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Forward Protocol Specification v1

Satoshi "Moris" Tagomori edited this page Dec 7, 2017 · 6 revisions

Fluentd Forward Protocol Specification (v1)

This is a protocol specification for Fluentd forward input/output plugins. This protocol is also used by fluent-logger software, and many other software in ecosystem (e.g., Docker logging driver for Fluentd).

This protocol version is v1. This spec is supported by Fluentd v0.14 (v0.14.5 and later), and v1. Protocol version v0 is supported by v0.10 and v0.12, and protocol version v1 is compatible with v0 (All implementations which supports v1 also supports v0).

Changes

  • September 6, 2016: the first release of this spec.
  • September 12, 2016: fix inconsistent specification about EventTime.

Major Changes Between v0 and v1

  • Handshake phase added
  • "compress" option and CompressedPackedForward mode added
  • SSL/TLS transport layer handling added

Abstract

This specification describes the fluentd forward protocol, which is used to authenticate/authorize clients/servers, and to transport events from hosts to hosts over network.

Terminology

The keywords "MUST", "MUST NOT", "SHOULD", "SHOULD NOT" and "MAY" in this document are to be interpreted as described in RFC 2119. The following terms are also used:

  • event: a virtual set of tag, time and record. tag MAY be shared by 2 or more events in actual representation if these events have same tag.
  • client: an endpoint that sends events. out_forward plugin is the reference client implementation shipped with the fluentd distribution.
  • server: an endpoint that receives events. in_forward plugin is the reference server implementation shipped with the fluentd distribution.
  • connection: a TCP connection between two endpoints.
  • msgpack: a light weight binary representation of serialized objects.

Protocol Specification

Heartbeat Message

  • Client MAY send UDP packets to the same port of connection, to check existence of Servers.
  • Server SHOULD listen the same port of data transport connection in UDP, and SHOULD respond to source address when heartbeat message arrived.

UDP heartbeat message SHOULD be a byte of 0x00 in both of Client and Server.

Network Transport Protocol

  • Server MUST listen any TCP port for data transport connection, and MAY be able to establish SSL/TLS session on that connection.
  • Client MUST be able to connect to servers via TCP, and MAY connect to servers using SSL/TLS.

Connection Phases

Connections have two phases on each sessions.

  1. Handshake(optional): In this phase, servers and clients send messages each other to establish connections after authentication and authorization. It can be skipped when server doesn't require it.
  2. Transport: In this phase, clients send events to servers, and servers send response messages if client require it.

Once handshake phase completes, clients can use that connection in transport phase until disconnection.

Handshake phase is optional. If server doesn't require authentication/authorization, connection becomes transport phase immediately, and client can send events without any preparation.

Fluentd Forward Client

  • Client sends a msgpack array which contains handshake messages, or one or more events to the server through connections.
  • Client MUST respond to the server for authentication/authorization messages in handshake phase by sending PING described below.
  • Client MUST disconnect the connection if authentication operation fails.
  • Client MUST choose a carrier mode for events from four: Message, Forward, PackedForward and CompressedPackedForward described below.
  • Client MAY send a msgpack nil value for heartbeat health check usage without any event record payload.
  • Client MAY send multiple msgpack arrays of events in transport phase on a single connection, continuously.

Fluentd Forward Server

  • Server MUST receive msgpack arrays which contains handshake messages, or one or more events, from the client through connections.
  • Server MAY disconnect the connection when it has network/domain ACL (access control list) and the client is not allowed by ACL.
  • Server MAY send HELO and PONG messages in handshake phase to the client for authentication and authorization.
  • Server MUST disconnect the connection if authentication/authorization operation fails.
  • Server MUST detect the carrier mode by inspecting the second element of the array.
  • Server SHOULD ignore any request value other than array format.
  • Note: In addition to the four carrier modes, in_forward plugin also accepts JSON representation of a single event for convenience. It detect it by the first byte of the request. It is unavailable with authentication/authorization.

Handshake Messages

Handshake messages are to establish connections with assurance for:

  • Server and client share the same key (shared_key string) for the connection.
  • Client has correct username and password for the connection (if required by server).

All handshake messages are msgpack arrays which contains values described below. The first element of these messages MUST show the types of messages.

Authentication and Authorization

  • Authentication: Both server and client authenticate the peer node by having same shared_key string. (required)
  • Authorization: Server authorize client by having valid username and password pair. (optional)

Some values are used to implement authentication/authorization, and these are shared by server and client in handshake phase.

  • nonce is generated by server, sent in HELO and used to generate shared_key_hexdigest in PING and PONG
  • shared_key_salt is generated by client, send in PING and used to generate shared_key_hexdigest in PING and PONG
  • auth salt is generated by server, sent in HELO and used to generate password (hexdigest) in PING

HELO

HELO message is sent from server to client.

