use crate::{io, log_error};
use crate::alloc::string::ToString;
-use crate::prelude::{Vec, String};
+use crate::prelude::*;
use crate::chain;
use crate::chain::chaininterface::{BroadcasterInterface, FeeEstimator};
/// The maximum number of characters namespaces and keys may have.
pub const KVSTORE_NAMESPACE_KEY_MAX_LEN: usize = 120;
-/// The namespace under which the [`ChannelManager`] will be persisted.
-pub const CHANNEL_MANAGER_PERSISTENCE_NAMESPACE: &str = "";
-/// The sub-namespace under which the [`ChannelManager`] will be persisted.
-pub const CHANNEL_MANAGER_PERSISTENCE_SUB_NAMESPACE: &str = "";
+/// The primary namespace under which the [`ChannelManager`] will be persisted.
+pub const CHANNEL_MANAGER_PERSISTENCE_PRIMARY_NAMESPACE: &str = "";
+/// The secondary namespace under which the [`ChannelManager`] will be persisted.
+pub const CHANNEL_MANAGER_PERSISTENCE_SECONDARY_NAMESPACE: &str = "";
/// The key under which the [`ChannelManager`] will be persisted.
pub const CHANNEL_MANAGER_PERSISTENCE_KEY: &str = "manager";
-/// The namespace under which [`ChannelMonitor`]s will be persisted.
-pub const CHANNEL_MONITOR_PERSISTENCE_NAMESPACE: &str = "monitors";
-/// The sub-namespace under which [`ChannelMonitor`]s will be persisted.
-pub const CHANNEL_MONITOR_PERSISTENCE_SUB_NAMESPACE: &str = "";
-/// The namespace under which [`ChannelMonitorUpdate`]s will be persisted.
-pub const CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE: &str = "monitor_updates";
-
-/// The namespace under which the [`NetworkGraph`] will be persisted.
-pub const NETWORK_GRAPH_PERSISTENCE_NAMESPACE: &str = "";
-/// The sub-namespace under which the [`NetworkGraph`] will be persisted.
-pub const NETWORK_GRAPH_PERSISTENCE_SUB_NAMESPACE: &str = "";
+/// The primary namespace under which [`ChannelMonitor`]s will be persisted.
+pub const CHANNEL_MONITOR_PERSISTENCE_PRIMARY_NAMESPACE: &str = "monitors";
+/// The secondary namespace under which [`ChannelMonitor`]s will be persisted.
+pub const CHANNEL_MONITOR_PERSISTENCE_SECONDARY_NAMESPACE: &str = "";
+/// The primary namespace under which [`ChannelMonitorUpdate`]s will be persisted.
+pub const CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE: &str = "monitor_updates";
+
+/// The primary namespace under which the [`NetworkGraph`] will be persisted.
+pub const NETWORK_GRAPH_PERSISTENCE_PRIMARY_NAMESPACE: &str = "";
+/// The secondary namespace under which the [`NetworkGraph`] will be persisted.
+pub const NETWORK_GRAPH_PERSISTENCE_SECONDARY_NAMESPACE: &str = "";
/// The key under which the [`NetworkGraph`] will be persisted.
pub const NETWORK_GRAPH_PERSISTENCE_KEY: &str = "network_graph";
-/// The namespace under which the [`WriteableScore`] will be persisted.
-pub const SCORER_PERSISTENCE_NAMESPACE: &str = "";
-/// The sub-namespace under which the [`WriteableScore`] will be persisted.
-pub const SCORER_PERSISTENCE_SUB_NAMESPACE: &str = "";
+/// The primary namespace under which the [`WriteableScore`] will be persisted.
+pub const SCORER_PERSISTENCE_PRIMARY_NAMESPACE: &str = "";
+/// The secondary namespace under which the [`WriteableScore`] will be persisted.
+pub const SCORER_PERSISTENCE_SECONDARY_NAMESPACE: &str = "";
/// The key under which the [`WriteableScore`] will be persisted.
pub const SCORER_PERSISTENCE_KEY: &str = "scorer";
/// Provides an interface that allows storage and retrieval of persisted values that are associated
/// with given keys.
