apparmor.d/pkg/aa/file.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"

	"github.com/roddhjav/apparmor.d/pkg/util"
)

const (
	LINK      Kind = "link"
	FILE      Kind = "file"
	tokOWNER       = "owner"
	tokSUBSET      = "subset"
)

func init() {
	requirements[FILE] = requirement{
		"access": {"m", "r", "w", "l", "k"},
		"transition": {
			"ix", "ux", "Ux", "px", "Px", "cx", "Cx", "pix", "Pix", "cix",
			"Cix", "pux", "PUx", "cux", "CUx", "x",
		},
	}
}

func isOwner(log map[string]string) bool {
	fsuid, hasFsUID := log["fsuid"]
	ouid, hasOuUID := log["ouid"]
	isDbus := strings.Contains(log["operation"], "dbus")
	if hasFsUID && hasOuUID && fsuid == ouid && ouid != "0" && !isDbus {
		return true
	}
	return false
}

type File struct {
	Base
	Qualifier
	Owner  bool
	Path   string
	Access []string
	Target string
}

func newFile(q Qualifier, rule rule) (Rule, error) {
	path, access, target, owner := "", "", "", false
	if len(rule) > 0 {
		if rule.Get(0) == tokOWNER {
			owner = true
			rule = rule[1:]
		}
		if rule.Get(0) == FILE.Tok() {
			rule = rule[1:]
		}

		r := rule.GetSlice()
		size := len(r)
		if size < 2 {
			return nil, fmt.Errorf("missing file or access in rule: %s", rule)
		}

		path, access = r[0], r[1]
		if size > 2 {
			if r[2] != tokARROW {
				return nil, fmt.Errorf("missing '%s' in rule: %s", tokARROW, rule)
			}
			target = r[3]
		}
	}
	accesses, err := toAccess(FILE, access)
	if err != nil {
		return nil, err
	}
	return &File{
		Base:      newBase(rule),
		Qualifier: q,
		Owner:     owner,
		Path:      path,
		Access:    accesses,
		Target:    target,
	}, nil
}

func newFileFromLog(log map[string]string) Rule {
	accesses, err := toAccess("file-log", log["requested_mask"])
	if err != nil {
		panic(fmt.Errorf("newFileFromLog(%v): %w", log, err))
	}
	if slices.Compare(accesses, []string{"l"}) == 0 {
		return newLinkFromLog(log)
	}
	return &File{
		Base:      newBaseFromLog(log),
		Qualifier: newQualifierFromLog(log),
		Owner:     isOwner(log),
		Path:      log["name"],
		Access:    accesses,
		Target:    log["target"],
	}
}

func (r *File) Kind() Kind {
	return FILE
}

func (r *File) Constraint() Constraint {
	return BlockRule
}

func (r *File) String() string {
	return renderTemplate(r.Kind(), r)
}

func (r *File) Validate() error {
	return nil
}

func (r *File) Compare(other Rule) int {
	o, _ := other.(*File)

	letterR := getLetterIn(fileAlphabet, r.Path)
	letterO := getLetterIn(fileAlphabet, o.Path)
	if fileWeights[letterR] != fileWeights[letterO] && letterR != "" && letterO != "" {
		return fileWeights[letterR] - fileWeights[letterO]
	}
	if res := compare(r.Owner, o.Owner); res != 0 {
		return res
	}
	if res := compare(r.Path, o.Path); res != 0 {
		return res
	}
	if res := compare(r.Access, o.Access); res != 0 {
		return res
	}
	if res := compare(r.Target, o.Target); res != 0 {
		return res
	}
	return r.Qualifier.Compare(o.Qualifier)
}

func (r *File) Merge(other Rule) bool {
	o, _ := other.(*File)

	if !r.Qualifier.Equal(o.Qualifier) {
		return false
	}
	if r.Owner == o.Owner && r.Path == o.Path && r.Target == o.Target {
		r.Access = merge(r.Kind(), "access", r.Access, o.Access)
		b := &r.Base
		return b.merge(o.Base)
	}
	return false
}

func (r *File) Lengths() []int {
	// Add padding to align with other transition rule
	lenPath := 0
	isTransition := util.Intersect(
		append(requirements[FILE]["transition"], "m"), r.Access,
	)
	if len(isTransition) > 0 {
		lenPath = length("", r.Path)
	}
	return []int{
		r.Qualifier.getLenAudit(),
		r.Qualifier.getLenAccess(),
		length("owner", r.Owner),
		lenPath,
	}
}

