Difference between revisions of "User Management"

Revision as of 08:51, 12 May 2020

Proxmox VE supports multiple authentication sources, for example Linux PAM, an integrated Proxmox VE authentication server, LDAP, Microsoft Active Directory and OpenID Connect.

By using role-based user and permission management for all objects (VMs, Storage, nodes, etc.), granular access can be defined.

Users

Proxmox VE stores user attributes in /etc/pve/user.cfg. Passwords are not stored here; users are instead associated with the authentication realms described below. Therefore, a user is often internally identified by their username and realm in the form <userid>@<realm>.

Each user entry in this file contains the following information:

First name
Last name
E-mail address
Group memberships
An optional expiration date
A comment or note about this user
Whether this user is enabled or disabled
Optional two-factor authentication keys

When you disable or delete a user, or if the expiry date set is in the past, this user will not be able to log in to new sessions or start new tasks. All tasks which have already been started by this user (for example, terminal sessions) will not be terminated automatically by any such event.

System administrator

The system’s root user can always log in via the Linux PAM realm and is an unconfined administrator. This user cannot be deleted, but attributes can still be changed. System mails will be sent to the email address assigned to this user.

Groups

Each user can be a member of several groups. Groups are the preferred way to organize access permissions. You should always grant permissions to groups instead of individual users. That way you will get a much more maintainable access control list.

API Tokens

API tokens allow stateless access to most parts of the REST API from another system, software or API client. Tokens can be generated for individual users and can be given separate permissions and expiration dates to limit the scope and duration of the access. Should the API token get compromised, it can be revoked without disabling the user itself.

API tokens come in two basic types:

Separated privileges: The token needs to be given explicit access with ACLs. Its effective permissions are calculated by intersecting user and token permissions.
Full privileges: The token’s permissions are identical to that of the associated user.

The token value is only displayed/returned once when the token is generated. It cannot be retrieved again over the API at a later time!

To use an API token, set the HTTP header Authorization to the displayed value of the form PVEAPIToken=USER@REALM!TOKENID=UUID when making API requests, or refer to your API client’s documentation.

Resource Pools

screenshot/gui-datacenter-pool-window.png

A resource pool is a set of virtual machines, containers, and storage devices. It is useful for permission handling in cases where certain users should have controlled access to a specific set of resources, as it allows for a single permission to be applied to a set of elements, rather than having to manage this on a per-resource basis. Resource pools are often used in tandem with groups, so that the members of a group have permissions on a set of machines and storage.

Authentication Realms

As Proxmox VE users are just counterparts for users existing on some external realm, the realms have to be configured in /etc/pve/domains.cfg. The following realms (authentication methods) are available:

Linux PAM Standard Authentication: Linux PAM is a framework for system-wide user authentication. These users are created on the host system with commands such as adduser. If PAM users exist on the Proxmox VE host system, corresponding entries can be added to Proxmox VE, to allow these users to log in via their system username and password.
Proxmox VE Authentication Server: This is a Unix-like password store, which stores hashed passwords in /etc/pve/priv/shadow.cfg. Passwords are hashed using the SHA-256 hashing algorithm. This is the most convenient realm for small-scale (or even mid-scale) installations, where users do not need access to anything outside of Proxmox VE. In this case, users are fully managed by Proxmox VE and are able to change their own passwords via the GUI.
LDAP: LDAP (Lightweight Directory Access Protocol) is an open, cross-platform protocol for authentication using directory services. OpenLDAP is a popular open-source implementations of the LDAP protocol.
Microsoft Active Directory (AD): Microsoft Active Directory (AD) is a directory service for Windows domain networks and is supported as an authentication realm for Proxmox VE. It supports LDAP as an authentication protocol.
OpenID Connect: OpenID Connect is implemented as an identity layer on top of the OATH 2.0 protocol. It allows clients to verify the identity of the user, based on authentication performed by an external authorization server.

Linux PAM Standard Authentication

As Linux PAM corresponds to host system users, a system user must exist on each node which the user is allowed to log in on. The user authenticates with their usual system password. This realm is added by default and can’t be removed. In terms of configurability, an administrator can choose to require two-factor authentication with logins from the realm and to set the realm as the default authentication realm.

Proxmox VE Authentication Server

The Proxmox VE authentication server realm is a simple Unix-like password store. The realm is created by default, and as with Linux PAM, the only configuration items available are the ability to require two-factor authentication for users of the realm, and to set it as the default realm for login.

Unlike the other Proxmox VE realm types, users are created and authenticated entirely through Proxmox VE, rather than authenticating against another system. Hence, you are required to set a password for this type of user upon creation.

LDAP

You can also use an external LDAP server for user authentication (for examle, OpenLDAP). In this realm type, users are searched under a Base Domain Name (base_dn), using the username attribute specified in the User Attribute Name (user_attr) field.

A server and optional fallback server can be configured, and the connection can be encrypted via SSL. Furthermore, filters can be configured for directories and groups. Filters allow you to further limit the scope of the realm.

For instance, if a user is represented via the following LDIF dataset:

# user1 of People at ldap-test.com
dn: uid=user1,ou=People,dc=ldap-test,dc=com
objectClass: top
objectClass: person
objectClass: organizationalPerson
objectClass: inetOrgPerson
uid: user1
cn: Test User 1
sn: Testers
description: This is the first test user.

The Base Domain Name would be ou=People,dc=ldap-test,dc=com and the user attribute would be uid.

If Proxmox VE needs to authenticate (bind) to the LDAP server before being able to query and authenticate users, a bind domain name can be configured via the bind_dn property in /etc/pve/domains.cfg. Its password then has to be stored in /etc/pve/priv/ldap/<realmname>.pw (for example, /etc/pve/priv/ldap/my-ldap.pw). This file should contain a single line with the raw password.

To verify certificates, you need to set capath. You can set it either directly to the CA certificate of your LDAP server, or to the system path containing all trusted CA certificates (/etc/ssl/certs). Additionally, you need to set the verify option, which can also be done over the web interface.