///
-/// In order to avoid collisions the key space is segmented based on the given `namespace`s and
-/// `sub_namespace`s. Implementations of this trait are free to handle them in different ways, as
-/// long as per-namespace key uniqueness is asserted.
+/// In order to avoid collisions the key space is segmented based on the given `primary_namespace`s
+/// and `secondary_namespace`s. Implementations of this trait are free to handle them in different
+/// ways, as long as per-namespace key uniqueness is asserted.
///
/// Keys and namespaces are required to be valid ASCII strings in the range of
/// [`KVSTORE_NAMESPACE_KEY_ALPHABET`] and no longer than [`KVSTORE_NAMESPACE_KEY_MAX_LEN`]. Empty
-/// namespaces and sub-namespaces (`""`) are assumed to be a valid, however, if `namespace` is
-/// empty, `sub_namespace` is required to be empty, too. This means that concerns should always be
-/// separated by namespace first, before sub-namespaces are used. While the number of namespaces
-/// will be relatively small and is determined at compile time, there may be many sub-namespaces
-/// per namespace. Note that per-namespace uniqueness needs to also hold for keys *and*
-/// namespaces/sub-namespaces in any given namespace/sub-namespace, i.e., conflicts between keys
-/// and equally named namespaces/sub-namespaces must be avoided.
+/// primary namespaces and secondary namespaces (`""`) are assumed to be a valid, however, if
+/// `primary_namespace` is empty, `secondary_namespace` is required to be empty, too. This means
+/// that concerns should always be separated by primary namespace first, before secondary
+/// namespaces are used. While the number of primary namespaces will be relatively small and is
+/// determined at compile time, there may be many secondary namespaces per primary namespace. Note
+/// that per-namespace uniqueness needs to also hold for keys *and* namespaces in any given
+/// namespace, i.e., conflicts between keys and equally named
+/// primary namespaces/secondary namespaces must be avoided.
///
/// **Note:** Users migrating custom persistence backends from the pre-v0.0.117 `KVStorePersister`
-/// interface can use a concatenation of `[{namespace}/[{sub_namespace}/]]{key}` to recover a `key` compatible with the
-/// data model previously assumed by `KVStorePersister::persist`.
+/// interface can use a concatenation of `[{primary_namespace}/[{secondary_namespace}/]]{key}` to
+/// recover a `key` compatible with the data model previously assumed by `KVStorePersister::persist`.
pub trait KVStore {
- /// Returns the data stored for the given `namespace`, `sub_namespace`, and `key`.
+ /// Returns the data stored for the given `primary_namespace`, `secondary_namespace`, and
+ /// `key`.
///
/// Returns an [`ErrorKind::NotFound`] if the given `key` could not be found in the given
- /// `namespace` and `sub_namespace`.
+ /// `primary_namespace` and `secondary_namespace`.
///
/// [`ErrorKind::NotFound`]: io::ErrorKind::NotFound
- fn read(&self, namespace: &str, sub_namespace: &str, key: &str) -> io::Result<Vec<u8>>;
+ fn read(&self, primary_namespace: &str, secondary_namespace: &str, key: &str) -> Result<Vec<u8>, io::Error>;
/// Persists the given data under the given `key`.
///
- /// Will create the given `namespace` and `sub_namespace` if not already present in the store.
- fn write(&self, namespace: &str, sub_namespace: &str, key: &str, buf: &[u8]) -> io::Result<()>;
+ /// Will create the given `primary_namespace` and `secondary_namespace` if not already present
+ /// in the store.
+ fn write(&self, primary_namespace: &str, secondary_namespace: &str, key: &str, buf: &[u8]) -> Result<(), io::Error>;
/// Removes any data that had previously been persisted under the given `key`.
///
/// If the `lazy` flag is set to `true`, the backend implementation might choose to lazily
/// potentially get lost on crash after the method returns. Therefore, this flag should only be
/// set for `remove` operations that can be safely replayed at a later time.
///
- /// Returns successfully if no data will be stored for the given `namespace`, `sub_namespace`, and
- /// `key`, independently of whether it was present before its invokation or not.
