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ovn-nb.xml
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ovn-nb.xml
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<?xml version="1.0" encoding="utf-8"?>
<database name="ovn-nb" title="OVN Northbound Database">
<p>
This database is the interface between OVN and the cloud management system
(CMS), such as OpenStack, running above it. The CMS produces almost all of
the contents of the database. The <code>ovn-northd</code> program
monitors the database contents, transforms it, and stores it into the <ref
db="OVN_Southbound"/> database.
</p>
<p>
We generally speak of ``the'' CMS, but one can imagine scenarios in
which multiple CMSes manage different parts of an OVN deployment.
</p>
<h2>External IDs</h2>
<p>
Each of the tables in this database contains a special column, named
<code>external_ids</code>. This column has the same form and purpose each
place it appears.
</p>
<dl>
<dt><code>external_ids</code>: map of string-string pairs</dt>
<dd>
Key-value pairs for use by the CMS. The CMS might use certain pairs, for
example, to identify entities in its own configuration that correspond to
those in this database.
</dd>
</dl>
<table name="NB_Global" title="Northbound configuration">
<p>
Northbound configuration for an OVN system. This table must have exactly
one row.
</p>
<group title="Identity">
<column name="name">
The name of the OVN cluster, which uniquely identifies the OVN cluster
throughout all OVN clusters supposed to interconnect with each other.
</column>
</group>
<group title="Status">
These columns allow a client to track the overall configuration state of
the system.
<column name="nb_cfg">
Sequence number for client to increment. When a client modifies any
part of the northbound database configuration and wishes to wait for
<code>ovn-northd</code> and possibly all of the hypervisors to finish
applying the changes, it may increment this sequence number.
</column>
<column name="sb_cfg">
Sequence number that <code>ovn-northd</code> sets to the value of <ref
column="nb_cfg"/> after it finishes applying the corresponding
configuration changes to the <ref db="OVN_Southbound"/> database.
</column>
<column name="hv_cfg">
Sequence number that <code>ovn-northd</code> sets to the smallest
sequence number of all the chassis in the system, as reported in the
<code>Chassis</code> table in the southbound database. Thus, <ref
column="hv_cfg"/> equals <ref column="nb_cfg"/> if all chassis are
caught up with the northbound configuration (which may never happen, if
any chassis is down). This value can regress, if a chassis was removed
from the system and rejoins before catching up.
</column>
</group>
<group title="Common Columns">
<column name="external_ids">
See <em>External IDs</em> at the beginning of this document.
</column>
</group>
<group title="Common options">
<column name="options">
This column provides general key/value settings. The supported
options are described individually below.
</column>
<group title="Options for configuring BFD">
<p>
These options apply when <code>ovn-controller</code> configures
BFD on tunnels interfaces.
</p>
<column name="options" key="bfd-min-rx">
BFD option <code>min-rx</code> value to use when configuring BFD on
tunnel interfaces.
</column>
<column name="options" key="bfd-decay-min-rx">
BFD option <code>decay-min-rx</code> value to use when configuring
BFD on tunnel interfaces.
</column>
<column name="options" key="bfd-min-tx">
BFD option <code>min-tx</code> value to use when configuring BFD on
tunnel interfaces.
</column>
<column name="options" key="bfd-mult">
BFD option <code>mult</code> value to use when configuring BFD on
tunnel interfaces.
</column>
</group>
<column name="options" key="mac_prefix">
Configure a given OUI to be used as prefix when L2 address is
dynamically assigned, e.g. <code>00:11:22</code>
</column>
<column name="options" key="controller_event" type='{"type": "boolean"}'>
Value set by the CMS to enable/disable ovn-controller event reporting.
Traffic into OVS can raise a 'controller' event that results in a
Controller_Event being written to the <ref table="Controller_Event"/>
table in SBDB. When the CMS has seen the event and taken appropriate
action, it can remove the correponding row in
<ref table="Controller_Event"/> table.
