use anyhow::{bail, Context, Result};
use rusqlite::Connection;
use crate::model::{
dedupe_text_fragments, html_to_text_lossy, is_searchable_text_fragment, normalise_whitespace,
rtf_to_text_lossy, truncate_chars, ClipboardKind,
};
use super::core::{collect_rows, row_enum};
use super::types::*;
pub(in crate::db) fn prepare_schema(conn: &mut Connection) -> Result<()> {
let tx = conn
.transaction_with_behavior(rusqlite::TransactionBehavior::Immediate)
.context("begin schema transaction")?;
tx.execute_batch(SCHEMA).context("apply database schema")?;
let user_version: i64 = tx
.query_row("PRAGMA user_version", [], |row| row.get(0))
.context("read PRAGMA user_version")?;
match user_version {
0 => {
tx.execute(
"INSERT INTO snapshots_fts(snapshots_fts) VALUES ('rebuild')",
[],
)
.context("rebuild FTS5 index")?;
rebuild_snapshot_stats(&tx)?;
rebuild_snapshot_projection_cache(&tx)?;
rebuild_snapshot_event_filter_cache(&tx)?;
rebuild_snapshot_literal_cache(&tx)?;
rebuild_snapshot_file_url_fts(&tx)?;
ensure_api_key_filter_setting_column(&tx)?;
tx.pragma_update(None, "user_version", CURRENT_SCHEMA_VERSION)
.context("set PRAGMA user_version")?;
}
1 => {
if legacy_prerelease_schema_detected(&tx)? {
bail!(
"database at the current user_version uses an incompatible prerelease schema; move it aside and run `clipmem setup` to initialize a fresh archive"
);
}
rebuild_snapshot_stats(&tx)?;
rebuild_snapshot_projection_cache(&tx)?;
rebuild_snapshot_event_filter_cache(&tx)?;
rebuild_snapshot_literal_cache(&tx)?;
rebuild_snapshot_file_url_fts(&tx)?;
ensure_api_key_filter_setting_column(&tx)?;
tx.pragma_update(None, "user_version", CURRENT_SCHEMA_VERSION)
.context("set PRAGMA user_version")?;
}
2 => {
if legacy_prerelease_schema_detected(&tx)? {
bail!(
"database at the current user_version uses an incompatible prerelease schema; move it aside and run `clipmem setup` to initialize a fresh archive"
);
}
rebuild_snapshot_projection_cache(&tx)?;
rebuild_snapshot_event_filter_cache(&tx)?;
rebuild_snapshot_literal_cache(&tx)?;
rebuild_snapshot_file_url_fts(&tx)?;
ensure_api_key_filter_setting_column(&tx)?;
tx.pragma_update(None, "user_version", CURRENT_SCHEMA_VERSION)
.context("set PRAGMA user_version")?;
}
3 => {
if legacy_prerelease_schema_detected(&tx)? {
bail!(
"database at the current user_version uses an incompatible prerelease schema; move it aside and run `clipmem setup` to initialize a fresh archive"
);
}
rebuild_snapshot_event_filter_cache(&tx)?;
rebuild_snapshot_literal_cache(&tx)?;
rebuild_snapshot_file_url_fts(&tx)?;
ensure_api_key_filter_setting_column(&tx)?;
tx.pragma_update(None, "user_version", CURRENT_SCHEMA_VERSION)
.context("set PRAGMA user_version")?;
}
4 => {
if legacy_prerelease_schema_detected(&tx)? {
bail!(
"database at the current user_version uses an incompatible prerelease schema; move it aside and run `clipmem setup` to initialize a fresh archive"
);
}
rebuild_snapshot_literal_cache(&tx)?;
rebuild_snapshot_file_url_fts(&tx)?;
ensure_api_key_filter_setting_column(&tx)?;
tx.pragma_update(None, "user_version", CURRENT_SCHEMA_VERSION)
.context("set PRAGMA user_version")?;
}
5 => {
if legacy_prerelease_schema_detected(&tx)? {
bail!(
"database at the current user_version uses an incompatible prerelease schema; move it aside and run `clipmem setup` to initialize a fresh archive"
);
}
rebuild_snapshot_file_url_fts(&tx)?;
ensure_api_key_filter_setting_column(&tx)?;
tx.pragma_update(None, "user_version", CURRENT_SCHEMA_VERSION)
.context("set PRAGMA user_version")?;
}
6 => {
if legacy_prerelease_schema_detected(&tx)? {
bail!(
"database at the current user_version uses an incompatible prerelease schema; move it aside and run `clipmem setup` to initialize a fresh archive"
);
}
ensure_api_key_filter_setting_column(&tx)?;
