Consul is a distributed, highly available, and data center aware solution to connect and configure applications across dynamic, distributed infrastructure.
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package acl
import (
"bytes"
"encoding/binary"
"fmt"
"github.com/hashicorp/consul/sentinel"
"github.com/hashicorp/hcl"
"github.com/hashicorp/hcl/hcl/ast"
hclprinter "github.com/hashicorp/hcl/hcl/printer"
"golang.org/x/crypto/blake2b"
)
type SyntaxVersion int
const (
SyntaxCurrent SyntaxVersion = iota
SyntaxLegacy
)
const (
PolicyDeny = "deny"
PolicyRead = "read"
PolicyWrite = "write"
PolicyList = "list"
)
// Policy is used to represent the policy specified by
// an ACL configuration.
type Policy struct {
ID string `hcl:"id"`
Revision uint64 `hcl:"revision"`
ACL string `hcl:"acl,expand"`
Agents []*AgentPolicy `hcl:"agent,expand"`
AgentPrefixes []*AgentPolicy `hcl:"agent_prefix,expand"`
Keys []*KeyPolicy `hcl:"key,expand"`
KeyPrefixes []*KeyPolicy `hcl:"key_prefix,expand"`
Nodes []*NodePolicy `hcl:"node,expand"`
NodePrefixes []*NodePolicy `hcl:"node_prefix,expand"`
Services []*ServicePolicy `hcl:"service,expand"`
ServicePrefixes []*ServicePolicy `hcl:"service_prefix,expand"`
Sessions []*SessionPolicy `hcl:"session,expand"`
SessionPrefixes []*SessionPolicy `hcl:"session_prefix,expand"`
Events []*EventPolicy `hcl:"event,expand"`
EventPrefixes []*EventPolicy `hcl:"event_prefix,expand"`
PreparedQueries []*PreparedQueryPolicy `hcl:"query,expand"`
PreparedQueryPrefixes []*PreparedQueryPolicy `hcl:"query_prefix,expand"`
Keyring string `hcl:"keyring"`
Operator string `hcl:"operator"`
}
// Sentinel defines a snippet of Sentinel code that can be attached to a policy.
type Sentinel struct {
Code string
EnforcementLevel string
}
// AgentPolicy represents a policy for working with agent endpoints on nodes
// with specific name prefixes.
type AgentPolicy struct {
Node string `hcl:",key"`
Policy string
}
func (a *AgentPolicy) GoString() string {
return fmt.Sprintf("%#v", *a)
}
// KeyPolicy represents a policy for a key
type KeyPolicy struct {
Prefix string `hcl:",key"`
Policy string
Sentinel Sentinel
}
func (k *KeyPolicy) GoString() string {
return fmt.Sprintf("%#v", *k)
}
// NodePolicy represents a policy for a node
type NodePolicy struct {
Name string `hcl:",key"`
Policy string
Sentinel Sentinel
}
func (n *NodePolicy) GoString() string {
return fmt.Sprintf("%#v", *n)
}
// ServicePolicy represents a policy for a service
type ServicePolicy struct {
Name string `hcl:",key"`
Policy string
Sentinel Sentinel
// Intentions is the policy for intentions where this service is the
// destination. This may be empty, in which case the Policy determines
// the intentions policy.
Intentions string
}
func (s *ServicePolicy) GoString() string {
return fmt.Sprintf("%#v", *s)
}
// SessionPolicy represents a policy for making sessions tied to specific node
// name prefixes.
type SessionPolicy struct {
Node string `hcl:",key"`
Policy string
}
func (s *SessionPolicy) GoString() string {
return fmt.Sprintf("%#v", *s)
}
// EventPolicy represents a user event policy.
type EventPolicy struct {
Event string `hcl:",key"`
Policy string
}
func (e *EventPolicy) GoString() string {
return fmt.Sprintf("%#v", *e)
}
// PreparedQueryPolicy represents a prepared query policy.
type PreparedQueryPolicy struct {
Prefix string `hcl:",key"`
Policy string
}
func (p *PreparedQueryPolicy) GoString() string {
return fmt.Sprintf("%#v", *p)
}
// isPolicyValid makes sure the given string matches one of the valid policies.
func isPolicyValid(policy string) bool {
switch policy {
case PolicyDeny:
return true
case PolicyRead:
return true
case PolicyWrite:
return true
default:
return false
}
}
// isSentinelValid makes sure the given sentinel block is valid, and will skip
// out if the evaluator is nil.
