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Add option to provide signature for a token to verify key ownership (#14054)

* Add option to provide signed token to verify key ownership

Currently we will only allow a key to be matched to a user if it matches
an activated email address. This PR provides a different mechanism - if
the user provides a signature for automatically generated token (based
on the timestamp, user creation time, user ID, username and primary
email.

* Ensure verified keys can act for all active emails for the user

* Add code to mark keys as verified

* Slight UI adjustments

* Slight UI adjustments 2

* Simplify signature verification slightly

* fix postgres test

* add api routes

* handle swapped primary-keys

* Verify the no-reply address for verified keys

* Only add email addresses that are activated to keys

* Fix committer shortcut properly

* Restructure gpg_keys.go

* Use common Verification Token code

Signed-off-by: Andrew Thornton <art27@cantab.net>
This commit is contained in:
zeripath 2021-07-13 14:28:07 +01:00 committed by GitHub
parent 67f135ca5d
commit b82293270c
No known key found for this signature in database
GPG key ID: 4AEE18F83AFDEB23
20 changed files with 1276 additions and 727 deletions

View file

@ -29,10 +29,10 @@ func TestGPGKeys(t *testing.T) {
results []int
}{
{name: "NoLogin", makeRequest: MakeRequest, token: "",
results: []int{http.StatusUnauthorized, http.StatusUnauthorized, http.StatusUnauthorized, http.StatusUnauthorized, http.StatusUnauthorized, http.StatusUnauthorized, http.StatusUnauthorized, http.StatusUnauthorized},
results: []int{http.StatusUnauthorized, http.StatusUnauthorized, http.StatusUnauthorized, http.StatusUnauthorized, http.StatusUnauthorized, http.StatusUnauthorized, http.StatusUnauthorized, http.StatusUnauthorized, http.StatusUnauthorized},
},
{name: "LoggedAsUser2", makeRequest: session.MakeRequest, token: token,
results: []int{http.StatusOK, http.StatusOK, http.StatusNotFound, http.StatusNoContent, http.StatusUnprocessableEntity, http.StatusNotFound, http.StatusCreated, http.StatusCreated}},
results: []int{http.StatusOK, http.StatusOK, http.StatusNotFound, http.StatusNoContent, http.StatusUnprocessableEntity, http.StatusNotFound, http.StatusCreated, http.StatusNotFound, http.StatusCreated}},
}
for _, tc := range tt {
@ -60,7 +60,7 @@ func TestGPGKeys(t *testing.T) {
t.Run("CreateValidGPGKey", func(t *testing.T) {
testCreateValidGPGKey(t, tc.makeRequest, tc.token, tc.results[6])
})
t.Run("CreateValidSecondaryEmailGPGKey", func(t *testing.T) {
t.Run("CreateValidSecondaryEmailGPGKeyNotActivated", func(t *testing.T) {
testCreateValidSecondaryEmailGPGKey(t, tc.makeRequest, tc.token, tc.results[7])
})
})
@ -74,6 +74,7 @@ func TestGPGKeys(t *testing.T) {
req := NewRequest(t, "GET", "/api/v1/user/gpg_keys?token="+token) //GET all keys
resp := session.MakeRequest(t, req, http.StatusOK)
DecodeJSON(t, resp, &keys)
assert.Len(t, keys, 1)
primaryKey1 := keys[0] //Primary key 1
assert.EqualValues(t, "38EA3BCED732982C", primaryKey1.KeyID)
@ -85,12 +86,6 @@ func TestGPGKeys(t *testing.T) {
assert.EqualValues(t, "70D7C694D17D03AD", subKey.KeyID)
assert.Empty(t, subKey.Emails)
primaryKey2 := keys[1] //Primary key 2
assert.EqualValues(t, "3CEF46EF40BEFC3E", primaryKey2.KeyID)
assert.Len(t, primaryKey2.Emails, 1)
assert.EqualValues(t, "user2-2@example.com", primaryKey2.Emails[0].Email)
assert.False(t, primaryKey2.Emails[0].Verified)
var key api.GPGKey
req = NewRequest(t, "GET", "/api/v1/user/gpg_keys/"+strconv.FormatInt(primaryKey1.ID, 10)+"?token="+token) //Primary key 1
resp = session.MakeRequest(t, req, http.StatusOK)
@ -105,15 +100,6 @@ func TestGPGKeys(t *testing.T) {
DecodeJSON(t, resp, &key)
assert.EqualValues(t, "70D7C694D17D03AD", key.KeyID)
assert.Empty(t, key.Emails)
req = NewRequest(t, "GET", "/api/v1/user/gpg_keys/"+strconv.FormatInt(primaryKey2.ID, 10)+"?token="+token) //Primary key 2
resp = session.MakeRequest(t, req, http.StatusOK)
DecodeJSON(t, resp, &key)
assert.EqualValues(t, "3CEF46EF40BEFC3E", key.KeyID)
assert.Len(t, key.Emails, 1)
assert.EqualValues(t, "user2-2@example.com", key.Emails[0].Email)
assert.False(t, key.Emails[0].Verified)
})
//Check state after basic add

View file

@ -451,6 +451,7 @@ func (err ErrKeyNameAlreadyUsed) Error() string {
// ErrGPGNoEmailFound represents a "ErrGPGNoEmailFound" kind of error.
type ErrGPGNoEmailFound struct {
FailedEmails []string
ID string
}
// IsErrGPGNoEmailFound checks if an error is a ErrGPGNoEmailFound.
@ -463,6 +464,22 @@ func (err ErrGPGNoEmailFound) Error() string {
return fmt.Sprintf("none of the emails attached to the GPG key could be found: %v", err.FailedEmails)
}
// ErrGPGInvalidTokenSignature represents a "ErrGPGInvalidTokenSignature" kind of error.
type ErrGPGInvalidTokenSignature struct {
Wrapped error
ID string
}
// IsErrGPGInvalidTokenSignature checks if an error is a ErrGPGInvalidTokenSignature.
func IsErrGPGInvalidTokenSignature(err error) bool {
_, ok := err.(ErrGPGInvalidTokenSignature)
return ok
}
func (err ErrGPGInvalidTokenSignature) Error() string {
return "the provided signature does not sign the token with the provided key"
}
// ErrGPGKeyParsing represents a "ErrGPGKeyParsing" kind of error.
type ErrGPGKeyParsing struct {
ParseError error

