use clap::Subcommand; use data_encoding::BASE64; use futures::future::try_join_all; use nix_compat::store_path; use nix_compat::store_path::StorePath; use std::io; use std::path::Path; use std::path::PathBuf; use tokio::task::JoinHandle; use tracing_subscriber::prelude::*; use tvix_store::blobservice; use tvix_store::directoryservice; use tvix_store::import; use tvix_store::pathinfoservice; use tvix_store::proto::blob_service_server::BlobServiceServer; use tvix_store::proto::directory_service_server::DirectoryServiceServer; use tvix_store::proto::node::Node; use tvix_store::proto::path_info_service_server::PathInfoServiceServer; use tvix_store::proto::GRPCBlobServiceWrapper; use tvix_store::proto::GRPCDirectoryServiceWrapper; use tvix_store::proto::GRPCPathInfoServiceWrapper; use tvix_store::proto::NamedNode; use tvix_store::proto::NarInfo; use tvix_store::proto::PathInfo; use tvix_store::FUSE; #[cfg(feature = "reflection")] use tvix_store::proto::FILE_DESCRIPTOR_SET; use clap::Parser; use tonic::{transport::Server, Result}; use tracing::{info, Level}; #[derive(Parser)] #[command(author, version, about, long_about = None)] struct Cli { /// Whether to log in JSON #[arg(long)] json: bool, #[arg(long)] log_level: Option<Level>, #[command(subcommand)] command: Commands, } #[derive(Subcommand)] enum Commands { /// Runs the tvix-store daemon. Daemon { #[arg(long, short = 'l')] listen_address: Option<String>, #[arg(long, env, default_value = "sled:///var/lib/tvix-store/blobs.sled")] blob_service_addr: String, #[arg( long, env, default_value = "sled:///var/lib/tvix-store/directories.sled" )] directory_service_addr: String, #[arg(long, env, default_value = "sled:///var/lib/tvix-store/pathinfo.sled")] path_info_service_addr: String, }, /// Imports a list of paths into the store, print the store path for each of them. Import { #[clap(value_name = "PATH")] paths: Vec<PathBuf>, #[arg(long, env, default_value = "grpc+http://[::1]:8000")] blob_service_addr: String, #[arg(long, env, default_value = "grpc+http://[::1]:8000")] directory_service_addr: String, #[arg(long, env, default_value = "grpc+http://[::1]:8000")] path_info_service_addr: String, }, /// Mounts a tvix-store at the given mountpoint #[cfg(feature = "fuse")] Mount { #[clap(value_name = "PATH")] dest: PathBuf, #[arg(long, env, default_value = "grpc+http://[::1]:8000")] blob_service_addr: String, #[arg(long, env, default_value = "grpc+http://[::1]:8000")] directory_service_addr: String, #[arg(long, env, default_value = "grpc+http://[::1]:8000")] path_info_service_addr: String, /// Whether to list elements at the root of the mount point. /// This is useful if your PathInfoService doesn't provide an /// (exhaustive) listing. #[clap(long, short, action)] list_root: bool, }, } #[tokio::main] async fn main() -> Result<(), Box<dyn std::error::Error>> { let cli = Cli::parse(); // configure log settings let level = cli.log_level.unwrap_or(Level::INFO); let subscriber = tracing_subscriber::registry() .with(if cli.json { Some( tracing_subscriber::fmt::Layer::new() .with_writer(io::stderr.with_max_level(level)) .json(), ) } else { None }) .with(if !cli.json { Some( tracing_subscriber::fmt::Layer::new() .with_writer(io::stderr.with_max_level(level)) .pretty(), ) } else { None }); tracing::subscriber::set_global_default(subscriber).expect("Unable to set global subscriber"); match cli.command { Commands::Daemon { listen_address, blob_service_addr, directory_service_addr, path_info_service_addr, } => { // initialize stores let blob_service = blobservice::from_addr(&blob_service_addr)?; let directory_service = directoryservice::from_addr(&directory_service_addr)?; let path_info_service = pathinfoservice::from_addr( &path_info_service_addr, blob_service.clone(), directory_service.clone(), )?; let listen_address = listen_address .unwrap_or_else(|| "[::]:8000".to_string()) .parse() .unwrap(); let mut server = Server::builder(); #[allow(unused_mut)] let mut router = server .add_service(BlobServiceServer::new(GRPCBlobServiceWrapper::from( blob_service, ))) .add_service(DirectoryServiceServer::new( GRPCDirectoryServiceWrapper::from(directory_service), )) .add_service(PathInfoServiceServer::new( GRPCPathInfoServiceWrapper::from(path_info_service), )); #[cfg(feature = "reflection")] { let reflection_svc = tonic_reflection::server::Builder::configure() .register_encoded_file_descriptor_set(FILE_DESCRIPTOR_SET) .build()?; router = router.add_service(reflection_svc); } info!