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vaultwarden/src/auth.rs

741 Zeilen
23 KiB
Rust

// JWT Handling
//
use chrono::{Duration, Utc};
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use num_traits::FromPrimitive;
use once_cell::sync::Lazy;
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use jsonwebtoken::{self, errors::ErrorKind, Algorithm, DecodingKey, EncodingKey, Header};
use serde::de::DeserializeOwned;
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use serde::ser::Serialize;
use crate::{error::Error, CONFIG};
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const JWT_ALGORITHM: Algorithm = Algorithm::RS256;
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pub static DEFAULT_VALIDITY: Lazy<Duration> = Lazy::new(|| Duration::hours(2));
static JWT_HEADER: Lazy<Header> = Lazy::new(|| Header::new(JWT_ALGORITHM));
pub static JWT_LOGIN_ISSUER: Lazy<String> = Lazy::new(|| format!("{}|login", CONFIG.domain_origin()));
static JWT_INVITE_ISSUER: Lazy<String> = Lazy::new(|| format!("{}|invite", CONFIG.domain_origin()));
static JWT_EMERGENCY_ACCESS_INVITE_ISSUER: Lazy<String> =
Lazy::new(|| format!("{}|emergencyaccessinvite", CONFIG.domain_origin()));
static JWT_DELETE_ISSUER: Lazy<String> = Lazy::new(|| format!("{}|delete", CONFIG.domain_origin()));
static JWT_VERIFYEMAIL_ISSUER: Lazy<String> = Lazy::new(|| format!("{}|verifyemail", CONFIG.domain_origin()));
static JWT_ADMIN_ISSUER: Lazy<String> = Lazy::new(|| format!("{}|admin", CONFIG.domain_origin()));
static JWT_SEND_ISSUER: Lazy<String> = Lazy::new(|| format!("{}|send", CONFIG.domain_origin()));
static PRIVATE_RSA_KEY_VEC: Lazy<Vec<u8>> = Lazy::new(|| {
std::fs::read(CONFIG.private_rsa_key()).unwrap_or_else(|e| panic!("Error loading private RSA Key.\n{e}"))
});
static PRIVATE_RSA_KEY: Lazy<EncodingKey> = Lazy::new(|| {
EncodingKey::from_rsa_pem(&PRIVATE_RSA_KEY_VEC).unwrap_or_else(|e| panic!("Error decoding private RSA Key.\n{e}"))
});
static PUBLIC_RSA_KEY_VEC: Lazy<Vec<u8>> = Lazy::new(|| {
std::fs::read(CONFIG.public_rsa_key()).unwrap_or_else(|e| panic!("Error loading public RSA Key.\n{e}"))
});
static PUBLIC_RSA_KEY: Lazy<DecodingKey> = Lazy::new(|| {
DecodingKey::from_rsa_pem(&PUBLIC_RSA_KEY_VEC).unwrap_or_else(|e| panic!("Error decoding public RSA Key.\n{e}"))
});
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pub fn load_keys() {
Lazy::force(&PRIVATE_RSA_KEY);
Lazy::force(&PUBLIC_RSA_KEY);
}
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pub fn encode_jwt<T: Serialize>(claims: &T) -> String {
match jsonwebtoken::encode(&JWT_HEADER, claims, &PRIVATE_RSA_KEY) {
Ok(token) => token,
Err(e) => panic!("Error encoding jwt {e}"),
}
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}
fn decode_jwt<T: DeserializeOwned>(token: &str, issuer: String) -> Result<T, Error> {
let mut validation = jsonwebtoken::Validation::new(JWT_ALGORITHM);
validation.leeway = 30; // 30 seconds
validation.validate_exp = true;
validation.validate_nbf = true;
validation.set_issuer(&[issuer]);
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let token = token.replace(char::is_whitespace, "");
match jsonwebtoken::decode(&token, &PUBLIC_RSA_KEY, &validation) {
Ok(d) => Ok(d.claims),
Err(err) => match *err.kind() {
ErrorKind::InvalidToken => err!("Token is invalid"),
ErrorKind::InvalidIssuer => err!("Issuer is invalid"),
ErrorKind::ExpiredSignature => err!("Token has expired"),
_ => err!("Error decoding JWT"),
},
}
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}
pub fn decode_login(token: &str) -> Result<LoginJwtClaims, Error> {
decode_jwt(token, JWT_LOGIN_ISSUER.to_string())
}
pub fn decode_invite(token: &str) -> Result<InviteJwtClaims, Error> {
