use std::io::Write; use std::collections::{HashMap, BTreeMap, BTreeSet}; use std::path::{PathBuf, Path}; use std::sync::{Arc, RwLock}; use std::str::FromStr; use anyhow::{bail, Error}; use lazy_static::lazy_static; use ::serde::{Deserialize, Serialize}; use serde::de::{value, IntoDeserializer}; use proxmox::tools::{fs::replace_file, fs::CreateOptions}; use proxmox::constnamedbitmap; use proxmox::api::{api, schema::*}; use crate::api2::types::{Authid,Userid}; // define Privilege bitfield constnamedbitmap! { /// Contains a list of Privileges PRIVILEGES: u64 => { PRIV_SYS_AUDIT("Sys.Audit"); PRIV_SYS_MODIFY("Sys.Modify"); PRIV_SYS_POWER_MANAGEMENT("Sys.PowerManagement"); PRIV_DATASTORE_AUDIT("Datastore.Audit"); PRIV_DATASTORE_ALLOCATE("Datastore.Allocate"); PRIV_DATASTORE_MODIFY("Datastore.Modify"); PRIV_DATASTORE_READ("Datastore.Read"); PRIV_DATASTORE_VERIFY("Datastore.Verify"); /// Datastore.Backup also requires backup ownership PRIV_DATASTORE_BACKUP("Datastore.Backup"); /// Datastore.Prune also requires backup ownership PRIV_DATASTORE_PRUNE("Datastore.Prune"); PRIV_PERMISSIONS_MODIFY("Permissions.Modify"); PRIV_REMOTE_AUDIT("Remote.Audit"); PRIV_REMOTE_MODIFY("Remote.Modify"); PRIV_REMOTE_READ("Remote.Read"); PRIV_SYS_CONSOLE("Sys.Console"); } } /// Admin always has all privileges. It can do everything except a few actions /// which are limited to the 'root@pam` superuser pub const ROLE_ADMIN: u64 = std::u64::MAX; /// NoAccess can be used to remove privileges from specific paths pub const ROLE_NO_ACCESS: u64 = 0; pub const ROLE_AUDIT: u64 = PRIV_SYS_AUDIT | PRIV_DATASTORE_AUDIT; /// Datastore.Admin can do anything on the datastore. pub const ROLE_DATASTORE_ADMIN: u64 = PRIV_DATASTORE_AUDIT | PRIV_DATASTORE_MODIFY | PRIV_DATASTORE_READ | PRIV_DATASTORE_VERIFY | PRIV_DATASTORE_BACKUP | PRIV_DATASTORE_PRUNE; /// Datastore.Reader can read/verify datastore content and do restore pub const ROLE_DATASTORE_READER: u64 = PRIV_DATASTORE_AUDIT | PRIV_DATASTORE_VERIFY | PRIV_DATASTORE_READ; /// Datastore.Backup can do backup and restore, but no prune. pub const ROLE_DATASTORE_BACKUP: u64 = PRIV_DATASTORE_BACKUP; /// Datastore.PowerUser can do backup, restore, and prune. pub const ROLE_DATASTORE_POWERUSER: u64 = PRIV_DATASTORE_PRUNE | PRIV_DATASTORE_BACKUP; /// Datastore.Audit can audit the datastore. pub const ROLE_DATASTORE_AUDIT: u64 = PRIV_DATASTORE_AUDIT; /// Remote.Audit can audit the remote pub const ROLE_REMOTE_AUDIT: u64 = PRIV_REMOTE_AUDIT; /// Remote.Admin can do anything on the remote. pub const ROLE_REMOTE_ADMIN: u64 = PRIV_REMOTE_AUDIT | PRIV_REMOTE_MODIFY | PRIV_REMOTE_READ; /// Remote.SyncOperator can do read and prune on the remote. pub const ROLE_REMOTE_SYNC_OPERATOR: u64 = PRIV_REMOTE_AUDIT | PRIV_REMOTE_READ; pub const ROLE_NAME_NO_ACCESS: &str ="NoAccess"; #[api()] #[repr(u64)] #[derive(Serialize, Deserialize)] /// Role pub enum Role { /// Administrator Admin = ROLE_ADMIN, /// Auditor Audit = ROLE_AUDIT, /// Disable Access NoAccess = ROLE_NO_ACCESS, /// Datastore Administrator DatastoreAdmin = ROLE_DATASTORE_ADMIN, /// Datastore Reader (inspect datastore content and do restores) DatastoreReader = ROLE_DATASTORE_READER, /// Datastore Backup (backup and restore owned backups) DatastoreBackup = ROLE_DATASTORE_BACKUP, /// Datastore