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sqlite.rs
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sqlite.rs
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// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
use std::borrow::Cow;
use std::path::PathBuf;
use std::pin::Pin;
use std::rc::Rc;
use std::sync::Arc;
use std::time::SystemTime;
use std::time::UNIX_EPOCH;
use async_trait::async_trait;
use deno_core::error::AnyError;
use deno_core::futures::future::poll_fn;
use deno_core::parking_lot::Mutex;
use deno_core::unsync::spawn_blocking;
use deno_core::AsyncRefCell;
use deno_core::AsyncResult;
use deno_core::BufMutView;
use deno_core::ByteString;
use deno_core::Resource;
use rusqlite::params;
use rusqlite::Connection;
use rusqlite::OptionalExtension;
use tokio::io::AsyncReadExt;
use tokio::io::AsyncWrite;
use tokio::io::AsyncWriteExt;
use crate::deserialize_headers;
use crate::get_header;
use crate::serialize_headers;
use crate::vary_header_matches;
use crate::Cache;
use crate::CacheDeleteRequest;
use crate::CacheError;
use crate::CacheMatchRequest;
use crate::CacheMatchResponseMeta;
use crate::CachePutRequest;
#[derive(Clone)]
pub struct SqliteBackedCache {
pub connection: Arc<Mutex<Connection>>,
pub cache_storage_dir: PathBuf,
}
impl SqliteBackedCache {
pub fn new(cache_storage_dir: PathBuf) -> Self {
{
std::fs::create_dir_all(&cache_storage_dir)
.expect("failed to create cache dir");
let path = cache_storage_dir.join("cache_metadata.db");
let connection = rusqlite::Connection::open(&path).unwrap_or_else(|_| {
panic!("failed to open cache db at {}", path.display())
});
// Enable write-ahead-logging mode.
let initial_pragmas = "
-- enable write-ahead-logging mode
PRAGMA journal_mode=WAL;
PRAGMA synchronous=NORMAL;
PRAGMA optimize;
";
connection
.execute_batch(initial_pragmas)
.expect("failed to execute pragmas");
connection
.execute(
"CREATE TABLE IF NOT EXISTS cache_storage (
id INTEGER PRIMARY KEY,
cache_name TEXT NOT NULL UNIQUE
)",
(),
)
.expect("failed to create cache_storage table");
connection
.execute(
"CREATE TABLE IF NOT EXISTS request_response_list (
id INTEGER PRIMARY KEY,
cache_id INTEGER NOT NULL,
request_url TEXT NOT NULL,
request_headers BLOB NOT NULL,
response_headers BLOB NOT NULL,
response_status INTEGER NOT NULL,
response_status_text TEXT,
response_body_key TEXT,
last_inserted_at INTEGER UNSIGNED NOT NULL,
FOREIGN KEY (cache_id) REFERENCES cache_storage(id) ON DELETE CASCADE,
UNIQUE (cache_id, request_url)
)",
(),
)
.expect("failed to create request_response_list table");
SqliteBackedCache {
connection: Arc::new(Mutex::new(connection)),
cache_storage_dir,
}
}
}
}
#[async_trait(?Send)]
impl Cache for SqliteBackedCache {
type CacheMatchResourceType = CacheResponseResource;
/// Open a cache storage. Internally, this creates a row in the
/// sqlite db if the cache doesn't exist and returns the internal id
/// of the cache.
async fn storage_open(&self, cache_name: String) -> Result<i64, CacheError> {
let db = self.connection.clone();
let cache_storage_dir = self.cache_storage_dir.clone();
spawn_blocking(move || {
let db = db.lock();
db.execute(
"INSERT OR IGNORE INTO cache_storage (cache_name) VALUES (?1)",
params![cache_name],
)?;
let cache_id = db.query_row(
"SELECT id FROM cache_storage WHERE cache_name = ?1",
params![cache_name],
|row| {
let id: i64 = row.get(0)?;
Ok(id)
},
)?;
let responses_dir = get_responses_dir(cache_storage_dir, cache_id);
std::fs::create_dir_all(responses_dir)?;
Ok::<i64, CacheError>(cache_id)
})
.await?
