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Merge branch 'main' into Pravdyvy/iss131-error-handling

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Pravdyvy 2025-11-26 06:49:46 +02:00
commit 4d1d765cbe
56 changed files with 1416 additions and 1576 deletions
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19
common/src/rpc_primitives/mod.rs
View File

@ -1,5 +1,3 @@
use std::time::Duration;
use serde::{Deserialize, Serialize};
pub mod errors;
@ -7,21 +5,6 @@ pub mod message;
pub mod parser;
pub mod requests;
#[derive(Serialize, Deserialize, Clone, Copy, Debug)]
pub struct RpcPollingConfig {
pub polling_interval: Duration,
pub polling_timeout: Duration,
}
impl Default for RpcPollingConfig {
fn default() -> Self {
Self {
polling_interval: Duration::from_millis(500),
polling_timeout: Duration::from_secs(10),
}
}
}
#[derive(Serialize, Deserialize, Clone, Debug)]
pub struct RpcLimitsConfig {
/// Maximum byte size of the json payload.
@ -40,7 +23,6 @@ impl Default for RpcLimitsConfig {
pub struct RpcConfig {
pub addr: String,
pub cors_allowed_origins: Vec<String>,
pub polling_config: RpcPollingConfig,
#[serde(default)]
pub limits_config: RpcLimitsConfig,
}
@ -50,7 +32,6 @@ impl Default for RpcConfig {
RpcConfig {
addr: "0.0.0.0:3040".to_owned(),
cors_allowed_origins: vec!["*".to_owned()],
polling_config: RpcPollingConfig::default(),
limits_config: RpcLimitsConfig::default(),
}
}

8
common/src/rpc_primitives/requests.rs
View File

@ -14,7 +14,7 @@ pub struct HelloRequest {}
#[derive(Serialize, Deserialize, Debug)]
pub struct RegisterAccountRequest {
pub address: [u8; 32],
pub account_id: [u8; 32],
}
#[derive(Serialize, Deserialize, Debug)]
@ -38,7 +38,7 @@ pub struct GetInitialTestnetAccountsRequest {}
#[derive(Serialize, Deserialize, Debug)]
pub struct GetAccountBalanceRequest {
pub address: String,
pub account_id: String,
}
#[derive(Serialize, Deserialize, Debug)]
@ -48,12 +48,12 @@ pub struct GetTransactionByHashRequest {
#[derive(Serialize, Deserialize, Debug)]
pub struct GetAccountsNoncesRequest {
pub addresses: Vec<String>,
pub account_ids: Vec<String>,
}
#[derive(Serialize, Deserialize, Debug)]
pub struct GetAccountRequest {
pub address: String,
pub account_id: String,
}
#[derive(Serialize, Deserialize, Debug)]

6
common/src/sequencer_client/json.rs
View File

@ -45,9 +45,9 @@ pub struct SequencerRpcResponse {
}
#[derive(Debug, Serialize, Deserialize, Clone)]
///Helperstruct for account serialization
/// Helperstruct for account serialization
pub struct AccountInitialData {
///Hex encoded `AccountAddress`
pub addr: String,
/// Hex encoded account id
pub account_id: String,
pub balance: u64,
}

16
common/src/sequencer_client/mod.rs
View File

@ -91,12 +91,12 @@ impl SequencerClient {
Ok(resp_deser)
}
///Get account public balance for `address`. `address` must be a valid hex-string for 32 bytes.
///Get account public balance for `account_id`. `account_id` must be a valid hex-string for 32 bytes.
pub async fn get_account_balance(
&self,
address: String,
account_id: String,
) -> Result<GetAccountBalanceResponse, SequencerClientError> {
let block_req = GetAccountBalanceRequest { address };
let block_req = GetAccountBalanceRequest { account_id };
let req = serde_json::to_value(block_req)?;
@ -109,12 +109,12 @@ impl SequencerClient {
Ok(resp_deser)
}
///Get accounts nonces for `addresses`. `addresses` must be a list of valid hex-strings for 32 bytes.
///Get accounts nonces for `account_ids`. `account_ids` must be a list of valid hex-strings for 32 bytes.
pub async fn get_accounts_nonces(
&self,
addresses: Vec<String>,
account_ids: Vec<String>,
) -> Result<GetAccountsNoncesResponse, SequencerClientError> {
let block_req = GetAccountsNoncesRequest { addresses };
let block_req = GetAccountsNoncesRequest { account_ids };
let req = serde_json::to_value(block_req)?;
@ -129,9 +129,9 @@ impl SequencerClient {
pub async fn get_account(
&self,
address: String,
account_id: String,
) -> Result<GetAccountResponse, SequencerClientError> {
let block_req = GetAccountRequest { address };
let block_req = GetAccountRequest { account_id };
let req = serde_json::to_value(block_req)?;

24
common/src/test_utils.rs
View File

@ -35,12 +35,16 @@ pub fn produce_dummy_block(
pub fn produce_dummy_empty_transaction() -> EncodedTransaction {
let program_id = nssa::program::Program::authenticated_transfer_program().id();
let addresses = vec![];
let account_ids = vec![];
let nonces = vec![];
let instruction_data: u128 = 0;
let message =
nssa::public_transaction::Message::try_new(program_id, addresses, nonces, instruction_data)
.unwrap();
let message = nssa::public_transaction::Message::try_new(
program_id,
account_ids,
nonces,
instruction_data,
)
.unwrap();
let private_key = nssa::PrivateKey::try_new([1; 32]).unwrap();
let witness_set = nssa::public_transaction::WitnessSet::for_message(&message, &[&private_key]);
@ -56,12 +60,16 @@ pub fn create_transaction_native_token_transfer(
balance_to_move: u128,
signing_key: nssa::PrivateKey,
) -> EncodedTransaction {
let addresses = vec![nssa::Address::new(from), nssa::Address::new(to)];
let account_ids = vec![nssa::AccountId::new(from), nssa::AccountId::new(to)];
let nonces = vec![nonce];
let program_id = nssa::program::Program::authenticated_transfer_program().id();
let message =
nssa::public_transaction::Message::try_new(program_id, addresses, nonces, balance_to_move)
.unwrap();
let message = nssa::public_transaction::Message::try_new(
program_id,
account_ids,
nonces,
balance_to_move,
)
.unwrap();
let witness_set = nssa::public_transaction::WitnessSet::for_message(&message, &[&signing_key]);
let nssa_tx = nssa::PublicTransaction::new(message, witness_set);

4
integration_tests/configs/debug/sequencer/sequencer_config.json
View File

@ -9,11 +9,11 @@
"port": 3040,
"initial_accounts": [
{
"addr": "BLgCRDXYdQPMMWVHYRFGQZbgeHx9frkipa8GtpG2Syqy",
"account_id": "BLgCRDXYdQPMMWVHYRFGQZbgeHx9frkipa8GtpG2Syqy",
"balance": 10000
},
{
"addr": "Gj1mJy5W7J5pfmLRujmQaLfLMWidNxQ6uwnhb666ZwHw",
"account_id": "Gj1mJy5W7J5pfmLRujmQaLfLMWidNxQ6uwnhb666ZwHw",
"balance": 20000
}
],

8
integration_tests/configs/debug/wallet/wallet_config.json
View File

@ -8,7 +8,7 @@
"initial_accounts": [
{
"Public": {
"address": "BLgCRDXYdQPMMWVHYRFGQZbgeHx9frkipa8GtpG2Syqy",
"account_id": "BLgCRDXYdQPMMWVHYRFGQZbgeHx9frkipa8GtpG2Syqy",
"pub_sign_key": [
16,
162,
@ -47,7 +47,7 @@
},
{
"Public": {
"address": "Gj1mJy5W7J5pfmLRujmQaLfLMWidNxQ6uwnhb666ZwHw",
"account_id": "Gj1mJy5W7J5pfmLRujmQaLfLMWidNxQ6uwnhb666ZwHw",
"pub_sign_key": [
113,
121,
@ -86,7 +86,7 @@
},
{
"Private": {
"address": "3oCG8gqdKLMegw4rRfyaMQvuPHpcASt7xwttsmnZLSkw",
"account_id": "3oCG8gqdKLMegw4rRfyaMQvuPHpcASt7xwttsmnZLSkw",
"account": {
"program_owner": [
0,
@ -315,7 +315,7 @@
},
{
"Private": {
"address": "AKTcXgJ1xoynta1Ec7y6Jso1z1JQtHqd7aPQ1h9er6xX",
"account_id": "AKTcXgJ1xoynta1Ec7y6Jso1z1JQtHqd7aPQ1h9er6xX",
"account": {
"program_owner": [
0,

22
integration_tests/src/lib.rs
View File

@ -44,12 +44,12 @@ pub const TIME_TO_WAIT_FOR_BLOCK_SECONDS: u64 = 12;
pub const NSSA_PROGRAM_FOR_TEST_DATA_CHANGER: &[u8] = include_bytes!("data_changer.bin");
fn make_public_account_input_from_str(addr: &str) -> String {
format!("Public/{addr}")
fn make_public_account_input_from_str(account_id: &str) -> String {
format!("Public/{account_id}")
}
fn make_private_account_input_from_str(addr: &str) -> String {
format!("Private/{addr}")
fn make_private_account_input_from_str(account_id: &str) -> String {
format!("Private/{account_id}")
}
#[allow(clippy::type_complexity)]
@ -174,14 +174,14 @@ mod tests {
use crate::{make_private_account_input_from_str, make_public_account_input_from_str};
#[test]
fn correct_addr_from_prefix() {
let addr1 = "cafecafe";
let addr2 = "deadbeaf";
fn correct_account_id_from_prefix() {
let account_id1 = "cafecafe";
let account_id2 = "deadbeaf";
let addr1_pub = make_public_account_input_from_str(addr1);
let addr2_priv = make_private_account_input_from_str(addr2);
let account_id1_pub = make_public_account_input_from_str(account_id1);
let account_id2_priv = make_private_account_input_from_str(account_id2);
assert_eq!(addr1_pub, "Public/cafecafe".to_string());
assert_eq!(addr2_priv, "Private/deadbeaf".to_string());
assert_eq!(account_id1_pub, "Public/cafecafe".to_string());
assert_eq!(account_id2_priv, "Private/deadbeaf".to_string());
}
}

425
integration_tests/src/test_suite_map.rs
View File

@ -9,7 +9,7 @@ use std::{
use actix_web::dev::ServerHandle;
use common::{PINATA_BASE58, sequencer_client::SequencerClient};
use log::info;
use nssa::{Address, ProgramDeploymentTransaction, program::Program};
use nssa::{AccountId, ProgramDeploymentTransaction, program::Program};
use nssa_core::{NullifierPublicKey, encryption::shared_key_derivation::Secp256k1Point};
use sequencer_runner::startup_sequencer;
use tempfile::TempDir;
@ -96,24 +96,24 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
last_synced_block: _,
} = fetch_persistent_storage().await.unwrap();
let mut new_persistent_account_addr = String::new();
let mut new_persistent_account_id = String::new();
for per_acc in persistent_accounts {
if (per_acc.address().to_string() != ACC_RECEIVER)
&& (per_acc.address().to_string() != ACC_SENDER)
if (per_acc.account_id().to_string() != ACC_RECEIVER)
&& (per_acc.account_id().to_string() != ACC_SENDER)
{
new_persistent_account_addr = per_acc.address().to_string();
new_persistent_account_id = per_acc.account_id().to_string();
}
}
if new_persistent_account_addr == String::new() {
if new_persistent_account_id == String::new() {
panic!("Failed to produce new account, not present in persistent accounts");
}
let command = Command::AuthTransfer(AuthTransferSubcommand::Send {
from: make_public_account_input_from_str(ACC_SENDER),
to: Some(make_public_account_input_from_str(
&new_persistent_account_addr,
&new_persistent_account_id,
)),
to_npk: None,
to_ipk: None,
@ -131,7 +131,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
.await
.unwrap();
let acc_2_balance = seq_client
.get_account_balance(new_persistent_account_addr)
.get_account_balance(new_persistent_account_id)
.await
.unwrap();
@ -307,29 +307,35 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
last_synced_block: _,
} = fetch_persistent_storage().await.unwrap();
let mut new_persistent_accounts_addr = Vec::new();
let mut new_persistent_accounts_account_id = Vec::new();
for per_acc in persistent_accounts {
match per_acc {
PersistentAccountData::Public(per_acc) => {
if (per_acc.address.to_string() != ACC_RECEIVER)
&& (per_acc.address.to_string() != ACC_SENDER)
if (per_acc.account_id.to_string() != ACC_RECEIVER)
&& (per_acc.account_id.to_string() != ACC_SENDER)
{
new_persistent_accounts_addr.push(per_acc.address);
new_persistent_accounts_account_id.push(per_acc.account_id);
}
}
_ => continue,
}
}
let [definition_addr, supply_addr, recipient_addr] = new_persistent_accounts_addr
let [
definition_account_id,
supply_account_id,
recipient_account_id,
] = new_persistent_accounts_account_id
.try_into()
.expect("Failed to produce new account, not present in persistent accounts");
// Create new token
let subcommand = TokenProgramAgnosticSubcommand::New {
definition_addr: make_public_account_input_from_str(&definition_addr.to_string()),
supply_addr: make_public_account_input_from_str(&supply_addr.to_string()),
definition_account_id: make_public_account_input_from_str(
&definition_account_id.to_string(),
),
supply_account_id: make_public_account_input_from_str(&supply_account_id.to_string()),
name: "A NAME".to_string(),
total_supply: 37,
};
@ -343,7 +349,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// Check the status of the token definition account is the expected after the execution
let definition_acc = seq_client
.get_account(definition_addr.to_string())
.get_account(definition_account_id.to_string())
.await
.unwrap()
.account;
@ -360,7 +366,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// Check the status of the token holding account with the total supply is the expected after the execution
let supply_acc = seq_client
.get_account(supply_addr.to_string())
.get_account(supply_account_id.to_string())
.await
.unwrap()
.account;
@ -373,18 +379,18 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
assert_eq!(supply_acc.data[0], 1);
// Bytes from 1 to 33 represent the id of the token this account is associated with.
// In this example, this is a token account of the newly created token, so it is expected
// to be equal to the address of the token definition account.
assert_eq!(&supply_acc.data[1..33], definition_addr.to_bytes());
// to be equal to the account_id of the token definition account.
assert_eq!(&supply_acc.data[1..33], definition_account_id.to_bytes());
assert_eq!(
u128::from_le_bytes(supply_acc.data[33..].try_into().unwrap()),
37
);
// Transfer 7 tokens from `supply_acc` to the account at address `recipient_addr`
// Transfer 7 tokens from `supply_acc` to the account at account_id `recipient_account_id`
let subcommand = TokenProgramAgnosticSubcommand::Send {
from: make_public_account_input_from_str(&supply_addr.to_string()),
from: make_public_account_input_from_str(&supply_account_id.to_string()),
to: Some(make_public_account_input_from_str(
&recipient_addr.to_string(),
&recipient_account_id.to_string(),
)),
to_npk: None,
to_ipk: None,
@ -397,9 +403,9 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
info!("Waiting for next block creation");
tokio::time::sleep(Duration::from_secs(TIME_TO_WAIT_FOR_BLOCK_SECONDS)).await;
// Check the status of the account at `supply_addr` is the expected after the execution
// Check the status of the account at `supply_account_id` is the expected after the execution
let supply_acc = seq_client
.get_account(supply_addr.to_string())
.get_account(supply_account_id.to_string())
.await
.unwrap()
.account;
@ -408,15 +414,15 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// First byte equal to 1 means it's a token holding account
assert_eq!(supply_acc.data[0], 1);
// Bytes from 1 to 33 represent the id of the token this account is associated with.
assert_eq!(&supply_acc.data[1..33], definition_addr.to_bytes());
assert_eq!(&supply_acc.data[1..33], definition_account_id.to_bytes());
assert_eq!(
u128::from_le_bytes(supply_acc.data[33..].try_into().unwrap()),
30
);
// Check the status of the account at `recipient_addr` is the expected after the execution
// Check the status of the account at `recipient_account_id` is the expected after the execution
let recipient_acc = seq_client
.get_account(recipient_addr.to_string())
.get_account(recipient_account_id.to_string())
.await
.unwrap()
.account;
@ -426,7 +432,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// First byte equal to 1 means it's a token holding account
assert_eq!(recipient_acc.data[0], 1);
// Bytes from 1 to 33 represent the id of the token this account is associated with.
assert_eq!(&recipient_acc.data[1..33], definition_addr.to_bytes());
assert_eq!(&recipient_acc.data[1..33], definition_account_id.to_bytes());
assert_eq!(
u128::from_le_bytes(recipient_acc.data[33..].try_into().unwrap()),
7
@ -442,7 +448,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// Create new account for the token definition (public)
let SubcommandReturnValue::RegisterAccount {
addr: definition_addr,
account_id: definition_account_id,
} = wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Public {},
)))
@ -452,18 +458,19 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
panic!("invalid subcommand return value");
};
// Create new account for the token supply holder (private)
let SubcommandReturnValue::RegisterAccount { addr: supply_addr } =
wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Private {},
)))
.await
.unwrap()
let SubcommandReturnValue::RegisterAccount {
account_id: supply_account_id,
} = wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Private {},
)))
.await
.unwrap()
else {
panic!("invalid subcommand return value");
};
// Create new account for receiving a token transaction
let SubcommandReturnValue::RegisterAccount {
addr: recipient_addr,
account_id: recipient_account_id,
} = wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Private {},
)))
@ -475,8 +482,10 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// Create new token
let subcommand = TokenProgramAgnosticSubcommand::New {
definition_addr: make_public_account_input_from_str(&definition_addr.to_string()),
supply_addr: make_private_account_input_from_str(&supply_addr.to_string()),
definition_account_id: make_public_account_input_from_str(
&definition_account_id.to_string(),
),
supply_account_id: make_private_account_input_from_str(&supply_account_id.to_string()),
name: "A NAME".to_string(),
total_supply: 37,
};
@ -492,7 +501,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// Check the status of the token definition account is the expected after the execution
let definition_acc = seq_client
.get_account(definition_addr.to_string())
.get_account(definition_account_id.to_string())
.await
.unwrap()
.account;
@ -513,15 +522,15 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
.unwrap();
let new_commitment1 = wallet_storage
.get_private_account_commitment(&supply_addr)
.get_private_account_commitment(&supply_account_id)
.unwrap();
assert!(verify_commitment_is_in_state(new_commitment1, &seq_client).await);
// Transfer 7 tokens from `supply_acc` to the account at address `recipient_addr`
// Transfer 7 tokens from `supply_acc` to the account at account_id `recipient_account_id`
let subcommand = TokenProgramAgnosticSubcommand::Send {
from: make_private_account_input_from_str(&supply_addr.to_string()),
from: make_private_account_input_from_str(&supply_account_id.to_string()),
to: Some(make_private_account_input_from_str(
&recipient_addr.to_string(),
&recipient_account_id.to_string(),
)),
to_npk: None,
to_ipk: None,
@ -541,20 +550,20 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
.unwrap();
let new_commitment1 = wallet_storage
.get_private_account_commitment(&supply_addr)
.get_private_account_commitment(&supply_account_id)
.unwrap();
assert!(verify_commitment_is_in_state(new_commitment1, &seq_client).await);
let new_commitment2 = wallet_storage
.get_private_account_commitment(&recipient_addr)
.get_private_account_commitment(&recipient_account_id)
.unwrap();
assert!(verify_commitment_is_in_state(new_commitment2, &seq_client).await);
// Transfer additional 7 tokens from `supply_acc` to the account at address `recipient_addr`
// Transfer additional 7 tokens from `supply_acc` to the account at account_id `recipient_account_id`
let subcommand = TokenProgramAgnosticSubcommand::Send {
from: make_private_account_input_from_str(&supply_addr.to_string()),
from: make_private_account_input_from_str(&supply_account_id.to_string()),
to: Some(make_private_account_input_from_str(
&recipient_addr.to_string(),
&recipient_account_id.to_string(),
)),
to_npk: None,
to_ipk: None,
@ -574,12 +583,12 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
.unwrap();
let new_commitment1 = wallet_storage
.get_private_account_commitment(&supply_addr)
.get_private_account_commitment(&supply_account_id)
.unwrap();
assert!(verify_commitment_is_in_state(new_commitment1, &seq_client).await);
let new_commitment2 = wallet_storage
.get_private_account_commitment(&recipient_addr)
.get_private_account_commitment(&recipient_account_id)
.unwrap();
assert!(verify_commitment_is_in_state(new_commitment2, &seq_client).await);
}
@ -593,7 +602,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// Create new account for the token definition (public)
let SubcommandReturnValue::RegisterAccount {
addr: definition_addr,
account_id: definition_account_id,
} = wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Public {},
)))
@ -603,18 +612,19 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
panic!("invalid subcommand return value");
};
// Create new account for the token supply holder (private)
let SubcommandReturnValue::RegisterAccount { addr: supply_addr } =
wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Private {},
)))
.await
.unwrap()
let SubcommandReturnValue::RegisterAccount {
account_id: supply_account_id,
} = wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Private {},
)))
.await
.unwrap()
else {
panic!("invalid subcommand return value");
};
// Create new account for receiving a token transaction
let SubcommandReturnValue::RegisterAccount {
addr: recipient_addr,
account_id: recipient_account_id,
} = wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Private {},
)))
@ -626,8 +636,10 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// Create new token
let subcommand = TokenProgramAgnosticSubcommand::New {
definition_addr: make_public_account_input_from_str(&definition_addr.to_string()),
supply_addr: make_private_account_input_from_str(&supply_addr.to_string()),
definition_account_id: make_public_account_input_from_str(
&definition_account_id.to_string(),
),
supply_account_id: make_private_account_input_from_str(&supply_account_id.to_string()),
name: "A NAME".to_string(),
total_supply: 37,
};
@ -643,7 +655,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// Check the status of the token definition account is the expected after the execution
let definition_acc = seq_client
.get_account(definition_addr.to_string())
.get_account(definition_account_id.to_string())
.await
.unwrap()
.account;
@ -664,19 +676,19 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
.unwrap();
let new_commitment1 = wallet_storage
.get_private_account_commitment(&supply_addr)
.get_private_account_commitment(&supply_account_id)
.unwrap();
assert!(verify_commitment_is_in_state(new_commitment1, &seq_client).await);
let (recipient_keys, _) = wallet_storage
.storage
.user_data
.get_private_account(&recipient_addr)
.get_private_account(&recipient_account_id)
.unwrap();
// Transfer 7 tokens from `supply_acc` to the account at address `recipient_addr`
// Transfer 7 tokens from `supply_acc` to the account at account_id `recipient_account_id`
let subcommand = TokenProgramAgnosticSubcommand::Send {
from: make_private_account_input_from_str(&supply_addr.to_string()),
from: make_private_account_input_from_str(&supply_account_id.to_string()),
to: None,
to_npk: Some(hex::encode(recipient_keys.nullifer_public_key.0)),
to_ipk: Some(hex::encode(
@ -706,12 +718,12 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
.unwrap();
let new_commitment1 = wallet_storage
.get_private_account_commitment(&supply_addr)
.get_private_account_commitment(&supply_account_id)
.unwrap();
assert!(verify_commitment_is_in_state(new_commitment1, &seq_client).await);
let new_commitment2 = wallet_storage
.get_private_account_commitment(&recipient_addr)
.get_private_account_commitment(&recipient_account_id)
.unwrap();
assert!(verify_commitment_is_in_state(new_commitment2, &seq_client).await);
}
@ -725,7 +737,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// Create new account for the token definition (public)
let SubcommandReturnValue::RegisterAccount {
addr: definition_addr,
account_id: definition_account_id,
} = wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Public {},
)))
@ -735,18 +747,19 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
panic!("invalid subcommand return value");
};
// Create new account for the token supply holder (public)
let SubcommandReturnValue::RegisterAccount { addr: supply_addr } =
wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Public {},
)))
.await
.unwrap()
let SubcommandReturnValue::RegisterAccount {
account_id: supply_account_id,
} = wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Public {},
)))
.await
.unwrap()
else {
panic!("invalid subcommand return value");
};
// Create new account for receiving a token transaction
let SubcommandReturnValue::RegisterAccount {
addr: recipient_addr,
account_id: recipient_account_id,
} = wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Private {},
)))
@ -758,8 +771,10 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// Create new token
let subcommand = TokenProgramAgnosticSubcommand::New {
definition_addr: make_public_account_input_from_str(&definition_addr.to_string()),
supply_addr: make_public_account_input_from_str(&supply_addr.to_string()),
definition_account_id: make_public_account_input_from_str(
&definition_account_id.to_string(),
),
supply_account_id: make_public_account_input_from_str(&supply_account_id.to_string()),
name: "A NAME".to_string(),
total_supply: 37,
};
@ -775,7 +790,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// Check the status of the token definition account is the expected after the execution
let definition_acc = seq_client
.get_account(definition_addr.to_string())
.get_account(definition_account_id.to_string())
.await
.unwrap()
.account;
@ -790,11 +805,11 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
]
);
// Transfer 7 tokens from `supply_acc` to the account at address `recipient_addr`
// Transfer 7 tokens from `supply_acc` to the account at account_id `recipient_account_id`
let subcommand = TokenProgramAgnosticSubcommand::Send {
from: make_public_account_input_from_str(&supply_addr.to_string()),
from: make_public_account_input_from_str(&supply_account_id.to_string()),
to: Some(make_private_account_input_from_str(
&recipient_addr.to_string(),
&recipient_account_id.to_string(),
)),
to_npk: None,
to_ipk: None,
@ -814,15 +829,15 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
.unwrap();
let new_commitment2 = wallet_storage
.get_private_account_commitment(&recipient_addr)
.get_private_account_commitment(&recipient_account_id)
.unwrap();
assert!(verify_commitment_is_in_state(new_commitment2, &seq_client).await);
// Transfer additional 7 tokens from `supply_acc` to the account at address `recipient_addr`
// Transfer additional 7 tokens from `supply_acc` to the account at account_id `recipient_account_id`
let subcommand = TokenProgramAgnosticSubcommand::Send {
from: make_public_account_input_from_str(&supply_addr.to_string()),
from: make_public_account_input_from_str(&supply_account_id.to_string()),
to: Some(make_private_account_input_from_str(
&recipient_addr.to_string(),
&recipient_account_id.to_string(),
)),
to_npk: None,
to_ipk: None,
@ -842,7 +857,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
.unwrap();
let new_commitment2 = wallet_storage
.get_private_account_commitment(&recipient_addr)
.get_private_account_commitment(&recipient_account_id)
.unwrap();
assert!(verify_commitment_is_in_state(new_commitment2, &seq_client).await);
}
@ -856,7 +871,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// Create new account for the token definition (public)
let SubcommandReturnValue::RegisterAccount {
addr: definition_addr,
account_id: definition_account_id,
} = wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Public {},
)))
@ -866,18 +881,19 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
panic!("invalid subcommand return value");
};
// Create new account for the token supply holder (private)
let SubcommandReturnValue::RegisterAccount { addr: supply_addr } =
wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Private {},
)))
.await
.unwrap()
let SubcommandReturnValue::RegisterAccount {
account_id: supply_account_id,
} = wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Private {},
)))
.await
.unwrap()
else {
panic!("invalid subcommand return value");
};
// Create new account for receiving a token transaction
let SubcommandReturnValue::RegisterAccount {
addr: recipient_addr,
account_id: recipient_account_id,
} = wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Public {},
)))
@ -889,8 +905,10 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// Create new token
let subcommand = TokenProgramAgnosticSubcommand::New {
definition_addr: make_public_account_input_from_str(&definition_addr.to_string()),
supply_addr: make_private_account_input_from_str(&supply_addr.to_string()),
definition_account_id: make_public_account_input_from_str(
&definition_account_id.to_string(),
),
supply_account_id: make_private_account_input_from_str(&supply_account_id.to_string()),
name: "A NAME".to_string(),
total_supply: 37,
};
@ -906,7 +924,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// Check the status of the token definition account is the expected after the execution
let definition_acc = seq_client
.get_account(definition_addr.to_string())
.get_account(definition_account_id.to_string())
.await
.unwrap()
.account;
@ -927,15 +945,15 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
.unwrap();
let new_commitment1 = wallet_storage
.get_private_account_commitment(&supply_addr)
.get_private_account_commitment(&supply_account_id)
.unwrap();
assert!(verify_commitment_is_in_state(new_commitment1, &seq_client).await);
// Transfer 7 tokens from `supply_acc` to the account at address `recipient_addr`
// Transfer 7 tokens from `supply_acc` to the account at account_id `recipient_account_id`
let subcommand = TokenProgramAgnosticSubcommand::Send {
from: make_private_account_input_from_str(&supply_addr.to_string()),
from: make_private_account_input_from_str(&supply_account_id.to_string()),
to: Some(make_public_account_input_from_str(
&recipient_addr.to_string(),
&recipient_account_id.to_string(),
)),
to_npk: None,
to_ipk: None,
@ -955,15 +973,15 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
.unwrap();
let new_commitment1 = wallet_storage
.get_private_account_commitment(&supply_addr)
.get_private_account_commitment(&supply_account_id)
.unwrap();
assert!(verify_commitment_is_in_state(new_commitment1, &seq_client).await);
// Transfer additional 7 tokens from `supply_acc` to the account at address `recipient_addr`
// Transfer additional 7 tokens from `supply_acc` to the account at account_id `recipient_account_id`
let subcommand = TokenProgramAgnosticSubcommand::Send {
from: make_private_account_input_from_str(&supply_addr.to_string()),
from: make_private_account_input_from_str(&supply_account_id.to_string()),
to: Some(make_public_account_input_from_str(
&recipient_addr.to_string(),
&recipient_account_id.to_string(),
)),
to_npk: None,
to_ipk: None,
@ -983,7 +1001,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
.unwrap();
let new_commitment1 = wallet_storage
.get_private_account_commitment(&supply_addr)
.get_private_account_commitment(&supply_account_id)
.unwrap();
assert!(verify_commitment_is_in_state(new_commitment1, &seq_client).await);
}
@ -991,8 +1009,8 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
#[nssa_integration_test]
pub async fn test_success_private_transfer_to_another_owned_account() {
info!("########## test_success_private_transfer_to_another_owned_account ##########");
let from: Address = ACC_SENDER_PRIVATE.parse().unwrap();
let to: Address = ACC_RECEIVER_PRIVATE.parse().unwrap();
let from: AccountId = ACC_SENDER_PRIVATE.parse().unwrap();
let to: AccountId = ACC_RECEIVER_PRIVATE.parse().unwrap();
let command = Command::AuthTransfer(AuthTransferSubcommand::Send {
from: make_private_account_input_from_str(&from.to_string()),
@ -1027,7 +1045,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
#[nssa_integration_test]
pub async fn test_success_private_transfer_to_another_foreign_account() {
info!("########## test_success_private_transfer_to_another_foreign_account ##########");
let from: Address = ACC_SENDER_PRIVATE.parse().unwrap();
let from: AccountId = ACC_SENDER_PRIVATE.parse().unwrap();
let to_npk = NullifierPublicKey([42; 32]);
let to_npk_string = hex::encode(to_npk.0);
let to_ipk = Secp256k1Point::from_scalar(to_npk.0);
@ -1075,12 +1093,15 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
info!(
"########## test_success_private_transfer_to_another_owned_account_claiming_path ##########"
);
let from: Address = ACC_SENDER_PRIVATE.parse().unwrap();
let from: AccountId = ACC_SENDER_PRIVATE.parse().unwrap();
let command = Command::Account(AccountSubcommand::New(NewSubcommand::Private {}));
let sub_ret = wallet::execute_subcommand(command).await.unwrap();
let SubcommandReturnValue::RegisterAccount { addr: to_addr } = sub_ret else {
let SubcommandReturnValue::RegisterAccount {
account_id: to_account_id,
} = sub_ret
else {
panic!("FAILED TO REGISTER ACCOUNT");
};
@ -1094,7 +1115,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
.storage
.user_data
.user_private_accounts
.get(&to_addr)
.get(&to_account_id)
.cloned()
.unwrap();
@ -1129,95 +1150,88 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
assert!(verify_commitment_is_in_state(commitment, &seq_client).await);
}
let to_res_acc = wallet_storage.get_account_private(&to_addr).unwrap();
let to_res_acc = wallet_storage.get_account_private(&to_account_id).unwrap();
assert_eq!(to_res_acc.balance, 100);
info!("Success!");
}
// #[nssa_integration_test]
// pub async fn test_success_private_transfer_to_another_owned_account_cont_run_path() {
// info!(
// "########## test_success_private_transfer_to_another_owned_account_cont_run_path ##########"
// );
// let continious_run_handle = tokio::spawn(wallet::execute_continious_run());
#[nssa_integration_test]
pub async fn test_success_private_transfer_to_another_owned_account_cont_run_path() {
info!(
"########## test_success_private_transfer_to_another_owned_account_cont_run_path ##########"
);
let continious_run_handle = tokio::spawn(wallet::execute_continious_run());
// let from: Address = ACC_SENDER_PRIVATE.parse().unwrap();
let from: AccountId = ACC_SENDER_PRIVATE.parse().unwrap();
// let command = Command::Account(AccountSubcommand::New(NewSubcommand::Private {}));
let command = Command::Account(AccountSubcommand::New(NewSubcommand::Private {}));
// let sub_ret = wallet::execute_subcommand(command).await.unwrap();
// let SubcommandReturnValue::RegisterAccount { addr: to_addr } = sub_ret else {
// panic!("FAILED TO REGISTER ACCOUNT");
// };
let sub_ret = wallet::execute_subcommand(command).await.unwrap();
let SubcommandReturnValue::RegisterAccount {
account_id: to_account_id,
} = sub_ret
else {
panic!("FAILED TO REGISTER ACCOUNT");
};
// let wallet_config = fetch_config().await.unwrap();
// let seq_client = SequencerClient::new(wallet_config.sequencer_addr.clone()).unwrap();
// let wallet_storage = WalletCore::start_from_config_update_chain(wallet_config.clone())
// .await
// .unwrap();
let wallet_config = fetch_config().await.unwrap();
let seq_client = SequencerClient::new(wallet_config.sequencer_addr.clone()).unwrap();
let wallet_storage = WalletCore::start_from_config_update_chain(wallet_config.clone())
.await
.unwrap();
// let (to_keys, _) = wallet_storage
// .storage
// .user_data
// .user_private_accounts
// .get(&to_addr)
// .cloned()
// .unwrap();
let (to_keys, _) = wallet_storage
.storage
.user_data
.user_private_accounts
.get(&to_account_id)
.cloned()
.unwrap();
// let command = Command::AuthTransfer(AuthTransferSubcommand::Send {
// from: make_private_account_input_from_str(&from.to_string()),
// to: None,
// to_npk: Some(hex::encode(to_keys.nullifer_public_key.0)),
// to_ipk: Some(hex::encode(to_keys.incoming_viewing_public_key.0)),
// amount: 100,
// });
let command = Command::AuthTransfer(AuthTransferSubcommand::Send {
from: make_private_account_input_from_str(&from.to_string()),
to: None,
to_npk: Some(hex::encode(to_keys.nullifer_public_key.0)),
to_ipk: Some(hex::encode(to_keys.incoming_viewing_public_key.0)),
amount: 100,
});
// let sub_ret = wallet::execute_subcommand(command).await.unwrap();
// let SubcommandReturnValue::PrivacyPreservingTransfer { tx_hash } = sub_ret else {
// panic!("FAILED TO SEND TX");
// };
let sub_ret = wallet::execute_subcommand(command).await.unwrap();
let SubcommandReturnValue::PrivacyPreservingTransfer { tx_hash } = sub_ret else {
panic!("FAILED TO SEND TX");
};
// let tx = fetch_privacy_preserving_tx(&seq_client, tx_hash.clone()).await;
let tx = fetch_privacy_preserving_tx(&seq_client, tx_hash.clone()).await;
// println!("Waiting for next blocks to check if continoius run fetch account");
// tokio::time::sleep(Duration::from_secs(8 * TIME_TO_WAIT_FOR_BLOCK_SECONDS)).await;
println!("Waiting for next blocks to check if continoius run fetch account");
tokio::time::sleep(Duration::from_secs(TIME_TO_WAIT_FOR_BLOCK_SECONDS)).await;
tokio::time::sleep(Duration::from_secs(TIME_TO_WAIT_FOR_BLOCK_SECONDS)).await;
// let wallet_config = fetch_config().await.unwrap();
// let wallet_storage = WalletCore::start_from_config_update_chain(wallet_config)
// .await
// .unwrap();
let wallet_storage = WalletCore::start_from_config_update_chain(wallet_config)
.await
.unwrap();
// info!("All private accounts data");
// for (addr, (_, acc)) in &wallet_storage.storage.user_data.user_private_accounts {
// info!("{addr} :: {acc:#?}");
// }
assert_eq!(tx.message.new_commitments.len(), 2);
for commitment in tx.message.new_commitments.into_iter() {
assert!(verify_commitment_is_in_state(commitment, &seq_client).await);
}
// let new_commitment1 = wallet_storage
// .get_private_account_commitment(&from)
// .unwrap();
// assert_eq!(tx.message.new_commitments[0], new_commitment1);
let to_res_acc = wallet_storage.get_account_private(&to_account_id).unwrap();
// assert_eq!(tx.message.new_commitments.len(), 2);
// for commitment in tx.message.new_commitments.into_iter() {
// assert!(verify_commitment_is_in_state(commitment, &seq_client).await);
// }
assert_eq!(to_res_acc.balance, 100);
// let to_res_acc = wallet_storage.get_account_private(&to_addr).unwrap();
continious_run_handle.abort();
// assert_eq!(to_res_acc.balance, 100);
// continious_run_handle.abort();
// info!("Success!");
// }
info!("Success!");
}
#[nssa_integration_test]
pub async fn test_success_deshielded_transfer_to_another_account() {
info!("########## test_success_deshielded_transfer_to_another_account ##########");
let from: Address = ACC_SENDER_PRIVATE.parse().unwrap();
let to: Address = ACC_RECEIVER.parse().unwrap();
let from: AccountId = ACC_SENDER_PRIVATE.parse().unwrap();
let to: AccountId = ACC_RECEIVER.parse().unwrap();
let command = Command::AuthTransfer(AuthTransferSubcommand::Send {
from: make_private_account_input_from_str(&from.to_string()),
@ -1265,8 +1279,8 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
#[nssa_integration_test]
pub async fn test_success_shielded_transfer_to_another_owned_account() {
info!("########## test_success_shielded_transfer_to_another_owned_account ##########");
let from: Address = ACC_SENDER.parse().unwrap();
let to: Address = ACC_RECEIVER_PRIVATE.parse().unwrap();
let from: AccountId = ACC_SENDER.parse().unwrap();
let to: AccountId = ACC_RECEIVER_PRIVATE.parse().unwrap();
let command = Command::AuthTransfer(AuthTransferSubcommand::Send {
from: make_public_account_input_from_str(&from.to_string()),
@ -1310,7 +1324,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
let to_npk = NullifierPublicKey([42; 32]);
let to_npk_string = hex::encode(to_npk.0);
let to_ipk = Secp256k1Point::from_scalar(to_npk.0);
let from: Address = ACC_SENDER.parse().unwrap();
let from: AccountId = ACC_SENDER.parse().unwrap();
let command = Command::AuthTransfer(AuthTransferSubcommand::Send {
from: make_public_account_input_from_str(&from.to_string()),
@ -1352,11 +1366,11 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
#[nssa_integration_test]
pub async fn test_pinata() {
info!("########## test_pinata ##########");
let pinata_addr = PINATA_BASE58;
let pinata_account_id = PINATA_BASE58;
let pinata_prize = 150;
let solution = 989106;
let command = Command::Pinata(PinataProgramAgnosticSubcommand::Claim {
to_addr: make_public_account_input_from_str(ACC_SENDER),
to_account_id: make_public_account_input_from_str(ACC_SENDER),
solution,
});
@ -1365,7 +1379,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
let seq_client = SequencerClient::new(wallet_config.sequencer_addr.clone()).unwrap();
let pinata_balance_pre = seq_client
.get_account_balance(pinata_addr.to_string())
.get_account_balance(pinata_account_id.to_string())
.await
.unwrap()
.balance;
@ -1377,7 +1391,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
info!("Checking correct balance move");
let pinata_balance_post = seq_client
.get_account_balance(pinata_addr.to_string())
.get_account_balance(pinata_account_id.to_string())
.await
.unwrap()
.balance;
@ -1413,10 +1427,10 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
// We pass an uninitialized account and we expect after execution to be owned by the data
// changer program (NSSA account claiming mechanism) with data equal to [0] (due to program logic)
let data_changer = Program::new(bytecode).unwrap();
let address: Address = "11".repeat(16).parse().unwrap();
let account_id: AccountId = "11".repeat(16).parse().unwrap();
let message = nssa::public_transaction::Message::try_new(
data_changer.id(),
vec![address],
vec![account_id],
vec![],
(),
)
@ -1429,7 +1443,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
tokio::time::sleep(Duration::from_secs(TIME_TO_WAIT_FOR_BLOCK_SECONDS)).await;
let post_state_account = seq_client
.get_account(address.to_string())
.get_account(account_id.to_string())
.await
.unwrap()
.account;
@ -1445,14 +1459,14 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
pub async fn test_authenticated_transfer_initialize_function() {
info!("########## test initialize account for authenticated transfer ##########");
let command = Command::Account(AccountSubcommand::New(NewSubcommand::Public {}));
let SubcommandReturnValue::RegisterAccount { addr } =
let SubcommandReturnValue::RegisterAccount { account_id } =
wallet::execute_subcommand(command).await.unwrap()
else {
panic!("Error creating account");
};
let command = Command::AuthTransfer(AuthTransferSubcommand::Init {
addr: make_public_account_input_from_str(&addr.to_string()),
account_id: make_public_account_input_from_str(&account_id.to_string()),
});
wallet::execute_subcommand(command).await.unwrap();
@ -1460,7 +1474,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
let wallet_config = fetch_config().await.unwrap();
let seq_client = SequencerClient::new(wallet_config.sequencer_addr.clone()).unwrap();
let account = seq_client
.get_account(addr.to_string())
.get_account(account_id.to_string())
.await
.unwrap()
.account;
@ -1480,12 +1494,12 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
#[nssa_integration_test]
pub async fn test_pinata_private_receiver() {
info!("########## test_pinata_private_receiver ##########");
let pinata_addr = PINATA_BASE58;
let pinata_account_id = PINATA_BASE58;
let pinata_prize = 150;
let solution = 989106;
let command = Command::Pinata(PinataProgramAgnosticSubcommand::Claim {
to_addr: make_private_account_input_from_str(ACC_SENDER_PRIVATE),
to_account_id: make_private_account_input_from_str(ACC_SENDER_PRIVATE),
solution,
});
@ -1494,7 +1508,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
let seq_client = SequencerClient::new(wallet_config.sequencer_addr.clone()).unwrap();
let pinata_balance_pre = seq_client
.get_account_balance(pinata_addr.to_string())
.get_account_balance(pinata_account_id.to_string())
.await
.unwrap()
.balance;
@ -1510,7 +1524,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
info!("Checking correct balance move");
let pinata_balance_post = seq_client
.get_account_balance(pinata_addr.to_string())
.get_account_balance(pinata_account_id.to_string())
.await
.unwrap()
.balance;
@ -1537,23 +1551,24 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
#[nssa_integration_test]
pub async fn test_pinata_private_receiver_new_account() {
info!("########## test_pinata_private_receiver ##########");
let pinata_addr = PINATA_BASE58;
let pinata_account_id = PINATA_BASE58;
let pinata_prize = 150;
let solution = 989106;
// Create new account for the token supply holder (private)
let SubcommandReturnValue::RegisterAccount { addr: winner_addr } =
wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Private {},
)))
.await
.unwrap()
let SubcommandReturnValue::RegisterAccount {
account_id: winner_account_id,
} = wallet::execute_subcommand(Command::Account(AccountSubcommand::New(
NewSubcommand::Private {},
)))
.await
.unwrap()
else {
panic!("invalid subcommand return value");
};
let command = Command::Pinata(PinataProgramAgnosticSubcommand::Claim {
to_addr: make_private_account_input_from_str(&winner_addr.to_string()),
to_account_id: make_private_account_input_from_str(&winner_account_id.to_string()),
solution,
});
@ -1562,7 +1577,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
let seq_client = SequencerClient::new(wallet_config.sequencer_addr.clone()).unwrap();
let pinata_balance_pre = seq_client
.get_account_balance(pinata_addr.to_string())
.get_account_balance(pinata_account_id.to_string())
.await
.unwrap()
.balance;
@ -1574,7 +1589,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
info!("Checking correct balance move");
let pinata_balance_post = seq_client
.get_account_balance(pinata_addr.to_string())
.get_account_balance(pinata_account_id.to_string())
.await
.unwrap()
.balance;
@ -1586,7 +1601,7 @@ pub fn prepare_function_map() -> HashMap<String, TestFunction> {
.unwrap();
let new_commitment1 = wallet_storage
.get_private_account_commitment(&winner_addr)
.get_private_account_commitment(&winner_account_id)
.unwrap();
assert!(verify_commitment_is_in_state(new_commitment1, &seq_client).await);
@ -1674,7 +1689,7 @@ pub async fn tps_test() {
for (i, tx_hash) in tx_hashes.iter().enumerate() {
loop {
if now.elapsed().as_millis() > target_time.as_millis() {
panic!("TPS test failed by timout");
panic!("TPS test failed by timeout");
}
let tx_obj = seq_client