PowerUser (backup, restore and prune owned backup) DatastorePowerUser = ROLE_DATASTORE_POWERUSER, /// Datastore Auditor DatastoreAudit = ROLE_DATASTORE_AUDIT, /// Remote Auditor RemoteAudit = ROLE_REMOTE_AUDIT, /// Remote Administrator RemoteAdmin = ROLE_REMOTE_ADMIN, /// Syncronisation Opertator RemoteSyncOperator = ROLE_REMOTE_SYNC_OPERATOR, } impl FromStr for Role { type Err = value::Error; fn from_str(s: &str) -> Result { Self::deserialize(s.into_deserializer()) } } lazy_static! { pub static ref ROLE_NAMES: HashMap<&'static str, (u64, &'static str)> = { let mut map = HashMap::new(); let list = match Role::API_SCHEMA { Schema::String(StringSchema { format: Some(ApiStringFormat::Enum(list)), .. }) => list, _ => unreachable!(), }; for entry in list.iter() { let privs: u64 = Role::from_str(entry.value).unwrap() as u64; map.insert(entry.value, (privs, entry.description)); } map }; } pub fn split_acl_path(path: &str) -> Vec<&str> { let items = path.split('/'); let mut components = vec![]; for name in items { if name.is_empty() { continue; } components.push(name); } components } pub fn check_acl_path(path: &str) -> Result<(), Error> { let components = split_acl_path(path); let components_len = components.len(); if components_len == 0 { return Ok(()); } match components[0] { "access" => { if components_len == 1 { return Ok(()); } match components[1] { "acl" | "users" => { if components_len == 2 { return Ok(()); } } _ => {}, } } "datastore" => { // /datastore/{store} if components_len <= 2 { return Ok(()); } } "remote" => { // /remote/{remote}/{store} if components_len <= 3 { return Ok(()); } } "system" => { if components_len == 1 { return Ok(()); } match components[1] { "disks" | "log" | "status" | "tasks" | "time" => { if components_len == 2 { return Ok(()); } } "services" => { // /system/services/{service} if components_len <= 3 { return Ok(()); } } "network" => { if components_len == 2 { return Ok(()); } match components[2] { "dns" => { if components_len == 3 { return Ok(()); } } "interfaces" => { // /system/network/interfaces/{iface} if components_len <= 4 { return Ok(()); } } _ => {} } } _ => {} } } _ => {} } bail!("invalid acl path '{}'.", path); } pub struct AclTree { pub root: AclTreeNode, } pub struct AclTreeNode { pub users: HashMap>, pub groups: HashMap>, pub children: BTreeMap, } impl AclTreeNode { pub fn new() -> Self { Self { users: HashMap::new(), groups: HashMap::new(), children: BTreeMap::new(), } } pub fn extract_roles(&self, auth_id: &Authid, all: bool) -> HashMap { let user_roles = self.extract_user_roles(auth_id, all); if !user_roles.is_empty() || auth_id.is_token() { // user privs always override group privs return user_roles }; self.extract_group_roles(auth_id.user(), all) } pub fn extract_user_roles(&self, auth_id: &Authid, all: bool) -> HashMap { let mut map = HashMap::new(); let roles = match self.users.get(auth_id) { Some(m) => m, None => return map, }; for (role, propagate) in roles { if *propagate || all { if role == ROLE_NAME_NO_ACCESS { // return a map with a single role 'NoAccess' let mut map = HashMap::new(); map.insert(role.to_string(), false); return map; } map.insert(role.to_string(), *propagate); } } map } pub fn extract_group_roles(&self, _user: &Userid, all: bool) -> HashMap { let mut map = HashMap::new(); for (_group, roles) in &self.groups { let is_member = false; // fixme: check if user is member of the group if !is_member { continue; } for (role, propagate) in roles { if *propagate || all { if role == ROLE_NAME_NO_ACCESS { // return a map with a single role 'NoAccess' let mut map = HashMap::new(); map.insert(role.to_string(), false); return map; } map.insert(role.to_string(), *propagate); } } } map } pub fn delete_group_role(&mut self, group: &str, role: &str) { let roles = match self.groups.get_mut(group) { Some(r) => r, None => return, }; roles.remove(role); } pub fn delete_user_role(&mut self, auth_id: &Authid, role: &str) { let roles = match self.users.get_mut(auth_id) { Some(r) => r, None => return, }; roles.remove(role); } pub fn insert_group_role(&mut self, group: String, role: String, propagate: bool) { let map = self.groups.entry(group).or_insert_with(|| HashMap::new()); if role == ROLE_NAME_NO_ACCESS { map.clear(); map.insert(role, propagate); } else { map.remove(ROLE_NAME_NO_ACCESS); map.insert(role, propagate); } } pub fn insert_user_role(&mut self, auth_id: Authid, role: String, propagate: bool) { let map = self.users.entry(auth_id).or_insert_with(|| HashMap::new()); if role == ROLE_NAME_NO_ACCESS { map.clear(); map.insert(role, propagate); } else { map.remove(ROLE_NAME_NO_ACCESS); map.insert(role, propagate); } } } impl AclTree { pub fn new() -> Self { Self { root: AclTreeNode::new(), } } pub fn find_node(&mut self, path: &str) -> Option<&mut AclTreeNode> { let path = split_acl_path(path); return self.get_node(&path); } fn get_node(&mut self, path: &[&str]) -> Option<&mut AclTreeNode> { let mut node = &mut self.root; for comp in path { node = match node.children.get_mut(*comp) { Some(n) => n, None => return None, }; } Some(node) } fn get_or_insert_node(&mut self, path: &[&str]) -> &mut AclTreeNode { let mut node = &mut self.root; for comp in path { node = node.children.entry(String::from(*comp)) .or_insert_with(|| AclTreeNode::new()); } node } pub fn delete_group_role(&mut self, path: &str, group: &str, role: &str) { let path = split_acl_path(path); let node = match self.get_node(&path) { Some(n) => n, None => return, }; node.delete_group_role(group, role); } pub fn delete_user_role(&mut self, path: &str, auth_id: &Authid, role: &str) { let path = split_acl_path(path); let node = match self.get_node(&path) { Some(n) => n, None => return, }; node.delete_user_role(auth_id, role); } pub fn insert_group_role(&mut self, path: &str, group: &str, role: &str, propagate: bool) { let path = split_acl_path(path); let node = self.get_or_insert_node(&path); node.insert_group_role(group.to_string(), role.to_string(), propagate); } pub fn insert_user_role(&mut self, path: &str, auth_id: &Authid, role: &str, propagate: bool) { let path = split_acl_path(path); let node = self.get_or_insert_node(&path); node.insert_user_role(auth_id.to_owned(), role.to_string(), propagate); } fn write_node_config( node: &AclTreeNode, path: &str, w: &mut dyn Write, ) -> Result<(), Error> { let mut role_ug_map0 = HashMap::new(); let mut role_ug_map1 = HashMap::new(); for (auth_id, roles) in &node.users { // no need to save, because root is always 'Administrator' if !auth_id.is_token() && auth_id.user() == "root@pam" { continue; } for (role, propagate) in roles { let role = role.as_str(); let auth_id = auth_id.to_string(); if *propagate { role_ug_map1.entry(role).or_insert_with(|| BTreeSet::new()) .insert(auth_id); } else { role_ug_map0.entry(role).or_insert_with(|| BTreeSet::new()) .insert(auth_id); } } } for (group, roles) in &node.groups { for (role, propagate) in roles { let group = format!