/** * FreeRDP: A Remote Desktop Protocol Implementation * Serial Port Device Service Virtual Channel * * Copyright 2011 O.S. Systems Software Ltda. * Copyright 2011 Eduardo Fiss Beloni * Copyright 2014 Hewlett-Packard Development Company, L.P. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define TAG CHANNELS_TAG("serial.client") /* TODO: all #ifdef __linux__ could be removed once only some generic * functions will be used. Replace CommReadFile by ReadFile, * CommWriteFile by WriteFile etc.. */ #if defined __linux__ && !defined ANDROID #define MAX_IRP_THREADS 5 typedef struct _SERIAL_DEVICE SERIAL_DEVICE; struct _SERIAL_DEVICE { DEVICE device; BOOL permissive; SERIAL_DRIVER_ID ServerSerialDriverId; HANDLE* hComm; wLog* log; HANDLE MainThread; wMessageQueue* MainIrpQueue; /* one thread per pending IRP and indexed according their CompletionId */ wListDictionary *IrpThreads; UINT32 IrpThreadToBeTerminatedCount; CRITICAL_SECTION TerminatingIrpThreadsLock; rdpContext* rdpcontext; }; typedef struct _IRP_THREAD_DATA IRP_THREAD_DATA; struct _IRP_THREAD_DATA { SERIAL_DEVICE *serial; IRP *irp; }; static UINT32 _GetLastErrorToIoStatus(SERIAL_DEVICE* serial) { /* http://msdn.microsoft.com/en-us/library/ff547466%28v=vs.85%29.aspx#generic_status_values_for_serial_device_control_requests */ switch(GetLastError()) { case ERROR_BAD_DEVICE: return STATUS_INVALID_DEVICE_REQUEST; case ERROR_CALL_NOT_IMPLEMENTED: return STATUS_NOT_IMPLEMENTED; case ERROR_CANCELLED: return STATUS_CANCELLED; case ERROR_INSUFFICIENT_BUFFER: return STATUS_BUFFER_TOO_SMALL; /* NB: STATUS_BUFFER_SIZE_TOO_SMALL not defined */ case ERROR_INVALID_DEVICE_OBJECT_PARAMETER: /* eg: SerCx2.sys' _purge() */ return STATUS_INVALID_DEVICE_STATE; case ERROR_INVALID_HANDLE: return STATUS_INVALID_DEVICE_REQUEST; case ERROR_INVALID_PARAMETER: return STATUS_INVALID_PARAMETER; case ERROR_IO_DEVICE: return STATUS_IO_DEVICE_ERROR; case ERROR_IO_PENDING: return STATUS_PENDING; case ERROR_NOT_SUPPORTED: return STATUS_NOT_SUPPORTED; case ERROR_TIMEOUT: return STATUS_TIMEOUT; /* no default */ } WLog_Print(serial->log, WLOG_DEBUG, "unexpected last-error: 0x%lx", GetLastError()); return STATUS_UNSUCCESSFUL; } static void serial_process_irp_create(SERIAL_DEVICE* serial, IRP* irp) { DWORD DesiredAccess; DWORD SharedAccess; DWORD CreateDisposition; UINT32 PathLength; Stream_Read_UINT32(irp->input, DesiredAccess); /* DesiredAccess (4 bytes) */ Stream_Seek_UINT64(irp->input); /* AllocationSize (8 bytes) */ Stream_Seek_UINT32(irp->input); /* FileAttributes (4 bytes) */ Stream_Read_UINT32(irp->input, SharedAccess); /* SharedAccess (4 bytes) */ Stream_Read_UINT32(irp->input, CreateDisposition); /* CreateDisposition (4 bytes) */ Stream_Seek_UINT32(irp->input); /* CreateOptions (4 bytes) */ Stream_Read_UINT32(irp->input, PathLength); /* PathLength (4 bytes) */ Stream_Seek(irp->input, PathLength); /* Path (variable) */ assert(PathLength == 0); /* MS-RDPESP 2.2.2.2 */ #ifndef _WIN32 /* Windows 2012 server sends on a first call : * DesiredAccess = 0x00100080: SYNCHRONIZE | FILE_READ_ATTRIBUTES * SharedAccess = 0x00000007: FILE_SHARE_DELETE | FILE_SHARE_WRITE | FILE_SHARE_READ * CreateDisposition = 0x00000001: CREATE_NEW * * then Windows 2012 sends : * DesiredAccess = 0x00120089: SYNCHRONIZE | READ_CONTROL | FILE_READ_ATTRIBUTES | FILE_READ_EA | FILE_READ_DATA * SharedAccess = 0x00000007: FILE_SHARE_DELETE | FILE_SHARE_WRITE | FILE_SHARE_READ * CreateDisposition = 0x00000001: CREATE_NEW * * assert(DesiredAccess == (GENERIC_READ | GENERIC_WRITE)); * assert(SharedAccess == 0); * assert(CreateDisposition == OPEN_EXISTING); * */ WLog_Print(serial->log, WLOG_DEBUG, "DesiredAccess: 0x%lX, SharedAccess: 0x%lX, CreateDisposition: 0x%lX", DesiredAccess, SharedAccess, CreateDisposition); /* FIXME: As of today only the flags below are supported by CommCreateFileA: */ DesiredAccess = GENERIC_READ | GENERIC_WRITE; SharedAccess = 0; CreateDisposition = OPEN_EXISTING; #endif serial->hComm = CreateFile(serial->device.name, DesiredAccess, SharedAccess, NULL, /* SecurityAttributes */ CreateDisposition, 0, /* FlagsAndAttributes */ NULL); /* TemplateFile */ if (!serial->hComm || (serial->hComm == INVALID_HANDLE_VALUE)) { WLog_Print(serial->log, WLOG_WARN, "CreateFile failure: %s last-error: 0x%lX\n", serial->device.name, GetLastError()); irp->IoStatus = STATUS_UNSUCCESSFUL; goto error_handle; } _comm_setServerSerialDriver(serial->hComm, serial->ServerSerialDriverId); _comm_set_permissive(serial->hComm, serial->permissive); /* NOTE: binary mode/raw mode required for the redirection. On * Linux, CommCreateFileA forces this setting. */ /* ZeroMemory(&dcb, sizeof(DCB)); */ /* dcb.DCBlength = sizeof(DCB); */ /* GetCommState(serial->hComm, &dcb); */ /* dcb.fBinary = TRUE; */ /* SetCommState(serial->hComm, &dcb); */ assert(irp->FileId == 0); irp->FileId = irp->devman->id_sequence++; /* FIXME: why not ((WINPR_COMM*)hComm)->fd? */ irp->IoStatus = STATUS_SUCCESS; WLog_Print(serial->log, WLOG_DEBUG, "%s (DeviceId: %d, FileId: %d) created.", serial->device.name, irp->device->id, irp->FileId); error_handle: Stream_Write_UINT32(irp->output, irp->FileId); /* FileId (4 bytes) */ Stream_Write_UINT8(irp->output, 0); /* Information (1 byte) */ } static void serial_process_irp_close(SERIAL_DEVICE* serial, IRP* irp) { Stream_Seek(irp->input, 32); /* Padding (32 bytes) */ if (!CloseHandle(serial->hComm)) { WLog_Print(serial->log, WLOG_WARN, "CloseHandle failure: %s (%d) closed.", serial->device.name, irp->device->id); irp->IoStatus = STATUS_UNSUCCESSFUL; goto error_handle; } WLog_Print(serial->log, WLOG_DEBUG, "%s (DeviceId: %d, FileId: %d) closed.", serial->device.name, irp->device->id, irp->FileId); serial->hComm = NULL; irp->IoStatus = STATUS_SUCCESS; error_handle: Stream_Zero(irp->output, 5); /* Padding (5 bytes) */ } /** * Function description * * @return 0 on success, otherwise a Win32 error code */ static UINT serial_process_irp_read(SERIAL_DEVICE* serial, IRP* irp) { UINT32 Length; UINT64 Offset; BYTE* buffer = NULL; DWORD nbRead = 0; Stream_Read_UINT32(irp->input, Length); /* Length (4 bytes) */ Stream_Read_UINT64(irp->input, Offset); /* Offset (8 bytes) */ Stream_Seek(irp->input, 20); /* Padding (20 bytes) */ buffer = (BYTE*)calloc(Length, sizeof(BYTE)); if (buffer == NULL) { irp->IoStatus = STATUS_NO_MEMORY; goto error_handle; } /* MS-RDPESP 3.2.5.1.4: If the Offset field is not set to 0, the value MUST be ignored * assert(Offset == 0); */ WLog_Print(serial->log, WLOG_DEBUG, "reading %d bytes from %s", Length, serial->device.name); /* FIXME: CommReadFile to be replaced by ReadFile */ if (CommReadFile(serial->hComm, buffer, Length, &nbRead, NULL)) { irp->IoStatus = STATUS_SUCCESS; } else { WLog_Print(serial->log, WLOG_DEBUG, "read failure to %s, nbRead=%ld, last-error: 0x%lX", serial->device.name, nbRead, GetLastError()); irp->IoStatus = _GetLastErrorToIoStatus(serial); } WLog_Print(serial->log, WLOG_DEBUG, "%lu bytes read from %s", nbRead, serial->device.name); error_handle: Stream_Write_UINT32(irp->output, nbRead); /* Length (4 bytes) */ if (nbRead > 0) { if (!Stream_EnsureRemainingCapacity(irp->output, nbRead)) { WLog_ERR(TAG, "Stream_EnsureRemainingCapacity failed!"); free(buffer); return CHANNEL_RC_NO_MEMORY; } Stream_Write(irp->output, buffer, nbRead); /* ReadData */ } free(buffer); return CHANNEL_RC_OK; } static void serial_process_irp_write(SERIAL_DEVICE* serial, IRP* irp) { UINT32 Length; UINT64 Offset; DWORD nbWritten = 0; Stream_Read_UINT32(irp->input, Length); /* Length (4 bytes) */ Stream_Read_UINT64(irp->input, Offset); /* Offset (8 bytes) */ Stream_Seek(irp->input, 20); /* Padding (20 bytes) */ /* MS-RDPESP 3.2.5.1.5: The Offset field is ignored * assert(Offset == 0); * * Using a serial printer, noticed though this field could be * set. */ WLog_Print(serial->log, WLOG_DEBUG, "writing %d bytes to %s", Length, serial->device.name); /* FIXME: CommWriteFile to be replaced by WriteFile */ if (CommWriteFile(serial->hComm, Stream_Pointer(irp->input), Length, &nbWritten, NULL)) { irp->IoStatus = STATUS_SUCCESS; } else { WLog_Print(serial->log, WLOG_DEBUG, "write failure to %s, nbWritten=%ld, last-error: 0x%lX", serial->device.name, nbWritten, GetLastError()); irp->IoStatus = _GetLastErrorToIoStatus(serial); } WLog_Print(serial->log, WLOG_DEBUG, "%lu bytes written to %s", nbWritten, serial->device.name); Stream_Write_UINT32(irp->output, nbWritten); /* Length (4 bytes) */ Stream_Write_UINT8(irp->output, 0); /* Padding (1 byte) */ } /** * Function description * * @return 0 on success, otherwise a Win32 error code */ static UINT serial_process_irp_device_control(SERIAL_DEVICE* serial, IRP* irp) { UINT32 IoControlCode; UINT32 InputBufferLength; BYTE* InputBuffer = NULL; UINT32 OutputBufferLength; BYTE* OutputBuffer = NULL; DWORD BytesReturned = 0; Stream_Read_UINT32(irp->input, OutputBufferLength); /* OutputBufferLength (4 bytes) */ Stream_Read_UINT32(irp->input, InputBufferLength); /* InputBufferLength (4 bytes) */ Stream_Read_UINT32(irp->input, IoControlCode); /* IoControlCode (4 bytes) */ Stream_Seek(irp->input, 20); /* Padding (20 bytes) */ OutputBuffer = (BYTE*)calloc(OutputBufferLength, sizeof(BYTE)); if (OutputBuffer == NULL) { irp->IoStatus = STATUS_NO_MEMORY; goto error_handle; } InputBuffer = (BYTE*)calloc(InputBufferLength, sizeof(BYTE)); if (InputBuffer == NULL) { irp->IoStatus = STATUS_NO_MEMORY; goto error_handle; } Stream_Read(irp->input, InputBuffer, InputBufferLength); WLog_Print(serial->log, WLOG_DEBUG, "CommDeviceIoControl: CompletionId=%d, IoControlCode=[0x%X] %s", irp->CompletionId, IoControlCode, _comm_serial_ioctl_name(IoControlCode)); /* FIXME: CommDeviceIoControl to be replaced by DeviceIoControl() */ if (CommDeviceIoControl(serial->hComm, IoControlCode, InputBuffer, InputBufferLength, OutputBuffer, OutputBufferLength, &BytesReturned, NULL)) { /* WLog_Print(serial->log, WLOG_DEBUG, "CommDeviceIoControl: CompletionId=%d, IoControlCode=[0x%X] %s done", irp->CompletionId, IoControlCode, _comm_serial_ioctl_name(IoControlCode)); */ irp->IoStatus = STATUS_SUCCESS; } else { WLog_Print(serial->log, WLOG_DEBUG, "CommDeviceIoControl failure: IoControlCode=[0x%X] %s, last-error: 0x%lX", IoControlCode, _comm_serial_ioctl_name(IoControlCode), GetLastError()); irp->IoStatus = _GetLastErrorToIoStatus(serial); } error_handle: /* FIXME: find out whether it's required or not to get * BytesReturned == OutputBufferLength when * CommDeviceIoControl returns FALSE */ assert(OutputBufferLength == BytesReturned); Stream_Write_UINT32(irp->output, BytesReturned); /* OutputBufferLength (4 bytes) */ if (BytesReturned > 0) { if (!Stream_EnsureRemainingCapacity(irp->output, BytesReturned)) { WLog_ERR(TAG, "Stream_EnsureRemainingCapacity failed!"); free(InputBuffer); free(OutputBuffer); return CHANNEL_RC_NO_MEMORY; } Stream_Write(irp->output, OutputBuffer, BytesReturned); /* OutputBuffer */ } /* FIXME: Why at least Windows 2008R2 gets lost with this * extra byte and likely on a IOCTL_SERIAL_SET_BAUD_RATE? The * extra byte is well required according MS-RDPEFS * 2.2.1.5.5 */ /* else */ /* { */ /* Stream_Write_UINT8(irp->output, 0); /\* Padding (1 byte) *\/ */ /* } */ free(InputBuffer); free(OutputBuffer); return CHANNEL_RC_OK; } /** * Function description * * @return 0 on success, otherwise a Win32 error code */ static UINT serial_process_irp(SERIAL_DEVICE* serial, IRP* irp) { UINT error = CHANNEL_RC_OK; WLog_Print(serial->log, WLOG_DEBUG, "IRP MajorFunction: 0x%04X MinorFunction: 0x%04X\n", irp->MajorFunction, irp->MinorFunction); switch (irp->MajorFunction) { case IRP_MJ_CREATE: serial_process_irp_create(serial, irp); break; case IRP_MJ_CLOSE: serial_process_irp_close(serial, irp); break; case IRP_MJ_READ: if ((error = serial_process_irp_read(serial, irp))) WLog_ERR(TAG, "serial_process_irp_read failed with error %lu!", error); break; case IRP_MJ_WRITE: serial_process_irp_write(serial, irp); break; case IRP_MJ_DEVICE_CONTROL: if ((error = serial_process_irp_device_control(serial, irp))) WLog_ERR(TAG, "serial_process_irp_device_control failed with error %lu!", error); break; default: irp->IoStatus = STATUS_NOT_SUPPORTED; break; } return error; } static void* irp_thread_func(void* arg) { IRP_THREAD_DATA *data = (IRP_THREAD_DATA*)arg; UINT error; /* blocks until the end of the request */ if ((error = serial_process_irp(data->serial, data->irp))) { WLog_ERR(TAG, "serial_process_irp failed with error %lu", error); goto error_out; } EnterCriticalSection(&data->serial->TerminatingIrpThreadsLock); data->serial->IrpThreadToBeTerminatedCount++; error = data->irp->Complete(data->irp); LeaveCriticalSection(&data->serial->TerminatingIrpThreadsLock); error_out: if (error && data->serial->rdpcontext) setChannelError(data->serial->rdpcontext, error, "irp_thread_func reported an error"); /* NB: At this point, the server might already being reusing * the CompletionId whereas the thread is not yet * terminated */ free(data); ExitThread((DWORD)error); return NULL; } static void create_irp_thread(SERIAL_DEVICE *serial, IRP *irp) { IRP_THREAD_DATA *data = NULL; HANDLE irpThread; HANDLE previousIrpThread; uintptr_t key; /* for a test/debug purpose, uncomment the code below to get a * single thread for all IRPs. NB: two IRPs could not be * processed at the same time, typically two concurent * Read/Write operations could block each other. */ /* serial_process_irp(serial, irp); */ /* irp->Complete(irp); */ /* return; */ /* NOTE: for good or bad, this implementation relies on the * server to avoid a flooding of requests. see also _purge(). */ EnterCriticalSection(&serial->TerminatingIrpThreadsLock); while (serial->IrpThreadToBeTerminatedCount > 