The intention is for a CMS to see the events and take some sort of
action. Please see the <ref table="Controller_Event"/> table in SBDB.
It is possible to associate a meter to each controller event type
in order to not overload the pinctrl thread under heavy load.
Each event type relies on a meter with a defined name:
<ul>
<li>empty_lb_backends: event-elb</li>
</ul>
</column>
<column name="options" key="northd_probe_interval">
<p>
The inactivity probe interval of the connection to the OVN Northbound
and Southbound databases from <code>ovn-northd</code>, in milliseconds.
If the value is zero, it disables the connection keepalive feature.
</p>
<p>
If the value is nonzero, then it will be forced to a value of
at least 1000 ms.
</p>
</column>
<group title="Options for configuring interconnection route advertisement">
<p>
These options control how routes are advertised between OVN
deployments for interconnection. If enabled, <code>ovn-ic</code>
from different OVN deployments exchanges routes between each other
through the global <ref db="OVN_IC_Southbound"/> database. Only
routers with ports connected to interconnection transit switches
participate in route advertisement. For each of these routers, there
are two types of routes to be advertised:
</p>
<p>
Firstly, the static routes configured in the router are advertised.
</p>
<p>
Secondly, the <code>networks</code> configured in the logical router
ports that are not on the transit switches are advertised. These
are considered as directly connected subnets on the router.
</p>
<p>
Link local prefixes (IPv4 169.254.0.0/16 and IPv6 FE80::/10)
are never advertised.
</p>
<p>
The learned routes are added to the
<ref column="static_routes" table="Logical_Router"/> column of the
<ref table="Logical_Router"/> table, with
<code>external_ids:ic-learned-route</code> set to the uuid
of the row in <ref table="Route" db="OVN_IC_Southbound"/>
table of the <ref db="OVN_IC_Southbound"/> database.
</p>
<column name="options" key="ic-route-adv">
A boolean value that enables route advertisement to the global
<ref db="OVN_IC_Southbound"/> database. Default is
<code>false</code>.
</column>
<column name="options" key="ic-route-learn">
A boolean value that enables route learning from the global
<ref db="OVN_IC_Southbound"/> database. Default is
<code>false</code>.
</column>
<column name="options" key="ic-route-adv-default">
A boolean value that enables advertising default route to the global
<ref db="OVN_IC_Southbound"/> database. Default is
<code>false</code>. This option takes effect only when option
<code>ic-route-adv</code> is <code>true</code>.
</column>
<column name="options" key="ic-route-learn-default">
A boolean value that enables learning default route from the global
<ref db="OVN_IC_Southbound"/> database. Default is
<code>false</code>. This option takes effect only when option
<code>ic-route-learn</code> is <code>true</code>.
</column>
<column name="options" key="ic-route-blacklist">
A string value contains a list of CIDRs delimited by ",". A route
will not be advertised or learned if the route's prefix belongs to
any of the CIDRs listed.
</column>
</group>
</group>
<group title="Connection Options">
<column name="connections">
Database clients to which the Open vSwitch database server should
connect or on which it should listen, along with options for how these
connections should be configured. See the <ref table="Connection"/>
table for more information.
</column>
<column name="ssl">
Global SSL configuration.
</column>
</group>
<group title="Security Configurations">
<column name="ipsec">
Tunnel encryption configuration. If this column is set to be true, all
OVN tunnels will be encrypted with IPsec.
</column>
</group>
</table>
<table name="Logical_Switch" title="L2 logical switch">
<p>
Each row represents one L2 logical switch.
</p>
<p>
There are two kinds of logical switches, that is, ones that fully
virtualize the network (overlay logical switches) and ones that provide
simple connectivity to a physical network (bridged logical switches).
