open-consul/agent/structs/acl.go
Mark Anderson 1cf6a435dc
Add fields to the /acl/auth-methods endpoint. (#9741)
* A GET of the /acl/auth-method/:name endpoint returns the fields
MaxTokenTTL and TokenLocality, while a LIST (/acl/auth-methods) does
not.

The list command returns a filtered subset of the full set. This is
somewhat deliberate, so that secrets aren't shown, but the TTL and
Locality fields aren't (IMO) security critical, and it is useful for
the front end to be able to show them.

For consistency these changes mirror the 'omit empty' and string
representation choices made for the GET call.

This includes changes to the gRPC and API code in the client.

The new output looks similar to this
curl 'http://localhost:8500/v1/acl/auth-methods' | jq '.'

  {
    "MaxTokenTTL": "8m20s",
    "Name": "minikube-ttl-local2",
    "Type": "kubernetes",
    "Description": "minikube auth method",
    "TokenLocality": "local",
    "CreateIndex": 530,
    "ModifyIndex": 530,
    "Namespace": "default"
  }
]

Signed-off-by: Mark Anderson <manderson@hashicorp.com>

* Add changelog

Signed-off-by: Mark Anderson <manderson@hashicorp.com>
2021-02-17 08:16:57 -08:00

1801 lines
49 KiB
Go

package structs
import (
"encoding/binary"
"encoding/json"
"errors"
"fmt"
"hash"
"hash/fnv"
"sort"
"strings"
"time"
"github.com/hashicorp/consul/acl"
"github.com/hashicorp/consul/lib"
"golang.org/x/crypto/blake2b"
)
type ACLMode string
const (
// ACLs are disabled by configuration
ACLModeDisabled ACLMode = "0"
// ACLs are enabled
ACLModeEnabled ACLMode = "1"
// DEPRECATED (ACL-Legacy-Compat) - only needed while legacy ACLs are supported
// ACLs are enabled and using legacy ACLs
ACLModeLegacy ACLMode = "2"
// DEPRECATED (ACL-Legacy-Compat) - only needed while legacy ACLs are supported
// ACLs are assumed enabled but not being advertised
ACLModeUnknown ACLMode = "3"
)
// ACLOp is used in RPCs to encode ACL operations.
type ACLOp string
type ACLTokenIDType string
const (
ACLTokenSecret ACLTokenIDType = "secret"
ACLTokenAccessor ACLTokenIDType = "accessor"
)
type ACLPolicyIDType string
const (
ACLPolicyName ACLPolicyIDType = "name"
ACLPolicyID ACLPolicyIDType = "id"
)
const (
// All policy ids with the first 120 bits set to all zeroes are
// reserved for builtin policies. Policy creation will ensure we
// dont accidentally create them when autogenerating uuids.
// This policy gives unlimited access to everything. Users
// may rename if desired but cannot delete or modify the rules.
ACLPolicyGlobalManagementID = "00000000-0000-0000-0000-000000000001"
ACLPolicyGlobalManagement = `
acl = "write"
agent_prefix "" {
policy = "write"
}
event_prefix "" {
policy = "write"
}
key_prefix "" {
policy = "write"
}
keyring = "write"
node_prefix "" {
policy = "write"
}
operator = "write"
query_prefix "" {
policy = "write"
}
service_prefix "" {
policy = "write"
intentions = "write"
}
session_prefix "" {
policy = "write"
}` + EnterpriseACLPolicyGlobalManagement
// This is the policy ID for anonymous access. This is configurable by the
// user.
ACLTokenAnonymousID = "00000000-0000-0000-0000-000000000002"
ACLReservedPrefix = "00000000-0000-0000-0000-0000000000"
)
func ACLIDReserved(id string) bool {
return strings.HasPrefix(id, ACLReservedPrefix)
}
const (
// ACLSet creates or updates a token.
ACLSet ACLOp = "set"
// ACLDelete deletes a token.
ACLDelete ACLOp = "delete"
)
// ACLBootstrapNotAllowedErr is returned once we know that a bootstrap can no
// longer be done since the cluster was bootstrapped
var ACLBootstrapNotAllowedErr = errors.New("ACL bootstrap no longer allowed")
// ACLBootstrapInvalidResetIndexErr is returned when bootstrap is requested with a non-zero
// reset index but the index doesn't match the bootstrap index
var ACLBootstrapInvalidResetIndexErr = errors.New("Invalid ACL bootstrap reset index")
type ACLIdentity interface {
// ID returns a string that can be used for logging and telemetry. This should not
// contain any secret data used for authentication
ID() string
SecretToken() string
PolicyIDs() []string
RoleIDs() []string
EmbeddedPolicy() *ACLPolicy
ServiceIdentityList() []*ACLServiceIdentity
NodeIdentityList() []*ACLNodeIdentity
IsExpired(asOf time.Time) bool
IsLocal() bool
EnterpriseMetadata() *EnterpriseMeta
}
type ACLTokenPolicyLink struct {
ID string
Name string `hash:"ignore"`
}
type ACLTokenRoleLink struct {
ID string
Name string `hash:"ignore"`
}
// ACLServiceIdentity represents a high-level grant of all necessary privileges
// to assume the identity of the named Service in the Catalog and within
// Connect.
type ACLServiceIdentity struct {
ServiceName string
// Datacenters that the synthetic policy will be valid within.
// - No wildcards allowed
// - If empty then the synthetic policy is valid within all datacenters
//
// Only valid for global tokens. It is an error to specify this for local tokens.
Datacenters []string `json:",omitempty"`
}
func (s *ACLServiceIdentity) Clone() *ACLServiceIdentity {
s2 := *s
s2.Datacenters = CloneStringSlice(s.Datacenters)
return &s2
}
func (s *ACLServiceIdentity) AddToHash(h hash.Hash) {
h.Write([]byte(s.ServiceName))
for _, dc := range s.Datacenters {
h.Write([]byte(dc))
}
}
func (s *ACLServiceIdentity) EstimateSize() int {
size := len(s.ServiceName)
for _, dc := range s.Datacenters {
size += len(dc)
}
return size
}
func (s *ACLServiceIdentity) SyntheticPolicy(entMeta *EnterpriseMeta) *ACLPolicy {
// Given that we validate this string name before persisting, we do not
// have to escape it before doing the following interpolation.
rules := aclServiceIdentityRules(s.ServiceName, entMeta)
hasher := fnv.New128a()
hashID := fmt.Sprintf("%x", hasher.Sum([]byte(rules)))
policy := &ACLPolicy{}
policy.ID = hashID
policy.Name = fmt.Sprintf("synthetic-policy-%s", hashID)
policy.Description = "synthetic policy"
policy.Rules = rules
policy.Syntax = acl.SyntaxCurrent
policy.Datacenters = s.Datacenters
policy.EnterpriseMeta.Merge(entMeta)
policy.SetHash(true)
return policy
}
// ACLNodeIdentity represents a high-level grant of all privileges
// necessary to assume the identity of that node and manage it.
type ACLNodeIdentity struct {
// NodeName identities the Node that this identity authorizes access to
NodeName string
// Datacenter is required and specifies the datacenter of the node.
