arm-unknown-linux-gnueabi/sysroot/usr/include/rpcsvc/key_prot.x - toolchains/mindspeed - Git at Google

 %/*
 % * 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
 % */
 /*
  * Key server protocol definition
  * Copyright (C) 1990, 1991 Sun Microsystems, Inc.
  *
  * The keyserver is a public key storage/encryption/decryption service
  * The encryption method used is based on the Diffie-Hellman exponential
  * key exchange technology.
  *
  * The key server is local to each machine, akin to the portmapper.
  * Under TI-RPC, communication with the keyserver is through the
  * loopback transport.
  *
  * NOTE: This .x file generates the USER level headers for the keyserver.
  * the KERNEL level headers are created by hand as they kernel has special
  * requirements.
  */

 %#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!
 % */

 /*
  * PROOT and MODULUS define the way the Diffie-Hellman key is generated.
  *
  * MODULUS should be chosen as a prime of the form: MODULUS == 2*p + 1,
  * where p is also prime.
  *
  * PROOT satisfies the following two conditions:
  * (1) (PROOT ** 2) % MODULUS != 1
  * (2) (PROOT ** p) % MODULUS != 1
  *
  */

 const PROOT = 3;
 const HEXMODULUS = "d4a0ba0250b6fd2ec626e7efd637df76c716e22d0944b88b";

 const HEXKEYBYTES = 48;		/* HEXKEYBYTES == strlen(HEXMODULUS) */
 const KEYSIZE = 192;		/* KEYSIZE == bit length of key */
 const KEYBYTES = 24;		/* byte length of key */

 /*
  * The first 16 hex digits of the encrypted secret key are used as
  * a checksum in the database.
  */
 const KEYCHECKSUMSIZE = 16;

 /*
  * status of operation
  */
 enum keystatus {
 	KEY_SUCCESS,	/* no problems */
 	KEY_NOSECRET,	/* no secret key stored */
 	KEY_UNKNOWN,	/* unknown netname */
 	KEY_SYSTEMERR 	/* system error (out of memory, encryption failure) */
 };

 typedef opaque keybuf[HEXKEYBYTES];	/* store key in hex */

 typedef string netnamestr<MAXNETNAMELEN>;

 /*
  * Argument to ENCRYPT or DECRYPT
  */
 struct cryptkeyarg {
 	netnamestr remotename;
 	des_block deskey;
 };

 /*
  * Argument to ENCRYPT_PK or DECRYPT_PK
  */
 struct cryptkeyarg2 {
 	netnamestr remotename;
 	netobj	remotekey;	/* Contains a length up to 1024 bytes */
 	des_block deskey;
 };


 /*
  * Result of ENCRYPT, DECRYPT, ENCRYPT_PK, and DECRYPT_PK
  */
 union cryptkeyres switch (keystatus status) {
 case KEY_SUCCESS:
 	des_block deskey;
 default:
 	void;
 };

 const MAXGIDS  = 16;	/* max number of gids in gid list */

 /*
  * Unix credential
  */
 struct unixcred {
 	u_int uid;
 	u_int gid;
 	u_int gids<MAXGIDS>;
 };

 /*
  * Result returned from GETCRED
  */
 union getcredres switch (keystatus status) {
 case KEY_SUCCESS:
 	unixcred cred;
 default:
 	void;
 };
 /*
  * key_netstarg;
  */

 struct key_netstarg {
 	keybuf st_priv_key;
 	keybuf st_pub_key;
 	netnamestr st_netname;
 };

 union key_netstres switch (keystatus status){
 case KEY_SUCCESS:
 	key_netstarg knet;
 default:
 	void;
 };

 #ifdef RPC_HDR
 %
 %#ifndef opaque
 %#define opaque char
 %#endif
 %
 #endif
 program KEY_PROG {
 	version KEY_VERS {

 		/*
 		 * This is my secret key.
 	 	 * Store it for me.
 		 */
 		keystatus
 		KEY_SET(keybuf) = 1;

 		/*
 		 * I want to talk to X.
 		 * Encrypt a conversation key for me.
 	 	 */
 		cryptkeyres
 		KEY_ENCRYPT(cryptkeyarg) = 2;

 		/*
 		 * X just sent me a message.
 		 * Decrypt the conversation key for me.
 		 */
 		cryptkeyres
 		KEY_DECRYPT(cryptkeyarg) = 3;

