proxmox-backup/src/config/acl.rs

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use std::collections::{BTreeMap, BTreeSet, HashMap};
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use std::io::Write;
use std::path::{Path, PathBuf};
use std::str::FromStr;
use std::sync::{Arc, RwLock};
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use anyhow::{bail, Error};
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use lazy_static::lazy_static;
use ::serde::{Deserialize, Serialize};
use serde::de::{value, IntoDeserializer};
use proxmox::api::{api, schema::*};
use proxmox::constnamedbitmap;
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use crate::api2::types::{Authid, Userid};
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// define Privilege bitfield
constnamedbitmap! {
/// Contains a list of privilege name to privilege value mappings.
///
/// The names are used when displaying/persisting privileges anywhere, the values are used to
/// allow easy matching of privileges as bitflags.
PRIVILEGES: u64 => {
/// Sys.Audit allows knowing about the system and its status
PRIV_SYS_AUDIT("Sys.Audit");
/// Sys.Modify allows modifying system-level configuration
PRIV_SYS_MODIFY("Sys.Modify");
/// Sys.Modify allows to poweroff/reboot/.. the system
PRIV_SYS_POWER_MANAGEMENT("Sys.PowerManagement");
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/// Datastore.Audit allows knowing about a datastore,
/// including reading the configuration entry and listing its contents
PRIV_DATASTORE_AUDIT("Datastore.Audit");
/// Datastore.Allocate allows creating or deleting datastores
PRIV_DATASTORE_ALLOCATE("Datastore.Allocate");
/// Datastore.Modify allows modifying a datastore and its contents
PRIV_DATASTORE_MODIFY("Datastore.Modify");
/// Datastore.Read allows reading arbitrary backup contents
PRIV_DATASTORE_READ("Datastore.Read");
/// Allows verifying a datastore
PRIV_DATASTORE_VERIFY("Datastore.Verify");
/// Datastore.Backup allows Datastore.Read|Verify and creating new snapshots,
/// but also requires backup ownership
PRIV_DATASTORE_BACKUP("Datastore.Backup");
/// Datastore.Prune allows deleting snapshots,
/// but also requires backup ownership
PRIV_DATASTORE_PRUNE("Datastore.Prune");
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/// Permissions.Modify allows modifying ACLs
PRIV_PERMISSIONS_MODIFY("Permissions.Modify");
/// Remote.Audit allows reading remote.cfg and sync.cfg entries
PRIV_REMOTE_AUDIT("Remote.Audit");
/// Remote.Modify allows modifying remote.cfg
PRIV_REMOTE_MODIFY("Remote.Modify");
/// Remote.Read allows reading data from a configured `Remote`
PRIV_REMOTE_READ("Remote.Read");
/// Sys.Console allows access to the system's console
PRIV_SYS_CONSOLE("Sys.Console");
/// Tape.Audit allows reading tape backup configuration and status
PRIV_TAPE_AUDIT("Tape.Audit");
/// Tape.Modify allows modifying tape backup configuration
PRIV_TAPE_MODIFY("Tape.Modify");
/// Tape.Write allows writing tape media
PRIV_TAPE_WRITE("Tape.Write");
/// Tape.Read allows reading tape backup configuration and media contents
PRIV_TAPE_READ("Tape.Read");
/// Realm.Allocate allows viewing, creating, modifying and deleting realms
PRIV_REALM_ALLOCATE("Realm.Allocate");
}
}
/// 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 (sub-)paths
pub const ROLE_NO_ACCESS: u64 = 0;
#[rustfmt::skip]
#[allow(clippy::identity_op)]
/// Audit can view configuration and status information, but not modify it.
pub const ROLE_AUDIT: u64 = 0
| PRIV_SYS_AUDIT
| PRIV_DATASTORE_AUDIT;
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#[rustfmt::skip]
#[allow(clippy::identity_op)]
/// Datastore.Admin can do anything on the datastore.