  • type is a string, equals to HELO.
  • options is key-value pairs to tell options enabled in the connection to the client.
name Ruby type msgpack format content
type String str "HELO"
options Hash map described below

HELO options has some keys and values described below.

name Ruby type msgpack format content
nonce String str|bin a binary string of nonce to generate digest in PING message
auth String str|bin a binary string of salt to generate digest for user authentication (authentication not required if it's empty)
keepalive true|false bool (optional) server disallow long life connections if false (default: true)
[
  "HELO",
  {
    "nonce": "xxxxxxx",
    "auth": "yyyyyyyy",
    "keepalive": true
  }
]

NOTE: HELO is inspired by the command to start SMTP sessions.

PING

PING message is sent from client to server after HELO.

  • type is a string, equals to PING.
  • client_hostname is a string represents the hostname of client.
  • shared_key_salt is a binary string of salt to generate shared_key_digest.
  • shared_key_hexdigest is a hex string of SHA512 digest of shared_key_salt, client_hostname, nonce and share_key.
  • username is a username string for the connection, or empty string if authentication is not required.
  • password is a hex string of SHA512 digest of auth salt, username and raw password string, or empty string if authentication is not required.
name Ruby type msgpack format content
type String str "PING"
client_hostname String str FQDN hostname of client
shared_key_salt String str|bin a salt binary(String)
shared_key_hexdigest String str sha512_hex(shared_key_salt + client_hostname + nonce + shared_key)
username String str a username or empty string
password String str sha512_hex(auth_salt + username + raw_password) or empty string
[
  "PING",
  "client.hostname.example.com",
  "xxxxxxx_shared_key_salt",
  "deadbeef_shared_key_hex_digest",
  "a_user_name",
  "c0ffee_password_hex_digest"
]

PONG

PONG message is sent from server to client after PING.

  • type is a string, equals to PONG.
  • auth_result is a boolean value to represent result of authentication/authorization (true means success).
  • reason is a strong to show the reason why client is disallowed, or empty string if auth_result is true.
  • server_hostname is a string represents the hostname of server.
  • shared_key_hexdigest is a hex string of SHA512 digest of shared_key_salt, server_hostname, nonce and shared_key.
name Ruby type msgpack format content
type String str "PONG"
auth_result true|false bool auth succeeded or not
reason String str reason why auth failed, or ''
server_hostname String str FQDN hostname of server
shared_key_hexdigest String str sha512_hex(shared_key_salt + server_hostname + nonce + shared_key)
[
  "PONG",
  true,
  "",
  "server.hostname.example.com",
  "deadbeef_shared_key_hex_digest"
]

If auth_result is false, server will disconnect the connection. Otherwise, client can use the connection in transport phase.

Event Modes

Once the connection becomes transport phase, client can send events to servers, in one event mode of modes described below.

Message Modes

It carries just a event.

  • tag is a string separated with '.' (e.g. myapp.access) to categorize events.
  • time is a EventTime value (described below), or a number of seconds since Unix epoch.
  • record is key-value pairs of the event record.
  • option is optional key-value pairs, to bring data to control servers' behavior.
name Ruby type msgpack format content
tag String str tag name
time EventTime|Integer ext|int time from Unix epoch in nanosecond precision(EventTime), or in second precision (Integer)
record Hash map pairs of keys(String) and values(Object)
option Hash map option (optional)
[
  "tag.name",
  1441588984,
  {"message": "bar"},
  {"option": "optional"}
]

NOTE: EventTime is formatted into Integer in json format.

Forward Mode

It carries a series of events as a msgpack array on a single request.

name Ruby type msgpack format content
tag String str tag name
entries MultiEventStream array list of Entry
option Hash map option (optional)
[
  "tag.name",
  [
    [1441588984, {"message": "foo"}],
    [1441588985, {"message": "bar"}],
    [1441588986, {"message": "baz"}]
  ],
  {"option": "optional"}
]

PackedForward Mode

It carries a series of events as a msgpack binary on a single request.

  • entries is a binary chunk of MessagePackEventStream which contains multiple raw msgpack representations of Entry.
  • Client SHOULD send a MessagePackEventStream as msgpack bin format as its binary representation.
  • Client MAY send a MessagePackEventStream as msgpack str format for compatibility reasons.
  • Server MUST accept both formats of bin and str.
  • Server MAY decode individual events on demand but MAY NOT do right after request arrival. It means it MAY costs less, compared to Forward mode, when decoding is not needed by any plugins.
  • Note: out_forward plugin sends events by the PackedForward mode. It encloses event records with msgpack str format instead of bin format for a backward compatibility reason.
name Ruby type msgpack format content
tag String str tag name
entries MessagePackEventStream bin|str msgpack stream of Entry
option Hash map option (optional)
[
  "tag.name",
  "<<MessagePackEventStream>>",
  {"option": "optional"}
]

Note for v2 protocol: PackedForward messages should be sent in bin format.