They work in the same way when providing connectivity between logical
ports on same chasis, but differently when connecting remote logical
ports. Overlay logical switches connect remote logical ports by tunnels,
while bridged logical switches provide connectivity to remote ports by
bridging the packets to directly connected physical L2 segment with the
help of <code>localnet</code> ports. Each bridged logical switch has
one and only one <code>localnet</code> port, which has only one special
address <code>unknown</code>.
</p>
<column name="ports">
<p>
The logical ports connected to the logical switch.
</p>
<p>
It is an error for multiple logical switches to include the same
logical port.
</p>
</column>
<column name="load_balancer">
Load balance a virtual ip address to a set of logical port endpoint
ip addresses.
</column>
<column name="acls">
Access control rules that apply to packets within the logical switch.
</column>
<column name="qos_rules">
QoS marking and metering rules that apply to packets within the
logical switch.
</column>
<column name="dns_records">
This column defines the DNS records to be used for resolving internal
DNS queries within the logical switch by the native DNS resolver.
Please see the <ref table="DNS"/> table.
</column>
<column name="forwarding_groups">
Groups a set of logical port endpoints for traffic going out of the
logical switch.
</column>
<group title="Naming">
<p>
These columns provide names for the logical switch. From OVN's
perspective, these names have no special meaning or purpose other than
to provide convenience for human interaction with the database.
There is no requirement for the name to be unique. (For a unique
identifier for a logical switch, use its row UUID.)
</p>
<p>
(Originally, <ref column="name"/> was intended to serve the purpose of
a human-friendly name, but the Neutron integration used it to uniquely
identify its own switch object, in the format
<code>neutron-<var>uuid</var></code>. Later on, Neutron started
propagating the friendly name of a switch as <ref column="external_ids"
key="neutron:network_name"/>. Perhaps this can be cleaned up someday.)
</p>
<column name="name">
A name for the logical switch.
</column>
<column name="external_ids" key="neutron:network_name">
Another name for the logical switch.
</column>
</group>
<group title="IP Address Assignment">
<p>
These options control automatic IP address management (IPAM) for ports
attached to the logical switch. To enable IPAM for IPv4, set <ref
column="other_config" key="subnet"/> and optionally <ref
column="other_config:exclude_ips"/>. To enable IPAM for IPv6, set
<ref column="other_config" key="ipv6_prefix"/>. IPv4 and IPv6 may
be enabled together or separately.
</p>
<p>
To request dynamic address assignment for a particular port, use the
<code>dynamic</code> keyword in the <ref table="Logical_Switch_Port"
column="addresses"/> column of the port's <ref
table="Logical_Switch_Port"/> row. This requests both an IPv4 and an
IPv6 address, if IPAM for IPv4 and IPv6 are both enabled.
</p>
<column name="other_config" key="subnet">
Set this to an IPv4 subnet, e.g. <code>192.168.0.0/24</code>, to enable
<code>ovn-northd</code> to automatically assign IP addresses within
that subnet.
</column>
<column name="other_config" key="exclude_ips">
<p>
To exclude some addresses from automatic IP address management, set
this to a list of the IPv4 addresses or <code>..</code>-delimited
ranges to exclude. The addresses or ranges should be a subset of
those in <ref column="other_config" key="subnet"/>.
</p>
<p>
Whether listed or not, <code>ovn-northd</code> will never allocate
the first or last address in a subnet, such as 192.168.0.0 or
192.168.0.255 in 192.168.0.0/24.
</p>
<p>
Examples:
</p>
<ul>
<li><code>192.168.0.2 192.168.0.10</code></li>
<li><code>192.168.0.4 192.168.0.30..192.168.0.60 192.168.0.110..192.168.0.120</code></li>
<li><code>192.168.0.110..192.168.0.120 192.168.0.25..192.168.0.30 192.168.0.144</code></li>
</ul>
</column>
<column name="other_config" key="ipv6_prefix">
Set this to an IPv6 prefix to enable <code>ovn-northd</code> to
automatically assign IPv6 addresses using this prefix. The assigned
IPv6 address will be generated using the IPv6 prefix and the MAC
address (converted to an IEEE EUI64 identifier) of the port. The IPv6
prefix defined here should be a valid IPv6 address ending with
<code>::</code>.
