Files
netbird/client/mdm/policy.go
Riccardo Manfrin 2bcea9d582 [client] add MDM configuration profile support (Windows registry + macOS plist) (#6374)
* Initial scaffolding

* Applies MDM override

* Unit tests

* Helpers business logic

* Return error if trying to modify any config that is gated by MDM

* Add ManagedFields to returned config over GetConfig

* Adds initial 101 MDM policy business logic testing

* gRPC MDM changes

* MDM Name scoping for clarity

* Implements windows loading of MDM policy

* Adds missing WGPort config

* Cleanup setupKey to align to linear

* Align split tunnel code

* Adds some log

* Prefix every log with MDM

* Adds debug config cobra command

This can be useful for troubleshooting and checking config
now that its resolution is not trivial

defaults > config > env cars > CLI/UI > MDM

* Adds MDM 1m diff checker & reloader

* Adds also up/start after cancel

* Publishes event for UI to sync upon MDM changes

* Add events to resync UI to actual config

This also provide fixup for UI no aligning to changed config when coming from cli up with config flags.

* UI behavior conflicts relaxation

UI sends full config snapshot with all values. It doesn't
make sense to block it if the values are aligned with the
values constrained by the MDM policy. It's just simplier
to allow values that are compliant. (this goes for the CLI
as well at this point)

* Lock toggle Settngs

* Advanced Settings locking

* Fixup presharedkey

* Apply MDM locks

* Toggle gray in/out for Advanced Settings

* Adds support for disabling of Profiles and UpdateSettings feature flags

* Adds Gate Login as well when --disable-update-settings=true is given to service

This commit tries to settle things with an old PR-4237 which had relaxed
the case where the SetConfig returned an `Unavailable` code error.

Under this circumnstance the PR allowed the upFunc to just emit a warning and
progress further with the login gRPC. Since the login call is consuming
the --management-url coming from the `up` command, it might be possible
to abuse the "Unavailable" code to inject a management URL that is different
from the configured one even though the --disable-update-settings is set
to true (?)

* Evaluate disable-update-settings errors only when there's an actual override

* [UI] Fixup advanced Settings

* [UI] Fixup for preshared key

* [UI] Fixup for profile enable/disable toggle

We need to align the initial state to evaluate the delta in case.

The initial state has to be "true" since the profile starts visible.
Then we receive MDM and transition the cache bool value to the actual
MDM imposed state

* Enforces disable networks

* [UI] Aligns to "enable/disable once on change only"

* Fixup: MDM wins. always

* Removes --disable-advanced-settings

It was a typo in our meetings. the actual thing is --disable-update-settings

* [PROTO] Removes --disable-advanced-settings

* [UI] Removes --disable-advanced-settings

* Pins feat profile retrieval to notif event

* [UI] Fix for "hide" not working when propagating to parent with children

* Adds dep for reading plist files

* Introduces support for darwing plist loading

* Tests MDM config reload via ticker

* [PROVISIONING] ADMX/ADML/PS/bash scripts/templates

* CI fixes

- Add docstrings to `mdm_integration`
- refactor for cognitive complexity
- mod tidy

* Linting

* Add docstrings to `mdm_integration`

* nil,nil is no policy and no error. Allow it

* nil,nil is no policy and no error. Allow it

* exclude MDM profile adminstrated keys data from debug bundle

* Fixes Rosenpass left disable after MDM unlock

* Partial revert coderabbit added docstrings

* Renaming fix

* Avoid locking on clientRunning bool when the connection is aborted for whatever reason

We want to just signal this through the giveUpChan, we will manage the signal from
the waiter side and in case set it to false there. THis way we avoid locking,
which should allow the MDM down+wait_for_term_chan_signal_+up procedure

clientRunning is used to signal two different conditions here:

1. the initialization procedure is over (we have an engine)
2. the connection being up (or being attempted)

Probably these two functionalities should not alias, and the failure of the second condition
(because of any error) should just drive a reconnection (currently it's not happening,
and we silently go idle).
OR, mor probably, the two things are the SAME and there should not exist a case where
we did the "Up" initialization and connection attempt but we are not still attempting it.