13
integration_tests/src/tps_test_utils.rs
View File

@ -2,8 +2,7 @@ use std::time::Duration;
use key_protocol::key_management::ephemeral_key_holder::EphemeralKeyHolder;
use nssa::{
Account, AccountId, Address, PrivacyPreservingTransaction, PrivateKey, PublicKey,
PublicTransaction,
Account, AccountId, PrivacyPreservingTransaction, PrivateKey, PublicKey, PublicTransaction,
privacy_preserving_transaction::{self as pptx, circuit},
program::Program,
public_transaction as putx,
@ -15,7 +14,7 @@ use nssa_core::{
use sequencer_core::config::{AccountInitialData, CommitmentsInitialData, SequencerConfig};
pub(crate) struct TpsTestManager {
public_keypairs: Vec<(PrivateKey, Address)>,
public_keypairs: Vec<(PrivateKey, AccountId)>,
target_tps: u64,
}
@ -29,8 +28,8 @@ impl TpsTestManager {
private_key_bytes[..8].copy_from_slice(&i.to_le_bytes());
let private_key = PrivateKey::try_new(private_key_bytes).unwrap();
let public_key = PublicKey::new_from_private_key(&private_key);
let address = Address::from(&public_key);
(private_key, address)
let account_id = AccountId::from(&public_key);
(private_key, account_id)
})
.collect::<Vec<_>>();
Self {
@ -78,8 +77,8 @@ impl TpsTestManager {
let initial_public_accounts = self
.public_keypairs
.iter()
.map(|(_, addr)| AccountInitialData {
addr: addr.to_string(),
.map(|(_, account_id)| AccountInitialData {
account_id: account_id.to_string(),
balance: 10,
})
.collect();

15
key_protocol/src/key_management/mod.rs
View File

@ -65,15 +65,18 @@ mod tests {
#[test]
fn test_new_os_random() {
// Ensure that a new KeyChain instance can be created without errors.
let address_key_holder = KeyChain::new_os_random();
let account_id_key_holder = KeyChain::new_os_random();
// Check that key holder fields are initialized with expected types
assert_ne!(address_key_holder.nullifer_public_key.as_ref(), &[0u8; 32]);
assert_ne!(
account_id_key_holder.nullifer_public_key.as_ref(),
&[0u8; 32]
);
}
#[test]
fn test_calculate_shared_secret_receiver() {
let address_key_holder = KeyChain::new_os_random();
let account_id_key_holder = KeyChain::new_os_random();
// Generate a random ephemeral public key sender
let mut scalar = [0; 32];
@ -82,7 +85,7 @@ mod tests {
// Calculate shared secret
let _shared_secret =
address_key_holder.calculate_shared_secret_receiver(ephemeral_public_key_sender);
account_id_key_holder.calculate_shared_secret_receiver(ephemeral_public_key_sender);
}
#[test]
@ -99,7 +102,7 @@ mod tests {
let public_key = nssa::PublicKey::new_from_private_key(&pub_account_signing_key);
let address = nssa::Address::from(&public_key);
let account = nssa::AccountId::from(&public_key);
println!("======Prerequisites======");
println!();
@ -120,7 +123,7 @@ mod tests {
println!("======Public data======");
println!();
println!("Address{:?}", address.value().to_base58());
println!("Account {:?}", account.value().to_base58());
println!(
"Nulifier public key {:?}",
hex::encode(nullifer_public_key.to_byte_array())

2
key_protocol/src/key_management/secret_holders.rs
View File

@ -24,7 +24,7 @@ pub type IncomingViewingSecretKey = Scalar;
pub type OutgoingViewingSecretKey = Scalar;
#[derive(Serialize, Deserialize, Debug, Clone)]
///Private key holder. Produces public keys. Can produce address. Can produce shared secret for recepient.
///Private key holder. Produces public keys. Can produce account_id. Can produce shared secret for recepient.
pub struct PrivateKeyHolder {
pub nullifier_secret_key: NullifierSecretKey,
pub(crate) incoming_viewing_secret_key: IncomingViewingSecretKey,

71
key_protocol/src/key_protocol_core/mod.rs
View File

@ -11,20 +11,21 @@ pub type PublicKey = AffinePoint;
#[derive(Clone, Debug, Serialize, Deserialize)]
pub struct NSSAUserData {
///Map for all user public accounts
pub pub_account_signing_keys: HashMap<nssa::Address, nssa::PrivateKey>,
pub pub_account_signing_keys: HashMap<nssa::AccountId, nssa::PrivateKey>,
///Map for all user private accounts
pub user_private_accounts: HashMap<nssa::Address, (KeyChain, nssa_core::account::Account)>,
pub user_private_accounts: HashMap<nssa::AccountId, (KeyChain, nssa_core::account::Account)>,
}
impl NSSAUserData {
fn valid_public_key_transaction_pairing_check(
accounts_keys_map: &HashMap<nssa::Address, nssa::PrivateKey>,
accounts_keys_map: &HashMap<nssa::AccountId, nssa::PrivateKey>,
) -> bool {
let mut check_res = true;
for (addr, key) in accounts_keys_map {
let expected_addr = nssa::Address::from(&nssa::PublicKey::new_from_private_key(key));
if &expected_addr != addr {
println!("{}, {}", expected_addr, addr);
for (account_id, key) in accounts_keys_map {
let expected_account_id =
nssa::AccountId::from(&nssa::PublicKey::new_from_private_key(key));
if &expected_account_id != account_id {
println!("{}, {}", expected_account_id, account_id);
check_res = false;
}
}
@ -32,13 +33,13 @@ impl NSSAUserData {
}
fn valid_private_key_transaction_pairing_check(
accounts_keys_map: &HashMap<nssa::Address, (KeyChain, nssa_core::account::Account)>,
accounts_keys_map: &HashMap<nssa::AccountId, (KeyChain, nssa_core::account::Account)>,
) -> bool {
let mut check_res = true;
for (addr, (key, _)) in accounts_keys_map {
let expected_addr = nssa::Address::from(&key.nullifer_public_key);
if expected_addr != *addr {
println!("{}, {}", expected_addr, addr);
for (account_id, (key, _)) in accounts_keys_map {
let expected_account_id = nssa::AccountId::from(&key.nullifer_public_key);
if expected_account_id != *account_id {
println!("{}, {}", expected_account_id, account_id);
check_res = false;
}
}
@ -46,18 +47,18 @@ impl NSSAUserData {
}
pub fn new_with_accounts(
accounts_keys: HashMap<nssa::Address, nssa::PrivateKey>,
accounts_key_chains: HashMap<nssa::Address, (KeyChain, nssa_core::account::Account)>,
accounts_keys: HashMap<nssa::AccountId, nssa::PrivateKey>,
accounts_key_chains: HashMap<nssa::AccountId, (KeyChain, nssa_core::account::Account)>,
) -> Result<Self> {
if !Self::valid_public_key_transaction_pairing_check(&accounts_keys) {
anyhow::bail!(
"Key transaction pairing check not satisfied, there is addresses, which is not derived from keys"
"Key transaction pairing check not satisfied, there is account_ids, which is not derived from keys"
);
}
if !Self::valid_private_key_transaction_pairing_check(&accounts_key_chains) {
anyhow::bail!(
"Key transaction pairing check not satisfied, there is addresses, which is not derived from keys"
"Key transaction pairing check not satisfied, there is account_ids, which is not derived from keys"
);
}
@ -69,51 +70,55 @@ impl NSSAUserData {
/// Generated new private key for public transaction signatures
///
/// Returns the address of new account
pub fn generate_new_public_transaction_private_key(&mut self) -> nssa::Address {
/// Returns the account_id of new account
pub fn generate_new_public_transaction_private_key(&mut self) -> nssa::AccountId {
let private_key = nssa::PrivateKey::new_os_random();
let address = nssa::Address::from(&nssa::PublicKey::new_from_private_key(&private_key));
let account_id =
nssa::AccountId::from(&nssa::PublicKey::new_from_private_key(&private_key));
self.pub_account_signing_keys.insert(address, private_key);
self.pub_account_signing_keys
.insert(account_id, private_key);
address
account_id
}
/// Returns the signing key for public transaction signatures
pub fn get_pub_account_signing_key(
&self,
address: &nssa::Address,
account_id: &nssa::AccountId,
) -> Option<&nssa::PrivateKey> {
self.pub_account_signing_keys.get(address)
self.pub_account_signing_keys.get(account_id)
}
/// Generated new private key for privacy preserving transactions
///
/// Returns the address of new account
pub fn generate_new_privacy_preserving_transaction_key_chain(&mut self) -> nssa::Address {
/// Returns the account_id of new account
pub fn generate_new_privacy_preserving_transaction_key_chain(&mut self) -> nssa::AccountId {
let key_chain = KeyChain::new_os_random();
let address = nssa::Address::from(&key_chain.nullifer_public_key);
let account_id = nssa::AccountId::from(&key_chain.nullifer_public_key);
self.user_private_accounts
.insert(address, (key_chain, nssa_core::account::Account::default()));
self.user_private_accounts.insert(
account_id,
(key_chain, nssa_core::account::Account::default()),
);
address
account_id
}
/// Returns the signing key for public transaction signatures
pub fn get_private_account(
&self,
address: &nssa::Address,
account_id: &nssa::AccountId,
) -> Option<&(KeyChain, nssa_core::account::Account)> {
self.user_private_accounts.get(address)
self.user_private_accounts.get(account_id)
}
/// Returns the signing key for public transaction signatures
pub fn get_private_account_mut(
&mut self,
address: &nssa::Address,
account_id: &nssa::AccountId,
) -> Option<&mut (KeyChain, nssa_core::account::Account)> {
self.user_private_accounts.get_mut(address)
self.user_private_accounts.get_mut(account_id)
}
}

4
mempool/Cargo.toml
View File

@ -4,3 +4,7 @@ version = "0.1.0"
edition = "2024"
[dependencies]
tokio = { workspace = true, features = ["sync"] }
[dev-dependencies]
tokio = { workspace = true, features = ["rt-multi-thread", "macros"] }

260
mempool/src/lib.rs
View File

@ -1,231 +1,99 @@
use std::collections::VecDeque;
use tokio::sync::mpsc::{Receiver, Sender};
pub struct MemPool<Item> {
items: VecDeque<Item>,
pub struct MemPool<T> {
receiver: Receiver<T>,
}
impl<Item> MemPool<Item> {
pub fn new() -> Self {
Self {
items: VecDeque::new(),
}
impl<T> MemPool<T> {
pub fn new(max_size: usize) -> (Self, MemPoolHandle<T>) {
let (sender, receiver) = tokio::sync::mpsc::channel(max_size);
let mem_pool = Self { receiver };
let sender = MemPoolHandle::new(sender);
(mem_pool, sender)
}
pub fn pop_last(&mut self) -> Option<Item> {
self.items.pop_front()
}
pub fn pop(&mut self) -> Option<T> {
use tokio::sync::mpsc::error::TryRecvError;
pub fn peek_last(&self) -> Option<&Item> {
self.items.front()
}
pub fn push_item(&mut self, item: Item) {
self.items.push_back(item);
}
pub fn len(&self) -> usize {
self.items.len()
}
pub fn is_empty(&self) -> bool {
self.len() == 0
}
pub fn pop_size(&mut self, size: usize) -> Vec<Item> {
let mut ret_vec = vec![];
for _ in 0..size {
let item = self.pop_last();
match item {
Some(item) => ret_vec.push(item),
None => break,
match self.receiver.try_recv() {
Ok(item) => Some(item),
Err(TryRecvError::Empty) => None,
Err(TryRecvError::Disconnected) => {
panic!("Mempool senders disconnected, cannot receive items, this is a bug")
}
}
ret_vec
}
pub fn drain_size(&mut self, remainder: usize) -> Vec<Item> {
self.pop_size(self.len().saturating_sub(remainder))
}
}
impl<Item> Default for MemPool<Item> {
fn default() -> Self {
Self::new()
pub struct MemPoolHandle<T> {
sender: Sender<T>,
}
impl<T> MemPoolHandle<T> {
fn new(sender: Sender<T>) -> Self {
Self { sender }
}
/// Send an item to the mempool blocking if max size is reached
pub async fn push(&self, item: T) -> Result<(), tokio::sync::mpsc::error::SendError<T>> {
self.sender.send(item).await
}
}
#[cfg(test)]
mod tests {
use std::vec;
use super::*;
pub type ItemId = u64;
use tokio::test;
#[derive(Debug, PartialEq, Eq)]
pub struct TestItem {
id: ItemId,
}
fn test_item_with_id(id: u64) -> TestItem {
TestItem { id }
#[test]
async fn test_mempool_new() {
let (mut pool, _handle): (MemPool<u64>, _) = MemPool::new(10);
assert_eq!(pool.pop(), None);
}
#[test]
fn test_create_empty_mempool() {
let _: MemPool<TestItem> = MemPool::new();
async fn test_push_and_pop() {
let (mut pool, handle) = MemPool::new(10);
handle.push(1).await.unwrap();
let item = pool.pop();
assert_eq!(item, Some(1));
assert_eq!(pool.pop(), None);
}
#[test]
fn test_mempool_new() {
let pool: MemPool<TestItem> = MemPool::new();
assert!(pool.is_empty());
assert_eq!(pool.len(), 0);
async fn test_multiple_push_pop() {
let (mut pool, handle) = MemPool::new(10);
handle.push(1).await.unwrap();
handle.push(2).await.unwrap();
handle.push(3).await.unwrap();
assert_eq!(pool.pop(), Some(1));
assert_eq!(pool.pop(), Some(2));
assert_eq!(pool.pop(), Some(3));
assert_eq!(pool.pop(), None);
}
#[test]
fn test_push_item() {
let mut pool = MemPool::new();
pool.push_item(test_item_with_id(1));
assert!(!pool.is_empty());
assert_eq!(pool.len(), 1);
async fn test_pop_empty() {
let (mut pool, _handle): (MemPool<u64>, _) = MemPool::new(10);
assert_eq!(pool.pop(), None);
}
#[test]
fn test_pop_last() {
let mut pool = MemPool::new();
pool.push_item(test_item_with_id(1));
pool.push_item(test_item_with_id(2));
let item = pool.pop_last();
assert_eq!(item, Some(test_item_with_id(1)));
assert_eq!(pool.len(), 1);
}
async fn test_max_size() {
let (mut pool, handle) = MemPool::new(2);
#[test]
fn test_peek_last() {
let mut pool = MemPool::new();
pool.push_item(test_item_with_id(1));
pool.push_item(test_item_with_id(2));
let item = pool.peek_last();
assert_eq!(item, Some(&test_item_with_id(1)));
}
handle.push(1).await.unwrap();
handle.push(2).await.unwrap();
#[test]
fn test_pop_size() {
let mut pool = MemPool::new();
pool.push_item(test_item_with_id(1));
pool.push_item(test_item_with_id(2));
pool.push_item(test_item_with_id(3));
let items = pool.pop_size(2);
assert_eq!(items, vec![test_item_with_id(1), test_item_with_id(2)]);
assert_eq!(pool.len(), 1);
}
#[test]
fn test_drain_size() {
let mut pool = MemPool::new();
pool.push_item(test_item_with_id(1));
pool.push_item(test_item_with_id(2));
pool.push_item(test_item_with_id(3));
pool.push_item(test_item_with_id(4));
let items = pool.drain_size(2);
assert_eq!(items, vec![test_item_with_id(1), test_item_with_id(2)]);
assert_eq!(pool.len(), 2);
}
#[test]
fn test_default() {
let pool: MemPool<TestItem> = MemPool::default();
assert!(pool.is_empty());
assert_eq!(pool.len(), 0);
}
#[test]
fn test_is_empty() {
let mut pool = MemPool::new();
assert!(pool.is_empty());
pool.push_item(test_item_with_id(1));
assert!(!pool.is_empty());
}
#[test]
fn test_push_pop() {
let mut mempool: MemPool<TestItem> = MemPool::new();
let items = vec![
test_item_with_id(1),
test_item_with_id(2),
test_item_with_id(3),
];
for item in items {
mempool.push_item(item);
}
assert_eq!(mempool.len(), 3);
let item = mempool.pop_last();
assert_eq!(item, Some(TestItem { id: 1 }));
assert_eq!(mempool.len(), 2);
let item = mempool.pop_last();
assert_eq!(item, Some(TestItem { id: 2 }));
assert_eq!(mempool.len(), 1);
let item = mempool.pop_last();
assert_eq!(item, Some(TestItem { id: 3 }));
assert_eq!(mempool.len(), 0);
let item = mempool.pop_last();
assert_eq!(item, None);
}
#[test]
fn test_pop_many() {
let mut mempool: MemPool<TestItem> = MemPool::new();
let mut items = vec![];
for i in 1..11 {
items.push(test_item_with_id(i));
}
for item in items {
mempool.push_item(item);
}
assert_eq!(mempool.len(), 10);
let items1 = mempool.pop_size(4);
assert_eq!(
items1,
vec![
test_item_with_id(1),
test_item_with_id(2),
test_item_with_id(3),
test_item_with_id(4)
]
);
assert_eq!(mempool.len(), 6);
let items2 = mempool.drain_size(2);
assert_eq!(
items2,
vec![
test_item_with_id(5),
test_item_with_id(6),
test_item_with_id(7),
test_item_with_id(8)
]
);
assert_eq!(mempool.len(), 2);
// This should block if buffer is full, but we'll use try_send in a real scenario
// For now, just verify we can pop items
assert_eq!(pool.pop(), Some(1));
assert_eq!(pool.pop(), Some(2));
}
}

