tvl-depot/finito-postgres/src/lib.rs

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//! PostgreSQL-backed persistence for Finito state machines
//!
//! This module implements ... TODO when I can write again.
//!
//! TODO: events & actions should have `SERIAL` keys
#[macro_use] extern crate postgres;
#[macro_use] extern crate postgres_derive;
extern crate chrono;
extern crate finito;
extern crate serde;
extern crate serde_json;
extern crate uuid;
#[cfg(test)] mod tests;
#[cfg(test)] extern crate finito_door;
mod error;
pub use error::{Result, Error};
use chrono::prelude::{DateTime, Utc};
use finito::FSM;
use postgres::GenericConnection;
use postgres::transaction::Transaction;
use serde::Serialize;
use serde::de::DeserializeOwned;
use serde_json::Value;
use std::fmt;
use std::marker::PhantomData;
use uuid::Uuid;
/// This struct represents rows in the database table in which
/// machines (i.e. the current state of a Finito state machine) are
/// persisted.
#[derive(Debug, ToSql, FromSql)]
struct MachineT {
/// ID of the persisted state machine.
id: Uuid,
/// Time at which the FSM was first created.
created: DateTime<Utc>,
/// Name of the type of FSM represented by this state.
fsm: String,
/// Current state of the FSM (TODO: Can the serialised FSM type be
/// used?)
state: Value,
}
/// This struct represents rows in the database table in which events
/// are persisted.
#[derive(Debug, ToSql, FromSql)]
struct EventT {
/// ID of the persisted event.
id: Uuid,
/// Timestamp at which the event was stored.
created: DateTime<Utc>,
/// Name of the type of FSM that this state belongs to.
fsm: String,
/// ID of the state machine belonging to this event.
fsm_id: Uuid,
/// Serialised content of the event.
event: Value,
}
/// This enum represents the possible statuses an action can be in.
#[derive(Debug, PartialEq, ToSql, FromSql)]
#[postgres(name = "actionstatus")]
enum ActionStatus {
/// The action was requested but has not run yet.
Pending,
/// The action completed successfully.
Completed,
/// The action failed to run. Information about the error will
/// have been persisted in Postgres.
Failed,
}
/// This struct represents rows in the database table in which actions
/// are persisted.
#[derive(Debug, ToSql, FromSql)]
struct ActionT {
/// ID of the persisted event.
id: Uuid,
/// Timestamp at which the event was stored.
created: DateTime<Utc>,
/// Name of the type of FSM that this state belongs to.
fsm: String,
/// ID of the state machine belonging to this event.
fsm_id: Uuid,
/// ID of the event that resulted in this action.
event_id: Uuid,
/// Serialised content of the action.
#[postgres(name = "content")] // renamed because 'action' is a keyword in PG
action: Value,
/// Current status of the action.
status: ActionStatus,
/// Detailed (i.e. Debug-trait formatted) error message, if an
/// error occured during action processing.
error: Option<String>,
}
// The following functions implement the public interface of
// `finito-postgres`.
/// This type is used as a type-safe wrapper around the ID of a state
/// machine. It carries information about the FSM type and is intended
/// to add a layer of checking to prevent IDs from being mixed up.
#[derive(Clone)]
pub struct MachineId<S: FSM> {
uuid: Uuid,
phantom: PhantomData<S>,
}
/// Custom debug implementation to format machine IDs using the name
/// of the FSM and their UUID.
impl <S: FSM> fmt::Debug for MachineId<S> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "{}:{}", S::FSM_NAME, self.uuid.hyphenated())
}
}
impl <S: FSM> MachineId<S> {
/// Convert a UUID into a strongly typed machine ID.
pub fn from_uuid(uuid: Uuid) -> Self {
MachineId {
uuid,
phantom: PhantomData,
}
}
/// Return the UUID contained in a machine ID.
pub fn to_uuid(&self) -> Uuid {
self.uuid
}
}
/// Insert a single state-machine into the database and return its
/// newly allocated, random UUID.
