func XMLSecTmplKeyInfoAddX509Data(n types.Node) (types.Node, error) { nptr, err := validNodePtr(n) if err != nil { return nil, err } ret := C.xmlSecTmplKeyInfoAddX509Data(nptr) if ret == nil { return nil, errors.New("failed to add X509Data node") } return dom.WrapNode(uintptr(unsafe.Pointer(ret))) }
// Encrypt encrypts the XML document to publicKey and returns the encrypted // document. func Encrypt(publicKey, doc []byte, opts EncryptOptions) ([]byte, error) { startProcessingXML() defer stopProcessingXML() keysMngr := C.xmlSecKeysMngrCreate() if keysMngr == nil { return nil, mustPopError() } defer C.xmlSecKeysMngrDestroy(keysMngr) if rv := C.xmlSecCryptoAppDefaultKeysMngrInit(keysMngr); rv < 0 { return nil, mustPopError() } key := C.xmlSecCryptoAppKeyLoadMemory( (*C.xmlSecByte)(unsafe.Pointer(&publicKey[0])), C.xmlSecSize(len(publicKey)), C.xmlSecKeyDataFormatCertPem, nil, nil, nil) if key == nil { return nil, mustPopError() } if rv := C.xmlSecCryptoAppKeyCertLoadMemory(key, (*C.xmlSecByte)(unsafe.Pointer(&publicKey[0])), C.xmlSecSize(len(publicKey)), C.xmlSecKeyDataFormatCertPem); rv < 0 { C.xmlSecKeyDestroy(key) return nil, mustPopError() } if rv := C.xmlSecCryptoAppDefaultKeysMngrAdoptKey(keysMngr, key); rv < 0 { return nil, mustPopError() } parsedDoc, err := newDoc(doc, nil) if err != nil { return nil, err } defer closeDoc(parsedDoc) var sessionCipherTransform C.xmlSecTransformId switch opts.SessionCipher { case DefaultSessionCipher: sessionCipherTransform = C.MY_xmlSecTransformAes256CbcId() case Aes256Cbc: sessionCipherTransform = C.MY_xmlSecTransformAes256CbcId() case Aes192Cbc: sessionCipherTransform = C.MY_xmlSecTransformAes192CbcId() case Aes128Cbc: sessionCipherTransform = C.MY_xmlSecTransformAes128CbcId() case Des3Cbc: sessionCipherTransform = C.MY_xmlSecTransformDes3CbcId() default: return nil, errInvalidAlgorithm } // create encryption template to encrypt XML file and replace // its content with encryption result encDataNode := C.xmlSecTmplEncDataCreate(parsedDoc, sessionCipherTransform, nil, (*C.xmlChar)(unsafe.Pointer(&C.xmlSecTypeEncElement)), nil, nil) if encDataNode == nil { return nil, mustPopError() } defer func() { if encDataNode != nil { C.xmlFreeNode(encDataNode) encDataNode = nil } }() // we want to put encrypted data in the <enc:CipherValue/> node if C.xmlSecTmplEncDataEnsureCipherValue(encDataNode) == nil { return nil, mustPopError() } // add <dsig:KeyInfo/> keyInfoNode := C.xmlSecTmplEncDataEnsureKeyInfo(encDataNode, nil) if keyInfoNode == nil { return nil, mustPopError() } // add <enc:EncryptedKey/> to store the encrypted session key var cipherTransform C.xmlSecTransformId switch opts.Cipher { case DefaultCipher: cipherTransform = C.MY_xmlSecTransformRsaOaepId() case RsaOaep: cipherTransform = C.MY_xmlSecTransformRsaOaepId() case RsaPkcs1: cipherTransform = C.MY_xmlSecTransformRsaPkcs1Id() } encKeyNode := C.xmlSecTmplKeyInfoAddEncryptedKey(keyInfoNode, cipherTransform, nil, nil, nil) if encKeyNode == nil { return nil, mustPopError() } // we want to put encrypted key in the <enc:CipherValue/> node if C.xmlSecTmplEncDataEnsureCipherValue(encKeyNode) == nil { return nil, mustPopError() } // add <dsig:KeyInfo/> and <dsig:KeyName/> nodes to <enc:EncryptedKey/> keyInfoNode2 := C.xmlSecTmplEncDataEnsureKeyInfo(encKeyNode, nil) if keyInfoNode2 == nil { return nil, mustPopError() } // Add a DigestMethod element to the encryption method node { encKeyMethod := C.xmlSecTmplEncDataGetEncMethodNode(encKeyNode) var algorithm *C.xmlChar switch opts.DigestAlgorithm { case Sha512: algorithm = constSha512 case Sha384: algorithm = constSha384 case Sha256: algorithm = constSha256 case Sha1: algorithm = constSha1 case DefaultDigestAlgorithm: algorithm = constSha1 default: return nil, errInvalidAlgorithm } node := C.xmlSecAddChild(encKeyMethod, constDigestMethod, constDsigNamespace) C.xmlSetProp(node, constAlgorithm, algorithm) } // add our certificate to KeyInfoNode x509dataNode := C.xmlSecTmplKeyInfoAddX509Data(keyInfoNode2) if x509dataNode == nil { return nil, mustPopError() } if dataNode := C.xmlSecTmplX509DataAddCertificate(x509dataNode); dataNode == nil { return nil, mustPopError() } // create encryption context var encCtx = C.xmlSecEncCtxCreate(keysMngr) if encCtx == nil { return nil, mustPopError() } defer C.xmlSecEncCtxDestroy(encCtx) // generate a key of the appropriate type switch opts.SessionCipher { case DefaultSessionCipher: encCtx.encKey = C.xmlSecKeyGenerate(C.MY_xmlSecKeyDataAesId(), 256, C.xmlSecKeyDataTypeSession) case Aes128Cbc: encCtx.encKey = C.xmlSecKeyGenerate(C.MY_xmlSecKeyDataAesId(), 128, C.xmlSecKeyDataTypeSession) case Aes192Cbc: encCtx.encKey = C.xmlSecKeyGenerate(C.MY_xmlSecKeyDataAesId(), 192, C.xmlSecKeyDataTypeSession) case Aes256Cbc: encCtx.encKey = C.xmlSecKeyGenerate(C.MY_xmlSecKeyDataAesId(), 256, C.xmlSecKeyDataTypeSession) case Des3Cbc: encCtx.encKey = C.xmlSecKeyGenerate(C.MY_xmlSecKeyDataDesId(), 192, C.xmlSecKeyDataTypeSession) default: return nil, errInvalidAlgorithm } if encCtx.encKey == nil { return nil, mustPopError() } // encrypt the data if rv := C.xmlSecEncCtxXmlEncrypt(encCtx, encDataNode, C.xmlDocGetRootElement(parsedDoc)); rv < 0 { return nil, mustPopError() } encDataNode = nil // the template is inserted in the doc, so we don't own it return dumpDoc(parsedDoc), nil }