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feat(router): soft-delete RPC handler 

This implements the RPC "delete_namespace" handler, allowing a namespace
to be soft-deleted.

Adds unit coverage for all handlers & e2e test coverage for the new
handler (the rest were already covered).

The tests also highlight the caching issue documented here:

    https://github.com/influxdata/influxdb_iox/issues/6175
pull/24376/head
Dom Dwyer 2023-02-10 16:16:28 +01:00
parent 4a30df0e07
commit 61fb92b85c
No known key found for this signature in database
GPG Key ID: E4C40DBD9157879A
2 changed files with 272 additions and 11 deletions
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132
router/tests/grpc.rs
View File

@ -134,6 +134,138 @@ async fn test_namespace_create() {
assert_eq!(response.status(), StatusCode::NO_CONTENT);
}
/// Ensure invoking the gRPC NamespaceService to delete a namespace propagates
/// the catalog and denies writes after the cache has converged / router
/// restarted.
#[tokio::test]
async fn test_namespace_delete() {
// Initialise a TestContext requiring explicit namespace creation.
let ctx = TestContext::new(true, None).await;
const RETENTION: i64 = Duration::from_secs(42 * 60 * 60).as_nanos() as _;
// Explicitly create the namespace.
let req = CreateNamespaceRequest {
name: "bananas_test".to_string(),
retention_period_ns: Some(RETENTION),
};
let got = ctx
.grpc_delegate()
.namespace_service()
.create_namespace(Request::new(req))
.await
.expect("failed to create namespace")
.into_inner()
.namespace
.expect("no namespace in response");
assert_eq!(got.name, "bananas_test");
assert_eq!(got.id, 1);
assert_eq!(got.retention_period_ns, Some(RETENTION));
// The namespace is usable.
let now = SystemProvider::default()
.now()
.timestamp_nanos()
.to_string();
let lp = "platanos,tag1=A,tag2=B val=42i ".to_string() + &now;
let response = ctx
.write_lp("bananas", "test", &lp)
.await
.expect("write failed");
assert_eq!(response.status(), StatusCode::NO_CONTENT);
// The RPC endpoint must not return the namespace.
{
let current = ctx
.grpc_delegate()
.namespace_service()
.get_namespaces(Request::new(Default::default()))
.await
.expect("must return namespaces")
.into_inner();
assert!(!current.namespaces.is_empty());
}
// Delete the namespace
{
let _resp = ctx
.grpc_delegate()
.namespace_service()
.delete_namespace(Request::new(DeleteNamespaceRequest {
name: "bananas_test".to_string(),
}))
.await
.expect("must delete");
}
// The RPC endpoint must not return the namespace.
{
let current = ctx
.grpc_delegate()
.namespace_service()
.get_namespaces(Request::new(Default::default()))
.await
.expect("must return namespaces")
.into_inner();
assert!(current.namespaces.is_empty());
}
// The catalog should contain the namespace, but "soft-deleted".
{
let db_list = ctx
.catalog()
.repositories()
.await
.namespaces()
.list(SoftDeletedRows::ExcludeDeleted)
.await
.expect("query failure");
assert!(db_list.is_empty());
let db_list = ctx
.catalog()
.repositories()
.await
.namespaces()
.list(SoftDeletedRows::OnlyDeleted)
.await
.expect("query failure");
assert_matches!(db_list.as_slice(), [ns] => {
assert_eq!(ns.id.get(), got.id);
assert_eq!(ns.name, got.name);
assert_eq!(ns.retention_period_ns, got.retention_period_ns);
assert!(ns.deleted_at.is_some());
});
}
// The cached entry is not affected, and writes continue to be validated
// against cached entry.
//
// https://github.com/influxdata/influxdb_iox/issues/6175
let response = ctx
.write_lp("bananas", "test", &lp)
.await
.expect("write failed");
assert_eq!(response.status(), StatusCode::NO_CONTENT);
// The router restarts, and writes are no longer accepted for the
// soft-deleted bucket.
let ctx = ctx.restart();
let err = ctx
.write_lp("bananas", "test", lp)
.await
.expect_err("write should fail");
assert_matches!(
err,
router::server::http::Error::NamespaceResolver(router::namespace_resolver::Error::Lookup(
iox_catalog::interface::Error::NamespaceNotFoundByName { .. }
))
);
}
/// Ensure creating a namespace with a retention period of 0 maps to "infinite"
/// and not "none".
#[tokio::test]

