Specs
Status Community History Service
R
r4bbit
and
S
J
on Sep 12, 2024

Messages are stored permanently by store nodes (13/WAKU2-STORE) for up to a certain configurable period of time, limited by the overall storage provided by a store node. Messages older than that period are no longer provided by store nodes, making it impossible for other nodes to request historical messages that go beyond that time range. This raises issues in the case of Status communities, where recently joined members of a community are not able to request complete message histories of the community channels.

This specification describes how Control Nodes (which are specific nodes in Status communities) archive historical message data of their communities, beyond the time range limit provided by Store Nodes using the BitTorrent protocol. It also describes how the archives are distributed to community members via the Status network, so they can fetch them and gain access to a complete message history.

The following terminology is used throughout this specification. Notice that some actors listed here are nodes that operate in Waku networks only, while others operate in the Status communities layer):

NameReferences
Waku nodeAn Waku node (10/WAKU2) that implements 11/WAKU2-RELAY
Store nodeA Waku node that implements 13/WAKU2-STORE
Waku networkA group of Waku nodes forming a graph, connected via 11/WAKU2-RELAY
Status userAn Status account that is used in a Status consumer product, such as Status Mobile or Status Desktop
Status nodeA Status client run by a Status application
Control nodeA Status node that owns the private key for a Status community
Community memberA Status user that is part of a Status community, not owning the private key of the community
Community member nodeA Status node with message archive capabilities enabled, run by a community member
Live messagesWaku messages received through the Waku network
BitTorrent clientA program implementing the BitTorrent protocol
Torrent/Torrent fileA file containing metadata about data to be downloaded by BitTorrent clients
Magnet linkA link encoding the metadata provided by a torrent file (Magnet URI scheme)

This specification has the following assumptions:

  • Store nodes(13/WAKU2-STORE) are available 24/7, ensuring constant live message availability.
  • The storage time range limit is 30 days.
  • Store nodes have enough storage to persist historical messages for up to 30 days.
  • No store nodes have storage to persist historical messages older than 30 days.
  • All nodes are honest.
  • The network is reliable.

Furthermore, it assumes that:

  • Control nodes have enough storage to persist historical messages older than 30 days.
  • Control nodes provide archives with historical messages at least every 30 days.
  • Control nodes receive all community messages.
  • Control nodes are honest.
  • Control nodes know at least one store node from which it can query historical messages.

These assumptions are less than ideal and will be enhanced in future work. This forum discussion provides more details.

The following is a high-level overview of the user flow and features this specification describes. For more detailed descriptions, read the dedicated sections in this specification.

Control nodes go through the following (high level) process to provide community members with message histories:

  1. 1
    Community owner creates a Status community (previously known as org channels) which makes its node a Control node.
  2. 2
    Community owner enables message archive capabilities (on by default but can be turned off as well - see UI feature spec).
  3. 3
    A special type of channel to exchange metadata about the archival data is created, this channel is not visible in the user interface.
  4. 4
    Community owner invites community members.
  5. 5
    Control node receives messages published in channels and stores them into a local database.
  6. 6
    After 7 days, the control node exports and compresses last 7 days worth of messages from database and bundles it together with a message archive index into a torrent, from which it then creates a magnet link (Magnet URI scheme, Extensions for Peers to Send Metadata Files).
  7. 7
    Control node sends the magnet link created in step 6 to community members via special channel created in step 3 through the Waku network.
  8. 8
    Every subsequent 7 days, steps 6 and 7 are repeated and the new message archive data is appended to the previously created message archive data.

If the control node goes offline (where "offline" means, the control node's main process is no longer running), it MUST go through the following process:

  1. 1
    Control node restarts
  2. 2
    Control node requests messages from store nodes for the missed time range for all channels in their community
  3. 3
    All missed messages are stored into control node's local message database
  4. 4
    If 7 or more days have elapsed since the last message history torrent was created, the control node will perform step 6 and 7 of Serving community history archives for every 7 days worth of messages in the missed time range (e.g. if the node was offline for 30 days, it will create 4 message history archives)

Community member nodes go through the following (high level) process to fetch and restore community message histories:

  1. 1
    User joins community and becomes community member (see org channels spec)
  2. 2
    By joining a community, member nodes automatically subscribe to special channel for message archive metadata exchange provided by the community
  3. 3
    Member node requests live message history (last 30 days) of all the community channels including the special channel from store nodes
  4. 4
    Member node receives Waku message (14/WAKU2-MESSAGE) that contains the metadata magnet link from the special channel
  5. 5
    Member node extracts the magnet link from the Waku message and passes it to torrent client
  6. 6
    Member node downloads message archive index file and determines which message archives are not downloaded yet (all or some)
  7. 7
    Member node fetches missing message archive data via torrent
  8. 8
    Member node unpacks and decompresses message archive data to then hydrate its local database, deleting any messages for that community that the database previously stored in the same time range as covered by the message history archive

For archival data serving, the control node MUST store live messages as 14/WAKU2-MESSAGE. This is in addition to their database of application messages. This is required to provide confidentiality, authenticity, and integrity of message data distributed via the BitTorrent layer, and later validated by community members when they unpack message history archives.

Control nodes SHOULD remove those messages from their local databases once they are older than 30 days and after they have been turned into message archives and distributed to the BitTorrent network.

Control nodes export Waku messages from their local database for creating and bundling history archives using the following criteria:

  • Waku messages to be exported MUST have a contentTopic that match any of the topics of the community channels
  • Waku messages to be exported MUST have a timestamp that lies within a time range of 7 days

The timestamp is determined by the context in which the control node attempts to create a message history archives as described below:

  1. 1
    The control node attempts to create an archive periodically for the past seven days (including the current day). In this case, the timestamp has to lie within those 7 days.
  2. 2
    The control node has been offline (control node's main process has stopped and needs restart) and attempts to create archives for all the live messages it has missed since it went offline. In this case, the timestamp has to lie within the day the latest message was received and the current day.

Exported messages MUST be restored as 14/WAKU2-MESSAGE for bundling. Waku messages that are older than 30 days and have been exported for bundling can be removed from the control node's database (control nodes still maintain a database of application messages).

Message history archives are represented as WakuMessageArchive and created from Waku messages exported from the local database. Message history archives are implemented using the following protocol buffer.

The from field SHOULD contain a timestamp of the time range's lower bound. The type parallels the timestamp of WakuMessage.

The to field SHOULD contain a timestamp of the time range's the higher bound.

The contentTopic field MUST contain a list of all communiity channel topics.

The messages field MUST contain all messages that belong into the archive given its from, to and contentTopic fields.

The padding field MUST contain the amount of zero bytes needed so that the overall byte size of the protobuf encoded WakuMessageArchive is a multiple of the pieceLength used to divide the message archive data into pieces. This is needed for seamless encoding and decoding of archival data in interation with BitTorrent as explained in creating message archive torrents.

syntax = "proto3"

message WakuMessageArchiveMetadata {
  uint8 version = 1
  uint64 from = 2
  uint64 to = 3
  repeated string contentTopic = 4
}

message WakuMessageArchive {
  uint8 version = 1
  WakuMessageArchiveMetadata metadata = 2
  repeated WakuMessage messages = 3 // `WakuMessage` is provided by 14/WAKU2-MESSAGE
  bytes padding = 4
}

Control nodes MUST provide message archives for the entire community history. The entirey history consists of a set of WakuMessageArchive's where each archive contains a subset of historical WakuMessages for a time range of seven days. All the WakuMessageArchives are concatenated into a single file as a byte string (see Ensuring reproducible data pieces).

Control nodes MUST create a message history archive index (WakuMessageArchiveIndex) with metadata that allows receiving nodes to only fetch the message history archives they are interested in.

A WakuMessageArchiveIndex is a map where the key is the KECCAK-256 hash of the WakuMessageArchiveIndexMetadata derived from a 7-day archive and the value is an instance of that WakuMessageArchiveIndexMetadata corresponding to that archive.

The offset field MUST contain the position at which the message history archive starts in the byte string of the total message archive data. This MUST be the sum of the length of all previously created message archives in bytes (see Creating message archive torrents).

syntax = "proto3"

message WakuMessageArchiveIndexMetadata {
  uint8 version = 1
  WakuMessageArchiveMetadata metadata = 2
  uint64 offset = 3
  uint64 num_pieces = 4
}

message WakuMessageArchiveIndex {
  map<string, WakuMessageArchiveIndexMetadata> archives = 1
}

The control node MUST update the WakuMessageArchiveIndex every time it creates one or more WakuMessageArchives and bundle it into a new torrent. For every created WakuMessageArchive, there MUST be a WakuMessageArchiveIndexMetadata entry in the archives field WakuMessageArchiveIndex.