View file

@ -5,27 +5,25 @@
package models
import (
"bytes"
"container/list"
"crypto"
"encoding/base64"
"fmt"
"hash"
"io"
"strings"
"time"
"code.gitea.io/gitea/modules/git"
"code.gitea.io/gitea/modules/log"
"code.gitea.io/gitea/modules/setting"
"code.gitea.io/gitea/modules/timeutil"
"github.com/keybase/go-crypto/openpgp"
"github.com/keybase/go-crypto/openpgp/armor"
"github.com/keybase/go-crypto/openpgp/packet"
"xorm.io/xorm"
)
// __________________ ________ ____ __.
// / _____/\______ \/ _____/ | |/ _|____ ___.__.
// / \ ___ | ___/ \ ___ | <_/ __ < | |
// \ \_\ \| | \ \_\ \ | | \ ___/\___ |
// \______ /|____| \______ / |____|__ \___ > ____|
// \/ \/ \/ \/\/
// GPGKey represents a GPG key.
type GPGKey struct {
ID int64 `xorm:"pk autoincr"`
@ -38,18 +36,13 @@ type GPGKey struct {
AddedUnix timeutil.TimeStamp
SubsKey []*GPGKey `xorm:"-"`
Emails []*EmailAddress
Verified bool `xorm:"NOT NULL DEFAULT false"`
CanSign bool
CanEncryptComms bool
CanEncryptStorage bool
CanCertify bool
}
// GPGKeyImport the original import of key
type GPGKeyImport struct {
KeyID string `xorm:"pk CHAR(16) NOT NULL"`
Content string `xorm:"TEXT NOT NULL"`
}
// BeforeInsert will be invoked by XORM before inserting a record
func (key *GPGKey) BeforeInsert() {
key.AddedUnix = timeutil.TimeStampNow()
@ -96,131 +89,6 @@ func GetGPGKeysByKeyID(keyID string) ([]*GPGKey, error) {
return keys, x.Where("key_id=?", keyID).Find(&keys)
}
// GetGPGImportByKeyID returns the import public armored key by given KeyID.
func GetGPGImportByKeyID(keyID string) (*GPGKeyImport, error) {
key := new(GPGKeyImport)
has, err := x.ID(keyID).Get(key)
if err != nil {
return nil, err
} else if !has {
return nil, ErrGPGKeyImportNotExist{keyID}
}
return key, nil
}
// checkArmoredGPGKeyString checks if the given key string is a valid GPG armored key.
// The function returns the actual public key on success
func checkArmoredGPGKeyString(content string) (openpgp.EntityList, error) {
list, err := openpgp.ReadArmoredKeyRing(strings.NewReader(content))
if err != nil {
return nil, ErrGPGKeyParsing{err}
}
return list, nil
}
// addGPGKey add key, import and subkeys to database
func addGPGKey(e Engine, key *GPGKey, content string) (err error) {
// Add GPGKeyImport
if _, err = e.Insert(GPGKeyImport{
KeyID: key.KeyID,
Content: content,
}); err != nil {
return err
}
// Save GPG primary key.
if _, err = e.Insert(key); err != nil {
return err
}
// Save GPG subs key.
for _, subkey := range key.SubsKey {
if err := addGPGSubKey(e, subkey); err != nil {
return err
}
}
return nil
}
// addGPGSubKey add subkeys to database
func addGPGSubKey(e Engine, key *GPGKey) (err error) {
// Save GPG primary key.
if _, err = e.Insert(key); err != nil {
return err
}
// Save GPG subs key.
for _, subkey := range key.SubsKey {
if err := addGPGSubKey(e, subkey); err != nil {
return err
}
}
return nil
}
// AddGPGKey adds new public key to database.
func AddGPGKey(ownerID int64, content string) ([]*GPGKey, error) {
ekeys, err := checkArmoredGPGKeyString(content)
if err != nil {
return nil, err
}
sess := x.NewSession()
defer sess.Close()
if err = sess.Begin(); err != nil {
return nil, err
}
keys := make([]*GPGKey, 0, len(ekeys))
for _, ekey := range ekeys {
// Key ID cannot be duplicated.
has, err := sess.Where("key_id=?", ekey.PrimaryKey.KeyIdString()).
Get(new(GPGKey))
if err != nil {
return nil, err
} else if has {
return nil, ErrGPGKeyIDAlreadyUsed{ekey.PrimaryKey.KeyIdString()}
}
// Get DB session
key, err := parseGPGKey(ownerID, ekey)
if err != nil {
return nil, err
}
if err = addGPGKey(sess, key, content); err != nil {
return nil, err
}
keys = append(keys, key)
}
return keys, sess.Commit()
}
// base64EncPubKey encode public key content to base 64
func base64EncPubKey(pubkey *packet.PublicKey) (string, error) {
var w bytes.Buffer
err := pubkey.Serialize(&w)
if err != nil {
return "", err
}
return base64.StdEncoding.EncodeToString(w.Bytes()), nil
}
// base64DecPubKey decode public key content from base 64
func base64DecPubKey(content string) (*packet.PublicKey, error) {
b, err := readerFromBase64(content)
if err != nil {
return nil, err
}
// Read key
p, err := packet.Read(b)
if err != nil {
return nil, err
}
// Check type
pkey, ok := p.(*packet.PublicKey)
if !ok {
return nil, fmt.Errorf("key is not a public key")
}
return pkey, nil
}
// GPGKeyToEntity retrieve the imported key and the traducted entity
func GPGKeyToEntity(k *GPGKey) (*openpgp.Entity, error) {
impKey, err := GetGPGImportByKeyID(k.KeyID)
@ -254,27 +122,8 @@ func parseSubGPGKey(ownerID int64, primaryID string, pubkey *packet.PublicKey, e
}, nil
}
// getExpiryTime extract the expire time of primary key based on sig
func getExpiryTime(e *openpgp.Entity) time.Time {
expiry := time.Time{}
// Extract self-sign for expire date based on : https://github.com/golang/crypto/blob/master/openpgp/keys.go#L165
var selfSig *packet.Signature
for _, ident := range e.Identities {
if selfSig == nil {
selfSig = ident.SelfSignature
} else if ident.SelfSignature.IsPrimaryId != nil && *ident.SelfSignature.IsPrimaryId {
selfSig = ident.SelfSignature
break
}
}
if selfSig.KeyLifetimeSecs != nil {
expiry = e.PrimaryKey.CreationTime.Add(time.Duration(*selfSig.KeyLifetimeSecs) * time.Second)
}
return expiry
}
// parseGPGKey parse a PrimaryKey entity (primary key + subs keys + self-signature)
func parseGPGKey(ownerID int64, e *openpgp.Entity) (*GPGKey, error) {
func parseGPGKey(ownerID int64, e *openpgp.Entity, verified bool) (*GPGKey, error) {
pubkey := e.PrimaryKey
expiry := getExpiryTime(e)
@ -301,20 +150,22 @@ func parseGPGKey(ownerID int64, e *openpgp.Entity) (*GPGKey, error) {
}
email := strings.ToLower(strings.TrimSpace(ident.UserId.Email))
for _, e := range userEmails {
if e.LowerEmail == email {
if e.IsActivated && e.LowerEmail == email {
emails = append(emails, e)
break
}
}
}
// In the case no email as been found
if len(emails) == 0 {
failedEmails := make([]string, 0, len(e.Identities))
for _, ident := range e.Identities {
failedEmails = append(failedEmails, ident.UserId.Email)
if !verified {
// In the case no email as been found
if len(emails) == 0 {
failedEmails := make([]string, 0, len(e.Identities))
for _, ident := range e.Identities {
failedEmails = append(failedEmails, ident.UserId.Email)
}
return nil, ErrGPGNoEmailFound{failedEmails, e.PrimaryKey.KeyIdString()}
}
return nil, ErrGPGNoEmailFound{failedEmails}
}
content, err := base64EncPubKey(pubkey)
@ -330,6 +181,7 @@ func parseGPGKey(ownerID int64, e *openpgp.Entity) (*GPGKey, error) {
ExpiredUnix: timeutil.TimeStamp(expiry.Unix()),
Emails: emails,
SubsKey: subkeys,
Verified: verified,
CanSign: pubkey.CanSign(),
CanEncryptComms: pubkey.PubKeyAlgo.CanEncrypt(),
CanEncryptStorage: pubkey.PubKeyAlgo.CanEncrypt(),
@ -378,545 +230,32 @@ func DeleteGPGKey(doer *User, id int64) (err error) {
return sess.Commit()
}
// CommitVerification represents a commit validation of signature
type CommitVerification struct {
Verified bool
Warning bool
Reason string
SigningUser *User
CommittingUser *User
SigningEmail string
SigningKey *GPGKey
TrustStatus string
}
// SignCommit represents a commit with validation of signature.
type SignCommit struct {
Verification *CommitVerification
*UserCommit
}
const (
// BadSignature is used as the reason when the signature has a KeyID that is in the db
// but no key that has that ID verifies the signature. This is a suspicious failure.
BadSignature = "gpg.error.probable_bad_signature"
// BadDefaultSignature is used as the reason when the signature has a KeyID that matches the
// default Key but is not verified by the default key. This is a suspicious failure.
BadDefaultSignature = "gpg.error.probable_bad_default_signature"
// NoKeyFound is used as the reason when no key can be found to verify the signature.
NoKeyFound = "gpg.error.no_gpg_keys_found"
)
func readerFromBase64(s string) (io.Reader, error) {
bs, err := base64.StdEncoding.DecodeString(s)
if err != nil {
return nil, err
}
return bytes.NewBuffer(bs), nil
}
func populateHash(hashFunc crypto.Hash, msg []byte) (hash.Hash, error) {
h := hashFunc.New()
if _, err := h.Write(msg); err != nil {
return nil, err
}
return h, nil
}
// readArmoredSign read an armored signature block with the given type. https://sourcegraph.com/github.com/golang/crypto/-/blob/openpgp/read.go#L24:6-24:17
func readArmoredSign(r io.Reader) (body io.Reader, err error) {
block, err := armor.Decode(r)
if err != nil {
return
}
if block.Type != openpgp.SignatureType {
return nil, fmt.Errorf("expected '" + openpgp.SignatureType + "', got: " + block.Type)
}
return block.Body, nil
}
func extractSignature(s string) (*packet.Signature, error) {
r, err := readArmoredSign(strings.NewReader(s))
if err != nil {
return nil, fmt.Errorf("Failed to read signature armor")
}
p, err := packet.Read(r)
if err != nil {
return nil, fmt.Errorf("Failed to read signature packet")
}
sig, ok := p.(*packet.Signature)
if !ok {
return nil, fmt.Errorf("Packet is not a signature")
}
return sig, nil
}
func verifySign(s *packet.Signature, h hash.Hash, k *GPGKey) error {
// Check if key can sign
if !k.CanSign {
return fmt.Errorf("key can not sign")
}
// Decode key
pkey, err := base64DecPubKey(k.Content)
if err != nil {
return err
}
return pkey.VerifySignature(h, s)
}
func hashAndVerify(sig *packet.Signature, payload string, k *GPGKey, committer, signer *User, email string) *CommitVerification {
// Generating hash of commit
hash, err := populateHash(sig.Hash, []byte(payload))
if err != nil { // Skipping failed to generate hash
log.Error("PopulateHash: %v", err)
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.generate_hash",
}
}
if err := verifySign(sig, hash, k); err == nil {
return &CommitVerification{ // Everything is ok
CommittingUser: committer,
Verified: true,
Reason: fmt.Sprintf("%s / %s", signer.Name, k.KeyID),
SigningUser: signer,
SigningKey: k,
SigningEmail: email,
}
}
return nil
}
func hashAndVerifyWithSubKeys(sig *packet.Signature, payload string, k *GPGKey, committer, signer *User, email string) *CommitVerification {
commitVerification := hashAndVerify(sig, payload, k, committer, signer, email)
if commitVerification != nil {
return commitVerification
}
// And test also SubsKey
for _, sk := range k.SubsKey {
commitVerification := hashAndVerify(sig, payload, sk, committer, signer, email)
if commitVerification != nil {
return commitVerification
}
}
return nil
}
func hashAndVerifyForKeyID(sig *packet.Signature, payload string, committer *User, keyID, name, email string) *CommitVerification {
if keyID == "" {
return nil
}
keys, err := GetGPGKeysByKeyID(keyID)
if err != nil {
log.Error("GetGPGKeysByKeyID: %v", err)
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.failed_retrieval_gpg_keys",
}
}
if len(keys) == 0 {
return nil
}
func checkKeyEmails(email string, keys ...*GPGKey) (bool, string) {
uid := int64(0)
var userEmails []*EmailAddress
var user *User
for _, key := range keys {
var primaryKeys []*GPGKey
if key.PrimaryKeyID != "" {
primaryKeys, err = GetGPGKeysByKeyID(key.PrimaryKeyID)
if err != nil {
log.Error("GetGPGKeysByKeyID: %v", err)
