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client.go
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client.go
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//Package client implements everything required for interacting with a Notary repository.
package client
import (
"bytes"
"encoding/json"
"fmt"
"io/ioutil"
"net/http"
"net/url"
"os"
"path/filepath"
"regexp"
"time"
canonicaljson "github.com/docker/go/canonical/json"
"github.com/sirupsen/logrus"
"github.com/theupdateframework/notary"
"github.com/theupdateframework/notary/client/changelist"
"github.com/theupdateframework/notary/cryptoservice"
store "github.com/theupdateframework/notary/storage"
"github.com/theupdateframework/notary/trustpinning"
"github.com/theupdateframework/notary/tuf"
"github.com/theupdateframework/notary/tuf/data"
"github.com/theupdateframework/notary/tuf/signed"
"github.com/theupdateframework/notary/tuf/utils"
)
const (
tufDir = "tuf"
// SignWithAllOldVersions is a sentinel constant for LegacyVersions flag
SignWithAllOldVersions = -1
)
func init() {
data.SetDefaultExpiryTimes(data.NotaryDefaultExpiries)
}
// repository stores all the information needed to operate on a notary repository.
type repository struct {
baseDir string
gun data.GUN
baseURL string
changelist changelist.Changelist
cache store.MetadataStore
remoteStore store.RemoteStore
cryptoService signed.CryptoService
tufRepo *tuf.Repo
invalid *tuf.Repo // known data that was parsable but deemed invalid
roundTrip http.RoundTripper
trustPinning trustpinning.TrustPinConfig
LegacyVersions int // number of versions back to fetch roots to sign with
}
// NewFileCachedRepository is a wrapper for NewRepository that initializes
// a file cache from the provided repository, local config information and a crypto service.
// It also retrieves the remote store associated to the base directory under where all the
// trust files will be stored and the specified GUN.
//
// In case of a nil RoundTripper, a default offline store is used instead.
func NewFileCachedRepository(baseDir string, gun data.GUN, baseURL string, rt http.RoundTripper,
retriever notary.PassRetriever, trustPinning trustpinning.TrustPinConfig) (Repository, error) {
cache, err := store.NewFileStore(
filepath.Join(baseDir, tufDir, filepath.FromSlash(gun.String()), "metadata"),
"json",
)
if err != nil {
return nil, err
}
keyStores, err := getKeyStores(baseDir, retriever)
if err != nil {
return nil, err
}
cryptoService := cryptoservice.NewCryptoService(keyStores...)
remoteStore, err := getRemoteStore(baseURL, gun, rt)
if err != nil {
// baseURL is syntactically invalid
return nil, err
}
cl, err := changelist.NewFileChangelist(filepath.Join(
filepath.Join(baseDir, tufDir, filepath.FromSlash(gun.String()), "changelist"),
))
if err != nil {
return nil, err
}
return NewRepository(baseDir, gun, baseURL, remoteStore, cache, trustPinning, cryptoService, cl)
}
// NewRepository is the base method that returns a new notary repository.
// It takes the base directory under where all the trust files will be stored
// (This is normally defaults to "~/.notary" or "~/.docker/trust" when enabling
// docker content trust).
// It expects an initialized cache. In case of a nil remote store, a default
// offline store is used.
func NewRepository(baseDir string, gun data.GUN, baseURL string, remoteStore store.RemoteStore, cache store.MetadataStore,
trustPinning trustpinning.TrustPinConfig, cryptoService signed.CryptoService, cl changelist.Changelist) (Repository, error) {
// Repo's remote store is either a valid remote store or an OfflineStore
if remoteStore == nil {
remoteStore = store.OfflineStore{}
}
if cache == nil {
return nil, fmt.Errorf("got an invalid cache (nil metadata store)")
}
nRepo := &repository{
gun: gun,
baseURL: baseURL,
baseDir: baseDir,
changelist: cl,
cache: cache,
remoteStore: remoteStore,
cryptoService: cryptoService,
trustPinning: trustPinning,
LegacyVersions: 0, // By default, don't sign with legacy roles
}
return nRepo, nil
}
// GetGUN is a getter for the GUN object from a Repository
func (r *repository) GetGUN() data.GUN {
return r.gun
}
// Target represents a simplified version of the data TUF operates on, so external
// applications don't have to depend on TUF data types.
