apparmor.d/pkg/aa/mount.go
2024-06-29 22:27:39 +01:00

394 lines
8.4 KiB
Go

// apparmor.d - Full set of apparmor profiles
// Copyright (C) 2021-2024 Alexandre Pujol <alexandre@pujol.io>
// SPDX-License-Identifier: GPL-2.0-only
package aa
import (
"fmt"
)
const (
MOUNT Kind = "mount"
REMOUNT Kind = "remount"
UMOUNT Kind = "umount"
)
func init() {
requirements[MOUNT] = requirement{
"flags": {
"acl", "async", "atime", "ro", "rw", "bind", "rbind", "dev",
"diratime", "dirsync", "exec", "iversion", "loud", "mand", "move",
"noacl", "noatime", "nodev", "nodiratime", "noexec", "noiversion",
"nomand", "norelatime", "nosuid", "nouser", "private", "relatime",
"remount", "rprivate", "rshared", "rslave", "runbindable", "shared",
"silent", "slave", "strictatime", "suid", "sync", "unbindable",
"user", "verbose",
},
}
}
type MountConditions struct {
FsType string
Options []string
}
func newMountConditions(rule rule) (MountConditions, error) {
options, err := toValues(MOUNT, "flags", rule.GetValuesAsString("options"))
if err != nil {
return MountConditions{}, err
}
return MountConditions{
FsType: rule.GetValuesAsString("fstype"),
Options: options,
}, nil
}
func newMountConditionsFromLog(log map[string]string) MountConditions {
if _, present := log["flags"]; present {
return MountConditions{
FsType: log["fstype"],
Options: Must(toValues(MOUNT, "flags", log["flags"])),
}
}
return MountConditions{FsType: log["fstype"]}
}
func (m MountConditions) Validate() error {
return validateValues(MOUNT, "flags", m.Options)
}
func (m MountConditions) Compare(other MountConditions) int {
if res := compare(m.FsType, other.FsType); res != 0 {
return res
}
return compare(m.Options, other.Options)
}
func (m *MountConditions) Merge(other MountConditions) bool {
if m.FsType == other.FsType {
m.Options = merge(MOUNT, "flags", m.Options, other.Options)
return true
}
return false
}
func (m MountConditions) getLenFsType() int {
return length("fstype=", m.FsType)
}
func (m MountConditions) getLenOptions() int {
return length("options=", m.Options)
}
func (m MountConditions) setPaddings(max []int) []string {
return setPaddings(max,
[]string{"fstype=", "options="},
[]any{m.FsType, m.Options},
)
}
type Mount struct {
Base
Qualifier
MountConditions
Source string
MountPoint string
}
func newMount(q Qualifier, rule rule) (Rule, error) {
mount, src := "", ""
r := rule.GetSlice()
if len(r) > 0 {
if r[0] != tokARROW {
src = r[0]
r = r[1:]
}
if len(r) == 2 {
if r[0] != tokARROW {
return nil, fmt.Errorf("missing '%s' in rule: %s", tokARROW, rule)
}
mount = r[1]
}
}
conditions, err := newMountConditions(rule)
if err != nil {
return nil, err
}
return &Mount{
Base: newBase(rule),
Qualifier: q,
MountConditions: conditions,
Source: src,
MountPoint: mount,
}, nil
}
func newMountFromLog(log map[string]string) Rule {
return &Mount{
Base: newBaseFromLog(log),
Qualifier: newQualifierFromLog(log),
MountConditions: newMountConditionsFromLog(log),
Source: log["srcname"],
MountPoint: log["name"],
}
}
func (r *Mount) Kind() Kind {
return MOUNT
}
func (r *Mount) Constraint() Constraint {
return BlockRule
}
func (r *Mount) String() string {
return renderTemplate(r.Kind(), r)
}
func (r *Mount) Validate() error {
if err := r.MountConditions.Validate(); err != nil {
return fmt.Errorf("%s: %w", r, err)
}
return nil
}
func (r *Mount) Compare(other Rule) int {
o, _ := other.(*Mount)
if res := compare(r.Source, o.Source); res != 0 {
return res
}
if res := compare(r.MountPoint, o.MountPoint); res != 0 {
return res
}
if res := r.MountConditions.Compare(o.MountConditions); res != 0 {
return res
}
return r.Qualifier.Compare(o.Qualifier)
}
func (r *Mount) Merge(other Rule) bool {
o, _ := other.(*Mount)
mc := &r.MountConditions
if !r.Qualifier.Equal(o.Qualifier) {
return false
}
if r.Source == o.Source && r.MountPoint == o.MountPoint &&
mc.Merge(o.MountConditions) {
b := &r.Base
return b.merge(o.Base)
}
return false
}
func (r *Mount) Lengths() []int {
return []int{
r.Qualifier.getLenAudit(),
r.Qualifier.getLenAccess(),
r.MountConditions.getLenFsType(),
r.MountConditions.getLenOptions(),
length("", r.Source),
length("", r.MountPoint),
}
}
func (r *Mount) setPaddings(max []int) {
r.Paddings = append(r.Qualifier.setPaddings(max[:2]), r.MountConditions.setPaddings(max[2:4])...)
