/** * WinPR: Windows Portable Runtime * Serial Communication API * * Copyright 2011 O.S. Systems Software Ltda. * Copyright 2011 Eduardo Fiss Beloni * Copyright 2014 Marc-Andre Moreau * 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 #if defined __linux__ && !defined ANDROID #include #include #include #include "comm.h" #include "comm_ioctl.h" #include "comm_serial_sys.h" #include "comm_sercx_sys.h" #include "comm_sercx2_sys.h" /* NB: MS-RDPESP's recommendation: * * <2> Section 3.2.5.1.6: Windows Implementations use IOCTL constants * for IoControlCode values. The content and values of the IOCTLs are * opaque to the protocol. On the server side, the data contained in * an IOCTL is simply packaged and sent to the client side. For * maximum compatibility between the different versions of the Windows * operating system, the client implementation only singles out * critical IOCTLs and invokes the applicable Win32 port API. The * other IOCTLS are passed directly to the client-side driver, and the * processing of this value depends on the drivers installed on the * client side. The values and parameters for these IOCTLS can be * found in [MSFT-W2KDDK] Volume 2, Part 2—Serial and Parallel * Drivers, and in [MSDN-PORTS]. */ const char* _comm_serial_ioctl_name(ULONG number) { int i; for (i = 0; _SERIAL_IOCTL_NAMES[i].number != 0; i++) { if (_SERIAL_IOCTL_NAMES[i].number == number) { return _SERIAL_IOCTL_NAMES[i].name; } } return "(unknown ioctl name)"; } static BOOL _CommDeviceIoControl(HANDLE hDevice, DWORD dwIoControlCode, LPVOID lpInBuffer, DWORD nInBufferSize, LPVOID lpOutBuffer, DWORD nOutBufferSize, LPDWORD lpBytesReturned, LPOVERLAPPED lpOverlapped) { WINPR_COMM* pComm = (WINPR_COMM*)hDevice; SERIAL_DRIVER* pServerSerialDriver = NULL; if (hDevice == INVALID_HANDLE_VALUE) { SetLastError(ERROR_INVALID_HANDLE); return FALSE; } if (!pComm || pComm->Type != HANDLE_TYPE_COMM || !pComm->fd) { SetLastError(ERROR_INVALID_HANDLE); return FALSE; } if (lpOverlapped) { SetLastError(ERROR_NOT_SUPPORTED); return FALSE; } if (lpBytesReturned == NULL) { SetLastError(ERROR_INVALID_PARAMETER); /* since we doesn't suppport lpOverlapped != NULL */ return FALSE; } /* clear any previous last error */ SetLastError(ERROR_SUCCESS); *lpBytesReturned = 0; /* will be ajusted if required ... */ CommLog_Print(WLOG_DEBUG, "CommDeviceIoControl: IoControlCode: 0x%0.8x", dwIoControlCode); /* remoteSerialDriver to be use ... * * FIXME: might prefer to use an automatic rather than static structure */ switch (pComm->serverSerialDriverId) { case SerialDriverSerialSys: pServerSerialDriver = SerialSys_s(); break; case SerialDriverSerCxSys: pServerSerialDriver = SerCxSys_s(); break; case SerialDriverSerCx2Sys: pServerSerialDriver = SerCx2Sys_s(); break; case SerialDriverUnknown: default: CommLog_Print(WLOG_DEBUG, "Unknown remote serial driver (%d), using SerCx2.sys", pComm->serverSerialDriverId); pServerSerialDriver = SerCx2Sys_s(); break; } assert(pServerSerialDriver != NULL); switch (dwIoControlCode) { case IOCTL_USBPRINT_GET_1284_ID: { /* FIXME: * http://msdn.microsoft.com/en-us/library/windows/hardware/ff551803(v=vs.85).aspx */ *lpBytesReturned = nOutBufferSize; /* an empty OutputBuffer will be returned */ SetLastError(ERROR_CALL_NOT_IMPLEMENTED); return FALSE; } case IOCTL_SERIAL_SET_BAUD_RATE: { if (pServerSerialDriver->set_baud_rate) { SERIAL_BAUD_RATE* pBaudRate = (SERIAL_BAUD_RATE*)lpInBuffer; assert(nInBufferSize >= sizeof(SERIAL_BAUD_RATE)); if (nInBufferSize < sizeof(SERIAL_BAUD_RATE)) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } return pServerSerialDriver->set_baud_rate(pComm, pBaudRate); } break; } case IOCTL_SERIAL_GET_BAUD_RATE: { if (pServerSerialDriver->get_baud_rate) { SERIAL_BAUD_RATE* pBaudRate = (SERIAL_BAUD_RATE*)lpOutBuffer; assert(nOutBufferSize >= sizeof(SERIAL_BAUD_RATE)); if (nOutBufferSize < sizeof(SERIAL_BAUD_RATE)) { SetLastError(ERROR_INSUFFICIENT_BUFFER); return FALSE; } if (!pServerSerialDriver->get_baud_rate(pComm, pBaudRate)) return FALSE; *lpBytesReturned = sizeof(SERIAL_BAUD_RATE); return TRUE; } break; } case IOCTL_SERIAL_GET_PROPERTIES: { if (pServerSerialDriver->get_properties) { COMMPROP* pProperties = (COMMPROP*)lpOutBuffer; assert(nOutBufferSize >= sizeof(COMMPROP)); if (nOutBufferSize < sizeof(COMMPROP)) { SetLastError(ERROR_INSUFFICIENT_BUFFER); return FALSE; } if (!pServerSerialDriver->get_properties(pComm, pProperties)) return FALSE; *lpBytesReturned = sizeof(COMMPROP); return TRUE; } break; } case IOCTL_SERIAL_SET_CHARS: { if (pServerSerialDriver->set_serial_chars) { SERIAL_CHARS* pSerialChars = (SERIAL_CHARS*)lpInBuffer; assert(nInBufferSize >= sizeof(SERIAL_CHARS)); if (nInBufferSize < sizeof(SERIAL_CHARS)) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } return pServerSerialDriver->set_serial_chars(pComm, pSerialChars); } break; } case IOCTL_SERIAL_GET_CHARS: { if (pServerSerialDriver->get_serial_chars) { SERIAL_CHARS* pSerialChars = (SERIAL_CHARS*)lpOutBuffer; assert(nOutBufferSize >= sizeof(SERIAL_CHARS)); if (nOutBufferSize < sizeof(SERIAL_CHARS)) { SetLastError(ERROR_INSUFFICIENT_BUFFER); return FALSE; } if (!pServerSerialDriver->get_serial_chars(pComm, pSerialChars)) return FALSE; *lpBytesReturned = sizeof(SERIAL_CHARS); return TRUE; } break; } case IOCTL_SERIAL_SET_LINE_CONTROL: { if (pServerSerialDriver->set_line_control) { SERIAL_LINE_CONTROL* pLineControl = (SERIAL_LINE_CONTROL*)lpInBuffer; assert(nInBufferSize >= sizeof(SERIAL_LINE_CONTROL)); if (nInBufferSize < sizeof(SERIAL_LINE_CONTROL)) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } return pServerSerialDriver->set_line_control(pComm, pLineControl); } break; } case IOCTL_SERIAL_GET_LINE_CONTROL: { if (pServerSerialDriver->get_line_control) { SERIAL_LINE_CONTROL* pLineControl = (SERIAL_LINE_CONTROL*)lpOutBuffer; assert(nOutBufferSize >= sizeof(SERIAL_LINE_CONTROL)); if (nOutBufferSize < sizeof(SERIAL_LINE_CONTROL)) { SetLastError(ERROR_INSUFFICIENT_BUFFER); return FALSE; } if (!pServerSerialDriver->get_line_control(pComm, pLineControl)) return FALSE; *lpBytesReturned = sizeof(SERIAL_LINE_CONTROL); return TRUE; } break; } case IOCTL_SERIAL_SET_HANDFLOW: { if (pServerSerialDriver->set_handflow) { SERIAL_HANDFLOW* pHandflow = (SERIAL_HANDFLOW*)lpInBuffer; assert(nInBufferSize >= sizeof(SERIAL_HANDFLOW)); if (nInBufferSize < sizeof(SERIAL_HANDFLOW)) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } return pServerSerialDriver->set_handflow(pComm, pHandflow); } break; } case IOCTL_SERIAL_GET_HANDFLOW: { if (pServerSerialDriver->get_handflow) { SERIAL_HANDFLOW* pHandflow = (SERIAL_HANDFLOW*)lpOutBuffer; assert(nOutBufferSize >= sizeof(SERIAL_HANDFLOW)); if (nOutBufferSize < sizeof(SERIAL_HANDFLOW)) { SetLastError(ERROR_INSUFFICIENT_BUFFER); return FALSE; } if (!pServerSerialDriver->get_handflow(pComm, pHandflow)) return FALSE; *lpBytesReturned = sizeof(SERIAL_HANDFLOW); return TRUE; } break; } case IOCTL_SERIAL_SET_TIMEOUTS: { if (pServerSerialDriver->set_timeouts) { SERIAL_TIMEOUTS* pHandflow = (SERIAL_TIMEOUTS*)lpInBuffer; assert(nInBufferSize >= sizeof(SERIAL_TIMEOUTS)); if (nInBufferSize < sizeof(SERIAL_TIMEOUTS)) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } return pServerSerialDriver->set_timeouts(pComm, pHandflow); } break; } case IOCTL_SERIAL_GET_TIMEOUTS: { if (pServerSerialDriver->get_timeouts) { SERIAL_TIMEOUTS* pHandflow = (SERIAL_TIMEOUTS*)lpOutBuffer; assert(nOutBufferSize >= sizeof(SERIAL_TIMEOUTS)); if (nOutBufferSize < sizeof(SERIAL_TIMEOUTS)) { SetLastError(ERROR_INSUFFICIENT_BUFFER); return FALSE; } if (!pServerSerialDriver->get_timeouts(pComm, pHandflow)) return FALSE; *lpBytesReturned = sizeof(SERIAL_TIMEOUTS); return TRUE; } break; } case IOCTL_SERIAL_SET_DTR: { if (pServerSerialDriver->set_dtr) { return pServerSerialDriver->set_dtr(pComm); } break; } case IOCTL_SERIAL_CLR_DTR: { if (pServerSerialDriver->clear_dtr) { return pServerSerialDriver->clear_dtr(pComm); } break; } case IOCTL_SERIAL_SET_RTS: { if (pServerSerialDriver->set_rts) { return pServerSerialDriver->set_rts(pComm); } break; } case IOCTL_SERIAL_CLR_RTS: { if (pServerSerialDriver->clear_rts) { return pServerSerialDriver->clear_rts(pComm); } break; } case IOCTL_SERIAL_GET_MODEMSTATUS: { if (pServerSerialDriver->get_modemstatus) { ULONG* pRegister = (ULONG*)lpOutBuffer; assert(nOutBufferSize >= sizeof(ULONG)); if (nOutBufferSize < sizeof(ULONG)) { SetLastError(ERROR_INSUFFICIENT_BUFFER); return FALSE; } if (!pServerSerialDriver->get_modemstatus(pComm, pRegister)) return FALSE; *lpBytesReturned = sizeof(ULONG); return TRUE; } break; } case IOCTL_SERIAL_SET_WAIT_MASK: { if (pServerSerialDriver->set_wait_mask) { ULONG* pWaitMask = (ULONG*)lpInBuffer; assert(nInBufferSize >= sizeof(ULONG)); if (nInBufferSize < sizeof(ULONG)) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } return pServerSerialDriver->set_wait_mask(pComm, pWaitMask); } break; } case IOCTL_SERIAL_GET_WAIT_MASK: { if (pServerSerialDriver->get_wait_mask) { ULONG* pWaitMask = (ULONG*)lpOutBuffer; assert(nOutBufferSize >= sizeof(ULONG)); if (nOutBufferSize < sizeof(ULONG)) { SetLastError(ERROR_INSUFFICIENT_BUFFER); return FALSE; } if (!pServerSerialDriver->get_wait_mask(pComm, pWaitMask)) return FALSE; *lpBytesReturned = sizeof(ULONG); return TRUE; } break; } case IOCTL_SERIAL_WAIT_ON_MASK: { if (pServerSerialDriver->wait_on_mask) { ULONG* pOutputMask = (ULONG*)lpOutBuffer; assert(nOutBufferSize >= sizeof(ULONG)); if (nOutBufferSize < sizeof(ULONG)) { SetLastError(ERROR_INSUFFICIENT_BUFFER); return FALSE; } if (!pServerSerialDriver->wait_on_mask(pComm, pOutputMask)) { *lpBytesReturned = sizeof(ULONG); return FALSE; } *lpBytesReturned = sizeof(ULONG); return TRUE; } break; } case IOCTL_SERIAL_SET_QUEUE_SIZE: { if (pServerSerialDriver->set_queue_size) { SERIAL_QUEUE_SIZE* pQueueSize = (SERIAL_QUEUE_SIZE*)lpInBuffer; assert(nInBufferSize >= sizeof(SERIAL_QUEUE_SIZE)); if (nInBufferSize < sizeof(SERIAL_QUEUE_SIZE)) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } return pServerSerialDriver->set_queue_size(pComm, pQueueSize); } break; } case IOCTL_SERIAL_PURGE: { if (pServerSerialDriver->purge) { ULONG* pPurgeMask = (ULONG*)lpInBuffer; assert(nInBufferSize >= sizeof(ULONG)); if (nInBufferSize < sizeof(ULONG)) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } return pServerSerialDriver->purge(pComm, pPurgeMask); } break; } case IOCTL_SERIAL_GET_COMMSTATUS: { if (pServerSerialDriver->get_commstatus) { SERIAL_STATUS* pCommstatus = (SERIAL_STATUS*)lpOutBuffer; assert(nOutBufferSize >= sizeof(SERIAL_STATUS)); if (nOutBufferSize < sizeof(SERIAL_STATUS)) { SetLastError(ERROR_INSUFFICIENT_BUFFER); return FALSE; } if (!pServerSerialDriver->get_commstatus(pComm, pCommstatus)) return FALSE; *lpBytesReturned = sizeof(SERIAL_STATUS); return TRUE; } break; } case IOCTL_SERIAL_SET_BREAK_ON: { if (pServerSerialDriver->set_break_on) { return pServerSerialDriver->set_break_on(pComm); } break; } case IOCTL_SERIAL_SET_BREAK_OFF: { if (pServerSerialDriver->set_break_off) { return pServerSerialDriver->set_break_off(pComm); } break; } case IOCTL_SERIAL_SET_XOFF: { if (pServerSerialDriver->set_xoff) { return pServerSerialDriver->set_xoff(pComm); } break; } case IOCTL_SERIAL_SET_XON: { if (pServerSerialDriver->set_xon) { return pServerSerialDriver->set_xon(pComm); } break; } case IOCTL_SERIAL_GET_DTRRTS: { if (pServerSerialDriver->get_dtrrts) { ULONG* pMask = (ULONG*)lpOutBuffer; assert(nOutBufferSize >= sizeof(ULONG)); if (nOutBufferSize < sizeof(ULONG)) { SetLastError(ERROR_INSUFFICIENT_BUFFER); return FALSE; } if (!pServerSerialDriver->get_dtrrts(pComm, pMask)) return FALSE; *lpBytesReturned = sizeof(ULONG); return TRUE; } break; } case IOCTL_SERIAL_CONFIG_SIZE: { if (pServerSerialDriver->config_size) { ULONG* pSize = (ULONG*)lpOutBuffer; assert(nOutBufferSize >= sizeof(ULONG)); if (nOutBufferSize < sizeof(ULONG)) { SetLastError(ERROR_INSUFFICIENT_BUFFER); return FALSE; } if (!pServerSerialDriver->config_size(pComm, pSize)) return FALSE; *lpBytesReturned = sizeof(ULONG); return TRUE; } break; } case IOCTL_SERIAL_IMMEDIATE_CHAR: { if (pServerSerialDriver->immediate_char) { UCHAR* pChar = (UCHAR*)lpInBuffer; assert(nInBufferSize >= sizeof(UCHAR)); if (nInBufferSize < sizeof(UCHAR)) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } return pServerSerialDriver->immediate_char(pComm, pChar); } break; } case IOCTL_SERIAL_RESET_DEVICE: { if (pServerSerialDriver->reset_device) { return pServerSerialDriver->reset_device(pComm); } break; } } CommLog_Print( WLOG_WARN, _T("unsupported IoControlCode=[0x%08" PRIX32 "] %s (remote serial driver: %s)"), dwIoControlCode, _comm_serial_ioctl_name(dwIoControlCode), pServerSerialDriver->name); SetLastError(ERROR_CALL_NOT_IMPLEMENTED); /* => STATUS_NOT_IMPLEMENTED */ return FALSE; } /** * FIXME: to be used through winpr-io's DeviceIoControl * * Any previous error as returned by GetLastError is cleared. * * ERRORS: * ERROR_INVALID_HANDLE * ERROR_INVALID_PARAMETER * ERROR_NOT_SUPPORTED lpOverlapped is not supported * ERROR_INSUFFICIENT_BUFFER * ERROR_CALL_NOT_IMPLEMENTED unimplemented ioctl */ BOOL CommDeviceIoControl(HANDLE hDevice, DWORD dwIoControlCode, LPVOID lpInBuffer, DWORD nInBufferSize, LPVOID lpOutBuffer, DWORD nOutBufferSize, LPDWORD lpBytesReturned, LPOVERLAPPED lpOverlapped) { WINPR_COMM* pComm = (WINPR_COMM*)hDevice; BOOL result; if (hDevice == INVALID_HANDLE_VALUE) { SetLastError(ERROR_INVALID_HANDLE); return FALSE; } if (!pComm || pComm->Type != HANDLE_TYPE_COMM || !pComm->fd) { SetLastError(ERROR_INVALID_HANDLE); return FALSE; } result = _CommDeviceIoControl(hDevice, dwIoControlCode, lpInBuffer, nInBufferSize, lpOutBuffer, nOutBufferSize, lpBytesReturned, lpOverlapped); if (lpBytesReturned && *lpBytesReturned != nOutBufferSize) { /* This might be a hint for a bug, especially when result==TRUE */ CommLog_Print(WLOG_WARN, "lpBytesReturned=%" PRIu32 " and nOutBufferSize=%" PRIu32 " are different!", *lpBytesReturned, nOutBufferSize); } if (pComm->permissive) { if (!result) { CommLog_Print( WLOG_WARN, "[permissive]: whereas it failed, made to succeed IoControlCode=[0x%08" PRIX32 "] %s, last-error: 0x%08" PRIX32 "", dwIoControlCode, _comm_serial_ioctl_name(dwIoControlCode), GetLastError()); } return TRUE; /* always! */ } return result; } int _comm_ioctl_tcsetattr(int fd, int optional_actions, const struct termios* termios_p) { int result; struct termios currentState; if ((result = tcsetattr(fd, optional_actions, termios_p)) < 0) { CommLog_Print(WLOG_WARN, "tcsetattr failure, errno: %d", errno); return result; } /* NB: tcsetattr() can succeed even if not all changes have been applied. */ ZeroMemory(¤tState, sizeof(struct termios)); if ((result = tcgetattr(fd, ¤tState)) < 0) { CommLog_Print(WLOG_WARN, "tcgetattr failure, errno: %d", errno); return result; } if (memcmp(¤tState, termios_p, sizeof(struct termios)) != 0) { CommLog_Print(WLOG_DEBUG, "all termios parameters are not set yet, doing a second attempt..."); if ((result = tcsetattr(fd, optional_actions, termios_p)) < 0) { CommLog_Print(WLOG_WARN, "2nd tcsetattr failure, errno: %d", errno); return result; } ZeroMemory(¤tState, sizeof(struct termios)); if ((result = tcgetattr(fd, ¤tState)) < 0) { CommLog_Print(WLOG_WARN, "tcgetattr failure, errno: %d", errno); return result; } if (memcmp(¤tState, termios_p, sizeof(struct termios)) != 0) { CommLog_Print(WLOG_WARN, "Failure: all termios parameters are still not set on a second attempt"); return -1; } } return 0; } #endif /* __linux__ */