use crate::{
checks::{check_account_for_fee, check_unique_pubkeys},
cli::{
fee_payer_arg, generate_unique_signers, log_instruction_custom_error, nonce_authority_arg,
return_signers, CliCommand, CliCommandInfo, CliConfig, CliError, ProcessResult,
SignerIndex, FEE_PAYER_ARG,
},
cli_output::{CliStakeHistory, CliStakeHistoryEntry, CliStakeState, CliStakeType},
nonce::{check_nonce_account, nonce_arg, NONCE_ARG, NONCE_AUTHORITY_ARG},
offline::{blockhash_query::BlockhashQuery, *},
spend_utils::{resolve_spend_tx_and_check_account_balances, SpendAmount},
};
use clap::{App, Arg, ArgGroup, ArgMatches, SubCommand};
use solana_clap_utils::{input_parsers::*, input_validators::*, offline::*, ArgConstant};
use solana_client::{rpc_client::RpcClient, rpc_request::DELINQUENT_VALIDATOR_SLOT_DISTANCE};
use solana_remote_wallet::remote_wallet::RemoteWalletManager;
use solana_sdk::{
account_utils::StateMut,
message::Message,
pubkey::Pubkey,
system_instruction::SystemError,
sysvar::{
stake_history::{self, StakeHistory},
Sysvar,
},
transaction::Transaction,
};
use solana_stake_program::{
stake_instruction::{self, LockupArgs, StakeError},
stake_state::{Authorized, Lockup, Meta, StakeAuthorize, StakeState},
};
use solana_vote_program::vote_state::VoteState;
use std::{ops::Deref, sync::Arc};
pub const STAKE_AUTHORITY_ARG: ArgConstant<'static> = ArgConstant {
name: "stake_authority",
long: "stake-authority",
help: "Authorized staker [default: cli config keypair]",
};
pub const WITHDRAW_AUTHORITY_ARG: ArgConstant<'static> = ArgConstant {
name: "withdraw_authority",
long: "withdraw-authority",
help: "Authorized withdrawer [default: cli config keypair]",
};
fn stake_authority_arg<'a, 'b>() -> Arg<'a, 'b> {
Arg::with_name(STAKE_AUTHORITY_ARG.name)
.long(STAKE_AUTHORITY_ARG.long)
.takes_value(true)
.value_name("KEYPAIR")
.validator(is_valid_signer)
.help(STAKE_AUTHORITY_ARG.help)
}
fn withdraw_authority_arg<'a, 'b>() -> Arg<'a, 'b> {
Arg::with_name(WITHDRAW_AUTHORITY_ARG.name)
.long(WITHDRAW_AUTHORITY_ARG.long)
.takes_value(true)
.value_name("KEYPAIR")
.validator(is_valid_signer)
.help(WITHDRAW_AUTHORITY_ARG.help)
}
pub trait StakeSubCommands {
fn stake_subcommands(self) -> Self;
}
impl StakeSubCommands for App<'_, '_> {
fn stake_subcommands(self) -> Self {
self.subcommand(
SubCommand::with_name("create-stake-account")
.about("Create a stake account")
.arg(
Arg::with_name("stake_account")
.index(1)
.value_name("ACCOUNT_KEYPAIR")
.takes_value(true)
.required(true)
.validator(is_valid_signer)
.help("Stake account to create (or base of derived address if --seed is used)")
)
.arg(
Arg::with_name("amount")
.index(2)
.value_name("AMOUNT")
.takes_value(true)
.validator(is_amount_or_all)
.required(true)
.help("The amount to send to the stake account, in SOL; accepts keyword ALL")
)
.arg(
pubkey!(Arg::with_name("custodian")
.long("custodian")
.value_name("PUBKEY"),
"Authority to modify lockups. ")
)
.arg(
Arg::with_name("seed")
.long("seed")
.value_name("STRING")
.takes_value(true)
.help("Seed for address generation; if specified, the resulting account will be at a derived address of the stake_account pubkey")
)
.arg(
Arg::with_name("lockup_epoch")
.long("lockup-epoch")
.value_name("NUMBER")
.takes_value(true)
.help("The epoch height at which this account will be available for withdrawal")
)
.arg(
Arg::with_name("lockup_date")
.long("lockup-date")
.value_name("RFC3339 DATETIME")
.validator(is_rfc3339_datetime)
.takes_value(true)
.help("The date and time at which this account will be available for withdrawal")
)
.arg(
Arg::with_name(STAKE_AUTHORITY_ARG.name)
.long(STAKE_AUTHORITY_ARG.long)
.value_name("PUBKEY")
.takes_value(true)
.validator(is_valid_pubkey)
.help(STAKE_AUTHORITY_ARG.help)
)
.arg(
Arg::with_name(WITHDRAW_AUTHORITY_ARG.name)
.long(WITHDRAW_AUTHORITY_ARG.long)
.value_name("PUBKEY")
.takes_value(true)
.validator(is_valid_pubkey)
.help(WITHDRAW_AUTHORITY_ARG.help)
)
.arg(
Arg::with_name("from")
.long("from")
.takes_value(true)
.value_name("KEYPAIR")
.validator(is_valid_signer)
.help("Source account of funds [default: cli config keypair]"),
)
.offline_args()
.arg(nonce_arg())
.arg(nonce_authority_arg())
.arg(fee_payer_arg())
)
.subcommand(
SubCommand::with_name("delegate-stake")
.about("Delegate stake to a vote account")
.arg(
Arg::with_name("force")
.long("force")
.takes_value(false)
.hidden(true) .help("Override vote account sanity checks (use carefully!)")
)
.arg(
pubkey!(Arg::with_name("stake_account_pubkey")
.index(1)
.value_name("STAKE_ACCOUNT_ADDRESS")
.required(true),
"Stake account to delegate")
)
.arg(
pubkey!(Arg::with_name("vote_account_pubkey")
.index(2)
.value_name("VOTE_ACCOUNT_ADDRESS")
.required(true),
"The vote account to which the stake will be delegated")
)
.arg(stake_authority_arg())
.offline_args()
.arg(nonce_arg())
.arg(nonce_authority_arg())
.arg(fee_payer_arg())
)
.subcommand(
SubCommand::with_name("stake-authorize")
.about("Authorize a new signing keypair for the given stake account")
.arg(
pubkey!(Arg::with_name("stake_account_pubkey")
.required(true)
.index(1)
.value_name("STAKE_ACCOUNT_ADDRESS"),
"Stake account in which to set a new authority. ")
)
.arg(
pubkey!(Arg::with_name("new_stake_authority")
.long("new-stake-authority")
.required_unless("new_withdraw_authority")
.value_name("PUBKEY"),
"New authorized staker")
)
.arg(
pubkey!(Arg::with_name("new_withdraw_authority")
.long("new-withdraw-authority")
.required_unless("new_stake_authority")
.value_name("PUBKEY"),
"New authorized withdrawer. ")
)
.arg(stake_authority_arg())
.arg(withdraw_authority_arg())
.offline_args()
.arg(nonce_arg())
.arg(nonce_authority_arg())
.arg(fee_payer_arg())
)
.subcommand(
SubCommand::with_name("deactivate-stake")
.about("Deactivate the delegated stake from the stake account")
.arg(
pubkey!(Arg::with_name("stake_account_pubkey")
.index(1)
.value_name("STAKE_ACCOUNT_ADDRESS")
.required(true),
"Stake account to be deactivated. ")
)
.arg(stake_authority_arg())
.offline_args()
.arg(nonce_arg())
.arg(nonce_authority_arg())
.arg(fee_payer_arg())
)
.subcommand(
SubCommand::with_name("split-stake")
.about("Duplicate a stake account, splitting the tokens between the two")
.arg(
pubkey!(Arg::with_name("stake_account_pubkey")
.index(1)
.value_name("STAKE_ACCOUNT_ADDRESS")
.required(true),
"Stake account to split (or base of derived address if --seed is used). ")
)
.arg(
Arg::with_name("split_stake_account")
.index(2)
.value_name("ACCOUNT_KEYPAIR")
.takes_value(true)
.required(true)
.validator(is_valid_signer)
.help("Keypair of the new stake account")
)
.arg(
Arg::with_name("amount")
.index(3)
.value_name("AMOUNT")
.takes_value(true)
.validator(is_amount)
.required(true)
.help("The amount to move into the new stake account, in SOL")
)
.arg(
Arg::with_name("seed")
.long("seed")
.value_name("STRING")
.takes_value(true)
.help("Seed for address generation; if specified, the resulting account will be at a derived address of the SPLIT STAKE ACCOUNT pubkey")
)
.arg(stake_authority_arg())
.offline_args()
.arg(nonce_arg())
.arg(nonce_authority_arg())
.arg(fee_payer_arg())
)
.subcommand(
SubCommand::with_name("merge-stake")
.about("Merges one stake account into another")
.arg(
pubkey!(Arg::with_name("stake_account_pubkey")
.index(1)
.value_name("STAKE_ACCOUNT_ADDRESS")
.required(true),
"Stake account to merge into")
)
.arg(
pubkey!(Arg::with_name("source_stake_account_pubkey")
.index(2)
.value_name("SOURCE_STAKE_ACCOUNT_ADDRESS")
.required(true),
"Source stake account for the merge. If successful, this stake account will no longer exist after the merge")
)
.arg(stake_authority_arg())
.offline_args()
.arg(nonce_arg())
.arg(nonce_authority_arg())
.arg(fee_payer_arg())
)
.subcommand(
SubCommand::with_name("withdraw-stake")
.about("Withdraw the unstaked SOL from the stake account")
.arg(
pubkey!(Arg::with_name("stake_account_pubkey")
.index(1)
.value_name("STAKE_ACCOUNT_ADDRESS")
.required(true),
"Stake account from which to withdraw")
)
.arg(
pubkey!(Arg::with_name("destination_account_pubkey")
.index(2)
.value_name("RECIPIENT_ADDRESS")
.required(true),
"Recipient of withdrawn SOL")
)
.arg(
Arg::with_name("amount")
.index(3)
.value_name("AMOUNT")
.takes_value(true)
.validator(is_amount)
.required(true)
.help("The amount to withdraw from the stake account, in SOL")
)
.arg(withdraw_authority_arg())
.offline_args()
.arg(nonce_arg())
.arg(nonce_authority_arg())
.arg(fee_payer_arg())
.arg(
Arg::with_name("custodian")
.long("custodian")
.takes_value(true)
.value_name("KEYPAIR")
.validator(is_valid_signer)
.help("Authority to override account lockup")