Datacenter string
}
func (s *ACLNodeIdentity) Clone() *ACLNodeIdentity {
s2 := *s
return &s2
}
func (s *ACLNodeIdentity) AddToHash(h hash.Hash) {
h.Write([]byte(s.NodeName))
h.Write([]byte(s.Datacenter))
}
func (s *ACLNodeIdentity) EstimateSize() int {
return len(s.NodeName) + len(s.Datacenter)
}
func (s *ACLNodeIdentity) SyntheticPolicy() *ACLPolicy {
// Given that we validate this string name before persisting, we do not
// have to escape it before doing the following interpolation.
rules := fmt.Sprintf(aclPolicyTemplateNodeIdentity, s.NodeName)
hasher := fnv.New128a()
hashID := fmt.Sprintf("%x", hasher.Sum([]byte(rules)))
policy := &ACLPolicy{}
policy.ID = hashID
policy.Name = fmt.Sprintf("synthetic-policy-%s", hashID)
policy.Description = "synthetic policy"
policy.Rules = rules
policy.Syntax = acl.SyntaxCurrent
policy.Datacenters = []string{s.Datacenter}
policy.EnterpriseMeta = *DefaultEnterpriseMeta()
policy.SetHash(true)
return policy
}
type ACLToken struct {
// This is the UUID used for tracking and management purposes
AccessorID string
// This is the UUID used as the api token by clients
SecretID string
// Human readable string to display for the token (Optional)
Description string
// List of policy links - nil/empty for legacy tokens or if service identities are in use.
// Note this is the list of IDs and not the names. Prior to token creation
// the list of policy names gets validated and the policy IDs get stored herein
Policies []ACLTokenPolicyLink `json:",omitempty"`
// List of role links. Note this is the list of IDs and not the names.
// Prior to token creation the list of role names gets validated and the
// role IDs get stored herein
Roles []ACLTokenRoleLink `json:",omitempty"`
// List of services to generate synthetic policies for.
ServiceIdentities []*ACLServiceIdentity `json:",omitempty"`
// The node identities that this token should be allowed to manage.
NodeIdentities []*ACLNodeIdentity `json:",omitempty"`
// Type is the V1 Token Type
// DEPRECATED (ACL-Legacy-Compat) - remove once we no longer support v1 ACL compat
// Even though we are going to auto upgrade management tokens we still
// want to be able to have the old APIs operate on the upgraded management tokens
// so this field is being kept to identify legacy tokens even after an auto-upgrade
Type string `json:"-"`
// Rules is the V1 acl rules associated with
// DEPRECATED (ACL-Legacy-Compat) - remove once we no longer support v1 ACL compat
Rules string `json:",omitempty"`
// Whether this token is DC local. This means that it will not be synced
// to the ACL datacenter and replicated to others.
Local bool
// AuthMethod is the name of the auth method used to create this token.
AuthMethod string `json:",omitempty"`
// ACLAuthMethodEnterpriseMeta is the EnterpriseMeta for the AuthMethod that this token was created from
ACLAuthMethodEnterpriseMeta
// ExpirationTime represents the point after which a token should be
// considered revoked and is eligible for destruction. The zero value
// represents NO expiration.
//
// This is a pointer value so that the zero value is omitted properly
// during json serialization. time.Time does not respect json omitempty
// directives unfortunately.
ExpirationTime *time.Time `json:",omitempty"`
// ExpirationTTL is a convenience field for helping set ExpirationTime to a
// value of CreateTime+ExpirationTTL. This can only be set during
// TokenCreate and is cleared and used to initialize the ExpirationTime
// field before being persisted to the state store or raft log.
//
// This is a string version of a time.Duration like "2m".
ExpirationTTL time.Duration `json:",omitempty"`
// The time when this token was created
CreateTime time.Time `json:",omitempty"`
// Hash of the contents of the token
//
// This is needed mainly for replication purposes. When replicating from
// one DC to another keeping the content Hash will allow us to avoid
// unnecessary calls to the authoritative DC
Hash []byte
// Embedded Enterprise Metadata
EnterpriseMeta `mapstructure:",squash"`
// Embedded Raft Metadata
RaftIndex
}
func (t *ACLToken) UnmarshalJSON(data []byte) (err error) {
type Alias ACLToken
aux := &struct {
ExpirationTTL interface{}
Hash string
*Alias
}{
Alias: (*Alias)(t),
}
if err = lib.UnmarshalJSON(data, &aux); err != nil {
return err
}
if aux.ExpirationTTL != nil {
switch v := aux.ExpirationTTL.(type) {
case string:
if t.ExpirationTTL, err = time.ParseDuration(v); err != nil {
return err
}
case float64:
t.ExpirationTTL = time.Duration(v)
}
}
if aux.Hash != "" {
t.Hash = []byte(aux.Hash)
}
return nil
}
func (t *ACLToken) Clone() *ACLToken {
t2 := *t
t2.Policies = nil
t2.Roles = nil
t2.ServiceIdentities = nil
t2.NodeIdentities = nil
if len(t.Policies) > 0 {
t2.Policies = make([]ACLTokenPolicyLink, len(t.Policies))
copy(t2.Policies, t.Policies)
}
if len(t.Roles) > 0 {
t2.Roles = make([]ACLTokenRoleLink, len(t.Roles))
copy(t2.Roles, t.Roles)
}
if len(t.ServiceIdentities) > 0 {
t2.ServiceIdentities = make([]*ACLServiceIdentity, len(t.ServiceIdentities))
for i, s := range t.ServiceIdentities {
t2.ServiceIdentities[i] = s.Clone()
}
}
if len(t.NodeIdentities) > 0 {
t2.NodeIdentities = make([]*ACLNodeIdentity, len(t.NodeIdentities))
for i, n := range t.NodeIdentities {
t2.NodeIdentities[i] = n.Clone()
}
}
return &t2
}
func (t *ACLToken) ID() string {
return t.AccessorID
}
func (t *ACLToken) SecretToken() string {
return t.SecretID
}
func (t *ACLToken) PolicyIDs() []string {
if len(t.Policies) == 0 {
return nil
}
ids := make([]string, 0, len(t.Policies))
for _, link := range t.Policies {
ids = append(ids, link.ID)
}
return ids
}
func (t *ACLToken) RoleIDs() []string {
if len(t.Roles) == 0 {
return nil
}
ids := make([]string, 0, len(t.Roles))
for _, link := range t.Roles {
ids = append(ids, link.ID)
}
return ids
}
func (t *ACLToken) ServiceIdentityList() []*ACLServiceIdentity {
if len(t.ServiceIdentities) == 0 {
return nil
}
out := make([]*ACLServiceIdentity, 0, len(t.ServiceIdentities))
for _, s := range t.ServiceIdentities {
out = append(out, s.Clone())
}
return out
}
func (t *ACLToken) IsExpired(asOf time.Time) bool {
if asOf.IsZero() || !t.HasExpirationTime() {
return false
}
return t.ExpirationTime.Before(asOf)
}
func (t *ACLToken) IsLocal() bool {
return t.Local
}
func (t *ACLToken) HasExpirationTime() bool {
return t.ExpirationTime != nil && !t.ExpirationTime.IsZero()
}
func (t *ACLToken) UsesNonLegacyFields() bool {
return len(t.Policies) > 0 ||
len(t.ServiceIdentities) > 0 ||
len(t.NodeIdentities) > 0 ||
len(t.Roles) > 0 ||
t.Type == "" ||
t.HasExpirationTime() ||
t.ExpirationTTL != 0 ||
t.AuthMethod != ""
}
func (t *ACLToken) EmbeddedPolicy() *ACLPolicy {
// DEPRECATED (ACL-Legacy-Compat)
//
// For legacy tokens with embedded rules this provides a way to map those
// rules to an ACLPolicy. This function can just return nil once legacy
// acl compatibility is no longer needed.
