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/** @file
 * @brief Network packet buffer descriptor API
 *
 * Network data is passed between different parts of the stack via
 * net_buf struct.
 */

/*
 * Copyright (c) 2016 Intel Corporation
 *
 * SPDX-License-Identifier: Apache-2.0
 */

/* Data buffer API - used for all data to/from net */

#ifndef ZEPHYR_INCLUDE_NET_NET_PKT_H_
#define ZEPHYR_INCLUDE_NET_NET_PKT_H_

#include <zephyr/types.h>
#include <stdbool.h>

#include <net/buf.h>

#include <net/net_core.h>
#include <net/net_linkaddr.h>
#include <net/net_ip.h>
#include <net/net_if.h>
#include <net/net_context.h>
#include <net/ethernet_vlan.h>
#include <net/ptp_time.h>

#ifdef __cplusplus
extern "C" {
#endif

/**
 * @brief Network packet management library
 * @defgroup net_pkt Network Packet Library
 * @ingroup networking
 * @{
 */

struct net_context;
struct canbus_net_isotp_tx_ctx;
struct canbus_net_isotp_rx_ctx;


/* buffer cursor used in net_pkt */
struct net_pkt_cursor {
	/** Current net_buf pointer by the cursor */
	struct net_buf *buf;
	/** Current position in the data buffer of the net_buf */
	u8_t *pos;
};

/**
 * @brief Network packet.
 *
 * Note that if you add new fields into net_pkt, remember to update
 * net_pkt_clone() function.
 */
struct net_pkt {
	union {
		/** Internal variable that is used when packet is sent
		 * or received.
		 */
		struct k_work work;
		/** Socket layer will queue received net_pkt into a k_fifo.
		 * Since this happens after consuming net_pkt's k_work on
		 * RX path, it is then fine to have both attributes sharing
		 * the same memory area.
		 */
		intptr_t sock_recv_fifo;
	};

	/** Slab pointer from where it belongs to */
	struct k_mem_slab *slab;

	/** buffer holding the packet */
	union {
		struct net_buf *frags;
		struct net_buf *buffer;
	};

	/** Internal buffer iterator used for reading/writing */
	struct net_pkt_cursor cursor;

	/** Network connection context */
	struct net_context *context;

	/** Network interface */
	struct net_if *iface;

	/** @cond ignore */

#if defined(CONFIG_NET_ROUTING)
	struct net_if *orig_iface; /* Original network interface */
#endif

	/* We do not support combination of TXTIME and TXTIME_STATS as the
	 * same variable is shared in net_pkt.h
	 */
#if defined(CONFIG_NET_PKT_TXTIME) && defined(CONFIG_NET_PKT_TXTIME_STATS)
#error \
"Cannot define both CONFIG_NET_PKT_TXTIME and CONFIG_NET_PKT_TXTIME_STATS"
#endif

#if defined(CONFIG_NET_PKT_TIMESTAMP) || defined(CONFIG_NET_PKT_TXTIME) || \
				defined(CONFIG_NET_PKT_RXTIME_STATS) || \
				defined(CONFIG_NET_PKT_TXTIME_STATS)
	union {
#if defined(CONFIG_NET_PKT_TIMESTAMP) || \
				defined(CONFIG_NET_PKT_RXTIME_STATS) ||	\
				defined(CONFIG_NET_PKT_TXTIME_STATS)
		/** Timestamp if available. */
		struct net_ptp_time timestamp;
#endif /* CONFIG_NET_PKT_TIMESTAMP */
#if defined(CONFIG_NET_PKT_TXTIME)
		/** Network packet TX time in the future (in nanoseconds) */
		u64_t txtime;
#endif /* CONFIG_NET_PKT_TXTIME */
	};
#endif /* CONFIG_NET_PKT_TIMESTAMP || CONFIG_NET_PKT_TXTIME */

	/** Reference counter */
	atomic_t atomic_ref;

	/* Filled by layer 2 when network packet is received. */
	struct net_linkaddr lladdr_src;
	struct net_linkaddr lladdr_dst;

#if defined(CONFIG_NET_TCP1) || defined(CONFIG_NET_TCP2)
	union {
		sys_snode_t sent_list;

		/** Allow placing the packet into sys_slist_t */
		sys_snode_t next;
	};
#endif

	u8_t ip_hdr_len;	/* pre-filled in order to avoid func call */

	u8_t overwrite  : 1;	/* Is packet content being overwritten? */

	u8_t sent_or_eof: 1;	/* For outgoing packet: is this sent or not
				 * For incoming packet of a socket: last
				 * packet before EOF
				 * Used only if defined(CONFIG_NET_TCP)
				 */
	union {
		u8_t pkt_queued: 1; /* For outgoing packet: is this packet
				     * queued to be sent but has not reached
				     * the driver yet.
				     * Used only if defined(CONFIG_NET_TCP)
				     */
		u8_t gptp_pkt: 1; /* For outgoing packet: is this packet
				   * a GPTP packet.
				   * Used only if defined (CONFIG_NET_GPTP)
				   */
	};

	u8_t forwarding : 1;	/* Are we forwarding this pkt
				 * Used only if defined(CONFIG_NET_ROUTE)
				 */
	u8_t family     : 3;	/* IPv4 vs IPv6 */

	union {
		u8_t ipv4_auto_arp_msg : 1; /* Is this pkt IPv4 autoconf ARP
					     * message. Used only if
					     * defined(CONFIG_NET_IPV4_AUTO).
					     * Note: family needs to be
					     * AF_INET.
					     */
		u8_t lldp_pkt          : 1; /* Is this pkt an LLDP message.
					     * Used only if
					     * defined(CONFIG_NET_LLDP).
					     * Note: family needs to be
					     * AF_UNSPEC.
					     */
		u8_t ppp_msg           : 1; /* This is a PPP message */
	};

	union {
		/* IPv6 hop limit or IPv4 ttl for this network packet.
		 * The value is shared between IPv6 and IPv4.
		 */
		u8_t ipv6_hop_limit;
		u8_t ipv4_ttl;
	};

	union {
#if defined(CONFIG_NET_IPV4)
		u8_t ipv4_opts_len; /* Length if IPv4 Header Options */
#endif
#if defined(CONFIG_NET_IPV6)
		u16_t ipv6_ext_len; /* length of extension headers */
#endif
	};

#if NET_TC_COUNT > 1
	/** Network packet priority, can be left out in which case packet
	 * is not prioritised.
	 */
	u8_t priority;
#endif

#if defined(CONFIG_NET_VLAN)
	/* VLAN TCI (Tag Control Information). This contains the Priority
	 * Code Point (PCP), Drop Eligible Indicator (DEI) and VLAN
	 * Identifier (VID, called more commonly VLAN tag). This value is
	 * kept in host byte order.
	 */
	u16_t vlan_tci;
#endif /* CONFIG_NET_VLAN */

#if defined(CONFIG_NET_IPV6)
	/* Where is the start of the last header before payload data
	 * in IPv6 packet. This is offset value from start of the IPv6
	 * packet. Note that this value should be updated by who ever
	 * adds IPv6 extension headers to the network packet.
	 */
	u16_t ipv6_prev_hdr_start;

#if defined(CONFIG_NET_IPV6_FRAGMENT)
	u16_t ipv6_fragment_offset;	/* Fragment offset of this packet */
	u32_t ipv6_fragment_id;	/* Fragment id */
	u16_t ipv6_frag_hdr_start;	/* Where starts the fragment header */
#endif /* CONFIG_NET_IPV6_FRAGMENT */

	u8_t ipv6_ext_opt_len; /* IPv6 ND option length */
	u8_t ipv6_next_hdr;	/* What is the very first next header */
#endif /* CONFIG_NET_IPV6 */

