subsys/net/lib/dns/dns_pack.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

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

 #ifndef _DNS_PACK_H_
 #define _DNS_PACK_H_

 #include <net/net_ip.h>
 #include <net/buf.h>

 #include <zephyr/types.h>
 #include <stddef.h>
 #include <errno.h>

 /* See RFC 1035, 4.1.1 Header section format
  * DNS Message Header is always 12 bytes
  */
 #define DNS_MSG_HEADER_SIZE	12

 /* This is the label's length octet, see 4.1.2. Question section format */
 #define DNS_LABEL_LEN_SIZE	1
 #define DNS_LABEL_MAX_SIZE	63
 #define DNS_ANSWER_MIN_SIZE	12
 #define DNS_COMMON_UINT_SIZE	2

 #define DNS_HEADER_ID_LEN	2
 #define DNS_HEADER_FLAGS_LEN	2
 #define DNS_QTYPE_LEN		2
 #define DNS_QCLASS_LEN		2
 #define DNS_QDCOUNT_LEN		2
 #define DNS_ANCOUNT_LEN		2
 #define DNS_NSCOUNT_LEN		2
 #define DNS_ARCOUNT_LEN		2
 #define DNS_TTL_LEN		4
 #define DNS_RDLENGTH_LEN	2

 #define NS_CMPRSFLGS    0xc0   /* DNS name compression */

 /* RFC 1035 '4.1.1. Header section format' defines the following flags:
  * QR, Opcode, AA, TC, RD, RA, Z and RCODE.
  * This implementation only uses RD (Recursion Desired).
  */
 #define DNS_RECURSION		1

 /* These two defines represent the 3rd and 4th bytes of the DNS msg header.
  * See RFC 1035, 4.1.1. Header section format.
  */
 #define DNS_FLAGS1		DNS_RECURSION	/* QR, Opcode, AA, and TC = 0 */
 #define DNS_FLAGS2		0		/* RA, Z and RCODE = 0 */

 /**
  * DNS message structure for DNS responses
  *
  * Structure that points to the buffer containing the DNS message. It also
  * contains some decodified message's properties that can not be recovered
  * easily:
  * - cname_offset
  * - query_offset
  * - answer_offset:
  *     + response_type: It indicates the response's content type. It could be
  *       an IP address, a CNAME with IP (two answers), a CNAME with no IP
  *       address. See enum dns_response_type for more details.
  *     + response_position: this is an offset. It holds the starting byte of
  *       the field containing the desired info. For example an IPv4 address.
  *     + response_length: this is an offset. It holds the response's length.
  */
 struct dns_msg_t {
 	u8_t *msg;

 	int response_type;
 	u16_t response_position;
 	u16_t response_length;

 	u16_t query_offset;
 	u16_t answer_offset;
 	u16_t msg_size;
 };

 #define DNS_MSG_INIT(b, s)	{.msg = b, .msg_size = s,	\
 				 .response_type = -EINVAL}


 enum dns_rr_type {
 	DNS_RR_TYPE_INVALID = 0,
 	DNS_RR_TYPE_A	= 1,		/* IPv4  */
 	DNS_RR_TYPE_CNAME = 5,		/* CNAME */
 	DNS_RR_TYPE_AAAA = 28		/* IPv6  */
 };

 enum dns_response_type {
 	DNS_RESPONSE_INVALID = -EINVAL,
 	DNS_RESPONSE_IP,
 	DNS_RESPONSE_CNAME_WITH_IP,
 	DNS_RESPONSE_CNAME_NO_IP
 };

 enum dns_class {
 	DNS_CLASS_INVALID = 0,
 	DNS_CLASS_IN,
 };

 enum dns_msg_type {
 	DNS_QUERY = 0,
 	DNS_RESPONSE
 };

 enum dns_header_rcode {
 	DNS_HEADER_NOERROR = 0,
 	DNS_HEADER_FORMATERROR,
 	DNS_HEADER_SERVERFAILURE,
 	DNS_HEADER_NAMEERROR,
 	DNS_HEADER_NOTIMPLEMENTED,
 	DNS_HEADER_REFUSED
 };