("@{}", group); if *propagate { role_ug_map1.entry(role).or_insert_with(|| BTreeSet::new()) .insert(group); } else { role_ug_map0.entry(role).or_insert_with(|| BTreeSet::new()) .insert(group); } } } fn group_by_property_list( item_property_map: &HashMap<&str, BTreeSet>, ) -> BTreeMap> { let mut result_map = BTreeMap::new(); for (item, property_map) in item_property_map { let item_list = property_map.iter().fold(String::new(), |mut acc, v| { if !acc.is_empty() { acc.push(','); } acc.push_str(v); acc }); result_map.entry(item_list).or_insert_with(|| BTreeSet::new()) .insert(item.to_string()); } result_map } let uglist_role_map0 = group_by_property_list(&role_ug_map0); let uglist_role_map1 = group_by_property_list(&role_ug_map1); fn role_list(roles: &BTreeSet) -> String { if roles.contains(ROLE_NAME_NO_ACCESS) { return String::from(ROLE_NAME_NO_ACCESS); } roles.iter().fold(String::new(), |mut acc, v| { if !acc.is_empty() { acc.push(','); } acc.push_str(v); acc }) } for (uglist, roles) in &uglist_role_map0 { let role_list = role_list(roles); writeln!(w, "acl:0:{}:{}:{}", if path.is_empty() { "/" } else { path }, uglist, role_list)?; } for (uglist, roles) in &uglist_role_map1 { let role_list = role_list(roles); writeln!(w, "acl:1:{}:{}:{}", if path.is_empty() { "/" } else { path }, uglist, role_list)?; } for (name, child) in node.children.iter() { let child_path = format!("{}/{}", path, name); Self::write_node_config(child, &child_path, w)?; } Ok(()) } pub fn write_config(&self, w: &mut dyn Write) -> Result<(), Error> { Self::write_node_config(&self.root, "", w) } fn parse_acl_line(&mut self, line: &str) -> Result<(), Error> { let items: Vec<&str> = line.split(':').collect(); if items.len() != 5 { bail!("wrong number of items."); } if items[0] != "acl" { bail!("line does not start with 'acl'."); } let propagate = if items[1] == "0" { false } else if items[1] == "1" { true } else { bail!("expected '0' or '1' for propagate flag."); }; let path_str = items[2]; let path = split_acl_path(path_str); let node = self.get_or_insert_node(&path); let uglist: Vec<&str> = items[3].split(',').map(|v| v.trim()).collect(); let rolelist: Vec<&str> = items[4].split(',').map(|v| v.trim()).collect(); for user_or_group in &uglist { for role in &rolelist { if !ROLE_NAMES.contains_key(role) { bail!("unknown role '{}'", role); } if user_or_group.starts_with('@') { let group = &user_or_group[1..]; node.insert_group_role(group.to_string(), role.to_string(), propagate); } else { node.insert_user_role(user_or_group.parse()?, role.to_string(), propagate); } } } Ok(()) } pub fn load(filename: &Path) -> Result<(Self, [u8;32]), Error> { let mut tree = Self::new(); let raw = match std::fs::read_to_string(filename) { Ok(v) => v, Err(err) => { if err.kind() == std::io::ErrorKind::NotFound { String::new() } else { bail!("unable to read acl config {:?