The main configuration options for an LDAP server realm are as follows:

Realm (realm): The realm identifier for Proxmox VE users
Base Domain Name (base_dn): The directory which users are searched under
User Attribute Name (user_attr): The LDAP attribute containing the username that users will log in with
Server (server1): The server hosting the LDAP directory
Fallback Server (server2): An optional fallback server address, in case the primary server is unreachable
Port (port): The port that the LDAP server listens on

In order to allow a particular user to authenticate using the LDAP server, you must also add them as a user of that realm from the Proxmox VE server. This can be carried out automatically with syncing.

Microsoft Active Directory (AD)

To set up Microsoft AD as a realm, a server address and authentication domain need to be specified. Active Directory supports most of the same properties as LDAP, such as an optional fallback server, port, and SSL encryption. Furthermore, users can be added to Proxmox VE automatically via sync operations, after configuration.

As with LDAP, if Proxmox VE needs to authenticate before it binds to the AD server, you must configure the Bind User (bind_dn) property. This property is typically required by default for Microsoft AD.

The main configuration settings for Microsoft Active Directory are:

Realm (realm): The realm identifier for Proxmox VE users
Domain (domain): The AD domain of the server
Server (server1): The FQDN or IP address of the server
Fallback Server (server2): An optional fallback server address, in case the primary server is unreachable
Port (port): The port that the Microsoft AD server listens on

Microsoft AD normally checks values like usernames without case sensitivity. To make Proxmox VE do the same, you can disable the default case-sensitive option by editing the realm in the web UI, or using the CLI (change the ID with the realm ID): pveum realm modify ID --case-sensitive 0

Syncing LDAP-Based Realms

screenshot/gui-datacenter-realm-add-ldap.png

It’s possible to automatically sync users and groups for LDAP-based realms (LDAP & Microsoft Active Directory), rather than having to add them to Proxmox VE manually. You can access the sync options from the Add/Edit window of the web interface’s Authentication panel or via the pveum realm add/modify commands. You can then carry out the sync operation from the Authentication panel of the GUI or using the following command:

pveum realm sync <realm>

Users and groups are synced to the cluster-wide configuration file, /etc/pve/user.cfg.

Attributes to Properties

If the sync response includes user attributes, they will be synced into the matching user property in the user.cfg. For example: firstname or lastname.

If the names of the attributes are not matching the Proxmox VE properties, you can set a custom field-to-field map in the config by using the sync_attributes option.

How such properties are handled if anything vanishes can be controlled via the sync options, see below.

Sync Configuration

The configuration options for syncing LDAP-based realms can be found in the Sync Options tab of the Add/Edit window.

The configuration options are as follows:

Bind User (bind_dn): Refers to the LDAP account used to query users and groups. This account needs access to all desired entries. If it’s set, the search will be carried out via binding; otherwise, the search will be carried out anonymously. The user must be a complete LDAP formatted distinguished name (DN), for example, cn=admin,dc=example,dc=com.
Groupname attr. (group_name_attr): Represents the users' groups. Only entries which adhere to the usual character limitations of the user.cfg are synced. Groups are synced with -$realm attached to the name, in order to avoid naming conflicts. Please ensure that a sync does not overwrite manually created groups.
User classes (user_classes): Objects classes associated with users.
Group classes (group_classes): Objects classes associated with groups.
E-Mail attribute: If the LDAP-based server specifies user email addresses, these can also be included in the sync by setting the associated attribute here. From the command line, this is achievable through the --sync_attributes parameter.
User Filter (filter): For further filter options to target specific users.
Group Filter (group_filter): For further filter options to target specific groups.

Filters allow you to create a set of additional match criteria, to narrow down the scope of a sync. Information on available LDAP filter types and their usage can be found at ldap.com.

Sync Options

In addition to the options specified in the previous section, you can also configure further options that describe the behavior of the sync operation.

These options are either set as parameters before the sync, or as defaults via the realm option sync-defaults-options.

The main options for syncing are:

Scope (scope): The scope of what to sync. It can be either users, groups or both.
Enable new (enable-new): If set, the newly synced users are enabled and can log in. The default is true.
Remove Vanished (remove-vanished): This is a list of options which, when activated, determine if they are removed when they are not returned from the sync response. The options are:
- ACL (acl): Remove ACLs of users and groups which were not returned returned in the sync response. This most often makes sense together with Entry.
- Entry (entry): Removes entries (i.e. users and groups) when they are not returned in the sync response.
- Properties (properties): Removes properties of entries where the user in the sync response did not contain those attributes. This includes all properties, even those never set by a sync. Exceptions are tokens and the enable flag, these will be retained even with this option enabled.
Preview (dry-run): No data is written to the config. This is useful if you want to see which users and groups would get synced to the user.cfg.

Reserved characters

Certain characters are reserved (see RFC2253) and cannot be easily used in attribute values in DNs without being escaped properly.

Following characters need escaping:

Space ( ) at the beginning or end
Number sign (#) at the beginning
Comma (,)
Plus sign (+)
Double quote (")
Forward slashes (/)
Angle brackets (<>)
Semicolon (;)
Equals sign (=)

To use such characters in DNs, surround the attribute value in double quotes. For example, to bind with a user with the CN (Common Name) Example, User, use CN="Example, User",OU=people,DC=example,DC=com as value for bind_dn.

This applies to the base_dn, bind_dn, and group_dn attributes.

Users with colons and forward slashes cannot be synced since these are reserved characters in usernames.

OpenID Connect

The main OpenID Connect configuration options are:

Issuer URL (issuer-url): This is the URL of the authorization server. Proxmox uses the OpenID Connect Discovery protocol to automatically configure further details.

While it is possible to use unencrypted http:// URLs, we strongly recommend to use encrypted https:// connections.
Realm (realm): The realm identifier for Proxmox VE users
Client ID (client-id): OpenID Client ID.
Client Key (client-key): Optional OpenID Client Key.
Autocreate Users (autocreate): Automatically create users if they do not exist. While authentication is done at the OpenID server, all users still need an entry in the Proxmox VE user configuration. You can either add them manually, or use the autocreate option to automatically add new users.
Username Claim (username-claim): OpenID claim used to generate the unique username (subject, username or email).