func isSentinelValid(sentinel sentinel.Evaluator, basicPolicy string, sp Sentinel) error {
// Sentinel not enabled at all, or for this policy.
if sentinel == nil {
return nil
}
if sp.Code == "" {
return nil
}
// We only allow sentinel code on write policies at this time.
if basicPolicy != PolicyWrite {
return fmt.Errorf("code is only allowed for write policies")
}
// Validate the sentinel parts.
switch sp.EnforcementLevel {
case "", "soft-mandatory", "hard-mandatory":
// OK
default:
return fmt.Errorf("unsupported enforcement level %q", sp.EnforcementLevel)
}
return sentinel.Compile(sp.Code)
}
func parseCurrent(rules string, sentinel sentinel.Evaluator) (*Policy, error) {
p := &Policy{}
if err := hcl.Decode(p, rules); err != nil {
return nil, fmt.Errorf("Failed to parse ACL rules: %v", err)
}
// Validate the acl policy
if p.ACL != "" && !isPolicyValid(p.ACL) {
return nil, fmt.Errorf("Invalid acl policy: %#v", p.ACL)
}
// Validate the agent policy
for _, ap := range p.Agents {
if !isPolicyValid(ap.Policy) {
return nil, fmt.Errorf("Invalid agent policy: %#v", ap)
}
}
for _, ap := range p.AgentPrefixes {
if !isPolicyValid(ap.Policy) {
return nil, fmt.Errorf("Invalid agent_prefix policy: %#v", ap)
}
}
// Validate the key policy
for _, kp := range p.Keys {
if kp.Policy != PolicyList && !isPolicyValid(kp.Policy) {
return nil, fmt.Errorf("Invalid key policy: %#v", kp)
}
if err := isSentinelValid(sentinel, kp.Policy, kp.Sentinel); err != nil {
return nil, fmt.Errorf("Invalid key Sentinel policy: %#v, got error:%v", kp, err)
}
}
for _, kp := range p.KeyPrefixes {
if kp.Policy != PolicyList && !isPolicyValid(kp.Policy) {
return nil, fmt.Errorf("Invalid key_prefix policy: %#v", kp)
}
if err := isSentinelValid(sentinel, kp.Policy, kp.Sentinel); err != nil {
return nil, fmt.Errorf("Invalid key_prefix Sentinel policy: %#v, got error:%v", kp, err)
}
}
// Validate the node policies
for _, np := range p.Nodes {
if !isPolicyValid(np.Policy) {
return nil, fmt.Errorf("Invalid node policy: %#v", np)
}
if err := isSentinelValid(sentinel, np.Policy, np.Sentinel); err != nil {
return nil, fmt.Errorf("Invalid node Sentinel policy: %#v, got error:%v", np, err)
}
}
for _, np := range p.NodePrefixes {
if !isPolicyValid(np.Policy) {
return nil, fmt.Errorf("Invalid node_prefix policy: %#v", np)
}
if err := isSentinelValid(sentinel, np.Policy, np.Sentinel); err != nil {
return nil, fmt.Errorf("Invalid node_prefix Sentinel policy: %#v, got error:%v", np, err)
}
}
// Validate the service policies
for _, sp := range p.Services {
if !isPolicyValid(sp.Policy) {
return nil, fmt.Errorf("Invalid service policy: %#v", sp)
}
if sp.Intentions != "" && !isPolicyValid(sp.Intentions) {
return nil, fmt.Errorf("Invalid service intentions policy: %#v", sp)
}
if err := isSentinelValid(sentinel, sp.Policy, sp.Sentinel); err != nil {
return nil, fmt.Errorf("Invalid service Sentinel policy: %#v, got error:%v", sp, err)
}
}
for _, sp := range p.ServicePrefixes {
if !isPolicyValid(sp.Policy) {
return nil, fmt.Errorf("Invalid service_prefix policy: %#v", sp)
}
if sp.Intentions != "" && !isPolicyValid(sp.Intentions) {
return nil, fmt.Errorf("Invalid service_prefix intentions policy: %#v", sp)
}
if err := isSentinelValid(sentinel, sp.Policy, sp.Sentinel); err != nil {
return nil, fmt.Errorf("Invalid service_prefix Sentinel policy: %#v, got error:%v", sp, err)
}
}
// Validate the session policies
for _, sp := range p.Sessions {
if !isPolicyValid(sp.Policy) {
return nil, fmt.Errorf("Invalid session policy: %#v", sp)
}
}
for _, sp := range p.SessionPrefixes {
if !isPolicyValid(sp.Policy) {
return nil, fmt.Errorf("Invalid session_prefix policy: %#v", sp)
}
}
// Validate the user event policies