<p>
Examples:
</p>
<ul>
<li><code>aef0::</code></li>
<li><code>bef0:1234:a890:5678::</code></li>
<li><code>8230:5678::</code></li>
</ul>
</column>
<column name="other_config" key="mac_only" type='{"type": "boolean"}'>
Value used to request to assign L2 address only if neither subnet
nor ipv6_prefix are specified
</column>
</group>
<group title="IP Multicast Snooping Options">
<p>
These options control IP Multicast Snooping configuration of the
logical switch. To enable IP Multicast Snooping set
<ref column="other_config" key="mcast_snoop"/> to true. To enable IP
Multicast Querier set <ref column="other_config" key="mcast_snoop"/>
to true. If IP Multicast Querier is enabled
<ref column="other_config" key="mcast_eth_src"/> and
<ref column="other_config" key="mcast_ip4_src"/> must be set.
</p>
<column name="other_config" key="mcast_snoop"
type='{"type": "boolean"}'>
Enables/disables IP Multicast Snooping on the logical switch.
</column>
<column name="other_config" key="mcast_querier"
type='{"type": "boolean"}'>
Enables/disables IP Multicast Querier on the logical switch.
</column>
<column name="other_config" key="mcast_flood_unregistered"
type='{"type": "boolean"}'>
Determines whether unregistered multicast traffic should be flooded
or not. Only applicable if
<ref column="other_config" key="mcast_snoop"/> is enabled.
</column>
<column name="other_config" key="mcast_table_size"
type='{"type": "integer", "minInteger": 1, "maxInteger": 32766}'>
Number of multicast groups to be stored. Default: 2048.
</column>
<column name="other_config" key="mcast_idle_timeout"
type='{"type": "integer", "minInteger": 15, "maxInteger": 3600}'>
Configures the IP Multicast Snooping group idle timeout (in seconds).
Default: 300 seconds.
</column>
<column name="other_config" key="mcast_query_interval"
type='{"type": "integer", "minInteger": 1, "maxInteger": 3600}'>
Configures the IP Multicast Querier interval between queries (in
seconds). Default:
<ref column="other_config" key="mcast_idle_timeout"/> / 2.
</column>
<column name="other_config" key="mcast_query_max_response"
type='{"type": "integer", "minInteger": 1, "maxInteger": 10}'>
Configures the value of the "max-response" field in the multicast
queries originated by the logical switch. Default: 1 second.
</column>
<column name="other_config" key="mcast_eth_src">
Configures the source Ethernet address for queries originated by the
logical switch.
</column>
<column name="other_config" key="mcast_ip4_src">
Configures the source IPv4 address for queries originated by the
logical switch.
</column>
<column name="other_config" key="mcast_ip6_src">
Configures the source IPv6 address for queries originated by the
logical switch.
</column>
</group>
<group title="Interconnection">
<column name="other_config" key="interconn-ts"
type='{"type": "string"}'>
The <ref table="Transit_Switch" column="name" db="OVN_IC_Northbound"/>
of corresponding transit switch in <ref db="OVN_IC_Northbound"/>
database. This kind of logical switch is created and controlled
by <code>ovn-ic</code>.
</column>
</group>
<group title="Tunnel Key">
<column name="other_config" key="requested-tnl-key"
type='{"type": "integer", "minInteger": 1, "maxInteger": 16777215}'>
Configures the datapath tunnel key for the logical switch. Usually
this is not needed because <code>ovn-northd</code> will assign an
unique key for each datapath by itself. However, if it is configured,
<code>ovn-northd</code> honors the configured value. The typical use
case is for interconnection: the tunnel keys for transit switches need
to be unique globally, so they are maintained in the global
<ref db="OVN_IC_Southbound"/> database, and <code>ovn-ic</code> simply
syncs the value from <ref db="OVN_IC_Southbound"/> through this config.