Username mapping

The OpenID Connect specification defines a single unique attribute (claim in OpenID terms) named subject. By default, we use the value of this attribute to generate Proxmox VE usernames, by simple adding @ and the realm name: ${subject}@${realm}.

Unfortunately, most OpenID servers use random strings for subject, like DGH76OKH34BNG3245SB, so a typical username would look like DGH76OKH34BNG3245SB@yourrealm. While unique, it is difficult for humans to remember such random strings, making it quite impossible to associate real users with this.

The username-claim setting allows you to use other attributes for the username mapping. Setting it to username is preferred if the OpenID Connect server provides that attribute and guarantees its uniqueness.

Another option is to use email, which also yields human readable usernames. Again, only use this setting if the server guarantees the uniqueness of this attribute.

Examples

Here is an example of creating an OpenID realm using Google. You need to replace --client-id and --client-key with the values from your Google OpenID settings.

pveum realm add myrealm1 --type openid --issuer-url  https://accounts.google.com --client-id XXXX --client-key YYYY --username-claim email

The above command uses --username-claim email, so that the usernames on the Proxmox VE side look like example.user@google.com@myrealm1.

Keycloak (https://www.keycloak.org/) is a popular open source Identity and Access Management tool, which supports OpenID Connect. In the following example, you need to replace the --issuer-url and --client-id with your information:

pveum realm add myrealm2 --type openid --issuer-url  https://your.server:8080/realms/your-realm --client-id XXX --username-claim username

Using --username-claim username enables simple usernames on the Proxmox VE side, like example.user@myrealm2.

You need to ensure that the user is not allowed to edit the username setting themselves (on the Keycloak server).

Two-Factor Authentication

There are two ways to use two-factor authentication:

It can be required by the authentication realm, either via TOTP (Time-based One-Time Password) or YubiKey OTP. In this case, a newly created user needs to have their keys added immediately, as there is no way to log in without the second factor. In the case of TOTP, users can also change the TOTP later on, provided they can log in first.

Alternatively, users can choose to opt-in to two-factor authentication later on, even if the realm does not enforce it.

Available Second Factors

You can set up multiple second factors, in order to avoid a situation in which losing your smartphone or security key locks you out of your account permanently.

The following two-factor authentication methods are available in addition to realm-enforced TOTP and YubiKey OTP:

User configured TOTP (Time-based One-Time Password). A short code derived from a shared secret and the current time, it changes every 30 seconds.
WebAuthn (Web Authentication). A general standard for authentication. It is implemented by various security devices, like hardware keys or trusted platform modules (TPM) from a computer or smart phone.
Single use Recovery Keys. A list of keys which should either be printed out and locked in a secure place or saved digitally in an electronic vault. Each key can be used only once. These are perfect for ensuring that you are not locked out, even if all of your other second factors are lost or corrupt.

Before WebAuthn was supported, U2F could be setup by the user. Existing U2F factors can still be used, but it is recommended to switch to WebAuthn, once it is configured on the server.

Realm Enforced Two-Factor Authentication

This can be done by selecting one of the available methods via the TFA dropdown box when adding or editing an Authentication Realm. When a realm has TFA enabled, it becomes a requirement, and only users with configured TFA will be able to log in.

Currently there are two methods available:

Time-based OATH (TOTP): This uses the standard HMAC-SHA1 algorithm, where the current time is hashed with the user’s configured key. The time step and password length parameters are configurable.

A user can have multiple keys configured (separated by spaces), and the keys can be specified in Base32 (RFC3548) or hexadecimal notation.

Proxmox VE provides a key generation tool (oathkeygen) which prints out a random key in Base32 notation, that can be used directly with various OTP tools, such as the oathtool command-line tool, or on Android Google Authenticator, FreeOTP, andOTP or similar applications.
YubiKey OTP: For authenticating via a YubiKey a Yubico API ID, API KEY and validation server URL must be configured, and users must have a YubiKey available. In order to get the key ID from a YubiKey, you can trigger the YubiKey once after connecting it via USB, and copy the first 12 characters of the typed password into the user’s Key IDs field.

Please refer to the YubiKey OTP documentation for how to use the YubiCloud or host your own verification server.

Limits and Lockout of Two-Factor Authentication

A second factor is meant to protect users if their password is somehow leaked or guessed. However, some factors could still be broken by brute force. For this reason, users will be locked out after too many failed 2nd factor login attempts.

For TOTP, 8 failed attempts will disable the user’s TOTP factors. They are unlocked when logging in with a recovery key. If TOTP was the only available factor, admin intervention is required, and it is highly recommended to require the user to change their password immediately.

Since FIDO2/Webauthn and recovery keys are less susceptible to brute force attacks, the limit there is higher (100 tries), but all second factors are blocked for an hour when exceeded.

An admin can unlock a user’s Two-Factor Authentication at any time via the user list in the UI or the command line:

 pveum user tfa unlock joe@pve

User Configured TOTP Authentication

Users can choose to enable TOTP or WebAuthn as a second factor on login, via the TFA button in the user list (unless the realm enforces YubiKey OTP).

Users can always add and use one time Recovery Keys.

screenshot/gui-datacenter-two-factor.png

After opening the TFA window, the user is presented with a dialog to set up TOTP authentication. The Secret field contains the key, which can be randomly generated via the Randomize button. An optional Issuer Name can be added to provide information to the TOTP app about what the key belongs to. Most TOTP apps will show the issuer name together with the corresponding OTP values. The username is also included in the QR code for the TOTP app.

After generating a key, a QR code will be displayed, which can be used with most OTP apps such as FreeOTP. The user then needs to verify the current user password (unless logged in as root), as well as the ability to correctly use the TOTP key, by typing the current OTP value into the Verification Code field and pressing the Apply button.