CompressedPackedForward Mode

It carries a series of events as a msgpack binary, compressed by gzip, on a single request. The supported compression algorithm is only gzip.

  • entries is a gzipped binary chunk of MessagePackEventStream, which MAY be a concatenated binary of multiple gzip binary strings.
  • Client MUST send an option with compressed key with the value gzip.
  • Client MUST send a gzipped chunk as msgpack bin format.
  • Server MUST accept bin format.
  • Server MAY decompress and decode individual events on demand but MAY NOT do right after request arrival. It means it MAY costs less, compared to Forward mode, when decoding is not needed by any plugins.
name Ruby type msgpack format content
tag String str tag name
entries CompressedMessagePackEventStream bin gzipped msgpack stream of Entry
option Hash map option including key "compressed" (required)
[
  "tag.name",
  "<<CompressedMessagePackEventStream>>",
  {"compressed": "gzip"}
]

Entry

Entry is an array representation of pairs of time and record, used in Forward, PackedForward and CompressedPackedForward mode.

name Ruby type msgpack format content
time EventTime|Integer ext|int time from Unix epoch in nanosecond precision(EventTime), or in second precision (Integer)
record Hash map pairs of keys(String) and values(Object)

Option

It carries an optional meta data for the request.

  • Client MAY send key-value pairs of options.
  • Server MAY just ignore any options given.
  • size: Clients MAY send the size option to show the number of event records in an entries by an integer as a value. Server can know the number of events without unpacking entries (especially for PackedForward and CompressedPackedForward mode).
  • chunk: Clients MAY send the chunk option to confirm the server receives event records. The value is a string of Base64 representation of 128 bits unique_id which is an ID of a set of events.
  • compressed: Clients MUST send the compressed option with value gzip to tell servers that entries is CompressedPackedForward. Other values will be ignored.
{"chunk": "p8n9gmxTQVC8/nh2wlKKeQ==", "size": 4097}
{"chunk": "p8n9gmxTQVC8/nh2wlKKeQ==", "size": 1023, "compressed": "gzip"}

Response

  • Server SHOULD close the connection silently with no response when the chunk option is not sent.
  • ack: Server MUST respond ack when the chunk option is sent by client. The ack response value MUST be the same value given by chunk option from client. Client SHOULD retry to send events later when the request has a chunk but the response has no ack.
{"ack": "p8n9gmxTQVC8/nh2wlKKeQ=="}

EventTime Ext Format

EventTime uses msgpack extension format of type 0 to carry nanosecond precision of time.

  • Client MAY send EventTime instead of plain integer representation of second since unix epoch.
  • Server SHOULD accept both formats of integer and EventTime.
  • Binary representation of EventTime may be fixext or ext(with length 8).
+-------+----+----+----+----+----+----+----+----+----+
|     1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | 10 |
+-------+----+----+----+----+----+----+----+----+----+
|    D7 | 00 | second from epoch |     nanosecond    |
+-------+----+----+----+----+----+----+----+----+----+
|fixext8|type| 32bits integer BE | 32bits integer BE |
+-------+----+----+----+----+----+----+----+----+----+

+--------+----+----+----+----+----+----+----+----+----+----+
|      1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | 10 | 11 |
+--------+----+----+----+----+----+----+----+----+----+----+
|     C7 | 08 | 00 | second from epoch |     nanosecond    |
+--------+----+----+----+----+----+----+----+----+----+----+
|   ext8 | len|type| 32bits integer BE | 32bits integer BE |
+--------+----+----+----+----+----+----+----+----+----+----+

Grammar

  • Name? means that Name is optional.
  • Name* means that Name can occur zero or more times.
  • <<Name>> means binary msgpack representation of Name.
  • [ A, B, C ] means an array.
  • nil, string, integer and object means as it is.
Connection ::= <<Request>>*

Request ::= Message | Forward | PackedForward | nil

Message ::= [ Tag, Time, Record, Option? ]

Forward ::= [ Tag, MultiEventStream, Option? ]

MultiEventStream ::= [ Event* ]

PackedForward ::= [ Tag, MessagePackEventStream, Option? ]

MessagePackEventStream ::= <<Event>>*

Event ::= [ Time, Record ]

Tag ::= string

Time ::= integer | EventTime

Record ::= object

Option ::= object