decode_jwt(token, JWT_INVITE_ISSUER.to_string())
}
pub fn decode_emergency_access_invite(token: &str) -> Result<EmergencyAccessInviteJwtClaims, Error> {
decode_jwt(token, JWT_EMERGENCY_ACCESS_INVITE_ISSUER.to_string())
}
pub fn decode_delete(token: &str) -> Result<BasicJwtClaims, Error> {
decode_jwt(token, JWT_DELETE_ISSUER.to_string())
}
pub fn decode_verify_email(token: &str) -> Result<BasicJwtClaims, Error> {
decode_jwt(token, JWT_VERIFYEMAIL_ISSUER.to_string())
}
pub fn decode_admin(token: &str) -> Result<BasicJwtClaims, Error> {
decode_jwt(token, JWT_ADMIN_ISSUER.to_string())
}
pub fn decode_send(token: &str) -> Result<BasicJwtClaims, Error> {
decode_jwt(token, JWT_SEND_ISSUER.to_string())
}
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#[derive(Debug, Serialize, Deserialize)]
pub struct LoginJwtClaims {
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// Not before
pub nbf: i64,
// Expiration time
pub exp: i64,
// Issuer
pub iss: String,
// Subject
pub sub: String,
pub premium: bool,
pub name: String,
pub email: String,
pub email_verified: bool,
pub orgowner: Vec<String>,
pub orgadmin: Vec<String>,
pub orguser: Vec<String>,
pub orgmanager: Vec<String>,
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// user security_stamp
pub sstamp: String,
// device uuid
pub device: String,
// [ "api", "offline_access" ]
pub scope: Vec<String>,
// [ "Application" ]
pub amr: Vec<String>,
}
#[derive(Debug, Serialize, Deserialize)]
pub struct InviteJwtClaims {
// Not before
pub nbf: i64,
// Expiration time
pub exp: i64,
// Issuer
pub iss: String,
// Subject
pub sub: String,
pub email: String,
pub org_id: Option<String>,
pub user_org_id: Option<String>,
pub invited_by_email: Option<String>,
}
pub fn generate_invite_claims(
uuid: String,
email: String,
org_id: Option<String>,
user_org_id: Option<String>,
invited_by_email: Option<String>,
) -> InviteJwtClaims {
let time_now = Utc::now().naive_utc();
let expire_hours = i64::from(CONFIG.invitation_expiration_hours());
InviteJwtClaims {
nbf: time_now.timestamp(),
exp: (time_now + Duration::hours(expire_hours)).timestamp(),
iss: JWT_INVITE_ISSUER.to_string(),
sub: uuid,
email,
org_id,
user_org_id,
invited_by_email,
}
}
#[derive(Debug, Serialize, Deserialize)]
pub struct EmergencyAccessInviteJwtClaims {
// Not before
pub nbf: i64,
// Expiration time
pub exp: i64,
// Issuer
pub iss: String,
// Subject
pub sub: String,
pub email: String,
pub emer_id: String,
pub grantor_name: String,
pub grantor_email: String,
}
pub fn generate_emergency_access_invite_claims(
uuid: String,
email: String,
emer_id: String,
grantor_name: String,
grantor_email: String,
) -> EmergencyAccessInviteJwtClaims {
let time_now = Utc::now().naive_utc();
let expire_hours = i64::from(CONFIG.invitation_expiration_hours());
EmergencyAccessInviteJwtClaims {
nbf: time_now.timestamp(),
exp: (time_now + Duration::hours(expire_hours)).timestamp(),
iss: JWT_EMERGENCY_ACCESS_INVITE_ISSUER.to_string(),
sub: uuid,
email,
emer_id,
grantor_name,
grantor_email,
}
}
#[derive(Debug, Serialize, Deserialize)]
pub struct BasicJwtClaims {
// Not before
pub nbf: i64,
// Expiration time
pub exp: i64,
// Issuer
pub iss: String,
// Subject
pub sub: String,
}
pub fn generate_delete_claims(uuid: String) -> BasicJwtClaims {
let time_now = Utc::now().naive_utc();
let expire_hours = i64::from(CONFIG.invitation_expiration_hours());
BasicJwtClaims {
nbf: time_now.timestamp(),
exp: (time_now + Duration::hours(expire_hours)).timestamp(),
iss: JWT_DELETE_ISSUER.to_string(),
sub: uuid,
}
}
pub fn generate_verify_email_claims(uuid: String) -> BasicJwtClaims {
let time_now = Utc::now().naive_utc();
let expire_hours = i64::from(CONFIG.invitation_expiration_hours());
BasicJwtClaims {
nbf: time_now.timestamp(),