TOTP

There is no server setup required. Simply install a TOTP app on your smartphone (for example, FreeOTP) and use the Proxmox Backup Server web interface to add a TOTP factor.

WebAuthn

For WebAuthn to work, you need to have two things:

A trusted HTTPS certificate (for example, by using Let’s Encrypt). While it probably works with an untrusted certificate, some browsers may warn or refuse WebAuthn operations if it is not trusted.
Setup the WebAuthn configuration (see Datacenter → Options → WebAuthn Settings in the Proxmox VE web interface). This can be auto-filled in most setups.

Once you have fulfilled both of these requirements, you can add a WebAuthn configuration in the Two Factor panel under Datacenter → Permissions → Two Factor.

Recovery Keys

Recovery key codes do not need any preparation; you can simply create a set of recovery keys in the Two Factor panel under Datacenter → Permissions → Two Factor.

There can only be one set of single-use recovery keys per user at any time.

Server Side Webauthn Configuration

screenshot/gui-datacenter-webauthn-edit.png

To allow users to use WebAuthn authentication, it is necessaary to use a valid domain with a valid SSL certificate, otherwise some browsers may warn or refuse to authenticate altogether.

Changing the WebAuthn configuration may render all existing WebAuthn registrations unusable!

This is done via /etc/pve/datacenter.cfg. For instance:

webauthn: rp=mypve.example.com,origin=https://mypve.example.com:8006,id=mypve.example.com

Server Side U2F Configuration

It is recommended to use WebAuthn instead.

To allow users to use U2F authentication, it may be necessary to use a valid domain with a valid SSL certificate, otherwise, some browsers may print a warning or reject U2F usage altogether. Initially, an AppId
[AppId https://developers.yubico.com/U2F/App_ID.html]
needs to be configured.

Changing the AppId will render all existing U2F registrations unusable!

This is done via /etc/pve/datacenter.cfg. For instance:

u2f: appid=https://mypve.example.com:8006

For a single node, the AppId can simply be the address of the web interface, exactly as it is used in the browser, including the https:// and the port, as shown above. Please note that some browsers may be more strict than others when matching AppIds.

When using multiple nodes, it is best to have a separate https server providing an appid.json
[Multi-facet apps: https://developers.yubico.com/U2F/App_ID.html]
file, as it seems to be compatible with most browsers. If all nodes use subdomains of the same top level domain, it may be enough to use the TLD as AppId. It should however be noted that some browsers may not accept this.

A bad AppId will usually produce an error, but we have encountered situations when this does not happen, particularly when using a top level domain AppId for a node that is accessed via a subdomain in Chromium. For this reason it is recommended to test the configuration with multiple browsers, as changing the AppId later will render existing U2F registrations unusable.

Activating U2F as a User

To enable U2F authentication, open the TFA window’s U2F tab, type in the current password (unless logged in as root), and press the Register button. If the server is set up correctly and the browser accepts the server’s provided AppId, a message will appear prompting the user to press the button on the U2F device (if it is a YubiKey, the button light should be toggling on and off steadily, roughly twice per second).

Firefox users may need to enable security.webauth.u2f via about:config before they can use a U2F token.

Permission Management

In order for a user to perform an action (such as listing, modifying or deleting parts of a VM’s configuration), the user needs to have the appropriate permissions.

Proxmox VE uses a role and path based permission management system. An entry in the permissions table allows a user, group or token to take on a specific role when accessing an object or path. This means that such an access rule can be represented as a triple of (path, user, role), (path, group, role) or (path, token, role), with the role containing a set of allowed actions, and the path representing the target of these actions.

Roles

A role is simply a list of privileges. Proxmox VE comes with a number of predefined roles, which satisfy most requirements.

Administrator: has full privileges
NoAccess: has no privileges (used to forbid access)
PVEAdmin: can do most tasks, but has no rights to modify system settings (Sys.PowerMgmt, Sys.Modify, Realm.Allocate) or permissions (Permissions.Modify)
PVEAuditor: has read only access
PVEDatastoreAdmin: create and allocate backup space and templates
PVEDatastoreUser: allocate backup space and view storage
PVEMappingAdmin: manage resource mappings
PVEMappingUser: view and use resource mappings
PVEPoolAdmin: allocate pools
PVEPoolUser: view pools
PVESDNAdmin: manage SDN configuration
PVESDNUser: access to bridges/vnets
PVESysAdmin: audit, system console and system logs
PVETemplateUser: view and clone templates
PVEUserAdmin: manage users
PVEVMAdmin: fully administer VMs
PVEVMUser: view, backup, configure CD-ROM, VM console, VM power management

You can see the whole set of predefined roles in the GUI.

You can add new roles via the GUI or the command line.

From the GUI, navigate to the Permissions → Roles tab from Datacenter and click on the Create button. There you can set a role name and select any desired privileges from the Privileges drop-down menu.

To add a role through the command line, you can use the pveum CLI tool, for example:

pveum role add VM_Power-only --privs "VM.PowerMgmt VM.Console"
pveum role add Sys_Power-only --privs "Sys.PowerMgmt Sys.Console"

Roles starting with PVE are always builtin, custom roles are not allowed use this reserved prefix.

Privileges

A privilege is the right to perform a specific action. To simplify management, lists of privileges are grouped into roles, which can then be used in the permission table. Note that privileges cannot be directly assigned to users and paths without being part of a role.

We currently support the following privileges:

Node / System related privileges

Group.Allocate: create/modify/remove groups
Mapping.Audit: view resource mappings
Mapping.Modify: manage resource mappings
Mapping.Use: use resource mappings
Permissions.Modify: modify access permissions
Pool.Allocate: create/modify/remove a pool
Pool.Audit: view a pool
Realm.AllocateUser: assign user to a realm
Realm.Allocate: create/modify/remove authentication realms
SDN.Allocate: manage SDN configuration
SDN.Audit: view SDN configuration
Sys.Audit: view node status/config, Corosync cluster config, and HA config
Sys.Console: console access to node
Sys.Incoming: allow incoming data streams from other clusters (experimental)
Sys.Modify: create/modify/remove node network parameters
Sys.PowerMgmt: node power management (start, stop, reset, shutdown, …)
Sys.Syslog: view syslog
User.Modify: create/modify/remove user access and details.

