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|
// Package gpgme provides a Go wrapper for the GPGME library
package gpgme
// #cgo pkg-config: gpgme
// #cgo LDFLAGS: -lgpgme -lassuan -lgpg-error
// #cgo CPPFLAGS: -D_FILE_OFFSET_BITS=64
// #include <stdlib.h>
// #include <gpgme.h>
// #include "go_gpgme.h"
import "C"
import (
"fmt"
"io"
"os"
"runtime"
"time"
"unsafe"
)
var Version string
func init() {
Version = C.GoString(C.gpgme_check_version(nil))
}
// Callback is the function that is called when a passphrase is required
type Callback func(uidHint string, prevWasBad bool, f *os.File) error
//export gogpgme_passfunc
func gogpgme_passfunc(hook unsafe.Pointer, uid_hint, passphrase_info *C.char, prev_was_bad, fd C.int) C.gpgme_error_t {
c := callbackLookup(uintptr(hook)).(*Context)
go_uid_hint := C.GoString(uid_hint)
f := os.NewFile(uintptr(fd), go_uid_hint)
defer f.Close()
err := c.callback(go_uid_hint, prev_was_bad != 0, f)
if err != nil {
return C.GPG_ERR_CANCELED
}
return 0
}
type Protocol int
const (
ProtocolOpenPGP Protocol = C.GPGME_PROTOCOL_OpenPGP
ProtocolCMS Protocol = C.GPGME_PROTOCOL_CMS
ProtocolGPGConf Protocol = C.GPGME_PROTOCOL_GPGCONF
ProtocolAssuan Protocol = C.GPGME_PROTOCOL_ASSUAN
ProtocolG13 Protocol = C.GPGME_PROTOCOL_G13
ProtocolUIServer Protocol = C.GPGME_PROTOCOL_UISERVER
ProtocolDefault Protocol = C.GPGME_PROTOCOL_DEFAULT
ProtocolUnknown Protocol = C.GPGME_PROTOCOL_UNKNOWN
)
type PinEntryMode int
const (
PinEntryDefault PinEntryMode = C.GPGME_PINENTRY_MODE_DEFAULT
PinEntryAsk PinEntryMode = C.GPGME_PINENTRY_MODE_ASK
PinEntryCancel PinEntryMode = C.GPGME_PINENTRY_MODE_CANCEL
PinEntryError PinEntryMode = C.GPGME_PINENTRY_MODE_ERROR
PinEntryLoopback PinEntryMode = C.GPGME_PINENTRY_MODE_LOOPBACK
)
type EncryptFlag uint
const (
EncryptAlwaysTrust EncryptFlag = C.GPGME_ENCRYPT_ALWAYS_TRUST
EncryptNoEncryptTo EncryptFlag = C.GPGME_ENCRYPT_NO_ENCRYPT_TO
EncryptPrepare EncryptFlag = C.GPGME_ENCRYPT_PREPARE
EncryptExceptSign EncryptFlag = C.GPGME_ENCRYPT_EXPECT_SIGN
)
type HashAlgo int
// const values for HashAlgo values should be added when necessary.
type KeyListMode uint
const (
KeyListModeLocal KeyListMode = C.GPGME_KEYLIST_MODE_LOCAL
KeyListModeExtern KeyListMode = C.GPGME_KEYLIST_MODE_EXTERN
KeyListModeSigs KeyListMode = C.GPGME_KEYLIST_MODE_SIGS
KeyListModeSigNotations KeyListMode = C.GPGME_KEYLIST_MODE_SIG_NOTATIONS
KeyListModeEphemeral KeyListMode = C.GPGME_KEYLIST_MODE_EPHEMERAL
KeyListModeModeValidate KeyListMode = C.GPGME_KEYLIST_MODE_VALIDATE
)
type PubkeyAlgo int
// const values for PubkeyAlgo values should be added when necessary.
