src/libsystemd-network/lldp-neighbor.h - systemd-stable - Rivoreo Source Code Repositories

 /* SPDX-License-Identifier: LGPL-2.1+ */
 #pragma once

 #include <inttypes.h>
 #include <stdbool.h>
 #include <sys/types.h>

 #include "sd-lldp.h"

 #include "hash-funcs.h"
 #include "lldp-internal.h"
 #include "time-util.h"

 typedef struct LLDPNeighborID {
         /* The spec calls this an "MSAP identifier" */
         void *chassis_id;
         size_t chassis_id_size;

         void *port_id;
         size_t port_id_size;
 } LLDPNeighborID;

 struct sd_lldp_neighbor {
         /* Neighbor objects stay around as long as they are linked into an "sd_lldp" object or n_ref > 0. */
         sd_lldp *lldp;
         unsigned n_ref;

         triple_timestamp timestamp;

         usec_t until;
         unsigned prioq_idx;

         struct ether_addr source_address;
         struct ether_addr destination_address;

         LLDPNeighborID id;

         /* The raw packet size. The data is appended to the object, accessible via LLDP_NEIGHBOR_RAW() */
         size_t raw_size;

         /* The current read index for the iterative TLV interface */
         size_t rindex;

         /* And a couple of fields parsed out. */
         bool has_ttl:1;
         bool has_capabilities:1;
         bool has_port_vlan_id:1;

         uint16_t ttl;

         uint16_t system_capabilities;
         uint16_t enabled_capabilities;

         char *port_description;
         char *system_name;
         char *system_description;

         uint16_t port_vlan_id;

         char *chassis_id_as_string;
         char *port_id_as_string;
 };

 static inline void *LLDP_NEIGHBOR_RAW(const sd_lldp_neighbor *n) {
         return (uint8_t*) n + ALIGN(sizeof(sd_lldp_neighbor));
 }

 static inline uint8_t LLDP_NEIGHBOR_TLV_TYPE(const sd_lldp_neighbor *n) {
         return ((uint8_t*) LLDP_NEIGHBOR_RAW(n))[n->rindex] >> 1;
 }

 static inline size_t LLDP_NEIGHBOR_TLV_LENGTH(const sd_lldp_neighbor *n) {
         uint8_t *p;

         p = (uint8_t*) LLDP_NEIGHBOR_RAW(n) + n->rindex;
         return p[1] + (((size_t) (p[0] & 1)) << 8);
 }

 static inline void* LLDP_NEIGHBOR_TLV_DATA(const sd_lldp_neighbor *n) {
         return ((uint8_t*) LLDP_NEIGHBOR_RAW(n)) + n->rindex + 2;
 }

 extern const struct hash_ops lldp_neighbor_id_hash_ops;
 int lldp_neighbor_prioq_compare_func(const void *a, const void *b);

 sd_lldp_neighbor *lldp_neighbor_unlink(sd_lldp_neighbor *n);
 sd_lldp_neighbor *lldp_neighbor_new(size_t raw_size);
 int lldp_neighbor_parse(sd_lldp_neighbor *n);
 void lldp_neighbor_start_ttl(sd_lldp_neighbor *n);
 bool lldp_neighbor_equal(const sd_lldp_neighbor *a, const sd_lldp_neighbor *b);
	/* SPDX-License-Identifier: LGPL-2.1+ */
	#pragma once

	#include <inttypes.h>
	#include <stdbool.h>
	#include <sys/types.h>

	#include "sd-lldp.h"

	#include "hash-funcs.h"
	#include "lldp-internal.h"
	#include "time-util.h"

	typedef struct LLDPNeighborID {
	/* The spec calls this an "MSAP identifier" */
	void *chassis_id;
	size_t chassis_id_size;

	void *port_id;
	size_t port_id_size;
	} LLDPNeighborID;

	struct sd_lldp_neighbor {
	/* Neighbor objects stay around as long as they are linked into an "sd_lldp" object or n_ref > 0. */
	sd_lldp *lldp;
	unsigned n_ref;

	triple_timestamp timestamp;

	usec_t until;
	unsigned prioq_idx;

	struct ether_addr source_address;
	struct ether_addr destination_address;

	LLDPNeighborID id;

	/* The raw packet size. The data is appended to the object, accessible via LLDP_NEIGHBOR_RAW() */
	size_t raw_size;

	/* The current read index for the iterative TLV interface */
	size_t rindex;

	/* And a couple of fields parsed out. */
	bool has_ttl:1;
	bool has_capabilities:1;
	bool has_port_vlan_id:1;

	uint16_t ttl;

	uint16_t system_capabilities;
	uint16_t enabled_capabilities;

	char *port_description;
	char *system_name;
	char *system_description;

	uint16_t port_vlan_id;

	char *chassis_id_as_string;
	char *port_id_as_string;
	};

	static inline void LLDP_NEIGHBOR_RAW(const sd_lldp_neighbor n) {
	return (uint8_t*) n + ALIGN(sizeof(sd_lldp_neighbor));
	}

	static inline uint8_t LLDP_NEIGHBOR_TLV_TYPE(const sd_lldp_neighbor *n) {
	return ((uint8_t*) LLDP_NEIGHBOR_RAW(n))[n->rindex] >> 1;
	}

	static inline size_t LLDP_NEIGHBOR_TLV_LENGTH(const sd_lldp_neighbor *n) {
	uint8_t *p;

	p = (uint8_t*) LLDP_NEIGHBOR_RAW(n) + n->rindex;
	return p[1] + (((size_t) (p[0] & 1)) << 8);
	}

	static inline void* LLDP_NEIGHBOR_TLV_DATA(const sd_lldp_neighbor *n) {
	return ((uint8_t*) LLDP_NEIGHBOR_RAW(n)) + n->rindex + 2;
	}

	extern const struct hash_ops lldp_neighbor_id_hash_ops;
	int lldp_neighbor_prioq_compare_func(const void a, const void b);

	sd_lldp_neighbor lldp_neighbor_unlink(sd_lldp_neighbor n);
	sd_lldp_neighbor *lldp_neighbor_new(size_t raw_size);
	int lldp_neighbor_parse(sd_lldp_neighbor *n);
	void lldp_neighbor_start_ttl(sd_lldp_neighbor *n);
	bool lldp_neighbor_equal(const sd_lldp_neighbor a, const sd_lldp_neighbor b);