tx.pragma_update(None, "user_version", CURRENT_SCHEMA_VERSION)
.context("set PRAGMA user_version")?;
}
7 => {
if legacy_prerelease_schema_detected(&tx)? {
bail!(
"database at the current user_version uses an incompatible prerelease schema; move it aside and run `clipmem setup` to initialize a fresh archive"
);
}
ensure_api_key_filter_setting_column(&tx)?;
tx.pragma_update(None, "user_version", CURRENT_SCHEMA_VERSION)
.context("set PRAGMA user_version")?;
}
8 => {
if legacy_prerelease_schema_detected(&tx)? {
bail!(
"database at the current user_version uses an incompatible prerelease schema; move it aside and run `clipmem setup` to initialize a fresh archive"
);
}
ensure_api_key_filter_setting_column(&tx)?;
rebuild_snapshot_text_from_representations(&tx)?;
rebuild_snapshot_literal_cache(&tx)?;
tx.pragma_update(None, "user_version", CURRENT_SCHEMA_VERSION)
.context("set PRAGMA user_version")?;
}
9 => {
if legacy_prerelease_schema_detected(&tx)? {
bail!(
"database at the current user_version uses an incompatible prerelease schema; move it aside and run `clipmem setup` to initialize a fresh archive"
);
}
ensure_api_key_filter_setting_column(&tx)?;
ensure_ocr_enabled_setting_column(&tx)?;
rebuild_snapshot_text_from_representations(&tx)?;
rebuild_snapshot_literal_cache(&tx)?;
tx.pragma_update(None, "user_version", CURRENT_SCHEMA_VERSION)
.context("set PRAGMA user_version")?;
}
10 => {
if legacy_prerelease_schema_detected(&tx)? {
bail!(
"database at the current user_version uses an incompatible prerelease schema; move it aside and run `clipmem setup` to initialize a fresh archive"
);
}
ensure_image_compression_columns(&tx)?;
tx.pragma_update(None, "user_version", CURRENT_SCHEMA_VERSION)
.context("set PRAGMA user_version")?;
}
11 => {
if legacy_prerelease_schema_detected(&tx)? {
bail!(
"database at the current user_version uses an incompatible prerelease schema; move it aside and run `clipmem setup` to initialize a fresh archive"
);
}
tx.pragma_update(None, "user_version", CURRENT_SCHEMA_VERSION)
.context("set PRAGMA user_version")?;
}
12 => {
if legacy_prerelease_schema_detected(&tx)? {
bail!(
"database at the current user_version uses an incompatible prerelease schema; move it aside and run `clipmem setup` to initialize a fresh archive"
);
}
tx.pragma_update(None, "user_version", CURRENT_SCHEMA_VERSION)
.context("set PRAGMA user_version")?;
}
13..=16 => {
if legacy_prerelease_schema_detected(&tx)? {
bail!(
"database at the current user_version uses an incompatible prerelease schema; move it aside and run `clipmem setup` to initialize a fresh archive"
);
}
tx.pragma_update(None, "user_version", CURRENT_SCHEMA_VERSION)
.context("set PRAGMA user_version")?;
}
CURRENT_SCHEMA_VERSION => {
if legacy_prerelease_schema_detected(&tx)? {
bail!(
"database at the current user_version uses an incompatible prerelease schema; move it aside and run `clipmem setup` to initialize a fresh archive"
);
}
}
version if version > CURRENT_SCHEMA_VERSION => {
bail!(
"database schema version {version} is newer than supported version {CURRENT_SCHEMA_VERSION}"
);
}
version => {
bail!("unsupported database schema version {version}");
}
}
ensure_ocr_enabled_setting_column(&tx)?;
ensure_image_compression_columns(&tx)?;
ensure_image_optimization_queue_index(&tx)?;
ensure_representation_cache_deferred_column(&tx)?;
tx.execute(
"INSERT OR IGNORE INTO clipmem_settings (id, paused, retention_seconds, api_key_filter_enabled, ocr_enabled) VALUES (1, 0, NULL, 0, 0)",
[],
)
.context("seed clipmem settings row")?;
tx.commit().context("commit schema transaction")?;
Ok(())
}
pub(in crate::db) fn ensure_api_key_filter_setting_column(conn: &Connection) -> Result<()> {
let mut stmt = conn
.prepare("PRAGMA table_info(clipmem_settings)")
.context("prepare clipmem_settings table info query")?;
let rows = stmt