func (r *File) setPaddings(max []int) {
	r.Paddings = append(r.Qualifier.setPaddings(max[:2]), setPaddings(
		max[2:], []string{"owner", ""},
		[]any{r.Owner, r.Path})...,
	)
}

func (r *File) addLine(other Rule) bool {
	if other.Kind() != r.Kind() {
		return false
	}

	letterI := getLetterIn(fileAlphabet, r.Path)
	letterJ := getLetterIn(fileAlphabet, other.(*File).Path)
	groupI, ok1 := fileAlphabetGroups[letterI]
	groupJ, ok2 := fileAlphabetGroups[letterJ]
	return letterI != letterJ && !(ok1 && ok2 && groupI == groupJ)
}

type Link struct {
	Base
	Qualifier
	Owner  bool
	Subset bool
	Path   string
	Target string
}

func newLink(q Qualifier, rule rule) (Rule, error) {
	owner, subset, path, target := false, false, "", ""
	if len(rule) > 0 {
		if rule.Get(0) == tokOWNER {
			owner = true
			rule = rule[1:]
		}
		if len(rule) > 0 && rule.Get(0) == tokSUBSET {
			subset = true
			rule = rule[1:]
		}

		r := rule.GetSlice()
		size := len(r)
		if size > 0 {
			path = r[0]
		}
		if size > 2 {
			if r[1] != tokARROW {
				return nil, fmt.Errorf("missing '%s' in rule: %s", tokARROW, rule)
			}
			target = r[2]
		}
	}
	return &Link{
		Base:      newBase(rule),
		Qualifier: q,
		Owner:     owner,
		Subset:    subset,
		Path:      path,
		Target:    target,
	}, nil
}

func newLinkFromLog(log map[string]string) Rule {
	return &Link{
		Base:      newBaseFromLog(log),
		Qualifier: newQualifierFromLog(log),
		Owner:     isOwner(log),
		Path:      log["name"],
		Target:    log["target"],
	}
}

func (r *Link) Kind() Kind {
	return LINK
}

func (r *Link) Constraint() Constraint {
	return BlockRule
}

func (r *Link) String() string {
	return renderTemplate(r.Kind(), r)
}

func (r *Link) Validate() error {
	return nil
}

func (r *Link) Compare(other Rule) int {
	o, _ := other.(*Link)

	if res := compare(r.Owner, o.Owner); res != 0 {
		return res
	}
	if res := compare(r.Path, o.Path); res != 0 {
		return res
	}
	if res := compare(r.Target, o.Target); res != 0 {
		return res
	}
	if res := compare(r.Subset, o.Subset); res != 0 {
		return res
	}
	return r.Qualifier.Compare(o.Qualifier)
}

func (r *Link) Merge(other Rule) bool {
	return false // Never merge link
}

func (r *Link) Lengths() []int {
	return []int{
		r.Qualifier.getLenAudit(),
		r.Qualifier.getLenAccess(),
		length("owner", r.Owner),
		length("subset", r.Subset),
		length("", r.Path),
		length("", r.Target),
	}
}

func (r *Link) setPaddings(max []int) {
	r.Paddings = append(r.Qualifier.setPaddings(max[:2]), setPaddings(
		max[2:], []string{"owner", "subset", "", ""},
		[]any{r.Owner, r.Subset, r.Path, r.Target})...,
	)
}
feat(aa-log): new structure for apparmor rules. 2023-09-25 01:06:07 +02:00			`// apparmor.d - Full set of apparmor profiles`
chore: add missing and update copyright year. 2024-02-07 00:16:21 +01:00			`// Copyright (C) 2021-2024 Alexandre Pujol <alexandre@pujol.io>`
feat(aa-log): new structure for apparmor rules. 2023-09-25 01:06:07 +02:00			`// SPDX-License-Identifier: GPL-2.0-only`

			`package aa`

feat(aa): cleanup, fix import and add some unit tests. 2024-05-05 15:19:25 +02:00			`import (`
feat(aa): rewrite the toAccess function to parse, convert and verify the access values. 2024-05-25 23:14:43 +02:00			`"fmt"`
feat(aa): cleanup, fix import and add some unit tests. 2024-05-05 15:19:25 +02:00			`"slices"`
			`"strings"`
feat(aa): add implementation of the new rule methods. 2024-06-29 23:27:39 +02:00
			`"github.com/roddhjav/apparmor.d/pkg/util"`
feat(aa): cleanup, fix import and add some unit tests. 2024-05-05 15:19:25 +02:00			`)`

