moonfire-nvr/db/auth.rs

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// This file is part of Moonfire NVR, a security camera digital video recorder.
// Copyright (C) 2018 Scott Lamb <slamb@slamb.org>
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// In addition, as a special exception, the copyright holders give
// permission to link the code of portions of this program with the
// OpenSSL library under certain conditions as described in each
// individual source file, and distribute linked combinations including
// the two.
//
// You must obey the GNU General Public License in all respects for all
// of the code used other than OpenSSL. If you modify file(s) with this
// exception, you may extend this exception to your version of the
// file(s), but you are not obligated to do so. If you do not wish to do
// so, delete this exception statement from your version. If you delete
// this exception statement from all source files in the program, then
// also delete it here.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
use log::info;
use base::strutil;
use blake2_rfc::blake2b::blake2b;
use crate::schema::Permissions;
use failure::{Error, bail, format_err};
use fnv::FnvHashMap;
use lazy_static::lazy_static;
use libpasta;
use parking_lot::Mutex;
use protobuf::Message;
use rusqlite::{Connection, Transaction, types::ToSql};
use std::collections::BTreeMap;
use std::fmt;
use std::net::IpAddr;
use std::sync::Arc;
lazy_static! {
static ref PASTA_CONFIG: Mutex<Arc<libpasta::Config>> =
Mutex::new(Arc::new(libpasta::Config::default()));
}
/// For testing only: use a fast but insecure libpasta config.
/// See also <https://github.com/libpasta/libpasta/issues/9>.
/// Call via `testutil::init()`.
pub(crate) fn set_test_config() {
*PASTA_CONFIG.lock() =
Arc::new(libpasta::Config::with_primitive(libpasta::primitives::Bcrypt::new(2)));
}
enum UserFlags {
Disabled = 1,
}
#[derive(Debug)]
pub struct User {
pub id: i32,
pub username: String,
pub flags: i32,
password_hash: Option<String>,
pub password_id: i32,
pub password_failure_count: i64,
pub unix_uid: Option<i32>,
pub permissions: Permissions,
/// True iff this `User` has changed since the last flush.
/// Only a couple things are flushed lazily: `password_failure_count` and (on upgrade to a new
/// algorithm) `password_hash`.
dirty: bool,
}
impl User {
pub fn change(&self) -> UserChange {
UserChange {
id: Some(self.id),
username: self.username.clone(),
flags: self.flags,
set_password_hash: None,
unix_uid: self.unix_uid,
permissions: self.permissions.clone(),
}
}
pub fn has_password(&self) -> bool { self.password_hash.is_some() }
fn disabled(&self) -> bool { (self.flags & UserFlags::Disabled as i32) != 0 }
}
/// A change to a user.
///
/// * an insertion returned via `UserChange::add_user`.
/// * an update returned via `User::change`.
///
/// Apply via `DatabaseGuard::apply_user_change` (which internally calls `auth::State::apply`).
#[derive(Clone, Debug)]
pub struct UserChange {
id: Option<i32>,
pub username: String,
pub flags: i32,
set_password_hash: Option<Option<String>>,
pub unix_uid: Option<i32>,
pub permissions: Permissions,
}
impl UserChange {
pub fn add_user(username: String) -> Self {
UserChange {
id: None,
username,
flags: 0,
set_password_hash: None,
unix_uid: None,
permissions: Permissions::default(),
}
}
pub fn set_password(&mut self, pwd: String) {
