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zonemaster.es/zonemaster-ldns/ldns/contrib/python/ldns_resolver.i
Malin eaaa8f6a11 fix: populate ldns submodule and add autotools to LDNS build stage 
- Re-cloned zonemaster-ldns with --recurse-submodules so the bundled
  ldns C library source (including Changelog and configure.ac) is present
- Added autoconf, automake, libtool to Dockerfile.backend ldns-build stage
  so libtoolize + autoreconf can generate ldns/configure during make

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
2026-04-21 08:33:38 +02:00

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/******************************************************************************
* ldns_resolver.i: LDNS resolver class
*
* Copyright (c) 2009, Zdenek Vasicek (vasicek AT fit.vutbr.cz)
* Karel Slany (slany AT fit.vutbr.cz)
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of the organization nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*****************************************************************************/
/* ========================================================================= */
/* SWIG setting and definitions. */
/* ========================================================================= */
/* Creates temporary instance of (ldns_resolver *). */
%typemap(in,numinputs=0,noblock=1) (ldns_resolver **r)
{
ldns_resolver *$1_res;
$1 = &$1_res;
}
/* Result generation, appends (ldns_resolver *) after the result. */
%typemap(argout,noblock=1) (ldns_resolver **r)
{
$result = SWIG_Python_AppendOutput($result,
SWIG_NewPointerObj(SWIG_as_voidptr($1_res),
SWIGTYPE_p_ldns_struct_resolver, SWIG_POINTER_OWN | 0 ));
}
%newobject ldns_resolver_new;
%newobject ldns_resolver_pop_nameserver;
%newobject ldns_resolver_query;
%newobject ldns_resolver_search;
%newobject ldns_axfr_next;
%newobject ldns_get_rr_list_addr_by_name;
%newobject ldns_get_rr_list_name_by_addr;
%delobject ldns_resolver_deep_free;
%delobject ldns_resolver_free;
%nodefaultctor ldns_struct_resolver; /* No default constructor. */
%nodefaultdtor ldns_struct_resolver; /* No default destructor. */
%ignore ldns_struct_resolver::_searchlist;
%ignore ldns_struct_resolver::_nameservers;
%ignore ldns_resolver_set_nameservers;
%rename(ldns_resolver) ldns_struct_resolver;
/* Clone data on pull. */
%newobject _ldns_axfr_last_pkt;
%rename(__ldns_axfr_last_pkt) ldns_axfr_last_pkt;
%inline
%{
ldns_pkt * _ldns_axfr_last_pkt(const ldns_resolver *res)
{
return ldns_pkt_clone(ldns_axfr_last_pkt(res));
}
%}
%newobject _ldns_resolver_dnssec_anchors;
%rename(__ldns_resolver_dnssec_anchors) ldns_resolver_dnssec_anchors;
%inline
%{
ldns_rr_list * _ldns_resolver_dnssec_anchors(const ldns_resolver *res)
{
return ldns_rr_list_clone(ldns_resolver_dnssec_anchors(res));
}
%}
%newobject _ldns_resolver_domain;
%rename(__ldns_resolver_domain) ldns_resolver_domain;
%inline
%{
ldns_rdf * _ldns_resolver_domain(const ldns_resolver *res)
{
/* Prevents assertion failures. */
ldns_rdf *rdf;
rdf = ldns_resolver_domain(res);
if (rdf != NULL) {
rdf = ldns_rdf_clone(rdf);
}
return rdf;
}
%}
%newobject _ldns_resolver_tsig_algorithm;
%rename(__ldns_resolver_tsig_algorithm) ldns_resolver_tsig_algorithm;
%inline
%{
const char * _ldns_resolver_tsig_algorithm(const ldns_resolver *res)
{
const char *str;
str = ldns_resolver_tsig_algorithm(res);
if (str != NULL) {
str = strdup(str);
}
return str;
}
%}
%newobject _ldns_resolver_tsig_keydata;
%rename(__ldns_resolver_tsig_keydata) ldns_resolver_tsig_keydata;
%inline
%{
const char * _ldns_resolver_tsig_keydata(const ldns_resolver *res)
{
const char *str;
str = ldns_resolver_tsig_keydata(res);
if (str != NULL) {
str = strdup(str);
}
return str;
}
%}
%newobject _ldns_resolver_tsig_keyname;
%rename(__ldns_resolver_tsig_keyname) ldns_resolver_tsig_keyname;
%inline
%{
const char * _ldns_resolver_tsig_keyname(const ldns_resolver *res)
{
const char *str;
str = ldns_resolver_tsig_keyname(res);
if (str != NULL) {
str = strdup(str);
}
return str;
}
%}
/* End of pull cloning. */
/* Clone data on push. */
%rename(__ldns_resolver_set_dnssec_anchors) ldns_resolver_set_dnssec_anchors;
%inline
%{
void _ldns_resolver_set_dnssec_anchors(ldns_resolver *res,
ldns_rr_list * rrl)
{
ldns_rr_list *rrl_clone = NULL;
if (rrl != NULL) {
rrl_clone = ldns_rr_list_clone(rrl);
}
/* May leak memory, when overwriting pointer value. */
ldns_resolver_set_dnssec_anchors(res, rrl_clone);
}
%}
%rename(__ldns_resolver_set_domain) ldns_resolver_set_domain;
%inline
%{
void _ldns_resolver_set_domain(ldns_resolver *res, ldns_rdf *rdf)
{
ldns_rdf *rdf_clone = NULL;
if (rdf != NULL) {
rdf_clone = ldns_rdf_clone(rdf);
}
/* May leak memory, when overwriting pointer value. */
ldns_resolver_set_domain(res, rdf_clone);
}
%}
/* End of push cloning. */
/* ========================================================================= */
/* Debugging related code. */
/* ========================================================================= */
#ifdef LDNS_DEBUG
%rename(__ldns_resolver_deep_free) ldns_resolver_deep_free;
%rename(__ldns_resolver_free) ldns_resolver_free;
%inline
%{
/*!
