vtep(5) Open vSwitch Manual vtep(5) NAME vtep - hardware_vtep database schema This schema specifies relations that a VTEP can use to integrate physi‐ cal ports into logical switches maintained by a network virtualization controller such as NSX. Glossary: VTEP VXLAN Tunnel End Point, an entity which originates and/or terminates VXLAN tunnels. HSC Hardware Switch Controller. NVC Network Virtualization Controller, e.g. NSX. VRF Virtual Routing and Forwarding instance. Common Column Some tables contain a column, named other_config. This column has the same form and purpose each place that it appears, so we describe it here to save space later. other_config: map of string-string pairs Key-value pairs for configuring rarely used or propri‐ etary features. Some tables do not have other_config column because no key-value pairs have yet been defined for them. TABLE SUMMARY The following list summarizes the purpose of each of the tables in the hardware_vtep database. Each table is described in more detail on a later page. Table Purpose Global Top-level configuration. Manager OVSDB management connection. Physical_Switch A physical switch. Tunnel A tunnel created by a physical switch. Physical_Port A port within a physical switch. Logical_Binding_Stats Statistics for a VLAN on a physical port bound to a logical network. Logical_Switch A layer-2 domain. Ucast_Macs_Local Unicast MACs (local) Ucast_Macs_Remote Unicast MACs (remote) Mcast_Macs_Local Multicast MACs (local) Mcast_Macs_Remote Multicast MACs (remote) Logical_Router A logical L3 router. Arp_Sources_Local ARP source addresses for logical routers Arp_Sources_Remote ARP source addresses for logical routers Physical_Locator_Set Physical_Locator_Set configuration. Physical_Locator Physical_Locator configuration. ACL_entry ACL_entry configuration. ACL ACL configuration. Global TABLE Top-level configuration for a hardware VTEP. There must be exactly one record in the Global table. Summary: switches set of Physical_Switchs Database Configuration: managers set of Managers Common Column: other_config map of string-string pairs Details: switches: set of Physical_Switchs The physical switch or switches managed by the VTEP. When a physical switch integrates support for this VTEP schema, which is expected to be the most common case, this column should point to one Physical_Switch record that represents the switch itself. In another possible implementation, a server or a VM presents a VTEP schema front-end interface to one or more physi‐ cal switches, presumably communicating with those physical switches over a proprietary protocol. In that case, this column would point to one Physical_Switch for each physical switch, and the set might change over time as the front-end server comes to represent a differing set of switches. Database Configuration: These columns primarily configure the database server (ovsdb-server), not the hardware VTEP itself. managers: set of Managers Database clients to which the database server should connect or to which it should listen, along with options for how these con‐ nection should be configured. See the Manager table for more in‐ formation. Common Column: The overall purpose of this column is described under Common Column at the beginning of this document. other_config: map of string-string pairs Manager TABLE Configuration for a database connection to an Open vSwitch Database (OVSDB) client. The database server can initiate and maintain active connections to re‐ mote clients. It can also listen for database connections. Summary: Core Features: target string (must be unique within table) Client Failure Detection and Handling: max_backoff optional integer, at least 1,000 inactivity_probe optional integer Status: is_connected boolean status : last_error optional string status : state optional string, one of ACTIVE, BACKOFF, CONNECTING, IDLE, or VOID status : sec_since_connect optional string, containing an integer, at least 0 status : sec_since_disconnect optional string, containing an integer, at least 0 status : locks_held optional string status : locks_waiting optional string status : locks_lost optional string status : n_connections optional string, containing an integer, at least 2 Connection Parameters: other_config : dscp optional string, containing an integer Details: Core Features: target: string (must be unique within table) Connection method for managers. The following connection methods are currently supported: ssl:host[:port] The specified SSL port (default: 6640) on the given host, which can either be a DNS name (if built with unbound li‐ brary) or an IP address. SSL key and certificate configuration happens outside the database. tcp:host[:port] The specified TCP port (default: 6640) on the given host, which can either be a DNS name (if built with unbound li‐ brary) or an IP address. pssl:[port][:host] Listens for SSL connections on the specified TCP port (default: 6640). If host, which can either be a DNS name (if built with unbound library) or an IP address, is specified, then connections are restricted to the re‐ solved or specified local IP address. ptcp:[port][:host] Listens for connections on the specified TCP port (de‐ fault: 6640). If host, which can either be a DNS name (if built with unbound library) or an IP address, is speci‐ fied, then connections are restricted to the resolved or specified local IP address. Client Failure Detection and Handling: max_backoff: optional integer, at least 1,000 Maximum number of milliseconds to wait between connection at‐ tempts. Default is implementation-specific. inactivity_probe: optional