use std::collections::HashSet; use std::convert::TryFrom; use std::io::{self, Read, Write, Seek, SeekFrom}; use std::os::unix::io::{FromRawFd, RawFd}; use std::path::{Path, PathBuf}; use std::pin::Pin; use std::sync::{Arc, Mutex}; use std::task::Context; use anyhow::{bail, format_err, Error}; use futures::future::FutureExt; use futures::stream::{StreamExt, TryStreamExt}; use serde_json::{json, Value}; use tokio::sync::mpsc; use tokio_stream::wrappers::ReceiverStream; use xdg::BaseDirectories; use pathpatterns::{MatchEntry, MatchType, PatternFlag}; use proxmox::{ tools::{ time::{strftime_local, epoch_i64}, fs::{file_get_contents, file_get_json, replace_file, CreateOptions, image_size}, }, api::{ api, ApiHandler, ApiMethod, RpcEnvironment, schema::*, cli::*, }, }; use pxar::accessor::{MaybeReady, ReadAt, ReadAtOperation}; use proxmox_backup::tools; use proxmox_backup::api2::types::*; use proxmox_backup::api2::version; use proxmox_backup::client::*; use proxmox_backup::pxar::catalog::*; use proxmox_backup::backup::{ archive_type, decrypt_key, rsa_encrypt_key_config, verify_chunk_size, ArchiveType, AsyncReadChunk, BackupDir, BackupGroup, BackupManifest, BufferedDynamicReader, CATALOG_NAME, CatalogReader, CatalogWriter, ChunkStream, CryptConfig, CryptMode, DynamicIndexReader, ENCRYPTED_KEY_BLOB_NAME, FixedChunkStream, FixedIndexReader, KeyConfig, IndexFile, MANIFEST_BLOB_NAME, Shell, }; mod proxmox_backup_client; use proxmox_backup_client::*; mod proxmox_client_tools; use proxmox_client_tools::*; fn record_repository(repo: &BackupRepository) { let base = match BaseDirectories::with_prefix("proxmox-backup") { Ok(v) => v, _ => return, }; // usually $HOME/.cache/proxmox-backup/repo-list let path = match base.place_cache_file("repo-list") { Ok(v) => v, _ => return, }; let mut data = file_get_json(&path, None).unwrap_or_else(|_| json!({})); let repo = repo.to_string(); data[&repo] = json!{ data[&repo].as_i64().unwrap_or(0) + 1 }; let mut map = serde_json::map::Map::new(); loop { let mut max_used = 0; let mut max_repo = None; for (repo, count) in data.as_object().unwrap() { if map.contains_key(repo) { continue; } if let Some(count) = count.as_i64() { if count > max_used { max_used = count; max_repo = Some(repo); } } } if let Some(repo) = max_repo { map.insert(repo.to_owned(), json!(max_used)); } else { break; } if map.len() > 10 { // store max. 10 repos break; } } let new_data = json!(map); let _ = replace_file(path, new_data.to_string().as_bytes(), CreateOptions::new()); } async fn api_datastore_list_snapshots( client: &HttpClient, store: &str, group: Option, ) -> Result { let path = format!("api2/json/admin/datastore/{}/snapshots", store); let mut args = json!({}); if let Some(group) = group { args["backup-type"] = group.backup_type().into(); args["backup-id"] = group.backup_id().into(); } let mut result = client.get(&path, Some(args)).await?; Ok(result["data"].take()) } pub async fn api_datastore_latest_snapshot( client: &HttpClient, store: &str, group: BackupGroup, ) -> Result<(String, String, i64), Error> { let list = api_datastore_list_snapshots(client, store, Some(group.clone())).await?; let mut list: Vec = serde_json::from_value(list)?; if list.is_empty() { bail!("backup group {:?} does not contain any snapshots.", group.group_path()); } list.sort_unstable_by(|a, b| b.backup_time.cmp(&a.backup_time)); let backup_time = list[0].backup_time; Ok((group.backup_type().to_owned(), group.backup_id().to_owned(), backup_time)) } async fn backup_directory>( client: &BackupWriter, dir_path: P, archive_name: &str, chunk_size: Option, catalog: Arc>>, pxar_create_options: proxmox_backup::pxar::PxarCreateOptions, upload_options: UploadOptions, ) -> Result { let pxar_stream = PxarBackupStream::open( dir_path.as_ref(), catalog, pxar_create_options, )?; let mut chunk_stream = ChunkStream::new(pxar_stream, chunk_size); let (tx, rx) = mpsc::channel(10); // allow to buffer 10 chunks let stream = ReceiverStream::new(rx) .map_err(Error::from); // spawn chunker inside a separate task so that it can run parallel tokio::spawn(async move { while let Some(v) = chunk_stream.next().await { let _ = tx.send(v).await; } }); if upload_options.fixed_size.is_some() { bail!("cannot backup directory with fixed chunk size!"); } let stats = client .upload_stream(archive_name, stream, upload_options) .await?; Ok(stats) } async fn backup_image>( client: &BackupWriter, image_path: P, archive_name: &str, chunk_size: Option, upload_options: UploadOptions, ) -> Result { let path = image_path.as_ref().to_owned(); let file = tokio::fs::File::open(path).await?; let stream = tokio_util::codec::FramedRead::new(file, tokio_util::codec::BytesCodec::new()) .map_err(Error::from); let stream = FixedChunkStream::new(stream, chunk_size.unwrap_or(4*1024*1024)); if upload_options.fixed_size.is_none() { bail!("cannot backup image with dynamic chunk size!"); } let stats = client .upload_stream(archive_name, stream, upload_options) .await?; Ok(stats) } #[api( input: { properties: { repository: { schema: REPO_URL_SCHEMA, optional: true, }, "output-format": { schema: OUTPUT_FORMAT, optional: true, }, } } )] /// List backup groups. async fn list_backup_groups(param: Value) -> Result { let output_format = get_output_format(¶m); let repo = extract_repository_from_value(¶m)?; let client = connect(&repo)?; let path = format!("api2/json/admin/datastore/{}/groups", repo.store()); let mut result = client.get(&path, None).await?; record_repository(&repo); let render_group_path = |_v: &Value, record: &Value| -> Result { let item: GroupListItem = serde_json::from_value(record.to_owned())?; let group = BackupGroup::new(item.backup_type, item.backup_id); Ok(group.group_path().to_str().unwrap().to_owned()) }; let render_last_backup = |_v: &Value, record: &Value| -> Result { let item: GroupListItem = serde_json::from_value(record.to_owned())?; let snapshot = BackupDir::new(item.backup_type, item.backup_id, item.last_backup)?; Ok(snapshot.relative_path().to_str().unwrap().to_owned()) }; let render_files = |_v: &Value, record: &Value| -> Result { let item: GroupListItem = serde_json::from_value(record.to_owned())?; Ok(tools::format::render_backup_file_list(&item.files)) }; let options = default_table_format_options() .sortby("backup-type", false) .sortby("backup-id", false) .column(ColumnConfig::new("backup-id").renderer(render_group_path).header("group")) .column( ColumnConfig::new("last-backup") .renderer(render_last_backup) .header("last snapshot") .right_align(false) ) .column(ColumnConfig::new("backup-count")) .column(ColumnConfig::new("files").renderer(render_files)); let mut data: Value = result["data"].take(); let return_type = &proxmox_backup::api2::admin::datastore::API_METHOD_LIST_GROUPS.returns; format_and_print_result_full(&mut data, return_type, &output_format, &options); Ok(Value::Null) } #[api( input: { properties: { repository: { schema: REPO_URL_SCHEMA, optional: true, }, group: { type: String, description: "Backup group.", }, "new-owner": { type: Authid, }, } } )] /// Change owner of a backup group async fn change_backup_owner(group: String, mut param: Value) -> Result<(), Error> { let repo = extract_repository_from_value(¶m)?; let mut client = connect(&repo)?; param.as_object_mut().unwrap().remove("repository"); let group: BackupGroup = group.parse()?; param["backup-type"] = group.backup_type().into(); param["backup-id"] = group.backup_id().into(); let path = format!