Rust implementation of NextGraph, a Decentralized and local-first web 3.0 ecosystem https://nextgraph.org
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nextgraph-rs/ng-wallet/src/lib.rs

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// Copyright (c) 2022-2023 Niko Bonnieure, Par le Peuple, NextGraph.org developers
// All rights reserved.
// Licensed under the Apache License, Version 2.0
// <LICENSE-APACHE2 or http://www.apache.org/licenses/LICENSE-2.0>
// or the MIT license <LICENSE-MIT or http://opensource.org/licenses/MIT>,
// at your option. All files in the project carrying such
// notice may not be copied, modified, or distributed except
// according to those terms.
// #[macro_use]
// extern crate slice_as_array;
#[macro_use]
extern crate p2p_net;
#[macro_use]
extern crate lazy_static;
use p2p_net::log;
pub mod types;
pub mod bip39;
pub mod emojis;
use std::io::Cursor;
use crate::bip39::bip39_wordlist;
use crate::types::*;
use aes_gcm_siv::{
aead::{heapless::Vec as HeaplessVec, AeadInPlace, KeyInit},
Aes256GcmSiv, Nonce,
};
use argon2::{Algorithm, Argon2, AssociatedData, ParamsBuilder, Version};
use chacha20poly1305::XChaCha20Poly1305;
use image::{imageops::FilterType, io::Reader as ImageReader, ImageOutputFormat};
use safe_transmute::transmute_to_bytes;
use p2p_repo::types::{PubKey, Site, SiteType, Timestamp};
use p2p_repo::utils::{generate_keypair, now_timestamp, sign, verify};
use rand::prelude::*;
use serde_bare::{from_slice, to_vec};
pub fn enc_master_key(
master_key: [u8; 32],
key: [u8; 32],
nonce: u8,
wallet_id: WalletId,
) -> Result<[u8; 48], NgWalletError> {
let cipher = Aes256GcmSiv::new(&key.into());
let mut nonce_buffer = [0u8; 12];
nonce_buffer[0] = nonce;
let nonce = Nonce::from_slice(&nonce_buffer);
let mut buffer: HeaplessVec<u8, 48> = HeaplessVec::new(); // Note: buffer needs 16-bytes overhead for auth tag
buffer.extend_from_slice(&master_key);
// Encrypt `buffer` in-place, replacing the plaintext contents with ciphertext
cipher
.encrypt_in_place(nonce, &to_vec(&wallet_id).unwrap(), &mut buffer)
.map_err(|e| NgWalletError::EncryptionError)?;
// `buffer` now contains the encrypted master key
// println!("cipher {:?}", buffer);
Ok(buffer.into_array::<48>().unwrap())
}
pub fn dec_master_key(
ciphertext: [u8; 48],
key: [u8; 32],
nonce: u8,
wallet_id: WalletId,
) -> Result<[u8; 32], NgWalletError> {
let cipher = Aes256GcmSiv::new(&key.into());
let mut nonce_buffer = [0u8; 12];
nonce_buffer[0] = nonce;
let nonce = Nonce::from_slice(&nonce_buffer);
let mut buffer: HeaplessVec<u8, 48> = HeaplessVec::from_slice(&ciphertext).unwrap(); // Note: buffer needs 16-bytes overhead for auth tag
// Decrypt `buffer` in-place, replacing its ciphertext context with the original plaintext
cipher
.decrypt_in_place(nonce, &to_vec(&wallet_id).unwrap(), &mut buffer)
.map_err(|e| NgWalletError::DecryptionError)?;
Ok(buffer.into_array::<32>().unwrap())
}
fn gen_nonce(peer_id: PubKey, nonce: u64) -> [u8; 24] {
let mut buffer = Vec::with_capacity(24);
buffer.extend_from_slice(&peer_id.slice()[0..16]);
buffer.extend_from_slice(&nonce.to_be_bytes());
buffer.try_into().unwrap()
}
fn gen_associated_data(timestamp: Timestamp, wallet_id: WalletId) -> Vec<u8> {
let ser_wallet = to_vec(&wallet_id).unwrap();
[ser_wallet, timestamp.to_be_bytes().to_vec()].concat()
}
pub fn enc_encrypted_block(
block: &EncryptedWalletV0,
master_key: [u8; 32],
peer_id: PubKey,
nonce: u64,
timestamp: Timestamp,
wallet_id: WalletId,
) -> Result<Vec<u8>, NgWalletError> {
