feat(sync): decouple the incremental-pull cursor from updated_at via server synced_at (#4678) (#4712)

* feat(sync): decouple the incremental-pull cursor from updated_at (#4678)

`books.updated_at` was overloaded as both the incremental-pull cursor
(`GET /api/sync?since=…` filters `updated_at > since`, devices keep one
global `max(updated_at)` watermark) and the library "date read" sort key.
A server-resolved reading-status merge had to be written with a timestamp
greater than every peer's global cursor to propagate, which forced
`updated_at = now()` and reordered the date-read library by sync-processing
time (the #4677 symptom).

Introduce a server-assigned `synced_at` column on `books`, stamped by a
`BEFORE INSERT OR UPDATE` trigger on every write, used only as the pull
cursor. `updated_at` stays pure client event time used only for sorting.

- Migration 016 + baseline schema: add `synced_at` (NOT NULL DEFAULT now()),
  index `(user_id, synced_at)`, trigger `set_books_synced_at`. Backfill
  `synced_at = updated_at` before creating the trigger so existing devices'
  cursors hand over without a re-sync storm.
- GET: books filters/orders on `synced_at > since` (a delete bumps synced_at,
  so the deleted_at clause is dropped); configs/notes stay on updated_at.
- POST: extract `buildStatusPropagationRow` and drop the `updated_at = now()`
  bump — the trigger advances synced_at so peers re-pull the status change
  while updated_at (the sort key) stays put.
- Client `computeMaxTimestamp` keys on synced_at, falling back to
  updated_at/deleted_at for pre-migration servers and configs/notes.

Backward-compatible: `synced_at >= updated_at` always, so `synced_at > since`
is a strict superset of `updated_at > since` — old web clients and the
koplugin keep working with no data loss (at worst a redundant idempotent
re-pull of rare server-merged rows). The koplugin's shared pull/push cursor
is left untouched; a proper split is a follow-up.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>

* fix(sync): make the books synced_at backfill safe for large live tables (#4678)

The single `UPDATE … WHERE synced_at IS NULL` deadlocked on a 3.8M-row
production `books` table: it rewrites every row in one transaction while the
live /api/sync push path upserts books rows, and the two lock rows in opposite
orders. `ALTER COLUMN … SET NOT NULL` (full-table ACCESS EXCLUSIVE scan) and a
plain CREATE INDEX (write-blocking SHARE lock) compounded it.

Rework migration 016 as an online migration (run via psql, not in a wrapping
transaction):
- backfill in small autocommitted batches via a procedure, using
  FOR UPDATE SKIP LOCKED so it never waits on an app-locked row;
- CREATE INDEX CONCURRENTLY instead of a blocking build;
- install the trigger last (so it can't clobber the updated_at backfill);
- drop the hard SET NOT NULL (the default + trigger + backfill keep the column
  populated and the client falls back to updated_at); a NOT VALID CHECK +
  VALIDATE alternative is included, commented, for operators who want it.

The baseline schema.sql (fresh, empty installs) keeps the simple inline
NOT NULL DEFAULT now() + trigger.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>

