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|
use chrono::{Duration, NaiveDateTime, Utc};
use serde_json::Value;
use crate::crypto;
use crate::CONFIG;
db_object! {
#[derive(Identifiable, Queryable, Insertable, AsChangeset)]
#[table_name = "users"]
#[changeset_options(treat_none_as_null="true")]
#[primary_key(uuid)]
pub struct User {
pub uuid: String,
pub enabled: bool,
pub created_at: NaiveDateTime,
pub updated_at: NaiveDateTime,
pub verified_at: Option<NaiveDateTime>,
pub last_verifying_at: Option<NaiveDateTime>,
pub login_verify_count: i32,
pub email: String,
pub email_new: Option<String>,
pub email_new_token: Option<String>,
pub name: String,
pub password_hash: Vec<u8>,
pub salt: Vec<u8>,
pub password_iterations: i32,
pub password_hint: Option<String>,
pub akey: String,
pub private_key: Option<String>,
pub public_key: Option<String>,
#[column_name = "totp_secret"] // Note, this is only added to the UserDb structs, not to User
_totp_secret: Option<String>,
pub totp_recover: Option<String>,
pub security_stamp: String,
pub stamp_exception: Option<String>,
pub equivalent_domains: String,
pub excluded_globals: String,
pub client_kdf_type: i32,
pub client_kdf_iter: i32,
}
#[derive(Identifiable, Queryable, Insertable)]
#[table_name = "invitations"]
#[primary_key(email)]
pub struct Invitation {
pub email: String,
}
}
enum UserStatus {
Enabled = 0,
Invited = 1,
_Disabled = 2,
}
#[derive(Serialize, Deserialize)]
pub struct UserStampException {
pub routes: Vec<String>,
pub security_stamp: String,
pub expire: i64,
}
/// Local methods
impl User {
pub const CLIENT_KDF_TYPE_DEFAULT: i32 = 0; // PBKDF2: 0
pub const CLIENT_KDF_ITER_DEFAULT: i32 = 100_000;
pub fn new(email: String) -> Self {
let now = Utc::now().naive_utc();
let email = email.to_lowercase();
Self {
uuid: crate::util::get_uuid(),
enabled: true,
created_at: now,
updated_at: now,
verified_at: None,
last_verifying_at: None,
login_verify_count: 0,
name: email.clone(),
email,
akey: String::new(),
email_new: None,
email_new_token: None,
password_hash: Vec::new(),
salt: crypto::get_random_64(),
password_iterations: CONFIG.password_iterations(),
security_stamp: crate::util::get_uuid(),
stamp_exception: None,
password_hint: None,
private_key: None,
public_key: None,
_totp_secret: None,
totp_recover: None,
equivalent_domains: "[]".to_string(),
excluded_globals: "[]".to_string(),
client_kdf_type: Self::CLIENT_KDF_TYPE_DEFAULT,
client_kdf_iter: Self::CLIENT_KDF_ITER_DEFAULT,
}
}
pub fn check_valid_password(&self, password: &str) -> bool {
crypto::verify_password_hash(
password.as_bytes(),
&self.salt,
&self.password_hash,
self.password_iterations as u32,
)
}
pub fn check_valid_recovery_code(&self, recovery_code: &str) -> bool {
if let Some(ref totp_recover) = self.totp_recover {
crate::crypto::ct_eq(recovery_code, totp_recover.to_lowercase())
} else {
false
}
}
/// Set the password hash generated
/// And resets the security_stamp. Based upon the allow_next_route the security_stamp will be different.
///
/// # Arguments
///
/// * `password` - A str which contains a hashed version of the users master password.
/// * `allow_next_route` - A Option<Vec<String>> with the function names of the next allowed (rocket) routes.
/// These routes are able to use the previous stamp id for the next 2 minutes.
/// After these 2 minutes this stamp will expire.
///
pub fn set_password(&mut self, password: &str, allow_next_route: Option<Vec<String>>) {
self.password_hash = crypto::hash_password(password.as_bytes(), &self.salt, self.password_iterations as u32);
if let Some(route) = allow_next_route {
self.set_stamp_exception(route);
}
self.reset_security_stamp()
}
pub fn reset_security_stamp(&mut self) {
self.security_stamp = crate::util::get_uuid();
}
/// Set the stamp_exception to only allow a subsequent request matching a specific route using the current security-stamp.