exp: (time_now + Duration::hours(expire_hours)).timestamp(),
iss: JWT_VERIFYEMAIL_ISSUER.to_string(),
sub: uuid,
}
}
pub fn generate_admin_claims() -> BasicJwtClaims {
let time_now = Utc::now().naive_utc();
BasicJwtClaims {
nbf: time_now.timestamp(),
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exp: (time_now + Duration::minutes(CONFIG.admin_session_lifetime())).timestamp(),
iss: JWT_ADMIN_ISSUER.to_string(),
sub: "admin_panel".to_string(),
}
}
pub fn generate_send_claims(send_id: &str, file_id: &str) -> BasicJwtClaims {
let time_now = Utc::now().naive_utc();
BasicJwtClaims {
nbf: time_now.timestamp(),
exp: (time_now + Duration::minutes(2)).timestamp(),
iss: JWT_SEND_ISSUER.to_string(),
sub: format!("{send_id}/{file_id}"),
}
}
//
// Bearer token authentication
//
use rocket::{
outcome::try_outcome,
request::{FromRequest, Outcome, Request},
};
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use crate::db::{
models::{Collection, Device, User, UserOrgStatus, UserOrgType, UserOrganization, UserStampException},
DbConn,
};
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pub struct Host {
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pub host: String,
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}
#[rocket::async_trait]
impl<'r> FromRequest<'r> for Host {
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type Error = &'static str;
async fn from_request(request: &'r Request<'_>) -> Outcome<Self, Self::Error> {
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let headers = request.headers();
// Get host
let host = if CONFIG.domain_set() {
CONFIG.domain()
} else if let Some(referer) = headers.get_one("Referer") {
referer.to_string()
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} else {
// Try to guess from the headers
use std::env;
let protocol = if let Some(proto) = headers.get_one("X-Forwarded-Proto") {
proto
} else if env::var("ROCKET_TLS").is_ok() {
"https"
} else {
"http"
};
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let host = if let Some(host) = headers.get_one("X-Forwarded-Host") {
host
} else if let Some(host) = headers.get_one("Host") {
host
} else {
""
};
format!("{protocol}://{host}")
};
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Outcome::Success(Host {
host,
})
}
}
pub struct ClientHeaders {
pub host: String,
pub device_type: i32,
pub ip: ClientIp,
}
#[rocket::async_trait]
impl<'r> FromRequest<'r> for ClientHeaders {
type Error = &'static str;
async fn from_request(request: &'r Request<'_>) -> Outcome<Self, Self::Error> {
let host = try_outcome!(Host::from_request(request).await).host;
let ip = match ClientIp::from_request(request).await {
Outcome::Success(ip) => ip,
_ => err_handler!("Error getting Client IP"),
};
// When unknown or unable to parse, return 14, which is 'Unknown Browser'
let device_type: i32 =
request.headers().get_one("device-type").map(|d| d.parse().unwrap_or(14)).unwrap_or_else(|| 14);
Outcome::Success(ClientHeaders {
host,
device_type,
ip,
})
}
}
pub struct Headers {
pub host: String,
pub device: Device,
pub user: User,
pub ip: ClientIp,
}
#[rocket::async_trait]
impl<'r> FromRequest<'r> for Headers {
type Error = &'static str;
async fn from_request(request: &'r Request<'_>) -> Outcome<Self, Self::Error> {
let headers = request.headers();
let host = try_outcome!(Host::from_request(request).await).host;
let ip = match ClientIp::from_request(request).await {
Outcome::Success(ip) => ip,
_ => err_handler!("Error getting Client IP"),
};
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// Get access_token
let access_token: &str = match headers.get_one("Authorization") {
Some(a) => match a.rsplit("Bearer ").next() {
Some(split) => split,
