package acl
import (
"crypto/md5"
"fmt"
"github.com/hashicorp/golang-lru"
)
// FaultFunc is a function used to fault in the parent,
// rules for an ACL given it's ID
type FaultFunc func ( id string ) ( string , string , error )
// aclEntry allows us to store the ACL with it's policy ID
type aclEntry struct {
ACL ACL
Parent string
RuleID string
}
// Cache is used to implement policy and ACL caching
type Cache struct {
faultfn FaultFunc
aclCache * lru . Cache // Cache id -> acl
policyCache * lru . Cache // Cache policy -> acl
ruleCache * lru . Cache // Cache rules -> policy
}
// NewCache contructs a new policy and ACL cache of a given size
func NewCache ( size int , faultfn FaultFunc ) ( * Cache , error ) {
if size <= 0 {
return nil , fmt . Errorf ( "Must provide positive cache size" )
}
rc , _ := lru . New ( size )
pc , _ := lru . New ( size )
ac , _ := lru . New ( size )
c := & Cache {
faultfn : faultfn ,
aclCache : ac ,
policyCache : pc ,
ruleCache : rc ,
}
return c , nil
}
// GetPolicy is used to get a potentially cached policy set.
// If not cached, it will be parsed, and then cached.
func ( c * Cache ) GetPolicy ( rules string ) ( * Policy , error ) {
return c . getPolicy ( c . ruleID ( rules ) , rules )
}
// getPolicy is an internal method to get a cached policy,
// but it assumes a pre-computed ID
func ( c * Cache ) getPolicy ( id , rules string ) ( * Policy , error ) {
raw , ok := c . ruleCache . Get ( id )
if ok {
return raw . ( * Policy ) , nil
}
policy , err := Parse ( rules )
if err != nil {
return nil , err
}
policy . ID = id
c . ruleCache . Add ( id , policy )
return policy , nil
}
// ruleID is used to generate an ID for a rule
func ( c * Cache ) ruleID ( rules string ) string {
return fmt . Sprintf ( "%x" , md5 . Sum ( [ ] byte ( rules ) ) )
}
// policyID returns the cache ID for a policy
func ( c * Cache ) policyID ( parent , ruleID string ) string {
return parent + ":" + ruleID
}
// GetACLPolicy is used to get the potentially cached ACL
// policy. If not cached, it will be generated and then cached.
func ( c * Cache ) GetACLPolicy ( id string ) ( string , * Policy , error ) {
// Check for a cached acl
if raw , ok := c . aclCache . Get ( id ) ; ok {
cached := raw . ( aclEntry )
if raw , ok := c . ruleCache . Get ( cached . RuleID ) ; ok {
return cached . Parent , raw . ( * Policy ) , nil
}
}
// Fault in the rules
parent , rules , err := c . faultfn ( id )
if err != nil {
return "" , nil , err
}
// Get cached
policy , err := c . GetPolicy ( rules )
return parent , policy , err
}
// GetACL is used to get a potentially cached ACL policy.
// If not cached, it will be generated and then cached.
func ( c * Cache ) GetACL ( id string ) ( ACL , error ) {
// Look for the ACL directly
raw , ok := c . aclCache . Get ( id )
if ok {
return raw . ( aclEntry ) . ACL , nil
}
// Get the rules
parentID , rules , err := c . faultfn ( id )
if err != nil {
return nil , err
}
ruleID := c . ruleID ( rules )
// Check for a compiled ACL
policyID := c . policyID ( parentID , ruleID )
var compiled ACL
if raw , ok := c . policyCache . Get ( policyID ) ; ok {
compiled = raw . ( ACL )
} else {
// Get the policy
policy , err := c . getPolicy ( ruleID , rules )
if err != nil {
return nil , err
}
// Get the parent ACL
parent := RootACL ( parentID )
if parent == nil {
parent , err = c . GetACL ( parentID )
if err != nil {
return nil , err
}
}
// Compile the ACL
acl , err := New ( parent , policy )
if err != nil {
return nil , err
}
// Cache the compiled ACL
c . policyCache . Add ( policyID , acl )
compiled = acl
}
// Cache and return the ACL
c . aclCache . Add ( id , aclEntry { compiled , parentID , ruleID } )
return compiled , nil
}
// ClearACL is used to clear the ACL cache if any
func ( c * Cache ) ClearACL ( id string ) {
c . aclCache . Remove ( id )
}
// Purge is used to clear all the ACL caches. The
// rule and policy caches are not purged, since they
// are content-hashed anyways.
func ( c * Cache ) Purge ( ) {
c . aclCache . Purge ( )
}