* @brief Prints information about deallocated resolver and deallocates.
*/
void _ldns_resolver_deep_free(ldns_resolver *r)
{
printf("******** LDNS_RESOLVER deep free 0x%lX ************\n",
(long unsigned int) r);
ldns_resolver_deep_free(r);
}
/*!
* @brief Prints information about deallocated resolver and deallocates.
*
* @note There should be no need to use this function in the wrapper code, as
* it is likely to leak memory.
*/
void _ldns_resolver_free(ldns_resolver *r)
{
printf("******** LDNS_RESOLVER free 0x%lX ************\n",
(long unsigned int) r);
ldns_resolver_free(r);
}
%}
#else /* !LDNS_DEBUG */
%rename(_ldns_resolver_deep_free) ldns_resolver_deep_free;
%rename(_ldns_resolver_free) ldns_resolver_free;
#endif /* LDNS_DEBUG */
/* ========================================================================= */
/* Added C code. */
/* ========================================================================= */
%newobject _replacement_ldns_resolver_trusted_key;
%inline
%{
/*!
* @brief Replaces the rrs in the list with their clones.
*
* Prevents memory corruption when automatically deallocating list content.
*/
void _rr_list_replace_content_with_clones(ldns_rr_list *rrl)
{
size_t count;
unsigned int i;
if (rrl == NULL) {
return;
}
count = ldns_rr_list_rr_count(rrl);
for (i = 0; i < count; ++i) {
ldns_rr_list_set_rr(rrl,
ldns_rr_clone(ldns_rr_list_rr(rrl, i)),
i);
}
}
/*
* @brief Behaves similarly to ldns_resolver_trusted_key().
*
* Prevents memory leakage by controlling the usage of content cloning.
*
* @return Newly allocated list of trusted key clones if any found,
* NULL else.
*/
ldns_rr_list * _replacement_ldns_resolver_trusted_key(
const ldns_resolver *res, ldns_rr_list *keys)
{
ldns_rr_list *trusted_keys = ldns_rr_list_new();
if (ldns_resolver_trusted_key(res, keys, trusted_keys)) {
_rr_list_replace_content_with_clones(trusted_keys);
} else {
ldns_rr_list_deep_free(trusted_keys); trusted_keys = NULL;
}
return trusted_keys;
}
%}
/* ========================================================================= */
/* Encapsulating Python code. */
/* ========================================================================= */
%feature("docstring") ldns_struct_resolver "LDNS resolver object.
The :class:`ldns_resolver` object keeps a list of name servers and can perform
queries.
**Usage**
>>> import ldns
>>> resolver = ldns.ldns_resolver.new_frm_file(\"/etc/resolv.conf\")
>>> pkt = resolver.query(\"www.nic.cz\", ldns.LDNS_RR_TYPE_A,ldns.LDNS_RR_CLASS_IN)
>>> if (pkt) and (pkt.answer()):
>>> print pkt.answer()
www.nic.cz. 1757 IN A 217.31.205.50
This simple example instances a resolver in order to resolve www.nic.cz A type
record."
%extend ldns_struct_resolver {
%pythoncode
%{
def __init__(self):
"""
Cannot be created directly from Python.
"""
raise Exception("This class can't be created directly. " +
"Please use: new_frm_file(filename), new_frm_fp(file) " +
"or new_frm_fp_l(file, line)")
__swig_destroy__ = _ldns._ldns_resolver_deep_free
#
# LDNS_RESOLVER_CONSTRUCTORS_
#
@staticmethod
def new():
"""
Creates a new resolver object.
:return: (:class:`ldns_resolver`) New resolver object or None.
.. note::
The returned resolver object is unusable unless some
name servers are added.
**Usage**
>>> resolver = ldns.ldns_resolver.new()
>>> ns_addr = ldns.ldns_rdf.new_frm_str("8.8.8.8", ldns.LDNS_RDF_TYPE_A)
>>> if not ns_addr: raise Exception("Can't create resolver address.")
>>> status = resolver.push_nameserver(ns_addr)
>>> if status != ldns.LDNS_STATUS_OK: raise Exception("Can't push resolver address.")
>>> pkt = resolver.query("www.nic.cz.", ldns.LDNS_RR_TYPE_A, ldns.LDNS_RR_CLASS_IN, ldns.LDNS_RD)
>>> if (pkt) and (pkt.answer()):
>>> print pkt.answer()
www.nic.cz. 1265 IN A 217.31.205.50
"""
return _ldns.ldns_resolver_new()
@staticmethod
def new_frm_file(filename = "/etc/resolv.conf", raiseException=True):
"""
Creates a resolver object from given file name
:param filename: Name of file which contains resolver
information (usually /etc/resolv.conf).
:type filename: str
:param raiseException: If True, an exception occurs in case a
resolver object can't be created.
:type raiseException: bool
:throws TypeError: When arguments of inappropriate types.
:throws Exception: When `raiseException` set and resolver
couldn't be created.
:return: (:class:`ldns_resolver`) Resolver object or None.
