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bitwarden_rs/src/api/core/accounts.rs
BlackDex 10d5c7738a Fix issue when using uppercase chars in emails 
In the case when SMTP is disabled and.
when inviting new users either via the admin interface or into an
organization and using uppercase letters, this would fail for those
users to be able to register since the checks which were done are
case-sensitive and never matched.

This PR fixes that issue by ensuring everything is lowercase.
Fixes #1963
2021-09-09 13:52:39 +02:00

662 lines
19 KiB
Rust
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use chrono::Utc;
use rocket_contrib::json::Json;
use serde_json::Value;
use crate::{
api::{EmptyResult, JsonResult, JsonUpcase, Notify, NumberOrString, PasswordData, UpdateType},
auth::{decode_delete, decode_invite, decode_verify_email, Headers},
crypto,
db::{models::*, DbConn},
mail, CONFIG,
};
pub fn routes() -> Vec<rocket::Route> {
routes![
register,
profile,
put_profile,
post_profile,
get_public_keys,
post_keys,
post_password,
post_kdf,
post_rotatekey,
post_sstamp,
post_email_token,
post_email,
post_verify_email,
post_verify_email_token,
post_delete_recover,
post_delete_recover_token,
delete_account,
post_delete_account,
revision_date,
password_hint,
prelogin,
verify_password,
]
}
#[derive(Deserialize, Debug)]
#[allow(non_snake_case)]
struct RegisterData {
Email: String,
Kdf: Option<i32>,
KdfIterations: Option<i32>,
Key: String,
Keys: Option<KeysData>,
MasterPasswordHash: String,
MasterPasswordHint: Option<String>,
Name: Option<String>,
Token: Option<String>,
OrganizationUserId: Option<String>,
}
#[derive(Deserialize, Debug)]
#[allow(non_snake_case)]
struct KeysData {
EncryptedPrivateKey: String,
PublicKey: String,
}
#[post("/accounts/register", data = "<data>")]
fn register(data: JsonUpcase<RegisterData>, conn: DbConn) -> EmptyResult {
let data: RegisterData = data.into_inner().data;
let email = data.Email.to_lowercase();
let mut user = match User::find_by_mail(&email, &conn) {
Some(user) => {
if !user.password_hash.is_empty() {
if CONFIG.is_signup_allowed(&email) {
err!("User already exists")
} else {
err!("Registration not allowed or user already exists")
}
}
if let Some(token) = data.Token {
let claims = decode_invite(&token)?;
if claims.email == email {
user
} else {
err!("Registration email does not match invite email")
}
} else if Invitation::take(&email, &conn) {
for mut user_org in UserOrganization::find_invited_by_user(&user.uuid, &conn).iter_mut() {
user_org.status = UserOrgStatus::Accepted as i32;
user_org.save(&conn)?;
}
user
} else if CONFIG.is_signup_allowed(&email) {
err!("Account with this email already exists")
} else {
err!("Registration not allowed or user already exists")
}
}
None => {
// Order is important here; the invitation check must come first
// because the vaultwarden admin can invite anyone, regardless
// of other signup restrictions.
if Invitation::take(&email, &conn) || CONFIG.is_signup_allowed(&email) {
User::new(email.clone())
} else {
err!("Registration not allowed or user already exists")
}
}
};
// Make sure we don't leave a lingering invitation.
Invitation::take(&email, &conn);
if let Some(client_kdf_iter) = data.KdfIterations {
user.client_kdf_iter = client_kdf_iter;
}
if let Some(client_kdf_type) = data.Kdf {
user.client_kdf_type = client_kdf_type;
}
user.set_password(&data.MasterPasswordHash, None);
user.akey = data.Key;
// Add extra fields if present
if let Some(name) = data.Name {
user.name = name;
}
if let Some(hint) = data.MasterPasswordHint {
user.password_hint = Some(hint);
}
if let Some(keys) = data.Keys {
user.private_key = Some(keys.EncryptedPrivateKey);
user.public_key = Some(keys.PublicKey);
}
if CONFIG.mail_enabled() {
if CONFIG.signups_verify() {
if let Err(e) = mail::send_welcome_must_verify(&user.email, &user.uuid) {
error!("Error sending welcome email: {:#?}", e);
}
user.last_verifying_at = Some(user.created_at);
} else if let Err(e) = mail::send_welcome(&user.email) {
error!("Error sending welcome email: {:#?}", e);
}
}
user.save(&conn)
}
#[get("/accounts/profile")]
fn profile(headers: Headers, conn: DbConn) -> Json<Value> {
Json(headers.user.to_json(&conn))
}
#[derive(Deserialize, Debug)]
#[allow(non_snake_case)]
struct ProfileData {
#[serde(rename = "Culture")]
