/** The socket node-type for Layer 2, 3, 4 BSD-style sockets
 *
 * @file
 * @author Steffen Vogel <post@steffenvogel.de>
 * @copyright 2014-2022, Institute for Automation of Complex Power Systems, EONERC
 * @license Apache 2.0
 *********************************************************************************/

#pragma once

#include <villas/node/config.hpp>
#include <villas/socket_addr.hpp>
#include <villas/format.hpp>

namespace villas {
namespace node {

/* Forward declarations */
class NodeCompat;

/** The maximum length of a packet which contains stuct msg. */
#define SOCKET_INITIAL_BUFFER_LEN (64*1024)

struct Socket {
	int sd;				/**< The socket descriptor */
	int verify_source;		/**< Verify the source address of incoming packets against socket::remote. */

	enum SocketLayer layer;		/**< The OSI / IP layer which should be used for this socket */

	Format *formatter;

	/* Multicast options */
	struct multicast {
		int enabled;		/**< Is multicast enabled? */
		unsigned char loop;	/** Loopback multicast packets to local host? */
		unsigned char ttl;	/**< The time to live for multicast packets. */
		struct ip_mreq mreq;	/**< A multicast group to join. */
	} multicast;

	struct {
		char *buf;		/**< Buffer for receiving messages */
		size_t buflen;
		union sockaddr_union saddr;	/**< Remote address of the socket */
	} in, out;
};


int socket_type_start(SuperNode *sn);

int socket_type_stop();

int socket_init(NodeCompat *n);

int socket_destroy(NodeCompat *n);

int socket_start(NodeCompat *n);

int socket_check(NodeCompat *n);

int socket_stop(NodeCompat *n);

int socket_reverse(NodeCompat *n);

int socket_fds(NodeCompat *n, int fds[]);

int socket_write(NodeCompat *n, struct Sample * const smps[], unsigned cnt);

int socket_read(NodeCompat *n, struct Sample * const smps[], unsigned cnt);

int socket_parse(NodeCompat *n, json_t *json);

char * socket_print(NodeCompat *n);

} /* namespace node */
} /* namespace villas */