specs/standards/application/segmentation.md

---
title: Message Segmentation and Reconstruction
name: Message Segmentation and Reconstruction
tags: [waku-application, segmentation]
version: 0.1
status: draft
---

## Abstract

This specification defines an application-layer protocol for **segmentation** and **reconstruction** of messages carried over a message transport/delivery services with size limitation, when the original payload exceeds said limitation.
Applications partition the payload into multiple wire-messages envelopes and reconstruct the original on receipt,
even when segments arrive out of order or up to a **predefined percentage** of segments are lost.
The protocol uses **Reed–Solomon** erasure coding for fault tolerance.
Messages whose payload size is **≤ `segmentSize`** are sent unmodified.

## Motivation

Waku Relay deployments typically propagate envelopes up to **150 KB** as per [64/WAKU2-NETWORK - Message](https://rfc.vac.dev/waku/standards/core/64/network#message-size).
To support larger application payloads, a segmentation layer is required.
This specification enables larger messages by partitioning them into multiple envelopes and reconstructing them at the receiver.
Erasure-coded parity segments provide resilience against partial loss or reordering.

## Terminology

- **original payload**: the full application payload before segmentation.
- **data segment**: one of the partitioned chunks of the original message payload.
- **parity segment**: an erasure-coded segment derived from the set of data segments.
- **segment message**: a wire-message whose `payload` field carries a serialized `SegmentMessageProto`.
- **`segmentSize`**: configured maximum size in bytes of each data segment's `payload` chunk (before protobuf serialization).

The key words **"MUST"**, **"MUST NOT"**, **"REQUIRED"**, **"SHALL"**, **"SHALL NOT"**, **"SHOULD"**, **"SHOULD NOT"**, **"RECOMMENDED"**, **"NOT RECOMMENDED"**, **"MAY"**, and **"OPTIONAL"** in this document are to be interpreted as described in [RFC 2119](https://www.ietf.org/rfc/rfc2119.txt).

## Wire Format

Each segmented message is encoded as a `SegmentMessageProto` protobuf message:

```protobuf
syntax = "proto3";

message SegmentMessageProto {
  // Keccak256(original payload), 32 bytes
  bytes  entire_message_hash    = 1;

  // Data segment indexing
  uint32 index                  = 2; // zero-based sequence number; valid only if segments_count > 0
  uint32 segments_count         = 3; // number of data segments

  // Segment payload (data or parity shard)
  bytes  payload                = 4;

  // Parity segment indexing (used if segments_count == 0)
  uint32 parity_segment_index   = 5; // zero-based sequence number for parity segments
  uint32 parity_segments_count  = 6; // number of parity segments
}
```

**Field descriptions:**

- `entire_message_hash`: A 32-byte Keccak256 hash of the original complete payload, used to identify which segments belong together and verify reconstruction integrity.
- `index`: Zero-based sequence number identifying this data segment's position (0, 1, 2, ..., segments_count - 1).
- `segments_count`: Total number of data segments the original message was split into.
- `payload`: The actual chunk of data or parity information for this segment.
- `parity_segment_index`: Zero-based sequence number for parity segments.
- `parity_segments_count`: Total number of parity segments generated.

A message is either a **data segment** (when `segments_count > 0`) or a **parity segment** (when `segments_count == 0`).

### Validation

Receivers **MUST** enforce:

- `entire_message_hash.length == 32`
- **Data segments:**
  `segments_count >= 2` **AND** `index < segments_count`
- **Parity segments:**
  `segments_count == 0` **AND** `parity_segments_count > 0` **AND** `parity_segment_index < parity_segments_count`

No other combinations are permitted.

## Segmentation

### Sending

When the original payload exceeds `segmentSize`, the sender:

- **MUST** compute a 32-byte `entire_message_hash = Keccak256(original_payload)`.
- **MUST** split the payload into one or more **data segments**,
  each of size up to `segmentSize` bytes.
- **MAY** use Reed–Solomon erasure coding at the predefined parity rate.
- Encode each segment as a `SegmentMessageProto` with:
  - The `entire_message_hash`
  - Either data-segment indices (`segments_count`, `index`) or parity-segment indices (`parity_segments_count`, `parity_segment_index`)
  - The raw payload data
- Send all segments as individual Waku envelopes,
  preserving application-level metadata (e.g., content topic).