 /** It returns the ID field in the DNS msg header	*/
 static inline int dns_header_id(u8_t *header)
 {
 	return htons(UNALIGNED_GET((u16_t *)(header)));
 }

 /* inline unpack routines are used to unpack data from network
  * order to cpu. Similar routines without the unpack prefix are
  * used for cpu to network order.
  */
 static inline int dns_unpack_header_id(u8_t *header)
 {
 	return ntohs(UNALIGNED_GET((u16_t *)(header)));
 }

 /** It returns the QR field in the DNS msg header	*/
 static inline int dns_header_qr(u8_t *header)
 {
 	return ((*(header + 2)) & 0x80) ? 1 : 0;
 }

 /** It returns the OPCODE field in the DNS msg header	*/
 static inline int dns_header_opcode(u8_t *header)
 {
 	return ((*(header + 2)) & 0x70) >> 1;
 }

 /** It returns the AA field in the DNS msg header	*/
 static inline int dns_header_aa(u8_t *header)
 {
 	return ((*(header + 2)) & 0x04) ? 1 : 0;
 }

 /** It returns the TC field in the DNS msg header	*/
 static inline int dns_header_tc(u8_t *header)
 {
 	return ((*(header + 2)) & 0x02) ? 1 : 0;
 }

 /** It returns the RD field in the DNS msg header	*/
 static inline int dns_header_rd(u8_t *header)
 {
 	return ((*(header + 2)) & 0x01) ? 1 : 0;
 }

 /** It returns the RA field in the DNS msg header	*/
 static inline int dns_header_ra(u8_t *header)
 {
 	return ((*(header + 3)) & 0x80) >> 7;
 }

 /** It returns the Z field in the DNS msg header	*/
 static inline int dns_header_z(u8_t *header)
 {
 	return ((*(header + 3)) & 0x70) >> 4;
 }

 /** It returns the RCODE field in the DNS msg header	*/
 static inline int dns_header_rcode(u8_t *header)
 {
 	return ((*(header + 3)) & 0x0F);
 }

 /** It returns the QDCOUNT field in the DNS msg header	*/
 static inline int dns_header_qdcount(u8_t *header)
 {
 	return htons(UNALIGNED_GET((u16_t *)(header + 4)));
 }

 static inline int dns_unpack_header_qdcount(u8_t *header)
 {
 	return ntohs(UNALIGNED_GET((u16_t *)(header + 4)));
 }

 /** It returns the ANCOUNT field in the DNS msg header	*/
 static inline int dns_header_ancount(u8_t *header)
 {
 	return htons(UNALIGNED_GET((u16_t *)(header + 6)));
 }

 static inline int dns_unpack_header_ancount(u8_t *header)
 {
 	return ntohs(UNALIGNED_GET((u16_t *)(header + 6)));
 }

 /** It returns the NSCOUNT field in the DNS msg header	*/
 static inline int dns_header_nscount(u8_t *header)
 {
 	return htons(UNALIGNED_GET((u16_t *)(header + 8)));
 }

 /** It returns the ARCOUNT field in the DNS msg header	*/
 static inline int dns_header_arcount(u8_t *header)
 {
 	return htons(UNALIGNED_GET((u16_t *)(header + 10)));
 }

 static inline int dns_query_qtype(u8_t *question)
 {
 	return htons(UNALIGNED_GET((u16_t *)(question + 0)));
 }

 static inline int dns_unpack_query_qtype(const u8_t *question)
 {
 	return ntohs(UNALIGNED_GET((u16_t *)(question + 0)));
 }

 static inline int dns_query_qclass(u8_t *question)
 {
 	return htons(UNALIGNED_GET((u16_t *)(question + 2)));
 }

 static inline int dns_unpack_query_qclass(const u8_t *question)
 {
 	return ntohs(UNALIGNED_GET((u16_t *)(question + 2)));
 }

 static inline int dns_answer_type(u16_t dname_size, u8_t *answer)
 {
 	/* 4.1.3. Resource record format */
 	return ntohs(UNALIGNED_GET((u16_t *)(answer + dname_size + 0)));
 }

 static inline int dns_answer_class(u16_t dname_size, u8_t *answer)
 {
 	/* 4.1.3. Resource record format */
 	return ntohs(UNALIGNED_GET((u16_t *)(answer + dname_size + 2)));
 }

 static inline int dns_answer_ttl(u16_t dname_size, u8_t *answer)
 {
 	return ntohl(UNALIGNED_GET((u32_t *)(answer + dname_size + 4)));
 }

 static inline int dns_answer_rdlength(u16_t dname_size,
 					     u8_t *answer)
 {
 	return ntohs(UNALIGNED_GET((u16_t *)(answer + dname_size + 8)));
 }