type Target struct {
Name string // the name of the target
Hashes data.Hashes // the hash of the target
Length int64 // the size in bytes of the target
Custom *canonicaljson.RawMessage // the custom data provided to describe the file at TARGETPATH
}
// TargetWithRole represents a Target that exists in a particular role - this is
// produced by ListTargets and GetTargetByName
type TargetWithRole struct {
Target
Role data.RoleName
}
// NewTarget is a helper method that returns a Target
func NewTarget(targetName, targetPath string, targetCustom *canonicaljson.RawMessage) (*Target, error) {
b, err := ioutil.ReadFile(targetPath)
if err != nil {
return nil, err
}
meta, err := data.NewFileMeta(bytes.NewBuffer(b), data.NotaryDefaultHashes...)
if err != nil {
return nil, err
}
return &Target{Name: targetName, Hashes: meta.Hashes, Length: meta.Length, Custom: targetCustom}, nil
}
// rootCertKey generates the corresponding certificate for the private key given the privKey and repo's GUN
func rootCertKey(gun data.GUN, privKey data.PrivateKey) (data.PublicKey, error) {
// Hard-coded policy: the generated certificate expires in 10 years.
startTime := time.Now()
cert, err := cryptoservice.GenerateCertificate(
privKey, gun, startTime, startTime.Add(notary.Year*10))
if err != nil {
return nil, err
}
x509PublicKey := utils.CertToKey(cert)
if x509PublicKey == nil {
return nil, fmt.Errorf("cannot generate public key from private key with id: %v and algorithm: %v", privKey.ID(), privKey.Algorithm())
}
return x509PublicKey, nil
}
// GetCryptoService is the getter for the repository's CryptoService
func (r *repository) GetCryptoService() signed.CryptoService {
return r.cryptoService
}
// initialize initializes the notary repository with a set of rootkeys, root certificates and roles.
func (r *repository) initialize(rootKeyIDs []string, rootCerts []data.PublicKey, serverManagedRoles ...data.RoleName) error {
// currently we only support server managing timestamps and snapshots, and
// nothing else - timestamps are always managed by the server, and implicit
// (do not have to be passed in as part of `serverManagedRoles`, so that
// the API of Initialize doesn't change).
var serverManagesSnapshot bool
locallyManagedKeys := []data.RoleName{
data.CanonicalTargetsRole,
data.CanonicalSnapshotRole,
// root is also locally managed, but that should have been created
// already
}
remotelyManagedKeys := []data.RoleName{data.CanonicalTimestampRole}
for _, role := range serverManagedRoles {
switch role {
case data.CanonicalTimestampRole:
continue // timestamp is already in the right place
case data.CanonicalSnapshotRole:
// because we put Snapshot last
locallyManagedKeys = []data.RoleName{data.CanonicalTargetsRole}
remotelyManagedKeys = append(
remotelyManagedKeys, data.CanonicalSnapshotRole)
serverManagesSnapshot = true
default:
return ErrInvalidRemoteRole{Role: role}
}
}
// gets valid public keys corresponding to the rootKeyIDs or generate if necessary
var publicKeys []data.PublicKey
var err error
if len(rootCerts) == 0 {
publicKeys, err = r.createNewPublicKeyFromKeyIDs(rootKeyIDs)
} else {
publicKeys, err = r.publicKeysOfKeyIDs(rootKeyIDs, rootCerts)
}
if err != nil {
return err
}
//initialize repo with public keys
rootRole, targetsRole, snapshotRole, timestampRole, err := r.initializeRoles(
publicKeys,
locallyManagedKeys,
remotelyManagedKeys,
)
if err != nil {
return err
}
r.tufRepo = tuf.NewRepo(r.GetCryptoService())
if err := r.tufRepo.InitRoot(
rootRole,
timestampRole,
snapshotRole,
targetsRole,
false,
); err != nil {
logrus.Debug("Error on InitRoot: ", err.Error())
return err
}
if _, err := r.tufRepo.InitTargets(data.CanonicalTargetsRole); err != nil {
logrus.Debug("Error on InitTargets: ", err.Error())
return err
}
if err := r.tufRepo.InitSnapshot(); err != nil {
logrus.Debug("Error on InitSnapshot: ", err.Error())
return err
}
return r.saveMetadata(serverManagesSnapshot)
}
// createNewPublicKeyFromKeyIDs generates a set of public keys corresponding to the given list of
// key IDs existing in the repository's CryptoService.
