spg_sqlx/
connection.rs

1//! v7.16.0 — `sqlx::Connection` for SPG.
2//!
3//! Wraps [`spg_embedded_tokio::AsyncDatabase`]. Single-writer
4//! serialisation is the engine's invariant; every Connection
5//! shares the same underlying database via `Arc<Mutex<…>>` so
6//! `sqlx::Pool<Spg>` is a thin pass-through — the pool's
7//! per-connection slot reuses the same engine, and sqlx's
8//! `min_connections` / `max_connections` knobs just control
9//! how many cheap clones the pool keeps around.
10
11use std::sync::Arc;
12
13use futures_core::future::BoxFuture;
14use futures_core::stream::BoxStream;
15use sqlx_core::HashMap;
16use sqlx_core::connection::Connection;
17use sqlx_core::error::Error;
18use sqlx_core::executor::Executor;
19use sqlx_core::transaction::Transaction;
20
21use spg_embedded::QueryResult as EngineQueryResult;
22use spg_embedded_tokio::AsyncDatabase;
23
24use crate::column::SpgColumn;
25use crate::database::Spg;
26use crate::error::engine_to_sqlx;
27use crate::options::SpgConnectOptions;
28use crate::query_result::SpgQueryResult;
29use crate::row::SpgRow;
30use crate::type_info::SpgTypeInfo;
31
32/// One sqlx connection backed by an in-process SPG.
33#[derive(Debug, Clone)]
34pub struct SpgConnection {
35    pub(crate) inner: AsyncDatabase,
36    pub(crate) tx_depth: usize,
37    pub(crate) pending_rollback: bool,
38}
39
40impl SpgConnection {
41    /// Build a connection from a ready `AsyncDatabase`. Called
42    /// internally by [`SpgConnectOptions::connect`] and by
43    /// [`crate::SpgPool::connect_in_memory`].
44    pub fn new(inner: AsyncDatabase) -> Self {
45        Self {
46            inner,
47            tx_depth: 0,
48            pending_rollback: false,
49        }
50    }
51
52    /// Borrow the underlying `AsyncDatabase`. Lets advanced
53    /// callers reach for the spg-embedded API directly
54    /// (e.g. `read_handle()` for fan-out reads).
55    #[must_use]
56    pub const fn engine(&self) -> &AsyncDatabase {
57        &self.inner
58    }
59}
60
61impl Connection for SpgConnection {
62    type Database = Spg;
63    type Options = SpgConnectOptions;
64
65    fn close(self) -> BoxFuture<'static, Result<(), Error>> {
66        // In-process — dropping the last `AsyncDatabase` clone
67        // releases the engine. Nothing to send.
68        Box::pin(async move { Ok(()) })
69    }
70
71    fn close_hard(self) -> BoxFuture<'static, Result<(), Error>> {
72        Box::pin(async move { Ok(()) })
73    }
74
75    fn ping(&mut self) -> BoxFuture<'_, Result<(), Error>> {
76        // The engine doesn't time-out; a quick no-op query
77        // exercises the lock path.
78        Box::pin(async move {
79            self.inner
80                .execute("SELECT 1")
81                .await
82                .map_err(engine_to_sqlx)?;
83            Ok(())
84        })
85    }
86
87    fn begin(&mut self) -> BoxFuture<'_, Result<Transaction<'_, Self::Database>, Error>>
88    where
89        Self: Sized,
90    {
91        Transaction::begin(self, None)
92    }
93
94    fn shrink_buffers(&mut self) {
95        // No-op — engine doesn't expose per-connection buffers.
96    }
97
98    fn flush(&mut self) -> BoxFuture<'_, Result<(), Error>> {
99        Box::pin(async move { Ok(()) })
100    }
101
102    fn should_flush(&self) -> bool {
103        false
104    }
105}
106
107// v7.16.0 — Executor on &mut SpgConnection. fetch_many returns
108// `Either<QueryResult, Row>` per sqlx-core's stream contract.
109// MVP: execute path only — INSERT/UPDATE/DELETE/DDL go through;
110// SELECT (fetch_many / fetch / fetch_all) needs Decode coverage
111// for the column types, lands in v7.16.x.
112impl<'c> Executor<'c> for &'c mut SpgConnection {
113    type Database = Spg;
114
115    fn fetch_many<'e, 'q: 'e, E>(
116        self,
117        mut query: E,
118    ) -> BoxStream<
119        'e,
120        Result<
121            either::Either<
122                <Self::Database as sqlx_core::database::Database>::QueryResult,
123                crate::SpgRow,
124            >,
125            Error,
126        >,
127    >
128    where
129        'c: 'e,
130        E: 'q + sqlx_core::executor::Execute<'q, Self::Database>,
131    {
132        use futures_util::stream::{self, StreamExt};
133        let sql = query.sql().to_string();
134        let arguments = match query.take_arguments() {
135            Ok(args) => args,
136            Err(e) => {
137                return Box::pin(stream::iter(std::iter::once(Err(Error::Encode(e)))));
138            }
139        };
140        let inner = self.inner.clone();
141        let outcome_fut = async move { run_one(&inner, &sql, arguments).await };
142        Box::pin(stream::once(outcome_fut).flat_map(|outcome| {
143            let items: Vec<Result<either::Either<SpgQueryResult, SpgRow>, Error>> = match outcome {
144                Ok(Outcome::Affected(qr)) => vec![Ok(either::Either::Left(qr))],
145                Ok(Outcome::Rows(rows)) => rows
146                    .into_iter()
147                    .map(|r| Ok(either::Either::Right(r)))
148                    .collect(),
149                Err(e) => vec![Err(e)],
150            };
151            stream::iter(items)
152        }))
153    }
154
155    fn fetch_optional<'e, 'q: 'e, E>(
156        self,
157        mut query: E,
158    ) -> BoxFuture<'e, Result<Option<crate::SpgRow>, Error>>
159    where
160        'c: 'e,
161        E: 'q + sqlx_core::executor::Execute<'q, Self::Database>,
162    {
163        let sql = query.sql().to_string();
164        let arguments = query.take_arguments();
165        let inner = self.inner.clone();
166        Box::pin(async move {
167            let args = arguments.map_err(Error::Encode)?;
168            match run_one(&inner, &sql, args).await? {
169                Outcome::Rows(mut rows) => Ok(rows.drain(..).next()),
170                Outcome::Affected(_) => Ok(None),
171            }
172        })
173    }
174
175    fn prepare_with<'e, 'q: 'e>(
176        self,
177        sql: &'q str,
178        _parameters: &'e [<Self::Database as sqlx_core::database::Database>::TypeInfo],
179    ) -> BoxFuture<
180        'e,
181        Result<<Self::Database as sqlx_core::database::Database>::Statement<'q>, Error>,
182    >
183    where
184        'c: 'e,
185    {
186        let inner = self.inner.clone();
187        let sql_str = sql.to_string();
188        Box::pin(async move {
189            let stmt = inner.prepare(&sql_str).await.map_err(engine_to_sqlx)?;
190            // The AsyncStatement wraps the embedded::Statement
191            // in Arc — pull it out for the sqlx-side handle.
