use crate::ic_registry::{
DEFAULT_MAINNET_ENDPOINT, MainnetNodeOperatorList, MainnetRegistryFetchRequest,
fetch_mainnet_node_operator_list,
};
use crate::subnet_catalog::canonical_principal_text;
use crate::{
cache_file::{
CachedJsonReport, LoadJsonCacheRequest, RefreshCacheWriteRequest, announce_cache_refresh,
load_json_cache, write_json_refresh_cache,
},
nns::leaf::{NnsLeafCachePaths, nns_leaf_cache_path},
subnet_catalog::format_utc_timestamp_secs,
};
use std::path::{Path, PathBuf};
mod model;
mod text;
pub use model::*;
pub use text::{
nns_node_operator_info_report_text, nns_node_operator_list_report_text,
nns_node_operator_list_report_verbose_text, nns_node_operator_refresh_report_text,
};
pub const DEFAULT_NNS_NODE_OPERATOR_SOURCE_ENDPOINT: &str = DEFAULT_MAINNET_ENDPOINT;
pub const DEFAULT_NODE_OPERATOR_REFRESH_LOCK_STALE_SECONDS: u64 = 30 * 60;
pub const NNS_NODE_OPERATOR_LIST_REPORT_SCHEMA_VERSION: u32 = 1;
pub const NNS_NODE_OPERATOR_INFO_REPORT_SCHEMA_VERSION: u32 = 1;
pub const NNS_NODE_OPERATOR_REFRESH_REPORT_SCHEMA_VERSION: u32 = 1;
const NNS_NODE_OPERATOR_CACHE_DIR: &str = "node-operator";
const NNS_NODE_OPERATOR_CACHE_FILE: &str = "operators.json";
#[must_use]
pub fn nns_node_operator_cache_path(icp_root: &Path, network: &str) -> PathBuf {
nns_leaf_cache_path(
icp_root,
NNS_NODE_OPERATOR_CACHE_DIR,
network,
NNS_NODE_OPERATOR_CACHE_FILE,
)
}
impl_nns_load_json_cache_error_mapper!(NnsNodeOperatorCacheErrors, NnsNodeOperatorHostError);
pub fn load_cached_nns_node_operator_report(
request: &NnsNodeOperatorCacheRequest,
) -> Result<CachedJsonReport<NnsNodeOperatorListReport>, NnsNodeOperatorHostError> {
enforce_mainnet_network(&request.network)?;
let path = nns_node_operator_cache_path(&request.icp_root, &request.network);
load_json_cache(
LoadJsonCacheRequest {
path,
network: &request.network,
expected_schema_version: NNS_NODE_OPERATOR_LIST_REPORT_SCHEMA_VERSION,
},
NnsNodeOperatorCacheErrors,
)
}
pub fn build_nns_node_operator_list_report(
request: &NnsNodeOperatorListRequest,
) -> Result<NnsNodeOperatorListReport, NnsNodeOperatorHostError> {
build_nns_node_operator_list_report_with_source(request, &LiveNnsNodeOperatorSource)
}
pub fn build_nns_node_operator_info_report(
request: &NnsNodeOperatorInfoRequest,
) -> Result<NnsNodeOperatorInfoReport, NnsNodeOperatorHostError> {
build_nns_node_operator_info_report_with_source(request, &LiveNnsNodeOperatorSource)
}
pub fn refresh_nns_node_operator_report(
request: &NnsNodeOperatorRefreshRequest,
) -> Result<NnsNodeOperatorRefreshReport, NnsNodeOperatorHostError> {
refresh_nns_node_operator_report_with_source(request, &LiveNnsNodeOperatorSource)
}
fn build_nns_node_operator_list_report_with_source(
request: &NnsNodeOperatorListRequest,
source: &dyn NnsNodeOperatorSource,
) -> Result<NnsNodeOperatorListReport, NnsNodeOperatorHostError> {
match load_cached_nns_node_operator_report(&request.cache) {
Ok(cached) => Ok(cached.report),
Err(NnsNodeOperatorHostError::MissingCache { path }) => {
announce_cache_refresh("node-operator", &path, &request.source_endpoint);
let refresh_request = NnsNodeOperatorRefreshRequest {
cache: request.cache.clone(),
source_endpoint: request.source_endpoint.clone(),
now_unix_secs: request.now_unix_secs,
