solana_program/message/versions/v0/mod.rs
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//! A future Solana message format.
//!
//! This crate defines two versions of `Message` in their own modules:
//! [`legacy`] and [`v0`]. `legacy` is the current version as of Solana 1.10.0.
//! `v0` is a [future message format] that encodes more account keys into a
//! transaction than the legacy format.
//!
//! [`legacy`]: crate::message::legacy
//! [`v0`]: crate::message::v0
//! [future message format]: https://docs.solanalabs.com/proposals/versioned-transactions
pub use loaded::*;
use {
crate::{
address_lookup_table::AddressLookupTableAccount,
bpf_loader_upgradeable,
hash::Hash,
instruction::{CompiledInstruction, Instruction},
message::{
compiled_keys::{CompileError, CompiledKeys},
AccountKeys, MessageHeader, MESSAGE_VERSION_PREFIX,
},
pubkey::Pubkey,
},
solana_sanitize::SanitizeError,
solana_short_vec as short_vec,
std::collections::HashSet,
};
mod loaded;
/// Address table lookups describe an on-chain address lookup table to use
/// for loading more readonly and writable accounts in a single tx.
#[cfg_attr(feature = "frozen-abi", derive(AbiExample))]
#[derive(Serialize, Deserialize, Default, Debug, PartialEq, Eq, Clone)]
#[serde(rename_all = "camelCase")]
pub struct MessageAddressTableLookup {
/// Address lookup table account key
pub account_key: Pubkey,
/// List of indexes used to load writable account addresses
#[serde(with = "short_vec")]
pub writable_indexes: Vec<u8>,
/// List of indexes used to load readonly account addresses
#[serde(with = "short_vec")]
pub readonly_indexes: Vec<u8>,
}
/// A Solana transaction message (v0).
///
/// This message format supports succinct account loading with
/// on-chain address lookup tables.
///
/// See the [`message`] module documentation for further description.
///
/// [`message`]: crate::message
#[cfg_attr(feature = "frozen-abi", derive(AbiExample))]
#[derive(Serialize, Deserialize, Default, Debug, PartialEq, Eq, Clone)]
#[serde(rename_all = "camelCase")]
pub struct Message {
/// The message header, identifying signed and read-only `account_keys`.
/// Header values only describe static `account_keys`, they do not describe
/// any additional account keys loaded via address table lookups.
pub header: MessageHeader,
/// List of accounts loaded by this transaction.
#[serde(with = "short_vec")]
pub account_keys: Vec<Pubkey>,
/// The blockhash of a recent block.
pub recent_blockhash: Hash,
/// Instructions that invoke a designated program, are executed in sequence,
/// and committed in one atomic transaction if all succeed.
///
/// # Notes
///
/// Program indexes must index into the list of message `account_keys` because
/// program id's cannot be dynamically loaded from a lookup table.
///
/// Account indexes must index into the list of addresses
/// constructed from the concatenation of three key lists:
/// 1) message `account_keys`
/// 2) ordered list of keys loaded from `writable` lookup table indexes
/// 3) ordered list of keys loaded from `readable` lookup table indexes
#[serde(with = "short_vec")]
pub instructions: Vec<CompiledInstruction>,
/// List of address table lookups used to load additional accounts
/// for this transaction.
#[serde(with = "short_vec")]
pub address_table_lookups: Vec<MessageAddressTableLookup>,
}
impl Message {
/// Sanitize message fields and compiled instruction indexes
pub fn sanitize(&self) -> Result<(), SanitizeError> {
let num_static_account_keys = self.account_keys.len();
if usize::from(self.header.num_required_signatures)
.saturating_add(usize::from(self.header.num_readonly_unsigned_accounts))
> num_static_account_keys
{
return Err(SanitizeError::IndexOutOfBounds);
}
// there should be at least 1 RW fee-payer account.