let c = Arc::clone(&PASTA_CONFIG.lock());
self.set_password_hash = Some(Some(c.hash_password(&pwd)));
}
pub fn clear_password(&mut self) {
self.set_password_hash = Some(None);
}
pub fn disable(&mut self) {
self.flags |= UserFlags::Disabled as i32;
}
}
#[derive(Clone, Debug, Default)]
pub struct Request {
pub when_sec: Option<i64>,
pub user_agent: Option<Vec<u8>>,
pub addr: Option<IpAddr>,
}
impl Request {
fn addr_buf(&self) -> Option<IpAddrBuf> {
match self.addr {
None => None,
Some(IpAddr::V4(ref a)) => Some(IpAddrBuf::V4(a.octets())),
Some(IpAddr::V6(ref a)) => Some(IpAddrBuf::V6(a.octets())),
}
}
}
enum IpAddrBuf {
V4([u8; 4]),
V6([u8; 16]),
}
impl AsRef<[u8]> for IpAddrBuf {
fn as_ref(&self) -> &[u8] {
match *self {
IpAddrBuf::V4(ref s) => &s[..],
IpAddrBuf::V6(ref s) => &s[..],
}
}
}
pub struct FromSqlIpAddr(Option<IpAddr>);
impl rusqlite::types::FromSql for FromSqlIpAddr {
fn column_result(value: rusqlite::types::ValueRef) -> rusqlite::types::FromSqlResult<Self> {
use rusqlite::types::ValueRef;
match value {
ValueRef::Null => Ok(FromSqlIpAddr(None)),
ValueRef::Blob(ref b) => {
match b.len() {
4 => {
let mut buf = [0u8; 4];
buf.copy_from_slice(b);
Ok(FromSqlIpAddr(Some(buf.into())))
},
16 => {
let mut buf = [0u8; 16];
buf.copy_from_slice(b);
Ok(FromSqlIpAddr(Some(buf.into())))
},
_ => Err(rusqlite::types::FromSqlError::InvalidType),
}
},
_ => Err(rusqlite::types::FromSqlError::InvalidType),
}
}
}
pub enum SessionFlags {
HttpOnly = 1,
Secure = 2,
SameSite = 4,
SameSiteStrict = 8,
}
#[derive(Copy, Clone)]
pub enum RevocationReason {
LoggedOut = 1,
}
#[derive(Debug, Default)]
pub struct Session {
user_id: i32,
flags: i32, // bitmask of SessionFlags enum values
domain: Vec<u8>,
description: Option<String>,
seed: Seed,
creation_password_id: Option<i32>,
creation: Request,
revocation: Request,
revocation_reason: Option<i32>, // see RevocationReason enum
revocation_reason_detail: Option<String>,
pub permissions: Permissions,
last_use: Request,
use_count: i32,
dirty: bool,
}
impl Session {
pub fn csrf(&self) -> SessionHash {
let r = blake2b(24, b"csrf", &self.seed.0[..]);
let mut h = SessionHash([0u8; 24]);
h.0.copy_from_slice(r.as_bytes());
h
}
}
/// A raw session id (not base64-encoded). Sensitive. Never stored in the database.
pub struct RawSessionId([u8; 48]);
impl RawSessionId {
pub fn new() -> Self { RawSessionId([0u8; 48]) }
pub fn decode_base64(input: &[u8]) -> Result<Self, Error> {
let mut s = RawSessionId::new();
let l = ::base64::decode_config_slice(input, ::base64::STANDARD_NO_PAD, &mut s.0[..])?;
if l != 48 {
bail!("session id must be 48 bytes");
}
Ok(s)
}
pub fn hash(&self) -> SessionHash {
let r = blake2b(24, &[], &self.0[..]);
let mut h = SessionHash([0u8; 24]);
h.0.copy_from_slice(r.as_bytes());
h
}
}
impl AsRef<[u8]> for RawSessionId {
fn as_ref(&self) -> &[u8] { &self.0[..] }
}
impl AsMut<[u8]> for RawSessionId {
fn as_mut(&mut self) -> &mut [u8] { &mut self.0[..] }
}
impl fmt::Debug for RawSessionId {
fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
write!(f, "RawSessionId(\"{}\")", &strutil::hex(&self.0[..]))
}
}
/// A Blake2b-256 (48 bytes) of data associated with the session.
/// This is currently used in two ways:
/// * the csrf token is a blake2b drived from the session's seed. This is put into the `sc`
/// cookie.
/// * the 48-byte session id is hashed to be used as a database key.