lock_stale_after_seconds: DEFAULT_NODE_OPERATOR_REFRESH_LOCK_STALE_SECONDS,
dry_run: false,
output_path: None,
};
let (report, _) =
refresh_nns_node_operator_cache_with_source(&refresh_request, source)?;
Ok(report)
}
Err(err) => Err(err),
}
}
fn build_nns_node_operator_info_report_with_source(
request: &NnsNodeOperatorInfoRequest,
source: &dyn NnsNodeOperatorSource,
) -> Result<NnsNodeOperatorInfoReport, NnsNodeOperatorHostError> {
let list_request = NnsNodeOperatorListRequest {
cache: request.cache.clone(),
source_endpoint: request.source_endpoint.clone(),
now_unix_secs: request.now_unix_secs,
};
let report = build_nns_node_operator_list_report_with_source(&list_request, source)?;
let (operator, resolved_from) = resolve_node_operator(&report, &request.input)?;
Ok(NnsNodeOperatorInfoReport {
schema_version: NNS_NODE_OPERATOR_INFO_REPORT_SCHEMA_VERSION,
input: request.input.clone(),
resolved_from,
network: report.network,
registry_canister_id: report.registry_canister_id,
registry_version: report.registry_version,
fetched_at: report.fetched_at,
source_endpoint: report.source_endpoint,
fetched_by: report.fetched_by,
node_operator_principal: operator.node_operator_principal,
node_provider_principal: operator.node_provider_principal,
node_allowance: operator.node_allowance,
data_center_id: operator.data_center_id,
node_count: operator.node_count,
})
}
fn refresh_nns_node_operator_report_with_source(
request: &NnsNodeOperatorRefreshRequest,
source: &dyn NnsNodeOperatorSource,
) -> Result<NnsNodeOperatorRefreshReport, NnsNodeOperatorHostError> {
refresh_nns_node_operator_cache_with_source(request, source).map(|(_, report)| report)
}
fn refresh_nns_node_operator_cache_with_source(
request: &NnsNodeOperatorRefreshRequest,
source: &dyn NnsNodeOperatorSource,
) -> Result<(NnsNodeOperatorListReport, NnsNodeOperatorRefreshReport), NnsNodeOperatorHostError> {
enforce_mainnet_network(&request.cache.network)?;
let paths = NnsLeafCachePaths::for_component(
&request.cache.icp_root,
NNS_NODE_OPERATOR_CACHE_DIR,
&request.cache.network,
NNS_NODE_OPERATOR_CACHE_FILE,
);
let report = fetch_nns_node_operator_list_report_with_source(
&request.cache.network,
&request.source_endpoint,
request.now_unix_secs,
source,
)?;
let write_result = write_json_refresh_cache(
RefreshCacheWriteRequest {
cache_path: &paths.cache_path,
lock_path: &paths.lock_path,
network: &request.cache.network,
now_unix_secs: request.now_unix_secs,
lock_stale_after_seconds: request.lock_stale_after_seconds,
dry_run: request.dry_run,
output_path: request.output_path.as_deref(),
report: &report,
},
node_operator_cache_error,
|path, source| NnsNodeOperatorHostError::SerializeCache { path, source },
)?;
let refresh_report = NnsNodeOperatorRefreshReport {
schema_version: NNS_NODE_OPERATOR_REFRESH_REPORT_SCHEMA_VERSION,
network: report.network.clone(),
cache_path: write_result.cache_path,
refresh_lock_path: write_result.refresh_lock_path,
output_path: write_result.output_path,
registry_canister_id: report.registry_canister_id.clone(),
registry_version: report.registry_version,
fetched_at: report.fetched_at.clone(),
source_endpoint: report.source_endpoint.clone(),
fetched_by: report.fetched_by.clone(),