integer Maximum number of milliseconds of idle time on connection to the client before sending an inactivity probe message. If the Open vSwitch database does not communicate with the client for the specified number of seconds, it will send a probe. If a response is not received for the same additional amount of time, the database server assumes the connection has been broken and at‐ tempts to reconnect. Default is implementation-specific. A value of 0 disables inactivity probes. Status: is_connected: boolean true if currently connected to this manager, false otherwise. status : last_error: optional string A human-readable description of the last error on the connection to the manager; i.e. strerror(errno). This key will exist only if an error has occurred. status : state: optional string, one of ACTIVE, BACKOFF, CONNECTING, IDLE, or VOID The state of the connection to the manager: VOID Connection is disabled. BACKOFF Attempting to reconnect at an increasing period. CONNECTING Attempting to connect. ACTIVE Connected, remote host responsive. IDLE Connection is idle. Waiting for response to keep-alive. These values may change in the future. They are provided only for human consumption. status : sec_since_connect: optional string, containing an integer, at least 0 The amount of time since this manager last successfully con‐ nected to the database (in seconds). Value is empty if manager has never successfully connected. status : sec_since_disconnect: optional string, containing an integer, at least 0 The amount of time since this manager last disconnected from the database (in seconds). Value is empty if manager has never dis‐ connected. status : locks_held: optional string Space-separated list of the names of OVSDB locks that the con‐ nection holds. Omitted if the connection does not hold any locks. status : locks_waiting: optional string Space-separated list of the names of OVSDB locks that the con‐ nection is currently waiting to acquire. Omitted if the connec‐ tion is not waiting for any locks. status : locks_lost: optional string Space-separated list of the names of OVSDB locks that the con‐ nection has had stolen by another OVSDB client. Omitted if no locks have been stolen from this connection. status : n_connections: optional string, containing an integer, at least 2 When target specifies a connection method that listens for in‐ bound connections (e.g. ptcp: or pssl:) and more than one con‐ nection is actually active, the value is the number of active connections. Otherwise, this key-value pair is omitted. When multiple connections are active, status columns and key- value pairs (other than this one) report the status of one arbi‐ trarily chosen connection. Connection Parameters: Additional configuration for a connection between the manager and the database server. other_config : dscp: optional string, containing an integer The Differentiated Service Code Point (DSCP) is specified using 6 bits in the Type of Service (TOS) field in the IP header. DSCP provides a mechanism to classify the network traffic and provide Quality of Service (QoS) on IP networks. The DSCP value speci‐ fied here is used when establishing the connection between the manager and the database server. If no value is specified, a de‐ fault value of 48 is chosen. Valid DSCP values must be in the range 0 to 63. Physical_Switch TABLE A physical switch that implements a VTEP. Summary: ports set of Physical_Ports tunnels set of Tunnels Network Status: management_ips set of strings tunnel_ips set of strings Identification: name string (must be unique within table) description string Error Notification: switch_fault_status : mac_table_exhaustion none switch_fault_status : tunnel_exhaustion none switch_fault_status : lr_switch_bindings_fault none switch_fault_status : lr_static_routes_fault none switch_fault_status : lr_creation_fault none switch_fault_status : lr_support_fault none switch_fault_status : unspecified_fault none switch_fault_status : unsupported_source_node_replication none Common Column: other_config map of string-string pairs Details: ports: set of Physical_Ports The physical ports within the switch. tunnels: set of Tunnels Tunnels created by this switch as instructed by the NVC. Network Status: management_ips: set of strings IPv4 or IPv6 addresses at which the switch may be contacted for management purposes. tunnel_ips: set of strings IPv4 or IPv6 addresses on which the switch may originate or ter‐ minate tunnels. This column is intended to allow a Manager to determine the Physical_Switch that terminates the tunnel represented by a Physical_Locator. Identification: name: string (must be unique within table) Symbolic name for the switch, such as its hostname. description: string An extended description for the switch, such as its switch login banner. Error Notification: An entry in this column indicates to the NVC that this switch has en‐ countered a fault. The switch must clear this column when the fault has been cleared. switch_fault_status : mac_table_exhaustion: none Indicates that the switch has been unable to process MAC entries requested by the NVC due to lack of table resources. switch_fault_status : tunnel_exhaustion: none Indicates that the switch has been unable to create tunnels re‐ quested by the NVC due to lack of resources. switch_fault_status : lr_switch_bindings_fault: none Indicates that the switch has been unable to create the logical router interfaces requested by the NVC due to conflicting con‐ figurations or a lack of hardware resources. switch_fault_status : lr_static_routes_fault: none Indicates that the