DockerCLI/vendor/github.com/theupdateframework/notary/tuf/builder.go

733 lines
25 KiB
Go

package tuf
import (
"fmt"
"github.com/docker/go/canonical/json"
"github.com/theupdateframework/notary"
"github.com/theupdateframework/notary/trustpinning"
"github.com/theupdateframework/notary/tuf/data"
"github.com/theupdateframework/notary/tuf/signed"
"github.com/theupdateframework/notary/tuf/utils"
)
// ErrBuildDone is returned when any functions are called on RepoBuilder, and it
// is already finished building
var ErrBuildDone = fmt.Errorf(
"the builder has finished building and cannot accept any more input or produce any more output")
// ErrInvalidBuilderInput is returned when RepoBuilder.Load is called
// with the wrong type of metadata for the state that it's in
type ErrInvalidBuilderInput struct{ msg string }
func (e ErrInvalidBuilderInput) Error() string {
return e.msg
}
// ConsistentInfo is the consistent name and size of a role, or just the name
// of the role and a -1 if no file metadata for the role is known
type ConsistentInfo struct {
RoleName data.RoleName
fileMeta data.FileMeta
}
// ChecksumKnown determines whether or not we know enough to provide a size and
// consistent name
func (c ConsistentInfo) ChecksumKnown() bool {
// empty hash, no size : this is the zero value
return len(c.fileMeta.Hashes) > 0 || c.fileMeta.Length != 0
}
// ConsistentName returns the consistent name (rolename.sha256) for the role
// given this consistent information
func (c ConsistentInfo) ConsistentName() string {
return utils.ConsistentName(c.RoleName.String(), c.fileMeta.Hashes[notary.SHA256])
}
// Length returns the expected length of the role as per this consistent
// information - if no checksum information is known, the size is -1.
func (c ConsistentInfo) Length() int64 {
if c.ChecksumKnown() {
return c.fileMeta.Length
}
return -1
}
// RepoBuilder is an interface for an object which builds a tuf.Repo
type RepoBuilder interface {
Load(roleName data.RoleName, content []byte, minVersion int, allowExpired bool) error
LoadRootForUpdate(content []byte, minVersion int, isFinal bool) error
GenerateSnapshot(prev *data.SignedSnapshot) ([]byte, int, error)
GenerateTimestamp(prev *data.SignedTimestamp) ([]byte, int, error)
Finish() (*Repo, *Repo, error)
BootstrapNewBuilder() RepoBuilder
BootstrapNewBuilderWithNewTrustpin(trustpin trustpinning.TrustPinConfig) RepoBuilder
// informative functions
IsLoaded(roleName data.RoleName) bool
GetLoadedVersion(roleName data.RoleName) int
GetConsistentInfo(roleName data.RoleName) ConsistentInfo
}
// finishedBuilder refuses any more input or output
type finishedBuilder struct{}
func (f finishedBuilder) Load(roleName data.RoleName, content []byte, minVersion int, allowExpired bool) error {
return ErrBuildDone
}
func (f finishedBuilder) LoadRootForUpdate(content []byte, minVersion int, isFinal bool) error {
return ErrBuildDone
}
func (f finishedBuilder) GenerateSnapshot(prev *data.SignedSnapshot) ([]byte, int, error) {
return nil, 0, ErrBuildDone
}
func (f finishedBuilder) GenerateTimestamp(prev *data.SignedTimestamp) ([]byte, int, error) {
return nil, 0, ErrBuildDone
}
func (f finishedBuilder) Finish() (*Repo, *Repo, error) { return nil, nil, ErrBuildDone }
func (f finishedBuilder) BootstrapNewBuilder() RepoBuilder { return f }
func (f finishedBuilder) BootstrapNewBuilderWithNewTrustpin(trustpin trustpinning.TrustPinConfig) RepoBuilder {
return f
}
func (f finishedBuilder) IsLoaded(roleName data.RoleName) bool { return false }
func (f finishedBuilder) GetLoadedVersion(roleName data.RoleName) int { return 0 }
func (f finishedBuilder) GetConsistentInfo(roleName data.RoleName) ConsistentInfo {
return ConsistentInfo{RoleName: roleName}
}
// NewRepoBuilder is the only way to get a pre-built RepoBuilder
func NewRepoBuilder(gun data.GUN, cs signed.CryptoService, trustpin trustpinning.TrustPinConfig) RepoBuilder {
return NewBuilderFromRepo(gun, NewRepo(cs), trustpin)
}
// NewBuilderFromRepo allows us to bootstrap a builder given existing repo data.