r.Paddings = append(r.Paddings,
setPaddings(max[4:], []string{"", ""}, []any{r.Source, r.MountPoint})...,
)
}
type Umount struct {
Base
Qualifier
MountConditions
MountPoint string
}
func newUmount(q Qualifier, rule rule) (Rule, error) {
mount := ""
r := rule.GetSlice()
if len(r) > 0 {
mount = r[0]
}
conditions, err := newMountConditions(rule)
if err != nil {
return nil, err
}
return &Umount{
Base: newBase(rule),
Qualifier: q,
MountConditions: conditions,
MountPoint: mount,
}, nil
}
func newUmountFromLog(log map[string]string) Rule {
return &Umount{
Base: newBaseFromLog(log),
Qualifier: newQualifierFromLog(log),
MountConditions: newMountConditionsFromLog(log),
MountPoint: log["name"],
}
}
func (r *Umount) Kind() Kind {
return UMOUNT
}
func (r *Umount) Constraint() Constraint {
return BlockRule
}
func (r *Umount) String() string {
return renderTemplate(r.Kind(), r)
}
func (r *Umount) Validate() error {
if err := r.MountConditions.Validate(); err != nil {
return fmt.Errorf("%s: %w", r, err)
}
return nil
}
func (r *Umount) Compare(other Rule) int {
o, _ := other.(*Umount)
if res := compare(r.MountPoint, o.MountPoint); res != 0 {
return res
}
if res := r.MountConditions.Compare(o.MountConditions); res != 0 {
return res
}
return r.Qualifier.Compare(o.Qualifier)
}
func (r *Umount) Merge(other Rule) bool {
o, _ := other.(*Umount)
mc := &r.MountConditions
if !r.Qualifier.Equal(o.Qualifier) {
return false
}
if r.MountPoint == o.MountPoint && mc.Merge(o.MountConditions) {
b := &r.Base
return b.merge(o.Base)
}
return false
}
func (r *Umount) Lengths() []int {
return []int{
r.Qualifier.getLenAudit(),
r.Qualifier.getLenAccess(),
r.MountConditions.getLenFsType(),
r.MountConditions.getLenOptions(),
length("", r.MountPoint),
}
}
func (r *Umount) setPaddings(max []int) {
r.Paddings = append(r.Qualifier.setPaddings(max[:2]), r.MountConditions.setPaddings(max[2:4])...)
r.Paddings = append(r.Paddings,
setPaddings(max[4:], []string{""}, []any{r.MountPoint})...,
)
}
type Remount struct {
Base
Qualifier
MountConditions
MountPoint string
}
func newRemount(q Qualifier, rule rule) (Rule, error) {
mount := ""
r := rule.GetSlice()
if len(r) > 0 {
mount = r[0]
}
conditions, err := newMountConditions(rule)
if err != nil {
return nil, err
}
return &Remount{
Base: newBase(rule),
Qualifier: q,
MountConditions: conditions,
MountPoint: mount,
}, nil
}
func newRemountFromLog(log map[string]string) Rule {
return &Remount{
Base: newBaseFromLog(log),
Qualifier: newQualifierFromLog(log),
MountConditions: newMountConditionsFromLog(log),
MountPoint: log["name"],
}
}
func (r *Remount) Kind() Kind {
return REMOUNT
}
func (r *Remount) Constraint() Constraint {
return BlockRule
}
func (r *Remount) String() string {
return renderTemplate(r.Kind(), r)
}
func (r *Remount) Validate() error {
if err := r.MountConditions.Validate(); err != nil {
return fmt.Errorf("%s: %w", r, err)
}
return nil
}
func (r *Remount) Compare(other Rule) int {
o, _ := other.(*Remount)
if res := compare(r.MountPoint, o.MountPoint); res != 0 {
return res
}
if res := r.MountConditions.Compare(o.MountConditions); res != 0 {
return res
}
return r.Qualifier.Compare(o.Qualifier)
}
func (r *Remount) Merge(other Rule) bool {
o, _ := other.(*Remount)
mc := &r.MountConditions
if !r.Qualifier.Equal(o.Qualifier) {
return false
}
if r.MountPoint == o.MountPoint && mc.Merge(o.MountConditions) {
b := &r.Base
return b.merge(o.Base)
}
return false
}
func (r *Remount) Lengths() []int {
return []int{
r.Qualifier.getLenAudit(),
r.Qualifier.getLenAccess(),
r.MountConditions.getLenFsType(),
r.MountConditions.getLenOptions(),
length("", r.MountPoint),
}
}
func (r *Remount) setPaddings(max []int) {
r.Paddings = append(r.Qualifier.setPaddings(max[:2]), r.MountConditions.setPaddings(max[2:4])...)
r.Paddings = append(r.Paddings,
setPaddings(max[4:], []string{""}, []any{r.MountPoint})...,
)
}