org.freedesktop.resolve1 — The D-Bus interface of systemd-resolved
systemd-resolved.service(8) is a system service that provides hostname resolution and caching using DNS, LLMNR, and mDNS. It also does DNSSEC validation. This page describes the resolve semantics and the D-Bus interface.
This page contains an API reference only. If you are looking for a longer explanation how to use this API, please consult Writing Network Configuration Managers and Writing Resolver Clients.
The service exposes the following interfaces on the Manager object on the bus:
node /org/freedesktop/resolve1 { interface org.freedesktop.resolve1.Manager { methods: ResolveHostname(in i ifindex, in s name, in i family, in t flags, out a(iiay) addresses, out s canonical, out t flags); ResolveAddress(in i ifindex, in i family, in ay address, in t flags, out a(is) names, out t flags); ResolveRecord(in i ifindex, in s name, in q class, in q type, in t flags, out a(iqqay) records, out t flags); ResolveService(in i ifindex, in s name, in s type, in s domain, in i family, in t flags, out a(qqqsa(iiay)s) srv_data, out aay txt_data, out s canonical_name, out s canonical_type, out s canonical_domain, out t flags); GetLink(in i ifindex, out o path); SetLinkDNS(in i ifindex, in a(iay) addresses); SetLinkDNSEx(in i ifindex, in a(iayqs) addresses); SetLinkDomains(in i ifindex, in a(sb) domains); SetLinkDefaultRoute(in i ifindex, in b enable); SetLinkLLMNR(in i ifindex, in s mode); SetLinkMulticastDNS(in i ifindex, in s mode); SetLinkDNSOverTLS(in i ifindex, in s mode); SetLinkDNSSEC(in i ifindex, in s mode); SetLinkDNSSECNegativeTrustAnchors(in i ifindex, in as names); RevertLink(in i ifindex); RegisterService(in s name, in s name_template, in s type, in q service_port, in q service_priority, in q service_weight, in aa{say} txt_datas, out o service_path); UnregisterService(in o service_path); ResetStatistics(); FlushCaches(); ResetServerFeatures(); properties: readonly s LLMNRHostname = '...'; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly s LLMNR = '...'; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly s MulticastDNS = '...'; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly s DNSOverTLS = '...'; readonly a(iiay) DNS = [...]; readonly a(iiayqs) DNSEx = [...]; @org.freedesktop.DBus.Property.EmitsChangedSignal("const") readonly a(iiay) FallbackDNS = [...]; @org.freedesktop.DBus.Property.EmitsChangedSignal("const") readonly a(iiayqs) FallbackDNSEx = [...]; readonly (iiay) CurrentDNSServer = ...; readonly (iiayqs) CurrentDNSServerEx = ...; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly a(isb) Domains = [...]; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly (tt) TransactionStatistics = ...; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly (ttt) CacheStatistics = ...; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly s DNSSEC = '...'; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly (tttt) DNSSECStatistics = ...; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly b DNSSECSupported = ...; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly as DNSSECNegativeTrustAnchors = ['...', ...]; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly s DNSStubListener = '...'; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly s ResolvConfMode = '...'; }; interface org.freedesktop.DBus.Peer { ... }; interface org.freedesktop.DBus.Introspectable { ... }; interface org.freedesktop.DBus.Properties { ... }; };
ResolveHostname()
takes a hostname and resolves it to one or more IP
addresses. As parameters it takes the Linux network interface index to execute the query on, or 0 if
it may be done on any suitable interface. The name
parameter specifies the hostname
to resolve. Note that if required, IDNA conversion is applied to this name unless it is resolved via
LLMNR or MulticastDNS. The family
parameter limits the results to a specific address
family. It may be AF_INET
, AF_INET6
or
AF_UNSPEC
. If AF_UNSPEC
is specified (recommended), both
kinds are retrieved, subject to local network configuration (i.e. if no local, routable IPv6 address is
found, no IPv6 address is retrieved; and similarly for IPv4). A 64-bit flags
field
may be used to alter the behaviour of the resolver operation (see below). The method returns an array
of address records. Each address record consists of the interface index the address belongs to, an
address family as well as a byte array with the actual IP address data (which either has 4 or 16
elements, depending on the address family). The returned address family will be one of
AF_INET
or AF_INET6
. For IPv6, the returned address interface
index should be used to initialize the .sin6_scope_id field of a
struct sockaddr_in6 instance to permit support for resolution to link-local IP
addresses. The address array is followed by the canonical name of the host, which may or may not be
identical to the resolved hostname. Finally, a 64-bit flags
field is returned that
is defined similarly to the flags
field that was passed in, but contains information
about the resolved data (see below). If the hostname passed in is an IPv4 or IPv6 address formatted as
string, it is parsed, and the result is returned. In this case, no network communication is
done.