// YOU PROBABLY SHOULDN'T BE USING THIS OUTSIDE OF TESTING CODE!!!
func NewBuilderFromRepo(gun data.GUN, repo *Repo, trustpin trustpinning.TrustPinConfig) RepoBuilder {
return &repoBuilderWrapper{
RepoBuilder: &repoBuilder{
repo: repo,
invalidRoles: NewRepo(nil),
gun: gun,
trustpin: trustpin,
loadedNotChecksummed: make(map[data.RoleName][]byte),
},
}
}
// repoBuilderWrapper embeds a repoBuilder, but once Finish is called, swaps
// the embed out with a finishedBuilder
type repoBuilderWrapper struct {
RepoBuilder
}
func (rbw *repoBuilderWrapper) Finish() (*Repo, *Repo, error) {
switch rbw.RepoBuilder.(type) {
case finishedBuilder:
return rbw.RepoBuilder.Finish()
default:
old := rbw.RepoBuilder
rbw.RepoBuilder = finishedBuilder{}
return old.Finish()
}
}
// repoBuilder actually builds a tuf.Repo
type repoBuilder struct {
repo *Repo
invalidRoles *Repo
// needed for root trust pininng verification
gun data.GUN
trustpin trustpinning.TrustPinConfig
// in case we load root and/or targets before snapshot and timestamp (
// or snapshot and not timestamp), so we know what to verify when the
// data with checksums come in
loadedNotChecksummed map[data.RoleName][]byte
// bootstrapped values to validate a new root
prevRoot *data.SignedRoot
bootstrappedRootChecksum *data.FileMeta
// for bootstrapping the next builder
nextRootChecksum *data.FileMeta
}
func (rb *repoBuilder) Finish() (*Repo, *Repo, error) {
return rb.repo, rb.invalidRoles, nil
}
func (rb *repoBuilder) BootstrapNewBuilder() RepoBuilder {
return &repoBuilderWrapper{RepoBuilder: &repoBuilder{
repo: NewRepo(rb.repo.cryptoService),
invalidRoles: NewRepo(nil),
gun: rb.gun,
loadedNotChecksummed: make(map[data.RoleName][]byte),
trustpin: rb.trustpin,
prevRoot: rb.repo.Root,
bootstrappedRootChecksum: rb.nextRootChecksum,
}}
}
func (rb *repoBuilder) BootstrapNewBuilderWithNewTrustpin(trustpin trustpinning.TrustPinConfig) RepoBuilder {
return &repoBuilderWrapper{RepoBuilder: &repoBuilder{
repo: NewRepo(rb.repo.cryptoService),
gun: rb.gun,
loadedNotChecksummed: make(map[data.RoleName][]byte),
trustpin: trustpin,
prevRoot: rb.repo.Root,
bootstrappedRootChecksum: rb.nextRootChecksum,
}}
}
// IsLoaded returns whether a particular role has already been loaded
func (rb *repoBuilder) IsLoaded(roleName data.RoleName) bool {
switch roleName {
case data.CanonicalRootRole:
return rb.repo.Root != nil
case data.CanonicalSnapshotRole:
return rb.repo.Snapshot != nil
case data.CanonicalTimestampRole:
return rb.repo.Timestamp != nil
default:
return rb.repo.Targets[roleName] != nil
}
}
// GetLoadedVersion returns the metadata version, if it is loaded, or 1 (the
// minimum valid version number) otherwise
func (rb *repoBuilder) GetLoadedVersion(roleName data.RoleName) int {
switch {
case roleName == data.CanonicalRootRole && rb.repo.Root != nil:
return rb.repo.Root.Signed.Version
case roleName == data.CanonicalSnapshotRole && rb.repo.Snapshot != nil:
return rb.repo.Snapshot.Signed.Version
case roleName == data.CanonicalTimestampRole && rb.repo.Timestamp != nil:
return rb.repo.Timestamp.Signed.Version
default:
if tgts, ok := rb.repo.Targets[roleName]; ok {
return tgts.Signed.Version
}
}
return 1
}
// GetConsistentInfo returns the consistent name and size of a role, if it is known,
// otherwise just the rolename and a -1 for size (both of which are inside a
// ConsistentInfo object)
func (rb *repoBuilder) GetConsistentInfo(roleName data.RoleName) ConsistentInfo {
info := ConsistentInfo{RoleName: roleName} // starts out with unknown filemeta
switch roleName {
case data.CanonicalTimestampRole:
// we do not want to get a consistent timestamp, but we do want to
// limit its size
info.fileMeta.Length = notary.MaxTimestampSize
case data.CanonicalSnapshotRole:
if rb.repo.Timestamp != nil {
info.fileMeta = rb.repo.Timestamp.Signed.Meta[roleName.String()]
}
case data.CanonicalRootRole:
switch {
case rb.bootstrappedRootChecksum != nil:
info.fileMeta = *rb.bootstrappedRootChecksum
case rb.repo.Snapshot != nil:
info.fileMeta = rb.repo.Snapshot.Signed.Meta[roleName.String()]
}
default:
if rb.repo.Snapshot != nil {
info.fileMeta = rb.repo.Snapshot.Signed.Meta[roleName.String()]
}
}
return info
}
func (rb *repoBuilder) Load(roleName data.RoleName, content []byte, minVersion int, allowExpired bool) error {
return rb.loadOptions(roleName, content, minVersion, allowExpired, false, false)
}
// LoadRootForUpdate adds additional flags for updating the root.json file
func (rb *repoBuilder) LoadRootForUpdate(content []byte, minVersion int, isFinal bool) error {
if err := rb.loadOptions(data.CanonicalRootRole, content, minVersion, !isFinal, !isFinal, true); err != nil {
return err
}
if !isFinal {
rb.prevRoot = rb.repo.Root
}
return nil
}
// loadOptions adds additional flags that should only be used for updating the root.json
func (rb *repoBuilder) loadOptions(roleName data.RoleName, content []byte, minVersion int, allowExpired, skipChecksum, allowLoaded bool) error {
if !data.ValidRole(roleName) {
return ErrInvalidBuilderInput{msg: fmt.Sprintf("%s is an invalid role", roleName)}
}
if !allowLoaded && rb.IsLoaded(roleName) {
return ErrInvalidBuilderInput{msg: fmt.Sprintf("%s has already been loaded", roleName)}
}
var err error
switch roleName {
case data.CanonicalRootRole:
break
case data.CanonicalTimestampRole, data.CanonicalSnapshotRole, data.CanonicalTargetsRole:
err = rb.checkPrereqsLoaded([]data.RoleName{data.CanonicalRootRole})
default: // delegations
err = rb.checkPrereqsLoaded([]data.RoleName{data.CanonicalRootRole, data.CanonicalTargetsRole})
}
if err != nil {
return err
}
switch roleName {
case data.CanonicalRootRole:
return rb.loadRoot(content, minVersion, allowExpired, skipChecksum)
case data.CanonicalSnapshotRole:
return rb.loadSnapshot(content, minVersion, allowExpired)
case data.CanonicalTimestampRole:
return rb.loadTimestamp(content, minVersion, allowExpired)
case data.CanonicalTargetsRole:
return rb.loadTargets(content, minVersion, allowExpired)
default:
return rb.loadDelegation(roleName, content, minVersion, allowExpired)
}
}
func (rb *repoBuilder) checkPrereqsLoaded(prereqRoles []data.RoleName) error {
for _, req := range prereqRoles {
if !rb.IsLoaded(req) {
return ErrInvalidBuilderInput{msg: fmt.Sprintf("%s must be loaded first", req)}
}
}
return nil
}
// GenerateSnapshot generates a new snapshot given a previous (optional) snapshot
// We can't just load the previous snapshot, because it may have been signed by a different
// snapshot key (maybe from a previous root version). Note that we need the root role and
// targets role to be loaded, because we need to generate metadata for both (and we need
// the root to be loaded so we can get the snapshot role to sign with)
func (rb *repoBuilder) GenerateSnapshot(prev *data.SignedSnapshot) ([]byte, int, error) {
switch {
case rb.repo.cryptoService == nil:
return nil, 0, ErrInvalidBuilderInput{msg: "cannot generate snapshot without a cryptoservice"}
case rb.IsLoaded(data.CanonicalSnapshotRole):
return nil, 0, ErrInvalidBuilderInput{msg: "snapshot has already been loaded"}
case rb.IsLoaded(data.CanonicalTimestampRole):
return nil, 0, ErrInvalidBuilderInput{msg: "cannot generate snapshot if timestamp has already been loaded"}
}
if err := rb.checkPrereqsLoaded([]data.RoleName{data.CanonicalRootRole}); err != nil {
return nil, 0, err
}
// If there is no previous snapshot, we need to generate one, and so the targets must
// have already been loaded. Otherwise, so long as the previous snapshot structure is
// valid (it has a targets meta), we're good.
switch prev {
case nil:
if err := rb.checkPrereqsLoaded([]data.RoleName{data.CanonicalTargetsRole}); err != nil {
return nil, 0, err
}
if err := rb.repo.InitSnapshot(); err != nil {
rb.repo.Snapshot = nil
return nil, 0, err
}
default:
if err := data.IsValidSnapshotStructure(prev.Signed); err != nil {
return nil, 0, err
}
rb.repo.Snapshot = prev
}
sgnd, err := rb.repo.SignSnapshot(data.DefaultExpires(data.CanonicalSnapshotRole))
if err != nil {
rb.repo.Snapshot = nil
return nil, 0, err
}
sgndJSON, err := json.Marshal(sgnd)
if err != nil {
rb.repo.Snapshot = nil
return nil, 0, err
}
// loadedNotChecksummed should currently contain the root awaiting checksumming,
// since it has to have been loaded. Since the snapshot was generated using
// the root and targets data (there may not be any) that have been loaded,
// remove all of them from rb.loadedNotChecksummed
for tgtName := range rb.repo.Targets {
delete(rb.loadedNotChecksummed, data.RoleName(tgtName))
}
delete(rb.loadedNotChecksummed, data.CanonicalRootRole)
// The timestamp can't have been loaded yet, so we want to cache the snapshot
// bytes so we can validate the checksum when a timestamp gets generated or
// loaded later.