)
)
.subcommand(
SubCommand::with_name("stake-set-lockup")
.about("Set Lockup for the stake account")
.arg(
pubkey!(Arg::with_name("stake_account_pubkey")
.index(1)
.value_name("STAKE_ACCOUNT_ADDRESS")
.required(true),
"Stake account for which to set lockup parameters. ")
)
.arg(
Arg::with_name("lockup_epoch")
.long("lockup-epoch")
.value_name("NUMBER")
.takes_value(true)
.help("The epoch height at which this account will be available for withdrawal")
)
.arg(
Arg::with_name("lockup_date")
.long("lockup-date")
.value_name("RFC3339 DATETIME")
.validator(is_rfc3339_datetime)
.takes_value(true)
.help("The date and time at which this account will be available for withdrawal")
)
.arg(
pubkey!(Arg::with_name("new_custodian")
.long("new-custodian")
.value_name("PUBKEY"),
"Identity of a new lockup custodian. ")
)
.group(ArgGroup::with_name("lockup_details")
.args(&["lockup_epoch", "lockup_date", "new_custodian"])
.multiple(true)
.required(true))
.arg(
Arg::with_name("custodian")
.long("custodian")
.takes_value(true)
.value_name("KEYPAIR")
.validator(is_valid_signer)
.help("Keypair of the existing custodian [default: cli config pubkey]")
)
.offline_args()
.arg(nonce_arg())
.arg(nonce_authority_arg())
.arg(fee_payer_arg())
)
.subcommand(
SubCommand::with_name("stake-account")
.about("Show the contents of a stake account")
.alias("show-stake-account")
.arg(
pubkey!(Arg::with_name("stake_account_pubkey")
.index(1)
.value_name("STAKE_ACCOUNT_ADDRESS")
.required(true),
"The stake account to display. ")
)
.arg(
Arg::with_name("lamports")
.long("lamports")
.takes_value(false)
.help("Display balance in lamports instead of SOL")
)
)
.subcommand(
SubCommand::with_name("stake-history")
.about("Show the stake history")
.alias("show-stake-history")
.arg(
Arg::with_name("lamports")
.long("lamports")
.takes_value(false)
.help("Display balance in lamports instead of SOL")
)
)
}
}
pub fn parse_stake_create_account(
matches: &ArgMatches<'_>,
default_signer_path: &str,
wallet_manager: &mut Option<Arc<RemoteWalletManager>>,
) -> Result<CliCommandInfo, CliError> {
let seed = matches.value_of("seed").map(|s| s.to_string());
let epoch = value_of(matches, "lockup_epoch").unwrap_or(0);
let unix_timestamp = unix_timestamp_from_rfc3339_datetime(matches, "lockup_date").unwrap_or(0);
let custodian = pubkey_of_signer(matches, "custodian", wallet_manager)?.unwrap_or_default();
let staker = pubkey_of_signer(matches, STAKE_AUTHORITY_ARG.name, wallet_manager)?;
let withdrawer = pubkey_of_signer(matches, WITHDRAW_AUTHORITY_ARG.name, wallet_manager)?;
let amount = SpendAmount::new_from_matches(matches, "amount");
let sign_only = matches.is_present(SIGN_ONLY_ARG.name);
let blockhash_query = BlockhashQuery::new_from_matches(matches);
let nonce_account = pubkey_of_signer(matches, NONCE_ARG.name, wallet_manager)?;
let (nonce_authority, nonce_authority_pubkey) =
signer_of(matches, NONCE_AUTHORITY_ARG.name, wallet_manager)?;
let (fee_payer, fee_payer_pubkey) = signer_of(matches, FEE_PAYER_ARG.name, wallet_manager)?;
let (from, from_pubkey) = signer_of(matches, "from", wallet_manager)?;
let (stake_account, stake_account_pubkey) =
signer_of(matches, "stake_account", wallet_manager)?;
let mut bulk_signers = vec![fee_payer, from, stake_account];
if nonce_account.is_some() {
bulk_signers.push(nonce_authority);
}
let signer_info =
generate_unique_signers(bulk_signers, matches, default_signer_path, wallet_manager)?;
Ok(CliCommandInfo {
command: CliCommand::CreateStakeAccount {
stake_account: signer_info.index_of(stake_account_pubkey).unwrap(),
seed,
staker,
withdrawer,
lockup: Lockup {
custodian,
epoch,
unix_timestamp,
},
amount,
sign_only,
blockhash_query,
nonce_account,
nonce_authority: signer_info.index_of(nonce_authority_pubkey).unwrap(),
fee_payer: signer_info.index_of(fee_payer_pubkey).unwrap(),
from: signer_info.index_of(from_pubkey).unwrap(),
},
signers: signer_info.signers,
})
}
pub fn parse_stake_delegate_stake(
matches: &ArgMatches<'_>,
default_signer_path: &str,
wallet_manager: &mut Option<Arc<RemoteWalletManager>>,
) -> Result<CliCommandInfo, CliError> {
let stake_account_pubkey =
pubkey_of_signer(matches, "stake_account_pubkey", wallet_manager)?.unwrap();
let vote_account_pubkey =
pubkey_of_signer(matches, "vote_account_pubkey", wallet_manager)?.unwrap();
let force = matches.is_present("force");
let sign_only = matches.is_present(SIGN_ONLY_ARG.name);
let blockhash_query = BlockhashQuery::new_from_matches(matches);
let nonce_account = pubkey_of(matches, NONCE_ARG.name);
let (stake_authority, stake_authority_pubkey) =
signer_of(matches, STAKE_AUTHORITY_ARG.name, wallet_manager)?;
let (nonce_authority, nonce_authority_pubkey) =
signer_of(matches, NONCE_AUTHORITY_ARG.name, wallet_manager)?;
let (fee_payer, fee_payer_pubkey) = signer_of(matches, FEE_PAYER_ARG.name, wallet_manager)?;
let mut bulk_signers = vec![stake_authority, fee_payer];
if nonce_account.is_some() {
bulk_signers.push(nonce_authority);
}
let signer_info =
generate_unique_signers(bulk_signers, matches, default_signer_path, wallet_manager)?;
Ok(CliCommandInfo {
command: CliCommand::DelegateStake {
stake_account_pubkey,
vote_account_pubkey,
stake_authority: signer_info.index_of(stake_authority_pubkey).unwrap(),
force,
sign_only,
blockhash_query,
nonce_account,
nonce_authority: signer_info.index_of(nonce_authority_pubkey).unwrap(),
fee_payer: signer_info.index_of(fee_payer_pubkey).unwrap(),
},
signers: signer_info.signers,
})
}
pub fn parse_stake_authorize(
matches: &ArgMatches<'_>,
default_signer_path: &str,
wallet_manager: &mut Option<Arc<RemoteWalletManager>>,
) -> Result<CliCommandInfo, CliError> {
let stake_account_pubkey =
pubkey_of_signer(matches, "stake_account_pubkey", wallet_manager)?.unwrap();
let mut new_authorizations = Vec::new();
let mut bulk_signers = Vec::new();
if let Some(new_authority_pubkey) =
pubkey_of_signer(matches, "new_stake_authority", wallet_manager)?
{
let (authority, authority_pubkey) = {
let (authority, authority_pubkey) =
signer_of(matches, STAKE_AUTHORITY_ARG.name, wallet_manager)?;
if authority.is_none() {
signer_of(matches, WITHDRAW_AUTHORITY_ARG.name, wallet_manager)?
} else {
(authority, authority_pubkey)
}
};
new_authorizations.push((
StakeAuthorize::Staker,
new_authority_pubkey,
authority_pubkey,
));
bulk_signers.push(authority);
};
if let Some(new_authority_pubkey) =
pubkey_of_signer(matches, "new_withdraw_authority", wallet_manager)?
{
let (authority, authority_pubkey) =
signer_of(matches, WITHDRAW_AUTHORITY_ARG.name, wallet_manager)?;
new_authorizations.push((
StakeAuthorize::Withdrawer,
new_authority_pubkey,
authority_pubkey,
));
bulk_signers.push(authority);
};
let sign_only = matches.is_present(SIGN_ONLY_ARG.name);
let blockhash_query = BlockhashQuery::new_from_matches(matches);
let nonce_account = pubkey_of(matches, NONCE_ARG.name);
let (nonce_authority, nonce_authority_pubkey) =
signer_of(matches, NONCE_AUTHORITY_ARG.name, wallet_manager)?;
let (fee_payer, fee_payer_pubkey) = signer_of(matches, FEE_PAYER_ARG.name, wallet_manager)?;
bulk_signers.push(fee_payer);
if nonce_account.is_some() {
bulk_signers.push(nonce_authority);
}
let signer_info =
generate_unique_signers(bulk_signers, matches, default_signer_path, wallet_manager)?;
let new_authorizations = new_authorizations
.into_iter()
.map(
|(stake_authorize, new_authority_pubkey, authority_pubkey)| {
(
stake_authorize,
new_authority_pubkey,
signer_info.index_of(authority_pubkey).unwrap(),
)
},
)
.collect();
Ok(CliCommandInfo {
command: CliCommand::StakeAuthorize {
stake_account_pubkey,
new_authorizations,
sign_only,
blockhash_query,
nonce_account,
nonce_authority: signer_info.index_of(nonce_authority_pubkey).unwrap(),
fee_payer: signer_info.index_of(fee_payer_pubkey).unwrap(),
},
signers: signer_info.signers,
})
}
pub fn parse_split_stake(
matches: &ArgMatches<'_>,
default_signer_path: &str,
wallet_manager: &mut Option<Arc<RemoteWalletManager>>,
) -> Result<CliCommandInfo, CliError> {
let stake_account_pubkey =
pubkey_of_signer(matches, "stake_account_pubkey", wallet_manager)?.unwrap();
let (split_stake_account, split_stake_account_pubkey) =
signer_of(matches, "split_stake_account", wallet_manager)?;
let lamports = lamports_of_sol(matches, "amount").unwrap();
let seed = matches.value_of("seed").map(|s| s.to_string());
let sign_only = matches.is_present(SIGN_ONLY_ARG.name);
let blockhash_query = BlockhashQuery::new_from_matches(matches);
let nonce_account = pubkey_of(matches, NONCE_ARG.name);
let (stake_authority, stake_authority_pubkey) =
signer_of(matches, STAKE_AUTHORITY_ARG.name, wallet_manager)?;