ResolveAddress()
executes the reverse operation: it takes an IP address and
acquires one or more hostnames for it. As parameters it takes the interface index to execute the query
on, or 0
if all suitable interfaces are OK. The family
parameter indicates the address family of the IP address to resolve. It may be either
AF_INET
or AF_INET6
. The address
parameter
takes the raw IP address data (as either a 4 or 16 byte array). The flags
input
parameter may be used to alter the resolver operation (see below). The method returns an array of name
records, each consisting of an interface index and a hostname. The flags
output
field contains additional information about the resolver operation (see below).
ResolveRecord()
takes a DNS resource record (RR) type, class and name, and
retrieves the full resource record set (RRset), including the RDATA, for it. As parameter it takes the
Linux network interface index to execute the query on, or 0
if it may be done on
any suitable interface. The name
parameter specifies the RR domain name to look up
(no IDNA conversion is applied), followed by the 16-bit class and type fields (which may be
ANY). Finally, a flags
field may be passed in to alter behaviour of the look-up (see
below). On completion, an array of RR items is returned. Each array entry consists of the network interface
index the RR was discovered on, the type and class field of the RR found, and a byte array of the raw
RR discovered. The raw RR data starts with the RR's domain name, in the original casing, followed
by the RR type, class, TTL and RDATA, in the binary format documented in
RFC 1035. For RRs that support name
compression in the payload (such as MX or PTR), the compression is expanded in the returned
data.
Note that currently, the class field has to be specified as IN or ANY. Specifying a different
class will return an error indicating that look-ups of this kind are unsupported. Similarly, some
special types are not supported either (AXFR, OPT, …). While systemd-resolved
parses and validates resource
records of many types, it is crucial that clients using this API understand that the RR data originates
from the network and should be thoroughly validated before use.
ResolveService()
may be used to resolve a DNS SRV service record, as well as the
hostnames referenced in it, and possibly an accompanying DNS-SD TXT record containing additional
service metadata. The primary benefit of using this method over ResolveRecord()
specifying the SRV type is that it will resolve the SRV and TXT RRs as well as the hostnames referenced
in the SRV in a single operation. As parameters it takes a Linux network interface index, a service
name, a service type and a service domain. This method may be invoked in three different modes:
To resolve a DNS-SD service, specify the service name (e.g. "Lennart's
Files
"), the service type (e.g. "_webdav._tcp
") and the domain to search in
(e.g. "local
") as the three service parameters. The service name must be in UTF-8
format, and no IDNA conversion is applied to it in this mode (as mandated by the DNS-SD
specifications). However, if necessary, IDNA conversion is applied to the domain parameter.
To resolve a plain SRV record, set the service name parameter to the empty string and set the service type and domain properly. (IDNA conversion is applied to the domain, if necessary.)
Alternatively, leave both the service name and type empty and specify the full domain name of the SRV record (i.e. prefixed with the service type) in the domain parameter. (No IDNA coversion is applied in this mode.)
