proxmox-backup/pbs-datastore/src/datastore.rs

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use std::collections::{HashMap, HashSet};
use std::io::{self, Write};
use std::os::unix::io::AsRawFd;
use std::path::{Path, PathBuf};
use std::str::FromStr;
use std::sync::{Arc, Mutex};
use anyhow::{bail, format_err, Error};
use lazy_static::lazy_static;
use nix::unistd::{unlinkat, UnlinkatFlags};
use proxmox_schema::ApiType;
use proxmox_sys::fs::{file_read_optional_string, replace_file, CreateOptions};
use proxmox_sys::fs::{lock_dir_noblock, DirLockGuard};
use proxmox_sys::process_locker::ProcessLockSharedGuard;
use proxmox_sys::WorkerTaskContext;
use proxmox_sys::{task_log, task_warn};
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use pbs_api_types::{
Authid, BackupNamespace, BackupType, ChunkOrder, DataStoreConfig, DatastoreTuning,
GarbageCollectionStatus, HumanByte, Operation, UPID,
};
use pbs_config::ConfigVersionCache;
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use crate::backup_info::{BackupDir, BackupGroup};
use crate::chunk_store::ChunkStore;
use crate::dynamic_index::{DynamicIndexReader, DynamicIndexWriter};
use crate::fixed_index::{FixedIndexReader, FixedIndexWriter};
use crate::hierarchy::{ListGroups, ListNamespaces, ListNamespacesRecursive};
use crate::index::IndexFile;
use crate::manifest::{archive_type, ArchiveType};
use crate::task_tracking::update_active_operations;
use crate::DataBlob;
lazy_static! {
static ref DATASTORE_MAP: Mutex<HashMap<String, Arc<DataStoreImpl>>> =
Mutex::new(HashMap::new());
}
/// checks if auth_id is owner, or, if owner is a token, if
/// auth_id is the user of the token
pub fn check_backup_owner(owner: &Authid, auth_id: &Authid) -> Result<(), Error> {
let correct_owner =
owner == auth_id || (owner.is_token() && &Authid::from(owner.user().clone()) == auth_id);
if !correct_owner {
bail!("backup owner check failed ({} != {})", auth_id, owner);
}
Ok(())
}
/// Datastore Management
///
/// A Datastore can store severals backups, and provides the
/// management interface for backup.
pub struct DataStoreImpl {
chunk_store: Arc<ChunkStore>,
gc_mutex: Mutex<()>,
last_gc_status: Mutex<GarbageCollectionStatus>,
verify_new: bool,
chunk_order: ChunkOrder,
last_generation: usize,
last_update: i64,
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}
impl DataStoreImpl {
// This one just panics on everything
#[doc(hidden)]
pub unsafe fn new_test() -> Arc<Self> {
Arc::new(Self {
chunk_store: Arc::new(unsafe { ChunkStore::panic_store() }),
gc_mutex: Mutex::new(()),
last_gc_status: Mutex::new(GarbageCollectionStatus::default()),
verify_new: false,
chunk_order: ChunkOrder::None,
last_generation: 0,
last_update: 0,
})
}
}
pub struct DataStore {
inner: Arc<DataStoreImpl>,
operation: Option<Operation>,
}
impl Clone for DataStore {
fn clone(&self) -> Self {
let mut new_operation = self.operation;
if let Some(operation) = self.operation {
if let Err(e) = update_active_operations(self.name(), operation, 1) {
log::error!("could not update active operations - {}", e);
new_operation = None;
}
}
DataStore {
inner: self.inner.clone(),
operation: new_operation,
}
}
}
impl Drop for DataStore {
fn drop(&mut self) {
if let Some(operation) = self.operation {
if let Err(e) = update_active_operations(self.name(), operation, -1) {
log::error!("could not update active operations - {}", e);
}
}
}
}
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impl DataStore {
// This one just panics on everything
#[doc(hidden)]
pub unsafe fn new_test() -> Arc<Self> {
Arc::new(Self {
inner: unsafe { DataStoreImpl::new_test() },
operation: None,
})
}
pub fn lookup_datastore(
name: &str,
operation: Option<Operation>,
) -> Result<Arc<DataStore>, Error> {
let version_cache = ConfigVersionCache::new()?;
let generation = version_cache.datastore_generation();
let now = proxmox_time::epoch_i64();
let (config, _digest) = pbs_config::datastore::config()?;
let config: DataStoreConfig = config.lookup("datastore", name)?;
if let Some(maintenance_mode) = config.get_maintenance_mode() {
if let Err(error) = maintenance_mode.check(operation) {
bail!("datastore '{name}' is in {error}");
}
}
if let Some(operation) = operation {
update_active_operations(name, operation, 1)?;
}
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let mut map = DATASTORE_MAP.lock().unwrap();
let entry = map.get(name);
if let Some(datastore) = &entry {
if datastore.last_generation == generation && now < (datastore.last_update + 60) {
return Ok(Arc::new(Self {
inner: Arc::clone(datastore),
operation,
}));
}
}
let chunk_store = ChunkStore::open(name, &config.path)?;
let datastore = DataStore::with_store_and_config(chunk_store, config, generation, now)?;
let datastore = Arc::new(datastore);
map.insert(name.to_string(), datastore.clone());
Ok(Arc::new(Self {
inner: datastore,
operation,
}))
}
/// removes all datastores that are not configured anymore
pub fn remove_unused_datastores() -> Result<(), Error> {
let (config, _digest) = pbs_config::datastore::config()?;
let mut map = DATASTORE_MAP.lock().unwrap();
// removes all elements that are not in the config
map.retain(|key, _| config.sections.contains_key(key));
Ok(())
}
/// Open a raw database given a name and a path.