("api2/json/admin/datastore/{}/change-owner", repo.store()); client.post(&path, Some(param)).await?; record_repository(&repo); Ok(()) } #[api( input: { properties: { repository: { schema: REPO_URL_SCHEMA, optional: true, }, } } )] /// Try to login. If successful, store ticket. async fn api_login(param: Value) -> Result { let repo = extract_repository_from_value(¶m)?; let client = connect(&repo)?; client.login().await?; record_repository(&repo); Ok(Value::Null) } #[api( input: { properties: { repository: { schema: REPO_URL_SCHEMA, optional: true, }, } } )] /// Logout (delete stored ticket). fn api_logout(param: Value) -> Result { let repo = extract_repository_from_value(¶m)?; delete_ticket_info("proxmox-backup", repo.host(), repo.user())?; Ok(Value::Null) } #[api( input: { properties: { repository: { schema: REPO_URL_SCHEMA, optional: true, }, "output-format": { schema: OUTPUT_FORMAT, optional: true, }, } } )] /// Show client and optional server version async fn api_version(param: Value) -> Result<(), Error> { let output_format = get_output_format(¶m); let mut version_info = json!({ "client": { "version": version::PROXMOX_PKG_VERSION, "release": version::PROXMOX_PKG_RELEASE, "repoid": version::PROXMOX_PKG_REPOID, } }); let repo = extract_repository_from_value(¶m); if let Ok(repo) = repo { let client = connect(&repo)?; match client.get("api2/json/version", None).await { Ok(mut result) => version_info["server"] = result["data"].take(), Err(e) => eprintln!("could not connect to server - {}", e), } } if output_format == "text" { println!("client version: {}.{}", version::PROXMOX_PKG_VERSION, version::PROXMOX_PKG_RELEASE); if let Some(server) = version_info["server"].as_object() { let server_version = server["version"].as_str().unwrap(); let server_release = server["release"].as_str().unwrap(); println!("server version: {}.{}", server_version, server_release); } } else { format_and_print_result(&version_info, &output_format); } Ok(()) } #[api( input: { properties: { repository: { schema: REPO_URL_SCHEMA, optional: true, }, "output-format": { schema: OUTPUT_FORMAT, optional: true, }, }, }, )] /// Start garbage collection for a specific repository. async fn start_garbage_collection(param: Value) -> Result { let repo = extract_repository_from_value(¶m)?; let output_format = get_output_format(¶m); let mut client = connect(&repo)?; let path = format!("api2/json/admin/datastore/{}/gc", repo.store()); let result = client.post(&path, None).await?; record_repository(&repo); view_task_result(&mut client, result, &output_format).await?; Ok(Value::Null) } struct CatalogUploadResult { catalog_writer: Arc>>, result: tokio::sync::oneshot::Receiver>, } fn spawn_catalog_upload( client: Arc, encrypt: bool, ) -> Result { let (catalog_tx, catalog_rx) = std::sync::mpsc::sync_channel(10); // allow to buffer 10 writes let catalog_stream = crate::tools::StdChannelStream(catalog_rx); let catalog_chunk_size = 512*1024; let catalog_chunk_stream = ChunkStream::new(catalog_stream, Some(catalog_chunk_size)); let catalog_writer = Arc::new(Mutex::new(CatalogWriter::new(crate::tools::StdChannelWriter::new(catalog_tx))?)); let (catalog_result_tx, catalog_result_rx) = tokio::sync::oneshot::channel(); let upload_options = UploadOptions { encrypt, compress: true, ..UploadOptions::default() }; tokio::spawn(async move { let catalog_upload_result = client .upload_stream(CATALOG_NAME, catalog_chunk_stream, upload_options) .await; if let Err(ref err) = catalog_upload_result { eprintln!("catalog upload error - {}", err); client.cancel(); } let _ = catalog_result_tx.send(catalog_upload_result); }); Ok(CatalogUploadResult { catalog_writer, result: catalog_result_rx }) } #[derive(Clone, Debug, Eq, PartialEq)] enum KeySource { DefaultKey, Fd, Path(String), } fn format_key_source(source: &KeySource, key_type: &str) -> String { match source { KeySource::DefaultKey => format!("Using default {} key..", key_type), KeySource::Fd => format!("Using {} key from file descriptor..", key_type), KeySource::Path(path) => format!("Using {} key from '{}'..", key_type, path), } } #[derive(Clone, Debug, Eq, PartialEq)] struct KeyWithSource { pub source: KeySource, pub key: Vec, } impl KeyWithSource { pub fn from_fd(key: Vec) -> Self { Self { source: KeySource::Fd, key, } } pub fn from_default(key: Vec) -> Self { Self { source: KeySource::DefaultKey, key, } } pub fn from_path(path: String, key: Vec) -> Self { Self { source: KeySource::Path(path), key, } } } #[derive(Debug, Eq, PartialEq)] struct CryptoParams { mode: CryptMode, enc_key: Option, // FIXME switch to openssl::rsa::rsa once that is Eq? master_pubkey: Option, } fn crypto_parameters(param: &Value) -> Result { let keyfile = match param.get("keyfile") { Some(Value::String(keyfile)) => Some(keyfile), Some(_) => bail!("bad --keyfile parameter type"), None => None, }; let key_fd = match param.get("keyfd") { Some(Value::Number(key_fd)) => Some( RawFd::try_from(key_fd .as_i64() .ok_or_else(|| format_err!("bad key fd: {:?}", key_fd))? ) .map_err(|err| format_err!("bad key fd: {:?}: {}", key_fd, err))? ), Some(_) => bail!("bad --keyfd parameter type"), None => None, }; let master_pubkey_file = match param.get("master-pubkey-file") { Some(Value::String(keyfile)) => Some(keyfile), Some(_) => bail!("bad --master-pubkey-file parameter type"), None => None, }; let master_pubkey_fd = match param.get("master-pubkey-fd") { Some(Value::Number(key_fd)) => Some( RawFd::try_from(key_fd .as_i64() .ok_or_else(|| format_err!("bad master public key fd: {:?}", key_fd))? ) .map_err(|err| format_err!("bad public master key fd: {:?}: {}", key_fd, err))? ), Some(_) => bail!