- fn remove(&self, namespace: &str, sub_namespace: &str, key: &str, lazy: bool) -> io::Result<()>;
- /// Returns a list of keys that are stored under the given `sub_namespace` in `namespace`.
+ /// Returns successfully if no data will be stored for the given `primary_namespace`,
+ /// `secondary_namespace`, and `key`, independently of whether it was present before its
+ /// invokation or not.
+ fn remove(&self, primary_namespace: &str, secondary_namespace: &str, key: &str, lazy: bool) -> Result<(), io::Error>;
+ /// Returns a list of keys that are stored under the given `secondary_namespace` in
+ /// `primary_namespace`.
///
/// Returns the keys in arbitrary order, so users requiring a particular order need to sort the
- /// returned keys. Returns an empty list if `namespace` or `sub_namespace` is unknown.
- fn list(&self, namespace: &str, sub_namespace: &str) -> io::Result<Vec<String>>;
+ /// returned keys. Returns an empty list if `primary_namespace` or `secondary_namespace` is unknown.
+ fn list(&self, primary_namespace: &str, secondary_namespace: &str) -> Result<Vec<String>, io::Error>;
}
/// Trait that handles persisting a [`ChannelManager`], [`NetworkGraph`], and [`WriteableScore`] to disk.
{
/// Persist the given [`ChannelManager`] to disk, returning an error if persistence failed.
fn persist_manager(&self, channel_manager: &ChannelManager<M, T, ES, NS, SP, F, R, L>) -> Result<(), io::Error> {
- self.write(CHANNEL_MANAGER_PERSISTENCE_NAMESPACE,
- CHANNEL_MANAGER_PERSISTENCE_SUB_NAMESPACE,
- CHANNEL_MANAGER_PERSISTENCE_KEY,
- &channel_manager.encode())
+ self.write(CHANNEL_MANAGER_PERSISTENCE_PRIMARY_NAMESPACE,
+ CHANNEL_MANAGER_PERSISTENCE_SECONDARY_NAMESPACE,
+ CHANNEL_MANAGER_PERSISTENCE_KEY,
+ &channel_manager.encode())
}
/// Persist the given [`NetworkGraph`] to disk, returning an error if persistence failed.
fn persist_graph(&self, network_graph: &NetworkGraph<L>) -> Result<(), io::Error> {
- self.write(NETWORK_GRAPH_PERSISTENCE_NAMESPACE,
- NETWORK_GRAPH_PERSISTENCE_SUB_NAMESPACE,
- NETWORK_GRAPH_PERSISTENCE_KEY,
- &network_graph.encode())
+ self.write(NETWORK_GRAPH_PERSISTENCE_PRIMARY_NAMESPACE,
+ NETWORK_GRAPH_PERSISTENCE_SECONDARY_NAMESPACE,
+ NETWORK_GRAPH_PERSISTENCE_KEY,
+ &network_graph.encode())
}
/// Persist the given [`WriteableScore`] to disk, returning an error if persistence failed.