 /**
  * @brief Packs a QNAME
  *
  * @param len Bytes used by this function
  * @param buf Buffer
  * @param sizeof Buffer's size
  * @param domain_name Something like www.example.com
  * @retval 0 on success
  * @retval -ENOMEM if there is no enough space to store the resultant QNAME
  * @retval -EINVAL if an invalid parameter was passed as an argument
  */
 int dns_msg_pack_qname(u16_t *len, u8_t *buf, u16_t size,
 		       const char *domain_name);

 /**
  * @brief Unpacks an answer message
  *
  * @param dns_msg Structure
  * @param dname_ptr An index to the previous CNAME. For example for the
  *        first answer, ptr must be 0x0c, the DNAME at the question.
  * @param ttl TTL answer parameter.
  * @retval 0 on success
  * @retval -ENOMEM on error
  */
 int dns_unpack_answer(struct dns_msg_t *dns_msg, int dname_ptr, u32_t *ttl);

 /**
  * @brief Unpacks the header's response.
  *
  * @param msg Structure containing the response.
  * @param src_id Transaction id, it must match the id used in the query
  *        datagram sent to the DNS server.
  * @retval 0 on success
  * @retval -ENOMEM if the buffer in msg has no enough space to store the header.
  *         The header is always 12 bytes length.
  * @retval -EINVAL if the src_id does not match the header's id, or if the
  *         header's QR value is not DNS_RESPONSE or if the header's OPCODE
  *         value is not DNS_QUERY, or if the header's Z value is not 0 or if
  *         the question counter is not 1 or the answer counter is less than 1.
  * @retval RFC 1035 RCODEs (> 0) 1 Format error, 2 Server failure, 3 Name Error,
  *         4 Not Implemented and 5 Refused.
  */
 int dns_unpack_response_header(struct dns_msg_t *msg, int src_id);

 /**
  * @brief Packs the query message
  *
  * @param buf Buffer that will contain the resultant query
  * @param len Number of bytes used to encode the query
  * @param size Buffer size
  * @param qname Domain name represented as a sequence of labels.
  *        See RFC 1035, 4.1.2. Question section format.
  * @param qname_len Number of octets in qname.
  * @param id Transaction Identifier
  * @param qtype Query type: AA, AAAA. See enum dns_rr_type
  * @retval 0 on success
  * @retval On error, a negative value is returned.
  *         See: dns_msg_pack_query_header and  dns_msg_pack_qname.
  */
 int dns_msg_pack_query(u8_t *buf, u16_t *len, u16_t size,
 		       u8_t *qname, u16_t qname_len, u16_t id,
 		       enum dns_rr_type qtype);

 /**
  * @brief Unpacks the response's query.
  *
  * @details RFC 1035 states that the response's query comes after the first
  *          12 bytes i.e., after the message's header. This function computes
  *          the answer_offset field.
  *
  * @param dns_msg Structure containing the message.
  * @retval 0 on success
  * @retval -ENOMEM if the null label is not found after traversing the buffer
  *         or if QCLASS and QTYPE are not found.
  * @retval -EINVAL if QTYPE is not "A" (IPv4) or "AAAA" (IPv6) or if QCLASS
  *         is not "IN".
  */
 int dns_unpack_response_query(struct dns_msg_t *dns_msg);

 /**
  * @brief Copies the qname from dns_msg to buf
  *
  * @details This routine implements the algorithm described in RFC 1035, 4.1.4.
  *          Message compression to copy the qname (perhaps containing pointers
  *          with offset) to the linear buffer buf. Pointers are removed and
  *          only the "true" labels are copied.
  *
  * @param buf Output buffer
  * @param len Output buffer's length
  * @param size Output buffer's size
  * @param dns_msg Structure containing the message
  * @param pos QNAME's position in dns_msg->msg
  * @retval 0 on success
  * @retval -EINVAL if an invalid parameter was passed as an argument
  * @retval -ENOMEM if the label's size is corrupted
  */
 int dns_copy_qname(u8_t *buf, u16_t *len, u16_t size,
 		   struct dns_msg_t *dns_msg, u16_t pos);