let (nonce_authority, nonce_authority_pubkey) =
signer_of(matches, NONCE_AUTHORITY_ARG.name, wallet_manager)?;
let (fee_payer, fee_payer_pubkey) = signer_of(matches, FEE_PAYER_ARG.name, wallet_manager)?;
let mut bulk_signers = vec![stake_authority, fee_payer, split_stake_account];
if nonce_account.is_some() {
bulk_signers.push(nonce_authority);
}
let signer_info =
generate_unique_signers(bulk_signers, matches, default_signer_path, wallet_manager)?;
Ok(CliCommandInfo {
command: CliCommand::SplitStake {
stake_account_pubkey,
stake_authority: signer_info.index_of(stake_authority_pubkey).unwrap(),
sign_only,
blockhash_query,
nonce_account,
nonce_authority: signer_info.index_of(nonce_authority_pubkey).unwrap(),
split_stake_account: signer_info.index_of(split_stake_account_pubkey).unwrap(),
seed,
lamports,
fee_payer: signer_info.index_of(fee_payer_pubkey).unwrap(),
},
signers: signer_info.signers,
})
}
pub fn parse_merge_stake(
matches: &ArgMatches<'_>,
default_signer_path: &str,
wallet_manager: &mut Option<Arc<RemoteWalletManager>>,
) -> Result<CliCommandInfo, CliError> {
let stake_account_pubkey =
pubkey_of_signer(matches, "stake_account_pubkey", wallet_manager)?.unwrap();
let source_stake_account_pubkey = pubkey_of(matches, "source_stake_account_pubkey").unwrap();
let sign_only = matches.is_present(SIGN_ONLY_ARG.name);
let blockhash_query = BlockhashQuery::new_from_matches(matches);
let nonce_account = pubkey_of(matches, NONCE_ARG.name);
let (stake_authority, stake_authority_pubkey) =
signer_of(matches, STAKE_AUTHORITY_ARG.name, wallet_manager)?;
let (nonce_authority, nonce_authority_pubkey) =
signer_of(matches, NONCE_AUTHORITY_ARG.name, wallet_manager)?;
let (fee_payer, fee_payer_pubkey) = signer_of(matches, FEE_PAYER_ARG.name, wallet_manager)?;
let mut bulk_signers = vec![stake_authority, fee_payer];
if nonce_account.is_some() {
bulk_signers.push(nonce_authority);
}
let signer_info =
generate_unique_signers(bulk_signers, matches, default_signer_path, wallet_manager)?;
Ok(CliCommandInfo {
command: CliCommand::MergeStake {
stake_account_pubkey,
source_stake_account_pubkey,
stake_authority: signer_info.index_of(stake_authority_pubkey).unwrap(),
sign_only,
blockhash_query,
nonce_account,
nonce_authority: signer_info.index_of(nonce_authority_pubkey).unwrap(),
fee_payer: signer_info.index_of(fee_payer_pubkey).unwrap(),
},
signers: signer_info.signers,
})
}
pub fn parse_stake_deactivate_stake(
matches: &ArgMatches<'_>,
default_signer_path: &str,
wallet_manager: &mut Option<Arc<RemoteWalletManager>>,
) -> Result<CliCommandInfo, CliError> {
let stake_account_pubkey =
pubkey_of_signer(matches, "stake_account_pubkey", wallet_manager)?.unwrap();
let sign_only = matches.is_present(SIGN_ONLY_ARG.name);
let blockhash_query = BlockhashQuery::new_from_matches(matches);
let nonce_account = pubkey_of(matches, NONCE_ARG.name);
let (stake_authority, stake_authority_pubkey) =
signer_of(matches, STAKE_AUTHORITY_ARG.name, wallet_manager)?;
let (nonce_authority, nonce_authority_pubkey) =
signer_of(matches, NONCE_AUTHORITY_ARG.name, wallet_manager)?;
let (fee_payer, fee_payer_pubkey) = signer_of(matches, FEE_PAYER_ARG.name, wallet_manager)?;
let mut bulk_signers = vec![stake_authority, fee_payer];
if nonce_account.is_some() {
bulk_signers.push(nonce_authority);
}
let signer_info =
generate_unique_signers(bulk_signers, matches, default_signer_path, wallet_manager)?;
Ok(CliCommandInfo {
command: CliCommand::DeactivateStake {
stake_account_pubkey,
stake_authority: signer_info.index_of(stake_authority_pubkey).unwrap(),
sign_only,
blockhash_query,
nonce_account,
nonce_authority: signer_info.index_of(nonce_authority_pubkey).unwrap(),
fee_payer: signer_info.index_of(fee_payer_pubkey).unwrap(),
},
signers: signer_info.signers,
})
}
pub fn parse_stake_withdraw_stake(
matches: &ArgMatches<'_>,
default_signer_path: &str,
wallet_manager: &mut Option<Arc<RemoteWalletManager>>,
) -> Result<CliCommandInfo, CliError> {
let stake_account_pubkey =
pubkey_of_signer(matches, "stake_account_pubkey", wallet_manager)?.unwrap();
let destination_account_pubkey =
pubkey_of_signer(matches, "destination_account_pubkey", wallet_manager)?.unwrap();
let lamports = lamports_of_sol(matches, "amount").unwrap();
let sign_only = matches.is_present(SIGN_ONLY_ARG.name);
let blockhash_query = BlockhashQuery::new_from_matches(matches);
let nonce_account = pubkey_of(matches, NONCE_ARG.name);
let (withdraw_authority, withdraw_authority_pubkey) =
signer_of(matches, WITHDRAW_AUTHORITY_ARG.name, wallet_manager)?;
let (nonce_authority, nonce_authority_pubkey) =
signer_of(matches, NONCE_AUTHORITY_ARG.name, wallet_manager)?;
let (fee_payer, fee_payer_pubkey) = signer_of(matches, FEE_PAYER_ARG.name, wallet_manager)?;
let (custodian, custodian_pubkey) = signer_of(matches, "custodian", wallet_manager)?;
let mut bulk_signers = vec![withdraw_authority, fee_payer];
if nonce_account.is_some() {
bulk_signers.push(nonce_authority);
}
if custodian.is_some() {
bulk_signers.push(custodian);
}
let signer_info =
generate_unique_signers(bulk_signers, matches, default_signer_path, wallet_manager)?;
Ok(CliCommandInfo {
command: CliCommand::WithdrawStake {
stake_account_pubkey,
destination_account_pubkey,
lamports,
withdraw_authority: signer_info.index_of(withdraw_authority_pubkey).unwrap(),
sign_only,
blockhash_query,
nonce_account,
nonce_authority: signer_info.index_of(nonce_authority_pubkey).unwrap(),
fee_payer: signer_info.index_of(fee_payer_pubkey).unwrap(),
custodian: custodian_pubkey.and_then(|_| signer_info.index_of(custodian_pubkey)),
},
signers: signer_info.signers,
})
}
pub fn parse_stake_set_lockup(
matches: &ArgMatches<'_>,
default_signer_path: &str,
wallet_manager: &mut Option<Arc<RemoteWalletManager>>,
) -> Result<CliCommandInfo, CliError> {
let stake_account_pubkey =
pubkey_of_signer(matches, "stake_account_pubkey", wallet_manager)?.unwrap();
let epoch = value_of(matches, "lockup_epoch");
let unix_timestamp = unix_timestamp_from_rfc3339_datetime(matches, "lockup_date");
let new_custodian = pubkey_of_signer(matches, "new_custodian", wallet_manager)?;
let sign_only = matches.is_present(SIGN_ONLY_ARG.name);
let blockhash_query = BlockhashQuery::new_from_matches(matches);
let nonce_account = pubkey_of(matches, NONCE_ARG.name);
let (custodian, custodian_pubkey) = signer_of(matches, "custodian", wallet_manager)?;
let (nonce_authority, nonce_authority_pubkey) =
signer_of(matches, NONCE_AUTHORITY_ARG.name, wallet_manager)?;
let (fee_payer, fee_payer_pubkey) = signer_of(matches, FEE_PAYER_ARG.name, wallet_manager)?;
let mut bulk_signers = vec![custodian, fee_payer];
if nonce_account.is_some() {
bulk_signers.push(nonce_authority);
}
let signer_info =
generate_unique_signers(bulk_signers, matches, default_signer_path, wallet_manager)?;
Ok(CliCommandInfo {
command: CliCommand::StakeSetLockup {
stake_account_pubkey,
lockup: LockupArgs {
custodian: new_custodian,
epoch,
unix_timestamp,
},
custodian: signer_info.index_of(custodian_pubkey).unwrap(),
sign_only,
blockhash_query,
nonce_account,
nonce_authority: signer_info.index_of(nonce_authority_pubkey).unwrap(),
fee_payer: signer_info.index_of(fee_payer_pubkey).unwrap(),
},
signers: signer_info.signers,
})
}
pub fn parse_show_stake_account(
matches: &ArgMatches<'_>,
wallet_manager: &mut Option<Arc<RemoteWalletManager>>,
) -> Result<CliCommandInfo, CliError> {
let stake_account_pubkey =
pubkey_of_signer(matches, "stake_account_pubkey", wallet_manager)?.unwrap();
let use_lamports_unit = matches.is_present("lamports");
Ok(CliCommandInfo {
command: CliCommand::ShowStakeAccount {
pubkey: stake_account_pubkey,
use_lamports_unit,
},
signers: vec![],
})
}
pub fn parse_show_stake_history(matches: &ArgMatches<'_>) -> Result<CliCommandInfo, CliError> {
let use_lamports_unit = matches.is_present("lamports");
Ok(CliCommandInfo {
command: CliCommand::ShowStakeHistory { use_lamports_unit },
signers: vec![],
})
}
#[allow(clippy::too_many_arguments)]
pub fn process_create_stake_account(
rpc_client: &RpcClient,
config: &CliConfig,
stake_account: SignerIndex,
seed: &Option<String>,
staker: &Option<Pubkey>,
withdrawer: &Option<Pubkey>,
lockup: &Lockup,
amount: SpendAmount,
sign_only: bool,
blockhash_query: &BlockhashQuery,
nonce_account: Option<&Pubkey>,
nonce_authority: SignerIndex,
fee_payer: SignerIndex,
from: SignerIndex,
) -> ProcessResult {
let stake_account = config.signers[stake_account];
let stake_account_address = if let Some(seed) = seed {
Pubkey::create_with_seed(&stake_account.pubkey(), &seed, &solana_stake_program::id())?