.query_map([], |row| row.get::<_, String>(1))
.context("query clipmem_settings columns")?;
let columns = collect_rows(rows).context("collect clipmem_settings columns")?;
if columns
.iter()
.any(|column| column == "api_key_filter_enabled")
{
return Ok(());
}
conn.execute(
"ALTER TABLE clipmem_settings ADD COLUMN api_key_filter_enabled INTEGER NOT NULL DEFAULT 0 CHECK (api_key_filter_enabled IN (0, 1))",
[],
)
.context("add api_key_filter_enabled column")?;
Ok(())
}
pub(in crate::db) fn ensure_ocr_enabled_setting_column(conn: &Connection) -> Result<()> {
let mut stmt = conn
.prepare("PRAGMA table_info(clipmem_settings)")
.context("prepare clipmem_settings table info query")?;
let rows = stmt
.query_map([], |row| row.get::<_, String>(1))
.context("query clipmem_settings columns")?;
let columns = collect_rows(rows).context("collect clipmem_settings columns")?;
if columns.iter().any(|column| column == "ocr_enabled") {
return Ok(());
}
conn.execute(
"ALTER TABLE clipmem_settings ADD COLUMN ocr_enabled INTEGER NOT NULL DEFAULT 0 CHECK (ocr_enabled IN (0, 1))",
[],
)
.context("add ocr_enabled column")?;
Ok(())
}
pub(in crate::db) fn ensure_image_compression_columns(conn: &Connection) -> Result<()> {
let mut stmt = conn
.prepare("PRAGMA table_info(item_representations)")
.context("prepare item_representations table info query")?;
let rows = stmt
.query_map([], |row| row.get::<_, String>(1))
.context("query item_representations columns")?;
let columns = collect_rows(rows).context("collect item_representations columns")?;
let add_column = |name: &str, sql: &str| -> Result<()> {
if columns.iter().any(|column| column == name) {
return Ok(());
}
conn.execute(sql, [])
.with_context(|| format!("add {name} column"))?;
Ok(())
};
add_column(
"image_compression_status",
"ALTER TABLE item_representations ADD COLUMN image_compression_status TEXT NOT NULL DEFAULT 'uncompressed' CHECK (image_compression_status IN ('uncompressed', 'compressed', 'skipped'))",
)?;
add_column(
"image_compression_format",
"ALTER TABLE item_representations ADD COLUMN image_compression_format TEXT",
)?;
add_column(
"image_compressed_at",
"ALTER TABLE item_representations ADD COLUMN image_compressed_at TEXT",
)?;
add_column(
"image_original_byte_len",
"ALTER TABLE item_representations ADD COLUMN image_original_byte_len INTEGER",
)?;
add_column(
"image_original_raw_sha256",
"ALTER TABLE item_representations ADD COLUMN image_original_raw_sha256 TEXT",
)?;
add_column(
"image_compression_reason",
"ALTER TABLE item_representations ADD COLUMN image_compression_reason TEXT",
)?;
Ok(())
}
pub(in crate::db) fn ensure_image_optimization_queue_index(conn: &Connection) -> Result<()> {
conn.execute(
r"
CREATE INDEX IF NOT EXISTS idx_item_representations_image_optimization_queue
ON item_representations(
image_compression_status,
byte_len DESC,
snapshot_id ASC,
item_index ASC,
uti ASC
)
WHERE kind = 'image' AND length(blob_value) > 0
",
[],
)
.context("create image optimization queue index")?;
Ok(())
}
pub(in crate::db) fn ensure_representation_cache_deferred_column(conn: &Connection) -> Result<()> {
let mut stmt = conn
.prepare("PRAGMA table_info(clipmem_settings)")
.context("prepare clipmem_settings table info query")?;
let rows = stmt
.query_map([], |row| row.get::<_, String>(1))
.context("query clipmem_settings columns")?;
let columns = collect_rows(rows).context("collect clipmem_settings columns")?;
if columns
.iter()
.any(|column| column == "representation_cache_deferred")
{
return Ok(());
}
conn.execute(
"ALTER TABLE clipmem_settings ADD COLUMN representation_cache_deferred INTEGER NOT NULL DEFAULT 0 CHECK (representation_cache_deferred IN (0, 1))",
[],
)
.context("add representation_cache_deferred column")?;
Ok(())
}
pub(in crate::db) fn rebuild_snapshot_stats(conn: &Connection) -> Result<()> {
