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Spiegel von https://github.com/dani-garcia/vaultwarden.git synchronisiert 2024-11-25 05:40:29 +01:00

Add email code logic and move two_factor into separate modules

Dieser Commit ist enthalten in:
vpl 2019-08-03 18:47:52 +02:00
Ursprung 27e0e41835
Commit 29aedd388e
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use data_encoding::{BASE32, BASE64};
use rocket::Route;
use rocket_contrib::json::Json;
use serde_json;
use serde_json::Value;
use crate::api::{ApiResult, EmptyResult, JsonResult, JsonUpcase, NumberOrString, PasswordData};
use crate::api::core::two_factor::{_generate_recover_code, totp};
use crate::auth::Headers;
use crate::crypto;
use crate::db::{
DbConn,
models::{TwoFactor, TwoFactorType, User},
};
use crate::error::{Error, MapResult};
const TOTP_TIME_STEP: u64 = 30;
pub fn routes() -> Vec<Route> {
routes![
generate_authenticator,
activate_authenticator,
activate_authenticator_put,
]
}
#[post("/two-factor/get-authenticator", data = "<data>")]
fn generate_authenticator(data: JsonUpcase<PasswordData>, headers: Headers, conn: DbConn) -> JsonResult {
let data: PasswordData = data.into_inner().data;
let user = headers.user;
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password");
}
let type_ = TwoFactorType::Authenticator as i32;
let twofactor = TwoFactor::find_by_user_and_type(&user.uuid, type_, &conn);
let (enabled, key) = match twofactor {
Some(tf) => (true, tf.data),
_ => (false, BASE32.encode(&crypto::get_random(vec![0u8; 20]))),
};
Ok(Json(json!({
"Enabled": enabled,
"Key": key,
"Object": "twoFactorAuthenticator"
})))
}
#[derive(Deserialize, Debug)]
#[allow(non_snake_case)]
struct EnableAuthenticatorData {
MasterPasswordHash: String,
Key: String,
Token: NumberOrString,
}
#[post("/two-factor/authenticator", data = "<data>")]
fn activate_authenticator(data: JsonUpcase<EnableAuthenticatorData>, headers: Headers, conn: DbConn) -> JsonResult {
let data: EnableAuthenticatorData = data.into_inner().data;
let password_hash = data.MasterPasswordHash;
let key = data.Key;
let token = data.Token.into_i32()? as u64;
let mut user = headers.user;
if !user.check_valid_password(&password_hash) {
err!("Invalid password");
}
// Validate key as base32 and 20 bytes length
let decoded_key: Vec<u8> = match BASE32.decode(key.as_bytes()) {
Ok(decoded) => decoded,
_ => err!("Invalid totp secret"),
};
if decoded_key.len() != 20 {
err!("Invalid key length")
}
let type_ = TwoFactorType::Authenticator;
let twofactor = TwoFactor::new(user.uuid.clone(), type_, key.to_uppercase());
// Validate the token provided with the key
totp::validate_totp_code(token, &twofactor.data)?;
_generate_recover_code(&mut user, &conn);
twofactor.save(&conn)?;
Ok(Json(json!({
"Enabled": true,
"Key": key,
"Object": "twoFactorAuthenticator"
})))
}
#[put("/two-factor/authenticator", data = "<data>")]
fn activate_authenticator_put(data: JsonUpcase<EnableAuthenticatorData>, headers: Headers, conn: DbConn) -> JsonResult {
activate_authenticator(data, headers, conn)
}

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src/api/core/two_factor/duo.rs Normale Datei
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use chrono::Utc;
use data_encoding::{BASE32, BASE64};
use oath::{HashType, totp_raw_now};
use rocket::Route;
use rocket_contrib::json::Json;
use serde_json;
use serde_json::Value;
use crate::api::{ApiResult, EmptyResult, JsonResult, JsonUpcase, NumberOrString, PasswordData};
use crate::auth::Headers;
use crate::CONFIG;
use crate::crypto;
use crate::db::{
DbConn,
models::{TwoFactor, TwoFactorType, User},
};
use crate::error::{Error, MapResult};
pub fn routes() -> Vec<Route> {
routes![
get_duo,
activate_duo,
activate_duo_put,
]
}
#[derive(Serialize, Deserialize)]
struct DuoData {
host: String,
ik: String,
sk: String,
}
impl DuoData {
fn global() -> Option<Self> {
match CONFIG.duo_host() {
Some(host) => Some(Self {
host,
ik: CONFIG.duo_ikey().unwrap(),
sk: CONFIG.duo_skey().unwrap(),
}),
None => None,
}
}
fn msg(s: &str) -> Self {
Self {
host: s.into(),
ik: s.into(),
sk: s.into(),
}
}
fn secret() -> Self {
Self::msg("<global_secret>")
}
fn obscure(self) -> Self {
let mut host = self.host;
let mut ik = self.ik;
let mut sk = self.sk;
let digits = 4;
let replaced = "************";
host.replace_range(digits.., replaced);
ik.replace_range(digits.., replaced);
sk.replace_range(digits.., replaced);
Self { host, ik, sk }
}
}
enum DuoStatus {
Global(DuoData),
// Using the global duo config
User(DuoData),
// Using the user's config
Disabled(bool), // True if there is a global setting
}
impl DuoStatus {
fn data(self) -> Option<DuoData> {
match self {
DuoStatus::Global(data) => Some(data),
DuoStatus::User(data) => Some(data),
DuoStatus::Disabled(_) => None,
}
}
}
const DISABLED_MESSAGE_DEFAULT: &str = "<To use the global Duo keys, please leave these fields untouched>";
#[post("/two-factor/get-duo", data = "<data>")]
fn get_duo(data: JsonUpcase<PasswordData>, headers: Headers, conn: DbConn) -> JsonResult {
let data: PasswordData = data.into_inner().data;
if !headers.user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password");
}
let data = get_user_duo_data(&headers.user.uuid, &conn);
let (enabled, data) = match data {
