NAME
ldpd.conf
—
Label Distribution Protocol daemon
configuration file
DESCRIPTION
The ldpd(8) daemon implements the Label Distribution Protocol as described in RFC 5036.
SECTIONS
The ldpd.conf
config file is divided into
seven main sections.
- Macros
- User-defined variables may be defined and used later, simplifying the configuration file.
- Global Configuration
- Global settings for ldpd(8).
- Address-Family Configuration
- Address-family specific parameters.
- Interfaces Configuration
- Interface-specific parameters.
- Targeted Neighbors Configuration
- Targeted neighbor specific parameters.
- Neighbors Configuration
- Neighbor-specific parameters.
- Layer 2 VPNs Configuration
- Layer 2 VPNs parameters as per RFC 4447.
Argument names not beginning with a letter, digit, or underscore must be quoted.
Additional configuration files can be included with the
include
keyword, for example:
include "/etc/ldpd.sub.conf"
MACROS
Much like cpp(1) or
m4(1),
macros can be defined that will later be expanded in context. Macro names
must start with a letter, digit, or underscore, and may contain any of those
characters. Macro names may not be reserved words (for example,
password
). Macros are not expanded inside
quotes.
For example:
secret="openbsd" neighbor 10.0.1.5 { password $secret }
GLOBAL CONFIGURATION
Several settings can be configured globally or within a more restricted scope, like per address-family or per interface. The only settings that can be set globally and not overruled are listed below.
ds-cisco-interop
(yes
|no
)- If set to
yes
, Cisco non-compliant format will be used to send and interpret the Dual-Stack capability TLV. The default isno
. fib-update
(yes
|no
)- If set to
no
, do not update the Label Forwarding Information Base, a.k.a. the kernel routing table. The default isyes
. rdomain
tableid- Specifies the routing table ldpd(8) should modify. Table 0 is the default table.
router-id
address- Set the router ID; in combination with labelspace it forms the LSR-ID. If not specified, the numerically lowest IP address of the router will be used.
transport-preference
(ipv4
|ipv6
)- Specify the preferred address-family for TCP transport connections. If two
dual-stack LSRs preferences does not match, no LDP session will be
established. The default is
ipv6
.
ADDRESS-FAMILY CONFIGURATION
Each address-family can have several parameters configured individually, otherwise they are inherited.
address-family ipv6 { explicit-null yes transport-address 2001:db8::50 interface em0 }
explicit-null
(yes
|no
)- If set to
yes
, advertise explicit-null labels in place of implicit-null labels for directly connected prefixes. The default isno
. gtsm-enable
(yes
|no
)- If set to
yes
, ldpd(8) will use the GTSM procedures described in RFC 6720 (for the IPv4 address-family) and RFC 7552 (for the IPv6 address-family).Since GTSM is mandatory for LDPv6, the only effect of disabling GTSM for the IPv6 address-family is that ldpd(8) will not check the incoming packets' hop limit. Outgoing packets will still be sent using a hop limit of 255 to guarantee interoperability.
If GTSM is enabled, multi-hop neighbors should have either GTSM disabled individually or configured with an appropriate gtsm-hops distance. The default is
yes
. keepalive
seconds- Set the keepalive timeout in seconds. The default value is 180; valid range is 3-65535.
targeted-hello-accept
(yes
|no
)- If set to
yes
, allow LDP sessions to be established with remote neighbors that have not been specifically configured. The default isno
. transport-address
address- Set the local address to be used in the TCP sessions. For the IPv4 address-family, the router-id will be used if this option is not specified. For the IPv6 address-family, this option must be specified.
INTERFACES
Each interface can have several parameters configured individually, otherwise they are inherited.
address-family ipv4 { interface em0 { link-hello-holdtime 9 link-hello-interval 3 } }
Interface-specific parameters are listed below.
link-hello-holdtime
seconds- Set the hello holdtime in seconds. The maximum time ldpd(8) will wait between two consecutive hello messages from a peer before it is marked as being down. The default value is 15; valid range is 3-65535.
link-hello-interval
seconds- Set the hello interval in seconds. The default value is 5; valid range is 1-65535.