#[derive(Copy, Clone, Default, PartialEq, Eq, Hash)]
pub struct SessionHash(pub [u8; 24]);
impl SessionHash {
pub fn encode_base64(&self, output: &mut [u8; 32]) {
::base64::encode_config_slice(&self.0, ::base64::STANDARD_NO_PAD, output);
}
pub fn decode_base64(input: &[u8]) -> Result<Self, Error> {
let mut h = SessionHash([0u8; 24]);
let l = ::base64::decode_config_slice(input, ::base64::STANDARD_NO_PAD, &mut h.0[..])?;
if l != 24 {
bail!("session hash must be 24 bytes");
}
Ok(h)
}
}
impl fmt::Debug for SessionHash {
fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
let mut buf = [0; 32];
self.encode_base64(&mut buf);
write!(f, "SessionHash(\"{}\")", ::std::str::from_utf8(&buf[..]).expect("base64 is UTF-8"))
}
}
#[derive(Copy, Clone, Debug, Default)]
struct Seed([u8; 32]);
impl rusqlite::types::FromSql for Seed {
fn column_result(value: rusqlite::types::ValueRef) -> rusqlite::types::FromSqlResult<Self> {
let b = value.as_blob()?;
if b.len() != 32 {
return Err(rusqlite::types::FromSqlError::Other(
Box::new(format_err!("expected a 32-byte seed").compat())));
}
let mut s = Seed::default();
s.0.copy_from_slice(b);
Ok(s)
}
}
pub(crate) struct State {
users_by_id: BTreeMap<i32, User>,
users_by_name: BTreeMap<String, i32>,
/// Some of the sessions stored in the database.
/// Guaranteed to contain all "dirty" sessions (ones with unflushed changes); may contain
/// others.
///
/// TODO: Add eviction of clean sessions. Keep a linked hash set of clean session hashes and
/// evict the oldest when its size exceeds a threshold. Or just evict everything on every flush
/// (and accept more frequent database accesses).
sessions: FnvHashMap<SessionHash, Session>,
}
impl State {
pub fn init(conn: &Connection) -> Result<Self, Error> {
let mut state = State {
users_by_id: BTreeMap::new(),
users_by_name: BTreeMap::new(),
sessions: FnvHashMap::default(),
};
let mut stmt = conn.prepare(r#"
select
id,
username,
flags,
password_hash,
password_id,
password_failure_count,
unix_uid,
permissions
from
user
"#)?;
let mut rows = stmt.query(&[] as &[&dyn ToSql])?;
while let Some(row) = rows.next()? {
let id = row.get(0)?;
let name: String = row.get(1)?;
let mut permissions = Permissions::new();
permissions.merge_from_bytes(row.get_raw_checked(7)?.as_blob()?)?;
state.users_by_id.insert(id, User {
id,
username: name.clone(),
flags: row.get(2)?,
password_hash: row.get(3)?,
password_id: row.get(4)?,
password_failure_count: row.get(5)?,
unix_uid: row.get(6)?,
dirty: false,
permissions,
});
state.users_by_name.insert(name, id);
}
Ok(state)
}
pub fn apply(&mut self, conn: &Connection, change: UserChange) -> Result<&User, Error> {
if let Some(id) = change.id {
self.update_user(conn, id, change)
} else {
self.add_user(conn, change)
}
}
pub fn users_by_id(&self) -> &BTreeMap<i32, User> { &self.users_by_id }
fn update_user(&mut self, conn: &Connection, id: i32, change: UserChange)
-> Result<&User, Error> {
let mut stmt = conn.prepare_cached(r#"
update user
set
username = :username,
password_hash = :password_hash,
password_id = :password_id,
password_failure_count = :password_failure_count,
flags = :flags,
unix_uid = :unix_uid,
permissions = :permissions
where
id = :id
"#)?;
let e = self.users_by_id.entry(id);
let e = match e {
::std::collections::btree_map::Entry::Vacant(_) => panic!("missing uid {}!", id),
::std::collections::btree_map::Entry::Occupied(e) => e,
};
{
let (phash, pid, pcount) = match change.set_password_hash.as_ref() {
None => {
let u = e.get();
(&u.password_hash, u.password_id, u.password_failure_count)
},
Some(h) => (h, e.get().password_id + 1, 0),
};
let permissions = change.permissions.write_to_bytes().expect("proto3->vec is infallible");
stmt.execute_named(&[
(":username", &&change.username[..]),
(":password_hash", phash),
(":password_id", &pid),
(":password_failure_count", &pcount),
(":flags", &change.flags),
