apparmor.d/pkg/aa/profile.go

214 lines
5.0 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"
"slices"
"strings"
)
const (
PROFILE Kind = "profile"
tokATTRIBUTES = "xattrs"
tokFLAGS = "flags"
)
func init() {
requirements[PROFILE] = requirement{
tokFLAGS: {
"enforce", "complain", "kill", "default_allow", "unconfined",
"prompt", "audit", "mediate_deleted", "attach_disconnected",
"attach_disconneced.path=", "chroot_relative", "debug",
"interruptible", "kill", "kill.signal=",
},
}
}
// Profile represents a single AppArmor profile.
type Profile struct {
Base
Header
Rules Rules
}
// Header represents the header of a profile.
type Header struct {
Name string
Attachments []string
Attributes map[string]string
Flags []string
}
func newHeader(rule rule) (Header, error) {
if len(rule) == 0 {
return Header{}, nil
}
if rule.Get(0) == PROFILE.Tok() {
rule = rule[1:]
}
name, attachments := "", []string{}
if len(rule) >= 1 {
name = rule.Get(0)
if len(rule) > 1 {
attachments = rule[1:].GetSlice()
}
}
attributes := make(map[string]string)
for k, v := range rule.GetValues(tokATTRIBUTES).GetAsMap() {
attributes[k] = strings.Join(v, "")
}
return Header{
Name: name,
Attachments: attachments,
Attributes: attributes,
Flags: rule.GetValuesAsSlice(tokFLAGS),
}, nil
}
func (p *Profile) Kind() Kind {
return PROFILE
}
func (p *Profile) Constraint() constraint {
return blockKind
}
func (p *Profile) String() string {
return renderTemplate(p.Kind(), p)
}
func (r *Profile) Validate() error {
if err := validateValues(r.Kind(), tokFLAGS, r.Flags); err != nil {
return fmt.Errorf("profile %s: %w", r.Name, err)
}
return r.Rules.Validate()
}
func (r *Profile) Compare(other Rule) int {
o, _ := other.(*Profile)
if res := compare(r.Name, o.Name); res != 0 {
return res
}
return compare(r.Attachments, o.Attachments)
}
func (p *Profile) Merge(other Rule) bool {
slices.Sort(p.Flags)
p.Flags = slices.Compact(p.Flags)
p.Rules = p.Rules.Merge()
return false
}
func (p *Profile) Sort() {
p.Rules = p.Rules.Sort()
}
func (p *Profile) Format() {
p.Rules = p.Rules.Format()
}
// GetAttachments return a nested attachment string
func (p *Profile) GetAttachments() string {
switch len(p.Attachments) {
case 0:
return ""
case 1:
return p.Attachments[0]
default:
res := []string{}
for _, attachment := range p.Attachments {
if strings.HasPrefix(attachment, "/") {
res = append(res, attachment[1:])
} else {
res = append(res, attachment)
}
}
return "/{" + strings.Join(res, ",") + "}"
}
}
var (
newLogMap = map[string]func(log map[string]string) Rule{
"rlimits": newRlimitFromLog,
"cap": newCapabilityFromLog,
"io_uring": newIOUringFromLog,
"signal": newSignalFromLog,
"ptrace": newPtraceFromLog,
"namespace": newUsernsFromLog,
"unix": newUnixFromLog,
"dbus": newDbusFromLog,
"posix_mqueue": newMqueueFromLog,
"sysv_mqueue": newMqueueFromLog,
"mount": func(log map[string]string) Rule {
if strings.Contains(log["flags"], "remount") {
return newRemountFromLog(log)
}
newRule := newLogMountMap[log["operation"]]
return newRule(log)
},
"net": newNetworkFromLog,
"file": func(log map[string]string) Rule {
if log["operation"] == "change_onexec" {
return newChangeProfileFromLog(log)
} else {
return newFileFromLog(log)
}
},
"exec": newFileFromLog,
"getattr": newFileFromLog,
"mkdir": newFileFromLog,
"mknod": newFileFromLog,
"open": newFileFromLog,
"rename_src": newFileFromLog,
"truncate": newFileFromLog,
"unlink": newFileFromLog,
}
newLogMountMap = map[string]func(log map[string]string) Rule{
"mount": newMountFromLog,
"umount": newUmountFromLog,
"remount": newRemountFromLog,
"pivotroot": newPivotRootFromLog,
}
)
func (p *Profile) AddRule(log map[string]string) {
// Generate profile flags and extra rules
switch log["error"] {
case "-2":
if !slices.Contains(p.Flags, "mediate_deleted") {
p.Flags = append(p.Flags, "mediate_deleted")
}
case "-13":
if strings.Contains(log["info"], "namespace creation restricted") {
p.Rules = append(p.Rules, newUsernsFromLog(log))
} else if strings.Contains(log["info"], "disconnected path") && !slices.Contains(p.Flags, "attach_disconnected") {
p.Flags = append(p.Flags, "attach_disconnected")
}
default:
}
done := false
for _, key := range []string{"class", "family", "operation"} {
if newRule, ok := newLogMap[log[key]]; ok {
p.Rules = append(p.Rules, newRule(log))
done = true
break
}
}
if !done {
switch {
case strings.HasPrefix(log["operation"], "file_"):
p.Rules = append(p.Rules, newFileFromLog(log))
case strings.Contains(log["operation"], "dbus"):
p.Rules = append(p.Rules, newDbusFromLog(log))
default:
fmt.Printf("unknown log type: %s", log["operation"])
}
}
}