			`const (`
feat(aa): add the Kind struct to manage aa rules. 2024-05-28 19:15:22 +02:00			`LINK Kind = "link"`
			`FILE Kind = "file"`
			`tokOWNER = "owner"`
			`tokSUBSET = "subset"`
feat(aa): cleanup, fix import and add some unit tests. 2024-05-05 15:19:25 +02:00			`)`

feat(aa): add requirements map. 2024-05-25 23:01:29 +02:00			`func init() {`
feat(aa): add the Kind struct to manage aa rules. 2024-05-28 19:15:22 +02:00			`requirements[FILE] = requirement{`
feat(aa): add requirements map. 2024-05-25 23:01:29 +02:00			`"access": {"m", "r", "w", "l", "k"},`
			`"transition": {`
			`"ix", "ux", "Ux", "px", "Px", "cx", "Cx", "pix", "Pix", "cix",`
			`"Cix", "pux", "PUx", "cux", "CUx", "x",`
			`},`
			`}`
			`}`

chore: cosmetic 2024-05-25 23:26:51 +02:00			`func isOwner(log map[string]string) bool {`
			`fsuid, hasFsUID := log["fsuid"]`
			`ouid, hasOuUID := log["ouid"]`
			`isDbus := strings.Contains(log["operation"], "dbus")`
			`if hasFsUID && hasOuUID && fsuid == ouid && ouid != "0" && !isDbus {`
			`return true`
			`}`
			`return false`
			`}`

feat(aa-log): new structure for apparmor rules. 2023-09-25 01:06:07 +02:00			`type File struct {`
refractor(aa): rename base struct from RuleBase to Base 2024-06-25 20:50:27 +02:00			`Base`
feat(aa-log): new structure for apparmor rules. 2023-09-25 01:06:07 +02:00			`Qualifier`
feat(aa): improve apparmor struct. 2024-04-15 00:58:34 +02:00			`Owner bool`
feat(aa-log): new structure for apparmor rules. 2023-09-25 01:06:07 +02:00			`Path string`
feat(aa): ensure accesses are slice of string. 2024-04-23 22:17:25 +02:00			`Access []string`
feat(aa-log): new structure for apparmor rules. 2023-09-25 01:06:07 +02:00			`Target string`
			`}`

feat(aa): add rule constructors from internal parser. 2024-06-20 00:22:49 +02:00			`func newFile(q Qualifier, rule rule) (Rule, error) {`
			`path, access, target, owner := "", "", "", false`
			`if len(rule) > 0 {`
			`if rule.Get(0) == tokOWNER {`
			`owner = true`
			`rule = rule[1:]`
			`}`
			`if rule.Get(0) == FILE.Tok() {`
			`rule = rule[1:]`
			`}`

			`r := rule.GetSlice()`
			`size := len(r)`
			`if size < 2 {`
			`return nil, fmt.Errorf("missing file or access in rule: %s", rule)`
			`}`

			`path, access = r[0], r[1]`
			`if size > 2 {`
			`if r[2] != tokARROW {`
			`return nil, fmt.Errorf("missing '%s' in rule: %s", tokARROW, rule)`
			`}`
			`target = r[3]`
			`}`
			`}`
			`accesses, err := toAccess(FILE, access)`
			`if err != nil {`
			`return nil, err`
			`}`
			`return &File{`
refractor(aa): rename base struct from RuleBase to Base 2024-06-25 20:50:27 +02:00			`Base: newBase(rule),`
feat(aa): add rule constructors from internal parser. 2024-06-20 00:22:49 +02:00			`Qualifier: q,`
			`Owner: owner,`
			`Path: path,`
			`Access: accesses,`
			`Target: target,`
			`}, nil`
			`}`

