package auth import ( "fmt" "strings" "github.com/hashicorp/go-bexpr" "github.com/hashicorp/go-memdb" "github.com/hashicorp/hil" "github.com/hashicorp/hil/ast" "github.com/hashicorp/nomad/nomad/structs" ) // Binder is responsible for collecting the ACL roles and policies to be // assigned to a token generated as a result of "logging in" via an auth method. // // It does so by applying the auth method's configured binding rules. type Binder struct { store BinderStateStore } // NewBinder creates a Binder with the given state store. func NewBinder(store BinderStateStore) *Binder { return &Binder{store} } // BinderStateStore is the subset of state store methods used by the binder. type BinderStateStore interface { GetACLBindingRulesByAuthMethod(ws memdb.WatchSet, authMethod string) (memdb.ResultIterator, error) GetACLRoleByName(ws memdb.WatchSet, roleName string) (*structs.ACLRole, error) ACLPolicyByName(ws memdb.WatchSet, name string) (*structs.ACLPolicy, error) } // Bindings contains the ACL roles and policies to be assigned to the created // token. type Bindings struct { Management bool Roles []*structs.ACLTokenRoleLink Policies []string } // None indicates that the resulting bindings would not give the created token // access to any resources. func (b *Bindings) None() bool { if b == nil { return true } return len(b.Policies) == 0 && len(b.Roles) == 0 } // Bind collects the ACL roles and policies to be assigned to the created token. func (b *Binder) Bind(authMethod *structs.ACLAuthMethod, identity *Identity) (*Bindings, error) { var ( bindings Bindings err error ) // Load the auth method's binding rules. rulesIterator, err := b.store.GetACLBindingRulesByAuthMethod(nil, authMethod.Name) if err != nil { return nil, err } // Find the rules with selectors that match the identity's fields. matchingRules := []*structs.ACLBindingRule{} for { raw := rulesIterator.Next() if raw == nil { break } rule := raw.(*structs.ACLBindingRule) if doesSelectorMatch(rule.Selector, identity.Claims) { matchingRules = append(matchingRules, rule) } } if len(matchingRules) == 0 { return &bindings, nil } // Compute role or policy names by interpolating the identity's claim // mappings into the rule BindName templates. for _, rule := range matchingRules { bindName, valid, err := computeBindName(rule.BindType, rule.BindName, identity.ClaimMappings) switch { case err != nil: return nil, fmt.Errorf("cannot compute %q bind name for bind target: %w", rule.BindType, err) case !valid: return nil, fmt.Errorf("computed %q bind name for bind target is invalid: %q", rule.BindType, bindName) } switch rule.BindType { case structs.ACLBindingRuleBindTypeRole: role, err := b.store.GetACLRoleByName(nil, bindName) if err != nil { return nil, err } if role != nil { bindings.Roles = append(bindings.Roles, &structs.ACLTokenRoleLink{ ID: role.ID, }) } case structs.ACLBindingRuleBindTypePolicy: policy, err := b.store.ACLPolicyByName(nil, bindName) if err != nil { return nil, err } if policy != nil { bindings.Policies = append(bindings.Policies, policy.Name) } case structs.ACLBindingRuleBindTypeManagement: bindings.Management = true bindings.Policies = nil bindings.Roles = nil return &bindings, nil } } return &bindings, nil } // computeBindName processes the HIL for the provided bind type+name using the // projected variables. // // - If the HIL is invalid ("", false, AN_ERROR) is returned. // - If the computed name is not valid for the type ("INVALID_NAME", false, nil) is returned. // - If the computed name is valid for the type ("VALID_NAME", true, nil) is returned. func computeBindName(bindType, bindName string, claimMappings map[string]string) (string, bool, error) { bindName, err := interpolateHIL(bindName, claimMappings, true) if err != nil { return "", false, err } var valid bool switch bindType { case structs.ACLBindingRuleBindTypePolicy: valid = structs.ValidPolicyName.MatchString(bindName) case structs.ACLBindingRuleBindTypeRole: valid = structs.ValidACLRoleName.MatchString(bindName) case structs.ACLManagementToken: valid = true default: return "", false, fmt.Errorf("unknown binding rule bind type: %s", bindType) } return bindName, valid, nil } // doesSelectorMatch checks that a single selector matches the provided vars. func doesSelectorMatch(selector string, selectableVars interface{}) bool { if selector == "" { return true // catch-all } eval, err := bexpr.CreateEvaluator(selector) if err != nil { return false // fails to match if selector is invalid } result, err := eval.Evaluate(selectableVars) if err != nil { return false // fails to match if evaluation fails } return result } // interpolateHIL processes the string as if it were HIL and interpolates only // the provided string->string map as possible variables. func interpolateHIL(s string, vars map[string]string, lowercase bool) (string, error) { if !strings.Contains(s, "${") { // Skip going to the trouble of parsing something that has no HIL. return s, nil } tree, err := hil.Parse(s) if err != nil { return "", err } vm := make(map[string]ast.Variable) for k, v := range vars { if lowercase { v = strings.ToLower(v) } vm[k] = ast.Variable{ Type: ast.TypeString, Value: v, } } config := &hil.EvalConfig{ GlobalScope: &ast.BasicScope{ VarMap: vm, }, } result, err := hil.Eval(tree, config) if err != nil { return "", err } if result.Type != hil.TypeString { return "", fmt.Errorf("generated unexpected hil type: %s", result.Type) } return result.Value.(string), nil }