peer.h - tinydtls/org.eclipse.tinydtls - Git at Google

 /*******************************************************************************
  *
  * Copyright (c) 2011, 2012, 2013, 2014, 2015 Olaf Bergmann (TZI) and others.
  * All rights reserved. This program and the accompanying materials
  * are made available under the terms of the Eclipse Public License v1.0
  * and Eclipse Distribution License v. 1.0 which accompanies this distribution.
  *
  * The Eclipse Public License is available at http://www.eclipse.org/legal/epl-v10.html
  * and the Eclipse Distribution License is available at
  * http://www.eclipse.org/org/documents/edl-v10.php.
  *
  * Contributors:
  *    Olaf Bergmann  - initial API and implementation
  *    Hauke Mehrtens - memory optimization, ECC integration
  *
  *******************************************************************************/

 /**
  * @file peer.h
  * @brief information about peers in a DTLS session
  */

 #ifndef _DTLS_PEER_H_
 #define _DTLS_PEER_H_

 #include <sys/types.h>

 #include "tinydtls.h"
 #include "global.h"
 #include "session.h"

 #include "state.h"
 #include "crypto.h"

 #ifndef DTLS_PEERS_NOHASH
 #include "uthash.h"
 #endif /* DTLS_PEERS_NOHASH */

 typedef enum { DTLS_CLIENT=0, DTLS_SERVER } dtls_peer_type;

 /**
  * Holds security parameters, local state and the transport address
  * for each peer. */
 typedef struct dtls_peer_t {
 #ifdef DTLS_PEERS_NOHASH
   struct dtls_peer_t *next;
 #else /* DTLS_PEERS_NOHASH */
   UT_hash_handle hh;
 #endif /* DTLS_PEERS_NOHASH */

   session_t session;	     /**< peer address and local interface */

   dtls_peer_type role;       /**< denotes if this host is DTLS_CLIENT or DTLS_SERVER */
   dtls_state_t state;        /**< DTLS engine state */

   dtls_security_parameters_t *security_params[2];
   dtls_handshake_parameters_t *handshake_params;
 } dtls_peer_t;

 static inline dtls_security_parameters_t *dtls_security_params_epoch(dtls_peer_t *peer, uint16_t epoch)
 {
   if (peer->security_params[0] && peer->security_params[0]->epoch == epoch) {
     return peer->security_params[0];
   } else if (peer->security_params[1] && peer->security_params[1]->epoch == epoch) {
     return peer->security_params[1];
   } else {
     return NULL;
   }
 }

 static inline dtls_security_parameters_t *dtls_security_params(dtls_peer_t *peer)
 {
   return peer->security_params[0];
 }

 static inline dtls_security_parameters_t *dtls_security_params_next(dtls_peer_t *peer)
 {
   if (peer->security_params[1])
     dtls_security_free(peer->security_params[1]);

   peer->security_params[1] = dtls_security_new();
   if (!peer->security_params[1]) {
     return NULL;
   }
   peer->security_params[1]->epoch = peer->security_params[0]->epoch + 1;
   return peer->security_params[1];
 }

 static inline void dtls_security_params_free_other(dtls_peer_t *peer)
 {
   dtls_security_parameters_t * security0 = peer->security_params[0];
   dtls_security_parameters_t * security1 = peer->security_params[1];

   if (!security0 || !security1 || security0->epoch < security1->epoch)
     return;

   dtls_security_free(security1);
   peer->security_params[1] = NULL;
 }

 static inline void dtls_security_params_switch(dtls_peer_t *peer)
 {
   dtls_security_parameters_t * security = peer->security_params[1];

   peer->security_params[1] = peer->security_params[0];
   peer->security_params[0] = security;
 }

 void peer_init(void);

 /**
  * Creates a new peer for given @p session. The current configuration
  * is initialized with the cipher suite TLS_NULL_WITH_NULL_NULL (i.e.
  * no security at all). This function returns a pointer to the new
  * peer or NULL on error. The caller is responsible for releasing the
  * storage allocated for this peer using dtls_free_peer().
  *
  * @param session  The remote peer's address and local interface index.
  * @return A pointer to a newly created and initialized peer object
  * or NULL on error.
  */
 dtls_peer_t *dtls_new_peer(const session_t *session);

 /** Releases the storage allocated to @p peer. */
 void dtls_free_peer(dtls_peer_t *peer);

 /** Returns the current state of @p peer. */
 static inline dtls_state_t dtls_peer_state(const dtls_peer_t *peer) {
   return peer->state;
 }

 /**
  * Checks if given @p peer is connected. This function returns
  * @c 1 if connected, or @c 0 otherwise.
  */
 static inline int dtls_peer_is_connected(const dtls_peer_t *peer) {
   return peer->state == DTLS_STATE_CONNECTED;
 }

