use holo_hash::*;
use holochain_sqlite::rusqlite::named_params;
use holochain_types::dht_op::DhtOpType;
use holochain_types::prelude::DhtOpError;
use holochain_types::prelude::Judged;
use holochain_zome_types::*;
use std::fmt::Debug;
use super::*;
#[derive(Debug, Clone)]
pub struct GetEntryDetailsQuery(EntryHash, Option<Arc<AgentPubKey>>);
impl GetEntryDetailsQuery {
pub fn new(hash: EntryHash) -> Self {
Self(hash, None)
}
}
pub struct State {
actions: HashSet<SignedActionHashed>,
rejected_actions: HashSet<SignedActionHashed>,
deletes: HashMap<ActionHash, SignedActionHashed>,
updates: HashSet<SignedActionHashed>,
}
impl Query for GetEntryDetailsQuery {
type Item = Judged<SignedActionHashed>;
type State = State;
type Output = Option<EntryDetails>;
fn query(&self) -> String {
"
SELECT Action.blob AS action_blob, DhtOp.validation_status AS status
FROM DhtOp
JOIN Action On DhtOp.action_hash = Action.hash
WHERE DhtOp.type IN (:create_type, :delete_type, :update_type)
AND DhtOp.basis_hash = :entry_hash
AND DhtOp.when_integrated IS NOT NULL
AND DhtOp.validation_status IS NOT NULL
AND (Action.private_entry = 0 OR Action.private_entry IS NULL OR Action.author = :author)
"
.into()
}
fn params(&self) -> Vec<Params> {
let params = named_params! {
":create_type": DhtOpType::StoreEntry,
":delete_type": DhtOpType::RegisterDeletedEntryAction,
":update_type": DhtOpType::RegisterUpdatedContent,
":entry_hash": self.0,
":author": self.1,
};
params.to_vec()
}
fn as_map(&self) -> Arc<dyn Fn(&Row) -> StateQueryResult<Self::Item>> {
let f = |row: &Row| {
let action =
from_blob::<SignedAction>(row.get(row.as_ref().column_index("action_blob")?)?)?;
let SignedAction(action, signature) = action;
let action = ActionHashed::from_content_sync(action);
let shh = SignedActionHashed::with_presigned(action, signature);
let status = row.get(row.as_ref().column_index("status")?)?;
let r = Judged::new(shh, status);
Ok(r)
};
Arc::new(f)
}
fn as_filter(&self) -> Box<dyn Fn(&QueryData<Self>) -> bool> {
let entry_filter = self.0.clone();
let f = move |action: &QueryData<Self>| {
let action = &action;
match action.action() {
Action::Create(Create { entry_hash, .. })
| Action::Update(Update { entry_hash, .. })
if *entry_hash == entry_filter =>
{
true
}
Action::Update(Update {
original_entry_address,
..
}) => *original_entry_address == entry_filter,
Action::Delete(Delete {
deletes_entry_address,
..
}) => *deletes_entry_address == entry_filter,
_ => false,
}
};
Box::new(f)
}
fn init_fold(&self) -> StateQueryResult<Self::State> {
Ok(State {
actions: Default::default(),
rejected_actions: Default::default(),
deletes: Default::default(),
updates: Default::default(),
})
}
fn fold(&self, mut state: Self::State, item: Self::Item) -> StateQueryResult<Self::State> {
let (shh, validation_status) = item.into();
let add_action = |state: &mut State, shh| match validation_status {
Some(ValidationStatus::Valid) => {
state.actions.insert(shh);
}
Some(ValidationStatus::Rejected) => {
state.rejected_actions.insert(shh);
}
_ => (),
};
match shh.action() {
Action::Create(_) => add_action(&mut state, shh),
Action::Update(update) => {
if update.original_entry_address == self.0 && update.entry_hash == self.0 {
state.updates.insert(shh.clone());
add_action(&mut state, shh);
} else if update.entry_hash == self.0 {
add_action(&mut state, shh);
} else if update.original_entry_address == self.0 {
state.updates.insert(shh.clone());
}
}
Action::Delete(delete) => {
let hash = delete.deletes_address.clone();
state.deletes.insert(hash, shh.clone());
}
_ => {
return Err(StateQueryError::UnexpectedAction(
shh.action().action_type(),
))
}
}
Ok(state)
}
fn render<S>(&self, state: Self::State, stores: S) -> StateQueryResult<Self::Output>
where
S: Store,
{
let action = state
.actions
.iter()
.chain(state.rejected_actions.iter())
.next();
match action {
Some(action) => {
let entry_hash = action
.action()
.entry_hash()
.ok_or_else(|| DhtOpError::ActionWithoutEntry(action.action().clone()))?;
let author = self.1.as_ref().map(|a| a.as_ref());
let details = stores
.get_public_or_authored_entry(entry_hash, author)?
.map(|entry| {
let entry_dht_status = compute_entry_status(&state);
EntryDetails {
entry,
actions: state.actions.into_iter().collect(),
rejected_actions: state.rejected_actions.into_iter().collect(),
deletes: state.deletes.into_values().collect(),
updates: state.updates.into_iter().collect(),
entry_dht_status,
}
});
Ok(details)
}
None => Ok(None),
}
}
}
fn compute_entry_status(state: &State) -> EntryDhtStatus {
let live_actions = state
.actions
.iter()
.filter(|h| !state.deletes.contains_key(h.action_address()))
.count();
if live_actions > 0 {
EntryDhtStatus::Live
} else {
EntryDhtStatus::Dead
}
}
impl PrivateDataQuery for GetEntryDetailsQuery {
type Hash = EntryHash;
fn with_private_data_access(hash: Self::Hash, author: Arc<AgentPubKey>) -> Self {
Self(hash, Some(author))
}
fn without_private_data_access(hash: Self::Hash) -> Self {
Self::new(hash)
}
}