switch has been unable to create the static routes requested by the NVC due to conflicting configurations or a lack of hardware resources. switch_fault_status : lr_creation_fault: none Indicates that the switch has been unable to create the logical router requested by the NVC due to conflicting configurations or a lack of hardware resources. switch_fault_status : lr_support_fault: none Indicates that the switch does not support logical routing. switch_fault_status : unspecified_fault: none Indicates that an error has occurred in the switch but that no more specific information is available. switch_fault_status : unsupported_source_node_replication: none Indicates that the requested source node replication mode cannot be supported by the physical switch; this specifically means in this context that the physical switch lacks the capability to support source node replication mode. This error occurs when a controller attempts to set source node replication mode for one of the logical switches that the physical switch is keeping con‐ text for. An NVC that observes this error should take appropri‐ ate action (for example reverting the logical switch to service node replication mode). It is recommended that an NVC be proac‐ tive and test for support of source node replication by using a test logical switch on vtep physical switch nodes and then try‐ ing to change the replication mode to source node on this logi‐ cal switch, checking for error. The NVC could remember this ca‐ pability per vtep physical switch. Using mixed replication modes on a given logical switch is not recommended. Service node replication mode is considered a basic requirement since it only requires sending a packet to a single transport node, hence it is not expected that a switch should report that service node mode cannot be supported. Common Column: The overall purpose of this column is described under Common Column at the beginning of this document. other_config: map of string-string pairs Tunnel TABLE A tunnel created by a Physical_Switch. Summary: local Physical_Locator remote Physical_Locator Bidirectional Forwarding Detection (BFD): BFD Local Configuration: bfd_config_local : bfd_dst_mac optional string bfd_config_local : bfd_dst_ip optional string BFD Remote Configuration: bfd_config_remote : bfd_dst_mac optional string bfd_config_remote : bfd_dst_ip optional string BFD Parameters: bfd_params : enable optional string, either true or false bfd_params : min_rx optional string, containing an integer, at least 1 bfd_params : min_tx optional string, containing an integer, at least 1 bfd_params : decay_min_rx optional string, containing an integer bfd_params : forwarding_if_rx optional string, either true or false bfd_params : cpath_down optional string, either true or false bfd_params : check_tnl_key optional string, either true or false BFD Status: bfd_status : enabled optional string, either true or false bfd_status : state optional string, one of admin_down, down, init, or up bfd_status : forwarding optional string, either true or false bfd_status : diagnostic optional string bfd_status : remote_state optional string, one of admin_down, down, init, or up bfd_status : remote_diagnostic optional string bfd_status : info optional string Details: local: Physical_Locator Tunnel end-point local to the physical switch. remote: Physical_Locator Tunnel end-point remote to the physical switch. Bidirectional Forwarding Detection (BFD): BFD, defined in RFC 5880, allows point to point detection of connectiv‐ ity failures by occasional transmission of BFD control messages. VTEPs are expected to implement BFD. BFD operates by regularly transmitting BFD control messages at a rate negotiated independently in each direction. Each endpoint specifies the rate at which it expects to receive control messages, and the rate at which it’s willing to transmit them. An endpoint which fails to receive BFD control messages for a period of three times the expected reception rate will signal a connectivity fault. In the case of a unidirectional connectivity issue, the system not receiving BFD control messages will signal the problem to its peer in the messages it transmits. A hardware VTEP is expected to use BFD to determine reachability of de‐ vices at the end of the tunnels with which it exchanges data. This can enable the VTEP to choose a functioning service node among a set of service nodes providing high availability. It also enables the NVC to report the health status of tunnels. In many cases the BFD peer of a hardware VTEP will be an Open vSwitch instance. The Open vSwitch implementation of BFD aims to comply faith‐ fully with the requirements put forth in RFC 5880. Open vSwitch does not implement the optional Authentication or ``Echo Mode’’ features. BFD Local Configuration: The HSC writes the key-value pairs in the bfd_config_local column to specify the local configurations to be used for BFD sessions on this tunnel. bfd_config_local : bfd_dst_mac: optional string Set to an Ethernet address in the form xx:xx:xx:xx:xx:xx to set the MAC expected as destination for received BFD packets. The default is 00:23:20:00:00:01. bfd_config_local : bfd_dst_ip: optional string Set to an IPv4 address to set the IP address that is expected as destination for received BFD packets. The default is 169.254.1.0. BFD Remote Configuration: The bfd_config_remote column is the remote counterpart of the bfd_con‐ fig_local column. The NVC writes the key-value pairs in this column. bfd_config_remote : bfd_dst_mac: optional string Set to an Ethernet address in the form xx:xx:xx:xx:xx:xx