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tailscale/util/syspolicy/rsop/rsop.go

175 lines
6.0 KiB
Go

// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
// Package rsop facilitates [source.Store] registration via [RegisterStore]
// and provides access to the effective policy merged from all registered sources
// via [PolicyFor].
package rsop
import (
"errors"
"fmt"
"slices"
"sync"
"tailscale.com/syncs"
"tailscale.com/util/slicesx"
"tailscale.com/util/syspolicy/internal"
"tailscale.com/util/syspolicy/setting"
"tailscale.com/util/syspolicy/source"
)
var (
policyMu sync.Mutex // protects [policySources] and [effectivePolicies]
policySources []*source.Source // all registered policy sources
effectivePolicies []*Policy // all active (non-closed) effective policies returned by [PolicyFor]
// effectivePolicyLRU is an LRU cache of [Policy] by [setting.Scope].
// Although there could be multiple [setting.PolicyScope] instances with the same [setting.Scope],
// such as two user scopes for different users, there is only one [setting.DeviceScope], only one
// [setting.CurrentProfileScope], and in most cases, only one active user scope.
// Therefore, cache misses that require falling back to [effectivePolicies] are extremely rare.
// It's a fixed-size array of atomic values and can be accessed without [policyMu] held.
effectivePolicyLRU [setting.NumScopes]syncs.AtomicValue[*Policy]
)
// PolicyFor returns the [Policy] for the specified scope,
// creating it from the registered [source.Store]s if it doesn't already exist.
func PolicyFor(scope setting.PolicyScope) (*Policy, error) {
if err := internal.Init.Do(); err != nil {
return nil, err
}
policy := effectivePolicyLRU[scope.Kind()].Load()
if policy != nil && policy.Scope() == scope && policy.IsValid() {
return policy, nil
}
return policyForSlow(scope)
}
func policyForSlow(scope setting.PolicyScope) (policy *Policy, err error) {
defer func() {
// Always update the LRU cache on exit if we found (or created)
// a policy for the specified scope.
if policy != nil {
effectivePolicyLRU[scope.Kind()].Store(policy)
}
}()
policyMu.Lock()
defer policyMu.Unlock()
if policy, ok := findPolicyByScopeLocked(scope); ok {
return policy, nil
}
// If there is no existing effective policy for the specified scope,
// we need to create one using the policy sources registered for that scope.
sources := slicesx.Filter(nil, policySources, func(source *source.Source) bool {
return source.Scope().Contains(scope)
})
policy, err = newPolicy(scope, sources...)
if err != nil {
return nil, err
}
effectivePolicies = append(effectivePolicies, policy)
return policy, nil
}
// findPolicyByScopeLocked returns a policy with the specified scope and true if
// one exists in the [effectivePolicies] list, otherwise it returns nil, false.
// [policyMu] must be held.
func findPolicyByScopeLocked(target setting.PolicyScope) (policy *Policy, ok bool) {
for _, policy := range effectivePolicies {
if policy.Scope() == target && policy.IsValid() {
return policy, true
}
}
return nil, false
}
// deletePolicy deletes the specified effective policy from [effectivePolicies]
// and [effectivePolicyLRU].
func deletePolicy(policy *Policy) {
policyMu.Lock()
defer policyMu.Unlock()
if i := slices.Index(effectivePolicies, policy); i != -1 {
effectivePolicies = slices.Delete(effectivePolicies, i, i+1)
}
effectivePolicyLRU[policy.Scope().Kind()].CompareAndSwap(policy, nil)
}
// registerSource registers the specified [source.Source] to be used by the package.
// It updates existing [Policy]s returned by [PolicyFor] to use this source if
// they are within the source's [setting.PolicyScope].
func registerSource(source *source.Source) error {
policyMu.Lock()
defer policyMu.Unlock()
if slices.Contains(policySources, source) {
// already registered
return nil
}
policySources = append(policySources, source)
return forEachEffectivePolicyLocked(func(policy *Policy) error {
if !source.Scope().Contains(policy.Scope()) {
// Policy settings in the specified source do not apply
// to the scope of this effective policy.
// For example, a user policy source is being registered
// while the effective policy is for the device (or another user).
return nil
}
return policy.addSource(source)
})
}
// replaceSource is like [unregisterSource](old) followed by [registerSource](new),
// but performed atomically: the effective policy will contain settings
// either from the old source or the new source, never both and never neither.
func replaceSource(old, new *source.Source) error {
policyMu.Lock()
defer policyMu.Unlock()
oldIndex := slices.Index(policySources, old)
if oldIndex == -1 {
return fmt.Errorf("the source is not registered: %v", old)
}
policySources[oldIndex] = new
return forEachEffectivePolicyLocked(func(policy *Policy) error {
if !old.Scope().Contains(policy.Scope()) || !new.Scope().Contains(policy.Scope()) {
return nil
}
return policy.replaceSource(old, new)
})
}
// unregisterSource unregisters the specified [source.Source],
// so that it won't be used by any new or existing [Policy].
func unregisterSource(source *source.Source) error {
policyMu.Lock()
defer policyMu.Unlock()
index := slices.Index(policySources, source)
if index == -1 {
return nil
}
policySources = slices.Delete(policySources, index, index+1)
return forEachEffectivePolicyLocked(func(policy *Policy) error {
if !source.Scope().Contains(policy.Scope()) {
return nil
}
return policy.removeSource(source)
})
}
// forEachEffectivePolicyLocked calls fn for every non-closed [Policy] in [effectivePolicies].
// It accumulates the returned errors and returns an error that wraps all errors returned by fn.
// The [policyMu] mutex must be held while this function is executed.
func forEachEffectivePolicyLocked(fn func(p *Policy) error) error {
var errs []error
for _, policy := range effectivePolicies {
if policy.IsValid() {
err := fn(policy)
if err != nil && !errors.Is(err, ErrPolicyClosed) {
errs = append(errs, err)
}
}
}
return errors.Join(errs...)
}