if self.header.num_readonly_signed_accounts >= self.header.num_required_signatures {
return Err(SanitizeError::InvalidValue);
}
let num_dynamic_account_keys = {
let mut total_lookup_keys: usize = 0;
for lookup in &self.address_table_lookups {
let num_lookup_indexes = lookup
.writable_indexes
.len()
.saturating_add(lookup.readonly_indexes.len());
// each lookup table must be used to load at least one account
if num_lookup_indexes == 0 {
return Err(SanitizeError::InvalidValue);
}
total_lookup_keys = total_lookup_keys.saturating_add(num_lookup_indexes);
}
total_lookup_keys
};
// this is redundant with the above sanitization checks which require that:
// 1) the header describes at least 1 RW account
// 2) the header doesn't describe more account keys than the number of account keys
if num_static_account_keys == 0 {
return Err(SanitizeError::InvalidValue);
}
// the combined number of static and dynamic account keys must be <= 256
// since account indices are encoded as `u8`
// Note that this is different from the per-transaction account load cap
// as defined in `Bank::get_transaction_account_lock_limit`
let total_account_keys = num_static_account_keys.saturating_add(num_dynamic_account_keys);
if total_account_keys > 256 {
return Err(SanitizeError::IndexOutOfBounds);
}
// `expect` is safe because of earlier check that
// `num_static_account_keys` is non-zero
let max_account_ix = total_account_keys
.checked_sub(1)
.expect("message doesn't contain any account keys");
// reject program ids loaded from lookup tables so that
// static analysis on program instructions can be performed
// without loading on-chain data from a bank
let max_program_id_ix =
// `expect` is safe because of earlier check that
// `num_static_account_keys` is non-zero
num_static_account_keys
.checked_sub(1)
.expect("message doesn't contain any static account keys");
for ci in &self.instructions {
if usize::from(ci.program_id_index) > max_program_id_ix {
return Err(SanitizeError::IndexOutOfBounds);
}
// A program cannot be a payer.
if ci.program_id_index == 0 {
return Err(SanitizeError::IndexOutOfBounds);
}
for ai in &ci.accounts {
if usize::from(*ai) > max_account_ix {
return Err(SanitizeError::IndexOutOfBounds);
}
}
}
Ok(())
}
}
impl Message {
/// Create a signable transaction message from a `payer` public key,
/// `recent_blockhash`, list of `instructions`, and a list of
/// `address_lookup_table_accounts`.
///
/// # Examples
///
/// This example uses the [`solana_rpc_client`], [`solana_sdk`], and [`anyhow`] crates.
///
/// [`solana_rpc_client`]: https://docs.rs/solana-rpc-client
/// [`solana_sdk`]: https://docs.rs/solana-sdk
/// [`anyhow`]: https://docs.rs/anyhow
///
/// ```
/// # use solana_program::example_mocks::{
/// # solana_rpc_client,
/// # solana_sdk,
/// # };
/// # use std::borrow::Cow;
/// # use solana_sdk::account::Account;
/// use anyhow::Result;
/// use solana_rpc_client::rpc_client::RpcClient;
/// use solana_program::address_lookup_table::{self, state::{AddressLookupTable, LookupTableMeta}};
/// use solana_sdk::{
/// address_lookup_table::AddressLookupTableAccount,
/// instruction::{AccountMeta, Instruction},
/// message::{VersionedMessage, v0},
/// pubkey::Pubkey,
/// signature::{Keypair, Signer},
/// transaction::VersionedTransaction,
/// };
///
/// fn create_tx_with_address_table_lookup(
/// client: &RpcClient,
/// instruction: Instruction,
/// address_lookup_table_key: Pubkey,
/// payer: &Keypair,
/// ) -> Result<VersionedTransaction> {
/// # client.set_get_account_response(address_lookup_table_key, Account {
/// # lamports: 1,
/// # data: AddressLookupTable {
/// # meta: LookupTableMeta::default(),
/// # addresses: Cow::Owned(instruction.accounts.iter().map(|meta| meta.pubkey).collect()),
/// # }.serialize_for_tests().unwrap(),
/// # owner: address_lookup_table::program::id(),
/// # executable: false,
/// # rent_epoch: 1,
/// # });
/// let raw_account = client.get_account(&address_lookup_table_key)?;
/// let address_lookup_table = AddressLookupTable::deserialize(&raw_account.data)?;
/// let address_lookup_table_account = AddressLookupTableAccount {
/// key: address_lookup_table_key,
