micro/auth/service/service.go

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package service
import (
"context"
"fmt"
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"sort"
"strings"
"sync"
"time"
"github.com/micro/go-micro/v2/auth"
pb "github.com/micro/go-micro/v2/auth/service/proto"
"github.com/micro/go-micro/v2/auth/token"
"github.com/micro/go-micro/v2/auth/token/jwt"
"github.com/micro/go-micro/v2/client"
log "github.com/micro/go-micro/v2/logger"
"github.com/micro/go-micro/v2/util/jitter"
)
// NewAuth returns a new instance of the Auth service
func NewAuth(opts ...auth.Option) auth.Auth {
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return &svc{options: auth.NewOptions(opts...)}
}
// svc is the service implementation of the Auth interface
type svc struct {
options auth.Options
auth pb.AuthService
rule pb.RulesService
jwt token.Provider
rules []*pb.Rule
sync.Mutex
}
func (s *svc) String() string {
return "service"
}
func (s *svc) Init(opts ...auth.Option) {
for _, o := range opts {
o(&s.options)
}
dc := client.DefaultClient
s.auth = pb.NewAuthService("go.micro.auth", dc)
s.rule = pb.NewRulesService("go.micro.auth", dc)
// if we have a JWT public key passed as an option,
// we can decode tokens with the type "JWT" locally
// and not have to make an RPC call
if key := s.options.PublicKey; len(key) > 0 {
s.jwt = jwt.NewTokenProvider(token.WithPublicKey(key))
}
// load rules periodically from the auth service
go func() {
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ruleTimer := time.NewTicker(time.Second * 30)
// load rules immediately on startup
s.loadRules()
for {
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<-ruleTimer.C
// jitter for up to 5 seconds, this stops
// all the services calling the auth service
// at the exact same time
time.Sleep(jitter.Do(time.Second * 5))
s.loadRules()
}
}()
}
func (s *svc) Options() auth.Options {
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s.Lock()
defer s.Unlock()
return s.options
}
// Generate a new account
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func (s *svc) Generate(id string, opts ...auth.GenerateOption) (*auth.Account, error) {
options := auth.NewGenerateOptions(opts...)
rsp, err := s.auth.Generate(context.TODO(), &pb.GenerateRequest{
Id: id,
Type: options.Type,
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Secret: options.Secret,
Roles: options.Roles,
Metadata: options.Metadata,
Provider: options.Provider,
Namespace: options.Namespace,
})
if err != nil {
return nil, err
}
return serializeAccount(rsp.Account), nil
}
// Grant access to a resource
func (s *svc) Grant(role string, res *auth.Resource) error {
_, err := s.rule.Create(context.TODO(), &pb.CreateRequest{
Role: role,
Access: pb.Access_GRANTED,
Resource: &pb.Resource{
Namespace: res.Namespace,
Type: res.Type,
Name: res.Name,
Endpoint: res.Endpoint,
},
})
return err
}
// Revoke access to a resource
func (s *svc) Revoke(role string, res *auth.Resource) error {
_, err := s.rule.Delete(context.TODO(), &pb.DeleteRequest{
Role: role,
Access: pb.Access_GRANTED,
Resource: &pb.Resource{
Namespace: res.Namespace,
Type: res.Type,
Name: res.Name,
Endpoint: res.Endpoint,
},
})
return err
}
// Verify an account has access to a resource
func (s *svc) Verify(acc *auth.Account, res *auth.Resource) error {
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// set the namespace on the resource
if len(res.Namespace) == 0 {
res.Namespace = s.Options().Namespace
}
queries := [][]string{
{res.Namespace, res.Type, res.Name, res.Endpoint}, // check for specific role, e.g. service.foo.ListFoo:admin (role is checked in accessForRule)
{res.Namespace, res.Type, res.Name, "*"}, // check for wildcard endpoint, e.g. service.foo*
{res.Namespace, res.Type, "*"}, // check for wildcard name, e.g. service.*
{res.Namespace, "*"}, // check for wildcard type, e.g. *
{"*"}, // check for wildcard namespace
}
// endpoint is a url which can have wildcard excludes, e.g.