}
/// Check if a cache with the provided name exists.
/// Note: this doesn't check the disk, it only checks the sqlite db.
async fn storage_has(&self, cache_name: String) -> Result<bool, CacheError> {
let db = self.connection.clone();
spawn_blocking(move || {
let db = db.lock();
let cache_exists = db.query_row(
"SELECT count(id) FROM cache_storage WHERE cache_name = ?1",
params![cache_name],
|row| {
let count: i64 = row.get(0)?;
Ok(count > 0)
},
)?;
Ok::<bool, CacheError>(cache_exists)
})
.await?
}
/// Delete a cache storage. Internally, this deletes the row in the sqlite db.
async fn storage_delete(
&self,
cache_name: String,
) -> Result<bool, CacheError> {
let db = self.connection.clone();
let cache_storage_dir = self.cache_storage_dir.clone();
spawn_blocking(move || {
let db = db.lock();
let maybe_cache_id = db
.query_row(
"DELETE FROM cache_storage WHERE cache_name = ?1 RETURNING id",
params![cache_name],
|row| {
let id: i64 = row.get(0)?;
Ok(id)
},
)
.optional()?;
if let Some(cache_id) = maybe_cache_id {
let cache_dir = cache_storage_dir.join(cache_id.to_string());
if cache_dir.exists() {
std::fs::remove_dir_all(cache_dir)?;
}
}
Ok::<bool, CacheError>(maybe_cache_id.is_some())
})
.await?
}
async fn put(
&self,
request_response: CachePutRequest,
resource: Option<Rc<dyn Resource>>,
) -> Result<(), CacheError> {
let db = self.connection.clone();
let cache_storage_dir = self.cache_storage_dir.clone();
let now = SystemTime::now()
.duration_since(UNIX_EPOCH)
.expect("SystemTime is before unix epoch");
if let Some(resource) = resource {
let body_key = hash(&format!(
"{}_{}",
&request_response.request_url,
now.as_nanos()
));
let responses_dir =
get_responses_dir(cache_storage_dir, request_response.cache_id);
let response_path = responses_dir.join(&body_key);
let mut file = tokio::fs::File::create(response_path).await?;
let mut buf = BufMutView::new(64 * 1024);
loop {
let (size, buf2) = resource
.clone()
.read_byob(buf)
.await
.map_err(CacheError::Other)?;
if size == 0 {
break;
}
buf = buf2;
// Use poll_write to avoid holding a slice across await points
poll_fn(|cx| Pin::new(&mut file).poll_write(cx, &buf[..size])).await?;
}
file.flush().await?;
file.sync_all().await?;
assert_eq!(
insert_cache_asset(db, request_response, Some(body_key.clone()),)
.await?,
Some(body_key)
);
} else {
assert!(insert_cache_asset(db, request_response, None)
.await?
.is_none());
}
Ok(())
}
async fn r#match(
&self,
request: CacheMatchRequest,
) -> Result<
Option<(CacheMatchResponseMeta, Option<CacheResponseResource>)>,
CacheError,
> {
let db = self.connection.clone();
let cache_storage_dir = self.cache_storage_dir.clone();
let (query_result, request) = spawn_blocking(move || {
let db = db.lock();
let result = db.query_row(
"SELECT response_body_key, response_headers, response_status, response_status_text, request_headers
FROM request_response_list
WHERE cache_id = ?1 AND request_url = ?2",
(request.cache_id, &request.request_url),
|row| {
let response_body_key: Option<String> = row.get(0)?;
let response_headers: Vec<u8> = row.get(1)?;
let response_status: u16 = row.get(2)?;
let response_status_text: String = row.get(3)?;
let request_headers: Vec<u8> = row.get(4)?;
let response_headers: Vec<(ByteString, ByteString)> = deserialize_headers(&response_headers);
let request_headers: Vec<(ByteString, ByteString)> = deserialize_headers(&request_headers);
Ok((CacheMatchResponseMeta {
request_headers,
response_headers,
response_status,
response_status_text},
response_body_key
))
},
);
// Return ownership of request to the caller
result.optional().map(|x| (x, request))
})
.await??;
match query_result {
Some((cache_meta, Some(response_body_key))) => {
// From https://w3c.github.io/ServiceWorker/#request-matches-cached-item-algorithm
// If there's Vary header in the response, ensure all the
// headers of the cached request match the query request.