pub fn insert_machine<C, S>(conn: &C, initial: S) -> Result<MachineId<S>> where
C: GenericConnection,
S: FSM + Serialize {
let query = r#"
INSERT INTO machines (id, fsm, state)
VALUES ($1, $2, $3)
"#;
let id = Uuid::new_v4();
let fsm = S::FSM_NAME.to_string();
let state = serde_json::to_value(initial).expect("TODO");
conn.execute(query, &[&id, &fsm, &state]).expect("TODO");
return Ok(MachineId::from_uuid(id));
}
/// Insert a single event into the database and return its UUID.
fn insert_event<C, S>(conn: &C,
fsm_id: &MachineId<S>,
event: &S::Event) -> Result<Uuid>
where
C: GenericConnection,
S: FSM,
S::Event: Serialize {
let query = r#"
INSERT INTO events (id, fsm, fsm_id, event)
VALUES ($1, $2, $3, $4)
"#;
let id = Uuid::new_v4();
let fsm = S::FSM_NAME.to_string();
let event_value = serde_json::to_value(event).expect("TODO");
conn.execute(query, &[&id, &fsm, &fsm_id.to_uuid(), &event_value]).expect("TODO");
return Ok(id)
}
/// Insert a single action into the database and return its UUID.
fn insert_action<C, S>(conn: &C,
fsm_id: &MachineId<S>,
event_id: Uuid,
action: &S::Action) -> Result<Uuid> where
C: GenericConnection,
S: FSM,
S::Action: Serialize {
let query = r#"
INSERT INTO actions (id, fsm, fsm_id, event_id, content, status)
VALUES ($1, $2, $3, $4, $5, $6)
"#;
let id = Uuid::new_v4();
let fsm = S::FSM_NAME.to_string();
let action_value = serde_json::to_value(action).expect("TODO");
conn.execute(query, &[&id, &fsm, &fsm_id.to_uuid(), &event_id,
&action_value, &ActionStatus::Pending]).expect("TODO");
return Ok(id)
}
/// Update the state of a specified machine.
fn update_state<C, S>(conn: &C,
fsm_id: &MachineId<S>,
state: &S) -> Result<()> where
C: GenericConnection,
S: FSM + Serialize {
let query = r#"
UPDATE machines SET state = $1 WHERE id = $2
"#;
let state_value = serde_json::to_value(state).expect("TODO");
let res_count = conn.execute(query, &[&state_value, &fsm_id.to_uuid()])
.expect("TODO");
if res_count != 1 {
// TODO: not found error!
unimplemented!()
} else {
Ok(())
}
}
/// Conditionally alter SQL statement to append locking clause inside
/// of a transaction.
fn alter_for_update(alter: bool, query: &str) -> String {
match alter {
false => query.to_string(),
true => format!("{} FOR UPDATE", query),
}
}
/// Retrieve the current state of a state machine from the database,
/// optionally locking the machine state for the duration of some
/// enclosing transaction.
pub fn get_machine<C, S>(conn: &C,
id: &MachineId<S>,
for_update: bool) -> Result<S> where
C: GenericConnection,
S: FSM + DeserializeOwned {
let query = alter_for_update(for_update, r#"
SELECT state FROM machines WHERE id = $1
"#);
let rows = conn.query(&query, &[&id.to_uuid()]).expect("TODO");
if let Some(row) = rows.into_iter().next() {
Ok(serde_json::from_value(row.get(0)).expect("TODO"))
} else {
// TODO: return appropriate not found error
Err(Error::SomeError)
}
}
/// Retrieve an action from the database, optionally locking it for
/// the duration of some enclosing transaction.
fn get_action<C, S>(conn: &C, id: Uuid) -> Result<(ActionStatus, S::Action)> where
C: GenericConnection,
S: FSM,
S::Action: DeserializeOwned {
let query = alter_for_update(true, r#"
SELECT status, content FROM actions
WHERE id = $1 AND fsm = $2
"#);
let rows = conn.query(&query, &[&id, &S::FSM_NAME]).expect("TODO");
if let Some(row) = rows.into_iter().next() {
let action = serde_json::from_value(row.get(1)).expect("TODO");
Ok((row.get(0), action))
} else {
// TODO: return appropriate not found error
Err(Error::SomeError)
}
}
/// Update the status of an action after an attempt to run it.