#if defined(CONFIG_IEEE802154)
	u8_t ieee802154_rssi; /* Received Signal Strength Indication */
	u8_t ieee802154_lqi;  /* Link Quality Indicator */
#endif
#if defined(CONFIG_NET_L2_CANBUS)
	union {
		struct canbus_isotp_tx_ctx *canbus_tx_ctx;
		struct canbus_isotp_rx_ctx *canbus_rx_ctx;
	};
#endif
	/* @endcond */
};

/** @cond ignore */

static inline struct k_work *net_pkt_work(struct net_pkt *pkt)
{
	return &pkt->work;
}

/* The interface real ll address */
static inline struct net_linkaddr *net_pkt_lladdr_if(struct net_pkt *pkt)
{
	return net_if_get_link_addr(pkt->iface);
}

static inline struct net_context *net_pkt_context(struct net_pkt *pkt)
{
	return pkt->context;
}

static inline void net_pkt_set_context(struct net_pkt *pkt,
				       struct net_context *ctx)
{
	pkt->context = ctx;
}

static inline struct net_if *net_pkt_iface(struct net_pkt *pkt)
{
	return pkt->iface;
}

static inline void net_pkt_set_iface(struct net_pkt *pkt, struct net_if *iface)
{
	pkt->iface = iface;

	/* If the network interface is set in pkt, then also set the type of
	 * the network address that is stored in pkt. This is done here so
	 * that the address type is properly set and is not forgotten.
	 */
	if (iface) {
		pkt->lladdr_src.type = net_if_get_link_addr(iface)->type;
		pkt->lladdr_dst.type = net_if_get_link_addr(iface)->type;
	}
}

static inline struct net_if *net_pkt_orig_iface(struct net_pkt *pkt)
{
#if defined(CONFIG_NET_ROUTING)
	return pkt->orig_iface;
#else
	return pkt->iface;
#endif
}

static inline void net_pkt_set_orig_iface(struct net_pkt *pkt,
					  struct net_if *iface)
{
#if defined(CONFIG_NET_ROUTING)
	pkt->orig_iface = iface;
#endif
}

static inline u8_t net_pkt_family(struct net_pkt *pkt)
{
	return pkt->family;
}

static inline void net_pkt_set_family(struct net_pkt *pkt, u8_t family)
{
	pkt->family = family;
}

static inline bool net_pkt_is_gptp(struct net_pkt *pkt)
{
	return !!(pkt->gptp_pkt);
}

static inline void net_pkt_set_gptp(struct net_pkt *pkt, bool is_gptp)
{
	pkt->gptp_pkt = is_gptp;
}

static inline u8_t net_pkt_ip_hdr_len(struct net_pkt *pkt)
{
	return pkt->ip_hdr_len;
}

static inline void net_pkt_set_ip_hdr_len(struct net_pkt *pkt, u8_t len)
{
	pkt->ip_hdr_len = len;
}

static inline u8_t net_pkt_sent(struct net_pkt *pkt)
{
	return pkt->sent_or_eof;
}

static inline void net_pkt_set_sent(struct net_pkt *pkt, bool sent)
{
	pkt->sent_or_eof = sent;
}

static inline u8_t net_pkt_queued(struct net_pkt *pkt)
{
	return pkt->pkt_queued;
}

static inline void net_pkt_set_queued(struct net_pkt *pkt, bool send)
{
	pkt->pkt_queued = send;
}

#if defined(CONFIG_NET_SOCKETS)
static inline u8_t net_pkt_eof(struct net_pkt *pkt)
{
	return pkt->sent_or_eof;
}

static inline void net_pkt_set_eof(struct net_pkt *pkt, bool eof)
{
	pkt->sent_or_eof = eof;
}
#endif

#if defined(CONFIG_NET_ROUTE)
static inline bool net_pkt_forwarding(struct net_pkt *pkt)
{
	return pkt->forwarding;
}

static inline void net_pkt_set_forwarding(struct net_pkt *pkt, bool forward)
{
	pkt->forwarding = forward;
}
#else
static inline bool net_pkt_forwarding(struct net_pkt *pkt)
{
	return false;
}
#endif

#if defined(CONFIG_NET_IPV4)
static inline u8_t net_pkt_ipv4_ttl(struct net_pkt *pkt)
{
	return pkt->ipv4_ttl;
}

static inline void net_pkt_set_ipv4_ttl(struct net_pkt *pkt,
					u8_t ttl)
{
	pkt->ipv4_ttl = ttl;
}

static inline u8_t net_pkt_ipv4_opts_len(struct net_pkt *pkt)
{
	return pkt->ipv4_opts_len;
}

static inline void net_pkt_set_ipv4_opts_len(struct net_pkt *pkt,
					     u8_t opts_len)
{
	pkt->ipv4_opts_len = opts_len;
}
#else
static inline u8_t net_pkt_ipv4_ttl(struct net_pkt *pkt)
{
	ARG_UNUSED(pkt);

	return 0;
}

static inline void net_pkt_set_ipv4_ttl(struct net_pkt *pkt,
					u8_t ttl)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(ttl);
}

static inline u8_t net_pkt_ipv4_opts_len(struct net_pkt *pkt)
{
	ARG_UNUSED(pkt);
	return 0;
}

static inline void net_pkt_set_ipv4_opts_len(struct net_pkt *pkt,
					     u8_t opts_len)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(opts_len);
}
#endif

#if defined(CONFIG_NET_IPV6)
static inline u8_t net_pkt_ipv6_ext_opt_len(struct net_pkt *pkt)
{
	return pkt->ipv6_ext_opt_len;
}

static inline void net_pkt_set_ipv6_ext_opt_len(struct net_pkt *pkt,
						u8_t len)
{
	pkt->ipv6_ext_opt_len = len;
}

static inline u8_t net_pkt_ipv6_next_hdr(struct net_pkt *pkt)
{
	return pkt->ipv6_next_hdr;
}

static inline void net_pkt_set_ipv6_next_hdr(struct net_pkt *pkt, u8_t next_hdr)
{
	pkt->ipv6_next_hdr = next_hdr;
}

static inline u16_t net_pkt_ipv6_ext_len(struct net_pkt *pkt)
{
	return pkt->ipv6_ext_len;
}

static inline void net_pkt_set_ipv6_ext_len(struct net_pkt *pkt, u16_t len)
{
	pkt->ipv6_ext_len = len;
}

static inline u16_t net_pkt_ipv6_hdr_prev(struct net_pkt *pkt)
{
	return pkt->ipv6_prev_hdr_start;
}

static inline void net_pkt_set_ipv6_hdr_prev(struct net_pkt *pkt,
					     u16_t offset)
{
	pkt->ipv6_prev_hdr_start = offset;
}

static inline u8_t net_pkt_ipv6_hop_limit(struct net_pkt *pkt)
{
	return pkt->ipv6_hop_limit;
}

static inline void net_pkt_set_ipv6_hop_limit(struct net_pkt *pkt,
					      u8_t hop_limit)
{
	pkt->ipv6_hop_limit = hop_limit;
}
#else /* CONFIG_NET_IPV6 */
static inline u8_t net_pkt_ipv6_ext_opt_len(struct net_pkt *pkt)
{
	ARG_UNUSED(pkt);

	return 0;
}

static inline void net_pkt_set_ipv6_ext_opt_len(struct net_pkt *pkt,
						u8_t len)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(len);
}