None => err_handler!("No access token provided"),
},
None => err_handler!("No access token provided"),
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};
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// Check JWT token is valid and get device and user from it
let claims = match decode_login(access_token) {
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Ok(claims) => claims,
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Err(_) => err_handler!("Invalid claim"),
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};
let device_uuid = claims.device;
let user_uuid = claims.sub;
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let mut conn = match DbConn::from_request(request).await {
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Outcome::Success(conn) => conn,
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_ => err_handler!("Error getting DB"),
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};
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let device = match Device::find_by_uuid_and_user(&device_uuid, &user_uuid, &mut conn).await {
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Some(device) => device,
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None => err_handler!("Invalid device id"),
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};
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let user = match User::find_by_uuid(&user_uuid, &mut conn).await {
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Some(user) => user,
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None => err_handler!("Device has no user associated"),
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};
if user.security_stamp != claims.sstamp {
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if let Some(stamp_exception) =
user.stamp_exception.as_deref().and_then(|s| serde_json::from_str::<UserStampException>(s).ok())
{
let current_route = match request.route().and_then(|r| r.name.as_deref()) {
Some(name) => name,
_ => err_handler!("Error getting current route for stamp exception"),
};
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// Check if the stamp exception has expired first.
// Then, check if the current route matches any of the allowed routes.
// After that check the stamp in exception matches the one in the claims.
if Utc::now().naive_utc().timestamp() > stamp_exception.expire {
// If the stamp exception has been expired remove it from the database.
// This prevents checking this stamp exception for new requests.
let mut user = user;
user.reset_stamp_exception();
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if let Err(e) = user.save(&mut conn).await {
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error!("Error updating user: {:#?}", e);
}
err_handler!("Stamp exception is expired")
} else if !stamp_exception.routes.contains(&current_route.to_string()) {
err_handler!("Invalid security stamp: Current route and exception route do not match")
} else if stamp_exception.security_stamp != claims.sstamp {
err_handler!("Invalid security stamp for matched stamp exception")
}
} else {
err_handler!("Invalid security stamp")
}
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}
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Outcome::Success(Headers {
host,
device,
user,
ip,
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})
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}
}
pub struct OrgHeaders {
pub host: String,
pub device: Device,
pub user: User,
pub org_user_type: UserOrgType,
pub org_user: UserOrganization,
pub org_id: String,
pub ip: ClientIp,
}
// org_id is usually the second path param ("/organizations/<org_id>"),
// but there are cases where it is a query value.