An exception occurs if the object can't be created and
'raiseException' is True.
"""
status, resolver = _ldns.ldns_resolver_new_frm_file(filename)
if status != LDNS_STATUS_OK:
if (raiseException):
raise Exception("Can't create resolver, error: %d" % status)
return None
return resolver
@staticmethod
def new_frm_fp(file, raiseException=True):
"""
Creates a resolver object from file
:param file: A file object.
:type file: file
:param raiseException: If True, an exception occurs in case a
resolver object can't be created.
:type raiseException: bool
:throws TypeError: When arguments of inappropriate types.
:throws Exception: When `raiseException` set and resolver
couldn't be created.
:return: (:class:`ldns_resolver`) Resolver object or None.
An exception occurs if the object can't be created and
`raiseException` is True.
"""
status, resolver = _ldns.ldns_resolver_new_frm_fp(file)
if status != LDNS_STATUS_OK:
if (raiseException):
raise Exception("Can't create resolver, error: %d" % status)
return None
return resolver
@staticmethod
def new_frm_fp_l(file, raiseException=True):
"""
Creates a resolver object from file
:param file: A file object.
:type file: file
:param raiseException: If True, an exception occurs in case a
resolver instance can't be created.
:type raiseException: bool
:throws TypeError: When arguments of inappropriate types.
:throws Exception: When `raiseException` set and resolver
couldn't be created.
:return:
* (:class:`ldns_resolver`) Resolver instance or None.
An exception occurs if an instance can't be created and
`raiseException` is True.
* (int) - The line number. (e.g., for debugging)
"""
status, resolver, line = _ldns.ldns_resolver_new_frm_fp_l(file)
if status != LDNS_STATUS_OK:
if (raiseException):
raise Exception("Can't create resolver, error: %d" % status)
return None
return resolver, line
#
# _LDNS_RESOLVER_CONSTRUCTORS
#
# High level functions
def get_addr_by_name(self, name, aclass = _ldns.LDNS_RR_CLASS_IN, flags = _ldns.LDNS_RD):
"""
Ask the resolver about name and return all address records.
:param name: The name to look for. String is automatically
converted to dname.
:type name: :class:`ldns_dname` or str
:param aclass: The class to use.
:type aclass: ldns_rr_class
:param flags: Give some optional flags to the query.
:type flags: uint16_t
:throws TypeError: When arguments of inappropriate types.
:return: (:class:`ldns_rr_list`) RR List object or None.
**Usage**
>>> addr = resolver.get_addr_by_name("www.google.com", ldns.LDNS_RR_CLASS_IN, ldns.LDNS_RD)
>>> if (not addr): raise Exception("Can't retrieve server address")
>>> for rr in addr.rrs():
>>> print rr
www.l.google.com. 300 IN A 74.125.43.99
www.l.google.com. 300 IN A 74.125.43.103
www.l.google.com. 300 IN A 74.125.43.104
www.l.google.com. 300 IN A 74.125.43.147
"""
rdf = name
if isinstance(name, str):
rdf = _ldns.ldns_dname_new_frm_str(name)
return _ldns.ldns_get_rr_list_addr_by_name(self, rdf, aclass, flags)
def get_name_by_addr(self, addr, aclass = _ldns.LDNS_RR_CLASS_IN, flags = _ldns.LDNS_RD):
"""
Ask the resolver about the address and return the name.
:param name: (ldns_rdf of A or AAAA type) the addr to look for.
If a string is given, A or AAAA type is identified
automatically.
:type name: :class:`ldns_rdf` of A or AAAA type
:param aclass: The class to use.
:type aclass: ldns_rr_class
:param flags: Give some optional flags to the query.
:type flags: uint16_t
:throws TypeError: When arguments of inappropriate types.
:return: (:class:`ldns_rr_list`) RR List object or None.
**Usage**
>>> addr = resolver.get_name_by_addr("74.125.43.99", ldns.LDNS_RR_CLASS_IN, ldns.LDNS_RD)
>>> if (not addr): raise Exception("Can't retrieve server address")
>>> for rr in addr.rrs():
>>> print rr
99.43.125.74.in-addr.arpa. 85641 IN PTR bw-in-f99.google.com.
"""
rdf = addr
if isinstance(addr, str):
if (addr.find("::") >= 0): #IPv6
rdf = _ldns.ldns_rdf_new_frm_str(_ldns.LDNS_RDF_TYPE_AAAA, addr)
else:
rdf = _ldns.ldns_rdf_new_frm_str(_ldns.LDNS_RDF_TYPE_A, addr)
return _ldns.ldns_get_rr_list_name_by_addr(self, rdf, aclass, flags)
def print_to_file(self,output):
"""Print a resolver (in so far that is possible) state to output."""
_ldns.ldns_resolver_print(output,self)
def axfr_complete(self):
"""
Returns True if the axfr transfer has completed
(i.e., 2 SOA RRs and no errors were encountered).
:return: (bool)
"""
return _ldns.ldns_axfr_complete(self)
#parameters: const ldns_resolver *,
#retvals: bool
def axfr_last_pkt(self):
"""
Returns a last packet that was sent by the server in the AXFR
transfer (usable for instance to get the error code on failure).
:return: (:class:`ldns_pkt`) Last packet of the AXFR transfer.
"""
return _ldns._ldns_axfr_last_pkt(self)
#parameters: const ldns_resolver *,
#retvals: ldns_pkt *
def axfr_next(self):
"""
Get the next stream of RRs in a AXFR.
:return: (:class:`ldns_rr`) The next RR from the AXFR stream.