pub const ROLE_DATASTORE_ADMIN: u64 = 0
| PRIV_DATASTORE_AUDIT
| PRIV_DATASTORE_MODIFY
| PRIV_DATASTORE_READ
| PRIV_DATASTORE_VERIFY
| PRIV_DATASTORE_BACKUP
| PRIV_DATASTORE_PRUNE;
#[rustfmt::skip]
#[allow(clippy::identity_op)]
/// Datastore.Reader can read/verify datastore content and do restore
pub const ROLE_DATASTORE_READER: u64 = 0
| PRIV_DATASTORE_AUDIT
| PRIV_DATASTORE_VERIFY
| PRIV_DATASTORE_READ;
#[rustfmt::skip]
#[allow(clippy::identity_op)]
/// Datastore.Backup can do backup and restore, but no prune.
pub const ROLE_DATASTORE_BACKUP: u64 = 0
| PRIV_DATASTORE_BACKUP;
#[rustfmt::skip]
#[allow(clippy::identity_op)]
/// Datastore.PowerUser can do backup, restore, and prune.
pub const ROLE_DATASTORE_POWERUSER: u64 = 0
| PRIV_DATASTORE_PRUNE
| PRIV_DATASTORE_BACKUP;
#[rustfmt::skip]
#[allow(clippy::identity_op)]
/// Datastore.Audit can audit the datastore.
pub const ROLE_DATASTORE_AUDIT: u64 = 0
| PRIV_DATASTORE_AUDIT;
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#[rustfmt::skip]
#[allow(clippy::identity_op)]
/// Remote.Audit can audit the remote
pub const ROLE_REMOTE_AUDIT: u64 = 0
| PRIV_REMOTE_AUDIT;
#[rustfmt::skip]
#[allow(clippy::identity_op)]
/// Remote.Admin can do anything on the remote.
pub const ROLE_REMOTE_ADMIN: u64 = 0
| PRIV_REMOTE_AUDIT
| PRIV_REMOTE_MODIFY
| PRIV_REMOTE_READ;
#[rustfmt::skip]
#[allow(clippy::identity_op)]
/// Remote.SyncOperator can do read and prune on the remote.
pub const ROLE_REMOTE_SYNC_OPERATOR: u64 = 0
| PRIV_REMOTE_AUDIT
| PRIV_REMOTE_READ;
#[rustfmt::skip]
#[allow(clippy::identity_op)]
/// Tape.Audit can audit the tape backup configuration and media content
pub const ROLE_TAPE_AUDIT: u64 = 0
| PRIV_TAPE_AUDIT;
#[rustfmt::skip]
#[allow(clippy::identity_op)]
/// Tape.Admin can do anything on the tape backup
pub const ROLE_TAPE_ADMIN: u64 = 0
| PRIV_TAPE_AUDIT
| PRIV_TAPE_MODIFY
| PRIV_TAPE_READ
| PRIV_TAPE_WRITE;
#[rustfmt::skip]
#[allow(clippy::identity_op)]
/// Tape.Operator can do tape backup and restore (but no configuration changes)
pub const ROLE_TAPE_OPERATOR: u64 = 0
| PRIV_TAPE_AUDIT
| PRIV_TAPE_READ
| PRIV_TAPE_WRITE;
#[rustfmt::skip]
#[allow(clippy::identity_op)]
/// Tape.Reader can do read and inspect tape content
pub const ROLE_TAPE_READER: u64 = 0
| PRIV_TAPE_AUDIT
| PRIV_TAPE_READ;
/// NoAccess can be used to remove privileges from specific (sub-)paths
pub const ROLE_NAME_NO_ACCESS: &str = "NoAccess";
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#[api(
type_text: "<role>",
)]
#[repr(u64)]
#[derive(Serialize, Deserialize)]
/// Enum representing roles via their [PRIVILEGES] combination.
///
/// Since privileges are implemented as bitflags, each unique combination of privileges maps to a
/// single, unique `u64` value that is used in this enum definition.