to set the destination MAC to be used for transmitted BFD packets. The default is 00:23:20:00:00:01. bfd_config_remote : bfd_dst_ip: optional string Set to an IPv4 address to set the IP address used as destination for transmitted BFD packets. The default is 169.254.1.1. BFD Parameters: The NVC sets up key-value pairs in the bfd_params column to enable and configure BFD. bfd_params : enable: optional string, either true or false True to enable BFD on this Tunnel. If not specified, BFD will not be enabled by default. bfd_params : min_rx: optional string, containing an integer, at least 1 The shortest interval, in milliseconds, at which this BFD ses‐ sion offers to receive BFD control messages. The remote endpoint may choose to send messages at a slower rate. Defaults to 1000. bfd_params : min_tx: optional string, containing an integer, at least 1 The shortest interval, in milliseconds, at which this BFD ses‐ sion is willing to transmit BFD control messages. Messages will actually be transmitted at a slower rate if the remote endpoint is not willing to receive as quickly as specified. Defaults to 100. bfd_params : decay_min_rx: optional string, containing an integer An alternate receive interval, in milliseconds, that must be greater than or equal to bfd_params:min_rx. The implementation should switch from bfd_params:min_rx to bfd_params:decay_min_rx when there is no obvious incoming data traffic at the tunnel, to reduce the CPU and bandwidth cost of monitoring an idle tunnel. This feature may be disabled by setting a value of 0. This fea‐ ture is reset whenever bfd_params:decay_min_rx or bfd_params:min_rx changes. bfd_params : forwarding_if_rx: optional string, either true or false When true, traffic received on the Tunnel is used to indicate the capability of packet I/O. BFD control packets are still transmitted and received. At least one BFD control packet must be received every 100 * bfd_params:min_rx amount of time. Other‐ wise, even if traffic is received, the bfd_params:forwarding will be false. bfd_params : cpath_down: optional string, either true or false Set to true to notify the remote endpoint that traffic should not be forwarded to this system for some reason other than a connectivity failure on the interface being monitored. The typi‐ cal underlying reason is ``concatenated path down,’’ that is, that connectivity beyond the local system is down. Defaults to false. bfd_params : check_tnl_key: optional string, either true or false Set to true to make BFD accept only control messages with a tun‐ nel key of zero. By default, BFD accepts control messages with any tunnel key. BFD Status: The VTEP sets key-value pairs in the bfd_status column to report the status of BFD on this tunnel. When BFD is not enabled, with bfd_params:enable, the HSC clears all key-value pairs from bfd_status. bfd_status : enabled: optional string, either true or false Set to true if the BFD session has been successfully enabled. Set to false if the VTEP cannot support BFD or has insufficient resources to enable BFD on this tunnel. The NVC will disable the BFD monitoring on the other side of the tunnel once this value is set to false. bfd_status : state: optional string, one of admin_down, down, init, or up Reports the state of the BFD session. The BFD session is fully healthy and negotiated if UP. bfd_status : forwarding: optional string, either true or false Reports whether the BFD session believes this Tunnel may be used to forward traffic. Typically this means the local session is signaling UP, and the remote system isn’t signaling a problem such as concatenated path down. bfd_status : diagnostic: optional string A diagnostic code specifying the local system’s reason for the last change in session state. The error messages are defined in section 4.1 of [RFC 5880]. bfd_status : remote_state: optional string, one of admin_down, down, init, or up Reports the state of the remote endpoint’s BFD session. bfd_status : remote_diagnostic: optional string A diagnostic code specifying the remote system’s reason for the last change in session state. The error messages are defined in section 4.1 of [RFC 5880]. bfd_status : info: optional string A short message providing further information about the BFD sta‐ tus (possibly including reasons why BFD could not be enabled). Physical_Port TABLE A port within a Physical_Switch. Summary: vlan_bindings map of integer-Logical_Switch pairs, key in range 0 to 4,095 acl_bindings map of integer-ACL pairs, key in range 0 to 4,095 vlan_stats map of integer-Logical_Binding_Stats pairs, key in range 0 to 4,095 Identification: name string description string Error Notification: port_fault_status : invalid_vlan_map none port_fault_status : invalid_ACL_binding none port_fault_status : unspecified_fault none Common Column: other_config map of string-string pairs Details: vlan_bindings: map of integer-Logical_Switch pairs, key in range 0 to 4,095 Identifies how VLANs on the physical port are bound to logical switches. If, for example, the map contains a (VLAN, logical switch) pair, a packet that arrives on the port in the VLAN is considered to belong to the paired logical switch. A value of zero in the VLAN field means that untagged traffic on the physi‐ cal port is mapped to the logical switch. acl_bindings: map of integer-ACL pairs, key in range 0 to 4,095 Attach Access Control Lists (ACLs) to the physical port. The column consists of a map of VLAN tags to ACLs. If the value of the VLAN tag in the map is 0, this means that the ACL is associ‐ ated with the entire physical port. Non-zero values mean that the