_Culture: String, // Ignored, always use en-US
MasterPasswordHint: Option<String>,
Name: String,
}
#[put("/accounts/profile", data = "<data>")]
fn put_profile(data: JsonUpcase<ProfileData>, headers: Headers, conn: DbConn) -> JsonResult {
post_profile(data, headers, conn)
}
#[post("/accounts/profile", data = "<data>")]
fn post_profile(data: JsonUpcase<ProfileData>, headers: Headers, conn: DbConn) -> JsonResult {
let data: ProfileData = data.into_inner().data;
let mut user = headers.user;
user.name = data.Name;
user.password_hint = match data.MasterPasswordHint {
Some(ref h) if h.is_empty() => None,
_ => data.MasterPasswordHint,
};
user.save(&conn)?;
Ok(Json(user.to_json(&conn)))
}
#[get("/users/<uuid>/public-key")]
fn get_public_keys(uuid: String, _headers: Headers, conn: DbConn) -> JsonResult {
let user = match User::find_by_uuid(&uuid, &conn) {
Some(user) => user,
None => err!("User doesn't exist"),
};
Ok(Json(json!({
"UserId": user.uuid,
"PublicKey": user.public_key,
"Object":"userKey"
})))
}
#[post("/accounts/keys", data = "<data>")]
fn post_keys(data: JsonUpcase<KeysData>, headers: Headers, conn: DbConn) -> JsonResult {
let data: KeysData = data.into_inner().data;
let mut user = headers.user;
user.private_key = Some(data.EncryptedPrivateKey);
user.public_key = Some(data.PublicKey);
user.save(&conn)?;
Ok(Json(json!({
"PrivateKey": user.private_key,
"PublicKey": user.public_key,
"Object":"keys"
})))
}
#[derive(Deserialize)]
#[allow(non_snake_case)]
struct ChangePassData {
MasterPasswordHash: String,
NewMasterPasswordHash: String,
Key: String,
}
#[post("/accounts/password", data = "<data>")]
fn post_password(data: JsonUpcase<ChangePassData>, headers: Headers, conn: DbConn) -> EmptyResult {
let data: ChangePassData = data.into_inner().data;
let mut user = headers.user;
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password")
}
user.set_password(
&data.NewMasterPasswordHash,
Some(vec![String::from("post_rotatekey"), String::from("get_contacts")]),
);
user.akey = data.Key;
user.save(&conn)
}
#[derive(Deserialize)]
#[allow(non_snake_case)]
struct ChangeKdfData {
Kdf: i32,
KdfIterations: i32,
MasterPasswordHash: String,
NewMasterPasswordHash: String,
Key: String,
}
#[post("/accounts/kdf", data = "<data>")]
fn post_kdf(data: JsonUpcase<ChangeKdfData>, headers: Headers, conn: DbConn) -> EmptyResult {
let data: ChangeKdfData = data.into_inner().data;
let mut user = headers.user;
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password")
}
user.client_kdf_iter = data.KdfIterations;
user.client_kdf_type = data.Kdf;
user.set_password(&data.NewMasterPasswordHash, None);
user.akey = data.Key;
user.save(&conn)
}
#[derive(Deserialize)]
#[allow(non_snake_case)]
struct UpdateFolderData {
Id: String,
Name: String,
}
use super::ciphers::CipherData;
#[derive(Deserialize)]
#[allow(non_snake_case)]
struct KeyData {
Ciphers: Vec<CipherData>,
Folders: Vec<UpdateFolderData>,
Key: String,
PrivateKey: String,
MasterPasswordHash: String,
}
#[post("/accounts/key", data = "<data>")]
fn post_rotatekey(data: JsonUpcase<KeyData>, headers: Headers, conn: DbConn, nt: Notify) -> EmptyResult {
let data: KeyData = data.into_inner().data;
if !headers.user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password")
}
let user_uuid = &headers.user.uuid;
// Update folder data
for folder_data in data.Folders {
let mut saved_folder = match Folder::find_by_uuid(&folder_data.Id, &conn) {
Some(folder) => folder,
None => err!("Folder doesn't exist"),
};
if &saved_folder.user_uuid != user_uuid {
err!("The folder is not owned by the user")
}
saved_folder.name = folder_data.Name;
saved_folder.save(&conn)?
}
// Update cipher data
use super::ciphers::update_cipher_from_data;
for cipher_data in data.Ciphers {
let mut saved_cipher = match Cipher::find_by_uuid(cipher_data.Id.as_ref().unwrap(), &conn) {
Some(cipher) => cipher,
None => err!("Cipher doesn't exist"),
};
if saved_cipher.user_uuid.as_ref().unwrap() != user_uuid {
err!("The cipher is not owned by the user")
}
// Prevent triggering cipher updates via WebSockets by settings UpdateType::None
// The user sessions are invalidated because all the ciphers were re-encrypted and thus triggering an update could cause issues.
update_cipher_from_data(&mut saved_cipher, cipher_data, &headers, false, &conn, &nt, UpdateType::None)?