 		/*
 		 * Generate a secure conversation key for me
 		 */
 		des_block
 		KEY_GEN(void) = 4;

 		/*
 		 * Get me the uid, gid and group-access-list associated
 		 * with this netname (for kernel which cannot use NIS)
 		 */
 		getcredres
 		KEY_GETCRED(netnamestr) = 5;
 	} = 1;
 	version KEY_VERS2 {

 		/*
 		 * #######
 		 * Procedures 1-5 are identical to version 1
 		 * #######
 		 */

 		/*
 		 * This is my secret key.
 	 	 * Store it for me.
 		 */
 		keystatus
 		KEY_SET(keybuf) = 1;

 		/*
 		 * I want to talk to X.
 		 * Encrypt a conversation key for me.
 	 	 */
 		cryptkeyres
 		KEY_ENCRYPT(cryptkeyarg) = 2;

 		/*
 		 * X just sent me a message.
 		 * Decrypt the conversation key for me.
 		 */
 		cryptkeyres
 		KEY_DECRYPT(cryptkeyarg) = 3;

 		/*
 		 * Generate a secure conversation key for me
 		 */
 		des_block
 		KEY_GEN(void) = 4;

 		/*
 		 * Get me the uid, gid and group-access-list associated
 		 * with this netname (for kernel which cannot use NIS)
 		 */
 		getcredres
 		KEY_GETCRED(netnamestr) = 5;

 		/*
 		 * I want to talk to X. and I know X's public key
 		 * Encrypt a conversation key for me.
 	 	 */
 		cryptkeyres
 		KEY_ENCRYPT_PK(cryptkeyarg2) = 6;

 		/*
 		 * X just sent me a message. and I know X's public key
 		 * Decrypt the conversation key for me.
 		 */
 		cryptkeyres
 		KEY_DECRYPT_PK(cryptkeyarg2) = 7;

 		/*
 		 * Store my public key, netname and private key.
 		 */
 		keystatus
 		KEY_NET_PUT(key_netstarg) = 8;

 		/*
 		 * Retrieve my public key, netname and private key.
 		 */
  		key_netstres
 		KEY_NET_GET(void) = 9;

 		/*
 		 * Return me the conversation key that is constructed
 		 * from my secret key and this publickey.
 		 */

 		cryptkeyres
 		KEY_GET_CONV(keybuf) = 10;


 	} = 2;
 } = 100029;
	%/*
	% * 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
	% */
	/*
	* Key server protocol definition
	* Copyright (C) 1990, 1991 Sun Microsystems, Inc.
	*
	* The keyserver is a public key storage/encryption/decryption service
	* The encryption method used is based on the Diffie-Hellman exponential
	* key exchange technology.
	*
	* The key server is local to each machine, akin to the portmapper.
	* Under TI-RPC, communication with the keyserver is through the
	* loopback transport.
	*
	* NOTE: This .x file generates the USER level headers for the keyserver.
	* the KERNEL level headers are created by hand as they kernel has special
	* requirements.
	*/

	%#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!
	% */

	/*
	* PROOT and MODULUS define the way the Diffie-Hellman key is generated.
	*
	* MODULUS should be chosen as a prime of the form: MODULUS == 2*p + 1,
	* where p is also prime.
	*
	* PROOT satisfies the following two conditions:
	* (1) (PROOT ** 2) % MODULUS != 1
	* (2) (PROOT ** p) % MODULUS != 1
	*
	*/

	const PROOT = 3;
	const HEXMODULUS = "d4a0ba0250b6fd2ec626e7efd637df76c716e22d0944b88b";

	const HEXKEYBYTES = 48; /* HEXKEYBYTES == strlen(HEXMODULUS) */
	const KEYSIZE = 192; /* KEYSIZE == bit length of key */
	const KEYBYTES = 24; /* byte length of key */

	/*
	* The first 16 hex digits of the encrypted secret key are used as
	* a checksum in the database.
	*/
	const KEYCHECKSUMSIZE = 16;

	/*
	* status of operation
	*/
	enum keystatus {
	KEY_SUCCESS, /* no problems */
	KEY_NOSECRET, /* no secret key stored */
	KEY_UNKNOWN, /* unknown netname */
	KEY_SYSTEMERR /* system error (out of memory, encryption failure) */
	};

	typedef opaque keybuf[HEXKEYBYTES]; /* store key in hex */

	typedef string netnamestr<MAXNETNAMELEN>;