---------

Co-authored-by: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
This commit is contained in:
Huang Xin
2026-06-22 03:24:01 +08:00
committed by GitHub
parent a9c0f3d46d
commit 9155ae627c
7 changed files with 275 additions and 15 deletions
@@ -0,0 +1,31 @@
import { describe, expect, it } from 'vitest';
import { computeMaxTimestamp } from '@/hooks/useSync';
import type { BookDataRecord } from '@/types/book';
const iso = (ms: number) => new Date(ms).toISOString();
// Issue #4678: the incremental-pull cursor is decoupled from updated_at. The
// server stamps a `synced_at` on every books write, so the client watermark
// keys on synced_at and ignores updated_at (the client event time / sort key)
// and deleted_at (a delete bumps synced_at too).
describe('computeMaxTimestamp (synced_at pull cursor)', () => {
it('keys on synced_at, ignoring updated_at and deleted_at', () => {
const max = computeMaxTimestamp([
{ synced_at: iso(5000), updated_at: iso(1000), deleted_at: null },
{ synced_at: iso(3000), updated_at: iso(9999), deleted_at: iso(8000) },
] as unknown as BookDataRecord[]);
expect(max).toBe(5000);
});
it('falls back to updated_at/deleted_at when synced_at is absent (old server)', () => {
const max = computeMaxTimestamp([
{ updated_at: iso(1000), deleted_at: iso(4000) },
{ updated_at: iso(2000), deleted_at: null },
] as unknown as BookDataRecord[]);
expect(max).toBe(4000);
});
it('returns 0 for empty input', () => {
expect(computeMaxTimestamp([])).toBe(0);
});
});
@@ -0,0 +1,46 @@
import { describe, expect, it } from 'vitest';
import { buildStatusPropagationRow } from '@/pages/api/sync';
import type { DBBook } from '@/types/records';
const iso = (ms: number) => new Date(ms).toISOString();
// Issue #4678: when the server wins a books row but the client's reading_status
// is newer, the change must still reach every peer. It used to be propagated by
// rewriting `updated_at = now()`, which reordered the date-read library by
// sync-processing time (#4677). Now the `synced_at` trigger advances the pull
// cursor on the write, so the propagation row keeps `updated_at` untouched.
describe('buildStatusPropagationRow', () => {
const serverBook = {
user_id: 'u',
book_hash: 'h',
format: 'EPUB',
title: 'T',
author: 'A',
updated_at: iso(1000),
reading_status: 'reading',
reading_status_updated_at: iso(500),
} as unknown as DBBook;
const fresherStatus = {
reading_status: 'finished',
reading_status_updated_at: iso(2000),
};
it('grafts the fresher status onto the server row', () => {
const row = buildStatusPropagationRow(serverBook, fresherStatus);
expect(row.reading_status).toBe('finished');
expect(row.reading_status_updated_at).toBe(iso(2000));
});
it('leaves updated_at untouched so the date-read sort never jumps to sync time', () => {
const row = buildStatusPropagationRow(serverBook, fresherStatus);
expect(row.updated_at).toBe(serverBook.updated_at);
});
it('preserves the rest of the server row', () => {
const row = buildStatusPropagationRow(serverBook, fresherStatus);
expect(row.book_hash).toBe('h');
expect(row.title).toBe('T');
expect(row.format).toBe('EPUB');
});
});
+13 -5
View File
@@ -20,16 +20,24 @@ const transformsFromDB = {
configs: transformBookConfigFromDB,
};
const computeMaxTimestamp = (records: BookDataRecord[]): number => {
// The incremental-pull watermark. The server stamps a `synced_at` on every
// books write (issue #4678), so it — not updated_at — is the monotonic cursor:
// keying on it lets a server-resolved merge propagate without the date-read
// library jumping to sync-processing time. Rows without synced_at (configs,
// notes, or a pre-migration server) fall back to max(updated_at, deleted_at);
// for books a delete bumps synced_at too, so deleted_at need not be consulted.
export const computeMaxTimestamp = (records: BookDataRecord[]): number => {
let maxTime = 0;
for (const rec of records) {
if (rec.synced_at) {
maxTime = Math.max(maxTime, new Date(rec.synced_at).getTime());
continue;
}
if (rec.updated_at) {
const updatedTime = new Date(rec.updated_at).getTime();
maxTime = Math.max(maxTime, updatedTime);
maxTime = Math.max(maxTime, new Date(rec.updated_at).getTime());
}
if (rec.deleted_at) {
const deletedTime = new Date(rec.deleted_at).getTime();
maxTime = Math.max(maxTime, deletedTime);
maxTime = Math.max(maxTime, new Date(rec.deleted_at).getTime());
}
}
return maxTime;
+39 -10
View File
@@ -73,6 +73,28 @@ export function resolveReadingStatusMerge(
};
}
/**
* Build the row written when the server wins a books row by `updated_at` but
* the client's reading_status is the fresher one: graft the status onto the
* server row and leave everything else — crucially `updated_at` — untouched.
*
* The `books_set_synced_at` trigger stamps `synced_at = now()` on this write,
* so peers re-pull the status change via the synced_at cursor without the
* date-read library (sorted by updated_at) jumping to sync-processing time.