let ser_encrypted_block = to_vec(block).map_err(|e| NgWalletError::InternalError)?;
let nonce_buffer: [u8; 24] = gen_nonce(peer_id, nonce);
let cipher = XChaCha20Poly1305::new(&master_key.into());
let mut buffer: Vec<u8> = Vec::with_capacity(ser_encrypted_block.len() + 16); // Note: buffer needs 16-bytes overhead for auth tag
buffer.extend_from_slice(&ser_encrypted_block);
// Encrypt `buffer` in-place, replacing the plaintext contents with ciphertext
cipher
.encrypt_in_place(
&nonce_buffer.into(),
&gen_associated_data(timestamp, wallet_id),
&mut buffer,
)
.map_err(|e| NgWalletError::EncryptionError)?;
// `buffer` now contains the message ciphertext
// println!("encrypted_block ciphertext {:?}", buffer);
Ok(buffer)
}
pub fn dec_encrypted_block(
mut ciphertext: Vec<u8>,
master_key: [u8; 32],
peer_id: PubKey,
nonce: u64,
timestamp: Timestamp,
wallet_id: WalletId,
) -> Result<EncryptedWalletV0, NgWalletError> {
let nonce_buffer: [u8; 24] = gen_nonce(peer_id, nonce);
let cipher = XChaCha20Poly1305::new(&master_key.into());
// Decrypt `ciphertext` in-place, replacing its ciphertext context with the original plaintext
cipher
.decrypt_in_place(
&nonce_buffer.into(),
&gen_associated_data(timestamp, wallet_id),
&mut ciphertext,
)
.map_err(|e| NgWalletError::DecryptionError)?;
// `ciphertext` now contains the decrypted block
//println!("decrypted_block {:?}", ciphertext);
let decrypted_block =
from_slice::<EncryptedWalletV0>(&ciphertext).map_err(|e| NgWalletError::DecryptionError)?;
Ok(decrypted_block)
}
pub fn derive_key_from_pass(pass: Vec<u8>, salt: [u8; 16], wallet_id: WalletId) -> [u8; 32] {
let params = ParamsBuilder::new()
.m_cost(50 * 1024)
.t_cost(2)
.p_cost(1)
.data(AssociatedData::new(wallet_id.slice()).unwrap())
.output_len(32)
.build()
.unwrap();
let argon = Argon2::new(Algorithm::Argon2id, Version::V0x13, params);
let mut out = [0u8; 32];
argon.hash_password_into(&pass, &salt, &mut out).unwrap();
out
}
use web_time::Instant;
pub fn open_wallet_with_pazzle(
wallet: Wallet,
pazzle: Vec<u8>,
pin: [u8; 4],
) -> Result<EncryptedWallet, NgWalletError> {
// each digit shouldnt be greater than 9
if pin[0] > 9 || pin[1] > 9 || pin[2] > 9 || pin[3] > 9 {
return Err(NgWalletError::InvalidPin);
}
let opening_pazzle = Instant::now();
verify(&wallet.content_as_bytes(), wallet.sig(), wallet.id())
.map_err(|e| NgWalletError::InvalidSignature)?;
match wallet {
Wallet::V0(v0) => {
let pazzle_key = derive_key_from_pass(
[pazzle, pin.to_vec()].concat(),
v0.content.salt_pazzle,
v0.id,
);
let master_key = dec_master_key(
v0.content.enc_master_key_pazzle,
pazzle_key,
v0.content.master_nonce,
v0.id,
)?;
log!(
"opening of wallet with pazzle took: {} ms",
opening_pazzle.elapsed().as_millis()
);
Ok(EncryptedWallet::V0(dec_encrypted_block(
v0.content.encrypted,
master_key,
v0.content.peer_id,
v0.content.nonce,
v0.content.timestamp,
v0.id,
)?))
}
}
}
pub fn open_wallet_with_mnemonic(
wallet: Wallet,
mnemonic: [u16; 12],
pin: [u8; 4],
) -> Result<EncryptedWallet, NgWalletError> {
verify(&wallet.content_as_bytes(), wallet.sig(), wallet.id())
.map_err(|e| NgWalletError::InvalidSignature)?;
match wallet {
Wallet::V0(v0) => {
let mnemonic_key = derive_key_from_pass(
[transmute_to_bytes(&mnemonic), &pin].concat(),
v0.content.salt_mnemonic,
v0.id,
);
let master_key = dec_master_key(
v0.content.enc_master_key_mnemonic,
mnemonic_key,
v0.content.master_nonce,
v0.id,
)?;
Ok(EncryptedWallet::V0(dec_encrypted_block(
v0.content.encrypted,
master_key,
v0.content.peer_id,
v0.content.nonce,
v0.content.timestamp,
v0.id,
)?))