96
nssa/core/src/account.rs
View File

@ -1,7 +1,13 @@
use crate::{address::Address, program::ProgramId};
use crate::program::ProgramId;
use borsh::{BorshDeserialize, BorshSerialize};
use serde::{Deserialize, Serialize};
#[cfg(feature = "host")]
use std::{fmt::Display, str::FromStr};
#[cfg(feature = "host")]
use base58::{FromBase58, ToBase58};
pub type Nonce = u128;
pub type Data = Vec<u8>;
@ -17,8 +23,6 @@ pub struct Account {
pub nonce: Nonce,
}
pub type AccountId = Address;
#[derive(Serialize, Deserialize, Clone)]
#[cfg_attr(any(feature = "host", test), derive(Debug, PartialEq, Eq))]
pub struct AccountWithMetadata {
@ -38,6 +42,64 @@ impl AccountWithMetadata {
}
}
#[derive(Serialize, Deserialize, Clone, PartialEq, Eq, Hash, BorshSerialize, BorshDeserialize)]
#[cfg_attr(
any(feature = "host", test),
derive(Debug, Copy, PartialOrd, Ord, Default)
)]
pub struct AccountId {
value: [u8; 32],
}
impl AccountId {
pub fn new(value: [u8; 32]) -> Self {
Self { value }
}
pub fn value(&self) -> &[u8; 32] {
&self.value
}
}
impl AsRef<[u8]> for AccountId {
fn as_ref(&self) -> &[u8] {
&self.value
}
}
#[cfg(feature = "host")]
#[derive(Debug, thiserror::Error)]
pub enum AccountIdError {
#[error("invalid base58")]
InvalidBase58(#[from] anyhow::Error),
#[error("invalid length: expected 32 bytes, got {0}")]
InvalidLength(usize),
}
#[cfg(feature = "host")]
impl FromStr for AccountId {
type Err = AccountIdError;
fn from_str(s: &str) -> Result<Self, Self::Err> {
let bytes = s
.from_base58()
.map_err(|err| anyhow::anyhow!("Invalid base58 err {err:?}"))?;
if bytes.len() != 32 {
return Err(AccountIdError::InvalidLength(bytes.len()));
}
let mut value = [0u8; 32];
value.copy_from_slice(&bytes);
Ok(AccountId { value })
}
}
#[cfg(feature = "host")]
impl Display for AccountId {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "{}", self.value.to_base58())
}
}
#[cfg(test)]
mod tests {
use crate::program::DEFAULT_PROGRAM_ID;
@ -87,4 +149,32 @@ mod tests {
assert!(new_acc_with_metadata.is_authorized);
assert_eq!(new_acc_with_metadata.account_id, fingerprint);
}
#[test]
fn parse_valid_account_id() {
let base58_str = "11111111111111111111111111111111";
let account_id: AccountId = base58_str.parse().unwrap();
assert_eq!(account_id.value, [0u8; 32]);
}
#[test]
fn parse_invalid_base58() {
let base58_str = "00".repeat(32); // invalid base58 chars
let result = base58_str.parse::<AccountId>().unwrap_err();
assert!(matches!(result, AccountIdError::InvalidBase58(_)));
}
#[test]
fn parse_wrong_length_short() {
let base58_str = "11".repeat(31); // 62 chars = 31 bytes
let result = base58_str.parse::<AccountId>().unwrap_err();
assert!(matches!(result, AccountIdError::InvalidLength(_)));
}
#[test]
fn parse_wrong_length_long() {
let base58_str = "11".repeat(33); // 66 chars = 33 bytes
let result = base58_str.parse::<AccountId>().unwrap_err();
assert!(matches!(result, AccountIdError::InvalidLength(_)));
}
}

99
nssa/core/src/address.rs
View File

@ -1,99 +0,0 @@
use borsh::{BorshDeserialize, BorshSerialize};
use serde::{Deserialize, Serialize};
#[cfg(feature = "host")]
use std::{fmt::Display, str::FromStr};
#[cfg(feature = "host")]
use base58::{FromBase58, ToBase58};
#[derive(Serialize, Deserialize, Clone, PartialEq, Eq, Hash, BorshSerialize, BorshDeserialize)]
#[cfg_attr(
any(feature = "host", test),
derive(Debug, Copy, PartialOrd, Ord, Default)
)]
pub struct Address {
value: [u8; 32],
}
impl Address {
pub fn new(value: [u8; 32]) -> Self {
Self { value }
}
pub fn value(&self) -> &[u8; 32] {
&self.value
}
}
impl AsRef<[u8]> for Address {
fn as_ref(&self) -> &[u8] {
&self.value
}
}
#[cfg(feature = "host")]
#[derive(Debug, thiserror::Error)]
pub enum AddressError {
#[error("invalid base58")]
InvalidBase58(#[from] anyhow::Error),
#[error("invalid length: expected 32 bytes, got {0}")]
InvalidLength(usize),
}
#[cfg(feature = "host")]
impl FromStr for Address {
type Err = AddressError;
fn from_str(s: &str) -> Result<Self, Self::Err> {
let bytes = s
.from_base58()
.map_err(|err| anyhow::anyhow!("Invalid base58 err {err:?}"))?;
if bytes.len() != 32 {
return Err(AddressError::InvalidLength(bytes.len()));
}
let mut value = [0u8; 32];
value.copy_from_slice(&bytes);
Ok(Address { value })
}
}
#[cfg(feature = "host")]
impl Display for Address {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "{}", self.value.to_base58())
}
}
#[cfg(test)]
mod tests {
use super::{Address, AddressError};
#[test]
fn parse_valid_address() {
let base58_str = "11111111111111111111111111111111";
let addr: Address = base58_str.parse().unwrap();
assert_eq!(addr.value, [0u8; 32]);
}
#[test]
fn parse_invalid_base58() {
let base58_str = "00".repeat(32); // invalid base58 chars
let result = base58_str.parse::<Address>().unwrap_err();
assert!(matches!(result, AddressError::InvalidBase58(_)));
}
#[test]
fn parse_wrong_length_short() {
let base58_str = "11".repeat(31); // 62 chars = 31 bytes
let result = base58_str.parse::<Address>().unwrap_err();
assert!(matches!(result, AddressError::InvalidLength(_)));
}
#[test]
fn parse_wrong_length_long() {
let base58_str = "11".repeat(33); // 66 chars = 33 bytes
let result = base58_str.parse::<Address>().unwrap_err();
assert!(matches!(result, AddressError::InvalidLength(_)));
}
}

2
nssa/core/src/lib.rs
View File

@ -6,8 +6,6 @@ pub mod encryption;
mod nullifier;
pub mod program;
pub mod address;
pub use circuit_io::{PrivacyPreservingCircuitInput, PrivacyPreservingCircuitOutput};
pub use commitment::{
Commitment, CommitmentSetDigest, DUMMY_COMMITMENT, DUMMY_COMMITMENT_HASH, MembershipProof,

1
nssa/src/lib.rs
View File

@ -18,7 +18,6 @@ mod signature;
mod state;
pub use nssa_core::account::{Account, AccountId};
pub use nssa_core::address::Address;
pub use privacy_preserving_transaction::{
PrivacyPreservingTransaction, circuit::execute_and_prove,
};

14
nssa/src/privacy_preserving_transaction/message.rs
View File

@ -6,7 +6,7 @@ use nssa_core::{
};
use sha2::{Digest, Sha256};
use crate::{Address, error::NssaError};
use crate::{AccountId, error::NssaError};
pub type ViewTag = u8;
@ -45,7 +45,7 @@ impl EncryptedAccountData {
#[derive(Debug, Clone, PartialEq, Eq, BorshSerialize, BorshDeserialize)]
pub struct Message {
pub(crate) public_addresses: Vec<Address>,
pub(crate) public_account_ids: Vec<AccountId>,
pub(crate) nonces: Vec<Nonce>,
pub(crate) public_post_states: Vec<Account>,
pub encrypted_private_post_states: Vec<EncryptedAccountData>,
@ -55,7 +55,7 @@ pub struct Message {
impl Message {
pub fn try_from_circuit_output(
public_addresses: Vec<Address>,
public_account_ids: Vec<AccountId>,
nonces: Vec<Nonce>,
public_keys: Vec<(
NullifierPublicKey,
@ -79,7 +79,7 @@ impl Message {
})
.collect();
Ok(Self {
public_addresses,
public_account_ids,
nonces,
public_post_states: output.public_post_states,
encrypted_private_post_states,
@ -99,7 +99,7 @@ pub mod tests {
use sha2::{Digest, Sha256};
use crate::{
Address,
AccountId,
privacy_preserving_transaction::message::{EncryptedAccountData, Message},
};
@ -113,7 +113,7 @@ pub mod tests {
let npk1 = NullifierPublicKey::from(&nsk1);
let npk2 = NullifierPublicKey::from(&nsk2);
let public_addresses = vec![Address::new([1; 32])];
let public_account_ids = vec![AccountId::new([1; 32])];
let nonces = vec![1, 2, 3];
@ -130,7 +130,7 @@ pub mod tests {
)];
Message {
public_addresses: public_addresses.clone(),
public_account_ids: public_account_ids.clone(),
nonces: nonces.clone(),
public_post_states: public_post_states.clone(),
encrypted_private_post_states: encrypted_private_post_states.clone(),

40
nssa/src/privacy_preserving_transaction/transaction.rs
View File

@ -9,7 +9,7 @@ use nssa_core::{
use crate::error::NssaError;
use crate::privacy_preserving_transaction::circuit::Proof;
use crate::privacy_preserving_transaction::message::EncryptedAccountData;
use crate::{Address, V02State};
use crate::{AccountId, V02State};
use super::message::Message;
use super::witness_set::WitnessSet;
@ -31,7 +31,7 @@ impl PrivacyPreservingTransaction {
pub(crate) fn validate_and_produce_public_state_diff(
&self,
state: &V02State,
) -> Result<HashMap<Address, Account>, NssaError> {
) -> Result<HashMap<AccountId, Account>, NssaError> {
let message = &self.message;
let witness_set = &self.witness_set;
@ -42,10 +42,10 @@ impl PrivacyPreservingTransaction {
));
}
// 2. Check there are no duplicate addresses in the public_addresses list.
if n_unique(&message.public_addresses) != message.public_addresses.len() {
// 2. Check there are no duplicate account_ids in the public_account_ids list.
if n_unique(&message.public_account_ids) != message.public_account_ids.len() {
return Err(NssaError::InvalidInput(
"Duplicate addresses found in message".into(),
"Duplicate account_ids found in message".into(),
));
}
@ -78,10 +78,10 @@ impl PrivacyPreservingTransaction {
));
}
let signer_addresses = self.signer_addresses();
let signer_account_ids = self.signer_account_ids();
// Check nonces corresponds to the current nonces on the public state.
for (address, nonce) in signer_addresses.iter().zip(&message.nonces) {
let current_nonce = state.get_account_by_address(address).nonce;
for (account_id, nonce) in signer_account_ids.iter().zip(&message.nonces) {
let current_nonce = state.get_account_by_id(account_id).nonce;
if current_nonce != *nonce {
return Err(NssaError::InvalidInput("Nonce mismatch".into()));
}
@ -89,13 +89,13 @@ impl PrivacyPreservingTransaction {
// Build pre_states for proof verification
let public_pre_states: Vec<_> = message
.public_addresses
.public_account_ids
.iter()
.map(|address| {
.map(|account_id| {
AccountWithMetadata::new(
state.get_account_by_address(address),
signer_addresses.contains(address),
*address,
state.get_account_by_id(account_id),
signer_account_ids.contains(account_id),
*account_id,
)
})
.collect();
@ -117,7 +117,7 @@ impl PrivacyPreservingTransaction {
state.check_nullifiers_are_valid(&message.new_nullifiers)?;
Ok(message
.public_addresses
.public_account_ids
.iter()
.cloned()
.zip(message.public_post_states.clone())
@ -132,11 +132,11 @@ impl PrivacyPreservingTransaction {
&self.witness_set
}
pub(crate) fn signer_addresses(&self) -> Vec<Address> {
pub(crate) fn signer_account_ids(&self) -> Vec<AccountId> {
self.witness_set
.signatures_and_public_keys()
.iter()
.map(|(_, public_key)| Address::from(public_key))
.map(|(_, public_key)| AccountId::from(public_key))
.collect()
}
}
@ -175,17 +175,17 @@ fn n_unique<T: Eq + Hash>(data: &[T]) -> usize {
#[cfg(test)]
mod tests {
use crate::{
Address, PrivacyPreservingTransaction, PrivateKey, PublicKey,
AccountId, PrivacyPreservingTransaction, PrivateKey, PublicKey,
privacy_preserving_transaction::{
circuit::Proof, message::tests::message_for_tests, witness_set::WitnessSet,
},
};
fn keys_for_tests() -> (PrivateKey, PrivateKey, Address, Address) {
fn keys_for_tests() -> (PrivateKey, PrivateKey, AccountId, AccountId) {
let key1 = PrivateKey::try_new([1; 32]).unwrap();
let key2 = PrivateKey::try_new([2; 32]).unwrap();
let addr1 = Address::from(&PublicKey::new_from_private_key(&key1));
let addr2 = Address::from(&PublicKey::new_from_private_key(&key2));
let addr1 = AccountId::from(&PublicKey::new_from_private_key(&key1));
let addr2 = AccountId::from(&PublicKey::new_from_private_key(&key2));
(key1, key2, addr1, addr2)
}

8
nssa/src/public_transaction/message.rs
View File

@ -5,12 +5,12 @@ use nssa_core::{
};
use serde::Serialize;
use crate::{Address, error::NssaError, program::Program};
use crate::{AccountId, error::NssaError, program::Program};
#[derive(Debug, Clone, PartialEq, Eq, BorshSerialize, BorshDeserialize)]
pub struct Message {
pub(crate) program_id: ProgramId,
pub(crate) addresses: Vec<Address>,
pub(crate) account_ids: Vec<AccountId>,
pub(crate) nonces: Vec<Nonce>,
pub(crate) instruction_data: InstructionData,
}
@ -18,14 +18,14 @@ pub struct Message {
impl Message {
pub fn try_new<T: Serialize>(
program_id: ProgramId,
addresses: Vec<Address>,
account_ids: Vec<AccountId>,
nonces: Vec<Nonce>,
instruction: T,
) -> Result<Self, NssaError> {
let instruction_data = Program::serialize_instruction(instruction)?;
Ok(Self {
program_id,
addresses,
account_ids,
nonces,
instruction_data,
})

55
nssa/src/public_transaction/transaction.rs
View File

@ -2,8 +2,7 @@ use std::collections::{HashMap, HashSet};
use borsh::{BorshDeserialize, BorshSerialize};
use nssa_core::{
account::{Account, AccountWithMetadata},
address::Address,
account::{Account, AccountId, AccountWithMetadata},
program::{DEFAULT_PROGRAM_ID, validate_execution},
};
use sha2::{Digest, digest::FixedOutput};
@ -37,11 +36,11 @@ impl PublicTransaction {
&self.witness_set
}
pub(crate) fn signer_addresses(&self) -> Vec<Address> {
pub(crate) fn signer_account_ids(&self) -> Vec<AccountId> {
self.witness_set
.signatures_and_public_keys()
.iter()
.map(|(_, public_key)| Address::from(public_key))
.map(|(_, public_key)| AccountId::from(public_key))
.collect()
}
@ -55,14 +54,14 @@ impl PublicTransaction {
pub(crate) fn validate_and_produce_public_state_diff(
&self,
state: &V02State,
) -> Result<HashMap<Address, Account>, NssaError> {
) -> Result<HashMap<AccountId, Account>, NssaError> {
let message = self.message();
let witness_set = self.witness_set();
// All addresses must be different
if message.addresses.iter().collect::<HashSet<_>>().len() != message.addresses.len() {
// All account_ids must be different
if message.account_ids.iter().collect::<HashSet<_>>().len() != message.account_ids.len() {
return Err(NssaError::InvalidInput(
"Duplicate addresses found in message".into(),
"Duplicate account_ids found in message".into(),
));
}
@ -80,10 +79,10 @@ impl PublicTransaction {
));
}
let signer_addresses = self.signer_addresses();
let signer_account_ids = self.signer_account_ids();
// Check nonces corresponds to the current nonces on the public state.
for (address, nonce) in signer_addresses.iter().zip(&message.nonces) {
let current_nonce = state.get_account_by_address(address).nonce;
for (account_id, nonce) in signer_account_ids.iter().zip(&message.nonces) {
let current_nonce = state.get_account_by_id(account_id).nonce;
if current_nonce != *nonce {
return Err(NssaError::InvalidInput("Nonce mismatch".into()));
}
@ -91,18 +90,18 @@ impl PublicTransaction {
// Build pre_states for execution
let mut input_pre_states: Vec<_> = message
.addresses
.account_ids
.iter()
.map(|address| {
.map(|account_id| {
AccountWithMetadata::new(
state.get_account_by_address(address),
signer_addresses.contains(address),
*address,
state.get_account_by_id(account_id),
signer_account_ids.contains(account_id),
*account_id,
)
})
.collect();
let mut state_diff: HashMap<Address, Account> = HashMap::new();
let mut state_diff: HashMap<AccountId, Account> = HashMap::new();
let mut program_id = message.program_id;
let mut instruction_data = message.instruction_data.clone();
@ -190,17 +189,17 @@ pub mod tests {
use sha2::{Digest, digest::FixedOutput};
use crate::{
Address, PrivateKey, PublicKey, PublicTransaction, Signature, V02State,
AccountId, PrivateKey, PublicKey, PublicTransaction, Signature, V02State,
error::NssaError,
program::Program,
public_transaction::{Message, WitnessSet},
};
fn keys_for_tests() -> (PrivateKey, PrivateKey, Address, Address) {
fn keys_for_tests() -> (PrivateKey, PrivateKey, AccountId, AccountId) {
let key1 = PrivateKey::try_new([1; 32]).unwrap();
let key2 = PrivateKey::try_new([2; 32]).unwrap();
let addr1 = Address::from(&PublicKey::new_from_private_key(&key1));
let addr2 = Address::from(&PublicKey::new_from_private_key(&key2));
let addr1 = AccountId::from(&PublicKey::new_from_private_key(&key1));
let addr2 = AccountId::from(&PublicKey::new_from_private_key(&key2));
(key1, key2, addr1, addr2)
}
@ -249,20 +248,20 @@ pub mod tests {
}
#[test]
fn test_signer_addresses() {
fn test_signer_account_ids() {
let tx = transaction_for_tests();
let expected_signer_addresses = vec![
Address::new([
let expected_signer_account_ids = vec![
AccountId::new([
208, 122, 210, 232, 75, 39, 250, 0, 194, 98, 240, 161, 238, 160, 255, 53, 202, 9,
115, 84, 126, 106, 16, 111, 114, 241, 147, 194, 220, 131, 139, 68,
]),
Address::new([
AccountId::new([
231, 174, 119, 197, 239, 26, 5, 153, 147, 68, 175, 73, 159, 199, 138, 23, 5, 57,
141, 98, 237, 6, 207, 46, 20, 121, 246, 222, 248, 154, 57, 188,
]),
];
let signer_addresses = tx.signer_addresses();
assert_eq!(signer_addresses, expected_signer_addresses);
let signer_account_ids = tx.signer_account_ids();
assert_eq!(signer_account_ids, expected_signer_account_ids);
}
#[test]
@ -287,7 +286,7 @@ pub mod tests {
}
#[test]
fn test_address_list_cant_have_duplicates() {
fn test_account_id_list_cant_have_duplicates() {
let (key1, _, addr1, _) = keys_for_tests();
let state = state_for_tests();
let nonces = vec![0, 0];

6
nssa/src/public_transaction/witness_set.rs
View File

@ -41,7 +41,7 @@ impl WitnessSet {
#[cfg(test)]
mod tests {
use crate::Address;
use crate::AccountId;
use super::*;
@ -51,8 +51,8 @@ mod tests {
let key2 = PrivateKey::try_new([2; 32]).unwrap();
let pubkey1 = PublicKey::new_from_private_key(&key1);
let pubkey2 = PublicKey::new_from_private_key(&key2);
let addr1 = Address::from(&pubkey1);
let addr2 = Address::from(&pubkey2);
let addr1 = AccountId::from(&pubkey1);
let addr2 = AccountId::from(&pubkey2);
let nonces = vec![1, 2];
let instruction = vec![1, 2, 3, 4];
let message = Message::try_new([0; 8], vec![addr1, addr2], nonces, instruction).unwrap();

4
nssa/src/signature/public_key.rs
View File

@ -1,5 +1,5 @@
use borsh::{BorshDeserialize, BorshSerialize};
use nssa_core::address::Address;
use nssa_core::account::AccountId;
use crate::{PrivateKey, error::NssaError};
@ -46,7 +46,7 @@ impl PublicKey {
}
}
impl From<&PublicKey> for Address {
impl From<&PublicKey> for AccountId {
fn from(key: &PublicKey) -> Self {
const PUBLIC_ACCOUNT_ID_PREFIX: &[u8; 32] = b"/NSSA/v0.2/AccountId/Public/\x00\x00\x00\x00";