static inline u8_t net_pkt_ipv6_next_hdr(struct net_pkt *pkt)
{
	ARG_UNUSED(pkt);

	return 0;
}

static inline void net_pkt_set_ipv6_next_hdr(struct net_pkt *pkt, u8_t next_hdr)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(next_hdr);
}

static inline u16_t net_pkt_ipv6_ext_len(struct net_pkt *pkt)
{
	ARG_UNUSED(pkt);

	return 0;
}

static inline void net_pkt_set_ipv6_ext_len(struct net_pkt *pkt, u16_t len)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(len);
}

static inline u16_t net_pkt_ipv6_hdr_prev(struct net_pkt *pkt)
{
	ARG_UNUSED(pkt);

	return 0;
}

static inline void net_pkt_set_ipv6_hdr_prev(struct net_pkt *pkt,
					     u16_t offset)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(offset);
}

static inline u8_t net_pkt_ipv6_hop_limit(struct net_pkt *pkt)
{
	ARG_UNUSED(pkt);

	return 0;
}

static inline void net_pkt_set_ipv6_hop_limit(struct net_pkt *pkt,
					      u8_t hop_limit)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(hop_limit);
}
#endif /* CONFIG_NET_IPV6 */

static inline u16_t net_pkt_ip_opts_len(struct net_pkt *pkt)
{
#if defined(CONFIG_NET_IPV6)
	return pkt->ipv6_ext_len;
#elif defined(CONFIG_NET_IPV4)
	return pkt->ipv4_opts_len;
#else
	ARG_UNUSED(pkt);

	return 0;
#endif
}

#if defined(CONFIG_NET_IPV6_FRAGMENT)
static inline u16_t net_pkt_ipv6_fragment_start(struct net_pkt *pkt)
{
	return pkt->ipv6_frag_hdr_start;
}

static inline void net_pkt_set_ipv6_fragment_start(struct net_pkt *pkt,
						   u16_t start)
{
	pkt->ipv6_frag_hdr_start = start;
}

static inline u16_t net_pkt_ipv6_fragment_offset(struct net_pkt *pkt)
{
	return pkt->ipv6_fragment_offset;
}

static inline void net_pkt_set_ipv6_fragment_offset(struct net_pkt *pkt,
						    u16_t offset)
{
	pkt->ipv6_fragment_offset = offset;
}

static inline u32_t net_pkt_ipv6_fragment_id(struct net_pkt *pkt)
{
	return pkt->ipv6_fragment_id;
}

static inline void net_pkt_set_ipv6_fragment_id(struct net_pkt *pkt,
						u32_t id)
{
	pkt->ipv6_fragment_id = id;
}
#else /* CONFIG_NET_IPV6_FRAGMENT */
static inline u16_t net_pkt_ipv6_fragment_start(struct net_pkt *pkt)
{
	ARG_UNUSED(pkt);

	return 0;
}

static inline void net_pkt_set_ipv6_fragment_start(struct net_pkt *pkt,
						   u16_t start)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(start);
}

static inline u16_t net_pkt_ipv6_fragment_offset(struct net_pkt *pkt)
{
	ARG_UNUSED(pkt);

	return 0;
}

static inline void net_pkt_set_ipv6_fragment_offset(struct net_pkt *pkt,
						    u16_t offset)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(offset);
}

static inline u32_t net_pkt_ipv6_fragment_id(struct net_pkt *pkt)
{
	ARG_UNUSED(pkt);

	return 0;
}

static inline void net_pkt_set_ipv6_fragment_id(struct net_pkt *pkt,
						u32_t id)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(id);
}
#endif /* CONFIG_NET_IPV6_FRAGMENT */

#if NET_TC_COUNT > 1
static inline u8_t net_pkt_priority(struct net_pkt *pkt)
{
	return pkt->priority;
}

static inline void net_pkt_set_priority(struct net_pkt *pkt,
					u8_t priority)
{
	pkt->priority = priority;
}
#else /* NET_TC_COUNT == 1 */
static inline u8_t net_pkt_priority(struct net_pkt *pkt)
{
	return 0;
}

#define net_pkt_set_priority(...)

#endif /* NET_TC_COUNT > 1 */

#if defined(CONFIG_NET_VLAN)
static inline u16_t net_pkt_vlan_tag(struct net_pkt *pkt)
{
	return net_eth_vlan_get_vid(pkt->vlan_tci);
}

static inline void net_pkt_set_vlan_tag(struct net_pkt *pkt, u16_t tag)
{
	pkt->vlan_tci = net_eth_vlan_set_vid(pkt->vlan_tci, tag);
}

static inline u8_t net_pkt_vlan_priority(struct net_pkt *pkt)
{
	return net_eth_vlan_get_pcp(pkt->vlan_tci);
}

static inline void net_pkt_set_vlan_priority(struct net_pkt *pkt,
					     u8_t priority)
{
	pkt->vlan_tci = net_eth_vlan_set_pcp(pkt->vlan_tci, priority);
}

static inline bool net_pkt_vlan_dei(struct net_pkt *pkt)
{
	return net_eth_vlan_get_dei(pkt->vlan_tci);
}

static inline void net_pkt_set_vlan_dei(struct net_pkt *pkt, bool dei)
{
	pkt->vlan_tci = net_eth_vlan_set_dei(pkt->vlan_tci, dei);
}

static inline void net_pkt_set_vlan_tci(struct net_pkt *pkt, u16_t tci)
{
	pkt->vlan_tci = tci;
}

static inline u16_t net_pkt_vlan_tci(struct net_pkt *pkt)
{
	return pkt->vlan_tci;
}
#else
static inline u16_t net_pkt_vlan_tag(struct net_pkt *pkt)
{
	return NET_VLAN_TAG_UNSPEC;
}

static inline void net_pkt_set_vlan_tag(struct net_pkt *pkt, u16_t tag)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(tag);
}

static inline u8_t net_pkt_vlan_priority(struct net_pkt *pkt)
{
	ARG_UNUSED(pkt);
	return 0;
}

static inline bool net_pkt_vlan_dei(struct net_pkt *pkt)
{
	return false;
}

static inline void net_pkt_set_vlan_dei(struct net_pkt *pkt, bool dei)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(dei);
}

static inline u16_t net_pkt_vlan_tci(struct net_pkt *pkt)
{
	return NET_VLAN_TAG_UNSPEC; /* assumes priority is 0 */
}

static inline void net_pkt_set_vlan_tci(struct net_pkt *pkt, u16_t tci)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(tci);
}
#endif

#if defined(CONFIG_NET_PKT_TIMESTAMP)
static inline struct net_ptp_time *net_pkt_timestamp(struct net_pkt *pkt)
{
	return &pkt->timestamp;
}

static inline void net_pkt_set_timestamp(struct net_pkt *pkt,
					 struct net_ptp_time *timestamp)
{
	pkt->timestamp.second = timestamp->second;
	pkt->timestamp.nanosecond = timestamp->nanosecond;
}
#else
static inline struct net_ptp_time *net_pkt_timestamp(struct net_pkt *pkt)
{
	ARG_UNUSED(pkt);

	return NULL;
}

static inline void net_pkt_set_timestamp(struct net_pkt *pkt,
					 struct net_ptp_time *timestamp)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(timestamp);
}
#endif /* CONFIG_NET_PKT_TIMESTAMP */