 /**
  * @brief Unpacks the mDNS query. This is special version for multicast DNS
  *        as it skips checks to various fields as described in RFC 6762
  *        chapter 18.
  *
  * @param msg Structure containing the response.
  * @param src_id Transaction id, this is returned to the caller.
  * @retval 0 on success, <0 if error
  * @retval -ENOMEM if the buffer in msg has no enough space to store the header.
  *         The header is always 12 bytes length.
  * @retval -EINVAL if the src_id does not match the header's id, or if the
  *         header's QR value is not DNS_RESPONSE or if the header's OPCODE
  *         value is not DNS_QUERY, or if the header's Z value is not 0 or if
  *         the question counter is not 1 or the answer counter is less than 1.
  * @retval RFC 1035 RCODEs (> 0) 1 Format error, 2 Server failure, 3 Name Error,
  *         4 Not Implemented and 5 Refused.
  */
 int mdns_unpack_query_header(struct dns_msg_t *msg, u16_t *src_id);

 static inline int llmnr_unpack_query_header(struct dns_msg_t *msg,
 					    u16_t *src_id)
 {
 	return mdns_unpack_query_header(msg, src_id);
 }

 /**
  * @brief Unpacks the query.
  *
  * @param dns_msg Structure containing the message.
  * @param buf Result buf
  * @param qtype Query type is returned to caller
  * @param qclass Query class is returned to caller
  * @retval 0 on success
  * @retval -ENOMEM if the null label is not found after traversing the buffer
  *         or if QCLASS and QTYPE are not found.
  * @retval -EINVAL if QTYPE is not "A" (IPv4) or "AAAA" (IPv6) or if QCLASS
  *         is not "IN".
  */
 int dns_unpack_query(struct dns_msg_t *dns_msg, struct net_buf *buf,
 		     enum dns_rr_type *qtype,
 		     enum dns_class *qclass);

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

	#ifndef _DNS_PACK_H_
	#define _DNS_PACK_H_

	#include <net/net_ip.h>
	#include <net/buf.h>

	#include <zephyr/types.h>
	#include <stddef.h>
	#include <errno.h>

	/* See RFC 1035, 4.1.1 Header section format
	* DNS Message Header is always 12 bytes
	*/
	#define DNS_MSG_HEADER_SIZE 12

	/* This is the label's length octet, see 4.1.2. Question section format */
	#define DNS_LABEL_LEN_SIZE 1
	#define DNS_LABEL_MAX_SIZE 63
	#define DNS_ANSWER_MIN_SIZE 12
	#define DNS_COMMON_UINT_SIZE 2

	#define DNS_HEADER_ID_LEN 2
	#define DNS_HEADER_FLAGS_LEN 2
	#define DNS_QTYPE_LEN 2
	#define DNS_QCLASS_LEN 2
	#define DNS_QDCOUNT_LEN 2
	#define DNS_ANCOUNT_LEN 2
	#define DNS_NSCOUNT_LEN 2
	#define DNS_ARCOUNT_LEN 2
	#define DNS_TTL_LEN 4
	#define DNS_RDLENGTH_LEN 2

	#define NS_CMPRSFLGS 0xc0 /* DNS name compression */

	/* RFC 1035 '4.1.1. Header section format' defines the following flags:
	* QR, Opcode, AA, TC, RD, RA, Z and RCODE.
	* This implementation only uses RD (Recursion Desired).
	*/
	#define DNS_RECURSION 1

	/* These two defines represent the 3rd and 4th bytes of the DNS msg header.
	* See RFC 1035, 4.1.1. Header section format.
	*/
	#define DNS_FLAGS1 DNS_RECURSION /* QR, Opcode, AA, and TC = 0 */
	#define DNS_FLAGS2 0 /* RA, Z and RCODE = 0 */

