nips/704.md
2023-04-10 17:12:24 +03:00

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NIP-704
======
More private Encrypted Direct Messages
-----------------------------------
`draft` `optional` `author:motorina0`
This NIP defines a way for two clients to derive and share `one-use-only` keys for sending and recieving `kind:4` events.
## Motivation
The content of `Direct Messages` [NIP-04](https://github.com/nostr-protocol/nips/blob/master/04.md) is encrypted, but everyone can see who is chatting with whom. Privacy wise this is far from ideal.
This NIP describes a way to obfuscate DM communications from the "general public", it does not deal with the relay tracking of clients (for that see [NIP-705](https://github.com/motorina0/nips/blob/republish_events/705.md)).
## Suggestion
For the maximum of privacy the two participants of a `Direct Message` exchange SHOULD use a different public key for **each** `kind:4` event.
This means that each participant has to:
- build a `direct-message parent key` from which it will derive `keys-to-send` and `keys-to-receive` (listen for) `kind:4` events
- share this `direct-message parent key` with its DM peer
Each client has a `master` key (denoted with `m`). This key can be the profile `nsec...`, but it is not mandatory.
## Derive the `direct-message parent key`
A client must generate multiple `direct-message parent keys`, one for each peer that it is communicating with. The [BIP32](https://github.com/bitcoin/bips/blob/master/bip-0032.mediawiki) structure to be used is:
```
m / purpose' / conin_type' / part1' / part2' / ... / part8'
```
- this NIP defines the `purpose` `25709'` (`dm` -> `0x646d` -> `25709`) for deriving `Direct Messages` related keys
- nostr `coin_type'` is `1237'` (see [NIP-06](https://github.com/nostr-protocol/nips/blob/master/06.md))
- `part1' / part2' / ... / part8'` is the public key hex string (of the peer) split in 8 chunks:
- the reason for using the peer's (`Bob`) public key is to always arive at the same value even if prio state is lost
- the reason for splitting the public key is that each level of the path can have a max value of 2<sup>32</sup>-1
<details>
<summary><b>See Example</b></summary>
If Alice wants to build he <code>dm parent key</code> for Bob then she has to:
<ul>
<li>get the public key of `Bob` (in hex). Eg: <code>3bf0c63fcb93463407af97a5e5ee64fa883d107ef9e558472c4eb9aaaefa459d</code></li>
<li>split the public key hex string in 8 chunks:</li>
- <code>3bf0c63f</code>, <code>cb934634</code>, <code>07af97a5</code>, <code>e5ee64fa</code>, <code>883d107e</code>, <code>f9e55847</code>, <code>2c4eb9aa</code>, <code>aefa459d</code>
<li>derive the <code>dm parent key</code>: <code>m/25709'/1237'/3bf0c63f'/cb934634'/.../aefa459d'</code></li>
</ul>
</details>
We notate the above derived `direct-message parent key` with `dmpk`. Then we can define paths of the form `dmpk/<action>/index`.
| Action Name | Value | Path | Derive keys for |
|-----------------------|--------|---------------------|-----------------------------------|
| **init** | `0` | `dmpk/0/0` | initialize the `direct messages` flow|
| **send** | `1` | `dmpk/1/<index>` | sending `direct messages` |
| **receive** | `2` | `dmpk/2/<index>` | receiving `direct messages` |
| `draft`: republish | `3` | `dmpk/3/<index>` | sending `republish events` |
| `draft`: market-order | `4500` | `dmpk/4500/<index>` | sending NIP45 `market orders` |
The client (creator of the `dmpk`) must:
- use a new send key (`dmpk/1/<index>`) for each event it signs. It starts from `0` and increments after an event is signed.
- create filters for the public keys it expects to receive messages to (`dmpk/2/<index>`). It is recommended to listen for the next `10` public keys and increment the index once a key is used (see [BIP-44 address gap logic](https://github.com/bitcoin/bips/blob/master/bip-0044.mediawiki#user-content-Address_gap_limit)).
## Exchange the `direct-message parent key`
If `Alice` wants to signal `Bob` that she is ready to use this NIP (for more privacy) she must:
- build a JSON data of the form:
```json
{
"pubkey": <32-bytes lowercase hex-encoded public key of Alice (public profile key)>
"dmpk": <32-bytes lowercase hex-encoded direct-message parent key>,
"shared_secret_hash": <32-bytes lowercase hex-encoded sha256 of the shared secret>
"send_index": <integer (optional), the index of the last key used to sign an event>,
"receive_index": <integer (optional), the index of the last key an event was received to>,
}
```
> **Note** `send_index` and `receive_index` are optional, but they help the client a lot in knowing what the state is. Otherwise (when an account is retored) the client would have to scan the public keys until unused ones are found (similar to [BIP-44 address gap logic](https://github.com/bitcoin/bips/blob/master/bip-0044.mediawiki#user-content-Address_gap_limit)).
- publish a `Parameterized Replaceable Event` ([NIP-33](https://github.com/nostr-protocol/nips/blob/master/33.md)) of the form:
```json
{
...
"pubkey": <32-bytes lowercase hex-encoded "init" public key derived using `dmpk/0/0`>,
"kind": 35709,
"content": <NIP-04 encrypted content of the JSON data>,
"tags:" [
"d": <32-bytes lowercase hex-encoded public key of Bob>,
"p": <32-bytes lowercase hex-encoded public key of Bob>
]
}
```
> **Note**: `Alice` must use the "init" (`dmpk/0/0`) public key for signing the event so that there is no visible interaction between her and `Bob`
If `Bob` supports this NIP then he must:
- subscribe to "init" events for him:
```json
{
"kind": 35709,
"#p": [<32-bytes lowercase hex-encoded public key of Bob>]
}
```
- when an event is received, decrypt the content, verify the `shared_secret_hash` against `Alice's` public key
- decide if it wants to communicate with `Alice`. If yes, it should publish its own `kind:35709` for `Alice`
Alice must also listen for `"kind": 35709` to her.
After both `Alice` and `Bob` have published the `kind: 35709` event, they can start to publish and listen to events using the `one-use-only` keys.