DuoStatus::Global(_) => (true, Some(DuoData::secret())),
DuoStatus::User(data) => (true, Some(data.obscure())),
DuoStatus::Disabled(true) => (false, Some(DuoData::msg(DISABLED_MESSAGE_DEFAULT))),
DuoStatus::Disabled(false) => (false, None),
};
let json = if let Some(data) = data {
json!({
"Enabled": enabled,
"Host": data.host,
"SecretKey": data.sk,
"IntegrationKey": data.ik,
"Object": "twoFactorDuo"
})
} else {
json!({
"Enabled": enabled,
"Object": "twoFactorDuo"
})
};
Ok(Json(json))
}
#[derive(Deserialize)]
#[allow(non_snake_case, dead_code)]
struct EnableDuoData {
MasterPasswordHash: String,
Host: String,
SecretKey: String,
IntegrationKey: String,
}
impl From<EnableDuoData> for DuoData {
fn from(d: EnableDuoData) -> Self {
Self {
host: d.Host,
ik: d.IntegrationKey,
sk: d.SecretKey,
}
}
}
fn check_duo_fields_custom(data: &EnableDuoData) -> bool {
fn empty_or_default(s: &str) -> bool {
let st = s.trim();
st.is_empty() || s == DISABLED_MESSAGE_DEFAULT
}
!empty_or_default(&data.Host) && !empty_or_default(&data.SecretKey) && !empty_or_default(&data.IntegrationKey)
}
#[post("/two-factor/duo", data = "<data>")]
fn activate_duo(data: JsonUpcase<EnableDuoData>, headers: Headers, conn: DbConn) -> JsonResult {
let data: EnableDuoData = data.into_inner().data;
if !headers.user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password");
}
let (data, data_str) = if check_duo_fields_custom(&data) {
let data_req: DuoData = data.into();
let data_str = serde_json::to_string(&data_req)?;
duo_api_request("GET", "/auth/v2/check", "", &data_req).map_res("Failed to validate Duo credentials")?;
(data_req.obscure(), data_str)
} else {
(DuoData::secret(), String::new())
};
let type_ = TwoFactorType::Duo;
let twofactor = TwoFactor::new(headers.user.uuid.clone(), type_, data_str);
twofactor.save(&conn)?;
Ok(Json(json!({
"Enabled": true,
"Host": data.host,
"SecretKey": data.sk,
"IntegrationKey": data.ik,
"Object": "twoFactorDuo"
})))
}
#[put("/two-factor/duo", data = "<data>")]
fn activate_duo_put(data: JsonUpcase<EnableDuoData>, headers: Headers, conn: DbConn) -> JsonResult {
activate_duo(data, headers, conn)
}
fn duo_api_request(method: &str, path: &str, params: &str, data: &DuoData) -> EmptyResult {
const AGENT: &str = "bitwarden_rs:Duo/1.0 (Rust)";
use reqwest::{header::*, Client, Method};
use std::str::FromStr;
let url = format!("https://{}{}", &data.host, path);
let date = Utc::now().to_rfc2822();
let username = &data.ik;
let fields = [&date, method, &data.host, path, params];
let password = crypto::hmac_sign(&data.sk, &fields.join("\n"));
let m = Method::from_str(method).unwrap_or_default();
Client::new()
.request(m, &url)
.basic_auth(username, Some(password))
.header(USER_AGENT, AGENT)
.header(DATE, date)
.send()?
.error_for_status()?;
Ok(())
}
const DUO_EXPIRE: i64 = 300;
const APP_EXPIRE: i64 = 3600;
const AUTH_PREFIX: &str = "AUTH";
const DUO_PREFIX: &str = "TX";
const APP_PREFIX: &str = "APP";
fn get_user_duo_data(uuid: &str, conn: &DbConn) -> DuoStatus {
let type_ = TwoFactorType::Duo as i32;
// If the user doesn't have an entry, disabled
let twofactor = match TwoFactor::find_by_user_and_type(uuid, type_, &conn) {
Some(t) => t,
None => return DuoStatus::Disabled(DuoData::global().is_some()),
};
// If the user has the required values, we use those
if let Ok(data) = serde_json::from_str(&twofactor.data) {
return DuoStatus::User(data);
}
// Otherwise, we try to use the globals
if let Some(global) = DuoData::global() {
return DuoStatus::Global(global);
}
// If there are no globals configured, just disable it
DuoStatus::Disabled(false)
}
// let (ik, sk, ak, host) = get_duo_keys();
fn get_duo_keys_email(email: &str, conn: &DbConn) -> ApiResult<(String, String, String, String)> {
let data = User::find_by_mail(email, &conn)
.and_then(|u| get_user_duo_data(&u.uuid, &conn).data())
.or_else(DuoData::global)
.map_res("Can't fetch Duo keys")?;
Ok((data.ik, data.sk, CONFIG.get_duo_akey(), data.host))
}
pub fn generate_duo_signature(email: &str, conn: &DbConn) -> ApiResult<(String, String)> {
let now = Utc::now().timestamp();
let (ik, sk, ak, host) = get_duo_keys_email(email, conn)?;
let duo_sign = sign_duo_values(&sk, email, &ik, DUO_PREFIX, now + DUO_EXPIRE);
let app_sign = sign_duo_values(&ak, email, &ik, APP_PREFIX, now + APP_EXPIRE);
Ok((format!("{}:{}", duo_sign, app_sign), host))
}
fn sign_duo_values(key: &str, email: &str, ikey: &str, prefix: &str, expire: i64) -> String {
let val = format!("{}|{}|{}", email, ikey, expire);
let cookie = format!("{}|{}", prefix, BASE64.encode(val.as_bytes()));
format!("{}|{}", cookie, crypto::hmac_sign(key, &cookie))
}
pub fn validate_duo_login(email: &str, response: &str, conn: &DbConn) -> EmptyResult {
let split: Vec<&str> = response.split(':').collect();
if split.len() != 2 {
err!("Invalid response length");
}
let auth_sig = split[0];
let app_sig = split[1];
let now = Utc::now().timestamp();
let (ik, sk, ak, _host) = get_duo_keys_email(email, conn)?;
let auth_user = parse_duo_values(&sk, auth_sig, &ik, AUTH_PREFIX, now)?;
let app_user = parse_duo_values(&ak, app_sig, &ik, APP_PREFIX, now)?;
if !crypto::ct_eq(&auth_user, app_user) || !crypto::ct_eq(&auth_user, email) {
err!("Error validating duo authentication")