///
/// # Arguments
/// * `route_exception` - A Vec<String> with the function names of the next allowed (rocket) routes.
/// These routes are able to use the previous stamp id for the next 2 minutes.
/// After these 2 minutes this stamp will expire.
///
pub fn set_stamp_exception(&mut self, route_exception: Vec<String>) {
let stamp_exception = UserStampException {
routes: route_exception,
security_stamp: self.security_stamp.to_string(),
expire: (Utc::now().naive_utc() + Duration::minutes(2)).timestamp(),
};
self.stamp_exception = Some(serde_json::to_string(&stamp_exception).unwrap_or_default());
}
/// Resets the stamp_exception to prevent re-use of the previous security-stamp
pub fn reset_stamp_exception(&mut self) {
self.stamp_exception = None;
}
}
use super::{
Cipher, Device, EmergencyAccess, Favorite, Folder, Send, TwoFactor, TwoFactorIncomplete, UserOrgType,
UserOrganization,
};
use crate::db::DbConn;
use crate::api::EmptyResult;
use crate::error::MapResult;
/// Database methods
impl User {
pub fn to_json(&self, conn: &DbConn) -> Value {
let orgs = UserOrganization::find_confirmed_by_user(&self.uuid, conn);
let orgs_json: Vec<Value> = orgs.iter().map(|c| c.to_json(conn)).collect();
let twofactor_enabled = !TwoFactor::find_by_user(&self.uuid, conn).is_empty();
// TODO: Might want to save the status field in the DB
let status = if self.password_hash.is_empty() {
UserStatus::Invited
} else {
UserStatus::Enabled
};
json!({
"_Status": status as i32,
"Id": self.uuid,
"Name": self.name,
"Email": self.email,
"EmailVerified": !CONFIG.mail_enabled() || self.verified_at.is_some(),
"Premium": true,
"MasterPasswordHint": self.password_hint,
"Culture": "en-US",
"TwoFactorEnabled": twofactor_enabled,
"Key": self.akey,
"PrivateKey": self.private_key,
"SecurityStamp": self.security_stamp,
"Organizations": orgs_json,
"Providers": [],
"ProviderOrganizations": [],
"ForcePasswordReset": false,
"Object": "profile",
})
}
pub fn save(&mut self, conn: &DbConn) -> EmptyResult {
if self.email.trim().is_empty() {
err!("User email can't be empty")
}
self.updated_at = Utc::now().naive_utc();
db_run! {conn:
sqlite, mysql {
match diesel::replace_into(users::table)
.values(UserDb::to_db(self))
.execute(conn)
{
Ok(_) => Ok(()),
// Record already exists and causes a Foreign Key Violation because replace_into() wants to delete the record first.
Err(diesel::result::Error::DatabaseError(diesel::result::DatabaseErrorKind::ForeignKeyViolation, _)) => {
diesel::update(users::table)
.filter(users::uuid.eq(&self.uuid))
.set(UserDb::to_db(self))
.execute(conn)
.map_res("Error saving user")
}
Err(e) => Err(e.into()),
}.map_res("Error saving user")
}
postgresql {
let value = UserDb::to_db(self);
diesel::insert_into(users::table) // Insert or update
.values(&value)
.on_conflict(users::uuid)
.do_update()
.set(&value)
.execute(conn)
.map_res("Error saving user")
}
}
}
pub fn delete(self, conn: &DbConn) -> EmptyResult {
for user_org in UserOrganization::find_confirmed_by_user(&self.uuid, conn) {
if user_org.atype == UserOrgType::Owner {
let owner_type = UserOrgType::Owner as i32;
if UserOrganization::find_by_org_and_type(&user_org.org_uuid, owner_type, conn).len() <= 1 {
err!("Can't delete last owner")
}
}
}
Send::delete_all_by_user(&self.uuid, conn)?;
EmergencyAccess::delete_all_by_user(&self.uuid, conn)?;
UserOrganization::delete_all_by_user(&self.uuid, conn)?;
Cipher::delete_all_by_user(&self.uuid, conn)?;