(":unix_uid", &change.unix_uid),
(":id", &id),
(":permissions", &permissions),
])?;
}
let u = e.into_mut();
u.username = change.username;
if let Some(h) = change.set_password_hash {
u.password_hash = h;
u.password_id += 1;
u.password_failure_count = 0;
}
u.flags = change.flags;
u.unix_uid = change.unix_uid;
u.permissions = change.permissions;
Ok(u)
}
fn add_user(&mut self, conn: &Connection, change: UserChange) -> Result<&User, Error> {
let mut stmt = conn.prepare_cached(r#"
insert into user (username, password_hash, flags, unix_uid, permissions)
values (:username, :password_hash, :flags, :unix_uid, :permissions)
"#)?;
let password_hash = change.set_password_hash.unwrap_or(None);
let permissions = change.permissions.write_to_bytes().expect("proto3->vec is infallible");
stmt.execute_named(&[
(":username", &&change.username[..]),
(":password_hash", &password_hash),
(":flags", &change.flags),
(":unix_uid", &change.unix_uid),
(":permissions", &permissions),
])?;
let id = conn.last_insert_rowid() as i32;
self.users_by_name.insert(change.username.clone(), id);
let e = self.users_by_id.entry(id);
let e = match e {
::std::collections::btree_map::Entry::Vacant(e) => e,
::std::collections::btree_map::Entry::Occupied(_) => panic!("uid {} conflict!", id),
};
Ok(e.insert(User {
id,
username: change.username,
flags: change.flags,
password_hash,
password_id: 0,
password_failure_count: 0,
unix_uid: change.unix_uid,
dirty: false,
permissions: change.permissions,
}))
}
pub fn delete_user(&mut self, conn: &mut Connection, id: i32) -> Result<(), Error> {
let tx = conn.transaction()?;
tx.execute("delete from user_session where user_id = ?", &[&id])?;
{
let mut user_stmt = tx.prepare_cached("delete from user where id = ?")?;
if user_stmt.execute(&[&id])? != 1 {
bail!("user {} not found", id);
}
}
tx.commit()?;
let name = self.users_by_id.remove(&id).unwrap().username;
self.users_by_name.remove(&name).unwrap();
self.sessions.retain(|_k, ref mut v| v.user_id != id);
Ok(())
}
pub fn login_by_password(&mut self, conn: &Connection, req: Request, username: &str,
password: String, domain: Vec<u8>, session_flags: i32)
-> Result<(RawSessionId, &Session), Error> {
let id = match self.users_by_name.get(username) {
None => bail!("no such user {:?}", username),
Some(&id) => id,
};
let u = self.users_by_id.get_mut(&id).expect("users_by_name implies users_by_id");
if u.disabled() {
bail!("user {:?} is disabled", username);
}
let new_hash = {
let hash = match u.password_hash.as_ref() {
None => bail!("no password set for user {:?}", username),
Some(h) => h,
};
let c = Arc::clone(&PASTA_CONFIG.lock());
match c.verify_password_update_hash(hash, &password) {
libpasta::HashUpdate::Failed => {
u.dirty = true;
u.password_failure_count += 1;
bail!("incorrect password for user {:?}", username);
},
libpasta::HashUpdate::Verified(new_pwd) => new_pwd,
}
};
if let Some(h) = new_hash {
u.password_hash = Some(h);
u.dirty = true;
}
let password_id = u.password_id;
State::make_session(conn, req, u, domain, Some(password_id), session_flags,
&mut self.sessions, u.permissions.clone())
}
fn make_session<'s>(conn: &Connection, creation: Request, user: &mut User, domain: Vec<u8>,
creation_password_id: Option<i32>, flags: i32,
sessions: &'s mut FnvHashMap<SessionHash, Session>,
permissions: Permissions)
-> Result<(RawSessionId, &'s Session), Error> {
let mut session_id = RawSessionId::new();
::openssl::rand::rand_bytes(&mut session_id.0).unwrap();
let mut seed = [0u8; 32];
::openssl::rand::rand_bytes(&mut seed).unwrap();
let hash = session_id.hash();
let mut stmt = conn.prepare_cached(r#"
insert into user_session (session_id_hash, user_id, seed, flags, domain,
creation_password_id, creation_time_sec,
creation_user_agent, creation_peer_addr,
permissions)
values (:session_id_hash, :user_id, :seed, :flags, :domain,
:creation_password_id, :creation_time_sec,