	/**
	* DNS message structure for DNS responses
	*
	* Structure that points to the buffer containing the DNS message. It also
	* contains some decodified message's properties that can not be recovered
	* easily:
	* - cname_offset
	* - query_offset
	* - answer_offset:
	* + response_type: It indicates the response's content type. It could be
	* an IP address, a CNAME with IP (two answers), a CNAME with no IP
	* address. See enum dns_response_type for more details.
	* + response_position: this is an offset. It holds the starting byte of
	* the field containing the desired info. For example an IPv4 address.
	* + response_length: this is an offset. It holds the response's length.
	*/
	struct dns_msg_t {
	u8_t *msg;

	int response_type;
	u16_t response_position;
	u16_t response_length;

	u16_t query_offset;
	u16_t answer_offset;
	u16_t msg_size;
	};

	#define DNS_MSG_INIT(b, s) {.msg = b, .msg_size = s, \
	.response_type = -EINVAL}


	enum dns_rr_type {
	DNS_RR_TYPE_INVALID = 0,
	DNS_RR_TYPE_A = 1, /* IPv4 */
	DNS_RR_TYPE_CNAME = 5, /* CNAME */
	DNS_RR_TYPE_AAAA = 28 /* IPv6 */
	};

	enum dns_response_type {
	DNS_RESPONSE_INVALID = -EINVAL,
	DNS_RESPONSE_IP,
	DNS_RESPONSE_CNAME_WITH_IP,
	DNS_RESPONSE_CNAME_NO_IP
	};

	enum dns_class {
	DNS_CLASS_INVALID = 0,
	DNS_CLASS_IN,
	};

	enum dns_msg_type {
	DNS_QUERY = 0,
	DNS_RESPONSE
	};

	enum dns_header_rcode {
	DNS_HEADER_NOERROR = 0,
	DNS_HEADER_FORMATERROR,
	DNS_HEADER_SERVERFAILURE,
	DNS_HEADER_NAMEERROR,
	DNS_HEADER_NOTIMPLEMENTED,
	DNS_HEADER_REFUSED
	};

	/** It returns the ID field in the DNS msg header */
	static inline int dns_header_id(u8_t *header)
	{
	return htons(UNALIGNED_GET((u16_t *)(header)));
	}

	/* inline unpack routines are used to unpack data from network
	* order to cpu. Similar routines without the unpack prefix are
	* used for cpu to network order.
	*/
	static inline int dns_unpack_header_id(u8_t *header)
	{
	return ntohs(UNALIGNED_GET((u16_t *)(header)));
	}

	/** It returns the QR field in the DNS msg header */
	static inline int dns_header_qr(u8_t *header)
	{
	return ((*(header + 2)) & 0x80) ? 1 : 0;
	}

	/** It returns the OPCODE field in the DNS msg header */
	static inline int dns_header_opcode(u8_t *header)
	{
	return ((*(header + 2)) & 0x70) >> 1;
	}

	/** It returns the AA field in the DNS msg header */
	static inline int dns_header_aa(u8_t *header)
	{
	return ((*(header + 2)) & 0x04) ? 1 : 0;
	}

	/** It returns the TC field in the DNS msg header */
	static inline int dns_header_tc(u8_t *header)
	{
	return ((*(header + 2)) & 0x02) ? 1 : 0;
	}

	/** It returns the RD field in the DNS msg header */
	static inline int dns_header_rd(u8_t *header)
	{
	return ((*(header + 2)) & 0x01) ? 1 : 0;
	}

	/** It returns the RA field in the DNS msg header */
	static inline int dns_header_ra(u8_t *header)
	{
	return ((*(header + 3)) & 0x80) >> 7;
	}

	/** It returns the Z field in the DNS msg header */
	static inline int dns_header_z(u8_t *header)
	{
	return ((*(header + 3)) & 0x70) >> 4;
	}

	/** It returns the RCODE field in the DNS msg header */
	static inline int dns_header_rcode(u8_t *header)
	{
	return ((*(header + 3)) & 0x0F);
	}

