fraiseql_wire/stream/json_stream/mod.rs
1//! JSON stream implementation
2
3use crate::protocol::BackendMessage;
4use crate::{Result, WireError};
5use bytes::Bytes;
6use futures::stream::Stream;
7use serde_json::Value;
8use std::pin::Pin;
9use std::sync::atomic::{AtomicU64, AtomicU8, AtomicUsize, Ordering};
10use std::sync::Arc;
11use std::task::{Context, Poll};
12use std::time::Duration;
13use tokio::sync::{mpsc, Mutex, Notify};
14
15// Lightweight state machine constants
16// Used for fast state tracking without full Mutex overhead
17pub const STATE_RUNNING: u8 = 0;
18pub const STATE_PAUSED: u8 = 1;
19pub const STATE_COMPLETED: u8 = 2;
20pub const STATE_FAILED: u8 = 3;
21
22/// Stream state machine
23///
24/// Tracks the current state of the JSON stream.
25/// Streams start in Running state and can transition to Paused
26/// or terminal states (Completed, Failed).
27#[derive(Debug, Clone, Copy, PartialEq, Eq)]
28#[non_exhaustive]
29pub enum StreamState {
30 /// Background task is actively reading from Postgres
31 Running,
32 /// Background task is paused (suspended, connection alive)
33 Paused,
34 /// Query completed normally
35 Completed,
36 /// Query failed with error
37 Failed,
38}
39
40/// Stream statistics snapshot
41///
42/// Provides a read-only view of current stream state without consuming items.
43/// All values are point-in-time measurements.
44#[derive(Debug, Clone)]
45pub struct StreamStats {
46 /// Number of items currently buffered in channel (0-256)
47 pub items_buffered: usize,
48 /// Estimated memory used by buffered items in bytes
49 pub estimated_memory: usize,
50 /// Total rows yielded to consumer so far
51 pub total_rows_yielded: u64,
52 /// Total rows filtered out by Rust predicates
53 pub total_rows_filtered: u64,
54}
55
56impl StreamStats {
57 /// Create zero-valued stats
58 ///
59 /// Useful for testing and initialization.
60 #[must_use]
61 pub const fn zero() -> Self {
62 Self {
63 items_buffered: 0,
64 estimated_memory: 0,
65 total_rows_yielded: 0,
66 total_rows_filtered: 0,
67 }
68 }
69}
70
71/// JSON value stream
72pub struct JsonStream {
73 receiver: mpsc::Receiver<Result<Value>>,
74 _cancel_tx: mpsc::Sender<()>, // Dropped when stream is dropped
75 entity: String, // Entity name for metrics
76 rows_yielded: Arc<AtomicU64>, // Counter of items yielded to consumer
77 rows_filtered: Arc<AtomicU64>, // Counter of items filtered
78 max_memory: Option<usize>, // Optional memory limit in bytes
79 soft_limit_fail_threshold: Option<f32>, // Fail at threshold % (0.0-1.0)
80
81 // Lightweight state tracking (cheap AtomicU8)
82 // Used for fast state checks on all queries
83 // Values: 0=Running, 1=Paused, 2=Complete, 3=Error
84 state_atomic: Arc<AtomicU8>,
85
86 // Pause/resume state machine, eagerly allocated (audit H43)
87 pause_resume: PauseResumeState,
88
89 // Sampling counter for metrics recording (sample 1 in N polls)
90 poll_count: AtomicU64, // Counter for sampling metrics
91}
92
93/// Pause/resume state, eagerly allocated in [`JsonStream::new`].
94///
95/// Every handle here is an `Arc` so the same instances can be cloned to the
96/// background reader at spawn time *and* retained by the stream. The previous
97/// design allocated this lazily on the first `pause()` call — but by then the
98/// reader had already captured `None` clones, so pause/resume never reached it
99/// and the pause-timeout/occupancy metrics were permanently dead (audit H43).