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,
/// Tape Auditor
TapeAudit = ROLE_TAPE_AUDIT,
/// Tape Administrator
TapeAdmin = ROLE_TAPE_ADMIN,
/// Tape Operator
TapeOperator = ROLE_TAPE_OPERATOR,
/// Tape Reader
TapeReader = ROLE_TAPE_READER,
}
impl FromStr for Role {
type Err = value::Error;
fn from_str(s: &str) -> Result<Self, Self::Err> {
Self::deserialize(s.into_deserializer())
}
}
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lazy_static! {
/// Map of pre-defined [Roles](Role) to their associated [privileges](PRIVILEGES) combination and
/// description.
pub static ref ROLE_NAMES: HashMap<&'static str, (u64, &'static str)> = {
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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));
}
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map
};
}
pub(crate) fn split_acl_path(path: &str) -> Vec<&str> {
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let items = path.split('/');
let mut components = vec![];
for name in items {
if name.is_empty() {
continue;
}
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components.push(name);
}
components
}
/// Check whether a given ACL `path` conforms to the expected schema.
///
/// Currently this just checks for the number of components for various sub-trees.
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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(());
}
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match components[0] {
"access" => {
if components_len == 1 {
return Ok(());
}
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match components[1] {
"acl" | "users" | "domains" => {
if components_len == 2 {
return Ok(());
}
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}
// /access/openid/{endpoint}
"openid" => {
if components_len <= 3 {
return Ok(());
}
}
_ => {}
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}
}
"datastore" => {
// /datastore/{store}
if components_len <= 2 {
return Ok(());
}
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}
"remote" => {
// /remote/{remote}/{store}
if components_len <= 3 {
return Ok(());
}
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}
"system" => {
if components_len == 1 {
return Ok(());
}
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match components[1] {
"certificates" | "disks" | "log" | "status" | "tasks" | "time" => {
if components_len == 2 {
return Ok(());
}
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}
"services" => {
// /system/services/{service}
if components_len <= 3 {
return Ok(());
}
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}
"network" => {
if components_len == 2 {
return Ok(());
}
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match components[2] {
"dns" => {
if components_len == 3 {
return Ok(());
}
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}
"interfaces" => {
// /system/network/interfaces/{iface}
if components_len <= 4 {
return Ok(());
}
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}
_ => {}
}
}
_ => {}
}
}
"tape" => {
if components_len == 1 {
return Ok(());
}
match components[1] {
"device" => {
// /tape/device/{name}
if components_len <= 3 {
return Ok(());
}
}
"pool" => {
// /tape/pool/{name}
if components_len <= 3 {
return Ok(());
}
}
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"job" => {
// /tape/job/{id}
if components_len <= 3 {
return Ok(());
}
}
_ => {}
}
}
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_ => {}
}
bail!("invalid acl path '{}'.", path);
}
/// Tree representing a parsed acl.cfg
#[derive(Default)]
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pub struct AclTree {
/// Root node of the tree.
///
/// The rest of the tree is available via [find_node()](AclTree::find_node()) or an
/// [AclTreeNode]'s [children](AclTreeNode::children) member.
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pub root: AclTreeNode,
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}
/// Node representing ACLs for a certain ACL path.
#[derive(Default)]
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pub struct AclTreeNode {
/// [User](crate::config::user::User) or
/// [Token](crate::config::user::ApiToken) ACLs for this node.
pub users: HashMap<Authid, HashMap<String, bool>>,
/// `Group` ACLs for this node (not yet implemented)
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pub groups: HashMap<String, HashMap<String, bool>>,
/// `AclTreeNodes` representing ACL paths directly below the current one.
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pub children: BTreeMap<String, AclTreeNode>,
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}
impl AclTreeNode {
/// Creates a new, empty AclTreeNode.
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pub fn new() -> Self {
Self {
users: HashMap::new(),
groups: HashMap::new(),
children: BTreeMap::new(),
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}
}
/// Returns applicable [Role] and their propagation status for a given
/// [Authid](crate::api2::types::Authid).
///
/// If the `Authid` is a [User](crate::config::user::User) that has no specific `Roles` configured on this node,
/// applicable `Group` roles will be returned instead.
