use super::PathInfoService;
use crate::proto::{self, ListPathInfoRequest, PathInfo};
use async_stream::try_stream;
use futures::Stream;
use std::{pin::Pin, sync::Arc};
use tonic::{async_trait, transport::Channel, Code};
use tvix_castore::{
blobservice::BlobService, directoryservice::DirectoryService, proto as castorepb, Error,
};
/// Connects to a (remote) tvix-store PathInfoService over gRPC.
#[derive(Clone)]
pub struct GRPCPathInfoService {
/// The internal reference to a gRPC client.
/// Cloning it is cheap, and it internally handles concurrent requests.
grpc_client: proto::path_info_service_client::PathInfoServiceClient<Channel>,
}
impl GRPCPathInfoService {
/// construct a [GRPCPathInfoService] from a [proto::path_info_service_client::PathInfoServiceClient].
/// panics if called outside the context of a tokio runtime.
pub fn from_client(
grpc_client: proto::path_info_service_client::PathInfoServiceClient<Channel>,
) -> Self {
Self { grpc_client }
}
}
#[async_trait]
impl PathInfoService for GRPCPathInfoService {
/// Constructs a [GRPCPathInfoService] from the passed [url::Url]:
/// - scheme has to match `grpc+*://`.
/// That's normally grpc+unix for unix sockets, and grpc+http(s) for the HTTP counterparts.
/// - In the case of unix sockets, there must be a path, but may not be a host.
/// - In the case of non-unix sockets, there must be a host, but no path.
/// The blob_service and directory_service arguments are ignored, because the gRPC service already provides answers to these questions.
fn from_url(
url: &url::Url,
_blob_service: Arc<dyn BlobService>,
_directory_service: Arc<dyn DirectoryService>,
) -> Result<Self, tvix_castore::Error> {
let channel = tvix_castore::channel::from_url(url)?;
Ok(Self::from_client(
proto::path_info_service_client::PathInfoServiceClient::new(channel),
))
}
async fn get(&self, digest: [u8; 20]) -> Result<Option<PathInfo>, Error> {
let path_info = self
.grpc_client
.clone()
.get(proto::GetPathInfoRequest {
by_what: Some(proto::get_path_info_request::ByWhat::ByOutputHash(
digest.to_vec().into(),
)),
})
.await;
match path_info {
Ok(path_info) => Ok(Some(path_info.into_inner())),
Err(e) if e.code() == Code::NotFound => Ok(None),
Err(e) => Err(Error::StorageError(e.to_string())),
}
}
async fn put(&self, path_info: PathInfo) -> Result<PathInfo, Error> {
let path_info = self
.grpc_client
.clone()
.put(path_info)
.await
.map_err(|e| Error::StorageError(e.to_string()))?
.into_inner();
Ok(path_info)
}
async fn calculate_nar(
&self,
root_node: &castorepb::node::Node,
) -> Result<(u64, [u8; 32]), Error> {
let path_info = self
.grpc_client
.clone()
.calculate_nar(castorepb::Node {
node: Some(root_node.clone()),
})
.await
.map_err(|e| Error::StorageError(e.to_string()))?
.into_inner();
let nar_sha256: [u8; 32] = path_info
.nar_sha256
.to_vec()
.try_into()
.map_err(|_e| Error::StorageError("invalid digest length".to_string()))?;
Ok((path_info.nar_size, nar_sha256))
}
fn list(&self) -> Pin<Box<dyn Stream<Item = Result<PathInfo, Error>> + Send>> {
let mut grpc_client = self.grpc_client.clone();
let stream = try_stream! {
let resp = grpc_client.list(ListPathInfoRequest::default()).await;
let mut stream = resp.map_err(|e| Error::StorageError(e.to_string()))?.into_inner();
loop {
match stream.message().await {
Ok(o) => match o {
Some(pathinfo) => {
// validate the pathinfo
if let Err(e) = pathinfo.validate() {
Err(Error::StorageError(format!(
"pathinfo {:?} failed validation: {}",
pathinfo, e
)))?;
}
yield pathinfo
}
None => {
return;
},
},
Err(e) => Err(Error::StorageError(e.to_string()))?,
}
}
};
Box::pin(stream)
}
}
#[cfg(test)]
mod tests {
use std::sync::Arc;
use std::time::Duration;
use tempfile::TempDir;
use tokio::net::UnixListener;
use tokio_retry::strategy::ExponentialBackoff;
use tokio_retry::Retry;
use tokio_stream::wrappers::UnixListenerStream;
use crate::pathinfoservice::MemoryPathInfoService;
use crate::proto::GRPCPathInfoServiceWrapper;
use crate::tests::fixtures;
use crate::tests::utils::gen_blob_service;
use crate::tests::utils::gen_directory_service;
use super::GRPCPathInfoService;
use super::PathInfoService;
/// This uses the wrong scheme
#[test]
fn test_invalid_scheme() {
let url = url::Url::parse("http://foo.example/test").expect("must parse");
assert!(
GRPCPathInfoService::from_url(&url, gen_blob_service(), gen_directory_service())
.is_err()
);
}
/// This uses the correct scheme for a unix socket.