}
Ok(())
}
fn parse_duo_values(key: &str, val: &str, ikey: &str, prefix: &str, time: i64) -> ApiResult<String> {
let split: Vec<&str> = val.split('|').collect();
if split.len() != 3 {
err!("Invalid value length")
}
let u_prefix = split[0];
let u_b64 = split[1];
let u_sig = split[2];
let sig = crypto::hmac_sign(key, &format!("{}|{}", u_prefix, u_b64));
if !crypto::ct_eq(crypto::hmac_sign(key, &sig), crypto::hmac_sign(key, u_sig)) {
err!("Duo signatures don't match")
}
if u_prefix != prefix {
err!("Prefixes don't match")
}
let cookie_vec = match BASE64.decode(u_b64.as_bytes()) {
Ok(c) => c,
Err(_) => err!("Invalid Duo cookie encoding"),
};
let cookie = match String::from_utf8(cookie_vec) {
Ok(c) => c,
Err(_) => err!("Invalid Duo cookie encoding"),
};
let cookie_split: Vec<&str> = cookie.split('|').collect();
if cookie_split.len() != 3 {
err!("Invalid cookie length")
}
let username = cookie_split[0];
let u_ikey = cookie_split[1];
let expire = cookie_split[2];
if !crypto::ct_eq(ikey, u_ikey) {
err!("Invalid ikey")
}
let expire = match expire.parse() {
Ok(e) => e,
Err(_) => err!("Invalid expire time"),
};
if time >= expire {
err!("Expired authorization")
}
Ok(username.into())
}

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use data_encoding::{BASE32, BASE64};
use lettre_email::Email;
use oath::{totp_raw_now, HashType};
use rocket::Route;
use rocket_contrib::json::Json;
use serde_json;
use serde_json::Value;
use crate::api::core::two_factor::totp;
use crate::api::core::two_factor::totp::validate_totp_code_with_time_step;
use crate::api::{ApiResult, EmptyResult, JsonResult, JsonUpcase, NumberOrString, PasswordData};
use crate::auth::Headers;
use crate::db::{
models::{TwoFactor, TwoFactorType, User},
DbConn,
};
use crate::error::{Error, MapResult};
use crate::{crypto, mail};
const TOTP_TIME_STEP: u64 = 120;
pub fn routes() -> Vec<Route> {
routes![get_email, send_email_login, send_email, email,]
}
#[derive(Deserialize)]
#[allow(non_snake_case)]
struct SendEmailLoginData {
Email: String,
MasterPasswordHash: String,
}
// Does not require Bearer token
#[post("/two-factor/send-email-login", data = "<data>")] // JsonResult
fn send_email_login(data: JsonUpcase<SendEmailLoginData>, conn: DbConn) -> EmptyResult {
let data: SendEmailLoginData = data.into_inner().data;
use crate::db::models::User;
// Get the user
let mut user = match User::find_by_mail(&data.Email, &conn) {
Some(user) => user,
None => err!("Username or password is incorrect. Try again."),
};
// Check password
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Username or password is incorrect. Try again.")
}
let type_ = TwoFactorType::Email as i32;
let mut twofactor = TwoFactor::find_by_user_and_type(&user.uuid, type_, &conn)?;
let twofactor_data = EmailTokenData::from_json(&twofactor.data)?;
let decoded_key = totp::validate_decode_key(&twofactor_data.TotpSecret)?;
let generated_token = totp_raw_now(&decoded_key, 6, 0, TOTP_TIME_STEP, &HashType::SHA1);
let token_string = generated_token.to_string();
mail::send_token(&twofactor_data.Email, &token_string)?;
Ok(())
}
#[post("/two-factor/get-email", data = "<data>")]
fn get_email(data: JsonUpcase<PasswordData>, headers: Headers, conn: DbConn) -> JsonResult {
let data: PasswordData = data.into_inner().data;
let user = headers.user;
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password");
}
let type_ = TwoFactorType::Email as i32;
let enabled = match TwoFactor::find_by_user_and_type(&user.uuid, type_, &conn) {
Some(x) => x.enabled,
_ => false,
};
Ok(Json(json!({// TODO check! FIX!
"Email": user.email,
"Enabled": enabled,
"Object": "twoFactorEmail"
})))
}
#[derive(Deserialize)]
#[allow(non_snake_case)]
struct SendEmailData {
Email: String,
// Email where 2FA codes will be sent to, can be different than user email account.
MasterPasswordHash: String,
}
// Send a verification email to the specified email address to check whether it exists/belongs to user.
#[post("/two-factor/send-email", data = "<data>")]
fn send_email(data: JsonUpcase<SendEmailData>, headers: Headers, conn: DbConn) -> EmptyResult {
use oath::{totp_raw_now, HashType};
let data: SendEmailData = data.into_inner().data;
let user = headers.user;
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password");
}
let type_ = TwoFactorType::Email as i32;
// TODO: Delete previous email thing.
match TwoFactor::find_by_user_and_type(&user.uuid, type_, &conn) {
Some(tf) => tf.delete(&conn),
_ => Ok(()),
};
let secret = crypto::get_random(vec![0u8; 20]);
let base32_secret = BASE32.encode(&secret);
let twofactor_data = EmailTokenData::new(data.Email, base32_secret);
// Uses EmailVerificationChallenge as type to show that it's not verified yet.
let mut twofactor = TwoFactor::new(
user.uuid,
TwoFactorType::EmailVerificationChallenge,
twofactor_data.to_json(),
);
twofactor.save(&conn)?;
let generated_token = totp_raw_now(&secret, 6, 0, TOTP_TIME_STEP, &HashType::SHA1);
let token_string = generated_token.to_string();
mail::send_token(&twofactor_data.Email, &token_string)?;
Ok(())
}
#[derive(Deserialize, Serialize)]
#[allow(non_snake_case)]
struct EmailData {
Email: String,
MasterPasswordHash: String,
Token: String,
}
// Verify email used for 2FA email codes.