#if defined(CONFIG_NET_PKT_TXTIME)
static inline u64_t net_pkt_txtime(struct net_pkt *pkt)
{
	return pkt->txtime;
}

static inline void net_pkt_set_txtime(struct net_pkt *pkt, u64_t txtime)
{
	pkt->txtime = txtime;
}
#else
static inline u64_t net_pkt_txtime(struct net_pkt *pkt)
{
	ARG_UNUSED(pkt);

	return 0;
}

static inline void net_pkt_set_txtime(struct net_pkt *pkt, u64_t txtime)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(txtime);
}
#endif /* CONFIG_NET_PKT_TXTIME */

static inline size_t net_pkt_get_len(struct net_pkt *pkt)
{
	return net_buf_frags_len(pkt->frags);
}

static inline u8_t *net_pkt_data(struct net_pkt *pkt)
{
	return pkt->frags->data;
}

static inline u8_t *net_pkt_ip_data(struct net_pkt *pkt)
{
	return pkt->frags->data;
}

static inline struct net_linkaddr *net_pkt_lladdr_src(struct net_pkt *pkt)
{
	return &pkt->lladdr_src;
}

static inline struct net_linkaddr *net_pkt_lladdr_dst(struct net_pkt *pkt)
{
	return &pkt->lladdr_dst;
}

static inline void net_pkt_lladdr_swap(struct net_pkt *pkt)
{
	u8_t *addr = net_pkt_lladdr_src(pkt)->addr;

	net_pkt_lladdr_src(pkt)->addr = net_pkt_lladdr_dst(pkt)->addr;
	net_pkt_lladdr_dst(pkt)->addr = addr;
}

static inline void net_pkt_lladdr_clear(struct net_pkt *pkt)
{
	net_pkt_lladdr_src(pkt)->addr = NULL;
	net_pkt_lladdr_src(pkt)->len = 0U;
}

#if defined(CONFIG_IEEE802154) || defined(CONFIG_IEEE802154_RAW_MODE)
static inline u8_t net_pkt_ieee802154_rssi(struct net_pkt *pkt)
{
	return pkt->ieee802154_rssi;
}

static inline void net_pkt_set_ieee802154_rssi(struct net_pkt *pkt,
					       u8_t rssi)
{
	pkt->ieee802154_rssi = rssi;
}

static inline u8_t net_pkt_ieee802154_lqi(struct net_pkt *pkt)
{
	return pkt->ieee802154_lqi;
}

static inline void net_pkt_set_ieee802154_lqi(struct net_pkt *pkt,
					      u8_t lqi)
{
	pkt->ieee802154_lqi = lqi;
}
#endif

#if defined(CONFIG_NET_IPV4_AUTO)
static inline bool net_pkt_ipv4_auto(struct net_pkt *pkt)
{
	return pkt->ipv4_auto_arp_msg;
}

static inline void net_pkt_set_ipv4_auto(struct net_pkt *pkt,
					 bool is_auto_arp_msg)
{
	pkt->ipv4_auto_arp_msg = is_auto_arp_msg;
}
#else /* CONFIG_NET_IPV4_AUTO */
static inline bool net_pkt_ipv4_auto(struct net_pkt *pkt)
{
	ARG_UNUSED(pkt);

	return false;
}

static inline void net_pkt_set_ipv4_auto(struct net_pkt *pkt,
					 bool is_auto_arp_msg)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(is_auto_arp_msg);
}
#endif /* CONFIG_NET_IPV4_AUTO */

#if defined(CONFIG_NET_LLDP)
static inline bool net_pkt_is_lldp(struct net_pkt *pkt)
{
	return pkt->lldp_pkt;
}

static inline void net_pkt_set_lldp(struct net_pkt *pkt, bool is_lldp)
{
	pkt->lldp_pkt = is_lldp;
}
#else
static inline bool net_pkt_is_lldp(struct net_pkt *pkt)
{
	ARG_UNUSED(pkt);

	return false;
}

static inline void net_pkt_set_lldp(struct net_pkt *pkt, bool is_lldp)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(is_lldp);
}
#endif /* CONFIG_NET_LLDP */

#if defined(CONFIG_NET_PPP)
static inline bool net_pkt_is_ppp(struct net_pkt *pkt)
{
	return pkt->ppp_msg;
}

static inline void net_pkt_set_ppp(struct net_pkt *pkt,
				   bool is_ppp_msg)
{
	pkt->ppp_msg = is_ppp_msg;
}
#else /* CONFIG_NET_PPP */
static inline bool net_pkt_is_ppp(struct net_pkt *pkt)
{
	ARG_UNUSED(pkt);

	return false;
}

static inline void net_pkt_set_ppp(struct net_pkt *pkt,
				   bool is_ppp_msg)
{
	ARG_UNUSED(pkt);
	ARG_UNUSED(is_ppp_msg);
}
#endif /* CONFIG_NET_PPP */

#define NET_IPV6_HDR(pkt) ((struct net_ipv6_hdr *)net_pkt_ip_data(pkt))
#define NET_IPV4_HDR(pkt) ((struct net_ipv4_hdr *)net_pkt_ip_data(pkt))

static inline void net_pkt_set_src_ipv6_addr(struct net_pkt *pkt)
{
	net_if_ipv6_select_src_addr(net_context_get_iface(
					    net_pkt_context(pkt)),
				    &NET_IPV6_HDR(pkt)->src);
}

static inline void net_pkt_set_overwrite(struct net_pkt *pkt, bool overwrite)
{
	pkt->overwrite = overwrite;
}

static inline bool net_pkt_is_being_overwritten(struct net_pkt *pkt)
{
	return pkt->overwrite;
}

/* @endcond */

/**
 * @brief Create a net_pkt slab
 *
 * A net_pkt slab is used to store meta-information about
 * network packets. It must be coupled with a data fragment pool
 * (:c:macro:`NET_PKT_DATA_POOL_DEFINE`) used to store the actual
 * packet data. The macro can be used by an application to define
 * additional custom per-context TX packet slabs (see
 * :c:func:`net_context_setup_pools`).
 *
 * @param name Name of the slab.
 * @param count Number of net_pkt in this slab.
 */
#define NET_PKT_SLAB_DEFINE(name, count)				\
	K_MEM_SLAB_DEFINE(name, sizeof(struct net_pkt), count, 4)

/* Backward compatibility macro */
#define NET_PKT_TX_SLAB_DEFINE(name, count) NET_PKT_SLAB_DEFINE(name, count)

/**
 * @brief Create a data fragment net_buf pool
 *
 * A net_buf pool is used to store actual data for
 * network packets. It must be coupled with a net_pkt slab
 * (:c:macro:`NET_PKT_SLAB_DEFINE`) used to store the packet
 * meta-information. The macro can be used by an application to
 * define additional custom per-context TX packet pools (see
 * :c:func:`net_context_setup_pools`).
 *
 * @param name Name of the pool.
 * @param count Number of net_buf in this pool.
 */
#define NET_PKT_DATA_POOL_DEFINE(name, count)				\
	NET_BUF_POOL_DEFINE(name, count, CONFIG_NET_BUF_DATA_SIZE,	\
			    CONFIG_NET_BUF_USER_DATA_SIZE, NULL)

/** @cond INTERNAL_HIDDEN */

#if defined(CONFIG_NET_DEBUG_NET_PKT_ALLOC) || \
	(CONFIG_NET_PKT_LOG_LEVEL >= LOG_LEVEL_DBG)
#define NET_PKT_DEBUG_ENABLED
#endif

#if defined(NET_PKT_DEBUG_ENABLED)

/* Debug versions of the net_pkt functions that are used when tracking
 * buffer usage.
 */

struct net_buf *net_pkt_get_reserve_data_debug(struct net_buf_pool *pool,
					       s32_t timeout,
					       const char *caller,
					       int line);

