use std::time::Duration; use garage_util::data::*; use garage_util::error::OkOrMessage; use garage_util::time::*; use garage_table::util::*; use crate::bucket_table::*; use crate::garage::Garage; use crate::helper::error::*; use crate::key_table::*; use crate::s3::object_table::*; pub struct BucketHelper<'a>(pub(crate) &'a Garage); #[allow(clippy::ptr_arg)] impl<'a> BucketHelper<'a> { pub async fn resolve_global_bucket_name( &self, bucket_name: &String, ) -> Result, Error> { // Bucket names in Garage are aliases, true bucket identifiers // are 32-byte UUIDs. This function resolves bucket names into // their full identifier by looking up in the bucket_alias_table. // This function also allows buckets to be identified by their // full UUID (hex-encoded). Here, if the name to be resolved is a // hex string of the correct length, it is directly parsed as a bucket // identifier which is returned. There is no risk of this conflicting // with an actual bucket name: bucket names are max 63 chars long by // the AWS spec, and hex-encoded UUIDs are 64 chars long. let hexbucket = hex::decode(bucket_name.as_str()) .ok() .and_then(|by| Uuid::try_from(&by)); if let Some(bucket_id) = hexbucket { Ok(self .0 .bucket_table .get(&EmptyKey, &bucket_id) .await? .filter(|x| !x.state.is_deleted()) .map(|_| bucket_id)) } else { Ok(self .0 .bucket_alias_table .get(&EmptyKey, bucket_name) .await? .and_then(|x| *x.state.get())) } } #[allow(clippy::ptr_arg)] pub async fn resolve_bucket(&self, bucket_name: &String, api_key: &Key) -> Result { let api_key_params = api_key .state .as_option() .ok_or_message("Key should not be deleted at this point")?; if let Some(Some(bucket_id)) = api_key_params.local_aliases.get(bucket_name) { Ok(*bucket_id) } else { Ok(self .resolve_global_bucket_name(bucket_name) .await? .ok_or_else(|| Error::NoSuchBucket(bucket_name.to_string()))?) } } /// Find a bucket by its global alias or a prefix of its uuid pub async fn admin_get_existing_matching_bucket( &self, pattern: &String, ) -> Result { if let Some(uuid) = self.resolve_global_bucket_name(pattern).await? { return Ok(uuid); } else if pattern.len() >= 2 { let hexdec = pattern .get(..pattern.len() & !1) .and_then(|x| hex::decode(x).ok()); if let Some(hex) = hexdec { let mut start = [0u8; 32]; start .as_mut_slice() .get_mut(..hex.len()) .ok_or_bad_request("invalid length")? .copy_from_slice(&hex); let mut candidates = self .0 .bucket_table .get_range( &EmptyKey, Some(start.into()), Some(DeletedFilter::NotDeleted), 10, EnumerationOrder::Forward, ) .await? .into_iter() .collect::>(); candidates.retain(|x| hex::encode(x.id).starts_with(pattern)); if candidates.len() == 1 { return Ok(candidates.into_iter().next().unwrap().id); } } } Err(Error::BadRequest(format!( "Bucket not found / several matching buckets: {}", pattern ))) } /// Returns a Bucket if it is present in bucket table, /// even if it is in deleted state. Querying a non-existing /// bucket ID returns an internal error. pub async fn get_internal_bucket(&self, bucket_id: Uuid) -> Result { Ok(self .0 .bucket_table .get(&EmptyKey, &bucket_id) .await? .ok_or_message(format!("Bucket {:?} does not exist", bucket_id))?) } /// Returns a Bucket if it is present in bucket table, /// only if it is in non-deleted state. /// Querying a non-existing bucket ID or a deleted bucket /// returns a bad request error. pub async fn get_existing_bucket(&self, bucket_id: Uuid) -> Result { self.0 .bucket_table .get(&EmptyKey, &bucket_id) .await? .filter(|b| !b.is_deleted()) .ok_or_else(|| Error::NoSuchBucket(hex::encode(bucket_id))) } // ---- pub async fn is_bucket_empty(&self, bucket_id: Uuid) -> Result { let objects = self .0 .object_table .get_range( &bucket_id, None, Some(ObjectFilter::IsData), 10, EnumerationOrder::Forward, ) .await?; if !objects.is_empty() { return Ok(false); } #[cfg(feature = "k2v")] { use garage_rpc::ring::Ring; use std::sync::Arc; let ring: Arc = self.0.system.ring.borrow().clone(); let k2vindexes = self .0 .k2v .counter_table .table .get_range( &bucket_id, None, Some((DeletedFilter::NotDeleted, ring.layout.node_id_vec.clone())), 10, EnumerationOrder::Forward, ) .await?; if !k2vindexes.is_empty() { return Ok(false); } } Ok(true) } // ---- /// Deletes all incomplete multipart uploads that are older than a certain time. /// Returns the number of uploads aborted. /// This will also include non-multipart uploads, which may be lingering /// after a node crash pub async fn cleanup_incomplete_uploads( &self, bucket_id: &Uuid, older_than: Duration, ) -> Result { let older_than = now_msec() - older_than.as_millis() as u64; let mut ret = 0usize; let mut start = None; loop { let objects = self .0 .object_table .get_range( bucket_id, start, Some(ObjectFilter::IsUploading { check_multipart: None, }), 1000, EnumerationOrder::Forward, ) .await?; let abortions = objects .iter() .filter_map(|object| { let aborted_versions = object .versions() .iter() .filter(|v| v.is_uploading(None) && v.timestamp < older_than) .map(|v| ObjectVersion { state: ObjectVersionState::Aborted, uuid: v.uuid, timestamp: v.timestamp, }) .collect::>(); if !aborted_versions.is_empty() { Some(Object::new( object.bucket_id, object.key.clone(), aborted_versions, )) } else { None } }) .collect::>(); ret += abortions.len(); self.0.object_table.insert_many(abortions).await?; if objects.len() < 1000 { break; } else { start = Some(objects.last().unwrap().key.clone()); } } Ok(ret) } }