if let Some(vary_header) =
get_header("vary", &cache_meta.response_headers)
{
if !vary_header_matches(
&vary_header,
&request.request_headers,
&cache_meta.request_headers,
) {
return Ok(None);
}
}
let response_path =
get_responses_dir(cache_storage_dir, request.cache_id)
.join(response_body_key);
let file = match tokio::fs::File::open(response_path).await {
Ok(file) => file,
Err(err) if err.kind() == std::io::ErrorKind::NotFound => {
// Best efforts to delete the old cache item
_ = self
.delete(CacheDeleteRequest {
cache_id: request.cache_id,
request_url: request.request_url,
})
.await;
return Ok(None);
}
Err(err) => return Err(err.into()),
};
Ok(Some((cache_meta, Some(CacheResponseResource::new(file)))))
}
Some((cache_meta, None)) => Ok(Some((cache_meta, None))),
None => Ok(None),
}
}
async fn delete(
&self,
request: CacheDeleteRequest,
) -> Result<bool, CacheError> {
let db = self.connection.clone();
spawn_blocking(move || {
// TODO(@satyarohith): remove the response body from disk if one exists
let db = db.lock();
let rows_effected = db.execute(
"DELETE FROM request_response_list WHERE cache_id = ?1 AND request_url = ?2",
(request.cache_id, &request.request_url),
)?;
Ok::<bool, CacheError>(rows_effected > 0)
})
.await?
}
}
async fn insert_cache_asset(
db: Arc<Mutex<Connection>>,
put: CachePutRequest,
response_body_key: Option<String>,
) -> Result<Option<String>, CacheError> {
spawn_blocking(move || {
let maybe_response_body = {
let db = db.lock();
db.query_row(
"INSERT OR REPLACE INTO request_response_list
(cache_id, request_url, request_headers, response_headers,
response_body_key, response_status, response_status_text, last_inserted_at)
VALUES (?1, ?2, ?3, ?4, ?5, ?6, ?7, ?8)
RETURNING response_body_key",
(
put.cache_id,
put.request_url,
serialize_headers(&put.request_headers),
serialize_headers(&put.response_headers),
response_body_key,
put.response_status,
put.response_status_text,
SystemTime::now().duration_since(UNIX_EPOCH).expect("SystemTime is before unix epoch").as_secs(),
),
|row| {
let response_body_key: Option<String> = row.get(0)?;
Ok(response_body_key)
},
)?
};
Ok::<Option<String>, CacheError>(maybe_response_body)
}).await?
}
#[inline]
fn get_responses_dir(cache_storage_dir: PathBuf, cache_id: i64) -> PathBuf {
cache_storage_dir
.join(cache_id.to_string())
.join("responses")
}
impl deno_core::Resource for SqliteBackedCache {
fn name(&self) -> std::borrow::Cow<str> {
"SqliteBackedCache".into()
}
}
pub struct CacheResponseResource {
file: AsyncRefCell<tokio::fs::File>,
}
impl CacheResponseResource {
fn new(file: tokio::fs::File) -> Self {
Self {
file: AsyncRefCell::new(file),
}
}
async fn read(self: Rc<Self>, data: &mut [u8]) -> Result<usize, AnyError> {
let resource = deno_core::RcRef::map(&self, |r| &r.file);
let mut file = resource.borrow_mut().await;
let nread = file.read(data).await?;
Ok(nread)
}
}
impl Resource for CacheResponseResource {
deno_core::impl_readable_byob!();
fn name(&self) -> Cow<str> {
"CacheResponseResource".into()
}
}
pub fn hash(token: &str) -> String {
use sha2::Digest;
format!("{:x}", sha2::Sha256::digest(token.as_bytes()))
}