</column>
</group>
<group title="Common Columns">
<column name="external_ids">
See <em>External IDs</em> at the beginning of this document.
</column>
</group>
</table>
<table name="Logical_Switch_Port" title="L2 logical switch port">
<p>
A port within an L2 logical switch.
</p>
<group title="Core Features">
<column name="name">
<p>
The logical port name.
</p>
<p>
For entities (VMs or containers) that are spawned in the hypervisor,
the name used here must match those used in the <ref key="iface-id"
table="Interface" column="external_ids" db="Open_vSwitch"/> in the
<ref db="Open_vSwitch"/> database's <ref table="Interface"
db="Open_vSwitch"/> table, because hypervisors use <ref key="iface-id"
table="Interface" column="external_ids" db="Open_vSwitch"/> as a lookup
key to identify the network interface of that entity.
</p>
<p>
For containers that share a VIF within a VM, the name can be any
unique identifier. See <code>Containers</code>, below, for more
information.
</p>
</column>
<column name="type">
<p>
Specify a type for this logical port. Logical ports can be used to
model other types of connectivity into an OVN logical switch. The
following types are defined:
</p>
<dl>
<dt>(empty string)</dt>
<dd>
A VM (or VIF) interface.
</dd>
<dt><code>router</code></dt>
<dd>
A connection to a logical router. The value of <ref
column="options" key="router-port"/> specifies the <ref
column="name"/> of the <ref table="Logical_Router_Port"/>
to which this logical switch port is connected.
</dd>
<dt><code>localnet</code></dt>
<dd>
A connection to a locally accessible network from each
<code>ovn-controller</code> instance. A logical switch can only
have a single <code>localnet</code> port attached. This is used
to model direct connectivity to an existing network.
</dd>
<dt><code>localport</code></dt>
<dd>
A connection to a local VIF. Traffic that arrives on a
<code>localport</code> is never forwarded over a tunnel to another
chassis. These ports are present on every chassis and have the same
address in all of them. This is used to model connectivity to local
services that run on every hypervisor.
</dd>
<dt><code>l2gateway</code></dt>
<dd>
A connection to a physical network.
</dd>
<dt><code>vtep</code></dt>
<dd>
A port to a logical switch on a VTEP gateway.
</dd>
<dt><code>external</code></dt>
<dd>
<p>
Represents a logical port which is external and not having
an OVS port in the integration bridge.
<code>OVN</code> will never receive any traffic from this port or
send any traffic to this port. <code>OVN</code> can support
native services like DHCPv4/DHCPv6/DNS for this port.
If <ref column="ha_chassis_group"/> is defined,
<code>ovn-controller</code> running in the master chassis of
the HA chassis group will bind this port to provide these native
services. It is expected that this port belong to a bridged
logical switch (with a <code>localnet</code> port).
</p>
<p>
It is recommended to use the same HA chassis group for all the
external ports of a logical switch. Otherwise, the physical
switch might see MAC flap issue when different chassis provide
the native services. For example when supporting native DHCPv4
service, DHCPv4 server mac (configured in
<ref column="options:server_mac" table="DHCP_Options"
db="OVN_NB"/> column in table <ref table="DHCP_Options"/>)
originating from different ports can cause MAC flap issue.
The MAC of the logical router IP(s) can also flap if the
same HA chassis group is not set for all the external ports
of a logical switch.
</p>
<p>
Below are some of the use cases where <code>external</code>
ports can be used.
</p>
<ul>
<li>
VMs connected to SR-IOV nics - Traffic from these VMs by passes
the kernel stack and local <code>ovn-controller</code> do not
bind these ports and cannot serve the native services.
</li>
<li>
When CMS supports provisioning baremetal servers.