ACL is to be applied only on packets carrying that VLAN tag value. Switches will not necessarily support matching on the VLAN tag for all ACLs, and unsupported ACL bindings will cause errors to be reported. The binding of an ACL to a specific VLAN and the binding of an ACL to the entire physical port should not be combined on a single physical port. That is, a mix of zero and non-zero keys in the map is not recommended. vlan_stats: map of integer-Logical_Binding_Stats pairs, key in range 0 to 4,095 Statistics for VLANs bound to logical switches on the physical port. An implementation that fully supports such statistics would populate this column with a mapping for every VLAN that is bound in vlan_bindings. An implementation that does not support such statistics or only partially supports them would not popu‐ late this column or partially populate it, respectively. A value of zero in the VLAN field refers to untagged traffic on the physical port. Identification: name: string Symbolic name for the port. The name ought to be unique within a given Physical_Switch, but the database is not capable of en‐ forcing this. description: string An extended description for the port. Error Notification: An entry in this column indicates to the NVC that the physical port has encountered a fault. The switch must clear this column when the error has been cleared. port_fault_status : invalid_vlan_map: none Indicates that a VLAN-to-logical-switch mapping requested by the controller could not be instantiated by the switch because of a conflict with local configuration. port_fault_status : invalid_ACL_binding: none Indicates that an error has occurred in associating an ACL with a port. port_fault_status : unspecified_fault: none Indicates that an error has occurred on the port but that no more specific information is available. Common Column: The overall purpose of this column is described under Common Column at the beginning of this document. other_config: map of string-string pairs Logical_Binding_Stats TABLE Reports statistics for the Logical_Switch with which a VLAN on a Physi‐ cal_Port is associated. Summary: Statistics: packets_from_local integer bytes_from_local integer packets_to_local integer bytes_to_local integer Details: Statistics: These statistics count only packets to which the binding applies. packets_from_local: integer Number of packets sent by the Physical_Switch. bytes_from_local: integer Number of bytes in packets sent by the Physical_Switch. packets_to_local: integer Number of packets received by the Physical_Switch. bytes_to_local: integer Number of bytes in packets received by the Physical_Switch. Logical_Switch TABLE A logical Ethernet switch, whose implementation may span physical and virtual media, possibly crossing L3 domains via tunnels; a logical layer-2 domain; an Ethernet broadcast domain. Summary: Per Logical-Switch Tunnel Key: tunnel_key optional integer Replication Mode: replication_mode optional string, either service_node or source_node Identification: name string (must be unique within table) description string Common Column: other_config map of string-string pairs Details: Per Logical-Switch Tunnel Key: Tunnel protocols tend to have a field that allows the tunnel to be par‐ titioned into sub-tunnels: VXLAN has a VNI, GRE and STT have a key, CAPWAP has a WSI, and so on. We call these generically ``tunnel keys.’’ Given that one needs to use a tunnel key at all, there are at least two reasonable ways to assign their values: • Per Logical_Switch+Physical_Locator pair. That is, each logical switch may be assigned a different tunnel key on every Physical_Locator. This model is especially flexi‐ ble. In this model, Physical_Locator carries the tunnel key. Therefore, one Physical_Locator record will exist for each logical switch carried at a given IP destination. • Per Logical_Switch. That is, every tunnel associated with a particular logical switch carries the same tunnel key, regardless of the Physical_Locator to which the tunnel is addressed. This model may ease switch implementation be‐ cause it imposes fewer requirements on the hardware data‐ path. In this model, Logical_Switch carries the tunnel key. Therefore, one Physical_Locator record will exist for each IP destination. tunnel_key: optional integer This column is used only in the tunnel key per Logical_Switch model (see above), because only in that model is there a tunnel key associated with a logical switch. For vxlan_over_ipv4 encapsulation, when the tunnel key per Logi‐ cal_Switch model is in use, this column is the VXLAN VNI that identifies a logical switch. It must be in the range 0 to 16,777,215. Replication Mode: For handling L2 broadcast, multicast and unknown unicast traffic, pack‐ ets can be sent to all members of a logical switch referenced by a physical switch. There are different modes to replicate the packets. The default mode of replication is to send the traffic to a service node, which can be a hypervisor, server or appliance, and let the ser‐ vice node handle replication to other transport nodes (hypervisors or other VTEP physical switches). This mode is called service node repli‐ cation. An alternate mode of replication, called source node replica‐ tion involves the source node sending to all other transport nodes. Hy‐ pervisors are always responsible for doing their own replication for locally attached VMs in both modes. Service node replication mode is the default and considered a basic requirement because it only requires sending the packet to a single transport node. replication_mode: optional string, either service_node