package network /* #include "gen_qsslsocket.h" #include */ import "C" import ( "github.com/mappu/miqt/qt6" "runtime" "runtime/cgo" "unsafe" ) type QSslSocket__SslMode int const ( QSslSocket__UnencryptedMode QSslSocket__SslMode = 0 QSslSocket__SslClientMode QSslSocket__SslMode = 1 QSslSocket__SslServerMode QSslSocket__SslMode = 2 ) type QSslSocket__PeerVerifyMode int const ( QSslSocket__VerifyNone QSslSocket__PeerVerifyMode = 0 QSslSocket__QueryPeer QSslSocket__PeerVerifyMode = 1 QSslSocket__VerifyPeer QSslSocket__PeerVerifyMode = 2 QSslSocket__AutoVerifyPeer QSslSocket__PeerVerifyMode = 3 ) type QSslSocket struct { h *C.QSslSocket *QTcpSocket } func (this *QSslSocket) cPointer() *C.QSslSocket { if this == nil { return nil } return this.h } func (this *QSslSocket) UnsafePointer() unsafe.Pointer { if this == nil { return nil } return unsafe.Pointer(this.h) } func newQSslSocket(h *C.QSslSocket) *QSslSocket { if h == nil { return nil } return &QSslSocket{h: h, QTcpSocket: UnsafeNewQTcpSocket(unsafe.Pointer(h))} } func UnsafeNewQSslSocket(h unsafe.Pointer) *QSslSocket { return newQSslSocket((*C.QSslSocket)(h)) } // NewQSslSocket constructs a new QSslSocket object. func NewQSslSocket() *QSslSocket { ret := C.QSslSocket_new() return newQSslSocket(ret) } // NewQSslSocket2 constructs a new QSslSocket object. func NewQSslSocket2(parent *qt6.QObject) *QSslSocket { ret := C.QSslSocket_new2((*C.QObject)(parent.UnsafePointer())) return newQSslSocket(ret) } func (this *QSslSocket) MetaObject() *qt6.QMetaObject { return qt6.UnsafeNewQMetaObject(unsafe.Pointer(C.QSslSocket_MetaObject(this.h))) } func (this *QSslSocket) Metacast(param1 string) unsafe.Pointer { param1_Cstring := C.CString(param1) defer C.free(unsafe.Pointer(param1_Cstring)) return (unsafe.Pointer)(C.QSslSocket_Metacast(this.h, param1_Cstring)) } func QSslSocket_Tr(s string) string { s_Cstring := C.CString(s) defer C.free(unsafe.Pointer(s_Cstring)) var _ms C.struct_miqt_string = C.QSslSocket_Tr(s_Cstring) _ret := C.GoStringN(_ms.data, C.int(int64(_ms.len))) C.free(unsafe.Pointer(_ms.data)) return _ret } func (this *QSslSocket) Resume() { C.QSslSocket_Resume(this.h) } func (this *QSslSocket) ConnectToHostEncrypted(hostName string, port uint16) { hostName_ms := C.struct_miqt_string{} hostName_ms.data = C.CString(hostName) hostName_ms.len = C.size_t(len(hostName)) defer C.free(unsafe.Pointer(hostName_ms.data)) C.QSslSocket_ConnectToHostEncrypted(this.h, hostName_ms, (C.uint16_t)(port)) } func (this *QSslSocket) ConnectToHostEncrypted2(hostName string, port uint16, sslPeerName string) { hostName_ms := C.struct_miqt_string{} hostName_ms.data = C.CString(hostName) hostName_ms.len = C.size_t(len(hostName)) defer C.free(unsafe.Pointer(hostName_ms.data)) sslPeerName_ms := C.struct_miqt_string{} sslPeerName_ms.data = C.CString(sslPeerName) sslPeerName_ms.len = C.size_t(len(sslPeerName)) defer C.free(unsafe.Pointer(sslPeerName_ms.data)) C.QSslSocket_ConnectToHostEncrypted2(this.h, hostName_ms, (C.uint16_t)(port), sslPeerName_ms) } func (this *QSslSocket) SetSocketDescriptor(socketDescriptor uintptr) bool { return (bool)(C.QSslSocket_SetSocketDescriptor(this.h, (C.intptr_t)(socketDescriptor))) } func (this *QSslSocket) ConnectToHost(hostName string, port uint16) { hostName_ms := C.struct_miqt_string{} hostName_ms.data = C.CString(hostName) hostName_ms.len = C.size_t(len(hostName)) defer C.free(unsafe.Pointer(hostName_ms.data)) C.QSslSocket_ConnectToHost(this.h, hostName_ms, (C.uint16_t)(port)) } func (this *QSslSocket) DisconnectFromHost() { C.QSslSocket_DisconnectFromHost(this.h) } func (this *QSslSocket) SetSocketOption(option QAbstractSocket__SocketOption, value *qt6.QVariant) { C.QSslSocket_SetSocketOption(this.h, (C.int)(option), (*C.QVariant)(value.UnsafePointer())) } func (this *QSslSocket) SocketOption(option QAbstractSocket__SocketOption) *qt6.QVariant { _ret := C.QSslSocket_SocketOption(this.h, (C.int)(option)) _goptr := qt6.UnsafeNewQVariant(unsafe.Pointer(_ret)) _goptr.GoGC() // Qt uses pass-by-value semantics for this type. Mimic with finalizer return _goptr } func (this *QSslSocket) Mode() QSslSocket__SslMode { return (QSslSocket__SslMode)(C.QSslSocket_Mode(this.h)) } func (this *QSslSocket) IsEncrypted() bool { return (bool)(C.QSslSocket_IsEncrypted(this.h)) } func (this *QSslSocket) Protocol() QSsl__SslProtocol { return (QSsl__SslProtocol)(C.QSslSocket_Protocol(this.h)) } func (this *QSslSocket) SetProtocol(protocol QSsl__SslProtocol) { C.QSslSocket_SetProtocol(this.h, (C.int)(protocol)) } func (this *QSslSocket) PeerVerifyMode() QSslSocket__PeerVerifyMode { return (QSslSocket__PeerVerifyMode)(C.QSslSocket_PeerVerifyMode(this.h)) } func (this *QSslSocket) SetPeerVerifyMode(mode QSslSocket__PeerVerifyMode) { C.QSslSocket_SetPeerVerifyMode(this.h, (C.int)(mode)) } func (this *QSslSocket) PeerVerifyDepth() int { return (int)(C.QSslSocket_PeerVerifyDepth(this.h)) } func (this *QSslSocket) SetPeerVerifyDepth(depth int) { C.QSslSocket_SetPeerVerifyDepth(this.h, (C.int)(depth)) } func (this *QSslSocket) PeerVerifyName() string { var _ms C.struct_miqt_string = C.QSslSocket_PeerVerifyName(this.h) _ret := C.GoStringN(_ms.data, C.int(int64(_ms.len))) C.free(unsafe.Pointer(_ms.data)) return _ret } func (this *QSslSocket) SetPeerVerifyName(hostName string) { hostName_ms := C.struct_miqt_string{} hostName_ms.data = C.CString(hostName) hostName_ms.len = C.size_t(len(hostName)) defer C.free(unsafe.Pointer(hostName_ms.data)) C.QSslSocket_SetPeerVerifyName(this.h, hostName_ms) } func (this *QSslSocket) BytesAvailable() int64 { return (int64)(C.QSslSocket_BytesAvailable(this.h)) } func (this *QSslSocket) BytesToWrite() int64 { return (int64)(C.QSslSocket_BytesToWrite(this.h)) } func (this *QSslSocket) CanReadLine() bool { return (bool)(C.QSslSocket_CanReadLine(this.h)) } func (this *QSslSocket) Close() { C.QSslSocket_Close(this.h) } func (this *QSslSocket) AtEnd() bool { return (bool)(C.QSslSocket_AtEnd(this.h)) } func (this *QSslSocket) SetReadBufferSize(size int64) { C.QSslSocket_SetReadBufferSize(this.h, (C.longlong)(size)) } func (this *QSslSocket) EncryptedBytesAvailable() int64 { return (int64)(C.QSslSocket_EncryptedBytesAvailable(this.h)) } func (this *QSslSocket) EncryptedBytesToWrite() int64 { return (int64)(C.QSslSocket_EncryptedBytesToWrite(this.h)) } func (this *QSslSocket) SslConfiguration() *QSslConfiguration { _ret := C.QSslSocket_SslConfiguration(this.h) _goptr := newQSslConfiguration(_ret) _goptr.GoGC() // Qt uses pass-by-value semantics for this type. Mimic with finalizer return _goptr } func (this *QSslSocket) SetSslConfiguration(config *QSslConfiguration) { C.QSslSocket_SetSslConfiguration(this.h, config.cPointer()) } func (this *QSslSocket) SetLocalCertificateChain(localChain []QSslCertificate) { localChain_CArray := (*[0xffff]*C.QSslCertificate)(C.malloc(C.size_t(8 * len(localChain)))) defer C.free(unsafe.Pointer(localChain_CArray)) for i := range localChain { localChain_CArray[i] = localChain[i].cPointer() } localChain_ma := C.struct_miqt_array{len: C.size_t(len(localChain)), data: unsafe.Pointer(localChain_CArray)} C.QSslSocket_SetLocalCertificateChain(this.h, localChain_ma) } func (this *QSslSocket) LocalCertificateChain() []QSslCertificate { var _ma C.struct_miqt_array = C.QSslSocket_LocalCertificateChain(this.h) _ret := make([]QSslCertificate, int(_ma.len)) _outCast := (*[0xffff]*C.QSslCertificate)(unsafe.Pointer(_ma.data)) // hey ya for i := 0; i < int(_ma.len); i++ { _lv_ret := _outCast[i] _lv_goptr := newQSslCertificate(_lv_ret) _lv_goptr.GoGC() // Qt uses pass-by-value semantics for this type. Mimic with finalizer _ret[i] = *_lv_goptr } return _ret } func (this *QSslSocket) SetLocalCertificate(certificate *QSslCertificate) { C.QSslSocket_SetLocalCertificate(this.h, certificate.cPointer()) } func (this *QSslSocket) SetLocalCertificateWithFileName(fileName string) { fileName_ms := C.struct_miqt_string{} fileName_ms.data = C.CString(fileName) fileName_ms.len = C.size_t(len(fileName)) defer C.free(unsafe.Pointer(fileName_ms.data)) C.QSslSocket_SetLocalCertificateWithFileName(this.h, fileName_ms) } func (this *QSslSocket) LocalCertificate() *QSslCertificate { _ret := C.QSslSocket_LocalCertificate(this.h) _goptr := newQSslCertificate(_ret) _goptr.GoGC() // Qt uses pass-by-value semantics for this type. Mimic with finalizer return _goptr } func (this *QSslSocket) PeerCertificate() *QSslCertificate { _ret := C.QSslSocket_PeerCertificate(this.h) _goptr := newQSslCertificate(_ret) _goptr.GoGC() // Qt uses pass-by-value semantics for this type. Mimic with finalizer return _goptr } func (this *QSslSocket) PeerCertificateChain() []QSslCertificate { var _ma C.struct_miqt_array = C.QSslSocket_PeerCertificateChain(this.h) _ret := make([]QSslCertificate, int(_ma.len)) _outCast := (*[0xffff]*C.QSslCertificate)(unsafe.Pointer(_ma.data)) // hey ya for i := 0; i < int(_ma.len); i++ { _lv_ret := _outCast[i] _lv_goptr := newQSslCertificate(_lv_ret) _lv_goptr.GoGC() // Qt uses pass-by-value semantics for this type. Mimic with finalizer _ret[i] = *_lv_goptr } return _ret } func (this *QSslSocket) SessionCipher() *QSslCipher { _ret := C.QSslSocket_SessionCipher(this.h) _goptr := newQSslCipher(_ret) _goptr.GoGC() // Qt uses pass-by-value semantics for this type. Mimic with finalizer return _goptr } func (this *QSslSocket) SessionProtocol() QSsl__SslProtocol { return (QSsl__SslProtocol)(C.QSslSocket_SessionProtocol(this.h)) } func (this *QSslSocket) OcspResponses() []QOcspResponse { var _ma C.struct_miqt_array = C.QSslSocket_OcspResponses(this.h) _ret := make([]QOcspResponse, int(_ma.len)) _outCast := (*[0xffff]*C.QOcspResponse)(unsafe.Pointer(_ma.data)) // hey ya for i := 0; i < int(_ma.len); i++ { _lv_ret := _outCast[i] _lv_goptr := newQOcspResponse(_lv_ret) _lv_goptr.GoGC() // Qt uses pass-by-value semantics for this type. Mimic with finalizer _ret[i] = *_lv_goptr } return _ret } func (this *QSslSocket) SetPrivateKey(key *QSslKey) { C.QSslSocket_SetPrivateKey(this.h, key.cPointer()) } func (this *QSslSocket) SetPrivateKeyWithFileName(fileName string) { fileName_ms := C.struct_miqt_string{} fileName_ms.data = C.CString(fileName) fileName_ms.len = C.size_t(len(fileName)) defer C.free(unsafe.Pointer(fileName_ms.data)) C.QSslSocket_SetPrivateKeyWithFileName(this.h, fileName_ms) } func (this *QSslSocket) PrivateKey() *QSslKey { _ret := C.QSslSocket_PrivateKey(this.h) _goptr := newQSslKey(_ret) _goptr.GoGC() // Qt uses pass-by-value semantics for this type. Mimic with finalizer return _goptr } func (this *QSslSocket) WaitForConnected() bool { return (bool)(C.QSslSocket_WaitForConnected(this.h)) } func (this *QSslSocket) WaitForEncrypted() bool { return (bool)(C.QSslSocket_WaitForEncrypted(this.h)) } func (this *QSslSocket) WaitForReadyRead() bool { return (bool)(C.QSslSocket_WaitForReadyRead(this.h)) } func (this *QSslSocket) WaitForBytesWritten() bool { return (bool)(C.QSslSocket_WaitForBytesWritten(this.h)) } func (this *QSslSocket) WaitForDisconnected() bool { return (bool)(C.QSslSocket_WaitForDisconnected(this.h)) } func (this *QSslSocket) SslHandshakeErrors() []QSslError { var _ma C.struct_miqt_array = C.QSslSocket_SslHandshakeErrors(this.h) _ret := make([]QSslError, int(_ma.len)) _outCast := (*[0xffff]*C.QSslError)(unsafe.Pointer(_ma.data)) // hey ya for i := 0; i < int(_ma.len); i++ { _lv_ret := _outCast[i] _lv_goptr := newQSslError(_lv_ret) _lv_goptr.GoGC() // Qt uses pass-by-value semantics for this type. Mimic with finalizer _ret[i] = *_lv_goptr } return _ret } func QSslSocket_SupportsSsl() bool { return (bool)(C.QSslSocket_SupportsSsl()) } func QSslSocket_SslLibraryVersionNumber() int64 { return (int64)(C.QSslSocket_SslLibraryVersionNumber()) } func QSslSocket_SslLibraryVersionString() string { var _ms C.struct_miqt_string = C.QSslSocket_SslLibraryVersionString() _ret := C.GoStringN(_ms.data, C.int(int64(_ms.len))) C.free(unsafe.Pointer(_ms.data)) return _ret } func QSslSocket_SslLibraryBuildVersionNumber() int64 { return (int64)(C.QSslSocket_SslLibraryBuildVersionNumber()) } func QSslSocket_SslLibraryBuildVersionString() string { var _ms C.struct_miqt_string = C.QSslSocket_SslLibraryBuildVersionString() _ret := C.GoStringN(_ms.data, C.int(int64(_ms.len))) C.free(unsafe.Pointer(_ms.data)) return _ret } func QSslSocket_AvailableBackends() []string { var _ma C.struct_miqt_array = C.QSslSocket_AvailableBackends() _ret := make([]string, int(_ma.len)) _outCast := (*[0xffff]C.struct_miqt_string)(unsafe.Pointer(_ma.data)) // hey ya for i := 0; i < int(_ma.len); i++ { var _lv_ms C.struct_miqt_string = _outCast[i] _lv_ret := C.GoStringN(_lv_ms.data, C.int(int64(_lv_ms.len))) C.free(unsafe.Pointer(_lv_ms.data)) _ret[i] = _lv_ret } return _ret } func QSslSocket_ActiveBackend() string { var _ms C.struct_miqt_string = C.QSslSocket_ActiveBackend() _ret := C.GoStringN(_ms.data, C.int(int64(_ms.len))) C.free(unsafe.Pointer(_ms.data)) return _ret } func QSslSocket_SetActiveBackend(backendName string) bool { backendName_ms := C.struct_miqt_string{} backendName_ms.data = C.CString(backendName) backendName_ms.len = C.size_t(len(backendName)) defer C.free(unsafe.Pointer(backendName_ms.data)) return (bool)(C.QSslSocket_SetActiveBackend(backendName_ms)) } func QSslSocket_SupportedProtocols() []QSsl__SslProtocol { var _ma C.struct_miqt_array = C.QSslSocket_SupportedProtocols() _ret := make([]QSsl__SslProtocol, int(_ma.len)) _outCast := (*[0xffff]C.int)(unsafe.Pointer(_ma.data)) // hey ya for i := 0; i < int(_ma.len); i++ { _ret[i] = (QSsl__SslProtocol)(_outCast[i]) } return _ret } func QSslSocket_IsProtocolSupported(protocol QSsl__SslProtocol) bool { return (bool)(C.QSslSocket_IsProtocolSupported((C.int)(protocol))) } func QSslSocket_ImplementedClasses() []QSsl__ImplementedClass { var _ma C.struct_miqt_array = C.QSslSocket_ImplementedClasses() _ret := make([]QSsl__ImplementedClass, int(_ma.len)) _outCast := (*[0xffff]C.int)(unsafe.Pointer(_ma.data)) // hey ya for i := 0; i < int(_ma.len); i++ { _ret[i] = (QSsl__ImplementedClass)(_outCast[i]) } return _ret } func QSslSocket_IsClassImplemented(cl QSsl__ImplementedClass) bool { return (bool)(C.QSslSocket_IsClassImplemented((C.int)(cl))) } func QSslSocket_SupportedFeatures() []QSsl__SupportedFeature { var _ma C.struct_miqt_array = C.QSslSocket_SupportedFeatures() _ret := make([]QSsl__SupportedFeature, int(_ma.len)) _outCast := (*[0xffff]C.int)(unsafe.Pointer(_ma.data)) // hey ya for i := 0; i < int(_ma.len); i++ { _ret[i] = (QSsl__SupportedFeature)(_outCast[i]) } return _ret } func QSslSocket_IsFeatureSupported(feat QSsl__SupportedFeature) bool { return (bool)(C.QSslSocket_IsFeatureSupported((C.int)(feat))) } func (this *QSslSocket) IgnoreSslErrors(errors []QSslError) { errors_CArray := (*[0xffff]*C.QSslError)(C.malloc(C.size_t(8 * len(errors)))) defer C.free(unsafe.Pointer(errors_CArray)) for i := range errors { errors_CArray[i] = errors[i].cPointer() } errors_ma := C.struct_miqt_array{len: C.size_t(len(errors)), data: unsafe.Pointer(errors_CArray)} C.QSslSocket_IgnoreSslErrors(this.h, errors_ma) } func (this *QSslSocket) ContinueInterruptedHandshake() { C.QSslSocket_ContinueInterruptedHandshake(this.h) } func (this *QSslSocket) StartClientEncryption() { C.QSslSocket_StartClientEncryption(this.h) } func (this *QSslSocket) StartServerEncryption() { C.QSslSocket_StartServerEncryption(this.h) } func (this *QSslSocket) IgnoreSslErrors2() { C.QSslSocket_IgnoreSslErrors2(this.h) } func (this *QSslSocket) Encrypted() { C.QSslSocket_Encrypted(this.h) } func (this *QSslSocket) OnEncrypted(slot func()) { C.QSslSocket_connect_Encrypted(this.h, C.intptr_t(cgo.NewHandle(slot))) } //export miqt_exec_callback_QSslSocket_Encrypted func miqt_exec_callback_QSslSocket_Encrypted(cb C.intptr_t) { gofunc, ok := cgo.Handle(cb).Value().(func()) if !ok { panic("miqt: callback of non-callback type (heap corruption?)") } gofunc() } func (this *QSslSocket) PeerVerifyError(error *QSslError) { C.QSslSocket_PeerVerifyError(this.h, error.cPointer()) } func (this *QSslSocket) OnPeerVerifyError(slot func(error *QSslError)) { C.QSslSocket_connect_PeerVerifyError(this.h, C.intptr_t(cgo.NewHandle(slot))) } //export miqt_exec_callback_QSslSocket_PeerVerifyError func miqt_exec_callback_QSslSocket_PeerVerifyError(cb C.intptr_t, error *C.QSslError) { gofunc, ok := cgo.Handle(cb).Value().