/// The fact that /path/to/somewhere doesn't exist yet is no problem, because we connect lazily.
#[tokio::test]
async fn test_valid_unix_path() {
let url = url::Url::parse("grpc+unix:///path/to/somewhere").expect("must parse");
assert!(
GRPCPathInfoService::from_url(&url, gen_blob_service(), gen_directory_service())
.is_ok()
);
}
/// This uses the correct scheme for a unix socket,
/// but sets a host, which is unsupported.
#[tokio::test]
async fn test_invalid_unix_path_with_domain() {
let url =
url::Url::parse("grpc+unix://host.example/path/to/somewhere").expect("must parse");
assert!(
GRPCPathInfoService::from_url(&url, gen_blob_service(), gen_directory_service())
.is_err()
);
}
/// This uses the correct scheme for a HTTP server.
/// The fact that nothing is listening there is no problem, because we connect lazily.
#[tokio::test]
async fn test_valid_http() {
let url = url::Url::parse("grpc+http://localhost").expect("must parse");
assert!(
GRPCPathInfoService::from_url(&url, gen_blob_service(), gen_directory_service())
.is_ok()
);
}
/// This uses the correct scheme for a HTTPS server.
/// The fact that nothing is listening there is no problem, because we connect lazily.
#[tokio::test]
async fn test_valid_https() {
let url = url::Url::parse("grpc+https://localhost").expect("must parse");
assert!(
GRPCPathInfoService::from_url(&url, gen_blob_service(), gen_directory_service())
.is_ok()
);
}
/// This uses the correct scheme, but also specifies
/// an additional path, which is not supported for gRPC.
/// The fact that nothing is listening there is no problem, because we connect lazily.
#[tokio::test]
async fn test_invalid_http_with_path() {
let url = url::Url::parse("grpc+https://localhost/some-path").expect("must parse");
assert!(
GRPCPathInfoService::from_url(&url, gen_blob_service(), gen_directory_service())
.is_err()
);
}
/// This ensures connecting via gRPC works as expected.
#[tokio::test]
async fn test_valid_unix_path_ping_pong() {
let tmpdir = TempDir::new().unwrap();
let socket_path = tmpdir.path().join("daemon");
let path_clone = socket_path.clone();
// Spin up a server
tokio::spawn(async {
let uds = UnixListener::bind(path_clone).unwrap();
let uds_stream = UnixListenerStream::new(uds);
// spin up a new server
let mut server = tonic::transport::Server::builder();
let router = server.add_service(
crate::proto::path_info_service_server::PathInfoServiceServer::new(
GRPCPathInfoServiceWrapper::from(Arc::new(MemoryPathInfoService::new(
gen_blob_service(),
gen_directory_service(),
))
as Arc<dyn PathInfoService>),
),
);
router.serve_with_incoming(uds_stream).await
});
// wait for the socket to be created
Retry::spawn(
ExponentialBackoff::from_millis(20).max_delay(Duration::from_secs(10)),
|| async {
if socket_path.exists() {
Ok(())
} else {
Err(())
}
},
)
.await
.expect("failed to wait for socket");
// prepare a client
let grpc_client = {
let url = url::Url::parse(&format!("grpc+unix://{}", socket_path.display()))
.expect("must parse");
GRPCPathInfoService::from_url(&url, gen_blob_service(), gen_directory_service())
.expect("must succeed")
};
let path_info = grpc_client
.get(fixtures::DUMMY_OUTPUT_HASH.to_vec().try_into().unwrap())
.await
.expect("must not be error");
assert!(path_info.is_none());
}
}