rb.loadedNotChecksummed[data.CanonicalSnapshotRole] = sgndJSON
return sgndJSON, rb.repo.Snapshot.Signed.Version, nil
}
// GenerateTimestamp generates a new timestamp given a previous (optional) timestamp
// We can't just load the previous timestamp, because it may have been signed by a different
// timestamp key (maybe from a previous root version)
func (rb *repoBuilder) GenerateTimestamp(prev *data.SignedTimestamp) ([]byte, int, error) {
switch {
case rb.repo.cryptoService == nil:
return nil, 0, ErrInvalidBuilderInput{msg: "cannot generate timestamp without a cryptoservice"}
case rb.IsLoaded(data.CanonicalTimestampRole):
return nil, 0, ErrInvalidBuilderInput{msg: "timestamp has already been loaded"}
}
// SignTimestamp always serializes the loaded snapshot and signs in the data, so we must always
// have the snapshot loaded first
if err := rb.checkPrereqsLoaded([]data.RoleName{data.CanonicalRootRole, data.CanonicalSnapshotRole}); err != nil {
return nil, 0, err
}
switch prev {
case nil:
if err := rb.repo.InitTimestamp(); err != nil {
rb.repo.Timestamp = nil
return nil, 0, err
}
default:
if err := data.IsValidTimestampStructure(prev.Signed); err != nil {
return nil, 0, err
}
rb.repo.Timestamp = prev
}
sgnd, err := rb.repo.SignTimestamp(data.DefaultExpires(data.CanonicalTimestampRole))
if err != nil {
rb.repo.Timestamp = nil
return nil, 0, err
}
sgndJSON, err := json.Marshal(sgnd)
if err != nil {
rb.repo.Timestamp = nil
return nil, 0, err
}
// The snapshot should have been loaded (and not checksummed, since a timestamp
// cannot have been loaded), so it is awaiting checksumming. Since this
// timestamp was generated using the snapshot awaiting checksumming, we can
// remove it from rb.loadedNotChecksummed. There should be no other items
// awaiting checksumming now since loading/generating a snapshot should have
// cleared out everything else in `loadNotChecksummed`.
delete(rb.loadedNotChecksummed, data.CanonicalSnapshotRole)
return sgndJSON, rb.repo.Timestamp.Signed.Version, nil
}
// loadRoot loads a root if one has not been loaded
func (rb *repoBuilder) loadRoot(content []byte, minVersion int, allowExpired, skipChecksum bool) error {
roleName := data.CanonicalRootRole
signedObj, err := rb.bytesToSigned(content, data.CanonicalRootRole, skipChecksum)
if err != nil {
return err
}
// ValidateRoot validates against the previous root's role, as well as validates that the root
// itself is self-consistent with its own signatures and thresholds.
// This assumes that ValidateRoot calls data.RootFromSigned, which validates
// the metadata, rather than just unmarshalling signedObject into a SignedRoot object itself.
signedRoot, err := trustpinning.ValidateRoot(rb.prevRoot, signedObj, rb.gun, rb.trustpin)
if err != nil {
return err
}
if err := signed.VerifyVersion(&(signedRoot.Signed.SignedCommon), minVersion); err != nil {
return err
}
if !allowExpired { // check must go at the end because all other validation should pass
if err := signed.VerifyExpiry(&(signedRoot.Signed.SignedCommon), roleName); err != nil {
return err
}
}
rootRole, err := signedRoot.BuildBaseRole(data.CanonicalRootRole)
if err != nil { // this should never happen since the root has been validated
return err
}
rb.repo.Root = signedRoot
rb.repo.originalRootRole = rootRole
return nil
}
func (rb *repoBuilder) loadTimestamp(content []byte, minVersion int, allowExpired bool) error {
roleName := data.CanonicalTimestampRole
timestampRole, err := rb.repo.Root.BuildBaseRole(roleName)
if err != nil { // this should never happen, since it's already been validated
return err
}
signedObj, err := rb.bytesToSignedAndValidateSigs(timestampRole, content)
if err != nil {
return err
}
signedTimestamp, err := data.TimestampFromSigned(signedObj)
if err != nil {
return err
}