/// addresses: address_lookup_table.addresses.to_vec(),
/// };
///
/// let blockhash = client.get_latest_blockhash()?;
/// let tx = VersionedTransaction::try_new(
/// VersionedMessage::V0(v0::Message::try_compile(
/// &payer.pubkey(),
/// &[instruction],
/// &[address_lookup_table_account],
/// blockhash,
/// )?),
/// &[payer],
/// )?;
///
/// # assert!(tx.message.address_table_lookups().unwrap().len() > 0);
/// Ok(tx)
/// }
/// #
/// # let client = RpcClient::new(String::new());
/// # let payer = Keypair::new();
/// # let address_lookup_table_key = Pubkey::new_unique();
/// # let instruction = Instruction::new_with_bincode(Pubkey::new_unique(), &(), vec![
/// # AccountMeta::new(Pubkey::new_unique(), false),
/// # ]);
/// # create_tx_with_address_table_lookup(&client, instruction, address_lookup_table_key, &payer)?;
/// # Ok::<(), anyhow::Error>(())
/// ```
pub fn try_compile(
payer: &Pubkey,
instructions: &[Instruction],
address_lookup_table_accounts: &[AddressLookupTableAccount],
recent_blockhash: Hash,
) -> Result<Self, CompileError> {
let mut compiled_keys = CompiledKeys::compile(instructions, Some(*payer));
let mut address_table_lookups = Vec::with_capacity(address_lookup_table_accounts.len());
let mut loaded_addresses_list = Vec::with_capacity(address_lookup_table_accounts.len());
for lookup_table_account in address_lookup_table_accounts {
if let Some((lookup, loaded_addresses)) =
compiled_keys.try_extract_table_lookup(lookup_table_account)?
{
address_table_lookups.push(lookup);
loaded_addresses_list.push(loaded_addresses);
}
}
let (header, static_keys) = compiled_keys.try_into_message_components()?;
let dynamic_keys = loaded_addresses_list.into_iter().collect();
let account_keys = AccountKeys::new(&static_keys, Some(&dynamic_keys));
let instructions = account_keys.try_compile_instructions(instructions)?;
Ok(Self {
header,
account_keys: static_keys,
recent_blockhash,
instructions,
address_table_lookups,
})
}
/// Serialize this message with a version #0 prefix using bincode encoding.
pub fn serialize(&self) -> Vec<u8> {
bincode::serialize(&(MESSAGE_VERSION_PREFIX, self)).unwrap()
}
/// Returns true if the account at the specified index is called as a program by an instruction
pub fn is_key_called_as_program(&self, key_index: usize) -> bool {
if let Ok(key_index) = u8::try_from(key_index) {
self.instructions
.iter()
.any(|ix| ix.program_id_index == key_index)
} else {
false
}
}
/// Returns true if the account at the specified index was requested to be
/// writable. This method should not be used directly.
fn is_writable_index(&self, key_index: usize) -> bool {
let header = &self.header;
let num_account_keys = self.account_keys.len();
let num_signed_accounts = usize::from(header.num_required_signatures);
if key_index >= num_account_keys {
let loaded_addresses_index = key_index.saturating_sub(num_account_keys);
let num_writable_dynamic_addresses = self
.address_table_lookups
.iter()
.map(|lookup| lookup.writable_indexes.len())
.sum();
loaded_addresses_index < num_writable_dynamic_addresses
} else if key_index >= num_signed_accounts {
let num_unsigned_accounts = num_account_keys.saturating_sub(num_signed_accounts);
let num_writable_unsigned_accounts = num_unsigned_accounts
.saturating_sub(usize::from(header.num_readonly_unsigned_accounts));
let unsigned_account_index = key_index.saturating_sub(num_signed_accounts);
unsigned_account_index < num_writable_unsigned_accounts
} else {
let num_writable_signed_accounts = num_signed_accounts
.saturating_sub(usize::from(header.num_readonly_signed_accounts));
key_index < num_writable_signed_accounts
}
}
/// Returns true if any static account key is the bpf upgradeable loader
fn is_upgradeable_loader_in_static_keys(&self) -> bool {
self.account_keys
.iter()
.any(|&key| key == bpf_loader_upgradeable::id())
}
/// Returns true if the account at the specified index was requested as
/// writable. Before loading addresses, we can't demote write locks properly
/// so this should not be used by the runtime. The `reserved_account_keys`
/// param is optional to allow clients to approximate writability without
/// requiring fetching the latest set of reserved account keys.