* Moves test helper at te very bottom

* Addresses github comments

* No lock no copy

* Prevents engine not stopping within 10 secs from being paired by another instance

We instead juts SKIP updating the policy, so
1. the MDM ticker will kick in 1 minute time,
2. find the policy misaligned,
3. enter the onMDMPolicyChange,
4. find the s.clientRunning == true
   (because it is set to false only in server cleanupConnection,
   and not by s.actCancel())
5. call s.actCancel() again if not nil
6. immediately return from <-s.clientGiveUpChan
7. finally call s.restartEngineForMDMLocked()

* Since we ARE running there should be a config

If the config was cancelled midflight, connect will abort later on

* DisableAutoConnect should not stop a running connection.

DisableAutoConnect should just avoid the connection attempts *when the service starts*.
If we are started and we are up and running, DisableAutoConnect should not kick in.

Another PR will follow about this topic

* Removes unused vars

* Moves callback into Run method arg

* align comment to removal of DisableAutoConnect

DisableAutoConnect should just avoid the connection attempts *when the service starts*.
If we are started and we are up and running, DisableAutoConnect should not kick in

* Removes unused managed_fields data.

This was initially used to drive the UI but approach changed
to reload config/features upon notifications which makes this data redundant.

* Reorder stuff

* Unexport unrequired vars/functions

PoliciesEqual → policiesEqual
AllKeys → allKeys

* Adds list of MDM managed fields in the debug bundle
2026-06-12 12:28:49 +02:00

248 lines
6.9 KiB
Go

// Package mdm reads MDM-managed configuration from platform-native sources
// (plist on macOS, registry on Windows, UserDefaults on iOS,
// RestrictionsManager on Android). The returned Policy is consumed by
// profilemanager.Config.apply() as the highest-priority override layer.
//
// An empty Policy (no source present, or source present with zero keys)
// means no MDM enforcement is active and the client behaves as if the
// feature did not exist.
package mdm
import (
"sort"
"strconv"
log "github.com/sirupsen/logrus"
)
// Well-known policy keys. Names mirror the corresponding ConfigInput Go field
// names (lowerCamelCase) so the daemon can map a Policy key directly to a
// configuration field.
const (
KeyManagementURL = "managementURL"
KeyDisableUpdateSettings = "disableUpdateSettings"
KeyDisableProfiles = "disableProfiles"
KeyDisableNetworks = "disableNetworks"
KeyDisableClientRoutes = "disableClientRoutes"
KeyDisableServerRoutes = "disableServerRoutes"
KeyBlockInbound = "blockInbound"
KeyDisableMetricsCollection = "disableMetricsCollection"
KeyAllowServerSSH = "allowServerSSH"
KeyDisableAutoConnect = "disableAutoConnect"
KeyPreSharedKey = "preSharedKey"
KeyRosenpassEnabled = "rosenpassEnabled"
KeyRosenpassPermissive = "rosenpassPermissive"
KeyWireguardPort = "wireguardPort"
// Split tunnel is modeled as a single conceptual policy with two
// registry/plist values. KeySplitTunnelMode is the discriminator
// ("allow" or "disallow"); KeySplitTunnelApps is a comma-separated
// list of package names. The values are mutually exclusive by
// construction — only one mode can be set at a time.
KeySplitTunnelMode = "splitTunnelMode"
KeySplitTunnelApps = "splitTunnelApps"
)
// Split-tunnel mode literals (KeySplitTunnelMode values).
const (
SplitTunnelModeAllow = "allow"
SplitTunnelModeDisallow = "disallow"
)
// SecretKeys lists keys whose values must be redacted in logs.
var SecretKeys = map[string]struct{}{
KeyPreSharedKey: {},
}
// boolStringLiterals enumerates the textual boolean encodings the
// platform loaders may produce (Windows REG_SZ "true", iOS / Android
// managed-config booleans-as-strings, etc.). Lookup keeps GetBool flat
// (no nested switch on the string case).
var boolStringLiterals = map[string]bool{
"true": true,
"1": true,
"yes": true,
"false": false,
"0": false,
"no": false,
}
// Policy holds MDM-managed settings read from the platform source. A nil or
// empty Policy means no enforcement is active.
type Policy struct {
values map[string]any
}
// NewPolicy constructs a Policy from a key→value map. Pass nil or an