pub unsafe fn open_path(
name: &str,
path: impl AsRef<Path>,
operation: Option<Operation>,
) -> Result<Arc<Self>, Error> {
let path = path
.as_ref()
.to_str()
.ok_or_else(|| format_err!("non-utf8 paths not supported"))?
.to_owned();
unsafe { Self::open_from_config(DataStoreConfig::new(name.to_owned(), path), operation) }
}
/// Open a datastore given a raw configuration.
pub unsafe fn open_from_config(
config: DataStoreConfig,
operation: Option<Operation>,
) -> Result<Arc<Self>, Error> {
let name = config.name.clone();
let chunk_store = ChunkStore::open(&name, &config.path)?;
let inner = Arc::new(Self::with_store_and_config(chunk_store, config, 0, 0)?);
if let Some(operation) = operation {
update_active_operations(&name, operation, 1)?;
}
Ok(Arc::new(Self { inner, operation }))
}
fn with_store_and_config(
chunk_store: ChunkStore,
config: DataStoreConfig,
last_generation: usize,
last_update: i64,
) -> Result<DataStoreImpl, Error> {
let mut gc_status_path = chunk_store.base_path();
gc_status_path.push(".gc-status");
let gc_status = if let Some(state) = file_read_optional_string(gc_status_path)? {
match serde_json::from_str(&state) {
Ok(state) => state,
Err(err) => {
eprintln!("error reading gc-status: {}", err);
GarbageCollectionStatus::default()
}
}
} else {
GarbageCollectionStatus::default()
};
let tuning: DatastoreTuning = serde_json::from_value(
DatastoreTuning::API_SCHEMA
.parse_property_string(config.tuning.as_deref().unwrap_or(""))?,
)?;
let chunk_order = tuning.chunk_order.unwrap_or(ChunkOrder::Inode);
Ok(DataStoreImpl {
chunk_store: Arc::new(chunk_store),
gc_mutex: Mutex::new(()),
last_gc_status: Mutex::new(gc_status),
verify_new: config.verify_new.unwrap_or(false),
chunk_order,
last_generation,
last_update,
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})
}
pub fn get_chunk_iterator(
&self,
) -> Result<
impl Iterator<Item = (Result<proxmox_sys::fs::ReadDirEntry, Error>, usize, bool)>,
Error,
> {
self.inner.chunk_store.get_chunk_iterator()
}
pub fn create_fixed_writer<P: AsRef<Path>>(
&self,
filename: P,
size: usize,
chunk_size: usize,
) -> Result<FixedIndexWriter, Error> {
let index = FixedIndexWriter::create(
self.inner.chunk_store.clone(),
filename.as_ref(),
size,
chunk_size,
)?;
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Ok(index)
}
pub fn open_fixed_reader<P: AsRef<Path>>(
&self,
filename: P,
) -> Result<FixedIndexReader, Error> {
let full_path = self.inner.chunk_store.relative_path(filename.as_ref());
let index = FixedIndexReader::open(&full_path)?;
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Ok(index)
}
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pub fn create_dynamic_writer<P: AsRef<Path>>(
&self,
filename: P,
) -> Result<DynamicIndexWriter, Error> {
let index = DynamicIndexWriter::create(self.inner.chunk_store.clone(), filename.as_ref())?;
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Ok(index)
}
pub fn open_dynamic_reader<P: AsRef<Path>>(
&self,
filename: P,
) -> Result<DynamicIndexReader, Error> {
let full_path = self.inner.chunk_store.relative_path(filename.as_ref());
let index = DynamicIndexReader::open(&full_path)?;
Ok(index)
}
pub fn open_index<P>(&self, filename: P) -> Result<Box<dyn IndexFile + Send>, Error>
where
P: AsRef<Path>,
{
let filename = filename.as_ref();
let out: Box<dyn IndexFile + Send> = match archive_type(filename)? {
ArchiveType::DynamicIndex => Box::new(self.open_dynamic_reader(filename)?),
ArchiveType::FixedIndex => Box::new(self.open_fixed_reader(filename)?),
_ => bail!("cannot open index file of unknown type: {:?}", filename),
};
Ok(out)
}
/// Fast index verification - only check if chunks exists
pub fn fast_index_verification(
&self,
index: &dyn IndexFile,
checked: &mut HashSet<[u8; 32]>,
) -> Result<(), Error> {
for pos in 0..index.index_count() {
let info = index.chunk_info(pos).unwrap();
if checked.contains(&info.digest) {
continue;
}
self.stat_chunk(&info.digest).map_err(|err| {
format_err!(
"fast_index_verification error, stat_chunk {} failed - {}",
hex::encode(&info.digest),
err,
)