}
}
}
pub fn display_mnemonic(mnemonic: &[u16; 12]) -> Vec<String> {
let res: Vec<String> = mnemonic
.into_iter()
.map(|i| String::from(bip39_wordlist[*i as usize]))
.collect();
res
}
use crate::emojis::{EMOJIS, EMOJI_CAT};
pub fn display_pazzle(pazzle: &Vec<u8>) -> Vec<String> {
let res: Vec<String> = pazzle
.into_iter()
.map(|i| {
let cat = i >> 4;
let idx = i & 15;
let cat_str = EMOJI_CAT[cat as usize];
String::from(format!(
"{}:{}",
cat_str,
EMOJIS.get(cat_str).unwrap()[idx as usize].code
))
})
.collect();
res
}
pub fn gen_shuffle_for_pazzle_opening(pazzle_length: u8) -> ShuffledPazzle {
let mut rng = rand::thread_rng();
let mut category_indices: Vec<u8> = (0..pazzle_length).collect();
//log!("{:?}", category_indices);
category_indices.shuffle(&mut rng);
//log!("{:?}", category_indices);
let mut emoji_indices: Vec<Vec<u8>> = Vec::with_capacity(pazzle_length.into());
for _ in 0..pazzle_length {
let mut idx: Vec<u8> = (0..15).collect();
//log!("{:?}", idx);
idx.shuffle(&mut rng);
//log!("{:?}", idx);
emoji_indices.push(idx)
}
ShuffledPazzle {
category_indices,
emoji_indices,
}
}
pub fn gen_shuffle_for_pin() -> Vec<u8> {
let mut rng = rand::thread_rng();
let mut digits: Vec<u8> = (0..10).collect();
//log!("{:?}", digits);
digits.shuffle(&mut rng);
//log!("{:?}", digits);
digits
}
// fn random_pass() {
// const choices: &str =
// "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789!@#$%^&*()";
// let mut ran = thread_rng();
// let mut mnemonic: [char; 11] = [0.into(); 11];
// for i in &mut mnemonic {
// *i = choices.chars().nth(ran.gen_range(0, 72)).unwrap();
// }
// log!("{}", mnemonic.iter().collect::<String>());
// }
/// creates a Wallet from a pin, a security text and image (with option to send the bootstrap and wallet to nextgraph.one)
/// and returns the Wallet, the pazzle and the mnemonic
pub async fn create_wallet_v0(
params: CreateWalletV0,
) -> Result<CreateWalletResultV0, NgWalletError> {
// TODO : use some automatically zeroed variable for the 2 first arguments, and for the returned values
let creating_pazzle = Instant::now();
// pazzle_length can only be 9, 12, or 15
if (params.pazzle_length != 9
&& params.pazzle_length != 12
&& params.pazzle_length != 15
&& params.pazzle_length != 0)
{
return Err(NgWalletError::InvalidPazzleLength);
}
// cannot submit wallet if we don't submit also the bootstrap
if params.send_bootstrap.is_none() && params.send_wallet {
return Err(NgWalletError::SubmissionError);
}
// check validity of PIN
// shouldn't start with 0
if params.pin[0] == 0 {
return Err(NgWalletError::InvalidPin);
}
// each digit shouldnt be greater than 9
if params.pin[0] > 9 || params.pin[1] > 9 || params.pin[2] > 9 || params.pin[3] > 9 {
return Err(NgWalletError::InvalidPin);
}
// check for uniqueness of each digit
if params.pin[1] == params.pin[0]
|| params.pin[1] == params.pin[2]
|| params.pin[1] == params.pin[3]
|| params.pin[2] == params.pin[0]
|| params.pin[2] == params.pin[3]
|| params.pin[3] == params.pin[0]
{
return Err(NgWalletError::InvalidPin);
}
// check for ascending series
if params.pin[1] == params.pin[0] + 1
&& params.pin[2] == params.pin[1] + 1
&& params.pin[3] == params.pin[2] + 1
{
return Err(NgWalletError::InvalidPin);
}
// check for descending series
if params.pin[3] >= 3
&& params.pin[2] == params.pin[3] - 1
&& params.pin[1] == params.pin[2] - 1
&& params.pin[0] == params.pin[1] - 1
{
return Err(NgWalletError::InvalidPin);
}
// check validity of security text
let words: Vec<_> = params.security_txt.split_whitespace().collect();
let new_string = words.join(" ");
let count = new_string.chars().count();
if count < 10 || count > 100 {
return Err(NgWalletError::InvalidSecurityText);
}
// check validity of image
let decoded_img = ImageReader::new(Cursor::new(params.security_img))
.with_guessed_format()
.map_err(|e| NgWalletError::InvalidSecurityImage)?