for _, ep := range p.Events {
if !isPolicyValid(ep.Policy) {
return nil, fmt.Errorf("Invalid event policy: %#v", ep)
}
}
for _, ep := range p.EventPrefixes {
if !isPolicyValid(ep.Policy) {
return nil, fmt.Errorf("Invalid event_prefix policy: %#v", ep)
}
}
// Validate the prepared query policies
for _, pq := range p.PreparedQueries {
if !isPolicyValid(pq.Policy) {
return nil, fmt.Errorf("Invalid query policy: %#v", pq)
}
}
for _, pq := range p.PreparedQueryPrefixes {
if !isPolicyValid(pq.Policy) {
return nil, fmt.Errorf("Invalid query_prefix policy: %#v", pq)
}
}
// Validate the keyring policy - this one is allowed to be empty
if p.Keyring != "" && !isPolicyValid(p.Keyring) {
return nil, fmt.Errorf("Invalid keyring policy: %#v", p.Keyring)
}
// Validate the operator policy - this one is allowed to be empty
if p.Operator != "" && !isPolicyValid(p.Operator) {
return nil, fmt.Errorf("Invalid operator policy: %#v", p.Operator)
}
return p, nil
}
func parseLegacy(rules string, sentinel sentinel.Evaluator) (*Policy, error) {
p := &Policy{}
type LegacyPolicy struct {
Agents []*AgentPolicy `hcl:"agent,expand"`
Keys []*KeyPolicy `hcl:"key,expand"`
Nodes []*NodePolicy `hcl:"node,expand"`
Services []*ServicePolicy `hcl:"service,expand"`
Sessions []*SessionPolicy `hcl:"session,expand"`
Events []*EventPolicy `hcl:"event,expand"`
PreparedQueries []*PreparedQueryPolicy `hcl:"query,expand"`
Keyring string `hcl:"keyring"`
Operator string `hcl:"operator"`
}
lp := &LegacyPolicy{}
if err := hcl.Decode(lp, rules); err != nil {
return nil, fmt.Errorf("Failed to parse ACL rules: %v", err)
}
// Validate the agent policy
for _, ap := range lp.Agents {
if !isPolicyValid(ap.Policy) {
return nil, fmt.Errorf("Invalid agent policy: %#v", ap)
}
p.AgentPrefixes = append(p.AgentPrefixes, ap)
}
// Validate the key policy
for _, kp := range lp.Keys {
if kp.Policy != PolicyList && !isPolicyValid(kp.Policy) {
return nil, fmt.Errorf("Invalid key policy: %#v", kp)
}
if err := isSentinelValid(sentinel, kp.Policy, kp.Sentinel); err != nil {
return nil, fmt.Errorf("Invalid key Sentinel policy: %#v, got error:%v", kp, err)
}
p.KeyPrefixes = append(p.KeyPrefixes, kp)
}
// Validate the node policies
for _, np := range lp.Nodes {
if !isPolicyValid(np.Policy) {
return nil, fmt.Errorf("Invalid node policy: %#v", np)
}
if err := isSentinelValid(sentinel, np.Policy, np.Sentinel); err != nil {
return nil, fmt.Errorf("Invalid node Sentinel policy: %#v, got error:%v", np, err)
}
p.NodePrefixes = append(p.NodePrefixes, np)
}
// Validate the service policies
for _, sp := range lp.Services {
if !isPolicyValid(sp.Policy) {
return nil, fmt.Errorf("Invalid service policy: %#v", sp)
}
if sp.Intentions != "" && !isPolicyValid(sp.Intentions) {
return nil, fmt.Errorf("Invalid service intentions policy: %#v", sp)
}
if err := isSentinelValid(sentinel, sp.Policy, sp.Sentinel); err != nil {
return nil, fmt.Errorf("Invalid service Sentinel policy: %#v, got error:%v", sp, err)
}
p.ServicePrefixes = append(p.ServicePrefixes, sp)
}
// Validate the session policies
for _, sp := range lp.Sessions {
if !isPolicyValid(sp.Policy) {
return nil, fmt.Errorf("Invalid session policy: %#v", sp)
}
p.SessionPrefixes = append(p.SessionPrefixes, sp)
}
// Validate the user event policies
for _, ep := range lp.Events {
if !isPolicyValid(ep.Policy) {
return nil, fmt.Errorf("Invalid event policy: %#v", ep)
}
p.EventPrefixes = append(p.EventPrefixes, ep)
}
// Validate the prepared query policies
for _, pq := range lp.PreparedQueries {
if !isPolicyValid(pq.Policy) {
return nil, fmt.Errorf("Invalid query policy: %#v", pq)
}
p.PreparedQueryPrefixes = append(p.PreparedQueryPrefixes, pq)
}