///
/// If `leaf` is `false`, only those roles where the propagate flag in the ACL is set to `true`
/// are returned. Otherwise, all roles will be returned.
pub fn extract_roles(&self, auth_id: &Authid, leaf: bool) -> HashMap<String, bool> {
let user_roles = self.extract_user_roles(auth_id, leaf);
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(), leaf)
}
fn extract_user_roles(&self, auth_id: &Authid, leaf: bool) -> HashMap<String, bool> {
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 || leaf {
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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
}
fn extract_group_roles(&self, _user: &Userid, leaf: bool) -> HashMap<String, bool> {
let mut map = HashMap::new();
#[allow(clippy::for_kv_map)]
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 || leaf {
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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
}
fn delete_group_role(&mut self, group: &str, role: &str) {
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let roles = match self.groups.get_mut(group) {
Some(r) => r,
None => return,
};
roles.remove(role);
}
fn delete_user_role(&mut self, auth_id: &Authid, role: &str) {
let roles = match self.users.get_mut(auth_id) {
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Some(r) => r,
None => return,
};
roles.remove(role);
}
fn insert_group_role(&mut self, group: String, role: String, propagate: bool) {
let map = self.groups.entry(group).or_default();
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if role == ROLE_NAME_NO_ACCESS {
map.clear();
map.insert(role, propagate);
} else {
map.remove(ROLE_NAME_NO_ACCESS);
map.insert(role, propagate);
}
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}
fn insert_user_role(&mut self, auth_id: Authid, role: String, propagate: bool) {
let map = self.users.entry(auth_id).or_default();
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if role == ROLE_NAME_NO_ACCESS {
map.clear();
map.insert(role, propagate);
} else {
map.remove(ROLE_NAME_NO_ACCESS);
map.insert(role, propagate);
}
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}
}
impl AclTree {
/// Create a new, empty ACL tree with a single, empty root [node](AclTreeNode)
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pub fn new() -> Self {
Self {
root: AclTreeNode::new(),
}
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}
/// Iterates over the tree looking for a node matching `path`.
pub fn find_node(&mut self, path: &str) -> Option<&mut AclTreeNode> {
let path = split_acl_path(path);
self.get_node(&path)
}
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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)
}
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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_default();
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}
node
}
/// Deletes the specified `role` from the `group`'s ACL on `path`.
///
/// Never fails, even if the `path` has no ACLs configured, or the `group`/`role` combination
/// does not exist on `path`.
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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);
}
/// Deletes the specified `role` from the `user`'s ACL on `path`.
///
/// Never fails, even if the `path` has no ACLs configured, or the `user`/`role` combination
/// does not exist on `path`.
pub fn delete_user_role(&mut self, path: &str, auth_id: &Authid, role: &str) {
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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);
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}
/// Inserts the specified `role` into the `group` ACL on `path`.
///
/// The [AclTreeNode] representing `path` will be created and inserted into the tree if
/// necessary.
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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);
}
/// Inserts the specified `role` into the `user` ACL on `path`.
///
/// The [AclTreeNode] representing `path` will be created and inserted into the tree if
/// necessary.
pub fn insert_user_role(&mut self, path: &str, auth_id: &Authid, role: &str, propagate: bool) {
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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);
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}
fn write_node_config(node: &AclTreeNode, path: &str, w: &mut dyn Write) -> Result<(), Error> {
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let mut role_ug_map0 = HashMap::new();
let mut role_ug_map1 = HashMap::new();
for (auth_id, roles) in &node.users {
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// no need to save, because root is always 'Administrator'
if !auth_id.is_token() && auth_id.user() == "root@pam" {
continue;
}
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for (role, propagate) in roles {
let role = role.as_str();
let auth_id = auth_id.to_string();
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if *propagate {
role_ug_map1
.entry(role)
.or_insert_with(BTreeSet::new)
.insert(auth_id);
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} else {
role_ug_map0
.entry(role)
.or_insert_with(BTreeSet::new)
.insert(auth_id);
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}
}
}
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)
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.insert(group);
} else {
role_ug_map0
.entry(role)
.or_insert_with(BTreeSet::new)
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.insert(group);
}
}
}
fn group_by_property_list(
item_property_map: &HashMap<&str, BTreeSet<String>>,
) -> BTreeMap<String, BTreeSet<String>> {
let mut result_map = BTreeMap::new();
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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)
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.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);
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fn role_list(roles: &BTreeSet<String>) -> String {
if roles.contains(ROLE_NAME_NO_ACCESS) {
return String::from(ROLE_NAME_NO_ACCESS);
}
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roles.iter().fold(String::new(), |mut acc, v| {
if !acc.is_empty() {
acc.push(',');
}
acc.push_str(v);
acc
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})
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}
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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
)?;
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}
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
)?;
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}
for (name, child) in node.children.iter() {
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let child_path = format!("{}/{}", path, name);
Self::write_node_config(child, &child_path, w)?;
}
Ok(())
}
fn write_config(&self, w: &mut dyn Write) -> Result<(), Error> {
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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);
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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 let Some(group) = user_or_group.strip_prefix('@') {
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node.insert_group_role(group.to_string(), role.to_string(), propagate);
} else {
node.insert_user_role(user_or_group.parse()?, role.to_string(), propagate);
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}
}
}
Ok(())
}
fn load(filename: &Path) -> Result<(Self, [u8; 32]), Error> {
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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;
}
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if let Err(err) = tree.parse_acl_line(line) {
bail!(
"unable to parse acl config {:?}, line {} - {}",
filename,
linenr + 1,
err
);
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}
}
Ok((tree, digest))
}
#[cfg(test)]
pub(crate) fn from_raw(raw: &str) -> Result<Self, Error> {
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)
}
/// Returns a map of role name and propagation status for a given `auth_id` and `path`.