#define net_pkt_get_reserve_data(pool, timeout)				\
	net_pkt_get_reserve_data_debug(pool, timeout, __func__, __LINE__)

struct net_buf *net_pkt_get_reserve_rx_data_debug(s32_t timeout,
						  const char *caller,
						  int line);
#define net_pkt_get_reserve_rx_data(timeout)				\
	net_pkt_get_reserve_rx_data_debug(timeout, __func__, __LINE__)

struct net_buf *net_pkt_get_reserve_tx_data_debug(s32_t timeout,
						  const char *caller,
						  int line);
#define net_pkt_get_reserve_tx_data(timeout)				\
	net_pkt_get_reserve_tx_data_debug(timeout, __func__, __LINE__)

struct net_buf *net_pkt_get_frag_debug(struct net_pkt *pkt,
				       s32_t timeout,
				       const char *caller, int line);
#define net_pkt_get_frag(pkt, timeout)					\
	net_pkt_get_frag_debug(pkt, timeout, __func__, __LINE__)

void net_pkt_unref_debug(struct net_pkt *pkt, const char *caller, int line);
#define net_pkt_unref(pkt) net_pkt_unref_debug(pkt, __func__, __LINE__)

struct net_pkt *net_pkt_ref_debug(struct net_pkt *pkt, const char *caller,
				  int line);
#define net_pkt_ref(pkt) net_pkt_ref_debug(pkt, __func__, __LINE__)

struct net_buf *net_pkt_frag_ref_debug(struct net_buf *frag,
				       const char *caller, int line);
#define net_pkt_frag_ref(frag) net_pkt_frag_ref_debug(frag, __func__, __LINE__)

void net_pkt_frag_unref_debug(struct net_buf *frag,
			      const char *caller, int line);
#define net_pkt_frag_unref(frag)				\
	net_pkt_frag_unref_debug(frag, __func__, __LINE__)

struct net_buf *net_pkt_frag_del_debug(struct net_pkt *pkt,
				       struct net_buf *parent,
				       struct net_buf *frag,
				       const char *caller, int line);
#define net_pkt_frag_del(pkt, parent, frag)				\
	net_pkt_frag_del_debug(pkt, parent, frag, __func__, __LINE__)

void net_pkt_frag_add_debug(struct net_pkt *pkt, struct net_buf *frag,
			    const char *caller, int line);
#define net_pkt_frag_add(pkt, frag)				\
	net_pkt_frag_add_debug(pkt, frag, __func__, __LINE__)

void net_pkt_frag_insert_debug(struct net_pkt *pkt, struct net_buf *frag,
			       const char *caller, int line);
#define net_pkt_frag_insert(pkt, frag)					\
	net_pkt_frag_insert_debug(pkt, frag, __func__, __LINE__)
#endif /* CONFIG_NET_DEBUG_NET_PKT_ALLOC ||
	* CONFIG_NET_PKT_LOG_LEVEL >= LOG_LEVEL_DBG
	*/
/** @endcond */

/**
 * @brief Print fragment list and the fragment sizes
 *
 * @details Only available if debugging is activated.
 *
 * @param pkt Network pkt.
 */
#if defined(NET_PKT_DEBUG_ENABLED)
void net_pkt_print_frags(struct net_pkt *pkt);
#else
#define net_pkt_print_frags(pkt)
#endif

/**
 * @brief Get RX DATA buffer from pool.
 * Normally you should use net_pkt_get_frag() instead.
 *
 * @details Normally this version is not useful for applications
 * but is mainly used by network fragmentation code.
 *
 * @param timeout Affects the action taken should the net buf pool be empty.
 *        If K_NO_WAIT, then return immediately. If K_FOREVER, then
 *        wait as long as necessary. Otherwise, wait up to the specified
 *        number of milliseconds before timing out.
 *
 * @return Network buffer if successful, NULL otherwise.
 */
#if !defined(NET_PKT_DEBUG_ENABLED)
struct net_buf *net_pkt_get_reserve_rx_data(s32_t timeout);
#endif

/**
 * @brief Get TX DATA buffer from pool.
 * Normally you should use net_pkt_get_frag() instead.
 *
 * @details Normally this version is not useful for applications
 * but is mainly used by network fragmentation code.
 *
 * @param timeout Affects the action taken should the net buf pool be empty.
 *        If K_NO_WAIT, then return immediately. If K_FOREVER, then
 *        wait as long as necessary. Otherwise, wait up to the specified
 *        number of milliseconds before timing out.
 *
 * @return Network buffer if successful, NULL otherwise.
 */
#if !defined(NET_PKT_DEBUG_ENABLED)
struct net_buf *net_pkt_get_reserve_tx_data(s32_t timeout);
#endif

/**
 * @brief Get a data fragment that might be from user specific
 * buffer pool or from global DATA pool.
 *
 * @param pkt Network packet.
 * @param timeout Affects the action taken should the net buf pool be empty.
 *        If K_NO_WAIT, then return immediately. If K_FOREVER, then
 *        wait as long as necessary. Otherwise, wait up to the specified
 *        number of milliseconds before timing out.
 *
 * @return Network buffer if successful, NULL otherwise.
 */
#if !defined(NET_PKT_DEBUG_ENABLED)
struct net_buf *net_pkt_get_frag(struct net_pkt *pkt, s32_t timeout);
#endif

/**
 * @brief Place packet back into the available packets slab
 *
 * @details Releases the packet to other use. This needs to be
 * called by application after it has finished with the packet.
 *
 * @param pkt Network packet to release.
 *
 */
#if !defined(NET_PKT_DEBUG_ENABLED)
void net_pkt_unref(struct net_pkt *pkt);
#endif

/**
 * @brief Increase the packet ref count
 *
 * @details Mark the packet to be used still.
 *
 * @param pkt Network packet to ref.
 *
 * @return Network packet if successful, NULL otherwise.
 */
#if !defined(NET_PKT_DEBUG_ENABLED)
struct net_pkt *net_pkt_ref(struct net_pkt *pkt);
#endif

/**
 * @brief Increase the packet fragment ref count
 *
 * @details Mark the fragment to be used still.
 *
 * @param frag Network fragment to ref.
 *
 * @return a pointer on the referenced Network fragment.
 */
#if !defined(NET_PKT_DEBUG_ENABLED)
struct net_buf *net_pkt_frag_ref(struct net_buf *frag);
#endif

/**
 * @brief Decrease the packet fragment ref count
 *
 * @param frag Network fragment to unref.
 */
#if !defined(NET_PKT_DEBUG_ENABLED)
void net_pkt_frag_unref(struct net_buf *frag);
#endif

/**
 * @brief Delete existing fragment from a packet
 *
 * @param pkt Network packet from which frag belongs to.
 * @param parent parent fragment of frag, or NULL if none.
 * @param frag Fragment to delete.
 *
 * @return Pointer to the following fragment, or NULL if it had no
 *         further fragments.
 */
#if !defined(NET_PKT_DEBUG_ENABLED)
struct net_buf *net_pkt_frag_del(struct net_pkt *pkt,
				 struct net_buf *parent,
				 struct net_buf *frag);
#endif

/**
 * @brief Add a fragment to a packet at the end of its fragment list
 *
 * @param pkt pkt Network packet where to add the fragment
 * @param frag Fragment to add
 */
#if !defined(NET_PKT_DEBUG_ENABLED)
void net_pkt_frag_add(struct net_pkt *pkt, struct net_buf *frag);
#endif

/**
 * @brief Insert a fragment to a packet at the beginning of its fragment list
 *
 * @param pkt pkt Network packet where to insert the fragment
 * @param frag Fragment to insert
 */
#if !defined(NET_PKT_DEBUG_ENABLED)
void net_pkt_frag_insert(struct net_pkt *pkt, struct net_buf *frag);
#endif