type SigMode int
const (
SigModeNormal SigMode = C.GPGME_SIG_MODE_NORMAL
SigModeDetach SigMode = C.GPGME_SIG_MODE_DETACH
SigModeClear SigMode = C.GPGME_SIG_MODE_CLEAR
)
type SigSum int
const (
SigSumValid SigSum = C.GPGME_SIGSUM_VALID
SigSumGreen SigSum = C.GPGME_SIGSUM_GREEN
SigSumRed SigSum = C.GPGME_SIGSUM_RED
SigSumKeyRevoked SigSum = C.GPGME_SIGSUM_KEY_REVOKED
SigSumKeyExpired SigSum = C.GPGME_SIGSUM_KEY_EXPIRED
SigSumSigExpired SigSum = C.GPGME_SIGSUM_SIG_EXPIRED
SigSumKeyMissing SigSum = C.GPGME_SIGSUM_KEY_MISSING
SigSumCRLMissing SigSum = C.GPGME_SIGSUM_CRL_MISSING
SigSumCRLTooOld SigSum = C.GPGME_SIGSUM_CRL_TOO_OLD
SigSumBadPolicy SigSum = C.GPGME_SIGSUM_BAD_POLICY
SigSumSysError SigSum = C.GPGME_SIGSUM_SYS_ERROR
)
type Validity int
const (
ValidityUnknown Validity = C.GPGME_VALIDITY_UNKNOWN
ValidityUndefined Validity = C.GPGME_VALIDITY_UNDEFINED
ValidityNever Validity = C.GPGME_VALIDITY_NEVER
ValidityMarginal Validity = C.GPGME_VALIDITY_MARGINAL
ValidityFull Validity = C.GPGME_VALIDITY_FULL
ValidityUltimate Validity = C.GPGME_VALIDITY_ULTIMATE
)
type ErrorCode int
const (
ErrorNoError ErrorCode = C.GPG_ERR_NO_ERROR
ErrorEOF ErrorCode = C.GPG_ERR_EOF
)
// Error is a wrapper for GPGME errors
type Error struct {
err C.gpgme_error_t
}
func (e Error) Code() ErrorCode {
return ErrorCode(C.gpgme_err_code(e.err))
}
func (e Error) Error() string {
return C.GoString(C.gpgme_strerror(e.err))
}
func handleError(err C.gpgme_error_t) error {
e := Error{err: err}
if e.Code() == ErrorNoError {
return nil
}
return e
}
func cbool(b bool) C.int {
if b {
return 1
}
return 0
}
func EngineCheckVersion(p Protocol) error {
return handleError(C.gpgme_engine_check_version(C.gpgme_protocol_t(p)))
}
type EngineInfo struct {
next *EngineInfo
protocol Protocol
fileName string
homeDir string
version string
requiredVersion string
}
func copyEngineInfo(info C.gpgme_engine_info_t) *EngineInfo {
res := &EngineInfo{
next: nil,
protocol: Protocol(info.protocol),
fileName: C.GoString(info.file_name),
homeDir: C.GoString(info.home_dir),
version: C.GoString(info.version),
requiredVersion: C.GoString(info.req_version),
}
if info.next != nil {
res.next = copyEngineInfo(info.next)
}
return res
}
func (e *EngineInfo) Next() *EngineInfo {
return e.next
}
func (e *EngineInfo) Protocol() Protocol {
return e.protocol
}
func (e *EngineInfo) FileName() string {
return e.fileName
}
func (e *EngineInfo) Version() string {
return e.version
}
func (e *EngineInfo) RequiredVersion() string {
return e.requiredVersion
}
func (e *EngineInfo) HomeDir() string {
return e.homeDir
}
func GetEngineInfo() (*EngineInfo, error) {
var cInfo C.gpgme_engine_info_t
err := handleError(C.gpgme_get_engine_info(&cInfo))
if err != nil {
return nil, err
}
return copyEngineInfo(cInfo), nil // It is up to the caller not to invalidate cInfo concurrently until this is done.