//
// Additionally for management tokens we must embed the policy rules
// as well
policy := &ACLPolicy{}
if t.Type == ACLTokenTypeManagement {
hasher := fnv.New128a()
policy.ID = fmt.Sprintf("%x", hasher.Sum([]byte(ACLPolicyGlobalManagement)))
policy.Name = "legacy-management"
policy.Rules = ACLPolicyGlobalManagement
policy.Syntax = acl.SyntaxCurrent
} else if t.Rules != "" || t.Type == ACLTokenTypeClient {
hasher := fnv.New128a()
policy.ID = fmt.Sprintf("%x", hasher.Sum([]byte(t.Rules)))
policy.Name = fmt.Sprintf("legacy-policy-%s", policy.ID)
policy.Rules = t.Rules
policy.Syntax = acl.SyntaxLegacy
} else {
return nil
}
policy.SetHash(true)
return policy
}
func (t *ACLToken) EnterpriseMetadata() *EnterpriseMeta {
return &t.EnterpriseMeta
}
func (t *ACLToken) SetHash(force bool) []byte {
if force || t.Hash == nil {
// Initialize a 256bit Blake2 hash (32 bytes)
hash, err := blake2b.New256(nil)
if err != nil {
panic(err)
}
// Any non-immutable "content" fields should be involved with the
// overall hash. The IDs are immutable which is why they aren't here.
// The raft indices are metadata similar to the hash which is why they
// aren't incorporated. CreateTime is similarly immutable
//
// The Hash is really only used for replication to determine if a token
// has changed and should be updated locally.
// Write all the user set fields
hash.Write([]byte(t.Description))
hash.Write([]byte(t.Type))
hash.Write([]byte(t.Rules))
if t.Local {
hash.Write([]byte("local"))
} else {
hash.Write([]byte("global"))
}
for _, link := range t.Policies {
hash.Write([]byte(link.ID))
}
for _, link := range t.Roles {
hash.Write([]byte(link.ID))
}
for _, srvid := range t.ServiceIdentities {
srvid.AddToHash(hash)
}
for _, nodeID := range t.NodeIdentities {
nodeID.AddToHash(hash)
}
t.EnterpriseMeta.addToHash(hash, false)
// Finalize the hash
hashVal := hash.Sum(nil)
// Set and return the hash
t.Hash = hashVal
}
return t.Hash
}
func (t *ACLToken) EstimateSize() int {
// 41 = 16 (RaftIndex) + 8 (Hash) + 8 (ExpirationTime) + 8 (CreateTime) + 1 (Local)
size := 41 + len(t.AccessorID) + len(t.SecretID) + len(t.Description) + len(t.Type) + len(t.Rules) + len(t.AuthMethod)
for _, link := range t.Policies {
size += len(link.ID) + len(link.Name)
}
for _, link := range t.Roles {
size += len(link.ID) + len(link.Name)
}
for _, srvid := range t.ServiceIdentities {
size += srvid.EstimateSize()
}
for _, nodeID := range t.NodeIdentities {
size += nodeID.EstimateSize()
}
return size + t.EnterpriseMeta.estimateSize()
}
// ACLTokens is a slice of ACLTokens.
type ACLTokens []*ACLToken
type ACLTokenListStub struct {
AccessorID string
Description string
Policies []ACLTokenPolicyLink `json:",omitempty"`
Roles []ACLTokenRoleLink `json:",omitempty"`
ServiceIdentities []*ACLServiceIdentity `json:",omitempty"`
NodeIdentities []*ACLNodeIdentity `json:",omitempty"`
Local bool
AuthMethod string `json:",omitempty"`
ExpirationTime *time.Time `json:",omitempty"`
CreateTime time.Time `json:",omitempty"`
Hash []byte
CreateIndex uint64
ModifyIndex uint64
Legacy bool `json:",omitempty"`
EnterpriseMeta
}
type ACLTokenListStubs []*ACLTokenListStub
func (token *ACLToken) Stub() *ACLTokenListStub {
return &ACLTokenListStub{
AccessorID: token.AccessorID,
Description: token.Description,
Policies: token.Policies,
Roles: token.Roles,
ServiceIdentities: token.ServiceIdentities,
NodeIdentities: token.NodeIdentities,
Local: token.Local,
AuthMethod: token.AuthMethod,
ExpirationTime: token.ExpirationTime,
CreateTime: token.CreateTime,
Hash: token.Hash,
CreateIndex: token.CreateIndex,
ModifyIndex: token.ModifyIndex,
Legacy: token.Rules != "",
EnterpriseMeta: token.EnterpriseMeta,
}
}
func (tokens ACLTokens) Sort() {
sort.Slice(tokens, func(i, j int) bool {
return tokens[i].AccessorID < tokens[j].AccessorID
})
}
func (tokens ACLTokenListStubs) Sort() {
sort.Slice(tokens, func(i, j int) bool {
return tokens[i].AccessorID < tokens[j].AccessorID
})
}
type ACLPolicy struct {
// This is the internal UUID associated with the policy
ID string
// Unique name to reference the policy by.