pub fn is_maybe_writable(
&self,
key_index: usize,
reserved_account_keys: Option<&HashSet<Pubkey>>,
) -> bool {
self.is_writable_index(key_index)
&& !self.is_account_maybe_reserved(key_index, reserved_account_keys)
&& !{
// demote program ids
self.is_key_called_as_program(key_index)
&& !self.is_upgradeable_loader_in_static_keys()
}
}
/// Returns true if the account at the specified index is in the reserved
/// account keys set. Before loading addresses, we can't detect reserved
/// account keys properly so this shouldn't be used by the runtime.
fn is_account_maybe_reserved(
&self,
key_index: usize,
reserved_account_keys: Option<&HashSet<Pubkey>>,
) -> bool {
let mut is_maybe_reserved = false;
if let Some(reserved_account_keys) = reserved_account_keys {
if let Some(key) = self.account_keys.get(key_index) {
is_maybe_reserved = reserved_account_keys.contains(key);
}
}
is_maybe_reserved
}
}
#[cfg(test)]
mod tests {
use {
super::*,
crate::{instruction::AccountMeta, message::VersionedMessage},
};
#[test]
fn test_sanitize() {
assert!(Message {
header: MessageHeader {
num_required_signatures: 1,
..MessageHeader::default()
},
account_keys: vec![Pubkey::new_unique()],
..Message::default()
}
.sanitize()
.is_ok());
}
#[test]
fn test_sanitize_with_instruction() {
assert!(Message {
header: MessageHeader {
num_required_signatures: 1,
..MessageHeader::default()
},
account_keys: vec![Pubkey::new_unique(), Pubkey::new_unique()],
instructions: vec![CompiledInstruction {
program_id_index: 1,
accounts: vec![0],
data: vec![]
}],
..Message::default()
}
.sanitize()
.is_ok());
}
#[test]
fn test_sanitize_with_table_lookup() {
assert!(Message {
header: MessageHeader {
num_required_signatures: 1,
..MessageHeader::default()
},
account_keys: vec![Pubkey::new_unique()],
address_table_lookups: vec![MessageAddressTableLookup {
account_key: Pubkey::new_unique(),
writable_indexes: vec![1, 2, 3],
readonly_indexes: vec![0],
}],
..Message::default()
}
.sanitize()
.is_ok());
}
#[test]
fn test_sanitize_with_table_lookup_and_ix_with_dynamic_program_id() {
let message = Message {
header: MessageHeader {
num_required_signatures: 1,
..MessageHeader::default()
},
account_keys: vec![Pubkey::new_unique()],
address_table_lookups: vec![MessageAddressTableLookup {
account_key: Pubkey::new_unique(),
writable_indexes: vec![1, 2, 3],
readonly_indexes: vec![0],
}],
instructions: vec![CompiledInstruction {
program_id_index: 4,
accounts: vec![0, 1, 2, 3],
data: vec![],
}],
..Message::default()
};
assert!(message.sanitize().is_err());
}
#[test]
fn test_sanitize_with_table_lookup_and_ix_with_static_program_id() {
assert!(Message {
header: MessageHeader {
num_required_signatures: 1,
..MessageHeader::default()
},
account_keys: vec![Pubkey::new_unique(), Pubkey::new_unique()],
address_table_lookups: vec![MessageAddressTableLookup {
account_key: Pubkey::new_unique(),
writable_indexes: vec![1, 2, 3],
readonly_indexes: vec![0],
}],
instructions: vec![CompiledInstruction {
program_id_index: 1,
accounts: vec![2, 3, 4, 5],
data: vec![]
}],
..Message::default()
}
.sanitize()
.is_ok());
}
#[test]
fn test_sanitize_without_signer() {
assert!(Message {
header: MessageHeader::default(),
account_keys: vec![Pubkey::new_unique()],
..Message::default()
}
.sanitize()
.is_err());
}
#[test]
fn test_sanitize_without_writable_signer() {
assert!(Message {
header: MessageHeader {
num_required_signatures: 1,
num_readonly_signed_accounts: 1,
