//! Types for user handling. //! //! We have [`Username`]s, [`Realm`]s and [`Tokenname`]s. To uniquely identify a user/API token, they //! must be combined into a [`Userid`] or [`Authid`]. //! //! Since they're all string types, they're organized as follows: //! //! * [`Username`]: an owned user name. Internally a `String`. //! * [`UsernameRef`]: a borrowed user name. Pairs with a `Username` the same way a `str` pairs //! with `String`, meaning you can only make references to it. //! * [`Realm`]: an owned realm (`String` equivalent). //! * [`RealmRef`]: a borrowed realm (`str` equivalent). //! * [`Tokenname`]: an owned API token name (`String` equivalent) //! * [`TokennameRef`]: a borrowed `Tokenname` (`str` equivalent). //! * [`Userid`]: an owned user id (`"user@realm"`). //! * [`Authid`]: an owned Authentication ID (a `Userid` with an optional `Tokenname`). //! Note that `Userid` and `Authid` do not have a separate borrowed type. //! //! Note that `Username`s are not unique, therefore they do not implement `Eq` and cannot be //! compared directly. If a direct comparison is really required, they can be compared as strings //! via the `as_str()` method. [`Realm`]s, [`Userid`]s and [`Authid`]s on the other hand can be //! compared with each other, as in those cases the comparison has meaning. use std::borrow::Borrow; use std::convert::TryFrom; use std::fmt; use anyhow::{bail, format_err, Error}; use lazy_static::lazy_static; use serde::{Deserialize, Serialize}; use proxmox_schema::{ api, const_regex, ApiStringFormat, ApiType, Schema, StringSchema, UpdaterType, }; // we only allow a limited set of characters // colon is not allowed, because we store usernames in // colon separated lists)! // slash is not allowed because it is used as pve API delimiter // also see "man useradd" #[macro_export] macro_rules! USER_NAME_REGEX_STR { () => (r"(?:[^\s:/[:cntrl:]]+)") } #[macro_export] macro_rules! GROUP_NAME_REGEX_STR { () => (USER_NAME_REGEX_STR!()) } #[macro_export] macro_rules! TOKEN_NAME_REGEX_STR { () => (PROXMOX_SAFE_ID_REGEX_STR!()) } #[macro_export] macro_rules! USER_ID_REGEX_STR { () => (concat!(USER_NAME_REGEX_STR!(), r"@", PROXMOX_SAFE_ID_REGEX_STR!())) } #[macro_export] macro_rules! APITOKEN_ID_REGEX_STR { () => (concat!(USER_ID_REGEX_STR!() , r"!", TOKEN_NAME_REGEX_STR!())) } const_regex! { pub PROXMOX_USER_NAME_REGEX = concat!(r"^", USER_NAME_REGEX_STR!(), r"$"); pub PROXMOX_TOKEN_NAME_REGEX = concat!(r"^", TOKEN_NAME_REGEX_STR!(), r"$"); pub PROXMOX_USER_ID_REGEX = concat!(r"^", USER_ID_REGEX_STR!(), r"$"); pub PROXMOX_APITOKEN_ID_REGEX = concat!(r"^", APITOKEN_ID_REGEX_STR!(), r"$"); pub PROXMOX_AUTH_ID_REGEX = concat!(r"^", r"(?:", USER_ID_REGEX_STR!(), r"|", APITOKEN_ID_REGEX_STR!(), r")$"); pub PROXMOX_GROUP_ID_REGEX = concat!(r"^", GROUP_NAME_REGEX_STR!