}
func SetEngineInfo(proto Protocol, fileName, homeDir string) error {
var cfn, chome *C.char
if fileName != "" {
cfn = C.CString(fileName)
defer C.free(unsafe.Pointer(cfn))
}
if homeDir != "" {
chome = C.CString(homeDir)
defer C.free(unsafe.Pointer(chome))
}
return handleError(C.gpgme_set_engine_info(C.gpgme_protocol_t(proto), cfn, chome))
}
func FindKeys(pattern string, secretOnly bool) ([]*Key, error) {
var keys []*Key
ctx, err := New()
if err != nil {
return keys, err
}
defer ctx.Release()
if err := ctx.KeyListStart(pattern, secretOnly); err != nil {
return keys, err
}
defer ctx.KeyListEnd()
for ctx.KeyListNext() {
keys = append(keys, ctx.Key)
}
if ctx.KeyError != nil {
return keys, ctx.KeyError
}
return keys, nil
}
func Decrypt(r io.Reader) (*Data, error) {
ctx, err := New()
if err != nil {
return nil, err
}
defer ctx.Release()
cipher, err := NewDataReader(r)
if err != nil {
return nil, err
}
defer cipher.Close()
plain, err := NewData()
if err != nil {
return nil, err
}
err = ctx.Decrypt(cipher, plain)
plain.Seek(0, SeekSet)
return plain, err
}
type Context struct {
Key *Key
KeyError error
callback Callback
cbc uintptr // WARNING: Call runtime.KeepAlive(c) after ANY use of c.cbc in C (typically via c.ctx)
ctx C.gpgme_ctx_t // WARNING: Call runtime.KeepAlive(c) after ANY passing of c.ctx to C
}
func New() (*Context, error) {
c := &Context{}
err := C.gpgme_new(&c.ctx)
runtime.SetFinalizer(c, (*Context).Release)
return c, handleError(err)
}
func (c *Context) Release() {
if c.ctx == nil {
return
}
if c.cbc > 0 {
callbackDelete(c.cbc)
}
C.gpgme_release(c.ctx)
runtime.KeepAlive(c)
c.ctx = nil
}
func (c *Context) SetArmor(yes bool) {
C.gpgme_set_armor(c.ctx, cbool(yes))
runtime.KeepAlive(c)
}
func (c *Context) Armor() bool {
res := C.gpgme_get_armor(c.ctx) != 0
runtime.KeepAlive(c)
return res
}
func (c *Context) SetTextMode(yes bool) {
C.gpgme_set_textmode(c.ctx, cbool(yes))
runtime.KeepAlive(c)
}
func (c *Context) TextMode() bool {
res := C.gpgme_get_textmode(c.ctx) != 0
runtime.KeepAlive(c)
return res
}
func (c *Context) SetProtocol(p Protocol) error {
err := handleError(C.gpgme_set_protocol(c.ctx, C.gpgme_protocol_t(p)))
runtime.KeepAlive(c)
return err
}
func (c *Context) Protocol() Protocol {
res := Protocol(C.gpgme_get_protocol(c.ctx))
runtime.KeepAlive(c)
return res
}
func (c *Context) SetKeyListMode(m KeyListMode) error {
err := handleError(C.gpgme_set_keylist_mode(c.ctx, C.gpgme_keylist_mode_t(m)))
runtime.KeepAlive(c)
return err
}
func (c *Context) KeyListMode() KeyListMode {
res := KeyListMode(C.gpgme_get_keylist_mode(c.ctx))
runtime.KeepAlive(c)
return res
}
func (c *Context) SetPinEntryMode(m PinEntryMode) error {
err := handleError(C.gpgme_set_pinentry_mode(c.ctx, C.gpgme_pinentry_mode_t(m)))
runtime.KeepAlive(c)
return err
}
func (c *Context) PinEntryMode() PinEntryMode {
res := PinEntryMode(C.gpgme_get_pinentry_mode(c.ctx))
runtime.KeepAlive(c)
return res
}
func (c *Context) SetCallback(callback Callback) error {
var err error
c.callback = callback
if c.cbc > 0 {
callbackDelete(c.cbc)
}
if callback != nil {
cbc := callbackAdd(c)
c.cbc = cbc
_, err = C.gogpgme_set_passphrase_cb(c.ctx, C.gpgme_passphrase_cb_t(C.gogpgme_passfunc), C.uintptr_t(cbc))
} else {
c.cbc = 0
_, err = C.gogpgme_set_passphrase_cb(c.ctx, nil, 0)
}
runtime.KeepAlive(c)
return err
}
func (c *Context) EngineInfo() *EngineInfo {
cInfo := C.gpgme_ctx_get_engine_info(c.ctx)
runtime.KeepAlive(c)
// NOTE: c must be live as long as we are accessing cInfo.