// Validate the keyring policy - this one is allowed to be empty
if lp.Keyring != "" && !isPolicyValid(lp.Keyring) {
return nil, fmt.Errorf("Invalid keyring policy: %#v", lp.Keyring)
} else {
p.Keyring = lp.Keyring
}
// Validate the operator policy - this one is allowed to be empty
if lp.Operator != "" && !isPolicyValid(lp.Operator) {
return nil, fmt.Errorf("Invalid operator policy: %#v", lp.Operator)
} else {
p.Operator = lp.Operator
}
return p, nil
}
// NewPolicyFromSource is used to parse the specified ACL rules into an
// intermediary set of policies, before being compiled into
// the ACL
func NewPolicyFromSource(id string, revision uint64, rules string, syntax SyntaxVersion, sentinel sentinel.Evaluator) (*Policy, error) {
if rules == "" {
// Hot path for empty source
return &Policy{ID: id, Revision: revision}, nil
}
var policy *Policy
var err error
switch syntax {
case SyntaxLegacy:
policy, err = parseLegacy(rules, sentinel)
case SyntaxCurrent:
policy, err = parseCurrent(rules, sentinel)
default:
return nil, fmt.Errorf("Invalid rules version: %d", syntax)
}
if err == nil {
policy.ID = id
policy.Revision = revision
}
return policy, err
}
func (policy *Policy) ConvertToLegacy() *Policy {
converted := &Policy{
ID: policy.ID,
Revision: policy.Revision,
ACL: policy.ACL,
Keyring: policy.Keyring,
Operator: policy.Operator,
}
converted.Agents = append(converted.Agents, policy.Agents...)
converted.Agents = append(converted.Agents, policy.AgentPrefixes...)
converted.Keys = append(converted.Keys, policy.Keys...)
converted.Keys = append(converted.Keys, policy.KeyPrefixes...)
converted.Nodes = append(converted.Nodes, policy.Nodes...)
converted.Nodes = append(converted.Nodes, policy.NodePrefixes...)
converted.Services = append(converted.Services, policy.Services...)
converted.Services = append(converted.Services, policy.ServicePrefixes...)
converted.Sessions = append(converted.Sessions, policy.Sessions...)
converted.Sessions = append(converted.Sessions, policy.SessionPrefixes...)
converted.Events = append(converted.Events, policy.Events...)
converted.Events = append(converted.Events, policy.EventPrefixes...)
converted.PreparedQueries = append(converted.PreparedQueries, policy.PreparedQueries...)
converted.PreparedQueries = append(converted.PreparedQueries, policy.PreparedQueryPrefixes...)
return converted
}
func (policy *Policy) ConvertFromLegacy() *Policy {
return &Policy{
ID: policy.ID,
Revision: policy.Revision,
AgentPrefixes: policy.Agents,
KeyPrefixes: policy.Keys,
NodePrefixes: policy.Nodes,
ServicePrefixes: policy.Services,
SessionPrefixes: policy.Sessions,
EventPrefixes: policy.Events,
PreparedQueryPrefixes: policy.PreparedQueries,
Keyring: policy.Keyring,
Operator: policy.Operator,
}
}
// takesPrecedenceOver returns true when permission a
// should take precedence over permission b
func takesPrecedenceOver(a, b string) bool {
if a == PolicyDeny {
return true
} else if b == PolicyDeny {
return false
}
if a == PolicyWrite {
return true
} else if b == PolicyWrite {
return false
}
if a == PolicyList {
return true
} else if b == PolicyList {
return false
}
if a == PolicyRead {
return true
} else if b == PolicyRead {
return false
}
return false
}
func multiPolicyID(policies []*Policy) []byte {
cacheKeyHash, err := blake2b.New256(nil)
if err != nil {
panic(err)
}
for _, policy := range policies {
cacheKeyHash.Write([]byte(policy.ID))
binary.Write(cacheKeyHash, binary.BigEndian, policy.Revision)
}
return cacheKeyHash.Sum(nil)
}
// MergePolicies merges multiple ACL policies into one policy
// This function will not set either the ID or the Scope fields
// of the resulting policy as its up to the caller to determine
// what the merged value is.