..MessageHeader::default()
},
account_keys: vec![Pubkey::new_unique()],
..Message::default()
}
.sanitize()
.is_err());
}
#[test]
fn test_sanitize_with_empty_table_lookup() {
assert!(Message {
header: MessageHeader {
num_required_signatures: 1,
..MessageHeader::default()
},
account_keys: vec![Pubkey::new_unique()],
address_table_lookups: vec![MessageAddressTableLookup {
account_key: Pubkey::new_unique(),
writable_indexes: vec![],
readonly_indexes: vec![],
}],
..Message::default()
}
.sanitize()
.is_err());
}
#[test]
fn test_sanitize_with_max_account_keys() {
assert!(Message {
header: MessageHeader {
num_required_signatures: 1,
..MessageHeader::default()
},
account_keys: (0..=u8::MAX).map(|_| Pubkey::new_unique()).collect(),
..Message::default()
}
.sanitize()
.is_ok());
}
#[test]
fn test_sanitize_with_too_many_account_keys() {
assert!(Message {
header: MessageHeader {
num_required_signatures: 1,
..MessageHeader::default()
},
account_keys: (0..=256).map(|_| Pubkey::new_unique()).collect(),
..Message::default()
}
.sanitize()
.is_err());
}
#[test]
fn test_sanitize_with_max_table_loaded_keys() {
assert!(Message {
header: MessageHeader {
num_required_signatures: 1,
..MessageHeader::default()
},
account_keys: vec![Pubkey::new_unique()],
address_table_lookups: vec![MessageAddressTableLookup {
account_key: Pubkey::new_unique(),
writable_indexes: (0..=254).step_by(2).collect(),
readonly_indexes: (1..=254).step_by(2).collect(),
}],
..Message::default()
}
.sanitize()
.is_ok());
}
#[test]
fn test_sanitize_with_too_many_table_loaded_keys() {
assert!(Message {
header: MessageHeader {
num_required_signatures: 1,
..MessageHeader::default()
},
account_keys: vec![Pubkey::new_unique()],
address_table_lookups: vec![MessageAddressTableLookup {
account_key: Pubkey::new_unique(),
writable_indexes: (0..=255).step_by(2).collect(),
readonly_indexes: (1..=255).step_by(2).collect(),
}],
..Message::default()
}
.sanitize()
.is_err());
}
#[test]
fn test_sanitize_with_invalid_ix_program_id() {
let message = Message {
header: MessageHeader {
num_required_signatures: 1,
..MessageHeader::default()
},
account_keys: vec![Pubkey::new_unique()],
address_table_lookups: vec![MessageAddressTableLookup {
account_key: Pubkey::new_unique(),
writable_indexes: vec![0],
readonly_indexes: vec![],
}],
instructions: vec![CompiledInstruction {
program_id_index: 2,
accounts: vec![],
data: vec![],
}],
..Message::default()
};
assert!(message.sanitize().is_err());
}
#[test]
fn test_sanitize_with_invalid_ix_account() {
assert!(Message {
header: MessageHeader {
num_required_signatures: 1,
..MessageHeader::default()
},
account_keys: vec![Pubkey::new_unique(), Pubkey::new_unique()],
address_table_lookups: vec![MessageAddressTableLookup {
account_key: Pubkey::new_unique(),
writable_indexes: vec![],
readonly_indexes: vec![0],
}],
instructions: vec![CompiledInstruction {
program_id_index: 1,
accounts: vec![3],
data: vec![]
}],
..Message::default()
}
.sanitize()
.is_err());
}
#[test]
fn test_serialize() {
let message = Message::default();
let versioned_msg = VersionedMessage::V0(message.clone());
assert_eq!(message.serialize(), versioned_msg.serialize());
}
#[test]
fn test_try_compile() {
let mut keys = vec![];
keys.resize_with(7, Pubkey::new_unique);
let payer = keys[0];
let program_id = keys[6];
let instructions = vec![Instruction {
program_id,
accounts: vec![
AccountMeta::new(keys[1], true),
AccountMeta::new_readonly(keys[2], true),