feat(aa): continue refractoring the aa structure. 2024-04-19 23:43:02 +02:00			`func newFileFromLog(log map[string]string) Rule {`
feat(aa): rewrite the toAccess function to parse, convert and verify the access values. 2024-05-25 23:14:43 +02:00			`accesses, err := toAccess("file-log", log["requested_mask"])`
			`if err != nil {`
			`panic(fmt.Errorf("newFileFromLog(%v): %w", log, err))`
			`}`
			`if slices.Compare(accesses, []string{"l"}) == 0 {`
			`return newLinkFromLog(log)`
			`}`
feat(aa-log): new structure for apparmor rules. 2023-09-25 01:06:07 +02:00			`return &File{`
refractor(aa): rename base struct from RuleBase to Base 2024-06-25 20:50:27 +02:00			`Base: newBaseFromLog(log),`
feat(aa): improve apparmor struct. 2024-04-15 00:58:34 +02:00			`Qualifier: newQualifierFromLog(log),`
feat(aa): add the link rule. 2024-05-25 22:56:28 +02:00			`Owner: isOwner(log),`
feat(aa-log): new structure for apparmor rules. 2023-09-25 01:06:07 +02:00			`Path: log["name"],`
feat(aa): rewrite the toAccess function to parse, convert and verify the access values. 2024-05-25 23:14:43 +02:00			`Access: accesses,`
feat(aa-log): new structure for apparmor rules. 2023-09-25 01:06:07 +02:00			`Target: log["target"],`
			`}`
			`}`
feat(aa-log): add less & equals rule methods. 2023-09-25 01:09:11 +02:00
refractor(aa): ensure methods order in rules definitions. 2024-06-25 20:56:36 +02:00			`func (r *File) Kind() Kind {`
			`return FILE`
			`}`

chore(aa): minor cosmetic of the rule interface. 2024-06-27 19:45:32 +02:00			`func (r *File) Constraint() Constraint {`
			`return BlockRule`
refractor(aa): ensure methods order in rules definitions. 2024-06-25 20:56:36 +02:00			`}`

			`func (r *File) String() string {`
			`return renderTemplate(r.Kind(), r)`
			`}`

feat(aa): add initial profile validation structure. 2024-05-25 23:36:39 +02:00			`func (r *File) Validate() error {`
			`return nil`
			`}`

feat(aa): rule interface: replace less & equal by the compare method. - set a new alphabet order to sort AARE based string. - unify compare function for all rules - handle some special sort order, eg: base include 2024-06-19 19:34:58 +02:00			`func (r *File) Compare(other Rule) int {`
feat(aa-log): add less & equals rule methods. 2023-09-25 01:09:11 +02:00			`o, _ := other.(*File)`
feat(aa): rule interface: replace less & equal by the compare method. - set a new alphabet order to sort AARE based string. - unify compare function for all rules - handle some special sort order, eg: base include 2024-06-19 19:34:58 +02:00
feat(aa-log): format rule before print. 2023-10-01 20:00:39 +02:00			`letterR := getLetterIn(fileAlphabet, r.Path)`
			`letterO := getLetterIn(fileAlphabet, o.Path)`
feat(aa): improve apparmor struct. 2024-04-15 00:58:34 +02:00			`if fileWeights[letterR] != fileWeights[letterO] && letterR != "" && letterO != "" {`
feat(aa): rule interface: replace less & equal by the compare method. - set a new alphabet order to sort AARE based string. - unify compare function for all rules - handle some special sort order, eg: base include 2024-06-19 19:34:58 +02:00			`return fileWeights[letterR] - fileWeights[letterO]`
feat(aa): improve apparmor struct. 2024-04-15 00:58:34 +02:00			`}`
feat(aa): rule interface: replace less & equal by the compare method. - set a new alphabet order to sort AARE based string. - unify compare function for all rules - handle some special sort order, eg: base include 2024-06-19 19:34:58 +02:00			`if res := compare(r.Owner, o.Owner); res != 0 {`
			`return res`
feat(aa): improve apparmor struct. 2024-04-15 00:58:34 +02:00			`}`
feat(aa): rule interface: replace less & equal by the compare method. - set a new alphabet order to sort AARE based string. - unify compare function for all rules - handle some special sort order, eg: base include 2024-06-19 19:34:58 +02:00			`if res := compare(r.Path, o.Path); res != 0 {`
			`return res`
chore(aa): cleanup. 2024-05-28 19:22:14 +02:00			`}`
feat(aa): rule interface: replace less & equal by the compare method. - set a new alphabet order to sort AARE based string. - unify compare function for all rules - handle some special sort order, eg: base include 2024-06-19 19:34:58 +02:00			`if res := compare(r.Access, o.Access); res != 0 {`
			`return res`
feat(aa): improve apparmor struct. 2024-04-15 00:58:34 +02:00			`}`
feat(aa): rule interface: replace less & equal by the compare method. - set a new alphabet order to sort AARE based string. - unify compare function for all rules - handle some special sort order, eg: base include 2024-06-19 19:34:58 +02:00			`if res := compare(r.Target, o.Target); res != 0 {`
			`return res`
feat(aa): improve apparmor struct. 2024-04-15 00:58:34 +02:00			`}`
feat(aa): rule interface: replace less & equal by the compare method. - set a new alphabet order to sort AARE based string. - unify compare function for all rules - handle some special sort order, eg: base include 2024-06-19 19:34:58 +02:00			`return r.Qualifier.Compare(o.Qualifier)`
feat(aa): ensure accesses are slice of string. 2024-04-23 22:17:25 +02:00			`}`