:creation_user_agent, :creation_peer_addr,
:permissions)
"#)?;
let addr = creation.addr_buf();
let addr: Option<&[u8]> = addr.as_ref().map(|a| a.as_ref());
let permissions_blob = permissions.write_to_bytes().expect("proto3->vec is infallible");
stmt.execute_named(&[
(":session_id_hash", &&hash.0[..]),
(":user_id", &user.id),
(":seed", &&seed[..]),
(":flags", &flags),
(":domain", &domain),
(":creation_password_id", &creation_password_id),
(":creation_time_sec", &creation.when_sec),
(":creation_user_agent", &creation.user_agent),
(":creation_peer_addr", &addr),
(":permissions", &permissions_blob),
])?;
let e = match sessions.entry(hash) {
::std::collections::hash_map::Entry::Occupied(_) => panic!("duplicate session hash!"),
::std::collections::hash_map::Entry::Vacant(e) => e,
};
let session = e.insert(Session {
user_id: user.id,
flags,
domain,
creation_password_id,
creation,
seed: Seed(seed),
permissions,
..Default::default()
});
Ok((session_id, session))
}
pub fn authenticate_session(&mut self, conn: &Connection, req: Request, hash: &SessionHash)
-> Result<(&Session, &User), Error> {
let s = match self.sessions.entry(*hash) {
::std::collections::hash_map::Entry::Occupied(e) => e.into_mut(),
::std::collections::hash_map::Entry::Vacant(e) => e.insert(lookup_session(conn, hash)?),
};
let u = match self.users_by_id.get(&s.user_id) {
None => bail!("session references nonexistent user!"),
Some(u) => u,
};
if let Some(r) = s.revocation_reason {
bail!("session is no longer valid (reason={})", r);
}
s.last_use = req;
s.use_count += 1;
s.dirty = true;
if u.disabled() {
bail!("user {:?} is disabled", &u.username);
}
Ok((s, u))
}
pub fn revoke_session(&mut self, conn: &Connection, reason: RevocationReason,
detail: Option<String>, req: Request, hash: &SessionHash)
-> Result<(), Error> {
let s = match self.sessions.entry(*hash) {
::std::collections::hash_map::Entry::Occupied(e) => e.into_mut(),
::std::collections::hash_map::Entry::Vacant(e) => e.insert(lookup_session(conn, hash)?),
};
if s.revocation_reason.is_none() {
let mut stmt = conn.prepare(r#"
update user_session
set
revocation_time_sec = ?,
revocation_user_agent = ?,
revocation_peer_addr = ?,
revocation_reason = ?,
revocation_reason_detail = ?
where
session_id_hash = ?
"#)?;
let addr = req.addr_buf();
let addr: Option<&[u8]> = addr.as_ref().map(|a| a.as_ref());
stmt.execute(&[
&req.when_sec as &dyn ToSql,
&req.user_agent,
&addr,
&(reason as i32),
&detail,
&&hash.0[..],
])?;
s.revocation = req;
s.revocation_reason = Some(reason as i32);
}
Ok(())
}
/// Flushes all pending database changes to the given transaction.
///
/// The caller is expected to call `post_flush` afterward if the transaction is
/// successfully committed.
pub fn flush(&self, tx: &Transaction) -> Result<(), Error> {
let mut u_stmt = tx.prepare(r#"
update user
set
password_failure_count = :password_failure_count,
password_hash = :password_hash
where
id = :id
"#)?;
let mut s_stmt = tx.prepare(r#"
update user_session
set
last_use_time_sec = :last_use_time_sec,
last_use_user_agent = :last_use_user_agent,
last_use_peer_addr = :last_use_peer_addr,
use_count = :use_count
where
session_id_hash = :hash
"#)?;
for (&id, u) in &self.users_by_id {
if !u.dirty {
continue;
}
info!("flushing user with hash: {}", u.password_hash.as_ref().unwrap());
u_stmt.execute_named(&[
(":password_failure_count", &u.password_failure_count),
(":password_hash", &u.password_hash),
(":id", &id),
])?;
}
for (_, s) in &self.sessions {
if !s.dirty {
continue;
}
let addr = s.last_use.addr_buf();
let addr: Option<&[u8]> = addr.as_ref().map(|a| a.as_ref());
s_stmt.execute_named(&[
(":last_use_time_sec", &s.last_use.when_sec),
(":last_use_user_agent", &s.last_use.user_agent),
(":last_use_peer_addr", &addr),
(":use_count", &s.use_count),
])?;
}
Ok(())
}
/// Marks that the previous `flush` was completed successfully.