("bad --master-pubkey-fd parameter type"), None => None, }; let mode: Option = match param.get("crypt-mode") { Some(mode) => Some(serde_json::from_value(mode.clone())?), None => None, }; let key = match (keyfile, key_fd) { (None, None) => None, (Some(_), Some(_)) => bail!("--keyfile and --keyfd are mutually exclusive"), (Some(keyfile), None) => Some(KeyWithSource::from_path( keyfile.clone(), file_get_contents(keyfile)?, )), (None, Some(fd)) => { let input = unsafe { std::fs::File::from_raw_fd(fd) }; let mut data = Vec::new(); let _len: usize = { input }.read_to_end(&mut data).map_err(|err| { format_err!("error reading encryption key from fd {}: {}", fd, err) })?; Some(KeyWithSource::from_fd(data)) } }; let master_pubkey = match (master_pubkey_file, master_pubkey_fd) { (None, None) => None, (Some(_), Some(_)) => bail!("--keyfile and --keyfd are mutually exclusive"), (Some(keyfile), None) => Some(KeyWithSource::from_path( keyfile.clone(), file_get_contents(keyfile)?, )), (None, Some(fd)) => { let input = unsafe { std::fs::File::from_raw_fd(fd) }; let mut data = Vec::new(); let _len: usize = { input } .read_to_end(&mut data) .map_err(|err| format_err!("error reading master key from fd {}: {}", fd, err))?; Some(KeyWithSource::from_fd(data)) } }; let res = match mode { // no crypt mode, enable encryption if keys are available None => match (key, master_pubkey) { // only default keys if available (None, None) => match key::read_optional_default_encryption_key()? { None => CryptoParams { mode: CryptMode::None, enc_key: None, master_pubkey: None }, enc_key => { let master_pubkey = key::read_optional_default_master_pubkey()?; CryptoParams { mode: CryptMode::Encrypt, enc_key, master_pubkey, } }, }, // explicit master key, default enc key needed (None, master_pubkey) => match key::read_optional_default_encryption_key()? { None => bail!("--master-pubkey-file/--master-pubkey-fd specified, but no key available"), enc_key => { CryptoParams { mode: CryptMode::Encrypt, enc_key, master_pubkey, } }, }, // explicit keyfile, maybe default master key (enc_key, None) => CryptoParams { mode: CryptMode::Encrypt, enc_key, master_pubkey: key::read_optional_default_master_pubkey()? }, // explicit keyfile and master key (enc_key, master_pubkey) => CryptoParams { mode: CryptMode::Encrypt, enc_key, master_pubkey }, }, // explicitly disabled encryption Some(CryptMode::None) => match (key, master_pubkey) { // no keys => OK, no encryption (None, None) => CryptoParams { mode: CryptMode::None, enc_key: None, master_pubkey: None }, // --keyfile and --crypt-mode=none (Some(_), _) => bail!("--keyfile/--keyfd and --crypt-mode=none are mutually exclusive"), // --master-pubkey-file and --crypt-mode=none (_, Some(_)) => bail!("--master-pubkey-file/--master-pubkey-fd and --crypt-mode=none are mutually exclusive"), }, // explicitly enabled encryption Some(mode) => match (key, master_pubkey) { // no key, maybe master key (None, master_pubkey) => match key::read_optional_default_encryption_key()? { None => bail!("--crypt-mode without --keyfile and no default key file available"), enc_key => { eprintln!("Encrypting with default encryption key!"); let master_pubkey = match master_pubkey { None => key::read_optional_default_master_pubkey()?, master_pubkey => master_pubkey, }; CryptoParams { mode, enc_key, master_pubkey, } }, }, // --keyfile and --crypt-mode other than none (enc_key, master_pubkey) => { let master_pubkey = match master_pubkey { None => key::read_optional_default_master_pubkey()?, master_pubkey => master_pubkey, }; CryptoParams { mode, enc_key, master_pubkey } }, }, }; Ok(res) } #[test] // WARNING: there must only be one test for crypto_parameters as the default key handling is not // safe w.r.t. concurrency fn test_crypto_parameters_handling() -> Result<(), Error> { let some_key = vec![1;1]; let default_key = vec![2;1]; let some_master_key = vec![3;1]; let default_master_key = vec![4;1]; let keypath = "./target/testout/keyfile.test"; let master_keypath = "./target/testout/masterkeyfile.test"; let invalid_keypath = "./target/testout/invalid_keyfile.test"; let no_key_res = CryptoParams { enc_key: None, master_pubkey: None, mode: CryptMode::None, }; let some_key_res = CryptoParams { enc_key: Some(KeyWithSource::from_path( keypath.to_string(), some_key.clone(), )), master_pubkey: None, mode: CryptMode::Encrypt, }; let some_key_some_master_res = CryptoParams { enc_key: Some(KeyWithSource::from_path( keypath.to_string(), some_key.clone(), )), master_pubkey: Some(KeyWithSource::from_path( master_keypath.to_string(), some_master_key.clone(), )), mode: CryptMode::Encrypt, }; let some_key_default_master_res = CryptoParams { enc_key: Some(KeyWithSource::from_path( keypath.to_string(), some_key.clone(), )), master_pubkey: Some(KeyWithSource::from_default(default_master_key.clone())), mode: CryptMode::Encrypt, }; let some_key_sign_res = CryptoParams { enc_key: Some(KeyWithSource::from_path( keypath.to_string(), some_key.clone(), )), master_pubkey: None, mode: CryptMode::SignOnly, }; let default_key_res = CryptoParams { enc_key: Some(KeyWithSource::from_default(default_key.clone())), master_pubkey: None, mode: CryptMode::Encrypt, }; let default_key_sign_res = CryptoParams { enc_key: Some(KeyWithSource::from_default(default_key.clone())), master_pubkey: None, mode: CryptMode::SignOnly, }; replace_file(&keypath, &some_key, CreateOptions::default())?; replace_file(&master_keypath, &some_master_key, CreateOptions::default())?; // no params, no default key == no key let res = crypto_parameters(&json!({})); assert_eq!(res.unwrap(), no_key_res); // keyfile param == key from keyfile let res = crypto_parameters(&json!({"keyfile": keypath})); assert_eq!(res.unwrap(), some_key_res); // crypt mode none == no key let res = crypto_parameters(&json!({"crypt-mode": "none"})); assert_eq!(res.unwrap(), no_key_res); // crypt mode encrypt/sign-only, no keyfile, no default key == Error assert!(crypto_parameters(&json!({"crypt-mode": "sign-only"})).is_err()); assert!(crypto_parameters(&json!({"crypt-mode": "encrypt"})).is_err()); // crypt mode none with explicit key == Error assert!(crypto_parameters(&json!({"crypt-mode": "none", "keyfile": keypath})).is_err()); // crypt mode sign-only/encrypt with keyfile == key from keyfile with correct mode let res = crypto_parameters(&json!({"crypt-mode": "sign-only", "keyfile": keypath})); assert_eq!(res.unwrap(), some_key_sign_res); let res = crypto_parameters(&json!({"crypt-mode": "encrypt", "keyfile": keypath})); assert_eq!(res.unwrap(), some_key_res); // invalid keyfile parameter always errors assert!(crypto_parameters(&json!