})?;
checked.insert(info.digest);
}
Ok(())
}
pub fn name(&self) -> &str {
self.inner.chunk_store.name()
}
pub fn base_path(&self) -> PathBuf {
self.inner.chunk_store.base_path()
}
/// Returns the absolute path for a backup namespace on this datastore
pub fn namespace_path(&self, ns: &BackupNamespace) -> PathBuf {
let mut path = self.base_path();
path.reserve(ns.path_len());
for part in ns.components() {
path.push("ns");
path.push(part);
}
path
}
/// Returns the absolute path for a backup_group
pub fn group_path(
&self,
ns: &BackupNamespace,
backup_group: &pbs_api_types::BackupGroup,
) -> PathBuf {
let mut full_path = self.namespace_path(ns);
full_path.push(backup_group.to_string());
full_path
}
/// Returns the absolute path for backup_dir
pub fn snapshot_path(
&self,
ns: &BackupNamespace,
backup_dir: &pbs_api_types::BackupDir,
) -> PathBuf {
let mut full_path = self.namespace_path(ns);
full_path.push(backup_dir.to_string());
full_path
}
/// Create a backup namespace.
pub fn create_namespace(
self: &Arc<Self>,
parent: &BackupNamespace,
name: String,
) -> Result<BackupNamespace, Error> {
if !self.namespace_exists(parent) {
bail!("cannot create new namespace, parent {parent} doesn't already exists");
}
// construct ns before mkdir to enforce max-depth and name validity
let ns = BackupNamespace::from_parent_ns(parent, name)?;
let mut ns_full_path = self.base_path();
ns_full_path.push(ns.path());
std::fs::create_dir_all(ns_full_path)?;
Ok(ns)
}
/// Returns if the given namespace exists on the datastore
pub fn namespace_exists(&self, ns: &BackupNamespace) -> bool {
let mut path = self.base_path();
path.push(ns.path());
path.exists()
}
/// Remove all backup groups of a single namespace level but not the namespace itself.
///
/// Does *not* descends into child-namespaces and doesn't remoes the namespace itself either.
///
/// Returns true if all the groups were removed, and false if some were protected.
pub fn remove_namespace_groups(self: &Arc<Self>, ns: &BackupNamespace) -> Result<bool, Error> {
// FIXME: locking? The single groups/snapshots are already protected, so may not be
// necesarry (depends on what we all allow to do with namespaces)
log::info!("removing all groups in namespace {}:/{ns}", self.name());
let mut removed_all_groups = true;
for group in self.iter_backup_groups(ns.to_owned())? {
let removed_group = group?.destroy()?;
removed_all_groups = removed_all_groups && removed_group;
}
let base_file = std::fs::File::open(self.base_path())?;
let base_fd = base_file.as_raw_fd();
for ty in BackupType::iter() {
let mut ty_dir = ns.path();
ty_dir.push(ty.to_string());
// best effort only, but we probably should log the error
if let Err(err) = unlinkat(Some(base_fd), &ty_dir, UnlinkatFlags::RemoveDir) {
if err.as_errno() != Some(nix::errno::Errno::ENOENT) {
log::error!("failed to remove backup type {ty} in {ns} - {err}");
}
}
}
Ok(removed_all_groups)
}
/// Remove a complete backup namespace optionally including all it's, and child namespaces',
/// groups. If `removed_groups` is false this only prunes empty namespaces.
///
/// Returns true if everything requested, and false if some groups were protected or if some
/// namespaces weren't empty even though all groups were deleted (race with new backup)
pub fn remove_namespace_recursive(
self: &Arc<Self>,
ns: &BackupNamespace,
delete_groups: bool,
) -> Result<bool, Error> {
let store = self.name();
let mut removed_all_requested = true;
if delete_groups {
log::info!("removing whole namespace recursively below {store}:/{ns}",);
for ns in self.recursive_iter_backup_ns(ns.to_owned())? {
let removed_ns_groups = self.remove_namespace_groups(&ns?)?;
removed_all_requested = removed_all_requested && removed_ns_groups;
}
} else {
log::info!("pruning empty namespace recursively below {store}:/{ns}");
}
// now try to delete the actual namespaces, bottom up so that we can use safe rmdir that
// will choke if a new backup/group appeared in the meantime (but not on an new empty NS)
let mut children = self
.recursive_iter_backup_ns(ns.to_owned())?
