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author | Bryan Newbold <bnewbold@robocracy.org> | 2018-03-18 23:57:56 -0700 |
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committer | Bryan Newbold <bnewbold@robocracy.org> | 2018-06-09 18:12:45 -0700 |
commit | 27d1cdc77676d5db996db6c3504f8ff3d6de159c (patch) | |
tree | 63203af13d21ee2cfe25dd293a7e0d1cd2bb9271 /proposals | |
parent | fc894b547e6eaeea37420bb902e62695b341cb1c (diff) | |
download | dat-deps-27d1cdc77676d5db996db6c3504f8ff3d6de159c.tar.gz dat-deps-27d1cdc77676d5db996db6c3504f8ff3d6de159c.zip |
work in progress on multi-writer DEP
Diffstat (limited to 'proposals')
-rw-r--r-- | proposals/0000-multiwriter.md | 158 |
1 files changed, 133 insertions, 25 deletions
diff --git a/proposals/0000-multiwriter.md b/proposals/0000-multiwriter.md index ec5d2d3..a9b8542 100644 --- a/proposals/0000-multiwriter.md +++ b/proposals/0000-multiwriter.md @@ -7,7 +7,7 @@ Type: Standard Status: Undefined (as of 2018-03-XX) -Github PR: (add HTTPS link here after PR is opened) +Github PR: [Draft](https://github.com/datprotocol/DEPs/pull/10) Authors: [Bryan Newbold](https://github.com/bnewbold), @@ -18,21 +18,24 @@ Authors: # Summary [summary]: #summary -Multi-Writer is a set of schema, API, and feature extentions to multiple agents -(users, devices, or software) to write to the same HyperDB feed. By building on -top of this abstraction layer, future versions of hyperdrive and Dat will gain -these features. +Multi-Writer is a set of schema, API, and feature extentions to allow multiple +agents (users, devices, or software) to write to the same hyperdb database. By +building on top of this abstraction layer, future versions of hyperdrive and +Dat will gain these features. Mechanisms for distributed consistency and granting trust are specified here; the need for merge conflict algorithms and secure key distribution are mentioned but specific solutions are not specified. +This DEP forms the second half of the hyperdb specification; the first half +covered only the key/value database aspects of hyperdb. + # Motivation [motivation]: #motivation -The current hypercore/Dat ecosystem currently lacks solutions two fundamental -use cases: +The current hypercore/Dat ecosystem currently lacks solutions for two +fundamental use cases: - individual users should be able to modify distributed archives under their control from multiple devices, at a minimum to prevent loss of control of @@ -51,35 +54,133 @@ Solutions to these two use cases are seen as essential for many current and future Dat ecosystem applications. -# Semantics and Usage +# Concepts, Behavior, and Usage [usage-documentation]: #usage-documentation -TODO: semantics, terminology +The multi-writer features of hyperdb are implemented by storing and replicating +the contributions of each writer in a separate hypercore feed. This +specification concerns itself with the details of how changes from multiple +feeds (which may be written and replicated concurrently or asynchronously) are +securely combined to present a unified key/value interface. + +The following related concerns are explicitly left to application developers to +design and implement: + +- secure key distribution and authentication (eg, if a friend should be given + write access to a hyperdb database, how is that friend's feed key found and + verified?) +- merge conflict resolution, potentially using application-layer semantics + +Before we go any further, a few definitions: + +*Feed*: A hypercore feed: an append-only log of *Entries*, which can be +arbitrary data blobs. Hyperdb is built on top of several Feeds. + +*Writer*: a user (or user controlled device or software agent) that has a +distinct feed with a public/private key pair, and thus the ability to append +hypercore entries and "write" changes to their version of the database. + +*Original Writer*: the writer who created a given hyperdb database in the form +of the *Original Feed*. The public key of the original feed is the one used to +reference the database as a collection of feeds (eg, for the purpose of +discovery). + +At a high level, multi-writer hyperdb works by having existing authorized +writers (starting with the original writer) include authorization of new +writers by appending metadata to their own feed which points to the new feeds +(by public key). Each entry in each writer's feed contains "clock" metadata +that records the known state of the entire database (all writers) seen from the +perspective of that writer at the time they created the entry, in the form of +"clock" version pointers. This metadata (a "[vector clock][vc]") can be used by +other writers to resolve (or at least identify) conflicting content in the +database. The technical term for this type of system is a "Conflict-free +replicated data type" ([CRDT][crdt]). + +[vc]: https://en.wikipedia.org/wiki/Vector_clock +[crdt]: https://en.wikipedia.org/wiki/Conflict-free_replicated_data_type + + +## API +[api]: #api + +The `db.get(key)` method described in the [hyperdb DEP][dep-hyperdb] actually +returns an array of values. If it is unambiguous what the consistent value is, +the array will have only that one value. If there is a conflict, multiple +values will be returned. If multiple values are returned, the writer should +attempt to merge the values (or chose one over the other) and write the result +to the database with `db.put(key, value)`. + +`db.authorize(key)` will write metadata to the local feed authorizing the new +feed (corresponding to `key`) to be included in the database. -TODO: things left to application developers (secure key distribution, non-trivial merge resolution) +<!