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# Face Management {{>toc}} {{toc}} **Face Management** is a module of [[Management|NFD Management protocol]]. It provides: * commands to create and destroy faces * commands to enable and disable [[LocalControlHeader]] features on a face * a dataset of description of all active faces and their counters * a dataset of description of all active channels * a notification stream for face creating and destroying events Face Management commands, datasets, and notifications are available under namespace `ndn:/localhost/nfd/faces`. ## FaceUri A FaceUri represents the underlying protocol and address used by a Face. Every Face has two FaceUris: one for local endpoint, and the other for remote endpoint. ### UDP `udp[4|6]://<IP-or-host>[:<port>]` Examples: * `udp4://192.0.2.1:6363` (canonical form) * `udp6://[2001:db8::1]:6363` (canonical form) * `udp6://[fe80::1068:dddb:fe26:fe3f%en0]:6363` (canonical form for link-local IPv6 addresses) * `udp6://[fe80::1068:dddb:fe26:fe3f%25en0]:6363` (equivalent, but not canonical, version of the above FaceUri) * `udp://192.0.2.1` (remote-port defaults to 6363) * `udp://example.net:6363` * `udp4://example.net:6363` (resolve hostname to IPv4 address only) * `udp6://example.net:6363` (resolve hostname to IPv6 address only) * `udp4://224.0.23.170:56363` (multicast, canonical form) LocalUri of a NIC-associated UDP face has the form: `udp[4|6]+dev://<NIC>:<port>` This is only used in face dataset. Examples: * `udp4+dev://eth1:6363` * `udp6+dev://en0:6363` ### TCP `tcp[4|6]://<IP-or-host>[:<port>]` Examples: * `tcp4://192.0.2.1:6363` (canonical form) * `tcp6://[2001:db8::1]:6363` (canonical form) * `tcp6://[fe80::1068:dddb:fe26:fe3f%en0]:6363` (canonical form for link-local IPv6 addresses) * `tcp6://[fe80::1068:dddb:fe26:fe3f%25en0]:6363` (equivalent, but not canonical, version of the above FaceUri) * `tcp://192.0.2.1` (remote-port defaults to 6363) * `tcp://example.net:6363` * `tcp4://example.net:6363` (resolve hostname to IPv4 address only) * `tcp6://example.net:6363` (resolve hostname to IPv6 address only) ### UNIX stream `unix://<path>` Examples: * `unix:///var/run/nfd.sock` (note that there are three forward-slashes after 'unix:') ### File Descriptor `fd://<file-descriptor>` Examples: * `fd://6` ### Ethernet `ether://[<MAC>]` Examples: * `ether://[08:00:27:01:01:01]` * `ether://[33:33:01:01:01:01]` (multicast) ### Network Device `dev://<interface-name>` Examples: * `dev://eth0` ### Underlying protocol and FaceUri scheme Underlying protocol | Remote FaceUri scheme | Local FaceUri scheme ----------------------- | -------------------------------- | -------------------------- IPv4 UDP unicast | udp4 | udp4 IPv6 UDP unicast | udp6 | udp6 IPv4 UDP multicast | udp4 (multicast IP) | udp4 (local IP, same port) IPv4 UDP NIC-associated | udp4 | udp4+dev IPv6 UDP NIC-associated | udp6 | udp6+dev IPv4 TCP | tcp4 | tcp4 IPv6 TCP | tcp6 | tcp6 UNIX stream | fd (file descriptor on NFD side) | unix (socket path) Ethernet unicast | ether | dev Ethernet multicast | ether | dev WebSocket | wsclient | ws ## Static Face Attributes **FaceScope** indicates whether the face is local for [[ScopeControl|scope control]] purposes. * non-local(=0) * local(=1) **FacePersistency** indicates whether the face is persistent. * on-demand(=1), face closes if it remains idle for some time * persistent(=0), face remains open until it's explicitly destroyed or there's a transport failure * permanent(=2), face remains open until it's explicitly destroyed; transport failures will be recovered internally **LinkType** indicates the type of communication link. * point-to-point(=0), communication with one peer * multi-access(=1), communication with a multicast group * ad-hoc(=2), communication over a wireless ad hoc network **LocalFieldsEnabled** indicates whether the face allows [[NDNLPv2]] NextHopFaceId, CachePolicy, IncomingFaceId fields. * yes(=1), allows these fields; this is valid only if FaceScope=local * no(=0), disallows these fields **LpReliabilityEnabled** indicates