#[put("/two-factor/email", data = "<data>")]
fn email(data: JsonUpcase<EmailData>, headers: Headers, conn: DbConn) -> JsonResult {
let data: EmailData = data.into_inner().data;
let user = headers.user;
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password");
}
let token_u64 = match data.Token.parse::<u64>() {
Ok(token) => token,
_ => err!("Could not parse token"),
};
let type_ = TwoFactorType::EmailVerificationChallenge as i32;
let mut twofactor = TwoFactor::find_by_user_and_type(&user.uuid, type_, &conn)?;
let email_data = EmailTokenData::from_json(&twofactor.data)?;
totp::validate_totp_code_with_time_step(token_u64, &email_data.TotpSecret, TOTP_TIME_STEP)?;
twofactor.atype = TwoFactorType::Email as i32;
twofactor.save(&conn)?;
Ok(Json(json!({
"Email": email_data.Email,
"Enabled": "true",
"Object": "twoFactorEmail"
})))
}
pub fn validate_email_code_str(code: &str, data: &str) -> EmptyResult {
let totp_code: u64 = match code.parse() {
Ok(code) => code,
_ => err!("Email code is not a number"),
};
validate_email_code(totp_code, data)
}
pub fn validate_email_code(code: u64, data: &str) -> EmptyResult {
let email_data = EmailTokenData::from_json(&data)?;
let decoded_secret = match BASE32.decode(email_data.TotpSecret.as_bytes()) {
Ok(s) => s,
Err(_) => err!("Invalid email secret"),
};
let generated = totp_raw_now(&decoded_secret, 6, 0, TOTP_TIME_STEP, &HashType::SHA1);
if generated != code {
err!("Invalid email code");
}
Ok(())
}
#[derive(Serialize, Deserialize)]
pub struct EmailTokenData {
pub Email: String,
pub TotpSecret: String,
}
impl EmailTokenData {
pub fn new(email: String, secret: String) -> EmailTokenData {
EmailTokenData {
Email: email,
TotpSecret: secret,
}
}
pub fn to_json(&self) -> String {
serde_json::to_string(&self).unwrap()
}
pub fn from_json(string: &str) -> Result<EmailTokenData, Error> {
let res: Result<EmailTokenData, crate::serde_json::Error> = serde_json::from_str(&string);
match res {
Ok(x) => Ok(x),
Err(_) => err!("Could not decode EmailTokenData from string"),
}
}
}
pub fn obscure_email(email: &str) -> String {
let split: Vec<&str> = email.split("@").collect();
let mut name = split[0].to_string();
let domain = &split[1];
let name_size = name.chars().count();
let new_name = match name_size {
1..=2 => "*".repeat(name_size),
_ => {
let stars = "*".repeat(name_size-2);
name.truncate(2);
format!("{}{}", name, stars)
}
};
format!("{}@{}", new_name, &domain)
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_obscure_email_long() {
let email = "bytes@example.ext";
let result = obscure_email(&email);
// Only first two characters should be visible.
assert_eq!(result, "by***@example.ext");
}
#[test]
fn test_obscure_email_short() {
let email = "by@example.ext";
let result = obscure_email(&email);
// If it's smaller than 3 characters it should only show asterisks.
assert_eq!(result, "**@example.ext");
}
}

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src/api/core/two_factor/mod.rs Normale Datei
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use chrono::Utc;
use data_encoding::{BASE32, BASE64};
use oath::{HashType, totp_raw_now};
use rocket::Route;
use rocket_contrib::json::Json;
use serde_json;
use serde_json::Value;
use crate::api::{ApiResult, EmptyResult, JsonResult, JsonUpcase, NumberOrString, PasswordData};
use crate::auth::Headers;
use crate::crypto;
use crate::db::{
DbConn,
models::{TwoFactor, TwoFactorType, User},
};
use crate::error::{Error, MapResult};
pub(crate) mod authenticator;
pub(crate) mod duo;
pub(crate) mod email;
pub(crate) mod u2f;
pub(crate) mod yubikey;
pub(crate) mod totp;
pub fn routes() -> Vec<Route> {
let mut routes = routes![
get_twofactor,
get_recover,
recover,
disable_twofactor,
disable_twofactor_put,
];
routes.append(&mut authenticator::routes());
routes.append(&mut duo::routes());
routes.append(&mut email::routes());
routes.append(&mut u2f::routes());
routes.append(&mut yubikey::routes());
routes
}
#[get("/two-factor")]
fn get_twofactor(headers: Headers, conn: DbConn) -> JsonResult {
let twofactors = TwoFactor::find_by_user(&headers.user.uuid, &conn);
let twofactors_json: Vec<Value> = twofactors.iter().map(TwoFactor::to_json_list).collect();
Ok(Json(json!({
"Data": twofactors_json,
"Object": "list",
"ContinuationToken": null,
})))
}
#[post("/two-factor/get-recover", data = "<data>")]
fn get_recover(data: JsonUpcase<PasswordData>, headers: Headers) -> JsonResult {
let data: PasswordData = data.into_inner().data;
let user = headers.user;
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password");
}
Ok(Json(json!({
"Code": user.totp_recover,
"Object": "twoFactorRecover"
})))
}
#[derive(Deserialize)]
#[allow(non_snake_case)]
struct RecoverTwoFactor {
MasterPasswordHash: String,
Email: String,
RecoveryCode: String,
}
#[post("/two-factor/recover", data = "<data>")]
fn recover(data: JsonUpcase<RecoverTwoFactor>, conn: DbConn) -> JsonResult {
let data: RecoverTwoFactor = data.into_inner().data;
use crate::db::models::User;
// Get the user
let mut user = match User::find_by_mail(&data.Email, &conn) {
Some(user) => user,
None => err!("Username or password is incorrect. Try again."),
};
// Check password
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Username or password is incorrect. Try again.")
}
// Check if recovery code is correct
if !user.check_valid_recovery_code(&data.RecoveryCode) {
err!("Recovery code is incorrect. Try again.")