}
// Update user data
let mut user = headers.user;
user.akey = data.Key;
user.private_key = Some(data.PrivateKey);
user.reset_security_stamp();
user.save(&conn)
}
#[post("/accounts/security-stamp", data = "<data>")]
fn post_sstamp(data: JsonUpcase<PasswordData>, headers: Headers, conn: DbConn) -> EmptyResult {
let data: PasswordData = data.into_inner().data;
let mut user = headers.user;
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password")
}
Device::delete_all_by_user(&user.uuid, &conn)?;
user.reset_security_stamp();
user.save(&conn)
}
#[derive(Deserialize)]
#[allow(non_snake_case)]
struct EmailTokenData {
MasterPasswordHash: String,
NewEmail: String,
}
#[post("/accounts/email-token", data = "<data>")]
fn post_email_token(data: JsonUpcase<EmailTokenData>, headers: Headers, conn: DbConn) -> EmptyResult {
let data: EmailTokenData = data.into_inner().data;
let mut user = headers.user;
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password")
}
if User::find_by_mail(&data.NewEmail, &conn).is_some() {
err!("Email already in use");
}
if !CONFIG.is_email_domain_allowed(&data.NewEmail) {
err!("Email domain not allowed");
}
let token = crypto::generate_token(6)?;
if CONFIG.mail_enabled() {
if let Err(e) = mail::send_change_email(&data.NewEmail, &token) {
error!("Error sending change-email email: {:#?}", e);
}
}
user.email_new = Some(data.NewEmail);
user.email_new_token = Some(token);
user.save(&conn)
}
#[derive(Deserialize)]
#[allow(non_snake_case)]
struct ChangeEmailData {
MasterPasswordHash: String,
NewEmail: String,
Key: String,
NewMasterPasswordHash: String,
Token: NumberOrString,
}
#[post("/accounts/email", data = "<data>")]
fn post_email(data: JsonUpcase<ChangeEmailData>, headers: Headers, conn: DbConn) -> EmptyResult {
let data: ChangeEmailData = data.into_inner().data;
let mut user = headers.user;
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password")
}
if User::find_by_mail(&data.NewEmail, &conn).is_some() {
err!("Email already in use");
}
match user.email_new {
Some(ref val) => {
if val != &data.NewEmail {
err!("Email change mismatch");
}
}
None => err!("No email change pending"),
}
if CONFIG.mail_enabled() {
// Only check the token if we sent out an email...
match user.email_new_token {
Some(ref val) => {
if *val != data.Token.into_string() {
err!("Token mismatch");
}
}
None => err!("No email change pending"),
}
user.verified_at = Some(Utc::now().naive_utc());
} else {
user.verified_at = None;
}
user.email = data.NewEmail;
user.email_new = None;
user.email_new_token = None;
user.set_password(&data.NewMasterPasswordHash, None);
user.akey = data.Key;
user.save(&conn)
}
#[post("/accounts/verify-email")]
fn post_verify_email(headers: Headers, _conn: DbConn) -> EmptyResult {
let user = headers.user;
if !CONFIG.mail_enabled() {
err!("Cannot verify email address");
}
if let Err(e) = mail::send_verify_email(&user.email, &user.uuid) {
error!("Error sending verify_email email: {:#?}", e);
}
Ok(())
}
#[derive(Deserialize)]
#[allow(non_snake_case)]
struct VerifyEmailTokenData {
UserId: String,
Token: String,
}
#[post("/accounts/verify-email-token", data = "<data>")]
fn post_verify_email_token(data: JsonUpcase<VerifyEmailTokenData>, conn: DbConn) -> EmptyResult {
let data: VerifyEmailTokenData = data.into_inner().data;
let mut user = match User::find_by_uuid(&data.UserId, &conn) {
Some(user) => user,
None => err!("User doesn't exist"),
};
let claims = match decode_verify_email(&data.Token) {
Ok(claims) => claims,
Err(_) => err!("Invalid claim"),
};
if claims.sub != user.uuid {
err!("Invalid claim");
}
user.verified_at = Some(Utc::now().naive_utc());
user.last_verifying_at = None;
user.login_verify_count = 0;
if let Err(e) = user.save(&conn) {
error!("Error saving email verification: {:#?}", e);
}
Ok(())
}
#[derive(Deserialize)]
#[allow(non_snake_case)]
struct DeleteRecoverData {
Email: String,
}
#[post("/accounts/delete-recover", data = "<data>")]
fn post_delete_recover(data: JsonUpcase<DeleteRecoverData>, conn: DbConn) -> EmptyResult {
let data: DeleteRecoverData = data.into_inner().data;
let user = User::find_by_mail(&data.Email, &conn);
if CONFIG.mail_enabled() {
if let Some(user) = user {
if let Err(e) = mail::send_delete_account(&user.email, &user.uuid) {
error!("Error sending delete account email: {:#?}", e);
}
}
Ok(())
} else {
// We don't support sending emails, but we shouldn't allow anybody
// to delete accounts without at least logging in... And if the user
// cannot remember their password then they will need to contact
// the administrator to delete it...