if err := signed.VerifyVersion(&(signedTimestamp.Signed.SignedCommon), minVersion); err != nil {
return err
}
if !allowExpired { // check must go at the end because all other validation should pass
if err := signed.VerifyExpiry(&(signedTimestamp.Signed.SignedCommon), roleName); err != nil {
return err
}
}
if err := rb.validateChecksumsFromTimestamp(signedTimestamp); err != nil {
return err
}
rb.repo.Timestamp = signedTimestamp
return nil
}
func (rb *repoBuilder) loadSnapshot(content []byte, minVersion int, allowExpired bool) error {
roleName := data.CanonicalSnapshotRole
snapshotRole, err := rb.repo.Root.BuildBaseRole(roleName)
if err != nil { // this should never happen, since it's already been validated
return err
}
signedObj, err := rb.bytesToSignedAndValidateSigs(snapshotRole, content)
if err != nil {
return err
}
signedSnapshot, err := data.SnapshotFromSigned(signedObj)
if err != nil {
return err
}
if err := signed.VerifyVersion(&(signedSnapshot.Signed.SignedCommon), minVersion); err != nil {
return err
}
if !allowExpired { // check must go at the end because all other validation should pass
if err := signed.VerifyExpiry(&(signedSnapshot.Signed.SignedCommon), roleName); err != nil {
return err
}
}
// at this point, the only thing left to validate is existing checksums - we can use
// this snapshot to bootstrap the next builder if needed - and we don't need to do
// the 2-value assignment since we've already validated the signedSnapshot, which MUST
// have root metadata
rootMeta := signedSnapshot.Signed.Meta[data.CanonicalRootRole.String()]
rb.nextRootChecksum = &rootMeta
if err := rb.validateChecksumsFromSnapshot(signedSnapshot); err != nil {
return err
}
rb.repo.Snapshot = signedSnapshot
return nil
}
func (rb *repoBuilder) loadTargets(content []byte, minVersion int, allowExpired bool) error {
roleName := data.CanonicalTargetsRole
targetsRole, err := rb.repo.Root.BuildBaseRole(roleName)
if err != nil { // this should never happen, since it's already been validated
return err
}
signedObj, err := rb.bytesToSignedAndValidateSigs(targetsRole, content)
if err != nil {
return err
}
signedTargets, err := data.TargetsFromSigned(signedObj, roleName)
if err != nil {
return err
}
if err := signed.VerifyVersion(&(signedTargets.Signed.SignedCommon), minVersion); err != nil {
return err
}
if !allowExpired { // check must go at the end because all other validation should pass
if err := signed.VerifyExpiry(&(signedTargets.Signed.SignedCommon), roleName); err != nil {
return err
}
}
signedTargets.Signatures = signedObj.Signatures
rb.repo.Targets[roleName] = signedTargets
return nil
}
func (rb *repoBuilder) loadDelegation(roleName data.RoleName, content []byte, minVersion int, allowExpired bool) error {
delegationRole, err := rb.repo.GetDelegationRole(roleName)
if err != nil {
return err
}
// bytesToSigned checks checksum
signedObj, err := rb.bytesToSigned(content, roleName, false)
if err != nil {
return err
}
signedTargets, err := data.TargetsFromSigned(signedObj, roleName)
if err != nil {
return err
}
if err := signed.VerifyVersion(&(signedTargets.Signed.SignedCommon), minVersion); err != nil {
// don't capture in invalidRoles because the role we received is a rollback
return err
}
// verify signature
if err := signed.VerifySignatures(signedObj, delegationRole.BaseRole); err != nil {
rb.invalidRoles.Targets[roleName] = signedTargets
return err
}
if !allowExpired { // check must go at the end because all other validation should pass
if err := signed.VerifyExpiry(&(signedTargets.Signed.SignedCommon), roleName); err != nil {
rb.invalidRoles.Targets[roleName] = signedTargets
return err
}
}
signedTargets.Signatures = signedObj.Signatures
rb.repo.Targets[roleName] = signedTargets
return nil
}
func (rb *repoBuilder) validateChecksumsFromTimestamp(ts *data.SignedTimestamp) error {
sn, ok := rb.loadedNotChecksummed[data.CanonicalSnapshotRole]