(), r"$"); } pub const PROXMOX_USER_NAME_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&PROXMOX_USER_NAME_REGEX); pub const PROXMOX_TOKEN_NAME_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&PROXMOX_TOKEN_NAME_REGEX); pub const PROXMOX_USER_ID_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&PROXMOX_USER_ID_REGEX); pub const PROXMOX_TOKEN_ID_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&PROXMOX_APITOKEN_ID_REGEX); pub const PROXMOX_AUTH_ID_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&PROXMOX_AUTH_ID_REGEX); pub const PROXMOX_TOKEN_ID_SCHEMA: Schema = StringSchema::new("API Token ID") .format(&PROXMOX_TOKEN_ID_FORMAT) .min_length(3) .max_length(64) .schema(); pub const PROXMOX_TOKEN_NAME_SCHEMA: Schema = StringSchema::new("API Token name") .format(&PROXMOX_TOKEN_NAME_FORMAT) .min_length(3) .max_length(64) .schema(); pub const PROXMOX_GROUP_ID_FORMAT: ApiStringFormat = ApiStringFormat::Pattern(&PROXMOX_GROUP_ID_REGEX); pub const PROXMOX_GROUP_ID_SCHEMA: Schema = StringSchema::new("Group ID") .format(&PROXMOX_GROUP_ID_FORMAT) .min_length(3) .max_length(64) .schema(); pub const PROXMOX_AUTH_REALM_STRING_SCHEMA: StringSchema = StringSchema::new("Authentication domain ID") .format(&super::PROXMOX_SAFE_ID_FORMAT) .min_length(3) .max_length(32); pub const PROXMOX_AUTH_REALM_SCHEMA: Schema = PROXMOX_AUTH_REALM_STRING_SCHEMA.schema(); #[api( type: String, format: &PROXMOX_USER_NAME_FORMAT, )] /// The user name part of a user id. /// /// This alone does NOT uniquely identify the user and therefore does not implement `Eq`. In order /// to compare user names directly, they need to be explicitly compared as strings by calling /// `.as_str()`. /// /// ```compile_fail /// fn test(a: Username, b: Username) -> bool { /// a == b // illegal and does not compile /// } /// ``` #[derive(Clone, Debug, Hash, Deserialize, Serialize)] pub struct Username(String); /// A reference to a user name part of a user id. This alone does NOT uniquely identify the user. /// /// This is like a `str` to the `String` of a [`Username`]. #[derive(Debug, Hash)] pub struct UsernameRef(str); impl UsernameRef { fn new(s: &str) -> &Self { unsafe { &*(s as *const str as *const UsernameRef) } } pub fn as_str(&self) -> &str { &self.0 } } impl std::ops::Deref for Username { type Target = UsernameRef; fn deref(&self) -> &UsernameRef { self.borrow() } } impl Borrow for Username { fn borrow(&self) -> &UsernameRef { UsernameRef::new(self.0.as_str()) } } impl AsRef for Username { fn as_ref(&self) -> &UsernameRef { self.borrow() } } impl ToOwned for UsernameRef { type Owned = Username; fn to_owned(&self) -> Self::Owned { Username(self.0.to_owned()) } } impl TryFrom for Username { type Error = Error; fn try_from(s: String) -> Result { if !PROXMOX_USER_NAME_REGEX.is_match(&s) { bail!("invalid user name"); } Ok(Self(s)) } } impl<'a> TryFrom<&'a str> for &'a UsernameRef { type Error = Error; fn try_from(s: &'a str) -> Result<&'a UsernameRef, Error> { if !PROXMOX_USER_NAME_REGEX.is_match(s) { bail!("invalid name in user id"); } Ok(UsernameRef::new(s)) } } #[api(schema: PROXMOX_AUTH_REALM_SCHEMA)] /// An authentication realm. #[derive(Clone, Debug, Eq, PartialEq, Hash, Deserialize, Serialize)] pub struct Realm(String); /// A reference to an authentication realm. /// /// This is like a `str` to the `String` of a `Realm`. #[derive(Debug, Hash, Eq, PartialEq)] pub struct RealmRef(str); impl RealmRef { fn new(s: &str) -> &Self { unsafe { &*(s as *const str as *const RealmRef) } } pub fn as_str(&self) -> &str { &self.0 } } impl std::ops::Deref for Realm { type Target = RealmRef; fn deref(&self) -> &RealmRef { self.borrow() } } impl Borrow for Realm { fn borrow(&self) -> &RealmRef { RealmRef::new(self.0.as_str()) } } impl AsRef for Realm { fn as_ref(&self) -> &RealmRef { self.borrow() } } impl ToOwned for RealmRef { type Owned = Realm; fn to_owned(&self) -> Self::Owned { Realm(self.0.to_owned()) } } impl TryFrom for Realm { type Error = Error; fn try_from(s: String) -> Result { PROXMOX_AUTH_REALM_STRING_SCHEMA.check_constraints(&s) .map_err(|_| format_err!