///
/// This will collect role mappings according to the following algorithm:
/// - iterate over all intermediate nodes along `path` and collect roles with `propagate` set
/// - get all (propagating and non-propagating) roles for last component of path
/// - more specific role maps replace less specific role maps
/// -- user/token is more specific than group at each level
/// -- roles lower in the tree are more specific than those higher up along the path
pub fn roles(&self, auth_id: &Authid, path: &[&str]) -> HashMap<String, bool> {
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
}
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}
/// Filename where [AclTree] is stored.
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pub const ACL_CFG_FILENAME: &str = "/etc/proxmox-backup/acl.cfg";
/// Path used to lock the [AclTree] when modifying.
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pub const ACL_CFG_LOCKFILE: &str = "/etc/proxmox-backup/.acl.lck";
/// Reads the [AclTree] from the [default path](ACL_CFG_FILENAME).
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pub fn config() -> Result<(AclTree, [u8; 32]), Error> {
let path = PathBuf::from(ACL_CFG_FILENAME);
AclTree::load(&path)
}
/// Returns a cached [AclTree] or fresh copy read directly from the [default path](ACL_CFG_FILENAME)
///
/// Since the AclTree is used for every API request's permission check, this caching mechanism
/// allows to skip reading and parsing the file again if it is unchanged.
pub fn cached_config() -> Result<Arc<AclTree>, Error> {
struct ConfigCache {
data: Option<Arc<AclTree>>,
last_mtime: i64,
last_mtime_nsec: i64,
}
lazy_static! {
static ref CACHED_CONFIG: RwLock<ConfigCache> = 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)
}
/// Saves an [AclTree] to the [default path](ACL_CFG_FILENAME), ensuring proper ownership and
/// file permissions.
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pub fn save_config(acl: &AclTree) -> Result<(), Error> {
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let mut raw: Vec<u8> = Vec::new();
acl.write_config(&mut raw)?;
crate::backup::replace_backup_config(ACL_CFG_FILENAME, &raw)
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}
#[cfg(test)]
mod test {
use super::AclTree;
use anyhow::Error;
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::<Vec<String>>();
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<u8> = 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(())
}
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#[test]
fn test_role_add_delete() -> Result<(), Error> {
let mut tree = AclTree::new();
let user1: Authid = "user1@pbs".parse()?;
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tree.insert_user_role("/", &user1, "Admin", true);
tree.insert_user_role("/", &user1, "Audit", true);
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check_roles(&tree, &user1, "/", "Admin,Audit");
tree.insert_user_role("/", &user1, "NoAccess", true);
check_roles(&tree, &user1, "/", "NoAccess");
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let mut raw: Vec<u8> = 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);
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check_roles(&tree, &user1, "/storage", "NoAccess");
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tree.insert_user_role("/storage", &user1, "Admin", true);
tree.insert_user_role("/storage", &user1, "Audit", true);
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check_roles(&tree, &user1, "/storage", "Admin,Audit");
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tree.insert_user_role("/storage", &user1, "NoAccess", true);
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check_roles(&tree, &user1, "/storage", "NoAccess");
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Ok(())
}
}