whether the face has the [[NDNLPv2]] reliability feature enabled. * yes(=1), enables this feature * no(=0), disables this feature **CongestionMarkingEnabled** indicates whether the face has congestion marking based upon send queue length enabled. * yes(=1), enables this feature * no(=0), disables this feature **BaseCongestionMarkingInterval** indicates the base marking interval for congestion marking. The value of this attribute is the base marking interval in nanoseconds, which is used to compute the interval at which congested packets will be marked. **DefaultCongestionThreshold** indicates the default congestion threshold if the face does not support retrieving the send queue capacity. The value of this attribute is the default congestion threshold in bytes. ### Flags and Mask Some attributes are collected as inclusive OR into a **Flags** field in commands and datasets. These attributes are: (bit 0 is the least significant bit) * bit 0: LocalFieldsEnabled * bit 1: LpReliabilityEnabled * bit 2: CongestionMarkingEnabled ## Control Commands [[ControlCommand]] **management-module**: `faces` ### Create a face **command-verb**: `create` ControlParameters fields: * **Uri** (required): canonical remote FaceUri of the face to create. * **LocalUri** (optional): canonical local FaceUri of the face to create; e.g., FaceUri of the local interface for an Ethernet unicast face. * **FacePersistency** (optional): either *persistent* or *permanent*; creating *on-demand* faces is not permitted. The default is *persistent*. See "static face attributes" for more information. * **BaseCongestionMarkingInterval** (optional): see "static face attributes". * **DefaultCongestionThreshold** (optional): see "static face attributes". * **Flags** (optional): see "static face attributes". * **Mask** (optional): must be specified if Flags is present, or omitted if Flags is omitted. This command allows the creation of UDP unicast, Ethernet unicast, and TCP faces only. If the command succeeds, the \<body> of the ControlResponse block contains the ControlParameters describing the current properties of the created face: * **FaceId** * **Uri** * **LocalUri** * **FacePersistency** * **BaseCongestionMarkingInterval** (optional) * **DefaultCongestionThreshold** (optional) * **Flags**: contains effective values for *LocalFieldsEnabled*, *LpReliabilityEnabled*, and *CongestionMarkingEnabled* bits. If this creation would conflict with an existing face (e.g., same underlying protocol and remote endpoint, or a NIC-associated permanent face), the command fails with StatusCode 409, and the \<body> of the ControlResponse block contains the ControlParameters describing the existing face, with the same fields as above. If the request attempts to create a face other than UDP unicast, Ethernet unicast, or TCP, or if a static property specified in the request is not acceptable, the command fails with StatusCode 406. If face creation fails due to a socket error (e.g. TCP connection timeout), the command fails with StatusCode 504. If BaseCongestionMarkingInterval or DefaultCongestionThreshold are omitted in the ControlParameters sent with the creation command, the omitted static properties are left at implementation-defined default values. ### Update static properties **command-verb**: `update` ControlParameters fields: * **FaceId** (optional) * **FacePersistency** (optional): one of *on-demand*, *persistent*, or *permanent*. See "static face attributes" for more information. * **BaseCongestionMarkingInterval** (optional): see "static face attributes". * **DefaultCongestionThreshold** (optional): see "static face attributes". * **Flags** (optional): allows *LocalFieldsEnabled*, *LpReliabilityEnabled*, and *CongestionMarkingEnabled* only. See "static face attributes" for more information. * **Mask** (optional): MUST be specified if *Flags* is present, and omitted if *Flags* is omitted. *FaceId* is the FaceId returned in [[FaceMgmt|Face Management]]. If *FaceId* is omitted or is set to zero, it is implied to be that of the requesting