291
nssa/src/state.rs
View File

@ -6,7 +6,7 @@ use crate::{
};
use nssa_core::{
Commitment, CommitmentSetDigest, DUMMY_COMMITMENT, MembershipProof, Nullifier,
account::Account, address::Address, program::ProgramId,
account::Account, account::AccountId, program::ProgramId,
};
use std::collections::{HashMap, HashSet};
@ -58,27 +58,27 @@ impl CommitmentSet {
type NullifierSet = HashSet<Nullifier>;
pub struct V02State {
public_state: HashMap<Address, Account>,
public_state: HashMap<AccountId, Account>,
private_state: (CommitmentSet, NullifierSet),
programs: HashMap<ProgramId, Program>,
}
impl V02State {
pub fn new_with_genesis_accounts(
initial_data: &[(Address, u128)],
initial_data: &[(AccountId, u128)],
initial_commitments: &[nssa_core::Commitment],
) -> Self {
let authenticated_transfer_program = Program::authenticated_transfer_program();
let public_state = initial_data
.iter()
.copied()
.map(|(address, balance)| {
.map(|(account_id, balance)| {
let account = Account {
balance,
program_owner: authenticated_transfer_program.id(),
..Account::default()
};
(address, account)
(account_id, account)
})
.collect();
@ -108,14 +108,14 @@ impl V02State {
) -> Result<(), NssaError> {
let state_diff = tx.validate_and_produce_public_state_diff(self)?;
for (address, post) in state_diff.into_iter() {
let current_account = self.get_account_by_address_mut(address);
for (account_id, post) in state_diff.into_iter() {
let current_account = self.get_account_by_id_mut(account_id);
*current_account = post;
}
for address in tx.signer_addresses() {
let current_account = self.get_account_by_address_mut(address);
for account_id in tx.signer_account_ids() {
let current_account = self.get_account_by_id_mut(account_id);
current_account.nonce += 1;
}
@ -144,8 +144,8 @@ impl V02State {
self.private_state.1.extend(new_nullifiers);
// 4. Update public accounts
for (address, post) in public_state_diff.into_iter() {
let current_account = self.get_account_by_address_mut(address);
for (account_id, post) in public_state_diff.into_iter() {
let current_account = self.get_account_by_id_mut(account_id);
*current_account = post;
}
@ -161,13 +161,13 @@ impl V02State {
Ok(())
}
fn get_account_by_address_mut(&mut self, address: Address) -> &mut Account {
self.public_state.entry(address).or_default()
fn get_account_by_id_mut(&mut self, account_id: AccountId) -> &mut Account {
self.public_state.entry(account_id).or_default()
}
pub fn get_account_by_address(&self, address: &Address) -> Account {
pub fn get_account_by_id(&self, account_id: &AccountId) -> Account {
self.public_state
.get(address)
.get(account_id)
.cloned()
.unwrap_or(Account::default())
}
@ -220,11 +220,11 @@ impl V02State {
// TODO: Testnet only. Refactor to prevent compilation on mainnet.
impl V02State {
pub fn add_pinata_program(&mut self, address: Address) {
pub fn add_pinata_program(&mut self, account_id: AccountId) {
self.insert_program(Program::pinata());
self.public_state.insert(
address,
account_id,
Account {
program_owner: Program::pinata().id(),
balance: 1500,
@ -242,7 +242,7 @@ pub mod tests {
use std::collections::HashMap;
use crate::{
Address, PublicKey, PublicTransaction, V02State,
PublicKey, PublicTransaction, V02State,
error::NssaError,
execute_and_prove,
privacy_preserving_transaction::{
@ -261,17 +261,17 @@ pub mod tests {
};
fn transfer_transaction(
from: Address,
from: AccountId,
from_key: PrivateKey,
nonce: u128,
to: Address,
to: AccountId,
balance: u128,
) -> PublicTransaction {
let addresses = vec![from, to];
let account_ids = vec![from, to];
let nonces = vec![nonce];
let program_id = Program::authenticated_transfer_program().id();
let message =
public_transaction::Message::try_new(program_id, addresses, nonces, balance).unwrap();
public_transaction::Message::try_new(program_id, account_ids, nonces, balance).unwrap();
let witness_set = public_transaction::WitnessSet::for_message(&message, &[&from_key]);
PublicTransaction::new(message, witness_set)
}
@ -280,8 +280,8 @@ pub mod tests {
fn test_new_with_genesis() {
let key1 = PrivateKey::try_new([1; 32]).unwrap();
let key2 = PrivateKey::try_new([2; 32]).unwrap();
let addr1 = Address::from(&PublicKey::new_from_private_key(&key1));
let addr2 = Address::from(&PublicKey::new_from_private_key(&key2));
let addr1 = AccountId::from(&PublicKey::new_from_private_key(&key1));
let addr2 = AccountId::from(&PublicKey::new_from_private_key(&key2));
let initial_data = [(addr1, 100u128), (addr2, 151u128)];
let authenticated_transfers_program = Program::authenticated_transfer_program();
let expected_public_state = {
@ -333,25 +333,25 @@ pub mod tests {
}
#[test]
fn test_get_account_by_address_non_default_account() {
fn test_get_account_by_account_id_non_default_account() {
let key = PrivateKey::try_new([1; 32]).unwrap();
let addr = Address::from(&PublicKey::new_from_private_key(&key));
let initial_data = [(addr, 100u128)];
let account_id = AccountId::from(&PublicKey::new_from_private_key(&key));
let initial_data = [(account_id, 100u128)];
let state = V02State::new_with_genesis_accounts(&initial_data, &[]);
let expected_account = state.public_state.get(&addr).unwrap();
let expected_account = state.public_state.get(&account_id).unwrap();
let account = state.get_account_by_address(&addr);
let account = state.get_account_by_id(&account_id);
assert_eq!(&account, expected_account);
}
#[test]
fn test_get_account_by_address_default_account() {
let addr2 = Address::new([0; 32]);
fn test_get_account_by_account_id_default_account() {
let addr2 = AccountId::new([0; 32]);
let state = V02State::new_with_genesis_accounts(&[], &[]);
let expected_account = Account::default();
let account = state.get_account_by_address(&addr2);
let account = state.get_account_by_id(&addr2);
assert_eq!(account, expected_account);
}
@ -368,96 +368,96 @@ pub mod tests {
#[test]
fn transition_from_authenticated_transfer_program_invocation_default_account_destination() {
let key = PrivateKey::try_new([1; 32]).unwrap();
let address = Address::from(&PublicKey::new_from_private_key(&key));
let initial_data = [(address, 100)];
let account_id = AccountId::from(&PublicKey::new_from_private_key(&key));
let initial_data = [(account_id, 100)];
let mut state = V02State::new_with_genesis_accounts(&initial_data, &[]);
let from = address;
let to = Address::new([2; 32]);
assert_eq!(state.get_account_by_address(&to), Account::default());
let from = account_id;
let to = AccountId::new([2; 32]);
assert_eq!(state.get_account_by_id(&to), Account::default());
let balance_to_move = 5;
let tx = transfer_transaction(from, key, 0, to, balance_to_move);
state.transition_from_public_transaction(&tx).unwrap();
assert_eq!(state.get_account_by_address(&from).balance, 95);
assert_eq!(state.get_account_by_address(&to).balance, 5);
assert_eq!(state.get_account_by_address(&from).nonce, 1);
assert_eq!(state.get_account_by_address(&to).nonce, 0);
assert_eq!(state.get_account_by_id(&from).balance, 95);
assert_eq!(state.get_account_by_id(&to).balance, 5);
assert_eq!(state.get_account_by_id(&from).nonce, 1);
assert_eq!(state.get_account_by_id(&to).nonce, 0);
}
#[test]
fn transition_from_authenticated_transfer_program_invocation_insuficient_balance() {
let key = PrivateKey::try_new([1; 32]).unwrap();
let address = Address::from(&PublicKey::new_from_private_key(&key));
let initial_data = [(address, 100)];
let account_id = AccountId::from(&PublicKey::new_from_private_key(&key));
let initial_data = [(account_id, 100)];
let mut state = V02State::new_with_genesis_accounts(&initial_data, &[]);
let from = address;
let from = account_id;
let from_key = key;
let to = Address::new([2; 32]);
let to = AccountId::new([2; 32]);
let balance_to_move = 101;
assert!(state.get_account_by_address(&from).balance < balance_to_move);
assert!(state.get_account_by_id(&from).balance < balance_to_move);
let tx = transfer_transaction(from, from_key, 0, to, balance_to_move);
let result = state.transition_from_public_transaction(&tx);
assert!(matches!(result, Err(NssaError::ProgramExecutionFailed(_))));
assert_eq!(state.get_account_by_address(&from).balance, 100);
assert_eq!(state.get_account_by_address(&to).balance, 0);
assert_eq!(state.get_account_by_address(&from).nonce, 0);
assert_eq!(state.get_account_by_address(&to).nonce, 0);
assert_eq!(state.get_account_by_id(&from).balance, 100);
assert_eq!(state.get_account_by_id(&to).balance, 0);
assert_eq!(state.get_account_by_id(&from).nonce, 0);
assert_eq!(state.get_account_by_id(&to).nonce, 0);
}
#[test]
fn transition_from_authenticated_transfer_program_invocation_non_default_account_destination() {
let key1 = PrivateKey::try_new([1; 32]).unwrap();
let key2 = PrivateKey::try_new([2; 32]).unwrap();
let address1 = Address::from(&PublicKey::new_from_private_key(&key1));
let address2 = Address::from(&PublicKey::new_from_private_key(&key2));
let initial_data = [(address1, 100), (address2, 200)];
let account_id1 = AccountId::from(&PublicKey::new_from_private_key(&key1));
let account_id2 = AccountId::from(&PublicKey::new_from_private_key(&key2));
let initial_data = [(account_id1, 100), (account_id2, 200)];
let mut state = V02State::new_with_genesis_accounts(&initial_data, &[]);
let from = address2;
let from = account_id2;
let from_key = key2;
let to = address1;
assert_ne!(state.get_account_by_address(&to), Account::default());
let to = account_id1;
assert_ne!(state.get_account_by_id(&to), Account::default());
let balance_to_move = 8;
let tx = transfer_transaction(from, from_key, 0, to, balance_to_move);
state.transition_from_public_transaction(&tx).unwrap();
assert_eq!(state.get_account_by_address(&from).balance, 192);
assert_eq!(state.get_account_by_address(&to).balance, 108);
assert_eq!(state.get_account_by_address(&from).nonce, 1);
assert_eq!(state.get_account_by_address(&to).nonce, 0);
assert_eq!(state.get_account_by_id(&from).balance, 192);
assert_eq!(state.get_account_by_id(&to).balance, 108);
assert_eq!(state.get_account_by_id(&from).nonce, 1);
assert_eq!(state.get_account_by_id(&to).nonce, 0);
}
#[test]
fn transition_from_sequence_of_authenticated_transfer_program_invocations() {
let key1 = PrivateKey::try_new([8; 32]).unwrap();
let address1 = Address::from(&PublicKey::new_from_private_key(&key1));
let account_id1 = AccountId::from(&PublicKey::new_from_private_key(&key1));
let key2 = PrivateKey::try_new([2; 32]).unwrap();
let address2 = Address::from(&PublicKey::new_from_private_key(&key2));
let initial_data = [(address1, 100)];
let account_id2 = AccountId::from(&PublicKey::new_from_private_key(&key2));
let initial_data = [(account_id1, 100)];
let mut state = V02State::new_with_genesis_accounts(&initial_data, &[]);
let address3 = Address::new([3; 32]);
let account_id3 = AccountId::new([3; 32]);
let balance_to_move = 5;
let tx = transfer_transaction(address1, key1, 0, address2, balance_to_move);
let tx = transfer_transaction(account_id1, key1, 0, account_id2, balance_to_move);
state.transition_from_public_transaction(&tx).unwrap();
let balance_to_move = 3;
let tx = transfer_transaction(address2, key2, 0, address3, balance_to_move);
let tx = transfer_transaction(account_id2, key2, 0, account_id3, balance_to_move);
state.transition_from_public_transaction(&tx).unwrap();
assert_eq!(state.get_account_by_address(&address1).balance, 95);
assert_eq!(state.get_account_by_address(&address2).balance, 2);
assert_eq!(state.get_account_by_address(&address3).balance, 3);
assert_eq!(state.get_account_by_address(&address1).nonce, 1);
assert_eq!(state.get_account_by_address(&address2).nonce, 1);
assert_eq!(state.get_account_by_address(&address3).nonce, 0);
assert_eq!(state.get_account_by_id(&account_id1).balance, 95);
assert_eq!(state.get_account_by_id(&account_id2).balance, 2);
assert_eq!(state.get_account_by_id(&account_id3).balance, 3);
assert_eq!(state.get_account_by_id(&account_id1).nonce, 1);
assert_eq!(state.get_account_by_id(&account_id2).nonce, 1);
assert_eq!(state.get_account_by_id(&account_id3).nonce, 0);
}
impl V02State {
pub fn force_insert_account(&mut self, address: Address, account: Account) {
self.public_state.insert(address, account);
pub fn force_insert_account(&mut self, account_id: AccountId, account: Account) {
self.public_state.insert(account_id, account);
}
/// Include test programs in the builtin programs map
@ -488,15 +488,15 @@ pub mod tests {
..Account::default()
};
self.force_insert_account(
Address::new([255; 32]),
AccountId::new([255; 32]),
account_with_default_values_except_balance,
);
self.force_insert_account(
Address::new([254; 32]),
AccountId::new([254; 32]),
account_with_default_values_except_nonce,
);
self.force_insert_account(
Address::new([253; 32]),
AccountId::new([253; 32]),
account_with_default_values_except_data,
);
self
@ -508,7 +508,7 @@ pub mod tests {
balance: 100,
..Default::default()
};
self.force_insert_account(Address::new([252; 32]), account);
self.force_insert_account(AccountId::new([252; 32]), account);
self
}
@ -521,13 +521,13 @@ pub mod tests {
#[test]
fn test_program_should_fail_if_modifies_nonces() {
let initial_data = [(Address::new([1; 32]), 100)];
let initial_data = [(AccountId::new([1; 32]), 100)];
let mut state =
V02State::new_with_genesis_accounts(&initial_data, &[]).with_test_programs();
let addresses = vec![Address::new([1; 32])];
let account_ids = vec![AccountId::new([1; 32])];
let program_id = Program::nonce_changer_program().id();
let message =
public_transaction::Message::try_new(program_id, addresses, vec![], ()).unwrap();
public_transaction::Message::try_new(program_id, account_ids, vec![], ()).unwrap();
let witness_set = public_transaction::WitnessSet::for_message(&message, &[]);
let tx = PublicTransaction::new(message, witness_set);
@ -538,13 +538,13 @@ pub mod tests {
#[test]
fn test_program_should_fail_if_output_accounts_exceed_inputs() {
let initial_data = [(Address::new([1; 32]), 100)];
let initial_data = [(AccountId::new([1; 32]), 100)];
let mut state =
V02State::new_with_genesis_accounts(&initial_data, &[]).with_test_programs();
let addresses = vec![Address::new([1; 32])];
let account_ids = vec![AccountId::new([1; 32])];
let program_id = Program::extra_output_program().id();
let message =
public_transaction::Message::try_new(program_id, addresses, vec![], ()).unwrap();
public_transaction::Message::try_new(program_id, account_ids, vec![], ()).unwrap();
let witness_set = public_transaction::WitnessSet::for_message(&message, &[]);
let tx = PublicTransaction::new(message, witness_set);
@ -555,13 +555,13 @@ pub mod tests {
#[test]
fn test_program_should_fail_with_missing_output_accounts() {
let initial_data = [(Address::new([1; 32]), 100)];
let initial_data = [(AccountId::new([1; 32]), 100)];
let mut state =
V02State::new_with_genesis_accounts(&initial_data, &[]).with_test_programs();
let addresses = vec![Address::new([1; 32]), Address::new([2; 32])];
let account_ids = vec![AccountId::new([1; 32]), AccountId::new([2; 32])];
let program_id = Program::missing_output_program().id();
let message =
public_transaction::Message::try_new(program_id, addresses, vec![], ()).unwrap();
public_transaction::Message::try_new(program_id, account_ids, vec![], ()).unwrap();
let witness_set = public_transaction::WitnessSet::for_message(&message, &[]);
let tx = PublicTransaction::new(message, witness_set);
@ -572,11 +572,11 @@ pub mod tests {
#[test]
fn test_program_should_fail_if_modifies_program_owner_with_only_non_default_program_owner() {
let initial_data = [(Address::new([1; 32]), 0)];
let initial_data = [(AccountId::new([1; 32]), 0)];
let mut state =
V02State::new_with_genesis_accounts(&initial_data, &[]).with_test_programs();
let address = Address::new([1; 32]);
let account = state.get_account_by_address(&address);
let account_id = AccountId::new([1; 32]);
let account = state.get_account_by_id(&account_id);
// Assert the target account only differs from the default account in the program owner field
assert_ne!(account.program_owner, Account::default().program_owner);
assert_eq!(account.balance, Account::default().balance);
@ -584,7 +584,7 @@ pub mod tests {
assert_eq!(account.data, Account::default().data);
let program_id = Program::program_owner_changer().id();
let message =
public_transaction::Message::try_new(program_id, vec![address], vec![], ()).unwrap();
public_transaction::Message::try_new(program_id, vec![account_id], vec![], ()).unwrap();
let witness_set = public_transaction::WitnessSet::for_message(&message, &[]);
let tx = PublicTransaction::new(message, witness_set);
@ -599,8 +599,8 @@ pub mod tests {
let mut state = V02State::new_with_genesis_accounts(&initial_data, &[])
.with_test_programs()
.with_non_default_accounts_but_default_program_owners();
let address = Address::new([255; 32]);
let account = state.get_account_by_address(&address);
let account_id = AccountId::new([255; 32]);
let account = state.get_account_by_id(&account_id);
// Assert the target account only differs from the default account in balance field
assert_eq!(account.program_owner, Account::default().program_owner);
assert_ne!(account.balance, Account::default().balance);
@ -608,7 +608,7 @@ pub mod tests {
assert_eq!(account.data, Account::default().data);
let program_id = Program::program_owner_changer().id();
let message =
public_transaction::Message::try_new(program_id, vec![address], vec![], ()).unwrap();
public_transaction::Message::try_new(program_id, vec![account_id], vec![], ()).unwrap();
let witness_set = public_transaction::WitnessSet::for_message(&message, &[]);
let tx = PublicTransaction::new(message, witness_set);
@ -623,8 +623,8 @@ pub mod tests {
let mut state = V02State::new_with_genesis_accounts(&initial_data, &[])
.with_test_programs()
.with_non_default_accounts_but_default_program_owners();
let address = Address::new([254; 32]);
let account = state.get_account_by_address(&address);
let account_id = AccountId::new([254; 32]);
let account = state.get_account_by_id(&account_id);
// Assert the target account only differs from the default account in nonce field
assert_eq!(account.program_owner, Account::default().program_owner);
assert_eq!(account.balance, Account::default().balance);
@ -632,7 +632,7 @@ pub mod tests {
assert_eq!(account.data, Account::default().data);
let program_id = Program::program_owner_changer().id();
let message =
public_transaction::Message::try_new(program_id, vec![address], vec![], ()).unwrap();
public_transaction::Message::try_new(program_id, vec![account_id], vec![], ()).unwrap();
let witness_set = public_transaction::WitnessSet::for_message(&message, &[]);
let tx = PublicTransaction::new(message, witness_set);
@ -647,8 +647,8 @@ pub mod tests {
let mut state = V02State::new_with_genesis_accounts(&initial_data, &[])
.with_test_programs()
.with_non_default_accounts_but_default_program_owners();
let address = Address::new([253; 32]);
let account = state.get_account_by_address(&address);
let account_id = AccountId::new([253; 32]);
let account = state.get_account_by_id(&account_id);
// Assert the target account only differs from the default account in data field
assert_eq!(account.program_owner, Account::default().program_owner);
assert_eq!(account.balance, Account::default().balance);
@ -656,7 +656,7 @@ pub mod tests {
assert_ne!(account.data, Account::default().data);
let program_id = Program::program_owner_changer().id();
let message =
public_transaction::Message::try_new(program_id, vec![address], vec![], ()).unwrap();
public_transaction::Message::try_new(program_id, vec![account_id], vec![], ()).unwrap();
let witness_set = public_transaction::WitnessSet::for_message(&message, &[]);
let tx = PublicTransaction::new(message, witness_set);
@ -667,20 +667,20 @@ pub mod tests {
#[test]
fn test_program_should_fail_if_transfers_balance_from_non_owned_account() {
let initial_data = [(Address::new([1; 32]), 100)];
let initial_data = [(AccountId::new([1; 32]), 100)];
let mut state =
V02State::new_with_genesis_accounts(&initial_data, &[]).with_test_programs();
let sender_address = Address::new([1; 32]);
let receiver_address = Address::new([2; 32]);
let sender_account_id = AccountId::new([1; 32]);
let receiver_account_id = AccountId::new([2; 32]);
let balance_to_move: u128 = 1;
let program_id = Program::simple_balance_transfer().id();
assert_ne!(
state.get_account_by_address(&sender_address).program_owner,
state.get_account_by_id(&sender_account_id).program_owner,
program_id
);
let message = public_transaction::Message::try_new(
program_id,
vec![sender_address, receiver_address],
vec![sender_account_id, receiver_account_id],
vec![],
balance_to_move,
)
@ -699,16 +699,16 @@ pub mod tests {
let mut state = V02State::new_with_genesis_accounts(&initial_data, &[])
.with_test_programs()
.with_non_default_accounts_but_default_program_owners();
let address = Address::new([255; 32]);
let account_id = AccountId::new([255; 32]);
let program_id = Program::data_changer().id();
assert_ne!(state.get_account_by_address(&address), Account::default());
assert_ne!(state.get_account_by_id(&account_id), Account::default());
assert_ne!(
state.get_account_by_address(&address).program_owner,
state.get_account_by_id(&account_id).program_owner,
program_id
);
let message =
public_transaction::Message::try_new(program_id, vec![address], vec![], ()).unwrap();
public_transaction::Message::try_new(program_id, vec![account_id], vec![], ()).unwrap();
let witness_set = public_transaction::WitnessSet::for_message(&message, &[]);
let tx = PublicTransaction::new(message, witness_set);
@ -722,11 +722,11 @@ pub mod tests {
let initial_data = [];
let mut state =
V02State::new_with_genesis_accounts(&initial_data, &[]).with_test_programs();
let address = Address::new([1; 32]);
let account_id = AccountId::new([1; 32]);
let program_id = Program::minter().id();
let message =
public_transaction::Message::try_new(program_id, vec![address], vec![], ()).unwrap();
public_transaction::Message::try_new(program_id, vec![account_id], vec![], ()).unwrap();
let witness_set = public_transaction::WitnessSet::for_message(&message, &[]);
let tx = PublicTransaction::new(message, witness_set);
@ -742,17 +742,17 @@ pub mod tests {
.with_test_programs()
.with_account_owned_by_burner_program();
let program_id = Program::burner().id();
let address = Address::new([252; 32]);
let account_id = AccountId::new([252; 32]);
assert_eq!(
state.get_account_by_address(&address).program_owner,
state.get_account_by_id(&account_id).program_owner,
program_id
);
let balance_to_burn: u128 = 1;
assert!(state.get_account_by_address(&address).balance > balance_to_burn);
assert!(state.get_account_by_id(&account_id).balance > balance_to_burn);
let message = public_transaction::Message::try_new(
program_id,
vec![address],
vec![account_id],
vec![],
balance_to_burn,
)
@ -769,8 +769,8 @@ pub mod tests {
}
impl TestPublicKeys {
pub fn address(&self) -> Address {
Address::from(&PublicKey::new_from_private_key(&self.signing_key))
pub fn account_id(&self) -> AccountId {
AccountId::from(&PublicKey::new_from_private_key(&self.signing_key))
}
}
@ -816,9 +816,9 @@ pub mod tests {
state: &V02State,
) -> PrivacyPreservingTransaction {
let sender = AccountWithMetadata::new(
state.get_account_by_address(&sender_keys.address()),
state.get_account_by_id(&sender_keys.account_id()),
true,
sender_keys.address(),
sender_keys.account_id(),
);
let sender_nonce = sender.account.nonce;
@ -841,7 +841,7 @@ pub mod tests {
.unwrap();
let message = Message::try_from_circuit_output(
vec![sender_keys.address()],
vec![sender_keys.account_id()],
vec![sender_nonce],
vec![(recipient_keys.npk(), recipient_keys.ivk(), epk)],
output,
@ -911,7 +911,7 @@ pub mod tests {
fn deshielded_balance_transfer_for_tests(
sender_keys: &TestPrivateKeys,
sender_private_account: &Account,
recipient_address: &Address,
recipient_account_id: &AccountId,
balance_to_move: u128,
new_nonce: Nonce,
state: &V02State,
@ -921,9 +921,9 @@ pub mod tests {
let sender_pre =
AccountWithMetadata::new(sender_private_account.clone(), true, &sender_keys.npk());
let recipient_pre = AccountWithMetadata::new(
state.get_account_by_address(recipient_address),
state.get_account_by_id(recipient_account_id),
false,
*recipient_address,
*recipient_account_id,
);
let esk = [3; 32];
@ -945,7 +945,7 @@ pub mod tests {
.unwrap();
let message = Message::try_from_circuit_output(
vec![*recipient_address],
vec![*recipient_account_id],
vec![],
vec![(sender_keys.npk(), sender_keys.ivk(), epk)],
output,
@ -962,7 +962,8 @@ pub mod tests {
let sender_keys = test_public_account_keys_1();
let recipient_keys = test_private_account_keys_1();
let mut state = V02State::new_with_genesis_accounts(&[(sender_keys.address(), 200)], &[]);
let mut state =
V02State::new_with_genesis_accounts(&[(sender_keys.account_id(), 200)], &[]);
let balance_to_move = 37;
@ -974,7 +975,7 @@ pub mod tests {
);
let expected_sender_post = {
let mut this = state.get_account_by_address(&sender_keys.address());
let mut this = state.get_account_by_id(&sender_keys.account_id());
this.balance -= balance_to_move;
this.nonce += 1;
this
@ -987,12 +988,12 @@ pub mod tests {
.transition_from_privacy_preserving_transaction(&tx)
.unwrap();
let sender_post = state.get_account_by_address(&sender_keys.address());
let sender_post = state.get_account_by_id(&sender_keys.account_id());
assert_eq!(sender_post, expected_sender_post);
assert!(state.private_state.0.contains(&expected_new_commitment));
assert_eq!(
state.get_account_by_address(&sender_keys.address()).balance,
state.get_account_by_id(&sender_keys.account_id()).balance,
200 - balance_to_move
);
}
@ -1075,7 +1076,7 @@ pub mod tests {
let recipient_keys = test_public_account_keys_1();
let recipient_initial_balance = 400;
let mut state = V02State::new_with_genesis_accounts(
&[(recipient_keys.address(), recipient_initial_balance)],
&[(recipient_keys.account_id(), recipient_initial_balance)],
&[],
)
.with_private_account(&sender_keys, &sender_private_account);
@ -1083,7 +1084,7 @@ pub mod tests {
let balance_to_move = 37;
let expected_recipient_post = {
let mut this = state.get_account_by_address(&recipient_keys.address());
let mut this = state.get_account_by_id(&recipient_keys.account_id());
this.balance += balance_to_move;
this
};
@ -1091,7 +1092,7 @@ pub mod tests {
let tx = deshielded_balance_transfer_for_tests(
&sender_keys,
&sender_private_account,
&recipient_keys.address(),
&recipient_keys.account_id(),
balance_to_move,
0xcafecafe,
&state,
@ -1119,14 +1120,14 @@ pub mod tests {
.transition_from_privacy_preserving_transaction(&tx)
.unwrap();
let recipient_post = state.get_account_by_address(&recipient_keys.address());
let recipient_post = state.get_account_by_id(&recipient_keys.account_id());
assert_eq!(recipient_post, expected_recipient_post);
assert!(state.private_state.0.contains(&sender_pre_commitment));
assert!(state.private_state.0.contains(&expected_new_commitment));
assert!(state.private_state.1.contains(&expected_new_nullifier));
assert_eq!(
state
.get_account_by_address(&recipient_keys.address())
.get_account_by_id(&recipient_keys.account_id())
.balance,
recipient_initial_balance + balance_to_move
);
@ -2046,18 +2047,18 @@ pub mod tests {
fn test_claiming_mechanism() {
let program = Program::authenticated_transfer_program();
let key = PrivateKey::try_new([1; 32]).unwrap();
let address = Address::from(&PublicKey::new_from_private_key(&key));
let account_id = AccountId::from(&PublicKey::new_from_private_key(&key));
let initial_balance = 100;
let initial_data = [(address, initial_balance)];
let initial_data = [(account_id, initial_balance)];
let mut state =
V02State::new_with_genesis_accounts(&initial_data, &[]).with_test_programs();
let from = address;
let from = account_id;
let from_key = key;
let to = Address::new([2; 32]);
let to = AccountId::new([2; 32]);
let amount: u128 = 37;
// Check the recipient is an uninitialized account
assert_eq!(state.get_account_by_address(&to), Account::default());
assert_eq!(state.get_account_by_id(&to), Account::default());
let expected_recipient_post = Account {
program_owner: program.id(),
@ -2073,7 +2074,7 @@ pub mod tests {
state.transition_from_public_transaction(&tx).unwrap();
let recipient_post = state.get_account_by_address(&to);
let recipient_post = state.get_account_by_id(&to);
assert_eq!(recipient_post, expected_recipient_post);
}
@ -2082,14 +2083,14 @@ pub mod tests {
fn test_chained_call() {
let program = Program::chain_caller();
let key = PrivateKey::try_new([1; 32]).unwrap();
let address = Address::from(&PublicKey::new_from_private_key(&key));
let account_id = AccountId::from(&PublicKey::new_from_private_key(&key));
let initial_balance = 100;
let initial_data = [(address, initial_balance)];
let initial_data = [(account_id, initial_balance)];
let mut state =
V02State::new_with_genesis_accounts(&initial_data, &[]).with_test_programs();
let from = address;
let from = account_id;
let from_key = key;
let to = Address::new([2; 32]);
let to = AccountId::new([2; 32]);
let amount: u128 = 37;
let instruction: (u128, ProgramId) =
(amount, Program::authenticated_transfer_program().id());
@ -2112,8 +2113,8 @@ pub mod tests {
state.transition_from_public_transaction(&tx).unwrap();
let from_post = state.get_account_by_address(&from);
let to_post = state.get_account_by_address(&to);
let from_post = state.get_account_by_id(&from);
let to_post = state.get_account_by_id(&to);
assert_eq!(from_post.balance, initial_balance - amount);
assert_eq!(to_post, expected_to_post);
}

4
sequencer_core/Cargo.toml
View File

@ -28,3 +28,7 @@ path = "../nssa"
[features]
default = []
testnet = []
[dev-dependencies]
tokio = { workspace = true, features = ["rt-multi-thread", "macros"] }
futures.workspace = true

26
sequencer_core/src/block_store.rs
View File

@ -4,15 +4,15 @@ use anyhow::Result;
use common::{HashType, block::Block, transaction::EncodedTransaction};
use storage::RocksDBIO;
pub struct SequecerBlockStore {
pub struct SequencerBlockStore {
dbio: RocksDBIO,
// TODO: Consider adding the hashmap to the database for faster recovery.
pub tx_hash_to_block_map: HashMap<HashType, u64>,
pub genesis_id: u64,
pub signing_key: nssa::PrivateKey,
tx_hash_to_block_map: HashMap<HashType, u64>,
genesis_id: u64,
signing_key: nssa::PrivateKey,
}
impl SequecerBlockStore {
impl SequencerBlockStore {
///Starting database at the start of new chain.
/// Creates files if necessary.
///
@ -42,7 +42,7 @@ impl SequecerBlockStore {
///Reopening existing database
pub fn open_db_restart(location: &Path, signing_key: nssa::PrivateKey) -> Result<Self> {
SequecerBlockStore::open_db_with_genesis(location, None, signing_key)
SequencerBlockStore::open_db_with_genesis(location, None, signing_key)
}
pub fn get_block_at_id(&self, id: u64) -> Result<Block> {
@ -69,6 +69,18 @@ impl SequecerBlockStore {
}
None
}
pub fn insert(&mut self, tx: &EncodedTransaction, block_id: u64) {
self.tx_hash_to_block_map.insert(tx.hash(), block_id);
}
pub fn genesis_id(&self) -> u64 {
self.genesis_id
}
pub fn signing_key(&self) -> &nssa::PrivateKey {
&self.signing_key
}
}
pub(crate) fn block_to_transactions_map(block: &Block) -> HashMap<HashType, u64> {
@ -104,7 +116,7 @@ mod tests {
let genesis_block = genesis_block_hashable_data.into_block(&signing_key);
// Start an empty node store
let mut node_store =
SequecerBlockStore::open_db_with_genesis(path, Some(genesis_block), signing_key)
SequencerBlockStore::open_db_with_genesis(path, Some(genesis_block), signing_key)
.unwrap();
let tx = common::test_utils::produce_dummy_empty_transaction();

7
sequencer_core/src/config.rs
View File

@ -4,18 +4,19 @@ use std::path::PathBuf;
#[derive(Debug, Serialize, Deserialize, Clone)]
///Helperstruct for account serialization
pub struct AccountInitialData {
///Hex encoded `AccountAddress`
pub addr: String,
/// Hex encoded account id
pub account_id: String,
pub balance: u128,
}
#[derive(Debug, Serialize, Deserialize, Clone)]
///Helperstruct to initialize commitments
/// Helperstruct to initialize commitments
pub struct CommitmentsInitialData {
pub npk: nssa_core::NullifierPublicKey,
pub account: nssa_core::account::Account,
}
// TODO: Provide default values
#[derive(Clone, Serialize, Deserialize)]
pub struct SequencerConfig {
///Home dir of sequencer storage