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.failed_retrieval_gpg_keys",
}
for _, e := range key.Emails {
if e.IsActivated && (email == "" || strings.EqualFold(e.Email, email)) {
return true, e.Email
}
}
activated := false
if len(email) != 0 {
for _, e := range key.Emails {
if e.IsActivated && strings.EqualFold(e.Email, email) {
activated = true
email = e.Email
break
if key.Verified && key.OwnerID != 0 {
if uid != key.OwnerID {
userEmails, _ = GetEmailAddresses(key.OwnerID)
uid = key.OwnerID
user = &User{ID: uid}
_, _ = GetUser(user)
}
for _, e := range userEmails {
if e.IsActivated && (email == "" || strings.EqualFold(e.Email, email)) {
return true, e.Email
}
}
if !activated {
for _, pkey := range primaryKeys {
for _, e := range pkey.Emails {
if e.IsActivated && strings.EqualFold(e.Email, email) {
activated = true
email = e.Email
break
}
}
if activated {
break
}
}
if user.KeepEmailPrivate && strings.EqualFold(email, user.GetEmail()) {
return true, user.GetEmail()
}
} else {
for _, e := range key.Emails {
if e.IsActivated {
activated = true
email = e.Email
break
}
}
if !activated {
for _, pkey := range primaryKeys {
for _, e := range pkey.Emails {
if e.IsActivated {
activated = true
email = e.Email
break
}
}
if activated {
break
}
}
}
}
if !activated {
continue
}
signer := &User{
Name: name,
Email: email,
}
if key.OwnerID != 0 {
owner, err := GetUserByID(key.OwnerID)
if err == nil {
signer = owner
} else if !IsErrUserNotExist(err) {
log.Error("Failed to GetUserByID: %d for key ID: %d (%s) %v", key.OwnerID, key.ID, key.KeyID, err)
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.no_committer_account",
}
}
}
commitVerification := hashAndVerifyWithSubKeys(sig, payload, key, committer, signer, email)
if commitVerification != nil {
return commitVerification
}
}
// This is a bad situation ... We have a key id that is in our database but the signature doesn't match.
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Warning: true,
Reason: BadSignature,
}
}
// ParseCommitWithSignature check if signature is good against keystore.
func ParseCommitWithSignature(c *git.Commit) *CommitVerification {
var committer *User
if c.Committer != nil {
var err error
// Find Committer account
committer, err = GetUserByEmail(c.Committer.Email) // This finds the user by primary email or activated email so commit will not be valid if email is not
if err != nil { // Skipping not user for committer
committer = &User{
Name: c.Committer.Name,
Email: c.Committer.Email,
}
// We can expect this to often be an ErrUserNotExist. in the case
// it is not, however, it is important to log it.
if !IsErrUserNotExist(err) {
log.Error("GetUserByEmail: %v", err)
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.no_committer_account",
}
}
}
}
// If no signature just report the committer
if c.Signature == nil {
return &CommitVerification{
CommittingUser: committer,
Verified: false, // Default value
Reason: "gpg.error.not_signed_commit", // Default value
}
}
// Parsing signature
sig, err := extractSignature(c.Signature.Signature)
if err != nil { // Skipping failed to extract sign
log.Error("SignatureRead err: %v", err)
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.extract_sign",
}
}
keyID := ""
if sig.IssuerKeyId != nil && (*sig.IssuerKeyId) != 0 {
keyID = fmt.Sprintf("%X", *sig.IssuerKeyId)
}
if keyID == "" && sig.IssuerFingerprint != nil && len(sig.IssuerFingerprint) > 0 {
keyID = fmt.Sprintf("%X", sig.IssuerFingerprint[12:20])
}
defaultReason := NoKeyFound
// First check if the sig has a keyID and if so just look at that
if commitVerification := hashAndVerifyForKeyID(
sig,
c.Signature.Payload,
committer,
keyID,
setting.AppName,
""); commitVerification != nil {
if commitVerification.Reason == BadSignature {
defaultReason = BadSignature
} else {
return commitVerification
}
}
// Now try to associate the signature with the committer, if present
if committer.ID != 0 {
keys, err := ListGPGKeys(committer.ID, ListOptions{})
if err != nil { // Skipping failed to get gpg keys of user
log.Error("ListGPGKeys: %v", err)
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.failed_retrieval_gpg_keys",
}
}
for _, k := range keys {
// Pre-check (& optimization) that emails attached to key can be attached to the committer email and can validate
canValidate := false
email := ""
for _, e := range k.Emails {
if e.IsActivated && strings.EqualFold(e.Email, c.Committer.Email) {
canValidate = true
email = e.Email
break
}
}
if !canValidate {
continue // Skip this key
}
commitVerification := hashAndVerifyWithSubKeys(sig, c.Signature.Payload, k, committer, committer, email)
if commitVerification != nil {
return commitVerification
}
}
}
if setting.Repository.Signing.SigningKey != "" && setting.Repository.Signing.SigningKey != "default" && setting.Repository.Signing.SigningKey != "none" {
// OK we should try the default key
gpgSettings := git.GPGSettings{
Sign: true,
KeyID: setting.Repository.Signing.SigningKey,
Name: setting.Repository.Signing.SigningName,
Email: setting.Repository.Signing.SigningEmail,
}
if err := gpgSettings.LoadPublicKeyContent(); err != nil {
log.Error("Error getting default signing key: %s %v", gpgSettings.KeyID, err)
} else if commitVerification := verifyWithGPGSettings(&gpgSettings, sig, c.Signature.Payload, committer, keyID); commitVerification != nil {
if commitVerification.Reason == BadSignature {
defaultReason = BadSignature
} else {
return commitVerification
}
}
}
defaultGPGSettings, err := c.GetRepositoryDefaultPublicGPGKey(false)
if err != nil {
log.Error("Error getting default public gpg key: %v", err)
} else if defaultGPGSettings == nil {
log.Warn("Unable to get defaultGPGSettings for unattached commit: %s", c.ID.String())
} else if defaultGPGSettings.Sign {
if commitVerification := verifyWithGPGSettings(defaultGPGSettings, sig, c.Signature.Payload, committer, keyID); commitVerification != nil {
if commitVerification.Reason == BadSignature {
defaultReason = BadSignature
} else {
return commitVerification
}
}
}
return &CommitVerification{ // Default at this stage
CommittingUser: committer,
Verified: false,
Warning: defaultReason != NoKeyFound,
Reason: defaultReason,
SigningKey: &GPGKey{
KeyID: keyID,
},
}
}
func verifyWithGPGSettings(gpgSettings *git.GPGSettings, sig *packet.Signature, payload string, committer *User, keyID string) *CommitVerification {
// First try to find the key in the db
if commitVerification := hashAndVerifyForKeyID(sig, payload, committer, gpgSettings.KeyID, gpgSettings.Name, gpgSettings.Email); commitVerification != nil {
return commitVerification
}
// Otherwise we have to parse the key
ekeys, err := checkArmoredGPGKeyString(gpgSettings.PublicKeyContent)
if err != nil {
log.Error("Unable to get default signing key: %v", err)
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.generate_hash",
}
}
for _, ekey := range ekeys {
pubkey := ekey.PrimaryKey
content, err := base64EncPubKey(pubkey)
if err != nil {
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.generate_hash",
}
}
k := &GPGKey{
Content: content,
CanSign: pubkey.CanSign(),
KeyID: pubkey.KeyIdString(),
}
for _, subKey := range ekey.Subkeys {
content, err := base64EncPubKey(subKey.PublicKey)
if err != nil {
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.generate_hash",
}
}
k.SubsKey = append(k.SubsKey, &GPGKey{
Content: content,
CanSign: subKey.PublicKey.CanSign(),
KeyID: subKey.PublicKey.KeyIdString(),
})
}
if commitVerification := hashAndVerifyWithSubKeys(sig, payload, k, committer, &User{
Name: gpgSettings.Name,
Email: gpgSettings.Email,
}, gpgSettings.Email); commitVerification != nil {
return commitVerification
}
if keyID == k.KeyID {
// This is a bad situation ... We have a key id that matches our default key but the signature doesn't match.
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Warning: true,
Reason: BadSignature,
}
}
}
return nil
}
// ParseCommitsWithSignature checks if signaute of commits are corresponding to users gpg keys.
func ParseCommitsWithSignature(oldCommits *list.List, repository *Repository) *list.List {
var (
newCommits = list.New()
e = oldCommits.Front()
)
keyMap := map[string]bool{}
for e != nil {
c := e.Value.(UserCommit)
signCommit := SignCommit{
UserCommit: &c,
Verification: ParseCommitWithSignature(c.Commit),
}
_ = CalculateTrustStatus(signCommit.Verification, repository, &keyMap)
newCommits.PushBack(signCommit)
e = e.Next()
}
return newCommits
}
// CalculateTrustStatus will calculate the TrustStatus for a commit verification within a repository
func CalculateTrustStatus(verification *CommitVerification, repository *Repository, keyMap *map[string]bool) (err error) {
if !verification.Verified {
return
}
// There are several trust models in Gitea
trustModel := repository.GetTrustModel()
// In the Committer trust model a signature is trusted if it matches the committer
// - it doesn't matter if they're a collaborator, the owner, Gitea or Github
// NB: This model is commit verification only
if trustModel == CommitterTrustModel {
// default to "unmatched"
verification.TrustStatus = "unmatched"
// We can only verify against users in our database but the default key will match
// against by email if it is not in the db.
if (verification.SigningUser.ID != 0 &&
verification.CommittingUser.ID == verification.SigningUser.ID) ||
(verification.SigningUser.ID == 0 && verification.CommittingUser.ID == 0 &&
verification.SigningUser.Email == verification.CommittingUser.Email) {
verification.TrustStatus = "trusted"
}
return
}
// Now we drop to the more nuanced trust models...
verification.TrustStatus = "trusted"
if verification.SigningUser.ID == 0 {
// This commit is signed by the default key - but this key is not assigned to a user in the DB.
// However in the CollaboratorCommitterTrustModel we cannot mark this as trusted
// unless the default key matches the email of a non-user.
if trustModel == CollaboratorCommitterTrustModel && (verification.CommittingUser.ID != 0 ||
verification.SigningUser.Email != verification.CommittingUser.Email) {
verification.TrustStatus = "untrusted"
}
return
}
var isMember bool
if keyMap != nil {
var has bool
isMember, has = (*keyMap)[verification.SigningKey.KeyID]
if !has {
isMember, err = repository.IsOwnerMemberCollaborator(verification.SigningUser.ID)
(*keyMap)[verification.SigningKey.KeyID] = isMember
}
} else {
isMember, err = repository.IsOwnerMemberCollaborator(verification.SigningUser.ID)
}
if !isMember {
verification.TrustStatus = "untrusted"
if verification.CommittingUser.ID != verification.SigningUser.ID {
// The committing user and the signing user are not the same
// This should be marked as questionable unless the signing user is a collaborator/team member etc.
verification.TrustStatus = "unmatched"
}
} else if trustModel == CollaboratorCommitterTrustModel && verification.CommittingUser.ID != verification.SigningUser.ID {
// The committing user and the signing user are not the same and our trustmodel states that they must match
verification.TrustStatus = "unmatched"
}
return
return false, email
}

