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Zebra/zebra-chain/src/block/arbitrary.rs

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Rust
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use proptest::{
arbitrary::{any, Arbitrary},
prelude::*,
};
use std::sync::Arc;
use crate::{
block,
fmt::SummaryDebug,
parameters::{
Network,
NetworkUpgrade::{self, *},
GENESIS_PREVIOUS_BLOCK_HASH,
},
serialization,
work::{difficulty::CompactDifficulty, equihash},
};
use super::*;
#[derive(Debug, Clone, Copy)]
#[non_exhaustive]
/// The configuration data for proptest when generating arbitrary chains
pub struct LedgerState {
/// The height of the generated block, or the start height of the generated chain.
///
/// To get the network upgrade, use the `network_upgrade` method.
///
/// If `network_upgrade_override` is not set, the network upgrade is derived
/// from the `height` and `network`.
pub height: Height,
/// The network to generate fake blocks for.
pub network: Network,
/// Overrides the network upgrade calculated from `height` and `network`.
///
/// To get the network upgrade, use the `network_upgrade` method.
network_upgrade_override: Option<NetworkUpgrade>,
/// Overrides the previous block hashes in blocks generated by this ledger.
previous_block_hash_override: Option<block::Hash>,
/// Regardless of tip height and network, every transaction is this version.
transaction_version_override: Option<u32>,
/// Every V5 and later transaction has a valid `network_upgrade` field.
///
/// If `false`, some transactions have invalid network upgrades.
transaction_has_valid_network_upgrade: bool,
/// Generate coinbase transactions.
///
/// In a block or transaction vector, make the first transaction a coinbase
/// transaction.
///
/// For an individual transaction, make the transaction a coinbase
/// transaction.
pub(crate) has_coinbase: bool,
}
/// Overrides for arbitrary [`LedgerState`]s.
#[derive(Debug, Clone, Copy)]
pub struct LedgerStateOverride {
/// Every chain starts at this block. Single blocks have this height.
pub height_override: Option<Height>,
/// Every chain starts with a block with this previous block hash.
/// Single blocks have this previous block hash.
pub previous_block_hash_override: Option<block::Hash>,
/// Regardless of tip height and network, every block has features from this
/// network upgrade.
pub network_upgrade_override: Option<NetworkUpgrade>,
/// Regardless of tip height and network, every transaction is this version.
pub transaction_version_override: Option<u32>,
/// Every V5 and later transaction has a valid `network_upgrade` field.
///
/// If `false`, some transactions have invalid network upgrades.
pub transaction_has_valid_network_upgrade: bool,
/// Every block has exactly one coinbase transaction.
/// Transactions are always coinbase transactions.
pub always_has_coinbase: bool,
}
impl LedgerState {
/// Returns the default strategy for creating arbitrary `LedgerState`s.
pub fn default_strategy() -> BoxedStrategy<Self> {
Self::arbitrary_with(LedgerStateOverride::default())
}
/// Returns a strategy for creating arbitrary `LedgerState`s, without any
/// overrides.
pub fn no_override_strategy() -> BoxedStrategy<Self> {
Self::arbitrary_with(LedgerStateOverride {
height_override: None,
previous_block_hash_override: None,
network_upgrade_override: None,
transaction_version_override: None,
transaction_has_valid_network_upgrade: false,
always_has_coinbase: false,
})
}
/// Returns a strategy for creating `LedgerState`s with features from
/// `network_upgrade_override`.
///
/// These featues ignore the actual tip height and network.
pub fn network_upgrade_strategy(
network_upgrade_override: NetworkUpgrade,
transaction_version_override: impl Into<Option<u32>>,
transaction_has_valid_network_upgrade: bool,
) -> BoxedStrategy<Self> {
Self::arbitrary_with(LedgerStateOverride {
height_override: None,
previous_block_hash_override: None,
network_upgrade_override: Some(network_upgrade_override),
transaction_version_override: transaction_version_override.into(),
transaction_has_valid_network_upgrade,
always_has_coinbase: false,
})
}
/// Returns a strategy for creating `LedgerState`s that always have coinbase
/// transactions.