 #endif /* _DTLS_PEER_H_ */
	/*******************************************************************************
	*
	* Copyright (c) 2011, 2012, 2013, 2014, 2015 Olaf Bergmann (TZI) and others.
	* All rights reserved. This program and the accompanying materials
	* are made available under the terms of the Eclipse Public License v1.0
	* and Eclipse Distribution License v. 1.0 which accompanies this distribution.
	*
	* The Eclipse Public License is available at http://www.eclipse.org/legal/epl-v10.html
	* and the Eclipse Distribution License is available at
	* http://www.eclipse.org/org/documents/edl-v10.php.
	*
	* Contributors:
	* Olaf Bergmann - initial API and implementation
	* Hauke Mehrtens - memory optimization, ECC integration
	*
	*******************************************************************************/

	/**
	* @file peer.h
	* @brief information about peers in a DTLS session
	*/

	#ifndef _DTLS_PEER_H_
	#define _DTLS_PEER_H_

	#include <sys/types.h>

	#include "tinydtls.h"
	#include "global.h"
	#include "session.h"

	#include "state.h"
	#include "crypto.h"

	#ifndef DTLS_PEERS_NOHASH
	#include "uthash.h"
	#endif /* DTLS_PEERS_NOHASH */

	typedef enum { DTLS_CLIENT=0, DTLS_SERVER } dtls_peer_type;

	/**
	* Holds security parameters, local state and the transport address
	* for each peer. */
	typedef struct dtls_peer_t {
	#ifdef DTLS_PEERS_NOHASH
	struct dtls_peer_t *next;
	#else /* DTLS_PEERS_NOHASH */
	UT_hash_handle hh;
	#endif /* DTLS_PEERS_NOHASH */

	session_t session; /*< peer address and local interface /

	dtls_peer_type role; /*< denotes if this host is DTLS_CLIENT or DTLS_SERVER /
	dtls_state_t state; /*< DTLS engine state /

	dtls_security_parameters_t *security_params[2];
	dtls_handshake_parameters_t *handshake_params;
	} dtls_peer_t;

	static inline dtls_security_parameters_t dtls_security_params_epoch(dtls_peer_t peer, uint16_t epoch)
	{
	if (peer->security_params[0] && peer->security_params[0]->epoch == epoch) {
	return peer->security_params[0];
	} else if (peer->security_params[1] && peer->security_params[1]->epoch == epoch) {
	return peer->security_params[1];
	} else {
	return NULL;
	}
	}

	static inline dtls_security_parameters_t dtls_security_params(dtls_peer_t peer)
	{
	return peer->security_params[0];
	}

	static inline dtls_security_parameters_t dtls_security_params_next(dtls_peer_t peer)
	{
	if (peer->security_params[1])
	dtls_security_free(peer->security_params[1]);

	peer->security_params[1] = dtls_security_new();
	if (!peer->security_params[1]) {
	return NULL;
	}
	peer->security_params[1]->epoch = peer->security_params[0]->epoch + 1;
	return peer->security_params[1];
	}

	static inline void dtls_security_params_free_other(dtls_peer_t *peer)
	{
	dtls_security_parameters_t * security0 = peer->security_params[0];
	dtls_security_parameters_t * security1 = peer->security_params[1];

	if (!security0 \|\| !security1 \|\| security0->epoch < security1->epoch)
	return;

	dtls_security_free(security1);
	peer->security_params[1] = NULL;
	}

	static inline void dtls_security_params_switch(dtls_peer_t *peer)
	{
	dtls_security_parameters_t * security = peer->security_params[1];

	peer->security_params[1] = peer->security_params[0];
	peer->security_params[0] = security;
	}

	void peer_init(void);

	/**
	* Creates a new peer for given @p session. The current configuration
	* is initialized with the cipher suite TLS_NULL_WITH_NULL_NULL (i.e.
	* no security at all). This function returns a pointer to the new
	* peer or NULL on error. The caller is responsible for releasing the
	* storage allocated for this peer using dtls_free_peer().
	*
	* @param session The remote peer's address and local interface index.
	* @return A pointer to a newly created and initialized peer object
	* or NULL on error.
	*/
	dtls_peer_t dtls_new_peer(const session_t session);

	/** Releases the storage allocated to @p peer. */
	void dtls_free_peer(dtls_peer_t *peer);

	/** Returns the current state of @p peer. */
	static inline dtls_state_t dtls_peer_state(const dtls_peer_t *peer) {
	return peer->state;
	}

	/**
	* Checks if given @p peer is connected. This function returns
	* @c 1 if connected, or @c 0 otherwise.
	*/
	static inline int dtls_peer_is_connected(const dtls_peer_t *peer) {
	return peer->state == DTLS_STATE_CONNECTED;
	}

	#endif /* _DTLS_PEER_H_ */