The family
parameter of the ResolveService()
method encodes
the desired family of the addresses to resolve (use AF_INET
,
AF_INET6
, or AF_UNSPEC
). If this is enabled (Use the
NO_ADDRESS
flag to turn address resolution off, see below). The
flags
parameter takes a couple of flags that may be used to alter the resolver
operation.
On completion, ResolveService()
returns an array of SRV record structures. Each
items consisting of the priority, weight and port fields as well as the hostname to contact, as encoded in the SRV
record. Immediately following is an array of the addresses of this hostname, with each item consisting
of the interface index, the address family and the address data in a byte array. This address array is
followed by the canonicalized hostname. After this array of SRV record structures an array of byte
arrays follows that encodes the TXT RR strings, in case DNS-SD look-ups are enabled. The next parameters
are the canonical service name, type and domain. This may or may not be identical to the parameters
passed in. Finally, a flags
field is returned that contains information about the
resolver operation performed.
The ResetStatistics()
method resets the various statistics counters that
systemd-resolved
maintains to zero. (For details, see the statistics properties below.)
The GetLink()
method takes a network interface index and returns the object
path to the org.freedesktop.resolve1.Link
object corresponding to it.
The SetLinkDNS()
method sets the DNS servers to use on a specific
interface. This method (and the following ones) may be used by network management software to configure
per-interface DNS settings. It takes a network interface index as well as an array of DNS server IP
address records. Each array item consists of an address family (either AF_INET
or
AF_INET6
), followed by a 4-byte or 16-byte array with the raw address data. This
method is a one-step shortcut for retrieving the Link object for a network interface using
GetLink()
(see above) and then invoking the SetDNS()
method
(see below) on it.
SetLinkDNSEx()
is similar to SetLinkDNS()
, but allows
an IP port (instead of the default 53) and DNS name to be specified for each DNS server. The server
name is used for Server Name Indication (SNI), which is useful when DNS-over-TLS is
used. C.f. DNS=
in
resolved.conf(5).
SetLinkDefaultRoute()
specifies whether the link shall be used as the
default route for name queries. See the description of name routing in
systemd-resolved.service(8)
for details.
The SetLinkDomains()
method sets the search and routing domains to use on a
specific network interface for DNS look-ups. It takes a network interface index and an array of domains,
each with a boolean parameter indicating whether the specified domain shall be used as a search domain
(false), or just as a routing domain (true). Search domains are used for qualifying single-label names into
FQDN when looking up hostnames, as well as for making routing decisions on which interface to send
queries ending in the domain to. Routing domains are only used for routing decisions and not used for single-label
name qualification. Pass the search domains in the order they should be used.
The SetLinkLLMNR()
method enables or disables LLMNR support on a specific
network interface. It takes a network interface index as well as a string that may either be empty or one of
"yes
", "no
" or "resolve
". If empty, the systemd-wide
default LLMNR setting is used. If "yes
", LLMNR is used for resolution of single-label
names and the local hostname is registered on all local LANs for LLMNR resolution by peers. If
"no
", LLMNR is turned off fully on this interface. If "resolve
", LLMNR
is only enabled for resolving names, but the local hostname is not registered for other peers to
use.
Similarly, the SetLinkMulticastDNS()
method enables or disables MulticastDNS
support on a specific interface. It takes the same parameters as SetLinkLLMNR()
described above.
The SetLinkDNSSEC()
method enables or disables DNSSEC validation on a
specific network interface. It takes a network interface index as well as a string that may either be
empty or one of "yes
", "no
", or "allow-downgrade
". When
empty, the system-wide default DNSSEC setting is used. If "yes
", full DNSSEC validation
is done for all look-ups. If the selected DNS server does not support DNSSEC, look-ups will fail if this
mode is used. If "no
", DNSSEC validation is fully disabled. If
"allow-downgrade
", DNSSEC validation is enabled, but is turned off automatically if the
selected server does not support it (thus opening up behaviour to downgrade attacks). Note that DNSSEC
only applies to traditional DNS, not to LLMNR or MulticastDNS.