res := copyEngineInfo(cInfo)
runtime.KeepAlive(c) // for accesses to cInfo
return res
}
func (c *Context) SetEngineInfo(proto Protocol, fileName, homeDir string) error {
var cfn, chome *C.char
if fileName != "" {
cfn = C.CString(fileName)
defer C.free(unsafe.Pointer(cfn))
}
if homeDir != "" {
chome = C.CString(homeDir)
defer C.free(unsafe.Pointer(chome))
}
err := handleError(C.gpgme_ctx_set_engine_info(c.ctx, C.gpgme_protocol_t(proto), cfn, chome))
runtime.KeepAlive(c)
return err
}
func (c *Context) KeyListStart(pattern string, secretOnly bool) error {
cpattern := C.CString(pattern)
defer C.free(unsafe.Pointer(cpattern))
err := handleError(C.gpgme_op_keylist_start(c.ctx, cpattern, cbool(secretOnly)))
runtime.KeepAlive(c)
return err
}
func (c *Context) KeyListNext() bool {
c.Key = newKey()
err := handleError(C.gpgme_op_keylist_next(c.ctx, &c.Key.k))
runtime.KeepAlive(c) // implies runtime.KeepAlive(c.Key)
if err != nil {
if e, ok := err.(Error); ok && e.Code() == ErrorEOF {
c.KeyError = nil
} else {
c.KeyError = err
}
return false
}
c.KeyError = nil
return true
}
func (c *Context) KeyListEnd() error {
err := handleError(C.gpgme_op_keylist_end(c.ctx))
runtime.KeepAlive(c)
return err
}
func (c *Context) GetKey(fingerprint string, secret bool) (*Key, error) {
key := newKey()
cfpr := C.CString(fingerprint)
defer C.free(unsafe.Pointer(cfpr))
err := handleError(C.gpgme_get_key(c.ctx, cfpr, &key.k, cbool(secret)))
runtime.KeepAlive(c)
runtime.KeepAlive(key)
keyKIsNil := key.k == nil
runtime.KeepAlive(key)
if e, ok := err.(Error); keyKIsNil && ok && e.Code() == ErrorEOF {
return nil, fmt.Errorf("key %q not found", fingerprint)
}
if err != nil {
return nil, err
}
return key, nil
}
func (c *Context) Decrypt(ciphertext, plaintext *Data) error {
err := handleError(C.gpgme_op_decrypt(c.ctx, ciphertext.dh, plaintext.dh))
runtime.KeepAlive(c)
runtime.KeepAlive(ciphertext)
runtime.KeepAlive(plaintext)
return err
}
func (c *Context) DecryptVerify(ciphertext, plaintext *Data) error {
err := handleError(C.gpgme_op_decrypt_verify(c.ctx, ciphertext.dh, plaintext.dh))
runtime.KeepAlive(c)
runtime.KeepAlive(ciphertext)
runtime.KeepAlive(plaintext)
return err
}
type Signature struct {
Summary SigSum
Fingerprint string
Status error
Timestamp time.Time
ExpTimestamp time.Time
WrongKeyUsage bool
PKATrust uint
ChainModel bool
Validity Validity
ValidityReason error
PubkeyAlgo PubkeyAlgo
HashAlgo HashAlgo
}
func (c *Context) Verify(sig, signedText, plain *Data) (string, []Signature, error) {
var signedTextPtr, plainPtr C.gpgme_data_t = nil, nil
if signedText != nil {
signedTextPtr = signedText.dh
}
if plain != nil {
plainPtr = plain.dh
}
err := handleError(C.gpgme_op_verify(c.ctx, sig.dh, signedTextPtr, plainPtr))
runtime.KeepAlive(c)
runtime.KeepAlive(sig)
if signedText != nil {
runtime.KeepAlive(signedText)
}
if plain != nil {
runtime.KeepAlive(plain)
}
if err != nil {
return "", nil, err
}
res := C.gpgme_op_verify_result(c.ctx)
runtime.KeepAlive(c)
// NOTE: c must be live as long as we are accessing res.