/**
 * @brief Compact the fragment list of a packet.
 *
 * @details After this there is no more any free space in individual fragments.
 * @param pkt Network packet.
 *
 * @return True if compact success, False otherwise.
 */
bool net_pkt_compact(struct net_pkt *pkt);

/**
 * @brief Get information about predefined RX, TX and DATA pools.
 *
 * @param rx Pointer to RX pool is returned.
 * @param tx Pointer to TX pool is returned.
 * @param rx_data Pointer to RX DATA pool is returned.
 * @param tx_data Pointer to TX DATA pool is returned.
 */
void net_pkt_get_info(struct k_mem_slab **rx,
		      struct k_mem_slab **tx,
		      struct net_buf_pool **rx_data,
		      struct net_buf_pool **tx_data);

/** @cond INTERNAL_HIDDEN */

#if defined(CONFIG_NET_DEBUG_NET_PKT_ALLOC)
/**
 * @brief Debug helper to print out the buffer allocations
 */
void net_pkt_print(void);

typedef void (*net_pkt_allocs_cb_t)(struct net_pkt *pkt,
				    struct net_buf *buf,
				    const char *func_alloc,
				    int line_alloc,
				    const char *func_free,
				    int line_free,
				    bool in_use,
				    void *user_data);

void net_pkt_allocs_foreach(net_pkt_allocs_cb_t cb, void *user_data);

const char *net_pkt_slab2str(struct k_mem_slab *slab);
const char *net_pkt_pool2str(struct net_buf_pool *pool);

#else
#define net_pkt_print(...)
#endif /* CONFIG_NET_DEBUG_NET_PKT_ALLOC */

/* New allocator, and API are defined below.
 * This will be simpler when time will come to get rid of former API above.
 */
#if defined(NET_PKT_DEBUG_ENABLED)

struct net_pkt *net_pkt_alloc_debug(s32_t timeout,
				    const char *caller, int line);
#define net_pkt_alloc(_timeout)					\
	net_pkt_alloc_debug(_timeout, __func__, __LINE__)

struct net_pkt *net_pkt_alloc_from_slab_debug(struct k_mem_slab *slab,
					      s32_t timeout,
					      const char *caller, int line);
#define net_pkt_alloc_from_slab(_slab, _timeout)			\
	net_pkt_alloc_from_slab_debug(_slab, _timeout, __func__, __LINE__)

struct net_pkt *net_pkt_rx_alloc_debug(s32_t timeout,
				       const char *caller, int line);
#define net_pkt_rx_alloc(_timeout)				\
	net_pkt_rx_alloc_debug(_timeout, __func__, __LINE__)

struct net_pkt *net_pkt_alloc_on_iface_debug(struct net_if *iface,
					     s32_t timeout,
					     const char *caller,
					     int line);
#define net_pkt_alloc_on_iface(_iface, _timeout)			\
	net_pkt_alloc_on_iface_debug(_iface, _timeout, __func__, __LINE__)

struct net_pkt *net_pkt_rx_alloc_on_iface_debug(struct net_if *iface,
						s32_t timeout,
						const char *caller,
						int line);
#define net_pkt_rx_alloc_on_iface(_iface, _timeout)			\
	net_pkt_rx_alloc_on_iface_debug(_iface, _timeout,		\
					__func__, __LINE__)

int net_pkt_alloc_buffer_debug(struct net_pkt *pkt,
			       size_t size,
			       enum net_ip_protocol proto,
			       s32_t timeout,
			       const char *caller, int line);
#define net_pkt_alloc_buffer(_pkt, _size, _proto, _timeout)		\
	net_pkt_alloc_buffer_debug(_pkt, _size, _proto, _timeout,	\
				   __func__, __LINE__)

struct net_pkt *net_pkt_alloc_with_buffer_debug(struct net_if *iface,
						size_t size,
						sa_family_t family,
						enum net_ip_protocol proto,
						s32_t timeout,
						const char *caller,
						int line);
#define net_pkt_alloc_with_buffer(_iface, _size, _family,		\
				  _proto, _timeout)			\
	net_pkt_alloc_with_buffer_debug(_iface, _size, _family,		\
					_proto, _timeout,		\
					__func__, __LINE__)

struct net_pkt *net_pkt_rx_alloc_with_buffer_debug(struct net_if *iface,
						   size_t size,
						   sa_family_t family,
						   enum net_ip_protocol proto,
						   s32_t timeout,
						   const char *caller,
						   int line);
#define net_pkt_rx_alloc_with_buffer(_iface, _size, _family,		\
				     _proto, _timeout)			\
	net_pkt_rx_alloc_with_buffer_debug(_iface, _size, _family,	\
					   _proto, _timeout,		\
					   __func__, __LINE__)
#endif /* NET_PKT_DEBUG_ENABLED */
/** @endcond */

/**
 * @brief Allocate an initialized net_pkt
 *
 * @details for the time being, 2 pools are used. One for TX and one for RX.
 *          This allocator has to be used for TX.
 *
 * @param timeout Maximum time in milliseconds to wait for an allocation.
 *
 * @return a pointer to a newly allocated net_pkt on success, NULL otherwise.
 */
#if !defined(NET_PKT_DEBUG_ENABLED)
struct net_pkt *net_pkt_alloc(s32_t timeout);
#endif

/**
 * @brief Allocate an initialized net_pkt from a specific slab
 *
 * @details unlike net_pkt_alloc() which uses core slabs, this one will use
 *          an external slab (see NET_PKT_SLAB_DEFINE()).
 *          Do _not_ use it unless you know what you are doing. Basically, only
 *          net_context should be using this, in order to allocate packet and
 *          then buffer on its local slab/pool (if any).
 *
 * @param slab    The slab to use for allocating the packet
 * @param timeout Maximum time in milliseconds to wait for an allocation.
 *
 * @return a pointer to a newly allocated net_pkt on success, NULL otherwise.
 */
#if !defined(NET_PKT_DEBUG_ENABLED)
struct net_pkt *net_pkt_alloc_from_slab(struct k_mem_slab *slab,
					s32_t timeout);
#endif

/**
 * @brief Allocate an initialized net_pkt for RX
 *
 * @details for the time being, 2 pools are used. One for TX and one for RX.
 *          This allocator has to be used for RX.
 *
 * @param timeout Maximum time in milliseconds to wait for an allocation.
 *
 * @return a pointer to a newly allocated net_pkt on success, NULL otherwise.
 */
#if !defined(NET_PKT_DEBUG_ENABLED)
struct net_pkt *net_pkt_rx_alloc(s32_t timeout);
#endif

/**
 * @brief Allocate a network packet for a specific network interface.
 *
 * @param iface The network interface the packet is supposed to go through.
 * @param timeout Maximum time in milliseconds to wait for an allocation.
 *
 * @return a pointer to a newly allocated net_pkt on success, NULL otherwise.
 */
#if !defined(NET_PKT_DEBUG_ENABLED)
struct net_pkt *net_pkt_alloc_on_iface(struct net_if *iface, s32_t timeout);

/* Same as above but specifically for RX packet */
struct net_pkt *net_pkt_rx_alloc_on_iface(struct net_if *iface, s32_t timeout);
#endif