///
/// Also applies `network_upgrade_override`, if present.
pub fn coinbase_strategy(
network_upgrade_override: impl Into<Option<NetworkUpgrade>>,
transaction_version_override: impl Into<Option<u32>>,
transaction_has_valid_network_upgrade: bool,
) -> BoxedStrategy<Self> {
Self::arbitrary_with(LedgerStateOverride {
height_override: None,
previous_block_hash_override: None,
network_upgrade_override: network_upgrade_override.into(),
transaction_version_override: transaction_version_override.into(),
transaction_has_valid_network_upgrade,
always_has_coinbase: true,
})
}
/// Returns a strategy for creating `LedgerState`s that start with a genesis
/// block.
///
/// These strategies also have coinbase transactions, and an optional network
/// upgrade override.
///
/// Use the `Genesis` network upgrade to get a random genesis block, with
/// Zcash genesis features.
pub fn genesis_strategy(
network_upgrade_override: impl Into<Option<NetworkUpgrade>>,
transaction_version_override: impl Into<Option<u32>>,
transaction_has_valid_network_upgrade: bool,
) -> BoxedStrategy<Self> {
Self::arbitrary_with(LedgerStateOverride {
height_override: Some(Height(0)),
previous_block_hash_override: Some(GENESIS_PREVIOUS_BLOCK_HASH),
network_upgrade_override: network_upgrade_override.into(),
transaction_version_override: transaction_version_override.into(),
transaction_has_valid_network_upgrade,
always_has_coinbase: true,
})
}
/// Returns a strategy for creating `LedgerState`s that start at `height`.
///
/// These strategies also have coinbase transactions, and an optional network
/// upgrade override.
pub fn height_strategy(
height: Height,
network_upgrade_override: impl Into<Option<NetworkUpgrade>>,
transaction_version_override: impl Into<Option<u32>>,
transaction_has_valid_network_upgrade: bool,
) -> BoxedStrategy<Self> {
Self::arbitrary_with(LedgerStateOverride {
height_override: Some(height),
previous_block_hash_override: None,
network_upgrade_override: network_upgrade_override.into(),
transaction_version_override: transaction_version_override.into(),
transaction_has_valid_network_upgrade,
always_has_coinbase: true,
})
}
/// Returns the network upgrade for this ledger state.
///
/// If `network_upgrade_override` is set, it replaces the upgrade calculated
/// using `height` and `network`.
pub fn network_upgrade(&self) -> NetworkUpgrade {
if let Some(network_upgrade_override) = self.network_upgrade_override {
network_upgrade_override
} else {
NetworkUpgrade::current(self.network, self.height)
}
}
/// Returns the transaction version override.
pub fn transaction_version_override(&self) -> Option<u32> {
self.transaction_version_override
}
/// Returns `true` if all transactions have valid network upgrade fields.
///
/// If `false`, some transactions have invalid network upgrades.
pub fn transaction_has_valid_network_upgrade(&self) -> bool {
self.transaction_has_valid_network_upgrade
}
}
impl Default for LedgerState {
fn default() -> Self {
// TODO: stop having a default network
let default_network = Network::default();
let default_override = LedgerStateOverride::default();
let most_recent_nu = NetworkUpgrade::current(default_network, Height::MAX);
let most_recent_activation_height =
most_recent_nu.activation_height(default_network).unwrap();
LedgerState {
height: most_recent_activation_height,
network: default_network,
network_upgrade_override: default_override.network_upgrade_override,
previous_block_hash_override: default_override.previous_block_hash_override,
transaction_version_override: default_override.transaction_version_override,
transaction_has_valid_network_upgrade: default_override
.transaction_has_valid_network_upgrade,
has_coinbase: default_override.always_has_coinbase,
}
}
}
impl Default for LedgerStateOverride {
fn default() -> Self {
let default_network = Network::default();
// TODO: dynamically select any future network upgrade (#1974)
let nu5_activation_height = Nu5.activation_height(default_network);
let nu5_override = if nu5_activation_height.is_some() {
None
} else {
Some(Nu5)
};
LedgerStateOverride {
height_override: None,
previous_block_hash_override: None,
network_upgrade_override: nu5_override,
transaction_version_override: None,
transaction_has_valid_network_upgrade: false,
always_has_coinbase: true,
}
}
}
impl Arbitrary for LedgerState {
type Parameters = LedgerStateOverride;
/// Generate an arbitrary [`LedgerState`].
