/*
* rdata.h
*
* rdata definitions
*
* a Net::DNS like library for C
*
* (c) NLnet Labs, 2005-2006
*
* See the file LICENSE for the license
*/
/**
* \file
*
* Defines ldns_rdf and functions to manipulate those.
*/
#ifndef LDNS_RDATA_H
#define LDNS_RDATA_H
#include <ldns/common.h>
#include <ldns/error.h>
#ifdef __cplusplus
extern "C" {
#endif
#define LDNS_MAX_RDFLEN 65535
#define LDNS_RDF_SIZE_BYTE 1
#define LDNS_RDF_SIZE_WORD 2
#define LDNS_RDF_SIZE_DOUBLEWORD 4
#define LDNS_RDF_SIZE_6BYTES 6
#define LDNS_RDF_SIZE_8BYTES 8
#define LDNS_RDF_SIZE_16BYTES 16
#define LDNS_NSEC3_VARS_OPTOUT_MASK 0x01
/**
* The different types of RDATA fields.
*/
enum ldns_enum_rdf_type
{
/** none */
LDNS_RDF_TYPE_NONE,
/** domain name */
LDNS_RDF_TYPE_DNAME,
/** 8 bits */
LDNS_RDF_TYPE_INT8,
/** 16 bits */
LDNS_RDF_TYPE_INT16,
/** 32 bits */
LDNS_RDF_TYPE_INT32,
/** A record */
LDNS_RDF_TYPE_A,
/** AAAA record */
LDNS_RDF_TYPE_AAAA,
/** txt string */
LDNS_RDF_TYPE_STR,
/** apl data */
LDNS_RDF_TYPE_APL,
/** b32 string */
LDNS_RDF_TYPE_B32_EXT,
/** b64 string */
LDNS_RDF_TYPE_B64,
/** hex string */
LDNS_RDF_TYPE_HEX,
/** nsec type codes */
LDNS_RDF_TYPE_NSEC,
/** a RR type */
LDNS_RDF_TYPE_TYPE,
/** a class */
LDNS_RDF_TYPE_CLASS,
/** certificate algorithm */
LDNS_RDF_TYPE_CERT_ALG,
/** a key algorithm */
LDNS_RDF_TYPE_ALG,
/** unknown types */
LDNS_RDF_TYPE_UNKNOWN,
/** time (32 bits) */
LDNS_RDF_TYPE_TIME,
/** period */
LDNS_RDF_TYPE_PERIOD,
/** tsig time 48 bits */
LDNS_RDF_TYPE_TSIGTIME,
/** Represents the Public Key Algorithm, HIT and Public Key fields
for the HIP RR types. A HIP specific rdf type is used because of
the unusual layout in wireformat (see RFC 5205 Section 5) */
LDNS_RDF_TYPE_HIP,
/** variable length any type rdata where the length
is specified by the first 2 bytes */
LDNS_RDF_TYPE_INT16_DATA,
/** protocol and port bitmaps */
LDNS_RDF_TYPE_SERVICE,
/** location data */
LDNS_RDF_TYPE_LOC,
/** well known services */
LDNS_RDF_TYPE_WKS,
/** NSAP */
LDNS_RDF_TYPE_NSAP,
/** ATMA */
LDNS_RDF_TYPE_ATMA,
/** IPSECKEY */
LDNS_RDF_TYPE_IPSECKEY,
/** nsec3 hash salt */
LDNS_RDF_TYPE_NSEC3_SALT,
/** nsec3 base32 string (with length byte on wire */
LDNS_RDF_TYPE_NSEC3_NEXT_OWNER,
/** 4 shorts represented as 4 * 16 bit hex numbers
* separated by colons. For NID and L64.
*/
LDNS_RDF_TYPE_ILNP64,
/** 6 * 8 bit hex numbers separated by dashes. For EUI48. */
LDNS_RDF_TYPE_EUI48,
/** 8 * 8 bit hex numbers separated by dashes. For EUI64. */
LDNS_RDF_TYPE_EUI64,
/** A non-zero sequence of US-ASCII letters and numbers in lower case.
* For CAA.
*/
LDNS_RDF_TYPE_TAG,
/** A <character-string> encoding of the value field as specified
* [RFC1035], Section 5.1., encoded as remaining rdata.
* For CAA.
*/
LDNS_RDF_TYPE_LONG_STR,
/** Since RFC7218 TLSA records can be given with mnemonics,
* hence these rdata field types. But as with DNSKEYs, the output
* is always numeric.