("invalid realm"))?; Ok(Self(s)) } } impl<'a> TryFrom<&'a str> for &'a RealmRef { type Error = Error; fn try_from(s: &'a str) -> Result<&'a RealmRef, Error> { PROXMOX_AUTH_REALM_STRING_SCHEMA.check_constraints(s) .map_err(|_| format_err!("invalid realm"))?; Ok(RealmRef::new(s)) } } impl PartialEq for Realm { fn eq(&self, rhs: &str) -> bool { self.0 == rhs } } impl PartialEq<&str> for Realm { fn eq(&self, rhs: &&str) -> bool { self.0 == *rhs } } impl PartialEq for RealmRef { fn eq(&self, rhs: &str) -> bool { self.0 == *rhs } } impl PartialEq<&str> for RealmRef { fn eq(&self, rhs: &&str) -> bool { self.0 == **rhs } } impl PartialEq for Realm { fn eq(&self, rhs: &RealmRef) -> bool { self.0 == rhs.0 } } impl PartialEq for RealmRef { fn eq(&self, rhs: &Realm) -> bool { self.0 == rhs.0 } } impl PartialEq for &RealmRef { fn eq(&self, rhs: &Realm) -> bool { (*self).0 == rhs.0 } } #[api( type: String, format: &PROXMOX_TOKEN_NAME_FORMAT, )] /// The token ID part of an API token authentication id. /// /// This alone does NOT uniquely identify the API token - use a full `Authid` for such use cases. #[derive(Clone, Debug, Eq, Hash, PartialEq, Deserialize, Serialize)] pub struct Tokenname(String); /// A reference to a token name part of an authentication id. This alone does NOT uniquely identify /// the user. /// /// This is like a `str` to the `String` of a [`Tokenname`]. #[derive(Debug, Hash)] pub struct TokennameRef(str); #[doc(hidden)] /// ```compile_fail /// let a: Username = unsafe { std::mem::zeroed() }; /// let b: Username = unsafe { std::mem::zeroed() }; /// let _ = ::eq(&a, &b); /// ``` /// /// ```compile_fail /// let a: &UsernameRef = unsafe { std::mem::zeroed() }; /// let b: &UsernameRef = unsafe { std::mem::zeroed() }; /// let _ = <&UsernameRef as PartialEq>::eq(a, b); /// ``` /// /// ```compile_fail /// let a: &UsernameRef = unsafe { std::mem::zeroed() }; /// let b: &UsernameRef = unsafe { std::mem::zeroed() }; /// let _ = <&UsernameRef as PartialEq>::eq(&a, &b); /// ``` struct _AssertNoEqImpl; impl TokennameRef { fn new(s: &str) -> &Self { unsafe { &*(s as *const str as *const TokennameRef) } } pub fn as_str(&self) -> &str { &self.0 } } impl std::ops::Deref for Tokenname { type Target = TokennameRef; fn deref(&self) -> &TokennameRef { self.borrow() } } impl Borrow for Tokenname { fn borrow(&self) -> &TokennameRef { TokennameRef::new(self.0.as_str()) } } impl AsRef for Tokenname { fn as_ref(&self) -> &TokennameRef { self.borrow() } } impl ToOwned for TokennameRef { type Owned = Tokenname; fn to_owned(&self) -> Self::Owned { Tokenname(self.0.to_owned()) } } impl TryFrom for Tokenname { type Error = Error; fn try_from(s: String) -> Result { if !PROXMOX_TOKEN_NAME_REGEX.is_match(&s) { bail!("invalid token name"); } Ok(Self(s)) } } impl<'a> TryFrom<&'a str> for &'a TokennameRef { type Error = Error; fn try_from(s: &'a str) -> Result<&'a TokennameRef, Error> { if !PROXMOX_TOKEN_NAME_REGEX.is_match(s) { bail!