// First check the path, if this is not a valid uuid, try the query values.
fn get_org_id(request: &Request<'_>) -> Option<String> {
if let Some(Ok(org_id)) = request.param::<String>(1) {
if uuid::Uuid::parse_str(&org_id).is_ok() {
return Some(org_id);
}
}
if let Some(Ok(org_id)) = request.query_value::<String>("organizationId") {
if uuid::Uuid::parse_str(&org_id).is_ok() {
return Some(org_id);
}
}
None
}
#[rocket::async_trait]
impl<'r> FromRequest<'r> for OrgHeaders {
type Error = &'static str;
async fn from_request(request: &'r Request<'_>) -> Outcome<Self, Self::Error> {
let headers = try_outcome!(Headers::from_request(request).await);
match get_org_id(request) {
Some(org_id) => {
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let mut conn = match DbConn::from_request(request).await {
Outcome::Success(conn) => conn,
_ => err_handler!("Error getting DB"),
};
let user = headers.user;
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let org_user = match UserOrganization::find_by_user_and_org(&user.uuid, &org_id, &mut conn).await {
Some(user) => {
if user.status == UserOrgStatus::Confirmed as i32 {
user
} else {
err_handler!("The current user isn't confirmed member of the organization")
}
}
None => err_handler!("The current user isn't member of the organization"),
};
Outcome::Success(Self {
host: headers.host,
device: headers.device,
user,
org_user_type: {
if let Some(org_usr_type) = UserOrgType::from_i32(org_user.atype) {
org_usr_type
} else {
// This should only happen if the DB is corrupted
err_handler!("Unknown user type in the database")
}
},
org_user,
org_id,
ip: headers.ip,
})
}
_ => err_handler!("Error getting the organization id"),
}
}
}
pub struct AdminHeaders {
pub host: String,
pub device: Device,
pub user: User,
pub org_user_type: UserOrgType,
pub client_version: Option<String>,
pub ip: ClientIp,
}
#[rocket::async_trait]
impl<'r> FromRequest<'r> for AdminHeaders {
type Error = &'static str;
async fn from_request(request: &'r Request<'_>) -> Outcome<Self, Self::Error> {
let headers = try_outcome!(OrgHeaders::from_request(request).await);
let client_version = request.headers().get_one("Bitwarden-Client-Version").map(String::from);
if headers.org_user_type >= UserOrgType::Admin {
Outcome::Success(Self {
host: headers.host,
device: headers.device,
user: headers.user,
org_user_type: headers.org_user_type,
client_version,
ip: headers.ip,
})
} else {
err_handler!("You need to be Admin or Owner to call this endpoint")
}
}
}
impl From<AdminHeaders> for Headers {
fn from(h: AdminHeaders) -> Headers {
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Headers {
host: h.host,
device: h.device,
user: h.user,
ip: h.ip,
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}
}
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}
// col_id is usually the fourth path param ("/organizations/<org_id>/collections/<col_id>"),
// but there could be cases where it is a query value.
// First check the path, if this is not a valid uuid, try the query values.
fn get_col_id(request: &Request<'_>) -> Option<String> {
if let Some(Ok(col_id)) = request.param::<String>(3) {
if uuid::Uuid::parse_str(&col_id).is_ok() {
return Some(col_id);
}
}
if let Some(Ok(col_id)) = request.query_value::<String>("collectionId") {
if uuid::Uuid::parse_str(&col_id).is_ok() {
return Some(col_id);
}
}
None
}
/// The ManagerHeaders are used to check if you are at least a Manager
/// and have access to the specific collection provided via the <col_id>/collections/collectionId.