conn.execute("DELETE FROM snapshot_stats", [])
.context("clear snapshot stats")?;
conn.execute_batch(
r"
INSERT INTO snapshot_stats (
snapshot_id,
capture_count,
first_observed_at,
last_observed_at,
last_event_id,
last_frontmost_app_bundle_id,
last_frontmost_app_name
)
SELECT
ce.snapshot_id,
COUNT(*) AS capture_count,
MIN(ce.observed_at) AS first_observed_at,
MAX(ce.observed_at) AS last_observed_at,
(
SELECT latest.id
FROM capture_events latest
WHERE latest.snapshot_id = ce.snapshot_id
ORDER BY latest.observed_at DESC, latest.id DESC
LIMIT 1
) AS last_event_id,
(
SELECT latest.frontmost_app_bundle_id
FROM capture_events latest
WHERE latest.snapshot_id = ce.snapshot_id
ORDER BY latest.observed_at DESC, latest.id DESC
LIMIT 1
) AS last_frontmost_app_bundle_id,
(
SELECT latest.frontmost_app_name
FROM capture_events latest
WHERE latest.snapshot_id = ce.snapshot_id
ORDER BY latest.observed_at DESC, latest.id DESC
LIMIT 1
) AS last_frontmost_app_name
FROM capture_events ce
GROUP BY ce.snapshot_id;
",
)
.context("rebuild snapshot stats")?;
Ok(())
}
pub(in crate::db) fn rebuild_snapshot_projection_cache(conn: &Connection) -> Result<()> {
conn.execute("DELETE FROM snapshot_projection_cache", [])
.context("clear snapshot projection cache")?;
conn.execute_batch(
r"
WITH url_values AS (
SELECT
snapshot_id,
GROUP_CONCAT(text_value, char(31)) AS urls
FROM (
SELECT DISTINCT snapshot_id, text_value
FROM item_representations
WHERE kind = 'url' AND text_value IS NOT NULL AND text_value != ''
ORDER BY text_value
)
GROUP BY snapshot_id
),
file_url_values AS (
SELECT
snapshot_id,
GROUP_CONCAT(text_value, char(31)) AS file_urls
FROM (
SELECT DISTINCT snapshot_id, text_value
FROM item_representations
WHERE kind = 'file_url' AND text_value IS NOT NULL AND text_value != ''
ORDER BY text_value
)
GROUP BY snapshot_id
)
INSERT INTO snapshot_projection_cache (snapshot_id, urls, file_urls)
SELECT
s.id,
COALESCE(uv.urls, ''),
COALESCE(fv.file_urls, '')
FROM snapshots s
LEFT JOIN url_values uv ON uv.snapshot_id = s.id
LEFT JOIN file_url_values fv ON fv.snapshot_id = s.id;
",
)
.context("rebuild snapshot projection cache")?;
Ok(())
}
pub(in crate::db) fn rebuild_snapshot_event_filter_cache(conn: &Connection) -> Result<()> {
conn.execute("DELETE FROM snapshot_event_filter_cache", [])
.context("clear snapshot event filter cache")?;
conn.execute_batch(
r"
INSERT INTO snapshot_event_filter_cache (snapshot_id, app_names_lower, bundle_ids_lower)
SELECT
s.id,
COALESCE((
SELECT GROUP_CONCAT(app_name, char(31))
FROM (
SELECT DISTINCT lower(ce.frontmost_app_name) AS app_name
FROM capture_events ce
WHERE ce.snapshot_id = s.id
AND ce.frontmost_app_name IS NOT NULL
AND ce.frontmost_app_name != ''
ORDER BY app_name
)
), '') AS app_names_lower,
COALESCE((
SELECT GROUP_CONCAT(bundle_id, char(31))
FROM (
SELECT DISTINCT lower(ce.frontmost_app_bundle_id) AS bundle_id
FROM capture_events ce
WHERE ce.snapshot_id = s.id
AND ce.frontmost_app_bundle_id IS NOT NULL
AND ce.frontmost_app_bundle_id != ''
ORDER BY bundle_id
)
), '') AS bundle_ids_lower
FROM snapshots s;
",
)
.context("rebuild snapshot event filter cache")?;
Ok(())
}
#[derive(Debug)]
pub(in crate::db) struct StoredProjectionItem {
item_index: i64,
representations: Vec<StoredProjectionRepresentation>,
}
#[derive(Debug)]
pub(in crate::db) struct StoredProjectionRepresentation {
uti: String,
kind: ClipboardKind,
byte_len: i64,
text_value: Option<String>,
}
pub(in crate::db) fn rebuild_snapshot_text_from_representations(conn: &Connection) -> Result<()> {
let snapshot_ids = {
let mut stmt = conn
.prepare("SELECT id FROM snapshots ORDER BY id ASC")
.context("prepare snapshot ids query")?;
let rows = stmt
.query_map([], |row| row.get::<_, i64>(0))
.context("query snapshot ids")?;
collect_rows(rows).context("collect snapshot ids")?