The SetLinkDNSSECNegativeTrustAnchors()
method may be used to configure DNSSEC
Negative Trust Anchors (NTAs) for a specific network interface. It takes a network interface index and a
list of domains as arguments.
The SetLinkDNSOverTLS()
method enables or disables DNS-over-TLS.
C.f. DNSOverTLS=
in
systemd-resolved.service(8)
for details.
Network management software integrating with systemd-resolved
should call
SetLinkDNS()
or SetLinkDNSEx()
,
SetLinkDefaultRoute()
, SetLinkDomains()
and others after the
interface appeared in the kernel (and thus after a network interface index has been assigned), but
before the network interfaces is activated (IFF_UP
set) so that all settings take
effect during the full time the network interface is up. It is safe to alter settings while the
interface is up, however. Use RevertLink()
(described below) to reset all
per-interface settings.
The RevertLink()
method may be used to revert all per-link settings
described above to the defaults.
The four methods above accept and return a 64-bit flags value. In most cases passing 0 is sufficient and recommended. However, the following flags are defined to alter the look-up:
#define SD_RESOLVED_DNS (UINT64_C(1) << 0) #define SD_RESOLVED_LLMNR_IPV4 (UINT64_C(1) << 1) #define SD_RESOLVED_LLMNR_IPV6 (UINT64_C(1) << 2) #define SD_RESOLVED_MDNS_IPV4 (UINT64_C(1) << 3) #define SD_RESOLVED_MDNS_IPV6 (UINT64_C(1) << 4) #define SD_RESOLVED_NO_CNAME (UINT64_C(1) << 5) #define SD_RESOLVED_NO_TXT (UINT64_C(1) << 6) #define SD_RESOLVED_NO_ADDRESS (UINT64_C(1) << 7) #define SD_RESOLVED_NO_SEARCH (UINT64_C(1) << 8) #define SD_RESOLVED_AUTHENTICATED (UINT64_C(1) << 9)
On input, the first five flags control the protocols to use for the look-up. They refer to
classic unicast DNS, LLMNR via IPv4/UDP and IPv6/UDP respectively, as well as MulticastDNS via
IPv4/UDP and IPv6/UDP. If all of these five bits are off on input (which is strongly recommended) the
look-up will be done via all suitable protocols for the specific look-up. Note that these flags
operate as filter only, but cannot force a look-up to be done via a protocol. Specifically,
systemd-resolved
will only route look-ups within the .local TLD to MulticastDNS
(plus some reverse look-up address domains), and single-label names to LLMNR (plus some reverse
address lookup domains). It will route neither of these to Unicast DNS servers. Also, it will do
LLMNR and Multicast DNS only on interfaces suitable for multicast.
On output, these five flags indicate which protocol was used to execute the operation, and hence where the data was found.
The primary use cases for these five flags are follow-up look-ups based on DNS data retrieved earlier. In this case it is often a good idea to limit the follow-up look-up to the protocol that was used to discover the first DNS result.
The NO_CNAME flag controls whether CNAME/DNAME resource records shall be followed during the look-up. This flag is only available at input, none of the functions will return it on output. If a CNAME/DNAME RR is discovered while resolving a hostname, an error is returned instead. By default, when the flag is off, CNAME/DNAME RRs are followed.
The NO_TXT and NO_ADDRESS flags only influence operation of the
ResolveService()
method. They are only defined for input, not output. If
NO_TXT set, the DNS-SD TXT RR look-up is not done in the same operation. If NO_ADDRESS is specified,
the hostnames discovered are not implicitly translated to their addresses.
The NO_SEARCH flag turns off the search domain logic. It is only defined for input in
ResolveHostname()
. When specified, single-label hostnames are not qualified
using defined search domains, if any are configured. Note that ResolveRecord()
will never qualify single-label domain names using search domains. Also note that
multi-label hostnames are never subject to search list expansion.
