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path: root/src/storage/in_memory.rs
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use crate::storage::*;
use std::collections::{HashMap, BTreeMap};
use std::ops::Bound::{Included, Unbounded, Excluded, self};
use std::sync::{Arc, RwLock};
use tokio::sync::Notify;

/// This implementation is very inneficient, and not completely correct
/// Indeed, when the connector is dropped, the memory is freed.
/// It means that when a user disconnects, its data are lost.
/// It's intended only for basic debugging, do not use it for advanced tests...

#[derive(Debug, Clone)]
enum InternalData {
    Tombstone,
    Value(Vec<u8>),
}
impl InternalData {
    fn to_alternative(&self) -> Alternative {
        match self {
            Self::Tombstone => Alternative::Tombstone,
            Self::Value(x) => Alternative::Value(x.clone()),
        }
    }
}

#[derive(Debug)]
struct InternalRowVal {
    data: Vec<InternalData>,
    version: u64,
    change: Arc<Notify>,
}
impl std::default::Default for InternalRowVal {
    fn default() -> Self {
        Self {
            data: vec![],
            version: 1,
            change: Arc::new(Notify::new()),
        }
    }
}
impl InternalRowVal {
    fn concurrent_values(&self) -> Vec<Alternative> {
        self.data.iter().map(InternalData::to_alternative).collect()
    }

    fn to_row_val(&self, row_ref: RowRef) -> RowVal {
        RowVal{ 
            row_ref: row_ref.with_causality(self.version.to_string()), 
            value: self.concurrent_values(),
        }
    }
}

#[derive(Debug, Default, Clone)]
struct InternalBlobVal {
    data: Vec<u8>,
    metadata: HashMap<String, String>,
}
impl InternalBlobVal {
    fn to_blob_val(&self, bref: &BlobRef) -> BlobVal {
        BlobVal {
            blob_ref: bref.clone(), 
            meta: self.metadata.clone(),
            value: self.data.clone(),
        }
    }
}

type ArcRow = Arc<RwLock<HashMap<String, BTreeMap<String, InternalRowVal>>>>;
type ArcBlob = Arc<RwLock<BTreeMap<String, InternalBlobVal>>>;

#[derive(Clone, Debug)]
pub struct MemBuilder {
    unicity: Vec<u8>,
    row: ArcRow,
    blob: ArcBlob,
}

impl MemBuilder {
    pub fn new(user: &str) -> Arc<Self> {
        let mut unicity: Vec<u8> = vec![];
        unicity.extend_from_slice(file!().as_bytes());
        unicity.extend_from_slice(user.as_bytes());
        Arc::new(Self {
            unicity,
            row: Arc::new(RwLock::new(HashMap::new())),
            blob: Arc::new(RwLock::new(BTreeMap::new())),
        })
    }
}

impl IBuilder for MemBuilder {
    fn build(&self) -> Result<Store, StorageError> {
        Ok(Box::new(MemStore {
            row: self.row.clone(),
            blob: self.blob.clone(),
        }))
    } 

    fn unique(&self) -> UnicityBuffer {
        UnicityBuffer(self.unicity.clone())
    }
}

pub struct MemStore {
    row: ArcRow,
    blob: ArcBlob,
}

fn prefix_last_bound(prefix: &str) -> Bound<String> {
    let mut sort_end = prefix.to_string();
    match sort_end.pop() {
        None => Unbounded,
        Some(ch) => {
            let nc = char::from_u32(ch as u32 + 1).unwrap();
            sort_end.push(nc);
            Excluded(sort_end)
        }
    }
}

#[async_trait]
impl IStore for MemStore {
    async fn row_fetch<'a>(&self, select: &Selector<'a>) -> Result<Vec<RowVal>, StorageError> {
        tracing::trace!(select=%select, command="row_fetch");
        let store = self.row.read().or(Err(StorageError::Internal))?;

        match select {
            Selector::Range { shard, sort_begin, sort_end } => {
                Ok(store
                    .get(*shard)
                    .unwrap_or(&BTreeMap::new())
                    .range((Included(sort_begin.to_string()), Excluded(sort_end.to_string())))
                    .map(|(k, v)| v.to_row_val(RowRef::new(shard, k)))
                    .collect::<Vec<_>>())
            },
            Selector::List(rlist) => {
                let mut acc = vec![];
                for row_ref in rlist {
                    let maybe_intval = store.get(&row_ref.uid.shard).map(|v| v.get(&row_ref.uid.sort)).flatten();
                    if let Some(intval) = maybe_intval {
                        acc.push(intval.to_row_val(row_ref.clone()));
                    }
                }
                Ok(acc)
            },
            Selector::Prefix { shard, sort_prefix } => {
                let last_bound = prefix_last_bound(sort_prefix);

