use std::sync::Arc;
use async_trait::async_trait;
use chrono::prelude::*;
use std::time::{Duration, Instant};
use tokio::sync::watch;
use garage_util::background::*;
use garage_util::data::*;
use garage_util::error::Error;
use garage_util::persister::PersisterShared;
use garage_util::time::*;
use garage_table::EmptyKey;
use crate::bucket_table::*;
use crate::s3::object_table::*;
use crate::garage::Garage;
mod v090 {
use serde::{Deserialize, Serialize};
#[derive(Serialize, Deserialize, Default, Clone)]
pub struct LifecycleWorkerPersisted {
pub last_completed: Option<String>,
}
impl garage_util::migrate::InitialFormat for LifecycleWorkerPersisted {
const VERSION_MARKER: &'static [u8] = b"G09lwp";
}
}
pub use v090::*;
pub struct LifecycleWorker {
garage: Arc<Garage>,
state: State,
persister: PersisterShared<LifecycleWorkerPersisted>,
}
enum State {
Completed(NaiveDate),
Running {
date: NaiveDate,
pos: Vec<u8>,
counter: usize,
objects_expired: usize,
mpu_aborted: usize,
last_bucket: Option<Bucket>,
},
}
#[derive(Clone, Copy, Eq, PartialEq)]
enum Skip {
SkipBucket,
NextObject,
}
pub fn register_bg_vars(
persister: &PersisterShared<LifecycleWorkerPersisted>,
vars: &mut vars::BgVars,
) {
vars.register_ro(persister, "lifecycle-last-completed", |p| {
p.get_with(|x| x.last_completed.clone().unwrap_or("never".to_string()))
});
}
impl LifecycleWorker {
pub fn new(garage: Arc<Garage>, persister: PersisterShared<LifecycleWorkerPersisted>) -> Self {
let today = today(garage.config.use_local_tz);
let last_completed = persister.get_with(|x| {
x.last_completed
.as_deref()
.and_then(|x| x.parse::<NaiveDate>().ok())
});
let state = match last_completed {
Some(d) if d >= today => State::Completed(d),
_ => State::start(today),
};
Self {
garage,
state,
persister,
}
}
}
impl State {
fn start(date: NaiveDate) -> Self {
info!("Starting lifecycle worker for {}", date);
State::Running {
date,
pos: vec![],
counter: 0,
objects_expired: 0,
mpu_aborted: 0,
last_bucket: None,
}
}
}
#[async_trait]
impl Worker for LifecycleWorker {
fn name(&self) -> String {
"object lifecycle worker".to_string()
}
fn status(&self) -> WorkerStatus {
match &self.state {
State::Completed(d) => WorkerStatus {
freeform: vec![format!("Last completed: {}", d)],
..Default::default()
},
State::Running {
date,
counter,
objects_expired,
mpu_aborted,
..
} => {
let n_objects = self.garage.object_table.data.store.len().ok();
let progress = match n_objects {
None => "...".to_string(),
Some(total) => format!(
"~{:.2}%",
100. * std::cmp::min(*counter, total) as f32 / total as f32
),
};
WorkerStatus {
progress: Some(progress),
freeform: vec![
format!("Started: {}", date),
format!("Objects expired: {}", objects_expired),
format!("Multipart uploads aborted: { }", mpu_aborted),
],
..Default::default()
}
}
}
}
async fn work(&mut self, _must_exit: &mut watch::Receiver<bool>) -> Result<WorkerState, Error> {
match &mut self.state {
State::Completed(_) => Ok(WorkerState::Idle),
State::Running {
date,
counter,
objects_expired,
mpu_aborted,
pos,
last_bucket,
} => {
// Process a batch of 100 items before yielding to bg task scheduler
for _ in 0..100 {
let (object_bytes, next_pos) = match self
.garage
.object_table
.data
.store
.get_gt(&pos)?
{
None => {
info!("Lifecycle worker finished for {}, objects expired: {}, mpu aborted: {}", date, *objects_expired, *mpu_aborted);
self.persister
.set_with(|x| x.last_completed = Some(date.to_string()))?;
self.state = State::Completed(*date);
return Ok(WorkerState::Idle);
}
Some((k, v)) => (v, k),
};
let object = self.garage.object_table.data.decode_entry(&object_bytes)?;
let skip = process_object(
&self.garage,
*date,
&object,
objects_expired,
mpu_aborted,
last_bucket,
)
.await?;
*counter += 1;
if skip == Skip::SkipBucket {
let bucket_id_len = object.bucket_id.as_slice().len();
assert_eq!(
next_pos.get(..bucket_id_len),
Some(object.bucket_id.as_slice())
);
let last_bucket_pos = [&next_pos[..bucket_id_len], &[0xFFu8][..]].concat();
*pos = std::cmp::max(next_pos, last_bucket_pos);
} else {
*pos = next_pos;
}
}
Ok(WorkerState::Busy)
}
}
}
async fn wait_for_work(&mut self) -> WorkerState {
match &self.state {
State::Completed(d) => {
let use_local_tz = self.garage.config.use_local_tz;
let next_day = d.succ_opt().expect("no next day");
let next_start = midnight_ts(next_day, use_local_tz);
loop {
let now = now_msec();
if now < next_start {
tokio::time::sleep_until(
(Instant::now() + Duration::from_millis(next_start - now)).into(),
)
.await;
} else {
break;
}
}
self.state = State::start(std::cmp::max(next_day, today(use_local_tz)));
}
State::Running { .. } => (),
}
WorkerState::Busy
}
}
async fn process_object(
garage: &Arc<Garage>,
now_date: NaiveDate,
object: &Object,
objects_expired: &mut usize,
mpu_aborted: &mut usize,
last_bucket: &mut Option<Bucket>,
) -> Result<Skip, Error> {
if !object
.versions()
.iter()
.any(|x| x.is_data() || x.is_uploading(None))
{
return Ok(Skip::NextObject);
}
let bucket = match last_bucket.take() {
Some(b) if b.id == object.bucket_id => b,
_ => {
match garage
.bucket_table
.get(&EmptyKey, &object.bucket_id)
.await?