Control nodes MUST create a torrent file ("torrent") containing metadata to all message history archives. To create a torrent file, and later serve the message archive data in the BitTorrent network, control nodes MUST store the necessary data in dedicated files on the file system.

A torrent's source folder MUST contain the following two files:

  • data - Contains all protobuf encoded WakuMessageArchive's (as bit strings) concatenated in ascending order based on their time
  • index - Contains the protobuf encoded WakuMessageArchiveIndex

Control nodes SHOULD store these files in a dedicated folder that is identifiable via the community id.

The control node MUST ensure that the byte string resulting from the protobuf encoded data is equal to the byte string data from the previously generated message archive torrent, plus the data of the latest 7 days worth of messages encoded as WakuMessageArchive. Therefore, the size of data grows every seven days as it's append only.

The control nodes also MUST ensure that the byte size of every individual WakuMessageArchive encoded protobuf is a multiple of pieceLength: ??? (TODO) using the padding field. If the protobuf encoded 'WakuMessageArchiveis not a multiple ofpieceLength, its paddingfield MUST be filled with zero bytes and theWakuMessageArchiveMUST be re-encoded until its size becomes multiple ofpieceLength`.

This is necessary because the content of the data file will be split into pieces of pieceLength when the torrent file is created, and the SHA1 hash of every piece is then stored in the torrent file and later used by other nodes to request the data for each individual data piece.

By fitting message archives into a multiple of pieceLength and ensuring they fill possible remaining space with zero bytes, control nodes prevent the next message archive to occupy that remaining space of the last piece, which will result in a different SHA1 hash for that piece.

Let WakuMessageArchive "A1" be of size 20 bytes:

 0 11 22 33 44 55 66 77 88 99
10 11 12 13 14 15 16 17 18 19 

With a pieceLength of 10 bytes, A1 will fit into 20 / 10 = 2 pieces:

 0 11 22 33 44 55 66 77 88 99 // piece[0] SHA1: 0x123
10 11 12 13 14 15 16 17 18 19 // piece[1] SHA1: 0x456

Let WakuMessageArchive "A2" be of size 21 bytes:

 0 11 22 33 44 55 66 77 88 99
10 11 12 13 14 15 16 17 18 19
20

With a pieceLength of 10 bytes, A2 will fit into 21 / 10 = 2 pieces. The remainder will introduce a third piece:

 0 11 22 33 44 55 66 77 88 99 // piece[0] SHA1: 0x123
10 11 12 13 14 15 16 17 18 19 // piece[1] SHA1: 0x456
20                            // piece[2] SHA1: 0x789

The next WakuMessageArchive "A3" will be appended ("#3") to the existing data and occupy the remaining space of the third data piece. The piece at index 2 will now produce a different SHA1 hash:

 0 11 22 33 44 55 66 77 88 99 // piece[0] SHA1: 0x123
10 11 12 13 14 15 16 17 18 19 // piece[1] SHA1: 0x456
20 #3 #3 #3 #3 #3 #3 #3 #3 #3 // piece[2] SHA1: 0xeef
#3 #3 #3 #3 #3 #3 #3 #3 #3 #3 // piece[3]

By filling up the remaining space of the third piece with A2 using its padding field, it is guaranteed that its SHA1 will stay the same:

 0 11 22 33 44 55 66 77 88 99 // piece[0] SHA1: 0x123
10 11 12 13 14 15 16 17 18 19 // piece[1] SHA1: 0x456
20  0  0  0  0  0  0  0  0  0 // piece[2] SHA1: 0x999
#3 #3 #3 #3 #3 #3 #3 #3 #3 #3 // piece[3]
#3 #3 #3 #3 #3 #3 #3 #3 #3 #3 // piece[4]

The control node MUST seed the generated torrent until a new WakuMessageArchive is created.

The control node SHOULD NOT seed torrents for older message history archives. Only one torrent at a time should be seeded.

Once a torrent file for all message archives is created, the control node MUST derive a magnet link following the Magnet URI scheme using the underlying BitTorrent protocol client.

Message archives are available via the BitTorrent network as they are being seeded by the control node. Other community member nodes will download the message archives from the BitTorrent network once they receive a magnet link that contains a message archive index.

The control node MUST send magnet links containing message archives and the message archive index to a special community channel. The topic of that special channel follows the following format:

/{application-name}/{version-of-the-application}/{content-topic-name}/{encoding}

All messages sent with this topic MUST be instances of ApplicationMetadataMessage (62/STATUS-PAYLOAD) with a payload of CommunityMessageArchiveIndex.