err!("Please contact the administrator to delete your account");
}
}
#[derive(Deserialize)]
#[allow(non_snake_case)]
struct DeleteRecoverTokenData {
UserId: String,
Token: String,
}
#[post("/accounts/delete-recover-token", data = "<data>")]
fn post_delete_recover_token(data: JsonUpcase<DeleteRecoverTokenData>, conn: DbConn) -> EmptyResult {
let data: DeleteRecoverTokenData = data.into_inner().data;
let user = match User::find_by_uuid(&data.UserId, &conn) {
Some(user) => user,
None => err!("User doesn't exist"),
};
let claims = match decode_delete(&data.Token) {
Ok(claims) => claims,
Err(_) => err!("Invalid claim"),
};
if claims.sub != user.uuid {
err!("Invalid claim");
}
user.delete(&conn)
}
#[post("/accounts/delete", data = "<data>")]
fn post_delete_account(data: JsonUpcase<PasswordData>, headers: Headers, conn: DbConn) -> EmptyResult {
delete_account(data, headers, conn)
}
#[delete("/accounts", data = "<data>")]
fn delete_account(data: JsonUpcase<PasswordData>, headers: Headers, conn: DbConn) -> EmptyResult {
let data: PasswordData = data.into_inner().data;
let user = headers.user;
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password")
}
user.delete(&conn)
}
#[get("/accounts/revision-date")]
fn revision_date(headers: Headers) -> String {
let revision_date = headers.user.updated_at.timestamp_millis();
revision_date.to_string()
}
#[derive(Deserialize)]
#[allow(non_snake_case)]
struct PasswordHintData {
Email: String,
}
#[post("/accounts/password-hint", data = "<data>")]
fn password_hint(data: JsonUpcase<PasswordHintData>, conn: DbConn) -> EmptyResult {
if !CONFIG.mail_enabled() && !CONFIG.show_password_hint() {
err!("This server is not configured to provide password hints.");
}
const NO_HINT: &str = "Sorry, you have no password hint...";
let data: PasswordHintData = data.into_inner().data;
let email = &data.Email;
match User::find_by_mail(email, &conn) {
None => {
// To prevent user enumeration, act as if the user exists.
if CONFIG.mail_enabled() {
// There is still a timing side channel here in that the code
// paths that send mail take noticeably longer than ones that
// don't. Add a randomized sleep to mitigate this somewhat.
use rand::{thread_rng, Rng};
let mut rng = thread_rng();
let base = 1000;
let delta: i32 = 100;
let sleep_ms = (base + rng.gen_range(-delta..=delta)) as u64;
std::thread::sleep(std::time::Duration::from_millis(sleep_ms));
Ok(())
} else {
err!(NO_HINT);
}
}
Some(user) => {
let hint: Option<String> = user.password_hint;
if CONFIG.mail_enabled() {
mail::send_password_hint(email, hint)?;
Ok(())
} else if let Some(hint) = hint {
err!(format!("Your password hint is: {}", hint));
} else {
err!(NO_HINT);
}
}
}
}
#[derive(Deserialize)]
#[allow(non_snake_case)]
struct PreloginData {
Email: String,
}
#[post("/accounts/prelogin", data = "<data>")]
fn prelogin(data: JsonUpcase<PreloginData>, conn: DbConn) -> Json<Value> {
let data: PreloginData = data.into_inner().data;
let (kdf_type, kdf_iter) = match User::find_by_mail(&data.Email, &conn) {
Some(user) => (user.client_kdf_type, user.client_kdf_iter),
None => (User::CLIENT_KDF_TYPE_DEFAULT, User::CLIENT_KDF_ITER_DEFAULT),
};
Json(json!({
"Kdf": kdf_type,
"KdfIterations": kdf_iter
}))
}
#[derive(Deserialize)]
#[allow(non_snake_case)]
struct VerifyPasswordData {
MasterPasswordHash: String,
}
#[post("/accounts/verify-password", data = "<data>")]
fn verify_password(data: JsonUpcase<VerifyPasswordData>, headers: Headers, _conn: DbConn) -> EmptyResult {
let data: VerifyPasswordData = data.into_inner().data;
let user = headers.user;
if !user.check_valid_password(&data.MasterPasswordHash) {
err!("Invalid password")
}
Ok(())
}
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