({"keyfile": invalid_keypath})).is_err()); assert!(crypto_parameters(&json!({"keyfile": invalid_keypath, "crypt-mode": "none"})).is_err()); assert!(crypto_parameters(&json!({"keyfile": invalid_keypath, "crypt-mode": "sign-only"})).is_err()); assert!(crypto_parameters(&json!({"keyfile": invalid_keypath, "crypt-mode": "encrypt"})).is_err()); // now set a default key unsafe { key::set_test_encryption_key(Ok(Some(default_key.clone()))); } // and repeat // no params but default key == default key let res = crypto_parameters(&json!({})); assert_eq!(res.unwrap(), default_key_res); // keyfile param == key from keyfile let res = crypto_parameters(&json!({"keyfile": keypath})); assert_eq!(res.unwrap(), some_key_res); // crypt mode none == no key let res = crypto_parameters(&json!({"crypt-mode": "none"})); assert_eq!(res.unwrap(), no_key_res); // crypt mode encrypt/sign-only, no keyfile, default key == default key with correct mode let res = crypto_parameters(&json!({"crypt-mode": "sign-only"})); assert_eq!(res.unwrap(), default_key_sign_res); let res = crypto_parameters(&json!({"crypt-mode": "encrypt"})); assert_eq!(res.unwrap(), default_key_res); // crypt mode none with explicit key == Error assert!(crypto_parameters(&json!({"crypt-mode": "none", "keyfile": keypath})).is_err()); // crypt mode sign-only/encrypt with keyfile == key from keyfile with correct mode let res = crypto_parameters(&json!({"crypt-mode": "sign-only", "keyfile": keypath})); assert_eq!(res.unwrap(), some_key_sign_res); let res = crypto_parameters(&json!({"crypt-mode": "encrypt", "keyfile": keypath})); assert_eq!(res.unwrap(), some_key_res); // invalid keyfile parameter always errors assert!(crypto_parameters(&json!({"keyfile": invalid_keypath})).is_err()); assert!(crypto_parameters(&json!({"keyfile": invalid_keypath, "crypt-mode": "none"})).is_err()); assert!(crypto_parameters(&json!({"keyfile": invalid_keypath, "crypt-mode": "sign-only"})).is_err()); assert!(crypto_parameters(&json!({"keyfile": invalid_keypath, "crypt-mode": "encrypt"})).is_err()); // now make default key retrieval error unsafe { key::set_test_encryption_key(Err(format_err!("test error"))); } // and repeat // no params, default key retrieval errors == Error assert!(crypto_parameters(&json!({})).is_err()); // keyfile param == key from keyfile let res = crypto_parameters(&json!({"keyfile": keypath})); assert_eq!(res.unwrap(), some_key_res); // crypt mode none == no key let res = crypto_parameters(&json!({"crypt-mode": "none"})); assert_eq!(res.unwrap(), no_key_res); // crypt mode encrypt/sign-only, no keyfile, default key error == Error assert!(crypto_parameters(&json!({"crypt-mode": "sign-only"})).is_err()); assert!(crypto_parameters(&json!({"crypt-mode": "encrypt"})).is_err()); // crypt mode none with explicit key == Error assert!(crypto_parameters(&json!({"crypt-mode": "none", "keyfile": keypath})).is_err()); // crypt mode sign-only/encrypt with keyfile == key from keyfile with correct mode let res = crypto_parameters(&json!({"crypt-mode": "sign-only", "keyfile": keypath})); assert_eq!(res.unwrap(), some_key_sign_res); let res = crypto_parameters(&json!({"crypt-mode": "encrypt", "keyfile": keypath})); assert_eq!(res.unwrap(), some_key_res); // invalid keyfile parameter always errors assert!(crypto_parameters(&json!({"keyfile": invalid_keypath})).is_err()); assert!(crypto_parameters(&json!({"keyfile": invalid_keypath, "crypt-mode": "none"})).is_err()); assert!(crypto_parameters(&json!({"keyfile": invalid_keypath, "crypt-mode": "sign-only"})).is_err()); assert!(crypto_parameters(&json!({"keyfile": invalid_keypath, "crypt-mode": "encrypt"})).is_err()); // now remove default key again unsafe { key::set_test_encryption_key(Ok(None)); } // set a default master key unsafe { key::set_test_default_master_pubkey(Ok(Some(default_master_key.clone()))); } // and use an explicit master key assert!(crypto_parameters(&json!({"master-pubkey-file": master_keypath})).is_err()); // just a default == no key let res = crypto_parameters(&json!({})); assert_eq!(res.unwrap(), no_key_res); // keyfile param == key from keyfile let res = crypto_parameters(&json!({"keyfile": keypath, "master-pubkey-file": master_keypath})); assert_eq!(res.unwrap(), some_key_some_master_res); // same with fallback to default master key let res = crypto_parameters(&json!({"keyfile": keypath})); assert_eq!(res.unwrap(), some_key_default_master_res); // crypt mode none == error assert!(crypto_parameters(&json!({"crypt-mode": "none", "master-pubkey-file": master_keypath})).is_err()); // with just default master key == no key let res = crypto_parameters(&json!({"crypt-mode": "none"})); assert_eq!(res.unwrap(), no_key_res); // crypt mode encrypt without enc key == error assert!(crypto_parameters(&json!({"crypt-mode": "encrypt", "master-pubkey-file": master_keypath})).is_err()); assert!(crypto_parameters(&json!({"crypt-mode": "encrypt"})).is_err()); // crypt mode none with explicit key == Error assert!(crypto_parameters(&json!({"crypt-mode": "none", "keyfile": keypath, "master-pubkey-file": master_keypath})).is_err()); assert!(crypto_parameters(&json!({"crypt-mode": "none", "keyfile": keypath})).is_err()); // crypt mode encrypt with keyfile == key from keyfile with correct mode let res = crypto_parameters(&json!({"crypt-mode": "encrypt", "keyfile": keypath, "master-pubkey-file": master_keypath})); assert_eq!(res.unwrap(), some_key_some_master_res); let res = crypto_parameters(&json!({"crypt-mode": "encrypt", "keyfile": keypath})); assert_eq!(res.unwrap(), some_key_default_master_res); // invalid master keyfile parameter always errors when a key is passed, even with a valid // default master key assert!(crypto_parameters(&json!({"keyfile": keypath, "master-pubkey-file": invalid_keypath})).is_err()); assert!(crypto_parameters(&json!({"keyfile": keypath, "master-pubkey-file": invalid_keypath,"crypt-mode": "none"})).is_err()); assert!(crypto_parameters(&json!({"keyfile": keypath, "master-pubkey-file": invalid_keypath,"crypt-mode": "sign-only"})).is_err()); assert!(crypto_parameters(&json!