"""
return _ldns.ldns_axfr_next(self)
#parameters: ldns_resolver *,
#retvals: ldns_rr *
def axfr_start(self, domain, aclass):
"""
Prepares the resolver for an axfr query. The query is sent and
the answers can be read with :meth:`axfr_next`.
:param domain: Domain to axfr.
:type domain: :class:`dlsn_dname`
:param aclass: The class to use.
:type aclass: ldns_rr_class
:throws TypeError: When arguments of inappropriate types.
:return: (ldns_status) The status of the transfer.
.. note::
The type checking of parameter `domain` is benevolent.
It allows also to pass a dname :class:`ldns_rdf` object.
This will probably change in future.
**Usage**
::
status = resolver.axfr_start("nic.cz", ldns.LDNS_RR_CLASS_IN)
if (status != ldns.LDNS_STATUS_OK):
raise Exception("Can't start AXFR, error: %s" % ldns.ldns_get_errorstr_by_id(status))
#Print the results
while True:
rr = resolver.axfr_next()
if not rr:
break
print rr
"""
# TODO -- Add checking for ldns_rdf and ldns_dname.
rdf = domain
if isinstance(domain, str):
rdf = _ldns.ldns_dname_new_frm_str(domain)
return _ldns.ldns_axfr_start(self, rdf, aclass)
#parameters: ldns_resolver *resolver, ldns_rdf *domain, ldns_rr_class c
#retvals: int
#
# LDNS_RESOLVER_METHODS_
#
def debug(self):
"""
Get the debug status of the resolver.
:return: (bool) True if so, otherwise False.
"""
return _ldns.ldns_resolver_debug(self)
#parameters: const ldns_resolver *,
#retvals: bool
def dec_nameserver_count(self):
"""
Decrement the resolver's name server count.
"""
_ldns.ldns_resolver_dec_nameserver_count(self)
#parameters: ldns_resolver *,
#retvals:
def defnames(self):
"""
Does the resolver apply default domain name.
:return: (bool)
"""
return _ldns.ldns_resolver_defnames(self)
#parameters: const ldns_resolver *,
#retvals: bool
def dnsrch(self):
"""
Does the resolver apply search list.
:return: (bool)
"""
return _ldns.ldns_resolver_dnsrch(self)
#parameters: const ldns_resolver *,
#retvals: bool
def dnssec(self):
"""
Does the resolver do DNSSEC.
:return: (bool) True: yes, False: no.
"""
return _ldns.ldns_resolver_dnssec(self)
#parameters: const ldns_resolver *,
#retvals: bool
def dnssec_anchors(self):
"""
Get the resolver's DNSSEC anchors.
:return: (:class:`ldns_rr_list`) An rr list containing trusted
DNSSEC anchors.
"""
return _ldns._ldns_resolver_dnssec_anchors(self)
#parameters: const ldns_resolver *,
#retvals: ldns_rr_list *
def dnssec_cd(self):
"""
Does the resolver set the CD bit.
:return: (bool) True: yes, False: no.
"""
return _ldns.ldns_resolver_dnssec_cd(self)
#parameters: const ldns_resolver *,
#retvals: bool
def domain(self):
"""
What is the default dname to add to relative queries.
:return: (:class:`ldns_dname`) The dname which is added.
"""
dname = _ldns._ldns_resolver_domain(self)
if dname != None:
return ldns_dname(_ldns._ldns_resolver_domain(self), clone=False)
else:
return dname
#parameters: const ldns_resolver *,
#retvals: ldns_rdf *
def edns_udp_size(self):
"""
Get the resolver's udp size.
:return: (uint16_t) The udp mesg size.
"""
return _ldns.ldns_resolver_edns_udp_size(self)
#parameters: const ldns_resolver *,
#retvals: uint16_t
def fail(self):
"""
Does the resolver only try the first name server.
:return: (bool) True: yes, fail, False: no, try the others.
"""
return _ldns.ldns_resolver_fail(self)
#parameters: const ldns_resolver *,
#retvals: bool
def fallback(self):
"""
Get the truncation fall-back status.
:return: (bool) Whether the truncation fall*back mechanism
is used.
"""
return _ldns.ldns_resolver_fallback(self)
#parameters: const ldns_resolver *,
#retvals: bool
def igntc(self):
"""
Does the resolver ignore the TC bit (truncated).
:return: (bool) True: yes, False: no.
"""
return _ldns.ldns_resolver_igntc(self)
#parameters: const ldns_resolver *,
#retvals: bool
def incr_nameserver_count(self):
"""
Increment the resolver's name server count.
"""
_ldns.ldns_resolver_incr_nameserver_count(self)
#parameters: ldns_resolver *,
#retvals:
def ip6(self):
"""
Does the resolver use ip6 or ip4.
:return: (uint8_t) 0: both, 1: ip4, 2:ip6
"""
return _ldns.ldns_resolver_ip6(self)
#parameters: const ldns_resolver *,
#retvals: uint8_t
def nameserver_count(self):
"""
How many name server are configured in the resolver.
:return: (size_t) Number of name servers.
"""
return _ldns.ldns_resolver_nameserver_count(self)
#parameters: const ldns_resolver *,
#retvals: size_t
def nameserver_rtt(self, pos):
"""
Return the used round trip time for a specific name server.
:param pos: The index to the name server.
:type pos: size_t
:throws TypeError: When arguments of inappropriate types.
:return: (size_t) The rrt, 0: infinite,
>0: undefined (as of * yet).