} else {
stake_account.pubkey()
};
let from = config.signers[from];
check_unique_pubkeys(
(&from.pubkey(), "from keypair".to_string()),
(&stake_account_address, "stake_account".to_string()),
)?;
let fee_payer = config.signers[fee_payer];
let nonce_authority = config.signers[nonce_authority];
let build_message = |lamports| {
let authorized = Authorized {
staker: staker.unwrap_or(from.pubkey()),
withdrawer: withdrawer.unwrap_or(from.pubkey()),
};
let ixs = if let Some(seed) = seed {
stake_instruction::create_account_with_seed(
&from.pubkey(), &stake_account_address, &stake_account.pubkey(), seed, &authorized,
lockup,
lamports,
)
} else {
stake_instruction::create_account(
&from.pubkey(),
&stake_account.pubkey(),
&authorized,
lockup,
lamports,
)
};
if let Some(nonce_account) = &nonce_account {
Message::new_with_nonce(
ixs,
Some(&fee_payer.pubkey()),
nonce_account,
&nonce_authority.pubkey(),
)
} else {
Message::new(&ixs, Some(&fee_payer.pubkey()))
}
};
let (recent_blockhash, fee_calculator) =
blockhash_query.get_blockhash_and_fee_calculator(rpc_client)?;
let (message, lamports) = resolve_spend_tx_and_check_account_balances(
rpc_client,
sign_only,
amount,
&fee_calculator,
&from.pubkey(),
&fee_payer.pubkey(),
build_message,
)?;
if !sign_only {
if let Ok(stake_account) = rpc_client.get_account(&stake_account_address) {
let err_msg = if stake_account.owner == solana_stake_program::id() {
format!("Stake account {} already exists", stake_account_address)
} else {
format!(
"Account {} already exists and is not a stake account",
stake_account_address
)
};
return Err(CliError::BadParameter(err_msg).into());
}
let minimum_balance =
rpc_client.get_minimum_balance_for_rent_exemption(std::mem::size_of::<StakeState>())?;
if lamports < minimum_balance {
return Err(CliError::BadParameter(format!(
"need at least {} lamports for stake account to be rent exempt, provided lamports: {}",
minimum_balance, lamports
))
.into());
}
if let Some(nonce_account) = &nonce_account {
let nonce_account = rpc_client.get_account(nonce_account)?;
check_nonce_account(&nonce_account, &nonce_authority.pubkey(), &recent_blockhash)?;
}
}
let mut tx = Transaction::new_unsigned(message);
if sign_only {
tx.try_partial_sign(&config.signers, recent_blockhash)?;
return_signers(&tx, &config)
} else {
tx.try_sign(&config.signers, recent_blockhash)?;
let result = rpc_client.send_and_confirm_transaction_with_spinner(&tx);
log_instruction_custom_error::<SystemError>(result, &config)
}
}
#[allow(clippy::too_many_arguments)]
pub fn process_stake_authorize(
rpc_client: &RpcClient,
config: &CliConfig,
stake_account_pubkey: &Pubkey,
new_authorizations: &[(StakeAuthorize, Pubkey, SignerIndex)],
sign_only: bool,
blockhash_query: &BlockhashQuery,
nonce_account: Option<Pubkey>,
nonce_authority: SignerIndex,
fee_payer: SignerIndex,
) -> ProcessResult {
let mut ixs = Vec::new();
for (stake_authorize, authorized_pubkey, authority) in new_authorizations.iter() {
check_unique_pubkeys(
(stake_account_pubkey, "stake_account_pubkey".to_string()),
(authorized_pubkey, "new_authorized_pubkey".to_string()),
)?;
let authority = config.signers[*authority];
ixs.push(stake_instruction::authorize(
stake_account_pubkey, &authority.pubkey(), authorized_pubkey, *stake_authorize, ));
}
let (recent_blockhash, fee_calculator) =
blockhash_query.get_blockhash_and_fee_calculator(rpc_client)?;
let nonce_authority = config.signers[nonce_authority];
let fee_payer = config.signers[fee_payer];
let message = if let Some(nonce_account) = &nonce_account {
Message::new_with_nonce(
ixs,
Some(&fee_payer.pubkey()),
nonce_account,
&nonce_authority.pubkey(),
)
} else {
Message::new(&ixs, Some(&fee_payer.pubkey()))
};
let mut tx = Transaction::new_unsigned(message);
if sign_only {
tx.try_partial_sign(&config.signers, recent_blockhash)?;
return_signers(&tx, &config)
} else {
tx.try_sign(&config.signers, recent_blockhash)?;
if let Some(nonce_account) = &nonce_account {
let nonce_account = rpc_client.get_account(nonce_account)?;
check_nonce_account(&nonce_account, &nonce_authority.pubkey(), &recent_blockhash)?;
}
check_account_for_fee(
rpc_client,
&tx.message.account_keys[0],
&fee_calculator,
&tx.message,
)?;
let result = rpc_client.send_and_confirm_transaction_with_spinner(&tx);
log_instruction_custom_error::<StakeError>(result, &config)
}
}
#[allow(clippy::too_many_arguments)]
pub fn process_deactivate_stake_account(
rpc_client: &RpcClient,
config: &CliConfig,
stake_account_pubkey: &Pubkey,
stake_authority: SignerIndex,
sign_only: bool,
blockhash_query: &BlockhashQuery,
nonce_account: Option<Pubkey>,
nonce_authority: SignerIndex,
fee_payer: SignerIndex,
) -> ProcessResult {
let (recent_blockhash, fee_calculator) =
blockhash_query.get_blockhash_and_fee_calculator(rpc_client)?;
let stake_authority = config.signers[stake_authority];
let ixs = vec![stake_instruction::deactivate_stake(
stake_account_pubkey,
&stake_authority.pubkey(),
)];
let nonce_authority = config.signers[nonce_authority];
let fee_payer = config.signers[fee_payer];
let message = if let Some(nonce_account) = &nonce_account {
Message::new_with_nonce(
ixs,
Some(&fee_payer.pubkey()),
nonce_account,
&nonce_authority.pubkey(),
)
} else {
Message::new(&ixs, Some(&fee_payer.pubkey()))
};
let mut tx = Transaction::new_unsigned(message);
if sign_only {
tx.try_partial_sign(&config.signers, recent_blockhash)?;
return_signers(&tx, &config)
} else {
tx.try_sign(&config.signers, recent_blockhash)?;
if let Some(nonce_account) = &nonce_account {
let nonce_account = rpc_client.get_account(nonce_account)?;
check_nonce_account(&nonce_account, &nonce_authority.pubkey(), &recent_blockhash)?;
}
check_account_for_fee(
rpc_client,
&tx.message.account_keys[0],
&fee_calculator,
&tx.message,
)?;
let result = rpc_client.send_and_confirm_transaction_with_spinner(&tx);
log_instruction_custom_error::<StakeError>(result, &config)
}
}
#[allow(clippy::too_many_arguments)]
pub fn process_withdraw_stake(
rpc_client: &RpcClient,
config: &CliConfig,
stake_account_pubkey: &Pubkey,
destination_account_pubkey: &Pubkey,
lamports: u64,
withdraw_authority: SignerIndex,
custodian: Option<SignerIndex>,
sign_only: bool,
blockhash_query: &BlockhashQuery,
nonce_account: Option<&Pubkey>,
nonce_authority: SignerIndex,
fee_payer: SignerIndex,
) -> ProcessResult {
let (recent_blockhash, fee_calculator) =
blockhash_query.get_blockhash_and_fee_calculator(rpc_client)?;
let withdraw_authority = config.signers[withdraw_authority];
let custodian = custodian.map(|index| config.signers[index]);
let ixs = vec![stake_instruction::withdraw(
stake_account_pubkey,
&withdraw_authority.pubkey(),
destination_account_pubkey,
lamports,
custodian.map(|signer| signer.pubkey()).as_ref(),
)];
let fee_payer = config.signers[fee_payer];
let nonce_authority = config.signers[nonce_authority];
let message = if let Some(nonce_account) = &nonce_account {
Message::new_with_nonce(
ixs,
Some(&fee_payer.pubkey()),
nonce_account,
&nonce_authority.pubkey(),
)
} else {
Message::new(&ixs, Some(&fee_payer.pubkey()))
};
let mut tx = Transaction::new_unsigned(message);
if sign_only {
tx.try_partial_sign(&config.signers, recent_blockhash)?;
return_signers(&tx, &config)
} else {
tx.try_sign(&config.signers, recent_blockhash)?;
if let Some(nonce_account) = &nonce_account {
let nonce_account = rpc_client.get_account(nonce_account)?;
check_nonce_account(&nonce_account, &nonce_authority.pubkey(), &recent_blockhash)?;
}
check_account_for_fee(
rpc_client,
&tx.message.account_keys[0],
&fee_calculator,
&tx.message,
)?;
let result = rpc_client.send_and_confirm_transaction_with_spinner(&tx);
log_instruction_custom_error::<SystemError>(result, &config)
}
}
#[allow(clippy::too_many_arguments)]
pub fn process_split_stake(
rpc_client: &RpcClient,
config: &CliConfig,
stake_account_pubkey: &Pubkey,
stake_authority: SignerIndex,
sign_only: bool,
blockhash_query: &BlockhashQuery,
nonce_account: Option<Pubkey>,
nonce_authority: SignerIndex,
split_stake_account: SignerIndex,
split_stake_account_seed: &Option<String>,
lamports: u64,
fee_payer: SignerIndex,
) -> ProcessResult {
let split_stake_account = config.signers[split_stake_account];
let fee_payer = config.signers[fee_payer];
if split_stake_account_seed.is_none() {
check_unique_pubkeys(
(&fee_payer.pubkey(), "fee-payer keypair".to_string()),
(
&split_stake_account.pubkey(),
"split_stake_account".to_string(),
),
)?;
}
check_unique_pubkeys(
(&fee_payer.pubkey(), "fee-payer keypair".to_string()),
(&stake_account_pubkey, "stake_account".to_string()),
)?;
check_unique_pubkeys(
(&stake_account_pubkey, "stake_account".to_string()),
(
&split_stake_account.pubkey(),
"split_stake_account".to_string(),
),
)?;
let stake_authority = config.signers[stake_authority];
let split_stake_account_address = if let Some(seed) = split_stake_account_seed {
Pubkey::create_with_seed(
&split_stake_account.pubkey(),
&seed,
&solana_stake_program::id(),
)?
} else {
split_stake_account.pubkey()
};
if !sign_only {
if let Ok(stake_account) = rpc_client.get_account(&split_stake_account_address) {
let err_msg = if stake_account.owner == solana_stake_program::id() {
format!(
"Stake account {} already exists",
split_stake_account_address
)
} else {
format!(
"Account {} already exists and is not a stake account",
split_stake_account_address
)
};
return Err(CliError::BadParameter(err_msg).into());
}
let minimum_balance =
rpc_client.get_minimum_balance_for_rent_exemption(std::mem::size_of::<StakeState>())?;
if lamports < minimum_balance {
return Err(CliError::BadParameter(format!(
"need at least {} lamports for stake account to be rent exempt, provided lamports: {}",
minimum_balance, lamports
))
.into());
}
}
let (recent_blockhash, fee_calculator) =
blockhash_query.get_blockhash_and_fee_calculator(rpc_client)?;
let ixs = if let Some(seed) = split_stake_account_seed {
stake_instruction::split_with_seed(