0) { /* Cleaning up termitating and pending irp * threads. See also: irp_thread_func() */ HANDLE irpThread; ULONG_PTR *ids; int i, nbIds; nbIds = ListDictionary_GetKeys(serial->IrpThreads, &ids); for (i=0; iIrpThreads, (void*)id); /* FIXME: not quite sure a zero timeout is a good thing to check whether a thread is stil alived or not */ waitResult = WaitForSingleObject(irpThread, 0); if (waitResult == WAIT_OBJECT_0) { /* terminating thread */ /* WLog_Print(serial->log, WLOG_DEBUG, "IRP thread with CompletionId=%d naturally died", id); */ CloseHandle(irpThread); ListDictionary_Remove(serial->IrpThreads, (void*)id); serial->IrpThreadToBeTerminatedCount--; } else if (waitResult != WAIT_TIMEOUT) { /* unexpected thread state */ WLog_Print(serial->log, WLOG_WARN, "WaitForSingleObject, got an unexpected result=0x%lX\n", waitResult); assert(FALSE); } /* pending thread (but not yet terminating thread) if waitResult == WAIT_TIMEOUT */ } if (serial->IrpThreadToBeTerminatedCount > 0) { WLog_Print(serial->log, WLOG_DEBUG, "%d IRP thread(s) not yet terminated", serial->IrpThreadToBeTerminatedCount); Sleep(1); /* 1 ms */ } } LeaveCriticalSection(&serial->TerminatingIrpThreadsLock); /* NB: At this point and thanks to the synchronization we're * sure that the incoming IRP uses well a recycled * CompletionId or the server sent again an IRP already posted * which didn't get yet a response (this later server behavior * at least observed with IOCTL_SERIAL_WAIT_ON_MASK and * mstsc.exe). * * FIXME: behavior documented somewhere? behavior not yet * observed with FreeRDP). */ key = irp->CompletionId; previousIrpThread = ListDictionary_GetItemValue(serial->IrpThreads, (void*)key); if (previousIrpThread) { /* Thread still alived <=> Request still pending */ WLog_Print(serial->log, WLOG_DEBUG, "IRP recall: IRP with the CompletionId=%d not yet completed!", irp->CompletionId); assert(FALSE); /* unimplemented */ /* TODO: asserts that previousIrpThread handles well * the same request by checking more details. Need an * access to the IRP object used by previousIrpThread */ /* TODO: taking over the pending IRP or sending a kind * of wake up signal to accelerate the pending * request * * To be considered: * if (IoControlCode == IOCTL_SERIAL_WAIT_ON_MASK) { * pComm->PendingEvents |= SERIAL_EV_FREERDP_*; * } */ irp->Discard(irp); return; } if (ListDictionary_Count(serial->IrpThreads) >= MAX_IRP_THREADS) { WLog_Print(serial->log, WLOG_WARN, "Number of IRP threads threshold reached: %d, keep on anyway", ListDictionary_Count(serial->IrpThreads)); assert(FALSE); /* unimplemented */ /* TODO: MAX_IRP_THREADS has been thought to avoid a * flooding of pending requests. Use * WaitForMultipleObjects() when available in winpr * for threads. */ } /* error_handle to be used ... */ data = (IRP_THREAD_DATA*)calloc(1, sizeof(IRP_THREAD_DATA)); if (data == NULL) { WLog_Print(serial->log, WLOG_WARN, "Could not allocate a new IRP_THREAD_DATA."); goto error_handle; } data->serial = serial; data->irp = irp; /* data freed by irp_thread_func */ irpThread = CreateThread(NULL, 0, (LPTHREAD_START_ROUTINE)irp_thread_func, (void*)data, 0, NULL); if (irpThread == INVALID_HANDLE_VALUE) { WLog_Print(serial->log, WLOG_WARN, "Could not allocate a new IRP thread."); goto error_handle; } key = irp->CompletionId; if (!ListDictionary_Add(serial->IrpThreads, (void*)key, irpThread)) { WLog_ERR(TAG, "ListDictionary_Add failed!"); goto