(func(error *QSslError)) if !ok { panic("miqt: callback of non-callback type (heap corruption?)") } // Convert all CABI parameters to Go parameters slotval1 := UnsafeNewQSslError(unsafe.Pointer(error)) gofunc(slotval1) } func (this *QSslSocket) SslErrors(errors []QSslError) { errors_CArray := (*[0xffff]*C.QSslError)(C.malloc(C.size_t(8 * len(errors)))) defer C.free(unsafe.Pointer(errors_CArray)) for i := range errors { errors_CArray[i] = errors[i].cPointer() } errors_ma := C.struct_miqt_array{len: C.size_t(len(errors)), data: unsafe.Pointer(errors_CArray)} C.QSslSocket_SslErrors(this.h, errors_ma) } func (this *QSslSocket) OnSslErrors(slot func(errors []QSslError)) { C.QSslSocket_connect_SslErrors(this.h, C.intptr_t(cgo.NewHandle(slot))) } //export miqt_exec_callback_QSslSocket_SslErrors func miqt_exec_callback_QSslSocket_SslErrors(cb C.intptr_t, errors C.struct_miqt_array) { gofunc, ok := cgo.Handle(cb).Value().(func(errors []QSslError)) if !ok { panic("miqt: callback of non-callback type (heap corruption?)") } // Convert all CABI parameters to Go parameters var errors_ma C.struct_miqt_array = errors errors_ret := make([]QSslError, int(errors_ma.len)) errors_outCast := (*[0xffff]*C.QSslError)(unsafe.Pointer(errors_ma.data)) // hey ya for i := 0; i < int(errors_ma.len); i++ { errors_lv_ret := errors_outCast[i] errors_lv_goptr := newQSslError(errors_lv_ret) errors_lv_goptr.GoGC() // Qt uses pass-by-value semantics for this type. Mimic with finalizer errors_ret[i] = *errors_lv_goptr } slotval1 := errors_ret gofunc(slotval1) } func (this *QSslSocket) ModeChanged(newMode QSslSocket__SslMode) { C.QSslSocket_ModeChanged(this.h, (C.int)(newMode)) } func (this *QSslSocket) OnModeChanged(slot func(newMode QSslSocket__SslMode)) { C.QSslSocket_connect_ModeChanged(this.h, C.intptr_t(cgo.NewHandle(slot))) } //export miqt_exec_callback_QSslSocket_ModeChanged func miqt_exec_callback_QSslSocket_ModeChanged(cb C.intptr_t, newMode C.int) { gofunc, ok := cgo.Handle(cb).Value().(func(newMode QSslSocket__SslMode)) if !ok { panic("miqt: callback of non-callback type (heap corruption?)") } // Convert all CABI parameters to Go parameters slotval1 := (QSslSocket__SslMode)(newMode) gofunc(slotval1) } func (this *QSslSocket) EncryptedBytesWritten(totalBytes int64) { C.QSslSocket_EncryptedBytesWritten(this.h, (C.longlong)(totalBytes)) } func (this *QSslSocket) OnEncryptedBytesWritten(slot func(totalBytes int64)) { C.QSslSocket_connect_EncryptedBytesWritten(this.h, C.intptr_t(cgo.NewHandle(slot))) } //export miqt_exec_callback_QSslSocket_EncryptedBytesWritten func miqt_exec_callback_QSslSocket_EncryptedBytesWritten(cb C.intptr_t, totalBytes C.longlong) { gofunc, ok := cgo.Handle(cb).Value().(func(totalBytes int64)) if !ok { panic("miqt: callback of non-callback type (heap corruption?)") } // Convert all CABI parameters to Go parameters slotval1 := (int64)(totalBytes) gofunc(slotval1) } func (this *QSslSocket) PreSharedKeyAuthenticationRequired(authenticator *QSslPreSharedKeyAuthenticator) { C.QSslSocket_PreSharedKeyAuthenticationRequired(this.h, authenticator.cPointer()) } func (this *QSslSocket) OnPreSharedKeyAuthenticationRequired(slot func(authenticator *QSslPreSharedKeyAuthenticator)) { C.QSslSocket_connect_PreSharedKeyAuthenticationRequired(this.h, C.intptr_t(cgo.NewHandle(slot))) } //export miqt_exec_callback_QSslSocket_PreSharedKeyAuthenticationRequired func miqt_exec_callback_QSslSocket_PreSharedKeyAuthenticationRequired(cb C.intptr_t, authenticator *C.QSslPreSharedKeyAuthenticator) { gofunc, ok := cgo.Handle(cb).Value().(func(authenticator *QSslPreSharedKeyAuthenticator)) if !ok { panic("miqt: callback of non-callback type (heap corruption?)") } // Convert all CABI parameters to Go parameters slotval1 := UnsafeNewQSslPreSharedKeyAuthenticator(unsafe.Pointer(authenticator)) gofunc(slotval1) } func (this *QSslSocket) NewSessionTicketReceived() { C.QSslSocket_NewSessionTicketReceived(this.h) } func (this *QSslSocket) OnNewSessionTicketReceived(slot func()) { C.QSslSocket_connect_NewSessionTicketReceived(this.h, C.intptr_t(cgo.NewHandle(slot))) } //export miqt_exec_callback_QSslSocket_NewSessionTicketReceived func miqt_exec_callback_QSslSocket_NewSessionTicketReceived(cb C.intptr_t) { gofunc, ok := cgo.Handle(cb).Value().