151
service_grpc_namespace/src/lib.rs
View File

@ -97,12 +97,24 @@ impl namespace_service_server::NamespaceService for NamespaceService {
async fn delete_namespace(
&self,
_request: Request<DeleteNamespaceRequest>,
request: Request<DeleteNamespaceRequest>,
) -> Result<Response<DeleteNamespaceResponse>, Status> {
warn!("call to namespace delete - unimplemented");
Err(Status::unimplemented(
"namespace delete is not yet supported",
))
let namespace_name = request.into_inner().name;
self.catalog
.repositories()
.await
.namespaces()
.soft_delete(&namespace_name)
.await
.map_err(|e| {
warn!(error=%e, %namespace_name, "failed to soft-delete namespace");
Status::internal(e.to_string())
})?;
info!(namespace_name, "soft-deleted namespace");
Ok(Response::new(Default::default()))
}
async fn update_namespace_retention(
@ -179,21 +191,138 @@ fn map_retention_period(v: Option<i64>) -> Result<Option<i64>, Status> {
#[cfg(test)]
mod tests {
use std::time::Duration;
use assert_matches::assert_matches;
use generated_types::influxdata::iox::namespace::v1::namespace_service_server::NamespaceService as _;
use iox_catalog::mem::MemCatalog;
use tonic::Code;
use super::*;
const RETENTION: i64 = Duration::from_secs(42 * 60 * 60).as_nanos() as _;
const NS_NAME: &str = "bananas";
#[test]
fn test_retention_mapping() {
assert_matches::assert_matches!(map_retention_period(None), Ok(None));
assert_matches::assert_matches!(map_retention_period(Some(0)), Ok(None));
assert_matches::assert_matches!(map_retention_period(Some(1)), Ok(Some(1)));
assert_matches::assert_matches!(map_retention_period(Some(42)), Ok(Some(42)));
assert_matches::assert_matches!(map_retention_period(Some(-1)), Err(e) => {
assert_matches!(map_retention_period(None), Ok(None));
assert_matches!(map_retention_period(Some(0)), Ok(None));
assert_matches!(map_retention_period(Some(1)), Ok(Some(1)));
assert_matches!(map_retention_period(Some(42)), Ok(Some(42)));
assert_matches!(map_retention_period(Some(-1)), Err(e) => {
assert_eq!(e.code(), Code::InvalidArgument)
});
assert_matches::assert_matches!(map_retention_period(Some(-42)), Err(e) => {
assert_matches!(map_retention_period(Some(-42)), Err(e) => {
assert_eq!(e.code(), Code::InvalidArgument)
});
}
#[tokio::test]
async fn test_crud() {
let catalog: Arc<dyn Catalog> =
Arc::new(MemCatalog::new(Arc::new(metric::Registry::default())));
let topic = catalog
.repositories()
.await
.topics()
.create_or_get("kafka-topic")
.await
.unwrap();
let query_pool = catalog
.repositories()
.await
.query_pools()
.create_or_get("query-pool")
.await
.unwrap();
let handler = NamespaceService::new(catalog, Some(topic.id), Some(query_pool.id));
// There should be no namespaces to start with.
{
let current = handler
.get_namespaces(Request::new(Default::default()))
.await
.expect("must return namespaces")
.into_inner()
.namespaces;
assert!(current.is_empty());
}
let req = CreateNamespaceRequest {
name: NS_NAME.to_string(),
retention_period_ns: Some(RETENTION),
};
let created_ns = handler
.create_namespace(Request::new(req))
.await
.expect("failed to create namespace")
.into_inner()
.namespace
.expect("no namespace in response");
assert_eq!(created_ns.name, NS_NAME);
assert_eq!(created_ns.retention_period_ns, Some(RETENTION));
// There should now be one namespace
{
let current = handler
.get_namespaces(Request::new(Default::default()))
.await
.expect("must return namespaces")
.into_inner()
.namespaces;
assert_matches!(current.as_slice(), [ns] => {
assert_eq!(ns, &created_ns);
})
}
// Update the retention period
let updated_ns = handler
.update_namespace_retention(Request::new(UpdateNamespaceRetentionRequest {
name: NS_NAME.to_string(),
retention_period_ns: Some(0), // A zero!
}))
.await
.expect("failed to create namespace")
.into_inner()
.namespace
.expect("no namespace in response");
assert_eq!(updated_ns.name, created_ns.name);
assert_eq!(updated_ns.id, created_ns.id);
assert_eq!(created_ns.retention_period_ns, Some(42));
assert_eq!(updated_ns.retention_period_ns, None);
// Listing the namespaces should return the updated namespace
{
let current = handler
.get_namespaces(Request::new(Default::default()))
.await
.expect("must return namespaces")
.into_inner()
.namespaces;
assert_matches!(current.as_slice(), [ns] => {
assert_eq!(ns, &updated_ns);
})
}
// Deleting the namespace should cause it to disappear
handler
.delete_namespace(Request::new(DeleteNamespaceRequest {
name: NS_NAME.to_string(),
}))
.await
.expect("must delete");
// Listing the namespaces should now return nothing.
{
let current = handler
.get_namespaces(Request::new(Default::default()))
.await
.expect("must return namespaces")
.into_inner()
.namespaces;
assert_matches!(current.as_slice(), []);
}
}
}