// the public keys returned are ordered to correspond to the keyIDs
func (r *repository) createNewPublicKeyFromKeyIDs(keyIDs []string) ([]data.PublicKey, error) {
publicKeys := []data.PublicKey{}
privKeys, err := getAllPrivKeys(keyIDs, r.GetCryptoService())
if err != nil {
return nil, err
}
for _, privKey := range privKeys {
rootKey, err := rootCertKey(r.gun, privKey)
if err != nil {
return nil, err
}
publicKeys = append(publicKeys, rootKey)
}
return publicKeys, nil
}
// publicKeysOfKeyIDs confirms that the public key and private keys (by Key IDs) forms valid, strictly ordered key pairs
// (eg. keyIDs[0] must match pubKeys[0] and keyIDs[1] must match certs[1] and so on).
// Or throw error when they mismatch.
func (r *repository) publicKeysOfKeyIDs(keyIDs []string, pubKeys []data.PublicKey) ([]data.PublicKey, error) {
if len(keyIDs) != len(pubKeys) {
err := fmt.Errorf("require matching number of keyIDs and public keys but got %d IDs and %d public keys", len(keyIDs), len(pubKeys))
return nil, err
}
if err := matchKeyIdsWithPubKeys(r, keyIDs, pubKeys); err != nil {
return nil, fmt.Errorf("could not obtain public key from IDs: %v", err)
}
return pubKeys, nil
}
// matchKeyIdsWithPubKeys validates that the private keys (represented by their IDs) and the public keys
// forms matching key pairs
func matchKeyIdsWithPubKeys(r *repository, ids []string, pubKeys []data.PublicKey) error {
for i := 0; i < len(ids); i++ {
privKey, _, err := r.GetCryptoService().GetPrivateKey(ids[i])
if err != nil {
return fmt.Errorf("could not get the private key matching id %v: %v", ids[i], err)
}
pubKey := pubKeys[i]
err = signed.VerifyPublicKeyMatchesPrivateKey(privKey, pubKey)
if err != nil {
return err
}
}
return nil
}
// Initialize creates a new repository by using rootKey as the root Key for the
// TUF repository. The server must be reachable (and is asked to generate a
// timestamp key and possibly other serverManagedRoles), but the created repository
// result is only stored on local disk, not published to the server. To do that,
// use r.Publish() eventually.
func (r *repository) Initialize(rootKeyIDs []string, serverManagedRoles ...data.RoleName) error {
return r.initialize(rootKeyIDs, nil, serverManagedRoles...)
}
type errKeyNotFound struct{}
func (errKeyNotFound) Error() string {
return fmt.Sprintf("cannot find matching private key id")
}
// keyExistsInList returns the id of the private key in ids that matches the public key
// otherwise return empty string
func keyExistsInList(cert data.PublicKey, ids map[string]bool) error {
pubKeyID, err := utils.CanonicalKeyID(cert)
if err != nil {
return fmt.Errorf("failed to obtain the public key id from the given certificate: %v", err)
}
if _, ok := ids[pubKeyID]; ok {
return nil
}
return errKeyNotFound{}
}
// InitializeWithCertificate initializes the repository with root keys and their corresponding certificates
func (r *repository) InitializeWithCertificate(rootKeyIDs []string, rootCerts []data.PublicKey,
serverManagedRoles ...data.RoleName) error {
// If we explicitly pass in certificate(s) but not key, then look keys up using certificate
if len(rootKeyIDs) == 0 && len(rootCerts) != 0 {
rootKeyIDs = []string{}
availableRootKeyIDs := make(map[string]bool)
for _, k := range r.GetCryptoService().ListKeys(data.CanonicalRootRole) {
availableRootKeyIDs[k] = true
}
for _, cert := range rootCerts {
if err := keyExistsInList(cert, availableRootKeyIDs); err != nil {
return fmt.Errorf("error initializing repository with certificate: %v", err)
}
keyID, _ := utils.CanonicalKeyID(cert)
rootKeyIDs = append(rootKeyIDs, keyID)
}
}
return r.initialize(rootKeyIDs, rootCerts, serverManagedRoles...)