} - {}", filename, err); } } }; let digest = openssl::sha::sha256(raw.as_bytes()); for (linenr, line) in raw.lines().enumerate() { let line = line.trim(); if line.is_empty() { continue; } if let Err(err) = tree.parse_acl_line(line) { bail!("unable to parse acl config {:?}, line {} - {}", filename, linenr+1, err); } } Ok((tree, digest)) } pub fn from_raw(raw: &str) -> Result { let mut tree = Self::new(); for (linenr, line) in raw.lines().enumerate() { let line = line.trim(); if line.is_empty() { continue; } if let Err(err) = tree.parse_acl_line(line) { bail!("unable to parse acl config data, line {} - {}", linenr+1, err); } } Ok(tree) } pub fn roles(&self, auth_id: &Authid, path: &[&str]) -> HashMap { let mut node = &self.root; let mut role_map = node.extract_roles(auth_id, path.is_empty()); for (pos, comp) in path.iter().enumerate() { let last_comp = (pos + 1) == path.len(); node = match node.children.get(*comp) { Some(n) => n, None => return role_map, // path not found }; let new_map = node.extract_roles(auth_id, last_comp); if !new_map.is_empty() { // overwrite previous maptings role_map = new_map; } } role_map } } pub const ACL_CFG_FILENAME: &str = "/etc/proxmox-backup/acl.cfg"; pub const ACL_CFG_LOCKFILE: &str = "/etc/proxmox-backup/.acl.lck"; pub fn config() -> Result<(AclTree, [u8; 32]), Error> { let path = PathBuf::from(ACL_CFG_FILENAME); AclTree::load(&path) } pub fn cached_config() -> Result, Error> { struct ConfigCache { data: Option>, last_mtime: i64, last_mtime_nsec: i64, } lazy_static! { static ref CACHED_CONFIG: RwLock = RwLock::new( ConfigCache { data: None, last_mtime: 0, last_mtime_nsec: 0 }); } let stat = match nix::sys::stat::stat(ACL_CFG_FILENAME) { Ok(stat) => Some(stat), Err(nix::Error::Sys(nix::errno::Errno::ENOENT)) => None, Err(err) => bail!("unable to stat '{}' - {}", ACL_CFG_FILENAME, err), }; { // limit scope let cache = CACHED_CONFIG.read().unwrap(); if let Some(ref config) = cache.data { if let Some(stat) = stat { if stat.st_mtime == cache.last_mtime && stat.st_mtime_nsec == cache.last_mtime_nsec { return Ok(config.clone()); } } else if cache.last_mtime == 0 && cache.last_mtime_nsec == 0 { return Ok(config.clone()); } } } let (config, _digest) = config()?; let config = Arc::new(config); let mut cache = CACHED_CONFIG.write().unwrap(); if let Some(stat) = stat { cache.last_mtime = stat.st_mtime; cache.last_mtime_nsec = stat.st_mtime_nsec; } cache.data = Some(config.clone()); Ok(config) } pub fn save_config(acl: &AclTree) -> Result<(), Error> { let mut raw: Vec = Vec::new(); acl.write_config(&mut raw)?; let backup_user = crate::backup::backup_user()?; let mode = nix::sys::stat::Mode::from_bits_truncate(0o0640); // set the correct owner/group/permissions while saving file // owner(rw) = root, group(r)= backup let options = CreateOptions::new() .perm(mode) .owner(nix::unistd::ROOT) .group(backup_user.gid); replace_file(ACL_CFG_FILENAME, &raw, options)?; Ok(()) } #[cfg(test)] mod test { use anyhow::{Error}; use super::AclTree; use crate::api2::types::Authid; fn check_roles( tree: &AclTree, auth_id: &Authid, path: &str, expected_roles: &str, ) { let path_vec = super::split_acl_path(path); let mut roles = tree.roles(auth_id, &path_vec) .iter().map(|(v, _)| v.clone()).collect::>(); roles.sort(); let roles = roles.join(","); assert_eq!