.collect::<Result<Vec<BackupNamespace>, Error>>()?;
children.sort_by(|a, b| b.depth().cmp(&a.depth()));
let base_file = std::fs::File::open(self.base_path())?;
let base_fd = base_file.as_raw_fd();
for ns in children.iter() {
let mut ns_dir = ns.path();
ns_dir.push("ns");
let _ = unlinkat(Some(base_fd), &ns_dir, UnlinkatFlags::RemoveDir);
if !ns.is_root() {
match unlinkat(Some(base_fd), &ns.path(), UnlinkatFlags::RemoveDir) {
Ok(()) => log::debug!("removed namespace {ns}"),
Err(nix::Error::Sys(nix::errno::Errno::ENOENT)) => {
log::debug!("namespace {ns} already removed")
}
Err(nix::Error::Sys(nix::errno::Errno::ENOTEMPTY)) if !delete_groups => {
log::debug!("skip removal of non-empty namespace {ns}")
}
Err(err) => {
removed_all_requested = false;
log::warn!("failed to remove namespace {ns} - {err}")
}
}
}
}
Ok(removed_all_requested)
}
/// Remove a complete backup group including all snapshots.
///
/// Returns true if all snapshots were removed, and false if some were protected
pub fn remove_backup_group(
self: &Arc<Self>,
ns: &BackupNamespace,
backup_group: &pbs_api_types::BackupGroup,
) -> Result<bool, Error> {
let backup_group = self.backup_group(ns.clone(), backup_group.clone());
backup_group.destroy()
}
/// Remove a backup directory including all content
pub fn remove_backup_dir(
self: &Arc<Self>,
ns: &BackupNamespace,
backup_dir: &pbs_api_types::BackupDir,
force: bool,
) -> Result<(), Error> {
let backup_dir = self.backup_dir(ns.clone(), backup_dir.clone())?;
backup_dir.destroy(force)
}
/// Returns the time of the last successful backup
///
/// Or None if there is no backup in the group (or the group dir does not exist).
pub fn last_successful_backup(
self: &Arc<Self>,
ns: &BackupNamespace,
backup_group: &pbs_api_types::BackupGroup,
) -> Result<Option<i64>, Error> {
let backup_group = self.backup_group(ns.clone(), backup_group.clone());
let group_path = backup_group.full_group_path();
if group_path.exists() {
backup_group.last_successful_backup()
} else {
Ok(None)
}
}
/// Return the path of the 'owner' file.
fn owner_path(&self, ns: &BackupNamespace, group: &pbs_api_types::BackupGroup) -> PathBuf {
self.group_path(ns, group).join("owner")
}
/// Returns the backup owner.
///
/// The backup owner is the entity who first created the backup group.
pub fn get_owner(
&self,
ns: &BackupNamespace,
backup_group: &pbs_api_types::BackupGroup,
) -> Result<Authid, Error> {
let full_path = self.owner_path(ns, backup_group);
let owner = proxmox_sys::fs::file_read_firstline(full_path)?;
owner.trim_end().parse() // remove trailing newline
}
pub fn owns_backup(
&self,
ns: &BackupNamespace,
backup_group: &pbs_api_types::BackupGroup,
auth_id: &Authid,
) -> Result<bool, Error> {
let owner = self.get_owner(ns, backup_group)?;
Ok(check_backup_owner(&owner, auth_id).is_ok())
}
/// Set the backup owner.
pub fn set_owner(
&self,
ns: &BackupNamespace,
backup_group: &pbs_api_types::BackupGroup,
auth_id: &Authid,
force: bool,
) -> Result<(), Error> {
let path = self.owner_path(ns, backup_group);
let mut open_options = std::fs::OpenOptions::new();
open_options.write(true);
open_options.truncate(true);
if force {
open_options.create(true);
} else {
open_options.create_new(true);
}
let mut file = open_options
.open(&path)
.map_err(|err| format_err!("unable to create owner file {:?} - {}", path, err))?;
writeln!(file, "{}", auth_id)
.map_err(|err| format_err!("unable to write owner file {:?} - {}", path, err))?;
Ok(())
}
/// Create (if it does not already exists) and lock a backup group
///
/// And set the owner to 'userid'. If the group already exists, it returns the
/// current owner (instead of setting the owner).
///
/// This also acquires an exclusive lock on the directory and returns the lock guard.
pub fn create_locked_backup_group(
&self,
ns: &BackupNamespace,
backup_group: &pbs_api_types::BackupGroup,
auth_id: &Authid,
) -> Result<(Authid, DirLockGuard), Error> {
// create intermediate path first:
let mut full_path = self.base_path();
for ns in ns.components() {
full_path.push("ns");
full_path.push(ns);
}
full_path.push(backup_group.ty.as_str());
std::fs::create_dir_all(&full_path)?;
full_path.push(&backup_group.id);
// create the last component now
match std::fs::create_dir(&full_path) {
Ok(_) => {
let guard = lock_dir_noblock(
&full_path,
"backup group",
"another backup is already running",
)?;
self.set_owner(ns, backup_group, auth_id, false)?;
let owner = self.get_owner(ns, backup_group)?; // just to be sure
Ok((owner, guard))
}
Err(ref err) if err.kind() == io::ErrorKind::AlreadyExists => {
let guard = lock_dir_noblock(
&full_path,
"backup group",
"another backup is already running",
)?;
let owner = self.get_owner(ns, backup_group)?; // just to be sure
Ok((owner, guard))
}
Err(err) => bail!("unable to create backup group {:?} - {}", full_path, err),
}
}
/// Creates a new backup snapshot inside a BackupGroup
///
/// The BackupGroup directory needs to exist.