({"keyfile": keypath, "master-pubkey-file": invalid_keypath,"crypt-mode": "encrypt"})).is_err()); Ok(()) } #[api( input: { properties: { backupspec: { type: Array, description: "List of backup source specifications ([:] ...)", items: { schema: BACKUP_SOURCE_SCHEMA, } }, repository: { schema: REPO_URL_SCHEMA, optional: true, }, "include-dev": { description: "Include mountpoints with same st_dev number (see ``man fstat``) as specified files.", optional: true, items: { type: String, description: "Path to file.", } }, "all-file-systems": { type: Boolean, description: "Include all mounted subdirectories.", optional: true, }, keyfile: { schema: KEYFILE_SCHEMA, optional: true, }, "keyfd": { schema: KEYFD_SCHEMA, optional: true, }, "master-pubkey-file": { schema: MASTER_PUBKEY_FILE_SCHEMA, optional: true, }, "master-pubkey-fd": { schema: MASTER_PUBKEY_FD_SCHEMA, optional: true, }, "crypt-mode": { type: CryptMode, optional: true, }, "skip-lost-and-found": { type: Boolean, description: "Skip lost+found directory.", optional: true, }, "backup-type": { schema: BACKUP_TYPE_SCHEMA, optional: true, }, "backup-id": { schema: BACKUP_ID_SCHEMA, optional: true, }, "backup-time": { schema: BACKUP_TIME_SCHEMA, optional: true, }, "chunk-size": { schema: CHUNK_SIZE_SCHEMA, optional: true, }, "exclude": { type: Array, description: "List of paths or patterns for matching files to exclude.", optional: true, items: { type: String, description: "Path or match pattern.", } }, "entries-max": { type: Integer, description: "Max number of entries to hold in memory.", optional: true, default: proxmox_backup::pxar::ENCODER_MAX_ENTRIES as isize, }, "verbose": { type: Boolean, description: "Verbose output.", optional: true, }, } } )] /// Create (host) backup. async fn create_backup( param: Value, _info: &ApiMethod, _rpcenv: &mut dyn RpcEnvironment, ) -> Result { let repo = extract_repository_from_value(¶m)?; let backupspec_list = tools::required_array_param(¶m, "backupspec")?; let all_file_systems = param["all-file-systems"].as_bool().unwrap_or(false); let skip_lost_and_found = param["skip-lost-and-found"].as_bool().unwrap_or(false); let verbose = param["verbose"].as_bool().unwrap_or(false); let backup_time_opt = param["backup-time"].as_i64(); let chunk_size_opt = param["chunk-size"].as_u64().map(|v| (v*1024) as usize); if let Some(size) = chunk_size_opt { verify_chunk_size(size)?; } let crypto = crypto_parameters(¶m)?; let backup_id = param["backup-id"].as_str().unwrap_or(&proxmox::tools::nodename()); let backup_type = param["backup-type"].as_str().unwrap_or("host"); let include_dev = param["include-dev"].as_array(); let entries_max = param["entries-max"].as_u64() .unwrap_or(proxmox_backup::pxar::ENCODER_MAX_ENTRIES as u64); let empty = Vec::new(); let exclude_args = param["exclude"].as_array().unwrap_or(&empty); let mut pattern_list = Vec::with_capacity(exclude_args.len()); for entry in exclude_args { let entry = entry.as_str().ok_or_else(|| format_err!("Invalid pattern string slice"))?; pattern_list.push( MatchEntry::parse_pattern(entry, PatternFlag::PATH_NAME, MatchType::Exclude) .map_err(|err| format_err!("invalid exclude pattern entry: {}", err))? ); } let mut devices = if all_file_systems { None } else { Some(HashSet::new()) }; if let Some(include_dev) = include_dev { if all_file_systems { bail!("option 'all-file-systems' conflicts with option 'include-dev'"); } let mut set = HashSet::new(); for path in include_dev { let path = path.as_str().unwrap(); let stat = nix::sys::stat::stat(path) .map_err(|err| format_err!("fstat {:?} failed - {}", path, err))?; set.insert(stat.st_dev); } devices = Some(set); } let mut upload_list = vec![]; let mut target_set = HashSet::new(); for backupspec in backupspec_list { let spec = parse_backup_specification(backupspec.as_str().unwrap())?; let filename = &spec.config_string; let target = &spec.archive_name; if target_set.contains(target) { bail!("got target twice: '{}'", target); } target_set.insert(target.to_string()); use std::os::unix::fs::FileTypeExt; let metadata = std::fs::metadata(filename) .map_err(|err| format_err!("unable to access '{}' - {}", filename, err))?; let file_type = metadata.file_type(); match spec.spec_type { BackupSpecificationType::PXAR => { if !file_type.is_dir() { bail!("got unexpected file type (expected directory)"); } upload_list.push((BackupSpecificationType::PXAR, filename.to_owned(), format!("{}.didx", target), 0)); } BackupSpecificationType::IMAGE => { if !(file_type.is_file() || file_type.is_block_device()) { bail!("got unexpected file type (expected file or block device)"); } let size = image_size(&PathBuf::from(filename))?; if size == 0 { bail!("got zero-sized file '{}'", filename); } upload_list.push((BackupSpecificationType::IMAGE, filename.to_owned(), format!("{}.fidx", target), size)); } BackupSpecificationType::CONFIG => { if !file_type.is_file() { bail!("got unexpected file type (expected regular file)"); } upload_list.push((BackupSpecificationType::CONFIG, filename.to_owned(), format!("{}.blob", target), metadata.len())); } BackupSpecificationType::LOGFILE => { if !file_type.is_file() { bail!("got unexpected file type (expected regular file)"); } upload_list.push((BackupSpecificationType::LOGFILE, filename.to_owned(), format!("{}.blob", target), metadata.len())); } } } let backup_time = backup_time_opt.unwrap_or_else(epoch_i64); let client = connect(&repo)?; record_repository(&repo); println!("Starting backup: {}/{}/{}", backup_type, backup_id, BackupDir::backup_time_to_string(backup_time)?); println!("Client name: {}", proxmox::tools::nodename()); let start_time = std::time::Instant::now(); println!("Starting backup protocol: {}", strftime_local("%c", epoch_i64())?); let (crypt_config, rsa_encrypted_key) = match crypto.enc_key { None => (None, None), Some(key_with_source) => { println!( "{}", format_key_source(&key_with_source.source, "encryption") ); let (key, created, fingerprint) = decrypt_key(&key_with_source.key, &key::get_encryption_key_password)?; println!("Encryption key fingerprint: {}", fingerprint); let crypt_config = CryptConfig::new(key)?; match crypto.master_pubkey { Some(pem_with_source) => { println!("{}", format_key_source(&pem_with_source.source, "master")); let rsa = openssl::rsa::Rsa::public_key_from_pem(&pem_with_source.key)?; let mut key_config = KeyConfig::without_password(key)?; key_config.created = created; // keep original value let enc_key = rsa_encrypt_key_config(rsa, &key_config)?; (Some(Arc::new(crypt_config)), Some(enc_key)) }, _ => (Some(Arc::new(crypt_config)), None), } } }; let client = BackupWriter::start( client, crypt_config.clone(), repo.store(), backup_type, &backup_id, backup_time, verbose, false ).await?; let download_previous_manifest = match client.previous_backup_time().await { Ok(Some(backup_time)) => { println!( "Downloading previous manifest ({})", strftime_local("%c", backup_time)? ); true } Ok(None) => { println!