("invalid token name in user id"); } Ok(TokennameRef::new(s)) } } /// A complete user id consisting of a user name and a realm #[derive(Clone, Debug, PartialEq, Eq, Hash, UpdaterType)] pub struct Userid { data: String, name_len: usize, } impl ApiType for Userid { const API_SCHEMA: Schema = StringSchema::new("User ID") .format(&PROXMOX_USER_ID_FORMAT) .min_length(3) .max_length(64) .schema(); } impl Userid { const fn new(data: String, name_len: usize) -> Self { Self { data, name_len } } pub fn name(&self) -> &UsernameRef { UsernameRef::new(&self.data[..self.name_len]) } pub fn realm(&self) -> &RealmRef { RealmRef::new(&self.data[(self.name_len + 1)..]) } pub fn as_str(&self) -> &str { &self.data } /// Get the "root@pam" user id. pub fn root_userid() -> &'static Self { &*ROOT_USERID } } lazy_static! { pub static ref ROOT_USERID: Userid = Userid::new("root@pam".to_string(), 4); } impl From for Userid { fn from(authid: Authid) -> Self { authid.user } } impl From<(Username, Realm)> for Userid { fn from(parts: (Username, Realm)) -> Self { Self::from((parts.0.as_ref(), parts.1.as_ref())) } } impl From<(&UsernameRef, &RealmRef)> for Userid { fn from(parts: (&UsernameRef, &RealmRef)) -> Self { let data = format!("{}@{}", parts.0.as_str(), parts.1.as_str()); let name_len = parts.0.as_str().len(); Self { data, name_len } } } impl fmt::Display for Userid { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { self.data.fmt(f) } } impl std::str::FromStr for Userid { type Err = Error; fn from_str(id: &str) -> Result { let name_len = id .as_bytes() .iter() .rposition(|&b| b == b'@') .ok_or_else(|| format_err!("not a valid user id"))?; let name = &id[..name_len]; let realm = &id[(name_len + 1)..]; if !PROXMOX_USER_NAME_REGEX.is_match(name) { bail!("invalid user name in user id"); } PROXMOX_AUTH_REALM_STRING_SCHEMA.check_constraints(realm) .map_err(|_| format_err!("invalid realm in user id"))?; Ok(Self::from((UsernameRef::new(name), RealmRef::new(realm)))) } } impl TryFrom for Userid { type Error = Error; fn try_from(data: String) -> Result { let name_len = data .as_bytes() .iter() .rposition(|&b| b == b'@') .ok_or_else(|| format_err!("not a valid user id"))?; if !PROXMOX_USER_NAME_REGEX.is_match(&data[..name_len]) { bail!("invalid user name in user id"); } PROXMOX_AUTH_REALM_STRING_SCHEMA.check_constraints(&data[(name_len + 1)..]) .map_err(|_| format_err!("invalid realm in user id"))?; Ok(Self { data, name_len }) } } impl PartialEq for Userid { fn eq(&self, rhs: &str) -> bool { self.data == *rhs } } impl PartialEq<&str> for Userid { fn eq(&self, rhs: &&str) -> bool { *self == **rhs } } impl PartialEq for Userid { fn eq(&self, rhs: &String) -> bool { self == rhs.as_str() } } /// A complete authentication id consisting of a user id and an optional token name. #[derive(Clone, Debug, Eq, PartialEq, Hash, UpdaterType)] pub struct Authid { user: Userid, tokenname: Option } impl ApiType for Authid { const API_SCHEMA: Schema = StringSchema::new("Authentication ID") .format(&PROXMOX_AUTH_ID_FORMAT) .min_length(3) .max_length(64) .schema(); } impl Authid { const fn new(user: Userid, tokenname: Option) -> Self { Self { user, tokenname } } pub fn user(&self) -> &Userid { &self.user } pub fn is_token(&self) -> bool { self.tokenname.is_some() } pub fn tokenname(&self) -> Option<&TokennameRef> { match &self.tokenname { Some(name) => Some(&name), None => None, } } /// Get the "root@pam" auth id. pub fn root_auth_id() -> &'static Self { &*ROOT_AUTHID } } lazy_static! { pub static ref ROOT_AUTHID: Authid = Authid::from(Userid::new("root@pam".to_string(), 4)); } impl From for Authid { fn from(parts: Userid) -> Self { Self::new(parts, None) } } impl From<(Userid, Option)> for Authid { fn from(parts: (Userid, Option)) -> Self { Self::new(parts.0, parts.1) } } impl fmt::Display for Authid { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match &self.tokenname { Some(token) => write!(f, "{}!{}", self.user, token.as_str()), None => self.user.fmt(f), } } } impl std::str::FromStr for Authid { type Err = Error; fn from_str(id: &str) -> Result { let name_len = id .as_bytes() .iter() .rposition(|&b| b == b'@') .ok_or_else(|| format_err!("not a valid user id"))?; let realm_end = id .as_bytes() .iter() .rposition(|&b| b == b'!') .map(|pos| if pos < name_len { id.len() } else { pos }) .unwrap_or_else(|| id.len()); if realm_end == id.len() - 1 { bail!("empty token name in userid"); } let user = Userid::from_str(&id[..realm_end])?; if id.len() > realm_end { let token = Tokenname::try_from(id[(realm_end + 1)..].to_string())?; Ok(Self::new(user, Some(token))) } else { Ok(Self::new(user, None)) } } } impl TryFrom for Authid { type Error = Error; fn try_from(mut data: String) -> Result { let name_len = data .as_bytes() .iter() .rposition(|&b| b == b'@') .ok_or_else(|| format_err!("not a valid user id"))?; let realm_end = data .as_bytes() .iter() .rposition(|&b| b == b'!') .map(|pos| if pos < name_len { data.len() } else { pos }) .unwrap_or_else(|| data.len()); if realm_end == data.len() - 1 { bail!("empty token name in userid"); } let tokenname = if data.len() > realm_end { Some(Tokenname::try_from(data[(realm_end + 1)..].to_string())?) } else { None }; data.truncate(realm_end); let user:Userid = data.parse()?; Ok(Self { user, tokenname }) } } #[test] fn test_token_id() { let userid: Userid = "test@pam".parse().expect("parsing Userid failed"); assert_eq!(userid.name().as_str(), "test"); assert_eq!(userid.realm(), "pam"); assert_eq!(userid, "test@pam"); let auth_id: Authid = "test@pam".parse().expect("parsing user Authid failed"); assert_eq!(auth_id.to_string(), "test@pam".to_string()); assert!(!auth_id.is_token()); assert_eq!(auth_id.user(), &userid); let user_auth_id = Authid::from(userid.clone()); assert_eq!(user_auth_id, auth_id); assert!(!user_auth_id.is_token()); let auth_id: Authid = "test@pam!bar".parse().expect("parsing token Authid failed"); let token_userid = auth_id.user(); assert_eq!(&userid, token_userid); assert!(auth_id.is_token()); assert_eq!(auth_id.tokenname().expect("Token has tokenname").as_str(), TokennameRef::new("bar").as_str()); assert_eq!(auth_id.to_string(), "test@pam!bar".to_string()); } proxmox_serde::forward_deserialize_to_from_str!(Userid); proxmox_serde::forward_serialize_to_display!(Userid); proxmox_serde::forward_deserialize_to_from_str!(Authid); proxmox_serde::forward_serialize_to_display!(Authid);