The AUTHENTICATED bit is defined only in the output flags of the four functions. If set, the
returned data has been fully authenticated. Specifically, this bit is set for all DNSSEC-protected data
for which a full trust chain may be established to a trusted domain anchor. It is also set for locally
synthesized data, such as "localhost
" or data from
/etc/hosts
. Moreover, it is set for all LLMNR or mDNS RRs which originate from the
local host. Applications that require authenticated RR data for operation should check this flag before
trusting the data. Note that systemd-resolved
will never return invalidated data, hence this flag
simply allows to discern the cases where data is known to be trustable, or where there is proof that
the data is "rightfully" unauthenticated (which includes cases where the underlying protocol or server
does not support authenticating data).
The LLMNR
and MulticastDNS
properties report whether LLMNR
and MulticastDNS are (globally) enabled. Each may be one of "yes
",
"no
", and "resolve
". See SetLinkLLMNR()
and SetLinkMulticastDNS()
above.
LLMNRHostname
contains the hostname currently exposed on the network via
LLMNR. It usually follows the system hostname as may be queried via
gethostname(3),
but may differ if a conflict is detected on the network.
DNS
and DNSEx
contain arrays of all DNS servers currently
used by systemd-resolved
. DNS
contains information similar to
the DNS server data in /run/systemd/resolve/resolv.conf
. Each structure in the
array consists of a numeric network interface index, an address family, and a byte array containing the
DNS server address (either 4 bytes in length for IPv4 or 16 bytes in lengths for IPv6).
DNSEx
is similar, but additionally contains the IP port and server name (used for
Server Name Indication, SNI). Both arrays contain DNS servers configured system-wide, including those
possibly read from a foreign /etc/resolv.conf
or the DNS=
setting in /etc/systemd/resolved.conf
, as well as per-interface DNS server
information either retrieved from
systemd-networkd(8),
or configured by external software via SetLinkDNS()
or
SetLinkDNSEx()
(see above). The network interface index will be 0 for the
system-wide configured services and non-zero for the per-link servers.
FallbackDNS
and FallbackDNSEx
contain arrays of all DNS
servers configured as fallback servers, if any, using the same format as DNS
and
DNSEx
described above. See the description of FallbackDNS=
in
resolved.conf(5) for
the description of when those servers are used.
CurrentDNSServer
and CurrentDNSServerEx
specify the server
that is currently used for query resolution, in the same format as a single entry in the
DNS
and DNSEx
arrays described above.
Similarly, the Domains
property contains an array of all search and routing
domains currently used by systemd-resolved
. Each entry consists of a network
interface index (again, 0 encodes system-wide entries), the actual domain name, and whether the entry
is used only for routing (true) or for both routing and searching (false).
The TransactionStatistics
property contains information about the number of
transactions systemd-resolved
has processed. It contains a pair of unsigned 64-bit counters, the first
containing the number of currently ongoing transactions, the second the number of total transactions
systemd-resolved
is processing or has processed. The latter value may be reset using the
ResetStatistics()
method described above. Note that the number of transactions does
not directly map to the number of issued resolver bus method calls. While simple look-ups usually require a
single transaction only, more complex look-ups might result in more, for example when CNAMEs or DNSSEC
are in use.
The CacheStatistics
property contains information about the executed cache
operations so far. It exposes three 64-bit counters: the first being the total number of current cache
entries (both positive and negative), the second the number of cache hits, and the third the number of
cache misses. The latter counters may be reset using ResetStatistics()
(see
above).
The DNSSEC
property specifies current status of DNSSEC validation. It is one
of "yes
" (validation is enforced), "no
" (no validation is done),
"allow-downgrade
" (validation is done if the current DNS server supports it). See the
description of DNSSEC=
in
resolved.conf(5).
