open-nomad/acl/acl.go

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package acl
import (
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"fmt"
"sort"
"strings"
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iradix "github.com/hashicorp/go-immutable-radix"
glob "github.com/ryanuber/go-glob"
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)
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// ManagementACL is a singleton used for management tokens
var ManagementACL *ACL
func init() {
var err error
ManagementACL, err = NewACL(true, nil)
if err != nil {
panic(fmt.Errorf("failed to setup management ACL: %v", err))
}
}
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// capabilitySet is a type wrapper to help managing a set of capabilities
type capabilitySet map[string]struct{}
func (c capabilitySet) Check(k string) bool {
_, ok := c[k]
return ok
}
func (c capabilitySet) Set(k string) {
c[k] = struct{}{}
}
func (c capabilitySet) Clear() {
for cap := range c {
delete(c, cap)
}
}
// ACL object is used to convert a set of policies into a structure that
// can be efficiently evaluated to determine if an action is allowed.
type ACL struct {
// management tokens are allowed to do anything
management bool
// namespaces maps a namespace to a capabilitySet
namespaces *iradix.Tree
// wildcardNamespaces maps a glob pattern of a namespace to a capabilitySet
// We use an iradix for the purposes of ordered iteration.
wildcardNamespaces *iradix.Tree
// hostVolumes maps a named host volume to a capabilitySet
hostVolumes *iradix.Tree
// wildcardHostVolumes maps a glob pattern of host volume names to a capabilitySet
// We use an iradix for the purposes of ordered iteration.
wildcardHostVolumes *iradix.Tree
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agent string
node string
operator string
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quota string
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}
// maxPrivilege returns the policy which grants the most privilege
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// This handles the case of Deny always taking maximum precedence.
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func maxPrivilege(a, b string) string {
switch {
case a == PolicyDeny || b == PolicyDeny:
return PolicyDeny
case a == PolicyWrite || b == PolicyWrite:
return PolicyWrite
case a == PolicyRead || b == PolicyRead:
return PolicyRead
default:
return ""
}
}
// NewACL compiles a set of policies into an ACL object
func NewACL(management bool, policies []*Policy) (*ACL, error) {
// Hot-path management tokens
if management {
return &ACL{management: true}, nil
}
// Create the ACL object
acl := &ACL{}
nsTxn := iradix.New().Txn()
wnsTxn := iradix.New().Txn()
hvTxn := iradix.New().Txn()
whvTxn := iradix.New().Txn()
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for _, policy := range policies {
NAMESPACES:
for _, ns := range policy.Namespaces {
// Should the namespace be matched using a glob?
globDefinition := strings.Contains(ns.Name, "*")
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// Check for existing capabilities
var capabilities capabilitySet
if globDefinition {
raw, ok := wnsTxn.Get([]byte(ns.Name))
if ok {
capabilities = raw.(capabilitySet)
} else {
capabilities = make(capabilitySet)
wnsTxn.Insert([]byte(ns.Name), capabilities)
}
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} else {
raw, ok := nsTxn.Get([]byte(ns.Name))
if ok {
capabilities = raw.(capabilitySet)
} else {
capabilities = make(capabilitySet)
nsTxn.Insert([]byte(ns.Name), capabilities)
}
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}
// Deny always takes precedence
if capabilities.Check(NamespaceCapabilityDeny) {
continue NAMESPACES
}
// Add in all the capabilities
for _, cap := range ns.Capabilities {
if cap == NamespaceCapabilityDeny {
// Overwrite any existing capabilities
capabilities.Clear()
capabilities.Set(NamespaceCapabilityDeny)
continue NAMESPACES
}
capabilities.Set(cap)
}
}
HOSTVOLUMES:
for _, hv := range policy.HostVolumes {
// Should the volume be matched using a glob?