face (self updating). If the face does not exist, this command fails with StatusCode 404. Static properties of the face are updated. If an optional property field is omitted or a bitfield is zero in *Mask*, that static property remains unchanged. If no static properties are changed, this command does nothing, but is still considered successful. If the command succeeds, \<body> in ControlResponse block contains ControlParameters describing the current properties of the face: * **FaceId** * **FacePersistency** * **BaseCongestionMarkingInterval** (optional) * **DefaultCongestionThreshold** (optional) * **Flags**: contains effective values for *LocalFieldsEnabled*, *LpReliabilityEnabled*, and *CongestionMarkingEnabled* bits. If any of the requested changes is invalid, none of the changes should be performed, and this command fails with StatusCode 409. The \<body> in ControlResponse block contains ControlParameters that includes only invalid fields; if some of the bit fields chosen in *Flags*+*Mask* is invalid, the \<body> block should also contain a *Mask* field indicating which bits are invalid, and echo back the original *Flags* field. If the request had been sent without those fields (or bitfields in *Mask*), it would have been successful. ### Destroy a face **command-verb:** `destroy` ControlParameters fields: * **FaceId** (required) If the specified face does not exist, this command does nothing, but is still considered successful. ## Face Dataset Description and counters of all active faces are published as a [[StatusDataset|Status Dataset]] at `ndn:/localhost/nfd/faces/list`. Each face is represented by a **FaceStatus** block: FaceStatus ::= FACE-STATUS-TYPE TLV-LENGTH FaceId Uri (remote FaceUri) LocalUri ExpirationPeriod? FaceScope FacePersistency LinkType BaseCongestionMarkingInterval? DefaultCongestionThreshold? Flags NInInterests NInData NInNacks NOutInterests NOutData NOutNacks NInBytes NOutBytes Uri ::= URI-TYPE TLV-LENGTH FaceUri in UTF-8 encoding LocalUri ::= LOCAL-URI-TYPE TLV-LENGTH FaceUri in UTF-8 encoding ; other TLVs have nonNegativeInteger as value * **Uri** is a FaceUri representing remote endpoint. * **LocalUri** is a FaceUri representing local endpoint. * **ExpirationPeriod** is the remaining lifetime of this face. If this field is omitted, the face has infinite lifetime. Currently, this is applicable to on-demand datagram faces only. * **FaceScope** indicates whether the face is local for [[ScopeControl|scope control]] purposes. See "static face attributes" for more information. * **FacePersistency** indicates whether the face is persistent. See "static face attributes" for more information. * **LinkType** indicates the type of communication link See "static face attributes" for more information. * **BaseCongestionMarkingInterval** indicates the base interval used to compute the interval at which congested packets will be marked (in nanoseconds). See "static face attributes" for more information. * **DefaultCongestionThreshold** indicates the default threshold for congestion if the face does not support retrieving the send queue capacity (in bytes). See "static face attributes" for more information. * **Flags** contains these bitfields: *LocalFieldsEnabled*, *LpReliabilityEnabled*, *CongestionMarkingEnabled*. See "static face attributes" for more information. * **NInInterests**: number of incoming Interest packets since the face is established. * **NInData** counts the number of incoming Data packets since the face is established. * **NInNacks** counts the number of incoming Nack packets since the face is established. * **NOutInterests** counts the number of outgoing Interest packets since the face is established. * **NOutData** counts the number of outgoing Data packets since the face is established. * **NOutNacks** counts the number of outgoing Nack packets since the face is established. * **NInBytes** counts the number of bytes of link layer packets received via this face. This counter is initialized to zero when the face is established, and can wrap around after