sigs := []Signature{}
for s := res.signatures; s != nil; s = s.next {
sig := Signature{
Summary: SigSum(s.summary),
Fingerprint: C.GoString(s.fpr),
Status: handleError(s.status),
// s.notations not implemented
Timestamp: time.Unix(int64(s.timestamp), 0),
ExpTimestamp: time.Unix(int64(s.exp_timestamp), 0),
WrongKeyUsage: C.signature_wrong_key_usage(s) != 0,
PKATrust: uint(C.signature_pka_trust(s)),
ChainModel: C.signature_chain_model(s) != 0,
Validity: Validity(s.validity),
ValidityReason: handleError(s.validity_reason),
PubkeyAlgo: PubkeyAlgo(s.pubkey_algo),
HashAlgo: HashAlgo(s.hash_algo),
}
sigs = append(sigs, sig)
}
fileName := C.GoString(res.file_name)
runtime.KeepAlive(c) // for all accesses to res above
return fileName, sigs, nil
}
func (c *Context) Encrypt(recipients []*Key, flags EncryptFlag, plaintext, ciphertext *Data) error {
size := unsafe.Sizeof(new(C.gpgme_key_t))
recp := C.calloc(C.size_t(len(recipients)+1), C.size_t(size))
defer C.free(recp)
for i := range recipients {
ptr := (*C.gpgme_key_t)(unsafe.Pointer(uintptr(recp) + size*uintptr(i)))
*ptr = recipients[i].k
}
err := C.gpgme_op_encrypt(c.ctx, (*C.gpgme_key_t)(recp), C.gpgme_encrypt_flags_t(flags), plaintext.dh, ciphertext.dh)
runtime.KeepAlive(c)
runtime.KeepAlive(recipients)
runtime.KeepAlive(plaintext)
runtime.KeepAlive(ciphertext)
return handleError(err)
}
func (c *Context) Sign(signers []*Key, plain, sig *Data, mode SigMode) error {
C.gpgme_signers_clear(c.ctx)
runtime.KeepAlive(c)
for _, k := range signers {
err := handleError(C.gpgme_signers_add(c.ctx, k.k))
runtime.KeepAlive(c)
runtime.KeepAlive(k)
if err != nil {
C.gpgme_signers_clear(c.ctx)
runtime.KeepAlive(c)
return err
}
}
err := handleError(C.gpgme_op_sign(c.ctx, plain.dh, sig.dh, C.gpgme_sig_mode_t(mode)))
runtime.KeepAlive(c)
runtime.KeepAlive(plain)
runtime.KeepAlive(sig)
return err
}
type AssuanDataCallback func(data []byte) error
type AssuanInquireCallback func(name, args string) error
type AssuanStatusCallback func(status, args string) error
// AssuanSend sends a raw Assuan command to gpg-agent
func (c *Context) AssuanSend(
cmd string,
data AssuanDataCallback,
inquiry AssuanInquireCallback,
status AssuanStatusCallback,
) error {
var operr C.gpgme_error_t
dataPtr := callbackAdd(&data)
inquiryPtr := callbackAdd(&inquiry)
statusPtr := callbackAdd(&status)
cmdCStr := C.CString(cmd)
defer C.free(unsafe.Pointer(cmdCStr))
err := C.gogpgme_op_assuan_transact_ext(
c.ctx,
cmdCStr,
C.uintptr_t(dataPtr),
C.uintptr_t(inquiryPtr),
C.uintptr_t(statusPtr),
&operr,
)
runtime.KeepAlive(c)
if handleError(operr) != nil {
return handleError(operr)
}
return handleError(err)
}
//export gogpgme_assuan_data_callback
func gogpgme_assuan_data_callback(handle unsafe.Pointer, data unsafe.Pointer, datalen C.size_t) C.gpgme_error_t {
c := callbackLookup(uintptr(handle)).(*AssuanDataCallback)
if *c == nil {
return 0
}
(*c)(C.GoBytes(data, C.int(datalen)))
return 0
}
//export gogpgme_assuan_inquiry_callback
func gogpgme_assuan_inquiry_callback(handle unsafe.Pointer, cName *C.char, cArgs *C.char) C.gpgme_error_t {
name := C.GoString(cName)
args := C.GoString(cArgs)
c := callbackLookup(uintptr(handle)).(*AssuanInquireCallback)
if *c == nil {
return 0
}
(*c)(name, args)
return 0
}
//export gogpgme_assuan_status_callback
func gogpgme_assuan_status_callback(handle unsafe.Pointer, cStatus *C.char, cArgs *C.char) C.gpgme_error_t {
status := C.GoString(cStatus)
args := C.GoString(cArgs)
c := callbackLookup(uintptr(handle)).(*AssuanStatusCallback)
if *c == nil {
return 0
}
(*c)(status, args)
return 0
}
// ExportModeFlags defines how keys are exported from Export
type ExportModeFlags uint
const (
ExportModeExtern ExportModeFlags = C.GPGME_EXPORT_MODE_EXTERN
ExportModeMinimal ExportModeFlags = C.GPGME_EXPORT_MODE_MINIMAL
)
func (c *Context) Export(pattern string, mode ExportModeFlags, data *Data) error {
pat := C.CString(pattern)
defer C.free(unsafe.Pointer(pat))
err := handleError(C.gpgme_op_export(c.ctx, pat, C.gpgme_export_mode_t(mode), data.dh))
runtime.KeepAlive(c)
runtime.KeepAlive(data)
return err
}
// ImportStatusFlags describes the type of ImportStatus.Status. The C API in gpgme.h simply uses "unsigned".
