meilisearch/meilisearch-auth/src/store.rs

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use std::borrow::Cow;
use std::cmp::Reverse;
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use std::collections::HashSet;
use std::convert::TryFrom;
use std::convert::TryInto;
use std::fs::create_dir_all;
use std::ops::Deref;
use std::path::Path;
use std::str;
use std::sync::Arc;
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use enum_iterator::IntoEnumIterator;
use hmac::{Hmac, Mac};
use meilisearch_types::star_or::StarOr;
use milli::heed::types::{ByteSlice, DecodeIgnore, SerdeJson};
use milli::heed::{Database, Env, EnvOpenOptions, RwTxn};
use sha2::{Digest, Sha256};
use time::OffsetDateTime;
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use uuid::Uuid;
use super::error::Result;
use super::{Action, Key};
const AUTH_STORE_SIZE: usize = 1_073_741_824; //1GiB
const AUTH_DB_PATH: &str = "auth";
const KEY_DB_NAME: &str = "api-keys";
const KEY_ID_ACTION_INDEX_EXPIRATION_DB_NAME: &str = "keyid-action-index-expiration";
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pub type KeyId = Uuid;
#[derive(Clone)]
pub struct HeedAuthStore {
env: Arc<Env>,
keys: Database<ByteSlice, SerdeJson<Key>>,
action_keyid_index_expiration: Database<KeyIdActionCodec, SerdeJson<Option<OffsetDateTime>>>,
should_close_on_drop: bool,
}
impl Drop for HeedAuthStore {
fn drop(&mut self) {
if self.should_close_on_drop && Arc::strong_count(&self.env) == 1 {
self.env.as_ref().clone().prepare_for_closing();
}
}
}
pub fn open_auth_store_env(path: &Path) -> milli::heed::Result<milli::heed::Env> {
let mut options = EnvOpenOptions::new();
options.map_size(AUTH_STORE_SIZE); // 1GB
options.max_dbs(2);
options.open(path)
}
impl HeedAuthStore {
pub fn new(path: impl AsRef<Path>) -> Result<Self> {
let path = path.as_ref().join(AUTH_DB_PATH);
create_dir_all(&path)?;
let env = Arc::new(open_auth_store_env(path.as_ref())?);
let keys = env.create_database(Some(KEY_DB_NAME))?;
let action_keyid_index_expiration =
env.create_database(Some(KEY_ID_ACTION_INDEX_EXPIRATION_DB_NAME))?;
Ok(Self {
env,
keys,
action_keyid_index_expiration,
should_close_on_drop: true,
})
}
pub fn set_drop_on_close(&mut self, v: bool) {
self.should_close_on_drop = v;
}
pub fn is_empty(&self) -> Result<bool> {
let rtxn = self.env.read_txn()?;
Ok(self.keys.len(&rtxn)? == 0)
}
pub fn put_api_key(&self, key: Key) -> Result<Key> {
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let uid = key.uid;
let mut wtxn = self.env.write_txn()?;
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self.keys.put(&mut wtxn, uid.as_bytes(), &key)?;
// delete key from inverted database before refilling it.
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self.delete_key_from_inverted_db(&mut wtxn, &uid)?;
// create inverted database.
let db = self.action_keyid_index_expiration;
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let mut actions = HashSet::new();
for action in &key.actions {
match action {
Action::All => actions.extend(Action::into_enum_iter()),
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Action::DocumentsAll => {
actions.extend(
[
Action::DocumentsGet,
Action::DocumentsDelete,
Action::DocumentsGet,
]
.iter(),
);
}
Action::IndexesAll => {
actions.extend(
[
Action::IndexesAdd,
Action::IndexesDelete,
Action::IndexesUpdate,
Action::IndexesUpdate,
]
.iter(),
);
}
Action::SettingsAll => {
actions.extend([Action::SettingsGet, Action::SettingsUpdate].iter());
}
Action::DumpsAll => {
actions.insert(Action::DumpsCreate);
}
Action::TasksAll => {
actions.insert(Action::TasksGet);
}
Action::StatsAll => {
actions.insert(Action::StatsGet);
}
other => {
actions.insert(*other);
}
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}
}
let no_index_restriction = key.indexes.contains(&StarOr::Star);
for action in actions {
if no_index_restriction {
// If there is no index restriction we put None.
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db.put(&mut wtxn, &(&uid, &action, None), &key.expires_at)?;
} else {
// else we create a key for each index.
for index in key.indexes.iter() {
db.put(
&mut wtxn,
&(&uid, &action, Some(index.deref().as_bytes())),
&key.expires_at,
)?;
}
}
}
wtxn.commit()?;
Ok(key)
}
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pub fn get_api_key(&self, uid: Uuid) -> Result<Option<Key>> {
let rtxn = self.env.read_txn()?;
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self.keys.get(&rtxn, uid.as_bytes()).map_err(|e| e.into())
}
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pub fn get_uid_from_encoded_key(
&self,
encoded_key: &[u8],
master_key: &[u8],
) -> Result<Option<Uuid>> {
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let rtxn = self.env.read_txn()?;
let uid = self
.keys
.remap_data_type::<DecodeIgnore>()
.iter(&rtxn)?