403
sequencer_core/src/lib.rs
View File

@ -10,25 +10,24 @@ use common::{
};
use config::SequencerConfig;
use log::warn;
use mempool::MemPool;
use mempool::{MemPool, MemPoolHandle};
use serde::{Deserialize, Serialize};
use crate::block_store::SequecerBlockStore;
use crate::block_store::SequencerBlockStore;
pub mod block_store;
pub mod config;
pub struct SequencerCore {
pub state: nssa::V02State,
pub block_store: SequecerBlockStore,
pub mempool: MemPool<EncodedTransaction>,
pub sequencer_config: SequencerConfig,
pub chain_height: u64,
state: nssa::V02State,
block_store: SequencerBlockStore,
mempool: MemPool<EncodedTransaction>,
sequencer_config: SequencerConfig,
chain_height: u64,
}
#[derive(Debug, Clone, Serialize, Deserialize, PartialEq)]
pub enum TransactionMalformationError {
MempoolFullForRound,
InvalidSignature,
FailedToDecode { tx: HashType },
}
@ -42,7 +41,8 @@ impl Display for TransactionMalformationError {
impl std::error::Error for TransactionMalformationError {}
impl SequencerCore {
pub fn start_from_config(config: SequencerConfig) -> Self {
/// Start Sequencer from configuration and construct transaction sender
pub fn start_from_config(config: SequencerConfig) -> (Self, MemPoolHandle<EncodedTransaction>) {
let hashable_data = HashableBlockData {
block_id: config.genesis_id,
transactions: vec![],
@ -55,7 +55,7 @@ impl SequencerCore {
//Sequencer should panic if unable to open db,
//as fixing this issue may require actions non-native to program scope
let block_store = SequecerBlockStore::open_db_with_genesis(
let block_store = SequencerBlockStore::open_db_with_genesis(
&config.home.join("rocksdb"),
Some(genesis_block),
signing_key,
@ -75,10 +75,10 @@ impl SequencerCore {
initial_commitments.push(comm);
}
let init_accs: Vec<(nssa::Address, u128)> = config
let init_accs: Vec<(nssa::AccountId, u128)> = config
.initial_accounts
.iter()
.map(|acc_data| (acc_data.addr.parse().unwrap(), acc_data.balance))
.map(|acc_data| (acc_data.account_id.parse().unwrap(), acc_data.balance))
.collect();
let mut state = nssa::V02State::new_with_genesis_accounts(&init_accs, &initial_commitments);
@ -86,17 +86,18 @@ impl SequencerCore {
#[cfg(feature = "testnet")]
state.add_pinata_program(PINATA_BASE58.parse().unwrap());
let (mempool, mempool_handle) = MemPool::new(config.mempool_max_size);
let mut this = Self {
state,
block_store,
mempool: MemPool::default(),
mempool,
chain_height: config.genesis_id,
sequencer_config: config,
};
this.sync_state_with_stored_blocks();
this
(this, mempool_handle)
}
/// If there are stored blocks ahead of the current height, this method will load and process all transaction
@ -110,108 +111,50 @@ impl SequencerCore {
self.execute_check_transaction_on_state(transaction)
.unwrap();
// Update the tx hash to block id map.
self.block_store
.tx_hash_to_block_map
.insert(encoded_transaction.hash(), next_block_id);
self.block_store.insert(&encoded_transaction, next_block_id);
}
self.chain_height = next_block_id;
next_block_id += 1;
}
}
pub fn transaction_pre_check(
&mut self,
tx: NSSATransaction,
) -> Result<NSSATransaction, TransactionMalformationError> {
// Stateless checks here
match tx {
NSSATransaction::Public(tx) => {
if tx.witness_set().is_valid_for(tx.message()) {
Ok(NSSATransaction::Public(tx))
} else {
Err(TransactionMalformationError::InvalidSignature)
}
}
NSSATransaction::PrivacyPreserving(tx) => {
if tx.witness_set().signatures_are_valid_for(tx.message()) {
Ok(NSSATransaction::PrivacyPreserving(tx))
} else {
Err(TransactionMalformationError::InvalidSignature)
}
}
NSSATransaction::ProgramDeployment(tx) => Ok(NSSATransaction::ProgramDeployment(tx)),
}
}
pub fn push_tx_into_mempool_pre_check(
&mut self,
transaction: EncodedTransaction,
) -> Result<(), TransactionMalformationError> {
let transaction = NSSATransaction::try_from(&transaction).map_err(|_| {
TransactionMalformationError::FailedToDecode {
tx: transaction.hash(),
}
})?;
let mempool_size = self.mempool.len();
if mempool_size >= self.sequencer_config.mempool_max_size {
return Err(TransactionMalformationError::MempoolFullForRound);
}
let authenticated_tx = self
.transaction_pre_check(transaction)
.inspect_err(|err| warn!("Error at pre_check {err:#?}"))?;
self.mempool.push_item(authenticated_tx.into());
Ok(())
}
fn execute_check_transaction_on_state(
&mut self,
tx: NSSATransaction,
) -> Result<NSSATransaction, nssa::error::NssaError> {
match &tx {
NSSATransaction::Public(tx) => {
self.state
.transition_from_public_transaction(tx)
.inspect_err(|err| warn!("Error at transition {err:#?}"))?;
}
NSSATransaction::PrivacyPreserving(tx) => {
self.state
.transition_from_privacy_preserving_transaction(tx)
.inspect_err(|err| warn!("Error at transition {err:#?}"))?;
}
NSSATransaction::ProgramDeployment(tx) => {
self.state
.transition_from_program_deployment_transaction(tx)
.inspect_err(|err| warn!("Error at transition {err:#?}"))?;
}
NSSATransaction::Public(tx) => self.state.transition_from_public_transaction(tx),
NSSATransaction::PrivacyPreserving(tx) => self
.state
.transition_from_privacy_preserving_transaction(tx),
NSSATransaction::ProgramDeployment(tx) => self
.state
.transition_from_program_deployment_transaction(tx),
}
.inspect_err(|err| warn!("Error at transition {err:#?}"))?;
Ok(tx)
}
///Produces new block from transactions in mempool
/// Produces new block from transactions in mempool
pub fn produce_new_block_with_mempool_transactions(&mut self) -> Result<u64> {
let now = Instant::now();
let new_block_height = self.chain_height + 1;
let mut num_valid_transactions_in_block = 0;
let mut valid_transactions = vec![];
while let Some(tx) = self.mempool.pop_last() {
while let Some(tx) = self.mempool.pop() {
let nssa_transaction = NSSATransaction::try_from(&tx)
.map_err(|_| TransactionMalformationError::FailedToDecode { tx: tx.hash() })?;
if let Ok(valid_tx) = self.execute_check_transaction_on_state(nssa_transaction) {
valid_transactions.push(valid_tx.into());
num_valid_transactions_in_block += 1;
if num_valid_transactions_in_block >= self.sequencer_config.max_num_tx_in_block {
if valid_transactions.len() >= self.sequencer_config.max_num_tx_in_block {
break;
}
} else {
// Probably need to handle unsuccessful transaction execution?
}
}
@ -232,12 +175,17 @@ impl SequencerCore {
timestamp: curr_time,
};
let block = hashable_data.into_block(&self.block_store.signing_key);
let block = hashable_data.into_block(self.block_store.signing_key());
self.block_store.put_block_at_id(block)?;
self.chain_height = new_block_height;
// TODO: Consider switching to `tracing` crate to have more structured and consistent logs e.g.
//
// ```
// info!(num_txs = num_txs_in_block, time = now.elapsed(), "Created block");
// ```
log::info!(
"Created block with {} transactions in {} seconds",
num_txs_in_block,
@ -246,10 +194,52 @@ impl SequencerCore {
Ok(self.chain_height)
}
pub fn state(&self) -> &nssa::V02State {
&self.state
}
pub fn block_store(&self) -> &SequencerBlockStore {
&self.block_store
}
pub fn chain_height(&self) -> u64 {
self.chain_height
}
pub fn sequencer_config(&self) -> &SequencerConfig {
&self.sequencer_config
}
}
// TODO: Introduce type-safe wrapper around checked transaction, e.g. AuthenticatedTransaction
pub fn transaction_pre_check(
tx: NSSATransaction,
) -> Result<NSSATransaction, TransactionMalformationError> {
// Stateless checks here
match tx {
NSSATransaction::Public(tx) => {
if tx.witness_set().is_valid_for(tx.message()) {
Ok(NSSATransaction::Public(tx))
} else {
Err(TransactionMalformationError::InvalidSignature)
}
}
NSSATransaction::PrivacyPreserving(tx) => {
if tx.witness_set().signatures_are_valid_for(tx.message()) {
Ok(NSSATransaction::PrivacyPreserving(tx))
} else {
Err(TransactionMalformationError::InvalidSignature)
}
}
NSSATransaction::ProgramDeployment(tx) => Ok(NSSATransaction::ProgramDeployment(tx)),
}
}
#[cfg(test)]
mod tests {
use std::pin::pin;
use base58::{FromBase58, ToBase58};
use common::test_utils::sequencer_sign_key_for_testing;
use nssa::PrivateKey;
@ -286,23 +276,23 @@ mod tests {
}
fn setup_sequencer_config() -> SequencerConfig {
let acc1_addr: Vec<u8> = vec![
let acc1_account_id: Vec<u8> = vec![
208, 122, 210, 232, 75, 39, 250, 0, 194, 98, 240, 161, 238, 160, 255, 53, 202, 9, 115,
84, 126, 106, 16, 111, 114, 241, 147, 194, 220, 131, 139, 68,
];
let acc2_addr: Vec<u8> = vec![
let acc2_account_id: Vec<u8> = vec![
231, 174, 119, 197, 239, 26, 5, 153, 147, 68, 175, 73, 159, 199, 138, 23, 5, 57, 141,
98, 237, 6, 207, 46, 20, 121, 246, 222, 248, 154, 57, 188,
];
let initial_acc1 = AccountInitialData {
addr: acc1_addr.to_base58(),
account_id: acc1_account_id.to_base58(),
balance: 10000,
};
let initial_acc2 = AccountInitialData {
addr: acc2_addr.to_base58(),
account_id: acc2_account_id.to_base58(),
balance: 20000,
};
@ -319,33 +309,44 @@ mod tests {
nssa::PrivateKey::try_new([2; 32]).unwrap()
}
fn common_setup(sequencer: &mut SequencerCore) {
async fn common_setup() -> (SequencerCore, MemPoolHandle<EncodedTransaction>) {
let config = setup_sequencer_config();
common_setup_with_config(config).await
}
async fn common_setup_with_config(
config: SequencerConfig,
) -> (SequencerCore, MemPoolHandle<EncodedTransaction>) {
let (mut sequencer, mempool_handle) = SequencerCore::start_from_config(config);
let tx = common::test_utils::produce_dummy_empty_transaction();
sequencer.mempool.push_item(tx);
mempool_handle.push(tx).await.unwrap();
sequencer
.produce_new_block_with_mempool_transactions()
.unwrap();
(sequencer, mempool_handle)
}
#[test]
fn test_start_from_config() {
let config = setup_sequencer_config();
let sequencer = SequencerCore::start_from_config(config.clone());
let (sequencer, _mempool_handle) = SequencerCore::start_from_config(config.clone());
assert_eq!(sequencer.chain_height, config.genesis_id);
assert_eq!(sequencer.sequencer_config.max_num_tx_in_block, 10);
assert_eq!(sequencer.sequencer_config.port, 8080);
let acc1_addr = config.initial_accounts[0]
.addr
let acc1_account_id = config.initial_accounts[0]
.account_id
.clone()
.from_base58()
.unwrap()
.try_into()
.unwrap();
let acc2_addr = config.initial_accounts[1]
.addr
let acc2_account_id = config.initial_accounts[1]
.account_id
.clone()
.from_base58()
.unwrap()
@ -354,11 +355,11 @@ mod tests {
let balance_acc_1 = sequencer
.state
.get_account_by_address(&nssa::Address::new(acc1_addr))
.get_account_by_id(&nssa::AccountId::new(acc1_account_id))
.balance;
let balance_acc_2 = sequencer
.state
.get_account_by_address(&nssa::Address::new(acc2_addr))
.get_account_by_id(&nssa::AccountId::new(acc2_account_id))
.balance;
assert_eq!(10000, balance_acc_1);
@ -367,40 +368,40 @@ mod tests {
#[test]
fn test_start_different_intial_accounts_balances() {
let acc1_addr: Vec<u8> = vec![
let acc1_account_id: Vec<u8> = vec![
27, 132, 197, 86, 123, 18, 100, 64, 153, 93, 62, 213, 170, 186, 5, 101, 215, 30, 24,
52, 96, 72, 25, 255, 156, 23, 245, 233, 213, 221, 7, 143,
];
let acc2_addr: Vec<u8> = vec![
let acc2_account_id: Vec<u8> = vec![
77, 75, 108, 209, 54, 16, 50, 202, 155, 210, 174, 185, 217, 0, 170, 77, 69, 217, 234,
216, 10, 201, 66, 51, 116, 196, 81, 167, 37, 77, 7, 102,
];
let initial_acc1 = AccountInitialData {
addr: acc1_addr.to_base58(),
account_id: acc1_account_id.to_base58(),
balance: 10000,
};
let initial_acc2 = AccountInitialData {
addr: acc2_addr.to_base58(),
account_id: acc2_account_id.to_base58(),
balance: 20000,
};
let initial_accounts = vec![initial_acc1, initial_acc2];
let config = setup_sequencer_config_variable_initial_accounts(initial_accounts);
let sequencer = SequencerCore::start_from_config(config.clone());
let (sequencer, _mempool_handle) = SequencerCore::start_from_config(config.clone());
let acc1_addr = config.initial_accounts[0]
.addr
let acc1_account_id = config.initial_accounts[0]
.account_id
.clone()
.from_base58()
.unwrap()
.try_into()
.unwrap();
let acc2_addr = config.initial_accounts[1]
.addr
let acc2_account_id = config.initial_accounts[1]
.account_id
.clone()
.from_base58()
.unwrap()
@ -411,47 +412,39 @@ mod tests {
10000,
sequencer
.state
.get_account_by_address(&nssa::Address::new(acc1_addr))
.get_account_by_id(&nssa::AccountId::new(acc1_account_id))
.balance
);
assert_eq!(
20000,
sequencer
.state
.get_account_by_address(&nssa::Address::new(acc2_addr))
.get_account_by_id(&nssa::AccountId::new(acc2_account_id))
.balance
);
}
#[test]
fn test_transaction_pre_check_pass() {
let config = setup_sequencer_config();
let mut sequencer = SequencerCore::start_from_config(config);
common_setup(&mut sequencer);
let tx = common::test_utils::produce_dummy_empty_transaction();
let result = sequencer.transaction_pre_check(parse_unwrap_tx_body_into_nssa_tx(tx));
let result = transaction_pre_check(parse_unwrap_tx_body_into_nssa_tx(tx));
assert!(result.is_ok());
}
#[test]
fn test_transaction_pre_check_native_transfer_valid() {
let config = setup_sequencer_config();
let mut sequencer = SequencerCore::start_from_config(config);
common_setup(&mut sequencer);
#[tokio::test]
async fn test_transaction_pre_check_native_transfer_valid() {
let (sequencer, _mempool_handle) = common_setup().await;
let acc1 = sequencer.sequencer_config.initial_accounts[0]
.addr
.account_id
.clone()
.from_base58()
.unwrap()
.try_into()
.unwrap();
let acc2 = sequencer.sequencer_config.initial_accounts[1]
.addr
.account_id
.clone()
.from_base58()
.unwrap()
@ -463,27 +456,24 @@ mod tests {
let tx = common::test_utils::create_transaction_native_token_transfer(
acc1, 0, acc2, 10, sign_key1,
);
let result = sequencer.transaction_pre_check(parse_unwrap_tx_body_into_nssa_tx(tx));
let result = transaction_pre_check(parse_unwrap_tx_body_into_nssa_tx(tx));
assert!(result.is_ok());
}
#[test]
fn test_transaction_pre_check_native_transfer_other_signature() {
let config = setup_sequencer_config();
let mut sequencer = SequencerCore::start_from_config(config);
common_setup(&mut sequencer);
#[tokio::test]
async fn test_transaction_pre_check_native_transfer_other_signature() {
let (mut sequencer, _mempool_handle) = common_setup().await;
let acc1 = sequencer.sequencer_config.initial_accounts[0]
.addr
.account_id
.clone()
.from_base58()
.unwrap()
.try_into()
.unwrap();
let acc2 = sequencer.sequencer_config.initial_accounts[1]
.addr
.account_id
.clone()
.from_base58()
.unwrap()
@ -497,9 +487,7 @@ mod tests {
);
// Signature is valid, stateless check pass
let tx = sequencer
.transaction_pre_check(parse_unwrap_tx_body_into_nssa_tx(tx))
.unwrap();
let tx = transaction_pre_check(parse_unwrap_tx_body_into_nssa_tx(tx)).unwrap();
// Signature is not from sender. Execution fails
let result = sequencer.execute_check_transaction_on_state(tx);
@ -510,22 +498,19 @@ mod tests {
));
}
#[test]
fn test_transaction_pre_check_native_transfer_sent_too_much() {
let config = setup_sequencer_config();
let mut sequencer = SequencerCore::start_from_config(config);
common_setup(&mut sequencer);
#[tokio::test]
async fn test_transaction_pre_check_native_transfer_sent_too_much() {
let (mut sequencer, _mempool_handle) = common_setup().await;
let acc1 = sequencer.sequencer_config.initial_accounts[0]
.addr
.account_id
.clone()
.from_base58()
.unwrap()
.try_into()
.unwrap();
let acc2 = sequencer.sequencer_config.initial_accounts[1]
.addr
.account_id
.clone()
.from_base58()
.unwrap()
@ -538,9 +523,9 @@ mod tests {
acc1, 0, acc2, 10000000, sign_key1,
);
let result = sequencer.transaction_pre_check(parse_unwrap_tx_body_into_nssa_tx(tx));
let result = transaction_pre_check(parse_unwrap_tx_body_into_nssa_tx(tx));
//Passed pre-check
// Passed pre-check
assert!(result.is_ok());
let result = sequencer.execute_check_transaction_on_state(result.unwrap());
@ -552,22 +537,19 @@ mod tests {
assert!(is_failed_at_balance_mismatch);
}
#[test]
fn test_transaction_execute_native_transfer() {
let config = setup_sequencer_config();
let mut sequencer = SequencerCore::start_from_config(config);
common_setup(&mut sequencer);
#[tokio::test]
async fn test_transaction_execute_native_transfer() {
let (mut sequencer, _mempool_handle) = common_setup().await;
let acc1 = sequencer.sequencer_config.initial_accounts[0]
.addr
.account_id
.clone()
.from_base58()
.unwrap()
.try_into()
.unwrap();
let acc2 = sequencer.sequencer_config.initial_accounts[1]
.addr
.account_id
.clone()
.from_base58()
.unwrap()
@ -586,84 +568,70 @@ mod tests {
let bal_from = sequencer
.state
.get_account_by_address(&nssa::Address::new(acc1))
.get_account_by_id(&nssa::AccountId::new(acc1))
.balance;
let bal_to = sequencer
.state
.get_account_by_address(&nssa::Address::new(acc2))
.get_account_by_id(&nssa::AccountId::new(acc2))
.balance;
assert_eq!(bal_from, 9900);
assert_eq!(bal_to, 20100);
}
#[test]
fn test_push_tx_into_mempool_fails_mempool_full() {
#[tokio::test]
async fn test_push_tx_into_mempool_blocks_until_mempool_is_full() {
let config = SequencerConfig {
mempool_max_size: 1,
..setup_sequencer_config()
};
let mut sequencer = SequencerCore::start_from_config(config);
common_setup(&mut sequencer);
let (mut sequencer, mempool_handle) = common_setup_with_config(config).await;
let tx = common::test_utils::produce_dummy_empty_transaction();
// Fill the mempool
sequencer.mempool.push_item(tx.clone());
mempool_handle.push(tx.clone()).await.unwrap();
let result = sequencer.push_tx_into_mempool_pre_check(tx);
// Check that pushing another transaction will block
let mut push_fut = pin!(mempool_handle.push(tx.clone()));
let poll = futures::poll!(push_fut.as_mut());
assert!(poll.is_pending());
assert!(matches!(
result,
Err(TransactionMalformationError::MempoolFullForRound)
));
// Empty the mempool by producing a block
sequencer
.produce_new_block_with_mempool_transactions()
.unwrap();
// Resolve the pending push
assert!(push_fut.await.is_ok());
}
#[test]
fn test_push_tx_into_mempool_pre_check() {
let config = setup_sequencer_config();
let mut sequencer = SequencerCore::start_from_config(config);
common_setup(&mut sequencer);
let tx = common::test_utils::produce_dummy_empty_transaction();
let result = sequencer.push_tx_into_mempool_pre_check(tx);
assert!(result.is_ok());
assert_eq!(sequencer.mempool.len(), 1);
}
#[test]
fn test_produce_new_block_with_mempool_transactions() {
let config = setup_sequencer_config();
let mut sequencer = SequencerCore::start_from_config(config);
#[tokio::test]
async fn test_produce_new_block_with_mempool_transactions() {
let (mut sequencer, mempool_handle) = common_setup().await;
let genesis_height = sequencer.chain_height;
let tx = common::test_utils::produce_dummy_empty_transaction();
sequencer.mempool.push_item(tx);
mempool_handle.push(tx).await.unwrap();
let block_id = sequencer.produce_new_block_with_mempool_transactions();
assert!(block_id.is_ok());
assert_eq!(block_id.unwrap(), genesis_height + 1);
}
#[test]
fn test_replay_transactions_are_rejected_in_the_same_block() {
let config = setup_sequencer_config();
let mut sequencer = SequencerCore::start_from_config(config);
common_setup(&mut sequencer);
#[tokio::test]
async fn test_replay_transactions_are_rejected_in_the_same_block() {
let (mut sequencer, mempool_handle) = common_setup().await;
let acc1 = sequencer.sequencer_config.initial_accounts[0]
.addr
.account_id
.clone()
.from_base58()
.unwrap()
.try_into()
.unwrap();
let acc2 = sequencer.sequencer_config.initial_accounts[1]
.addr
.account_id
.clone()
.from_base58()
.unwrap()
@ -679,8 +647,8 @@ mod tests {
let tx_original = tx.clone();
let tx_replay = tx.clone();
// Pushing two copies of the same tx to the mempool
sequencer.mempool.push_item(tx_original);
sequencer.mempool.push_item(tx_replay);
mempool_handle.push(tx_original).await.unwrap();
mempool_handle.push(tx_replay).await.unwrap();
// Create block
let current_height = sequencer
@ -695,22 +663,19 @@ mod tests {
assert_eq!(block.body.transactions, vec![tx.clone()]);
}
#[test]
fn test_replay_transactions_are_rejected_in_different_blocks() {
let config = setup_sequencer_config();
let mut sequencer = SequencerCore::start_from_config(config);
common_setup(&mut sequencer);
#[tokio::test]
async fn test_replay_transactions_are_rejected_in_different_blocks() {
let (mut sequencer, mempool_handle) = common_setup().await;
let acc1 = sequencer.sequencer_config.initial_accounts[0]
.addr
.account_id
.clone()
.from_base58()
.unwrap()
.try_into()
.unwrap();
let acc2 = sequencer.sequencer_config.initial_accounts[1]
.addr
.account_id
.clone()
.from_base58()
.unwrap()
@ -724,7 +689,7 @@ mod tests {
);
// The transaction should be included the first time
sequencer.mempool.push_item(tx.clone());
mempool_handle.push(tx.clone()).await.unwrap();
let current_height = sequencer
.produce_new_block_with_mempool_transactions()
.unwrap();
@ -735,7 +700,7 @@ mod tests {
assert_eq!(block.body.transactions, vec![tx.clone()]);
// Add same transaction should fail
sequencer.mempool.push_item(tx);
mempool_handle.push(tx.clone()).await.unwrap();
let current_height = sequencer
.produce_new_block_with_mempool_transactions()
.unwrap();
@ -746,29 +711,31 @@ mod tests {
assert!(block.body.transactions.is_empty());
}
#[test]
fn test_restart_from_storage() {
#[tokio::test]
async fn test_restart_from_storage() {
let config = setup_sequencer_config();
let acc1_addr: nssa::Address = config.initial_accounts[0].addr.parse().unwrap();
let acc2_addr: nssa::Address = config.initial_accounts[1].addr.parse().unwrap();
let acc1_account_id: nssa::AccountId =
config.initial_accounts[0].account_id.parse().unwrap();
let acc2_account_id: nssa::AccountId =
config.initial_accounts[1].account_id.parse().unwrap();
let balance_to_move = 13;
// In the following code block a transaction will be processed that moves `balance_to_move`
// from `acc_1` to `acc_2`. The block created with that transaction will be kept stored in
// the temporary directory for the block storage of this test.
{
let mut sequencer = SequencerCore::start_from_config(config.clone());
let (mut sequencer, mempool_handle) = SequencerCore::start_from_config(config.clone());
let signing_key = PrivateKey::try_new([1; 32]).unwrap();
let tx = common::test_utils::create_transaction_native_token_transfer(
*acc1_addr.value(),
*acc1_account_id.value(),
0,
*acc2_addr.value(),
*acc2_account_id.value(),
balance_to_move,
signing_key,
);
sequencer.mempool.push_item(tx.clone());
mempool_handle.push(tx.clone()).await.unwrap();
let current_height = sequencer
.produce_new_block_with_mempool_transactions()
.unwrap();
@ -781,9 +748,9 @@ mod tests {
// Instantiating a new sequencer from the same config. This should load the existing block
// with the above transaction and update the state to reflect that.
let sequencer = SequencerCore::start_from_config(config.clone());
let balance_acc_1 = sequencer.state.get_account_by_address(&acc1_addr).balance;
let balance_acc_2 = sequencer.state.get_account_by_address(&acc2_addr).balance;
let (sequencer, _mempool_handle) = SequencerCore::start_from_config(config.clone());
let balance_acc_1 = sequencer.state.get_account_by_id(&acc1_account_id).balance;
let balance_acc_2 = sequencer.state.get_account_by_id(&acc2_account_id).balance;
// Balances should be consistent with the stored block
assert_eq!(

74
sequencer_core/src/sequencer_store/mod.rs
View File

@ -1,74 +0,0 @@
use std::path::Path;
use block_store::SequecerBlockStore;
use common::block::HashableBlockData;
use nssa::{self, Address};
use rand::{RngCore, rngs::OsRng};
use crate::config::AccountInitialData;
pub mod block_store;
pub struct SequecerChainStore {
pub state: nssa::V02State,
pub block_store: SequecerBlockStore,
}
impl SequecerChainStore {
pub fn new_with_genesis(
home_dir: &Path,
genesis_id: u64,
is_genesis_random: bool,
initial_accounts: &[AccountInitialData],
initial_commitments: &[nssa_core::Commitment],
signing_key: nssa::PrivateKey,
) -> Self {
let init_accs: Vec<(Address, u128)> = initial_accounts
.iter()
.map(|acc_data| (acc_data.addr.parse().unwrap(), acc_data.balance))
.collect();
#[cfg(not(feature = "testnet"))]
let state = nssa::V02State::new_with_genesis_accounts(&init_accs, initial_commitments);
#[cfg(feature = "testnet")]
let state = {
use common::PINATA_BASE58;
let mut this =
nssa::V02State::new_with_genesis_accounts(&init_accs, initial_commitments);
this.add_pinata_program(PINATA_BASE58.parse().unwrap());
this
};
let mut data = [0; 32];
let mut prev_block_hash = [0; 32];
if is_genesis_random {
OsRng.fill_bytes(&mut data);
OsRng.fill_bytes(&mut prev_block_hash);
}
let curr_time = chrono::Utc::now().timestamp_millis() as u64;
let hashable_data = HashableBlockData {
block_id: genesis_id,
transactions: vec![],
prev_block_hash,
timestamp: curr_time,
};
let genesis_block = hashable_data.into_block(&signing_key);
//Sequencer should panic if unable to open db,
//as fixing this issue may require actions non-native to program scope
let block_store = SequecerBlockStore::open_db_with_genesis(
&home_dir.join("rocksdb"),
Some(genesis_block),
signing_key,
)
.unwrap();
Self { state, block_store }
}
}

5
sequencer_rpc/Cargo.toml
View File

@ -19,6 +19,8 @@ actix-web.workspace = true
tokio.workspace = true
borsh.workspace = true
# TODO: Move to workspace
[dependencies.sequencer_core]
path = "../sequencer_core"
@ -27,3 +29,6 @@ path = "../common"
[dependencies.nssa]
path = "../nssa"
[dependencies.mempool]
path = "../mempool"

11
sequencer_rpc/src/lib.rs
View File

@ -4,10 +4,11 @@ pub mod types;
use std::sync::Arc;
use common::rpc_primitives::{
RpcPollingConfig,
errors::{RpcError, RpcErrorKind},
use common::{
rpc_primitives::errors::{RpcError, RpcErrorKind},
transaction::EncodedTransaction,
};
use mempool::MemPoolHandle;
use sequencer_core::SequencerCore;
use serde::Serialize;
use serde_json::Value;
@ -19,8 +20,8 @@ use self::types::err_rpc::RpcErr;
//ToDo: Add necessary fields
pub struct JsonHandler {
pub polling_config: RpcPollingConfig,
pub sequencer_state: Arc<Mutex<SequencerCore>>,
sequencer_state: Arc<Mutex<SequencerCore>>,
mempool_handle: MemPoolHandle<EncodedTransaction>,
}
fn respond<T: Serialize>(val: T) -> Result<Value, RpcErr> {

6
sequencer_rpc/src/net_utils.rs
View File

@ -3,12 +3,14 @@ use std::sync::Arc;
use actix_cors::Cors;
use actix_web::{App, Error as HttpError, HttpResponse, HttpServer, http, middleware, web};
use common::transaction::EncodedTransaction;
use futures::Future;
use futures::FutureExt;
use log::info;
use common::rpc_primitives::RpcConfig;
use common::rpc_primitives::message::Message;
use mempool::MemPoolHandle;
use sequencer_core::SequencerCore;
use tokio::sync::Mutex;
@ -46,17 +48,17 @@ fn get_cors(cors_allowed_origins: &[String]) -> Cors {
pub fn new_http_server(
config: RpcConfig,
seuquencer_core: Arc<Mutex<SequencerCore>>,
mempool_handle: MemPoolHandle<EncodedTransaction>,
) -> io::Result<actix_web::dev::Server> {
let RpcConfig {
addr,
cors_allowed_origins,
polling_config,
limits_config,
} = config;
info!(target:NETWORK, "Starting http server at {addr}");
let handler = web::Data::new(JsonHandler {
polling_config,
sequencer_state: seuquencer_core.clone(),
mempool_handle,
});
// HTTP server

