/** * WinPR: Windows Portable Runtime * Serial Communication API * * 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 #include #include #include #include "comm.h" BOOL _comm_set_permissive(HANDLE hDevice, BOOL permissive) { WINPR_COMM* pComm = (WINPR_COMM*)hDevice; if (hDevice == INVALID_HANDLE_VALUE) { SetLastError(ERROR_INVALID_HANDLE); return FALSE; } if (!pComm || pComm->Type != HANDLE_TYPE_COMM) { SetLastError(ERROR_INVALID_HANDLE); return FALSE; } pComm->permissive = permissive; return TRUE; } /* Computes VTIME in deciseconds from Ti in milliseconds */ static UCHAR _vtime(ULONG Ti) { /* FIXME: look for an equivalent math function otherwise let * do the compiler do the optimization */ if (Ti == 0) return 0; else if (Ti < 100) return 1; else if (Ti > 25500) return 255; /* 0xFF */ else return Ti / 100; } /** * ERRORS: * ERROR_INVALID_HANDLE * ERROR_NOT_SUPPORTED * ERROR_INVALID_PARAMETER * ERROR_TIMEOUT * ERROR_IO_DEVICE * ERROR_BAD_DEVICE */ BOOL CommReadFile(HANDLE hDevice, LPVOID lpBuffer, DWORD nNumberOfBytesToRead, LPDWORD lpNumberOfBytesRead, LPOVERLAPPED lpOverlapped) { WINPR_COMM* pComm = (WINPR_COMM*)hDevice; int biggestFd = -1; fd_set read_set; int nbFds; COMMTIMEOUTS* pTimeouts; UCHAR vmin = 0; UCHAR vtime = 0; ULONGLONG Tmax = 0; struct timeval tmaxTimeout, *pTmaxTimeout; struct termios currentTermios; EnterCriticalSection(&pComm->ReadLock); /* KISSer by the function's beginning */ if (hDevice == INVALID_HANDLE_VALUE) { SetLastError(ERROR_INVALID_HANDLE); goto return_false; } if (!pComm || pComm->Type != HANDLE_TYPE_COMM) { SetLastError(ERROR_INVALID_HANDLE); goto return_false; } if (lpOverlapped != NULL) { SetLastError(ERROR_NOT_SUPPORTED); goto return_false; } if (lpNumberOfBytesRead == NULL) { SetLastError(ERROR_INVALID_PARAMETER); /* since we doesn't suppport lpOverlapped != NULL */ goto return_false; } *lpNumberOfBytesRead = 0; /* will be ajusted if required ... */ if (nNumberOfBytesToRead <= 0) /* N */ { goto return_true; /* FIXME: or FALSE? */ } if (tcgetattr(pComm->fd, ¤tTermios) < 0) { SetLastError(ERROR_IO_DEVICE); goto return_false; } if (currentTermios.c_lflag & ICANON) { CommLog_Print(WLOG_WARN, "Canonical mode not supported"); /* the timeout could not be set */ SetLastError(ERROR_NOT_SUPPORTED); goto return_false; } /* http://msdn.microsoft.com/en-us/library/hh439614%28v=vs.85%29.aspx * http://msdn.microsoft.com/en-us/library/windows/hardware/hh439614%28v=vs.85%29.aspx * * ReadIntervalTimeout | ReadTotalTimeoutMultiplier | ReadTotalTimeoutConstant | VMIN | VTIME | * TMAX | 0 | 0 | 0 | N | 0 | * INDEF | Blocks for N bytes available. 