diff --git a/docs.json b/docs.json index b00cce005..8ad9242ea 100644 --- a/docs.json +++ b/docs.json @@ -498,6 +498,12 @@ "foundations/messages/internal" ] }, + { + "group": "Network", + "pages": [ + "foundations/network/adnl" + ] + }, "foundations/status", "foundations/phases", "foundations/fees", @@ -516,7 +522,14 @@ "foundations/proofs/verifying-liteserver-proofs" ] }, - "foundations/consensus", + { + "group": "Consensus", + "pages": [ + "foundations/consensus/catchain-overview", + "foundations/consensus/bcp-overview", + "foundations/consensus/bcp-deep-dive" + ] + }, "foundations/system", "foundations/precompiled" ] diff --git a/foundations/consensus/bcp-deep-dive.mdx b/foundations/consensus/bcp-deep-dive.mdx new file mode 100644 index 000000000..0f6c7fe73 --- /dev/null +++ b/foundations/consensus/bcp-deep-dive.mdx @@ -0,0 +1,8 @@ +--- +title: "BCP deep dive" +sidebarTitle: "BCP deep dive" +--- + +import { Stub } from '/snippets/stub.jsx'; + + diff --git a/foundations/consensus/bcp-overview.mdx b/foundations/consensus/bcp-overview.mdx new file mode 100644 index 000000000..9023d7865 --- /dev/null +++ b/foundations/consensus/bcp-overview.mdx @@ -0,0 +1,15 @@ +--- +title: "BCP overview" +sidebarTitle: "BCP overview" +--- + +import { Stub } from '/snippets/stub.jsx'; +import { Aside } from "/snippets/aside.jsx"; + + + +(This should go into an issue. Stub article can only have a stub.) + + diff --git a/foundations/consensus/catchain-overview.mdx b/foundations/consensus/catchain-overview.mdx new file mode 100644 index 000000000..dc3be61be --- /dev/null +++ b/foundations/consensus/catchain-overview.mdx @@ -0,0 +1,120 @@ +--- +title: "Catchain overview" +sidebarTitle: "Catchain overview" +--- + +import {Aside} from "/snippets/aside.jsx"; + +Catchain is a communication protocol between actors. It does not execute the consensus algorithm itself but prepares the data required for the decision-making of a higher-level component: [BCP - Block Consensus Protocol](/foundations/consensus/bcp-overview). The main purpose of the protocol is to allow validators to send messages that explicitly depend on other messages, possibly produced by different actors. Dependencies are encoded in such a way that a node receiving a message can download the referenced messages and verify their validity. + +## Problem + +No network can guarantee that + +- messages will be delivered, +- messages will arrive in the order they were sent, + - even if it's 2 messages between 2 nodes. + +Actors are assumed to [intentionally try](https://en.wikipedia.org/wiki/Byzantine_fault) to break consensus. The system must avoid situations where such actors prevent honest actors from making progress. + +## Assumptions + +Each node knows the [ADNL](/foundations/network/adnl) address and the public key of every other node. Thus, every pair of nodes can ensure each other's authenticity and establish an encrypted channel. The ADNL protocol is used to set up a [private ADNL overlay network](//foundations/network/adnl), which allows a node to send encrypted messages to a specific address or broadcast messages. + +## Protocol capabilities + +### Logical capabilities + +At the logical level, the protocol provides causality preservation when sending messages. In other words, it lets a validator declare which messages cause other messages and guarantees that processing message A, which depends on messages B and C, only happens after messages B and C are processed. + +### Formal capabilities + +The protocol implements a [CRDT](https://en.wikipedia.org/wiki/Conflict-free_replicated_data_type) over the set of messages known to each node and achieves [eventual consistency](https://en.wikipedia.org/wiki/Eventual_consistency). As a synchronization mechanism, it uses the idea similar to [vector clock](https://en.wikipedia.org/wiki/Vector_clock) with modifications that preserve eventual consistency even when some nodes are Byzantine. + + + +## Choosing neighbor nodes + +Catchain selects [five](https://github.com/ton-blockchain/ton/blob/34823b1ea378edbe3bc59f3bcc48126480a0b768/catchain/catchain-receiver.cpp#L36) neighbors at random and periodically refreshes the list each random interval between [60 and 120 seconds](https://github.com/ton-blockchain/ton/blob/34823b1ea378edbe3bc59f3bcc48126480a0b768/catchain/catchain-receiver.cpp#L988) in the current configuration. Note, that the neighbor relation is not symmetric: if B is a neighbor of A, it does not imply that A is also a neighbor of B. + + + +## Message identification + +Let's say that `seqno` of each node is a number of messages this node already sent in this round. Node must increment this number after each round. Nodes, not following that rule are considered Byzantine. Such nodes are