AccountMeta::new(keys[3], false),
AccountMeta::new(keys[4], false), // loaded from lut
AccountMeta::new_readonly(keys[5], false), // loaded from lut
],
data: vec![],
}];
let address_lookup_table_accounts = vec![
AddressLookupTableAccount {
key: Pubkey::new_unique(),
addresses: vec![keys[4], keys[5], keys[6]],
},
AddressLookupTableAccount {
key: Pubkey::new_unique(),
addresses: vec![],
},
];
let recent_blockhash = Hash::new_unique();
assert_eq!(
Message::try_compile(
&payer,
&instructions,
&address_lookup_table_accounts,
recent_blockhash
),
Ok(Message {
header: MessageHeader {
num_required_signatures: 3,
num_readonly_signed_accounts: 1,
num_readonly_unsigned_accounts: 1
},
recent_blockhash,
account_keys: vec![keys[0], keys[1], keys[2], keys[3], program_id],
instructions: vec![CompiledInstruction {
program_id_index: 4,
accounts: vec![1, 2, 3, 5, 6],
data: vec![],
},],
address_table_lookups: vec![MessageAddressTableLookup {
account_key: address_lookup_table_accounts[0].key,
writable_indexes: vec![0],
readonly_indexes: vec![1],
}],
})
);
}
#[test]
fn test_is_maybe_writable() {
let key0 = Pubkey::new_unique();
let key1 = Pubkey::new_unique();
let key2 = Pubkey::new_unique();
let key3 = Pubkey::new_unique();
let key4 = Pubkey::new_unique();
let key5 = Pubkey::new_unique();
let message = Message {
header: MessageHeader {
num_required_signatures: 3,
num_readonly_signed_accounts: 2,
num_readonly_unsigned_accounts: 1,
},
account_keys: vec![key0, key1, key2, key3, key4, key5],
address_table_lookups: vec![MessageAddressTableLookup {
account_key: Pubkey::new_unique(),
writable_indexes: vec![0],
readonly_indexes: vec![1],
}],
..Message::default()
};
let reserved_account_keys = HashSet::from([key3]);
assert!(message.is_maybe_writable(0, Some(&reserved_account_keys)));
assert!(!message.is_maybe_writable(1, Some(&reserved_account_keys)));
assert!(!message.is_maybe_writable(2, Some(&reserved_account_keys)));
assert!(!message.is_maybe_writable(3, Some(&reserved_account_keys)));
assert!(message.is_maybe_writable(3, None));
assert!(message.is_maybe_writable(4, Some(&reserved_account_keys)));
assert!(!message.is_maybe_writable(5, Some(&reserved_account_keys)));
assert!(message.is_maybe_writable(6, Some(&reserved_account_keys)));
assert!(!message.is_maybe_writable(7, Some(&reserved_account_keys)));
assert!(!message.is_maybe_writable(8, Some(&reserved_account_keys)));
}
#[test]
fn test_is_account_maybe_reserved() {
let key0 = Pubkey::new_unique();
let key1 = Pubkey::new_unique();
let message = Message {
account_keys: vec![key0, key1],
address_table_lookups: vec![MessageAddressTableLookup {
account_key: Pubkey::new_unique(),
writable_indexes: vec![0],
readonly_indexes: vec![1],
}],
..Message::default()
};
let reserved_account_keys = HashSet::from([key1]);
assert!(!message.is_account_maybe_reserved(0, Some(&reserved_account_keys)));
assert!(message.is_account_maybe_reserved(1, Some(&reserved_account_keys)));
assert!(!message.is_account_maybe_reserved(2, Some(&reserved_account_keys)));
assert!(!message.is_account_maybe_reserved(3, Some(&reserved_account_keys)));
assert!(!message.is_account_maybe_reserved(4, Some(&reserved_account_keys)));
assert!(!message.is_account_maybe_reserved(0, None));
assert!(!message.is_account_maybe_reserved(1, None));
assert!(!message.is_account_maybe_reserved(2, None));
assert!(!message.is_account_maybe_reserved(3, None));
assert!(!message.is_account_maybe_reserved(4, None));
}
}