// - Valid Characters: [a-zA-Z0-9-]
// - Valid Lengths: 1 - 128
Name string
// Human readable description (Optional)
Description string
// The rule set (using the updated rule syntax)
Rules string
// DEPRECATED (ACL-Legacy-Compat) - This is only needed while we support the legacy ACLs
Syntax acl.SyntaxVersion `json:"-"`
// Datacenters that the policy is valid within.
// - No wildcards allowed
// - If empty then the policy is valid within all datacenters
Datacenters []string `json:",omitempty"`
// Hash of the contents of the policy
// This does not take into account the ID (which is immutable)
// nor the raft metadata.
//
// This is needed mainly for replication purposes. When replicating from
// one DC to another keeping the content Hash will allow us to avoid
// unnecessary calls to the authoritative DC
Hash []byte
// Embedded Enterprise ACL Metadata
EnterpriseMeta `mapstructure:",squash"`
// Embedded Raft Metadata
RaftIndex `hash:"ignore"`
}
func (t *ACLPolicy) UnmarshalJSON(data []byte) error {
type Alias ACLPolicy
aux := &struct {
Hash string
*Alias
}{
Alias: (*Alias)(t),
}
if err := lib.UnmarshalJSON(data, &aux); err != nil {
return err
}
if aux.Hash != "" {
t.Hash = []byte(aux.Hash)
}
return nil
}
func (p *ACLPolicy) Clone() *ACLPolicy {
p2 := *p
p2.Datacenters = CloneStringSlice(p.Datacenters)
return &p2
}
type ACLPolicyListStub struct {
ID string
Name string
Description string
Datacenters []string
Hash []byte
CreateIndex uint64
ModifyIndex uint64
EnterpriseMeta
}
func (p *ACLPolicy) Stub() *ACLPolicyListStub {
return &ACLPolicyListStub{
ID: p.ID,
Name: p.Name,
Description: p.Description,
Datacenters: p.Datacenters,
Hash: p.Hash,
CreateIndex: p.CreateIndex,
ModifyIndex: p.ModifyIndex,
EnterpriseMeta: p.EnterpriseMeta,
}
}
type ACLPolicies []*ACLPolicy
type ACLPolicyListStubs []*ACLPolicyListStub
func (p *ACLPolicy) SetHash(force bool) []byte {
if force || p.Hash == nil {
// Initialize a 256bit Blake2 hash (32 bytes)
hash, err := blake2b.New256(nil)
if err != nil {
panic(err)
}
// Any non-immutable "content" fields should be involved with the
// overall hash. The ID is immutable which is why it isn't here. The
// raft indices are metadata similar to the hash which is why they
// aren't incorporated. CreateTime is similarly immutable
//
// The Hash is really only used for replication to determine if a policy
// has changed and should be updated locally.
// Write all the user set fields
hash.Write([]byte(p.Name))
hash.Write([]byte(p.Description))
hash.Write([]byte(p.Rules))
for _, dc := range p.Datacenters {
hash.Write([]byte(dc))
}
p.EnterpriseMeta.addToHash(hash, false)
// Finalize the hash
hashVal := hash.Sum(nil)
// Set and return the hash
p.Hash = hashVal
}
return p.Hash
}
func (p *ACLPolicy) EstimateSize() int {
// This is just an estimate. There is other data structure overhead
// pointers etc that this does not account for.
// 64 = 36 (uuid) + 16 (RaftIndex) + 8 (Hash) + 4 (Syntax)
size := 64 + len(p.Name) + len(p.Description) + len(p.Rules)
for _, dc := range p.Datacenters {
size += len(dc)
}
return size + p.EnterpriseMeta.estimateSize()
}
// HashKey returns a consistent hash for a set of policies.
func (policies ACLPolicies) HashKey() string {
cacheKeyHash, err := blake2b.New256(nil)
if err != nil {
panic(err)
}
for _, policy := range policies {
cacheKeyHash.Write([]byte(policy.ID))
// including the modify index prevents a policy set from being
// cached if one of the policies has changed
binary.Write(cacheKeyHash, binary.BigEndian, policy.ModifyIndex)
}
return fmt.Sprintf("%x", cacheKeyHash.Sum(nil))
}
func (policies ACLPolicies) Sort() {
sort.Slice(policies, func(i, j int) bool {
return policies[i].ID < policies[j].ID
})
}
func (policies ACLPolicyListStubs) Sort() {
sort.Slice(policies, func(i, j int) bool {
return policies[i].ID < policies[j].ID
})
}
func (policies ACLPolicies) resolveWithCache(cache *ACLCaches, entConf *acl.Config) ([]*acl.Policy, error) {
// Parse the policies
parsed := make([]*acl.Policy, 0, len(policies))
for _, policy := range policies {
policy.SetHash(false)
cacheKey := fmt.Sprintf("%x", policy.Hash)
cachedPolicy := cache.GetParsedPolicy(cacheKey)
if cachedPolicy != nil {
// policies are content hashed so no need to check the age
parsed = append(parsed, cachedPolicy.Policy)
continue
}
p, err := acl.NewPolicyFromSource(policy.ID, policy.ModifyIndex, policy.Rules, policy.Syntax, entConf, policy.EnterprisePolicyMeta())
if err != nil {
return nil, fmt.Errorf("failed to parse %q: %v", policy.Name, err)
}
cache.PutParsedPolicy(cacheKey, p)
parsed = append(parsed, p)
}
return parsed, nil
}
func (policies ACLPolicies) Compile(cache *ACLCaches, entConf *acl.Config) (acl.Authorizer, error) {
// Determine the cache key
cacheKey := policies.HashKey()
entry := cache.GetAuthorizer(cacheKey)
if entry != nil {
// the hash key takes into account the policy contents. There is no reason to expire this cache or check its age.
return entry.Authorizer, nil
}
parsed, err := policies.resolveWithCache(cache, entConf)
if err != nil {
return nil, fmt.Errorf("failed to parse the ACL policies: %v", err)
}
// Create the ACL object
authorizer, err := acl.NewPolicyAuthorizer(parsed, entConf)
if err != nil {
return nil, fmt.Errorf("failed to construct ACL Authorizer: %v", err)
}
// Update the cache
cache.PutAuthorizer(cacheKey, authorizer)
return authorizer, nil
}
func (policies ACLPolicies) Merge(cache *ACLCaches, entConf *acl.Config) (*acl.Policy, error) {
parsed, err := policies.resolveWithCache(cache, entConf)
if err != nil {
return nil, err
}
return acl.MergePolicies(parsed), nil
}
type ACLRoles []*ACLRole
// HashKey returns a consistent hash for a set of roles.
func (roles ACLRoles) HashKey() string {
cacheKeyHash, err := blake2b.New256(nil)
if err != nil {
panic(err)
}
for _, role := range roles {
cacheKeyHash.Write([]byte(role.ID))
// including the modify index prevents a role set from being
// cached if one of the roles has changed
binary.Write(cacheKeyHash, binary.BigEndian, role.ModifyIndex)
}
return fmt.Sprintf("%x", cacheKeyHash.Sum(nil))
}
func (roles ACLRoles) Sort() {
sort.Slice(roles, func(i, j int) bool {
return roles[i].ID < roles[j].ID
})
}
type ACLRolePolicyLink struct {
ID string
Name string `hash:"ignore"`
}
type ACLRole struct {
// ID is the internal UUID associated with the role
ID string
// Name is the unique name to reference the role by.