</li>
</ul>
</dd>
<dt><code>virtual</code></dt>
<dd>
<p>
Represents a logical port which does not have an OVS
port in the integration bridge and has a virtual ip configured
in the <ref column="options:virtual-ip"/> column. This virtual ip
can move around between the logical ports configured in
the <ref column="options:virtual-parents"/> column.
</p>
<p>
One of the use case where <code>virtual</code>
ports can be used is.
</p>
<ul>
<li>
The <code>virtual ip</code> represents a load balancer vip
and the <code>virtual parents</code> provide load balancer
service in an active-standby setup with the active virtual
parent owning the <code>virtual ip</code>.
</li>
</ul>
</dd>
<dt><code>remote</code></dt>
<dd>
A remote port is to model a port that resides remotely on another
OVN, which is on the other side of a transit logical switch for OVN
interconnection. This type of ports are created by
<code>ovn-ic</code> instead of by CMS. Any change to the port will
be automatically overwritten by <code>ovn-ic</code>.
</dd>
</dl>
</column>
</group>
<group title="Options">
<column name="options">
This column provides key/value settings specific to the logical port
<ref column="type"/>. The type-specific options are described
individually below.
</column>
<group title="Options for router ports">
<p>
These options apply when <ref column="type"/> is <code>router</code>.
</p>
<column name="options" key="router-port">
Required. The <ref column="name"/> of the <ref
table="Logical_Router_Port"/> to which this logical switch port is
connected.
</column>
<column name="options" key="nat-addresses">
<p>
This is used to send gratuitous ARPs for SNAT and DNAT IP
addresses via the <code>localnet</code> port that is attached
to the same logical switch as this type <code>router</code>
port. This option is specified on a logical switch port that is
connected to a gateway router, or a logical switch port that is
connected to a distributed gateway port on a logical router.
</p>
<p>
This must take one of the following forms:
</p>
<dl>
<dt><code>router</code></dt>
<dd>
<p>
Gratuitous ARPs will be sent for all SNAT and DNAT external IP
addresses and for all load balancer IP addresses defined on the
<ref column="options" key="router-port"/>'s logical router,
using the <ref column="options" key="router-port"/>'s MAC
address.
</p>
<p>
This form of <ref column="options" key="nat-addresses"/> is
valid for logical switch ports where <ref column="options"
key="router-port"/> is the name of a port on a gateway router,
or the name of a distributed gateway port.
</p>
<p>
Supported only in OVN 2.8 and later. Earlier versions required
NAT addresses to be manually synchronized.
</p>
</dd>
<dt><code>Ethernet address followed by one or more IPv4 addresses</code></dt>
<dd>
<p>
Example: <code>80:fa:5b:06:72:b7 158.36.44.22
158.36.44.24</code>. This would result in generation of
gratuitous ARPs for IP addresses 158.36.44.22 and 158.36.44.24
with a MAC address of 80:fa:5b:06:72:b7.
</p>
<p>
This form of <ref column="options" key="nat-addresses"/> is
only valid for logical switch ports where <ref column="options"
key="router-port"/> is the name of a port on a gateway router.
</p>
</dd>
</dl>
</column>
</group>
<group title="Options for localnet ports">
<p>
These options apply when <ref column="type"/> is
<code>localnet</code>.
</p>
<column name="options" key="network_name">
Required. The name of the network to which the <code>localnet</code>
port is connected. Each hypervisor, via <code>ovn-controller</code>,
uses its local configuration to determine exactly how to connect to
this locally accessible network.
</column>
</group>
<group title="Options for l2gateway ports">
<p>
These options apply when <ref column="type"/> is
<code>l2gateway</code>.
</p>
<column name="options" key="network_name">
Required. The name of the network to which the <code>l2gateway</code>
port is connected. The L2 gateway, via <code>ovn-controller</code>,
uses its local configuration to determine exactly how to connect to
this network.