/**
 * @brief Allocate buffer for a net_pkt
 *
 * @details: such allocator will take into account space necessary for headers,
 *           MTU, and existing buffer (if any). Beware that, due to all these
 *           criteria, the allocated size might be smaller/bigger than
 *           requested one.
 *
 * @param pkt     The network packet requiring buffer to be allocated.
 * @param size    The size of buffer being requested.
 * @param proto   The IP protocol type (can be 0 for none).
 * @param timeout Maximum time in milliseconds to wait for an allocation.
 *
 * @return 0 on success, negative errno code otherwise.
 */
#if !defined(NET_PKT_DEBUG_ENABLED)
int net_pkt_alloc_buffer(struct net_pkt *pkt,
			 size_t size,
			 enum net_ip_protocol proto,
			 s32_t timeout);
#endif

/**
 * @brief Allocate a network packet and buffer at once
 *
 * @param iface   The network interface the packet is supposed to go through.
 * @param size    The size of buffer.
 * @param family  The family to which the packet belongs.
 * @param proto   The IP protocol type (can be 0 for none).
 * @param timeout Maximum time in milliseconds to wait for an allocation.
 *
 * @return a pointer to a newly allocated net_pkt on success, NULL otherwise.
 */
#if !defined(NET_PKT_DEBUG_ENABLED)
struct net_pkt *net_pkt_alloc_with_buffer(struct net_if *iface,
					  size_t size,
					  sa_family_t family,
					  enum net_ip_protocol proto,
					  s32_t timeout);

/* Same as above but specifically for RX packet */
struct net_pkt *net_pkt_rx_alloc_with_buffer(struct net_if *iface,
					     size_t size,
					     sa_family_t family,
					     enum net_ip_protocol proto,
					     s32_t timeout);
#endif

/**
 * @brief Append a buffer in packet
 *
 * @param pkt    Network packet where to append the buffer
 * @param buffer Buffer to append
 */
void net_pkt_append_buffer(struct net_pkt *pkt, struct net_buf *buffer);

/**
 * @brief Get available buffer space from a pkt
 *
 * @param pkt The net_pkt which buffer availability should be evaluated
 *
 * @return the amount of buffer available
 */
size_t net_pkt_available_buffer(struct net_pkt *pkt);

/**
 * @brief Get available buffer space for payload from a pkt
 *
 * @details Unlike net_pkt_available_buffer(), this will take into account
 *          the headers space.
 *
 * @param pkt   The net_pkt which payload buffer availability should
 *              be evaluated
 * @param proto The IP protocol type (can be 0 for none).
 *
 * @return the amount of buffer available for payload
 */
size_t net_pkt_available_payload_buffer(struct net_pkt *pkt,
					enum net_ip_protocol proto);

/**
 * @brief Trim net_pkt buffer
 *
 * @details This will basically check for unused buffers and deallocates
 *          them relevantly
 *
 * @param pkt The net_pkt which buffer will be trimmed
 */
void net_pkt_trim_buffer(struct net_pkt *pkt);

/**
 * @brief Initialize net_pkt cursor
 *
 * @details This will initialize the net_pkt cursor from its buffer.
 *
 * @param pkt The net_pkt whose cursor is going to be initialized
 */
void net_pkt_cursor_init(struct net_pkt *pkt);

/**
 * @brief Backup net_pkt cursor
 *
 * @param pkt    The net_pkt whose cursor is going to be backed up
 * @param backup The cursor where to backup net_pkt cursor
 */
static inline void net_pkt_cursor_backup(struct net_pkt *pkt,
					 struct net_pkt_cursor *backup)
{
	backup->buf = pkt->cursor.buf;
	backup->pos = pkt->cursor.pos;
}

/**
 * @brief Restore net_pkt cursor from a backup
 *
 * @param pkt    The net_pkt whose cursor is going to be restored
 * @param backup The cursor from where to restore net_pkt cursor
 */
static inline void net_pkt_cursor_restore(struct net_pkt *pkt,
					  struct net_pkt_cursor *backup)
{
	pkt->cursor.buf = backup->buf;
	pkt->cursor.pos = backup->pos;
}

/**
 * @brief Returns current position of the cursor
 *
 * @param pkt The net_pkt whose cursor position is going to be returned
 *
 * @return cursor's position
 */
static inline void *net_pkt_cursor_get_pos(struct net_pkt *pkt)
{
	return pkt->cursor.pos;
}

/**
 * @brief Skip some data from a net_pkt
 *
 * @details net_pkt's cursor should be properly initialized
 *          Cursor position will be updated after the operation.
 *          Depending on the value of pkt->overwrite bit, this function
 *          will affect the buffer length or not. If it's true, it will
 *          advance the cursor to the requested length. If it's false,
 *          it will do the same but if the cursor was already also at the
 *          end of existing data, it will increment the buffer length.
 *          So in this case, its behavior is just like net_pkt_write or
 *          net_pkt_memset, difference being that it will not affect the
 *          buffer content itself (which may be just garbage then).
 *
 * @param pkt    The net_pkt whose cursor will be updated to skip given
 *               amount of data from the buffer.
 * @param length Amount of data to skip in the buffer
 *
 * @return 0 in success, negative errno code otherwise.
 */
int net_pkt_skip(struct net_pkt *pkt, size_t length);

/**
 * @brief Memset some data in a net_pkt
 *
 * @details net_pkt's cursor should be properly initialized and,
 *          if needed, positioned using net_pkt_skip.
 *          Cursor position will be updated after the operation.
 *
 * @param pkt    The net_pkt whose buffer to fill starting at the current
 *               cursor position.
 * @param byte   The byte to write in memory
 * @param length Amount of data to memset with given byte
 *
 * @return 0 in success, negative errno code otherwise.
 */
int net_pkt_memset(struct net_pkt *pkt, int byte, size_t length);

/**
 * @brief Copy data from a packet into another one.
 *
 * @details Both net_pkt cursors should be properly initialized and,
 *          if needed, positioned using net_pkt_skip.
 *          The cursors will be updated after the operation.
 *
 * @param pkt_dst Destination network packet.
 * @param pkt_src Source network packet.
 * @param length  Length of data to be copied.
 *
 * @return 0 on success, negative errno code otherwise.
 */
int net_pkt_copy(struct net_pkt *pkt_dst,
		 struct net_pkt *pkt_src,
		 size_t length);

/**
 * @brief Clone pkt and its buffer.
 *
 * @param pkt Original pkt to be cloned
 * @param timeout Timeout to wait for free buffer
 *
 * @return NULL if error, cloned packet otherwise.
 */
struct net_pkt *net_pkt_clone(struct net_pkt *pkt, s32_t timeout);

/**
 * @brief Clone pkt and increase the refcount of its buffer.
 *
 * @param pkt Original pkt to be shallow cloned
 * @param timeout Timeout to wait for free packet
 *
 * @return NULL if error, cloned packet otherwise.
 */
struct net_pkt *net_pkt_shallow_clone(struct net_pkt *pkt, s32_t timeout);

/**
 * @brief Read some data from a net_pkt
 *
 * @details net_pkt's cursor should be properly initialized and,
 *          if needed, positioned using net_pkt_skip.
 *          Cursor position will be updated after the operation.
 *
 * @param pkt    The network packet from where to read some data
 * @param data   The destination buffer where to copy the data
 * @param length The amount of data to copy
 *
 * @return 0 on success, negative errno code otherwise.
 */
int net_pkt_read(struct net_pkt *pkt, void *data, size_t length);

/* Read u8_t data data a net_pkt */
static inline int net_pkt_read_u8(struct net_pkt *pkt, u8_t *data)
{
	return net_pkt_read(pkt, data, 1);
}