Messages smaller than or equal to `segmentSize` **SHALL** be transmitted unmodified.

### Receiving

Upon receiving a segmented message, the receiver:

- **MUST** validate each segment according to [Wire Format → Validation](#validation).
- **MUST** cache received segments
- **MUST** attempt reconstruction when the number of available (data + parity) segments equals or exceeds the data segment count:
  - Concatenating data segments if all are present, or
  - Applying Reed–Solomon decoding if parity segments are available.
- **MUST** verify `Keccak256(reconstructed_payload)` matches `entire_message_hash`.
  On mismatch,
  the message **MUST** be discarded and logged as invalid.
- Once verified,
  the reconstructed payload **SHALL** be delivered to the application.
- Incomplete reconstructions **SHOULD** be garbage-collected after a timeout.

---

## Implementation Suggestions

### Reed–Solomon

Implementations that apply parity **SHALL** use fixed-size shards of length `segmentSize`.
The last data chunk **MUST** be padded to `segmentSize` for encoding.
The reference implementation uses **nim-leopard** (Leopard-RS) with a maximum of **256 total shards**.

### Storage / Persistence

Segments **MAY** be persisted (e.g., SQLite) and indexed by `entire_message_hash` and by sender. Sender MAY be authenticated, this is out of scope of this spec.
Implementations **SHOULD** support:

- Duplicate detection and idempotent saves
- Completion flags to prevent duplicate processing
- Timeout-based cleanup of incomplete reconstructions
- Per-sender quotas for stored bytes and concurrent reconstructions

### Configuration

- `segmentSize` — maximum size in bytes of each data segment's payload chunk (before protobuf serialization).
    **REQUIRED** parameter, configurable by the client.
- `parityRate` — fraction of parity shards relative to data shards.
    Configurable by the client. Defaults to **0.125** (12.5%).
- `maxTotalSegments` — maximum number of total shards (data + parity) per message.
    Implementation-specific parameter, fixed. The reference implementation uses **256**.

**Reconstruction capability:**
With the predefined parity rate,
reconstruction is possible if **all data segments** are received or if **any combination of data + parity** totals at least `dataSegments` (i.e., up to the predefined percentage of loss tolerated).

**API simplicity:**
Libraries **SHOULD** require only `segmentSize` from the application for normal operation.



### Support

- **Language / Package:** Nim;
  **Nimble** package manager
- **Intended for:** all Waku nodes at the application layer

---

## Security Considerations

### Privacy

`entire_message_hash` enables correlation of segments that belong to the same original message but does not reveal content.
Traffic analysis may still identify segmented flows.

### Integrity

Implementations **MUST** verify the Keccak256 hash post-reconstruction and discard on mismatch.

### Denial of Service

To mitigate resource exhaustion:

- Limit concurrent reconstructions and per-sender storage
- Enforce timeouts and size caps
- Validate segment counts (≤ 256)
- Consider rate-limiting using [17/WAKU2-RLN-RELAY](https://rfc.vac.dev/waku/standards/core/17/rln-relay)

### Compatibility

Nodes that do **not** implement this specification cannot reconstruct large messages.

---

## Deployment Considerations

**Overhead:**

- Bandwidth overhead ≈ the predefined parity rate from parity (if enabled)
- Additional per-segment overhead ≤ **100 bytes** (protobuf + metadata)

**Network impact:**

- Larger messages increase gossip traffic and storage;
  operators **SHOULD** consider policy limits

---

## References

1. [10/WAKU2 – Waku](https://rfc.vac.dev/waku/standards/core/10/waku2)
2. [11/WAKU2-RELAY – Relay](https://rfc.vac.dev/waku/standards/core/11/relay)
3. [14/WAKU2-MESSAGE – Message](https://rfc.vac.dev/waku/standards/core/14/message)
4. [64/WAKU2-NETWORK](https://rfc.vac.dev/waku/standards/core/64/network#message-size)
5. [nim-leopard](https://github.com/status-im/nim-leopard) – Nim bindings for Leopard-RS (Reed–Solomon)
6. [Leopard-RS](https://github.com/catid/leopard) – Fast Reed–Solomon erasure coding library
7. [RFC 2119](https://www.ietf.org/rfc/rfc2119.txt) – Key words for use in RFCs to Indicate Requirement Levels