Only the control node MAY post to the special channel. Other messages on this specified channel MUST be ignored by clients. Community members MUST NOT have permission to send messages to the special channel. However, community member nodes MUST subscribe to special channel to receive Waku messages containing magnet links for message archives.

Only control nodes are allowed to distribute messages with magnet links via the special channel for magnet link exchange. Community members MUST NOT be allowed to post any messages to the special channel.

Status nodes MUST ensure that any message that isn't signed by the control node in the special channel is ignored.

Since the magnet links are created from the control node's database (and previously distributed archives), the message history provided by the control node becomes the canonical message history and single source of truth for the community.

Community member nodes MUST replace messages in their local databases with the messages extracted from archives within the same time range. Messages that the control node didn't receive MUST be removed and are no longer part of the message history of interest, even if it already existed in a community member node's database.

Generally, fetching message history archives is a three step process:

  1. 1
    Receive message archive index magnet link as described in [Message archive distribution], download index file from torrent, then determine which message archives to download
  2. 2
    Download individual archives

Community member nodes subscribe to the special channel that control nodes publish magnet links for message history archives to. There are two scenarios in which member nodes can receive such a magnet link message from the special channel:

  1. 1
    The member node receives it via live messages, by listening to the special channel
  2. 2
    The member node requests messages for a time range of up to 30 days from store nodes (this is the case when a new community member joins a community)

When member nodes receive a message with a CommunityMessageHistoryArchive (62/STATUS-PAYLOADS) from the aforementioned channnel, they MUST extract the magnet_uri and pass it to their underlying BitTorrent client so they can fetch the latest message history archive index, which is the index file of the torrent (see Creating message archive torrents).

Due to the nature of distributed systems, there's no guarantee that a received message is the "last" message. This is especially true when member nodes request historical messages from store nodes.

Therefore, member nodes MUST wait for 20 seconds after receiving the last CommunityMessageArchive before they start extracting the magnet link to fetch the latest archive index.

Once a message history archive index is downloaded and parsed back into WakuMessageArchiveIndex, community member nodes use a local lookup table to determine which of the listed archives are missing using the KECCAK-256 hashes stored in the index.

For this lookup to work, member nodes MUST store the KECCAK-256 hashes of the WakuMessageArchiveIndexMetadata provided by the index file for all of the message history archives that have been downlaoded in their local database.

Given a WakuMessageArchiveIndex, member nodes can access individual WakuMessageArchiveIndexMetadata to download individual archives.

Community member nodes MUST choose one of the following options:

  1. 1
    Download all archives - Request and download all data pieces for data provided by the torrent (this is the case for new community member nodes that haven't downloaded any archives yet)
  2. 2
    Download only the latest archive - Request and download all pieces starting at the offset of the latest WakuMessageArchiveIndexMetadata (this the case for any member node that already has downloaded all previous history and is now interested in only the latst archive)
  3. 3
    Download specific archives - Look into from and to fields of every WakuMessageArchiveIndexMetadata and determine the pieces for archives of a specific time range (can be the case for member nodes that have recently joined the network and are only interested in a subset of the complete history)

When message archives are fetched, community member nodes MUST unwrap the resulting WakuMessage instances into ApplicationMetadataMessage instances and store them in their local database. Community member nodes SHOULD NOT store the wrapped WakuMessage messages.

All message within the same time range MUST be replaced with the messages provided by the message history archive.

Community members nodes MUST ignore the expiration state of each archive message.

The following are things to cosider when implementing this specification.

This spec assumes that all control nodes are honest and behave according to the spec. Meaning they don't inject their own messages into, or remove any messages from historic archives.

Community member nodes will download the latest archive they've received from the archive index, which includes messages from the last seven days. Assuming that community members nodes were online for that time range, they have already downloaded that message data and will now download an archive that contains the same.

This means there's a possibility member nodes will download the same data at least twice.

It is possible for control nodes to export the private key of their owned community and pass it to other users so they become control nodes as well. This means, it's possible for multiple control nodes to exist.

This might conflict with the assumption that the control node serves as a single source of thruth. Multiple control nodes can have different message histories.

Not only will multiple control nodes multiply the amount of archive index messages being distributed to the network, they might also contain different sets of magnet links and their corresponding hashes.

Even if just a single message is missing in one of the histories, the hashes presented in archive indices will look completely different, resulting in the community member node to download the corresponding archive (which might be identical to an archive that was already downloaded, except for that one message).

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