Virtual machine related privileges

SDN.Use: access SDN vnets and local network bridges
VM.Allocate: create/remove VM on a server
VM.Audit: view VM config
VM.Backup: backup/restore VMs
VM.Clone: clone/copy a VM
VM.Config.CDROM: eject/change CD-ROM
VM.Config.CPU: modify CPU settings
VM.Config.Cloudinit: modify Cloud-init parameters
VM.Config.Disk: add/modify/remove disks
VM.Config.HWType: modify emulated hardware types
VM.Config.Memory: modify memory settings
VM.Config.Network: add/modify/remove network devices
VM.Config.Options: modify any other VM configuration
VM.Console: console access to VM
VM.Migrate: migrate VM to alternate server on cluster
VM.Monitor: access to VM monitor (kvm)
VM.PowerMgmt: power management (start, stop, reset, shutdown, …)
VM.Snapshot.Rollback: rollback VM to one of its snapshots
VM.Snapshot: create/delete VM snapshots

Storage related privileges

Datastore.Allocate: create/modify/remove a datastore and delete volumes
Datastore.AllocateSpace: allocate space on a datastore
Datastore.AllocateTemplate: allocate/upload templates and ISO images
Datastore.Audit: view/browse a datastore

Both Permissions.Modify and Sys.Modify should be handled with care, as they allow modifying aspects of the system and its configuration that are dangerous or sensitive.

Carefully read the section about inheritance below to understand how assigned roles (and their privileges) are propagated along the ACL tree.

Objects and Paths

Access permissions are assigned to objects, such as virtual machines, storages or resource pools. We use file system like paths to address these objects. These paths form a natural tree, and permissions of higher levels (shorter paths) can optionally be propagated down within this hierarchy.

Paths can be templated. When an API call requires permissions on a templated path, the path may contain references to parameters of the API call. These references are specified in curly braces. Some parameters are implicitly taken from the API call’s URI. For instance, the permission path /nodes/{node} when calling /nodes/mynode/status requires permissions on /nodes/mynode, while the path {path} in a PUT request to /access/acl refers to the method’s path parameter.

Some examples are:

/nodes/{node}: Access to Proxmox VE server machines
/vms: Covers all VMs
/vms/{vmid}: Access to specific VMs
/storage/{storeid}: Access to a specific storage
/pool/{poolname}: Access to resources contained in a specific pool
/access/groups: Group administration
/access/realms/{realmid}: Administrative access to realms

Inheritance

As mentioned earlier, object paths form a file system like tree, and permissions can be inherited by objects down that tree (the propagate flag is set by default). We use the following inheritance rules:

Permissions for individual users always replace group permissions.
Permissions for groups apply when the user is member of that group.
Permissions on deeper levels replace those inherited from an upper level.
NoAccess cancels all other roles on a given path.

Additionally, privilege separated tokens can never have permissions on any given path that their associated user does not have.

Pools

Pools can be used to group a set of virtual machines and datastores. You can then simply set permissions on pools (/pool/{poolid}), which are inherited by all pool members. This is a great way to simplify access control.

Which Permissions Do I Need?

The required API permissions are documented for each individual method, and can be found at https://pve.proxmox.com/pve-docs/api-viewer/.

The permissions are specified as a list, which can be interpreted as a tree of logic and access-check functions:

["and", <subtests>...] and ["or", <subtests>...]

Each(and) or any(or) further element in the current list has to be true.

["perm", <path>, [ <privileges>... ], <options>...]

The path is a templated parameter (see Objects and Paths). All (or, if the any option is used, any) of the listed privileges must be allowed on the specified path. If a require-param option is specified, then its specified parameter is required even if the API call’s schema otherwise lists it as being optional.

["userid-group", [ <privileges>... ], <options>...]

The caller must have any of the listed privileges on /access/groups. In addition, there are two possible checks, depending on whether the groups_param option is set:

groups_param is set: The API call has a non-optional groups parameter and the caller must have any of the listed privileges on all of the listed groups.
groups_param is not set: The user passed via the userid parameter must exist and be part of a group on which the caller has any of the listed privileges (via the /access/groups/<group> path).

["userid-param", "self"]

The value provided for the API call’s userid parameter must refer to the user performing the action (usually in conjunction with or, to allow users to perform an action on themselves, even if they don’t have elevated privileges).

["userid-param", "Realm.AllocateUser"]

The user needs Realm.AllocateUser access to /access/realm/<realm>, with <realm> referring to the realm of the user passed via the userid parameter. Note that the user does not need to exist in order to be associated with a realm, since user IDs are passed in the form of <username>@<realm>.

["perm-modify", <path>]

The path is a templated parameter (see Objects and Paths). The user needs either the Permissions.Modify privilege or, depending on the path, the following privileges as a possible substitute:

/storage/...: requires 'Datastore.Allocate`
/vms/...: requires 'VM.Allocate`
/pool/...: requires 'Pool.Allocate`

If the path is empty, Permissions.Modify on /access is required.

If the user does not have the Permissions.Modify privilege, they can only delegate subsets of their own privileges on the given path (e.g., a user with PVEVMAdmin could assign PVEVMUser, but not PVEAdmin).

Command-line Tool

Most users will simply use the GUI to manage users. But there is also a fully featured command-line tool called pveum (short for “Proxmox VE User Manager”). Please note that all Proxmox VE command-line tools are wrappers around the API, so you can also access those functions through the REST API.

Here are some simple usage examples. To show help, type:

 pveum

or (to show detailed help about a specific command)

 pveum help user add

Create a new user:

 pveum user add testuser@pve -comment "Just a test"

Set or change the password (not all realms support this):

 pveum passwd testuser@pve

Disable a user:

 pveum user modify testuser@pve -enable 0

Create a new group:

 pveum group add testgroup

Create a new role:

 pveum role add PVE_Power-only -privs "VM.PowerMgmt VM.Console"

Real World Examples

Administrator Group

It is possible that an administrator would want to create a group of users with full administrator rights (without using the root account).