                Ok(store
                    .get(*shard)
                    .unwrap_or(&BTreeMap::new())
                    .range((Included(sort_prefix.to_string()), last_bound))
                    .map(|(k, v)| v.to_row_val(RowRef::new(shard, k)))
                    .collect::<Vec<_>>())
            },
            Selector::Single(row_ref) => {
                let intval = store
                        .get(&row_ref.uid.shard)
                        .ok_or(StorageError::NotFound)?
                        .get(&row_ref.uid.sort)
                        .ok_or(StorageError::NotFound)?;
                Ok(vec![intval.to_row_val((*row_ref).clone())])
            }
        }
    }

    async fn row_rm_single(&self, entry: &RowRef) -> Result<(), StorageError> {
        tracing::trace!(entry=%entry, command="row_rm_single");
        let mut store = self.row.write().or(Err(StorageError::Internal))?;
        let shard = &entry.uid.shard;
        let sort = &entry.uid.sort;

        let cauz = match entry.causality.as_ref().map(|v| v.parse::<u64>()) {
            Some(Ok(v)) => v,
            _ => 0,
        };

        let bt = store.entry(shard.to_string()).or_default();
        let intval = bt.entry(sort.to_string()).or_default();

        if cauz == intval.version {
            intval.data.clear();
        }
        intval.data.push(InternalData::Tombstone);
        intval.version += 1;
        intval.change.notify_waiters();

        Ok(())
    }

    async fn row_rm<'a>(&self, select: &Selector<'a>) -> Result<(), StorageError> {
        tracing::trace!(select=%select, command="row_rm");
        //@FIXME not efficient at all...
        let values = self.row_fetch(select).await?;

        for v in values.into_iter() {
            self.row_rm_single(&v.row_ref).await?;
        }
        Ok(())
    }

    async fn row_insert(&self, values: Vec<RowVal>) -> Result<(), StorageError> {
        tracing::trace!(entries=%values.iter().map(|v| v.row_ref.to_string()).collect::<Vec<_>>().join(","), command="row_insert");
        let mut store = self.row.write().or(Err(StorageError::Internal))?;
        for v in values.into_iter() {
            let shard = v.row_ref.uid.shard;
            let sort = v.row_ref.uid.sort;

            let val = match v.value.into_iter().next() {
                Some(Alternative::Value(x)) => x,
                _ => vec![],
            };

            let cauz = match v.row_ref.causality.map(|v| v.parse::<u64>()) {
                Some(Ok(v)) => v,
                _ => 0,
            };

            let bt = store.entry(shard).or_default();
            let intval = bt.entry(sort).or_default();

            if cauz == intval.version {
                intval.data.clear();
            }
            intval.data.push(InternalData::Value(val));
            intval.version += 1;
            intval.change.notify_waiters();
        }
        Ok(())
    }
    async fn row_poll(&self, value: &RowRef) -> Result<RowVal, StorageError> {
        tracing::trace!(entry=%value, command="row_poll");
        let shard = &value.uid.shard;
        let sort = &value.uid.sort;
        let cauz = match value.causality.as_ref().map(|v| v.parse::<u64>()) {
            Some(Ok(v)) => v,
            _ => 0,
        };

        let notify_me = {
            let mut store = self.row.write().or(Err(StorageError::Internal))?;
            let bt = store.entry(shard.to_string()).or_default();
            let intval = bt.entry(sort.to_string()).or_default();

            if intval.version != cauz {
                return Ok(intval.to_row_val(value.clone()));
            }
            intval.change.clone()
        };

        notify_me.notified().await;

        let res = self.row_fetch(&Selector::Single(value)).await?;
        res.into_iter().next().ok_or(StorageError::NotFound)
    }

    async fn blob_fetch(&self, blob_ref: &BlobRef) -> Result<BlobVal, StorageError> {
        tracing::trace!(entry=%blob_ref, command="blob_fetch");
        let store = self.blob.read().or(Err(StorageError::Internal))?;
        store.get(&blob_ref.0).ok_or(StorageError::NotFound).map(|v| v.to_blob_val(blob_ref))
    }
    async fn blob_insert(&self, blob_val: &BlobVal) -> Result<(), StorageError> {
        tracing::trace!(entry=%blob_val.blob_ref, command="blob_insert");
        let mut store = self.blob.write().or(Err(StorageError::Internal))?;
        let entry = store.entry(blob_val.blob_ref.0.clone()).or_default();
        entry.data = blob_val.value.clone();
        entry.metadata = blob_val.meta.clone();
        Ok(())
    }
    async fn blob_copy(&self, src: &BlobRef, dst: &BlobRef) -> Result<(), StorageError> {
        tracing::trace!(src=%src, dst=%dst, command="blob_copy");
        let mut store = self.blob.write().or(Err(StorageError::Internal))?;
        let blob_src = store.entry(src.0.clone()).or_default().clone();
        store.insert(dst.0.clone(), blob_src);
        Ok(())
    }
    async fn blob_list(&self, prefix: &str) -> Result<Vec<BlobRef>, StorageError> {
        tracing::trace!(prefix=prefix, command="blob_list");
        let store = self.blob.read().or(Err(StorageError::Internal))?;
        let last_bound = prefix_last_bound(prefix);
        let blist = store.range((Included(prefix.to_string()), last_bound)).map(|(k, _)| BlobRef(k.to_string())).collect::<Vec<_>>();
        Ok(blist)
    }
    async fn blob_rm(&self, blob_ref: &BlobRef) -> Result<(), StorageError> {
        tracing::trace!(entry=%blob_ref, command="blob_rm");
        let mut store = self.blob.write().or(Err(StorageError::Internal))?;
        store.remove(&blob_ref.0);
        Ok(())
    }
}