331 lines
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Rust
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mod dump;
pub mod error;
mod store;
use std::collections::{HashMap, HashSet};
use std::path::Path;
use std::sync::Arc;
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use error::{AuthControllerError, Result};
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use maplit::hashset;
use meilisearch_types::index_uid_pattern::IndexUidPattern;
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use meilisearch_types::keys::{Action, CreateApiKey, Key, PatchApiKey};
use meilisearch_types::milli::update::Setting;
use serde::{Deserialize, Serialize};
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pub use store::open_auth_store_env;
use store::{generate_key_as_hexa, HeedAuthStore};
use time::OffsetDateTime;
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use uuid::Uuid;
#[derive(Clone)]
pub struct AuthController {
store: Arc<HeedAuthStore>,
master_key: Option<String>,
}
impl AuthController {
pub fn new(db_path: impl AsRef<Path>, master_key: &Option<String>) -> Result<Self> {
let store = HeedAuthStore::new(db_path)?;
if store.is_empty()? {
generate_default_keys(&store)?;
}
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Ok(Self { store: Arc::new(store), master_key: master_key.clone() })
}
/// Return `Ok(())` if the auth controller is able to access one of its database.
pub fn health(&self) -> Result<()> {
self.store.health()?;
Ok(())
}
/// Return the size of the `AuthController` database in bytes.
pub fn size(&self) -> Result<u64> {
self.store.size()
}
/// Return the used size of the `AuthController` database in bytes.
pub fn used_size(&self) -> Result<u64> {
self.store.used_size()
}
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pub fn create_key(&self, create_key: CreateApiKey) -> Result<Key> {
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match self.store.get_api_key(create_key.uid)? {
Some(_) => Err(AuthControllerError::ApiKeyAlreadyExists(create_key.uid.to_string())),
None => self.store.put_api_key(create_key.to_key()),
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}
}
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pub fn update_key(&self, uid: Uuid, patch: PatchApiKey) -> Result<Key> {
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let mut key = self.get_key(uid)?;
match patch.description {
Setting::NotSet => (),
description => key.description = description.set(),
};
match patch.name {
Setting::NotSet => (),
name => key.name = name.set(),
};
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key.updated_at = OffsetDateTime::now_utc();
self.store.put_api_key(key)
}
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pub fn get_key(&self, uid: Uuid) -> Result<Key> {
self.store
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.get_api_key(uid)?
.ok_or_else(|| AuthControllerError::ApiKeyNotFound(uid.to_string()))
}
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pub fn get_optional_uid_from_encoded_key(&self, encoded_key: &[u8]) -> Result<Option<Uuid>> {
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match &self.master_key {
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Some(master_key) => {
self.store.get_uid_from_encoded_key(encoded_key, master_key.as_bytes())
}
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None => Ok(None),
}
}
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pub fn get_uid_from_encoded_key(&self, encoded_key: &str) -> Result<Uuid> {
self.get_optional_uid_from_encoded_key(encoded_key.as_bytes())?
.ok_or_else(|| AuthControllerError::ApiKeyNotFound(encoded_key.to_string()))
}
pub fn get_key_filters(
&self,
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uid: Uuid,
search_rules: Option<SearchRules>,
) -> Result<AuthFilter> {
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let key = self.get_key(uid)?;
let key_authorized_indexes = SearchRules::Set(key.indexes.into_iter().collect());
let allow_index_creation = self.is_key_authorized(uid, Action::IndexesAdd, None)?;
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Ok(AuthFilter { search_rules, key_authorized_indexes, allow_index_creation })
}
pub fn list_keys(&self) -> Result<Vec<Key>> {
self.store.list_api_keys()
}
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pub fn delete_key(&self, uid: Uuid) -> Result<()> {
if self.store.delete_api_key(uid)? {
Ok(())
} else {
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Err(AuthControllerError::ApiKeyNotFound(uid.to_string()))
}
}
pub fn get_master_key(&self) -> Option<&String> {
self.master_key.as_ref()
}
/// Generate a valid key from a key id using the current master key.
/// Returns None if no master key has been set.
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pub fn generate_key(&self, uid: Uuid) -> Option<String> {
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self.master_key.as_ref().map(|master_key| generate_key_as_hexa(uid, master_key.as_bytes()))
}
/// Check if the provided key is authorized to make a specific action
/// without checking if the key is valid.
pub fn is_key_authorized(
&self,
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uid: Uuid,
action: Action,
index: Option<&str>,
) -> Result<bool> {
match self
.store
// check if the key has access to all indexes.
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.get_expiration_date(uid, action, None)?
.or(match index {
// else check if the key has access to the requested index.
Some(index) => self.store.get_expiration_date(uid, action, Some(index))?,
// or to any index if no index has been requested.
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None => self.store.prefix_first_expiration_date(uid, action)?,
}) {
// check expiration date.
Some(Some(exp)) => Ok(OffsetDateTime::now_utc() < exp),
// no expiration date.
Some(None) => Ok(true),
// action or index forbidden.