}
func (r *repository) initializeRoles(rootKeys []data.PublicKey, localRoles, remoteRoles []data.RoleName) (
root, targets, snapshot, timestamp data.BaseRole, err error) {
root = data.NewBaseRole(
data.CanonicalRootRole,
notary.MinThreshold,
rootKeys...,
)
// we want to create all the local keys first so we don't have to
// make unnecessary network calls
for _, role := range localRoles {
// This is currently hardcoding the keys to ECDSA.
var key data.PublicKey
key, err = r.GetCryptoService().Create(role, r.gun, data.ECDSAKey)
if err != nil {
return
}
switch role {
case data.CanonicalSnapshotRole:
snapshot = data.NewBaseRole(
role,
notary.MinThreshold,
key,
)
case data.CanonicalTargetsRole:
targets = data.NewBaseRole(
role,
notary.MinThreshold,
key,
)
}
}
remote := r.getRemoteStore()
for _, role := range remoteRoles {
// This key is generated by the remote server.
var key data.PublicKey
key, err = getRemoteKey(role, remote)
if err != nil {
return
}
logrus.Debugf("got remote %s %s key with keyID: %s",
role, key.Algorithm(), key.ID())
switch role {
case data.CanonicalSnapshotRole:
snapshot = data.NewBaseRole(
role,
notary.MinThreshold,
key,
)
case data.CanonicalTimestampRole:
timestamp = data.NewBaseRole(
role,
notary.MinThreshold,
key,
)
}
}
return root, targets, snapshot, timestamp, nil
}
// adds a TUF Change template to the given roles
func addChange(cl changelist.Changelist, c changelist.Change, roles ...data.RoleName) error {
if len(roles) == 0 {
roles = []data.RoleName{data.CanonicalTargetsRole}
}
var changes []changelist.Change
for _, role := range roles {
// Ensure we can only add targets to the CanonicalTargetsRole,
// or a Delegation role (which is <CanonicalTargetsRole>/something else)
if role != data.CanonicalTargetsRole && !data.IsDelegation(role) && !data.IsWildDelegation(role) {
return data.ErrInvalidRole{
Role: role,
Reason: "cannot add targets to this role",
}
}
changes = append(changes, changelist.NewTUFChange(
c.Action(),
role,
c.Type(),
c.Path(),
c.Content(),
))
}
for _, c := range changes {
if err := cl.Add(c); err != nil {
return err
}
}
return nil
}
// AddTarget creates new changelist entries to add a target to the given roles
// in the repository when the changelist gets applied at publish time.
// If roles are unspecified, the default role is "targets"
func (r *repository) AddTarget(target *Target, roles ...data.RoleName) error {
if len(target.Hashes) == 0 {
return fmt.Errorf("no hashes specified for target \"%s\"", target.Name)
}
logrus.Debugf("Adding target \"%s\" with sha256 \"%x\" and size %d bytes.\n", target.Name, target.Hashes["sha256"], target.Length)
meta := data.FileMeta{Length: target.Length, Hashes: target.Hashes, Custom: target.Custom}
metaJSON, err := json.Marshal(meta)
if err != nil {
return err
}
template := changelist.NewTUFChange(
changelist.ActionCreate, "", changelist.TypeTargetsTarget,
target.Name, metaJSON)
return addChange(r.changelist, template, roles...)
}
// RemoveTarget creates new changelist entries to remove a target from the given
// roles in the repository when the changelist gets applied at publish time.
// If roles are unspecified, the default role is "target".
func (r *repository) RemoveTarget(targetName string, roles ...data.RoleName) error {
logrus.Debugf("Removing target \"%s\"", targetName)
template := changelist.NewTUFChange(changelist.ActionDelete, "",
changelist.TypeTargetsTarget, targetName, nil)
return addChange(r.changelist, template, roles...)
}
// ListTargets lists all targets for the current repository. The list of
// roles should be passed in order from highest to lowest priority.