.decode()
.map_err(|e| NgWalletError::InvalidSecurityImage)?;
if decoded_img.height() < 150 || decoded_img.width() < 150 {
return Err(NgWalletError::InvalidSecurityImage);
}
let resized_img = decoded_img.resize_to_fill(400, 400, FilterType::Triangle);
let buffer: Vec<u8> = Vec::with_capacity(100000);
let mut cursor = Cursor::new(buffer);
resized_img
.write_to(&mut cursor, ImageOutputFormat::Jpeg(72))
.map_err(|e| NgWalletError::InvalidSecurityImage)?;
// creating the wallet keys
let (wallet_key, wallet_id) = generate_keypair();
let site = Site::create(SiteType::Individual).map_err(|e| NgWalletError::InternalError)?;
// let mut pazzle_random = vec![0u8; pazzle_length.into()];
// getrandom::getrandom(&mut pazzle_random).map_err(|e| NgWalletError::InternalError)?;
let mut ran = thread_rng();
let mut category_indices: Vec<u8> = (0..params.pazzle_length).collect();
category_indices.shuffle(&mut ran);
let mut pazzle = vec![0u8; params.pazzle_length.into()];
for (ix, i) in pazzle.iter_mut().enumerate() {
*i = ran.gen_range(0, 15) + (category_indices[ix] << 4);
}
//println!("pazzle {:?}", pazzle);
let mut mnemonic = [0u16; 12];
for i in &mut mnemonic {
*i = ran.gen_range(0, 2048);
}
//println!("mnemonic {:?}", display_mnemonic(&mnemonic));
//slice_as_array!(&mnemonic, [String; 12])
//.ok_or(NgWalletError::InternalError)?
//.clone(),
let encrypted_block = EncryptedWalletV0 {
pazzle: pazzle.clone(),
mnemonic,
pin: params.pin,
sites: vec![site],
};
let mut master_key = [0u8; 32];
getrandom::getrandom(&mut master_key).map_err(|e| NgWalletError::InternalError)?;
let mut salt_pazzle = [0u8; 16];
let mut enc_master_key_pazzle = [0u8; 48];
if params.pazzle_length > 0 {
getrandom::getrandom(&mut salt_pazzle).map_err(|e| NgWalletError::InternalError)?;
let pazzle_key = derive_key_from_pass(
[pazzle.clone(), params.pin.to_vec()].concat(),
salt_pazzle,
wallet_id,
);
enc_master_key_pazzle = enc_master_key(master_key, pazzle_key, 0, wallet_id)?;
}
let mut salt_mnemonic = [0u8; 16];
getrandom::getrandom(&mut salt_mnemonic).map_err(|e| NgWalletError::InternalError)?;
//println!("salt_pazzle {:?}", salt_pazzle);
//println!("salt_mnemonic {:?}", salt_mnemonic);
let mnemonic_key = derive_key_from_pass(
[transmute_to_bytes(&mnemonic), &params.pin].concat(),
salt_mnemonic,
wallet_id,
);
let enc_master_key_mnemonic = enc_master_key(master_key, mnemonic_key, 0, wallet_id)?;
let timestamp = now_timestamp();
let encrypted = enc_encrypted_block(
&encrypted_block,
master_key,
params.peer_id,
params.nonce,
timestamp,
wallet_id,
)?;
let wallet_content = WalletContentV0 {
security_img: cursor.into_inner(),
security_txt: new_string,
pazzle_length: params.pazzle_length,
salt_pazzle,
salt_mnemonic,
enc_master_key_pazzle,
enc_master_key_mnemonic,
master_nonce: 0,
timestamp,
peer_id: params.peer_id,
nonce: params.nonce,
encrypted,
};
let ser_wallet = serde_bare::to_vec(&wallet_content).unwrap();
let sig = sign(wallet_key, wallet_id, &ser_wallet).unwrap();
let wallet_v0 = WalletV0 {
/// ID
id: wallet_id,
/// Content
content: wallet_content,
/// Signature over content by wallet's private key
sig,
};
// let content = BootstrapContentV0 { servers: vec![] };
// let ser = serde_bare::to_vec(&content).unwrap();
// let sig = sign(wallet_key, wallet_id, &ser).unwrap();
// let bootstrap = Bootstrap::V0(BootstrapV0 {