("No previous manifest available."); false } Err(_) => { // Fallback for outdated server, TODO remove/bubble up with 2.0 true } }; let previous_manifest = if download_previous_manifest { match client.download_previous_manifest().await { Ok(previous_manifest) => { match previous_manifest.check_fingerprint(crypt_config.as_ref().map(Arc::as_ref)) { Ok(()) => Some(Arc::new(previous_manifest)), Err(err) => { println!("Couldn't re-use previous manifest - {}", err); None } } } Err(err) => { println!("Couldn't download previous manifest - {}", err); None } } } else { None }; let snapshot = BackupDir::new(backup_type, backup_id, backup_time)?; let mut manifest = BackupManifest::new(snapshot); let mut catalog = None; let mut catalog_result_rx = None; for (backup_type, filename, target, size) in upload_list { match backup_type { BackupSpecificationType::CONFIG => { let upload_options = UploadOptions { compress: true, encrypt: crypto.mode == CryptMode::Encrypt, ..UploadOptions::default() }; println!("Upload config file '{}' to '{}' as {}", filename, repo, target); let stats = client .upload_blob_from_file(&filename, &target, upload_options) .await?; manifest.add_file(target, stats.size, stats.csum, crypto.mode)?; } BackupSpecificationType::LOGFILE => { // fixme: remove - not needed anymore ? let upload_options = UploadOptions { compress: true, encrypt: crypto.mode == CryptMode::Encrypt, ..UploadOptions::default() }; println!("Upload log file '{}' to '{}' as {}", filename, repo, target); let stats = client .upload_blob_from_file(&filename, &target, upload_options) .await?; manifest.add_file(target, stats.size, stats.csum, crypto.mode)?; } BackupSpecificationType::PXAR => { // start catalog upload on first use if catalog.is_none() { let catalog_upload_res = spawn_catalog_upload(client.clone(), crypto.mode == CryptMode::Encrypt)?; catalog = Some(catalog_upload_res.catalog_writer); catalog_result_rx = Some(catalog_upload_res.result); } let catalog = catalog.as_ref().unwrap(); println!("Upload directory '{}' to '{}' as {}", filename, repo, target); catalog.lock().unwrap().start_directory(std::ffi::CString::new(target.as_str())?.as_c_str())?; let pxar_options = proxmox_backup::pxar::PxarCreateOptions { device_set: devices.clone(), patterns: pattern_list.clone(), entries_max: entries_max as usize, skip_lost_and_found, verbose, }; let upload_options = UploadOptions { previous_manifest: previous_manifest.clone(), compress: true, encrypt: crypto.mode == CryptMode::Encrypt, ..UploadOptions::default() }; let stats = backup_directory( &client, &filename, &target, chunk_size_opt, catalog.clone(), pxar_options, upload_options, ).await?; manifest.add_file(target, stats.size, stats.csum, crypto.mode)?; catalog.lock().unwrap().end_directory()?; } BackupSpecificationType::IMAGE => { println!("Upload image '{}' to '{:?}' as {}", filename, repo, target); let upload_options = UploadOptions { previous_manifest: previous_manifest.clone(), fixed_size: Some(size), compress: true, encrypt: crypto.mode == CryptMode::Encrypt, }; let stats = backup_image( &client, &filename, &target, chunk_size_opt, upload_options, ).await?; manifest.add_file(target, stats.size, stats.csum, crypto.mode)?; } } } // finalize and upload catalog if let Some(catalog) = catalog { let mutex = Arc::try_unwrap(catalog) .map_err(|_| format_err!("unable to get catalog (still used)"))?; let mut catalog = mutex.into_inner().unwrap(); catalog.finish()?; drop(catalog); // close upload stream if let Some(catalog_result_rx) = catalog_result_rx { let stats = catalog_result_rx.await??; manifest.add_file(CATALOG_NAME.to_owned(), stats.size, stats.csum, crypto.mode)?; } } if let Some(rsa_encrypted_key) = rsa_encrypted_key { let target = ENCRYPTED_KEY_BLOB_NAME; println!("Upload RSA encoded key to '{:?}' as {}", repo, target); let options = UploadOptions { compress: false, encrypt: false, ..UploadOptions::default() }; let stats = client .upload_blob_from_data(rsa_encrypted_key, target, options) .await?; manifest.add_file(target.to_string(), stats.size, stats.csum, crypto.mode)?; } // create manifest (index.json) // manifests are never encrypted, but include a signature let manifest = manifest.to_string(crypt_config.as_ref().map(Arc::as_ref)) .map_err(|err| format_err!("unable to format manifest - {}", err))?; if verbose { println!("Upload index.json to '{}'", repo) }; let options = UploadOptions { compress: true, encrypt: false, ..UploadOptions::default() }; client .upload_blob_from_data(manifest.into_bytes(), MANIFEST_BLOB_NAME, options) .await?; client.finish().await?; let end_time = std::time::Instant::now(); let elapsed = end_time.duration_since(start_time); println!("Duration: {:.2}s", elapsed.as_secs_f64()); println!("End Time: {}", strftime_local("%c", epoch_i64())?); Ok(Value::Null) } async fn dump_image( client: Arc, crypt_config: Option>, crypt_mode: CryptMode, index: FixedIndexReader, mut writer: W, verbose: bool, ) -> Result<(), Error> { let most_used = index.find_most_used_chunks(8); let chunk_reader = RemoteChunkReader::new(client.clone(), crypt_config, crypt_mode, most_used); // Note: we avoid using BufferedFixedReader, because that add an additional buffer/copy // and thus slows down reading. Instead, directly use RemoteChunkReader let mut per = 0; let mut bytes = 0; let start_time = std::time::Instant::now(); for pos in 0..index.index_count() { let digest = index.index_digest(pos).unwrap(); let raw_data = chunk_reader.read_chunk(&digest).await?; writer.write_all(&raw_data)?; bytes += raw_data.len(); if verbose { let next_per = ((pos+1)*100)/index.index_count(); if per != next_per { eprintln!("progress {}% (read {} bytes, duration {} sec)", next_per, bytes, start_time.elapsed().as_secs()); per = next_per; } } } let end_time = std::time::Instant::now(); let elapsed = end_time.duration_since(start_time); eprintln!("restore image complete (bytes={}, duration={:.2}s, speed={:.2}MB/s)", bytes, elapsed.as_secs_f64(), bytes as f64/(1024.0*1024.0*elapsed.as_secs_f64()) ); Ok(()) } fn parse_archive_type(name: &str) -> (String, ArchiveType) { if name.ends_with(".didx") || name.ends_with(".fidx") || name.ends_with(".blob") { (name.into(), archive_type(name).unwrap()) } else if name.ends_with(".pxar") { (format!("{}.didx", name), ArchiveType::DynamicIndex) } else if name.ends_with(".img") { (format!("{}.fidx", name), ArchiveType::FixedIndex) } else { (format!