}
// Remove all twofactors from the user
for twofactor in TwoFactor::find_by_user(&user.uuid, &conn) {
twofactor.delete(&conn)?;
}
// Remove the recovery code, not needed without twofactors
user.totp_recover = None;
user.save(&conn)?;
Ok(Json(json!({})))
}
fn _generate_recover_code(user: &mut User, conn: &DbConn) {
if user.totp_recover.is_none() {
let totp_recover = BASE32.encode(&crypto::get_random(vec![0u8; 20]));
user.totp_recover = Some(totp_recover);
user.save(conn).ok();
}
}
#[derive(Deserialize)]
#[allow(non_snake_case)]
struct DisableTwoFactorData {
MasterPasswordHash: String,
Type: NumberOrString,
}
#[post("/two-factor/disable", data = "<data>")]
fn disable_twofactor(data: JsonUpcase<DisableTwoFactorData>, headers: Headers, conn: DbConn) -> JsonResult {
let data: DisableTwoFactorData = data.into_inner().data;
let password_hash = data.MasterPasswordHash;
let user = headers.user;
if !user.check_valid_password(&password_hash) {
err!("Invalid password");
}
let type_ = data.Type.into_i32()?;
if let Some(twofactor) = TwoFactor::find_by_user_and_type(&user.uuid, type_, &conn) {
twofactor.delete(&conn)?;
}
Ok(Json(json!({
"Enabled": false,
"Type": type_,
"Object": "twoFactorProvider"
})))
}
#[put("/two-factor/disable", data = "<data>")]
fn disable_twofactor_put(data: JsonUpcase<DisableTwoFactorData>, headers: Headers, conn: DbConn) -> JsonResult {
disable_twofactor(data, headers, conn)
}

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@ -0,0 +1,46 @@
use data_encoding::BASE32;
use crate::api::EmptyResult;
pub fn validate_totp_code_str(totp_code: &str, secret: &str) -> EmptyResult {
let totp_code: u64 = match totp_code.parse() {
Ok(code) => code,
_ => err!("TOTP code is not a number"),
};
validate_totp_code(totp_code, secret)
}
pub fn validate_totp_code(totp_code: u64, secret: &str) -> EmptyResult {
validate_totp_code_with_time_step(totp_code, &secret, 30)
}
pub fn validate_totp_code_with_time_step(totp_code: u64, secret: &str, time_step: u64) -> EmptyResult {
use oath::{totp_raw_now, HashType};
let decoded_secret = match BASE32.decode(secret.as_bytes()) {
Ok(s) => s,
Err(_) => err!("Invalid TOTP secret"),
};
let generated = totp_raw_now(&decoded_secret, 6, 0, time_step, &HashType::SHA1);
if generated != totp_code {
err!("Invalid TOTP code");
}
Ok(())
}
pub fn validate_decode_key(key: &str) -> Result<Vec<u8>, crate::error::Error> {
// Validate key as base32 and 20 bytes length
let decoded_key: Vec<u8> = match BASE32.decode(key.as_bytes()) {
Ok(decoded) => decoded,
_ => err!("Invalid totp secret"),
};
if decoded_key.len() != 20 {
err!("Invalid key length")
}
Ok(decoded_key)
}

317
src/api/core/two_factor/u2f.rs Normale Datei
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@ -0,0 +1,317 @@
use data_encoding::{BASE32, BASE64};
use rocket::Route;
use rocket_contrib::json::Json;
use serde_json;
use serde_json::Value;
use u2f::messages::{RegisterResponse, SignResponse, U2fSignRequest};
use u2f::protocol::{Challenge, U2f};
use u2f::register::Registration;
use crate::api::{ApiResult, EmptyResult, JsonResult, JsonUpcase, NumberOrString, PasswordData};
use crate::api::core::two_factor::_generate_recover_code;
use crate::auth::Headers;
use crate::CONFIG;
use crate::crypto;
use crate::db::{
DbConn,
models::{TwoFactor, TwoFactorType, User},
};
use crate::error::{Error, MapResult};
const U2F_VERSION: &str = "U2F_V2";
lazy_static! {
static ref APP_ID: String = format!("{}/app-id.json", &CONFIG.domain());
static ref U2F: U2f = U2f::new(APP_ID.clone());
}
pub fn routes() -> Vec<Route> {
routes![
generate_u2f,
generate_u2f_challenge,
activate_u2f,
activate_u2f_put,
]
}
#[post("/two-factor/get-u2f", data = "<data>")]
fn generate_u2f(data: JsonUpcase<PasswordData>, headers: Headers, conn: DbConn) -> JsonResult {
if !CONFIG.domain_set() {
err!("`DOMAIN` environment variable is not set. U2F disabled")
}
let data: PasswordData = data.into_inner().data;
if !headers.user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password");
}
let (enabled, keys) = get_u2f_registrations(&headers.user.uuid, &conn)?;
let keys_json: Vec<Value> = keys.iter().map(U2FRegistration::to_json).collect();
Ok(Json(json!({
"Enabled": enabled,
"Keys": keys_json,
"Object": "twoFactorU2f"
})))
}
#[post("/two-factor/get-u2f-challenge", data = "<data>")]
fn generate_u2f_challenge(data: JsonUpcase<PasswordData>, headers: Headers, conn: DbConn) -> JsonResult {
let data: PasswordData = data.into_inner().data;
if !headers.user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password");
}
let _type = TwoFactorType::U2fRegisterChallenge;
let challenge = _create_u2f_challenge(&headers.user.uuid, _type, &conn).challenge;
Ok(Json(json!({
"UserId": headers.user.uuid,
"AppId": APP_ID.to_string(),
"Challenge": challenge,
"Version": U2F_VERSION,
})))
}
#[derive(Deserialize, Debug)]
#[allow(non_snake_case)]
struct EnableU2FData {
Id: NumberOrString,
// 1..5
Name: String,
MasterPasswordHash: String,
DeviceResponse: String,
}
// This struct is referenced from the U2F lib
// because it doesn't implement Deserialize
#[derive(Serialize, Deserialize)]
#[serde(rename_all = "camelCase")]
#[serde(remote = "Registration")]
struct RegistrationDef {
key_handle: Vec<u8>,
pub_key: Vec<u8>,
attestation_cert: Option<Vec<u8>>,
}
#[derive(Serialize, Deserialize)]
struct U2FRegistration {
id: i32,
name: String,
#[serde(with = "RegistrationDef")]
reg: Registration,
counter: u32,
compromised: bool,