Favorite::delete_all_by_user(&self.uuid, conn)?;
Folder::delete_all_by_user(&self.uuid, conn)?;
Device::delete_all_by_user(&self.uuid, conn)?;
TwoFactor::delete_all_by_user(&self.uuid, conn)?;
TwoFactorIncomplete::delete_all_by_user(&self.uuid, conn)?;
Invitation::take(&self.email, conn); // Delete invitation if any
db_run! {conn: {
diesel::delete(users::table.filter(users::uuid.eq(self.uuid)))
.execute(conn)
.map_res("Error deleting user")
}}
}
pub fn update_uuid_revision(uuid: &str, conn: &DbConn) {
if let Err(e) = Self::_update_revision(uuid, &Utc::now().naive_utc(), conn) {
warn!("Failed to update revision for {}: {:#?}", uuid, e);
}
}
pub fn update_all_revisions(conn: &DbConn) -> EmptyResult {
let updated_at = Utc::now().naive_utc();
db_run! {conn: {
crate::util::retry(|| {
diesel::update(users::table)
.set(users::updated_at.eq(updated_at))
.execute(conn)
}, 10)
.map_res("Error updating revision date for all users")
}}
}
pub fn update_revision(&mut self, conn: &DbConn) -> EmptyResult {
self.updated_at = Utc::now().naive_utc();
Self::_update_revision(&self.uuid, &self.updated_at, conn)
}
fn _update_revision(uuid: &str, date: &NaiveDateTime, conn: &DbConn) -> EmptyResult {
db_run! {conn: {
crate::util::retry(|| {
diesel::update(users::table.filter(users::uuid.eq(uuid)))
.set(users::updated_at.eq(date))
.execute(conn)
}, 10)
.map_res("Error updating user revision")
}}
}
pub fn find_by_mail(mail: &str, conn: &DbConn) -> Option<Self> {
let lower_mail = mail.to_lowercase();
db_run! {conn: {
users::table
.filter(users::email.eq(lower_mail))
.first::<UserDb>(conn)
.ok()
.from_db()
}}
}
pub fn find_by_uuid(uuid: &str, conn: &DbConn) -> Option<Self> {
db_run! {conn: {
users::table.filter(users::uuid.eq(uuid)).first::<UserDb>(conn).ok().from_db()
}}
}
pub fn get_all(conn: &DbConn) -> Vec<Self> {
db_run! {conn: {
users::table.load::<UserDb>(conn).expect("Error loading users").from_db()
}}
}
pub fn last_active(&self, conn: &DbConn) -> Option<NaiveDateTime> {
match Device::find_latest_active_by_user(&self.uuid, conn) {
Some(device) => Some(device.updated_at),
None => None,
}
}
}
impl Invitation {
pub fn new(email: String) -> Self {
let email = email.to_lowercase();
Self {
email,
}
}
pub fn save(&self, conn: &DbConn) -> EmptyResult {
if self.email.trim().is_empty() {
err!("Invitation email can't be empty")
}
db_run! {conn:
sqlite, mysql {
// Not checking for ForeignKey Constraints here
// Table invitations does not have any ForeignKey Constraints.
diesel::replace_into(invitations::table)
.values(InvitationDb::to_db(self))
.execute(conn)
.map_res("Error saving invitation")
}
postgresql {
diesel::insert_into(invitations::table)
.values(InvitationDb::to_db(self))
.on_conflict(invitations::email)
.do_nothing()
.execute(conn)
.map_res("Error saving invitation")
}
}
}
pub fn delete(self, conn: &DbConn) -> EmptyResult {
db_run! {conn: {
diesel::delete(invitations::table.filter(invitations::email.eq(self.email)))
.execute(conn)
.map_res("Error deleting invitation")
}}
}
pub fn find_by_mail(mail: &str, conn: &DbConn) -> Option<Self> {
let lower_mail = mail.to_lowercase();
db_run! {conn: {
invitations::table
.filter(invitations::email.eq(lower_mail))
.first::<InvitationDb>(conn)
.ok()
.from_db()
}}
}
pub fn take(mail: &str, conn: &DbConn) -> bool {
match Self::find_by_mail(mail, conn) {
Some(invitation) => invitation.delete(conn).is_ok(),
None => false,
}
}
}
|