("{}.blob", name), ArchiveType::Blob) } } #[api( input: { properties: { repository: { schema: REPO_URL_SCHEMA, optional: true, }, snapshot: { type: String, description: "Group/Snapshot path.", }, "archive-name": { description: "Backup archive name.", type: String, }, target: { type: String, description: r###"Target directory path. Use '-' to write to standard output. We do not extract '.pxar' archives when writing to standard output. "### }, "allow-existing-dirs": { type: Boolean, description: "Do not fail if directories already exists.", optional: true, }, keyfile: { schema: KEYFILE_SCHEMA, optional: true, }, "keyfd": { schema: KEYFD_SCHEMA, optional: true, }, "crypt-mode": { type: CryptMode, optional: true, }, } } )] /// Restore backup repository. async fn restore(param: Value) -> Result { let repo = extract_repository_from_value(¶m)?; let verbose = param["verbose"].as_bool().unwrap_or(false); let allow_existing_dirs = param["allow-existing-dirs"].as_bool().unwrap_or(false); let archive_name = tools::required_string_param(¶m, "archive-name")?; let client = connect(&repo)?; record_repository(&repo); let path = tools::required_string_param(¶m, "snapshot")?; let (backup_type, backup_id, backup_time) = if path.matches('/').count() == 1 { let group: BackupGroup = path.parse()?; api_datastore_latest_snapshot(&client, repo.store(), group).await? } else { let snapshot: BackupDir = path.parse()?; (snapshot.group().backup_type().to_owned(), snapshot.group().backup_id().to_owned(), snapshot.backup_time()) }; let target = tools::required_string_param(¶m, "target")?; let target = if target == "-" { None } else { Some(target) }; let crypto = crypto_parameters(¶m)?; let crypt_config = match crypto.enc_key { None => None, Some(ref key) => { let (key, _, _) = decrypt_key(&key.key, &key::get_encryption_key_password).map_err(|err| { eprintln!("{}", format_key_source(&key.source, "encryption")); err })?; Some(Arc::new(CryptConfig::new(key)?)) } }; let client = BackupReader::start( client, crypt_config.clone(), repo.store(), &backup_type, &backup_id, backup_time, true, ).await?; let (archive_name, archive_type) = parse_archive_type(archive_name); let (manifest, backup_index_data) = client.download_manifest().await?; if archive_name == ENCRYPTED_KEY_BLOB_NAME && crypt_config.is_none() { eprintln!("Restoring encrypted key blob without original key - skipping manifest fingerprint check!") } else { if manifest.signature.is_some() { if let Some(key) = &crypto.enc_key { eprintln!("{}", format_key_source(&key.source, "encryption")); } if let Some(config) = &crypt_config { eprintln!("Fingerprint: {}", config.fingerprint()); } } manifest.check_fingerprint(crypt_config.as_ref().map(Arc::as_ref))?; } if archive_name == MANIFEST_BLOB_NAME { if let Some(target) = target { replace_file(target, &backup_index_data, CreateOptions::new())?; } else { let stdout = std::io::stdout(); let mut writer = stdout.lock(); writer.write_all(&backup_index_data) .map_err(|err| format_err!("unable to pipe data - {}", err))?; } return Ok(Value::Null); } let file_info = manifest.lookup_file_info(&archive_name)?; if archive_type == ArchiveType::Blob { let mut reader = client.download_blob(&manifest, &archive_name).await?; if let Some(target) = target { let mut writer = std::fs::OpenOptions::new() .write(true) .create(true) .create_new(true) .open(target) .map_err(|err| format_err!("unable to create target file {:?} - {}", target, err))?; std::io::copy(&mut reader, &mut writer)?; } else { let stdout = std::io::stdout(); let mut writer = stdout.lock(); std::io::copy(&mut reader, &mut writer) .map_err(|err| format_err!("unable to pipe data - {}", err))?; } } else if archive_type == ArchiveType::DynamicIndex { let index = client.download_dynamic_index(&manifest, &archive_name).await?; let most_used = index.find_most_used_chunks(8); let chunk_reader = RemoteChunkReader::new(client.clone(), crypt_config, file_info.chunk_crypt_mode(), most_used); let mut reader = BufferedDynamicReader::new(index, chunk_reader); let options = proxmox_backup::pxar::PxarExtractOptions { match_list: &[], extract_match_default: true, allow_existing_dirs, on_error: None, }; if let Some(target) = target { proxmox_backup::pxar::extract_archive( pxar::decoder::Decoder::from_std(reader)?, Path::new(target), proxmox_backup::pxar::Flags::DEFAULT, |path| { if verbose { println!("{:?}", path); } }, options, ) .map_err(|err| format_err!("error extracting archive - {}", err))?; } else { let mut writer = std::fs::OpenOptions::new() .write(true) .open("/dev/stdout") .map_err(|err| format_err!("unable to open /dev/stdout - {}", err))?; std::io::copy(&mut reader, &mut writer) .map_err(|err| format_err!("unable to pipe data - {}", err))?; } } else if archive_type == ArchiveType::FixedIndex { let index = client.download_fixed_index(&manifest, &archive_name).await?; let mut writer = if let Some(target) = target { std::fs::OpenOptions::new() .write(true) .create(true) .create_new(true) .open(target) .map_err(|err| format_err!("unable to create target file {:?} - {}", target, err))? } else { std::fs::OpenOptions::new() .write(true) .open("/dev/stdout") .map_err(|err| format_err!("unable to open /dev/stdout - {}", err))? }; dump_image(client.clone(), crypt_config.clone(), file_info.chunk_crypt_mode(), index, &mut writer, verbose).await?; } Ok(Value::Null) } const API_METHOD_PRUNE: ApiMethod = ApiMethod::new( &ApiHandler::Async(&prune), &ObjectSchema::new( "Prune a backup repository.", &proxmox_backup::add_common_prune_prameters!([ ("dry-run", true, &BooleanSchema::new( "Just show what prune would do, but do not delete anything.") .schema()), ("group", false, &StringSchema::new("Backup group.").schema()), ], [ ("output-format", true, &OUTPUT_FORMAT), ( "quiet", true, &BooleanSchema::new("Minimal output - only show removals.") .schema() ), ("repository", true, &REPO_URL_SCHEMA), ]) ) ); fn prune<'a>( param: Value, _info: &ApiMethod, _rpcenv: &'a mut dyn RpcEnvironment, ) -> proxmox::api::ApiFuture<'a> { async move { prune_async(param).await }.boxed() } async fn prune_async(mut param: Value) -> Result { let repo = extract_repository_from_value(¶m)?; let mut client = connect(&repo)?; let path = format!