///
/// See notes there.
pub fn post_flush(&mut self) {
for (_, u) in &mut self.users_by_id {
u.dirty = false;
}
for (_, s) in &mut self.sessions {
s.dirty = false;
}
}
}
fn lookup_session(conn: &Connection, hash: &SessionHash) -> Result<Session, Error> {
let mut stmt = conn.prepare_cached(r#"
select
user_id,
seed,
flags,
domain,
description,
creation_password_id,
creation_time_sec,
creation_user_agent,
creation_peer_addr,
revocation_time_sec,
revocation_user_agent,
revocation_peer_addr,
revocation_reason,
revocation_reason_detail,
last_use_time_sec,
last_use_user_agent,
last_use_peer_addr,
use_count,
permissions
from
user_session
where
session_id_hash = ?
"#)?;
let mut rows = stmt.query(&[&&hash.0[..]])?;
let row = rows.next()?.ok_or_else(|| format_err!("no such session"))?;
let creation_addr: FromSqlIpAddr = row.get(8)?;
let revocation_addr: FromSqlIpAddr = row.get(11)?;
let last_use_addr: FromSqlIpAddr = row.get(16)?;
let mut permissions = Permissions::new();
permissions.merge_from_bytes(row.get_raw_checked(18)?.as_blob()?)?;
Ok(Session {
user_id: row.get(0)?,
seed: row.get(1)?,
flags: row.get(2)?,
domain: row.get(3)?,
description: row.get(4)?,
creation_password_id: row.get(5)?,
creation: Request {
when_sec: row.get(6)?,
user_agent: row.get(7)?,
addr: creation_addr.0,
},
revocation: Request {
when_sec: row.get(9)?,
user_agent: row.get(10)?,
addr: revocation_addr.0,
},
revocation_reason: row.get(12)?,
revocation_reason_detail: row.get(13)?,
last_use: Request {
when_sec: row.get(14)?,
user_agent: row.get(15)?,
addr: last_use_addr.0,
},
use_count: row.get(17)?,
dirty: false,
permissions,
})
}
#[cfg(test)]
mod tests {
use crate::db;
use rusqlite::Connection;
use super::*;
use crate::testutil;
#[test]
fn open_empty_db() {
testutil::init();
set_test_config();
let mut conn = Connection::open_in_memory().unwrap();
db::init(&mut conn).unwrap();
State::init(&conn).unwrap();
}
#[test]
fn create_login_use_logout() {
testutil::init();
let mut conn = Connection::open_in_memory().unwrap();
db::init(&mut conn).unwrap();
let mut state = State::init(&conn).unwrap();
let req = Request {
when_sec: Some(42),
addr: Some(::std::net::IpAddr::V4(::std::net::Ipv4Addr::new(127, 0, 0, 1))),
user_agent: Some(b"some ua".to_vec()),
};
let (uid, mut c) = {
let u = state.apply(&conn, UserChange::add_user("slamb".to_owned())).unwrap();
(u.id, u.change())
};
let e = state.login_by_password(&conn, req.clone(), "slamb", "hunter2".to_owned(),
b"nvr.example.com".to_vec(), 0).unwrap_err();
assert_eq!(format!("{}", e), "no password set for user \"slamb\"");
c.set_password("hunter2".to_owned());
state.apply(&conn, c).unwrap();
let e = state.login_by_password(&conn, req.clone(), "slamb",
"hunter3".to_owned(),
b"nvr.example.com".to_vec(), 0).unwrap_err();
assert_eq!(format!("{}", e), "incorrect password for user \"slamb\"");
let sid = {
let (sid, s) = state.login_by_password(&conn, req.clone(), "slamb",
"hunter2".to_owned(),
b"nvr.example.com".to_vec(), 0).unwrap();
assert_eq!(s.user_id, uid);
sid
};
{
let (_, u) = state.authenticate_session(&conn, req.clone(), &sid.hash()).unwrap();
assert_eq!(u.id, uid);
}
state.revoke_session(&conn, RevocationReason::LoggedOut, None, req.clone(),
&sid.hash()).unwrap();
let e = state.authenticate_session(&conn, req.clone(), &sid.hash()).unwrap_err();
assert_eq!(format!("{}", e), "session is no longer valid (reason=1)");
// Everything should persist across reload.