	/** It returns the QDCOUNT field in the DNS msg header */
	static inline int dns_header_qdcount(u8_t *header)
	{
	return htons(UNALIGNED_GET((u16_t *)(header + 4)));
	}

	static inline int dns_unpack_header_qdcount(u8_t *header)
	{
	return ntohs(UNALIGNED_GET((u16_t *)(header + 4)));
	}

	/** It returns the ANCOUNT field in the DNS msg header */
	static inline int dns_header_ancount(u8_t *header)
	{
	return htons(UNALIGNED_GET((u16_t *)(header + 6)));
	}

	static inline int dns_unpack_header_ancount(u8_t *header)
	{
	return ntohs(UNALIGNED_GET((u16_t *)(header + 6)));
	}

	/** It returns the NSCOUNT field in the DNS msg header */
	static inline int dns_header_nscount(u8_t *header)
	{
	return htons(UNALIGNED_GET((u16_t *)(header + 8)));
	}

	/** It returns the ARCOUNT field in the DNS msg header */
	static inline int dns_header_arcount(u8_t *header)
	{
	return htons(UNALIGNED_GET((u16_t *)(header + 10)));
	}

	static inline int dns_query_qtype(u8_t *question)
	{
	return htons(UNALIGNED_GET((u16_t *)(question + 0)));
	}

	static inline int dns_unpack_query_qtype(const u8_t *question)
	{
	return ntohs(UNALIGNED_GET((u16_t *)(question + 0)));
	}

	static inline int dns_query_qclass(u8_t *question)
	{
	return htons(UNALIGNED_GET((u16_t *)(question + 2)));
	}

	static inline int dns_unpack_query_qclass(const u8_t *question)
	{
	return ntohs(UNALIGNED_GET((u16_t *)(question + 2)));
	}

	static inline int dns_answer_type(u16_t dname_size, u8_t *answer)
	{
	/* 4.1.3. Resource record format */
	return ntohs(UNALIGNED_GET((u16_t *)(answer + dname_size + 0)));
	}

	static inline int dns_answer_class(u16_t dname_size, u8_t *answer)
	{
	/* 4.1.3. Resource record format */
	return ntohs(UNALIGNED_GET((u16_t *)(answer + dname_size + 2)));
	}

	static inline int dns_answer_ttl(u16_t dname_size, u8_t *answer)
	{
	return ntohl(UNALIGNED_GET((u32_t *)(answer + dname_size + 4)));
	}

	static inline int dns_answer_rdlength(u16_t dname_size,
	u8_t *answer)
	{
	return ntohs(UNALIGNED_GET((u16_t *)(answer + dname_size + 8)));
	}

	/**
	* @brief Packs a QNAME
	*
	* @param len Bytes used by this function
	* @param buf Buffer
	* @param sizeof Buffer's size
	* @param domain_name Something like www.example.com
	* @retval 0 on success
	* @retval -ENOMEM if there is no enough space to store the resultant QNAME
	* @retval -EINVAL if an invalid parameter was passed as an argument
	*/
	int dns_msg_pack_qname(u16_t len, u8_t buf, u16_t size,
	const char *domain_name);

	/**
	* @brief Unpacks an answer message
	*
	* @param dns_msg Structure
	* @param dname_ptr An index to the previous CNAME. For example for the
	* first answer, ptr must be 0x0c, the DNAME at the question.
	* @param ttl TTL answer parameter.
	* @retval 0 on success
	* @retval -ENOMEM on error
	*/
	int dns_unpack_answer(struct dns_msg_t dns_msg, int dname_ptr, u32_t ttl);

	/**
	* @brief Unpacks the header's response.
	*
	* @param msg Structure containing the response.
	* @param src_id Transaction id, it must match the id used in the query
	* datagram sent to the DNS server.
	* @retval 0 on success
	* @retval -ENOMEM if the buffer in msg has no enough space to store the header.
	* The header is always 12 bytes length.
	* @retval -EINVAL if the src_id does not match the header's id, or if the
	* header's QR value is not DNS_RESPONSE or if the header's OPCODE
	* value is not DNS_QUERY, or if the header's Z value is not 0 or if
	* the question counter is not 1 or the answer counter is less than 1.
	* @retval RFC 1035 RCODEs (> 0) 1 Format error, 2 Server failure, 3 Name Error,
	* 4 Not Implemented and 5 Refused.
	*/
	int dns_unpack_response_header(struct dns_msg_t *msg, int src_id);