&stake_account_pubkey,
&stake_authority.pubkey(),
lamports,
&split_stake_account_address,
&split_stake_account.pubkey(),
seed,
)
} else {
stake_instruction::split(
&stake_account_pubkey,
&stake_authority.pubkey(),
lamports,
&split_stake_account_address,
)
};
let nonce_authority = config.signers[nonce_authority];
let message = if let Some(nonce_account) = &nonce_account {
Message::new_with_nonce(
ixs,
Some(&fee_payer.pubkey()),
nonce_account,
&nonce_authority.pubkey(),
)
} else {
Message::new(&ixs, Some(&fee_payer.pubkey()))
};
let mut tx = Transaction::new_unsigned(message);
if sign_only {
tx.try_partial_sign(&config.signers, recent_blockhash)?;
return_signers(&tx, &config)
} else {
tx.try_sign(&config.signers, recent_blockhash)?;
if let Some(nonce_account) = &nonce_account {
let nonce_account = rpc_client.get_account(nonce_account)?;
check_nonce_account(&nonce_account, &nonce_authority.pubkey(), &recent_blockhash)?;
}
check_account_for_fee(
rpc_client,
&tx.message.account_keys[0],
&fee_calculator,
&tx.message,
)?;
let result = rpc_client.send_and_confirm_transaction_with_spinner(&tx);
log_instruction_custom_error::<StakeError>(result, &config)
}
}
#[allow(clippy::too_many_arguments)]
pub fn process_merge_stake(
rpc_client: &RpcClient,
config: &CliConfig,
stake_account_pubkey: &Pubkey,
source_stake_account_pubkey: &Pubkey,
stake_authority: SignerIndex,
sign_only: bool,
blockhash_query: &BlockhashQuery,
nonce_account: Option<Pubkey>,
nonce_authority: SignerIndex,
fee_payer: SignerIndex,
) -> ProcessResult {
let fee_payer = config.signers[fee_payer];
check_unique_pubkeys(
(&fee_payer.pubkey(), "fee-payer keypair".to_string()),
(&stake_account_pubkey, "stake_account".to_string()),
)?;
check_unique_pubkeys(
(&fee_payer.pubkey(), "fee-payer keypair".to_string()),
(
&source_stake_account_pubkey,
"source_stake_account".to_string(),
),
)?;
check_unique_pubkeys(
(&stake_account_pubkey, "stake_account".to_string()),
(
&source_stake_account_pubkey,
"source_stake_account".to_string(),
),
)?;
let stake_authority = config.signers[stake_authority];
if !sign_only {
for stake_account_address in &[stake_account_pubkey, source_stake_account_pubkey] {
if let Ok(stake_account) = rpc_client.get_account(stake_account_address) {
if stake_account.owner != solana_stake_program::id() {
return Err(CliError::BadParameter(format!(
"Account {} is not a stake account",
stake_account_address
))
.into());
}
}
}
}
let (recent_blockhash, fee_calculator) =
blockhash_query.get_blockhash_and_fee_calculator(rpc_client)?;
let ixs = stake_instruction::merge(
&stake_account_pubkey,
&source_stake_account_pubkey,
&stake_authority.pubkey(),
);
let nonce_authority = config.signers[nonce_authority];
let message = if let Some(nonce_account) = &nonce_account {
Message::new_with_nonce(
ixs,
Some(&fee_payer.pubkey()),
nonce_account,
&nonce_authority.pubkey(),
)
} else {
Message::new(&ixs, Some(&fee_payer.pubkey()))
};
let mut tx = Transaction::new_unsigned(message);
if sign_only {
tx.try_partial_sign(&config.signers, recent_blockhash)?;
return_signers(&tx, &config)
} else {
tx.try_sign(&config.signers, recent_blockhash)?;
if let Some(nonce_account) = &nonce_account {
let nonce_account = rpc_client.get_account(nonce_account)?;
check_nonce_account(&nonce_account, &nonce_authority.pubkey(), &recent_blockhash)?;
}
check_account_for_fee(
rpc_client,
&tx.message.account_keys[0],
&fee_calculator,
&tx.message,
)?;
let result = rpc_client.send_and_confirm_transaction_with_spinner(&tx);
log_instruction_custom_error::<StakeError>(result, &config)
}
}
#[allow(clippy::too_many_arguments)]
pub fn process_stake_set_lockup(
rpc_client: &RpcClient,
config: &CliConfig,
stake_account_pubkey: &Pubkey,
lockup: &mut LockupArgs,
custodian: SignerIndex,
sign_only: bool,
blockhash_query: &BlockhashQuery,
nonce_account: Option<Pubkey>,
nonce_authority: SignerIndex,
fee_payer: SignerIndex,
) -> ProcessResult {
let (recent_blockhash, fee_calculator) =
blockhash_query.get_blockhash_and_fee_calculator(rpc_client)?;
let custodian = config.signers[custodian];
let ixs = vec![stake_instruction::set_lockup(
stake_account_pubkey,
lockup,
&custodian.pubkey(),
)];
let nonce_authority = config.signers[nonce_authority];
let fee_payer = config.signers[fee_payer];
let message = if let Some(nonce_account) = &nonce_account {
Message::new_with_nonce(
ixs,
Some(&fee_payer.pubkey()),
nonce_account,
&nonce_authority.pubkey(),
)
} else {
Message::new(&ixs, Some(&fee_payer.pubkey()))
};
let mut tx = Transaction::new_unsigned(message);
if sign_only {
tx.try_partial_sign(&config.signers, recent_blockhash)?;
return_signers(&tx, &config)
} else {
tx.try_sign(&config.signers, recent_blockhash)?;
if let Some(nonce_account) = &nonce_account {
let nonce_account = rpc_client.get_account(nonce_account)?;
check_nonce_account(&nonce_account, &nonce_authority.pubkey(), &recent_blockhash)?;
}
check_account_for_fee(
rpc_client,
&tx.message.account_keys[0],
&fee_calculator,
&tx.message,
)?;
let result = rpc_client.send_and_confirm_transaction_with_spinner(&tx);
log_instruction_custom_error::<StakeError>(result, &config)
}
}
fn u64_some_if_not_zero(n: u64) -> Option<u64> {
if n > 0 {
Some(n)
} else {
None
}
}
pub fn build_stake_state(
account_balance: u64,
stake_state: &StakeState,
use_lamports_unit: bool,
stake_history: &StakeHistory,
) -> CliStakeState {
match stake_state {
StakeState::Stake(
Meta {
rent_exempt_reserve,
authorized,
lockup,
},
stake,
) => {
let current_epoch = stake_history.iter().next().unwrap().0 + 1;
let (active_stake, activating_stake, deactivating_stake) = stake
.delegation
.stake_activating_and_deactivating(current_epoch, Some(stake_history));
CliStakeState {
stake_type: CliStakeType::Stake,
account_balance,
delegated_stake: Some(stake.delegation.stake),
delegated_vote_account_address: if stake.delegation.voter_pubkey
!= Pubkey::default()
{
Some(stake.delegation.voter_pubkey.to_string())
} else {
None
},
activation_epoch: Some(if stake.delegation.activation_epoch < std::u64::MAX {
stake.delegation.activation_epoch
} else {
0
}),
deactivation_epoch: if stake.delegation.deactivation_epoch < std::u64::MAX {
Some(stake.delegation.deactivation_epoch)
} else {
None
},
authorized: Some(authorized.into()),
lockup: Some(lockup.into()),
use_lamports_unit,
current_epoch,
rent_exempt_reserve: Some(*rent_exempt_reserve),
active_stake: u64_some_if_not_zero(active_stake),
activating_stake: u64_some_if_not_zero(activating_stake),
deactivating_stake: u64_some_if_not_zero(deactivating_stake),
}
}
StakeState::RewardsPool => CliStakeState {
stake_type: CliStakeType::RewardsPool,
account_balance,
..CliStakeState::default()
},
StakeState::Uninitialized => CliStakeState {
account_balance,
..CliStakeState::default()
},
StakeState::Initialized(Meta {
rent_exempt_reserve,
authorized,
lockup,
}) => CliStakeState {
stake_type: CliStakeType::Initialized,
account_balance,
authorized: Some(authorized.into()),
lockup: Some(lockup.into()),
use_lamports_unit,
rent_exempt_reserve: Some(*rent_exempt_reserve),
..CliStakeState::default()
},
}
}
pub fn process_show_stake_account(
rpc_client: &RpcClient,
config: &CliConfig,
stake_account_pubkey: &Pubkey,
use_lamports_unit: bool,
) -> ProcessResult {
let stake_account = rpc_client.get_account(stake_account_pubkey)?;
if stake_account.owner != solana_stake_program::id() {
return Err(CliError::RpcRequestError(format!(
"{:?} is not a stake account",
stake_account_pubkey,
))
.into());
}
match stake_account.state() {
Ok(stake_state) => {
let stake_history_account = rpc_client.get_account(&stake_history::id())?;
let stake_history =
StakeHistory::from_account(&stake_history_account).ok_or_else(|| {
CliError::RpcRequestError("Failed to deserialize stake history".to_string())
})?;
let state = build_stake_state(
stake_account.lamports,
&stake_state,
use_lamports_unit,
&stake_history,
);
Ok(config.output_format.formatted_string(&state))
}
Err(err) => Err(CliError::RpcRequestError(format!(
"Account data could not be deserialized to stake state: {}",
err
))
.into()),
}
}
pub fn process_show_stake_history(
rpc_client: &RpcClient,
config: &CliConfig,
use_lamports_unit: bool,
) -> ProcessResult {
let stake_history_account = rpc_client.get_account(&stake_history::id())?;
let stake_history = StakeHistory::from_account(&stake_history_account).ok_or_else(|| {
CliError::RpcRequestError("Failed to deserialize stake history".to_string())
})?;
let mut entries: Vec<CliStakeHistoryEntry> = vec![];
for entry in stake_history.deref() {
entries.push(entry.into());
}
let stake_history_output = CliStakeHistory {
entries,
use_lamports_unit,
};
Ok(config.output_format.formatted_string(&stake_history_output))
}
#[allow(clippy::too_many_arguments)]
pub fn process_delegate_stake(
rpc_client: &RpcClient,
config: &CliConfig,
stake_account_pubkey: &Pubkey,
vote_account_pubkey: &Pubkey,
stake_authority: SignerIndex,
force: bool,
sign_only: bool,
blockhash_query: &BlockhashQuery,
nonce_account: Option<Pubkey>,
nonce_authority: SignerIndex,
fee_payer: SignerIndex,
) -> ProcessResult {
check_unique_pubkeys(
(&config.signers[0].pubkey(), "cli keypair".to_string()),
(stake_account_pubkey, "stake_account_pubkey".to_string()),
)?;
let stake_authority = config.signers[stake_authority];
if !sign_only {
let vote_account_data = rpc_client
.get_account_data(vote_account_pubkey)
.map_err(|_| {
CliError::RpcRequestError(format!(
"Vote account not found: {}",
vote_account_pubkey
))
})?;
let vote_state = VoteState::deserialize(&vote_account_data).map_err(|_| {
CliError::RpcRequestError(
"Account data could not be deserialized to vote state".to_string(),
)
})?;
let sanity_check_result = match vote_state.root_slot {
None => Err(CliError::BadParameter(
"Unable to delegate. Vote account has no root slot".to_string(),
)),
Some(root_slot) => {
let min_root_slot = rpc_client
.get_slot()?