100pub struct PauseResumeState {
101 state: Arc<Mutex<StreamState>>, // Current stream state
102 resume_signal: Arc<Notify>, // Wakes the reader when resumed
103 paused_occupancy: Arc<AtomicUsize>, // Buffered rows captured at pause time
104 pause_timeout_ms: Arc<AtomicU64>, // Auto-resume timeout in ms (0 = none), read live by the reader
105}
106
107impl JsonStream {
108 /// Create new JSON stream
109 pub(crate) fn new(
110 receiver: mpsc::Receiver<Result<Value>>,
111 cancel_tx: mpsc::Sender<()>,
112 entity: String,
113 max_memory: Option<usize>,
114 _soft_limit_warn_threshold: Option<f32>,
115 soft_limit_fail_threshold: Option<f32>,
116 ) -> Self {
117 Self {
118 receiver,
119 _cancel_tx: cancel_tx,
120 entity,
121 rows_yielded: Arc::new(AtomicU64::new(0)),
122 rows_filtered: Arc::new(AtomicU64::new(0)),
123 max_memory,
124 soft_limit_fail_threshold,
125
126 // Initialize lightweight atomic state
127 state_atomic: Arc::new(AtomicU8::new(STATE_RUNNING)),
128
129 // Pause/resume infrastructure is allocated eagerly so the background
130 // reader receives live handles at spawn time (audit H43).
131 pause_resume: PauseResumeState {
132 state: Arc::new(Mutex::new(StreamState::Running)),
133 resume_signal: Arc::new(Notify::new()),
134 paused_occupancy: Arc::new(AtomicUsize::new(0)),
135 pause_timeout_ms: Arc::new(AtomicU64::new(0)),
136 },
137
138 // Initialize sampling counter
139 poll_count: AtomicU64::new(0),
140 }
141 }
142
143 /// Get current stream state
144 ///
145 /// Returns the current state of the stream (Running, Paused, Completed, or Failed).
146 /// This is a synchronous getter that doesn't require awaiting.
147 ///
148 /// Note: This is a best-effort snapshot that may return slightly stale state
149 /// due to the non-blocking nature of atomic reads.
150 pub fn state_snapshot(&self) -> StreamState {
151 // Read from lightweight atomic state (fast path, no locks)
152 match self.state_atomic.load(Ordering::Acquire) {
153 STATE_RUNNING => StreamState::Running,
154 STATE_PAUSED => StreamState::Paused,
155 STATE_COMPLETED => StreamState::Completed,
156 STATE_FAILED => StreamState::Failed,
157 _ => {
158 // Unknown state - fall back to checking if channel is closed
159 if self.receiver.is_closed() {
160 StreamState::Completed
161 } else {
162 StreamState::Running
163 }
164 }
165 }
166 }
167
168 /// Get buffered rows when paused
169 ///
170 /// Returns the number of rows buffered in the channel when the stream was paused.
171 /// Only meaningful when stream is in Paused state.
172 pub fn paused_occupancy(&self) -> usize {
173 self.pause_resume.paused_occupancy.load(Ordering::Relaxed)
174 }
175
176 /// Set timeout for pause (auto-resume after duration)
177 ///
178 /// When a stream is paused, the background task will automatically resume
179 /// after the specified duration expires, even if `resume()` is not called.
180 ///
181 /// # Arguments
182 ///
183 /// * `duration` - How long to stay paused before auto-resuming
184 ///
185 /// # Examples
186 ///
187 /// ```text
188 /// // Requires: a JsonStream instance from execute_query.
189 /// // Note: set_pause_timeout is on JsonStream, not QueryStream.
190 /// // Use FraiseClient::execute_query (internal) to obtain a JsonStream directly.
191 /// use std::time::Duration;
192 /// stream.set_pause_timeout(Duration::from_secs(5));
193 /// stream.pause().await?; // Will auto-resume after 5 seconds
194 /// ```
195 pub fn set_pause_timeout(&mut self, duration: Duration) {
196 // Stored as a shared atomic (ms) so the already-spawned reader picks up
197 // the value live; a zero-millisecond request is clamped to 1 ms so it is
198 // never confused with "no timeout" (audit H43).
199 let ms = u64::try_from(duration.as_millis())
200 .unwrap_or(u64::MAX)
201 .max(1);
202 self.pause_resume
203 .pause_timeout_ms
204 .store(ms, Ordering::Relaxed);
205 tracing::debug!("pause timeout set to {:?}", duration);
206 }
207
208 /// Clear pause timeout (no auto-resume)
209 pub fn clear_pause_timeout(&mut self) {
210 self.pause_resume
211 .pause_timeout_ms
212 .store(0, Ordering::Relaxed);
213 tracing::debug!("pause timeout cleared");
214 }
215
216 /// Pause the stream
217 ///
218 /// Suspends the background task from reading more data from Postgres.