</column>
<column name="options" key="l2gateway-chassis">
Required. The chassis on which the <code>l2gateway</code> logical
port should be bound to. <code>ovn-controller</code> running on the
defined chassis will connect this logical port to the physical network.
</column>
</group>
<group title="Options for vtep ports">
<p>
These options apply when <ref column="type"/> is <code>vtep</code>.
</p>
<column name="options" key="vtep-physical-switch">
Required. The name of the VTEP gateway.
</column>
<column name="options" key="vtep-logical-switch">
Required. A logical switch name connected by the VTEP gateway.
</column>
</group>
<group title="VMI (or VIF) Options">
<p>
These options apply to logical ports with <ref column="type"/> having
(empty string)
</p>
<column name="options" key="requested-chassis">
If set, identifies a specific chassis (by name or hostname) that
is allowed to bind this port. Using this option will prevent
thrashing between two chassis trying to bind the same port during
a live migration. It can also prevent similar thrashing due to a
mis-configuration, if a port is accidentally created on more than
one chassis.
</column>
<column name="options" key="qos_max_rate">
If set, indicates the maximum rate for data sent from this interface,
in bit/s. The traffic will be shaped according to this limit.
</column>
<column name="options" key="qos_burst">
If set, indicates the maximum burst size for data sent from this
interface, in bits.
</column>
</group>
<group title="Virtual port Options">
<p>
These options apply when <ref column="type"/> is
<code>virtual</code>.
</p>
<column name="options" key="virtual-ip">
This option represents the virtual IPv4 address.
</column>
<column name="options" key="virtual-parents">
This options represents a set of logical port names (with in the same
logical switch) which can own the <code>virtual ip</code> configured
in the <ref column="options:virtual-ip"/>. All these virtual parents
should add the <code>virtual ip</code> in the
<ref column="port_security"/> if port security addressed are enabled.
</column>
</group>
<group title="IP Multicast Snooping Options">
<p>
These options apply when the port is part of a logical switch
which has <ref table="Logical_Switch" column="other_config"/>
:mcast_snoop set to <code>true</code>.
</p>
<column name="options" key="mcast_flood"
type='{"type": "boolean"}'>
If set to <code>true</code>, multicast packets (except reports) are
unconditionally forwarded to the specific port.
</column>
<column name="options" key="mcast_flood_reports"
type='{"type": "boolean"}'>
If set to <code>true</code>, multicast reports are unconditionally
forwarded to the specific port.
</column>
</group>
</group>
<group title="Containers">
<p>
When a large number of containers are nested within a VM, it may be too
expensive to dedicate a VIF to each container. OVN can use VLAN tags
to support such cases. Each container is assigned a VLAN ID and each
packet that passes between the hypervisor and the VM is tagged with the
appropriate ID for the container. Such VLAN IDs never appear on a
physical wire, even inside a tunnel, so they need not be unique except
relative to a single VM on a hypervisor.
</p>
<p>
These columns are used for VIFs that represent nested containers using
shared VIFs. For VMs and for containers that have dedicated VIFs, they
are empty.
</p>
<column name="parent_name">
The VM interface through which the nested container sends its network
traffic. This must match the <ref column="name"/> column for some
other <ref table="Logical_Switch_Port"/>.
</column>
<column name="tag_request">
<p>
The VLAN tag in the network traffic associated with a container's
network interface. The client can request <code>ovn-northd</code>
to allocate a tag that is unique within the scope of a specific
parent (specified in <ref column="parent_name"/>) by setting a value
of <code>0</code> in this column. The allocated value is written
by <code>ovn-northd</code> in the <ref column="tag"/> column.
(Note that these tags are allocated and managed locally in
<code>ovn-northd</code>, so they cannot be reconstructed in the event
that the database is lost.) The client can also request a specific
non-zero tag and <code>ovn-northd</code> will honor it and copy that
value to the <ref column="tag"/> column.