.saturating_sub(DELINQUENT_VALIDATOR_SLOT_DISTANCE);
if root_slot < min_root_slot {
Err(CliError::DynamicProgramError(format!(
"Unable to delegate. Vote account appears delinquent \
because its current root slot, {}, is less than {}",
root_slot, min_root_slot
)))
} else {
Ok(())
}
}
};
if let Err(err) = &sanity_check_result {
if !force {
sanity_check_result?;
} else {
println!("--force supplied, ignoring: {}", err);
}
}
}
let (recent_blockhash, fee_calculator) =
blockhash_query.get_blockhash_and_fee_calculator(rpc_client)?;
let ixs = vec![stake_instruction::delegate_stake(
stake_account_pubkey,
&stake_authority.pubkey(),
vote_account_pubkey,
)];
let nonce_authority = config.signers[nonce_authority];
let fee_payer = config.signers[fee_payer];
let message = if let Some(nonce_account) = &nonce_account {
Message::new_with_nonce(
ixs,
Some(&fee_payer.pubkey()),
nonce_account,
&nonce_authority.pubkey(),
)
} else {
Message::new(&ixs, Some(&fee_payer.pubkey()))
};
let mut tx = Transaction::new_unsigned(message);
if sign_only {
tx.try_partial_sign(&config.signers, recent_blockhash)?;
return_signers(&tx, &config)
} else {
tx.try_sign(&config.signers, recent_blockhash)?;
if let Some(nonce_account) = &nonce_account {
let nonce_account = rpc_client.get_account(nonce_account)?;
check_nonce_account(&nonce_account, &nonce_authority.pubkey(), &recent_blockhash)?;
}
check_account_for_fee(
rpc_client,
&tx.message.account_keys[0],
&fee_calculator,
&tx.message,
)?;
let result = rpc_client.send_and_confirm_transaction_with_spinner(&tx);
log_instruction_custom_error::<StakeError>(result, &config)
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::cli::{app, parse_command};
use solana_sdk::{
hash::Hash,
signature::{
keypair_from_seed, read_keypair_file, write_keypair, Keypair, Presigner, Signer,
},
};
use tempfile::NamedTempFile;
fn make_tmp_file() -> (String, NamedTempFile) {
let tmp_file = NamedTempFile::new().unwrap();
(String::from(tmp_file.path().to_str().unwrap()), tmp_file)
}
#[test]
#[allow(clippy::cognitive_complexity)]
fn test_parse_command() {
let test_commands = app("test", "desc", "version");
let default_keypair = Keypair::new();
let (default_keypair_file, mut tmp_file) = make_tmp_file();
write_keypair(&default_keypair, tmp_file.as_file_mut()).unwrap();
let (keypair_file, mut tmp_file) = make_tmp_file();
let stake_account_keypair = Keypair::new();
write_keypair(&stake_account_keypair, tmp_file.as_file_mut()).unwrap();
let stake_account_pubkey = stake_account_keypair.pubkey();
let (stake_authority_keypair_file, mut tmp_file) = make_tmp_file();
let stake_authority_keypair = Keypair::new();
write_keypair(&stake_authority_keypair, tmp_file.as_file_mut()).unwrap();
let (custodian_keypair_file, mut tmp_file) = make_tmp_file();
let custodian_keypair = Keypair::new();
write_keypair(&custodian_keypair, tmp_file.as_file_mut()).unwrap();
let stake_account_string = stake_account_pubkey.to_string();
let new_stake_authority = Pubkey::new(&[1u8; 32]);
let new_stake_string = new_stake_authority.to_string();
let new_withdraw_authority = Pubkey::new(&[2u8; 32]);
let new_withdraw_string = new_withdraw_authority.to_string();
let test_stake_authorize = test_commands.clone().get_matches_from(vec![
"test",
"stake-authorize",
&stake_account_string,
"--new-stake-authority",
&new_stake_string,
"--new-withdraw-authority",
&new_withdraw_string,
]);
assert_eq!(
parse_command(&test_stake_authorize, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::StakeAuthorize {
stake_account_pubkey,
new_authorizations: vec![
(StakeAuthorize::Staker, new_stake_authority, 0,),
(StakeAuthorize::Withdrawer, new_withdraw_authority, 0,),
],
sign_only: false,
blockhash_query: BlockhashQuery::All(blockhash_query::Source::Cluster),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![read_keypair_file(&default_keypair_file).unwrap().into(),],
},
);
let (withdraw_authority_keypair_file, mut tmp_file) = make_tmp_file();
let withdraw_authority_keypair = Keypair::new();
write_keypair(&withdraw_authority_keypair, tmp_file.as_file_mut()).unwrap();
let test_stake_authorize = test_commands.clone().get_matches_from(vec![
"test",
"stake-authorize",
&stake_account_string,
"--new-stake-authority",
&new_stake_string,
"--new-withdraw-authority",
&new_withdraw_string,
"--stake-authority",
&stake_authority_keypair_file,
"--withdraw-authority",
&withdraw_authority_keypair_file,
]);
assert_eq!(
parse_command(&test_stake_authorize, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::StakeAuthorize {
stake_account_pubkey,
new_authorizations: vec![
(StakeAuthorize::Staker, new_stake_authority, 1,),
(StakeAuthorize::Withdrawer, new_withdraw_authority, 2,),
],
sign_only: false,
blockhash_query: BlockhashQuery::All(blockhash_query::Source::Cluster),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
read_keypair_file(&stake_authority_keypair_file)
.unwrap()
.into(),
read_keypair_file(&withdraw_authority_keypair_file)
.unwrap()
.into(),
],
},
);
let test_stake_authorize = test_commands.clone().get_matches_from(vec![
"test",
"stake-authorize",
&stake_account_string,
"--new-stake-authority",
&new_stake_string,
"--new-withdraw-authority",
&new_withdraw_string,
"--withdraw-authority",
&withdraw_authority_keypair_file,
]);
assert_eq!(
parse_command(&test_stake_authorize, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::StakeAuthorize {
stake_account_pubkey,
new_authorizations: vec![
(StakeAuthorize::Staker, new_stake_authority, 1,),
(StakeAuthorize::Withdrawer, new_withdraw_authority, 1,),
],
sign_only: false,
blockhash_query: BlockhashQuery::All(blockhash_query::Source::Cluster),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
read_keypair_file(&withdraw_authority_keypair_file)
.unwrap()
.into(),
],
},
);
let test_stake_authorize = test_commands.clone().get_matches_from(vec![
"test",
"stake-authorize",
&stake_account_string,
"--new-stake-authority",
&new_stake_string,
]);
assert_eq!(
parse_command(&test_stake_authorize, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::StakeAuthorize {
stake_account_pubkey,
new_authorizations: vec![(StakeAuthorize::Staker, new_stake_authority, 0,),],
sign_only: false,
blockhash_query: BlockhashQuery::All(blockhash_query::Source::Cluster),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![read_keypair_file(&default_keypair_file).unwrap().into(),],
},
);
let test_stake_authorize = test_commands.clone().get_matches_from(vec![
"test",
"stake-authorize",
&stake_account_string,
"--new-stake-authority",
&new_stake_string,
"--stake-authority",
&stake_authority_keypair_file,
]);
assert_eq!(
parse_command(&test_stake_authorize, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::StakeAuthorize {
stake_account_pubkey,
new_authorizations: vec![(StakeAuthorize::Staker, new_stake_authority, 1,),],
sign_only: false,
blockhash_query: BlockhashQuery::All(blockhash_query::Source::Cluster),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
read_keypair_file(&stake_authority_keypair_file)
.unwrap()
.into(),
],
},
);
let test_stake_authorize = test_commands.clone().get_matches_from(vec![
"test",
"stake-authorize",
&stake_account_string,
"--new-stake-authority",
&new_stake_string,
"--withdraw-authority",
&withdraw_authority_keypair_file,
]);
assert_eq!(
parse_command(&test_stake_authorize, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::StakeAuthorize {
stake_account_pubkey,
new_authorizations: vec![(StakeAuthorize::Staker, new_stake_authority, 1,),],
sign_only: false,
blockhash_query: BlockhashQuery::All(blockhash_query::Source::Cluster),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
read_keypair_file(&withdraw_authority_keypair_file)
.unwrap()
.into(),
],
},
);
let test_stake_authorize = test_commands.clone().get_matches_from(vec![
"test",
"stake-authorize",
&stake_account_string,
"--new-withdraw-authority",
&new_withdraw_string,
]);
assert_eq!(
parse_command(&test_stake_authorize, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::StakeAuthorize {
stake_account_pubkey,
new_authorizations: vec![(
StakeAuthorize::Withdrawer,
new_withdraw_authority,
0,
),],
sign_only: false,
blockhash_query: BlockhashQuery::All(blockhash_query::Source::Cluster),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![read_keypair_file(&default_keypair_file).unwrap().into(),],
},
);
let test_stake_authorize = test_commands.clone().get_matches_from(vec![
"test",
"stake-authorize",
&stake_account_string,
"--new-withdraw-authority",
&new_withdraw_string,
"--withdraw-authority",
&withdraw_authority_keypair_file,
]);
assert_eq!(
parse_command(&test_stake_authorize, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::StakeAuthorize {
stake_account_pubkey,
new_authorizations: vec![(
StakeAuthorize::Withdrawer,
new_withdraw_authority,
1,
),],
sign_only: false,
blockhash_query: BlockhashQuery::All(blockhash_query::Source::Cluster),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
read_keypair_file(&withdraw_authority_keypair_file)
.unwrap()
.into(),
],
},
);
let blockhash = Hash::default();
let blockhash_string = format!("{}", blockhash);
let test_authorize = test_commands.clone().get_matches_from(vec![
"test",
"stake-authorize",
&stake_account_string,
"--new-stake-authority",
&stake_account_string,
"--blockhash",
&blockhash_string,
"--sign-only",
]);
assert_eq!(
parse_command(&test_authorize, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::StakeAuthorize {
stake_account_pubkey,
new_authorizations: vec![(StakeAuthorize::Staker, stake_account_pubkey, 0)],
sign_only: true,
blockhash_query: BlockhashQuery::None(blockhash),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![read_keypair_file(&default_keypair_file).unwrap().into()],
}
);
let keypair = Keypair::new();
let pubkey = keypair.pubkey();
let sig = keypair.sign_message(&[0u8]);
let signer = format!("{}={}", keypair.pubkey(), sig);
let test_authorize = test_commands.clone().get_matches_from(vec![
"test",
"stake-authorize",
&stake_account_string,
"--new-stake-authority",
&stake_account_string,
"--blockhash",
&blockhash_string,
"--signer",
&signer,
"--fee-payer",
&pubkey.to_string(),
]);
assert_eq!(
parse_command(&test_authorize, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::StakeAuthorize {
stake_account_pubkey,
new_authorizations: vec![(StakeAuthorize::Staker, stake_account_pubkey, 0)],
sign_only: false,
blockhash_query: BlockhashQuery::FeeCalculator(
blockhash_query::Source::Cluster,
blockhash
),
nonce_account: None,
nonce_authority: 0,
fee_payer: 1,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
Presigner::new(&pubkey, &sig).into()
],
}
);
let keypair2 = Keypair::new();
let pubkey2 = keypair2.pubkey();
let sig2 = keypair.sign_message(&[0u8]);
let signer2 = format!("{}={}", keypair2.pubkey(), sig2);
let nonce_account = Pubkey::new(&[1u8; 32]);
let test_authorize = test_commands.clone().get_matches_from(vec![
"test",
"stake-authorize",
&stake_account_string,
"--new-stake-authority",
&stake_account_string,
"--blockhash",
&blockhash_string,
"--signer",
&signer,
"--signer",
&signer2,
"--fee-payer",
&pubkey.to_string(),
"--nonce",
&nonce_account.to_string(),
"--nonce-authority",
&pubkey2.to_string(),
]);
assert_eq!(
parse_command(&test_authorize, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::StakeAuthorize {
stake_account_pubkey,
new_authorizations: vec![(StakeAuthorize::Staker, stake_account_pubkey, 0)],
sign_only: false,
blockhash_query: BlockhashQuery::FeeCalculator(
blockhash_query::Source::NonceAccount(nonce_account),
blockhash
),
nonce_account: Some(nonce_account),
nonce_authority: 2,
fee_payer: 1,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
Presigner::new(&pubkey, &sig).into(),
Presigner::new(&pubkey2, &sig2).into(),
],
}
);
let test_authorize = test_commands.clone().get_matches_from(vec![
"test",
"stake-authorize",
&stake_account_string,