The DNSSECStatistics
property contains information about the DNSSEC
validations executed so far. It contains four 64-bit counters: the number of secure, insecure, bogus,
and indeterminate DNSSEC validations so far. The counters are increased for each validated RRset, and
each non-existance proof. The secure counter is increased for each operation that successfully verified
a signed reply, the insecure counter is increased for each operation that successfully verified that an
unsigned reply is rightfully unsigned. The bogus counter is increased for each operation where the
validation did not check out and the data is likely to have been tempered with. Finally the
indeterminate counter is increased for each operation which did not complete because the necessary keys
could not be acquired or the cryptographic algorithms were unknown.
The DNSSECSupported
boolean property reports whether DNSSEC is enabled and
the selected DNS servers support it. It combines information about system-wide and per-link DNS
settings (see below), and only reports true if DNSSEC is enabled and supported on every interface for
which DNS is configured and for the system-wide settings if there are any. Note that systemd-resolved
assumes
DNSSEC is supported by DNS servers until it verifies that this is not the case. Thus, the reported
value may initially be true, until the first transactions are executed.
The DNSOverTLS
boolean property reports whether DNS-over-TLS is enabled.
The ResolvConfMode
property exposes how /etc/resolv.conf
is managed on the host. Currently, the values "uplink
", "stub
",
"static
" (these three correspond to the three different files
systemd-resolved.service
provides), "foreign
" (the file is
managed by admin or another service, systemd-resolved.service
just consumes it),
"missing
" (/etc/resolv.conf
is missing).
The DNSStubListener
property reports whether the stub listener on port 53 is
enabled. Possible values are "yes
" (enabled), "no
" (disabled),
"udp
" (only the UDP listener is enabled), and "tcp
" (only the TCP
listener is enabled).
node /org/freedesktop/resolve1/link/_1 { interface org.freedesktop.resolve1.Link { methods: SetDNS(in a(iay) addresses); SetDNSEx(in a(iayqs) addresses); SetDomains(in a(sb) domains); SetDefaultRoute(in b enable); SetLLMNR(in s mode); SetMulticastDNS(in s mode); SetDNSOverTLS(in s mode); SetDNSSEC(in s mode); SetDNSSECNegativeTrustAnchors(in as names); Revert(); properties: @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly t ScopesMask = ...; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly a(iay) DNS = [...]; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly a(iayqs) DNSEx = [...]; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly (iay) CurrentDNSServer = ...; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly (iayqs) CurrentDNSServerEx = ...; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly a(sb) Domains = [...]; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly b DefaultRoute = ...; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly s LLMNR = '...'; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly s MulticastDNS = '...'; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly s DNSOverTLS = '...'; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly s DNSSEC = '...'; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly as DNSSECNegativeTrustAnchors = ['...', ...]; @org.freedesktop.DBus.Property.EmitsChangedSignal("false") readonly b DNSSECSupported = ...; }; interface org.freedesktop.DBus.Peer { ... }; interface org.freedesktop.DBus.Introspectable { ... }; interface org.freedesktop.DBus.Properties { ... }; };
For each Linux network interface a "Link" object is created which exposes per-link DNS
configuration and state. Use GetLink()
on the Manager interface to retrieve the
object path for a link object given the network interface index (see above).
The various methods exposed by the Link interface are equivalent to their similarly named
counterparts on the Manager interface. e.g. SetDNS()
on the Link object maps to
SetLinkDNS()
on the Manager object, the main difference being that the later
expects an interface index to be specified. Invoking the methods on the Manager interface has the
benefit of reducing roundtrips, as it is not necessary to first request the Link object path via
GetLink()
before invoking the methods. The same relationship holds for
SetDNSEx()
, SetDomains()
,
SetDefaultRoute()
, SetLLMNR()
,
SetMulticastDNS()
, SetDNSOverTLS()
,
SetDNSSEC()
, SetDNSSECNegativeTrustAnchors()
, and
Revert()
. For further details on these methods see the
Manager
documentation above.