drop(state);
let mut state = State::init(&conn).unwrap();
let e = state.authenticate_session(&conn, req, &sid.hash()).unwrap_err();
assert_eq!(format!("{}", e), "session is no longer valid (reason=1)");
}
#[test]
fn revoke_not_in_cache() {
testutil::init();
let mut conn = Connection::open_in_memory().unwrap();
db::init(&mut conn).unwrap();
let mut state = State::init(&conn).unwrap();
let req = Request {
when_sec: Some(42),
addr: Some(::std::net::IpAddr::V4(::std::net::Ipv4Addr::new(127, 0, 0, 1))),
user_agent: Some(b"some ua".to_vec()),
};
{
let mut c = UserChange::add_user("slamb".to_owned());
c.set_password("hunter2".to_owned());
state.apply(&conn, c).unwrap();
};
let sid = state.login_by_password(&conn, req.clone(), "slamb",
"hunter2".to_owned(),
b"nvr.example.com".to_vec(), 0).unwrap().0;
state.authenticate_session(&conn, req.clone(), &sid.hash()).unwrap();
// Reload.
drop(state);
let mut state = State::init(&conn).unwrap();
state.revoke_session(&conn, RevocationReason::LoggedOut, None, req.clone(),
&sid.hash()).unwrap();
let e = state.authenticate_session(&conn, req, &sid.hash()).unwrap_err();
assert_eq!(format!("{}", e), "session is no longer valid (reason=1)");
}
#[test]
fn upgrade_hash() {
// This hash is generated with cost=1 vs the cost=2 of PASTA_CONFIG.
let insecure_hash =
libpasta::Config::with_primitive(libpasta::primitives::Bcrypt::new(1))
.hash_password("hunter2");
testutil::init();
let mut conn = Connection::open_in_memory().unwrap();
db::init(&mut conn).unwrap();
let mut state = State::init(&conn).unwrap();
let mut change = UserChange::add_user("slamb".to_owned());
// hunter2, in insecure MD5.
change.set_password_hash = Some(Some(insecure_hash.clone()));
let uid = {
let u = state.apply(&conn, change).unwrap();
assert_eq!(&insecure_hash, u.password_hash.as_ref().unwrap());
u.id
};
let req = Request {
when_sec: Some(42),
addr: Some(::std::net::IpAddr::V4(::std::net::Ipv4Addr::new(127, 0, 0, 1))),
user_agent: Some(b"some ua".to_vec()),
};
state.login_by_password(&conn, req.clone(), "slamb", "hunter2".to_owned(),
b"nvr.example.com".to_vec(), 0).unwrap();
let new_hash = {
// Password should have been automatically upgraded.
let u = state.users_by_id().get(&uid).unwrap();
assert!(u.dirty);
assert_ne!(u.password_hash.as_ref().unwrap(), &insecure_hash);
u.password_hash.as_ref().unwrap().clone()
};
{
let tx = conn.transaction().unwrap();
state.flush(&tx).unwrap();
tx.commit().unwrap();
}
// On reload, the new hash should still be visible.
drop(state);
let mut state = State::init(&conn).unwrap();
{
let u = state.users_by_id().get(&uid).unwrap();
assert!(!u.dirty);
assert_eq!(u.password_hash.as_ref().unwrap(), &new_hash);
}
// Login should still work.