if ok {
// by this point, the SignedTimestamp has been validated so it must have a snapshot hash
snMeta := ts.Signed.Meta[data.CanonicalSnapshotRole.String()].Hashes
if err := data.CheckHashes(sn, data.CanonicalSnapshotRole.String(), snMeta); err != nil {
return err
}
delete(rb.loadedNotChecksummed, data.CanonicalSnapshotRole)
}
return nil
}
func (rb *repoBuilder) validateChecksumsFromSnapshot(sn *data.SignedSnapshot) error {
var goodRoles []data.RoleName
for roleName, loadedBytes := range rb.loadedNotChecksummed {
switch roleName {
case data.CanonicalSnapshotRole, data.CanonicalTimestampRole:
break
default:
if err := data.CheckHashes(loadedBytes, roleName.String(), sn.Signed.Meta[roleName.String()].Hashes); err != nil {
return err
}
goodRoles = append(goodRoles, roleName)
}
}
for _, roleName := range goodRoles {
delete(rb.loadedNotChecksummed, roleName)
}
return nil
}
func (rb *repoBuilder) validateChecksumFor(content []byte, roleName data.RoleName) error {
// validate the bootstrap checksum for root, if provided
if roleName == data.CanonicalRootRole && rb.bootstrappedRootChecksum != nil {
if err := data.CheckHashes(content, roleName.String(), rb.bootstrappedRootChecksum.Hashes); err != nil {
return err
}
}
// but we also want to cache the root content, so that when the snapshot is
// loaded it is validated (to make sure everything in the repo is self-consistent)
checksums := rb.getChecksumsFor(roleName)
if checksums != nil { // as opposed to empty, in which case hash check should fail
if err := data.CheckHashes(content, roleName.String(), *checksums); err != nil {
return err
}
} else if roleName != data.CanonicalTimestampRole {
// timestamp is the only role which does not need to be checksummed, but
// for everything else, cache the contents in the list of roles that have
// not been checksummed by the snapshot/timestamp yet
rb.loadedNotChecksummed[roleName] = content
}
return nil
}
// Checksums the given bytes, and if they validate, convert to a data.Signed object.
// If a checksums are nil (as opposed to empty), adds the bytes to the list of roles that
// haven't been checksummed (unless it's a timestamp, which has no checksum reference).
func (rb *repoBuilder) bytesToSigned(content []byte, roleName data.RoleName, skipChecksum bool) (*data.Signed, error) {
if !skipChecksum {
if err := rb.validateChecksumFor(content, roleName); err != nil {
return nil, err
}
}
// unmarshal to signed
signedObj := &data.Signed{}
if err := json.Unmarshal(content, signedObj); err != nil {
return nil, err
}
return signedObj, nil
}
func (rb *repoBuilder) bytesToSignedAndValidateSigs(role data.BaseRole, content []byte) (*data.Signed, error) {
signedObj, err := rb.bytesToSigned(content, role.Name, false)
if err != nil {
return nil, err
}
// verify signature
if err := signed.VerifySignatures(signedObj, role); err != nil {
return nil, err
}
return signedObj, nil
}
// If the checksum reference (the loaded timestamp for the snapshot role, and
// the loaded snapshot for every other role except timestamp and snapshot) is nil,
// then return nil for the checksums, meaning that the checksum is not yet
// available. If the checksum reference *is* loaded, then always returns the
// Hashes object for the given role - if it doesn't exist, returns an empty Hash
// object (against which any checksum validation would fail).
func (rb *repoBuilder) getChecksumsFor(role data.RoleName) *data.Hashes {
var hashes data.Hashes
switch role {
case data.CanonicalTimestampRole:
return nil
case data.CanonicalSnapshotRole:
if rb.repo.Timestamp == nil {
return nil
}
hashes = rb.repo.Timestamp.Signed.Meta[data.CanonicalSnapshotRole.String()].Hashes
default:
if rb.repo.Snapshot == nil {
return nil
}
hashes = rb.repo.Snapshot.Signed.Meta[role.String()].Hashes
}
return &hashes
}