(func()) if !ok { panic("miqt: callback of non-callback type (heap corruption?)") } gofunc() } func (this *QSslSocket) AlertSent(level QSsl__AlertLevel, typeVal QSsl__AlertType, description string) { description_ms := C.struct_miqt_string{} description_ms.data = C.CString(description) description_ms.len = C.size_t(len(description)) defer C.free(unsafe.Pointer(description_ms.data)) C.QSslSocket_AlertSent(this.h, (C.int)(level), (C.int)(typeVal), description_ms) } func (this *QSslSocket) OnAlertSent(slot func(level QSsl__AlertLevel, typeVal QSsl__AlertType, description string)) { C.QSslSocket_connect_AlertSent(this.h, C.intptr_t(cgo.NewHandle(slot))) } //export miqt_exec_callback_QSslSocket_AlertSent func miqt_exec_callback_QSslSocket_AlertSent(cb C.intptr_t, level C.int, typeVal C.int, description C.struct_miqt_string) { gofunc, ok := cgo.Handle(cb).Value().(func(level QSsl__AlertLevel, typeVal QSsl__AlertType, description string)) if !ok { panic("miqt: callback of non-callback type (heap corruption?)") } // Convert all CABI parameters to Go parameters slotval1 := (QSsl__AlertLevel)(level) slotval2 := (QSsl__AlertType)(typeVal) var description_ms C.struct_miqt_string = description description_ret := C.GoStringN(description_ms.data, C.int(int64(description_ms.len))) C.free(unsafe.Pointer(description_ms.data)) slotval3 := description_ret gofunc(slotval1, slotval2, slotval3) } func (this *QSslSocket) AlertReceived(level QSsl__AlertLevel, typeVal QSsl__AlertType, description string) { description_ms := C.struct_miqt_string{} description_ms.data = C.CString(description) description_ms.len = C.size_t(len(description)) defer C.free(unsafe.Pointer(description_ms.data)) C.QSslSocket_AlertReceived(this.h, (C.int)(level), (C.int)(typeVal), description_ms) } func (this *QSslSocket) OnAlertReceived(slot func(level QSsl__AlertLevel, typeVal QSsl__AlertType, description string)) { C.QSslSocket_connect_AlertReceived(this.h, C.intptr_t(cgo.NewHandle(slot))) } //export miqt_exec_callback_QSslSocket_AlertReceived func miqt_exec_callback_QSslSocket_AlertReceived(cb C.intptr_t, level C.int, typeVal C.int, description C.struct_miqt_string) { gofunc, ok := cgo.Handle(cb).Value().(func(level QSsl__AlertLevel, typeVal QSsl__AlertType, description string)) if !ok { panic("miqt: callback of non-callback type (heap corruption?)") } // Convert all CABI parameters to Go parameters slotval1 := (QSsl__AlertLevel)(level) slotval2 := (QSsl__AlertType)(typeVal) var description_ms C.struct_miqt_string = description description_ret := C.GoStringN(description_ms.data, C.int(int64(description_ms.len))) C.free(unsafe.Pointer(description_ms.data)) slotval3 := description_ret gofunc(slotval1, slotval2, slotval3) } func (this *QSslSocket) HandshakeInterruptedOnError(error *QSslError) { C.QSslSocket_HandshakeInterruptedOnError(this.h, error.cPointer()) } func (this *QSslSocket) OnHandshakeInterruptedOnError(slot func(error *QSslError)) { C.QSslSocket_connect_HandshakeInterruptedOnError(this.h, C.intptr_t(cgo.NewHandle(slot))) } //export miqt_exec_callback_QSslSocket_HandshakeInterruptedOnError func miqt_exec_callback_QSslSocket_HandshakeInterruptedOnError(cb C.intptr_t, error *C.QSslError) { gofunc, ok := cgo.Handle(cb).Value().(func(error *QSslError)) if !ok { panic("miqt: callback of non-callback type (heap corruption?)") } // Convert all CABI parameters to Go parameters slotval1 := UnsafeNewQSslError(unsafe.Pointer(error)) gofunc(slotval1) } func QSslSocket_Tr2(s string, c string) string { s_Cstring := C.CString(s) defer C.free(unsafe.Pointer(s_Cstring)) c_Cstring := C.CString(c) defer C.free(unsafe.Pointer(c_Cstring)) var _ms C.struct_miqt_string = C.QSslSocket_Tr2(s_Cstring, c_Cstring) _ret := C.GoStringN(_ms.data, C.int(int64(_ms.len))) C.free(unsafe.Pointer(_ms.data)) return _ret } func QSslSocket_Tr3(s string, c string, n int) string { s_Cstring := C.CString(s) defer C.free(unsafe.Pointer(s_Cstring)) c_Cstring := C.CString(c) defer C.free(unsafe.Pointer(c_Cstring)) var _ms C.struct_miqt_string = C.QSslSocket_Tr3(s_Cstring, c_Cstring, (C.int)(n)) _ret := C.GoStringN(_ms.data, C.int(int64(_ms.len))) C.free(unsafe.Pointer(_ms.data)) return _ret } func (this *QSslSocket) ConnectToHostEncrypted3(hostName string, port uint16, mode qt6.QIODeviceBase__OpenModeFlag) { hostName_ms := C.struct_miqt_string{} hostName_ms.data = C.CString(hostName) hostName_ms.len = C.size_t(len(hostName)) defer C.free(unsafe.Pointer(hostName_ms.data)) C.QSslSocket_ConnectToHostEncrypted3(this.h, hostName_ms, (C.uint16_t)(port), (C.int)(mode)) } func (this *QSslSocket) ConnectToHostEncrypted4(hostName string, port uint16, mode qt6.QIODeviceBase__OpenModeFlag, protocol QAbstractSocket__NetworkLayerProtocol) { hostName_ms := C.struct_miqt_string{} hostName_ms.data = C.CString(hostName) hostName_ms.len = C.size_t(len(hostName)) defer C.free(unsafe.Pointer(hostName_ms.data)) C.QSslSocket_ConnectToHostEncrypted4(this.h, hostName_ms, (C.uint16_t)(port), (C.int)(mode), (C.int)(protocol)) } func (this *QSslSocket) ConnectToHostEncrypted42(hostName string, port uint16, sslPeerName string, mode qt6.QIODeviceBase__OpenModeFlag) { hostName_ms := C.struct_miqt_string{} hostName_ms.data = C.CString(hostName) hostName_ms.len = C.size_t(len(hostName)) defer C.free(unsafe.Pointer(hostName_ms.data)) sslPeerName_ms := C.struct_miqt_string{} sslPeerName_ms.data = C.CString(sslPeerName) sslPeerName_ms.len = C.size_t(len(sslPeerName)) defer C.free(unsafe.Pointer(sslPeerName_ms.data)) C.QSslSocket_ConnectToHostEncrypted42(this.h, hostName_ms, (C.uint16_t)(port), sslPeerName_ms, (C.int)(mode)) } func (this *QSslSocket) ConnectToHostEncrypted5(hostName string, port uint16, sslPeerName string, mode qt6.QIODeviceBase__OpenModeFlag, protocol QAbstractSocket__NetworkLayerProtocol) { hostName_ms := C.struct_miqt_string{} hostName_ms.data = C.CString(hostName) hostName_ms.len = C.size_t(len(hostName)) defer C.free(unsafe.Pointer(hostName_ms.data)) sslPeerName_ms := C.struct_miqt_string{} sslPeerName_ms.data = C.CString(sslPeerName) sslPeerName_ms.len = C.size_t(len(sslPeerName)) defer C.free(unsafe.Pointer(sslPeerName_ms.data)) C.QSslSocket_ConnectToHostEncrypted5(this.h, hostName_ms, (C.uint16_t)(port), sslPeerName_ms, (C.int)(mode), (C.int)(protocol)) } func (this *QSslSocket) SetSocketDescriptor2(socketDescriptor uintptr, state QAbstractSocket__SocketState) bool { return (bool)(C.QSslSocket_SetSocketDescriptor2(this.h, (C.intptr_t)(socketDescriptor), (C.int)(state))) } func (this *QSslSocket) SetSocketDescriptor3(socketDescriptor uintptr, state QAbstractSocket__SocketState, openMode qt6.QIODeviceBase__OpenModeFlag) bool { return (bool)(C.QSslSocket_SetSocketDescriptor3(this.h, (C.intptr_t)(socketDescriptor), (C.int)(state), (C.int)(openMode))) } func (this *QSslSocket) ConnectToHost3(hostName string, port uint16, openMode qt6.QIODeviceBase__OpenModeFlag) { hostName_ms := C.struct_miqt_string{} hostName_ms.data = C.CString(hostName) hostName_ms.len = C.size_t(len(hostName)) defer C.free(unsafe.Pointer(hostName_ms.data)) C.QSslSocket_ConnectToHost3(this.h, hostName_ms, (C.uint16_t)(port), (C.int)(openMode)) } func (this *QSslSocket) ConnectToHost4(hostName string, port uint16, openMode qt6.QIODeviceBase__OpenModeFlag, protocol QAbstractSocket__NetworkLayerProtocol) { hostName_ms := C.struct_miqt_string{} hostName_ms.data = C.CString(hostName) hostName_ms.len = C.size_t(len(hostName)) defer C.free(unsafe.Pointer(hostName_ms.data)) C.QSslSocket_ConnectToHost4(this.h, hostName_ms, (C.uint16_t)(port), (C.int)(openMode), (C.int)(protocol)) } func (this *QSslSocket) SetLocalCertificate2(fileName string, format QSsl__EncodingFormat) { fileName_ms := C.struct_miqt_string{} fileName_ms.data = C.CString(fileName) fileName_ms.len = C.size_t(len(fileName)) defer C.free(unsafe.Pointer(fileName_ms.data)) C.QSslSocket_SetLocalCertificate2(this.h, fileName_ms, (C.int)(format)) } func (this *QSslSocket) SetPrivateKey2(fileName string, algorithm QSsl__KeyAlgorithm) { fileName_ms := C.struct_miqt_string{} fileName_ms.data = C.CString(fileName) fileName_ms.len = C.size_t(len(fileName)) defer C.free(unsafe.Pointer(fileName_ms.data)) C.QSslSocket_SetPrivateKey2(this.h, fileName_ms, (C.int)(algorithm)) } func (this *QSslSocket) SetPrivateKey3(fileName string, algorithm QSsl__KeyAlgorithm, format QSsl__EncodingFormat) { fileName_ms := C.struct_miqt_string{} fileName_ms.data = C.CString(fileName) fileName_ms.len = C.size_t(len(fileName)) defer C.free(unsafe.Pointer(fileName_ms.data)) C.QSslSocket_SetPrivateKey3(this.h, fileName_ms, (C.int)(algorithm), (C.int)(format)) } func (this *QSslSocket) SetPrivateKey4(fileName string, algorithm QSsl__KeyAlgorithm, format QSsl__EncodingFormat, passPhrase []byte) { fileName_ms := C.struct_miqt_string{} fileName_ms.data = C.CString(fileName) fileName_ms.len = C.size_t(len(fileName)) defer C.free(unsafe.Pointer(fileName_ms.data)) passPhrase_alias := C.struct_miqt_string{} passPhrase_alias.data = (*C.char)(unsafe.Pointer(&passPhrase[0])) passPhrase_alias.len = C.size_t(len(passPhrase)) C.QSslSocket_SetPrivateKey4(this.h, fileName_ms, (C.int)(algorithm), (C.int)(format), passPhrase_alias) } func (this *QSslSocket) WaitForConnected1(msecs int) bool { return (bool)(C.QSslSocket_WaitForConnected1(this.h, (C.int)(msecs))) } func (this *QSslSocket) WaitForEncrypted1(msecs int) bool { return (bool)(C.QSslSocket_WaitForEncrypted1(this.h, (C.int)(msecs))) } func (this *QSslSocket) WaitForReadyRead1(msecs int) bool { return (bool)(C.QSslSocket_WaitForReadyRead1(this.h, (C.int)(msecs))) } func (this *QSslSocket) WaitForBytesWritten1(msecs int) bool { return (bool)(C.QSslSocket_WaitForBytesWritten1(this.h, (C.int)(msecs))) } func (this *QSslSocket) WaitForDisconnected1(msecs int) bool { return (bool)(C.QSslSocket_WaitForDisconnected1(this.h, (C.int)(msecs))) } func QSslSocket_SupportedProtocols1(backendName string) []QSsl__SslProtocol { backendName_ms := C.struct_miqt_string{} backendName_ms.data = C.CString(backendName) backendName_ms.len = C.size_t(len(backendName)) defer C.free(unsafe.Pointer(backendName_ms.data)) var _ma C.struct_miqt_array = C.QSslSocket_SupportedProtocols1(backendName_ms) _ret := make([]QSsl__SslProtocol, int(_ma.len)) _outCast := (*[0xffff]C.int)(unsafe.Pointer(_ma.data)) // hey ya for i := 0; i < int(_ma.len); i++ { _ret[i] = (QSsl__SslProtocol)(_outCast[i]) } return _ret } func QSslSocket_IsProtocolSupported2(protocol QSsl__SslProtocol, backendName string) bool { backendName_ms := C.struct_miqt_string{} backendName_ms.data = C.CString(backendName) backendName_ms.len = C.size_t(len(backendName)) defer C.free(unsafe.Pointer(backendName_ms.data)) return (bool)(C.QSslSocket_IsProtocolSupported2((C.int)(protocol), backendName_ms)) } func QSslSocket_ImplementedClasses1(backendName string) []QSsl__ImplementedClass { backendName_ms := C.struct_miqt_string{} backendName_ms.data = C.CString(backendName) backendName_ms.len = C.size_t(len(backendName)) defer C.free(unsafe.Pointer(backendName_ms.data)) var _ma C.struct_miqt_array = C.QSslSocket_ImplementedClasses1(backendName_ms) _ret := make([]QSsl__ImplementedClass, int(_ma.len)) _outCast := (*[0xffff]C.int)(unsafe.Pointer(_ma.data)) // hey ya for i := 0; i < int(_ma.len); i++ { _ret[i] = (QSsl__ImplementedClass)(_outCast[i]) } return _ret } func QSslSocket_IsClassImplemented2(cl QSsl__ImplementedClass, backendName string) bool { backendName_ms := C.struct_miqt_string{} backendName_ms.data = C.CString(backendName) backendName_ms.len = C.size_t(len(backendName)) defer C.free(unsafe.Pointer(backendName_ms.data)) return (bool)(C.QSslSocket_IsClassImplemented2((C.int)(cl), backendName_ms)) } func QSslSocket_SupportedFeatures1(backendName string) []QSsl__SupportedFeature { backendName_ms := C.struct_miqt_string{} backendName_ms.data = C.CString(backendName) backendName_ms.len = C.size_t(len(backendName)) defer C.free(unsafe.Pointer(backendName_ms.data)) var _ma C.struct_miqt_array = C.QSslSocket_SupportedFeatures1(backendName_ms) _ret := make([]QSsl__SupportedFeature, int(_ma.len)) _outCast := (*[0xffff]C.int)(unsafe.Pointer(_ma.data)) // hey ya for i := 0; i < int(_ma.len); i++ { _ret[i] = (QSsl__SupportedFeature)(_outCast[i]) } return _ret } func QSslSocket_IsFeatureSupported2(feat QSsl__SupportedFeature, backendName string) bool { backendName_ms := C.struct_miqt_string{} backendName_ms.data = C.CString(backendName) backendName_ms.len = C.size_t(len(backendName)) defer C.free(unsafe.Pointer(backendName_ms.data)) return (bool)(C.QSslSocket_IsFeatureSupported2((C.int)(feat), backendName_ms)) } // Delete this object from C++ memory. func (this *QSslSocket) Delete() { C.QSslSocket_Delete(this.h) } // GoGC adds a Go Finalizer to this pointer, so that it will be deleted // from C++ memory once it is unreachable from Go memory. func (this *QSslSocket) GoGC() { runtime.SetFinalizer(this, func(this *QSslSocket) { this.Delete() runtime.KeepAlive(this.h) }) }