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* Introduce NIP-44 encryption standard * Finalize NIP-44 * Update spec. --------- Co-authored-by: Jonathan Staab <shtaab@gmail.com>
56 lines
3.0 KiB
Markdown
56 lines
3.0 KiB
Markdown
> __Warning__ `unrecommended`: deprecated in favor of [NIP-44](44.md)
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NIP-04
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======
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Encrypted Direct Message
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------------------------
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`final` `unrecommended` `optional`
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A special event with kind `4`, meaning "encrypted direct message". It is supposed to have the following attributes:
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**`content`** MUST be equal to the base64-encoded, aes-256-cbc encrypted string of anything a user wants to write, encrypted using a shared cipher generated by combining the recipient's public-key with the sender's private-key; this appended by the base64-encoded initialization vector as if it was a querystring parameter named "iv". The format is the following: `"content": "<encrypted_text>?iv=<initialization_vector>"`.
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**`tags`** MUST contain an entry identifying the receiver of the message (such that relays may naturally forward this event to them), in the form `["p", "<pubkey, as a hex string>"]`.
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**`tags`** MAY contain an entry identifying the previous message in a conversation or a message we are explicitly replying to (such that contextual, more organized conversations may happen), in the form `["e", "<event_id>"]`.
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**Note**: By default in the [libsecp256k1](https://github.com/bitcoin-core/secp256k1) ECDH implementation, the secret is the SHA256 hash of the shared point (both X and Y coordinates). In Nostr, only the X coordinate of the shared point is used as the secret and it is NOT hashed. If using libsecp256k1, a custom function that copies the X coordinate must be passed as the `hashfp` argument in `secp256k1_ecdh`. See [here](https://github.com/bitcoin-core/secp256k1/blob/master/src/modules/ecdh/main_impl.h#L29).
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Code sample for generating such an event in JavaScript:
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```js
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import crypto from 'crypto'
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import * as secp from '@noble/secp256k1'
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let sharedPoint = secp.getSharedSecret(ourPrivateKey, '02' + theirPublicKey)
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let sharedX = sharedPoint.slice(1, 33)
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let iv = crypto.randomFillSync(new Uint8Array(16))
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var cipher = crypto.createCipheriv(
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'aes-256-cbc',
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Buffer.from(sharedX),
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iv
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)
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let encryptedMessage = cipher.update(text, 'utf8', 'base64')
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encryptedMessage += cipher.final('base64')
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let ivBase64 = Buffer.from(iv.buffer).toString('base64')
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let event = {
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pubkey: ourPubKey,
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created_at: Math.floor(Date.now() / 1000),
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kind: 4,
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tags: [['p', theirPublicKey]],
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content: encryptedMessage + '?iv=' + ivBase64
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}
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```
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## Security Warning
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This standard does not go anywhere near what is considered the state-of-the-art in encrypted communication between peers, and it leaks metadata in the events, therefore it must not be used for anything you really need to keep secret, and only with relays that use `AUTH` to restrict who can fetch your `kind:4` events.
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## Client Implementation Warning
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Clients *should not* search and replace public key or note references from the `.content`. If processed like a regular text note (where `@npub...` is replaced with `#[0]` with a `["p", "..."]` tag) the tags are leaked and the mentioned user will receive the message in their inbox.
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