pub fn create_locked_backup_dir(
&self,
ns: &BackupNamespace,
backup_dir: &pbs_api_types::BackupDir,
) -> Result<(PathBuf, bool, DirLockGuard), Error> {
let full_path = self.snapshot_path(ns, backup_dir);
let relative_path = full_path.strip_prefix(self.base_path()).map_err(|err| {
format_err!(
"failed to produce correct path for backup {backup_dir} in namespace {ns}: {err}"
)
})?;
let lock = || {
lock_dir_noblock(
&full_path,
"snapshot",
"internal error - tried creating snapshot that's already in use",
)
};
match std::fs::create_dir(&full_path) {
Ok(_) => Ok((relative_path.to_owned(), true, lock()?)),
Err(ref e) if e.kind() == io::ErrorKind::AlreadyExists => {
Ok((relative_path.to_owned(), false, lock()?))
}
Err(e) => Err(e.into()),
}
}
/// Get a streaming iter over single-level backup namespaces of a datatstore
///
/// The iterated item is still a Result that can contain errors from rather unexptected FS or
/// parsing errors.
pub fn iter_backup_ns(
self: &Arc<DataStore>,
ns: BackupNamespace,
) -> Result<ListNamespaces, Error> {
ListNamespaces::new(Arc::clone(self), ns)
}
/// Get a streaming iter over single-level backup namespaces of a datatstore, filtered by Ok
///
/// The iterated item's result is already unwrapped, if it contained an error it will be
/// logged. Can be useful in iterator chain commands
pub fn iter_backup_ns_ok(
self: &Arc<DataStore>,
ns: BackupNamespace,
) -> Result<impl Iterator<Item = BackupNamespace> + 'static, Error> {
let this = Arc::clone(self);
Ok(
ListNamespaces::new(Arc::clone(self), ns)?.filter_map(move |ns| match ns {
Ok(ns) => Some(ns),
Err(err) => {
log::error!("list groups error on datastore {} - {}", this.name(), err);
None
}
}),
)
}
/// Get a streaming iter over single-level backup namespaces of a datatstore
///
/// The iterated item is still a Result that can contain errors from rather unexptected FS or
/// parsing errors.
pub fn recursive_iter_backup_ns(
self: &Arc<DataStore>,
ns: BackupNamespace,
) -> Result<ListNamespacesRecursive, Error> {
ListNamespacesRecursive::new(Arc::clone(self), ns)
}
/// Get a streaming iter over single-level backup namespaces of a datatstore, filtered by Ok
///
/// The iterated item's result is already unwrapped, if it contained an error it will be
/// logged. Can be useful in iterator chain commands
pub fn recursive_iter_backup_ns_ok(
self: &Arc<DataStore>,
ns: BackupNamespace,
max_depth: Option<usize>,
) -> Result<impl Iterator<Item = BackupNamespace> + 'static, Error> {
let this = Arc::clone(self);
Ok(if let Some(depth) = max_depth {
ListNamespacesRecursive::new_max_depth(Arc::clone(self), ns, depth)?
} else {
ListNamespacesRecursive::new(Arc::clone(self), ns)?
}
.filter_map(move |ns| match ns {
Ok(ns) => Some(ns),
Err(err) => {
log::error!("list groups error on datastore {} - {}", this.name(), err);
None
}
}))
}
/// Get a streaming iter over top-level backup groups of a datatstore
///
/// The iterated item is still a Result that can contain errors from rather unexptected FS or
/// parsing errors.
pub fn iter_backup_groups(
self: &Arc<DataStore>,
ns: BackupNamespace,
) -> Result<ListGroups, Error> {
ListGroups::new(Arc::clone(self), ns)
}
/// Get a streaming iter over top-level backup groups of a datatstore, filtered by Ok results
///
/// The iterated item's result is already unwrapped, if it contained an error it will be
/// logged. Can be useful in iterator chain commands
pub fn iter_backup_groups_ok(
self: &Arc<DataStore>,
ns: BackupNamespace,
) -> Result<impl Iterator<Item = BackupGroup> + 'static, Error> {
let this = Arc::clone(self);
Ok(
ListGroups::new(Arc::clone(self), ns)?.filter_map(move |group| match group {
Ok(group) => Some(group),
Err(err) => {
log::error!("list groups error on datastore {} - {}", this.name(), err);
None
}
}),
)
}
/// Get a in-memory vector for all top-level backup groups of a datatstore
///
/// NOTE: using the iterator directly is most often more efficient w.r.t. memory usage
pub fn list_backup_groups(
self: &Arc<DataStore>,
ns: BackupNamespace,
) -> Result<Vec<BackupGroup>, Error> {
ListGroups::new(Arc::clone(self), ns)?.collect()
}
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pub fn list_images(&self) -> Result<Vec<PathBuf>, Error> {
let base = self.base_path();
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let mut list = vec![];
use walkdir::WalkDir;
let walker = WalkDir::new(&base).into_iter();
// make sure we skip .chunks (and other hidden files to keep it simple)
fn is_hidden(entry: &walkdir::DirEntry) -> bool {
entry
.file_name()
.to_str()
.map(|s| s.starts_with('.'))