/// This does strict checking on the collection_id, ManagerHeadersLoose does not.
pub struct ManagerHeaders {
pub host: String,
pub device: Device,
pub user: User,
pub org_user_type: UserOrgType,
pub ip: ClientIp,
}
#[rocket::async_trait]
impl<'r> FromRequest<'r> for ManagerHeaders {
type Error = &'static str;
async fn from_request(request: &'r Request<'_>) -> Outcome<Self, Self::Error> {
let headers = try_outcome!(OrgHeaders::from_request(request).await);
if headers.org_user_type >= UserOrgType::Manager {
match get_col_id(request) {
Some(col_id) => {
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let mut conn = match DbConn::from_request(request).await {
Outcome::Success(conn) => conn,
_ => err_handler!("Error getting DB"),
};
if !headers.org_user.has_full_access()
&& !Collection::has_access_by_collection_and_user_uuid(
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&col_id,
&headers.org_user.user_uuid,
&mut conn,
)
.await
{
err_handler!("The current user isn't a manager for this collection")
}
}
_ => err_handler!("Error getting the collection id"),
}
Outcome::Success(Self {
host: headers.host,
device: headers.device,
user: headers.user,
org_user_type: headers.org_user_type,
ip: headers.ip,
})
} else {
err_handler!("You need to be a Manager, Admin or Owner to call this endpoint")
}
}
}
impl From<ManagerHeaders> for Headers {
fn from(h: ManagerHeaders) -> Headers {
Headers {
host: h.host,
device: h.device,
user: h.user,
ip: h.ip,
}
}
}
/// The ManagerHeadersLoose is used when you at least need to be a Manager,
/// but there is no collection_id sent with the request (either in the path or as form data).
pub struct ManagerHeadersLoose {
pub host: String,
pub device: Device,
pub user: User,
pub org_user_type: UserOrgType,
pub ip: ClientIp,
}
#[rocket::async_trait]
impl<'r> FromRequest<'r> for ManagerHeadersLoose {
type Error = &'static str;
async fn from_request(request: &'r Request<'_>) -> Outcome<Self, Self::Error> {
let headers = try_outcome!(OrgHeaders::from_request(request).await);
if headers.org_user_type >= UserOrgType::Manager {
Outcome::Success(Self {
host: headers.host,
device: headers.device,
user: headers.user,
org_user_type: headers.org_user_type,
ip: headers.ip,
})
} else {
err_handler!("You need to be a Manager, Admin or Owner to call this endpoint")
}
}
}
impl From<ManagerHeadersLoose> for Headers {
fn from(h: ManagerHeadersLoose) -> Headers {
Headers {
host: h.host,
device: h.device,
user: h.user,
ip: h.ip,
}
}
}
pub struct OwnerHeaders {
pub host: String,
pub device: Device,
pub user: User,
pub ip: ClientIp,
}
#[rocket::async_trait]
impl<'r> FromRequest<'r> for OwnerHeaders {
type Error = &'static str;
async fn from_request(request: &'r Request<'_>) -> Outcome<Self, Self::Error> {
let headers = try_outcome!(OrgHeaders::from_request(request).await);
if headers.org_user_type == UserOrgType::Owner {
Outcome::Success(Self {
host: headers.host,
device: headers.device,
user: headers.user,
ip: headers.ip,
})
} else {
err_handler!("You need to be Owner to call this endpoint")
}
}
}
//
// Client IP address detection
//
use std::net::IpAddr;
pub struct ClientIp {
pub ip: IpAddr,
}
#[rocket::async_trait]
impl<'r> FromRequest<'r> for ClientIp {
type Error = ();
async fn from_request(req: &'r Request<'_>) -> Outcome<Self, Self::Error> {
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let ip = if CONFIG._ip_header_enabled() {
req.headers().get_one(&CONFIG.ip_header()).and_then(|ip| {
match ip.find(',') {
Some(idx) => &ip[..idx],
None => ip,
}
.parse()
.map_err(|_| warn!("'{}' header is malformed: {}", CONFIG.ip_header(), ip))
.ok()
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})
} else {
None
};
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let ip = ip.or_else(|| req.remote().map(|r| r.ip())).unwrap_or_else(|| "0.0.0.0".parse().unwrap());
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Outcome::Success(ClientIp {
ip,
})
}
}