Name string
// Description is a human readable description (Optional)
Description string
// List of policy links.
// Note this is the list of IDs and not the names. Prior to role creation
// the list of policy names gets validated and the policy IDs get stored herein
Policies []ACLRolePolicyLink `json:",omitempty"`
// List of services to generate synthetic policies for.
ServiceIdentities []*ACLServiceIdentity `json:",omitempty"`
// List of nodes to generate synthetic policies for.
NodeIdentities []*ACLNodeIdentity `json:",omitempty"`
// Hash of the contents of the role
// This does not take into account the ID (which is immutable)
// nor the raft metadata.
//
// This is needed mainly for replication purposes. When replicating from
// one DC to another keeping the content Hash will allow us to avoid
// unnecessary calls to the authoritative DC
Hash []byte
// Embedded Enterprise ACL metadata
EnterpriseMeta `mapstructure:",squash"`
// Embedded Raft Metadata
RaftIndex `hash:"ignore"`
}
func (t *ACLRole) UnmarshalJSON(data []byte) error {
type Alias ACLRole
aux := &struct {
Hash string
*Alias
}{
Alias: (*Alias)(t),
}
if err := lib.UnmarshalJSON(data, &aux); err != nil {
return err
}
if aux.Hash != "" {
t.Hash = []byte(aux.Hash)
}
return nil
}
func (r *ACLRole) Clone() *ACLRole {
r2 := *r
r2.Policies = nil
r2.ServiceIdentities = nil
r2.NodeIdentities = nil
if len(r.Policies) > 0 {
r2.Policies = make([]ACLRolePolicyLink, len(r.Policies))
copy(r2.Policies, r.Policies)
}
if len(r.ServiceIdentities) > 0 {
r2.ServiceIdentities = make([]*ACLServiceIdentity, len(r.ServiceIdentities))
for i, s := range r.ServiceIdentities {
r2.ServiceIdentities[i] = s.Clone()
}
}
if len(r.NodeIdentities) > 0 {
r2.NodeIdentities = make([]*ACLNodeIdentity, len(r.NodeIdentities))
for i, n := range r.NodeIdentities {
r2.NodeIdentities[i] = n.Clone()
}
}
return &r2
}
func (r *ACLRole) SetHash(force bool) []byte {
if force || r.Hash == nil {
// Initialize a 256bit Blake2 hash (32 bytes)
hash, err := blake2b.New256(nil)
if err != nil {
panic(err)
}
// Any non-immutable "content" fields should be involved with the
// overall hash. The ID is immutable which is why it isn't here. The
// raft indices are metadata similar to the hash which is why they
// aren't incorporated. CreateTime is similarly immutable
//
// The Hash is really only used for replication to determine if a role
// has changed and should be updated locally.
// Write all the user set fields
hash.Write([]byte(r.Name))
hash.Write([]byte(r.Description))
for _, link := range r.Policies {
hash.Write([]byte(link.ID))
}
for _, srvid := range r.ServiceIdentities {
srvid.AddToHash(hash)
}
for _, nodeID := range r.NodeIdentities {
nodeID.AddToHash(hash)
}
r.EnterpriseMeta.addToHash(hash, false)
// Finalize the hash
hashVal := hash.Sum(nil)
// Set and return the hash
r.Hash = hashVal
}
return r.Hash
}
func (r *ACLRole) EstimateSize() int {
// This is just an estimate. There is other data structure overhead
// pointers etc that this does not account for.
// 60 = 36 (uuid) + 16 (RaftIndex) + 8 (Hash)
size := 60 + len(r.Name) + len(r.Description)
for _, link := range r.Policies {
size += len(link.ID) + len(link.Name)
}
for _, srvid := range r.ServiceIdentities {
size += srvid.EstimateSize()
}
for _, nodeID := range r.NodeIdentities {
size += nodeID.EstimateSize()
}
return size + r.EnterpriseMeta.estimateSize()
}
const (
// BindingRuleBindTypeService is the binding rule bind type that
// assigns a Service Identity to the token that is created using the value
// of the computed BindName as the ServiceName like:
//
// &ACLToken{
// ...other fields...
// ServiceIdentities: []*ACLServiceIdentity{
// &ACLServiceIdentity{
// ServiceName: "<computed BindName>",
// },
// },
// }
BindingRuleBindTypeService = "service"
// BindingRuleBindTypeRole is the binding rule bind type that only allows
// the binding rule to function if a role with the given name (BindName)
// exists at login-time. If it does the token that is created is directly
// linked to that role like:
//
// &ACLToken{
// ...other fields...
// Roles: []ACLTokenRoleLink{
// { Name: "<computed BindName>" }
// }
// }
//
// If it does not exist at login-time the rule is ignored.
BindingRuleBindTypeRole = "role"
// BindingRuleBindTypeNode is the binding rule bind type that assigns
// a Node Identity to the token that is created using the value of
// the computed BindName as the NodeName like:
//
// &ACLToken{
// ...other fields...
// NodeIdentities: []*ACLNodeIdentity{
// &ACLNodeIdentity{
// NodeName: "<computed BindName>",
// Datacenter: "<local datacenter of the binding rule>"
// }
// }
// }
BindingRuleBindTypeNode = "node"
)
type ACLBindingRule struct {
// ID is the internal UUID associated with the binding rule
ID string
// Description is a human readable description (Optional)
Description string
// AuthMethod is the name of the auth method for which this rule applies.
AuthMethod string
// Selector is an expression that matches against verified identity
// attributes returned from the auth method during login.
Selector string
// BindType adjusts how this binding rule is applied at login time. The
// valid values are:
//
// - BindingRuleBindTypeService = "service"
// - BindingRuleBindTypeRole = "role"
BindType string
// BindName is the target of the binding. Can be lightly templated using
// HIL ${foo} syntax from available field names. How it is used depends
// upon the BindType.