*/
LDNS_RDF_TYPE_CERTIFICATE_USAGE,
LDNS_RDF_TYPE_SELECTOR,
LDNS_RDF_TYPE_MATCHING_TYPE,
/* Aliases */
LDNS_RDF_TYPE_BITMAP = LDNS_RDF_TYPE_NSEC
};
typedef enum ldns_enum_rdf_type ldns_rdf_type;
/**
* algorithms used in CERT rrs
*/
enum ldns_enum_cert_algorithm
{
LDNS_CERT_PKIX = 1,
LDNS_CERT_SPKI = 2,
LDNS_CERT_PGP = 3,
LDNS_CERT_IPKIX = 4,
LDNS_CERT_ISPKI = 5,
LDNS_CERT_IPGP = 6,
LDNS_CERT_ACPKIX = 7,
LDNS_CERT_IACPKIX = 8,
LDNS_CERT_URI = 253,
LDNS_CERT_OID = 254
};
typedef enum ldns_enum_cert_algorithm ldns_cert_algorithm;
/**
* Resource record data field.
*
* The data is a network ordered array of bytes, which size is specified by
* the (16-bit) size field. To correctly parse it, use the type
* specified in the (16-bit) type field with a value from \ref ldns_rdf_type.
*/
struct ldns_struct_rdf
{
/** The size of the data (in octets) */
size_t _size;
/** The type of the data */
ldns_rdf_type _type;
/** Pointer to the data (raw octets) */
void *_data;
};
typedef struct ldns_struct_rdf ldns_rdf;
/* prototypes */
/* write access functions */
/**
* sets the size of the rdf.
* \param[in] *rd the rdf to operate on
* \param[in] size the new size
* \return void
*/
void ldns_rdf_set_size(ldns_rdf *rd, size_t size);
/**
* sets the size of the rdf.
* \param[in] *rd the rdf to operate on
* \param[in] type the new type
* \return void
*/
void ldns_rdf_set_type(ldns_rdf *rd, ldns_rdf_type type);
/**
* sets the size of the rdf.
* \param[in] *rd the rdf to operate on
* \param[in] *data pointer to the new data
* \return void
*/
void ldns_rdf_set_data(ldns_rdf *rd, void *data);
/* read access */
/**
* returns the size of the rdf.
* \param[in] *rd the rdf to read from
* \return uint16_t with the size
*/
size_t ldns_rdf_size(const ldns_rdf *rd);
/**
* returns the type of the rdf. We need to insert _get_
* here to prevent conflict the the rdf_type TYPE.
* \param[in] *rd the rdf to read from
* \return ldns_rdf_type with the type
*/
ldns_rdf_type ldns_rdf_get_type(const ldns_rdf *rd);
/**
* returns the data of the rdf.
* \param[in] *rd the rdf to read from
*
* \return uint8_t* pointer to the rdf's data
*/
uint8_t *ldns_rdf_data(const ldns_rdf *rd);
/* creator functions */
/**
* allocates a new rdf structure and fills it.
* This function DOES NOT copy the contents from
* the buffer, unlinke ldns_rdf_new_frm_data()
* \param[in] type type of the rdf
* \param[in] size size of the buffer
* \param[in] data pointer to the buffer to be copied
* \return the new rdf structure or NULL on failure
*/
ldns_rdf *ldns_rdf_new(ldns_rdf_type type, size_t size, void *data);
/**
* allocates a new rdf structure and fills it.
* This function _does_ copy the contents from
* the buffer, unlinke ldns_rdf_new()
* \param[in] type type of the rdf
* \param[in] size size of the buffer
* \param[in] data pointer to the buffer to be copied
* \return the new rdf structure or NULL on failure
*/
ldns_rdf *ldns_rdf_new_frm_data(ldns_rdf_type type, size_t size, const void *data);
/**
* creates a new rdf from a string.
* \param[in] type type to use
* \param[in] str string to use
* \return ldns_rdf* or NULL in case of an error
*/
ldns_rdf *ldns_rdf_new_frm_str(ldns_rdf_type type, const char *str);
/**
* creates a new rdf from a file containing a string.
* \param[out] r the new rdf
* \param[in] type type to use
* \param[in] fp the file pointer to use
* \return LDNS_STATUS_OK or the error
*/
ldns_status ldns_rdf_new_frm_fp(ldns_rdf **r, ldns_rdf_type type, FILE *fp);
/**
* creates a new rdf from a file containing a string.
* \param[out] r the new rdf
* \param[in] type type to use
* \param[in] fp the file pointer to use
* \param[in] line_nr pointer to an integer containing the current line number (for debugging purposes)
* \return LDNS_STATUS_OK or the error
*/
ldns_status ldns_rdf_new_frm_fp_l(ldns_rdf **r, ldns_rdf_type type, FILE *fp, int *line_nr);
/* destroy functions */
/**
* frees a rdf structure, leaving the
* data pointer intact.
* \param[in] rd the pointer to be freed
* \return void
*/
void ldns_rdf_free(ldns_rdf *rd);
/**
* frees a rdf structure _and_ frees the
* data. rdf should be created with _new_frm_data
* \param[in] rd the rdf structure to be freed
* \return void
*/
void ldns_rdf_deep_free(ldns_rdf *rd);
/* conversion functions */
/**
* returns the rdf containing the native uint8_t repr.
* \param[in] type the ldns_rdf type to use
* \param[in] value the uint8_t to use
* \return ldns_rdf* with the converted value
*/
ldns_rdf *ldns_native2rdf_int8(ldns_rdf_type type, uint8_t value);
/**
* returns the rdf containing the native uint16_t representation.