TARGETED NEIGHBORS
Each targeted neighbor can have several parameters configured individually, otherwise they are inherited.
address-family ipv4 { targeted-neighbor A.B.C.D { targeted-hello-holdtime 90 targeted-hello-interval 10 } } address-family ipv6 { targeted-neighbor 2001:db8::1 }
Targeted-neighbor specific parameters are listed below.
targeted-hello-holdtime
seconds- Set the hello holdtime in seconds. The maximum time ldpd(8) will wait between two consecutive hello messages from a peer before it is marked as being down. The default value is 45.
targeted-hello-interval
seconds- Set the hello interval in seconds. The default value is 5; valid range is 1-65535.
NEIGHBORS
The neighbor
section allows for the
configuration of neighbor-specific parameters. Note, however, that
ldpd(8) uses the hello discovery mechanism to discover its neighbors.
Without an underlying adjacency these commands have no effect. A neighbor is
identified by its LSR-ID, not by its remote address. The neighbor-specific
parameters apply for both LDPoIPv4 and LDPoIPv6 sessions.
neighbor A.B.C.D { }
Neighbor-specific parameters are listed below.
keepalive
seconds- Set the keepalive timeout in seconds. Inherited from the global configuration if not given. Valid range is 3-65535.
gtsm-enable
(yes
|no
)- Override the inherited configuration and enable/disable GTSM for this neighbor.
gtsm-hops
hops- Set the maximum number of hops the neighbor may be away. When GTSM is enabled for this neighbor, incoming packets are required to have a TTL/hop limit of 256 minus this value, ensuring they have not passed through more than the expected number of hops. The default value is 1; valid range is 1-255.
password
secret- Enable TCP MD5 signatures per RFC 5036.
LAYER 2 VPNS
ldpd(8) implements the signaling of pseudowires which can be used to implement either the VPWS solution (also known as PWE3) or the VPLS solution. Currently only the VPLS solution is supported.
l2vpn name type vpls { bridge bridge0 interface em1 pseudowire mpw1 { pw-id 100 neighbor-id 192.168.1.10 } pseudowire mpw2 { pw-id 200 neighbor-id 10.0.1.5 } }
Layer 2 VPN specific parameters are listed below.
bridge
interface- Set the bridge interface the VPLS is associated with. This parameter is optional and is only used to remove MAC addresses received from MAC address withdrawal messages. Only one bridge interface can be set.
interface
interface- Configure a non pseudowire interface pertaining to the VPLS. This parameter is optional and is only used to send MAC address withdrawal messages when the specified interface is shutdown. Multiple interfaces can be configured.
mtu
number- Set the MTU advertised in the pseudowires. Local and remote MTUs must match for a pseudowire to be set up. The default value is 1500.
type
(ethernet
|ethernet-tagged
)- Specify the type of the configured pseudowires. The type must be the same
at both endpoints. The default is
ethernet
.
PSEUDOWIRES
Each mpw(4) pseudowire interface can have several parameters configured individually, otherwise they are inherited. A pseudowire interface is specified by its name.
pseudowire mpw5 { pw-id 5000 neighbor-id 172.16.1.50 }
Pseudowire-specific parameters are listed below.
control-word
(yes
|no
)- Specify whether the use of the control word is preferred or not preferred.
The default is
yes
. neighbor-addr
address- Specify the IPv4 or IPv6 address of the remote endpoint of the pseudowire. A targeted neighbor will automatically be created for this address. By default, the LSR-ID of the remote endpoint of the pseudowire will be used.
neighbor-id
address- Specify the LSR-ID of the remote endpoint of the pseudowire.
pw-id
number- Set the PW ID used to identify the pseudowire. The PW ID must be the same at both endpoints. Valid range is 1-4294967295.
status-tlv
(yes
|no
)- Specify whether the use of the Status TLV is preferred or not preferred.
The default is
yes
.
FILES
- /etc/ldpd.conf
- ldpd(8) configuration file
SEE ALSO
HISTORY
The ldpd.conf
file format first appeared
in OpenBSD 4.6.