use crate::{
id,
vote_state::{self, Vote, VoteAuthorize, VoteInit, VoteState},
};
use log::*;
use num_derive::{FromPrimitive, ToPrimitive};
use serde_derive::{Deserialize, Serialize};
use solana_metrics::datapoint_debug;
use solana_sdk::{
account::{get_signers, KeyedAccount},
instruction::{AccountMeta, Instruction, InstructionError, WithSigner},
instruction_processor_utils::{limited_deserialize, next_keyed_account, DecodeError},
pubkey::Pubkey,
system_instruction,
sysvar::{self, clock::Clock, slot_hashes::SlotHashes, Sysvar},
};
use thiserror::Error;
#[derive(Error, Debug, Clone, PartialEq, FromPrimitive, ToPrimitive)]
pub enum VoteError {
#[error("vote already recorded or not in slot hashes history")]
VoteTooOld,
#[error("vote slots do not match bank history")]
SlotsMismatch,
#[error("vote hash does not match bank hash")]
SlotHashMismatch,
#[error("vote has no slots, invalid")]
EmptySlots,
#[error("vote timestamp not recent")]
TimestampTooOld,
#[error("authorized voter has already been changed this epoch")]
TooSoonToReauthorize,
}
impl<E> DecodeError<E> for VoteError {
fn type_of() -> &'static str {
"VoteError"
}
}
#[derive(Serialize, Deserialize, Debug, PartialEq, Eq, Clone)]
pub enum VoteInstruction {
InitializeAccount(VoteInit),
Authorize(Pubkey, VoteAuthorize),
Vote(Vote),
Withdraw(u64),
UpdateNode(Pubkey),
}
fn initialize_account(vote_pubkey: &Pubkey, vote_init: &VoteInit) -> Instruction {
let account_metas = vec![
AccountMeta::new(*vote_pubkey, false),
AccountMeta::new_readonly(sysvar::rent::id(), false),
AccountMeta::new_readonly(sysvar::clock::id(), false),
];
Instruction::new(
id(),
&VoteInstruction::InitializeAccount(*vote_init),
account_metas,
)
}
pub fn create_account(
from_pubkey: &Pubkey,
vote_pubkey: &Pubkey,
vote_init: &VoteInit,
lamports: u64,
) -> Vec<Instruction> {
let space = VoteState::size_of() as u64;
let create_ix =
system_instruction::create_account(from_pubkey, vote_pubkey, lamports, space, &id());
let init_ix = initialize_account(vote_pubkey, vote_init);
vec![create_ix, init_ix]
}
pub fn create_account_with_seed(
from_pubkey: &Pubkey,
vote_pubkey: &Pubkey,
base: &Pubkey,
seed: &str,
vote_init: &VoteInit,
lamports: u64,
) -> Vec<Instruction> {
let space = VoteState::size_of() as u64;
let create_ix = system_instruction::create_account_with_seed(
from_pubkey,
vote_pubkey,
base,
seed,
lamports,
space,
&id(),
);
let init_ix = initialize_account(vote_pubkey, vote_init);
vec![create_ix, init_ix]
}
pub fn authorize(
vote_pubkey: &Pubkey,
authorized_pubkey: &Pubkey, new_authorized_pubkey: &Pubkey,
vote_authorize: VoteAuthorize,
) -> Instruction {
let account_metas = vec![
AccountMeta::new(*vote_pubkey, false),
AccountMeta::new_readonly(sysvar::clock::id(), false),
]
.with_signer(authorized_pubkey);
Instruction::new(
id(),
&VoteInstruction::Authorize(*new_authorized_pubkey, vote_authorize),
account_metas,
)
}
pub fn update_node(
vote_pubkey: &Pubkey,
authorized_voter_pubkey: &Pubkey,
node_pubkey: &Pubkey,
) -> Instruction {
let account_metas =
vec![AccountMeta::new(*vote_pubkey, false)].with_signer(authorized_voter_pubkey);
Instruction::new(
id(),
&VoteInstruction::UpdateNode(*node_pubkey),
account_metas,
)
}
pub fn vote(vote_pubkey: &Pubkey, authorized_voter_pubkey: &Pubkey, vote: Vote) -> Instruction {
let account_metas = vec![
AccountMeta::new(*vote_pubkey, false),
AccountMeta::new_readonly(sysvar::slot_hashes::id(), false),
AccountMeta::new_readonly(sysvar::clock::id(), false),
]
.with_signer(authorized_voter_pubkey);
Instruction::new(id(), &VoteInstruction::Vote(vote), account_metas)
}
pub fn withdraw(
vote_pubkey: &Pubkey,
withdrawer_pubkey: &Pubkey,
lamports: u64,
to_pubkey: &Pubkey,
) -> Instruction {
let account_metas = vec![
AccountMeta::new(*vote_pubkey, false),
AccountMeta::new(*to_pubkey, false),
]
.with_signer(withdrawer_pubkey);
Instruction::new(id(), &VoteInstruction::Withdraw(lamports), account_metas)
}
pub fn process_instruction(
_program_id: &Pubkey,
keyed_accounts: &[KeyedAccount],
data: &[u8],
) -> Result<(), InstructionError> {