* Previously this rewrote `updated_at = now()` to force propagation, which was
* the #4677 reorder symptom. See issue #4678.
*/
export function buildStatusPropagationRow(
serverBook: DBBook,
status: Pick<DBBook, 'reading_status' | 'reading_status_updated_at'>,
): DBBook {
return {
...serverBook,
reading_status: status.reading_status,
reading_status_updated_at: status.reading_status_updated_at,
};
}
const transformsToDB = {
books: transformBookToDB,
book_notes: transformBookNoteToDB,
@@ -131,6 +153,13 @@ export async function GET(req: NextRequest) {
let offset = 0;
let hasMore = true;
// books keys the pull on the server-assigned `synced_at` cursor, which a
// trigger bumps on every write — including deletes — so a server-resolved
// merge propagates without touching updated_at (the date-read sort key).
// configs/notes have no server-side merge, so they stay on updated_at and
// still need the explicit deleted_at clause. See issue #4678.
const cursorColumn = table === 'books' ? 'synced_at' : 'updated_at';
while (hasMore) {
let query = supabase
.from(table)
@@ -146,8 +175,12 @@ export async function GET(req: NextRequest) {
query = query.eq('meta_hash', metaHashParam);
}
query = query.or(`updated_at.gt.${sinceIso},deleted_at.gt.${sinceIso}`);
query = query.order('updated_at', { ascending: false });
if (cursorColumn === 'synced_at') {
query = query.gt('synced_at', sinceIso);
} else {
query = query.or(`updated_at.gt.${sinceIso},deleted_at.gt.${sinceIso}`);
}
query = query.order(cursorColumn, { ascending: false });
console.log('Querying table:', table, 'since:', sinceIso, 'offset:', offset);
@@ -438,17 +471,13 @@ export async function POST(req: NextRequest) {
);
if (statusChanged) {
// Server wins the row, but the client's status is newer. Write
// server's row with the fresher status and bump updated_at so
// peers re-pull the status change.
// server's row with the fresher status; the books_set_synced_at
// trigger advances synced_at so peers re-pull the change, while
// updated_at (the date-read sort key) stays put. See #4678.
// The runtime DB row carries all DBBook columns; the static type
// of `serverBook` is a narrower intersection so `unknown` is
// required to bridge the gap at this one construction site.
toUpdate.push({
...serverBook,
reading_status: status.reading_status,
reading_status_updated_at: status.reading_status_updated_at,
updated_at: new Date().toISOString(),
} as unknown as DBBook);
toUpdate.push(buildStatusPropagationRow(serverBook as unknown as DBBook, status));
} else {
batchAuthoritativeRecords.push(serverData);
}
+6
View File
@@ -470,6 +470,12 @@ export interface BookDataRecord {
user_id: string;
updated_at: number | null;
deleted_at: number | null;
// Server-assigned incremental-pull cursor, decoupled from updated_at (the
// client event time / sort key). Present on books rows from a server that
// ran migration 016; absent (fall back to updated_at) on older servers and
// on config/note records. Carried over the wire as an ISO-8601 string.
// See issue #4678.
synced_at?: string | null;
// Only book records carry an upload state: a book is indexed in the cloud
// as soon as its metadata syncs, but is unavailable to peers until its file
// blob is uploaded. Absent on config/note records.
+22
View File
@@ -15,6 +15,7 @@ CREATE TABLE public.books (
updated_at timestamp with time zone NULL DEFAULT now(),
deleted_at timestamp with time zone NULL,
uploaded_at timestamp with time zone NULL,
synced_at timestamp with time zone NOT NULL DEFAULT now(),
progress integer[] NULL,
reading_status text NULL,
reading_status_updated_at timestamp with time zone NULL,
@@ -25,6 +26,27 @@ CREATE TABLE public.books (
CONSTRAINT books_user_id_fkey FOREIGN KEY (user_id) REFERENCES auth.users (id) ON DELETE CASCADE
);
-- Server-assigned incremental-pull cursor, decoupled from updated_at (the
-- client event time / sort key). A trigger stamps it on every write so a
-- server-resolved merge propagates without reordering the date-read library.
-- See migration 016_add_books_synced_at.sql (issue #4678).
CREATE INDEX idx_books_user_synced ON public.books (user_id, synced_at);
CREATE OR REPLACE FUNCTION public.set_books_synced_at()
RETURNS trigger
LANGUAGE plpgsql
AS $$
BEGIN
NEW.synced_at := now();
RETURN NEW;
END;
$$;
CREATE TRIGGER books_set_synced_at
BEFORE INSERT OR UPDATE ON public.books
FOR EACH ROW
EXECUTE FUNCTION public.set_books_synced_at();
ALTER TABLE public.books ENABLE ROW LEVEL SECURITY;
CREATE POLICY select_books ON public.books FOR SELECT TO authenticated USING ((SELECT auth.uid()) = user_id);
CREATE POLICY insert_books ON public.books FOR INSERT TO authenticated WITH CHECK ((SELECT auth.uid()) = user_id);
@@ -0,0 +1,118 @@
-- Migration 016: Add a server-assigned `synced_at` cursor to books (issue #4678)
--
-- `books.updated_at` was overloaded as two things with conflicting needs:
-- 1. the incremental-pull cursor (GET /api/sync?since=… filters updated_at >
-- since, and each device keeps a single global max(updated_at) watermark);
-- 2. the library "date read" sort key (wants the client event time).
--
-- A server-resolved merge (e.g. the reading_status field-level LWW in #4634)
-- has to be written with a timestamp greater than every peer's global cursor to
-- propagate, which forced updated_at = now() and reordered the date-read library
-- by sync-processing time (the #4677 symptom).
--
-- Decouple the two: `synced_at` is a monotonic, server-stamped cursor used ONLY
-- by the incremental pull, while `updated_at` stays pure client event time used
-- ONLY for sorting. A BEFORE INSERT/UPDATE trigger forces synced_at = now() on
-- every server write (clients never send it), so a status merge propagates by
-- bumping synced_at without touching updated_at.
--
-- Backfill synced_at = updated_at so existing devices' updated_at-based cursors
-- hand over seamlessly: `synced_at > since` returns the same rows as before
-- (synced_at == updated_at) plus, going forward, server-resolved merges.
--
-- ┌───────────────────────────────────────────────────────────────────────────┐
-- │ RUN ONLINE, NOT INSIDE A TRANSACTION. │
-- │ │
-- │ Apply with psql against a live, large `books` table (millions of rows): │
-- │ psql "$DATABASE_URL" -v ON_ERROR_STOP=1 -f 016_add_books_synced_at.sql │
-- │ │
-- │ Do NOT paste it into a wrapping BEGIN/COMMIT or the Supabase dashboard SQL │
-- │ editor: it uses CREATE INDEX CONCURRENTLY and a CALL into a procedure that │
-- │ COMMITs each backfill batch — both are rejected inside a transaction. │
-- │ │
-- │ A single bulk `UPDATE … WHERE synced_at IS NULL` deadlocks against the │
-- │ live /api/sync upserts (both lock books rows, in opposite orders). The │
-- │ backfill below instead walks the table in small autocommitted batches and │
-- │ uses FOR UPDATE SKIP LOCKED so it never waits on a row the app holds. │
-- └───────────────────────────────────────────────────────────────────────────┘
-- 1. Add the column (nullable, no default → metadata-only, instant) and set the
-- default up front so rows INSERTed during the backfill already get now().
ALTER TABLE public.books
ADD COLUMN IF NOT EXISTS synced_at timestamp with time zone NULL;
ALTER TABLE public.books
ALTER COLUMN synced_at SET DEFAULT now();
-- 2. Backfill in small, individually-committed batches. SKIP LOCKED steps over
-- rows currently locked by a concurrent push (they fall to a later pass), so
-- the backfill never deadlocks with live traffic. The trigger is installed
-- only AFTER this completes, so it can't clobber the updated_at backfill.
CREATE OR REPLACE PROCEDURE public.backfill_books_synced_at(batch_size int DEFAULT 10000)
LANGUAGE plpgsql
AS $$
DECLARE
n int;
BEGIN
LOOP
WITH todo AS (
SELECT ctid
FROM public.books
WHERE synced_at IS NULL
LIMIT batch_size
FOR UPDATE SKIP LOCKED
)
UPDATE public.books b
SET synced_at = COALESCE(b.updated_at, b.created_at, now())
FROM todo
WHERE b.ctid = todo.ctid;
GET DIAGNOSTICS n = ROW_COUNT;
COMMIT;
IF n = 0 THEN
-- A pass updated nothing: either we're done, or the only rows left are
-- momentarily app-locked. Stop when truly none remain, else briefly wait.
EXIT WHEN NOT EXISTS (SELECT 1 FROM public.books WHERE synced_at IS NULL);
PERFORM pg_sleep(0.1);
END IF;
END LOOP;
END;
$$;
CALL public.backfill_books_synced_at(10000);
DROP PROCEDURE public.backfill_books_synced_at(int);
-- 3. Index the cursor without blocking writes (CONCURRENTLY → no SHARE lock).
CREATE INDEX CONCURRENTLY IF NOT EXISTS idx_books_user_synced
ON public.books (user_id, synced_at);
-- 4. Install the trigger LAST, so from here every write is server-stamped.
CREATE OR REPLACE FUNCTION public.set_books_synced_at()
RETURNS trigger
LANGUAGE plpgsql
AS $$
BEGIN
-- Server-authoritative: ignore any client-supplied value and stamp the
-- transaction time. transaction_timestamp() (= now()) is stable within a
-- batch upsert, which is fine — a batch is a single pull delta.
NEW.synced_at := now();
RETURN NEW;
END;
$$;
DROP TRIGGER IF EXISTS books_set_synced_at ON public.books;
CREATE TRIGGER books_set_synced_at
BEFORE INSERT OR UPDATE ON public.books
FOR EACH ROW
EXECUTE FUNCTION public.set_books_synced_at();
-- 5. (Optional) Enforce NOT NULL without the full-table ACCESS EXCLUSIVE scan
-- that `ALTER COLUMN … SET NOT NULL` takes. A NOT VALID check skips existing
-- rows; VALIDATE then scans under a lighter SHARE UPDATE EXCLUSIVE lock that
-- still allows concurrent reads and writes. Safe to omit — the default, the
-- trigger and the backfill already keep the column populated, and the client
-- falls back to updated_at when synced_at is absent.
-- ALTER TABLE public.books
-- ADD CONSTRAINT books_synced_at_not_null CHECK (synced_at IS NOT NULL) NOT VALID;
-- ALTER TABLE public.books
-- VALIDATE CONSTRAINT books_synced_at_not_null;