state.login_by_password(&conn, req.clone(), "slamb", "hunter2".to_owned(),
b"nvr.example.com".to_vec(), 0).unwrap();
}
#[test]
fn disable() {
testutil::init();
let mut conn = Connection::open_in_memory().unwrap();
db::init(&mut conn).unwrap();
let mut state = State::init(&conn).unwrap();
let req = Request {
when_sec: Some(42),
addr: Some(::std::net::IpAddr::V4(::std::net::Ipv4Addr::new(127, 0, 0, 1))),
user_agent: Some(b"some ua".to_vec()),
};
let uid = {
let mut c = UserChange::add_user("slamb".to_owned());
c.set_password("hunter2".to_owned());
state.apply(&conn, c).unwrap().id
};
// Get a session for later.
let sid = state.login_by_password(&conn, req.clone(), "slamb",
"hunter2".to_owned(),
b"nvr.example.com".to_vec(), 0).unwrap().0;
// Disable the user.
{
let mut c = state.users_by_id().get(&uid).unwrap().change();
c.disable();
state.apply(&conn, c).unwrap();
}
// Fresh logins shouldn't work.
let e = state.login_by_password(&conn, req.clone(), "slamb",
"hunter2".to_owned(),
b"nvr.example.com".to_vec(), 0).unwrap_err();
assert_eq!(format!("{}", e), "user \"slamb\" is disabled");
// Authenticating existing sessions shouldn't work either.
let e = state.authenticate_session(&conn, req.clone(), &sid.hash()).unwrap_err();
assert_eq!(format!("{}", e), "user \"slamb\" is disabled");
// The user should still be disabled after reload.
drop(state);
let mut state = State::init(&conn).unwrap();
let e = state.authenticate_session(&conn, req, &sid.hash()).unwrap_err();
assert_eq!(format!("{}", e), "user \"slamb\" is disabled");
}
#[test]
fn delete() {
testutil::init();
let mut conn = Connection::open_in_memory().unwrap();
db::init(&mut conn).unwrap();
let mut state = State::init(&conn).unwrap();
let req = Request {
when_sec: Some(42),
addr: Some(::std::net::IpAddr::V4(::std::net::Ipv4Addr::new(127, 0, 0, 1))),
user_agent: Some(b"some ua".to_vec()),
};
let uid = {
let mut c = UserChange::add_user("slamb".to_owned());
c.set_password("hunter2".to_owned());
state.apply(&conn, c).unwrap().id
};
// Get a session for later.
let (sid, _) = state.login_by_password(&conn, req.clone(), "slamb",
"hunter2".to_owned(),
b"nvr.example.com".to_vec(), 0).unwrap();
state.delete_user(&mut conn, uid).unwrap();
assert!(state.users_by_id().get(&uid).is_none());
let e = state.authenticate_session(&conn, req.clone(), &sid.hash()).unwrap_err();
assert_eq!(format!("{}", e), "no such session");
// The user should still be deleted after reload.
drop(state);
let mut state = State::init(&conn).unwrap();
assert!(state.users_by_id().get(&uid).is_none());
let e = state.authenticate_session(&conn, req.clone(), &sid.hash()).unwrap_err();
assert_eq!(format!("{}", e), "no such session");
}
#[test]
fn permissions() {
testutil::init();
let mut conn = Connection::open_in_memory().unwrap();
db::init(&mut conn).unwrap();
let mut state = State::init(&conn).unwrap();
let mut change = UserChange::add_user("slamb".to_owned());
change.permissions.view_video = true;
let u = state.apply(&conn, change).unwrap();
assert!(u.permissions.view_video);
assert!(!u.permissions.update_signals);
let mut change = u.change();
assert!(change.permissions.view_video);
assert!(!change.permissions.update_signals);
change.permissions.update_signals = true;
let u = state.apply(&conn, change).unwrap();
assert!(u.permissions.view_video);
assert!(u.permissions.update_signals);
let uid = u.id;
{
let tx = conn.transaction().unwrap();
state.flush(&tx).unwrap();
tx.commit().unwrap();
}
let state = State::init(&conn).unwrap();
let u = state.users_by_id().get(&uid).unwrap();
assert!(u.permissions.view_video);
assert!(u.permissions.update_signals);
}
}