func MergePolicies(policies []*Policy) *Policy {
// maps are used here so that we can lookup each policy by
// the segment that the rule applies to during the policy
// merge. Otherwise we could do a linear search through a slice
// and replace it inline
aclPolicy := ""
agentPolicies := make(map[string]*AgentPolicy)
agentPrefixPolicies := make(map[string]*AgentPolicy)
eventPolicies := make(map[string]*EventPolicy)
eventPrefixPolicies := make(map[string]*EventPolicy)
keyringPolicy := ""
keyPolicies := make(map[string]*KeyPolicy)
keyPrefixPolicies := make(map[string]*KeyPolicy)
nodePolicies := make(map[string]*NodePolicy)
nodePrefixPolicies := make(map[string]*NodePolicy)
operatorPolicy := ""
preparedQueryPolicies := make(map[string]*PreparedQueryPolicy)
preparedQueryPrefixPolicies := make(map[string]*PreparedQueryPolicy)
servicePolicies := make(map[string]*ServicePolicy)
servicePrefixPolicies := make(map[string]*ServicePolicy)
sessionPolicies := make(map[string]*SessionPolicy)
sessionPrefixPolicies := make(map[string]*SessionPolicy)
// Parse all the individual rule sets
for _, policy := range policies {
if takesPrecedenceOver(policy.ACL, aclPolicy) {
aclPolicy = policy.ACL
}
for _, ap := range policy.Agents {
update := true
if permission, found := agentPolicies[ap.Node]; found {
update = takesPrecedenceOver(ap.Policy, permission.Policy)
}
if update {
agentPolicies[ap.Node] = ap
}
}
for _, ap := range policy.AgentPrefixes {
update := true
if permission, found := agentPrefixPolicies[ap.Node]; found {
update = takesPrecedenceOver(ap.Policy, permission.Policy)
}
if update {
agentPrefixPolicies[ap.Node] = ap
}
}
for _, ep := range policy.Events {
update := true
if permission, found := eventPolicies[ep.Event]; found {
update = takesPrecedenceOver(ep.Policy, permission.Policy)
}
if update {
eventPolicies[ep.Event] = ep
}
}
for _, ep := range policy.EventPrefixes {
update := true
if permission, found := eventPrefixPolicies[ep.Event]; found {
update = takesPrecedenceOver(ep.Policy, permission.Policy)
}
if update {
eventPrefixPolicies[ep.Event] = ep
}
}
if takesPrecedenceOver(policy.Keyring, keyringPolicy) {
keyringPolicy = policy.Keyring
}
for _, kp := range policy.Keys {
update := true
if permission, found := keyPolicies[kp.Prefix]; found {
update = takesPrecedenceOver(kp.Policy, permission.Policy)
}
if update {
keyPolicies[kp.Prefix] = kp
}
}
for _, kp := range policy.KeyPrefixes {
update := true
if permission, found := keyPrefixPolicies[kp.Prefix]; found {
update = takesPrecedenceOver(kp.Policy, permission.Policy)
}
if update {
keyPrefixPolicies[kp.Prefix] = kp
}
}
for _, np := range policy.Nodes {
update := true
if permission, found := nodePolicies[np.Name]; found {
update = takesPrecedenceOver(np.Policy, permission.Policy)
}
if update {
nodePolicies[np.Name] = np
}
}
for _, np := range policy.NodePrefixes {
update := true
if permission, found := nodePrefixPolicies[np.Name]; found {
update = takesPrecedenceOver(np.Policy, permission.Policy)
}
if update {
nodePrefixPolicies[np.Name] = np
}
}
if takesPrecedenceOver(policy.Operator, operatorPolicy) {
operatorPolicy = policy.Operator
}
for _, qp := range policy.PreparedQueries {
update := true
if permission, found := preparedQueryPolicies[qp.Prefix]; found {
update = takesPrecedenceOver(qp.Policy, permission.Policy)
}
if update {
preparedQueryPolicies[qp.Prefix] = qp
}
}
for _, qp := range policy.PreparedQueryPrefixes {
update := true
if permission, found := preparedQueryPrefixPolicies[qp.Prefix]; found {
update = takesPrecedenceOver(qp.Policy, permission.Policy)
}
if update {
preparedQueryPrefixPolicies[qp.Prefix] = qp
}
}
for _, sp := range policy.Services {