"""
return _ldns.ldns_resolver_nameserver_rtt(self, pos)
#parameters: const ldns_resolver *,size_t,
#retvals: size_t
def nameservers(self):
"""
Return the configured name server ip address.
:return: (ldns_rdf \*\*) A ldns_rdf pointer to a list of the
addresses.
"""
# TODO -- Convert to list of ldns_rdf.
return _ldns.ldns_resolver_nameservers(self)
#parameters: const ldns_resolver *,
#retvals: ldns_rdf **
def nameservers_randomize(self):
"""
Randomize the name server list in the resolver.
"""
_ldns.ldns_resolver_nameservers_randomize(self)
#parameters: ldns_resolver *,
#retvals:
def pop_nameserver(self):
"""
Pop the last name server from the resolver.
:return: (:class:`ldns_rdf`) The popped address or None if empty.
"""
return _ldns.ldns_resolver_pop_nameserver(self)
#parameters: ldns_resolver *,
#retvals: ldns_rdf *
def port(self):
"""
Get the port the resolver should use.
:return: (uint16_t) The port number.
"""
return _ldns.ldns_resolver_port(self)
#parameters: const ldns_resolver *,
#retvals: uint16_t
def prepare_query_pkt(self, name, t, c, f, raiseException=True):
"""
Form a query packet from a resolver and name/type/class combo.
:param name: Query for this name.
:type name: :class:`ldns_dname` or str
:param t: Query for this type (may be 0, defaults to A).
:type t: ldns_rr_type
:param c: Query for this class (may be 0, default to IN).
:type c: ldns_rr_class
:param f: The query flags.
:type f: uint16_t
:throws TypeError: When arguments of inappropriate types.
:throws Exception: When `raiseException` set and answer
couldn't be resolved.
:return: (:class:`ldns_pkt`) Query packet or None.
An exception occurs if the object can't be created and
'raiseException' is True.
"""
rdf = name
if isinstance(name, str):
rdf = _ldns.ldns_dname_new_frm_str(name)
status, pkt = _ldns.ldns_resolver_prepare_query_pkt(self, rdf, t, c, f)
if status != LDNS_STATUS_OK:
if (raiseException):
raise Exception("Can't create resolver, error: %d" % status)
return None
return pkt
#parameters: ldns_resolver *,const ldns_rdf *,ldns_rr_type,ldns_rr_class,uint16_t,
#retvals: ldns_status,ldns_pkt **
def push_dnssec_anchor(self, rr):
"""
Push a new trust anchor to the resolver.
It must be a DS or DNSKEY rr.
:param rr: The RR to add as a trust anchor.
:type rr: DS of DNSKEY :class:`ldns_rr`
:throws TypeError: When arguments of inappropriate types.
:return: (ldns_status) A status.
"""
return _ldns.ldns_resolver_push_dnssec_anchor(self, rr)
#parameters: ldns_resolver *,ldns_rr *,
#retvals: ldns_status
def push_nameserver(self, n):
"""
Push a new name server to the resolver.
It must be an IP address v4 or v6.
:param n: The ip address.
:type n: :class:`ldns_rdf` of A or AAAA type.
:throws TypeError: When arguments of inappropriate types.
:return: (ldns_status) A status.
"""
return _ldns.ldns_resolver_push_nameserver(self, n)
#parameters: ldns_resolver *,ldns_rdf *,
#retvals: ldns_status
def push_nameserver_rr(self, rr):
"""
Push a new name server to the resolver.
It must be an A or AAAA RR record type.
:param rr: The resource record.
:type rr: :class:`ldns_rr` of A or AAAA type.
:throws TypeError: When arguments of inappropriate types.
:return: (ldns_status) A status.
"""
return _ldns.ldns_resolver_push_nameserver_rr(self, rr)
#parameters: ldns_resolver *,ldns_rr *,
#retvals: ldns_status
def push_nameserver_rr_list(self, rrlist):
"""
Push a new name server rr_list to the resolver.
:param rrlist: The rr list to push.
:type rrlist: :class:`ldns_rr_list`
:throws TypeError: When arguments of inappropriate types.
:return: (ldns_status) A status.
"""
return _ldns.ldns_resolver_push_nameserver_rr_list(self, rrlist)
#parameters: ldns_resolver *,ldns_rr_list *,
#retvals: ldns_status
def push_searchlist(self, rd):
"""
Push a new rd to the resolver's search-list.
:param rd: To push.
:param rd: :class:`ldns_dname` or str
:throws TypeError: When arguments of inappropriate types.
.. note:
The function does not return any return status,
so the caller must ensure the correctness of the passed
values.
"""
rdf = rd
if isinstance(rd, str):
rdf = _ldns.ldns_dname_new_frm_str(rd)
_ldns.ldns_resolver_push_searchlist(self, rdf)
#parameters: ldns_resolver *,ldns_rdf *,
#retvals:
def query(self,name,atype=_ldns.LDNS_RR_TYPE_A,aclass=_ldns.LDNS_RR_CLASS_IN,flags=_ldns.LDNS_RD):
"""
Send a query to a name server.
:param name: The name to look for.
:type name: :class:`ldns_dname` or str
:param atype: The RR type to use.
:type atype: ldns_rr_type
:param aclass: The RR class to use.
:type aclass: ldns_rr_class
:param flags: Give some optional flags to the query.
:type flags: uint16_t
:throws TypeError: When arguments of inappropriate types.
:return: (:class:`ldns_pkt`) A packet with the reply from the
name server if _defnames is true the default domain will
be added.
