DockerCLI/vendor/github.com/theupdateframework/notary/tuf/data/roles.go

340 lines
8.6 KiB
Go

package data
import (
"fmt"
"path"
"regexp"
"strings"
"github.com/sirupsen/logrus"
)
// Canonical base role names
var (
CanonicalRootRole RoleName = "root"
CanonicalTargetsRole RoleName = "targets"
CanonicalSnapshotRole RoleName = "snapshot"
CanonicalTimestampRole RoleName = "timestamp"
)
// BaseRoles is an easy to iterate list of the top level
// roles.
var BaseRoles = []RoleName{
CanonicalRootRole,
CanonicalTargetsRole,
CanonicalSnapshotRole,
CanonicalTimestampRole,
}
// Regex for validating delegation names
var delegationRegexp = regexp.MustCompile("^[-a-z0-9_/]+$")
// ErrNoSuchRole indicates the roles doesn't exist
type ErrNoSuchRole struct {
Role RoleName
}
func (e ErrNoSuchRole) Error() string {
return fmt.Sprintf("role does not exist: %s", e.Role)
}
// ErrInvalidRole represents an error regarding a role. Typically
// something like a role for which sone of the public keys were
// not found in the TUF repo.
type ErrInvalidRole struct {
Role RoleName
Reason string
}
func (e ErrInvalidRole) Error() string {
if e.Reason != "" {
return fmt.Sprintf("tuf: invalid role %s. %s", e.Role, e.Reason)
}
return fmt.Sprintf("tuf: invalid role %s.", e.Role)
}
// ValidRole only determines the name is semantically
// correct. For target delegated roles, it does NOT check
// the the appropriate parent roles exist.
func ValidRole(name RoleName) bool {
if IsDelegation(name) {
return true
}
for _, v := range BaseRoles {
if name == v {
return true
}
}
return false
}
// IsDelegation checks if the role is a delegation or a root role
func IsDelegation(role RoleName) bool {
strRole := role.String()
targetsBase := CanonicalTargetsRole + "/"
whitelistedChars := delegationRegexp.MatchString(strRole)
// Limit size of full role string to 255 chars for db column size limit
correctLength := len(role) < 256
// Removes ., .., extra slashes, and trailing slash
isClean := path.Clean(strRole) == strRole
return strings.HasPrefix(strRole, targetsBase.String()) &&
whitelistedChars &&
correctLength &&
isClean
}
// IsBaseRole checks if the role is a base role
func IsBaseRole(role RoleName) bool {
for _, baseRole := range BaseRoles {
if role == baseRole {
return true
}
}
return false
}
// IsWildDelegation determines if a role represents a valid wildcard delegation
// path, i.e. targets/*, targets/foo/*.
// The wildcard may only appear as the final part of the delegation and must
// be a whole segment, i.e. targets/foo* is not a valid wildcard delegation.
func IsWildDelegation(role RoleName) bool {
if path.Clean(role.String()) != role.String() {
return false
}
base := role.Parent()
if !(IsDelegation(base) || base == CanonicalTargetsRole) {
return false
}
return role[len(role)-2:] == "/*"
}
// BaseRole is an internal representation of a root/targets/snapshot/timestamp role, with its public keys included
type BaseRole struct {
Keys map[string]PublicKey
Name RoleName
Threshold int
}
// NewBaseRole creates a new BaseRole object with the provided parameters
func NewBaseRole(name RoleName, threshold int, keys ...PublicKey) BaseRole {
r := BaseRole{
Name: name,
Threshold: threshold,
Keys: make(map[string]PublicKey),
}
for _, k := range keys {
r.Keys[k.ID()] = k
}
return r
}
// ListKeys retrieves the public keys valid for this role
func (b BaseRole) ListKeys() KeyList {
return listKeys(b.Keys)
}
// ListKeyIDs retrieves the list of key IDs valid for this role
func (b BaseRole) ListKeyIDs() []string {
return listKeyIDs(b.Keys)
}
// Equals returns whether this BaseRole equals another BaseRole
func (b BaseRole) Equals(o BaseRole) bool {
if b.Threshold != o.Threshold || b.Name != o.Name || len(b.Keys) != len(o.Keys) {
return false
}
for keyID, key := range b.Keys {
oKey, ok := o.Keys[keyID]
if !ok || key.ID() != oKey.ID() {
return false
}
}
return true
}
// DelegationRole is an internal representation of a delegation role, with its public keys included
type DelegationRole struct {
BaseRole
Paths []string
}
func listKeys(keyMap map[string]PublicKey) KeyList {
keys := KeyList{}
for _, key := range keyMap {
keys = append(keys, key)
}
return keys
}
func listKeyIDs(keyMap map[string]PublicKey) []string {
keyIDs := []string{}
for id := range keyMap {
keyIDs = append(keyIDs, id)
}
return keyIDs
}
// Restrict restricts the paths and path hash prefixes for the passed in delegation role,
// returning a copy of the role with validated paths as if it was a direct child
func (d DelegationRole) Restrict(child DelegationRole) (DelegationRole, error) {
if !d.IsParentOf(child) {
return DelegationRole{}, fmt.Errorf("%s is not a parent of %s", d.Name, child.Name)
}
return DelegationRole{
BaseRole: BaseRole{
Keys: child.Keys,
Name: child.Name,
Threshold: child.Threshold,
},
Paths: RestrictDelegationPathPrefixes(d.Paths, child.Paths),
}, nil
}
// IsParentOf returns whether the passed in delegation role is the direct child of this role,
// determined by delegation name.