None => Ok(false),
}
}
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/// Delete all the keys in the DB.
pub fn raw_delete_all_keys(&mut self) -> Result<()> {
self.store.delete_all_keys()
}
/// Delete all the keys in the DB.
pub fn raw_insert_key(&mut self, key: Key) -> Result<()> {
self.store.put_api_key(key)?;
Ok(())
}
}
pub struct AuthFilter {
search_rules: Option<SearchRules>,
key_authorized_indexes: SearchRules,
allow_index_creation: bool,
}
impl Default for AuthFilter {
fn default() -> Self {
Self {
search_rules: None,
key_authorized_indexes: SearchRules::default(),
allow_index_creation: true,
}
}
}
impl AuthFilter {
#[inline]
pub fn allow_index_creation(&self, index: &str) -> bool {
self.allow_index_creation && self.is_index_authorized(index)
}
pub fn with_allowed_indexes(allowed_indexes: HashSet<IndexUidPattern>) -> Self {
Self {
search_rules: None,
key_authorized_indexes: SearchRules::Set(allowed_indexes),
allow_index_creation: false,
}
}
pub fn all_indexes_authorized(&self) -> bool {
self.key_authorized_indexes.all_indexes_authorized()
&& self
.search_rules
.as_ref()
.map(|search_rules| search_rules.all_indexes_authorized())
.unwrap_or(true)
}
pub fn is_index_authorized(&self, index: &str) -> bool {
self.key_authorized_indexes.is_index_authorized(index)
&& self
.search_rules
.as_ref()
.map(|search_rules| search_rules.is_index_authorized(index))
.unwrap_or(true)
}
pub fn get_index_search_rules(&self, index: &str) -> Option<IndexSearchRules> {
if !self.is_index_authorized(index) {
return None;
}
let search_rules = self.search_rules.as_ref().unwrap_or(&self.key_authorized_indexes);
search_rules.get_index_search_rules(index)
}
}
/// Transparent wrapper around a list of allowed indexes with the search rules to apply for each.
#[derive(Debug, Serialize, Deserialize, Clone)]
#[serde(untagged)]
pub enum SearchRules {
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Set(HashSet<IndexUidPattern>),
Map(HashMap<IndexUidPattern, Option<IndexSearchRules>>),
}
impl Default for SearchRules {
fn default() -> Self {
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Self::Set(hashset! { IndexUidPattern::all() })
}
}
impl SearchRules {
fn is_index_authorized(&self, index: &str) -> bool {
match self {
Self::Set(set) => {
set.contains("*")
|| set.contains(index)
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|| set.iter().any(|pattern| pattern.matches_str(index))
}
Self::Map(map) => {
map.contains_key("*")
|| map.contains_key(index)
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|| map.keys().any(|pattern| pattern.matches_str(index))
}
}
}
fn get_index_search_rules(&self, index: &str) -> Option<IndexSearchRules> {
match self {
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Self::Set(_) => {
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if self.is_index_authorized(index) {
Some(IndexSearchRules::default())
} else {
None
}
}
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Self::Map(map) => {
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// We must take the most retrictive rule of this index uid patterns set of rules.
map.iter()
.filter(|(pattern, _)| pattern.matches_str(index))
.max_by_key(|(pattern, _)| (pattern.is_exact(), pattern.len()))
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.and_then(|(_, rule)| rule.clone())
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}
}
}
fn all_indexes_authorized(&self) -> bool {
match self {
SearchRules::Set(set) => set.contains("*"),
SearchRules::Map(map) => map.contains_key("*"),
}
}
}
impl IntoIterator for SearchRules {
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type Item = (IndexUidPattern, IndexSearchRules);
type IntoIter = Box<dyn Iterator<Item = Self::Item>>;
fn into_iter(self) -> Self::IntoIter {
match self {
Self::Set(array) => {
Box::new(array.into_iter().map(|i| (i, IndexSearchRules::default())))
}
Self::Map(map) => {
Box::new(map.into_iter().map(|(i, isr)| (i, isr.unwrap_or_default())))
}
}
}
}
/// Contains the rules to apply on the top of the search query for a specific index.
///
/// filter: search filter to apply in addition to query filters.
#[derive(Debug, Serialize, Deserialize, Default, Clone)]
pub struct IndexSearchRules {
pub filter: Option<serde_json::Value>,
}
fn generate_default_keys(store: &HeedAuthStore) -> Result<()> {
store.put_api_key(Key::default_admin())?;
store.put_api_key(Key::default_search())?;
Ok(())
}
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pub const MASTER_KEY_MIN_SIZE: usize = 16;
const MASTER_KEY_GEN_SIZE: usize = 32;
pub fn generate_master_key() -> String {
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use base64::Engine;
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use rand::rngs::OsRng;
use rand::RngCore;
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// We need to use a cryptographically-secure source of randomness. That's why we're using the OsRng; https://crates.io/crates/getrandom
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let mut csprng = OsRng;
let mut buf = vec![0; MASTER_KEY_GEN_SIZE];
csprng.fill_bytes(&mut buf);
// let's encode the random bytes to base64 to make them human-readable and not too long.
// We're using the URL_SAFE alphabet that will produce keys without =, / or other unusual characters.
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base64::engine::general_purpose::URL_SAFE_NO_PAD.encode(buf)
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}