fn persist_scorer(&self, scorer: &S) -> Result<(), io::Error> {
- self.write(SCORER_PERSISTENCE_NAMESPACE,
- SCORER_PERSISTENCE_SUB_NAMESPACE,
- SCORER_PERSISTENCE_KEY,
- &scorer.encode())
+ self.write(SCORER_PERSISTENCE_PRIMARY_NAMESPACE,
+ SCORER_PERSISTENCE_SECONDARY_NAMESPACE,
+ SCORER_PERSISTENCE_KEY,
+ &scorer.encode())
}
}
fn persist_new_channel(&self, funding_txo: OutPoint, monitor: &ChannelMonitor<ChannelSigner>, _update_id: MonitorUpdateId) -> chain::ChannelMonitorUpdateStatus {
let key = format!("{}_{}", funding_txo.txid.to_hex(), funding_txo.index);
match self.write(
- CHANNEL_MONITOR_PERSISTENCE_NAMESPACE,
- CHANNEL_MONITOR_PERSISTENCE_SUB_NAMESPACE,
+ CHANNEL_MONITOR_PERSISTENCE_PRIMARY_NAMESPACE,
+ CHANNEL_MONITOR_PERSISTENCE_SECONDARY_NAMESPACE,
&key, &monitor.encode())
{
Ok(()) => chain::ChannelMonitorUpdateStatus::Completed,
fn update_persisted_channel(&self, funding_txo: OutPoint, _update: Option<&ChannelMonitorUpdate>, monitor: &ChannelMonitor<ChannelSigner>, _update_id: MonitorUpdateId) -> chain::ChannelMonitorUpdateStatus {
let key = format!("{}_{}", funding_txo.txid.to_hex(), funding_txo.index);
match self.write(
- CHANNEL_MONITOR_PERSISTENCE_NAMESPACE,
- CHANNEL_MONITOR_PERSISTENCE_SUB_NAMESPACE,
+ CHANNEL_MONITOR_PERSISTENCE_PRIMARY_NAMESPACE,
+ CHANNEL_MONITOR_PERSISTENCE_SECONDARY_NAMESPACE,
&key, &monitor.encode())
{
Ok(()) => chain::ChannelMonitorUpdateStatus::Completed,
let mut res = Vec::new();
for stored_key in kv_store.list(
- CHANNEL_MONITOR_PERSISTENCE_NAMESPACE, CHANNEL_MONITOR_PERSISTENCE_SUB_NAMESPACE)?
+ CHANNEL_MONITOR_PERSISTENCE_PRIMARY_NAMESPACE, CHANNEL_MONITOR_PERSISTENCE_SECONDARY_NAMESPACE)?
{
if stored_key.len() < 66 {
return Err(io::Error::new(
match <(BlockHash, ChannelMonitor<<SP::Target as SignerProvider>::Signer>)>::read(
&mut io::Cursor::new(
- kv_store.read(CHANNEL_MONITOR_PERSISTENCE_NAMESPACE, CHANNEL_MONITOR_PERSISTENCE_SUB_NAMESPACE, &stored_key)?),
+ kv_store.read(CHANNEL_MONITOR_PERSISTENCE_PRIMARY_NAMESPACE, CHANNEL_MONITOR_PERSISTENCE_SECONDARY_NAMESPACE, &stored_key)?),
(&*entropy_source, &*signer_provider),
) {
Ok((block_hash, channel_monitor)) => {
/// - [`Persist::persist_new_channel`], which persists whole [`ChannelMonitor`]s.
/// - [`Persist::update_persisted_channel`], which persists only a [`ChannelMonitorUpdate`]
///
-/// Whole [`ChannelMonitor`]s are stored in the [`CHANNEL_MONITOR_PERSISTENCE_NAMESPACE`], using the
-/// familiar encoding of an [`OutPoint`] (for example, `[SOME-64-CHAR-HEX-STRING]_1`).
+/// Whole [`ChannelMonitor`]s are stored in the [`CHANNEL_MONITOR_PERSISTENCE_PRIMARY_NAMESPACE`],
+/// using the familiar encoding of an [`OutPoint`] (for example, `[SOME-64-CHAR-HEX-STRING]_1`).
///
-/// Each [`ChannelMonitorUpdate`] is stored in a dynamic sub-namespace, as follows:
+/// Each [`ChannelMonitorUpdate`] is stored in a dynamic secondary namespace, as follows:
///
-/// - namespace: [`CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE`]
-/// - sub-namespace: [the monitor's encoded outpoint name]
+/// - primary namespace: [`CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE`]
+/// - secondary namespace: [the monitor's encoded outpoint name]
///
-/// Under that sub-namespace, each update is stored with a number string, like `21`, which
+/// Under that secondary namespace, each update is stored with a number string, like `21`, which
/// represents its `update_id` value.