overflowing unsigned 64-bit integer range. * **NOutBytes** counts the number of bytes of link layer packets sent via this face. This counter is initialized to zero when the face is established, and can wrap around after overflowing unsigned 64-bit integer range. ### Query Operation The query operation allows one to retrieve a subset of face dataset that contains faces satisfying a filter. To run a query, the consumer should express an Interest with Name: `ndn:/localhost/nfd/faces/query/<filter>`, where `<filter>` is a **FaceQueryFilter** block that specifies zero or more conditions. FaceQueryFilter ::= FACE-QUERY-FILTER-TYPE TLV-LENGTH FaceId? UriScheme? Uri? LocalUri? FaceScope? FacePersistency? LinkType? UriScheme ::= URI-SCHEME-TYPE TLV-LENGTH string in UTF-8 * **FaceId** permits a face if its FaceId equals the value * **UriScheme** permits a face if the scheme part of its local FaceUri or remote FaceUri equals the value * **Uri** permits a face if its remote FaceUri equals the value * **LocalUri** permits a face if its local FaceUri equals the value * **FaceScope** permits a face if its *FaceScope* attribute equals the value * **FacePersistency** permits a face if its *FacePersistency* attribute equals the value * **LinkType** permits a face if its *LinkType* attribute equals the value A face must satisfy ALL conditions to satisfy the filter. Faces that satisfy the filter are represented by **FaceStatus** blocks, and published as a [[StatusDataset]] under the Interest Name (a Data packet's Name would be `ndn:/localhost/nfd/faces/query/<filter>/<version>/<segment>`). Examples of filters: * a specific face: `FaceId=260` * a specific TCP tunnel: `Uri=tcp4://192.0.2.1:6363` (note: FaceUri must precisely match the canonical form: use either "tcp4" or "tcp6" instead of "tcp", use IP address instead of domain name, include port number) * all TCP tunnels: `UriScheme=tcp` (note: "tcp" permits both "tcp4" and "tcp6", "udp" permits both "udp4" and "udp6") * all UDP multi-access faces: `UriScheme=udp` && `LinkType=multi-access` * all Ethernet faces: `UriScheme=ether` (note: UriScheme matches against both local and remote FaceUri, "dev" also works) * all faces: no condition (note: this is equivalent to face dataset, and face dataset should be preferred for this purpose) ## Channel Dataset Description of all active channels is published as a [[StatusDataset|Status Dataset]] at `ndn:/localhost/nfd/faces/channels`. Each channel is represented by a **ChannelStatus** block: ChannelStatus := CHANNEL-STATUS-TYPE TLV-LENGTH LocalUri * **LocalUri** is a FaceUri representing local endpoint. ## Face Status Change Notification Face status change events are published as a [[Notification|Notification Stream]] at `ndn:/localhost/nfd/faces/events`. Notifications of all faces are sent into the same notification stream. The Content of each notification Data packet is a `FaceEventNotification` block: FaceEventNotification ::= FACE-EVENT-NOTIFICATION-TYPE TLV-LENGTH FaceEventKind FaceId Uri LocalUri FaceScope FacePersistency LinkType Flags FaceEventKind ::= FACE-EVENT-KIND-TYPE TLV-LENGTH nonNegativeInteger **FaceEventKind** indicates the kind of event. Its possible values are: * **1**: face is created * **2**: face is destroyed * **3**: face goes UP (from DOWN state) * **4**: face goes DOWN (from UP state) ## TLV-TYPE assignments Type | Assigned value | Assigned value (hex) ------------------------------------------- | ----------------- | -------------------- FaceStatus | 128 | 0x80 LocalUri | 129 | 0x81 ChannelStatus | 130 | 0x82 UriScheme | 131 | 0x83 FaceScope | 132 | 0x84 FacePersistency | 133 | 0x85 LinkType | 134 | 0x86 BaseCongestionMarkingInterval | 135 | 0x87 DefaultCongestionThreshold | 136 | 0x88 NInInterests | 144 | 0x90 NInData | 145 | 0x91 NInNacks | 151 | 0x97 NOutInterests | 146 | 0x92 NOutData | 147 | 0x93 NOutNacks | 152 | 0x98 NInBytes | 148 | 0x94 NOutBytes | 149 | 0x95 FaceQueryFilter | 150 | 0x96 FaceEventNotification | 192 | 0xc0 FaceEventKind | 193 | 0xc1 (reserved, formerly FaceFlags) | 194 | 0xc2