125
models/gpg_key_add.go Normal file
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// Copyright 2021 The Gitea Authors. All rights reserved.
// Use of this source code is governed by a MIT-style
// license that can be found in the LICENSE file.
package models
import (
"strings"
"code.gitea.io/gitea/modules/log"
"github.com/keybase/go-crypto/openpgp"
)
// __________________ ________ ____ __.
// / _____/\______ \/ _____/ | |/ _|____ ___.__.
// / \ ___ | ___/ \ ___ | <_/ __ < | |
// \ \_\ \| | \ \_\ \ | | \ ___/\___ |
// \______ /|____| \______ / |____|__ \___ > ____|
// \/ \/ \/ \/\/
// _____ .___ .___
// / _ \ __| _/__| _/
// / /_\ \ / __ |/ __ |
// / | \/ /_/ / /_/ |
// \____|__ /\____ \____ |
// \/ \/ \/
// This file contains functions relating to adding GPG Keys
// addGPGKey add key, import and subkeys to database
func addGPGKey(e Engine, key *GPGKey, content string) (err error) {
// Add GPGKeyImport
if _, err = e.Insert(GPGKeyImport{
KeyID: key.KeyID,
Content: content,
}); err != nil {
return err
}
// Save GPG primary key.
if _, err = e.Insert(key); err != nil {
return err
}
// Save GPG subs key.
for _, subkey := range key.SubsKey {
if err := addGPGSubKey(e, subkey); err != nil {
return err
}
}
return nil
}
// addGPGSubKey add subkeys to database
func addGPGSubKey(e Engine, key *GPGKey) (err error) {
// Save GPG primary key.
if _, err = e.Insert(key); err != nil {
return err
}
// Save GPG subs key.
for _, subkey := range key.SubsKey {
if err := addGPGSubKey(e, subkey); err != nil {
return err
}
}
return nil
}
// AddGPGKey adds new public key to database.
func AddGPGKey(ownerID int64, content, token, signature string) ([]*GPGKey, error) {
ekeys, err := checkArmoredGPGKeyString(content)
if err != nil {
return nil, err
}
sess := x.NewSession()
defer sess.Close()
if err = sess.Begin(); err != nil {
return nil, err
}
keys := make([]*GPGKey, 0, len(ekeys))
verified := false
// Handle provided signature
if signature != "" {
signer, err := openpgp.CheckArmoredDetachedSignature(ekeys, strings.NewReader(token), strings.NewReader(signature))
if err != nil {
signer, err = openpgp.CheckArmoredDetachedSignature(ekeys, strings.NewReader(token+"\n"), strings.NewReader(signature))
}
if err != nil {
signer, err = openpgp.CheckArmoredDetachedSignature(ekeys, strings.NewReader(token+"\r\n"), strings.NewReader(signature))
}
if err != nil {
log.Error("Unable to validate token signature. Error: %v", err)
return nil, ErrGPGInvalidTokenSignature{
ID: ekeys[0].PrimaryKey.KeyIdString(),
Wrapped: err,
}
}
ekeys = []*openpgp.Entity{signer}
verified = true
}
for _, ekey := range ekeys {
// Key ID cannot be duplicated.
has, err := sess.Where("key_id=?", ekey.PrimaryKey.KeyIdString()).
Get(new(GPGKey))
if err != nil {
return nil, err
} else if has {
return nil, ErrGPGKeyIDAlreadyUsed{ekey.PrimaryKey.KeyIdString()}
}
// Get DB session
key, err := parseGPGKey(ownerID, ekey, verified)
if err != nil {
return nil, err
}
if err = addGPGKey(sess, key, content); err != nil {
return nil, err
}
keys = append(keys, key)
}
return keys, sess.Commit()
}