</p>
<p>
When <ref column="type"/> is set to <code>localnet</code> or
<code>l2gateway</code>, this can
be set to indicate that the port represents a connection to a
specific VLAN on a locally accessible network. The VLAN ID is used
to match incoming traffic and is also added to outgoing traffic.
</p>
</column>
<column name="tag">
<p>
The VLAN tag allocated by <code>ovn-northd</code> based on the
contents of the <ref column="tag_request"/> column.
</p>
</column>
</group>
<group title="Port State">
<column name="up">
<p>
This column is populated by <code>ovn-northd</code>, rather
than by the CMS plugin as is most of this database. When a
logical port is bound to a physical location in the OVN
Southbound database <ref db="OVN_Southbound"
table="Binding"/> table, <code>ovn-northd</code> sets this
column to <code>true</code>; otherwise, or if the port
becomes unbound later, it sets it to <code>false</code>.
If this column is empty, the port is not considered up.
This allows the CMS to wait for a VM's (or container's)
networking to become active before it allows the VM (or
container) to start.
</p>
<p>
Logical ports of router type are an exception to this rule.
They are considered to be always up, that is this column is
always set to <code>true</code>.
</p>
</column>
<column name="enabled">
This column is used to administratively set port state. If this column
is empty or is set to <code>true</code>, the port is enabled. If this
column is set to <code>false</code>, the port is disabled. A disabled
port has all ingress and egress traffic dropped.
</column>
</group>
<group title="Addressing">
<column name="addresses">
<p>
Addresses owned by the logical port.
</p>
<p>
Each element in the set must take one of the following forms:
</p>
<dl>
<dt><code>Ethernet address followed by zero or more IPv4 or IPv6 addresses (or both)</code></dt>
<dd>
<p>
An Ethernet address defined is owned by the logical port.
Like a physical Ethernet NIC, a logical port ordinarily has
a single fixed Ethernet address.
</p>
<p>
When a OVN logical switch processes a unicast Ethernet frame
whose destination MAC address is in a logical port's <ref
column="addresses"/> column, it delivers it only to that port, as
if a MAC learning process had learned that MAC address on the
port.
</p>
<p>
If IPv4 or IPv6 address(es) (or both) are defined, it indicates
that the logical port owns the given IP addresses.
</p>
<p>
If IPv4 address(es) are defined, the OVN logical switch uses this
information to synthesize responses to ARP requests without
traversing the physical network. The OVN logical router connected
to the logical switch, if any, uses this information to avoid
issuing ARP requests for logical switch ports.
</p>
<p>
Note that the order here is important. The Ethernet address must
be listed before the IP address(es) if defined.
</p>
<p>
Examples:
</p>
<dl>
<dt><code>80:fa:5b:06:72:b7</code></dt>
<dd>
This indicates that the logical port owns the above mac address.
</dd>
<dt><code>80:fa:5b:06:72:b7 10.0.0.4 20.0.0.4</code></dt>
<dd>
This indicates that the logical port owns the mac address and two
IPv4 addresses.
</dd>
<dt><code>80:fa:5b:06:72:b7 fdaa:15f2:72cf:0:f816:3eff:fe20:3f41</code></dt>
<dd>
This indicates that the logical port owns the mac address and
1 IPv6 address.
</dd>
<dt><code>80:fa:5b:06:72:b7 10.0.0.4 fdaa:15f2:72cf:0:f816:3eff:fe20:3f41</code></dt>
<dd>
This indicates that the logical port owns the mac address and
1 IPv4 address and 1 IPv6 address.
</dd>
</dl>
</dd>
<dt><code>unknown</code></dt>
<dd>
This indicates that the logical port has an unknown set of Ethernet
addresses. When an OVN logical switch processes a unicast Ethernet
frame whose destination MAC address is not in any logical port's
<ref column="addresses"/> column, it delivers it to the port (or
ports) whose <ref column="addresses"/> columns include
<code>unknown</code>.
</dd>