error_handle; } return; error_handle: irp->IoStatus = STATUS_NO_MEMORY; irp->Complete(irp); free(data); } static void terminate_pending_irp_threads(SERIAL_DEVICE *serial) { ULONG_PTR *ids; int i, nbIds; nbIds = ListDictionary_GetKeys(serial->IrpThreads, &ids); WLog_Print(serial->log, WLOG_DEBUG, "Terminating %d IRP thread(s)", nbIds); for (i=0; iIrpThreads, (void*)id); TerminateThread(irpThread, 0); if (WaitForSingleObject(irpThread, INFINITE) == WAIT_FAILED) { WLog_ERR(TAG,"WaitForSingleObject failed!"); continue; } CloseHandle(irpThread); WLog_Print(serial->log, WLOG_DEBUG, "IRP thread terminated, CompletionId %d", id); } ListDictionary_Clear(serial->IrpThreads); } static void* serial_thread_func(void* arg) { IRP* irp; wMessage message; SERIAL_DEVICE* serial = (SERIAL_DEVICE*) arg; UINT error = CHANNEL_RC_OK; while (1) { if (!MessageQueue_Wait(serial->MainIrpQueue)) { WLog_ERR(TAG, "MessageQueue_Wait failed!"); error = ERROR_INTERNAL_ERROR; break; } if (!MessageQueue_Peek(serial->MainIrpQueue, &message, TRUE)) { WLog_ERR(TAG, "MessageQueue_Peek failed!"); error = ERROR_INTERNAL_ERROR; break; } if (message.id == WMQ_QUIT) { terminate_pending_irp_threads(serial); break; } irp = (IRP*) message.wParam; if (irp) create_irp_thread(serial, irp); } if (error && serial->rdpcontext) setChannelError(serial->rdpcontext, error, "serial_thread_func reported an error"); ExitThread((DWORD) error); return NULL; } /** * Function description * * @return 0 on success, otherwise a Win32 error code */ static UINT serial_irp_request(DEVICE* device, IRP* irp) { SERIAL_DEVICE* serial = (SERIAL_DEVICE*) device; assert(irp != NULL); if (irp == NULL) return CHANNEL_RC_OK; /* NB: ENABLE_ASYNCIO is set, (MS-RDPEFS 2.2.2.7.2) this * allows the server to send multiple simultaneous read or * write requests. */ if (!MessageQueue_Post(serial->MainIrpQueue, NULL, 0, (void*) irp, NULL)) { WLog_ERR(TAG, "MessageQueue_Post failed!"); return ERROR_INTERNAL_ERROR; } return CHANNEL_RC_OK; } /** * Function description * * @return 0 on success, otherwise a Win32 error code */ static UINT serial_free(DEVICE* device) { UINT error; SERIAL_DEVICE* serial = (SERIAL_DEVICE*) device; WLog_Print(serial->log, WLOG_DEBUG, "freeing"); MessageQueue_PostQuit(serial->MainIrpQueue, 0); if (WaitForSingleObject(serial->MainThread, INFINITE) == WAIT_FAILED) { error = GetLastError(); WLog_ERR(TAG, "WaitForSingleObject failed with error %lu!", error); return error; } CloseHandle(serial->MainThread); if (serial->hComm) CloseHandle(serial->hComm); /* Clean up resources */ Stream_Free(serial->device.data, TRUE); MessageQueue_Free(serial->MainIrpQueue); ListDictionary_Free(serial->IrpThreads); DeleteCriticalSection(&serial->TerminatingIrpThreadsLock); free(serial); return CHANNEL_RC_OK; } #endif /* __linux__ */ #ifdef STATIC_CHANNELS #define DeviceServiceEntry serial_DeviceServiceEntry #else #define DeviceServiceEntry FREERDP_API DeviceServiceEntry #endif /** * Function description * * @return 0 on success, otherwise a Win32 error code */ UINT DeviceServiceEntry(PDEVICE_SERVICE_ENTRY_POINTS pEntryPoints) { char* name; char* path; char* driver; RDPDR_SERIAL* device; #if defined __linux__ && !defined ANDROID int i, len; SERIAL_DEVICE* serial; #endif /* __linux__ */ UINT error = CHANNEL_RC_OK; device = (RDPDR_SERIAL*) pEntryPoints->device; name = device->Name; path = device->Path; driver = device->Driver; if (!name || (name[0] == '*')) { /* TODO: implement auto detection of serial ports */ return CHANNEL_RC_OK; } if ((name && name[0]) && (path && path[0])) { wLog* log; WLog_Init(); log = WLog_Get("com.freerdp.channel.serial.client"); WLog_Print(log, WLOG_DEBUG, "initializing"); #ifndef __linux__ /* to be removed */ WLog_Print(log, WLOG_WARN, "Serial ports redirection not supported on this platform."); return CHANNEL_RC_INITIALIZATION_ERROR; #else /* __linux __ */ WLog_Print(log, WLOG_DEBUG, "Defining %s as %s", name, path); if (!DefineCommDevice(name /* eg: COM1 */, path /* eg: /dev/ttyS0 */)) { WLog_ERR(TAG, "DefineCommDevice failed!"); return ERROR_INTERNAL_ERROR; } serial = (SERIAL_DEVICE*) calloc(1, sizeof(SERIAL_DEVICE)); if (!serial) { WLog_ERR(TAG, "calloc failed!"); return CHANNEL_RC_NO_MEMORY; } serial->log = log; serial->device.type = RDPDR_DTYP_SERIAL; serial->device.name = name; serial->device.IRPRequest = serial_irp_request; serial->device.Free = serial_free; serial->rdpcontext = pEntryPoints->rdpcontext; len = strlen(name); serial->device.data = Stream_New(NULL, len + 1); if (!serial->device.data) { WLog_ERR(TAG, "calloc failed!"); error = CHANNEL_RC_NO_MEMORY; goto error_out; } for (i = 0; i <= len; i++) Stream_Write_UINT8(serial->device.data, name[i] < 0 ? '_' : name[i]); if (driver != NULL) { if (_stricmp(driver, "Serial") == 0) serial->ServerSerialDriverId = SerialDriverSerialSys; else if (_stricmp(driver, "SerCx") == 0) serial->ServerSerialDriverId = SerialDriverSerCxSys; else if (_stricmp(driver, "SerCx2") == 0) serial->ServerSerialDriverId = SerialDriverSerCx2Sys; else { assert(FALSE); WLog_Print(serial->log, WLOG_DEBUG, "Unknown server's serial driver: %s. SerCx2 will be used", driver); serial->ServerSerialDriverId = SerialDriverSerialSys; } } else { /* default driver */ serial->ServerSerialDriverId = SerialDriverSerialSys; } if (device->Permissive != NULL) { if (_stricmp(device->Permissive, "permissive") == 0) { serial->permissive = TRUE; } else { WLog_Print(serial->log, WLOG_DEBUG, "Unknown flag: %s", device->Permissive); assert(FALSE); } } WLog_Print(serial->log, WLOG_DEBUG, "Server's serial driver: %s (id: %d)", driver, serial->ServerSerialDriverId); /* TODO: implement auto detection of the server's serial driver */ serial->MainIrpQueue = MessageQueue_New(NULL); if (!serial->MainIrpQueue) { WLog_ERR(TAG, "MessageQueue_New failed!"); error = CHANNEL_RC_NO_MEMORY; goto error_out; } /* IrpThreads content only modified by create_irp_thread() */ serial->IrpThreads = ListDictionary_New(FALSE); if(!serial->IrpThreads) { WLog_ERR(TAG, "ListDictionary_New failed!"); error = CHANNEL_RC_NO_MEMORY; goto error_out; } serial->IrpThreadToBeTerminatedCount = 0; InitializeCriticalSection(&serial->TerminatingIrpThreadsLock); if ((error = pEntryPoints->RegisterDevice(pEntryPoints->devman, (DEVICE*) serial))) { WLog_ERR(TAG, "EntryPoints->RegisterDevice failed with error %lu!", error); goto error_out; } if (!(serial->MainThread = CreateThread(NULL, 0, (LPTHREAD_START_ROUTINE) serial_thread_func, (void*) serial, 0, NULL))) { WLog_ERR(TAG, "CreateThread failed!"); error = ERROR_INTERNAL_ERROR; goto error_out; } #endif /* __linux __ */ } return error; error_out: #ifdef __linux__ /* to be removed */ ListDictionary_Free(serial->IrpThreads); MessageQueue_Free(serial->MainIrpQueue); Stream_Free(serial->device.data, TRUE); free(serial); #endif /* __linux __ */ return error; }