///
/// The default strategy arbitrarily skips some coinbase transactions, and
/// has an arbitrary start height. To override, use a specific [`LegderState`]
/// strategy method.
fn arbitrary_with(ledger_override: Self::Parameters) -> Self::Strategy {
(
any::<Height>(),
any::<Network>(),
any::<bool>(),
any::<bool>(),
)
.prop_map(
move |(height, network, transaction_has_valid_network_upgrade, has_coinbase)| {
LedgerState {
height: ledger_override.height_override.unwrap_or(height),
network,
network_upgrade_override: ledger_override.network_upgrade_override,
previous_block_hash_override: ledger_override.previous_block_hash_override,
transaction_version_override: ledger_override.transaction_version_override,
transaction_has_valid_network_upgrade: ledger_override
.transaction_has_valid_network_upgrade
|| transaction_has_valid_network_upgrade,
has_coinbase: ledger_override.always_has_coinbase || has_coinbase,
}
},
)
.boxed()
}
type Strategy = BoxedStrategy<Self>;
}
impl Arbitrary for Block {
type Parameters = LedgerState;
fn arbitrary_with(ledger_state: Self::Parameters) -> Self::Strategy {
let transactions_strategy = Transaction::vec_strategy(ledger_state, 2);
(Header::arbitrary_with(ledger_state), transactions_strategy)
.prop_map(move |(header, transactions)| Self {
header,
transactions,
})
.boxed()
}
type Strategy = BoxedStrategy<Self>;
}
impl Block {
/// Returns a strategy for creating Vecs of blocks with increasing height of
/// the given length.
pub fn partial_chain_strategy(
mut current: LedgerState,
count: usize,
) -> BoxedStrategy<SummaryDebug<Vec<Arc<Self>>>> {
let mut vec = Vec::with_capacity(count);
// generate block strategies with the correct heights
for _ in 0..count {
vec.push(Block::arbitrary_with(current));
current.height.0 += 1;
}
// after the vec strategy generates blocks, update the previous block hashes
vec.prop_map(|mut vec| {
let mut previous_block_hash = None;
for block in vec.iter_mut() {
if let Some(previous_block_hash) = previous_block_hash {
block.header.previous_block_hash = previous_block_hash;
}
previous_block_hash = Some(block.hash());
}
SummaryDebug(vec.into_iter().map(Arc::new).collect())
})
.boxed()
}
}
impl Arbitrary for Commitment {
type Parameters = ();
fn arbitrary_with(_args: ()) -> Self::Strategy {
(any::<[u8; 32]>(), any::<Network>(), any::<Height>())
.prop_map(|(commitment_bytes, network, block_height)| {
if block_height == Heartwood.activation_height(network).unwrap() {
Commitment::ChainHistoryActivationReserved
} else {
Commitment::from_bytes(commitment_bytes, network, block_height)
.expect("unexpected failure in from_bytes parsing")
}
})
.boxed()
}
type Strategy = BoxedStrategy<Self>;
}
impl Arbitrary for Header {
type Parameters = LedgerState;
fn arbitrary_with(ledger_state: Self::Parameters) -> Self::Strategy {
(
// version is interpreted as i32 in the spec, so we are limited to i32::MAX here
(4u32..(i32::MAX as u32)),
any::<Hash>(),
any::<merkle::Root>(),
any::<[u8; 32]>(),
serialization::arbitrary::datetime_u32(),
any::<CompactDifficulty>(),
any::<[u8; 32]>(),
any::<equihash::Solution>(),
)
.prop_map(
move |(
version,
mut previous_block_hash,
merkle_root,
commitment_bytes,
time,
difficulty_threshold,
nonce,
solution,
)| {
if let Some(previous_block_hash_override) =
ledger_state.previous_block_hash_override
{
previous_block_hash = previous_block_hash_override;
} else if ledger_state.height == Height(0) {
previous_block_hash = GENESIS_PREVIOUS_BLOCK_HASH;
}
Header {
version,
previous_block_hash,
merkle_root,
commitment_bytes,
time,
difficulty_threshold,
nonce,
solution,
}
},
)
.boxed()
}
type Strategy = BoxedStrategy<Self>;
}
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