// id: wallet_id,
// content,
// sig,
// });
// TODO send bootstrap (if)
// TODO send wallet (if)
log!(
"creating of wallet took: {} ms",
creating_pazzle.elapsed().as_millis()
);
Ok(CreateWalletResultV0 {
wallet: Wallet::V0(wallet_v0),
pazzle,
mnemonic,
})
}
#[cfg(test)]
mod tests {
use super::*;
use p2p_repo::utils::generate_keypair;
use std::fs::File;
use std::io::BufReader;
use std::io::Read;
use std::io::Write;
use std::time::Instant;
// #[test]
// fn random_pass() {
// super::random_pass()
// }
#[test]
fn test_gen_shuffle() {
let shuffle = gen_shuffle_for_pazzle_opening(9);
log!("{:?}", shuffle);
let shuffle = gen_shuffle_for_pazzle_opening(12);
log!("{:?}", shuffle);
let shuffle = gen_shuffle_for_pazzle_opening(15);
log!("{:?}", shuffle);
let digits = gen_shuffle_for_pin();
let digits = gen_shuffle_for_pin();
}
#[async_std::test]
async fn create_wallet() {
// loading an image file from disk
let f = File::open("tests/valid_security_image.jpg")
.expect("open of tests/valid_security_image.jpg");
let mut reader = BufReader::new(f);
let mut img_buffer = Vec::new();
// Read file into vector.
reader
.read_to_end(&mut img_buffer)
.expect("read of valid_security_image.jpg");
let pin = [5, 2, 9, 1];
let creation = Instant::now();
let res = create_wallet_v0(CreateWalletV0::new(
img_buffer,
" know yourself ".to_string(),
pin,
9,
None,
false,
PubKey::Ed25519PubKey([
119, 251, 253, 29, 135, 199, 254, 50, 134, 67, 1, 208, 117, 196, 167, 107, 2, 113,
98, 243, 49, 90, 7, 0, 157, 58, 14, 187, 14, 3, 116, 86,
]),
0,
))
.await
.expect("create_wallet_v0");
log!(
"creation of wallet took: {} ms",
creation.elapsed().as_millis()
);
log!("-----------------------------");
let mut file = File::create("tests/wallet.ngw").expect("open wallet write file");
let ser_wallet = to_vec(&NgFile::V0(NgFileV0::Wallet(res.wallet.clone()))).unwrap();
file.write_all(&ser_wallet);
log!(
"wallet id: {:?}",
base64_url::encode(&res.wallet.id().slice())
);
log!("pazzle {:?}", display_pazzle(&res.pazzle));
log!("mnemonic {:?}", display_mnemonic(&res.mnemonic));
log!("pin {:?}", pin);
if let Wallet::V0(v0) = res.wallet {
log!("security text: {:?}", v0.content.security_txt);
let mut file =
File::create("tests/generated_security_image.jpg").expect("open write file");
file.write_all(&v0.content.security_img);
let f = File::open("tests/generated_security_image.jpg.compare")
.expect("open of generated_security_image.jpg.compare");
let mut reader = BufReader::new(f);
let mut generated_security_image_compare = Vec::new();
// Read file into vector.
reader
.read_to_end(&mut generated_security_image_compare)
.expect("read of generated_security_image.jpg.compare");
assert_eq!(v0.content.security_img, generated_security_image_compare);
let opening_mnemonic = Instant::now();
let w = open_wallet_with_mnemonic(Wallet::V0(v0.clone()), res.mnemonic, pin)
.expect("open with mnemonic");
//println!("encrypted part {:?}", w);
log!(
"opening of wallet with mnemonic took: {} ms",
opening_mnemonic.elapsed().as_millis()
);
if v0.content.pazzle_length > 0 {
let opening_pazzle = Instant::now();
let w = open_wallet_with_pazzle(Wallet::V0(v0.clone()), res.pazzle, pin)
.expect("open with pazzle");
log!(
"opening of wallet with pazzle took: {} ms",
opening_pazzle.elapsed().as_millis()
);
}
//println!("encrypted part {:?}", w);
}
}
}