}
impl U2FRegistration {
fn to_json(&self) -> Value {
json!({
"Id": self.id,
"Name": self.name,
"Compromised": self.compromised,
})
}
}
// This struct is copied from the U2F lib
// to add an optional error code
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
struct RegisterResponseCopy {
pub registration_data: String,
pub version: String,
pub client_data: String,
pub error_code: Option<NumberOrString>,
}
impl Into<RegisterResponse> for RegisterResponseCopy {
fn into(self) -> RegisterResponse {
RegisterResponse {
registration_data: self.registration_data,
version: self.version,
client_data: self.client_data,
}
}
}
#[post("/two-factor/u2f", data = "<data>")]
fn activate_u2f(data: JsonUpcase<EnableU2FData>, headers: Headers, conn: DbConn) -> JsonResult {
let data: EnableU2FData = data.into_inner().data;
let mut user = headers.user;
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password");
}
let tf_type = TwoFactorType::U2fRegisterChallenge as i32;
let tf_challenge = match TwoFactor::find_by_user_and_type(&user.uuid, tf_type, &conn) {
Some(c) => c,
None => err!("Can't recover challenge"),
};
let challenge: Challenge = serde_json::from_str(&tf_challenge.data)?;
tf_challenge.delete(&conn)?;
let response: RegisterResponseCopy = serde_json::from_str(&data.DeviceResponse)?;
let error_code = response
.error_code
.clone()
.map_or("0".into(), NumberOrString::into_string);
if error_code != "0" {
err!("Error registering U2F token")
}
let registration = U2F.register_response(challenge.clone(), response.into())?;
let full_registration = U2FRegistration {
id: data.Id.into_i32()?,
name: data.Name,
reg: registration,
compromised: false,
counter: 0,
};
let mut regs = get_u2f_registrations(&user.uuid, &conn)?.1;
// TODO: Check that there is no repeat Id
regs.push(full_registration);
save_u2f_registrations(&user.uuid, &regs, &conn)?;
_generate_recover_code(&mut user, &conn);
let keys_json: Vec<Value> = regs.iter().map(U2FRegistration::to_json).collect();
Ok(Json(json!({
"Enabled": true,
"Keys": keys_json,
"Object": "twoFactorU2f"
})))
}
#[put("/two-factor/u2f", data = "<data>")]
fn activate_u2f_put(data: JsonUpcase<EnableU2FData>, headers: Headers, conn: DbConn) -> JsonResult {
activate_u2f(data, headers, conn)
}
fn _create_u2f_challenge(user_uuid: &str, type_: TwoFactorType, conn: &DbConn) -> Challenge {
let challenge = U2F.generate_challenge().unwrap();
TwoFactor::new(user_uuid.into(), type_, serde_json::to_string(&challenge).unwrap())
.save(conn)
.expect("Error saving challenge");
challenge
}
fn save_u2f_registrations(user_uuid: &str, regs: &[U2FRegistration], conn: &DbConn) -> EmptyResult {
TwoFactor::new(user_uuid.into(), TwoFactorType::U2f, serde_json::to_string(regs)?).save(&conn)
}
fn get_u2f_registrations(user_uuid: &str, conn: &DbConn) -> Result<(bool, Vec<U2FRegistration>), Error> {
let type_ = TwoFactorType::U2f as i32;
let (enabled, regs) = match TwoFactor::find_by_user_and_type(user_uuid, type_, conn) {
Some(tf) => (tf.enabled, tf.data),
None => return Ok((false, Vec::new())), // If no data, return empty list
};
let data = match serde_json::from_str(&regs) {
Ok(d) => d,
Err(_) => {
// If error, try old format
let mut old_regs = _old_parse_registrations(&regs);
if old_regs.len() != 1 {
err!("The old U2F format only allows one device")
}
// Convert to new format
let new_regs = vec![U2FRegistration {
id: 1,
name: "Unnamed U2F key".into(),
reg: old_regs.remove(0),
compromised: false,
counter: 0,
}];
// Save new format
save_u2f_registrations(user_uuid, &new_regs, &conn)?;
new_regs
}
};
Ok((enabled, data))
}
fn _old_parse_registrations(registations: &str) -> Vec<Registration> {
#[derive(Deserialize)]
struct Helper(#[serde(with = "RegistrationDef")] Registration);
let regs: Vec<Value> = serde_json::from_str(registations).expect("Can't parse Registration data");
regs.into_iter()
.map(|r| serde_json::from_value(r).unwrap())
.map(|Helper(r)| r)
.collect()
}
pub fn generate_u2f_login(user_uuid: &str, conn: &DbConn) -> ApiResult<U2fSignRequest> {
let challenge = _create_u2f_challenge(user_uuid, TwoFactorType::U2fLoginChallenge, conn);
let registrations: Vec<_> = get_u2f_registrations(user_uuid, conn)?
.1
.into_iter()
.map(|r| r.reg)
.collect();
if registrations.is_empty() {
err!("No U2F devices registered")
}
Ok(U2F.sign_request(challenge, registrations))
}
pub fn validate_u2f_login(user_uuid: &str, response: &str, conn: &DbConn) -> EmptyResult {
let challenge_type = TwoFactorType::U2fLoginChallenge as i32;
let tf_challenge = TwoFactor::find_by_user_and_type(user_uuid, challenge_type, &conn);
let challenge = match tf_challenge {
Some(tf_challenge) => {
let challenge: Challenge = serde_json::from_str(&tf_challenge.data)?;
tf_challenge.delete(&conn)?;
challenge
}
None => err!("Can't recover login challenge"),
};
let response: SignResponse = serde_json::from_str(response)?;
let mut registrations = get_u2f_registrations(user_uuid, conn)?.1;
if registrations.is_empty() {
err!("No U2F devices registered")
}
for reg in &mut registrations {
let response = U2F.sign_response(challenge.clone(), reg.reg.clone(), response.clone(), reg.counter);
match response {
Ok(new_counter) => {
reg.counter = new_counter;
save_u2f_registrations(user_uuid, &registrations, &conn)?;
return Ok(());
}
Err(u2f::u2ferror::U2fError::CounterTooLow) => {
reg.compromised = true;
save_u2f_registrations(user_uuid, &registrations, &conn)?;
err!("This device might be compromised!");