// "/foo/*" will allow "/foo/bar"
if comps := strings.Split(res.Endpoint, "/"); len(comps) > 1 {
for i := 1; i < len(comps); i++ {
wildcard := fmt.Sprintf("%v/*", strings.Join(comps[0:i], "/"))
queries = append(queries, []string{res.Type, res.Name, wildcard})
}
}
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// set a default account id / namespace to log
logID := acc.ID
if len(logID) == 0 {
logID = "[no account]"
}
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logNamespace := acc.Namespace
if len(logNamespace) == 0 {
logNamespace = "[no namespace]"
}
for _, q := range queries {
for _, rule := range s.listRules(q...) {
switch accessForRule(rule, acc, res) {
case pb.Access_UNKNOWN:
continue // rule did not specify access, check the next rule
case pb.Access_GRANTED:
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log.Tracef("%v:%v granted access to %v:%v:%v:%v by rule %v", logNamespace, logID, res.Namespace, res.Type, res.Name, res.Endpoint, rule.Id)
return nil // rule grants the account access to the resource
case pb.Access_DENIED:
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log.Tracef("%v:%v denied access to %v:%v:%v:%v by rule %v", logNamespace, logID, res.Namespace, res.Type, res.Name, res.Endpoint, rule.Id)
return auth.ErrForbidden // rule denies access to the resource
}
}
}
// no rules were found for the resource, default to denying access
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log.Tracef("%v:%v denied access to %v:%v:%v:%v by lack of rule (%v rules found for namespace)", logNamespace, logID, res.Namespace, res.Type, res.Name, res.Endpoint, len(s.listRules(res.Namespace)))
return auth.ErrForbidden
}
// Inspect a token
func (s *svc) Inspect(token string) (*auth.Account, error) {
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// try to decode JWT locally and fall back to srv if an error occurs
if len(strings.Split(token, ".")) == 3 && s.jwt != nil {
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return s.jwt.Inspect(token)
}
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// the token is not a JWT or we do not have the keys to decode it,
// fall back to the auth service
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rsp, err := s.auth.Inspect(context.TODO(), &pb.InspectRequest{Token: token})
if err != nil {
return nil, err
}
return serializeAccount(rsp.Account), nil
}
// Token generation using an account ID and secret
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func (s *svc) Token(opts ...auth.TokenOption) (*auth.Token, error) {
options := auth.NewTokenOptions(opts...)
rsp, err := s.auth.Token(context.Background(), &pb.TokenRequest{
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Id: options.ID,
Secret: options.Secret,
RefreshToken: options.RefreshToken,
TokenExpiry: int64(options.Expiry.Seconds()),
})
if err != nil {
return nil, err
}
return serializeToken(rsp.Token), nil
}
var ruleJoinKey = ":"
// accessForRule returns a rule status, indicating if a rule permits access to a
// resource for a given account
func accessForRule(rule *pb.Rule, acc *auth.Account, res *auth.Resource) pb.Access {
if rule.Role == "*" {
return rule.Access
}
for _, role := range acc.Roles {
if rule.Role == role {
return rule.Access
}
// allow user.anything if role is user.*
if strings.HasSuffix(rule.Role, ".*") && strings.HasPrefix(rule.Role, role+".") {
return rule.Access
}
}
return pb.Access_UNKNOWN
}
// listRules gets all the rules from the store which match the filters.
// filters are namespace, type, name and then endpoint.
func (s *svc) listRules(filters ...string) []*pb.Rule {
s.Lock()
defer s.Unlock()
var rules []*pb.Rule
for _, r := range s.rules {
if len(filters) > 0 && r.Resource.Namespace != filters[0] {
continue
}
if len(filters) > 1 && r.Resource.Type != filters[1] {
continue
}
if len(filters) > 2 && r.Resource.Name != filters[2] {
continue
}
if len(filters) > 3 && r.Resource.Endpoint != filters[3] {
continue
}
rules = append(rules, r)
}
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// sort rules by priority
sort.Slice(rules, func(i, j int) bool {
return rules[i].Priority < rules[j].Priority
})
return rules
}
// loadRules retrieves the rules from the auth service
func (s *svc) loadRules() {
rsp, err := s.rule.List(context.TODO(), &pb.ListRequest{})
s.Lock()
defer s.Unlock()
if err != nil {
log.Errorf("Error listing rules: %v", err)
return
}
s.rules = rsp.Rules
}
func serializeToken(t *pb.Token) *auth.Token {
return &auth.Token{
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AccessToken: t.AccessToken,
RefreshToken: t.RefreshToken,
Created: time.Unix(t.Created, 0),
Expiry: time.Unix(t.Expiry, 0),
}
}
func serializeAccount(a *pb.Account) *auth.Account {
return &auth.Account{
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ID: a.Id,
Roles: a.Roles,
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Secret: a.Secret,
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Metadata: a.Metadata,
Provider: a.Provider,
Namespace: a.Namespace,
}
}