//
// IMPORTANT: if you pass a set of roles such as [ "targets/a", "targets/x"
// "targets/a/b" ], even though "targets/a/b" is part of the "targets/a" subtree
// its entries will be strictly shadowed by those in other parts of the "targets/a"
// subtree and also the "targets/x" subtree, as we will defer parsing it until
// we explicitly reach it in our iteration of the provided list of roles.
func (r *repository) ListTargets(roles ...data.RoleName) ([]*TargetWithRole, error) {
if err := r.Update(false); err != nil {
return nil, err
}
if len(roles) == 0 {
roles = []data.RoleName{data.CanonicalTargetsRole}
}
targets := make(map[string]*TargetWithRole)
for _, role := range roles {
// Define an array of roles to skip for this walk (see IMPORTANT comment above)
skipRoles := utils.RoleNameSliceRemove(roles, role)
// Define a visitor function to populate the targets map in priority order
listVisitorFunc := func(tgt *data.SignedTargets, validRole data.DelegationRole) interface{} {
// We found targets so we should try to add them to our targets map
for targetName, targetMeta := range tgt.Signed.Targets {
// Follow the priority by not overriding previously set targets
// and check that this path is valid with this role
if _, ok := targets[targetName]; ok || !validRole.CheckPaths(targetName) {
continue
}
targets[targetName] = &TargetWithRole{
Target: Target{
Name: targetName,
Hashes: targetMeta.Hashes,
Length: targetMeta.Length,
Custom: targetMeta.Custom,
},
Role: validRole.Name,
}
}
return nil
}
r.tufRepo.WalkTargets("", role, listVisitorFunc, skipRoles...)
}
var targetList []*TargetWithRole
for _, v := range targets {
targetList = append(targetList, v)
}
return targetList, nil
}
// GetTargetByName returns a target by the given name. If no roles are passed
// it uses the targets role and does a search of the entire delegation
// graph, finding the first entry in a breadth first search of the delegations.
// If roles are passed, they should be passed in descending priority and
// the target entry found in the subtree of the highest priority role
// will be returned.
// See the IMPORTANT section on ListTargets above. Those roles also apply here.
func (r *repository) GetTargetByName(name string, roles ...data.RoleName) (*TargetWithRole, error) {
if err := r.Update(false); err != nil {
return nil, err
}
if len(roles) == 0 {
roles = append(roles, data.CanonicalTargetsRole)
}
var resultMeta data.FileMeta
var resultRoleName data.RoleName
var foundTarget bool
for _, role := range roles {
// Define an array of roles to skip for this walk (see IMPORTANT comment above)
skipRoles := utils.RoleNameSliceRemove(roles, role)
// Define a visitor function to find the specified target
getTargetVisitorFunc := func(tgt *data.SignedTargets, validRole data.DelegationRole) interface{} {
if tgt == nil {
return nil
}
// We found the target and validated path compatibility in our walk,
// so we should stop our walk and set the resultMeta and resultRoleName variables
if resultMeta, foundTarget = tgt.Signed.Targets[name]; foundTarget {
resultRoleName = validRole.Name
return tuf.StopWalk{}
}
return nil
}
// Check that we didn't error, and that we assigned to our target
if err := r.tufRepo.WalkTargets(name, role, getTargetVisitorFunc, skipRoles...); err == nil && foundTarget {
return &TargetWithRole{Target: Target{Name: name, Hashes: resultMeta.Hashes, Length: resultMeta.Length, Custom: resultMeta.Custom}, Role: resultRoleName}, nil
}
}
return nil, ErrNoSuchTarget(name)
}
// TargetSignedStruct is a struct that contains a Target, the role it was found in, and the list of signatures for that role
type TargetSignedStruct struct {
Role data.DelegationRole
Target Target
Signatures []data.Signature
}
//ErrNoSuchTarget is returned when no valid trust data is found.
type ErrNoSuchTarget string
func (f ErrNoSuchTarget) Error() string {
return fmt.Sprintf("No valid trust data for %s", string(f))
}
// GetAllTargetMetadataByName searches the entire delegation role tree to find the specified target by name for all
// roles, and returns a list of TargetSignedStructs for each time it finds the specified target.