}
Err(e) => {
warn!("E {:#}", e);
// break;
}
}
}
err!("error verifying response")
}

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@ -0,0 +1,196 @@
use data_encoding::{BASE32, BASE64};
use rocket::Route;
use rocket_contrib::json::Json;
use serde_json;
use serde_json::Value;
use yubico::config::Config;
use yubico::verify;
use crate::api::{ApiResult, EmptyResult, JsonResult, JsonUpcase, NumberOrString, PasswordData};
use crate::api::core::two_factor::_generate_recover_code;
use crate::auth::Headers;
use crate::CONFIG;
use crate::crypto;
use crate::db::{
DbConn,
models::{TwoFactor, TwoFactorType, User},
};
use crate::error::{Error, MapResult};
pub fn routes() -> Vec<Route> {
routes![
generate_yubikey,
activate_yubikey,
activate_yubikey_put,
]
}
#[derive(Deserialize, Debug)]
#[allow(non_snake_case)]
struct EnableYubikeyData {
MasterPasswordHash: String,
Key1: Option<String>,
Key2: Option<String>,
Key3: Option<String>,
Key4: Option<String>,
Key5: Option<String>,
Nfc: bool,
}
#[derive(Deserialize, Serialize, Debug)]
#[allow(non_snake_case)]
pub struct YubikeyMetadata {
Keys: Vec<String>,
pub Nfc: bool,
}
fn parse_yubikeys(data: &EnableYubikeyData) -> Vec<String> {
let data_keys = [&data.Key1, &data.Key2, &data.Key3, &data.Key4, &data.Key5];
data_keys.iter().filter_map(|e| e.as_ref().cloned()).collect()
}
fn jsonify_yubikeys(yubikeys: Vec<String>) -> serde_json::Value {
let mut result = json!({});
for (i, key) in yubikeys.into_iter().enumerate() {
result[format!("Key{}", i + 1)] = Value::String(key);
}
result
}
fn get_yubico_credentials() -> Result<(String, String), Error> {
match (CONFIG.yubico_client_id(), CONFIG.yubico_secret_key()) {
(Some(id), Some(secret)) => Ok((id, secret)),
_ => err!("`YUBICO_CLIENT_ID` or `YUBICO_SECRET_KEY` environment variable is not set. Yubikey OTP Disabled"),
}
}
fn verify_yubikey_otp(otp: String) -> EmptyResult {
let (yubico_id, yubico_secret) = get_yubico_credentials()?;
let config = Config::default().set_client_id(yubico_id).set_key(yubico_secret);
match CONFIG.yubico_server() {
Some(server) => verify(otp, config.set_api_hosts(vec![server])),
None => verify(otp, config),
}
.map_res("Failed to verify OTP")
.and(Ok(()))
}
#[post("/two-factor/get-yubikey", data = "<data>")]
fn generate_yubikey(data: JsonUpcase<PasswordData>, headers: Headers, conn: DbConn) -> JsonResult {
// Make sure the credentials are set
get_yubico_credentials()?;
let data: PasswordData = data.into_inner().data;
let user = headers.user;
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password");
}
let user_uuid = &user.uuid;
let yubikey_type = TwoFactorType::YubiKey as i32;
let r = TwoFactor::find_by_user_and_type(user_uuid, yubikey_type, &conn);
if let Some(r) = r {
let yubikey_metadata: YubikeyMetadata = serde_json::from_str(&r.data)?;
let mut result = jsonify_yubikeys(yubikey_metadata.Keys);
result["Enabled"] = Value::Bool(true);
result["Nfc"] = Value::Bool(yubikey_metadata.Nfc);
result["Object"] = Value::String("twoFactorU2f".to_owned());
Ok(Json(result))
} else {
Ok(Json(json!({
"Enabled": false,
"Object": "twoFactorU2f",
})))
}
}
#[post("/two-factor/yubikey", data = "<data>")]
fn activate_yubikey(data: JsonUpcase<EnableYubikeyData>, headers: Headers, conn: DbConn) -> JsonResult {
let data: EnableYubikeyData = data.into_inner().data;
let mut user = headers.user;
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password");
}
// Check if we already have some data
let mut yubikey_data = match TwoFactor::find_by_user_and_type(&user.uuid, TwoFactorType::YubiKey as i32, &conn) {
Some(data) => data,
None => TwoFactor::new(user.uuid.clone(), TwoFactorType::YubiKey, String::new()),
};
let yubikeys = parse_yubikeys(&data);
if yubikeys.is_empty() {
return Ok(Json(json!({
"Enabled": false,
"Object": "twoFactorU2f",
})));
}
// Ensure they are valid OTPs
for yubikey in &yubikeys {
if yubikey.len() == 12 {
// YubiKey ID
continue;
}
verify_yubikey_otp(yubikey.to_owned()).map_res("Invalid Yubikey OTP provided")?;
}
let yubikey_ids: Vec<String> = yubikeys.into_iter().map(|x| (&x[..12]).to_owned()).collect();
let yubikey_metadata = YubikeyMetadata {
Keys: yubikey_ids,
Nfc: data.Nfc,
};
yubikey_data.data = serde_json::to_string(&yubikey_metadata).unwrap();
yubikey_data.save(&conn)?;
_generate_recover_code(&mut user, &conn);
let mut result = jsonify_yubikeys(yubikey_metadata.Keys);
result["Enabled"] = Value::Bool(true);
result["Nfc"] = Value::Bool(yubikey_metadata.Nfc);
result["Object"] = Value::String("twoFactorU2f".to_owned());
Ok(Json(result))
}
#[put("/two-factor/yubikey", data = "<data>")]
fn activate_yubikey_put(data: JsonUpcase<EnableYubikeyData>, headers: Headers, conn: DbConn) -> JsonResult {
activate_yubikey(data, headers, conn)
}
pub fn validate_yubikey_login(response: &str, twofactor_data: &str) -> EmptyResult {
if response.len() != 44 {
err!("Invalid Yubikey OTP length");
}
let yubikey_metadata: YubikeyMetadata = serde_json::from_str(twofactor_data).expect("Can't parse Yubikey Metadata");
let response_id = &response[..12];
if !yubikey_metadata.Keys.contains(&response_id.to_owned()) {
err!("Given Yubikey is not registered");
}
let result = verify_yubikey_otp(response.to_owned());
match result {
Ok(_answer) => Ok(()),
Err(_e) => err!("Failed to verify Yubikey against OTP server"),
}
}

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@ -1,23 +1,18 @@
use num_traits::FromPrimitive;