/**
 * @brief Read u16_t big endian data from a net_pkt
 *
 * @details net_pkt's cursor should be properly initialized and,
 *          if needed, positioned using net_pkt_skip.
 *          Cursor position will be updated after the operation.
 *
 * @param pkt  The network packet from where to read
 * @param data The destination u16_t where to copy the data
 *
 * @return 0 on success, negative errno code otherwise.
 */
int net_pkt_read_be16(struct net_pkt *pkt, u16_t *data);

/**
 * @brief Read u16_t little endian data from a net_pkt
 *
 * @details net_pkt's cursor should be properly initialized and,
 *          if needed, positioned using net_pkt_skip.
 *          Cursor position will be updated after the operation.
 *
 * @param pkt  The network packet from where to read
 * @param data The destination u16_t where to copy the data
 *
 * @return 0 on success, negative errno code otherwise.
 */
int net_pkt_read_le16(struct net_pkt *pkt, u16_t *data);

/**
 * @brief Read u32_t big endian data from a net_pkt
 *
 * @details net_pkt's cursor should be properly initialized and,
 *          if needed, positioned using net_pkt_skip.
 *          Cursor position will be updated after the operation.
 *
 * @param pkt  The network packet from where to read
 * @param data The destination u32_t where to copy the data
 *
 * @return 0 on success, negative errno code otherwise.
 */
int net_pkt_read_be32(struct net_pkt *pkt, u32_t *data);

/**
 * @brief Write data into a net_pkt
 *
 * @details net_pkt's cursor should be properly initialized and,
 *          if needed, positioned using net_pkt_skip.
 *          Cursor position will be updated after the operation.
 *
 * @param pkt    The network packet where to write
 * @param data   Data to be written
 * @param length Length of the data to be written
 *
 * @return 0 on success, negative errno code otherwise.
 */
int net_pkt_write(struct net_pkt *pkt, const void *data, size_t length);

/* Write u8_t data into a net_pkt. */
static inline int net_pkt_write_u8(struct net_pkt *pkt, u8_t data)
{
	return net_pkt_write(pkt, &data, sizeof(u8_t));
}

/* Write u16_t big endian data into a net_pkt. */
static inline int net_pkt_write_be16(struct net_pkt *pkt, u16_t data)
{
	u16_t data_be16 = htons(data);

	return net_pkt_write(pkt, &data_be16, sizeof(u16_t));
}

/* Write u32_t big endian data into a net_pkt. */
static inline int net_pkt_write_be32(struct net_pkt *pkt, u32_t data)
{
	u32_t data_be32 = htonl(data);

	return net_pkt_write(pkt, &data_be32, sizeof(u32_t));
}

/* Write u32_t little endian data into a net_pkt. */
static inline int net_pkt_write_le32(struct net_pkt *pkt, u32_t data)
{
	u32_t data_le32 = sys_cpu_to_le32(data);

	return net_pkt_write(pkt, &data_le32, sizeof(u32_t));
}

/* Write u16_t little endian data into a net_pkt. */
static inline int net_pkt_write_le16(struct net_pkt *pkt, u16_t data)
{
	u16_t data_le16 = sys_cpu_to_le16(data);

	return net_pkt_write(pkt, &data_le16, sizeof(u16_t));
}

/**
 * @brief Get the amount of data which can be read from current cursor position
 *
 * @param pkt Network packet
 *
 * @return Amount of data which can be read from current pkt cursor
 */
size_t net_pkt_remaining_data(struct net_pkt *pkt);

/**
 * @brief Update the overall length of a packet
 *
 * @details Unlike net_pkt_pull() below, this does not take packet cursor
 *          into account. It's mainly a helper dedicated for ipv4 and ipv6
 *          input functions. It shrinks the overall length by given parameter.
 *
 * @param pkt    Network packet
 * @param length The new length of the packet
 *
 * @return 0 on success, negative errno code otherwise.
 */
int net_pkt_update_length(struct net_pkt *pkt, size_t length);

/**
 * @brief Remove data from the packet at current location
 *
 * @details net_pkt's cursor should be properly initialized and,
 *          eventually, properly positioned using net_pkt_skip/read/write.
 *
 * @param pkt    Network packet
 * @param length Number of bytes to be removed
 *
 * @return 0 on success, negative errno code otherwise.
 */
int net_pkt_pull(struct net_pkt *pkt, size_t length);

/**
 * @brief Get the actual offset in the packet from its cursor
 *
 * @param pkt Network packet.
 *
 * @return a valid offset on success, 0 otherwise as there is nothing that
 *         can be done to evaluate the offset.
 */
u16_t net_pkt_get_current_offset(struct net_pkt *pkt);

/**
 * @brief Check if a data size could fit contiguously
 *
 * @details net_pkt's cursor should be properly initialized and,
 *          if needed, positioned using net_pkt_skip.
 *
 * @param pkt  Network packet.
 * @param size The size to check for contiguity
 *
 * @return true if that is the case, false otherwise.
 */
bool net_pkt_is_contiguous(struct net_pkt *pkt, size_t size);

struct net_pkt_data_access {
#if !defined(CONFIG_NET_HEADERS_ALWAYS_CONTIGUOUS)
	void *data;
#endif
	const size_t size;
};

#if defined(CONFIG_NET_HEADERS_ALWAYS_CONTIGUOUS)
#define NET_PKT_DATA_ACCESS_DEFINE(_name, _type)		\
	struct net_pkt_data_access _name = {			\
		.size = sizeof(_type),				\
	}

#define NET_PKT_DATA_ACCESS_CONTIGUOUS_DEFINE(_name, _type)	\
	NET_PKT_DATA_ACCESS_DEFINE(_name, _type)

#else
#define NET_PKT_DATA_ACCESS_DEFINE(_name, _type)		\
	_type _hdr_##_name;					\
	struct net_pkt_data_access _name = {			\
		.data = &_hdr_##_name,				\
		.size = sizeof(_type),				\
	}

#define NET_PKT_DATA_ACCESS_CONTIGUOUS_DEFINE(_name, _type)	\
	struct net_pkt_data_access _name = {			\
		.data = NULL,					\
		.size = sizeof(_type),				\
	}

#endif /* CONFIG_NET_HEADERS_ALWAYS_CONTIGUOUS */

/**
 * @brief Get data from a network packet in a contiguous way
 *
 * @details net_pkt's cursor should be properly initialized and,
 *          if needed, positioned using net_pkt_skip.
 *          Cursor position will be updated after the operation.
 *
 * @param pkt    The network packet from where to get the data.
 * @param access A pointer to a valid net_pkt_data_access describing the
 *        data to get in a contiguous way.
 *
 * @return a pointer to the requested contiguous data, NULL otherwise.
 */
void *net_pkt_get_data(struct net_pkt *pkt,
		       struct net_pkt_data_access *access);

/**
 * @brief Set contiguous data into a network packet
 *
 * @details net_pkt's cursor should be properly initialized and,
 *          if needed, positioned using net_pkt_skip.
 *          Cursor position will be updated after the operation.
 *
 * @param pkt    The network packet to where the data should be set.
 * @param access A pointer to a valid net_pkt_data_access describing the
 *        data to set.
 *
 * @return 0 on success, a negative errno otherwise.
 */
int net_pkt_set_data(struct net_pkt *pkt,
		     struct net_pkt_data_access *access);

/**
 * Acknowledge previously contiguous data taken from a network packet
 * Packet needs to be set to overwrite mode.
 */
static inline int net_pkt_acknowledge_data(struct net_pkt *pkt,
					   struct net_pkt_data_access *access)
{
	return net_pkt_skip(pkt, access->size);
}

/**
 * @}
 */

#ifdef __cplusplus
}
#endif

#endif /* ZEPHYR_INCLUDE_NET_NET_PKT_H_ */