* \param[in] type the ldns_rdf type to use
* \param[in] value the uint16_t to use
* \return ldns_rdf* with the converted value
*/
ldns_rdf *ldns_native2rdf_int16(ldns_rdf_type type, uint16_t value);
/**
* returns an rdf that contains the given int32 value.
*
* Because multiple rdf types can contain an int32, the
* type must be specified
* \param[in] type the ldns_rdf type to use
* \param[in] value the uint32_t to use
* \return ldns_rdf* with the converted value
*/
ldns_rdf *ldns_native2rdf_int32(ldns_rdf_type type, uint32_t value);
/**
* returns an int16_data rdf that contains the data in the
* given array, preceded by an int16 specifying the length.
*
* The memory is copied, and an LDNS_RDF_TYPE_INT16DATA is returned
* \param[in] size the size of the data
* \param[in] *data pointer to the actual data
*
* \return ldns_rd* the rdf with the data
*/
ldns_rdf *ldns_native2rdf_int16_data(size_t size, uint8_t *data);
/**
* reverses an rdf, only actually useful for AAAA and A records.
* The returned rdf has the type LDNS_RDF_TYPE_DNAME!
* \param[in] *rd rdf to be reversed
* \return the reversed rdf (a newly created rdf)
*/
ldns_rdf *ldns_rdf_address_reverse(const ldns_rdf *rd);
/**
* returns the native uint8_t representation from the rdf.
* \param[in] rd the ldns_rdf to operate on
* \return uint8_t the value extracted
*/
uint8_t ldns_rdf2native_int8(const ldns_rdf *rd);
/**
* returns the native uint16_t representation from the rdf.
* \param[in] rd the ldns_rdf to operate on
* \return uint16_t the value extracted
*/
uint16_t ldns_rdf2native_int16(const ldns_rdf *rd);
/**
* returns the native uint32_t representation from the rdf.
* \param[in] rd the ldns_rdf to operate on
* \return uint32_t the value extracted
*/
uint32_t ldns_rdf2native_int32(const ldns_rdf *rd);
/**
* returns the native time_t representation from the rdf.
* \param[in] rd the ldns_rdf to operate on
* \return time_t the value extracted (32 bits currently)
*/
time_t ldns_rdf2native_time_t(const ldns_rdf *rd);
/**
* converts a ttl value (like 5d2h) to a long.
* \param[in] nptr the start of the string
* \param[out] endptr points to the last char in case of error
* \return the convert duration value
*/
uint32_t ldns_str2period(const char *nptr, const char **endptr);
/**
* removes \\DDD, \\[space] and other escapes from the input.
* See RFC 1035, section 5.1.
* \param[in] word what to check
* \param[in] length the string
* \return ldns_status mesg
*/
ldns_status ldns_octet(char *word, size_t *length);
/**
* clones a rdf structure. The data is copied.
* \param[in] rd rdf to be copied
* \return a new rdf structure
*/
ldns_rdf *ldns_rdf_clone(const ldns_rdf *rd);
/**
* compares two rdf's on their wire formats.
* (To order dnames according to rfc4034, use ldns_dname_compare)
* \param[in] rd1 the first one
* \param[in] rd2 the second one
* \return 0 if equal
* \return -1 if rd1 comes before rd2
* \return +1 if rd2 comes before rd1
*/
int ldns_rdf_compare(const ldns_rdf *rd1, const ldns_rdf *rd2);
/**
* Gets the algorithm value, the HIT and Public Key data from the rdf with
* type LDNS_RDF_TYPE_HIP.
* \param[in] rdf the rdf with type LDNS_RDF_TYPE_HIP
* \param[out] alg the algorithm
* \param[out] hit_size the size of the HIT data
* \param[out] hit the hit data
* \param[out] pk_size the size of the Public Key data
* \param[out] pk the Public Key data
* \return LDNS_STATUS_OK on success, and the error otherwise
*/
ldns_status ldns_rdf_hip_get_alg_hit_pk(ldns_rdf *rdf, uint8_t* alg,
uint8_t *hit_size, uint8_t** hit,
uint16_t *pk_size, uint8_t** pk);
/**
* Creates a new LDNS_RDF_TYPE_HIP rdf from given data.
* \param[out] rdf the newly created LDNS_RDF_TYPE_HIP rdf
* \param[in] alg the algorithm
* \param[in] hit_size the size of the HIT data
* \param[in] hit the hit data
* \param[in] pk_size the size of the Public Key data
* \param[in] pk the Public Key data
* \return LDNS_STATUS_OK on success, and the error otherwise
*/
ldns_status ldns_rdf_hip_new_frm_alg_hit_pk(ldns_rdf** rdf, uint8_t alg,
uint8_t hit_size, uint8_t *hit, uint16_t pk_size, uint8_t *pk);
#ifdef __cplusplus
}
#endif
#endif /* LDNS_RDATA_H */