	/**
	* @brief Packs the query message
	*
	* @param buf Buffer that will contain the resultant query
	* @param len Number of bytes used to encode the query
	* @param size Buffer size
	* @param qname Domain name represented as a sequence of labels.
	* See RFC 1035, 4.1.2. Question section format.
	* @param qname_len Number of octets in qname.
	* @param id Transaction Identifier
	* @param qtype Query type: AA, AAAA. See enum dns_rr_type
	* @retval 0 on success
	* @retval On error, a negative value is returned.
	* See: dns_msg_pack_query_header and dns_msg_pack_qname.
	*/
	int dns_msg_pack_query(u8_t buf, u16_t len, u16_t size,
	u8_t *qname, u16_t qname_len, u16_t id,
	enum dns_rr_type qtype);

	/**
	* @brief Unpacks the response's query.
	*
	* @details RFC 1035 states that the response's query comes after the first
	* 12 bytes i.e., after the message's header. This function computes
	* the answer_offset field.
	*
	* @param dns_msg Structure containing the message.
	* @retval 0 on success
	* @retval -ENOMEM if the null label is not found after traversing the buffer
	* or if QCLASS and QTYPE are not found.
	* @retval -EINVAL if QTYPE is not "A" (IPv4) or "AAAA" (IPv6) or if QCLASS
	* is not "IN".
	*/
	int dns_unpack_response_query(struct dns_msg_t *dns_msg);

	/**
	* @brief Copies the qname from dns_msg to buf
	*
	* @details This routine implements the algorithm described in RFC 1035, 4.1.4.
	* Message compression to copy the qname (perhaps containing pointers
	* with offset) to the linear buffer buf. Pointers are removed and
	* only the "true" labels are copied.
	*
	* @param buf Output buffer
	* @param len Output buffer's length
	* @param size Output buffer's size
	* @param dns_msg Structure containing the message
	* @param pos QNAME's position in dns_msg->msg
	* @retval 0 on success
	* @retval -EINVAL if an invalid parameter was passed as an argument
	* @retval -ENOMEM if the label's size is corrupted
	*/
	int dns_copy_qname(u8_t buf, u16_t len, u16_t size,
	struct dns_msg_t *dns_msg, u16_t pos);

	/**
	* @brief Unpacks the mDNS query. This is special version for multicast DNS
	* as it skips checks to various fields as described in RFC 6762
	* chapter 18.
	*
	* @param msg Structure containing the response.
	* @param src_id Transaction id, this is returned to the caller.
	* @retval 0 on success, <0 if error
	* @retval -ENOMEM if the buffer in msg has no enough space to store the header.
	* The header is always 12 bytes length.
	* @retval -EINVAL if the src_id does not match the header's id, or if the
	* header's QR value is not DNS_RESPONSE or if the header's OPCODE
	* value is not DNS_QUERY, or if the header's Z value is not 0 or if
	* the question counter is not 1 or the answer counter is less than 1.
	* @retval RFC 1035 RCODEs (> 0) 1 Format error, 2 Server failure, 3 Name Error,
	* 4 Not Implemented and 5 Refused.
	*/
	int mdns_unpack_query_header(struct dns_msg_t msg, u16_t src_id);

	static inline int llmnr_unpack_query_header(struct dns_msg_t *msg,
	u16_t *src_id)
	{
	return mdns_unpack_query_header(msg, src_id);
	}

	/**
	* @brief Unpacks the query.
	*
	* @param dns_msg Structure containing the message.
	* @param buf Result buf
	* @param qtype Query type is returned to caller
	* @param qclass Query class is returned to caller
	* @retval 0 on success
	* @retval -ENOMEM if the null label is not found after traversing the buffer
	* or if QCLASS and QTYPE are not found.
	* @retval -EINVAL if QTYPE is not "A" (IPv4) or "AAAA" (IPv6) or if QCLASS
	* is not "IN".
	*/
	int dns_unpack_query(struct dns_msg_t dns_msg, struct net_buf buf,
	enum dns_rr_type *qtype,
	enum dns_class *qclass);

	#endif