// empty map to construct an empty (no-enforcement) Policy. The returned
// *Policy is always non-nil.
func NewPolicy(values map[string]any) *Policy {
if values == nil {
values = map[string]any{}
}
return &Policy{values: values}
}
// LoadPolicy reads the platform-native MDM configuration. Returns an
// empty (but non-nil) Policy when no source is present, the source is
// empty, or the platform is unsupported.
//
// Diagnostic logging differentiates the three states:
// - source absent / unsupported platform: trace log only
// - source present, zero keys: info "MDM enrolled (no managed keys)"
// - source present, N keys: info "MDM enrolled with N managed keys: [...]"
func LoadPolicy() *Policy {
values, err := loadPlatformPolicy()
if err != nil {
log.Tracef("MDM policy load: %v", err)
return &Policy{values: map[string]any{}}
}
if values == nil {
return &Policy{values: map[string]any{}}
}
if len(values) == 0 {
log.Info("MDM enrolled (no managed keys)")
} else {
log.Infof("MDM enrolled with %d managed key(s): %v", len(values), sortedKeys(values))
}
return &Policy{values: values}
}
// IsEmpty reports whether the Policy has no managed keys.
func (p *Policy) IsEmpty() bool {
return p == nil || len(p.values) == 0
}
// HasKey reports whether the given key is MDM-managed.
func (p *Policy) HasKey(key string) bool {
if p == nil {
return false
}
_, ok := p.values[key]
return ok
}
// ManagedKeys returns the sorted list of managed key names. Returns an empty
// slice (not nil) on an empty Policy.
func (p *Policy) ManagedKeys() []string {
if p == nil {
return []string{}
}
return sortedKeys(p.values)
}
// GetString returns the managed value for key coerced to string, and whether
// the key was set. A non-string value returns ("", false).
func (p *Policy) GetString(key string) (string, bool) {
if p == nil {
return "", false
}
v, ok := p.values[key]
if !ok {
return "", false
}
s, ok := v.(string)
if !ok || s == "" {
return "", false
}
return s, true
}
// GetBool returns the managed value for key coerced to bool, and whether the
// key was set. Accepts native bool and string literals "true"/"false"/"1"/"0".
func (p *Policy) GetBool(key string) (bool, bool) {
if p == nil {
return false, false
}
v, ok := p.values[key]
if !ok {
return false, false
}
switch t := v.(type) {
case bool:
return t, true
case string:
b, known := boolStringLiterals[t]
return b, known
case int:
return t != 0, true
case int64:
return t != 0, true
}
return false, false
}
// GetInt returns the managed value for key as int64, and whether the key
// was set. Accepts native int / int64 (as produced by the Windows registry
// loader for REG_DWORD/REG_QWORD) and numeric strings (decimal).
func (p *Policy) GetInt(key string) (int64, bool) {
if p == nil {
return 0, false
}
v, ok := p.values[key]
if !ok {
return 0, false
}
switch t := v.(type) {
case int64:
return t, true
case int:
return int64(t), true
case int32:
return int64(t), true
case uint64:
return int64(t), true
case float64:
return int64(t), true
case string:
if n, err := strconv.ParseInt(t, 10, 64); err == nil {
return n, true
}
}
return 0, false
}
// GetStringSlice returns the managed value for key as []string, and whether
// the key was set. Accepts []string, []any (of strings), and a single string
// (treated as a one-element list).
func (p *Policy) GetStringSlice(key string) ([]string, bool) {
if p == nil {
return nil, false
}
v, ok := p.values[key]
if !ok {
return nil, false
}
switch t := v.(type) {
case []string:
return append([]string(nil), t...), true
case []any:
out := make([]string, 0, len(t))
for _, item := range t {
s, ok := item.(string)
if !ok {
return nil, false
}
out = append(out, s)
}
return out, true
case string:
return []string{t}, true
}
return nil, false
}
// sortedKeys returns the keys of m as a deterministic, lexicographically
// sorted slice. Used internally by Policy.ManagedKeys and LoadPolicy's
// diagnostic log line so callers see a stable key order across runs
// regardless of Go's randomised map iteration.
func sortedKeys(m map[string]any) []string {
out := make([]string, 0, len(m))
for k := range m {
out = append(out, k)
}
sort.Strings(out)
return out
}