BindName string
// Embedded Enterprise ACL metadata
EnterpriseMeta `mapstructure:",squash"`
// Embedded Raft Metadata
RaftIndex `hash:"ignore"`
}
func (r *ACLBindingRule) Clone() *ACLBindingRule {
r2 := *r
return &r2
}
type ACLBindingRules []*ACLBindingRule
func (rules ACLBindingRules) Sort() {
sort.Slice(rules, func(i, j int) bool {
return rules[i].ID < rules[j].ID
})
}
// Note: this is a subset of ACLAuthMethod's fields
type ACLAuthMethodListStub struct {
Name string
Type string
DisplayName string `json:",omitempty"`
Description string `json:",omitempty"`
MaxTokenTTL time.Duration `json:",omitempty"`
TokenLocality string `json:",omitempty"`
CreateIndex uint64
ModifyIndex uint64
EnterpriseMeta
}
func (p *ACLAuthMethod) Stub() *ACLAuthMethodListStub {
return &ACLAuthMethodListStub{
Name: p.Name,
Type: p.Type,
DisplayName: p.DisplayName,
Description: p.Description,
MaxTokenTTL: p.MaxTokenTTL,
TokenLocality: p.TokenLocality,
CreateIndex: p.CreateIndex,
ModifyIndex: p.ModifyIndex,
EnterpriseMeta: p.EnterpriseMeta,
}
}
// This is nearly identical to the ACLAuthMethod MarshalJSON
// Unmarshaling is not implemented because the API is read only
func (m *ACLAuthMethodListStub) MarshalJSON() ([]byte, error) {
type Alias ACLAuthMethodListStub
exported := &struct {
MaxTokenTTL string `json:",omitempty"`
*Alias
}{
MaxTokenTTL: m.MaxTokenTTL.String(),
Alias: (*Alias)(m),
}
if m.MaxTokenTTL == 0 {
exported.MaxTokenTTL = ""
}
data, err := json.Marshal(exported)
return data, err
}
type ACLAuthMethods []*ACLAuthMethod
type ACLAuthMethodListStubs []*ACLAuthMethodListStub
func (methods ACLAuthMethods) Sort() {
sort.Slice(methods, func(i, j int) bool {
return methods[i].Name < methods[j].Name
})
}
func (methods ACLAuthMethodListStubs) Sort() {
sort.Slice(methods, func(i, j int) bool {
return methods[i].Name < methods[j].Name
})
}
type ACLAuthMethod struct {
// Name is a unique identifier for this specific auth method.
//
// Immutable once set and only settable during create.
Name string
// Type is the type of the auth method this is.
//
// Immutable once set and only settable during create.
Type string
// DisplayName is an optional name to use instead of the Name field when
// displaying information about this auth method in any kind of user
// interface.
DisplayName string `json:",omitempty"`
// Description is just an optional bunch of explanatory text.
Description string `json:",omitempty"`
// MaxTokenTTL this is the maximum life of a token created by this method.
MaxTokenTTL time.Duration `json:",omitempty"`
// TokenLocality defines the kind of token that this auth method produces.
// This can be either 'local' or 'global'. If empty 'local' is assumed.
TokenLocality string `json:",omitempty"`
// Configuration is arbitrary configuration for the auth method. This
// should only contain primitive values and containers (such as lists and
// maps).
Config map[string]interface{}
// Embedded Enterprise ACL Meta
EnterpriseMeta `mapstructure:",squash"`
ACLAuthMethodEnterpriseFields `mapstructure:",squash"`
// Embedded Raft Metadata
RaftIndex `hash:"ignore"`
}
func (m *ACLAuthMethod) MarshalJSON() ([]byte, error) {
type Alias ACLAuthMethod
exported := &struct {
MaxTokenTTL string `json:",omitempty"`
*Alias
}{
MaxTokenTTL: m.MaxTokenTTL.String(),
Alias: (*Alias)(m),
}
if m.MaxTokenTTL == 0 {
exported.MaxTokenTTL = ""
}
return json.Marshal(exported)
}
func (m *ACLAuthMethod) UnmarshalJSON(data []byte) (err error) {
type Alias ACLAuthMethod
aux := &struct {
MaxTokenTTL interface{}
*Alias
}{
Alias: (*Alias)(m),
}
if err = lib.UnmarshalJSON(data, &aux); err != nil {
return err
}
if aux.MaxTokenTTL != nil {
switch v := aux.MaxTokenTTL.(type) {
case string:
if m.MaxTokenTTL, err = time.ParseDuration(v); err != nil {
return err
}
case float64:
m.MaxTokenTTL = time.Duration(v)
}
}
return nil
}
type ACLReplicationType string
const (
ACLReplicateLegacy ACLReplicationType = "legacy"
ACLReplicatePolicies ACLReplicationType = "policies"
ACLReplicateRoles ACLReplicationType = "roles"
ACLReplicateTokens ACLReplicationType = "tokens"
)
func (t ACLReplicationType) SingularNoun() string {
switch t {
case ACLReplicateLegacy:
return "legacy"
case ACLReplicatePolicies:
return "policy"
case ACLReplicateRoles:
return "role"
case ACLReplicateTokens:
return "token"
default:
return "<UNKNOWN>"
}
}
// ACLReplicationStatus provides information about the health of the ACL
// replication system.
type ACLReplicationStatus struct {
Enabled bool
Running bool
SourceDatacenter string
ReplicationType ACLReplicationType
ReplicatedIndex uint64
ReplicatedRoleIndex uint64
ReplicatedTokenIndex uint64
LastSuccess time.Time
LastError time.Time
}
// ACLTokenSetRequest is used for token creation and update operations
// at the RPC layer
type ACLTokenSetRequest struct {
ACLToken ACLToken // Token to manipulate - I really dislike this name but "Token" is taken in the WriteRequest
Create bool // Used to explicitly mark this request as a creation
Datacenter string // The datacenter to perform the request within
WriteRequest
}
func (r *ACLTokenSetRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLTokenGetRequest is used for token read operations at the RPC layer
type ACLTokenGetRequest struct {
TokenID string // id used for the token lookup
TokenIDType ACLTokenIDType // The Type of ID used to lookup the token
Datacenter string // The datacenter to perform the request within
EnterpriseMeta
QueryOptions
}
func (r *ACLTokenGetRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLTokenDeleteRequest is used for token deletion operations at the RPC layer
type ACLTokenDeleteRequest struct {
TokenID string // ID of the token to delete
Datacenter string // The datacenter to perform the request within
EnterpriseMeta
WriteRequest
}
func (r *ACLTokenDeleteRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLTokenListRequest is used for token listing operations at the RPC layer
type ACLTokenListRequest struct {
IncludeLocal bool // Whether local tokens should be included
IncludeGlobal bool // Whether global tokens should be included
Policy string // Policy filter
Role string // Role filter
AuthMethod string // Auth Method filter
Datacenter string // The datacenter to perform the request within
ACLAuthMethodEnterpriseMeta
EnterpriseMeta
QueryOptions
}
func (r *ACLTokenListRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLTokenListResponse is used to return the secret data free stubs
// of the tokens
type ACLTokenListResponse struct {
Tokens ACLTokenListStubs
QueryMeta
}
// ACLTokenBatchGetRequest is used for reading multiple tokens, this is
// different from the the token list request in that only tokens with the
// the requested ids are returned
type ACLTokenBatchGetRequest struct {
AccessorIDs []string // List of accessor ids to fetch
Datacenter string // The datacenter to perform the request within
QueryOptions
}
func (r *ACLTokenBatchGetRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLTokenBatchSetRequest is used only at the Raft layer
// for batching multiple token creation/update operations
//
// This is particularly useful during token replication and during
// automatic legacy token upgrades.