.filter_map(|res| match res {
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Ok((uid, _))
if generate_key_as_base64(uid, master_key).as_bytes() == encoded_key =>
{
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let (uid, _) = try_split_array_at(uid)?;
Some(Uuid::from_bytes(*uid))
}
_ => None,
})
.next();
Ok(uid)
}
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pub fn delete_api_key(&self, uid: Uuid) -> Result<bool> {
let mut wtxn = self.env.write_txn()?;
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let existing = self.keys.delete(&mut wtxn, uid.as_bytes())?;
self.delete_key_from_inverted_db(&mut wtxn, &uid)?;
wtxn.commit()?;
Ok(existing)
}
pub fn list_api_keys(&self) -> Result<Vec<Key>> {
let mut list = Vec::new();
let rtxn = self.env.read_txn()?;
for result in self.keys.remap_key_type::<DecodeIgnore>().iter(&rtxn)? {
let (_, content) = result?;
list.push(content);
}
list.sort_unstable_by_key(|k| Reverse(k.created_at));
Ok(list)
}
pub fn get_expiration_date(
&self,
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uid: Uuid,
action: Action,
index: Option<&[u8]>,
) -> Result<Option<Option<OffsetDateTime>>> {
let rtxn = self.env.read_txn()?;
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let tuple = (&uid, &action, index);
Ok(self.action_keyid_index_expiration.get(&rtxn, &tuple)?)
}
pub fn prefix_first_expiration_date(
&self,
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uid: Uuid,
action: Action,
) -> Result<Option<Option<OffsetDateTime>>> {
let rtxn = self.env.read_txn()?;
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let tuple = (&uid, &action, None);
let exp = self
.action_keyid_index_expiration
.prefix_iter(&rtxn, &tuple)?
.next()
.transpose()?
.map(|(_, expiration)| expiration);
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Ok(exp)
}
fn delete_key_from_inverted_db(&self, wtxn: &mut RwTxn, key: &KeyId) -> Result<()> {
let mut iter = self
.action_keyid_index_expiration
.remap_types::<ByteSlice, DecodeIgnore>()
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.prefix_iter_mut(wtxn, key.as_bytes())?;
while iter.next().transpose()?.is_some() {
// safety: we don't keep references from inside the LMDB database.
unsafe { iter.del_current()? };
}
Ok(())
}
}
/// Codec allowing to retrieve the expiration date of an action,
/// optionally on a specific index, for a given key.
pub struct KeyIdActionCodec;
impl<'a> milli::heed::BytesDecode<'a> for KeyIdActionCodec {
type DItem = (KeyId, Action, Option<&'a [u8]>);
fn bytes_decode(bytes: &'a [u8]) -> Option<Self::DItem> {
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let (key_id_bytes, action_bytes) = try_split_array_at(bytes)?;
let (action_bytes, index) = match try_split_array_at(action_bytes)? {
(action, []) => (action, None),
(action, index) => (action, Some(index)),
};
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let key_id = Uuid::from_bytes(*key_id_bytes);
let action = Action::from_repr(u8::from_be_bytes(*action_bytes))?;
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Some((key_id, action, index))
}
}
impl<'a> milli::heed::BytesEncode<'a> for KeyIdActionCodec {
type EItem = (&'a KeyId, &'a Action, Option<&'a [u8]>);
fn bytes_encode((key_id, action, index): &Self::EItem) -> Option<Cow<[u8]>> {
let mut bytes = Vec::new();
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bytes.extend_from_slice(key_id.as_bytes());
let action_bytes = u8::to_be_bytes(action.repr());
bytes.extend_from_slice(&action_bytes);
if let Some(index) = index {
bytes.extend_from_slice(index);
}
Some(Cow::Owned(bytes))
}
}
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pub fn generate_key_as_base64(uid: &[u8], master_key: &[u8]) -> String {
let master_key_sha = Sha256::digest(master_key);
let mut mac = Hmac::<Sha256>::new_from_slice(master_key_sha.as_slice()).unwrap();
mac.update(uid);
let result = mac.finalize();
base64::encode_config(result.into_bytes(), base64::URL_SAFE_NO_PAD)
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}
/// Divides one slice into two at an index, returns `None` if mid is out of bounds.
pub fn try_split_at<T>(slice: &[T], mid: usize) -> Option<(&[T], &[T])> {
if mid <= slice.len() {
Some(slice.split_at(mid))
} else {
None
}
}
/// Divides one slice into an array and the tail at an index,
/// returns `None` if `N` is out of bounds.
pub fn try_split_array_at<T, const N: usize>(slice: &[T]) -> Option<(&[T; N], &[T])>
where
[T; N]: for<'a> TryFrom<&'a [T]>,
{
let (head, tail) = try_split_at(slice, N)?;
let head = head.try_into().ok()?;
Some((head, tail))
}