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// Copyright 2021 The Gitea Authors. All rights reserved.
// Use of this source code is governed by a MIT-style
// license that can be found in the LICENSE file.
package models
import (
"container/list"
"fmt"
"hash"
"strings"
"code.gitea.io/gitea/modules/git"
"code.gitea.io/gitea/modules/log"
"code.gitea.io/gitea/modules/setting"
"github.com/keybase/go-crypto/openpgp/packet"
)
// __________________ ________ ____ __.
// / _____/\______ \/ _____/ | |/ _|____ ___.__.
// / \ ___ | ___/ \ ___ | <_/ __ < | |
// \ \_\ \| | \ \_\ \ | | \ ___/\___ |
// \______ /|____| \______ / |____|__ \___ > ____|
// \/ \/ \/ \/\/
// _________ .__ __
// \_ ___ \ ____ _____ _____ |__|/ |_
// / \ \/ / _ \ / \ / \| \ __\
// \ \___( <_> ) Y Y \ Y Y \ || |
// \______ /\____/|__|_| /__|_| /__||__|
// \/ \/ \/
// ____ ____ .__ _____.__ __ .__
// \ \ / /___________|__|/ ____\__| ____ _____ _/ |_|__| ____ ____
// \ Y // __ \_ __ \ \ __\| |/ ___\\__ \\ __\ |/ _ \ / \
// \ /\ ___/| | \/ || | | \ \___ / __ \| | | ( <_> ) | \
// \___/ \___ >__| |__||__| |__|\___ >____ /__| |__|\____/|___| /
// \/ \/ \/ \/
// This file provides functions relating commit verification
// CommitVerification represents a commit validation of signature
type CommitVerification struct {
Verified bool
Warning bool
Reason string
SigningUser *User
CommittingUser *User
SigningEmail string
SigningKey *GPGKey
TrustStatus string
}
// SignCommit represents a commit with validation of signature.
type SignCommit struct {
Verification *CommitVerification
*UserCommit
}
const (
// BadSignature is used as the reason when the signature has a KeyID that is in the db
// but no key that has that ID verifies the signature. This is a suspicious failure.
BadSignature = "gpg.error.probable_bad_signature"
// BadDefaultSignature is used as the reason when the signature has a KeyID that matches the
// default Key but is not verified by the default key. This is a suspicious failure.
BadDefaultSignature = "gpg.error.probable_bad_default_signature"
// NoKeyFound is used as the reason when no key can be found to verify the signature.
NoKeyFound = "gpg.error.no_gpg_keys_found"
)
// ParseCommitsWithSignature checks if signaute of commits are corresponding to users gpg keys.
func ParseCommitsWithSignature(oldCommits *list.List, repository *Repository) *list.List {
var (
newCommits = list.New()
e = oldCommits.Front()
)
keyMap := map[string]bool{}
for e != nil {
c := e.Value.(UserCommit)
signCommit := SignCommit{
UserCommit: &c,
Verification: ParseCommitWithSignature(c.Commit),
}
_ = CalculateTrustStatus(signCommit.Verification, repository, &keyMap)
newCommits.PushBack(signCommit)
e = e.Next()
}
return newCommits
}
// ParseCommitWithSignature check if signature is good against keystore.
func ParseCommitWithSignature(c *git.Commit) *CommitVerification {
var committer *User
if c.Committer != nil {
var err error
// Find Committer account
committer, err = GetUserByEmail(c.Committer.Email) // This finds the user by primary email or activated email so commit will not be valid if email is not
if err != nil { // Skipping not user for committer
committer = &User{
Name: c.Committer.Name,
Email: c.Committer.Email,
}
// We can expect this to often be an ErrUserNotExist. in the case
// it is not, however, it is important to log it.
if !IsErrUserNotExist(err) {
log.Error("GetUserByEmail: %v", err)
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.no_committer_account",
}
}
}
}
// If no signature just report the committer
if c.Signature == nil {
return &CommitVerification{
CommittingUser: committer,
Verified: false, // Default value
Reason: "gpg.error.not_signed_commit", // Default value
}
}
// Parsing signature
sig, err := extractSignature(c.Signature.Signature)
if err != nil { // Skipping failed to extract sign
log.Error("SignatureRead err: %v", err)
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.extract_sign",
}
}
keyID := ""
if sig.IssuerKeyId != nil && (*sig.IssuerKeyId) != 0 {
keyID = fmt.Sprintf("%X", *sig.IssuerKeyId)
}
if keyID == "" && sig.IssuerFingerprint != nil && len(sig.IssuerFingerprint) > 0 {
keyID = fmt.Sprintf("%X", sig.IssuerFingerprint[12:20])
}
defaultReason := NoKeyFound
// First check if the sig has a keyID and if so just look at that
if commitVerification := hashAndVerifyForKeyID(
sig,
c.Signature.Payload,
committer,
keyID,
setting.AppName,
""); commitVerification != nil {
if commitVerification.Reason == BadSignature {
defaultReason = BadSignature
} else {
return commitVerification
}
}
// Now try to associate the signature with the committer, if present
if committer.ID != 0 {
keys, err := ListGPGKeys(committer.ID, ListOptions{})
if err != nil { // Skipping failed to get gpg keys of user
log.Error("ListGPGKeys: %v", err)
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.failed_retrieval_gpg_keys",
}
}
committerEmailAddresses, _ := GetEmailAddresses(committer.ID)
activated := false
for _, e := range committerEmailAddresses {
if e.IsActivated && strings.EqualFold(e.Email, c.Committer.Email) {
activated = true
break
}
}
for _, k := range keys {
// Pre-check (& optimization) that emails attached to key can be attached to the committer email and can validate
canValidate := false
email := ""
if k.Verified && activated {
canValidate = true
email = c.Committer.Email
}
if !canValidate {
for _, e := range k.Emails {
if e.IsActivated && strings.EqualFold(e.Email, c.Committer.Email) {
canValidate = true
email = e.Email
break
}
}
}
if !canValidate {
continue // Skip this key
}
commitVerification := hashAndVerifyWithSubKeysCommitVerification(sig, c.Signature.Payload, k, committer, committer, email)
if commitVerification != nil {
return commitVerification
}
}
}
if setting.Repository.Signing.SigningKey != "" && setting.Repository.Signing.SigningKey != "default" && setting.Repository.Signing.SigningKey != "none" {
// OK we should try the default key
gpgSettings := git.GPGSettings{
Sign: true,
KeyID: setting.Repository.Signing.SigningKey,
Name: setting.Repository.Signing.SigningName,
Email: setting.Repository.Signing.SigningEmail,
}
if err := gpgSettings.LoadPublicKeyContent(); err != nil {
log.Error("Error getting default signing key: %s %v", gpgSettings.KeyID, err)
} else if commitVerification := verifyWithGPGSettings(&gpgSettings, sig, c.Signature.Payload, committer, keyID); commitVerification != nil {
if commitVerification.Reason == BadSignature {
defaultReason = BadSignature
} else {
return commitVerification
}
}
}
defaultGPGSettings, err := c.GetRepositoryDefaultPublicGPGKey(false)
if err != nil {
log.Error("Error getting default public gpg key: %v", err)
} else if defaultGPGSettings == nil {
log.Warn("Unable to get defaultGPGSettings for unattached commit: %s", c.ID.String())
} else if defaultGPGSettings.Sign {
if commitVerification := verifyWithGPGSettings(defaultGPGSettings, sig, c.Signature.Payload, committer, keyID); commitVerification != nil {
if commitVerification.Reason == BadSignature {
defaultReason = BadSignature
} else {
return commitVerification
}
}
}
return &CommitVerification{ // Default at this stage
CommittingUser: committer,
Verified: false,
Warning: defaultReason != NoKeyFound,
Reason: defaultReason,
SigningKey: &GPGKey{
KeyID: keyID,
},
}
}
func verifyWithGPGSettings(gpgSettings *git.GPGSettings, sig *packet.Signature, payload string, committer *User, keyID string) *CommitVerification {
// First try to find the key in the db
if commitVerification := hashAndVerifyForKeyID(sig, payload, committer, gpgSettings.KeyID, gpgSettings.Name, gpgSettings.Email); commitVerification != nil {
return commitVerification
}
// Otherwise we have to parse the key
ekeys, err := checkArmoredGPGKeyString(gpgSettings.PublicKeyContent)
if err != nil {
log.Error("Unable to get default signing key: %v", err)
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.generate_hash",
}
}
for _, ekey := range ekeys {
pubkey := ekey.PrimaryKey
content, err := base64EncPubKey(pubkey)
if err != nil {
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.generate_hash",
}
}
k := &GPGKey{
Content: content,
CanSign: pubkey.CanSign(),
KeyID: pubkey.KeyIdString(),
}
for _, subKey := range ekey.Subkeys {
content, err := base64EncPubKey(subKey.PublicKey)
if err != nil {
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.generate_hash",
}
}
k.SubsKey = append(k.SubsKey, &GPGKey{
Content: content,
CanSign: subKey.PublicKey.CanSign(),
KeyID: subKey.PublicKey.KeyIdString(),
})
}
if commitVerification := hashAndVerifyWithSubKeysCommitVerification(sig, payload, k, committer, &User{
Name: gpgSettings.Name,
Email: gpgSettings.Email,
}, gpgSettings.Email); commitVerification != nil {
return commitVerification
}
if keyID == k.KeyID {
// This is a bad situation ... We have a key id that matches our default key but the signature doesn't match.
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Warning: true,
Reason: BadSignature,
}
}
}
return nil
}
func verifySign(s *packet.Signature, h hash.Hash, k *GPGKey) error {
// Check if key can sign
if !k.CanSign {
return fmt.Errorf("key can not sign")
}
// Decode key
pkey, err := base64DecPubKey(k.Content)
if err != nil {
return err
}
return pkey.VerifySignature(h, s)
}
func hashAndVerify(sig *packet.Signature, payload string, k *GPGKey) (*GPGKey, error) {
// Generating hash of commit
hash, err := populateHash(sig.Hash, []byte(payload))
if err != nil { // Skipping as failed to generate hash
log.Error("PopulateHash: %v", err)
return nil, err
}
// We will ignore errors in verification as they don't need to be propagated up
err = verifySign(sig, hash, k)
if err != nil {
return nil, nil
}
return k, nil
}
func hashAndVerifyWithSubKeys(sig *packet.Signature, payload string, k *GPGKey) (*GPGKey, error) {
verified, err := hashAndVerify(sig, payload, k)
if err != nil || verified != nil {
return verified, err
}
for _, sk := range k.SubsKey {
verified, err := hashAndVerify(sig, payload, sk)
if err != nil || verified != nil {
return verified, err
}
}
return nil, nil
}
func hashAndVerifyWithSubKeysCommitVerification(sig *packet.Signature, payload string, k *GPGKey, committer, signer *User, email string) *CommitVerification {
key, err := hashAndVerifyWithSubKeys(sig, payload, k)
if err != nil { // Skipping failed to generate hash
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.generate_hash",
}
}
if key != nil {
return &CommitVerification{ // Everything is ok
CommittingUser: committer,
Verified: true,
Reason: fmt.Sprintf("%s / %s", signer.Name, key.KeyID),
SigningUser: signer,
SigningKey: key,
SigningEmail: email,
}
}
return nil
}
func hashAndVerifyForKeyID(sig *packet.Signature, payload string, committer *User, keyID, name, email string) *CommitVerification {
if keyID == "" {
return nil
}
keys, err := GetGPGKeysByKeyID(keyID)
if err != nil {
log.Error("GetGPGKeysByKeyID: %v", err)
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.failed_retrieval_gpg_keys",
}
}
if len(keys) == 0 {
return nil
}
for _, key := range keys {
var primaryKeys []*GPGKey
if key.PrimaryKeyID != "" {
primaryKeys, err = GetGPGKeysByKeyID(key.PrimaryKeyID)
if err != nil {
log.Error("GetGPGKeysByKeyID: %v", err)
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.failed_retrieval_gpg_keys",
}
}
}
activated, email := checkKeyEmails(email, append([]*GPGKey{key}, primaryKeys...)...)
if !activated {
continue
}
signer := &User{
Name: name,
Email: email,
}
if key.OwnerID != 0 {
owner, err := GetUserByID(key.OwnerID)
if err == nil {
signer = owner
} else if !IsErrUserNotExist(err) {
log.Error("Failed to GetUserByID: %d for key ID: %d (%s) %v", key.OwnerID, key.ID, key.KeyID, err)
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Reason: "gpg.error.no_committer_account",
}
}
}
commitVerification := hashAndVerifyWithSubKeysCommitVerification(sig, payload, key, committer, signer, email)
if commitVerification != nil {
return commitVerification
}
}
// This is a bad situation ... We have a key id that is in our database but the signature doesn't match.
return &CommitVerification{
CommittingUser: committer,
Verified: false,
Warning: true,
Reason: BadSignature,
}
}
// CalculateTrustStatus will calculate the TrustStatus for a commit verification within a repository
func CalculateTrustStatus(verification *CommitVerification, repository *Repository, keyMap *map[string]bool) (err error) {
if !verification.Verified {
return
}
// There are several trust models in Gitea
trustModel := repository.GetTrustModel()
// In the Committer trust model a signature is trusted if it matches the committer
// - it doesn't matter if they're a collaborator, the owner, Gitea or Github
// NB: This model is commit verification only
if trustModel == CommitterTrustModel {
// default to "unmatched"
verification.TrustStatus = "unmatched"
// We can only verify against users in our database but the default key will match
// against by email if it is not in the db.
if (verification.SigningUser.ID != 0 &&
verification.CommittingUser.ID == verification.SigningUser.ID) ||
(verification.SigningUser.ID == 0 && verification.CommittingUser.ID == 0 &&
verification.SigningUser.Email == verification.CommittingUser.Email) {
verification.TrustStatus = "trusted"
}
return
}
// Now we drop to the more nuanced trust models...
verification.TrustStatus = "trusted"
if verification.SigningUser.ID == 0 {
// This commit is signed by the default key - but this key is not assigned to a user in the DB.
// However in the CollaboratorCommitterTrustModel we cannot mark this as trusted
// unless the default key matches the email of a non-user.
if trustModel == CollaboratorCommitterTrustModel && (verification.CommittingUser.ID != 0 ||
verification.SigningUser.Email != verification.CommittingUser.Email) {
verification.TrustStatus = "untrusted"
}
return
}
var isMember bool
if keyMap != nil {
var has bool
isMember, has = (*keyMap)[verification.SigningKey.KeyID]
if !has {
isMember, err = repository.IsOwnerMemberCollaborator(verification.SigningUser.ID)
(*keyMap)[verification.SigningKey.KeyID] = isMember
}
} else {
isMember, err = repository.IsOwnerMemberCollaborator(verification.SigningUser.ID)
}
if !isMember {
verification.TrustStatus = "untrusted"
if verification.CommittingUser.ID != verification.SigningUser.ID {
// The committing user and the signing user are not the same
// This should be marked as questionable unless the signing user is a collaborator/team member etc.
verification.TrustStatus = "unmatched"
}
} else if trustModel == CollaboratorCommitterTrustModel && verification.CommittingUser.ID != verification.SigningUser.ID {
// The committing user and the signing user are not the same and our trustmodel states that they must match
verification.TrustStatus = "unmatched"
}
return
}