"--new-stake-authority",
&stake_account_string,
"--blockhash",
&blockhash_string,
]);
assert_eq!(
parse_command(&test_authorize, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::StakeAuthorize {
stake_account_pubkey,
new_authorizations: vec![(StakeAuthorize::Staker, stake_account_pubkey, 0)],
sign_only: false,
blockhash_query: BlockhashQuery::FeeCalculator(
blockhash_query::Source::Cluster,
blockhash
),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![read_keypair_file(&default_keypair_file).unwrap().into()],
}
);
let (nonce_keypair_file, mut nonce_tmp_file) = make_tmp_file();
let nonce_authority_keypair = Keypair::new();
write_keypair(&nonce_authority_keypair, nonce_tmp_file.as_file_mut()).unwrap();
let nonce_account_pubkey = nonce_authority_keypair.pubkey();
let nonce_account_string = nonce_account_pubkey.to_string();
let test_authorize = test_commands.clone().get_matches_from(vec![
"test",
"stake-authorize",
&stake_account_string,
"--new-stake-authority",
&stake_account_string,
"--blockhash",
&blockhash_string,
"--nonce",
&nonce_account_string,
"--nonce-authority",
&nonce_keypair_file,
]);
assert_eq!(
parse_command(&test_authorize, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::StakeAuthorize {
stake_account_pubkey,
new_authorizations: vec![(StakeAuthorize::Staker, stake_account_pubkey, 0)],
sign_only: false,
blockhash_query: BlockhashQuery::FeeCalculator(
blockhash_query::Source::NonceAccount(nonce_account_pubkey),
blockhash
),
nonce_account: Some(nonce_account_pubkey),
nonce_authority: 1,
fee_payer: 0,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
nonce_authority_keypair.into()
],
}
);
let (fee_payer_keypair_file, mut fee_payer_tmp_file) = make_tmp_file();
let fee_payer_keypair = Keypair::new();
write_keypair(&fee_payer_keypair, fee_payer_tmp_file.as_file_mut()).unwrap();
let fee_payer_pubkey = fee_payer_keypair.pubkey();
let fee_payer_string = fee_payer_pubkey.to_string();
let test_authorize = test_commands.clone().get_matches_from(vec![
"test",
"stake-authorize",
&stake_account_string,
"--new-stake-authority",
&stake_account_string,
"--fee-payer",
&fee_payer_keypair_file,
]);
assert_eq!(
parse_command(&test_authorize, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::StakeAuthorize {
stake_account_pubkey,
new_authorizations: vec![(StakeAuthorize::Staker, stake_account_pubkey, 0)],
sign_only: false,
blockhash_query: BlockhashQuery::All(blockhash_query::Source::Cluster),
nonce_account: None,
nonce_authority: 0,
fee_payer: 1,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
read_keypair_file(&fee_payer_keypair_file).unwrap().into(),
],
}
);
let sig = fee_payer_keypair.sign_message(&[0u8]);
let signer = format!("{}={}", fee_payer_string, sig);
let test_authorize = test_commands.clone().get_matches_from(vec![
"test",
"stake-authorize",
&stake_account_string,
"--new-stake-authority",
&stake_account_string,
"--fee-payer",
&fee_payer_string,
"--blockhash",
&blockhash_string,
"--signer",
&signer,
]);
assert_eq!(
parse_command(&test_authorize, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::StakeAuthorize {
stake_account_pubkey,
new_authorizations: vec![(StakeAuthorize::Staker, stake_account_pubkey, 0)],
sign_only: false,
blockhash_query: BlockhashQuery::FeeCalculator(
blockhash_query::Source::Cluster,
blockhash
),
nonce_account: None,
nonce_authority: 0,
fee_payer: 1,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
Presigner::new(&fee_payer_pubkey, &sig).into()
],
}
);
let custodian = Pubkey::new_rand();
let custodian_string = format!("{}", custodian);
let authorized = Pubkey::new_rand();
let authorized_string = format!("{}", authorized);
let test_create_stake_account = test_commands.clone().get_matches_from(vec![
"test",
"create-stake-account",
&keypair_file,
"50",
"--stake-authority",
&authorized_string,
"--withdraw-authority",
&authorized_string,
"--custodian",
&custodian_string,
"--lockup-epoch",
"43",
]);
assert_eq!(
parse_command(&test_create_stake_account, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::CreateStakeAccount {
stake_account: 1,
seed: None,
staker: Some(authorized),
withdrawer: Some(authorized),
lockup: Lockup {
epoch: 43,
unix_timestamp: 0,
custodian,
},
amount: SpendAmount::Some(50_000_000_000),
sign_only: false,
blockhash_query: BlockhashQuery::All(blockhash_query::Source::Cluster),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
from: 0,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
stake_account_keypair.into()
],
}
);
let (keypair_file, mut tmp_file) = make_tmp_file();
let stake_account_keypair = Keypair::new();
write_keypair(&stake_account_keypair, tmp_file.as_file_mut()).unwrap();
let stake_account_pubkey = stake_account_keypair.pubkey();
let stake_account_string = stake_account_pubkey.to_string();
let test_create_stake_account2 = test_commands.clone().get_matches_from(vec![
"test",
"create-stake-account",
&keypair_file,
"50",
]);
assert_eq!(
parse_command(
&test_create_stake_account2,
&default_keypair_file,
&mut None
)
.unwrap(),
CliCommandInfo {
command: CliCommand::CreateStakeAccount {
stake_account: 1,
seed: None,
staker: None,
withdrawer: None,
lockup: Lockup::default(),
amount: SpendAmount::Some(50_000_000_000),
sign_only: false,
blockhash_query: BlockhashQuery::All(blockhash_query::Source::Cluster),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
from: 0,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
read_keypair_file(&keypair_file).unwrap().into()
],
}
);
let nonce_account = Pubkey::new(&[1u8; 32]);
let nonce_account_string = nonce_account.to_string();
let offline = keypair_from_seed(&[2u8; 32]).unwrap();
let offline_pubkey = offline.pubkey();
let offline_string = offline_pubkey.to_string();
let offline_sig = offline.sign_message(&[3u8]);
let offline_signer = format!("{}={}", offline_pubkey, offline_sig);
let nonce_hash = Hash::new(&[4u8; 32]);
let nonce_hash_string = nonce_hash.to_string();
let test_create_stake_account2 = test_commands.clone().get_matches_from(vec![
"test",
"create-stake-account",
&keypair_file,
"50",
"--blockhash",
&nonce_hash_string,
"--nonce",
&nonce_account_string,
"--nonce-authority",
&offline_string,
"--fee-payer",
&offline_string,
"--from",
&offline_string,
"--signer",
&offline_signer,
]);
assert_eq!(
parse_command(
&test_create_stake_account2,
&default_keypair_file,
&mut None
)
.unwrap(),
CliCommandInfo {
command: CliCommand::CreateStakeAccount {
stake_account: 1,
seed: None,
staker: None,
withdrawer: None,
lockup: Lockup::default(),
amount: SpendAmount::Some(50_000_000_000),
sign_only: false,
blockhash_query: BlockhashQuery::FeeCalculator(
blockhash_query::Source::NonceAccount(nonce_account),
nonce_hash
),
nonce_account: Some(nonce_account),
nonce_authority: 0,
fee_payer: 0,
from: 0,
},
signers: vec![
Presigner::new(&offline_pubkey, &offline_sig).into(),
read_keypair_file(&keypair_file).unwrap().into()
],
}
);
let vote_account_pubkey = Pubkey::new_rand();
let vote_account_string = vote_account_pubkey.to_string();
let test_delegate_stake = test_commands.clone().get_matches_from(vec![
"test",
"delegate-stake",
&stake_account_string,
&vote_account_string,
]);
assert_eq!(
parse_command(&test_delegate_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::DelegateStake {
stake_account_pubkey,
vote_account_pubkey,
stake_authority: 0,
force: false,
sign_only: false,
blockhash_query: BlockhashQuery::default(),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![read_keypair_file(&default_keypair_file).unwrap().into()],
}
);
let vote_account_pubkey = Pubkey::new_rand();
let vote_account_string = vote_account_pubkey.to_string();
let test_delegate_stake = test_commands.clone().get_matches_from(vec![
"test",
"delegate-stake",
&stake_account_string,
&vote_account_string,
"--stake-authority",
&stake_authority_keypair_file,
]);
assert_eq!(
parse_command(&test_delegate_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::DelegateStake {
stake_account_pubkey,
vote_account_pubkey,
stake_authority: 1,
force: false,
sign_only: false,
blockhash_query: BlockhashQuery::default(),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
read_keypair_file(&stake_authority_keypair_file)
.unwrap()
.into()
],
}
);
let test_delegate_stake = test_commands.clone().get_matches_from(vec![
"test",
"delegate-stake",
"--force",
&stake_account_string,
&vote_account_string,
]);
assert_eq!(
parse_command(&test_delegate_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::DelegateStake {
stake_account_pubkey,
vote_account_pubkey,
stake_authority: 0,
force: true,
sign_only: false,
blockhash_query: BlockhashQuery::default(),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![read_keypair_file(&default_keypair_file).unwrap().into()],
}
);
let blockhash = Hash::default();
let blockhash_string = format!("{}", blockhash);
let test_delegate_stake = test_commands.clone().get_matches_from(vec![
"test",
"delegate-stake",
&stake_account_string,
&vote_account_string,
"--blockhash",
&blockhash_string,
]);
assert_eq!(
parse_command(&test_delegate_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::DelegateStake {
stake_account_pubkey,
vote_account_pubkey,
stake_authority: 0,
force: false,
sign_only: false,
blockhash_query: BlockhashQuery::FeeCalculator(
blockhash_query::Source::Cluster,
blockhash
),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![read_keypair_file(&default_keypair_file).unwrap().into()],
}
);
let test_delegate_stake = test_commands.clone().get_matches_from(vec![
"test",
"delegate-stake",
&stake_account_string,
&vote_account_string,
"--blockhash",
&blockhash_string,
"--sign-only",
]);
assert_eq!(
parse_command(&test_delegate_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::DelegateStake {
stake_account_pubkey,
vote_account_pubkey,
stake_authority: 0,
force: false,
sign_only: true,
blockhash_query: BlockhashQuery::None(blockhash),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![read_keypair_file(&default_keypair_file).unwrap().into()],
}
);
let key1 = Pubkey::new_rand();
let sig1 = Keypair::new().sign_message(&[0u8]);
let signer1 = format!("{}={}", key1, sig1);
let test_delegate_stake = test_commands.clone().get_matches_from(vec![
"test",
"delegate-stake",
&stake_account_string,
&vote_account_string,
"--blockhash",
&blockhash_string,
"--signer",
&signer1,
"--fee-payer",
&key1.to_string(),
]);
assert_eq!(
parse_command(&test_delegate_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::DelegateStake {
stake_account_pubkey,
vote_account_pubkey,
stake_authority: 0,
force: false,
sign_only: false,
blockhash_query: BlockhashQuery::FeeCalculator(
blockhash_query::Source::Cluster,
blockhash
),
nonce_account: None,
nonce_authority: 0,
fee_payer: 1,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
Presigner::new(&key1, &sig1).into()
],
}
);
let key2 = Pubkey::new_rand();
let sig2 = Keypair::new().sign_message(&[0u8]);
let signer2 = format!("{}={}", key2, sig2);
let test_delegate_stake = test_commands.clone().get_matches_from(vec![
"test",
"delegate-stake",
&stake_account_string,
&vote_account_string,
"--blockhash",
&blockhash_string,
"--signer",
&signer1,
"--signer",
&signer2,
"--fee-payer",
&key1.to_string(),
"--nonce",
&nonce_account.to_string(),
"--nonce-authority",
&key2.to_string(),
]);
assert_eq!(
parse_command(&test_delegate_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::DelegateStake {
stake_account_pubkey,
vote_account_pubkey,
stake_authority: 0,
force: false,
sign_only: false,
blockhash_query: BlockhashQuery::FeeCalculator(
blockhash_query::Source::NonceAccount(nonce_account),
blockhash
),
nonce_account: Some(nonce_account),
nonce_authority: 2,
fee_payer: 1,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
Presigner::new(&key1, &sig1).into(),
Presigner::new(&key2, &sig2).into(),
],
}
);
let (fee_payer_keypair_file, mut fee_payer_tmp_file) = make_tmp_file();