type ImportStatusFlags uint
const (
ImportNew ImportStatusFlags = C.GPGME_IMPORT_NEW
ImportUID ImportStatusFlags = C.GPGME_IMPORT_UID
ImportSIG ImportStatusFlags = C.GPGME_IMPORT_SIG
ImportSubKey ImportStatusFlags = C.GPGME_IMPORT_SUBKEY
ImportSecret ImportStatusFlags = C.GPGME_IMPORT_SECRET
)
type ImportStatus struct {
Fingerprint string
Result error
Status ImportStatusFlags
}
type ImportResult struct {
Considered int
NoUserID int
Imported int
ImportedRSA int
Unchanged int
NewUserIDs int
NewSubKeys int
NewSignatures int
NewRevocations int
SecretRead int
SecretImported int
SecretUnchanged int
NotImported int
Imports []ImportStatus
}
func (c *Context) Import(keyData *Data) (*ImportResult, error) {
err := handleError(C.gpgme_op_import(c.ctx, keyData.dh))
runtime.KeepAlive(c)
runtime.KeepAlive(keyData)
if err != nil {
return nil, err
}
res := C.gpgme_op_import_result(c.ctx)
runtime.KeepAlive(c)
// NOTE: c must be live as long as we are accessing res.
imports := []ImportStatus{}
for s := res.imports; s != nil; s = s.next {
imports = append(imports, ImportStatus{
Fingerprint: C.GoString(s.fpr),
Result: handleError(s.result),
Status: ImportStatusFlags(s.status),
})
}
importResult := &ImportResult{
Considered: int(res.considered),
NoUserID: int(res.no_user_id),
Imported: int(res.imported),
ImportedRSA: int(res.imported_rsa),
Unchanged: int(res.unchanged),
NewUserIDs: int(res.new_user_ids),
NewSubKeys: int(res.new_sub_keys),
NewSignatures: int(res.new_signatures),
NewRevocations: int(res.new_revocations),
SecretRead: int(res.secret_read),
SecretImported: int(res.secret_imported),
SecretUnchanged: int(res.secret_unchanged),
NotImported: int(res.not_imported),
Imports: imports,
}
runtime.KeepAlive(c) // for all accesses to res above
return importResult, nil
}
type Key struct {
k C.gpgme_key_t // WARNING: Call Runtime.KeepAlive(k) after ANY passing of k.k to C
}
func newKey() *Key {
k := &Key{}
runtime.SetFinalizer(k, (*Key).Release)
return k
}
func (k *Key) Release() {
C.gpgme_key_release(k.k)
runtime.KeepAlive(k)
k.k = nil
}
func (k *Key) Revoked() bool {
res := C.key_revoked(k.k) != 0
runtime.KeepAlive(k)
return res
}
func (k *Key) Expired() bool {
res := C.key_expired(k.k) != 0
runtime.KeepAlive(k)
return res
}
func (k *Key) Disabled() bool {
res := C.key_disabled(k.k) != 0
runtime.KeepAlive(k)
return res
}
func (k *Key) Invalid() bool {
res := C.key_invalid(k.k) != 0
runtime.KeepAlive(k)
return res
}
func (k *Key) CanEncrypt() bool {
res := C.key_can_encrypt(k.k) != 0
runtime.KeepAlive(k)
return res
}
func (k *Key) CanSign() bool {
res := C.key_can_sign(k.k) != 0
runtime.KeepAlive(k)
return res
}
func (k *Key) CanCertify() bool {
res := C.key_can_certify(k.k) != 0
runtime.KeepAlive(k)
return res
}
func (k *Key) Secret() bool {
res := C.key_secret(k.k) != 0
runtime.KeepAlive(k)
return res
}
func (k *Key) CanAuthenticate() bool {
res := C.key_can_authenticate(k.k) != 0
runtime.KeepAlive(k)
return res
}