219 /// The connection remains open and can be resumed later.
220 /// Buffered rows are preserved and can be consumed normally.
221 ///
222 /// This method is idempotent: calling `pause()` on an already-paused stream is a no-op.
223 ///
224 /// Returns an error if the stream has already completed or failed.
225 ///
226 /// # Errors
227 ///
228 /// Returns [`WireError::Protocol`] if the stream is in a terminal state (completed or failed).
229 ///
230 /// # Example
231 ///
232 /// ```no_run
233 /// // Requires: live Postgres streaming connection.
234 /// # async fn example(client: fraiseql_wire::FraiseClient) -> fraiseql_wire::Result<()> {
235 /// let mut stream = client.query::<serde_json::Value>("entity").execute().await?;
236 /// stream.pause().await?;
237 /// // Background task stops reading
238 /// // Consumer can still poll for remaining buffered items
239 /// # Ok(())
240 /// # }
241 /// ```
242 pub async fn pause(&mut self) -> Result<()> {
243 let entity = self.entity.clone();
244
245 // Capture the buffered-row count at the moment of pause so
246 // `paused_occupancy()` reflects reality (it was never recorded before —
247 // audit H43).
248 let occupancy = self.receiver.len();
249
250 // Update lightweight atomic state first (fast path)
251 self.state_atomic_set_paused();
252
253 let pr = &self.pause_resume;
254 let mut state = pr.state.lock().await;
255
256 match *state {
257 StreamState::Running => {
258 pr.paused_occupancy.store(occupancy, Ordering::Relaxed);
259 // Update state
260 *state = StreamState::Paused;
261
262 // Record metric
263 crate::metrics::counters::stream_paused(&entity);
264 Ok(())
265 }
266 StreamState::Paused => {
267 // Idempotent: already paused
268 Ok(())
269 }
270 StreamState::Completed | StreamState::Failed => {
271 // Cannot pause a terminal stream
272 Err(WireError::Protocol(
273 "cannot pause a completed or failed stream".to_string(),
274 ))
275 }
276 }
277 }
278
279 /// Resume the stream
280 ///
281 /// Resumes the background task to continue reading data from Postgres.
282 /// Only has an effect if the stream is currently paused.
283 ///
284 /// This method is idempotent: calling `resume()` before `pause()` or on an
285 /// already-running stream is a no-op.
286 ///
287 /// Returns an error if the stream has already completed or failed.
288 ///
289 /// # Errors
290 ///
291 /// Returns [`WireError::Protocol`] if the stream is in a terminal state (completed or failed).
292 ///
293 /// # Example
294 ///
295 /// ```no_run
296 /// // Requires: live Postgres streaming connection.
297 /// # async fn example(client: fraiseql_wire::FraiseClient) -> fraiseql_wire::Result<()> {
298 /// let mut stream = client.query::<serde_json::Value>("entity").execute().await?;
299 /// stream.resume().await?;
300 /// // Background task resumes reading
301 /// // Consumer can poll for more items
302 /// # Ok(())
303 /// # }
304 /// ```
305 pub async fn resume(&mut self) -> Result<()> {
306 // Update lightweight atomic state first (fast path)
307 let current = self.state_atomic_get();
308 let entity = self.entity.clone();
309
310 // Note: Set to RUNNING to reflect resumed state
311 if current == STATE_PAUSED {
312 // Only update atomic if currently paused
313 self.state_atomic.store(STATE_RUNNING, Ordering::Release);
314 }
315
316 let pr = &self.pause_resume;
317 let mut state = pr.state.lock().await;
318
319 match *state {
320 StreamState::Paused => {
321 // Wake the background reader, which is parked on this signal.
322 pr.resume_signal.notify_one();
323 // Update state
324 *state = StreamState::Running;
325
326 // Record metric
327 crate::metrics::counters::stream_resumed(&entity);
328 Ok(())
329 }
330 StreamState::Running => {
331 // Idempotent: already running (or resume before pause)
332 Ok(())
333 }
334 StreamState::Completed | StreamState::Failed => {
335 // Cannot resume a terminal stream
336 Err(WireError::Protocol(
337 "cannot resume a completed or failed stream".to_string(),
338 ))
339 }
340 }
341 }
342
343 /// Pause the stream with a diagnostic reason
344 ///
345 /// Like `pause()`, but logs the provided reason for diagnostic purposes.