or source_node This optional column defines the replication mode per Logi‐ cal_Switch. There are 2 valid values, service_node and source_node. If the column is not set, the replication mode de‐ faults to service_node. Identification: name: string (must be unique within table) Symbolic name for the logical switch. description: string An extended description for the logical switch, such as its switch login banner. Common Column: The overall purpose of this column is described under Common Column at the beginning of this document. other_config: map of string-string pairs Ucast_Macs_Local TABLE Mapping of unicast MAC addresses to tunnels (physical locators). This table is written by the HSC, so it contains the MAC addresses that have been learned on physical ports by a VTEP. Summary: MAC string logical_switch Logical_Switch locator Physical_Locator ipaddr string Details: MAC: string A MAC address that has been learned by the VTEP. logical_switch: Logical_Switch The Logical switch to which this mapping applies. locator: Physical_Locator The physical locator to be used to reach this MAC address. In this table, the physical locator will be one of the tunnel IP addresses of the appropriate VTEP. ipaddr: string The IP address to which this MAC corresponds. Optional field for the purpose of ARP supression. Ucast_Macs_Remote TABLE Mapping of unicast MAC addresses to tunnels (physical locators). This table is written by the NVC, so it contains the MAC addresses that the NVC has learned. These include VM MAC addresses, in which case the physical locators will be hypervisor IP addresses. The NVC will also report MACs that it has learned from other HSCs in the network, in which case the physical locators will be tunnel IP addresses of the corresponding VTEPs. Summary: MAC string logical_switch Logical_Switch locator Physical_Locator ipaddr string Details: MAC: string A MAC address that has been learned by the NVC. logical_switch: Logical_Switch The Logical switch to which this mapping applies. locator: Physical_Locator The physical locator to be used to reach this MAC address. In this table, the physical locator will be either a hypervisor IP address or a tunnel IP addresses of another VTEP. ipaddr: string The IP address to which this MAC corresponds. Optional field for the purpose of ARP supression. Mcast_Macs_Local TABLE Mapping of multicast MAC addresses to tunnels (physical locators). This table is written by the HSC, so it contains the MAC addresses that have been learned on physical ports by a VTEP. These may be learned by IGMP snooping, for example. This table also specifies how to handle unknown unicast and broadcast packets. Summary: MAC string logical_switch Logical_Switch locator_set Physical_Locator_Set ipaddr string Details: MAC: string A MAC address that has been learned by the VTEP. The keyword unknown-dst is used as a special ``Ethernet ad‐ dress’’ that indicates the locations to which packets in a logi‐ cal switch whose destination addresses do not otherwise appear in Ucast_Macs_Local (for unicast addresses) or Mcast_Macs_Local (for multicast addresses) should be sent. logical_switch: Logical_Switch The Logical switch to which this mapping applies. locator_set: Physical_Locator_Set The physical locator set to be used to reach this MAC address. In this table, the physical locator set will be contain one or more tunnel IP addresses of the appropriate VTEP(s). ipaddr: string The IP address to which this MAC corresponds. Optional field for the purpose of ARP supression. Mcast_Macs_Remote TABLE Mapping of multicast MAC addresses to tunnels (physical locators). This table is written by the NVC, so it contains the MAC addresses that the NVC has learned. This table also specifies how to handle unknown uni‐ cast and broadcast packets. Multicast packet replication may be handled by a service node, in which case the physical locators will be IP addresses of service nodes. If the VTEP supports replication onto multiple tunnels, using source node replication, then this may be used to replicate directly onto VTEP-hy‐ pervisor or VTEP-VTEP tunnels. Summary: MAC string logical_switch Logical_Switch locator_set Physical_Locator_Set ipaddr string Details: MAC: string A MAC address that has been learned by the NVC. The keyword unknown-dst is used as a special ``Ethernet ad‐ dress’’ that indicates the locations to which packets in a logi‐ cal switch whose destination addresses do not otherwise appear in Ucast_Macs_Remote (for unicast addresses) or Mcast_Macs_Re‐ mote (for multicast addresses) should be sent. logical_switch: Logical_Switch The Logical switch to which this mapping applies. locator_set: Physical_Locator_Set The physical locator set to be used to reach this MAC address. In this table, the physical locator set will be either a set of service nodes when service node replication is used or the set of transport nodes (defined as hypervisors or VTEPs) participat‐ ing in the associated logical switch, when source node replica‐ tion is used. When service node replication is used, the VTEP should send packets to one member of the locator set that is known to be healthy and reachable, which could be determined by BFD. When source node replication is used, the VTEP should send packets to all members of the locator set. ipaddr: string The IP address to which this MAC corresponds. Optional field for the purpose of ARP supression. Logical_Router TABLE A logical router, or VRF. A logical router may be connected to one or more logical switches. Subnet addresses and interface addresses may be configured on the interfaces. Summary: switch_binding map of string-Logical_Switch pairs static_routes map of string-string pairs acl_binding map of string-ACL pairs Identification: name string (must be unique within table) description string Error Notification: LR_fault_status : invalid_ACL_binding none LR_fault_status : unspecified_fault none Common Column: other_config map of string-string pairs Details: switch_binding: map of string-Logical_Switch pairs Maps from an IPv4 or IPv6 address prefix in CIDR notation to a logical switch. Multiple prefixes may map to the same switch. By writing a 32-bit (or 128-bit for v6) address with a /N prefix length, both the router’s interface address and the subnet pre‐ fix can be configured. For example, 192.68.1.1/24 creates a /24 subnet for the logical switch attached to the interface and as‐ signs the address 192.68.1.1 to the router interface. static_routes: map of string-string pairs One or more static routes, mapping IP prefixes to next hop IP addresses. acl_binding: map of string-ACL pairs Maps ACLs to logical router interfaces. The router interfaces are indicated using IP address notation, and must be the same interfaces created in the switch_binding column. For example, an ACL could be associated with the logical router interface with an address of 192.68.1.1 as defined in the example above. Identification: name: string (must be unique within table) Symbolic name for the logical router. description: string An extended description for the logical router. Error Notification: An entry in this column indicates to the NVC that the HSC has encoun‐ tered a fault in configuring state related to the logical router. LR_fault_status : invalid_ACL_binding: none Indicates that an error has occurred in associating an ACL with a logical router port. LR_fault_status : unspecified_fault: none Indicates that an error has occurred in configuring the logical router but that no more specific information is available. Common Column: The overall purpose of this column is described under Common Column at the beginning of this document. other_config: map of string-string pairs Arp_Sources_Local TABLE MAC address to be used when a VTEP issues ARP requests on behalf of a logical router. A distributed logical router is implemented by a set of VTEPs (both hardware VTEPs and vswitches). In order for a given VTEP to populate the local ARP cache for a logical router, it issues ARP requests with a source MAC address that is unique to the VTEP. A single per-VTEP MAC can be re-used across all logical networks. This table contains the MACs that are used by the VTEPs of a given HSC. The table provides the mapping from MAC to physical locator for each VTEP so that replies to the ARP requests can be sent back to the correct VTEP using the appro‐ priate physical locator. Summary: src_mac string locator Physical_Locator Details: src_mac: string The source MAC to be used by a given VTEP. locator: Physical_Locator The Physical_Locator to use for replies to ARP requests from this MAC address. Arp_Sources_Remote TABLE MAC address to be used when a remote VTEP issues ARP requests on behalf of a logical router. This table is the remote counterpart of Arp_sources_local. The NVC writes this table to notify the HSC of the MACs that will be used by remote VTEPs when they issue ARP requests on behalf of a distributed logical router. Summary: src_mac string locator Physical_Locator Details: src_mac: string The source MAC to be used by a given VTEP. locator: Physical_Locator The Physical_Locator to use for replies to ARP requests from this MAC address. Physical_Locator_Set TABLE A set of one or more Physical_Locators. This table exists only because OVSDB does not have a way to express the type ``map from string to one or more Physical_Locator records.’’ Summary: locators immutable set of 1 or more Physical_Loca‐ tors Details: locators: immutable set of 1 or more Physical_Locators Physical_Locator TABLE Identifies an endpoint to which logical switch traffic may be encapsu‐ lated and forwarded. The vxlan_over_ipv4 encapsulation, the only encapsulation defined so far, can use either tunnel key model described in the ``Per Logical- Switch Tunnel Key’’ section in the Logical_Switch table. When the tun‐ nel key per Logical_Switch model is in use, the tunnel_key column in the Logical_Switch table is filled with a VNI and the tunnel_key column in this table is empty; in the key-per-tunnel model, the opposite is true. The former model is older, and thus likely to be more widely sup‐ ported. See the ``Per Logical-Switch Tunnel Key’’ section in the Logi‐ cal_Switch table for further discussion of the model. Summary: encapsulation_type immutable string, must be vxlan_over_ipv4 dst_ip immutable string tunnel_key optional integer Details: encapsulation_type: immutable string, must be vxlan_over_ipv4 The type of tunneling encapsulation. dst_ip: immutable string For vxlan_over_ipv4 encapsulation, the IPv4 address of the VXLAN tunnel endpoint. We expect that this column could be used for IPv4 or IPv6 ad‐ dresses in encapsulations to be introduced later. tunnel_key: optional integer This column is used only in the tunnel key per Logi‐ cal_Switch+Physical_Locator model (see above). For vxlan_over_ipv4 encapsulation, when the Logical_Switch+Phys‐ ical_Locator model is in use, this column is the VXLAN VNI. It must be in the range 0 to 16,777,215. ACL_entry TABLE Describes the individual entries that comprise an Access Control List. Each entry in the table is a single rule to match on certain header fields. While there are a large number of fields that can be matched