use rocket::request::{Form, FormItems, FromForm}; use rocket::request::{Form, FormItems, FromForm};
use rocket::Route; use rocket::Route;
use rocket_contrib::json::Json; use rocket_contrib::json::Json;
use serde_json::Value; use serde_json::Value;
use num_traits::FromPrimitive;
use crate::db::models::*;
use crate::db::DbConn;
use crate::util;
use crate::api::{ApiResult, EmptyResult, JsonResult}; use crate::api::{ApiResult, EmptyResult, JsonResult};
use crate::api::core::two_factor::{duo, email, yubikey};
use crate::api::core::two_factor::email::EmailTokenData;
use crate::auth::ClientIp; use crate::auth::ClientIp;
use crate::mail;
use crate::CONFIG; use crate::CONFIG;
use crate::db::DbConn;
use crate::db::models::*;
use crate::mail;
use crate::util;
pub fn routes() -> Vec<Route> { pub fn routes() -> Vec<Route> {
routes![login] routes![login]
@ -193,11 +188,11 @@ fn twofactor_auth(
let mut remember = data.two_factor_remember.unwrap_or(0); let mut remember = data.two_factor_remember.unwrap_or(0);
match TwoFactorType::from_i32(selected_id) { match TwoFactorType::from_i32(selected_id) {
Some(TwoFactorType::Authenticator) => _tf::validate_totp_code_str(twofactor_code, &selected_data?)?, Some(TwoFactorType::Authenticator) => _tf::totp::validate_totp_code_str(twofactor_code, &selected_data?)?,
Some(TwoFactorType::U2f) => _tf::validate_u2f_login(user_uuid, twofactor_code, conn)?, Some(TwoFactorType::U2f) => _tf::u2f::validate_u2f_login(user_uuid, twofactor_code, conn)?,
Some(TwoFactorType::YubiKey) => _tf::validate_yubikey_login(twofactor_code, &selected_data?)?, Some(TwoFactorType::YubiKey) => _tf::yubikey::validate_yubikey_login(twofactor_code, &selected_data?)?,
Some(TwoFactorType::Duo) => _tf::validate_duo_login(data.username.as_ref().unwrap(), twofactor_code, conn)?, Some(TwoFactorType::Duo) => _tf::duo::validate_duo_login(data.username.as_ref().unwrap(), twofactor_code, conn)?,
Some(TwoFactorType::Email) => _tf::validate_totp_code_str(twofactor_code, &selected_data?)?, Some(TwoFactorType::Email) => _tf::email::validate_email_code_str(twofactor_code, &selected_data?)?,
Some(TwoFactorType::Remember) => { Some(TwoFactorType::Remember) => {
match device.twofactor_remember { match device.twofactor_remember {
@ -242,7 +237,7 @@ fn _json_err_twofactor(providers: &[i32], user_uuid: &str, conn: &DbConn) -> Api
Some(TwoFactorType::Authenticator) => { /* Nothing to do for TOTP */ } Some(TwoFactorType::Authenticator) => { /* Nothing to do for TOTP */ }
Some(TwoFactorType::U2f) if CONFIG.domain_set() => { Some(TwoFactorType::U2f) if CONFIG.domain_set() => {
let request = two_factor::generate_u2f_login(user_uuid, conn)?; let request = two_factor::u2f::generate_u2f_login(user_uuid, conn)?;
let mut challenge_list = Vec::new(); let mut challenge_list = Vec::new();
for key in request.registered_keys { for key in request.registered_keys {
@ -267,7 +262,7 @@ fn _json_err_twofactor(providers: &[i32], user_uuid: &str, conn: &DbConn) -> Api
None => err!("User does not exist"), None => err!("User does not exist"),
}; };
let (signature, host) = two_factor::generate_duo_signature(&email, conn)?; let (signature, host) = duo::generate_duo_signature(&email, conn)?;
result["TwoFactorProviders2"][provider.to_string()] = json!({ result["TwoFactorProviders2"][provider.to_string()] = json!({
"Host": host, "Host": host,
@ -281,7 +276,7 @@ fn _json_err_twofactor(providers: &[i32], user_uuid: &str, conn: &DbConn) -> Api
None => err!("No YubiKey devices registered"), None => err!("No YubiKey devices registered"),
}; };
let yubikey_metadata: two_factor::YubikeyMetadata = serde_json::from_str(&twofactor.data)?; let yubikey_metadata: yubikey::YubikeyMetadata = serde_json::from_str(&twofactor.data)?;
result["TwoFactorProviders2"][provider.to_string()] = json!({ result["TwoFactorProviders2"][provider.to_string()] = json!({
"Nfc": yubikey_metadata.Nfc, "Nfc": yubikey_metadata.Nfc,
@ -293,6 +288,12 @@ fn _json_err_twofactor(providers: &[i32], user_uuid: &str, conn: &DbConn) -> Api
Some(tf) => tf, Some(tf) => tf,
None => err!("No twofactor email registered"), None => err!("No twofactor email registered"),
}; };
let email_data = EmailTokenData::from_json(&twofactor.data)?;
result["TwoFactorProviders2"][provider.to_string()] = json!({
"Email": email::obscure_email(&email_data.Email),
})
} }
_ => {} _ => {}

Datei-Diff unterdrückt, da er zu groß ist Diff laden

Datei anzeigen

@ -1,5 +1,12 @@
use diesel;
use diesel::prelude::*;
use serde_json::Value; use serde_json::Value;
use crate::api::EmptyResult;
use crate::db::DbConn;
use crate::db::schema::twofactor;
use crate::error::MapResult;
use super::User; use super::User;
#[derive(Debug, Identifiable, Queryable, Insertable, Associations)] #[derive(Debug, Identifiable, Queryable, Insertable, Associations)]
@ -28,6 +35,8 @@ pub enum TwoFactorType {
// These are implementation details // These are implementation details
U2fRegisterChallenge = 1000, U2fRegisterChallenge = 1000,
U2fLoginChallenge = 1001, U2fLoginChallenge = 1001,
EmailVerificationChallenge = 1002,
} }
/// Local methods /// Local methods
@ -59,14 +68,6 @@ impl TwoFactor {
} }
} }
use crate::db::schema::twofactor;
use crate::db::DbConn;
use diesel;
use diesel::prelude::*;
use crate::api::EmptyResult;
use crate::error::MapResult;
/// Database methods /// Database methods
impl TwoFactor { impl TwoFactor {
pub fn save(&self, conn: &DbConn) -> EmptyResult { pub fn save(&self, conn: &DbConn) -> EmptyResult {