{
Some(b) => b,
None => {
warn!(
"Lifecycle worker: object in non-existent bucket {:?}",
object.bucket_id
);
return Ok(Skip::SkipBucket);
}
}
}
};
let lifecycle_policy: &[LifecycleRule] = bucket
.state
.as_option()
.and_then(|s| s.lifecycle_config.get().as_deref())
.unwrap_or_default();
if lifecycle_policy.iter().all(|x| !x.enabled) {
return Ok(Skip::SkipBucket);
}
let db = garage.object_table.data.store.db();
for rule in lifecycle_policy.iter() {
if !rule.enabled {
continue;
}
if let Some(pfx) = &rule.filter.prefix {
if !object.key.starts_with(pfx) {
continue;
}
}
if let Some(expire) = &rule.expiration {
if let Some(current_version) = object.versions().iter().rev().find(|v| v.is_data()) {
let version_date = next_date(current_version.timestamp);
let current_version_data = match ¤t_version.state {
ObjectVersionState::Complete(c) => c,
_ => unreachable!(),
};
let size_match = check_size_filter(current_version_data, &rule.filter);
let date_match = match expire {
LifecycleExpiration::AfterDays(n_days) => {
(now_date - version_date) >= chrono::Duration::days(*n_days as i64)
}
LifecycleExpiration::AtDate(exp_date) => {
if let Ok(exp_date) = parse_lifecycle_date(exp_date) {
now_date >= exp_date
} else {
warn!("Invalid expiration date stored in bucket {:?} lifecycle config: {}", bucket.id, exp_date);
false
}
}
};
if size_match && date_match {
// Delete expired version
let deleted_object = Object::new(
object.bucket_id,
object.key.clone(),
vec![ObjectVersion {
uuid: gen_uuid(),
timestamp: std::cmp::max(now_msec(), current_version.timestamp + 1),
state: ObjectVersionState::Complete(ObjectVersionData::DeleteMarker),
}],
);
info!(
"Lifecycle: expiring 1 object in bucket {:?}",
object.bucket_id
);
db.transaction(|tx| garage.object_table.queue_insert(tx, &deleted_object))?;
*objects_expired += 1;
}
}
}
if let Some(abort_mpu_days) = &rule.abort_incomplete_mpu_days {
let aborted_versions = object
.versions()
.iter()
.filter_map(|v| {
let version_date = next_date(v.timestamp);
if (now_date - version_date) >= chrono::Duration::days(*abort_mpu_days as i64)
&& matches!(&v.state, ObjectVersionState::Uploading { .. })
{
Some(ObjectVersion {
state: ObjectVersionState::Aborted,
..*v
})
} else {
None
}
})
.collect::<Vec<_>>();
if !aborted_versions.is_empty() {
// Insert aborted mpu info
let n_aborted = aborted_versions.len();
info!(
"Lifecycle: aborting {} incomplete upload(s) in bucket {:?}",
n_aborted, object.bucket_id
);
let aborted_object =
Object::new(object.bucket_id, object.key.clone(), aborted_versions);
db.transaction(|tx| garage.object_table.queue_insert(tx, &aborted_object))?;
*mpu_aborted += n_aborted;
}
}
}
*last_bucket = Some(bucket);
Ok(Skip::NextObject)
}
fn check_size_filter(version_data: &ObjectVersionData, filter: &LifecycleFilter) -> bool {
let size = match version_data {
ObjectVersionData::Inline(meta, _) | ObjectVersionData::FirstBlock(meta, _) => meta.size,
_ => unreachable!(),
};
if let Some(size_gt) = filter.size_gt {
if !(size > size_gt) {
return false;
}
}
if let Some(size_lt) = filter.size_lt {
if !(size < size_lt) {
return false;
}
}
true
}
fn midnight_ts(date: NaiveDate, use_local_tz: bool) -> u64 {
let midnight = date.and_hms_opt(0, 0, 0).expect("midnight does not exist");
if use_local_tz {
return midnight
.and_local_timezone(Local)
.single()
.expect("bad local midnight")
.timestamp_millis() as u64;
}
midnight.timestamp_millis() as u64
}
fn next_date(ts: u64) -> NaiveDate {
NaiveDateTime::from_timestamp_millis(ts as i64)
.expect("bad timestamp")
.date()
.succ_opt()
.expect("no next day")
}
fn today(use_local_tz: bool) -> NaiveDate {
if use_local_tz {
return Local::now().naive_local().date();
}
Utc::now().naive_utc().date()
}