let fee_payer_keypair = Keypair::new();
write_keypair(&fee_payer_keypair, fee_payer_tmp_file.as_file_mut()).unwrap();
let test_delegate_stake = test_commands.clone().get_matches_from(vec![
"test",
"delegate-stake",
&stake_account_string,
&vote_account_string,
"--fee-payer",
&fee_payer_keypair_file,
]);
assert_eq!(
parse_command(&test_delegate_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::DelegateStake {
stake_account_pubkey,
vote_account_pubkey,
stake_authority: 0,
force: false,
sign_only: false,
blockhash_query: BlockhashQuery::All(blockhash_query::Source::Cluster),
nonce_account: None,
nonce_authority: 0,
fee_payer: 1,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
read_keypair_file(&fee_payer_keypair_file).unwrap().into()
],
}
);
let test_withdraw_stake = test_commands.clone().get_matches_from(vec![
"test",
"withdraw-stake",
&stake_account_string,
&stake_account_string,
"42",
]);
assert_eq!(
parse_command(&test_withdraw_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::WithdrawStake {
stake_account_pubkey,
destination_account_pubkey: stake_account_pubkey,
lamports: 42_000_000_000,
withdraw_authority: 0,
custodian: None,
sign_only: false,
blockhash_query: BlockhashQuery::All(blockhash_query::Source::Cluster),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![read_keypair_file(&default_keypair_file).unwrap().into()],
}
);
let test_withdraw_stake = test_commands.clone().get_matches_from(vec![
"test",
"withdraw-stake",
&stake_account_string,
&stake_account_string,
"42",
"--withdraw-authority",
&stake_authority_keypair_file,
]);
assert_eq!(
parse_command(&test_withdraw_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::WithdrawStake {
stake_account_pubkey,
destination_account_pubkey: stake_account_pubkey,
lamports: 42_000_000_000,
withdraw_authority: 1,
custodian: None,
sign_only: false,
blockhash_query: BlockhashQuery::All(blockhash_query::Source::Cluster),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
read_keypair_file(&stake_authority_keypair_file)
.unwrap()
.into()
],
}
);
let test_withdraw_stake = test_commands.clone().get_matches_from(vec![
"test",
"withdraw-stake",
&stake_account_string,
&stake_account_string,
"42",
"--custodian",
&custodian_keypair_file,
]);
assert_eq!(
parse_command(&test_withdraw_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::WithdrawStake {
stake_account_pubkey,
destination_account_pubkey: stake_account_pubkey,
lamports: 42_000_000_000,
withdraw_authority: 0,
custodian: Some(1),
sign_only: false,
blockhash_query: BlockhashQuery::All(blockhash_query::Source::Cluster),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
read_keypair_file(&custodian_keypair_file).unwrap().into()
],
}
);
let test_withdraw_stake = test_commands.clone().get_matches_from(vec![
"test",
"withdraw-stake",
&stake_account_string,
&stake_account_string,
"42",
"--withdraw-authority",
&stake_authority_keypair_file,
"--blockhash",
&nonce_hash_string,
"--nonce",
&nonce_account_string,
"--nonce-authority",
&offline_string,
"--fee-payer",
&offline_string,
"--signer",
&offline_signer,
]);
assert_eq!(
parse_command(&test_withdraw_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::WithdrawStake {
stake_account_pubkey,
destination_account_pubkey: stake_account_pubkey,
lamports: 42_000_000_000,
withdraw_authority: 0,
custodian: None,
sign_only: false,
blockhash_query: BlockhashQuery::FeeCalculator(
blockhash_query::Source::NonceAccount(nonce_account),
nonce_hash
),
nonce_account: Some(nonce_account),
nonce_authority: 1,
fee_payer: 1,
},
signers: vec![
read_keypair_file(&stake_authority_keypair_file)
.unwrap()
.into(),
Presigner::new(&offline_pubkey, &offline_sig).into()
],
}
);
let test_deactivate_stake = test_commands.clone().get_matches_from(vec![
"test",
"deactivate-stake",
&stake_account_string,
]);
assert_eq!(
parse_command(&test_deactivate_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::DeactivateStake {
stake_account_pubkey,
stake_authority: 0,
sign_only: false,
blockhash_query: BlockhashQuery::default(),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![read_keypair_file(&default_keypair_file).unwrap().into()],
}
);
let test_deactivate_stake = test_commands.clone().get_matches_from(vec![
"test",
"deactivate-stake",
&stake_account_string,
"--stake-authority",
&stake_authority_keypair_file,
]);
assert_eq!(
parse_command(&test_deactivate_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::DeactivateStake {
stake_account_pubkey,
stake_authority: 1,
sign_only: false,
blockhash_query: BlockhashQuery::default(),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
read_keypair_file(&stake_authority_keypair_file)
.unwrap()
.into()
],
}
);
let blockhash = Hash::default();
let blockhash_string = format!("{}", blockhash);
let test_deactivate_stake = test_commands.clone().get_matches_from(vec![
"test",
"deactivate-stake",
&stake_account_string,
"--blockhash",
&blockhash_string,
]);
assert_eq!(
parse_command(&test_deactivate_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::DeactivateStake {
stake_account_pubkey,
stake_authority: 0,
sign_only: false,
blockhash_query: BlockhashQuery::FeeCalculator(
blockhash_query::Source::Cluster,
blockhash
),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![read_keypair_file(&default_keypair_file).unwrap().into()],
}
);
let test_deactivate_stake = test_commands.clone().get_matches_from(vec![
"test",
"deactivate-stake",
&stake_account_string,
"--blockhash",
&blockhash_string,
"--sign-only",
]);
assert_eq!(
parse_command(&test_deactivate_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::DeactivateStake {
stake_account_pubkey,
stake_authority: 0,
sign_only: true,
blockhash_query: BlockhashQuery::None(blockhash),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![read_keypair_file(&default_keypair_file).unwrap().into()],
}
);
let key1 = Pubkey::new_rand();
let sig1 = Keypair::new().sign_message(&[0u8]);
let signer1 = format!("{}={}", key1, sig1);
let test_deactivate_stake = test_commands.clone().get_matches_from(vec![
"test",
"deactivate-stake",
&stake_account_string,
"--blockhash",
&blockhash_string,
"--signer",
&signer1,
"--fee-payer",
&key1.to_string(),
]);
assert_eq!(
parse_command(&test_deactivate_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::DeactivateStake {
stake_account_pubkey,
stake_authority: 0,
sign_only: false,
blockhash_query: BlockhashQuery::FeeCalculator(
blockhash_query::Source::Cluster,
blockhash
),
nonce_account: None,
nonce_authority: 0,
fee_payer: 1,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
Presigner::new(&key1, &sig1).into()
],
}
);
let key2 = Pubkey::new_rand();
let sig2 = Keypair::new().sign_message(&[0u8]);
let signer2 = format!("{}={}", key2, sig2);
let test_deactivate_stake = test_commands.clone().get_matches_from(vec![
"test",
"deactivate-stake",
&stake_account_string,
"--blockhash",
&blockhash_string,
"--signer",
&signer1,
"--signer",
&signer2,
"--fee-payer",
&key1.to_string(),
"--nonce",
&nonce_account.to_string(),
"--nonce-authority",
&key2.to_string(),
]);
assert_eq!(
parse_command(&test_deactivate_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::DeactivateStake {
stake_account_pubkey,
stake_authority: 0,
sign_only: false,
blockhash_query: BlockhashQuery::FeeCalculator(
blockhash_query::Source::NonceAccount(nonce_account),
blockhash
),
nonce_account: Some(nonce_account),
nonce_authority: 2,
fee_payer: 1,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
Presigner::new(&key1, &sig1).into(),
Presigner::new(&key2, &sig2).into(),
],
}
);
let test_deactivate_stake = test_commands.clone().get_matches_from(vec![
"test",
"deactivate-stake",
&stake_account_string,
"--fee-payer",
&fee_payer_keypair_file,
]);
assert_eq!(
parse_command(&test_deactivate_stake, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::DeactivateStake {
stake_account_pubkey,
stake_authority: 0,
sign_only: false,
blockhash_query: BlockhashQuery::All(blockhash_query::Source::Cluster),
nonce_account: None,
nonce_authority: 0,
fee_payer: 1,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
read_keypair_file(&fee_payer_keypair_file).unwrap().into()
],
}
);
let (keypair_file, mut tmp_file) = make_tmp_file();
let stake_account_keypair = Keypair::new();
write_keypair(&stake_account_keypair, tmp_file.as_file_mut()).unwrap();
let (split_stake_account_keypair_file, mut tmp_file) = make_tmp_file();
let split_stake_account_keypair = Keypair::new();
write_keypair(&split_stake_account_keypair, tmp_file.as_file_mut()).unwrap();
let test_split_stake_account = test_commands.clone().get_matches_from(vec![
"test",
"split-stake",
&keypair_file,
&split_stake_account_keypair_file,
"50",
]);
assert_eq!(
parse_command(&test_split_stake_account, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::SplitStake {
stake_account_pubkey: stake_account_keypair.pubkey(),
stake_authority: 0,
sign_only: false,
blockhash_query: BlockhashQuery::default(),
nonce_account: None,
nonce_authority: 0,
split_stake_account: 1,
seed: None,
lamports: 50_000_000_000,
fee_payer: 0,
},
signers: vec![
read_keypair_file(&default_keypair_file).unwrap().into(),
read_keypair_file(&split_stake_account_keypair_file)
.unwrap()
.into()
],
}
);
let nonce_account = Pubkey::new(&[1u8; 32]);
let nonce_account_string = nonce_account.to_string();
let nonce_auth = keypair_from_seed(&[2u8; 32]).unwrap();
let nonce_auth_pubkey = nonce_auth.pubkey();
let nonce_auth_string = nonce_auth_pubkey.to_string();
let nonce_sig = nonce_auth.sign_message(&[0u8]);
let nonce_signer = format!("{}={}", nonce_auth_pubkey, nonce_sig);
let stake_auth = keypair_from_seed(&[3u8; 32]).unwrap();
let stake_auth_pubkey = stake_auth.pubkey();
let stake_auth_string = stake_auth_pubkey.to_string();
let stake_sig = stake_auth.sign_message(&[0u8]);
let stake_signer = format!("{}={}", stake_auth_pubkey, stake_sig);
let nonce_hash = Hash::new(&[4u8; 32]);
let nonce_hash_string = nonce_hash.to_string();
let test_split_stake_account = test_commands.clone().get_matches_from(vec![
"test",
"split-stake",
&keypair_file,
&split_stake_account_keypair_file,
"50",
"--stake-authority",
&stake_auth_string,
"--blockhash",
&nonce_hash_string,
"--nonce",
&nonce_account_string,
"--nonce-authority",
&nonce_auth_string,
"--fee-payer",
&nonce_auth_string, "--signer",
&nonce_signer,
"--signer",
&stake_signer,
]);
assert_eq!(
parse_command(&test_split_stake_account, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::SplitStake {
stake_account_pubkey: stake_account_keypair.pubkey(),
stake_authority: 0,
sign_only: false,
blockhash_query: BlockhashQuery::FeeCalculator(
blockhash_query::Source::NonceAccount(nonce_account),
nonce_hash
),
nonce_account: Some(nonce_account),
nonce_authority: 1,
split_stake_account: 2,
seed: None,
lamports: 50_000_000_000,
fee_payer: 1,
},
signers: vec![
Presigner::new(&stake_auth_pubkey, &stake_sig).into(),
Presigner::new(&nonce_auth_pubkey, &nonce_sig).into(),
read_keypair_file(&split_stake_account_keypair_file)
.unwrap()
.into(),
],
}
);
let (keypair_file, mut tmp_file) = make_tmp_file();
let stake_account_keypair = Keypair::new();
write_keypair(&stake_account_keypair, tmp_file.as_file_mut()).unwrap();
let source_stake_account_pubkey = Pubkey::new_rand();
let test_merge_stake_account = test_commands.clone().get_matches_from(vec![
"test",
"merge-stake",
&keypair_file,
&source_stake_account_pubkey.to_string(),
]);
assert_eq!(
parse_command(&test_merge_stake_account, &default_keypair_file, &mut None).unwrap(),
CliCommandInfo {
command: CliCommand::MergeStake {
stake_account_pubkey: stake_account_keypair.pubkey(),
source_stake_account_pubkey,
stake_authority: 0,
sign_only: false,
blockhash_query: BlockhashQuery::default(),
nonce_account: None,
nonce_authority: 0,
fee_payer: 0,
},
signers: vec![read_keypair_file(&default_keypair_file).unwrap().into(),],
}
);
}
}