};
for snapshot_id in snapshot_ids {
let items = load_stored_projection_items(conn, snapshot_id)?;
let mut snapshot_previews = Vec::new();
let mut snapshot_search_fragments = Vec::new();
for item in items {
let search_text = rebuilt_item_search_text(&item.representations);
let preview_text = rebuilt_item_preview_text(&item.representations, &search_text);
conn.execute(
"UPDATE snapshot_items
SET primary_kind = ?1,
primary_uti = ?2,
preview_text = ?3,
search_text = ?4
WHERE snapshot_id = ?5 AND item_index = ?6",
rusqlite::params![
rebuilt_primary_kind(&item.representations).as_str(),
rebuilt_primary_uti(&item.representations),
preview_text,
search_text,
snapshot_id,
item.item_index,
],
)
.with_context(|| {
format!(
"update text projection for snapshot {snapshot_id} item {}",
item.item_index
)
})?;
if !preview_text.trim().is_empty() {
snapshot_previews.push(preview_text);
}
if !search_text.trim().is_empty() {
snapshot_search_fragments.push(search_text);
}
}
let preview_text = if snapshot_previews.is_empty() {
"[empty clipboard]".to_string()
} else {
truncate_chars(&snapshot_previews.join(" | "), 280)
};
let search_text = snapshot_search_fragments.join("\n\n");
conn.execute(
"UPDATE snapshots SET preview_text = ?1, search_text = ?2 WHERE id = ?3",
rusqlite::params![preview_text, search_text, snapshot_id],
)
.with_context(|| format!("update text projection for snapshot {snapshot_id}"))?;
}
Ok(())
}
pub(in crate::db) fn load_stored_projection_items(
conn: &Connection,
snapshot_id: i64,
) -> Result<Vec<StoredProjectionItem>> {
let mut stmt = conn
.prepare(
r"
SELECT item_index, uti, kind, byte_len, text_value
FROM item_representations
WHERE snapshot_id = ?1
ORDER BY item_index ASC, uti ASC
",
)
.context("prepare stored representation projection query")?;
let rows = stmt
.query_map([snapshot_id], |row| {
Ok((
row.get::<_, i64>(0)?,
StoredProjectionRepresentation {
uti: row.get(1)?,
kind: row_enum(row, 2)?,
byte_len: row.get(3)?,
text_value: row.get(4)?,
},
))
})
.context("query stored representation projection rows")?;
let mut items = Vec::<StoredProjectionItem>::new();
for row in rows {
let (item_index, representation) = row?;
if let Some(item) = items
.iter_mut()
.find(|candidate| candidate.item_index == item_index)
{
item.representations.push(representation);
} else {
items.push(StoredProjectionItem {
item_index,
representations: vec![representation],
});
}
}
Ok(items)
}
pub(in crate::db) fn rebuilt_primary_representation(
representations: &[StoredProjectionRepresentation],
) -> Option<&StoredProjectionRepresentation> {
representations.iter().min_by_key(|representation| {
(
representation.kind.priority(),
!representation
.text_value
.as_deref()
.is_some_and(is_searchable_text_fragment),
representation.uti.as_str(),
)
})
}
pub(in crate::db) fn rebuilt_primary_kind(
representations: &[StoredProjectionRepresentation],
) -> ClipboardKind {
rebuilt_primary_representation(representations).map_or(ClipboardKind::Empty, |rep| rep.kind)
}
pub(in crate::db) fn rebuilt_primary_uti(
representations: &[StoredProjectionRepresentation],
) -> Option<&str> {
rebuilt_primary_representation(representations).map(|rep| rep.uti.as_str())
}
pub(in crate::db) fn rebuilt_item_search_text(
representations: &[StoredProjectionRepresentation],
) -> String {
dedupe_text_fragments(
representations
.iter()