To do this, first define the group:

 pveum group add admin -comment "System Administrators"

Then assign the role:

 pveum acl modify / -group admin -role Administrator

Finally, you can add users to the new admin group:

 pveum user modify testuser@pve -group admin

Auditors

You can give read only access to users by assigning the PVEAuditor role to users or groups.

Example 1: Allow user joe@pve to see everything

 pveum acl modify / -user joe@pve -role PVEAuditor

Example 2: Allow user joe@pve to see all virtual machines

 pveum acl modify /vms -user joe@pve -role PVEAuditor

Delegate User Management

If you want to delegate user management to user joe@pve, you can do that with:

 pveum acl modify /access -user joe@pve -role PVEUserAdmin

User joe@pve can now add and remove users, and change other user attributes, such as passwords. This is a very powerful role, and you most likely want to limit it to selected realms and groups. The following example allows joe@pve to modify users within the realm pve, if they are members of group customers:

 pveum acl modify /access/realm/pve -user joe@pve -role PVEUserAdmin
 pveum acl modify /access/groups/customers -user joe@pve -role PVEUserAdmin

The user is able to add other users, but only if they are members of the group customers and within the realm pve.

Limited API Token for Monitoring

Permissions on API tokens are always a subset of those of their corresponding user, meaning that an API token can’t be used to carry out a task that the backing user has no permission to do. This section will demonstrate how you can use an API token with separate privileges, to limit the token owner’s permissions further.

Give the user joe@pve the role PVEVMAdmin on all VMs:

 pveum acl modify /vms -user joe@pve -role PVEVMAdmin

Add a new API token with separate privileges, which is only allowed to view VM information (for example, for monitoring purposes):

 pveum user token add joe@pve monitoring -privsep 1
 pveum acl modify /vms -token 'joe@pve!monitoring' -role PVEAuditor

Verify the permissions of the user and token:

 pveum user permissions joe@pve
 pveum user token permissions joe@pve monitoring

Resource Pools

An enterprise is usually structured into several smaller departments, and it is common that you want to assign resources and delegate management tasks to each of these. Let’s assume that you want to set up a pool for a software development department. First, create a group:

 pveum group add developers -comment "Our software developers"

Now we create a new user which is a member of that group:

 pveum user add developer1@pve -group developers -password

The "-password" parameter will prompt you for a password

Then we create a resource pool for our development department to use:

 pveum pool add dev-pool --comment "IT development pool"

Finally, we can assign permissions to that pool:

 pveum acl modify /pool/dev-pool/ -group developers -role PVEAdmin

Our software developers can now administer the resources assigned to that pool.