("api2/json/admin/datastore/{}/prune", repo.store()); let group = tools::required_string_param(¶m, "group")?; let group: BackupGroup = group.parse()?; let output_format = get_output_format(¶m); let quiet = param["quiet"].as_bool().unwrap_or(false); param.as_object_mut().unwrap().remove("repository"); param.as_object_mut().unwrap().remove("group"); param.as_object_mut().unwrap().remove("output-format"); param.as_object_mut().unwrap().remove("quiet"); param["backup-type"] = group.backup_type().into(); param["backup-id"] = group.backup_id().into(); let mut result = client.post(&path, Some(param)).await?; record_repository(&repo); let render_snapshot_path = |_v: &Value, record: &Value| -> Result { let item: PruneListItem = serde_json::from_value(record.to_owned())?; let snapshot = BackupDir::new(item.backup_type, item.backup_id, item.backup_time)?; Ok(snapshot.relative_path().to_str().unwrap().to_owned()) }; let render_prune_action = |v: &Value, _record: &Value| -> Result { Ok(match v.as_bool() { Some(true) => "keep", Some(false) => "remove", None => "unknown", }.to_string()) }; let options = default_table_format_options() .sortby("backup-type", false) .sortby("backup-id", false) .sortby("backup-time", false) .column(ColumnConfig::new("backup-id").renderer(render_snapshot_path).header("snapshot")) .column(ColumnConfig::new("backup-time").renderer(tools::format::render_epoch).header("date")) .column(ColumnConfig::new("keep").renderer(render_prune_action).header("action")) ; let return_type = &proxmox_backup::api2::admin::datastore::API_METHOD_PRUNE.returns; let mut data = result["data"].take(); if quiet { let list: Vec = data.as_array().unwrap().iter().filter(|item| { item["keep"].as_bool() == Some(false) }).cloned().collect(); data = list.into(); } format_and_print_result_full(&mut data, return_type, &output_format, &options); Ok(Value::Null) } #[api( input: { properties: { repository: { schema: REPO_URL_SCHEMA, optional: true, }, "output-format": { schema: OUTPUT_FORMAT, optional: true, }, } }, returns: { type: StorageStatus, }, )] /// Get repository status. async fn status(param: Value) -> Result { let repo = extract_repository_from_value(¶m)?; let output_format = get_output_format(¶m); let client = connect(&repo)?; let path = format!("api2/json/admin/datastore/{}/status", repo.store()); let mut result = client.get(&path, None).await?; let mut data = result["data"].take(); record_repository(&repo); let render_total_percentage = |v: &Value, record: &Value| -> Result { let v = v.as_u64().unwrap(); let total = record["total"].as_u64().unwrap(); let roundup = total/200; let per = ((v+roundup)*100)/total; let info = format!(" ({} %)", per); Ok(format!("{} {:>8}", v, info)) }; let options = default_table_format_options() .noheader(true) .column(ColumnConfig::new("total").renderer(render_total_percentage)) .column(ColumnConfig::new("used").renderer(render_total_percentage)) .column(ColumnConfig::new("avail").renderer(render_total_percentage)); let return_type = &API_METHOD_STATUS.returns; format_and_print_result_full(&mut data, return_type, &output_format, &options); Ok(Value::Null) } use proxmox_backup::client::RemoteChunkReader; /// This is a workaround until we have cleaned up the chunk/reader/... infrastructure for better /// async use! /// /// Ideally BufferedDynamicReader gets replaced so the LruCache maps to `BroadcastFuture`, /// so that we can properly access it from multiple threads simultaneously while not issuing /// duplicate simultaneous reads over http. pub struct BufferedDynamicReadAt { inner: Mutex>, } impl BufferedDynamicReadAt { fn new(inner: BufferedDynamicReader) -> Self { Self { inner: Mutex::new(inner), } } } impl ReadAt for BufferedDynamicReadAt { fn start_read_at<'a>( self: Pin<&'a Self>, _cx: &mut Context, buf: &'a mut [u8], offset: u64, ) -> MaybeReady, ReadAtOperation<'a>> { MaybeReady::Ready(tokio::task::block_in_place(move || { let mut reader = self.inner.lock().unwrap(); reader.seek(SeekFrom::Start(offset))?; Ok(reader.read(buf)?) })) } fn poll_complete<'a>( self: Pin<&'a Self>, _op: ReadAtOperation<'a>, ) -> MaybeReady, ReadAtOperation<'a>> { panic!("LocalDynamicReadAt::start_read_at returned Pending"); } } fn main() { let backup_cmd_def = CliCommand::new(&API_METHOD_CREATE_BACKUP) .arg_param(&["backupspec"]) .completion_cb("repository", complete_repository) .completion_cb("backupspec", complete_backup_source) .completion_cb("keyfile", tools::complete_file_name) .completion_cb("master-pubkey-file", tools::complete_file_name) .completion_cb("chunk-size", complete_chunk_size); let benchmark_cmd_def = CliCommand::new(&API_METHOD_BENCHMARK) .completion_cb("repository", complete_repository) .completion_cb("keyfile", tools::complete_file_name); let list_cmd_def = CliCommand::new(&API_METHOD_LIST_BACKUP_GROUPS) .completion_cb("repository", complete_repository); let garbage_collect_cmd_def = CliCommand::new(&API_METHOD_START_GARBAGE_COLLECTION) .completion_cb("repository", complete_repository); let restore_cmd_def = CliCommand::new(&API_METHOD_RESTORE) .arg_param(&["snapshot", "archive-name", "target"]) .completion_cb("repository", complete_repository) .completion_cb("snapshot", complete_group_or_snapshot) .completion_cb("archive-name", complete_archive_name) .completion_cb("target", tools::complete_file_name); let prune_cmd_def = CliCommand::new(&API_METHOD_PRUNE) .arg_param(&["group"]) .completion_cb("group", complete_backup_group) .completion_cb("repository", complete_repository); let status_cmd_def = CliCommand::new(&API_METHOD_STATUS) .completion_cb("repository", complete_repository); let login_cmd_def = CliCommand::new(&API_METHOD_API_LOGIN) .completion_cb("repository", complete_repository); let logout_cmd_def = CliCommand::new(&API_METHOD_API_LOGOUT) .completion_cb("repository", complete_repository); let version_cmd_def = CliCommand::new(&API_METHOD_API_VERSION) .completion_cb("repository", complete_repository); let change_owner_cmd_def = CliCommand::new(&API_METHOD_CHANGE_BACKUP_OWNER) .arg_param(&["group", "new-owner"]) .completion_cb("group", complete_backup_group) .completion_cb("new-owner", complete_auth_id) .completion_cb("repository", complete_repository); let cmd_def = CliCommandMap::new() .insert("backup", backup_cmd_def) .insert("garbage-collect", garbage_collect_cmd_def) .insert("list", list_cmd_def) .insert("login", login_cmd_def) .insert("logout", logout_cmd_def) .insert("prune", prune_cmd_def) .insert("restore", restore_cmd_def) .insert("snapshot", snapshot_mgtm_cli()) .insert("status", status_cmd_def) .insert("key", key::cli()) .insert("mount", mount_cmd_def()) .insert("map", map_cmd_def()) .insert("unmap", unmap_cmd_def()) .insert("catalog", catalog_mgmt_cli()) .insert("task", task_mgmt_cli()) .insert("version", version_cmd_def) .insert("benchmark", benchmark_cmd_def) .insert("change-owner", change_owner_cmd_def) .alias(&["files"], &["snapshot", "files"]) .alias(&["forget"], &["snapshot", "forget"]) .alias(&["upload-log"], &["snapshot", "upload-log"]) .alias(&["snapshots"], &["snapshot", "list"]) ; let rpcenv = CliEnvironment::new(); run_cli_command(cmd_def, rpcenv, Some(|future| { proxmox_backup::tools::runtime::main(future) })); }