193
sequencer_rpc/src/process.rs
View File

@ -3,8 +3,9 @@ use std::collections::HashMap;
use actix_web::Error as HttpError;
use base58::FromBase58;
use base64::{Engine, engine::general_purpose};
use log::warn;
use nssa::{self, program::Program};
use sequencer_core::config::AccountInitialData;
use sequencer_core::{TransactionMalformationError, config::AccountInitialData};
use serde_json::Value;
use common::{
@ -22,7 +23,7 @@ use common::{
GetTransactionByHashRequest, GetTransactionByHashResponse,
},
},
transaction::EncodedTransaction,
transaction::{EncodedTransaction, NSSATransaction},
};
use common::rpc_primitives::requests::{
@ -67,16 +68,16 @@ impl JsonHandler {
}
}
/// Example of request processing
#[allow(clippy::unused_async)]
///Example of request processing
async fn process_temp_hello(&self, request: Request) -> Result<Value, RpcErr> {
let _hello_request = HelloRequest::parse(Some(request.params))?;
let helperstruct = HelloResponse {
let response = HelloResponse {
greeting: HELLO_FROM_SEQUENCER.to_string(),
};
respond(helperstruct)
respond(response)
}
async fn process_send_tx(&self, request: Request) -> Result<Value, RpcErr> {
@ -84,18 +85,24 @@ impl JsonHandler {
let tx = borsh::from_slice::<EncodedTransaction>(&send_tx_req.transaction).unwrap();
let tx_hash = hex::encode(tx.hash());
{
let mut state = self.sequencer_state.lock().await;
let transaction = NSSATransaction::try_from(&tx)
.map_err(|_| TransactionMalformationError::FailedToDecode { tx: tx.hash() })?;
state.push_tx_into_mempool_pre_check(tx)?;
}
let authenticated_tx = sequencer_core::transaction_pre_check(transaction)
.inspect_err(|err| warn!("Error at pre_check {err:#?}"))?;
let helperstruct = SendTxResponse {
// TODO: Do we need a timeout here? It will be usable if we have too many transactions to process
self.mempool_handle
.push(authenticated_tx.into())
.await
.expect("Mempool is closed, this is a bug");
let response = SendTxResponse {
status: TRANSACTION_SUBMITTED.to_string(),
tx_hash,
};
respond(helperstruct)
respond(response)
}
async fn process_get_block_data(&self, request: Request) -> Result<Value, RpcErr> {
@ -104,14 +111,16 @@ impl JsonHandler {
let block = {
let state = self.sequencer_state.lock().await;
state.block_store.get_block_at_id(get_block_req.block_id)?
state
.block_store()
.get_block_at_id(get_block_req.block_id)?
};
let helperstruct = GetBlockDataResponse {
let response = GetBlockDataResponse {
block: borsh::to_vec(&HashableBlockData::from(block)).unwrap(),
};
respond(helperstruct)
respond(response)
}
async fn process_get_genesis(&self, request: Request) -> Result<Value, RpcErr> {
@ -120,12 +129,12 @@ impl JsonHandler {
let genesis_id = {
let state = self.sequencer_state.lock().await;
state.block_store.genesis_id
state.block_store().genesis_id()
};
let helperstruct = GetGenesisIdResponse { genesis_id };
let response = GetGenesisIdResponse { genesis_id };
respond(helperstruct)
respond(response)
}
async fn process_get_last_block(&self, request: Request) -> Result<Value, RpcErr> {
@ -134,12 +143,12 @@ impl JsonHandler {
let last_block = {
let state = self.sequencer_state.lock().await;
state.chain_height
state.chain_height()
};
let helperstruct = GetLastBlockResponse { last_block };
let response = GetLastBlockResponse { last_block };
respond(helperstruct)
respond(response)
}
/// Returns the initial accounts for testnet
@ -151,83 +160,83 @@ impl JsonHandler {
let initial_accounts: Vec<AccountInitialData> = {
let state = self.sequencer_state.lock().await;
state.sequencer_config.initial_accounts.clone()
state.sequencer_config().initial_accounts.clone()
};
respond(initial_accounts)
}
/// Returns the balance of the account at the given address.
/// The address must be a valid hex string of the correct length.
/// Returns the balance of the account at the given account_id.
/// The account_id must be a valid hex string of the correct length.
async fn process_get_account_balance(&self, request: Request) -> Result<Value, RpcErr> {
let get_account_req = GetAccountBalanceRequest::parse(Some(request.params))?;
let address_bytes = get_account_req
.address
let account_id_bytes = get_account_req
.account_id
.from_base58()
.map_err(|_| RpcError::invalid_params("invalid base58".to_string()))?;
let address = nssa::Address::new(
address_bytes
let account_id = nssa::AccountId::new(
account_id_bytes
.try_into()
.map_err(|_| RpcError::invalid_params("invalid length".to_string()))?,
);
let balance = {
let state = self.sequencer_state.lock().await;
let account = state.state.get_account_by_address(&address);
let account = state.state().get_account_by_id(&account_id);
account.balance
};
let helperstruct = GetAccountBalanceResponse { balance };
let response = GetAccountBalanceResponse { balance };
respond(helperstruct)
respond(response)
}
/// Returns the nonces of the accounts at the given addresses.
/// Each address must be a valid hex string of the correct length.
/// Returns the nonces of the accounts at the given account_ids.
/// Each account_id must be a valid hex string of the correct length.
async fn process_get_accounts_nonces(&self, request: Request) -> Result<Value, RpcErr> {
let get_account_nonces_req = GetAccountsNoncesRequest::parse(Some(request.params))?;
let mut addresses = vec![];
for address_raw in get_account_nonces_req.addresses {
let address = address_raw
.parse::<nssa::Address>()
let mut account_ids = vec![];
for account_id_raw in get_account_nonces_req.account_ids {
let account_id = account_id_raw
.parse::<nssa::AccountId>()
.map_err(|e| RpcError::invalid_params(e.to_string()))?;
addresses.push(address);
account_ids.push(account_id);
}
let nonces = {
let state = self.sequencer_state.lock().await;
addresses
account_ids
.into_iter()
.map(|addr| state.state.get_account_by_address(&addr).nonce)
.map(|account_id| state.state().get_account_by_id(&account_id).nonce)
.collect()
};
let helperstruct = GetAccountsNoncesResponse { nonces };
let response = GetAccountsNoncesResponse { nonces };
respond(helperstruct)
respond(response)
}
/// Returns account struct for given address.
/// Address must be a valid hex string of the correct length.
/// Returns account struct for given account_id.
/// AccountId must be a valid hex string of the correct length.
async fn process_get_account(&self, request: Request) -> Result<Value, RpcErr> {
let get_account_nonces_req = GetAccountRequest::parse(Some(request.params))?;
let address = get_account_nonces_req
.address
.parse::<nssa::Address>()
let account_id = get_account_nonces_req
.account_id
.parse::<nssa::AccountId>()
.map_err(|e| RpcError::invalid_params(e.to_string()))?;
let account = {
let state = self.sequencer_state.lock().await;
state.state.get_account_by_address(&address)
state.state().get_account_by_id(&account_id)
};
let helperstruct = GetAccountResponse { account };
let response = GetAccountResponse { account };
respond(helperstruct)
respond(response)
}
/// Returns the transaction corresponding to the given hash, if it exists in the blockchain.
@ -243,15 +252,15 @@ impl JsonHandler {
let transaction = {
let state = self.sequencer_state.lock().await;
state
.block_store
.block_store()
.get_transaction_by_hash(hash)
.map(|tx| borsh::to_vec(&tx).unwrap())
};
let base64_encoded = transaction.map(|tx| general_purpose::STANDARD.encode(tx));
let helperstruct = GetTransactionByHashResponse {
let response = GetTransactionByHashResponse {
transaction: base64_encoded,
};
respond(helperstruct)
respond(response)
}
/// Returns the commitment proof, corresponding to commitment
@ -261,11 +270,11 @@ impl JsonHandler {
let membership_proof = {
let state = self.sequencer_state.lock().await;
state
.state
.state()
.get_proof_for_commitment(&get_proof_req.commitment)
};
let helperstruct = GetProofForCommitmentResponse { membership_proof };
respond(helperstruct)
let response = GetProofForCommitmentResponse { membership_proof };
respond(response)
}
async fn process_get_program_ids(&self, request: Request) -> Result<Value, RpcErr> {
@ -282,8 +291,8 @@ impl JsonHandler {
"privacy_preserving_circuit".to_string(),
nssa::PRIVACY_PRESERVING_CIRCUIT_ID,
);
let helperstruct = GetProgramIdsResponse { program_ids };
respond(helperstruct)
let response = GetProgramIdsResponse { program_ids };
respond(response)
}
pub async fn process_request_internal(&self, request: Request) -> Result<Value, RpcErr> {
@ -312,10 +321,7 @@ mod tests {
use crate::{JsonHandler, rpc_handler};
use base58::ToBase58;
use base64::{Engine, engine::general_purpose};
use common::{
rpc_primitives::RpcPollingConfig, test_utils::sequencer_sign_key_for_testing,
transaction::EncodedTransaction,
};
use common::{test_utils::sequencer_sign_key_for_testing, transaction::EncodedTransaction};
use sequencer_core::{
SequencerCore,
@ -328,23 +334,23 @@ mod tests {
fn sequencer_config_for_tests() -> SequencerConfig {
let tempdir = tempdir().unwrap();
let home = tempdir.path().to_path_buf();
let acc1_addr: Vec<u8> = vec![
let acc1_id: Vec<u8> = vec![
208, 122, 210, 232, 75, 39, 250, 0, 194, 98, 240, 161, 238, 160, 255, 53, 202, 9, 115,
84, 126, 106, 16, 111, 114, 241, 147, 194, 220, 131, 139, 68,
];
let acc2_addr: Vec<u8> = vec![
let acc2_id: Vec<u8> = vec![
231, 174, 119, 197, 239, 26, 5, 153, 147, 68, 175, 73, 159, 199, 138, 23, 5, 57, 141,
98, 237, 6, 207, 46, 20, 121, 246, 222, 248, 154, 57, 188,
];
let initial_acc1 = AccountInitialData {
addr: acc1_addr.to_base58(),
account_id: acc1_id.to_base58(),
balance: 10000,
};
let initial_acc2 = AccountInitialData {
addr: acc2_addr.to_base58(),
account_id: acc2_id.to_base58(),
balance: 20000,
};
@ -365,10 +371,10 @@ mod tests {
}
}
fn components_for_tests() -> (JsonHandler, Vec<AccountInitialData>, EncodedTransaction) {
async fn components_for_tests() -> (JsonHandler, Vec<AccountInitialData>, EncodedTransaction) {
let config = sequencer_config_for_tests();
let mut sequencer_core = SequencerCore::start_from_config(config);
let initial_accounts = sequencer_core.sequencer_config.initial_accounts.clone();
let (mut sequencer_core, mempool_handle) = SequencerCore::start_from_config(config);
let initial_accounts = sequencer_core.sequencer_config().initial_accounts.clone();
let signing_key = nssa::PrivateKey::try_new([1; 32]).unwrap();
let balance_to_move = 10;
@ -383,9 +389,10 @@ mod tests {
signing_key,
);
sequencer_core
.push_tx_into_mempool_pre_check(tx.clone())
.unwrap();
mempool_handle
.push(tx.clone())
.await
.expect("Mempool is closed, this is a bug");
sequencer_core
.produce_new_block_with_mempool_transactions()
@ -395,8 +402,8 @@ mod tests {
(
JsonHandler {
polling_config: RpcPollingConfig::default(),
sequencer_state: sequencer_core,
mempool_handle,
},
initial_accounts,
tx,
@ -426,11 +433,11 @@ mod tests {
#[actix_web::test]
async fn test_get_account_balance_for_non_existent_account() {
let (json_handler, _, _) = components_for_tests();
let (json_handler, _, _) = components_for_tests().await;
let request = serde_json::json!({
"jsonrpc": "2.0",
"method": "get_account_balance",
"params": { "address": "11".repeat(16) },
"params": { "account_id": "11".repeat(16) },
"id": 1
});
let expected_response = serde_json::json!({
@ -448,11 +455,11 @@ mod tests {
#[actix_web::test]
async fn test_get_account_balance_for_invalid_base58() {
let (json_handler, _, _) = components_for_tests();
let (json_handler, _, _) = components_for_tests().await;
let request = serde_json::json!({
"jsonrpc": "2.0",
"method": "get_account_balance",
"params": { "address": "not_a_valid_base58" },
"params": { "account_id": "not_a_valid_base58" },
"id": 1
});
let expected_response = serde_json::json!({
@ -471,11 +478,11 @@ mod tests {
#[actix_web::test]
async fn test_get_account_balance_for_invalid_length() {
let (json_handler, _, _) = components_for_tests();
let (json_handler, _, _) = components_for_tests().await;
let request = serde_json::json!({
"jsonrpc": "2.0",
"method": "get_account_balance",
"params": { "address": "cafecafe" },
"params": { "account_id": "cafecafe" },
"id": 1
});
let expected_response = serde_json::json!({
@ -494,14 +501,14 @@ mod tests {
#[actix_web::test]
async fn test_get_account_balance_for_existing_account() {
let (json_handler, initial_accounts, _) = components_for_tests();
let (json_handler, initial_accounts, _) = components_for_tests().await;
let acc1_addr = initial_accounts[0].addr.clone();
let acc1_id = initial_accounts[0].account_id.clone();
let request = serde_json::json!({
"jsonrpc": "2.0",
"method": "get_account_balance",
"params": { "address": acc1_addr },
"params": { "account_id": acc1_id },
"id": 1
});
let expected_response = serde_json::json!({
@ -519,11 +526,11 @@ mod tests {
#[actix_web::test]
async fn test_get_accounts_nonces_for_non_existent_account() {
let (json_handler, _, _) = components_for_tests();
let (json_handler, _, _) = components_for_tests().await;
let request = serde_json::json!({
"jsonrpc": "2.0",
"method": "get_accounts_nonces",
"params": { "addresses": ["11".repeat(16)] },
"params": { "account_ids": ["11".repeat(16)] },
"id": 1
});
let expected_response = serde_json::json!({
@ -541,15 +548,15 @@ mod tests {
#[actix_web::test]
async fn test_get_accounts_nonces_for_existent_account() {
let (json_handler, initial_accounts, _) = components_for_tests();
let (json_handler, initial_accounts, _) = components_for_tests().await;
let acc_1_addr = initial_accounts[0].addr.clone();
let acc_2_addr = initial_accounts[1].addr.clone();
let acc1_id = initial_accounts[0].account_id.clone();
let acc2_id = initial_accounts[1].account_id.clone();
let request = serde_json::json!({
"jsonrpc": "2.0",
"method": "get_accounts_nonces",
"params": { "addresses": [acc_1_addr, acc_2_addr] },
"params": { "account_ids": [acc1_id, acc2_id] },
"id": 1
});
let expected_response = serde_json::json!({
@ -567,11 +574,11 @@ mod tests {
#[actix_web::test]
async fn test_get_account_data_for_non_existent_account() {
let (json_handler, _, _) = components_for_tests();
let (json_handler, _, _) = components_for_tests().await;
let request = serde_json::json!({
"jsonrpc": "2.0",
"method": "get_account",
"params": { "address": "11".repeat(16) },
"params": { "account_id": "11".repeat(16) },
"id": 1
});
let expected_response = serde_json::json!({
@ -594,7 +601,7 @@ mod tests {
#[actix_web::test]
async fn test_get_transaction_by_hash_for_non_existent_hash() {
let (json_handler, _, _) = components_for_tests();
let (json_handler, _, _) = components_for_tests().await;
let request = serde_json::json!({
"jsonrpc": "2.0",
"method": "get_transaction_by_hash",
@ -616,7 +623,7 @@ mod tests {
#[actix_web::test]
async fn test_get_transaction_by_hash_for_invalid_hex() {
let (json_handler, _, _) = components_for_tests();
let (json_handler, _, _) = components_for_tests().await;
let request = serde_json::json!({
"jsonrpc": "2.0",
"method": "get_transaction_by_hash",
@ -640,7 +647,7 @@ mod tests {
#[actix_web::test]
async fn test_get_transaction_by_hash_for_invalid_length() {
let (json_handler, _, _) = components_for_tests();
let (json_handler, _, _) = components_for_tests().await;
let request = serde_json::json!({
"jsonrpc": "2.0",
"method": "get_transaction_by_hash",
@ -664,7 +671,7 @@ mod tests {
#[actix_web::test]
async fn test_get_transaction_by_hash_for_existing_transaction() {
let (json_handler, _, tx) = components_for_tests();
let (json_handler, _, tx) = components_for_tests().await;
let tx_hash_hex = hex::encode(tx.hash());
let expected_base64_encoded = general_purpose::STANDARD.encode(borsh::to_vec(&tx).unwrap());

4
sequencer_runner/configs/debug/sequencer_config.json
View File

@ -9,11 +9,11 @@
"port": 3040,
"initial_accounts": [
{
"addr": "BLgCRDXYdQPMMWVHYRFGQZbgeHx9frkipa8GtpG2Syqy",
"account_id": "BLgCRDXYdQPMMWVHYRFGQZbgeHx9frkipa8GtpG2Syqy",
"balance": 10000
},
{
"addr": "Gj1mJy5W7J5pfmLRujmQaLfLMWidNxQ6uwnhb666ZwHw",
"account_id": "Gj1mJy5W7J5pfmLRujmQaLfLMWidNxQ6uwnhb666ZwHw",
"balance": 20000
}
],

8
sequencer_runner/src/lib.rs
View File

@ -26,13 +26,17 @@ pub async fn startup_sequencer(
let block_timeout = app_config.block_create_timeout_millis;
let port = app_config.port;
let sequencer_core = SequencerCore::start_from_config(app_config);
let (sequencer_core, mempool_handle) = SequencerCore::start_from_config(app_config);
info!("Sequencer core set up");
let seq_core_wrapped = Arc::new(Mutex::new(sequencer_core));
let http_server = new_http_server(RpcConfig::with_port(port), seq_core_wrapped.clone())?;
let http_server = new_http_server(
RpcConfig::with_port(port),
Arc::clone(&seq_core_wrapped),
mempool_handle,
)?;
info!("HTTP server started");
let http_server_handle = http_server.handle();
tokio::spawn(http_server);

1
sequencer_runner/src/main.rs
View File

@ -4,6 +4,7 @@ use sequencer_runner::main_runner;
pub const NUM_THREADS: usize = 4;
// TODO: Why it requires config as a directory and not as a file?
fn main() -> Result<()> {
actix::System::with_tokio_rt(|| {
tokio::runtime::Builder::new_multi_thread()

22
wallet/src/chain_storage/mod.rs
View File

@ -19,7 +19,7 @@ impl WalletChainStore {
for init_acc_data in config.initial_accounts.clone() {
match init_acc_data {
InitialAccountData::Public(data) => {
public_init_acc_map.insert(data.address.parse()?, data.pub_sign_key);
public_init_acc_map.insert(data.account_id.parse()?, data.pub_sign_key);
}
InitialAccountData::Private(data) => {
let mut account = data.account;
@ -27,7 +27,8 @@ impl WalletChainStore {
// the config. Therefore we overwrite it here on startup. Fix this when program
// id can be fetched from the node and queried from the wallet.
account.program_owner = Program::authenticated_transfer_program().id();
private_init_acc_map.insert(data.address.parse()?, (data.key_chain, account));
private_init_acc_map
.insert(data.account_id.parse()?, (data.key_chain, account));
}
}
}
@ -40,13 +41,16 @@ impl WalletChainStore {
pub fn insert_private_account_data(
&mut self,
addr: nssa::Address,
account_id: nssa::AccountId,
account: nssa_core::account::Account,
) {
println!("inserting at addres {}, this account {:?}", addr, account);
println!(
"inserting at addres {}, this account {:?}",
account_id, account
);
self.user_data
.user_private_accounts
.entry(addr)
.entry(account_id)
.and_modify(|(_, acc)| *acc = account);
}
@ -55,12 +59,12 @@ impl WalletChainStore {
PersistentAccountData::Public(acc_data) => {
self.user_data
.pub_account_signing_keys
.insert(acc_data.address, acc_data.pub_sign_key);
.insert(acc_data.account_id, acc_data.pub_sign_key);
}
PersistentAccountData::Private(acc_data) => {
self.user_data
.user_private_accounts
.insert(acc_data.address, (acc_data.key_chain, acc_data.account));
.insert(acc_data.account_id, (acc_data.key_chain, acc_data.account));
}
}
}
@ -76,7 +80,7 @@ mod tests {
let initial_acc1 = serde_json::from_str(
r#"{
"Public": {
"address": "BLgCRDXYdQPMMWVHYRFGQZbgeHx9frkipa8GtpG2Syqy",
"account_id": "BLgCRDXYdQPMMWVHYRFGQZbgeHx9frkipa8GtpG2Syqy",
"pub_sign_key": [
16,
162,
@ -119,7 +123,7 @@ mod tests {
let initial_acc2 = serde_json::from_str(
r#"{
"Public": {
"address": "Gj1mJy5W7J5pfmLRujmQaLfLMWidNxQ6uwnhb666ZwHw",
"account_id": "Gj1mJy5W7J5pfmLRujmQaLfLMWidNxQ6uwnhb666ZwHw",
"pub_sign_key": [
113,
121,

46
wallet/src/cli/account.rs
View File

@ -1,13 +1,13 @@
use anyhow::Result;
use base58::ToBase58;
use clap::Subcommand;
use nssa::{Account, Address, program::Program};
use nssa::{Account, AccountId, program::Program};
use serde::Serialize;
use crate::{
SubcommandReturnValue, WalletCore,
cli::WalletSubcommand,
helperfunctions::{AddressPrivacyKind, HumanReadableAccount, parse_addr_with_privacy_prefix},
helperfunctions::{AccountPrivacyKind, HumanReadableAccount, parse_addr_with_privacy_prefix},
parse_block_range,
};
@ -27,7 +27,7 @@ struct TokenDefinition {
struct TokenHolding {
#[allow(unused)]
account_type: u8,
definition_id: Address,
definition_id: AccountId,
balance: u128,
}
@ -55,7 +55,7 @@ impl TokenHolding {
None
} else {
let account_type = data[0];
let definition_id = Address::new(data[1..33].try_into().unwrap());
let definition_id = AccountId::new(data[1..33].try_into().unwrap());
let balance = u128::from_le_bytes(data[33..].try_into().unwrap());
Some(Self {
definition_id,
@ -76,9 +76,9 @@ pub enum AccountSubcommand {
raw: bool,
///Valid 32 byte base58 string with privacy prefix
#[arg(short, long)]
addr: String,
account_id: String,
},
///Produce new public or private account
///Produce new public or private account
#[command(subcommand)]
New(NewSubcommand),
///Sync private accounts
@ -101,28 +101,28 @@ impl WalletSubcommand for NewSubcommand {
) -> Result<SubcommandReturnValue> {
match self {
NewSubcommand::Public {} => {
let addr = wallet_core.create_new_account_public();
let account_id = wallet_core.create_new_account_public();
println!("Generated new account with addr Public/{addr}");
println!("Generated new account with account_id Public/{account_id}");
let path = wallet_core.store_persistent_data().await?;
println!("Stored persistent accounts at {path:#?}");
Ok(SubcommandReturnValue::RegisterAccount { addr })
Ok(SubcommandReturnValue::RegisterAccount { account_id })
}
NewSubcommand::Private {} => {
let addr = wallet_core.create_new_account_private();
let account_id = wallet_core.create_new_account_private();
let (key, _) = wallet_core
.storage
.user_data
.get_private_account(&addr)
.get_private_account(&account_id)
.unwrap();
println!(
"Generated new account with addr Private/{}",
addr.to_bytes().to_base58()
"Generated new account with account_id Private/{}",
account_id.to_bytes().to_base58()
);
println!("With npk {}", hex::encode(key.nullifer_public_key.0));
println!(
@ -134,7 +134,7 @@ impl WalletSubcommand for NewSubcommand {
println!("Stored persistent accounts at {path:#?}");
Ok(SubcommandReturnValue::RegisterAccount { addr })
Ok(SubcommandReturnValue::RegisterAccount { account_id })
}
}
}
@ -193,15 +193,17 @@ impl WalletSubcommand for AccountSubcommand {
wallet_core: &mut WalletCore,
) -> Result<SubcommandReturnValue> {
match self {
AccountSubcommand::Get { raw, addr } => {
let (addr, addr_kind) = parse_addr_with_privacy_prefix(&addr)?;
AccountSubcommand::Get { raw, account_id } => {
let (account_id, addr_kind) = parse_addr_with_privacy_prefix(&account_id)?;
let addr = addr.parse()?;
let account_id = account_id.parse()?;
let account = match addr_kind {
AddressPrivacyKind::Public => wallet_core.get_account_public(addr).await?,
AddressPrivacyKind::Private => wallet_core
.get_account_private(&addr)
AccountPrivacyKind::Public => {
wallet_core.get_account_public(account_id).await?
}
AccountPrivacyKind::Private => wallet_core
.get_account_private(&account_id)
.ok_or(anyhow::anyhow!("Private account not found in storage"))?,
};
@ -243,7 +245,9 @@ impl WalletSubcommand for AccountSubcommand {
serde_json::to_string(&acc_view)?
} else {
anyhow::bail!("Invalid data for account {addr:#?} with token program");
anyhow::bail!(
"Invalid data for account {account_id:#?} with token program"
);
}
}
_ => {

2
wallet/src/cli/config.rs
View File

@ -115,7 +115,7 @@ impl WalletSubcommand for ConfigSubcommand {
println!("Value of variable RUST_LOG to override, affects logging");
}
"sequencer_addr" => {
println!("HTTP V4 address of sequencer");
println!("HTTP V4 account_id of sequencer");
}
"seq_poll_timeout_millis" => {
println!(

64
wallet/src/cli/native_token_transfer_program.rs
View File

@ -1,12 +1,12 @@
use anyhow::Result;
use clap::Subcommand;
use common::transaction::NSSATransaction;
use nssa::Address;
use nssa::AccountId;
use crate::{
SubcommandReturnValue, WalletCore,
cli::WalletSubcommand,
helperfunctions::{AddressPrivacyKind, parse_addr_with_privacy_prefix},
helperfunctions::{AccountPrivacyKind, parse_addr_with_privacy_prefix},
};
///Represents generic CLI subcommand for a wallet working with native token transfer program
@ -14,9 +14,9 @@ use crate::{
pub enum AuthTransferSubcommand {
///Initialize account under authenticated transfer program
Init {
///addr - valid 32 byte base58 string with privacy prefix
///account_id - valid 32 byte base58 string with privacy prefix
#[arg(long)]
addr: String,
account_id: String,
},
///Send native tokens from one account to another with variable privacy
///
@ -48,15 +48,15 @@ impl WalletSubcommand for AuthTransferSubcommand {
wallet_core: &mut WalletCore,
) -> Result<SubcommandReturnValue> {
match self {
AuthTransferSubcommand::Init { addr } => {
let (addr, addr_privacy) = parse_addr_with_privacy_prefix(&addr)?;
AuthTransferSubcommand::Init { account_id } => {
let (account_id, addr_privacy) = parse_addr_with_privacy_prefix(&account_id)?;
match addr_privacy {
AddressPrivacyKind::Public => {
let addr = addr.parse()?;
AccountPrivacyKind::Public => {
let account_id = account_id.parse()?;
let res = wallet_core
.register_account_under_authenticated_transfers_programs(addr)
.register_account_under_authenticated_transfers_programs(account_id)
.await?;
println!("Results of tx send is {res:#?}");
@ -70,11 +70,13 @@ impl WalletSubcommand for AuthTransferSubcommand {
println!("Stored persistent accounts at {path:#?}");
}
AddressPrivacyKind::Private => {
let addr = addr.parse()?;
AccountPrivacyKind::Private => {
let account_id = account_id.parse()?;
let (res, [secret]) = wallet_core
.register_account_under_authenticated_transfers_programs_private(addr)
.register_account_under_authenticated_transfers_programs_private(
account_id,
)
.await?;
println!("Results of tx send is {res:#?}");
@ -85,7 +87,7 @@ impl WalletSubcommand for AuthTransferSubcommand {
.await?;
if let NSSATransaction::PrivacyPreserving(tx) = transfer_tx {
let acc_decode_data = vec![(secret, addr)];
let acc_decode_data = vec![(secret, account_id)];
wallet_core.decode_insert_privacy_preserving_transaction_results(
tx,
@ -111,12 +113,12 @@ impl WalletSubcommand for AuthTransferSubcommand {
let underlying_subcommand = match (to, to_npk, to_ipk) {
(None, None, None) => {
anyhow::bail!(
"Provide either account address of receiver or their public keys"
"Provide either account account_id of receiver or their public keys"
);
}
(Some(_), Some(_), Some(_)) => {
anyhow::bail!(
"Provide only one variant: either account address of receiver or their public keys"
"Provide only one variant: either account account_id of receiver or their public keys"
);
}
(_, Some(_), None) | (_, None, Some(_)) => {
@ -127,10 +129,10 @@ impl WalletSubcommand for AuthTransferSubcommand {
let (to, to_privacy) = parse_addr_with_privacy_prefix(&to)?;
match (from_privacy, to_privacy) {
(AddressPrivacyKind::Public, AddressPrivacyKind::Public) => {
(AccountPrivacyKind::Public, AccountPrivacyKind::Public) => {
NativeTokenTransferProgramSubcommand::Public { from, to, amount }
}
(AddressPrivacyKind::Private, AddressPrivacyKind::Private) => {
(AccountPrivacyKind::Private, AccountPrivacyKind::Private) => {
NativeTokenTransferProgramSubcommand::Private(
NativeTokenTransferProgramSubcommandPrivate::PrivateOwned {
from,
@ -139,14 +141,14 @@ impl WalletSubcommand for AuthTransferSubcommand {
},
)
}
(AddressPrivacyKind::Private, AddressPrivacyKind::Public) => {
(AccountPrivacyKind::Private, AccountPrivacyKind::Public) => {
NativeTokenTransferProgramSubcommand::Deshielded {
from,
to,
amount,
}
}
(AddressPrivacyKind::Public, AddressPrivacyKind::Private) => {
(AccountPrivacyKind::Public, AccountPrivacyKind::Private) => {
NativeTokenTransferProgramSubcommand::Shielded(
NativeTokenTransferProgramSubcommandShielded::ShieldedOwned {
from,
@ -161,7 +163,7 @@ impl WalletSubcommand for AuthTransferSubcommand {
let (from, from_privacy) = parse_addr_with_privacy_prefix(&from)?;
match from_privacy {
AddressPrivacyKind::Private => {
AccountPrivacyKind::Private => {
NativeTokenTransferProgramSubcommand::Private(
NativeTokenTransferProgramSubcommandPrivate::PrivateForeign {
from,
@ -171,7 +173,7 @@ impl WalletSubcommand for AuthTransferSubcommand {
},
)
}
AddressPrivacyKind::Public => {
AccountPrivacyKind::Public => {
NativeTokenTransferProgramSubcommand::Shielded(
NativeTokenTransferProgramSubcommandShielded::ShieldedForeign {
from,
@ -309,8 +311,8 @@ impl WalletSubcommand for NativeTokenTransferProgramSubcommandPrivate {
) -> Result<SubcommandReturnValue> {
match self {
NativeTokenTransferProgramSubcommandPrivate::PrivateOwned { from, to, amount } => {
let from: Address = from.parse().unwrap();
let to: Address = to.parse().unwrap();
let from: AccountId = from.parse().unwrap();
let to: AccountId = to.parse().unwrap();
let to_initialization = wallet_core.check_private_account_initialized(&to).await?;
@ -356,7 +358,7 @@ impl WalletSubcommand for NativeTokenTransferProgramSubcommandPrivate {
to_ipk,
amount,
} => {
let from: Address = from.parse().unwrap();
let from: AccountId = from.parse().unwrap();
let to_npk_res = hex::decode(to_npk)?;
let mut to_npk = [0; 32];
to_npk.copy_from_slice(&to_npk_res);
@ -405,8 +407,8 @@ impl WalletSubcommand for NativeTokenTransferProgramSubcommandShielded {
) -> Result<SubcommandReturnValue> {
match self {
NativeTokenTransferProgramSubcommandShielded::ShieldedOwned { from, to, amount } => {
let from: Address = from.parse().unwrap();
let to: Address = to.parse().unwrap();
let from: AccountId = from.parse().unwrap();
let to: AccountId = to.parse().unwrap();
let to_initialization = wallet_core.check_private_account_initialized(&to).await?;
@ -450,7 +452,7 @@ impl WalletSubcommand for NativeTokenTransferProgramSubcommandShielded {
to_ipk,
amount,
} => {
let from: Address = from.parse().unwrap();
let from: AccountId = from.parse().unwrap();
let to_npk_res = hex::decode(to_npk)?;
let mut to_npk = [0; 32];
@ -494,8 +496,8 @@ impl WalletSubcommand for NativeTokenTransferProgramSubcommand {
shielded_subcommand.handle_subcommand(wallet_core).await
}
NativeTokenTransferProgramSubcommand::Deshielded { from, to, amount } => {
let from: Address = from.parse().unwrap();
let to: Address = to.parse().unwrap();
let from: AccountId = from.parse().unwrap();
let to: AccountId = to.parse().unwrap();
let (res, [secret]) = wallet_core
.send_deshielded_native_token_transfer(from, to, amount)
@ -524,8 +526,8 @@ impl WalletSubcommand for NativeTokenTransferProgramSubcommand {
Ok(SubcommandReturnValue::PrivacyPreservingTransfer { tx_hash })
}
NativeTokenTransferProgramSubcommand::Public { from, to, amount } => {
let from: Address = from.parse().unwrap();
let to: Address = to.parse().unwrap();
let from: AccountId = from.parse().unwrap();
let to: AccountId = to.parse().unwrap();
let res = wallet_core
.send_public_native_token_transfer(from, to, amount)