.unwrap_or(false)
}
let handle_entry_err = |err: walkdir::Error| {
if let Some(inner) = err.io_error() {
if let Some(path) = err.path() {
if inner.kind() == io::ErrorKind::PermissionDenied {
// only allow to skip ext4 fsck directory, avoid GC if, for example,
// a user got file permissions wrong on datastore rsync to new server
if err.depth() > 1 || !path.ends_with("lost+found") {
bail!("cannot continue garbage-collection safely, permission denied on: {:?}", path)
}
} else {
bail!(
"unexpected error on datastore traversal: {} - {:?}",
inner,
path
)
}
} else {
bail!("unexpected error on datastore traversal: {}", inner)
}
}
Ok(())
};
for entry in walker.filter_entry(|e| !is_hidden(e)) {
let path = match entry {
Ok(entry) => entry.into_path(),
Err(err) => {
handle_entry_err(err)?;
continue;
}
};
if let Ok(archive_type) = archive_type(&path) {
if archive_type == ArchiveType::FixedIndex
|| archive_type == ArchiveType::DynamicIndex
{
list.push(path);
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}
}
}
Ok(list)
}
// mark chunks used by ``index`` as used
fn index_mark_used_chunks<I: IndexFile>(
&self,
index: I,
file_name: &Path, // only used for error reporting
status: &mut GarbageCollectionStatus,
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worker: &dyn WorkerTaskContext,
) -> Result<(), Error> {
status.index_file_count += 1;
status.index_data_bytes += index.index_bytes();
for pos in 0..index.index_count() {
worker.check_abort()?;
worker.fail_on_shutdown()?;
let digest = index.index_digest(pos).unwrap();
if !self.inner.chunk_store.cond_touch_chunk(digest, false)? {
let hex = hex::encode(digest);
task_warn!(
worker,
"warning: unable to access non-existent chunk {hex}, required by {file_name:?}"
);
// touch any corresponding .bad files to keep them around, meaning if a chunk is
// rewritten correctly they will be removed automatically, as well as if no index
// file requires the chunk anymore (won't get to this loop then)
for i in 0..=9 {
let bad_ext = format!("{}.bad", i);
let mut bad_path = PathBuf::new();
bad_path.push(self.chunk_path(digest).0);
bad_path.set_extension(bad_ext);
self.inner.chunk_store.cond_touch_path(&bad_path, false)?;
}
}
}
Ok(())
}
fn mark_used_chunks(
&self,
status: &mut GarbageCollectionStatus,
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worker: &dyn WorkerTaskContext,
) -> Result<(), Error> {
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let image_list = self.list_images()?;
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let image_count = image_list.len();
let mut last_percentage: usize = 0;
let mut strange_paths_count: u64 = 0;
for (i, img) in image_list.into_iter().enumerate() {
worker.check_abort()?;
worker.fail_on_shutdown()?;
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if let Some(backup_dir_path) = img.parent() {
let backup_dir_path = backup_dir_path.strip_prefix(self.base_path())?;
if let Some(backup_dir_str) = backup_dir_path.to_str() {
if pbs_api_types::BackupDir::from_str(backup_dir_str).is_err() {
strange_paths_count += 1;
}
}
}
match std::fs::File::open(&img) {
Ok(file) => {
if let Ok(archive_type) = archive_type(&img) {
if archive_type == ArchiveType::FixedIndex {
let index = FixedIndexReader::new(file).map_err(|e| {
format_err!("can't read index '{}' - {}", img.to_string_lossy(), e)
})?;
self.index_mark_used_chunks(index, &img, status, worker)?;
} else if archive_type == ArchiveType::DynamicIndex {
let index = DynamicIndexReader::new(file).map_err(|e| {
format_err!("can't read index '{}' - {}", img.to_string_lossy(), e)
})?;
self.index_mark_used_chunks(index, &img, status, worker)?;
}
}
}
Err(err) if err.kind() == io::ErrorKind::NotFound => (), // ignore vanished files
Err(err) => bail!("can't open index {} - {}", img.to_string_lossy(), err),
}
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let percentage = (i + 1) * 100 / image_count;
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if percentage > last_percentage {
task_log!(
worker,
"marked {}% ({} of {} index files)",
percentage,
i + 1,
image_count,
);
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last_percentage = percentage;
}
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}
if strange_paths_count > 0 {
task_log!(
worker,
"found (and marked) {} index files outside of expected directory scheme",
strange_paths_count,
);
}
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Ok(())
}
pub fn last_gc_status(&self) -> GarbageCollectionStatus {
self.inner.last_gc_status.lock().unwrap().clone()