// Ex: targets/a is a direct parent of targets/a/b, but targets/a is not a direct parent of targets/a/b/c
func (d DelegationRole) IsParentOf(child DelegationRole) bool {
return path.Dir(child.Name.String()) == d.Name.String()
}
// CheckPaths checks if a given path is valid for the role
func (d DelegationRole) CheckPaths(path string) bool {
return checkPaths(path, d.Paths)
}
func checkPaths(path string, permitted []string) bool {
for _, p := range permitted {
if strings.HasPrefix(path, p) {
return true
}
}
return false
}
// RestrictDelegationPathPrefixes returns the list of valid delegationPaths that are prefixed by parentPaths
func RestrictDelegationPathPrefixes(parentPaths, delegationPaths []string) []string {
validPaths := []string{}
if len(delegationPaths) == 0 {
return validPaths
}
// Validate each individual delegation path
for _, delgPath := range delegationPaths {
isPrefixed := false
for _, parentPath := range parentPaths {
if strings.HasPrefix(delgPath, parentPath) {
isPrefixed = true
break
}
}
// If the delegation path did not match prefix against any parent path, it is not valid
if isPrefixed {
validPaths = append(validPaths, delgPath)
}
}
return validPaths
}
// RootRole is a cut down role as it appears in the root.json
// Eventually should only be used for immediately before and after serialization/deserialization
type RootRole struct {
KeyIDs []string `json:"keyids"`
Threshold int `json:"threshold"`
}
// Role is a more verbose role as they appear in targets delegations
// Eventually should only be used for immediately before and after serialization/deserialization
type Role struct {
RootRole
Name RoleName `json:"name"`
Paths []string `json:"paths,omitempty"`
}
// NewRole creates a new Role object from the given parameters
func NewRole(name RoleName, threshold int, keyIDs, paths []string) (*Role, error) {
if IsDelegation(name) {
if len(paths) == 0 {
logrus.Debugf("role %s with no Paths will never be able to publish content until one or more are added", name)
}
}
if threshold < 1 {
return nil, ErrInvalidRole{Role: name}
}
if !ValidRole(name) {
return nil, ErrInvalidRole{Role: name}
}
return &Role{
RootRole: RootRole{
KeyIDs: keyIDs,
Threshold: threshold,
},
Name: name,
Paths: paths,
}, nil
}
// CheckPaths checks if a given path is valid for the role
func (r Role) CheckPaths(path string) bool {
return checkPaths(path, r.Paths)
}
// AddKeys merges the ids into the current list of role key ids
func (r *Role) AddKeys(ids []string) {
r.KeyIDs = mergeStrSlices(r.KeyIDs, ids)
}
// AddPaths merges the paths into the current list of role paths
func (r *Role) AddPaths(paths []string) error {
if len(paths) == 0 {
return nil
}
r.Paths = mergeStrSlices(r.Paths, paths)
return nil
}
// RemoveKeys removes the ids from the current list of key ids
func (r *Role) RemoveKeys(ids []string) {
r.KeyIDs = subtractStrSlices(r.KeyIDs, ids)
}
// RemovePaths removes the paths from the current list of role paths
func (r *Role) RemovePaths(paths []string) {
r.Paths = subtractStrSlices(r.Paths, paths)
}
func mergeStrSlices(orig, new []string) []string {
have := make(map[string]bool)
for _, e := range orig {
have[e] = true
}
merged := make([]string, len(orig), len(orig)+len(new))
copy(merged, orig)
for _, e := range new {
if !have[e] {
merged = append(merged, e)
}
}
return merged
}
func subtractStrSlices(orig, remove []string) []string {
kill := make(map[string]bool)
for _, e := range remove {
kill[e] = true
}
var keep []string
for _, e := range orig {
if !kill[e] {
keep = append(keep, e)
}
}
return keep
}