fn update_action_status<C, S>(conn: &C,
id: Uuid,
status: ActionStatus,
error: Option<String>,
_fsm: PhantomData<S>) -> Result<()> where
C: GenericConnection,
S: FSM {
let query = r#"
UPDATE actions SET status = $1, error = $2
WHERE id = $3 AND fsm = $4
"#;
let result = conn.execute(&query, &[&status, &error, &id, &S::FSM_NAME])
.expect("TODO");
if result != 1 {
// TODO: Fail in the most gruesome way!
unimplemented!()
}
Ok(())
}
/// Advance a persisted state machine by applying an event, and
/// storing the event as well as all resulting actions.
///
/// This function holds a database-lock on the state's row while
/// advancing the machine.
///
/// **Note**: This function returns the new state of the machine
/// immediately after applying the event, however this does not
/// necessarily equate to the state of the machine after all related
/// processing is finished as running actions may result in additional
/// transitions.
pub fn advance<C, S>(conn: &C,
id: &MachineId<S>,
event: S::Event) -> Result<S> where
C: GenericConnection,
S: FSM + Serialize + DeserializeOwned,
S::Event: Serialize,
S::Action: Serialize + DeserializeOwned {
let tx = conn.transaction().expect("TODO");
let state = get_machine(&tx, id, true)?;
// Advancing the FSM consumes the event, so it is persisted first:
let event_id = insert_event(&tx, id, &event)?;
// Core advancing logic is run:
let (new_state, actions) = finito::advance(state, event);
// Resulting actions are persisted (TODO: and interpreted)
let mut action_ids = vec![];
for action in actions {
let action_id = insert_action(&tx, id, event_id, &action)?;
action_ids.push(action_id);
}
// And finally the state is updated:
update_state(&tx, id, &new_state).expect("TODO");
tx.commit().expect("TODO");
run_actions(conn, id, action_ids);
Ok(new_state)
}
/// Execute a single action in case it is pending or retryable. Holds
/// a lock on the action's database row while performing the action
/// and writes back the status afterwards.
///
/// Should the execution of an action fail cleanly (i.e. without a
/// panic), the error will be persisted. Should it fail by panicking
/// (which developers should never do explicitly in action
/// interpreters) its status will not be changed.
fn run_action<S>(tx: Transaction, id: Uuid, _fsm: PhantomData<S>)
-> Result<Vec<S::Event>> where
S: FSM,
S::Action: DeserializeOwned {
let (status, action) = get_action::<Transaction, S>(&tx, id)?;
let result = match status {
ActionStatus::Pending => {
match <S as FSM>::act(action) {
// If the action succeeded, update its status to
// completed and return the created events.
Ok(events) => {
update_action_status(
&tx, id, ActionStatus::Completed, None, PhantomData::<S>
)?;
events
},
// If the action failed, persist the debug message and
// return nothing.
Err(err) => {
let msg = Some(format!("{:?}", err));
update_action_status(
&tx, id, ActionStatus::Failed, msg, PhantomData::<S>
)?;
vec![]
},
}
},
_ => {
// TODO: Currently only pending actions are run because
// retryable actions are not yet implemented.
vec![]
},
};
tx.commit().expect("TODO");
Ok(result)
}
/// Execute several actions at the same time, each in a separate
/// thread. Note that actions returning further events, causing
/// further transitions, returning further actions and so on will
/// potentially cause multiple threads to get created.
fn run_actions<C, S>(conn: &C, fsm_id: &MachineId<S>, action_ids: Vec<Uuid>) where
C: GenericConnection,
S: FSM + Serialize + DeserializeOwned,
S::Event: Serialize,
S::Action: Serialize + DeserializeOwned {
for action_id in action_ids {
let tx = conn.transaction().expect("TODO");
// TODO: Determine which concurrency setup we actually want.
if let Ok(events) = run_action(tx, action_id, PhantomData::<S>) {
for event in events {
advance(conn, fsm_id, event).expect("TODO");
}
}
}
}