}
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pub fn garbage_collection_running(&self) -> bool {
!matches!(self.inner.gc_mutex.try_lock(), Ok(_))
}
pub fn garbage_collection(
&self,
worker: &dyn WorkerTaskContext,
upid: &UPID,
) -> Result<(), Error> {
if let Ok(ref mut _mutex) = self.inner.gc_mutex.try_lock() {
// avoids that we run GC if an old daemon process has still a
// running backup writer, which is not save as we have no "oldest
// writer" information and thus no safe atime cutoff
let _exclusive_lock = self.inner.chunk_store.try_exclusive_lock()?;
let phase1_start_time = proxmox_time::epoch_i64();
let oldest_writer = self
.inner
.chunk_store
.oldest_writer()
.unwrap_or(phase1_start_time);
let mut gc_status = GarbageCollectionStatus::default();
gc_status.upid = Some(upid.to_string());
task_log!(worker, "Start GC phase1 (mark used chunks)");
self.mark_used_chunks(&mut gc_status, worker)?;
task_log!(worker, "Start GC phase2 (sweep unused chunks)");
self.inner.chunk_store.sweep_unused_chunks(
oldest_writer,
phase1_start_time,
&mut gc_status,
worker,
)?;
task_log!(
worker,
"Removed garbage: {}",
HumanByte::from(gc_status.removed_bytes),
);
task_log!(worker, "Removed chunks: {}", gc_status.removed_chunks);
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if gc_status.pending_bytes > 0 {
task_log!(
worker,
"Pending removals: {} (in {} chunks)",
HumanByte::from(gc_status.pending_bytes),
gc_status.pending_chunks,
);
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}
if gc_status.removed_bad > 0 {
task_log!(worker, "Removed bad chunks: {}", gc_status.removed_bad);
}
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if gc_status.still_bad > 0 {
task_log!(worker, "Leftover bad chunks: {}", gc_status.still_bad);
}
task_log!(
worker,
"Original data usage: {}",
HumanByte::from(gc_status.index_data_bytes),
);
if gc_status.index_data_bytes > 0 {
let comp_per =
(gc_status.disk_bytes as f64 * 100.) / gc_status.index_data_bytes as f64;
task_log!(
worker,
"On-Disk usage: {} ({:.2}%)",
HumanByte::from(gc_status.disk_bytes),
comp_per,
);
}
task_log!(worker, "On-Disk chunks: {}", gc_status.disk_chunks);
let deduplication_factor = if gc_status.disk_bytes > 0 {
(gc_status.index_data_bytes as f64) / (gc_status.disk_bytes as f64)
} else {
1.0
};
task_log!(worker, "Deduplication factor: {:.2}", deduplication_factor);
if gc_status.disk_chunks > 0 {
let avg_chunk = gc_status.disk_bytes / (gc_status.disk_chunks as u64);
task_log!(worker, "Average chunk size: {}", HumanByte::from(avg_chunk));
}
if let Ok(serialized) = serde_json::to_string(&gc_status) {
let mut path = self.base_path();
path.push(".gc-status");
let backup_user = pbs_config::backup_user()?;
let mode = nix::sys::stat::Mode::from_bits_truncate(0o0644);
// set the correct owner/group/permissions while saving file
// owner(rw) = backup, group(r)= backup
let options = CreateOptions::new()
.perm(mode)
.owner(backup_user.uid)
.group(backup_user.gid);
// ignore errors
let _ = replace_file(path, serialized.as_bytes(), options, false);
}
*self.inner.last_gc_status.lock().unwrap() = gc_status;
} else {
bail!("Start GC failed - (already running/locked)");
}
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Ok(())
}
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pub fn try_shared_chunk_store_lock(&self) -> Result<ProcessLockSharedGuard, Error> {
self.inner.chunk_store.try_shared_lock()
}
pub fn chunk_path(&self, digest: &[u8; 32]) -> (PathBuf, String) {
self.inner.chunk_store.chunk_path(digest)
}
pub fn cond_touch_chunk(&self, digest: &[u8; 32], assert_exists: bool) -> Result<bool, Error> {
self.inner
.chunk_store
.cond_touch_chunk(digest, assert_exists)
}
pub fn insert_chunk(&self, chunk: &DataBlob, digest: &[u8; 32]) -> Result<(bool, u64), Error> {
self.inner.chunk_store.insert_chunk(chunk, digest)
}
pub fn stat_chunk(&self, digest: &[u8; 32]) -> Result<std::fs::Metadata, Error> {
let (chunk_path, _digest_str) = self.inner.chunk_store.chunk_path(digest);
std::fs::metadata(chunk_path).map_err(Error::from)
}
pub fn load_chunk(&self, digest: &[u8; 32]) -> Result<DataBlob, Error> {
let (chunk_path, digest_str) = self.inner.chunk_store.chunk_path(digest);
proxmox_lang::try_block!({
let mut file = std::fs::File::open(&chunk_path)?;
DataBlob::load_from_reader(&mut file)
})
.map_err(|err| {
format_err!(
"store '{}', unable to load chunk '{}' - {}",
self.name(),
digest_str,
err,
)
})
}
/// Updates the protection status of the specified snapshot.