346 /// This helps track why streams are being paused (e.g., "backpressure",
347 /// "maintenance", "rate limit").
348 ///
349 /// # Arguments
350 ///
351 /// * `reason` - Optional reason for pausing (logged at debug level)
352 ///
353 /// # Errors
354 ///
355 /// Returns [`WireError::Protocol`] if the stream is in a terminal state (completed or failed).
356 ///
357 /// # Example
358 ///
359 /// ```no_run
360 /// // Requires: live Postgres streaming connection.
361 /// # async fn example(client: fraiseql_wire::FraiseClient) -> fraiseql_wire::Result<()> {
362 /// let mut stream = client.query::<serde_json::Value>("entity").execute().await?;
363 /// stream.pause_with_reason("backpressure: consumer busy").await?;
364 /// # Ok(())
365 /// # }
366 /// ```
367 pub async fn pause_with_reason(&mut self, reason: &str) -> Result<()> {
368 tracing::debug!("pausing stream: {}", reason);
369 self.pause().await
370 }
371
372 /// Clone the shared stream-state handle for the background reader.
373 pub(crate) fn clone_state(&self) -> Arc<Mutex<StreamState>> {
374 Arc::clone(&self.pause_resume.state)
375 }
376
377 /// Clone the resume signal the background reader parks on while paused.
378 pub(crate) fn clone_resume_signal(&self) -> Arc<Notify> {
379 Arc::clone(&self.pause_resume.resume_signal)
380 }
381
382 /// Clone the live pause-timeout handle (ms, 0 = none) for the background reader.
383 pub(crate) fn clone_pause_timeout(&self) -> Arc<AtomicU64> {
384 Arc::clone(&self.pause_resume.pause_timeout_ms)
385 }
386
387 // =========================================================================
388 // Lightweight state machine methods
389 // =========================================================================
390
391 /// Clone atomic state for passing to background task
392 pub(crate) fn clone_state_atomic(&self) -> Arc<AtomicU8> {
393 Arc::clone(&self.state_atomic)
394 }
395
396 /// Get current state from atomic (fast path, no locks)
397 pub(crate) fn state_atomic_get(&self) -> u8 {
398 self.state_atomic.load(Ordering::Acquire)
399 }
400
401 /// Set state to paused using atomic
402 pub(crate) fn state_atomic_set_paused(&self) {
403 self.state_atomic.store(STATE_PAUSED, Ordering::Release);
404 }
405
406 /// Set state to completed using atomic
407 pub(crate) fn state_atomic_set_completed(&self) {
408 self.state_atomic.store(STATE_COMPLETED, Ordering::Release);
409 }
410
411 /// Set state to failed using atomic
412 pub(crate) fn state_atomic_set_failed(&self) {
413 self.state_atomic.store(STATE_FAILED, Ordering::Release);
414 }
415
416 /// Record that one row was filtered out by a downstream Rust predicate.
417 ///
418 /// Called by [`crate::stream::QueryStream`] when its predicate rejects a row,
419 /// so `stats().total_rows_filtered` reflects reality (audit L-wire-stats).
420 pub(crate) fn record_filtered(&self) {
421 self.rows_filtered.fetch_add(1, Ordering::Relaxed);
422 }
423
424 /// Get current stream statistics
425 ///
426 /// Returns a snapshot of stream state without consuming any items.
427 /// This can be called at any time to monitor progress.
428 ///
429 /// # Example
430 ///
431 /// ```no_run
432 /// // Requires: live Postgres streaming connection.