"""
# Explicit conversion from string to ldns_rdf prevents memory leaks.
# TODO -- Find out why.
dname = name
if isinstance(name, str):
dname = _ldns.ldns_dname_new_frm_str(name)
return _ldns.ldns_resolver_query(self, dname, atype, aclass, flags)
#parameters: const ldns_resolver *,const ldns_rdf *,ldns_rr_type,ldns_rr_class,uint16_t,
#retvals: ldns_pkt *
def random(self):
"""
Does the resolver randomize the name server before usage?
:return: (bool) True: yes, False: no.
"""
return _ldns.ldns_resolver_random(self)
#parameters: const ldns_resolver *,
#retvals: bool
def recursive(self):
"""
Is the resolver set to recurse?
:return: (bool) True if so, otherwise False.
"""
return _ldns.ldns_resolver_recursive(self)
#parameters: const ldns_resolver *,
#retvals: bool
def retrans(self):
"""
Get the retransmit interval.
:return: (uint8_t) The retransmit interval.
"""
return _ldns.ldns_resolver_retrans(self)
#parameters: const ldns_resolver *,
#retvals: uint8_t
def retry(self):
"""
Get the number of retries.
:return: (uint8_t) The number of retries.
"""
return _ldns.ldns_resolver_retry(self)
#parameters: const ldns_resolver *,
#retvals: uint8_t
def rtt(self):
"""
Return the used round trip times for the name servers.
:return: (size_t \*) a size_t* pointer to the list. yet)
"""
return _ldns.ldns_resolver_rtt(self)
#parameters: const ldns_resolver *,
#retvals: size_t *
def search(self, name, atype=_ldns.LDNS_RR_TYPE_A, aclass=_ldns.LDNS_RR_CLASS_IN, flags=_ldns.LDNS_RD):
"""
Send the query for using the resolver and take the search list
into account The search algorithm is as follows: If the name is
absolute, try it as-is, otherwise apply the search list.
:param name: The name to look for.
:type name: :class:`ldns_dname` or str
:param atype: The RR type to use.
:type atype: ldns_rr_type
:param aclass: The RR class to use.
:type aclass: ldns_rr_class
:param flags: Give some optional flags to the query.
:type flags: uint16_t
:throws TypeError: When arguments of inappropriate types.
:return: (:class:`ldns_pkt`) A packet with the reply from the
name server.
"""
# Explicit conversion from string to ldns_rdf prevents memory leaks.
# TODO -- Find out why.
dname = name
if isinstance(name, str):
dname = _ldns.ldns_dname_new_frm_str(name)
return _ldns.ldns_resolver_search(self, dname, atype, aclass, flags)
#parameters: const ldns_resolver *,const ldns_rdf *,ldns_rr_type,ldns_rr_class,uint16_t,
#retvals: ldns_pkt *
def searchlist(self):
"""
What is the search-list as used by the resolver.
:return: (ldns_rdf \*\*) A ldns_rdf pointer to a list of the addresses.
"""
return _ldns.ldns_resolver_searchlist(self)
#parameters: const ldns_resolver *,
#retvals: ldns_rdf \*\*
def searchlist_count(self):
"""
Return the resolver's search-list count.
:return: (size_t) The search-list count.
"""
return _ldns.ldns_resolver_searchlist_count(self)
#parameters: const ldns_resolver *,
#retvals: size_t
def send(self, name, atype, aclass, flags, raiseException=True):
"""
Send the query for name as-is.
:param name: The name to look for.
:type name: :class:`ldns_dname` or str
:param atype: The RR type to use.
:type atype: ldns_rr_type
:param aclass: The RR class to use.
:type aclass: ldns_rr_class
:param flags: Give some optional flags to the query.
:type flags: uint16_t
:throws TypeError: When arguments of inappropriate types.
:throws Exception: When `raiseException` set and answer
couldn't be resolved.
:return: (:class:`ldns_pkt`) A packet with the reply from the
name server.
"""
# Explicit conversion from string to ldns_rdf prevents memory leaks.
# TODO -- Find out why.
dname = name
if isinstance(name, str):
dname = _ldns.ldns_dname_new_frm_str(name)
status, pkt = _ldns.ldns_resolver_send(self, dname, atype, aclass, flags)
if status != LDNS_STATUS_OK:
if (raiseException):
raise Exception("Can't create resolver, error: %d" % status)
return None
return pkt
#parameters: ldns_resolver *,const ldns_rdf *,ldns_rr_type,ldns_rr_class,uint16_t,
#retvals: ldns_status,ldns_pkt **
def send_pkt(self, query_pkt):
"""
Send the given packet to a name server.
:param query_pkt: Query packet.
:type query_pkt: :class:`ldns_pkt`
:throws TypeError: When arguments of inappropriate types.
:return: * (ldns_status) Return status.
* (:class:`ldns_pkt`) Response packet if returns status ok.
"""
status, answer = _ldns.ldns_resolver_send_pkt(self, query_pkt)
return _ldns.ldns_resolver_send_pkt(self,query_pkt)
#parameters: ldns_resolver *,ldns_pkt *,
#retvals: ldns_status,ldns_pkt **
def set_debug(self, b):
"""
Set the resolver debugging.
:param b: True: debug on, False: debug off.
:type b: bool
"""
_ldns.ldns_resolver_set_debug(self, b)
#parameters: ldns_resolver *,bool,
#retvals:
def set_defnames(self, b):
"""
Whether the resolver uses the name set with _set_domain.
:param b: True: use the defaults, False: don't use them.