pub fn update_protection(&self, backup_dir: &BackupDir, protection: bool) -> Result<(), Error> {
let full_path = backup_dir.full_path();
let _guard = lock_dir_noblock(&full_path, "snapshot", "possibly running or in use")?;
let protected_path = backup_dir.protected_file();
if protection {
std::fs::File::create(protected_path)
.map_err(|err| format_err!("could not create protection file: {}", err))?;
} else if let Err(err) = std::fs::remove_file(protected_path) {
// ignore error for non-existing file
if err.kind() != std::io::ErrorKind::NotFound {
bail!("could not remove protection file: {}", err);
}
}
Ok(())
}
pub fn verify_new(&self) -> bool {
self.inner.verify_new
}
/// returns a list of chunks sorted by their inode number on disk
/// chunks that could not be stat'ed are at the end of the list
pub fn get_chunks_in_order<F, A>(
&self,
index: &Box<dyn IndexFile + Send>,
skip_chunk: F,
check_abort: A,
) -> Result<Vec<(usize, u64)>, Error>
where
F: Fn(&[u8; 32]) -> bool,
A: Fn(usize) -> Result<(), Error>,
{
let index_count = index.index_count();
let mut chunk_list = Vec::with_capacity(index_count);
use std::os::unix::fs::MetadataExt;
for pos in 0..index_count {
check_abort(pos)?;
let info = index.chunk_info(pos).unwrap();
if skip_chunk(&info.digest) {
continue;
}
let ino = match self.inner.chunk_order {
ChunkOrder::Inode => {
match self.stat_chunk(&info.digest) {
Err(_) => u64::MAX, // could not stat, move to end of list
Ok(metadata) => metadata.ino(),
}
}
ChunkOrder::None => 0,
};
chunk_list.push((pos, ino));
}
match self.inner.chunk_order {
// sorting by inode improves data locality, which makes it lots faster on spinners
ChunkOrder::Inode => {
chunk_list.sort_unstable_by(|(_, ino_a), (_, ino_b)| ino_a.cmp(ino_b))
}
ChunkOrder::None => {}
}
Ok(chunk_list)
}
/// Open a backup group from this datastore.
pub fn backup_group(
self: &Arc<Self>,
ns: BackupNamespace,
group: pbs_api_types::BackupGroup,
) -> BackupGroup {
BackupGroup::new(Arc::clone(self), ns, group)
}
/// Open a backup group from this datastore.
pub fn backup_group_from_parts<T>(
self: &Arc<Self>,
ns: BackupNamespace,
ty: BackupType,
id: T,
) -> BackupGroup
where
T: Into<String>,
{
self.backup_group(ns, (ty, id.into()).into())
}
/*
/// Open a backup group from this datastore by backup group path such as `vm/100`.
///
/// Convenience method for `store.backup_group(path.parse()?)`
pub fn backup_group_from_path(self: &Arc<Self>, path: &str) -> Result<BackupGroup, Error> {
todo!("split out the namespace");
}
*/
/// Open a snapshot (backup directory) from this datastore.
pub fn backup_dir(
self: &Arc<Self>,
ns: BackupNamespace,
dir: pbs_api_types::BackupDir,
) -> Result<BackupDir, Error> {
BackupDir::with_group(self.backup_group(ns, dir.group), dir.time)
}
/// Open a snapshot (backup directory) from this datastore.
pub fn backup_dir_from_parts<T>(
self: &Arc<Self>,
ns: BackupNamespace,
ty: BackupType,
id: T,
time: i64,
) -> Result<BackupDir, Error>
where
T: Into<String>,
{
self.backup_dir(ns, (ty, id.into(), time).into())
}
/// Open a snapshot (backup directory) from this datastore with a cached rfc3339 time string.
pub fn backup_dir_with_rfc3339<T: Into<String>>(
self: &Arc<Self>,
group: BackupGroup,
time_string: T,
) -> Result<BackupDir, Error> {
BackupDir::with_rfc3339(group, time_string.into())
}
/*
/// Open a snapshot (backup directory) from this datastore by a snapshot path.
pub fn backup_dir_from_path(self: &Arc<Self>, path: &str) -> Result<BackupDir, Error> {
todo!("split out the namespace");
}
*/
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}