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Christoph Heiss 44657865a7 api, auth: fix two typos in user-visible description
Just two small typos in user-visible API/schema description. Fix them
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Signed-off-by: Christoph Heiss <c.heiss@proxmox.com>
2024-11-22 15:45:34 +01:00
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src api, auth: fix two typos in user-visible description 2024-11-22 15:45:34 +01:00
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user.cfg.ex iimported from svn 'pve-access-control/trunk' 2011-08-23 07:27:48 +02:00

User Management and Access Control
==================================

Proxmox VE implements an easy but flexible way to manage users. A
powerful Access Control algorithm is used to grant permissions to
individual users or group of users.

Best Practices:

Use groups in ACLs (not individual users).

User Authentication
===================

Proxmox VE can use different authentication servers. Those
servers are listed in '/etc/pve/priv/domain.cfg', indexed by a unique
ID (called 'authentication domain' or 'realm').

User names need to be unique. We create unique names by adding the
'realm' to the user ID: <userid>@<realm>

File format 'domain.cfg'
----example domains.cfg ------------------

# an active directory server
AD: mycompany
	server1 10.10.10.1
	server2 10.10.10.2
	...

# an LDAP server
LDAP: example.com
	server1 10.10.10.2
      	....

------------------------------------------

There are 2 special authentication domains name 'pve' and 'pam':

 * pve: stores passwords to "/etc/pve/priv/shadow.cfg" (SHA256 crypt); 

 * pam: use unix 'pam'


Proposed user database fields:
==============================

users:

	login_name: email address (user@domain)
	enable: 1 = TRUE, 0 = FALSE
	expire: <integer> (account expiration date)
	domid: reference to authentication domain
	firstname: user first name
	lastname: user last name
	email: user's email address
	comment: arbitrary comment

	special user root: The root user has full administrative privileges

group:

	group_name: the name of the group
	user_list: list of login names
	comment: a more verbose description

pool:

	pool_name: the name of the pool
	comment: a more verbose description
	vm_list: list of VMs associated with the pool
	storage_list: list of storage IDs associated with the pool

privileges: 

	defines rights required to execute actions or read
	information.

	VM.Allocate: create/remove new VM to server inventory
	VM.Migrate: migrate VM to alternate server on cluster
   	VM.PowerMgmt: power management (start, stop, reset, shutdown, ...)
	VM.Console: console access to VM
	VM.Monitor: access to VM monitor (kvm)
	VM.Backup: backup/restore VMs
	VM.Clone: Clone VM or VM template
	VM.Audit: view VM config

	VM.Config.XXX: modify VM config

	  VM.Config.Disk: add/modify/delete Disks 
	  VM.Config.CDROM: eject/change CDROM
	  VM.Config.CPU: modify CPU settings
	  VM.Config.Memory: modify Memory settings
	  VM.Config.Network: add/modify/delete Network devices
	  VM.Config.HWType: modify emulated HW type
	  VM.Config.Options: modify any other VM configuration 

	Pool.Allocate: create/remove/modify a pool.
	Pool.Audit: view a pool

	Datastore.Allocate: create/remove/modify a data store.
	Datastore.AllocateSpace: allocate space on a datastore
	Datastore.AllocateTemplate: allocate/upload templates and iso images 
	Datastore.Audit: view/browse a datastore

	Permissions.Modify: modify access permissions

	Sys.PowerMgmt: Node power management (start, stop, reset, shutdown, ...)
	Sys.Console: console access to Node
	Sys.Syslog: view Syslog
	Sys.Audit: view node status/config


	We may need to refine those in future - the following privs
	are just examples:

	VM.Create: create new VM to server inventory
	VM.Remove: remove VM from inventory
	VM.AddNewDisk: add new disk to VM
	VM.AddExistingDisk: add an existing disk to VM
	VM.DiskModify: modify disk space for associated VM
	VM.UseRawDevice: associate a raw device with VM
	VM.PowerOn: power on VM
	VM.PowerOff: power off VM
	VM.CpuModify: modify number of CPUs associated with VM
	VM.CpuCyclesModify: modify CPU cycles for VM
	VM.NetworkAdd: add network device to VM
	VM.NetworkConfigure: configure network device associated with VM
	VM.NetworkRemove: remove network device from VM

	Network.AssignNetwork: assign system networks

role:

	defines a sets of privileges

	predefined roles:

	administrator: full administrative privileges
	read_only: read only
	no_access: no privileges

	We store the following attribute for roles:

	role_name: the name of the group
	description: a more verbose description
	privileges: list of privileges

permission:

	Assign roles to users or groups.


ACL and Objects:
================
 
An access control list (ACL) is a list of permissions attached to an object.
The list specifies who or what is allowed to access the object and what
operations are allowed to be performed on the object.

Object: A Virtual machine, Network (bridge, venet), Hosts, Host Memory,
Storage, ...

We can identify our objects by an unique (file system like) path, which also
defines a tree like hierarchy relation. ACL can be inherited. Permissions are
inherited if the propagate flag is set on the parent. Child permissions always
overwrite inherited permissions. User permission takes precedence over all
group permissions. If multiple group permission apply the resulting role is the
union of all those group privileges.