70
wallet/src/cli/pinata_program.rs
View File

@ -6,7 +6,7 @@ use log::info;
use crate::{
SubcommandReturnValue, WalletCore,
cli::WalletSubcommand,
helperfunctions::{AddressPrivacyKind, parse_addr_with_privacy_prefix},
helperfunctions::{AccountPrivacyKind, parse_addr_with_privacy_prefix},
};
///Represents generic CLI subcommand for a wallet working with pinata program
@ -14,9 +14,9 @@ use crate::{
pub enum PinataProgramAgnosticSubcommand {
///Claim pinata
Claim {
///to_addr - valid 32 byte base58 string with privacy prefix
///to_account_id - valid 32 byte base58 string with privacy prefix
#[arg(long)]
to_addr: String,
to_account_id: String,
///solution - solution to pinata challenge
#[arg(long)]
solution: u128,
@ -29,21 +29,25 @@ impl WalletSubcommand for PinataProgramAgnosticSubcommand {
wallet_core: &mut WalletCore,
) -> Result<SubcommandReturnValue> {
let underlying_subcommand = match self {
PinataProgramAgnosticSubcommand::Claim { to_addr, solution } => {
let (to_addr, to_addr_privacy) = parse_addr_with_privacy_prefix(&to_addr)?;
PinataProgramAgnosticSubcommand::Claim {
to_account_id,
solution,
} => {
let (to_account_id, to_addr_privacy) =
parse_addr_with_privacy_prefix(&to_account_id)?;
match to_addr_privacy {
AddressPrivacyKind::Public => {
AccountPrivacyKind::Public => {
PinataProgramSubcommand::Public(PinataProgramSubcommandPublic::Claim {
pinata_addr: PINATA_BASE58.to_string(),
winner_addr: to_addr,
pinata_account_id: PINATA_BASE58.to_string(),
winner_account_id: to_account_id,
solution,
})
}
AddressPrivacyKind::Private => PinataProgramSubcommand::Private(
AccountPrivacyKind::Private => PinataProgramSubcommand::Private(
PinataProgramSubcommandPrivate::ClaimPrivateOwned {
pinata_addr: PINATA_BASE58.to_string(),
winner_addr: to_addr,
pinata_account_id: PINATA_BASE58.to_string(),
winner_account_id: to_account_id,
solution,
},
),
@ -72,12 +76,12 @@ pub enum PinataProgramSubcommandPublic {
// TODO: Testnet only. Refactor to prevent compilation on mainnet.
// Claim piñata prize
Claim {
///pinata_addr - valid 32 byte hex string
///pinata_account_id - valid 32 byte hex string
#[arg(long)]
pinata_addr: String,
///winner_addr - valid 32 byte hex string
pinata_account_id: String,
///winner_account_id - valid 32 byte hex string
#[arg(long)]
winner_addr: String,
winner_account_id: String,
///solution - solution to pinata challenge
#[arg(long)]
solution: u128,
@ -90,12 +94,12 @@ pub enum PinataProgramSubcommandPrivate {
// TODO: Testnet only. Refactor to prevent compilation on mainnet.
// Claim piñata prize
ClaimPrivateOwned {
///pinata_addr - valid 32 byte hex string
///pinata_account_id - valid 32 byte hex string
#[arg(long)]
pinata_addr: String,
///winner_addr - valid 32 byte hex string
pinata_account_id: String,
///winner_account_id - valid 32 byte hex string
#[arg(long)]
winner_addr: String,
winner_account_id: String,
///solution - solution to pinata challenge
#[arg(long)]
solution: u128,
@ -109,14 +113,14 @@ impl WalletSubcommand for PinataProgramSubcommandPublic {
) -> Result<SubcommandReturnValue> {
match self {
PinataProgramSubcommandPublic::Claim {
pinata_addr,
winner_addr,
pinata_account_id,
winner_account_id,
solution,
} => {
let res = wallet_core
.claim_pinata(
pinata_addr.parse().unwrap(),
winner_addr.parse().unwrap(),
pinata_account_id.parse().unwrap(),
winner_account_id.parse().unwrap(),
solution,
)
.await?;
@ -135,22 +139,22 @@ impl WalletSubcommand for PinataProgramSubcommandPrivate {
) -> Result<SubcommandReturnValue> {
match self {
PinataProgramSubcommandPrivate::ClaimPrivateOwned {
pinata_addr,
winner_addr,
pinata_account_id,
winner_account_id,
solution,
} => {
let pinata_addr = pinata_addr.parse().unwrap();
let winner_addr = winner_addr.parse().unwrap();
let pinata_account_id = pinata_account_id.parse().unwrap();
let winner_account_id = winner_account_id.parse().unwrap();
let winner_initialization = wallet_core
.check_private_account_initialized(&winner_addr)
.check_private_account_initialized(&winner_account_id)
.await?;
let (res, [secret_winner]) = if let Some(winner_proof) = winner_initialization {
wallet_core
.claim_pinata_private_owned_account_already_initialized(
pinata_addr,
winner_addr,
pinata_account_id,
winner_account_id,
solution,
winner_proof,
)
@ -158,8 +162,8 @@ impl WalletSubcommand for PinataProgramSubcommandPrivate {
} else {
wallet_core
.claim_pinata_private_owned_account_not_initialized(
pinata_addr,
winner_addr,
pinata_account_id,
winner_account_id,
solution,
)
.await?
@ -173,7 +177,7 @@ impl WalletSubcommand for PinataProgramSubcommandPrivate {
.await?;
if let NSSATransaction::PrivacyPreserving(tx) = transfer_tx {
let acc_decode_data = vec![(secret_winner, winner_addr)];
let acc_decode_data = vec![(secret_winner, winner_account_id)];
wallet_core.decode_insert_privacy_preserving_transaction_results(
tx,

204
wallet/src/cli/token_program.rs
View File

@ -1,12 +1,12 @@
use anyhow::Result;
use clap::Subcommand;
use common::transaction::NSSATransaction;
use nssa::Address;
use nssa::AccountId;
use crate::{
SubcommandReturnValue, WalletCore,
cli::WalletSubcommand,
helperfunctions::{AddressPrivacyKind, parse_addr_with_privacy_prefix},
helperfunctions::{AccountPrivacyKind, parse_addr_with_privacy_prefix},
};
///Represents generic CLI subcommand for a wallet working with token program
@ -16,12 +16,12 @@ pub enum TokenProgramAgnosticSubcommand {
///
///Currently the only supported privacy options is for public definition
New {
///definition_addr - valid 32 byte base58 string with privacy prefix
///definition_account_id - valid 32 byte base58 string with privacy prefix
#[arg(long)]
definition_addr: String,
///supply_addr - valid 32 byte base58 string with privacy prefix
definition_account_id: String,
///supply_account_id - valid 32 byte base58 string with privacy prefix
#[arg(long)]
supply_addr: String,
supply_account_id: String,
#[arg(short, long)]
name: String,
#[arg(short, long)]
@ -58,42 +58,42 @@ impl WalletSubcommand for TokenProgramAgnosticSubcommand {
) -> Result<SubcommandReturnValue> {
match self {
TokenProgramAgnosticSubcommand::New {
definition_addr,
supply_addr,
definition_account_id,
supply_account_id,
name,
total_supply,
} => {
let (definition_addr, definition_addr_privacy) =
parse_addr_with_privacy_prefix(&definition_addr)?;
let (supply_addr, supply_addr_privacy) =
parse_addr_with_privacy_prefix(&supply_addr)?;
let (definition_account_id, definition_addr_privacy) =
parse_addr_with_privacy_prefix(&definition_account_id)?;
let (supply_account_id, supply_addr_privacy) =
parse_addr_with_privacy_prefix(&supply_account_id)?;
let underlying_subcommand = match (definition_addr_privacy, supply_addr_privacy) {
(AddressPrivacyKind::Public, AddressPrivacyKind::Public) => {
(AccountPrivacyKind::Public, AccountPrivacyKind::Public) => {
TokenProgramSubcommand::Public(
TokenProgramSubcommandPublic::CreateNewToken {
definition_addr,
supply_addr,
definition_account_id,
supply_account_id,
name,
total_supply,
},
)
}
(AddressPrivacyKind::Public, AddressPrivacyKind::Private) => {
(AccountPrivacyKind::Public, AccountPrivacyKind::Private) => {
TokenProgramSubcommand::Private(
TokenProgramSubcommandPrivate::CreateNewTokenPrivateOwned {
definition_addr,
supply_addr,
definition_account_id,
supply_account_id,
name,
total_supply,
},
)
}
(AddressPrivacyKind::Private, AddressPrivacyKind::Private) => {
(AccountPrivacyKind::Private, AccountPrivacyKind::Private) => {
//ToDo: maybe implement this one. It is not immediately clear why definition should be private.
anyhow::bail!("Unavailable privacy pairing")
}
(AddressPrivacyKind::Private, AddressPrivacyKind::Public) => {
(AccountPrivacyKind::Private, AccountPrivacyKind::Public) => {
//ToDo: Probably valid. If definition is not public, but supply is it is very suspicious.
anyhow::bail!("Unavailable privacy pairing")
}
@ -111,12 +111,12 @@ impl WalletSubcommand for TokenProgramAgnosticSubcommand {
let underlying_subcommand = match (to, to_npk, to_ipk) {
(None, None, None) => {
anyhow::bail!(
"Provide either account address of receiver or their public keys"
"Provide either account account_id of receiver or their public keys"
);
}
(Some(_), Some(_), Some(_)) => {
anyhow::bail!(
"Provide only one variant: either account address of receiver or their public keys"
"Provide only one variant: either account account_id of receiver or their public keys"
);
}
(_, Some(_), None) | (_, None, Some(_)) => {
@ -127,38 +127,38 @@ impl WalletSubcommand for TokenProgramAgnosticSubcommand {
let (to, to_privacy) = parse_addr_with_privacy_prefix(&to)?;
match (from_privacy, to_privacy) {
(AddressPrivacyKind::Public, AddressPrivacyKind::Public) => {
(AccountPrivacyKind::Public, AccountPrivacyKind::Public) => {
TokenProgramSubcommand::Public(
TokenProgramSubcommandPublic::TransferToken {
sender_addr: from,
recipient_addr: to,
sender_account_id: from,
recipient_account_id: to,
balance_to_move: amount,
},
)
}
(AddressPrivacyKind::Private, AddressPrivacyKind::Private) => {
(AccountPrivacyKind::Private, AccountPrivacyKind::Private) => {
TokenProgramSubcommand::Private(
TokenProgramSubcommandPrivate::TransferTokenPrivateOwned {
sender_addr: from,
recipient_addr: to,
sender_account_id: from,
recipient_account_id: to,
balance_to_move: amount,
},
)
}
(AddressPrivacyKind::Private, AddressPrivacyKind::Public) => {
(AccountPrivacyKind::Private, AccountPrivacyKind::Public) => {
TokenProgramSubcommand::Deshielded(
TokenProgramSubcommandDeshielded::TransferTokenDeshielded {
sender_addr: from,
recipient_addr: to,
sender_account_id: from,
recipient_account_id: to,
balance_to_move: amount,
},
)
}
(AddressPrivacyKind::Public, AddressPrivacyKind::Private) => {
(AccountPrivacyKind::Public, AccountPrivacyKind::Private) => {
TokenProgramSubcommand::Shielded(
TokenProgramSubcommandShielded::TransferTokenShieldedOwned {
sender_addr: from,
recipient_addr: to,
sender_account_id: from,
recipient_account_id: to,
balance_to_move: amount,
},
)
@ -169,17 +169,17 @@ impl WalletSubcommand for TokenProgramAgnosticSubcommand {
let (from, from_privacy) = parse_addr_with_privacy_prefix(&from)?;
match from_privacy {
AddressPrivacyKind::Private => TokenProgramSubcommand::Private(
AccountPrivacyKind::Private => TokenProgramSubcommand::Private(
TokenProgramSubcommandPrivate::TransferTokenPrivateForeign {
sender_addr: from,
sender_account_id: from,
recipient_npk: to_npk,
recipient_ipk: to_ipk,
balance_to_move: amount,
},
),
AddressPrivacyKind::Public => TokenProgramSubcommand::Shielded(
AccountPrivacyKind::Public => TokenProgramSubcommand::Shielded(
TokenProgramSubcommandShielded::TransferTokenShieldedForeign {
sender_addr: from,
sender_account_id: from,
recipient_npk: to_npk,
recipient_ipk: to_ipk,
balance_to_move: amount,
@ -218,9 +218,9 @@ pub enum TokenProgramSubcommandPublic {
//Create a new token using the token program
CreateNewToken {
#[arg(short, long)]
definition_addr: String,
definition_account_id: String,
#[arg(short, long)]
supply_addr: String,
supply_account_id: String,
#[arg(short, long)]
name: String,
#[arg(short, long)]
@ -229,9 +229,9 @@ pub enum TokenProgramSubcommandPublic {
//Transfer tokens using the token program
TransferToken {
#[arg(short, long)]
sender_addr: String,
sender_account_id: String,
#[arg(short, long)]
recipient_addr: String,
recipient_account_id: String,
#[arg(short, long)]
balance_to_move: u128,
},
@ -243,9 +243,9 @@ pub enum TokenProgramSubcommandPrivate {
//Create a new token using the token program
CreateNewTokenPrivateOwned {
#[arg(short, long)]
definition_addr: String,
definition_account_id: String,
#[arg(short, long)]
supply_addr: String,
supply_account_id: String,
#[arg(short, long)]
name: String,
#[arg(short, long)]
@ -254,16 +254,16 @@ pub enum TokenProgramSubcommandPrivate {
//Transfer tokens using the token program
TransferTokenPrivateOwned {
#[arg(short, long)]
sender_addr: String,
sender_account_id: String,
#[arg(short, long)]
recipient_addr: String,
recipient_account_id: String,
#[arg(short, long)]
balance_to_move: u128,
},
//Transfer tokens using the token program
TransferTokenPrivateForeign {
#[arg(short, long)]
sender_addr: String,
sender_account_id: String,
///recipient_npk - valid 32 byte hex string
#[arg(long)]
recipient_npk: String,
@ -281,9 +281,9 @@ pub enum TokenProgramSubcommandDeshielded {
//Transfer tokens using the token program
TransferTokenDeshielded {
#[arg(short, long)]
sender_addr: String,
sender_account_id: String,
#[arg(short, long)]
recipient_addr: String,
recipient_account_id: String,
#[arg(short, long)]
balance_to_move: u128,
},
@ -295,16 +295,16 @@ pub enum TokenProgramSubcommandShielded {
//Transfer tokens using the token program
TransferTokenShieldedOwned {
#[arg(short, long)]
sender_addr: String,
sender_account_id: String,
#[arg(short, long)]
recipient_addr: String,
recipient_account_id: String,
#[arg(short, long)]
balance_to_move: u128,
},
//Transfer tokens using the token program
TransferTokenShieldedForeign {
#[arg(short, long)]
sender_addr: String,
sender_account_id: String,
///recipient_npk - valid 32 byte hex string
#[arg(long)]
recipient_npk: String,
@ -323,8 +323,8 @@ impl WalletSubcommand for TokenProgramSubcommandPublic {
) -> Result<SubcommandReturnValue> {
match self {
TokenProgramSubcommandPublic::CreateNewToken {
definition_addr,
supply_addr,
definition_account_id,
supply_account_id,
name,
total_supply,
} => {
@ -337,8 +337,8 @@ impl WalletSubcommand for TokenProgramSubcommandPublic {
name_bytes[..name.len()].copy_from_slice(name);
wallet_core
.send_new_token_definition(
definition_addr.parse().unwrap(),
supply_addr.parse().unwrap(),
definition_account_id.parse().unwrap(),
supply_account_id.parse().unwrap(),
name_bytes,
total_supply,
)
@ -346,14 +346,14 @@ impl WalletSubcommand for TokenProgramSubcommandPublic {
Ok(SubcommandReturnValue::Empty)
}
TokenProgramSubcommandPublic::TransferToken {
sender_addr,
recipient_addr,
sender_account_id,
recipient_account_id,
balance_to_move,
} => {
wallet_core
.send_transfer_token_transaction(
sender_addr.parse().unwrap(),
recipient_addr.parse().unwrap(),
sender_account_id.parse().unwrap(),
recipient_account_id.parse().unwrap(),
balance_to_move,
)
.await?;
@ -370,8 +370,8 @@ impl WalletSubcommand for TokenProgramSubcommandPrivate {
) -> Result<SubcommandReturnValue> {
match self {
TokenProgramSubcommandPrivate::CreateNewTokenPrivateOwned {
definition_addr,
supply_addr,
definition_account_id,
supply_account_id,
name,
total_supply,
} => {
@ -383,13 +383,13 @@ impl WalletSubcommand for TokenProgramSubcommandPrivate {
let mut name_bytes = [0; 6];
name_bytes[..name.len()].copy_from_slice(name);
let definition_addr: Address = definition_addr.parse().unwrap();
let supply_addr: Address = supply_addr.parse().unwrap();
let definition_account_id: AccountId = definition_account_id.parse().unwrap();
let supply_account_id: AccountId = supply_account_id.parse().unwrap();
let (res, [secret_supply]) = wallet_core
.send_new_token_definition_private_owned(
definition_addr,
supply_addr,
definition_account_id,
supply_account_id,
name_bytes,
total_supply,
)
@ -403,7 +403,7 @@ impl WalletSubcommand for TokenProgramSubcommandPrivate {
.await?;
if let NSSATransaction::PrivacyPreserving(tx) = transfer_tx {
let acc_decode_data = vec![(secret_supply, supply_addr)];
let acc_decode_data = vec![(secret_supply, supply_account_id)];
wallet_core.decode_insert_privacy_preserving_transaction_results(
tx,
@ -418,23 +418,23 @@ impl WalletSubcommand for TokenProgramSubcommandPrivate {
Ok(SubcommandReturnValue::PrivacyPreservingTransfer { tx_hash })
}
TokenProgramSubcommandPrivate::TransferTokenPrivateOwned {
sender_addr,
recipient_addr,
sender_account_id,
recipient_account_id,
balance_to_move,
} => {
let sender_addr: Address = sender_addr.parse().unwrap();
let recipient_addr: Address = recipient_addr.parse().unwrap();
let sender_account_id: AccountId = sender_account_id.parse().unwrap();
let recipient_account_id: AccountId = recipient_account_id.parse().unwrap();
let recipient_initialization = wallet_core
.check_private_account_initialized(&recipient_addr)
.check_private_account_initialized(&recipient_account_id)
.await?;
let (res, [secret_sender, secret_recipient]) =
if let Some(recipient_proof) = recipient_initialization {
wallet_core
.send_transfer_token_transaction_private_owned_account_already_initialized(
sender_addr,
recipient_addr,
sender_account_id,
recipient_account_id,
balance_to_move,
recipient_proof,
)
@ -442,8 +442,8 @@ impl WalletSubcommand for TokenProgramSubcommandPrivate {
} else {
wallet_core
.send_transfer_token_transaction_private_owned_account_not_initialized(
sender_addr,
recipient_addr,
sender_account_id,
recipient_account_id,
balance_to_move,
)
.await?
@ -458,8 +458,8 @@ impl WalletSubcommand for TokenProgramSubcommandPrivate {
if let NSSATransaction::PrivacyPreserving(tx) = transfer_tx {
let acc_decode_data = vec![
(secret_sender, sender_addr),
(secret_recipient, recipient_addr),
(secret_sender, sender_account_id),
(secret_recipient, recipient_account_id),
];
wallet_core.decode_insert_privacy_preserving_transaction_results(
@ -475,12 +475,12 @@ impl WalletSubcommand for TokenProgramSubcommandPrivate {
Ok(SubcommandReturnValue::PrivacyPreservingTransfer { tx_hash })
}
TokenProgramSubcommandPrivate::TransferTokenPrivateForeign {
sender_addr,
sender_account_id,
recipient_npk,
recipient_ipk,
balance_to_move,
} => {
let sender_addr: Address = sender_addr.parse().unwrap();
let sender_account_id: AccountId = sender_account_id.parse().unwrap();
let recipient_npk_res = hex::decode(recipient_npk)?;
let mut recipient_npk = [0; 32];
recipient_npk.copy_from_slice(&recipient_npk_res);
@ -495,7 +495,7 @@ impl WalletSubcommand for TokenProgramSubcommandPrivate {
let (res, [secret_sender, _]) = wallet_core
.send_transfer_token_transaction_private_foreign_account(
sender_addr,
sender_account_id,
recipient_npk,
recipient_ipk,
balance_to_move,
@ -510,7 +510,7 @@ impl WalletSubcommand for TokenProgramSubcommandPrivate {
.await?;
if let NSSATransaction::PrivacyPreserving(tx) = transfer_tx {
let acc_decode_data = vec![(secret_sender, sender_addr)];
let acc_decode_data = vec![(secret_sender, sender_account_id)];
wallet_core.decode_insert_privacy_preserving_transaction_results(
tx,
@ -535,17 +535,17 @@ impl WalletSubcommand for TokenProgramSubcommandDeshielded {
) -> Result<SubcommandReturnValue> {
match self {
TokenProgramSubcommandDeshielded::TransferTokenDeshielded {
sender_addr,
recipient_addr,
sender_account_id,
recipient_account_id,
balance_to_move,
} => {
let sender_addr: Address = sender_addr.parse().unwrap();
let recipient_addr: Address = recipient_addr.parse().unwrap();
let sender_account_id: AccountId = sender_account_id.parse().unwrap();
let recipient_account_id: AccountId = recipient_account_id.parse().unwrap();
let (res, [secret_sender]) = wallet_core
.send_transfer_token_transaction_deshielded(
sender_addr,
recipient_addr,
sender_account_id,
recipient_account_id,
balance_to_move,
)
.await?;
@ -558,7 +558,7 @@ impl WalletSubcommand for TokenProgramSubcommandDeshielded {
.await?;
if let NSSATransaction::PrivacyPreserving(tx) = transfer_tx {
let acc_decode_data = vec![(secret_sender, sender_addr)];
let acc_decode_data = vec![(secret_sender, sender_account_id)];
wallet_core.decode_insert_privacy_preserving_transaction_results(
tx,
@ -583,12 +583,12 @@ impl WalletSubcommand for TokenProgramSubcommandShielded {
) -> Result<SubcommandReturnValue> {
match self {
TokenProgramSubcommandShielded::TransferTokenShieldedForeign {
sender_addr,
sender_account_id,
recipient_npk,
recipient_ipk,
balance_to_move,
} => {
let sender_addr: Address = sender_addr.parse().unwrap();
let sender_account_id: AccountId = sender_account_id.parse().unwrap();
let recipient_npk_res = hex::decode(recipient_npk)?;
let mut recipient_npk = [0; 32];
recipient_npk.copy_from_slice(&recipient_npk_res);
@ -603,7 +603,7 @@ impl WalletSubcommand for TokenProgramSubcommandShielded {
let res = wallet_core
.send_transfer_token_transaction_shielded_foreign_account(
sender_addr,
sender_account_id,
recipient_npk,
recipient_ipk,
balance_to_move,
@ -628,23 +628,23 @@ impl WalletSubcommand for TokenProgramSubcommandShielded {
Ok(SubcommandReturnValue::PrivacyPreservingTransfer { tx_hash })
}
TokenProgramSubcommandShielded::TransferTokenShieldedOwned {
sender_addr,
recipient_addr,
sender_account_id,
recipient_account_id,
balance_to_move,
} => {
let sender_addr: Address = sender_addr.parse().unwrap();
let recipient_addr: Address = recipient_addr.parse().unwrap();
let sender_account_id: AccountId = sender_account_id.parse().unwrap();
let recipient_account_id: AccountId = recipient_account_id.parse().unwrap();
let recipient_initialization = wallet_core
.check_private_account_initialized(&recipient_addr)
.check_private_account_initialized(&recipient_account_id)
.await?;
let (res, [secret_recipient]) =
if let Some(recipient_proof) = recipient_initialization {
wallet_core
.send_transfer_token_transaction_shielded_owned_account_already_initialized(
sender_addr,
recipient_addr,
sender_account_id,
recipient_account_id,
balance_to_move,
recipient_proof,
)
@ -652,8 +652,8 @@ impl WalletSubcommand for TokenProgramSubcommandShielded {
} else {
wallet_core
.send_transfer_token_transaction_shielded_owned_account_not_initialized(
sender_addr,
recipient_addr,
sender_account_id,
recipient_account_id,
balance_to_move,
)
.await?
@ -667,7 +667,7 @@ impl WalletSubcommand for TokenProgramSubcommandShielded {
.await?;
if let NSSATransaction::PrivacyPreserving(tx) = transfer_tx {
let acc_decode_data = vec![(secret_recipient, recipient_addr)];
let acc_decode_data = vec![(secret_recipient, recipient_account_id)];
wallet_core.decode_insert_privacy_preserving_transaction_results(
tx,

28
wallet/src/config.rs
View File

@ -3,26 +3,26 @@ use serde::{Deserialize, Serialize};
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct InitialAccountDataPublic {
pub address: String,
pub account_id: String,
pub pub_sign_key: nssa::PrivateKey,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct PersistentAccountDataPublic {
pub address: nssa::Address,
pub account_id: nssa::AccountId,
pub pub_sign_key: nssa::PrivateKey,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct InitialAccountDataPrivate {
pub address: String,
pub account_id: String,
pub account: nssa_core::account::Account,
pub key_chain: KeyChain,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct PersistentAccountDataPrivate {
pub address: nssa::Address,
pub account_id: nssa::AccountId,
pub account: nssa_core::account::Account,
pub key_chain: KeyChain,
}
@ -52,19 +52,19 @@ pub struct PersistentStorage {
}
impl InitialAccountData {
pub fn address(&self) -> nssa::Address {
pub fn account_id(&self) -> nssa::AccountId {
match &self {
Self::Public(acc) => acc.address.parse().unwrap(),
Self::Private(acc) => acc.address.parse().unwrap(),
Self::Public(acc) => acc.account_id.parse().unwrap(),
Self::Private(acc) => acc.account_id.parse().unwrap(),
}
}
}
impl PersistentAccountData {
pub fn address(&self) -> nssa::Address {
pub fn account_id(&self) -> nssa::AccountId {
match &self {
Self::Public(acc) => acc.address,
Self::Private(acc) => acc.address,
Self::Public(acc) => acc.account_id,
Self::Private(acc) => acc.account_id,
}
}
}
@ -143,7 +143,7 @@ impl Default for WalletConfig {
[
{
"Public": {
"address": "BLgCRDXYdQPMMWVHYRFGQZbgeHx9frkipa8GtpG2Syqy",
"account_id": "BLgCRDXYdQPMMWVHYRFGQZbgeHx9frkipa8GtpG2Syqy",
"pub_sign_key": [
16,
162,
@ -182,7 +182,7 @@ impl Default for WalletConfig {
},
{
"Public": {
"address": "Gj1mJy5W7J5pfmLRujmQaLfLMWidNxQ6uwnhb666ZwHw",
"account_id": "Gj1mJy5W7J5pfmLRujmQaLfLMWidNxQ6uwnhb666ZwHw",
"pub_sign_key": [
113,
121,
@ -221,7 +221,7 @@ impl Default for WalletConfig {
},
{
"Private": {
"address": "3oCG8gqdKLMegw4rRfyaMQvuPHpcASt7xwttsmnZLSkw",
"account_id": "3oCG8gqdKLMegw4rRfyaMQvuPHpcASt7xwttsmnZLSkw",
"account": {
"program_owner": [
0,
@ -450,7 +450,7 @@ impl Default for WalletConfig {
},
{
"Private": {
"address": "AKTcXgJ1xoynta1Ec7y6Jso1z1JQtHqd7aPQ1h9er6xX",
"account_id": "AKTcXgJ1xoynta1Ec7y6Jso1z1JQtHqd7aPQ1h9er6xX",
"account": {
"program_owner": [
0,