on, most hardware cannot match on arbitrary combinations of fields. It is common to match on either L2 fields (described below in the L2 group of columns) or L3/L4 fields (the L3/L4 group of columns) but not both. The hardware switch controller may log an error if an ACL entry re‐ quires it to match on an incompatible mixture of fields. Summary: sequence integer L2 fields: source_mac optional string dest_mac optional string ethertype optional string L3/L4 fields: source_ip optional string source_mask optional string dest_ip optional string dest_mask optional string protocol optional integer source_port_min optional integer source_port_max optional integer dest_port_min optional integer dest_port_max optional integer tcp_flags optional integer tcp_flags_mask optional integer icmp_type optional integer icmp_code optional integer direction string, either egress or ingress action string, either deny or permit Error Notification: acle_fault_status : invalid_acl_entry none acle_fault_status : unspecified_fault none Details: sequence: integer The sequence number for the ACL entry for the purpose of order‐ ing entries in an ACL. Lower numbered entries are matched before higher numbered entries. L2 fields: source_mac: optional string Source MAC address, in the form xx:xx:xx:xx:xx:xx dest_mac: optional string Destination MAC address, in the form xx:xx:xx:xx:xx:xx ethertype: optional string Ethertype in hexadecimal, in the form 0xAAAA L3/L4 fields: source_ip: optional string Source IP address, in the form xx.xx.xx.xx for IPv4 or appropri‐ ate colon-separated hexadecimal notation for IPv6. source_mask: optional string Mask that determines which bits of source_ip to match on, in the form xx.xx.xx.xx for IPv4 or appropriate colon-separated hexa‐ decimal notation for IPv6. dest_ip: optional string Destination IP address, in the form xx.xx.xx.xx for IPv4 or ap‐ propriate colon-separated hexadecimal notation for IPv6. dest_mask: optional string Mask that determines which bits of dest_ip to match on, in the form xx.xx.xx.xx for IPv4 or appropriate colon-separated hexa‐ decimal notation for IPv6. protocol: optional integer Protocol number in the IPv4 header, or value of the "next header" field in the IPv6 header. source_port_min: optional integer Lower end of the range of source port values. The value speci‐ fied is included in the range. source_port_max: optional integer Upper end of the range of source port values. The value speci‐ fied is included in the range. dest_port_min: optional integer Lower end of the range of destination port values. The value specified is included in the range. dest_port_max: optional integer Upper end of the range of destination port values. The value specified is included in the range. tcp_flags: optional integer Integer representing the value of TCP flags to match. For exam‐ ple, the SYN flag is the second least significant bit in the TCP flags. Hence a value of 2 would indicate that the "SYN" flag should be set (assuming an appropriate mask). tcp_flags_mask: optional integer Integer representing the mask to apply when matching TCP flags. For example, a value of 2 would imply that the "SYN" flag should be matched and all other flags ignored. icmp_type: optional integer ICMP type to be matched. icmp_code: optional integer ICMP code to be matched. direction: string, either egress or ingress Direction of traffic to match on the specified port, either "ingress" (toward the logical switch or router) or "egress" (leaving the logical switch or router). action: string, either deny or permit Action to take for this rule, either "permit" or "deny". Error Notification: An entry in this column indicates to the NVC that the ACL could not be configured as requested. The switch must clear this column when the er‐ ror has been cleared. acle_fault_status : invalid_acl_entry: none Indicates that an ACL entry requested by the controller could not be instantiated by the switch, e.g. because it requires an unsupported combination of fields to be matched. acle_fault_status : unspecified_fault: none Indicates that an error has occurred in configuring the ACL en‐ try but no more specific information is available. ACL TABLE Access Control List table. Each ACL is constructed as a set of entries from the ACL_entry table. Packets that are not matched by any entry in the ACL are allowed by default. Summary: acl_entries set of 1 or more ACL_entrys acl_name string (must be unique within table) Error Notification: acl_fault_status : invalid_acl none acl_fault_status : resource_shortage none acl_fault_status : unspecified_fault none Details: acl_entries: set of 1 or more ACL_entrys A set of references to entries in the ACL_entry table. acl_name: string (must be unique within table) A human readable name for the ACL, which may (for example) be displayed on the switch CLI. Error Notification: An entry in this column indicates to the NVC that the ACL could not be configured as requested. The switch must clear this column when the er‐ ror has been cleared. acl_fault_status : invalid_acl: none Indicates that an ACL requested by the controller could not be instantiated by the switch, e.g., because it requires an unsup‐ ported combination of fields to be matched. acl_fault_status : resource_shortage: none Indicates that an ACL requested by the controller could not be instantiated by the switch due to a shortage of resources (e.g. TCAM space). acl_fault_status : unspecified_fault: none Indicates that an error has occurred in configuring the ACL but no more specific information is available. Open vSwitch 3.4.0 DB Schema 1.7.0 vtep(5)