137
models/gpg_key_common.go Normal file
View file

@ -0,0 +1,137 @@
// Copyright 2021 The Gitea Authors. All rights reserved.
// Use of this source code is governed by a MIT-style
// license that can be found in the LICENSE file.
package models
import (
"bytes"
"crypto"
"encoding/base64"
"fmt"
"hash"
"io"
"strings"
"time"
"github.com/keybase/go-crypto/openpgp"
"github.com/keybase/go-crypto/openpgp/armor"
"github.com/keybase/go-crypto/openpgp/packet"
)
// __________________ ________ ____ __.
// / _____/\______ \/ _____/ | |/ _|____ ___.__.
// / \ ___ | ___/ \ ___ | <_/ __ < | |
// \ \_\ \| | \ \_\ \ | | \ ___/\___ |
// \______ /|____| \______ / |____|__ \___ > ____|
// \/ \/ \/ \/\/
// _________
// \_ ___ \ ____ _____ _____ ____ ____
// / \ \/ / _ \ / \ / \ / _ \ / \
// \ \___( <_> ) Y Y \ Y Y ( <_> ) | \
// \______ /\____/|__|_| /__|_| /\____/|___| /
// \/ \/ \/ \/
// This file provides common functions relating to GPG Keys
// checkArmoredGPGKeyString checks if the given key string is a valid GPG armored key.
// The function returns the actual public key on success
func checkArmoredGPGKeyString(content string) (openpgp.EntityList, error) {
list, err := openpgp.ReadArmoredKeyRing(strings.NewReader(content))
if err != nil {
return nil, ErrGPGKeyParsing{err}
}
return list, nil
}
// base64EncPubKey encode public key content to base 64
func base64EncPubKey(pubkey *packet.PublicKey) (string, error) {
var w bytes.Buffer
err := pubkey.Serialize(&w)
if err != nil {
return "", err
}
return base64.StdEncoding.EncodeToString(w.Bytes()), nil
}
func readerFromBase64(s string) (io.Reader, error) {
bs, err := base64.StdEncoding.DecodeString(s)
if err != nil {
return nil, err
}
return bytes.NewBuffer(bs), nil
}
// base64DecPubKey decode public key content from base 64
func base64DecPubKey(content string) (*packet.PublicKey, error) {
b, err := readerFromBase64(content)
if err != nil {
return nil, err
}
// Read key
p, err := packet.Read(b)
if err != nil {
return nil, err
}
// Check type
pkey, ok := p.(*packet.PublicKey)
if !ok {
return nil, fmt.Errorf("key is not a public key")
}
return pkey, nil
}
// getExpiryTime extract the expire time of primary key based on sig
func getExpiryTime(e *openpgp.Entity) time.Time {
expiry := time.Time{}
// Extract self-sign for expire date based on : https://github.com/golang/crypto/blob/master/openpgp/keys.go#L165
var selfSig *packet.Signature
for _, ident := range e.Identities {
if selfSig == nil {
selfSig = ident.SelfSignature
} else if ident.SelfSignature.IsPrimaryId != nil && *ident.SelfSignature.IsPrimaryId {
selfSig = ident.SelfSignature
break
}
}
if selfSig.KeyLifetimeSecs != nil {
expiry = e.PrimaryKey.CreationTime.Add(time.Duration(*selfSig.KeyLifetimeSecs) * time.Second)
}
return expiry
}
func populateHash(hashFunc crypto.Hash, msg []byte) (hash.Hash, error) {
h := hashFunc.New()
if _, err := h.Write(msg); err != nil {
return nil, err
}
return h, nil
}
// readArmoredSign read an armored signature block with the given type. https://sourcegraph.com/github.com/golang/crypto/-/blob/openpgp/read.go#L24:6-24:17
func readArmoredSign(r io.Reader) (body io.Reader, err error) {
block, err := armor.Decode(r)
if err != nil {
return
}
if block.Type != openpgp.SignatureType {
return nil, fmt.Errorf("expected '" + openpgp.SignatureType + "', got: " + block.Type)
}
return block.Body, nil
}
func extractSignature(s string) (*packet.Signature, error) {
r, err := readArmoredSign(strings.NewReader(s))
if err != nil {
return nil, fmt.Errorf("Failed to read signature armor")
}
p, err := packet.Read(r)
if err != nil {
return nil, fmt.Errorf("Failed to read signature packet")
}
sig, ok := p.(*packet.Signature)
if !ok {
return nil, fmt.Errorf("Packet is not a signature")
}
return sig, nil
}

38
models/gpg_key_import.go Normal file
View file

@ -0,0 +1,38 @@
// Copyright 2021 The Gitea Authors. All rights reserved.
// Use of this source code is governed by a MIT-style
// license that can be found in the LICENSE file.
package models
// __________________ ________ ____ __.
// / _____/\______ \/ _____/ | |/ _|____ ___.__.
// / \ ___ | ___/ \ ___ | <_/ __ < | |
// \ \_\ \| | \ \_\ \ | | \ ___/\___ |
// \______ /|____| \______ / |____|__ \___ > ____|
// \/ \/ \/ \/\/
// .___ __
// | | _____ ______ ____________/ |_
// | |/ \\____ \ / _ \_ __ \ __\
// | | Y Y \ |_> > <_> ) | \/| |
// |___|__|_| / __/ \____/|__| |__|
// \/|__|
// This file contains functions related to the original import of a key
// GPGKeyImport the original import of key
type GPGKeyImport struct {
KeyID string `xorm:"pk CHAR(16) NOT NULL"`
Content string `xorm:"TEXT NOT NULL"`
}
// GetGPGImportByKeyID returns the import public armored key by given KeyID.
func GetGPGImportByKeyID(keyID string) (*GPGKeyImport, error) {
key := new(GPGKeyImport)
has, err := x.ID(keyID).Get(key)
if err != nil {
return nil, err
} else if !has {
return nil, ErrGPGKeyImportNotExist{keyID}
}
return key, nil
}

View file

@ -227,7 +227,7 @@ Q0KHb+QcycSgbDx0ZAvdIacuKvBBcbxrsmFUI4LR+oIup0G9gUc0roPvr014jYQL
=zHo9
-----END PGP PUBLIC KEY BLOCK-----`
keys, err := AddGPGKey(1, testEmailWithUpperCaseLetters)
keys, err := AddGPGKey(1, testEmailWithUpperCaseLetters, "", "")
assert.NoError(t, err)
if assert.NotEmpty(t, keys) {
key := keys[0]

113
models/gpg_key_verify.go Normal file
View file

@ -0,0 +1,113 @@
// Copyright 2021 The Gitea Authors. All rights reserved.
// Use of this source code is governed by a MIT-style
// license that can be found in the LICENSE file.
package models
import (
"strconv"
"time"
"code.gitea.io/gitea/modules/base"
"code.gitea.io/gitea/modules/log"
)
// __________________ ________ ____ __.
// / _____/\______ \/ _____/ | |/ _|____ ___.__.
// / \ ___ | ___/ \ ___ | <_/ __ < | |
// \ \_\ \| | \ \_\ \ | | \ ___/\___ |
// \______ /|____| \______ / |____|__ \___ > ____|
// \/ \/ \/ \/\/
// ____ ____ .__ _____
// \ \ / /___________|__|/ ____\__.__.
// \ Y // __ \_ __ \ \ __< | |
// \ /\ ___/| | \/ || | \___ |
// \___/ \___ >__| |__||__| / ____|
// \/ \/
// This file provides functions relating verifying gpg keys
// VerifyGPGKey marks a GPG key as verified
func VerifyGPGKey(ownerID int64, keyID, token, signature string) (string, error) {
sess := x.NewSession()
defer sess.Close()
if err := sess.Begin(); err != nil {
return "", err
}
key := new(GPGKey)
has, err := sess.Where("owner_id = ? AND key_id = ?", ownerID, keyID).Get(key)
if err != nil {
return "", err
} else if !has {
return "", ErrGPGKeyNotExist{}
}
sig, err := extractSignature(signature)
if err != nil {
return "", ErrGPGInvalidTokenSignature{
ID: key.KeyID,
Wrapped: err,
}
}
signer, err := hashAndVerifyWithSubKeys(sig, token, key)
if err != nil {
return "", ErrGPGInvalidTokenSignature{
ID: key.KeyID,
Wrapped: err,
}
}
if signer == nil {
signer, err = hashAndVerifyWithSubKeys(sig, token+"\n", key)
if err != nil {
return "", ErrGPGInvalidTokenSignature{
ID: key.KeyID,
Wrapped: err,
}
}
}
if signer == nil {
signer, err = hashAndVerifyWithSubKeys(sig, token+"\n\n", key)
if err != nil {
return "", ErrGPGInvalidTokenSignature{
ID: key.KeyID,
Wrapped: err,
}
}
}
if signer == nil {
log.Error("Unable to validate token signature. Error: %v", err)
return "", ErrGPGInvalidTokenSignature{
ID: key.KeyID,
}
}
if signer.PrimaryKeyID != key.KeyID && signer.KeyID != key.KeyID {
return "", ErrGPGKeyNotExist{}
}
key.Verified = true
if _, err := sess.ID(key.ID).SetExpr("verified", true).Update(new(GPGKey)); err != nil {
return "", err
}
if err := sess.Commit(); err != nil {
return "", err
}
return key.KeyID, nil
}
// VerificationToken returns token for the user that will be valid in minutes (time)
func VerificationToken(user *User, minutes int) string {
return base.EncodeSha256(
time.Now().Truncate(1*time.Minute).Add(time.Duration(minutes)*time.Minute).Format(time.RFC1123Z) + ":" +
user.CreatedUnix.FormatLong() + ":" +
user.Name + ":" +
user.Email + ":" +
strconv.FormatInt(user.ID, 10))
}