@@ Line 23: / Line 23: @@
 A comment or note about this user
 Whether this user is enabled or disabled
-Optional two factor authentication keys
+Optional two-factor authentication keys
 System administrator
 The system&#8217;s root user can always log in via the Linux PAM realm and is an
@@ Line 34: / Line 34: @@
 to groups instead of using individual users. That way you will get a
 much shorter access control list which is easier to handle.
+API Tokens
+API tokens allow stateless access to most parts of the REST API by another
+system, software or API client. Tokens can be generated for individual users
+and can be given separate permissions and expiration dates to limit the scope
+and duration of the access. Should the API token get compromised it can be
+revoked without disabling the user itself.
+API tokens come in two basic types:
+separated privileges: the token needs to be given explicit access with ACLs,
+  its effective permissions are calculated by intersecting user and token
+  permissions.
+full privileges: the token permissions are identical to that of the
+  associated user.
+The token value is only displayed/returned once when the token is
+generated. It cannot be retrieved again over the API at a later time!
+To use an API token, set the HTTP header Authorization to the displayed value
+of the form PVEAPIToken=USER@REALM!TOKENID=UUID when making API requests, or
+refer to your API client documentation.
 Authentication Realms
 As Proxmox VE users are just counterparts for users existing on some external
@@ Line 39: / Line 56: @@
 The following realms (authentication methods) are available:
 Linux PAM standard authentication
-In this case a system user has to exist (eg. created via the adduser
+In this case a system user has to exist (e.g. created via the adduser
 command) on all nodes the user is allowed to login, and the user
 authenticates with their usual system password.
@@ Line 49: / Line 66: @@
 This is a unix like password store (/etc/pve/priv/shadow.cfg).
 Password are encrypted using the SHA-256 hash method.
-This is the most convenient method for for small (or even medium)
+This is the most convenient method for small (or even medium)
 installations where users do not need access to anything outside of
 Proxmox VE. In this case users are fully managed by Proxmox VE and are able to
 change their own passwords via the GUI.
 LDAP
-It is possible to authenticate users via an LDAP server (eq.
+It is possible to authenticate users via an LDAP server (e.g.
 openldap). The server and an optional fallback server can be
 configured and the connection can be encrypted via SSL.
@@ Line 78: / Line 95: @@
 configured via the bind_dn property in /etc/pve/domains.cfg. Its
 password then has to be stored in /etc/pve/priv/ldap/&lt;realmname&gt;.pw
-(eg. /etc/pve/priv/ldap/my-ldap.pw). This file should contain a
+(e.g. /etc/pve/priv/ldap/my-ldap.pw). This file should contain a
 single line containing the raw password.
 Microsoft Active Directory
@@ Line 84: / Line 101: @@
 ldap an optional fallback server, optional port, and SSL
 encryption can be configured.
-Two factor authentication
+Syncing LDAP-based realms
-Each realm can optionally be secured additionally by two factor
+It is possible to sync users and groups for LDAP based realms. You can use the
-authentication. This can be done by selecting one of the available methods
+CLI command
-via the TFA dropdown box when adding or editing an Authentication Realm.
+  pveum realm sync &lt;realm&gt;
-When a realm has TFA enabled it becomes a requirement and only users with
+or in the Authentication panel of the GUI. Users and groups are synced to the
-configured TFA will be able to login.
+cluster-wide user configuration file /etc/pve/user.cfg.
+Requirements and limitations
+The bind_dn is used to query the users and groups. This account needs access
+to all desired entries.
+The fields which represent the names of the users and groups can be configured
+via the user_attr and group_name_attr respectively. Only entries which
+adhere to the usual character limitations of the user.cfg are synced.
+Groups are synced with -$realm attached to the name, to avoid naming
+conflicts. Please make sure that a sync does not overwrite manually created
+groups.
+Options
+The main options for syncing are:
+dry-run: No data is written to the config. This is useful if you want to
+  see which users and groups would get synced to the user.cfg. This is set
+  when you click Preview in the GUI.
+enable-new: If set, the newly synced users are enabled and can login.
+  The default is true.
+full: If set, the sync uses the LDAP Directory as a source of truth,
+  overwriting information set manually in the user.cfg and deletes users
+  and groups which are not present in the LDAP directory. If not set,
+  only new data is written to the config, and no stale users are deleted.
+purge: If set, sync removes all corresponding ACLs when removing users
+  and groups. This is only useful with the option full.
+scope: The scope of what to sync. It can be either users, groups or
+  both.
+These options are either set as parameters or as defaults, via the
+realm option sync-defaults-options.
+Two-factor authentication
+There are two ways to use two-factor authentication:
+It can be required by the authentication realm, either via TOTP
+(Time-based One-Time Password) or YubiKey OTP. In this case a newly
+created user needs their keys added immediately as there is no way to
+log in without the second factor. In the case of TOTP, users can
+also change the TOTP later on, provided they can log in first.
+Alternatively, users can choose to opt in to two-factor authentication
+via TOTP later on, even if the realm does not enforce it. As another
+option, if the server has an AppId configured, a user can opt into
+U2F authentication, provided the realm does not enforce any other
+second factor.
+Realm enforced two-factor authentication
+This can be done by selecting one of the available methods via the
+TFA dropdown box when adding or editing an Authentication Realm.
+When a realm has TFA enabled it becomes a requirement and only users
+with configured TFA will be able to login.
 Currently there are two methods available:
-Time based OATH (TOTP)
+Time-based OATH (TOTP)
-This uses the standard HMAC-SHA1 algorithm where the current time is hashed
+This uses the standard HMAC-SHA1 algorithm
-with the user&#8217;s configured key. The time step and password length
+where the current time is hashed with the user&#8217;s configured key. The
-parameters are configured.
+time step and password length parameters are configured.
-A user can have multiple keys configured (separated by spaces), and the
+A user can have multiple keys configured (separated by spaces), and the keys
-keys can be specified in Base32 (RFC3548) or hexadecimal notation.
+can be specified in Base32 (RFC3548) or hexadecimal notation.
-Proxmox VE provides a key generation tool (oathkeygen) which prints out a
+Proxmox VE provides a key generation tool (oathkeygen) which prints out a random
-random key in Base32 notation which can be used directly with various OTP
+key in Base32 notation which can be used directly with various OTP tools, such
-tools, such as the oathtool command line tool, the Google authenticator
+as the oathtool command line tool, or on Android Google Authenticator,
-or FreeOTP Android apps.
+FreeOTP, andOTP or similar applications.
 YubiKey OTP
 For authenticating via a YubiKey a Yubico API ID, API KEY and validation
@@ Line 107: / Line 167: @@
 after connecting it to USB and copy the first 12 characters of the typed
 password into the user&#8217;s Key IDs field.
-Please refer to the
++
-YubiKey OTP documentation for how to use the
+Please refer to the YubiKey OTP
+documentation for how to use the
 YubiCloud or
-host your own verification server.
+host
+your own verification server.
+User configured TOTP authentication
+Users can choose to enable TOTP as a second factor on login via the TFA
+button in the user list (unless the realm enforces YubiKey OTP).
+After opening the TFA window, the user is presented with a dialog to setup
+TOTP authentication. The Secret field contains the key, which can simply be
+generated randomly via the Randomize button. An optional Issuer Name can be
+added to provide information to the TOTP app what the key belongs to.
+Most TOTP apps will show the issuer name together with the corresponding