-- TODO: update link --> +[dep-hyperdb]: https://github.com/bnewbold/dat-deps/blob/dep-hyperdb/proposals/0000-hyperdb.md -TODO: brief note on scaling properties (eg, reasonable numbers of feeds per database) + +## Scaling +[scaling]: #scaling + +TODO: brief note on scaling properties (eg, reasonable numbers of writers per +database) # Implementation [reference-documentation]: #reference-documentation -The protobuf schema fields of interest for multi-writer (from the "Node" -message type specified in the HyperDB DEP) are: +The complete protobuf schemas for the hyperdb "Entry" and "InflatedEntry" +message types (as specified in the hyperdb DEP) are: + + +``` +message Entry { + required string key = 1; + optional bytes value = 2; + required bytes trie = 3; + repeated uint64 clock = 4; + optional uint64 inflate = 5; +} + +message InflatedEntry { + message Feed { + required bytes key = 1; + } + + required string key = 1; + optional bytes value = 2; + required bytes trie = 3; + repeated uint64 clock = 4; + optional uint64 inflate = 5; + repeated Feed feeds = 6; + optional bytes contentFeed = 7; +} +``` + +The fields of interest for multi-writer are: + +- `clock`: a "vector clock" to record observed state at the time of writing the + entry. Included in every Entry and InflatedEntry. +- `inflate`: a back-pointer to the entry index of the most recent InflatedEntry + (containing a feed metadata change). Included in every Entry and + InflatedEntry. +- `feeds`: list of public keys for each writer's feed. Only included in + InflatedEntry, and only when feeds have changed. + +When serialized on disk in a SLEEP directory, the original feed is written +under `./source/`. If the "local" feed is different from the original feed, it +is written to `./local/`. All other feeds are written under directories +prefixed `./peers/<feed-discovery-key>/`. -- `seq`: the sequence number of this entry in the owner's hypercore. 0 is the - first, 1 the second, and so forth. -- `feed`: the ID of the hypercore writer that wrote this -- `clock`: vector clock to determine node insertion causality +TODO: the above disk format is incorrect? ## Directed acyclic graph +[dag]: #dag -The combination of all operations performed on a HyperDB by all of its members +The combination of all operations performed on a hyperdb by all of its members forms a DAG (*directed acyclic graph*). Each write to the database (setting a key to a value) includes information to point backward at all of the known "heads" in the graph. -To illustrate what this means, let's say Alice starts a new HyperDB and writes 2 +To illustrate what this means, let's say Alice starts a new hyperdb and writes 2 values to it: ``` @@ -97,7 +198,7 @@ Alice: 0 <--- 1 Where sequence number 1 (the second entry) refers to sequence number 0 on the same feed (Alice's). -Now Alice *authorizes* Bob to write to the HyperDB. Internally, this means Alice +Now Alice *authorizes* Bob to write to the hyperdb. Internally, this means Alice writes a special message to her feed saying that Bob's feed (identified by his public key) should be read and replicated in by other participants. Her feed becomes @@ -218,7 +319,11 @@ TODO: # Drawbacks [drawbacks]: #drawbacks -TODO: Why should we *not* do this? +Significant increase in implementation, application, and user experience +complexity. + +Two hard problems (merges and secure key distribution) are left to application +developers. # Rationale and alternatives @@ -234,11 +339,14 @@ TODO: # Unresolved questions [unresolved]: #unresolved-questions -TODO: +What is the technical term for the specific CRDT we are using? +"Operation-based"? + +If there are conflicts resulting in ambiguity of whether a key has been deleted +or has a new value, does `db.get(key)` return an array of `[new_value, None]`? -- What parts of the design do you expect to resolve through the DEP consensus process before this gets merged? -- What parts of the design do you expect to resolve through implementation and code review, or are left to independent library or application developers? -- What related issues do you consider out of scope for this DEP that could be addressed in the future independently of the solution that comes out of this DEP? +What is a reasonable large number of writers to have in a single database? +Write "Scaling" section. # Changelog |