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111.md
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# NIP-111
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Nostr-Specific Private Key Generation from Deterministic Wallet Signatures (Sign-In-With-X)
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--
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`draft` `optional` `author:0xc0de4c0ffee` `author:sshmatrix`
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## Abstract
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This specification provides an optional method for Nostr Clients, NIP-07 providers and Wallet providers to generate deterministic private keys from chain-agnostic CAIP-122 Signatures (`Sign-In-With-X` specification). The keypairs generated using this specification are Nostr-specific and do not expose the original signing keypair. The new private keys are derived using SHA-256 HMAC Key Derivation Function (HKDF) with NIP-02 or NIP-05 names, CAIP-02 Blockchain ID & CAIP-10 Account ID Specification identifiers, and deterministic signatures from connected wallets as inputs.
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## Introduction
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NIP-111 at its core is an account abstraction specification in which a cryptographic signature calculated by one signing algorithm and its native keypair (e.g. [Bitcoin-native Schnorr algorithm](https://github.com/bitcoin/bips/blob/master/bip-0340.mediawiki)) can be used to derive a deterministic cryptographic keypair for another signing algorithm (e.g. [Ethereum-native ECDSA algorithm](https://eips.ethereum.org/EIPS/eip-191)) using an appropriate singular (non-invertible) key derivation function. This specification particularly describes the case where the former and latter algorithms are Schnorr and ECDSA respectively, and the one-way adaptor from ECDSA to Schnorr keypair is HMAC-based Key Derivation Function ([HKDF](https://datatracker.ietf.org/doc/html/rfc586)).
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NIP-111 specification originated from the desire to allow Nostr to function with widely popular Ethereum wallets such as Metamask and leverage the strong network effects of Ethereum ecosystem. The problem however lay in the fact that Nostr Protocol uses Bitcoin-native Schnorr algorithm for signing messages/data while Ethereum (and its wallets such as Metamask etc) uses ECDSA algorithm. The difference in two signing algorithms and respective signing keypairs is the exact technical incompatibility that this specification originally succeeded in resolving by enabling [Sign-In With Ethereum](https://login.xyz) (SIWE) on Nostr. The underlying schema however is fully capable of functioning as a chain-agnostic workflow and this improved draft reflects that property by using [CAIP](https://github.com/ChainAgnostic/CAIPs) (Chain-Agnostic Improvement Proposals) implementations.
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## Terminology
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### a) Username
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`username` is either of the following:
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- `petname` is a [NIP-02](https://github.com/nostr-protocol/nips/blob/master/02.md) compatible name,
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- `petname@example.com` is a [NIP-05](https://github.com/nostr-protocol/nips/blob/master/05.md) identifier,
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- `example.com` is NIP-05 identifier `_@example.com`,
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- `sub.example.com` is NIP-05 identifier `_@sub.example.com`,
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such that
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```js
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let username = 'petname' || 'petname@example.com' || 'example.com' || 'sub.example.com'
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```
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### b) Password
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`password` is an optional `string` value used to salt the key derivation function (HKDF),
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```js
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let password = "horse staple battery"
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```
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## c) Chain-agnostic Identifiers
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Chain-agnostic [CAIP-02: Blockchain ID Specification](https://github.com/ChainAgnostic/CAIPs/blob/master/CAIPs/caip-2.md) and [CAIP-10: Account ID Specification](https://github.com/ChainAgnostic/CAIPs/blob/master/CAIPs/caip-10.md) schemes are used to generate blockchain and address identifiers `caip02` and `caip10` respectively,
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```js
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let caip02 =
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`eip155:<evm_chain_id>` ||
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`cosmos:<hub_id_name>` ||
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`bip122:<16 bytes genesis/fork hash>`;
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let caip10 = `${caip02}:<checksum_address>`;
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```
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### d) Info
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`info` is CAIP-10 and NIP-02/NIP-05 identifier string formatted as:
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```js
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let info = `${caip10}:${username}`;
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```
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### e) Message
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Deterministic `message` to be signed by the wallet provider,
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```js
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let message = `Log into Nostr client as '${username}'\n\nIMPORTANT: Please verify the integrity and authenticity of connected Nostr client before signing this message\n\nSIGNED BY: ${caip10}`
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```
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### f) Signature
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[RFC-6979](https://datatracker.ietf.org/doc/html/rfc6979) compatible (ECDSA) deterministic `signature` calculated by the wallet provider using native keypair,
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```js
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let signature = wallet.signMessage(message);
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```
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### g) Salt
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`salt` is SHA-256 hash of the `info`, optional password and last **32 bytes** of signature string formatted as:
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```js
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let salt = await sha256(`${info}:${password?password:""}:${signature.slice(68)}`);
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```
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where, `signature.slice(68)` are the last 32 bytes of the deterministic ECDSA-derived Ethereum signature.
