package crypto import ( "bytes" "io/ioutil" "net/mail" "net/textproto" "strings" "github.com/ProtonMail/go-crypto/openpgp" "github.com/ProtonMail/go-crypto/openpgp/packet" gomime "github.com/ProtonMail/go-mime" "github.com/ProtonMail/gopenpgp/v2/constants" "github.com/pkg/errors" ) // MIMECallbacks defines callback methods to process a MIME message. type MIMECallbacks interface { OnBody(body string, mimetype string) OnAttachment(headers string, data []byte) // Encrypted headers can be in an attachment and thus be placed at the end of the mime structure. OnEncryptedHeaders(headers string) OnVerified(verified int) OnError(err error) } // DecryptMIMEMessage decrypts a MIME message. func (keyRing *KeyRing) DecryptMIMEMessage( message *PGPMessage, verifyKey *KeyRing, callbacks MIMECallbacks, verifyTime int64, ) { decryptedMessage, err := keyRing.Decrypt(message, verifyKey, verifyTime) embeddedSigError, err := separateSigError(err) if err != nil { callbacks.OnError(err) return } body, attachments, attachmentHeaders, err := parseMIME(string(decryptedMessage.GetBinary()), verifyKey) mimeSigError, err := separateSigError(err) if err != nil { callbacks.OnError(err) return } // We only consider the signature to be failed if both embedded and mime verification failed if embeddedSigError != nil && mimeSigError != nil { callbacks.OnError(embeddedSigError) callbacks.OnError(mimeSigError) callbacks.OnVerified(prioritizeSignatureErrors(embeddedSigError, mimeSigError)) } else if verifyKey != nil { callbacks.OnVerified(constants.SIGNATURE_OK) } bodyContent, bodyMimeType := body.GetBody() callbacks.OnBody(bodyContent, bodyMimeType) for i := 0; i < len(attachments); i++ { callbacks.OnAttachment(attachmentHeaders[i], []byte(attachments[i])) } callbacks.OnEncryptedHeaders("") } // ----- INTERNAL FUNCTIONS ----- func prioritizeSignatureErrors(signatureErrs ...*SignatureVerificationError) (maxError int) { // select error with the highest value, if any // FAILED > NO VERIFIER > NOT SIGNED > SIGNATURE OK maxError = constants.SIGNATURE_OK for _, err := range signatureErrs { if err.Status > maxError { maxError = err.Status } } return } func separateSigError(err error) (*SignatureVerificationError, error) { sigErr := &SignatureVerificationError{} if errors.As(err, sigErr) { return sigErr, nil } return nil, err } func parseMIME( mimeBody string, verifierKey *KeyRing, ) (*gomime.BodyCollector, []string, []string, error) { mm, err := mail.ReadMessage(strings.NewReader(mimeBody)) if err != nil { return nil, nil, nil, errors.Wrap(err, "gopenpgp: error in reading message") } config := &packet.Config{DefaultCipher: packet.CipherAES256, Time: getTimeGenerator()} h := textproto.MIMEHeader(mm.Header) mmBodyData, err := ioutil.ReadAll(mm.Body) if err != nil { return nil, nil, nil, errors.Wrap(err, "gopenpgp: error in reading message body data") } printAccepter := gomime.NewMIMEPrinter() bodyCollector := gomime.NewBodyCollector(printAccepter) attachmentsCollector := gomime.NewAttachmentsCollector(bodyCollector) mimeVisitor := gomime.NewMimeVisitor(attachmentsCollector) var verifierEntities openpgp.KeyRing if verifierKey != nil { verifierEntities = verifierKey.entities } signatureCollector := newSignatureCollector(mimeVisitor, verifierEntities, config) err = gomime.VisitAll(bytes.NewReader(mmBodyData), h, signatureCollector) if err == nil && verifierKey != nil { err = signatureCollector.verified } return bodyCollector, attachmentsCollector.GetAttachments(), attachmentsCollector.GetAttHeaders(), err }