+OTP values. The user name is also included in the QR code for the TOTP app.
+After generating a key, a QR code will be displayed which can be used with most
+OTP apps such as FreeOTP. Now the user needs to verify both the current user
+password (unless logged in as root), as well as the ability to correctly use
+the TOTP key by typing the current OTP value into the Verification Code
+field before pressing the Apply button.
+Server side U2F configuration
+To allow users to use U2F authentication, the server needs to have a valid
+domain with a valid https certificate. Initially an AppId
+[AppId https://developers.yubico.com/U2F/App_ID.html]
+needs to be configured.
+Changing the AppId will render all existing U2F registrations
+unusable!
+This is done via /etc/pve/datacenter.cfg, for instance:
+u2f: appid=https://mypve.example.com:8006
+For a single node, the AppId can simply be the web UI address exactly as it
+is used in the browser, including the https:// and the port as shown above.
+Please note that some browsers may be more strict than others when matching
+AppIds.
+When using multiple nodes, it is best to have a separate https server
+providing an appid.json
+[Multi-facet apps: https://developers.yubico.com/U2F/App_ID.html]
+file, as it seems to be compatible with most
+browsers. If all nodes use subdomains of the same top level domain, it may be
+enough to use the TLD as AppId, but note that some browsers may not accept
+this.
+A bad AppId will usually produce an error, but we have encountered
+situation where this does not happen, particularly when using a top level domain
+AppId for a node accessed via a subdomain in Chromium. For this reason it is
+recommended to test the configuration with multiple browsers, as changing the
+AppId later will render existing U2F registrations unusable.
+Activating U2F as a user
+To enable U2F authentication, open the TFA window&#8217;s U2F tab, type in the
+current password (unless logged in as root), and press the Register button.
+If the server is setup correctly and the browser accepted the server&#8217;s provided
+AppId, a message will appear prompting the user to press the button on the
+U2F device (if it is a YubiKey the button light should be toggling off and
+on steadily around twice per second).
+Firefox users may need to enable security.webauth.u2f via about:config
+before they can use a U2F token.
 Permission Management
 In order for a user to perform an action (such as listing, modifying or
@@ Line 116: / Line 226: @@
 appropriate permissions.
 Proxmox VE uses a role and path based permission management system. An entry in
-the permissions table allows a user or group to take on a specific role
+the permissions table allows a user, group or token to take on a specific role
 when accessing an object or path. This means an such an access rule can
-be represented as a triple of (path, user, role) or (path, group,
+be represented as a triple of (path, user, role), (path, group,
-role), with the role containing a set of allowed actions, and the path
+role) or (path, token, role), with the role containing a set of allowed
-representing the target of these actions.
+actions, and the path representing the target of these actions.
 Roles
 A role is simply a list of privileges. Proxmox VE comes with a number
@@ Line 137: / Line 247: @@
 PVEVMUser: view, backup, config CDROM, VM console, VM power management
 You can see the whole set of predefined roles on the GUI.
-Adding new roles can currently only be done from the command line, like
+Adding new roles can be done via both GUI and the command line.
+For the GUI just navigate to Permissions &#8594; User Tab from Datacenter and
+click on the Create button, there you can set a name and select all desired
+roles from the Privileges dropdown box.
+To add a role through the command line you can use the pveum CLI tool, like
 this:
 pveum roleadd PVE_Power-only -privs "VM.PowerMgmt VM.Console"
@@ Line 152: / Line 266: @@
 Sys.Console: console access to Node
 Sys.Syslog: view Syslog
-Sys.Audit: view node status/config
+Sys.Audit: view node status/config, Corosync cluster config and HA config
 Sys.Modify: create/remove/modify node network parameters
 Group.Allocate: create/remove/modify groups
@@ Line 209: / Line 323: @@
 Permissions for groups apply when the user is member of that group.
 Permissions replace the ones inherited from an upper level.
+Additionally, privilege separated tokens can never have a permission on any
+given path that their associated user does not have.
 Pools
 Pools can be used to group a set of virtual machines and data
@@ Line 223: / Line 339: @@
 ["perm", &lt;path&gt;, [ &lt;privileges&gt;... ], &lt;options&gt;...]
 The path is a templated parameter (see
-Objects and Paths). All (or , if the any
+Objects and Paths). All (or, if the any
 option is used, any) of the listed
 privileges must be allowed on the specified path. If a require-param
@@ Line 229: / Line 345: @@
 API call&#8217;s schema otherwise lists it as being optional.
 ["userid-group", [ &lt;privileges&gt;... ], &lt;options&gt;...]
-The callermust have any of the listed privileges on /access/groups. In
+The caller must have any of the listed privileges on /access/groups. In
 addition there are two possible checks depending on whether the
 groups_param option is set:
@@ Line 245: / Line 361: @@
 ["userid-param", "Realm.AllocateUser"]
 The user needs Realm.AllocateUser access to /access/realm/&lt;realm&gt;, with
-&lt;realm&gt; refering to the realm of the user passed via the userid
+&lt;realm&gt; referring to the realm of the user passed via the userid
 parameter. Note that the user does not need to exist in order to be
 associated with a realm, since user IDs are passed in the form of
@@ Line 260: / Line 376: @@
 Command Line Tool
 Most users will simply use the GUI to manage users. But there is also
-a full featured command line tool called pveum (short for &#8220;Proxmox
+a fully featured command line tool called pveum (short for &#8220;Proxmox
 VE User Manager&#8221;). Please note that all Proxmox VE command
 line tools are wrappers around the API, so you can also access those
-function through the REST API.
+functions through the REST API.
 Here are some simple usage examples. To show help type:
 pveum
@@ Line 296: / Line 412: @@
 pveum aclmod /vms -user joe@pve -role PVEAuditor
 Delegate User Management
-If you want to delegate user managenent to user joe@pve you can do
+If you want to delegate user management to user joe@pve you can do
 that with:
 pveum aclmod /access -user joe@pve -role PVEUserAdmin
@@ Line 308: / Line 424: @@
 The user is able to add other users, but only if they are
 members of group customers and within realm pve.
+Limited API token for monitoring
+Given a user joe@pve with the PVEVMAdmin role on all VMs:
+pveum aclmod /vms -user joe@pve -role PVEVMAdmin
+Add a new API token with separate privileges, which is only allowed to view VM
+information (e.g., for monitoring purposes):
+pveum user token add joe@pve monitoring -privsep 1
+pveum aclmod /vms -token 'joe@pve!monitoring' -role PVEAuditor
+Verify the permissions of the user and token:
+pveum user permissions joe@pve
+pveum user token permissions joe@pve monitoring
 Pools
 An enterprise is usually structured into several smaller departments,

Difference between revisions of "User Management"

Revision as of 08:51, 12 May 2020

Users

System administrator

Groups

API Tokens

Resource Pools

Authentication Realms

Linux PAM Standard Authentication

Proxmox VE Authentication Server

LDAP

Microsoft Active Directory (AD)

Syncing LDAP-Based Realms

Attributes to Properties

Sync Configuration

Sync Options

Reserved characters

OpenID Connect

Username mapping

Examples

Two-Factor Authentication

Available Second Factors

Realm Enforced Two-Factor Authentication

Limits and Lockout of Two-Factor Authentication

User Configured TOTP Authentication

TOTP

WebAuthn

Recovery Keys

Server Side Webauthn Configuration

Server Side U2F Configuration

Activating U2F as a User

Permission Management

Roles

Privileges

Objects and Paths

Inheritance

Pools

Which Permissions Do I Need?

Command-line Tool

Real World Examples

Administrator Group

Auditors

Delegate User Management

Limited API Token for Monitoring

Resource Pools

Navigation menu

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