// If given an empty string for a target name, it will return back all targets signed into the repository in every role
func (r *repository) GetAllTargetMetadataByName(name string) ([]TargetSignedStruct, error) {
if err := r.Update(false); err != nil {
return nil, err
}
var targetInfoList []TargetSignedStruct
// Define a visitor function to find the specified target
getAllTargetInfoByNameVisitorFunc := func(tgt *data.SignedTargets, validRole data.DelegationRole) interface{} {
if tgt == nil {
return nil
}
// We found a target and validated path compatibility in our walk,
// so add it to our list if we have a match
// if we have an empty name, add all targets, else check if we have it
var targetMetaToAdd data.Files
if name == "" {
targetMetaToAdd = tgt.Signed.Targets
} else {
if meta, ok := tgt.Signed.Targets[name]; ok {
targetMetaToAdd = data.Files{name: meta}
}
}
for targetName, resultMeta := range targetMetaToAdd {
targetInfo := TargetSignedStruct{
Role: validRole,
Target: Target{Name: targetName, Hashes: resultMeta.Hashes, Length: resultMeta.Length, Custom: resultMeta.Custom},
Signatures: tgt.Signatures,
}
targetInfoList = append(targetInfoList, targetInfo)
}
// continue walking to all child roles
return nil
}
// Check that we didn't error, and that we found the target at least once
if err := r.tufRepo.WalkTargets(name, "", getAllTargetInfoByNameVisitorFunc); err != nil {
return nil, err
}
if len(targetInfoList) == 0 {
return nil, ErrNoSuchTarget(name)
}
return targetInfoList, nil
}
// GetChangelist returns the list of the repository's unpublished changes
func (r *repository) GetChangelist() (changelist.Changelist, error) {
return r.changelist, nil
}
// getRemoteStore returns the remoteStore of a repository if valid or
// or an OfflineStore otherwise
func (r *repository) getRemoteStore() store.RemoteStore {
if r.remoteStore != nil {
return r.remoteStore
}
r.remoteStore = &store.OfflineStore{}
return r.remoteStore
}
// RoleWithSignatures is a Role with its associated signatures
type RoleWithSignatures struct {
Signatures []data.Signature
data.Role
}
// ListRoles returns a list of RoleWithSignatures objects for this repo
// This represents the latest metadata for each role in this repo
func (r *repository) ListRoles() ([]RoleWithSignatures, error) {
// Update to latest repo state
if err := r.Update(false); err != nil {
return nil, err
}
// Get all role info from our updated keysDB, can be empty
roles := r.tufRepo.GetAllLoadedRoles()
var roleWithSigs []RoleWithSignatures
// Populate RoleWithSignatures with Role from keysDB and signatures from TUF metadata
for _, role := range roles {
roleWithSig := RoleWithSignatures{Role: *role, Signatures: nil}
switch role.Name {
case data.CanonicalRootRole:
roleWithSig.Signatures = r.tufRepo.Root.Signatures
case data.CanonicalTargetsRole:
roleWithSig.Signatures = r.tufRepo.Targets[data.CanonicalTargetsRole].Signatures
case data.CanonicalSnapshotRole:
roleWithSig.Signatures = r.tufRepo.Snapshot.Signatures
case data.CanonicalTimestampRole:
roleWithSig.Signatures = r.tufRepo.Timestamp.Signatures
default:
if !data.IsDelegation(role.Name) {
continue
}
if _, ok := r.tufRepo.Targets[role.Name]; ok {
// We'll only find a signature if we've published any targets with this delegation
roleWithSig.Signatures = r.tufRepo.Targets[role.Name].Signatures
}
}
roleWithSigs = append(roleWithSigs, roleWithSig)
}
return roleWithSigs, nil
}
// Publish pushes the local changes in signed material to the remote notary-server
// Conceptually it performs an operation similar to a `git rebase`
func (r *repository) Publish() error {
if err := r.publish(r.changelist); err != nil {
return err
}
if err := r.changelist.Clear(""); err != nil {
// This is not a critical problem when only a single host is pushing
// but will cause weird behaviour if changelist cleanup is failing
// and there are multiple hosts writing to the repo.
logrus.Warn("Unable to clear changelist. You may want to manually delete the folder ", r.changelist.Location())
}
return nil
}
// publish pushes the changes in the given changelist to the remote notary-server
// Conceptually it performs an operation similar to a `git rebase`
func (r *repository) publish(cl changelist.Changelist) error {
var initialPublish bool
// update first before publishing
if err := r.Update(true); err != nil {
// If the remote is not aware of the repo, then this is being published
// for the first time. Try to initialize the repository before publishing.
