Rust implementation of NextGraph, a Decentralized and local-first web 3.0 ecosystem https://nextgraph.org
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nextgraph-rs/nextgraph/examples/in_memory.rs

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// Copyright (c) 2022-2024 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.
use nextgraph::local_broker::{
init_local_broker, session_start, session_stop, user_connect, user_disconnect, wallet_close,
wallet_create_v0, wallet_get_file, wallet_import, wallet_open_with_pazzle_words,
wallet_read_file, wallet_was_opened, LocalBrokerConfig, SessionConfig,
};
use nextgraph::net::types::BootstrapContentV0;
use nextgraph::repo::errors::NgError;
use nextgraph::repo::types::PubKey;
use nextgraph::wallet::types::CreateWalletV0;
use nextgraph::wallet::{display_mnemonic, emojis::display_pazzle};
use std::env::current_dir;
use std::fs::read;
#[async_std::main]
async fn main() -> std::io::Result<()> {
// initialize the local_broker with in-memory config.
// all sessions will be lost when the program exits
init_local_broker(Box::new(|| LocalBrokerConfig::InMemory)).await;
// load some image that will be used as security_img
// we assume here for the sake of this example,
// that the current directory contains this demo image file
let mut current_path = current_dir()?;
current_path.push("nextgraph");
current_path.push("examples");
current_path.push("wallet-security-image-demo.png");
let security_img = read(current_path)?;
// the peer_id should come from somewhere else.
// this is just given for the sake of an example
#[allow(deprecated)]
let peer_id_of_server_broker = PubKey::nil();
// Create your wallet
// this will take some time !
println!("Creating the wallet. this will take some time...");
let wallet_result = wallet_create_v0(CreateWalletV0 {
security_img,
security_txt: "know yourself".to_string(),
pin: [1, 2, 1, 2],
pazzle_length: 9,
send_bootstrap: false,
send_wallet: false,
result_with_wallet_file: true,
local_save: false,
// we default to localhost:14400. this is just for the sake of an example
core_bootstrap: BootstrapContentV0::new_localhost(peer_id_of_server_broker),
core_registration: None,
additional_bootstrap: None,
})
.await?;
let pazzle = display_pazzle(&wallet_result.pazzle);
let mut pazzle_words = vec![];
println!("Your pazzle is: {:?}", wallet_result.pazzle);
for emoji in pazzle {
println!(" {}:\t{}", emoji.0, emoji.1);
pazzle_words.push(emoji.1.to_string());
}
println!("Your mnemonic is:");
display_mnemonic(&wallet_result.mnemonic)
.iter()
.for_each(|word| print!("{} ", word.as_str()));
println!("");
// at this point, the wallet is kept in the internal memory of the LocalBroker, but it hasn't been saved to disk
// and it hasn't been opened yet, so it is not usable right away.
// now let's open the wallet, by providing the pazzle and PIN code
let opened_wallet =
wallet_open_with_pazzle_words(&wallet_result.wallet, &pazzle_words, [1, 2, 1, 2])?;
let user_id = opened_wallet.personal_identity();
// once the wallet is opened, we notify the LocalBroker that we have opened it.
let _client = wallet_was_opened(opened_wallet).await?;
// if you need the Wallet File again (if you didn't select `result_with_wallet_file` by example), you can retrieve it with:
let wallet_file = wallet_get_file(&wallet_result.wallet_name).await?;
// if you did ask for `result_with_wallet_file`, as we did above, then the 2 vectors should be identical
assert_eq!(wallet_file, wallet_result.wallet_file);
{
// this part should happen on another device. just given here as an example
// on another device, you could use the Wallet File and import it there so it could be used for login.
// first you would read and decode the Wallet File
// this fails here because we already added this wallet in the LocalBroker (when we created it). But on another device, it would work.
let wallet = wallet_read_file(wallet_file).await;
assert_eq!(wallet.unwrap_err(), NgError::WalletAlreadyAdded);
// on another device, we would then open the wallet (here we take the Wallet as we received it from wallet_create_v0, but in real case you would use `wallet`)
let opened_wallet2 =
wallet_open_with_pazzle_words(&wallet_result.wallet, &pazzle_words, [1, 2, 1, 2])?;
// once it has been opened, the Wallet can be imported into the LocalBroker
// if you try to import the same wallet in a LocalBroker where it is already opened, it will fail. So here it fails. But on another device, it would work.
let client_fail = wallet_import(wallet_result.wallet.clone(), opened_wallet2, true).await;
assert_eq!(client_fail.unwrap_err(), NgError::WalletAlreadyAdded);
}
// anyway, now that the wallet is opened, let's start a session.
// we pass the user_id and the wallet_name
let _session = session_start(SessionConfig::new(&user_id, &wallet_result.wallet_name)).await?;
// if the user has internet access, they can now decide to connect to its Server Broker, in order to sync data
let status = user_connect(&user_id).await?;
// The connection cannot succeed because we miss-configured the core_bootstrap of the wallet. it's Peer ID is invalid.
assert_eq!(status[0].3.as_ref().unwrap(), "NoiseHandshakeFailed");
// Then we should disconnect
user_disconnect(&user_id).await?;
// stop the session
session_stop(&user_id).await?;
// closes the wallet
wallet_close(&wallet_result.wallet_name).await?;
Ok(())
}