feat(aa): add the Merge method to the Rule interface. 2024-06-21 00:23:39 +02:00			`func (r *File) Merge(other Rule) bool {`
			`o, _ := other.(*File)`
feat(aa): add merge methods to the rule interface. 2024-06-22 21:59:43 +02:00
			`if !r.Qualifier.Equal(o.Qualifier) {`
			`return false`
			`}`
			`if r.Owner == o.Owner && r.Path == o.Path && r.Target == o.Target {`
			`r.Access = merge(r.Kind(), "access", r.Access, o.Access)`
refractor(aa): rename base struct from RuleBase to Base 2024-06-25 20:50:27 +02:00			`b := &r.Base`
			`return b.merge(o.Base)`
feat(aa): add the Merge method to the Rule interface. 2024-06-21 00:23:39 +02:00			`}`
			`return false`
			`}`

feat(aa): add implementation of the new rule methods. 2024-06-29 23:27:39 +02:00			`func (r *File) Lengths() []int {`
			`// Add padding to align with other transition rule`
			`lenPath := 0`
			`isTransition := util.Intersect(`
			`append(requirements[FILE]["transition"], "m"), r.Access,`
			`)`
			`if len(isTransition) > 0 {`
			`lenPath = length("", r.Path)`
			`}`
			`return []int{`
			`r.Qualifier.getLenAudit(),`
			`r.Qualifier.getLenAccess(),`
			`length("owner", r.Owner),`
			`lenPath,`
			`}`
			`}`

			`func (r *File) setPaddings(max []int) {`
			`r.Paddings = append(r.Qualifier.setPaddings(max[:2]), setPaddings(`
			`max[2:], []string{"owner", ""},`
			`[]any{r.Owner, r.Path})...,`
			`)`
			`}`

			`func (r *File) addLine(other Rule) bool {`
			`if other.Kind() != r.Kind() {`
			`return false`
			`}`

			`letterI := getLetterIn(fileAlphabet, r.Path)`
			`letterJ := getLetterIn(fileAlphabet, other.(*File).Path)`
			`groupI, ok1 := fileAlphabetGroups[letterI]`
			`groupJ, ok2 := fileAlphabetGroups[letterJ]`
			`return letterI != letterJ && !(ok1 && ok2 && groupI == groupJ)`
			`}`

feat(aa): add the link rule. 2024-05-25 22:56:28 +02:00			`type Link struct {`
refractor(aa): rename base struct from RuleBase to Base 2024-06-25 20:50:27 +02:00			`Base`
feat(aa): add the link rule. 2024-05-25 22:56:28 +02:00			`Qualifier`
			`Owner bool`
			`Subset bool`
			`Path string`
			`Target string`
			`}`

feat(aa): add rule constructors from internal parser. 2024-06-20 00:22:49 +02:00			`func newLink(q Qualifier, rule rule) (Rule, error) {`
			`owner, subset, path, target := false, false, "", ""`
			`if len(rule) > 0 {`
			`if rule.Get(0) == tokOWNER {`
			`owner = true`
			`rule = rule[1:]`
			`}`
			`if len(rule) > 0 && rule.Get(0) == tokSUBSET {`
			`subset = true`
			`rule = rule[1:]`
			`}`

			`r := rule.GetSlice()`
			`size := len(r)`
			`if size > 0 {`
			`path = r[0]`
			`}`
			`if size > 2 {`
			`if r[1] != tokARROW {`
			`return nil, fmt.Errorf("missing '%s' in rule: %s", tokARROW, rule)`
			`}`
			`target = r[2]`
			`}`
			`}`
			`return &Link{`
refractor(aa): rename base struct from RuleBase to Base 2024-06-25 20:50:27 +02:00			`Base: newBase(rule),`
feat(aa): add rule constructors from internal parser. 2024-06-20 00:22:49 +02:00			`Qualifier: q,`
			`Owner: owner,`
			`Subset: subset,`
			`Path: path,`
			`Target: target,`
			`}, nil`
			`}`