if _, ok := err.(ErrRepositoryNotExist); ok {
err := r.bootstrapRepo()
if _, ok := err.(store.ErrMetaNotFound); ok {
logrus.Infof("No TUF data found locally or remotely - initializing repository %s for the first time", r.gun.String())
err = r.Initialize(nil)
}
if err != nil {
logrus.WithError(err).Debugf("Unable to load or initialize repository during first publish: %s", err.Error())
return err
}
// Ensure we will push the initial root and targets file. Either or
// both of the root and targets may not be marked as Dirty, since
// there may not be any changes that update them, so use a
// different boolean.
initialPublish = true
} else {
// We could not update, so we cannot publish.
logrus.Error("Could not publish Repository since we could not update: ", err.Error())
return err
}
}
// apply the changelist to the repo
if err := applyChangelist(r.tufRepo, r.invalid, cl); err != nil {
logrus.Debug("Error applying changelist")
return err
}
// these are the TUF files we will need to update, serialized as JSON before
// we send anything to remote
updatedFiles := make(map[data.RoleName][]byte)
// Fetch old keys to support old clients
legacyKeys, err := r.oldKeysForLegacyClientSupport(r.LegacyVersions, initialPublish)
if err != nil {
return err
}
// check if our root file is nearing expiry or dirty. Resign if it is. If
// root is not dirty but we are publishing for the first time, then just
// publish the existing root we have.
if err := signRootIfNecessary(updatedFiles, r.tufRepo, legacyKeys, initialPublish); err != nil {
return err
}
if err := signTargets(updatedFiles, r.tufRepo, initialPublish); err != nil {
return err
}
// if we initialized the repo while designating the server as the snapshot
// signer, then there won't be a snapshots file. However, we might now
// have a local key (if there was a rotation), so initialize one.
if r.tufRepo.Snapshot == nil {
if err := r.tufRepo.InitSnapshot(); err != nil {
return err
}
}
if snapshotJSON, err := serializeCanonicalRole(
r.tufRepo, data.CanonicalSnapshotRole, nil); err == nil {
// Only update the snapshot if we've successfully signed it.
updatedFiles[data.CanonicalSnapshotRole] = snapshotJSON
} else if signErr, ok := err.(signed.ErrInsufficientSignatures); ok && signErr.FoundKeys == 0 {
// If signing fails due to us not having the snapshot key, then
// assume the server is going to sign, and do not include any snapshot
// data.
logrus.Debugf("Client does not have the key to sign snapshot. " +
"Assuming that server should sign the snapshot.")
} else {
logrus.Debugf("Client was unable to sign the snapshot: %s", err.Error())
return err
}
remote := r.getRemoteStore()
return remote.SetMulti(data.MetadataRoleMapToStringMap(updatedFiles))
}
func signRootIfNecessary(updates map[data.RoleName][]byte, repo *tuf.Repo, extraSigningKeys data.KeyList, initialPublish bool) error {
if len(extraSigningKeys) > 0 {
repo.Root.Dirty = true
}
if nearExpiry(repo.Root.Signed.SignedCommon) || repo.Root.Dirty {
rootJSON, err := serializeCanonicalRole(repo, data.CanonicalRootRole, extraSigningKeys)
if err != nil {
return err
}
updates[data.CanonicalRootRole] = rootJSON
} else if initialPublish {
rootJSON, err := repo.Root.MarshalJSON()
if err != nil {
return err
}
updates[data.CanonicalRootRole] = rootJSON
}
return nil
}
// Fetch back a `legacyVersions` number of roots files, collect the root public keys
// This includes old `root` roles as well as legacy versioned root roles, e.g. `1.root`
func (r *repository) oldKeysForLegacyClientSupport(legacyVersions int, initialPublish bool) (data.KeyList, error) {
if initialPublish {
return nil, nil
}
var oldestVersion int
prevVersion := r.tufRepo.Root.Signed.Version
if legacyVersions == SignWithAllOldVersions {
oldestVersion = 1
} else {
oldestVersion = r.tufRepo.Root.Signed.Version - legacyVersions
}
if oldestVersion < 1 {
oldestVersion = 1
}
if prevVersion <= 1 || oldestVersion == prevVersion {