(roles, expected_roles, "\nat check_roles for '{}' on '{}'", auth_id, path); } #[test] fn test_acl_line_compression() { let tree = AclTree::from_raw( "\ acl:0:/store/store2:user1@pbs:Admin\n\ acl:0:/store/store2:user2@pbs:Admin\n\ acl:0:/store/store2:user1@pbs:DatastoreBackup\n\ acl:0:/store/store2:user2@pbs:DatastoreBackup\n\ ", ) .expect("failed to parse acl tree"); let mut raw: Vec = Vec::new(); tree.write_config(&mut raw).expect("failed to write acl tree"); let raw = std::str::from_utf8(&raw).expect("acl tree is not valid utf8"); assert_eq!(raw, "acl:0:/store/store2:user1@pbs,user2@pbs:Admin,DatastoreBackup\n"); } #[test] fn test_roles_1() -> Result<(), Error> { let tree = AclTree::from_raw(r###" acl:1:/storage:user1@pbs:Admin acl:1:/storage/store1:user1@pbs:DatastoreBackup acl:1:/storage/store2:user2@pbs:DatastoreBackup "###)?; let user1: Authid = "user1@pbs".parse()?; check_roles(&tree, &user1, "/", ""); check_roles(&tree, &user1, "/storage", "Admin"); check_roles(&tree, &user1, "/storage/store1", "DatastoreBackup"); check_roles(&tree, &user1, "/storage/store2", "Admin"); let user2: Authid = "user2@pbs".parse()?; check_roles(&tree, &user2, "/", ""); check_roles(&tree, &user2, "/storage", ""); check_roles(&tree, &user2, "/storage/store1", ""); check_roles(&tree, &user2, "/storage/store2", "DatastoreBackup"); Ok(()) } #[test] fn test_role_no_access() -> Result<(), Error> { let tree = AclTree::from_raw(r###" acl:1:/:user1@pbs:Admin acl:1:/storage:user1@pbs:NoAccess acl:1:/storage/store1:user1@pbs:DatastoreBackup "###)?; let user1: Authid = "user1@pbs".parse()?; check_roles(&tree, &user1, "/", "Admin"); check_roles(&tree, &user1, "/storage", "NoAccess"); check_roles(&tree, &user1, "/storage/store1", "DatastoreBackup"); check_roles(&tree, &user1, "/storage/store2", "NoAccess"); check_roles(&tree, &user1, "/system", "Admin"); let tree = AclTree::from_raw(r###" acl:1:/:user1@pbs:Admin acl:0:/storage:user1@pbs:NoAccess acl:1:/storage/store1:user1@pbs:DatastoreBackup "###)?; check_roles(&tree, &user1, "/", "Admin"); check_roles(&tree, &user1, "/storage", "NoAccess"); check_roles(&tree, &user1, "/storage/store1", "DatastoreBackup"); check_roles(&tree, &user1, "/storage/store2", "Admin"); check_roles(&tree, &user1, "/system", "Admin"); Ok(()) } #[test] fn test_role_add_delete() -> Result<(), Error> { let mut tree = AclTree::new(); let user1: Authid = "user1@pbs".parse()?; tree.insert_user_role("/", &user1, "Admin", true); tree.insert_user_role("/", &user1, "Audit", true); check_roles(&tree, &user1, "/", "Admin,Audit"); tree.insert_user_role("/", &user1, "NoAccess", true); check_roles(&tree, &user1, "/", "NoAccess"); let mut raw: Vec = Vec::new(); tree.write_config(&mut raw)?; let raw = std::str::from_utf8(&raw)?; assert_eq!(raw, "acl:1:/:user1@pbs:NoAccess\n"); Ok(()) } #[test] fn test_no_access_overwrite() -> Result<(), Error> { let mut tree = AclTree::new(); let user1: Authid = "user1@pbs".parse()?; tree.insert_user_role("/storage", &user1, "NoAccess", true); check_roles(&tree, &user1, "/storage", "NoAccess"); tree.insert_user_role("/storage", &user1, "Admin", true); tree.insert_user_role("/storage", &user1, "Audit", true); check_roles(&tree, &user1, "/storage", "Admin,Audit"); tree.insert_user_role("/storage", &user1, "NoAccess", true); check_roles(&tree, &user1, "/storage", "NoAccess"); Ok(()) } }