30
wallet/src/helperfunctions.rs
View File

@ -120,20 +120,20 @@ pub fn produce_data_for_storage(
) -> PersistentStorage {
let mut vec_for_storage = vec![];
for (addr, key) in &user_data.pub_account_signing_keys {
for (account_id, key) in &user_data.pub_account_signing_keys {
vec_for_storage.push(
PersistentAccountDataPublic {
address: *addr,
account_id: *account_id,
pub_sign_key: key.clone(),
}
.into(),
);
}
for (addr, (key, acc)) in &user_data.user_private_accounts {
for (account_id, (key, acc)) in &user_data.user_private_accounts {
vec_for_storage.push(
PersistentAccountDataPrivate {
address: *addr,
account_id: *account_id,
account: acc.clone(),
key_chain: key.clone(),
}
@ -154,23 +154,23 @@ pub(crate) fn produce_random_nonces(size: usize) -> Vec<Nonce> {
}
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum AddressPrivacyKind {
pub enum AccountPrivacyKind {
Public,
Private,
}
pub(crate) fn parse_addr_with_privacy_prefix(
addr_base58: &str,
) -> Result<(String, AddressPrivacyKind)> {
if addr_base58.starts_with("Public/") {
account_base58: &str,
) -> Result<(String, AccountPrivacyKind)> {
if account_base58.starts_with("Public/") {
Ok((
addr_base58.strip_prefix("Public/").unwrap().to_string(),
AddressPrivacyKind::Public,
account_base58.strip_prefix("Public/").unwrap().to_string(),
AccountPrivacyKind::Public,
))
} else if addr_base58.starts_with("Private/") {
} else if account_base58.starts_with("Private/") {
Ok((
addr_base58.strip_prefix("Private/").unwrap().to_string(),
AddressPrivacyKind::Private,
account_base58.strip_prefix("Private/").unwrap().to_string(),
AccountPrivacyKind::Private,
))
} else {
anyhow::bail!("Unsupported privacy kind, available variants is Public/ and Private/");
@ -223,12 +223,12 @@ mod tests {
let addr_base58 = "Public/BLgCRDXYdQPMMWVHYRFGQZbgeHx9frkipa8GtpG2Syqy";
let (_, addr_kind) = parse_addr_with_privacy_prefix(addr_base58).unwrap();
assert_eq!(addr_kind, AddressPrivacyKind::Public);
assert_eq!(addr_kind, AccountPrivacyKind::Public);
let addr_base58 = "Private/BLgCRDXYdQPMMWVHYRFGQZbgeHx9frkipa8GtpG2Syqy";
let (_, addr_kind) = parse_addr_with_privacy_prefix(addr_base58).unwrap();
assert_eq!(addr_kind, AddressPrivacyKind::Private);
assert_eq!(addr_kind, AccountPrivacyKind::Private);
let addr_base58 = "asdsada/BLgCRDXYdQPMMWVHYRFGQZbgeHx9frkipa8GtpG2Syqy";
assert!(parse_addr_with_privacy_prefix(addr_base58).is_err());

53
wallet/src/lib.rs
View File

@ -12,7 +12,7 @@ use chain_storage::WalletChainStore;
use config::WalletConfig;
use log::info;
use nssa::{
Account, Address, privacy_preserving_transaction::message::EncryptedAccountData,
Account, AccountId, privacy_preserving_transaction::message::EncryptedAccountData,
program::Program,
};
@ -107,20 +107,20 @@ impl WalletCore {
Ok(config_path)
}
pub fn create_new_account_public(&mut self) -> Address {
pub fn create_new_account_public(&mut self) -> AccountId {
self.storage
.user_data
.generate_new_public_transaction_private_key()
}
pub fn create_new_account_private(&mut self) -> Address {
pub fn create_new_account_private(&mut self) -> AccountId {
self.storage
.user_data
.generate_new_privacy_preserving_transaction_key_chain()
}
///Get account balance
pub async fn get_account_balance(&self, acc: Address) -> Result<u128> {
pub async fn get_account_balance(&self, acc: AccountId) -> Result<u128> {
Ok(self
.sequencer_client
.get_account_balance(acc.to_string())
@ -129,7 +129,7 @@ impl WalletCore {
}
///Get accounts nonces
pub async fn get_accounts_nonces(&self, accs: Vec<Address>) -> Result<Vec<u128>> {
pub async fn get_accounts_nonces(&self, accs: Vec<AccountId>) -> Result<Vec<u128>> {
Ok(self
.sequencer_client
.get_accounts_nonces(accs.into_iter().map(|acc| acc.to_string()).collect())
@ -138,21 +138,28 @@ impl WalletCore {
}
///Get account
pub async fn get_account_public(&self, addr: Address) -> Result<Account> {
let response = self.sequencer_client.get_account(addr.to_string()).await?;
pub async fn get_account_public(&self, account_id: AccountId) -> Result<Account> {
let response = self
.sequencer_client
.get_account(account_id.to_string())
.await?;
Ok(response.account)
}
pub fn get_account_private(&self, addr: &Address) -> Option<Account> {
pub fn get_account_private(&self, account_id: &AccountId) -> Option<Account> {
self.storage
.user_data
.user_private_accounts
.get(addr)
.get(account_id)
.map(|value| value.1.clone())
}
pub fn get_private_account_commitment(&self, addr: &Address) -> Option<Commitment> {
let (keys, account) = self.storage.user_data.user_private_accounts.get(addr)?;
pub fn get_private_account_commitment(&self, account_id: &AccountId) -> Option<Commitment> {
let (keys, account) = self
.storage
.user_data
.user_private_accounts
.get(account_id)?;
Some(Commitment::new(&keys.nullifer_public_key, account))
}
@ -167,9 +174,9 @@ impl WalletCore {
pub async fn check_private_account_initialized(
&self,
addr: &Address,
account_id: &AccountId,
) -> Result<Option<MembershipProof>> {
if let Some(acc_comm) = self.get_private_account_commitment(addr) {
if let Some(acc_comm) = self.get_private_account_commitment(account_id) {
self.sequencer_client
.get_proof_for_commitment(acc_comm)
.await
@ -182,9 +189,9 @@ impl WalletCore {
pub fn decode_insert_privacy_preserving_transaction_results(
&mut self,
tx: nssa::privacy_preserving_transaction::PrivacyPreservingTransaction,
acc_decode_data: &[(nssa_core::SharedSecretKey, Address)],
acc_decode_data: &[(nssa_core::SharedSecretKey, AccountId)],
) -> Result<()> {
for (output_index, (secret, acc_address)) in acc_decode_data.iter().enumerate() {
for (output_index, (secret, acc_account_id)) in acc_decode_data.iter().enumerate() {
let acc_ead = tx.message.encrypted_private_post_states[output_index].clone();
let acc_comm = tx.message.new_commitments[output_index].clone();
@ -199,7 +206,7 @@ impl WalletCore {
println!("Received new acc {res_acc:#?}");
self.storage
.insert_private_account_data(*acc_address, res_acc);
.insert_private_account_data(*acc_account_id, res_acc);
}
println!("Transaction data is {:?}", tx.message);
@ -239,7 +246,7 @@ pub enum Command {
///
/// All account adresses must be valid 32 byte base58 strings.
///
/// All account addresses must be provided as {privacy_prefix}/{addr},
/// All account account_ids must be provided as {privacy_prefix}/{account_id},
/// where valid options for `privacy_prefix` is `Public` and `Private`
#[derive(Parser, Debug)]
#[clap(version, about)]
@ -255,7 +262,7 @@ pub struct Args {
#[derive(Debug, Clone)]
pub enum SubcommandReturnValue {
PrivacyPreservingTransfer { tx_hash: String },
RegisterAccount { addr: nssa::Address },
RegisterAccount { account_id: nssa::AccountId },
Account(nssa::Account),
Empty,
SyncedToBlock(u64),
@ -343,7 +350,7 @@ pub async fn parse_block_range(
if let NSSATransaction::PrivacyPreserving(tx) = nssa_tx {
let mut affected_accounts = vec![];
for (acc_addr, (key_chain, _)) in
for (acc_account_id, (key_chain, _)) in
&wallet_core.storage.user_data.user_private_accounts
{
let view_tag = EncryptedAccountData::compute_view_tag(
@ -372,19 +379,19 @@ pub async fn parse_block_range(
if let Some(res_acc) = res_acc {
println!(
"Received new account for addr {acc_addr:#?} with account object {res_acc:#?}"
"Received new account for account_id {acc_account_id:#?} with account object {res_acc:#?}"
);
affected_accounts.push((*acc_addr, res_acc));
affected_accounts.push((*acc_account_id, res_acc));
}
}
}
}
for (affected_addr, new_acc) in affected_accounts {
for (affected_account_id, new_acc) in affected_accounts {
wallet_core
.storage
.insert_private_account_data(affected_addr, new_acc);
.insert_private_account_data(affected_account_id, new_acc);
}
}
}

5
wallet/src/main.rs
View File

@ -5,6 +5,10 @@ use wallet::{Args, execute_continious_run, execute_subcommand};
pub const NUM_THREADS: usize = 2;
// TODO #169: We have sample configs for sequencer, but not for wallet
// TODO #168: Why it requires config as a directory? Maybe better to deduce directory from config file path?
// TODO #172: Why it requires config as env var while sequencer_runner accepts as argument?
// TODO #171: Running pinata doesn't give output about transaction hash and etc.
fn main() -> Result<()> {
let runtime = Builder::new_multi_thread()
.worker_threads(NUM_THREADS)
@ -18,6 +22,7 @@ fn main() -> Result<()> {
runtime.block_on(async move {
if let Some(command) = args.command {
// TODO: It should return error, not panic
execute_subcommand(command).await.unwrap();
} else if args.continious_run {
execute_continious_run().await.unwrap();

34
wallet/src/pinata_interactions.rs
View File

@ -1,6 +1,6 @@
use common::{error::ExecutionFailureKind, sequencer_client::json::SendTxResponse};
use key_protocol::key_management::ephemeral_key_holder::EphemeralKeyHolder;
use nssa::{Address, privacy_preserving_transaction::circuit};
use nssa::{AccountId, privacy_preserving_transaction::circuit};
use nssa_core::{MembershipProof, SharedSecretKey, account::AccountWithMetadata};
use crate::{
@ -10,14 +10,14 @@ use crate::{
impl WalletCore {
pub async fn claim_pinata(
&self,
pinata_addr: Address,
winner_addr: Address,
pinata_account_id: AccountId,
winner_account_id: AccountId,
solution: u128,
) -> Result<SendTxResponse, ExecutionFailureKind> {
let addresses = vec![pinata_addr, winner_addr];
let account_ids = vec![pinata_account_id, winner_account_id];
let program_id = nssa::program::Program::pinata().id();
let message =
nssa::public_transaction::Message::try_new(program_id, addresses, vec![], solution)
nssa::public_transaction::Message::try_new(program_id, account_ids, vec![], solution)
.unwrap();
let witness_set = nssa::public_transaction::WitnessSet::for_message(&message, &[]);
@ -28,8 +28,8 @@ impl WalletCore {
pub async fn claim_pinata_private_owned_account_already_initialized(
&self,
pinata_addr: Address,
winner_addr: Address,
pinata_account_id: AccountId,
winner_account_id: AccountId,
solution: u128,
winner_proof: MembershipProof,
) -> Result<(SendTxResponse, [SharedSecretKey; 1]), ExecutionFailureKind> {
@ -40,14 +40,14 @@ impl WalletCore {
auth_acc: winner_pre,
proof: _,
} = self
.private_acc_preparation(winner_addr, true, false)
.private_acc_preparation(winner_account_id, true, false)
.await?;
let pinata_acc = self.get_account_public(pinata_addr).await.unwrap();
let pinata_acc = self.get_account_public(pinata_account_id).await.unwrap();
let program = nssa::program::Program::pinata();
let pinata_pre = AccountWithMetadata::new(pinata_acc.clone(), false, pinata_addr);
let pinata_pre = AccountWithMetadata::new(pinata_acc.clone(), false, pinata_account_id);
let eph_holder_winner = EphemeralKeyHolder::new(&winner_npk);
let shared_secret_winner = eph_holder_winner.calculate_shared_secret_sender(&winner_ipk);
@ -65,7 +65,7 @@ impl WalletCore {
let message =
nssa::privacy_preserving_transaction::message::Message::try_from_circuit_output(
vec![pinata_addr],
vec![pinata_account_id],
vec![],
vec![(
winner_npk.clone(),
@ -95,8 +95,8 @@ impl WalletCore {
pub async fn claim_pinata_private_owned_account_not_initialized(
&self,
pinata_addr: Address,
winner_addr: Address,
pinata_account_id: AccountId,
winner_account_id: AccountId,
solution: u128,
) -> Result<(SendTxResponse, [SharedSecretKey; 1]), ExecutionFailureKind> {
let AccountPreparedData {
@ -106,14 +106,14 @@ impl WalletCore {
auth_acc: winner_pre,
proof: _,
} = self
.private_acc_preparation(winner_addr, false, false)
.private_acc_preparation(winner_account_id, false, false)
.await?;
let pinata_acc = self.get_account_public(pinata_addr).await.unwrap();
let pinata_acc = self.get_account_public(pinata_account_id).await.unwrap();
let program = nssa::program::Program::pinata();
let pinata_pre = AccountWithMetadata::new(pinata_acc.clone(), false, pinata_addr);
let pinata_pre = AccountWithMetadata::new(pinata_acc.clone(), false, pinata_account_id);
let eph_holder_winner = EphemeralKeyHolder::new(&winner_npk);
let shared_secret_winner = eph_holder_winner.calculate_shared_secret_sender(&winner_ipk);
@ -131,7 +131,7 @@ impl WalletCore {
let message =
nssa::privacy_preserving_transaction::message::Message::try_from_circuit_output(
vec![pinata_addr],
vec![pinata_account_id],
vec![],
vec![(
winner_npk.clone(),

1
wallet/src/poller.rs
View File

@ -11,6 +11,7 @@ use crate::config::WalletConfig;
pub struct TxPoller {
pub polling_max_blocks_to_query: usize,
pub polling_max_error_attempts: u64,
// TODO: This should be Duration
pub polling_error_delay_millis: u64,
pub polling_delay_millis: u64,
pub client: Arc<SequencerClient>,

94
wallet/src/token_program_interactions.rs
View File

@ -1,5 +1,5 @@
use common::{error::ExecutionFailureKind, sequencer_client::json::SendTxResponse};
use nssa::{Account, Address, program::Program};
use nssa::{Account, AccountId, program::Program};
use nssa_core::{
MembershipProof, NullifierPublicKey, SharedSecretKey, encryption::IncomingViewingPublicKey,
program::InstructionData,
@ -47,20 +47,24 @@ impl WalletCore {
pub async fn send_new_token_definition(
&self,
definition_address: Address,
supply_address: Address,
definition_account_id: AccountId,
supply_account_id: AccountId,
name: [u8; 6],
total_supply: u128,
) -> Result<SendTxResponse, ExecutionFailureKind> {
let addresses = vec![definition_address, supply_address];
let account_ids = vec![definition_account_id, supply_account_id];
let program_id = nssa::program::Program::token().id();
// Instruction must be: [0x00 || total_supply (little-endian 16 bytes) || name (6 bytes)]
let mut instruction = [0; 23];
instruction[1..17].copy_from_slice(&total_supply.to_le_bytes());
instruction[17..].copy_from_slice(&name);
let message =
nssa::public_transaction::Message::try_new(program_id, addresses, vec![], instruction)
.unwrap();
let message = nssa::public_transaction::Message::try_new(
program_id,
account_ids,
vec![],
instruction,
)
.unwrap();
let witness_set = nssa::public_transaction::WitnessSet::for_message(&message, &[]);
@ -71,8 +75,8 @@ impl WalletCore {
pub async fn send_new_token_definition_private_owned(
&self,
definition_addr: Address,
supply_addr: Address,
definition_account_id: AccountId,
supply_account_id: AccountId,
name: [u8; 6],
total_supply: u128,
) -> Result<(SendTxResponse, [SharedSecretKey; 1]), ExecutionFailureKind> {
@ -82,8 +86,8 @@ impl WalletCore {
// Kind of non-obvious naming
// Basically this funtion is called because authentication mask is [0, 2]
self.shielded_two_accs_receiver_uninit(
definition_addr,
supply_addr,
definition_account_id,
supply_account_id,
instruction_data,
tx_pre_check,
program,
@ -93,27 +97,31 @@ impl WalletCore {
pub async fn send_transfer_token_transaction(
&self,
sender_address: Address,
recipient_address: Address,
sender_account_id: AccountId,
recipient_account_id: AccountId,
amount: u128,
) -> Result<SendTxResponse, ExecutionFailureKind> {
let addresses = vec![sender_address, recipient_address];
let account_ids = vec![sender_account_id, recipient_account_id];
let program_id = nssa::program::Program::token().id();
// Instruction must be: [0x01 || amount (little-endian 16 bytes) || 0x00 || 0x00 || 0x00 || 0x00 || 0x00 || 0x00].
let mut instruction = [0; 23];
instruction[0] = 0x01;
instruction[1..17].copy_from_slice(&amount.to_le_bytes());
let Ok(nonces) = self.get_accounts_nonces(vec![sender_address]).await else {
let Ok(nonces) = self.get_accounts_nonces(vec![sender_account_id]).await else {
return Err(ExecutionFailureKind::SequencerError);
};
let message =
nssa::public_transaction::Message::try_new(program_id, addresses, nonces, instruction)
.unwrap();
let message = nssa::public_transaction::Message::try_new(
program_id,
account_ids,
nonces,
instruction,
)
.unwrap();
let Some(signing_key) = self
.storage
.user_data
.get_pub_account_signing_key(&sender_address)
.get_pub_account_signing_key(&sender_account_id)
else {
return Err(ExecutionFailureKind::KeyNotFoundError);
};
@ -127,8 +135,8 @@ impl WalletCore {
pub async fn send_transfer_token_transaction_private_owned_account_already_initialized(
&self,
sender_address: Address,
recipient_address: Address,
sender_account_id: AccountId,
recipient_account_id: AccountId,
amount: u128,
recipient_proof: MembershipProof,
) -> Result<(SendTxResponse, [SharedSecretKey; 2]), ExecutionFailureKind> {
@ -136,8 +144,8 @@ impl WalletCore {
WalletCore::token_program_preparation_transfer(amount);
self.private_tx_two_accs_all_init(
sender_address,
recipient_address,
sender_account_id,
recipient_account_id,
instruction_data,
tx_pre_check,
program,
@ -148,16 +156,16 @@ impl WalletCore {
pub async fn send_transfer_token_transaction_private_owned_account_not_initialized(
&self,
sender_address: Address,
recipient_address: Address,
sender_account_id: AccountId,
recipient_account_id: AccountId,
amount: u128,
) -> Result<(SendTxResponse, [SharedSecretKey; 2]), ExecutionFailureKind> {
let (instruction_data, program, tx_pre_check) =
WalletCore::token_program_preparation_transfer(amount);
self.private_tx_two_accs_receiver_uninit(
sender_address,
recipient_address,
sender_account_id,
recipient_account_id,
instruction_data,
tx_pre_check,
program,
@ -167,7 +175,7 @@ impl WalletCore {
pub async fn send_transfer_token_transaction_private_foreign_account(
&self,
sender_address: Address,
sender_account_id: AccountId,
recipient_npk: NullifierPublicKey,
recipient_ipk: IncomingViewingPublicKey,
amount: u128,
@ -176,7 +184,7 @@ impl WalletCore {
WalletCore::token_program_preparation_transfer(amount);
self.private_tx_two_accs_receiver_outer(
sender_address,
sender_account_id,
recipient_npk,
recipient_ipk,
instruction_data,
@ -188,16 +196,16 @@ impl WalletCore {
pub async fn send_transfer_token_transaction_deshielded(
&self,
sender_address: Address,
recipient_address: Address,
sender_account_id: AccountId,
recipient_account_id: AccountId,
amount: u128,
) -> Result<(SendTxResponse, [SharedSecretKey; 1]), ExecutionFailureKind> {
let (instruction_data, program, tx_pre_check) =
WalletCore::token_program_preparation_transfer(amount);
self.deshielded_tx_two_accs(
sender_address,
recipient_address,
sender_account_id,
recipient_account_id,
instruction_data,
tx_pre_check,
program,
@ -207,8 +215,8 @@ impl WalletCore {
pub async fn send_transfer_token_transaction_shielded_owned_account_already_initialized(
&self,
sender_address: Address,
recipient_address: Address,
sender_account_id: AccountId,
recipient_account_id: AccountId,
amount: u128,
recipient_proof: MembershipProof,
) -> Result<(SendTxResponse, [SharedSecretKey; 1]), ExecutionFailureKind> {
@ -216,8 +224,8 @@ impl WalletCore {
WalletCore::token_program_preparation_transfer(amount);
self.shielded_two_accs_all_init(
sender_address,
recipient_address,
sender_account_id,
recipient_account_id,
instruction_data,
tx_pre_check,
program,
@ -228,16 +236,16 @@ impl WalletCore {
pub async fn send_transfer_token_transaction_shielded_owned_account_not_initialized(
&self,
sender_address: Address,
recipient_address: Address,
sender_account_id: AccountId,
recipient_account_id: AccountId,
amount: u128,
) -> Result<(SendTxResponse, [SharedSecretKey; 1]), ExecutionFailureKind> {
let (instruction_data, program, tx_pre_check) =
WalletCore::token_program_preparation_transfer(amount);
self.shielded_two_accs_receiver_uninit(
sender_address,
recipient_address,
sender_account_id,
recipient_account_id,
instruction_data,
tx_pre_check,
program,
@ -247,7 +255,7 @@ impl WalletCore {
pub async fn send_transfer_token_transaction_shielded_foreign_account(
&self,
sender_address: Address,
sender_account_id: AccountId,
recipient_npk: NullifierPublicKey,
recipient_ipk: IncomingViewingPublicKey,
amount: u128,
@ -256,7 +264,7 @@ impl WalletCore {
WalletCore::token_program_preparation_transfer(amount);
self.shielded_two_accs_receiver_outer(
sender_address,
sender_account_id,
recipient_npk,
recipient_ipk,
instruction_data,

6
wallet/src/token_transfers/deshielded.rs
View File

@ -1,13 +1,13 @@
use common::{error::ExecutionFailureKind, sequencer_client::json::SendTxResponse};
use nssa::Address;
use nssa::AccountId;
use crate::WalletCore;
impl WalletCore {
pub async fn send_deshielded_native_token_transfer(
&self,
from: Address,
to: Address,
from: AccountId,
to: AccountId,
balance_to_move: u128,
) -> Result<(SendTxResponse, [nssa_core::SharedSecretKey; 1]), ExecutionFailureKind> {
let (instruction_data, program, tx_pre_check) =

12
wallet/src/token_transfers/private.rs
View File

@ -1,5 +1,5 @@
use common::{error::ExecutionFailureKind, sequencer_client::json::SendTxResponse};
use nssa::Address;
use nssa::AccountId;
use nssa_core::{
MembershipProof, NullifierPublicKey, SharedSecretKey, encryption::IncomingViewingPublicKey,
};
@ -9,7 +9,7 @@ use crate::WalletCore;
impl WalletCore {
pub async fn send_private_native_token_transfer_outer_account(
&self,
from: Address,
from: AccountId,
to_npk: NullifierPublicKey,
to_ipk: IncomingViewingPublicKey,
balance_to_move: u128,
@ -30,8 +30,8 @@ impl WalletCore {
pub async fn send_private_native_token_transfer_owned_account_not_initialized(
&self,
from: Address,
to: Address,
from: AccountId,
to: AccountId,
balance_to_move: u128,
) -> Result<(SendTxResponse, [SharedSecretKey; 2]), ExecutionFailureKind> {
let (instruction_data, program, tx_pre_check) =
@ -43,8 +43,8 @@ impl WalletCore {
pub async fn send_private_native_token_transfer_owned_account_already_initialized(
&self,
from: Address,
to: Address,
from: AccountId,
to: AccountId,
balance_to_move: u128,
to_proof: MembershipProof,
) -> Result<(SendTxResponse, [SharedSecretKey; 2]), ExecutionFailureKind> {

17
wallet/src/token_transfers/public.rs
View File

@ -1,6 +1,6 @@
use common::{error::ExecutionFailureKind, sequencer_client::json::SendTxResponse};
use nssa::{
Address, PublicTransaction,
AccountId, PublicTransaction,
program::Program,
public_transaction::{Message, WitnessSet},
};
@ -10,8 +10,8 @@ use crate::WalletCore;
impl WalletCore {
pub async fn send_public_native_token_transfer(
&self,
from: Address,
to: Address,
from: AccountId,
to: AccountId,
balance_to_move: u128,
) -> Result<SendTxResponse, ExecutionFailureKind> {
let Ok(balance) = self.get_account_balance(from).await else {
@ -23,9 +23,10 @@ impl WalletCore {
return Err(ExecutionFailureKind::SequencerError);
};
let addresses = vec![from, to];
let account_ids = vec![from, to];
let program_id = Program::authenticated_transfer_program().id();
let message = Message::try_new(program_id, addresses, nonces, balance_to_move).unwrap();
let message =
Message::try_new(program_id, account_ids, nonces, balance_to_move).unwrap();
let signing_key = self.storage.user_data.get_pub_account_signing_key(&from);
@ -45,16 +46,16 @@ impl WalletCore {
pub async fn register_account_under_authenticated_transfers_programs(
&self,
from: Address,
from: AccountId,
) -> Result<SendTxResponse, ExecutionFailureKind> {
let Ok(nonces) = self.get_accounts_nonces(vec![from]).await else {
return Err(ExecutionFailureKind::SequencerError);
};
let instruction: u128 = 0;
let addresses = vec![from];
let account_ids = vec![from];
let program_id = Program::authenticated_transfer_program().id();
let message = Message::try_new(program_id, addresses, nonces, instruction).unwrap();
let message = Message::try_new(program_id, account_ids, nonces, instruction).unwrap();
let signing_key = self.storage.user_data.get_pub_account_signing_key(&from);

12
wallet/src/token_transfers/shielded.rs
View File

@ -1,5 +1,5 @@
use common::{error::ExecutionFailureKind, sequencer_client::json::SendTxResponse};
use nssa::Address;
use nssa::AccountId;
use nssa_core::{
MembershipProof, NullifierPublicKey, SharedSecretKey, encryption::IncomingViewingPublicKey,
};
@ -9,8 +9,8 @@ use crate::WalletCore;
impl WalletCore {
pub async fn send_shielded_native_token_transfer_already_initialized(
&self,
from: Address,
to: Address,
from: AccountId,
to: AccountId,
balance_to_move: u128,
to_proof: MembershipProof,
) -> Result<(SendTxResponse, [SharedSecretKey; 1]), ExecutionFailureKind> {
@ -23,8 +23,8 @@ impl WalletCore {
pub async fn send_shielded_native_token_transfer_not_initialized(
&self,
from: Address,
to: Address,
from: AccountId,
to: AccountId,
balance_to_move: u128,
) -> Result<(SendTxResponse, [SharedSecretKey; 1]), ExecutionFailureKind> {
let (instruction_data, program, tx_pre_check) =
@ -36,7 +36,7 @@ impl WalletCore {
pub async fn send_shielded_native_token_transfer_outer_account(
&self,
from: Address,
from: AccountId,
to_npk: NullifierPublicKey,
to_ipk: IncomingViewingPublicKey,
balance_to_move: u128,

37
wallet/src/transaction_utils.rs
View File

@ -1,7 +1,7 @@
use common::{error::ExecutionFailureKind, sequencer_client::json::SendTxResponse};
use key_protocol::key_management::ephemeral_key_holder::EphemeralKeyHolder;
use nssa::{
Account, Address, PrivacyPreservingTransaction,
Account, AccountId, PrivacyPreservingTransaction,
privacy_preserving_transaction::{circuit, message::Message, witness_set::WitnessSet},
program::Program,
};
@ -23,12 +23,15 @@ pub(crate) struct AccountPreparedData {
impl WalletCore {
pub(crate) async fn private_acc_preparation(
&self,
addr: Address,
account_id: AccountId,
is_authorized: bool,
needs_proof: bool,
) -> Result<AccountPreparedData, ExecutionFailureKind> {
let Some((from_keys, from_acc)) =
self.storage.user_data.get_private_account(&addr).cloned()
let Some((from_keys, from_acc)) = self
.storage
.user_data
.get_private_account(&account_id)
.cloned()
else {
return Err(ExecutionFailureKind::KeyNotFoundError);
};
@ -66,8 +69,8 @@ impl WalletCore {
pub(crate) async fn private_tx_two_accs_all_init(
&self,
from: Address,
to: Address,
from: AccountId,
to: AccountId,
instruction_data: InstructionData,
tx_pre_check: impl FnOnce(&Account, &Account) -> Result<(), ExecutionFailureKind>,
program: Program,
@ -144,8 +147,8 @@ impl WalletCore {
pub(crate) async fn private_tx_two_accs_receiver_uninit(
&self,
from: Address,
to: Address,
from: AccountId,
to: AccountId,
instruction_data: InstructionData,
tx_pre_check: impl FnOnce(&Account, &Account) -> Result<(), ExecutionFailureKind>,
program: Program,
@ -218,7 +221,7 @@ impl WalletCore {
pub(crate) async fn private_tx_two_accs_receiver_outer(
&self,
from: Address,
from: AccountId,
to_npk: NullifierPublicKey,
to_ipk: IncomingViewingPublicKey,
instruction_data: InstructionData,
@ -289,8 +292,8 @@ impl WalletCore {
pub(crate) async fn deshielded_tx_two_accs(
&self,
from: Address,
to: Address,
from: AccountId,
to: AccountId,
instruction_data: InstructionData,
tx_pre_check: impl FnOnce(&Account, &Account) -> Result<(), ExecutionFailureKind>,
program: Program,
@ -349,8 +352,8 @@ impl WalletCore {
pub(crate) async fn shielded_two_accs_all_init(
&self,
from: Address,
to: Address,
from: AccountId,
to: AccountId,
instruction_data: InstructionData,
tx_pre_check: impl FnOnce(&Account, &Account) -> Result<(), ExecutionFailureKind>,
program: Program,
@ -416,8 +419,8 @@ impl WalletCore {
pub(crate) async fn shielded_two_accs_receiver_uninit(
&self,
from: Address,
to: Address,
from: AccountId,
to: AccountId,
instruction_data: InstructionData,
tx_pre_check: impl FnOnce(&Account, &Account) -> Result<(), ExecutionFailureKind>,
program: Program,
@ -482,7 +485,7 @@ impl WalletCore {
pub(crate) async fn shielded_two_accs_receiver_outer(
&self,
from: Address,
from: AccountId,
to_npk: NullifierPublicKey,
to_ipk: IncomingViewingPublicKey,
instruction_data: InstructionData,
@ -540,7 +543,7 @@ impl WalletCore {
pub async fn register_account_under_authenticated_transfers_programs_private(
&self,
from: Address,
from: AccountId,
) -> Result<(SendTxResponse, [SharedSecretKey; 1]), ExecutionFailureKind> {
let AccountPreparedData {
nsk: _,