:type b: bool
"""
_ldns.ldns_resolver_set_defnames(self, b)
#parameters: ldns_resolver *,bool,
#retvals:
def set_dnsrch(self, b):
"""
Whether the resolver uses the search list.
:param b: True: use the list, False: don't use the list.
:type b: bool
"""
_ldns.ldns_resolver_set_dnsrch(self, b)
#parameters: ldns_resolver *,bool,
#retvals:
def set_dnssec(self, b):
"""
Whether the resolver uses DNSSEC.
:param b: True: use DNSSEC, False: don't use DNSSEC.
:type b: bool
"""
_ldns.ldns_resolver_set_dnssec(self, b)
#parameters: ldns_resolver *,bool,
#retvals:
def set_dnssec_anchors(self, l):
"""
Set the resolver's DNSSEC anchor list directly.
RRs should be of type DS or DNSKEY.
:param l: The list of RRs to use as trust anchors.
:type l: :class:`ldns_rr_list`
:throws TypeError: When arguments of inappropriate types.
"""
_ldns._ldns_resolver_set_dnssec_anchors(self, l)
#parameters: ldns_resolver *,ldns_rr_list *,
#retvals:
def set_dnssec_cd(self, b):
"""
Whether the resolver uses the checking disable bit.
:param b: True: enable, False: disable.
:type b: bool
"""
_ldns.ldns_resolver_set_dnssec_cd(self, b)
#parameters: ldns_resolver *,bool,
#retvals:
def set_domain(self, rd):
"""
Set the resolver's default domain.
This gets appended when no absolute name is given.
:param rd: The name to append.
:type rd: :class:`ldns_dname` or str
:throws TypeError: When arguments of inappropriate types.
:throws Exception: When `rd` a non dname rdf.
.. note::
The type checking of parameter `rd` is benevolent.
It allows also to pass a dname :class:`ldns_rdf` object.
This will probably change in future.
"""
# Also has to be able to pass None or dame string.
if isinstance(rd, str):
dname = _ldns.ldns_dname_new_frm_str(rd)
elif (not isinstance(rd, ldns_dname)) and \
isinstance(rd, ldns_rdf) and \
rd.get_type() == _ldns.LDNS_RDF_TYPE_DNAME:
warnings.warn("The ldns_resolver.set_domain() method" +
" will drop the possibility to accept ldns_rdf." +
" Convert argument to ldns_dname.",
PendingDeprecationWarning, stacklevel=2)
dname = rd
else:
dname = rd
if (not isinstance(dname, ldns_rdf)) and (dname != None):
raise TypeError("Parameter must be derived from ldns_rdf.")
if (isinstance(dname, ldns_rdf)) and \
(dname.get_type() != _ldns.LDNS_RDF_TYPE_DNAME):
raise Exception("Operands must be ldns_dname.")
_ldns._ldns_resolver_set_domain(self, dname)
#parameters: ldns_resolver *,ldns_rdf *,
#retvals:
def set_edns_udp_size(self, s):
"""
Set maximum udp size.
:param s: The udp max size.
:type s: uint16_t
:throws TypeError: When arguments of inappropriate types.
"""
_ldns.ldns_resolver_set_edns_udp_size(self,s)
#parameters: ldns_resolver *,uint16_t,
#retvals:
def set_fail(self, b):
"""
Whether or not to fail after one failed query.
:param b: True: yes fail, False: continue with next name server.
:type b: bool
"""
_ldns.ldns_resolver_set_fail(self, b)
#parameters: ldns_resolver *,bool,
#retvals:
def set_fallback(self, fallback):
"""
Set whether the resolvers truncation fall-back mechanism is used
when :meth:`query` is called.
:param fallback: Whether to use the fall-back mechanism.
:type fallback: bool
"""
_ldns.ldns_resolver_set_fallback(self, fallback)
#parameters: ldns_resolver *,bool,
#retvals:
def set_igntc(self, b):
"""
Whether or not to ignore the TC bit.
:param b: True: yes ignore, False: don't ignore.
:type b: bool
"""
_ldns.ldns_resolver_set_igntc(self, b)
#parameters: ldns_resolver *,bool,
#retvals:
def set_ip6(self, i):
"""
Whether the resolver uses ip6.
:param i: 0: no pref, 1: ip4, 2: ip6
:type i: uint8_t
:throws TypeError: When arguments of inappropriate types.
"""
_ldns.ldns_resolver_set_ip6(self, i)
#parameters: ldns_resolver *,uint8_t,
#retvals:
def set_nameserver_count(self, c):
"""
Set the resolver's name server count directly.
:param c: The name server count.
:type c: size_t
:throws TypeError: When arguments of inappropriate types.
"""
_ldns.ldns_resolver_set_nameserver_count(self, c)
#parameters: ldns_resolver *,size_t,
#retvals:
def set_nameserver_rtt(self, pos, value):
"""
Set round trip time for a specific name server.
Note this currently differentiates between: unreachable and
reachable.
:param pos: The name server position.
:type pos: size_t
:param value: The rtt.
:type value: size_t
:throws TypeError: When arguments of inappropriate types.
"""
_ldns.ldns_resolver_set_nameserver_rtt(self, pos, value)
#parameters: ldns_resolver *,size_t,size_t,
#retvals:
def set_nameservers(self, rd):
"""
Set the resolver's name server count directly by using an
rdf list.
:param rd: The resolver addresses.
:type rd: ldns_rdf \*\*
:throws TypeError: When arguments of inappropriate types.