	/*
	* Argument to ENCRYPT or DECRYPT
	*/
	struct cryptkeyarg {
	netnamestr remotename;
	des_block deskey;
	};

	/*
	* Argument to ENCRYPT_PK or DECRYPT_PK
	*/
	struct cryptkeyarg2 {
	netnamestr remotename;
	netobj remotekey; /* Contains a length up to 1024 bytes */
	des_block deskey;
	};


	/*
	* Result of ENCRYPT, DECRYPT, ENCRYPT_PK, and DECRYPT_PK
	*/
	union cryptkeyres switch (keystatus status) {
	case KEY_SUCCESS:
	des_block deskey;
	default:
	void;
	};

	const MAXGIDS = 16; /* max number of gids in gid list */

	/*
	* Unix credential
	*/
	struct unixcred {
	u_int uid;
	u_int gid;
	u_int gids<MAXGIDS>;
	};

	/*
	* Result returned from GETCRED
	*/
	union getcredres switch (keystatus status) {
	case KEY_SUCCESS:
	unixcred cred;
	default:
	void;
	};
	/*
	* key_netstarg;
	*/

	struct key_netstarg {
	keybuf st_priv_key;
	keybuf st_pub_key;
	netnamestr st_netname;
	};

	union key_netstres switch (keystatus status){
	case KEY_SUCCESS:
	key_netstarg knet;
	default:
	void;
	};

	#ifdef RPC_HDR
	%
	%#ifndef opaque
	%#define opaque char
	%#endif
	%
	#endif
	program KEY_PROG {
	version KEY_VERS {

	/*
	* This is my secret key.
	* Store it for me.
	*/
	keystatus
	KEY_SET(keybuf) = 1;

	/*
	* I want to talk to X.
	* Encrypt a conversation key for me.
	*/
	cryptkeyres
	KEY_ENCRYPT(cryptkeyarg) = 2;

	/*
	* X just sent me a message.
	* Decrypt the conversation key for me.
	*/
	cryptkeyres
	KEY_DECRYPT(cryptkeyarg) = 3;

	/*
	* Generate a secure conversation key for me
	*/
	des_block
	KEY_GEN(void) = 4;

	/*
	* Get me the uid, gid and group-access-list associated
	* with this netname (for kernel which cannot use NIS)
	*/
	getcredres
	KEY_GETCRED(netnamestr) = 5;
	} = 1;
	version KEY_VERS2 {

	/*
	* #######
	* Procedures 1-5 are identical to version 1
	* #######
	*/

	/*
	* This is my secret key.
	* Store it for me.
	*/
	keystatus
	KEY_SET(keybuf) = 1;

	/*
	* I want to talk to X.
	* Encrypt a conversation key for me.
	*/
	cryptkeyres
	KEY_ENCRYPT(cryptkeyarg) = 2;

	/*
	* X just sent me a message.
	* Decrypt the conversation key for me.
	*/
	cryptkeyres
	KEY_DECRYPT(cryptkeyarg) = 3;

	/*
	* Generate a secure conversation key for me
	*/
	des_block
	KEY_GEN(void) = 4;

	/*
	* Get me the uid, gid and group-access-list associated
	* with this netname (for kernel which cannot use NIS)
	*/
	getcredres
	KEY_GETCRED(netnamestr) = 5;

	/*
	* I want to talk to X. and I know X's public key
	* Encrypt a conversation key for me.
	*/
	cryptkeyres
	KEY_ENCRYPT_PK(cryptkeyarg2) = 6;

	/*
	* X just sent me a message. and I know X's public key
	* Decrypt the conversation key for me.
	*/
	cryptkeyres
	KEY_DECRYPT_PK(cryptkeyarg2) = 7;

	/*
	* Store my public key, netname and private key.
	*/
	keystatus
	KEY_NET_PUT(key_netstarg) = 8;

	/*
	* Retrieve my public key, netname and private key.
	*/
	key_netstres
	KEY_NET_GET(void) = 9;

	/*
	* Return me the conversation key that is constructed
	* from my secret key and this publickey.
	*/

	cryptkeyres
	KEY_GET_CONV(keybuf) = 10;


	} = 2;
	} = 100029;