dry_run: request.dry_run,
wrote_cache: write_result.wrote_cache,
replaced_existing_cache: write_result.replaced_existing_cache,
node_operator_count: report.node_operator_count,
};
Ok((report, refresh_report))
}
fn fetch_nns_node_operator_list_report_with_source(
network: &str,
source_endpoint: &str,
now_unix_secs: u64,
source: &dyn NnsNodeOperatorSource,
) -> Result<NnsNodeOperatorListReport, NnsNodeOperatorHostError> {
enforce_mainnet_network(network)?;
let fetched_at = format_utc_timestamp_secs(now_unix_secs);
let mut fetch_request = MainnetRegistryFetchRequest::new(fetched_at);
fetch_request.endpoint = source_endpoint.to_string();
let list = source.fetch_node_operators(&fetch_request)?;
Ok(node_operator_report_from_list(list))
}
impl_nns_cache_error_mapper!(node_operator_cache_error, NnsNodeOperatorHostError);
fn node_operator_report_from_list(list: MainnetNodeOperatorList) -> NnsNodeOperatorListReport {
let node_operators = list
.node_operators
.into_iter()
.map(|operator| NnsNodeOperatorRow {
node_operator_principal: operator.principal,
node_provider_principal: operator.node_provider_principal,
node_allowance: operator.node_allowance,
data_center_id: operator.data_center_id,
node_count: operator.node_count,
})
.collect::<Vec<_>>();
NnsNodeOperatorListReport {
schema_version: NNS_NODE_OPERATOR_LIST_REPORT_SCHEMA_VERSION,
network: list.network,
registry_canister_id: list.registry_canister_id,
registry_version: list.registry_version,
fetched_at: list.fetched_at,
source_endpoint: list.source_endpoint,
fetched_by: list.fetched_by,
node_operator_count: node_operators.len(),
node_operators,
}
}
trait NnsNodeOperatorSource {
fn fetch_node_operators(
&self,
request: &MainnetRegistryFetchRequest,
) -> Result<MainnetNodeOperatorList, NnsNodeOperatorHostError>;
}
impl_nns_mainnet_network_enforcer!(NnsNodeOperatorHostError);
struct LiveNnsNodeOperatorSource;
impl NnsNodeOperatorSource for LiveNnsNodeOperatorSource {
fn fetch_node_operators(
&self,
request: &MainnetRegistryFetchRequest,
) -> Result<MainnetNodeOperatorList, NnsNodeOperatorHostError> {
Ok(fetch_mainnet_node_operator_list(request)?)
}
}
fn resolve_node_operator(
report: &NnsNodeOperatorListReport,
input: &str,
) -> Result<(NnsNodeOperatorRow, String), NnsNodeOperatorHostError> {
if let Ok(principal) = canonical_principal_text(input)
&& let Some(operator) = report
.node_operators
.iter()
.find(|operator| operator.node_operator_principal == principal)
{
return Ok((operator.clone(), "node_operator_principal".to_string()));
}
let prefix = input.trim().to_ascii_lowercase();
if prefix.is_empty() {
return Err(NnsNodeOperatorHostError::NodeOperatorNotFound {
input: input.to_string(),
});
}
let matches = report
.node_operators
.iter()
.filter(|operator| operator.node_operator_principal.starts_with(&prefix))
.cloned()
.collect::<Vec<_>>();
match matches.as_slice() {
[operator] => Ok((
operator.clone(),
"node_operator_principal_prefix".to_string(),
)),
[] => Err(NnsNodeOperatorHostError::NodeOperatorNotFound {
input: input.to_string(),
}),
_ => Err(NnsNodeOperatorHostError::AmbiguousNodeOperatorPrefix {
prefix,
matches: matches
.into_iter()
.map(|operator| operator.node_operator_principal)
.collect(),
}),
}
}
#[cfg(test)]
mod tests;