ScopesMask
defines which resolver scopes are currently active on this
interface. This 64-bit unsigned integer field is a bit mask consisting of a subset of the bits of the
flags parameter describe above. Specifically, it may have the DNS, LLMNR and MDNS bits (the latter in
IPv4 and IPv6 flavours) set. Each individual bit is set when the protocol applies to a specific
interface and is enabled for it. It is unset otherwise. Specifically, a multicast-capable interface in
the "UP" state with an IP address is suitable for LLMNR or MulticastDNS, and any interface that is UP and
has an IP address is suitable for DNS. Note the relationship of the bits exposed here with the LLMNR
and MulticastDNS properties also exposed on the Link interface. The latter expose what is *configured*
to be used on the interface, the former expose what is actually used on the interface, taking into
account the abilities of the interface.
DNSSECSupported
exposes a boolean field that indicates whether DNSSEC is
currently configured and in use on the interface. Note that if DNSSEC is enabled on an interface, it is
assumed available until it is detected that the configured server does not actually support it. Thus,
this property may initially report that DNSSEC is supported on an interface.
DefaultRoute
exposes a boolean field that indicates whether the interface will
be used as default route for name queries. See SetLinkDefaultRoute()
above.
The other properties reflect the state of the various configuration settings for the link which
may be set with the various methods calls such as SetDNS()
or
SetLLMNR()
.
Many bus methods systemd-resolved
exposes (in particular the resolver methods such
as ResolveHostname()
on the Manager
interface) may return
some of the following errors:
org.freedesktop.resolve1.NoNameServers
¶No suitable DNS servers were found to resolve a request.
org.freedesktop.resolve1.InvalidReply
¶A response from the selected DNS server was not understood.
org.freedesktop.resolve1.NoSuchRR
¶The requested name exists, but there is no resource record of the requested type for it. (This is the DNS NODATA case).
org.freedesktop.resolve1.CNameLoop
¶The look-up failed because a CNAME or DNAME loop was detected.
org.freedesktop.resolve1.Aborted
¶The look-up was aborted because the selected protocol became unavailable while the operation was ongoing.
org.freedesktop.resolve1.NoSuchService
¶A service look-up was successful, but the SRV record reported that the service is not available.
org.freedesktop.resolve1.DnssecFailed
¶The acquired response did not pass DNSSEC validation.
org.freedesktop.resolve1.NoTrustAnchor
¶No chain of trust could be established for the response to a configured DNSSEC trust anchor.
org.freedesktop.resolve1.ResourceRecordTypeUnsupported
¶The requested resource record type is not supported on the selected DNS servers. This error is generated for example when an RRSIG record is requested from a DNS server that does not support DNSSEC.
org.freedesktop.resolve1.NoSuchLink
¶No network interface with the specified network interface index exists.
org.freedesktop.resolve1.LinkBusy
¶The requested configuration change could not be made because systemd-networkd(8), already took possession of the interface and supplied configuration data for it.
org.freedesktop.resolve1.NetworkDown
¶The requested look-up failed because the system is currently not connected to any suitable network.
org.freedesktop.resolve1.DnsError.NXDOMAIN
, org.freedesktop.resolve1.DnsError.REFUSED
, ...¶The look-up failed with a DNS return code reporting a failure. The error names used as suffixes here are defined in by IANA in DNS RCODEs.
Example 1. Introspect org.freedesktop.resolve1.Manager
on the bus
$ gdbus introspect --system \ --dest org.freedesktop.resolve1 \ --object-path /org/freedesktop/resolve1
Example 2. Introspect org.freedesktop.resolve1.Link
on the bus
$ gdbus introspect --system \ --dest org.freedesktop.resolve1 \ --object-path /org/freedesktop/resolve1/link/_11