #elif __STDC__ extern bool_t xdr_unixcred(XDR *, unixcred*); #else /* Old Style C */ bool_t xdr_unixcred(); #endif /* Old Style C */ struct getcredres { keystatus status; union { unixcred cred; } getcredres_u; }; typedef struct getcredres getcredres; #ifdef __cplusplus extern "C" bool_t xdr_getcredres(XDR *, getcredres*); #elif __STDC__ extern bool_t xdr_getcredres(XDR *, getcredres*); #else /* Old Style C */ bool_t xdr_getcredres(); #endif /* Old Style C */ struct key_netstarg { keybuf st_priv_key; keybuf st_pub_key; netnamestr st_netname; }; typedef struct key_netstarg key_netstarg; #ifdef __cplusplus extern "C" bool_t xdr_key_netstarg(XDR *, key_netstarg*); #elif __STDC__ extern bool_t xdr_key_netstarg(XDR *, key_netstarg*); #else /* Old Style C */ bool_t xdr_key_netstarg(); #endif /* Old Style C */ struct key_netstres { keystatus status; union { key_netstarg knet; } key_netstres_u; }; typedef struct key_netstres key_netstres; #ifdef __cplusplus extern "C" bool_t xdr_key_netstres(XDR *, key_netstres*); #elif __STDC__ extern bool_t xdr_key_netstres(XDR *, key_netstres*); #else /* Old Style C */ bool_t xdr_key_netstres(); #endif /* Old Style C */ #ifndef opaque #define opaque char #endif #define KEY_PROG ((u_long)100029) #define KEY_VERS ((u_long)1) #ifdef __cplusplus #define KEY_SET ((u_long)1) extern "C" keystatus * key_set_1(opaque *, CLIENT *); extern "C" keystatus * key_set_1_svc(opaque *, struct svc_req *); #define KEY_ENCRYPT ((u_long)2) extern "C" cryptkeyres * key_encrypt_1(cryptkeyarg *, CLIENT *); extern "C" cryptkeyres * key_encrypt_1_svc(cryptkeyarg *, struct svc_req *); #define KEY_DECRYPT ((u_long)3) extern "C" cryptkeyres * key_decrypt_1(cryptkeyarg *, CLIENT *); extern "C" cryptkeyres * key_decrypt_1_svc(cryptkeyarg *, struct svc_req *); #define KEY_GEN ((u_long)4) extern "C" des_block * key_gen_1(void *, CLIENT *); extern "C" des_block * key_gen_1_svc(void *, struct svc_req *); #define KEY_GETCRED ((u_long)5) extern "C" getcredres * key_getcred_1(netnamestr *, CLIENT *); extern "C" getcredres * key_getcred_1_svc(netnamestr *, struct svc_req *); #elif __STDC__ #define KEY_SET ((u_long)1) extern keystatus * key_set_1(opaque *, CLIENT *); extern keystatus * key_set_1_svc(opaque *, struct svc_req *); #define KEY_ENCRYPT ((u_long)2) extern cryptkeyres * key_encrypt_1(cryptkeyarg *, CLIENT *); extern cryptkeyres * key_encrypt_1_svc(cryptkeyarg *, struct svc_req *); #define KEY_DECRYPT ((u_long)3) extern cryptkeyres * key_decrypt_1(cryptkeyarg *, CLIENT *); extern cryptkeyres * key_decrypt_1_svc(cryptkeyarg *, struct svc_req *); #define KEY_GEN ((u_long)4) extern des_block * key_gen_1(void *, CLIENT *); extern des_block * key_gen_1_svc(void *, struct svc_req *); #define KEY_GETCRED ((u_long)5) extern getcredres * key_getcred_1(netnamestr *, CLIENT *); extern getcredres * key_getcred_1_svc(netnamestr *, struct svc_req *); #else /* Old Style C */ #define KEY_SET ((u_long)1) extern keystatus * key_set_1(); extern keystatus * key_set_1_svc(); #define KEY_ENCRYPT ((u_long)2) extern cryptkeyres * key_encrypt_1(); extern cryptkeyres * key_encrypt_1_svc(); #define KEY_DECRYPT ((u_long)3) extern cryptkeyres * key_decrypt_1(); extern cryptkeyres * key_decrypt_1_svc(); #define KEY_GEN ((u_long)4) extern des_block * key_gen_1(); extern des_block * key_gen_1_svc(); #define KEY_GETCRED ((u_long)5) extern getcredres * key_getcred_1(); extern getcredres * key_getcred_1_svc(); #endif /* Old Style C */ #define KEY_VERS2 ((u_long)2) #ifdef __cplusplus extern "C" keystatus * key_set_2(opaque *, CLIENT *); extern "C" keystatus * key_set_2_svc(opaque *, struct svc_req *); extern "C" cryptkeyres * key_encrypt_2(cryptkeyarg *, CLIENT *); extern "C" cryptkeyres * key_encrypt_2_svc(cryptkeyarg *, struct svc_req *); extern "C" cryptkeyres * key_decrypt_2(cryptkeyarg *, CLIENT *); extern "C" cryptkeyres * key_decrypt_2_svc(cryptkeyarg *, struct svc_req *); extern "C" des_block * key_gen_2(void *, CLIENT *); extern "C" des_block * key_gen_2_svc(void *, struct svc_req *); extern "C" getcredres * key_getcred_2(netnamestr *, CLIENT *); extern "C" getcredres * key_getcred_2_svc(netnamestr *, struct svc_req *); #define KEY_ENCRYPT_PK ((u_long)6) extern "C" cryptkeyres * key_encrypt_pk_2(cryptkeyarg2 *, CLIENT *); extern "C" cryptkeyres * key_encrypt_pk_2_svc(cryptkeyarg2 *, struct svc_req *); #define KEY_DECRYPT_PK ((u_long)7) extern "C" cryptkeyres * key_decrypt_pk_2(cryptkeyarg2 *, CLIENT *); extern "C" cryptkeyres * key_decrypt_pk_2_svc(cryptkeyarg2 *, struct svc_req *); #define KEY_NET_PUT ((u_long)8) extern "C" keystatus * key_net_put_2(key_netstarg *, CLIENT *); extern "C" keystatus * key_net_put_2_svc(key_netstarg *, struct svc_req *); #define KEY_NET_GET ((u_long)9) extern "C" key_netstres * key_net_get_2(void *, CLIENT *); extern "C" key_netstres * key_net_get_2_svc(void *, struct svc_req *); #define KEY_GET_CONV ((u_long)10) extern "C" cryptkeyres * key_get_conv_2(opaque *, CLIENT *); extern "C" cryptkeyres * key_get_conv_2_svc(opaque *, struct svc_req *); #elif __STDC__ extern keystatus * key_set_2(opaque *, CLIENT *); extern keystatus * key_set_2_svc(opaque *, struct svc_req *); extern cryptkeyres * key_encrypt_2(cryptkeyarg *, CLIENT *); extern cryptkeyres * key_encrypt_2_svc(cryptkeyarg *, struct svc_req *); extern cryptkeyres * key_decrypt_2(cryptkeyarg *, CLIENT *); extern cryptkeyres * key_decrypt_2_svc(cryptkeyarg *, struct svc_req *); extern des_block * key_gen_2(void *, CLIENT *); extern des_block * key_gen_2_svc(void *, struct svc_req *); extern getcredres * key_getcred_2(netnamestr *, CLIENT *); extern getcredres * key_getcred_2_svc(netnamestr *, struct svc_req *); #define KEY_ENCRYPT_PK ((u_long)6) extern cryptkeyres * key_encrypt_pk_2(cryptkeyarg2 *, CLIENT *); extern cryptkeyres * key_encrypt_pk_2_svc(cryptkeyarg2 *, struct svc_req *); #define KEY_DECRYPT_PK ((u_long)7) extern cryptkeyres * key_decrypt_pk_2(cryptkeyarg2 *, CLIENT *); extern cryptkeyres * key_decrypt_pk_2_svc(cryptkeyarg2 *, struct svc_req *); #define KEY_NET_PUT ((u_long)8) extern keystatus * key_net_put_2(key_netstarg *, CLIENT *); extern keystatus * key_net_put_2_svc(key_netstarg *, struct svc_req *); #define KEY_NET_GET ((u_long)9) extern key_netstres * key_net_get_2(void *, CLIENT *); extern key_netstres * key_net_get_2_svc(void *, struct svc_req *); #define KEY_GET_CONV ((u_long)10) extern cryptkeyres * key_get_conv_2(opaque *, CLIENT *); extern cryptkeyres * key_get_conv_2_svc(opaque *, struct svc_req *); #else /* Old Style C */ extern keystatus * key_set_2(); extern keystatus * key_set_2_svc(); extern cryptkeyres * key_encrypt_2(); extern cryptkeyres * key_encrypt_2_svc(); extern cryptkeyres * key_decrypt_2(); extern cryptkeyres * key_decrypt_2_svc(); extern des_block * key_gen_2(); extern des_block * key_gen_2_svc(); extern getcredres * key_getcred_2(); extern getcredres * key_getcred_2_svc(); #define KEY_ENCRYPT_PK ((u_long)6) extern cryptkeyres * key_encrypt_pk_2(); extern cryptkeyres * key_encrypt_pk_2_svc(); #define KEY_DECRYPT_PK ((u_long)7) extern cryptkeyres * key_decrypt_pk_2(); extern cryptkeyres * key_decrypt_pk_2_svc(); #define KEY_NET_PUT ((u_long)8) extern keystatus * key_net_put_2(); extern keystatus * key_net_put_2_svc(); #define KEY_NET_GET ((u_long)9) extern key_netstres * key_net_get_2(); extern key_netstres * key_net_get_2_svc(); #define KEY_GET_CONV ((u_long)10) extern cryptkeyres * key_get_conv_2(); extern cryptkeyres * key_get_conv_2_svc(); #endif /* Old Style C */ #endif /* !_KEY_PROT_H_RPCGEN */