package validator import ( "fmt" "net" "regexp" "strings" "github.com/authelia/authelia/v4/internal/authorization" "github.com/authelia/authelia/v4/internal/configuration/schema" "github.com/authelia/authelia/v4/internal/utils" ) // IsPolicyValid check if policy is valid. func IsPolicyValid(policy string) (isValid bool) { return utils.IsStringInSlice(policy, validACLRulePolicies) } // IsSubjectValid check if a subject is valid. func IsSubjectValid(subject string) (isValid bool) { return subject == "" || strings.HasPrefix(subject, "user:") || strings.HasPrefix(subject, "group:") } // IsNetworkGroupValid check if a network group is valid. func IsNetworkGroupValid(config schema.AccessControlConfiguration, network string) bool { for _, networks := range config.Networks { if network != networks.Name { continue } else { return true } } return false } // IsNetworkValid check if a network is valid. func IsNetworkValid(network string) (isValid bool) { if net.ParseIP(network) == nil { _, _, err := net.ParseCIDR(network) return err == nil } return true } func ruleDescriptor(position int, rule schema.ACLRule) string { if len(rule.Domains) == 0 { return fmt.Sprintf("#%d", position) } return fmt.Sprintf("#%d (domain '%s')", position, strings.Join(rule.Domains, ",")) } // ValidateAccessControl validates access control configuration. func ValidateAccessControl(config *schema.Configuration, validator *schema.StructValidator) { if config.AccessControl.DefaultPolicy == "" { config.AccessControl.DefaultPolicy = policyDeny } if !IsPolicyValid(config.AccessControl.DefaultPolicy) { validator.Push(fmt.Errorf(errFmtAccessControlDefaultPolicyValue, strings.Join(validACLRulePolicies, "', '"), config.AccessControl.DefaultPolicy)) } if config.AccessControl.Networks != nil { for _, n := range config.AccessControl.Networks { for _, networks := range n.Networks { if !IsNetworkValid(networks) { validator.Push(fmt.Errorf(errFmtAccessControlNetworkGroupIPCIDRInvalid, n.Name, networks)) } } } } } // ValidateRules validates an ACL Rule configuration. func ValidateRules(config *schema.Configuration, validator *schema.StructValidator) { if config.AccessControl.Rules == nil || len(config.AccessControl.Rules) == 0 { if config.AccessControl.DefaultPolicy != policyOneFactor && config.AccessControl.DefaultPolicy != policyTwoFactor { validator.Push(fmt.Errorf(errFmtAccessControlDefaultPolicyWithoutRules, config.AccessControl.DefaultPolicy)) return } validator.PushWarning(fmt.Errorf(errFmtAccessControlWarnNoRulesDefaultPolicy, config.AccessControl.DefaultPolicy)) return } for i, rule := range config.AccessControl.Rules { rulePosition := i + 1 if len(rule.Domains)+len(rule.DomainsRegex) == 0 { validator.Push(fmt.Errorf(errFmtAccessControlRuleNoDomains, ruleDescriptor(rulePosition, rule))) } if !IsPolicyValid(rule.Policy) { validator.Push(fmt.Errorf(errFmtAccessControlRuleInvalidPolicy, ruleDescriptor(rulePosition, rule), rule.Policy)) } validateNetworks(rulePosition, rule, config.AccessControl, validator) validateSubjects(rulePosition, rule, validator) validateMethods(rulePosition, rule, validator) validateQuery(i, rule, config, validator) if rule.Policy == policyBypass { validateBypass(rulePosition, rule, validator) } } } func validateBypass(rulePosition int, rule schema.ACLRule, validator *schema.StructValidator) { if len(rule.Subjects) != 0 { validator.Push(fmt.Errorf(errAccessControlRuleBypassPolicyInvalidWithSubjects, ruleDescriptor(rulePosition, rule))) } for _, pattern := range rule.DomainsRegex { if utils.IsStringSliceContainsAny(authorization.IdentitySubexpNames, pattern.SubexpNames()) { validator.Push(fmt.Errorf(errAccessControlRuleBypassPolicyInvalidWithSubjectsWithGroupDomainRegex, ruleDescriptor(rulePosition, rule))) return } } } func validateNetworks(rulePosition int, rule schema.ACLRule, config schema.AccessControlConfiguration, validator *schema.StructValidator) { for _, network := range rule.Networks { if !IsNetworkValid(network) { if !IsNetworkGroupValid(config, network) { validator.Push(fmt.Errorf(errFmtAccessControlRuleNetworksInvalid, ruleDescriptor(rulePosition, rule), network)) } } } } func validateSubjects(rulePosition int, rule schema.ACLRule, validator *schema.StructValidator) { for _, subjectRule := range rule.Subjects { for _, subject := range subjectRule { if !IsSubjectValid(subject) { validator.Push(fmt.Errorf(errFmtAccessControlRuleSubjectInvalid, ruleDescriptor(rulePosition, rule), subject)) } } } } func validateMethods(rulePosition int, rule schema.ACLRule, validator *schema.StructValidator) { for _, method := range rule.Methods { if !utils.IsStringInSliceFold(method, validACLHTTPMethodVerbs) { validator.Push(fmt.Errorf(errFmtAccessControlRuleMethodInvalid, ruleDescriptor(rulePosition, rule), method, strings.Join(validACLHTTPMethodVerbs, "', '"))) } } } //nolint:gocyclo func validateQuery(i int, rule schema.ACLRule, config *schema.Configuration, validator *schema.StructValidator) { for j := 0; j < len(config.AccessControl.Rules[i].Query); j++ { for k := 0; k < len(config.AccessControl.Rules[i].Query[j]); k++ { if config.AccessControl.Rules[i].Query[j][k].Operator == "" { if config.AccessControl.Rules[i].Query[j][k].Key != "" { switch config.AccessControl.Rules[i].Query[j][k].Value { case "", nil: config.AccessControl.Rules[i].Query[j][k].Operator = operatorPresent default: config.AccessControl.Rules[i].Query[j][k].Operator = operatorEqual } } } else if !utils.IsStringInSliceFold(config.AccessControl.Rules[i].Query[j][k].Operator, validACLRuleOperators) { validator.Push(fmt.Errorf(errFmtAccessControlRuleQueryInvalid, ruleDescriptor(i+1, rule), config.AccessControl.Rules[i].Query[j][k].Operator, strings.Join(validACLRuleOperators, "', '"))) } if config.AccessControl.Rules[i].Query[j][k].Key == "" { validator.Push(fmt.Errorf(errFmtAccessControlRuleQueryInvalidNoValue, ruleDescriptor(i+1, rule), "key")) } op := config.AccessControl.Rules[i].Query[j][k].Operator if op == "" { continue } switch v := config.AccessControl.Rules[i].Query[j][k].Value.(type) { case nil: if op != operatorAbsent && op != operatorPresent { validator.Push(fmt.Errorf(errFmtAccessControlRuleQueryInvalidNoValueOperator, ruleDescriptor(i+1, rule), "value", op)) } case string: switch op { case operatorPresent, operatorAbsent: if v != "" { validator.Push(fmt.Errorf(errFmtAccessControlRuleQueryInvalidValue, ruleDescriptor(i+1, rule), "value", op)) } case operatorPattern, operatorNotPattern: var ( pattern *regexp.Regexp err error ) if pattern, err = regexp.Compile(v); err != nil { validator.Push(fmt.Errorf(errFmtAccessControlRuleQueryInvalidValueParse, ruleDescriptor(i+1, rule), "value", err)) } else { config.AccessControl.Rules[i].Query[j][k].Value = pattern } } default: validator.Push(fmt.Errorf(errFmtAccessControlRuleQueryInvalidValueType, ruleDescriptor(i+1, rule), v)) } } } }