192            // We expose the underlying handle via a tiny adapter
193            // method on AsyncStatement (added on the
194            // spg-embedded-tokio side).
195            let inner_stmt = spg_embedded_tokio::async_statement_inner(&stmt);
196            Ok(crate::SpgStatement {
197                sql: std::borrow::Cow::Owned(sql_str),
198                inner: Some(inner_stmt),
199                columns: std::sync::Arc::new(Vec::new()),
200                by_name: std::sync::Arc::new(sqlx_core::HashMap::new()),
201            })
202        })
203    }
204
205    fn describe<'e, 'q: 'e>(
206        self,
207        _sql: &'q str,
208    ) -> BoxFuture<'e, Result<sqlx_core::describe::Describe<Self::Database>, Error>>
209    where
210        'c: 'e,
211    {
212        Box::pin(async move {
213            Err(Error::Protocol(
214                "describe is v7.17 — compile-time sqlx::query!() macros need offline mode in the meantime".into(),
215            ))
216        })
217    }
218}
219
220/// Outcome of a single dispatch — either rows-affected (DML / DDL)
221/// or a row stream (SELECT). The fetch helpers below convert this
222/// to sqlx's `Either<QueryResult, Row>` stream shape.
223enum Outcome {
224    /// DML / DDL statement returning a rows-affected counter.
225    Affected(SpgQueryResult),
226    /// SELECT result — every row already converted to an
227    /// [`SpgRow`].
228    Rows(Vec<SpgRow>),
229}
230
231async fn run_one(
232    db: &AsyncDatabase,
233    sql: &str,
234    arguments: Option<crate::SpgArguments<'_>>,
235) -> Result<Outcome, Error> {
236    // Single-dispatch: hit the engine once and inspect the
237    // returned QueryResult shape. The prepared path picks up
238    // the bind-final SQL via execute_prepared; the bare path
239    // reuses execute(). Both surface column metadata for SELECT
240    // via the engine's QueryResult::Rows variant directly so we
241    // never double-run a statement.
242    let result: EngineQueryResult = if let Some(args) = arguments {
243        let stmt = db.prepare(sql).await.map_err(engine_to_sqlx)?;
244        db.execute_prepared(&stmt, args.into_engine_values())
245            .await
246            .map_err(engine_to_sqlx)?
247    } else {
248        db.execute(sql).await.map_err(engine_to_sqlx)?
249    };
250    match result {
251        EngineQueryResult::Rows { columns, rows } => {
252            let row_values: Vec<Vec<spg_embedded::Value>> =
253                rows.into_iter().map(|r| r.values).collect();
254            Ok(Outcome::Rows(build_rows(&columns, row_values)))
255        }
256        EngineQueryResult::CommandOk { affected, .. } => Ok(Outcome::Affected(
257            SpgQueryResult::new(u64::try_from(affected).unwrap_or(0)),
258        )),
259        _ => Ok(Outcome::Affected(SpgQueryResult::default())),
260    }
261}
262
263#[allow(dead_code)]
264fn affected_from(qr: &EngineQueryResult) -> u64 {
265    match qr {
266        EngineQueryResult::CommandOk { affected, .. } => u64::try_from(*affected).unwrap_or(0),
267        EngineQueryResult::Rows { rows, .. } => u64::try_from(rows.len()).unwrap_or(0),
268        _ => 0,
269    }
270}
271
272fn build_rows(
273    cols: &[spg_embedded::ColumnSchema],
274    rows: Vec<Vec<spg_embedded::Value>>,
275) -> Vec<SpgRow> {
276    let columns: Arc<Vec<SpgColumn>> = Arc::new(
277        cols.iter()
278            .enumerate()
279            .map(|(i, c)| SpgColumn::new(i, c.name.clone(), SpgTypeInfo::from_data_type(c.ty)))
280            .collect(),
281    );
282    let mut by_name: HashMap<String, usize> = HashMap::new();
283    for (i, c) in cols.iter().enumerate() {
284        by_name.insert(c.name.clone(), i);
285    }
286    let by_name = Arc::new(by_name);
287    rows.into_iter()
288        .map(|values| SpgRow::new(Arc::clone(&columns), Arc::clone(&by_name), values))
289        .collect()
290}
spg_sqlx/connection.rs

spg_sqlx/
connection.rs