View file

@ -325,6 +325,8 @@ var migrations = []Migration{
NewMigration("Create protected tag table", createProtectedTagTable),
// v187 -> v188
NewMigration("Drop unneeded webhook related columns", dropWebhookColumns),
// v188 -> v189
NewMigration("Add key is verified to gpg key", addKeyIsVerified),
}
// GetCurrentDBVersion returns the current db version

15
models/migrations/v188.go Normal file
View file

@ -0,0 +1,15 @@
// Copyright 2021 The Gitea Authors. All rights reserved.
// Use of this source code is governed by a MIT-style
// license that can be found in the LICENSE file.
package migrations
import "xorm.io/xorm"
func addKeyIsVerified(x *xorm.Engine) error {
type GPGKey struct {
Verified bool `xorm:"NOT NULL DEFAULT false"`
}
return x.Sync(new(GPGKey))
}

View file

@ -191,6 +191,7 @@ func ToGPGKey(key *models.GPGKey) *api.GPGKey {
CanEncryptComms: k.CanEncryptComms,
CanEncryptStorage: k.CanEncryptStorage,
CanCertify: k.CanSign,
Verified: k.Verified,
}
}
emails := make([]*api.GPGKeyEmail, len(key.Emails))
@ -210,6 +211,7 @@ func ToGPGKey(key *models.GPGKey) *api.GPGKey {
CanEncryptComms: key.CanEncryptComms,
CanEncryptStorage: key.CanEncryptStorage,
CanCertify: key.CanSign,
Verified: key.Verified,
}
}

View file

@ -20,6 +20,7 @@ type GPGKey struct {
CanEncryptComms bool `json:"can_encrypt_comms"`
CanEncryptStorage bool `json:"can_encrypt_storage"`
CanCertify bool `json:"can_certify"`
Verified bool `json:"verified"`
// swagger:strfmt date-time
Created time.Time `json:"created_at,omitempty"`
// swagger:strfmt date-time
@ -40,4 +41,14 @@ type CreateGPGKeyOption struct {
// required: true
// unique: true
ArmoredKey string `json:"armored_public_key" binding:"Required"`
Signature string `json:"armored_signature,omitempty"`
}
// VerifyGPGKeyOption options verifies user GPG key
type VerifyGPGKeyOption struct {
// An Signature for a GPG key token
//
// required: true
KeyID string `json:"key_id" binding:"Required"`
Signature string `json:"armored_signature" binding:"Required"`
}

View file

@ -595,7 +595,20 @@ ssh_key_been_used = This SSH key has already been added to the server.
ssh_key_name_used = An SSH key with same name already exists on your account.
ssh_principal_been_used = This principal has already been added to the server.
gpg_key_id_used = A public GPG key with same ID already exists.
gpg_no_key_email_found = This GPG key is not usable with any email address associated with your account.
gpg_no_key_email_found = This GPG key does not match any activated email address associated with your account. It may still be added if you sign the provided token.
gpg_key_matched_identities = Matched Identities:
gpg_key_matched_identities_long=The embedded identities in this key match the following activated email addresses for this user and commits matching these email addresses can be verified with this key.
gpg_key_verified=Verified Key
gpg_key_verified_long=Key has been verified with a token and can be used to verify commits matching any activated email addresses for this user in addition to any matched identities for this key.
gpg_key_verify=Verify
gpg_invalid_token_signature = The provided GPG key, signature and token do not match or token is out-of-date.
gpg_token_required = You must provide a signature for the below token
gpg_token = Token
gpg_token_help = You can generate a signature using:
gpg_token_code = echo "%s" | gpg -a --default-key %s --detach-sig
gpg_token_signature = Armored GPG signature
key_signature_gpg_placeholder = Begins with '-----BEGIN PGP SIGNATURE-----'
verify_gpg_key_success = The GPG key '%s' has been verified.
subkeys = Subkeys
key_id = Key ID
key_name = Key Name

View file

@ -686,6 +686,9 @@ func Routes() *web.Route {
Delete(user.DeleteGPGKey)
})
m.Get("/gpg_key_token", user.GetVerificationToken)
m.Post("/gpg_key_verify", bind(api.VerifyGPGKeyOption{}), user.VerifyUserGPGKey)
m.Combo("/repos").Get(user.ListMyRepos).
Post(bind(api.CreateRepoOption{}), repo.Create)

View file

@ -5,6 +5,7 @@
package user
import (
"fmt"
"net/http"
"code.gitea.io/gitea/models"
@ -119,14 +120,84 @@ func GetGPGKey(ctx *context.APIContext) {
// CreateUserGPGKey creates new GPG key to given user by ID.
func CreateUserGPGKey(ctx *context.APIContext, form api.CreateGPGKeyOption, uid int64) {
keys, err := models.AddGPGKey(uid, form.ArmoredKey)
token := models.VerificationToken(ctx.User, 1)
lastToken := models.VerificationToken(ctx.User, 0)
keys, err := models.AddGPGKey(uid, form.ArmoredKey, token, form.Signature)
if err != nil && models.IsErrGPGInvalidTokenSignature(err) {
keys, err = models.AddGPGKey(uid, form.ArmoredKey, lastToken, form.Signature)
}
if err != nil {
HandleAddGPGKeyError(ctx, err)
HandleAddGPGKeyError(ctx, err, token)
return
}
ctx.JSON(http.StatusCreated, convert.ToGPGKey(keys[0]))
}
// GetVerificationToken returns the current token to be signed for this user
func GetVerificationToken(ctx *context.APIContext) {
// swagger:operation GET /user/gpg_key_token user getVerificationToken
// ---
// summary: Get a Token to verify
// produces:
// - text/plain
// parameters:
// responses:
// "200":
// "$ref": "#/responses/string"
// "404":
// "$ref": "#/responses/notFound"
token := models.VerificationToken(ctx.User, 1)
ctx.PlainText(http.StatusOK, []byte(token))
}
// VerifyUserGPGKey creates new GPG key to given user by ID.
func VerifyUserGPGKey(ctx *context.APIContext) {
// swagger:operation POST /user/gpg_key_verify user userVerifyGPGKey
// ---
// summary: Verify a GPG key
// consumes:
// - application/json
// produces:
// - application/json
// responses:
// "201":
// "$ref": "#/responses/GPGKey"
// "404":
// "$ref": "#/responses/notFound"
// "422":
// "$ref": "#/responses/validationError"
form := web.GetForm(ctx).(*api.VerifyGPGKeyOption)
token := models.VerificationToken(ctx.User, 1)
lastToken := models.VerificationToken(ctx.User, 0)
_, err := models.VerifyGPGKey(ctx.User.ID, form.KeyID, token, form.Signature)
if err != nil && models.IsErrGPGInvalidTokenSignature(err) {
_, err = models.VerifyGPGKey(ctx.User.ID, form.KeyID, lastToken, form.Signature)
}
if err != nil {
if models.IsErrGPGInvalidTokenSignature(err) {
ctx.Error(http.StatusUnprocessableEntity, "GPGInvalidSignature", fmt.Sprintf("The provided GPG key, signature and token do not match or token is out of date. Provide a valid signature for the token: %s", token))
return
}
ctx.Error(http.StatusInternalServerError, "VerifyUserGPGKey", err)
}
key, err := models.GetGPGKeysByKeyID(form.KeyID)
if err != nil {
if models.IsErrGPGKeyNotExist(err) {
ctx.NotFound()
} else {
ctx.Error(http.StatusInternalServerError, "GetGPGKeysByKeyID", err)
}
return
}
ctx.JSON(http.StatusOK, convert.ToGPGKey(key[0]))
}
// swagger:parameters userCurrentPostGPGKey
type swaggerUserCurrentPostGPGKey struct {
// in:body
@ -189,7 +260,7 @@ func DeleteGPGKey(ctx *context.APIContext) {
}
// HandleAddGPGKeyError handle add GPGKey error
func HandleAddGPGKeyError(ctx *context.APIContext, err error) {
func HandleAddGPGKeyError(ctx *context.APIContext, err error, token string) {
switch {
case models.IsErrGPGKeyAccessDenied(err):
ctx.Error(http.StatusUnprocessableEntity, "GPGKeyAccessDenied", "You do not have access to this GPG key")
@ -198,7 +269,9 @@ func HandleAddGPGKeyError(ctx *context.APIContext, err error) {
case models.IsErrGPGKeyParsing(err):
ctx.Error(http.StatusUnprocessableEntity, "GPGKeyParsing", err)
case models.IsErrGPGNoEmailFound(err):
ctx.Error(http.StatusNotFound, "GPGNoEmailFound", err)
ctx.Error(http.StatusNotFound, "GPGNoEmailFound", fmt.Sprintf("None of the emails attached to the GPG key could be found. It may still be added if you provide a valid signature for the token: %s", token))
case models.IsErrGPGInvalidTokenSignature(err):
ctx.Error(http.StatusUnprocessableEntity, "GPGInvalidSignature", fmt.Sprintf("The provided GPG key, signature and token do not match or token is out of date. Provide a valid signature for the token: %s", token))
default:
ctx.Error(http.StatusInternalServerError, "AddGPGKey", err)
}