433 /// # async fn example(client: fraiseql_wire::FraiseClient) -> fraiseql_wire::Result<()> {
434 /// let stream = client.query::<serde_json::Value>("entity").execute().await?;
435 /// let stats = stream.stats();
436 /// println!("Buffered: {}, Yielded: {}", stats.items_buffered, stats.total_rows_yielded);
437 /// # Ok(())
438 /// # }
439 /// ```
440 pub fn stats(&self) -> StreamStats {
441 let items_buffered = self.receiver.len();
442 let estimated_memory = items_buffered * 2048; // Conservative: 2KB per item
443 let total_rows_yielded = self.rows_yielded.load(Ordering::Relaxed);
444 let total_rows_filtered = self.rows_filtered.load(Ordering::Relaxed);
445
446 StreamStats {
447 items_buffered,
448 estimated_memory,
449 total_rows_yielded,
450 total_rows_filtered,
451 }
452 }
453}
454
455impl Stream for JsonStream {
456 type Item = Result<Value>;
457
458 fn poll_next(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Option<Self::Item>> {
459 // Sample metrics: record 1 in every 1000 polls to avoid hot path overhead
460 // For 100K rows, this records ~100 times instead of 100K times
461 let poll_idx = self.poll_count.fetch_add(1, Ordering::Relaxed);
462 if poll_idx.is_multiple_of(1000) {
463 let occupancy = self.receiver.len() as u64;
464 crate::metrics::histograms::channel_occupancy(&self.entity, occupancy);
465 crate::metrics::gauges::stream_buffered_items(&self.entity, occupancy as usize);
466 }
467
468 // Check memory limit BEFORE receiving (pre-enqueue strategy)
469 // This stops consuming when buffer reaches limit
470 if let Some(limit) = self.max_memory {
471 let items_buffered = self.receiver.len();
472 let estimated_memory = items_buffered * 2048; // Conservative: 2KB per item
473
474 // Check soft limit thresholds first (warn before fail)
475 if let Some(fail_threshold) = self.soft_limit_fail_threshold {
476 let threshold_bytes = (limit as f32 * fail_threshold) as usize;
477 if estimated_memory > threshold_bytes {
478 // Record metric for memory limit exceeded
479 crate::metrics::counters::memory_limit_exceeded(&self.entity);
480 self.state_atomic_set_failed();
481 return Poll::Ready(Some(Err(WireError::MemoryLimitExceeded {
482 limit,
483 estimated_memory,
484 })));
485 }
486 } else if estimated_memory > limit {
487 // Hard limit (no soft limits configured)
488 crate::metrics::counters::memory_limit_exceeded(&self.entity);
489 self.state_atomic_set_failed();
490 return Poll::Ready(Some(Err(WireError::MemoryLimitExceeded {
491 limit,
492 estimated_memory,
493 })));
494 }
495
496 // Note: Warn threshold would be handled by instrumentation/logging layer
497 // This is for application-level monitoring, not a hard error
498 }
499
500 match self.receiver.poll_recv(cx) {
501 Poll::Ready(Some(Ok(value))) => {
502 // Count rows handed to the consumer so `stats().total_rows_yielded`
503 // is truthful (audit L-wire-stats — it was never incremented).
504 self.rows_yielded.fetch_add(1, Ordering::Relaxed);
505 Poll::Ready(Some(Ok(value)))
506 }
507 Poll::Ready(Some(Err(e))) => {
508 // Stream encountered an error
509 self.state_atomic_set_failed();
510 Poll::Ready(Some(Err(e)))
511 }
512 Poll::Ready(None) => {
513 // Stream completed normally
514 self.state_atomic_set_completed();
515 Poll::Ready(None)
516 }
517 Poll::Pending => Poll::Pending,
518 }
519 }
520}
521
522/// Extract JSON bytes from `DataRow` message
523///
524/// # Errors
525///
526/// Returns [`WireError::Protocol`] if the message is not a `DataRow`, the row does not
527/// have exactly one field, or the field value is null.
528pub fn extract_json_bytes(msg: &BackendMessage) -> Result<Bytes> {
529 match msg {
530 BackendMessage::DataRow(fields) => match fields.as_slice() {
531 [only] => only
532 .clone()
533 .ok_or_else(|| WireError::Protocol("null data field".into())),
534 _ => Err(WireError::Protocol(format!(
535 "expected 1 field, got {}",
536 fields.len()
537 ))),
538 },
539 _ => Err(WireError::Protocol("expected DataRow".into())),
540 }
541}
542
543/// Parse JSON bytes into Value
544///
545/// # Errors
546///
547/// Returns [`WireError`] if the bytes are not valid JSON.
548pub fn parse_json(data: Bytes) -> Result<Value> {
549 let value: Value = serde_json::from_slice(&data)?;
550 Ok(value)
551}
552
553#[cfg(test)]
554mod tests;