detected by Catchain protocol. Exact detection mechanism is described further. + +Every catchain message is uniquely identified by the pair `(sender; sender's seqno, body hash)`. + +Catchain message can declare any other messages by any node as a dependency. These dependencies are stored in `body` of the message. Every catchain message must declare previous message from the same node as a dependency. Otherwise, message is considered malformed and ignored by honest nodes. If catchain message have `seqno` equal to 0 then the previous message for it is `genesis`: the name for some initial state of the system. + + + +### Example message flow + +```mermaid +flowchart LR + A((A)) + B((B)) + C((C)) + + A -- "(A; 1)
prev: genesis" --> B + A -- "(A; 1)
prev: genesis" --> C + + B -- "(B; 1)
prev: genesis
deps: (A; 1)" --> A + B -- "(B; 1)
prev: genesis
deps: (A; 1)" --> C + + C -- "(C; 1)
prev: genesis
deps: (A; 1), (B; 1)" --> A + C -- "(C; 2)
prev: (C; 1)
deps: (A; 1), (B; 1)" --> B +``` + +These messages do not have an order by default. In an asynchronous system they can be received in any order. Declaring message dependencies helps to establish a particial ordering on all messages in general and on each of node in particular. This is possible because in catchain "dependency" relation is antisymmetric, transitive and reflexive. + +## Handling Byzantine nodes + +The key goal is not to allow Byzantine nodes to break the particial order of the messages in the Cathcain. It theoretically can be broken by violating one of three key properties. + +### Antisymmetry + +This property means, that $\forall A, B depends(A, B) -> !depends(B, A)$. Catchain preserves this property, as when `A` depends on `B`, `B` is included in the `body hash` field of `A`. Therefore `B` can't depend on `A` as it's `body hash` mush include `A`. + +### Transitivity + +CHECK +This property means, that $\forall A B C depends(A, B) && depends(B, C) -> depends(A, C)$. This property is preserved implicitly by honest nodes because if `A` depends on `B`, `A` will wait in queue for processing of `B`. Imagine a situation, when \` + +### Detecting forks (duplicate message IDs) + +If an actor issues two messages with the same identifier `(A; i)` but different payloads, the situation is called a fork. Any honest validator who observes it constructs a proof consisting of the block identifier and two distinct signatures. Since all public keys are known, this proof can be broadcast to the neighbors, and then further across the network. Every honest participant who receives the proof starts ignoring all messages from node A starting from `(A, i)`, as well as all messages that depend on `(A, j) where j >= i` messages. + + + +### Detecting skipped sequence numbers + +Every message `(X; i)` (except the genesis message `(X; 0)`) depends on `(X; i - 1)`. If a node produces `(X; i)` and later emits `(X; i + j)` with `j > 1`, an honest node will not be able to obtain `(X; i + j - 1)` and therefore will not process `(X; i + j)`. Skipping sequence numbers is thus pointless: all messages following the missing one are ignored by honest validators. + +## Node state + +The node state stores information about all messages processed by the current node. Since messages are ordered for each node, denote this information by the vector +(Ai, Bj, Ck, Dm ...) +This vector tracks the last processed message for each validator. So, if Ai is stored and Ai+2 arrives, the node must download Ai+1. + +(Link to [https://en.wikipedia.org/wiki/Vector\_clock](https://en.wikipedia.org/wiki/Vector_clock)) + +## Dependency retrieval process + +Roughly every 0.1–0.2 seconds a node selects three random neighbors out of its five and starts a synchronization round with them. Synchronization can be performed in two ways: + +- Send its node-state vector. If the neighbor has more recent blocks, it provides them. +- Perform targeted downloads of specific messages. This is usually used if, after the bulk synchronization above, there are still individual missing dependencies. + +## Encryption + +All the steps above happen inside a [private ADNL overlay](/foundations/network/adnl). There is no shared session key; instead each pair of nodes derives its own key that is used to encrypt message bodies. In practice this means that an external observer in the TON blockchain cannot read the messages that validators exchange with each other. diff --git a/foundations/consensus.mdx b/foundations/network/adnl.mdx similarity index 75% rename from foundations/consensus.mdx rename to foundations/network/adnl.mdx index 9bc733758..e57e37550 100644 --- a/foundations/consensus.mdx +++ b/foundations/network/adnl.mdx @@ -4,4 +4,6 @@ title: "Consensus" import { Stub } from '/snippets/stub.jsx'; - +