feat(aa): add the link rule. 2024-05-25 22:56:28 +02:00			`func newLinkFromLog(log map[string]string) Rule {`
			`return &Link{`
refractor(aa): rename base struct from RuleBase to Base 2024-06-25 20:50:27 +02:00			`Base: newBaseFromLog(log),`
feat(aa): add the link rule. 2024-05-25 22:56:28 +02:00			`Qualifier: newQualifierFromLog(log),`
			`Owner: isOwner(log),`
			`Path: log["name"],`
			`Target: log["target"],`
			`}`
			`}`
feat(aa): rewrite the toAccess function to parse, convert and verify the access values. 2024-05-25 23:14:43 +02:00
refractor(aa): ensure methods order in rules definitions. 2024-06-25 20:56:36 +02:00			`func (r *Link) Kind() Kind {`
			`return LINK`
			`}`

chore(aa): minor cosmetic of the rule interface. 2024-06-27 19:45:32 +02:00			`func (r *Link) Constraint() Constraint {`
			`return BlockRule`
refractor(aa): ensure methods order in rules definitions. 2024-06-25 20:56:36 +02:00			`}`

			`func (r *Link) String() string {`
			`return renderTemplate(r.Kind(), r)`
			`}`

feat(aa): add initial profile validation structure. 2024-05-25 23:36:39 +02:00			`func (r *Link) Validate() error {`
			`return nil`
			`}`

feat(aa): rule interface: replace less & equal by the compare method. - set a new alphabet order to sort AARE based string. - unify compare function for all rules - handle some special sort order, eg: base include 2024-06-19 19:34:58 +02:00			`func (r *Link) Compare(other Rule) int {`
feat(aa): add the link rule. 2024-05-25 22:56:28 +02:00			`o, _ := other.(*Link)`
feat(aa): rule interface: replace less & equal by the compare method. - set a new alphabet order to sort AARE based string. - unify compare function for all rules - handle some special sort order, eg: base include 2024-06-19 19:34:58 +02:00
			`if res := compare(r.Owner, o.Owner); res != 0 {`
			`return res`
feat(aa): add the link rule. 2024-05-25 22:56:28 +02:00			`}`
feat(aa): rule interface: replace less & equal by the compare method. - set a new alphabet order to sort AARE based string. - unify compare function for all rules - handle some special sort order, eg: base include 2024-06-19 19:34:58 +02:00			`if res := compare(r.Path, o.Path); res != 0 {`
			`return res`
feat(aa): add the link rule. 2024-05-25 22:56:28 +02:00			`}`
feat(aa): rule interface: replace less & equal by the compare method. - set a new alphabet order to sort AARE based string. - unify compare function for all rules - handle some special sort order, eg: base include 2024-06-19 19:34:58 +02:00			`if res := compare(r.Target, o.Target); res != 0 {`
			`return res`
chore(aa): cleanup. 2024-05-28 19:22:14 +02:00			`}`
feat(aa): rule interface: replace less & equal by the compare method. - set a new alphabet order to sort AARE based string. - unify compare function for all rules - handle some special sort order, eg: base include 2024-06-19 19:34:58 +02:00			`if res := compare(r.Subset, o.Subset); res != 0 {`
			`return res`
feat(aa): add the link rule. 2024-05-25 22:56:28 +02:00			`}`
feat(aa): rule interface: replace less & equal by the compare method. - set a new alphabet order to sort AARE based string. - unify compare function for all rules - handle some special sort order, eg: base include 2024-06-19 19:34:58 +02:00			`return r.Qualifier.Compare(o.Qualifier)`
feat(aa): add the link rule. 2024-05-25 22:56:28 +02:00			`}`
feat(aa): be more verbose on rule.Merge 2024-06-25 21:10:12 +02:00
			`func (r *Link) Merge(other Rule) bool {`
			`return false // Never merge link`
			`}`
feat(aa): add missing methods for the Link struct. 2024-06-29 23:52:31 +02:00
			`func (r *Link) Lengths() []int {`
			`return []int{`
			`r.Qualifier.getLenAudit(),`
			`r.Qualifier.getLenAccess(),`
			`length("owner", r.Owner),`
			`length("subset", r.Subset),`
			`length("", r.Path),`
			`length("", r.Target),`
			`}`
			`}`

			`func (r *Link) setPaddings(max []int) {`
			`r.Paddings = append(r.Qualifier.setPaddings(max[:2]), setPaddings(`
			`max[2:], []string{"owner", "subset", "", ""},`
			`[]any{r.Owner, r.Subset, r.Path, r.Target})...,`
			`)`
			`}`