.filter_map(rebuilt_search_fragment_for_representation),
)
.join("\n\n")
}
pub(in crate::db) fn rebuilt_search_fragment_for_representation(
representation: &StoredProjectionRepresentation,
) -> Option<String> {
if !representation.kind.is_textual() {
return None;
}
let text = representation.text_value.as_deref()?;
if !is_searchable_text_fragment(text) {
return None;
}
let projected = match representation.kind {
ClipboardKind::Html => html_to_text_lossy(text),
ClipboardKind::Rtf => rtf_to_text_lossy(text),
_ => text.to_string(),
};
let normalized = normalise_whitespace(&projected);
is_searchable_text_fragment(&normalized).then_some(normalized)
}
pub(in crate::db) fn rebuilt_item_preview_text(
representations: &[StoredProjectionRepresentation],
search_text: &str,
) -> String {
if !search_text.is_empty() {
return truncate_chars(&search_text.replace('\n', " "), 200);
}
if let Some(rep) = rebuilt_primary_representation(representations) {
return truncate_chars(
&format!("[{} · {} bytes · {}]", rep.kind, rep.byte_len, rep.uti),
200,
);
}
"[empty clipboard item]".to_string()
}
pub(in crate::db) fn rebuild_snapshot_literal_cache(conn: &Connection) -> Result<()> {
conn.execute("DELETE FROM snapshot_literal_cache", [])
.context("clear snapshot literal cache")?;
conn.execute("DELETE FROM snapshots_literal_fts", [])
.context("clear literal FTS cache")?;
conn.execute_batch(
r"
INSERT INTO snapshot_literal_cache (snapshot_id, haystack)
SELECT
s.id,
lower(
COALESCE(NULLIF(s.preview_text, ''), s.search_text, '') || char(31) ||
COALESCE(s.preview_text, '') || char(31) ||
COALESCE(s.search_text, '') || char(31) ||
COALESCE(sp.urls, '') || char(31) ||
COALESCE(sp.file_urls, '') || char(31) ||
COALESCE(ss.last_frontmost_app_name, '') || char(31) ||
COALESCE(ss.last_frontmost_app_bundle_id, '')
)
FROM snapshots s
LEFT JOIN snapshot_projection_cache sp ON sp.snapshot_id = s.id
LEFT JOIN snapshot_stats ss ON ss.snapshot_id = s.id;
",
)
.context("rebuild snapshot literal cache")?;
Ok(())
}
pub(in crate::db) fn rebuild_snapshot_file_url_fts(conn: &Connection) -> Result<()> {
conn.execute(
"INSERT INTO snapshot_file_url_fts(snapshot_file_url_fts) VALUES ('rebuild')",
[],
)
.context("rebuild snapshot file-url FTS")?;
Ok(())
}
pub(in crate::db) fn legacy_prerelease_schema_detected(conn: &Connection) -> Result<bool> {
let mut stmt = conn
.prepare("PRAGMA table_info(item_representations)")
.context("prepare PRAGMA table_info(item_representations)")?;
let rows = stmt
.query_map([], |row| row.get::<_, String>(1))
.context("read item_representations columns")?;
let columns = collect_rows(rows).context("collect item_representations columns")?;
if columns.is_empty() {
return Ok(false);
}
let has_kind = columns.iter().any(|column| column == "kind");
let has_legacy_marker = LEGACY_PRERELEASE_COLUMNS
.iter()
.any(|legacy| columns.iter().any(|column| column == legacy));
Ok(!has_kind || has_legacy_marker)
}
#[cfg(test)]
pub(crate) fn explain_query_plan(
conn: &Connection,
sql: &str,
params: &[&dyn rusqlite::ToSql],
) -> Result<Vec<String>> {
let explain = format!("EXPLAIN QUERY PLAN {sql}");
let mut stmt = conn
.prepare(&explain)
.context("prepare EXPLAIN QUERY PLAN")?;
let rows = stmt
.query_map(params, |row| row.get::<_, String>(3))
.context("execute EXPLAIN QUERY PLAN")?;
collect_rows(rows).context("collect EXPLAIN QUERY PLAN rows")
}