func (k *Key) IsQualified() bool {
res := C.key_is_qualified(k.k) != 0
runtime.KeepAlive(k)
return res
}
func (k *Key) Protocol() Protocol {
res := Protocol(k.k.protocol)
runtime.KeepAlive(k)
return res
}
func (k *Key) IssuerSerial() string {
res := C.GoString(k.k.issuer_serial)
runtime.KeepAlive(k)
return res
}
func (k *Key) IssuerName() string {
res := C.GoString(k.k.issuer_name)
runtime.KeepAlive(k)
return res
}
func (k *Key) ChainID() string {
res := C.GoString(k.k.chain_id)
runtime.KeepAlive(k)
return res
}
func (k *Key) OwnerTrust() Validity {
res := Validity(k.k.owner_trust)
runtime.KeepAlive(k)
return res
}
func (k *Key) SubKeys() *SubKey {
subKeys := k.k.subkeys
runtime.KeepAlive(k)
if subKeys == nil {
return nil
}
return &SubKey{k: subKeys, parent: k} // The parent: k reference ensures subKeys remains valid
}
func (k *Key) UserIDs() *UserID {
uids := k.k.uids
runtime.KeepAlive(k)
if uids == nil {
return nil
}
return &UserID{u: uids, parent: k} // The parent: k reference ensures uids remains valid
}
func (k *Key) KeyListMode() KeyListMode {
res := KeyListMode(k.k.keylist_mode)
runtime.KeepAlive(k)
return res
}
type SubKey struct {
k C.gpgme_subkey_t
parent *Key // make sure the key is not released when we have a reference to a subkey
}
func (k *SubKey) Next() *SubKey {
if k.k.next == nil {
return nil
}
return &SubKey{k: k.k.next, parent: k.parent}
}
func (k *SubKey) Revoked() bool {
return C.subkey_revoked(k.k) != 0
}
func (k *SubKey) Expired() bool {
return C.subkey_expired(k.k) != 0
}
func (k *SubKey) Disabled() bool {
return C.subkey_disabled(k.k) != 0
}
func (k *SubKey) Invalid() bool {
return C.subkey_invalid(k.k) != 0
}
func (k *SubKey) Secret() bool {
return C.subkey_secret(k.k) != 0
}
func (k *SubKey) KeyID() string {
return C.GoString(k.k.keyid)
}
func (k *SubKey) Fingerprint() string {
return C.GoString(k.k.fpr)
}
func (k *SubKey) Created() time.Time {
if k.k.timestamp <= 0 {
return time.Time{}
}
return time.Unix(int64(k.k.timestamp), 0)
}
func (k *SubKey) Expires() time.Time {
if k.k.expires <= 0 {
return time.Time{}
}
return time.Unix(int64(k.k.expires), 0)
}
func (k *SubKey) CardNumber() string {
return C.GoString(k.k.card_number)
}
type UserID struct {
u C.gpgme_user_id_t
parent *Key // make sure the key is not released when we have a reference to a user ID
}
func (u *UserID) Next() *UserID {
if u.u.next == nil {
return nil
}
return &UserID{u: u.u.next, parent: u.parent}
}
func (u *UserID) Revoked() bool {
return C.uid_revoked(u.u) != 0
}
func (u *UserID) Invalid() bool {
return C.uid_invalid(u.u) != 0
}
func (u *UserID) Validity() Validity {
return Validity(u.u.validity)
}
func (u *UserID) UID() string {
return C.GoString(u.u.uid)
}
func (u *UserID) Name() string {
return C.GoString(u.u.name)
}
func (u *UserID) Comment() string {
return C.GoString(u.u.comment)
}
func (u *UserID) Email() string {
return C.GoString(u.u.email)
}
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