///
/// For example, consider this channel, named for its transaction ID and index, or [`OutPoint`]:
///
/// Full channel monitors would be stored at a single key:
///
-/// `[CHANNEL_MONITOR_PERSISTENCE_NAMESPACE]/deadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeef_1`
+/// `[CHANNEL_MONITOR_PERSISTENCE_PRIMARY_NAMESPACE]/deadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeef_1`
///
-/// Updates would be stored as follows (with `/` delimiting namespace/sub-namespace/key):
+/// Updates would be stored as follows (with `/` delimiting primary_namespace/secondary_namespace/key):
///
/// ```text
-/// [CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE]/deadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeef_1/1
-/// [CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE]/deadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeef_1/2
-/// [CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE]/deadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeef_1/3
+/// [CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE]/deadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeef_1/1
+/// [CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE]/deadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeef_1/2
+/// [CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE]/deadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeef_1/3
/// ```
/// ... and so on.
///
F::Target: FeeEstimator,
{
let monitor_list = self.kv_store.list(
- CHANNEL_MONITOR_PERSISTENCE_NAMESPACE,
- CHANNEL_MONITOR_PERSISTENCE_SUB_NAMESPACE,
+ CHANNEL_MONITOR_PERSISTENCE_PRIMARY_NAMESPACE,
+ CHANNEL_MONITOR_PERSISTENCE_SECONDARY_NAMESPACE,
)?;
let mut res = Vec::with_capacity(monitor_list.len());
for monitor_key in monitor_list {
) -> Result<(BlockHash, ChannelMonitor<<SP::Target as SignerProvider>::Signer>), io::Error> {
let outpoint: OutPoint = monitor_name.try_into()?;
let mut monitor_cursor = io::Cursor::new(self.kv_store.read(
- CHANNEL_MONITOR_PERSISTENCE_NAMESPACE,
- CHANNEL_MONITOR_PERSISTENCE_SUB_NAMESPACE,
+ CHANNEL_MONITOR_PERSISTENCE_PRIMARY_NAMESPACE,
+ CHANNEL_MONITOR_PERSISTENCE_SECONDARY_NAMESPACE,
monitor_name.as_str(),
)?);
// Discard the sentinel bytes if found.
&self, monitor_name: &MonitorName, update_name: &UpdateName,
) -> Result<ChannelMonitorUpdate, io::Error> {
let update_bytes = self.kv_store.read(
- CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE,
+ CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE,
monitor_name.as_str(),
update_name.as_str(),
)?;
log_error!(
self.logger,
"Failed to read ChannelMonitorUpdate {}/{}/{}, reason: {}",
- CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE,
+ CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE,
monitor_name.as_str(),
update_name.as_str(),
e,
/// be passed to [`KVStore::remove`].
pub fn cleanup_stale_updates(&self, lazy: bool) -> Result<(), io::Error> {
let monitor_keys = self.kv_store.list(
- CHANNEL_MONITOR_PERSISTENCE_NAMESPACE,
- CHANNEL_MONITOR_PERSISTENCE_SUB_NAMESPACE,
+ CHANNEL_MONITOR_PERSISTENCE_PRIMARY_NAMESPACE,
+ CHANNEL_MONITOR_PERSISTENCE_SECONDARY_NAMESPACE,
)?;
for monitor_key in monitor_keys {
let monitor_name = MonitorName::new(monitor_key)?;
let (_, current_monitor) = self.read_monitor(&monitor_name)?;
let updates = self
.kv_store
- .list(CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE, monitor_name.as_str())?;
+ .list(CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE, monitor_name.as_str())?;
for update in updates {
let update_name = UpdateName::new(update)?;
// if the update_id is lower than the stored monitor, delete
if update_name.0 <= current_monitor.get_latest_update_id() {
self.kv_store.remove(
- CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE,
+ CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE,
monitor_name.as_str(),
update_name.as_str(),
lazy,
monitor_bytes.extend_from_slice(MONITOR_UPDATING_PERSISTER_PREPEND_SENTINEL);
monitor.write(&mut monitor_bytes).unwrap();
match self.kv_store.write(
- CHANNEL_MONITOR_PERSISTENCE_NAMESPACE,
- CHANNEL_MONITOR_PERSISTENCE_SUB_NAMESPACE,
+ CHANNEL_MONITOR_PERSISTENCE_PRIMARY_NAMESPACE,
+ CHANNEL_MONITOR_PERSISTENCE_SECONDARY_NAMESPACE,
monitor_name.as_str(),
&monitor_bytes,
) {
// stale updates, so do nothing.