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### h) Key Derivation Function (KDF)
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HMAC-Based KDF `hkdf(sha256, inputKey, salt, info, dkLen = 42)` is used to derive the **42 bytes** long **hashkey** with inputs,
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- `inputKey` is SHA-256 hash of signature bytes,
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```js
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let inputKey = await sha256(hexToBytes(signature.slice(2)));
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```
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- `info` is same as defined before, i.e.
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```js
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let info = `${caip10}:${username}`;
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```
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- `salt` is same as defined before, i.e.
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```js
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let salt = await sha256(`${info}:${password?password:""}:${signature.slice(68)}`);
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```
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- `dkLen` (Derived Key Length) is set to `42`,
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```js
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let dkLen = 42;
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```
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[FIPS 186-4 B.4.1](https://csrc.nist.gov/publications/detail/fips/186/4/final) requires hashkey length to be `>= n + 8`, where `n = 32` is the **bytelength** of the final `secp256k1` private key, such that `42 >= 32 + 8`.
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- `hashToPrivateKey()` function is FIPS 186-4 B.4.1 implementation to convert HKDF-derived hashkey to valid `secp256k1` keypair. This function is implemented in JavaScript library `@noble/secp256k1` as `hashToPrivateKey()`.
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```js
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let hashKey = hkdf(sha256, inputKey, salt, info, dkLen = 42);
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let privKey = secp256k1.utils.hashToPrivateKey(hashKey);
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let pubKey = secp256k1.schnorr.getPublicKey(privKey);
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```
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## Architecture
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The resulting architecture of NIP-111 can be visually interpreted as follows:
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![](https://raw.githubusercontent.com/dostr-eth/resources/main/graphics/nip-111.png)
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## Implementation Requirements
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- Connected Ethereum wallet Signer **MUST** be EIP-191 and RFC-6979 compatible.
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- The `message` **MUST** be string formatted as
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```
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`Log into Nostr client as '${username}'\n\nIMPORTANT: Please verify the integrity and authenticity of connected Nostr client before signing this message\n\nSIGNED BY: ${caip10}`
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```
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- HKDF `inputKey` **MUST** be generated as the SHA-256 hash of 65 bytes long signature.
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- HKDF `salt` **MUST** be generated as SHA-256 hash of string
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```
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${info}:${password?password:""}:${signature.slice(68)}
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```
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- HKDF Derived Key Length (`dkLen`) **MUST** be 42.