globDefinition := strings.Contains(hv.Name, "*")
// Check for existing capabilities
var capabilities capabilitySet
if globDefinition {
raw, ok := whvTxn.Get([]byte(hv.Name))
if ok {
capabilities = raw.(capabilitySet)
} else {
capabilities = make(capabilitySet)
whvTxn.Insert([]byte(hv.Name), capabilities)
}
} else {
raw, ok := hvTxn.Get([]byte(hv.Name))
if ok {
capabilities = raw.(capabilitySet)
} else {
capabilities = make(capabilitySet)
hvTxn.Insert([]byte(hv.Name), capabilities)
}
}
// Deny always takes precedence
if capabilities.Check(HostVolumeCapabilityDeny) {
continue
}
// Add in all the capabilities
for _, cap := range hv.Capabilities {
if cap == HostVolumeCapabilityDeny {
// Overwrite any existing capabilities
capabilities.Clear()
capabilities.Set(HostVolumeCapabilityDeny)
continue HOSTVOLUMES
}
capabilities.Set(cap)
}
}
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// Take the maximum privilege for agent, node, and operator
if policy.Agent != nil {
acl.agent = maxPrivilege(acl.agent, policy.Agent.Policy)
}
if policy.Node != nil {
acl.node = maxPrivilege(acl.node, policy.Node.Policy)
}
if policy.Operator != nil {
acl.operator = maxPrivilege(acl.operator, policy.Operator.Policy)
}
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if policy.Quota != nil {
acl.quota = maxPrivilege(acl.quota, policy.Quota.Policy)
}
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}
// Finalize the namespaces
acl.namespaces = nsTxn.Commit()
acl.wildcardNamespaces = wnsTxn.Commit()
acl.hostVolumes = hvTxn.Commit()
acl.wildcardHostVolumes = whvTxn.Commit()
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return acl, nil
}
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// AllowNsOp is shorthand for AllowNamespaceOperation
func (a *ACL) AllowNsOp(ns string, op string) bool {
return a.AllowNamespaceOperation(ns, op)
}
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// AllowNamespaceOperation checks if a given operation is allowed for a namespace
func (a *ACL) AllowNamespaceOperation(ns string, op string) bool {
// Hot path management tokens
if a.management {
return true
}
// Check for a matching capability set
capabilities, ok := a.matchingNamespaceCapabilitySet(ns)
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if !ok {
return false
}
// Check if the capability has been granted
return capabilities.Check(op)
}
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// AllowNamespace checks if any operations are allowed for a namespace
func (a *ACL) AllowNamespace(ns string) bool {
// Hot path management tokens
if a.management {
return true
}
// Check for a matching capability set
capabilities, ok := a.matchingNamespaceCapabilitySet(ns)
if !ok {
return false
}
// Check if the capability has been granted
if len(capabilities) == 0 {
return false
}
return !capabilities.Check(PolicyDeny)
}
// AllowHostVolumeOperation checks if a given operation is allowed for a host volume
func (a *ACL) AllowHostVolumeOperation(hv string, op string) bool {
// Hot path management tokens
if a.management {
return true
}
// Check for a matching capability set
capabilities, ok := a.matchingHostVolumeCapabilitySet(hv)
if !ok {
return false
}
// Check if the capability has been granted
return capabilities.Check(op)
}
// AllowHostVolume checks if any operations are allowed for a HostVolume
func (a *ACL) AllowHostVolume(ns string) bool {
// Hot path management tokens
if a.management {
return true
}
// Check for a matching capability set
capabilities, ok := a.matchingHostVolumeCapabilitySet(ns)
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if !ok {
return false
}
// Check if the capability has been granted
if len(capabilities) == 0 {
return false
}
return !capabilities.Check(PolicyDeny)
}
// matchingNamespaceCapabilitySet looks for a capabilitySet that matches the namespace,
// if no concrete definitions are found, then we return the closest matching
// glob.
// The closest matching glob is the one that has the smallest character
// difference between the namespace and the glob.
func (a *ACL) matchingNamespaceCapabilitySet(ns string) (capabilitySet, bool) {
// Check for a concrete matching capability set
raw, ok := a.namespaces.Get([]byte(ns))
if ok {
return raw.(capabilitySet), true
}
// We didn't find a concrete match, so lets try and evaluate globs.
return a.findClosestMatchingGlob(a.wildcardNamespaces, ns)
}
// matchingHostVolumeCapabilitySet looks for a capabilitySet that matches the host volume name,
// if no concrete definitions are found, then we return the closest matching
// glob.