}
if let Err(e) = self.kv_store.remove(
- CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE,
+ CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE,
monitor_name.as_str(),
update_name.as_str(),
true,
log_error!(
self.logger,
"error writing channel monitor {}/{}/{} reason: {}",
- CHANNEL_MONITOR_PERSISTENCE_NAMESPACE,
- CHANNEL_MONITOR_PERSISTENCE_SUB_NAMESPACE,
+ CHANNEL_MONITOR_PERSISTENCE_PRIMARY_NAMESPACE,
+ CHANNEL_MONITOR_PERSISTENCE_SECONDARY_NAMESPACE,
monitor_name.as_str(),
e
);
let monitor_name = MonitorName::from(funding_txo);
let update_name = UpdateName::from(update.update_id);
match self.kv_store.write(
- CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE,
+ CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE,
monitor_name.as_str(),
update_name.as_str(),
&update.encode(),
log_error!(
self.logger,
"error writing channel monitor update {}/{}/{} reason: {}",
- CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE,
+ CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE,
monitor_name.as_str(),
update_name.as_str(),
e
let (_, cm_0) = persister_0.read_monitor(&monitor_name).unwrap();
if cm_0.get_latest_update_id() == $expected_update_id {
assert_eq!(
- persister_0.kv_store.list(CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE,
+ persister_0.kv_store.list(CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE,
monitor_name.as_str()).unwrap().len(),
0,
"updates stored when they shouldn't be in persister 0"
let (_, cm_1) = persister_1.read_monitor(&monitor_name).unwrap();
if cm_1.get_latest_update_id() == $expected_update_id {
assert_eq!(
- persister_1.kv_store.list(CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE,
+ persister_1.kv_store.list(CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE,
monitor_name.as_str()).unwrap().len(),
0,
"updates stored when they shouldn't be in persister 1"
let (_, monitor) = &persisted_chan_data[0];
let monitor_name = MonitorName::from(monitor.get_funding_txo().0);
// The channel should have 0 updates, as it wrote a full monitor and consolidated.
- assert_eq!(persister_0.kv_store.list(CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE, monitor_name.as_str()).unwrap().len(), 0);
- assert_eq!(persister_1.kv_store.list(CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE, monitor_name.as_str()).unwrap().len(), 0);
+ assert_eq!(persister_0.kv_store.list(CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE, monitor_name.as_str()).unwrap().len(), 0);
+ assert_eq!(persister_1.kv_store.list(CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE, monitor_name.as_str()).unwrap().len(), 0);
}
// Test that if the `MonitorUpdatingPersister`'s can't actually write, trying to persist a
let monitor_name = MonitorName::from(monitor.get_funding_txo().0);
persister_0
.kv_store
- .write(CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE, monitor_name.as_str(), UpdateName::from(1).as_str(), &[0u8; 1])
+ .write(CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE, monitor_name.as_str(), UpdateName::from(1).as_str(), &[0u8; 1])
.unwrap();
// Do the stale update cleanup
// Confirm the stale update is unreadable/gone
assert!(persister_0
.kv_store
- .read(CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE, monitor_name.as_str(), UpdateName::from(1).as_str())
+ .read(CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE, monitor_name.as_str(), UpdateName::from(1).as_str())
.is_err());
// Force close.
// Write an update near u64::MAX
persister_0
.kv_store
- .write(CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE, monitor_name.as_str(), UpdateName::from(u64::MAX - 1).as_str(), &[0u8; 1])
+ .write(CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE, monitor_name.as_str(), UpdateName::from(u64::MAX - 1).as_str(), &[0u8; 1])
.unwrap();
// Do the stale update cleanup
// Confirm the stale update is unreadable/gone
assert!(persister_0
.kv_store
- .read(CHANNEL_MONITOR_UPDATE_PERSISTENCE_NAMESPACE, monitor_name.as_str(), UpdateName::from(u64::MAX - 1).as_str())
+ .read(CHANNEL_MONITOR_UPDATE_PERSISTENCE_PRIMARY_NAMESPACE, monitor_name.as_str(), UpdateName::from(u64::MAX - 1).as_str())
.is_err());
}
}