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- HKDF `info` **MUST** be string formatted as
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```
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${caip10}:${username}
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```
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## JS Example
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```js
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import * as secp256k1 from '@noble/secp256k1'
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import {hkdf} from '@noble/hashes/hkdf'
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import {sha256} from '@noble/hashes/sha256'
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import {queryProfile} from './nip05'
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import {getPublicKey} from './keys'
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import {ProfilePointer} from './nip19'
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// const wallet = connected ethereum wallet with ethers.js
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let username = "me@example.com"
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let chainId = wallet.getChainId(); // get ChainID from connected wallet
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let address = wallet.getAddress(); // get Address from wallet
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let caip10 = `eip155:${chainId}:${address}`;
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let message = `Log into Nostr client as '${username}'\n\nIMPORTANT: Please verify the integrity and authenticity of connected Nostr client before signing this message\n\nSIGNED BY: ${caip10}`
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let signature = wallet.signMessage(message); // request Signature from wallet
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let password = "horse staple battery"
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/**
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*
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* @param username NIP-02/NIP-05 identifier
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* @param caip10 CAIP identifier for the blockchain account
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* @param sig Deterministic signature from X-wallet provider
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* @param password Optional password
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* @returns Deterministic private key as hex string
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*/
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export async function privateKeyFromX(
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username: string,
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caip10: string,
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sig: string,
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password: string | undefined
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): Promise < string > {
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if (sig.length < 64)
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throw new Error("Signature too short");
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let inputKey = await sha256(secp256k1.utils.hexToBytes(sig.toLowerCase().startsWith("0x") ? sig.slice(2) : sig))
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let info = `${caip10}:${username}`
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let salt = await sha256(`${info}:${password?password:""}:${sig.slice(-64)}`)
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let hashKey = await hkdf(sha256, inputKey, salt, info, 42)
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return secp256k1.utils.bytesToHex(secp256k1.utils.hashToPrivateKey(hashKey))
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}
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/**
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*
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* @param username NIP-02/NIP-05 identifier
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* @param caip10 CAIP identifier for the blockchain account
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* @param sig Deterministic signature from X-wallet provider
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* @param password Optional password
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* @returns
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*/
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export async function signInWithX(
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username: string,
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caip10: string,
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sig: string,
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password: string | undefined
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): Promise < {
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petname: string,
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profile: ProfilePointer | null,
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privkey: string
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} > {
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let profile = null
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let petname = username
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if (username.includes(".")) {
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try {
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profile = await queryProfile(username)
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} catch (e) {
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console.log(e)
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throw new Error("Nostr Profile Not Found")
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}
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if(profile == null){
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throw new Error("Nostr Profile Not Found")
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}
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petname = (username.split("@").length == 2) ? username.split("@")[0] : username.split(".")[0]
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}
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let privkey = await privateKeyFromX(username, caip10, sig, password)
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let pubkey = getPublicKey(privkey)
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if (profile?.pubkey && pubkey !== profile.pubkey) {
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throw new Error("Invalid Signature/Password")
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}
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return {
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petname,
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profile,
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privkey
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}
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}
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```
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## Implementations
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1) Nostr Tools : [Sign-In-With-X](https://github.com/dostr-eth/nostr-tools/tree/siwx) ([Pull Request #132](https://github.com/nbd-wtf/nostr-tools/pull/132))
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2) Nostr Client: [Dostr](https://github.com/dostr-eth/dostr-client)
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## Security Considerations
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- Users **SHOULD** always verify the integrity and authenticity of the Nostr client before signing the message.
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- Users **SHOULD** ensure that they only input their Nostr `username` and `password` in trusted and secure clients.
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## References:
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- [RFC-6979: Deterministic Usage of the DSA and ECDSA](https://datatracker.ietf.org/doc/html/rfc6979)
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- [RFC-5869: HKDF (HMAC-based Extract-and-Expand Key Derivation Function)](https://datatracker.ietf.org/doc/html/rfc5869)
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- [CAIP-02: Blockchain ID Specification](https://github.com/ChainAgnostic/CAIPs/blob/master/CAIPs/caip-2.md)
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- [CAIP-10: Account ID Specification](https://github.com/ChainAgnostic/CAIPs/blob/master/CAIPs/caip-10.md)
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- [CAIP-122: Sign-in-With-X)](https://github.com/ChainAgnostic/CAIPs/pull/122)
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- [Digital Signature Standard (DSS), FIPS 186-4 B.4.1](https://csrc.nist.gov/publications/detail/fips/186/4/final)
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- [BIP-340: Schnorr Signature Standard](https://github.com/bitcoin/bips/blob/master/bip-0340.mediawiki)
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- [ERC-191: Signed Data Standard](https://eips.ethereum.org/EIPS/eip-191)
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- [EIP-155: Simple Replay Attack Protection](https://eips.ethereum.org/EIPS/eip-155)
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- [NIP-02: Contact List and Petnames](https://github.com/nostr-protocol/nips/blob/master/02.md)
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- [NIP-05: Mapping Nostr Keys to DNS-based Internet Identifiers](https://github.com/nostr-protocol/nips/blob/master/05.md)
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- [ECDSA Signature Standard](https://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.38.8014)
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- [@noble/hashes](https://github.com/paulmillr/noble-hashes)
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- [@noble/secp256k1](https://github.com/paulmillr/noble-secp256k1)
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