solana_logger::setup_with_default("solana=info");
trace!("process_instruction: {:?}", data);
trace!("keyed_accounts: {:?}", keyed_accounts);
let signers = get_signers(keyed_accounts);
let keyed_accounts = &mut keyed_accounts.iter();
let me = &mut next_keyed_account(keyed_accounts)?;
match limited_deserialize(data)? {
VoteInstruction::InitializeAccount(vote_init) => {
sysvar::rent::verify_rent_exemption(me, next_keyed_account(keyed_accounts)?)?;
vote_state::initialize_account(
me,
&vote_init,
&Clock::from_keyed_account(next_keyed_account(keyed_accounts)?)?,
)
}
VoteInstruction::Authorize(voter_pubkey, vote_authorize) => vote_state::authorize(
me,
&voter_pubkey,
vote_authorize,
&signers,
&Clock::from_keyed_account(next_keyed_account(keyed_accounts)?)?,
),
VoteInstruction::UpdateNode(node_pubkey) => {
vote_state::update_node(me, &node_pubkey, &signers)
}
VoteInstruction::Vote(vote) => {
datapoint_debug!("vote-native", ("count", 1, i64));
vote_state::process_vote(
me,
&SlotHashes::from_keyed_account(next_keyed_account(keyed_accounts)?)?,
&Clock::from_keyed_account(next_keyed_account(keyed_accounts)?)?,
&vote,
&signers,
)
}
VoteInstruction::Withdraw(lamports) => {
let to = next_keyed_account(keyed_accounts)?;
vote_state::withdraw(me, lamports, to, &signers)
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use solana_sdk::{account::Account, rent::Rent};
use std::cell::RefCell;
#[test]
fn test_vote_process_instruction_decode_bail() {
assert_eq!(
super::process_instruction(&Pubkey::default(), &[], &[],),
Err(InstructionError::NotEnoughAccountKeys),
);
}
fn process_instruction(instruction: &Instruction) -> Result<(), InstructionError> {
let mut accounts: Vec<_> = instruction
.accounts
.iter()
.map(|meta| {
RefCell::new(if sysvar::clock::check_id(&meta.pubkey) {
Clock::default().create_account(1)
} else if sysvar::slot_hashes::check_id(&meta.pubkey) {
SlotHashes::default().create_account(1)
} else if sysvar::rent::check_id(&meta.pubkey) {
Rent::free().create_account(1)
} else {
Account::default()
})
})
.collect();
for _ in 0..instruction.accounts.len() {
accounts.push(RefCell::new(Account::default()));
}
{
let keyed_accounts: Vec<_> = instruction
.accounts
.iter()
.zip(accounts.iter())
.map(|(meta, account)| KeyedAccount::new(&meta.pubkey, meta.is_signer, account))
.collect();
super::process_instruction(&Pubkey::default(), &keyed_accounts, &instruction.data)
}
}
#[test]
fn test_vote_process_instruction() {
let instructions = create_account(
&Pubkey::default(),
&Pubkey::default(),
&VoteInit::default(),
100,
);
assert_eq!(
process_instruction(&instructions[1]),
Err(InstructionError::InvalidAccountData),
);
assert_eq!(
process_instruction(&vote(
&Pubkey::default(),
&Pubkey::default(),
Vote::default(),
)),
Err(InstructionError::InvalidAccountData),
);
assert_eq!(
process_instruction(&authorize(
&Pubkey::default(),
&Pubkey::default(),
&Pubkey::default(),
VoteAuthorize::Voter,
)),
Err(InstructionError::InvalidAccountData),
);
assert_eq!(
process_instruction(&update_node(
&Pubkey::default(),
&Pubkey::default(),
&Pubkey::default(),
)),
Err(InstructionError::InvalidAccountData),
);
assert_eq!(
process_instruction(&withdraw(
&Pubkey::default(),
&Pubkey::default(),
0,
&Pubkey::default()
)),
Err(InstructionError::InvalidAccountData),
);
}
#[test]
fn test_minimum_balance() {
let rent = solana_sdk::rent::Rent::default();
let minimum_balance = rent.minimum_balance(VoteState::size_of());
assert!(minimum_balance as f64 / 10f64.powf(9.0) < 0.04)
}
#[test]
fn test_custom_error_decode() {
use num_traits::FromPrimitive;
fn pretty_err<T>(err: InstructionError) -> String
where
T: 'static + std::error::Error + DecodeError<T> + FromPrimitive,
{
if let InstructionError::CustomError(code) = err {
let specific_error: T = T::decode_custom_error_to_enum(code).unwrap();
format!(
"{:?}: {}::{:?} - {}",
err,
T::type_of(),
specific_error,
specific_error,
)
} else {
"".to_string()
}
}
assert_eq!(
"CustomError(0): VoteError::VoteTooOld - vote already recorded or not in slot hashes history",
pretty_err::<VoteError>(VoteError::VoteTooOld.into())
)
}
}