// The closest matching glob is the one that has the smallest character
// difference between the volume name and the glob.
func (a *ACL) matchingHostVolumeCapabilitySet(name string) (capabilitySet, bool) {
// Check for a concrete matching capability set
raw, ok := a.hostVolumes.Get([]byte(name))
if ok {
return raw.(capabilitySet), true
}
// We didn't find a concrete match, so lets try and evaluate globs.
return a.findClosestMatchingGlob(a.wildcardHostVolumes, name)
}
type matchingGlob struct {
name string
difference int
capabilitySet capabilitySet
}
func (a *ACL) findClosestMatchingGlob(radix *iradix.Tree, ns string) (capabilitySet, bool) {
// First, find all globs that match.
matchingGlobs := findAllMatchingWildcards(radix, ns)
// If none match, let's return.
if len(matchingGlobs) == 0 {
return capabilitySet{}, false
}
// If a single matches, lets be efficient and return early.
if len(matchingGlobs) == 1 {
return matchingGlobs[0].capabilitySet, true
}
// Stable sort the matched globs, based on the character difference between
// the glob definition and the requested namespace. This allows us to be
// more consistent about results based on the policy definition.
sort.SliceStable(matchingGlobs, func(i, j int) bool {
return matchingGlobs[i].difference <= matchingGlobs[j].difference
})
return matchingGlobs[0].capabilitySet, true
}
func findAllMatchingWildcards(radix *iradix.Tree, name string) []matchingGlob {
var matches []matchingGlob
nsLen := len(name)
radix.Root().Walk(func(bk []byte, iv interface{}) bool {
k := string(bk)
v := iv.(capabilitySet)
isMatch := glob.Glob(k, name)
if isMatch {
pair := matchingGlob{
name: k,
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difference: nsLen - len(k) + strings.Count(k, glob.GLOB),
capabilitySet: v,
}
matches = append(matches, pair)
}
// We always want to walk the entire tree, never terminate early.
return false
})
return matches
}
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// AllowAgentRead checks if read operations are allowed for an agent
func (a *ACL) AllowAgentRead() bool {
switch {
case a.management:
return true
case a.agent == PolicyWrite:
return true
case a.agent == PolicyRead:
return true
default:
return false
}
}
// AllowAgentWrite checks if write operations are allowed for an agent
func (a *ACL) AllowAgentWrite() bool {
switch {
case a.management:
return true
case a.agent == PolicyWrite:
return true
default:
return false
}
}
// AllowNodeRead checks if read operations are allowed for a node
func (a *ACL) AllowNodeRead() bool {
switch {
case a.management:
return true
case a.node == PolicyWrite:
return true
case a.node == PolicyRead:
return true
default:
return false
}
}
// AllowNodeWrite checks if write operations are allowed for a node
func (a *ACL) AllowNodeWrite() bool {
switch {
case a.management:
return true
case a.node == PolicyWrite:
return true
default:
return false
}
}
// AllowOperatorRead checks if read operations are allowed for a operator
func (a *ACL) AllowOperatorRead() bool {
switch {
case a.management:
return true
case a.operator == PolicyWrite:
return true
case a.operator == PolicyRead:
return true
default:
return false
}
}
// AllowOperatorWrite checks if write operations are allowed for a operator
func (a *ACL) AllowOperatorWrite() bool {
switch {
case a.management:
return true
case a.operator == PolicyWrite:
return true
default:
return false
}
}
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// AllowQuotaRead checks if read operations are allowed for all quotas
func (a *ACL) AllowQuotaRead() bool {
switch {
case a.management:
return true
case a.quota == PolicyWrite:
return true
case a.quota == PolicyRead:
return true
default:
return false
}
}
// AllowQuotaWrite checks if write operations are allowed for quotas
func (a *ACL) AllowQuotaWrite() bool {
switch {
case a.management:
return true
case a.quota == PolicyWrite:
return true
default:
return false
}
}
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// IsManagement checks if this represents a management token
func (a *ACL) IsManagement() bool {
return a.management
}
// NamespaceValidator returns a func that wraps ACL.AllowNamespaceOperation in
// a list of operations. Returns true (allowed) if acls are disabled or if
// *any* capabilities match.
func NamespaceValidator(ops ...string) func(*ACL, string) bool {
return func(acl *ACL, ns string) bool {
// Always allow if ACLs are disabled.
if acl == nil {
return true
}
for _, op := range ops {
if acl.AllowNamespaceOperation(ns, op) {
// An operation is allowed, return true
return true
}
}
// No operations are allowed by this ACL, return false
return false
}
}