There is at most one object permission per user or group

We store the following attributes for ACLs:

	propagate: propagate permissions down in the hierarchy
	path: path to uniquely identify the object
	user_or_group: ID of user or group (group ID start with @)
	role: list of role IDs.

User Database:

To keep it simple, we suggest to use a single text file, which is replicated to all cluster nodes.

Also, we can store ACLs inside this file.

Here is a short example how such file could look like:

-----User/Group/Role Database example--------

user:joe@example.com:$1$nd91DtDy$mJtzWJAN2AAABKij0JgMy1/:Joe Average:Just a comment:
user:max@example.com:$1$nd91DtDy$LANSNJAN2AAABKidhfgMy3/:Max Mustermann:Another comment:
user:edward@example.com:$1$nd91DtDy$LANSNAAAAAAABKidhfgMy3/:Edward Example:Example VM Manager:

group:admin:Internal Administrator Group:root:
group:audit:Read only accounts used for audit::
group:customers:Our Customers:joe@example.com,max@example.com:

role:vm_user:Virtual Machine User:VM.ConfigureCD,VM.Console:
role:vm_manager:Virtual Machine Manager:VM.ConfigureCD,VM.Console,VM.AddNewDisk,VM.PowerOn,VM.PowerOff:
role:vm_operator:Virtual Machine Operator:VM.Create,VM.ConfigureCD,VM.Console,VM.AddNewDisk,VM.PowerOn,VM.PowerOff:
role:ds_consumer:DataStore Consumer:Datastore.AllocateSpace:
role:nw_consumer:Network Consumer:Network.AssignNetwork:

# group admin can do anything
acl:0:/:@admin:Administrator:
# group audit can view anything
acl:1:/:@audit:read_only:

# user max can manage all qemu/kvm machines
acl:1:/vm/qemu:max@example.com:vm_manager:

# user joe can use openvz vm 230
acl:1:/vm/openvz/230:joe@example.com:vm_user:

# user Edward can create openvz VMs using vmbr0 and store0
acl:1:/vm/openvz:edward@example.com:vm_operator:
acl:1:/network/vmbr0:edward@example.com:ds_consumer:
acl:1:/storage/store0:edward@example.com:nw_consumer:

---------------------------------------------

Basic model RBAC -> http://en.wikipedia.org/wiki/Role-based_access_control

# Subject: A person or automated agent 
subject:joe@example.com:
subject:max@example.com:

# Role: Job function or title which defines an authority level 
role:vm_user:Virtual Machine User:
role:admin:Administrator:

# Subject Assignment: Subject -> Role(s) 
SA:vm_user:joe@example.com,max@example.com:
SA:admin:joe@example.com:

# Permissions: An approval of a mode of access to a resource 
# Permission Assignment: Role -> Permissions (set of allowed operation)
perm:vm_user:VM.ConfigureCD,VM.Console:
perm:admin:VM.ConfigureCD,VM.Console,VM.Create:

---------------------------------------------

We can merge 'perm' into the 'role' table, because it is 
a 1 -> 1 mapping

subject:joe@example.com:
subject:max@example.com:

role:vm_user:Virtual Machine User:VM.ConfigureCD,VM.Console:
role:admin:Administrator:VM.ConfigureCD,VM.Console,VM.Create:

SA:vm_user:joe@example.com,max@example.com:
SA:admin:joe@example.com:

-----------------------------------------------

We can have different subject assignment for different objects.

subject:joe@example.com:
subject:max@example.com:

role:vm_user:Virtual Machine User:VM.ConfigureCD,VM.Console:
role:admin:Administrator:VM.ConfigureCD,VM.Console,VM.Create:

# joe is 'admin' for openvz VMs, but 'vm_user' for qemu VMs
SA:/vm/openvz:admin:joe@example.com:
SA:/vm/qemu:vm_user:joe@example.com,max@example.com:

-----------------------------------------------

Let us use more convenient names. 
Use 'user' instead of 'subject'.
Use 'acl' instead of 'SA'.

user:joe@example.com:
user:max@example.com:

role:vm_user:Virtual Machine User:VM.ConfigureCD,VM.Console:
role:admin:Administrator:VM.ConfigureCD,VM.Console,VM.Create:

# joe is 'admin' for openvz VMs, but 'vm_user' for qemu VMs
acl:/vm/openvz:admin:joe@example.com:
acl:/vm/qemu:vm_user:joe@example.com,max@example.com:

-----------------------------------------------

Finally introduce groups to group users. ACL can then
use 'users' or 'groups'.

user:joe@example.com:
user:max@example.com:

group:customers:Our Customers:joe@example.com,max@example.com:

role:vm_user:Virtual Machine User:VM.ConfigureCD,VM.Console:
role:admin:Administrator:VM.ConfigureCD,VM.Console,VM.Create:

acl:/vm/openvz:admin:joe@example.com:
acl:/vm/qemu:vm_user:@customers:


-----------------------------------------------