"""
_ldns.ldns_resolver_set_nameservers(self, rd)
#parameters: ldns_resolver *,ldns_rdf **,
#retvals:
def set_port(self, p):
"""
Set the port the resolver should use.
:param p: The port number.
:type p: uint16_t
:throws TypeError: When arguments of inappropriate types.
"""
_ldns.ldns_resolver_set_port(self, p)
#parameters: ldns_resolver *,uint16_t,
#retvals:
def set_random(self, b):
"""
Should the name server list be randomized before each use.
:param b: True: randomize, False: don't.
:type b: bool
"""
_ldns.ldns_resolver_set_random(self, b)
#parameters: ldns_resolver *,bool,
#retvals:
def set_recursive(self, b):
"""
Set the resolver recursion.
:param b: True: set to recurse, False: unset.
:type b: bool
"""
_ldns.ldns_resolver_set_recursive(self, b)
#parameters: ldns_resolver *,bool,
#retvals:
def set_retrans(self, re):
"""
Set the resolver retrans time-out (in seconds).
:param re: The retransmission interval in seconds.
:type re: uint8_t
:throws TypeError: When arguments of inappropriate types.
"""
_ldns.ldns_resolver_set_retrans(self, re)
#parameters: ldns_resolver *,uint8_t,
#retvals:
def set_retry(self, re):
"""
Set the resolver retry interval (in seconds).
:param re: The retry interval.
:type re: uint8_t
:throws TypeError: When arguments of inappropriate types.
"""
_ldns.ldns_resolver_set_retry(self,re)
#parameters: ldns_resolver *,uint8_t,
#retvals:
def set_rtt(self, rtt):
"""
Set round trip time for all name servers.
Note this currently differentiates between: unreachable and reachable.
:param rtt: A list with the times.
:type rtt: size \*
:throws TypeError: When arguments of inappropriate types.
"""
_ldns.ldns_resolver_set_rtt(self, rtt)
#parameters: ldns_resolver *,size_t *,
#retvals:
def set_timeout(self, timeout):
"""
Set the resolver's socket time out when talking to remote hosts.
:param timeout: The time-out to use.
:param timeout: struct timeval
:throws TypeError: When arguments of inappropriate types.
"""
_ldns.ldns_resolver_set_timeout(self,timeout)
#parameters: ldns_resolver *,struct timeval,
#retvals:
def set_tsig_algorithm(self, tsig_algorithm):
"""
Set the tsig algorithm.
:param tsig_algorithm: The tsig algorithm.
:param tsig_algorithm: str
:throws TypeError: When arguments of inappropriate types.
"""
_ldns.ldns_resolver_set_tsig_algorithm(self, tsig_algorithm)
#parameters: ldns_resolver *,char *,
#retvals:
def set_tsig_keydata(self, tsig_keydata):
"""
Set the tsig key data.
:param tsig_keydata: The key data.
:type tsig_keydata: str
:throws TypeError: When arguments of inappropriate types.
"""
_ldns.ldns_resolver_set_tsig_keydata(self, tsig_keydata)
#parameters: ldns_resolver *,char *,
#retvals:
def set_tsig_keyname(self, tsig_keyname):
"""
Set the tsig key name.
:param tsig_keyname: The tsig key name.
:type tsig_keyname: str
:throws TypeError: When arguments of inappropriate types.
"""
_ldns.ldns_resolver_set_tsig_keyname(self, tsig_keyname)
#parameters: ldns_resolver *,char *,
#retvals:
def set_usevc(self, b):
"""
Whether the resolver uses a virtual circuit (TCP).
:param b: True: use TCP, False: don't use TCP.
:type b: bool
"""
_ldns.ldns_resolver_set_usevc(self, b)
#parameters: ldns_resolver *,bool,
#retvals:
def timeout(self):
"""
What is the time-out on socket connections.
:return: (struct timeval) The time-out.
"""
return _ldns.ldns_resolver_timeout(self)
#parameters: const ldns_resolver *,
#retvals: struct timeval
def trusted_key(self, keys):
"""
Returns true if at least one of the provided keys is a trust
anchor.
:param keys: The key set to check.
:type keys: :class:`ldns_rr_list`
:throws TypeError: When arguments of inappropriate types.
:return: (:class:`ldns_rr_list`) List of trusted keys if at
least one of the provided keys is a configured trust anchor,
None else.
"""
return _ldns._replacement_ldns_resolver_trusted_key(self, keys)
#parameters: const ldns_resolver *,ldns_rr_list *,ldns_rr_list *,
#retvals: bool
def tsig_algorithm(self):
"""
Return the tsig algorithm as used by the name server.
:return: (str) The algorithm used.
"""
return _ldns._ldns_resolver_tsig_algorithm(self)
#parameters: const ldns_resolver *,
#retvals: char *
def tsig_keydata(self):
"""
Return the tsig key data as used by the name server.
:return: (str) The key data used.
"""
return _ldns._ldns_resolver_tsig_keydata(self)
#parameters: const ldns_resolver *,
#retvals: char *
def tsig_keyname(self):
"""
Return the tsig key name as used by the name server.
:return: (str) The name used.
"""
return _ldns._ldns_resolver_tsig_keyname(self)
#parameters: const ldns_resolver *,
#retvals: char *
def usevc(self):
"""
Does the resolver use tcp or udp.
:return: (bool) True: tcp, False: udp.
"""
return _ldns.ldns_resolver_usevc(self)
#parameters: const ldns_resolver *,
#retvals: bool
#
# _LDNS_RESOLVER_METHODS
#
%}
}
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