type ACLTokenBatchSetRequest struct {
Tokens ACLTokens
CAS bool
AllowMissingLinks bool
ProhibitUnprivileged bool
FromReplication bool
}
// ACLTokenBatchDeleteRequest is used only at the Raft layer
// for batching multiple token deletions.
//
// This is particularly useful during token replication when
// multiple tokens need to be removed from the local DCs state.
type ACLTokenBatchDeleteRequest struct {
TokenIDs []string // Tokens to delete
}
// ACLTokenBootstrapRequest is used only at the Raft layer
// for ACL bootstrapping
//
// The RPC layer will use a generic DCSpecificRequest to indicate
// that bootstrapping must be performed but the actual token
// and the resetIndex will be generated by that RPC endpoint
type ACLTokenBootstrapRequest struct {
Token ACLToken // Token to use for bootstrapping
ResetIndex uint64 // Reset index
}
// ACLTokenResponse returns a single Token + metadata
type ACLTokenResponse struct {
Token *ACLToken
Redacted bool // whether the token's secret was redacted
SourceDatacenter string
QueryMeta
}
// ACLTokenBatchResponse returns multiple Tokens associated with the same metadata
type ACLTokenBatchResponse struct {
Tokens []*ACLToken
Redacted bool // whether the token secrets were redacted.
Removed bool // whether any tokens were completely removed
QueryMeta
}
// ACLPolicySetRequest is used at the RPC layer for creation and update requests
type ACLPolicySetRequest struct {
Policy ACLPolicy // The policy to upsert
Datacenter string // The datacenter to perform the request within
WriteRequest
}
func (r *ACLPolicySetRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLPolicyDeleteRequest is used at the RPC layer deletion requests
type ACLPolicyDeleteRequest struct {
PolicyID string // The id of the policy to delete
Datacenter string // The datacenter to perform the request within
EnterpriseMeta
WriteRequest
}
func (r *ACLPolicyDeleteRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLPolicyGetRequest is used at the RPC layer to perform policy read operations
type ACLPolicyGetRequest struct {
PolicyID string // id used for the policy lookup (one of PolicyID or PolicyName is allowed)
PolicyName string // name used for the policy lookup (one of PolicyID or PolicyName is allowed)
Datacenter string // The datacenter to perform the request within
EnterpriseMeta
QueryOptions
}
func (r *ACLPolicyGetRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLPolicyListRequest is used at the RPC layer to request a listing of policies
type ACLPolicyListRequest struct {
Datacenter string // The datacenter to perform the request within
EnterpriseMeta
QueryOptions
}
func (r *ACLPolicyListRequest) RequestDatacenter() string {
return r.Datacenter
}
type ACLPolicyListResponse struct {
Policies ACLPolicyListStubs
QueryMeta
}
// ACLPolicyBatchGetRequest is used at the RPC layer to request a subset of
// the policies associated with the token used for retrieval
type ACLPolicyBatchGetRequest struct {
PolicyIDs []string // List of policy ids to fetch
Datacenter string // The datacenter to perform the request within
QueryOptions
}
func (r *ACLPolicyBatchGetRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLPolicyResponse returns a single policy + metadata
type ACLPolicyResponse struct {
Policy *ACLPolicy
QueryMeta
}
type ACLPolicyBatchResponse struct {
Policies []*ACLPolicy
QueryMeta
}
// ACLPolicyBatchSetRequest is used at the Raft layer for batching
// multiple policy creations and updates
//
// This is particularly useful during replication
type ACLPolicyBatchSetRequest struct {
Policies ACLPolicies
}
// ACLPolicyBatchDeleteRequest is used at the Raft layer for batching
// multiple policy deletions
//
// This is particularly useful during replication
type ACLPolicyBatchDeleteRequest struct {
PolicyIDs []string
}
func CloneStringSlice(s []string) []string {
if len(s) == 0 {
return nil
}
out := make([]string, len(s))
copy(out, s)
return out
}
// ACLRoleSetRequest is used at the RPC layer for creation and update requests
type ACLRoleSetRequest struct {
Role ACLRole // The role to upsert
Datacenter string // The datacenter to perform the request within
WriteRequest
}
func (r *ACLRoleSetRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLRoleDeleteRequest is used at the RPC layer deletion requests
type ACLRoleDeleteRequest struct {
RoleID string // id of the role to delete
Datacenter string // The datacenter to perform the request within
EnterpriseMeta
WriteRequest
}
func (r *ACLRoleDeleteRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLRoleGetRequest is used at the RPC layer to perform role read operations
type ACLRoleGetRequest struct {
RoleID string // id used for the role lookup (one of RoleID or RoleName is allowed)
RoleName string // name used for the role lookup (one of RoleID or RoleName is allowed)
Datacenter string // The datacenter to perform the request within
EnterpriseMeta
QueryOptions
}
func (r *ACLRoleGetRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLRoleListRequest is used at the RPC layer to request a listing of roles
type ACLRoleListRequest struct {
Policy string // Policy filter
Datacenter string // The datacenter to perform the request within
EnterpriseMeta
QueryOptions
}
func (r *ACLRoleListRequest) RequestDatacenter() string {
return r.Datacenter
}
type ACLRoleListResponse struct {
Roles ACLRoles
QueryMeta
}
// ACLRoleBatchGetRequest is used at the RPC layer to request a subset of
// the roles associated with the token used for retrieval
type ACLRoleBatchGetRequest struct {
RoleIDs []string // List of role ids to fetch
Datacenter string // The datacenter to perform the request within
QueryOptions
}
func (r *ACLRoleBatchGetRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLRoleResponse returns a single role + metadata
type ACLRoleResponse struct {
Role *ACLRole
QueryMeta
}
type ACLRoleBatchResponse struct {
Roles []*ACLRole
QueryMeta
}
// ACLRoleBatchSetRequest is used at the Raft layer for batching
// multiple role creations and updates