existing, found := servicePolicies[sp.Name]
if !found {
servicePolicies[sp.Name] = sp
continue
}
if takesPrecedenceOver(sp.Policy, existing.Policy) {
existing.Policy = sp.Policy
existing.Sentinel = sp.Sentinel
}
if takesPrecedenceOver(sp.Intentions, existing.Intentions) {
existing.Intentions = sp.Intentions
}
}
for _, sp := range policy.ServicePrefixes {
existing, found := servicePrefixPolicies[sp.Name]
if !found {
servicePrefixPolicies[sp.Name] = sp
continue
}
if takesPrecedenceOver(sp.Policy, existing.Policy) {
existing.Policy = sp.Policy
existing.Sentinel = sp.Sentinel
}
if takesPrecedenceOver(sp.Intentions, existing.Intentions) {
existing.Intentions = sp.Intentions
}
}
for _, sp := range policy.Sessions {
update := true
if permission, found := sessionPolicies[sp.Node]; found {
update = takesPrecedenceOver(sp.Policy, permission.Policy)
}
if update {
sessionPolicies[sp.Node] = sp
}
}
for _, sp := range policy.SessionPrefixes {
update := true
if permission, found := sessionPrefixPolicies[sp.Node]; found {
update = takesPrecedenceOver(sp.Policy, permission.Policy)
}
if update {
sessionPrefixPolicies[sp.Node] = sp
}
}
}
merged := &Policy{ACL: aclPolicy, Keyring: keyringPolicy, Operator: operatorPolicy}
// All the for loop appends are ugly but Go doesn't have a way to get
// a slice of all values within a map so this is necessary
for _, policy := range agentPolicies {
merged.Agents = append(merged.Agents, policy)
}
for _, policy := range agentPrefixPolicies {
merged.AgentPrefixes = append(merged.AgentPrefixes, policy)
}
for _, policy := range eventPolicies {
merged.Events = append(merged.Events, policy)
}
for _, policy := range eventPrefixPolicies {
merged.EventPrefixes = append(merged.EventPrefixes, policy)
}
for _, policy := range keyPolicies {
merged.Keys = append(merged.Keys, policy)
}
for _, policy := range keyPrefixPolicies {
merged.KeyPrefixes = append(merged.KeyPrefixes, policy)
}
for _, policy := range nodePolicies {
merged.Nodes = append(merged.Nodes, policy)
}
for _, policy := range nodePrefixPolicies {
merged.NodePrefixes = append(merged.NodePrefixes, policy)
}
for _, policy := range preparedQueryPolicies {
merged.PreparedQueries = append(merged.PreparedQueries, policy)
}
for _, policy := range preparedQueryPrefixPolicies {
merged.PreparedQueryPrefixes = append(merged.PreparedQueryPrefixes, policy)
}
for _, policy := range servicePolicies {
merged.Services = append(merged.Services, policy)
}
for _, policy := range servicePrefixPolicies {
merged.ServicePrefixes = append(merged.ServicePrefixes, policy)
}
for _, policy := range sessionPolicies {
merged.Sessions = append(merged.Sessions, policy)
}
for _, policy := range sessionPrefixPolicies {
merged.SessionPrefixes = append(merged.SessionPrefixes, policy)
}
merged.ID = fmt.Sprintf("%x", multiPolicyID(policies))
return merged
}
func TranslateLegacyRules(policyBytes []byte) ([]byte, error) {
parsed, err := hcl.ParseBytes(policyBytes)
if err != nil {
return nil, fmt.Errorf("Failed to parse rules: %v", err)
}
rewritten := ast.Walk(parsed, func(node ast.Node) (ast.Node, bool) {
switch n := node.(type) {
case *ast.ObjectKey:
switch n.Token.Text {
case "agent":
n.Token.Text = "agent_prefix"
case "key":
n.Token.Text = "key_prefix"
case "node":
n.Token.Text = "node_prefix"
case "query":
n.Token.Text = "query_prefix"
case "service":
n.Token.Text = "service_prefix"
case "session":
n.Token.Text = "session_prefix"
case "event":
n.Token.Text = "event_prefix"
}
}
return node, true
})
buffer := new(bytes.Buffer)
if err := hclprinter.Fprint(buffer, rewritten); err != nil {
return nil, fmt.Errorf("Failed to output new rules: %v", err)
}
return buffer.Bytes(), nil
}