View file

@ -76,7 +76,13 @@ func KeysPost(ctx *context.Context) {
ctx.Flash.Success(ctx.Tr("settings.add_principal_success", form.Content))
ctx.Redirect(setting.AppSubURL + "/user/settings/keys")
case "gpg":
keys, err := models.AddGPGKey(ctx.User.ID, form.Content)
token := models.VerificationToken(ctx.User, 1)
lastToken := models.VerificationToken(ctx.User, 0)
keys, err := models.AddGPGKey(ctx.User.ID, form.Content, token, form.Signature)
if err != nil && models.IsErrGPGInvalidTokenSignature(err) {
keys, err = models.AddGPGKey(ctx.User.ID, form.Content, lastToken, form.Signature)
}
if err != nil {
ctx.Data["HasGPGError"] = true
switch {
@ -88,10 +94,18 @@ func KeysPost(ctx *context.Context) {
ctx.Data["Err_Content"] = true
ctx.RenderWithErr(ctx.Tr("settings.gpg_key_id_used"), tplSettingsKeys, &form)
case models.IsErrGPGInvalidTokenSignature(err):
loadKeysData(ctx)
ctx.Data["Err_Content"] = true
ctx.Data["Err_Signature"] = true
ctx.Data["KeyID"] = err.(models.ErrGPGInvalidTokenSignature).ID
ctx.RenderWithErr(ctx.Tr("settings.gpg_invalid_token_signature"), tplSettingsKeys, &form)
case models.IsErrGPGNoEmailFound(err):
loadKeysData(ctx)
ctx.Data["Err_Content"] = true
ctx.Data["Err_Signature"] = true
ctx.Data["KeyID"] = err.(models.ErrGPGNoEmailFound).ID
ctx.RenderWithErr(ctx.Tr("settings.gpg_no_key_email_found"), tplSettingsKeys, &form)
default:
ctx.ServerError("AddPublicKey", err)
@ -108,6 +122,29 @@ func KeysPost(ctx *context.Context) {
}
ctx.Flash.Success(ctx.Tr("settings.add_gpg_key_success", keyIDs))
ctx.Redirect(setting.AppSubURL + "/user/settings/keys")
case "verify_gpg":
token := models.VerificationToken(ctx.User, 1)
lastToken := models.VerificationToken(ctx.User, 0)
keyID, err := models.VerifyGPGKey(ctx.User.ID, form.KeyID, token, form.Signature)
if err != nil && models.IsErrGPGInvalidTokenSignature(err) {
keyID, err = models.VerifyGPGKey(ctx.User.ID, form.KeyID, lastToken, form.Signature)
}
if err != nil {
ctx.Data["HasGPGVerifyError"] = true
switch {
case models.IsErrGPGInvalidTokenSignature(err):
loadKeysData(ctx)
ctx.Data["VerifyingID"] = form.KeyID
ctx.Data["Err_Signature"] = true
ctx.Data["KeyID"] = err.(models.ErrGPGInvalidTokenSignature).ID
ctx.RenderWithErr(ctx.Tr("settings.gpg_invalid_token_signature"), tplSettingsKeys, &form)
default:
ctx.ServerError("VerifyGPG", err)
}
}
ctx.Flash.Success(ctx.Tr("settings.verify_gpg_key_success", keyID))
ctx.Redirect(setting.AppSubURL + "/user/settings/keys")
case "ssh":
content, err := models.CheckPublicKeyString(form.Content)
if err != nil {
@ -216,6 +253,10 @@ func loadKeysData(ctx *context.Context) {
return
}
ctx.Data["GPGKeys"] = gpgkeys
tokenToSign := models.VerificationToken(ctx.User, 1)
// generate a new aes cipher using the csrfToken
ctx.Data["TokenToSign"] = tokenToSign
principals, err := models.ListPrincipalKeys(ctx.User.ID, models.ListOptions{})
if err != nil {
@ -223,4 +264,6 @@ func loadKeysData(ctx *context.Context) {
return
}
ctx.Data["Principals"] = principals
ctx.Data["VerifyingID"] = ctx.Query("verify_gpg")
}

View file

@ -326,6 +326,8 @@ type AddKeyForm struct {
Type string `binding:"OmitEmpty"`
Title string `binding:"Required;MaxSize(50)"`
Content string `binding:"Required"`
Signature string `binding:"OmitEmpty"`
KeyID string `binding:"OmitEmpty"`
IsWritable bool
}

View file

@ -10714,6 +10714,52 @@
}
}
},
"/user/gpg_key_token": {
"get": {
"produces": [
"text/plain"
],
"tags": [
"user"
],
"summary": "Get a Token to verify",
"operationId": "getVerificationToken",
"responses": {
"200": {
"$ref": "#/responses/string"
},
"404": {
"$ref": "#/responses/notFound"
}
}
}
},
"/user/gpg_key_verify": {
"post": {
"consumes": [
"application/json"
],
"produces": [
"application/json"
],
"tags": [
"user"
],
"summary": "Verify a GPG key",
"operationId": "userVerifyGPGKey",
"responses": {
"201": {
"$ref": "#/responses/GPGKey"
},
"404": {
"$ref": "#/responses/notFound"
},
"422": {
"$ref": "#/responses/validationError"
}
}
}
},
"/user/gpg_keys": {
"get": {
"produces": [
@ -12826,6 +12872,10 @@
"type": "string",
"uniqueItems": true,
"x-go-name": "ArmoredKey"
},
"armored_signature": {
"type": "string",
"x-go-name": "Signature"
}
},
"x-go-package": "code.gitea.io/gitea/modules/structs"
@ -14484,6 +14534,10 @@
"$ref": "#/definitions/GPGKey"
},
"x-go-name": "SubsKey"
},
"verified": {
"type": "boolean",
"x-go-name": "Verified"
}
},
"x-go-package": "code.gitea.io/gitea/modules/structs"

View file

@ -15,12 +15,20 @@
<button class="ui red tiny button delete-button" id="delete-gpg" data-url="{{$.Link}}/delete?type=gpg" data-id="{{.ID}}">
{{$.i18n.Tr "settings.delete_key"}}
</button>
{{if and (not .Verified) (ne $.VerifyingID .KeyID)}}
<a class="ui blue tiny show-panel button" href="{{$.Link}}?verify_gpg={{.KeyID}}">{{$.i18n.Tr "settings.gpg_key_verify"}}</a>
{{end}}
</div>
<div class="left floated content">
<span class="{{if or .ExpiredUnix.IsZero ($.PageStartTime.Before .ExpiredUnix.AsTime)}}green{{end}}">{{svg "octicon-key" 32}}</span>
</div>
<div class="content">
{{range .Emails}}<strong>{{.Email}} </strong>{{end}}
{{if .Verified}}
<span class="poping up" data-content="{{$.i18n.Tr "settings.gpg_key_verified_long"}}">{{svg "octicon-shield-check"}} <strong>{{$.i18n.Tr "settings.gpg_key_verified"}}</strong></span>
{{end}}
{{if gt (len .Emails) 0}}
<span class="poping up" data-content="{{$.i18n.Tr "settings.gpg_key_matched_identities_long"}}">{{svg "octicon-mail"}} {{$.i18n.Tr "settings.gpg_key_matched_identities"}} {{range .Emails}}<strong>{{.Email}} </strong>{{end}}</span>
{{end}}
<div class="print meta">
<b>{{$.i18n.Tr "settings.key_id"}}:</b> {{.KeyID}}
<b>{{$.i18n.Tr "settings.subkeys"}}:</b> {{range .SubsKey}} {{.KeyID}} {{end}}
@ -32,6 +40,37 @@
</div>
</div>
</div>
{{if and (not .Verified) (eq $.VerifyingID .KeyID)}}
<div class="ui segment">
<h4>{{$.i18n.Tr "settings.gpg_token_required"}}</h4>
<form class="ui form{{if $.HasGPGVerifyError}} error{{end}}" action="{{$.Link}}" method="post">
{{$.CsrfTokenHtml}}
<input type="hidden" name="title" value="none">
<input type="hidden" name="content" value="{{.KeyID}}">
<input type="hidden" name="key_id" value="{{.KeyID}}">
<div class="field">
<label for="token">{{$.i18n.Tr "settings.gpg_token"}}</label>
<input readonly="" value="{{$.TokenToSign}}">
<div class="help">
<p>{{$.i18n.Tr "settings.gpg_token_help"}}</p>
<p><code>{{$.i18n.Tr "settings.gpg_token_code" $.TokenToSign .KeyID}}</code></p>
</div>
<br>
</div>
<div class="field">
<label for="signature">{{$.i18n.Tr "settings.gpg_token_signature"}}</label>
<textarea id="gpg-key-signature" name="signature" placeholder="{{$.i18n.Tr "settings.key_signature_gpg_placeholder"}}" required>{{$.signature}}</textarea>
</div>
<input name="type" type="hidden" value="verify_gpg">
<button class="ui green button">
{{$.i18n.Tr "settings.gpg_key_verify"}}
</button>
<a class="ui red button" href="{{$.Link}}">
{{$.i18n.Tr "settings.cancel"}}
</a>
</form>
</div>
{{end}}
{{end}}
</div>
</div>
@ -42,13 +81,30 @@
{{.i18n.Tr "settings.add_new_gpg_key"}}
</h4>
<div class="ui attached segment">
<form class="ui form" action="{{.Link}}" method="post">
<form class="ui form{{if .HasGPGError}} error{{end}}" action="{{.Link}}" method="post">
{{.CsrfTokenHtml}}
<input type="hidden" name="title" value="none">
<div class="field {{if .Err_Content}}error{{end}}">
<label for="content">{{.i18n.Tr "settings.key_content"}}</label>
<textarea id="gpg-key-content" name="content" placeholder="{{.i18n.Tr "settings.key_content_gpg_placeholder"}}" required>{{.content}}</textarea>
</div>
{{if .Err_Signature}}
<div class="ui error message">
<p>{{.i18n.Tr "settings.gpg_token_required"}}</p>
</div>
<div class="field">
<label for="token">{{.i18n.Tr "setting.gpg_token"}}
<input readonly="" value="{{.TokenToSign}}">
<div class="help">
<p>{{.i18n.Tr "settings.gpg_token_help"}}</p>
<p><code>{{$.i18n.Tr "settings.gpg_token_code" .TokenToSign .KeyID}}</code></p>
</div>
</div>
<div class="field">
<label for="signature">{{.i18n.Tr "settings.gpg_token_signature"}}</label>
<textarea id="gpg-key-signature" name="signature" placeholder="{{.i18n.Tr "settings.key_signature_gpg_placeholder"}}" required>{{.signature}}</textarea>
</div>
{{end}}
<input name="type" type="hidden" value="gpg">
<button class="ui green button">
{{.i18n.Tr "settings.add_key"}}