// apparmor.d - Full set of apparmor profiles // Copyright (C) 2021-2024 Alexandre Pujol // SPDX-License-Identifier: GPL-2.0-only package aa import ( "fmt" "slices" "strings" ) // Must is a helper that wraps a call to a function returning (any, error) and // panics if the error is non-nil. func Must[T any](v T, err error) T { if err != nil { panic(err) } return v } func boolToInt(b bool) int { if b { return 1 } return 0 } func compare(a, b any) int { switch a := a.(type) { case int: return a - b.(int) case string: a = strings.ToLower(a) b := strings.ToLower(b.(string)) if a == b { return 0 } for i := 0; i < len(a) && i < len(b); i++ { if a[i] != b[i] { return stringWeights[a[i]] - stringWeights[b[i]] } } return len(a) - len(b) case []string: return slices.CompareFunc(a, b.([]string), func(s1, s2 string) int { return compare(s1, s2) }) case bool: return boolToInt(a) - boolToInt(b.(bool)) default: panic("compare: unsupported type") } } // compareFileAccess compares two access strings for file rules. // It is aimed to be used in slices.SortFunc. func compareFileAccess(i, j string) int { if slices.Contains(requirements[FILE]["access"], i) && slices.Contains(requirements[FILE]["access"], j) { return requirementsWeights[FILE]["access"][i] - requirementsWeights[FILE]["access"][j] } if slices.Contains(requirements[FILE]["transition"], i) && slices.Contains(requirements[FILE]["transition"], j) { return requirementsWeights[FILE]["transition"][i] - requirementsWeights[FILE]["transition"][j] } if slices.Contains(requirements[FILE]["access"], i) { return -1 } return 1 } func validateValues(kind Kind, key string, values []string) error { for _, v := range values { if v == "" { continue } if !slices.Contains(requirements[kind][key], v) { return fmt.Errorf("invalid mode '%s'", v) } } return nil } // Helper function to convert a string to a slice of rule values according to // the rule requirements as defined in the requirements map. func toValues(kind Kind, key string, input string) ([]string, error) { req, ok := requirements[kind][key] if !ok { return nil, fmt.Errorf("unrecognized requirement '%s' for rule %s", key, kind) } res := tokenToSlice(input) for idx := range res { res[idx] = strings.Trim(res[idx], `" `) if res[idx] == "" { res = slices.Delete(res, idx, idx+1) continue } if !slices.Contains(req, res[idx]) { return nil, fmt.Errorf("unrecognized %s: %s", key, res[idx]) } } slices.SortFunc(res, func(i, j string) int { return requirementsWeights[kind][key][i] - requirementsWeights[kind][key][j] }) return slices.Compact(res), nil } // Helper function to convert an access string to a slice of access according to // the rule requirements as defined in the requirements map. func toAccess(kind Kind, input string) ([]string, error) { var res []string switch kind { case FILE: raw := strings.Split(input, "") trans := []string{} for _, access := range raw { if slices.Contains(requirements[FILE]["access"], access) { res = append(res, access) } else { trans = append(trans, access) } } transition := strings.Join(trans, "") if len(transition) > 0 { if slices.Contains(requirements[FILE]["transition"], transition) { res = append(res, transition) } else { return nil, fmt.Errorf("unrecognized transition: %s", transition) } } case FILE + "-log": raw := strings.Split(input, "") for _, access := range raw { if slices.Contains(requirements[FILE]["access"], access) { res = append(res, access) } else if maskToAccess[access] != "" { res = append(res, maskToAccess[access]) } else { return nil, fmt.Errorf("toAccess: unrecognized file access '%s' for %s", input, kind) } } default: return toValues(kind, "access", input) } slices.SortFunc(res, compareFileAccess) return slices.Compact(res), nil }