//
// This is particularly useful during replication
type ACLRoleBatchSetRequest struct {
Roles ACLRoles
AllowMissingLinks bool
}
// ACLRoleBatchDeleteRequest is used at the Raft layer for batching
// multiple role deletions
//
// This is particularly useful during replication
type ACLRoleBatchDeleteRequest struct {
RoleIDs []string
}
// ACLBindingRuleSetRequest is used at the RPC layer for creation and update requests
type ACLBindingRuleSetRequest struct {
BindingRule ACLBindingRule // The rule to upsert
Datacenter string // The datacenter to perform the request within
WriteRequest
}
func (r *ACLBindingRuleSetRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLBindingRuleDeleteRequest is used at the RPC layer deletion requests
type ACLBindingRuleDeleteRequest struct {
BindingRuleID string // id of the rule to delete
Datacenter string // The datacenter to perform the request within
EnterpriseMeta
WriteRequest
}
func (r *ACLBindingRuleDeleteRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLBindingRuleGetRequest is used at the RPC layer to perform rule read operations
type ACLBindingRuleGetRequest struct {
BindingRuleID string // id used for the rule lookup
Datacenter string // The datacenter to perform the request within
EnterpriseMeta
QueryOptions
}
func (r *ACLBindingRuleGetRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLBindingRuleListRequest is used at the RPC layer to request a listing of rules
type ACLBindingRuleListRequest struct {
AuthMethod string // optional filter
Datacenter string // The datacenter to perform the request within
EnterpriseMeta
QueryOptions
}
func (r *ACLBindingRuleListRequest) RequestDatacenter() string {
return r.Datacenter
}
type ACLBindingRuleListResponse struct {
BindingRules ACLBindingRules
QueryMeta
}
// ACLBindingRuleResponse returns a single binding + metadata
type ACLBindingRuleResponse struct {
BindingRule *ACLBindingRule
QueryMeta
}
// ACLBindingRuleBatchSetRequest is used at the Raft layer for batching
// multiple rule creations and updates
type ACLBindingRuleBatchSetRequest struct {
BindingRules ACLBindingRules
}
// ACLBindingRuleBatchDeleteRequest is used at the Raft layer for batching
// multiple rule deletions
type ACLBindingRuleBatchDeleteRequest struct {
BindingRuleIDs []string
}
// ACLAuthMethodSetRequest is used at the RPC layer for creation and update requests
type ACLAuthMethodSetRequest struct {
AuthMethod ACLAuthMethod // The auth method to upsert
Datacenter string // The datacenter to perform the request within
WriteRequest
}
func (r *ACLAuthMethodSetRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLAuthMethodDeleteRequest is used at the RPC layer deletion requests
type ACLAuthMethodDeleteRequest struct {
AuthMethodName string // name of the auth method to delete
Datacenter string // The datacenter to perform the request within
EnterpriseMeta
WriteRequest
}
func (r *ACLAuthMethodDeleteRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLAuthMethodGetRequest is used at the RPC layer to perform rule read operations
type ACLAuthMethodGetRequest struct {
AuthMethodName string // name used for the auth method lookup
Datacenter string // The datacenter to perform the request within
EnterpriseMeta
QueryOptions
}
func (r *ACLAuthMethodGetRequest) RequestDatacenter() string {
return r.Datacenter
}
// ACLAuthMethodListRequest is used at the RPC layer to request a listing of auth methods
type ACLAuthMethodListRequest struct {
Datacenter string // The datacenter to perform the request within
EnterpriseMeta
QueryOptions
}
func (r *ACLAuthMethodListRequest) RequestDatacenter() string {
return r.Datacenter
}
type ACLAuthMethodListResponse struct {
AuthMethods ACLAuthMethodListStubs
QueryMeta
}
// ACLAuthMethodResponse returns a single auth method + metadata
type ACLAuthMethodResponse struct {
AuthMethod *ACLAuthMethod
QueryMeta
}
// ACLAuthMethodBatchSetRequest is used at the Raft layer for batching
// multiple auth method creations and updates
type ACLAuthMethodBatchSetRequest struct {
AuthMethods ACLAuthMethods
}
// ACLAuthMethodBatchDeleteRequest is used at the Raft layer for batching
// multiple auth method deletions
type ACLAuthMethodBatchDeleteRequest struct {
AuthMethodNames []string
// While it may seem odd that AuthMethodNames is associated with a single
// EnterpriseMeta, it is okay as this struct is only ever used to
// delete a single entry. This is because AuthMethods unlike tokens, policies
// and roles are not replicated between datacenters and therefore never
// batch applied.
EnterpriseMeta
}
type ACLLoginParams struct {
AuthMethod string
BearerToken string
Meta map[string]string `json:",omitempty"`
EnterpriseMeta
}
type ACLLoginRequest struct {
Auth *ACLLoginParams
Datacenter string // The datacenter to perform the request within
WriteRequest
}
func (r *ACLLoginRequest) RequestDatacenter() string {
return r.Datacenter
}
type ACLLogoutRequest struct {
Datacenter string // The datacenter to perform the request within
WriteRequest
}
func (r *ACLLogoutRequest) RequestDatacenter() string {
return r.Datacenter
}
type RemoteACLAuthorizationRequest struct {
Datacenter string
Requests []ACLAuthorizationRequest
QueryOptions
}
type ACLAuthorizationRequest struct {
Resource acl.Resource
Segment string `json:",omitempty"`
Access string
EnterpriseMeta
}
type ACLAuthorizationResponse struct {
ACLAuthorizationRequest
Allow bool
}
func (r *RemoteACLAuthorizationRequest) RequestDatacenter() string {
return r.Datacenter
}
func CreateACLAuthorizationResponses(authz acl.Authorizer, requests []ACLAuthorizationRequest) ([]ACLAuthorizationResponse, error) {
responses := make([]ACLAuthorizationResponse, len(requests))
var ctx acl.AuthorizerContext
for idx, req := range requests {
req.FillAuthzContext(&ctx)
decision, err := acl.Enforce(authz, req.Resource, req.Segment, req.Access, &ctx)
if err != nil {
return nil, err
}
responses[idx].ACLAuthorizationRequest = req
responses[idx].Allow = decision == acl.Allow
}
return responses, nil
}