return nil, nil
}
oldKeys := make(map[string]data.PublicKey)
c, err := r.bootstrapClient(true)
// require a server connection to fetch old roots
if err != nil {
return nil, err
}
for v := prevVersion; v >= oldestVersion; v-- {
logrus.Debugf("fetching old keys from version %d", v)
// fetch old root version
versionedRole := fmt.Sprintf("%d.%s", v, data.CanonicalRootRole.String())
raw, err := c.remote.GetSized(versionedRole, -1)
if err != nil {
logrus.Debugf("error downloading %s: %s", versionedRole, err)
continue
}
signedOldRoot := &data.Signed{}
if err := json.Unmarshal(raw, signedOldRoot); err != nil {
return nil, err
}
oldRootVersion, err := data.RootFromSigned(signedOldRoot)
if err != nil {
return nil, err
}
// extract legacy versioned root keys
oldRootVersionKeys := getOldRootPublicKeys(oldRootVersion)
for _, oldKey := range oldRootVersionKeys {
oldKeys[oldKey.ID()] = oldKey
}
}
oldKeyList := make(data.KeyList, 0, len(oldKeys))
for _, key := range oldKeys {
oldKeyList = append(oldKeyList, key)
}
return oldKeyList, nil
}
// get all the saved previous roles keys < the current root version
func getOldRootPublicKeys(root *data.SignedRoot) data.KeyList {
rootRole, err := root.BuildBaseRole(data.CanonicalRootRole)
if err != nil {
return nil
}
return rootRole.ListKeys()
}
func signTargets(updates map[data.RoleName][]byte, repo *tuf.Repo, initialPublish bool) error {
// iterate through all the targets files - if they are dirty, sign and update
for roleName, roleObj := range repo.Targets {
if roleObj.Dirty || (roleName == data.CanonicalTargetsRole && initialPublish) {
targetsJSON, err := serializeCanonicalRole(repo, roleName, nil)
if err != nil {
return err
}
updates[roleName] = targetsJSON
}
}
return nil
}
// bootstrapRepo loads the repository from the local file system (i.e.
// a not yet published repo or a possibly obsolete local copy) into
// r.tufRepo. This attempts to load metadata for all roles. Since server
// snapshots are supported, if the snapshot metadata fails to load, that's ok.
// This assumes that bootstrapRepo is only used by Publish() or RotateKey()
func (r *repository) bootstrapRepo() error {
b := tuf.NewRepoBuilder(r.gun, r.GetCryptoService(), r.trustPinning)
logrus.Debugf("Loading trusted collection.")
for _, role := range data.BaseRoles {
jsonBytes, err := r.cache.GetSized(role.String(), store.NoSizeLimit)
if err != nil {
if _, ok := err.(store.ErrMetaNotFound); ok &&
// server snapshots are supported, and server timestamp management
// is required, so if either of these fail to load that's ok - especially
// if the repo is new
role == data.CanonicalSnapshotRole || role == data.CanonicalTimestampRole {
continue
}
return err
}
if err := b.Load(role, jsonBytes, 1, true); err != nil {
return err
}
}
tufRepo, _, err := b.Finish()
if err == nil {
r.tufRepo = tufRepo
}
return nil
}
// saveMetadata saves contents of r.tufRepo onto the local disk, creating
// signatures as necessary, possibly prompting for passphrases.
func (r *repository) saveMetadata(ignoreSnapshot bool) error {
logrus.Debugf("Saving changes to Trusted Collection.")
rootJSON, err := serializeCanonicalRole(r.tufRepo, data.CanonicalRootRole, nil)
if err != nil {
return err
}
err = r.cache.Set(data.CanonicalRootRole.String(), rootJSON)
if err != nil {
return err
}
targetsToSave := make(map[data.RoleName][]byte)
for t := range r.tufRepo.Targets {
signedTargets, err := r.tufRepo.SignTargets(t, data.DefaultExpires(data.CanonicalTargetsRole))
if err != nil {
return err
}
targetsJSON, err := json.Marshal(signedTargets)
if err != nil {
return err
}
targetsToSave[t] = targetsJSON
}
for role, blob := range targetsToSave {
// If the parent directory does not exist, the cache.Set will create it
r.cache.Set(role.String(), blob)
}
if ignoreSnapshot {
return nil
}
snapshotJSON, err := serializeCanonicalRole(r.tufRepo, data.CanonicalSnapshotRole, nil)
if err != nil {
return err