("tvix-store listening on {}", listen_address); router.serve(listen_address).await?; } Commands::Import { paths, blob_service_addr, directory_service_addr, path_info_service_addr, } => { // FUTUREWORK: allow flat for single files? let blob_service = blobservice::from_addr(&blob_service_addr)?; let directory_service = directoryservice::from_addr(&directory_service_addr)?; let path_info_service = pathinfoservice::from_addr( &path_info_service_addr, blob_service.clone(), directory_service.clone(), )?; let tasks = paths .into_iter() .map(|path| { let blob_service = blob_service.clone(); let directory_service = directory_service.clone(); let path_info_service = path_info_service.clone(); let task: JoinHandle<io::Result<()>> = tokio::task::spawn(async move { // Ingest the path into blob and directory service. let root_node = import::ingest_path( blob_service.clone(), directory_service.clone(), &path, ) .await .expect("failed to ingest path"); // Ask the PathInfoService for the NAR size and sha256 let root_node_copy = root_node.clone(); let path_info_service_clone = path_info_service.clone(); let (nar_size, nar_sha256) = tokio::task::spawn_blocking(move || { path_info_service_clone.calculate_nar(&root_node_copy) }) .await .unwrap()?; // TODO: make a path_to_name helper function? let name = path .file_name() .expect("path must not be ..") .to_str() .expect("path must be valid unicode"); let output_path = store_path::build_nar_based_store_path(&nar_sha256, name); // assemble a new root_node with a name that is derived from the nar hash. let root_node = root_node.rename(output_path.to_string().into_bytes().into()); // assemble the [crate::proto::PathInfo] object. let path_info = PathInfo { node: Some(tvix_store::proto::Node { node: Some(root_node), }), // There's no reference scanning on path contents ingested like this. references: vec![], narinfo: Some(NarInfo { nar_size, nar_sha256: nar_sha256.to_vec().into(), signatures: vec![], reference_names: vec![], }), }; // put into [PathInfoService], and return the PathInfo that we get back // from there (it might contain additional signatures). let path_info = tokio::task::spawn_blocking(move || path_info_service.put(path_info)) .await .unwrap()?; let node = path_info.node.unwrap().node.unwrap(); log_node(&node, &path); println!( "{}", StorePath::from_bytes(node.get_name()) .unwrap() .to_absolute_path() ); Ok(()) }); task }) .collect::<Vec<_>>(); try_join_all(tasks).await?; } #[cfg(feature = "fuse")] Commands::Mount { dest, blob_service_addr, directory_service_addr, path_info_service_addr, list_root, } => { let blob_service = blobservice::from_addr(&blob_service_addr)?; let directory_service = directoryservice::from_addr(&directory_service_addr)?; let path_info_service = pathinfoservice::from_addr( &path_info_service_addr, blob_service.clone(), directory_service.clone(), )?; let mut fuse_session = tokio::task::spawn_blocking(move || { let f = FUSE::new( blob_service, directory_service, path_info_service, list_root, ); fuser::Session::new(f, &dest, &[]) }) .await??; // grab a handle to unmount the file system, and register a signal // handler. let mut fuse_unmounter = fuse_session.unmount_callable(); tokio::spawn(async move { tokio::signal::ctrl_c().await.unwrap(); info!("interrupt received, unmounting…"); fuse_unmounter.unmount().unwrap(); }); // Start the fuse filesystem and wait for its completion, which // happens when it's unmounted externally, or via the signal handler // task. tokio::task::spawn_blocking(move || -> io::Result<()> { info!("mounting tvix-store on {:?}", fuse_session.mountpoint()); fuse_session.run()?; info!("unmount occured, terminating…"); Ok(()) }) .await??; } }; Ok(()) } fn log_node(node: &Node, path: &Path) { match node { Node::Directory(directory_node) => { info!( path = ?path, name = ?directory_node.name, digest = BASE64.encode(&directory_node.digest), "import successful", ) } Node::File(file_node) => { info!( path = ?path, name = ?file_node.name, digest = BASE64.encode(&file_node.digest), "import successful" ) } Node::Symlink(symlink_node) => { info!( path = ?path, name = ?symlink_node.name, target = ?symlink_node.target, "import successful" ) } } }