0< Ti fd_read_event, O_NONBLOCK) doesn't conflict with * above use cases */ pTimeouts = &(pComm->timeouts); if ((pTimeouts->ReadIntervalTimeout == MAXULONG) && (pTimeouts->ReadTotalTimeoutConstant == MAXULONG)) { CommLog_Print( WLOG_WARN, "ReadIntervalTimeout and ReadTotalTimeoutConstant cannot be both set to MAXULONG"); SetLastError(ERROR_INVALID_PARAMETER); goto return_false; } /* VMIN */ if ((pTimeouts->ReadIntervalTimeout == MAXULONG) && (pTimeouts->ReadTotalTimeoutMultiplier == 0) && (pTimeouts->ReadTotalTimeoutConstant == 0)) { vmin = 0; } else { /* N */ /* vmin = nNumberOfBytesToRead < 256 ? nNumberOfBytesToRead : 255;*/ /* 0xFF */ /* NB: we might wait endlessly with vmin=N, prefer to * force vmin=1 and return with bytes * available. FIXME: is a feature disarded here? */ vmin = 1; } /* VTIME */ if ((pTimeouts->ReadIntervalTimeout > 0) && (pTimeouts->ReadIntervalTimeout < MAXULONG)) { /* Ti */ vtime = _vtime(pTimeouts->ReadIntervalTimeout); } /* TMAX */ pTmaxTimeout = &tmaxTimeout; if ((pTimeouts->ReadIntervalTimeout == MAXULONG) && (pTimeouts->ReadTotalTimeoutMultiplier == MAXULONG)) { /* Tc */ Tmax = pTimeouts->ReadTotalTimeoutConstant; } else { /* Tmax */ Tmax = nNumberOfBytesToRead * pTimeouts->ReadTotalTimeoutMultiplier + pTimeouts->ReadTotalTimeoutConstant; /* INDEFinitely */ if ((Tmax == 0) && (pTimeouts->ReadIntervalTimeout < MAXULONG) && (pTimeouts->ReadTotalTimeoutMultiplier == 0)) pTmaxTimeout = NULL; } if ((currentTermios.c_cc[VMIN] != vmin) || (currentTermios.c_cc[VTIME] != vtime)) { currentTermios.c_cc[VMIN] = vmin; currentTermios.c_cc[VTIME] = vtime; if (tcsetattr(pComm->fd, TCSANOW, ¤tTermios) < 0) { CommLog_Print(WLOG_WARN, "CommReadFile failure, could not apply new timeout values: VMIN=%" PRIu8 ", VTIME=%" PRIu8 "", vmin, vtime); SetLastError(ERROR_IO_DEVICE); goto return_false; } } /* wait indefinitely if pTmaxTimeout is NULL */ if (pTmaxTimeout != NULL) { ZeroMemory(pTmaxTimeout, sizeof(struct timeval)); if (Tmax > 0) /* return immdiately if Tmax == 0 */ { pTmaxTimeout->tv_sec = Tmax / 1000; /* s */ pTmaxTimeout->tv_usec = (Tmax % 1000) * 1000; /* us */ } } /* FIXME: had expected eventfd_write() to return EAGAIN when * there is no eventfd_read() but this not the case. */ /* discard a possible and no more relevant event */ eventfd_read(pComm->fd_read_event, NULL); biggestFd = pComm->fd_read; if (pComm->fd_read_event > biggestFd) biggestFd = pComm->fd_read_event; FD_ZERO(&read_set); assert(pComm->fd_read_event < FD_SETSIZE); assert(pComm->fd_read < FD_SETSIZE); FD_SET(pComm->fd_read_event, &read_set); FD_SET(pComm->fd_read, &read_set); nbFds = select(biggestFd + 1, &read_set, NULL, NULL, pTmaxTimeout); if (nbFds < 0) { CommLog_Print(WLOG_WARN, "select() failure, errno=[%d] %s\n", errno, strerror(errno)); SetLastError(ERROR_IO_DEVICE); goto return_false; } if (nbFds == 0) { /* timeout */ SetLastError(ERROR_TIMEOUT); goto return_false; } /* read_set */ if (FD_ISSET(pComm->fd_read_event, &read_set)) { eventfd_t event = 0; if (eventfd_read(pComm->fd_read_event, &event) < 0) { if (errno == EAGAIN) { assert(FALSE); /* not quite sure this should ever happen */ /* keep on */ } else { CommLog_Print(WLOG_WARN, "unexpected error on reading fd_read_event, errno=[%d] %s\n", errno, strerror(errno)); /* FIXME: goto return_false ? */ } assert(errno == EAGAIN); } if (event == FREERDP_PURGE_RXABORT) { SetLastError(ERROR_CANCELLED); goto return_false; } assert(event == FREERDP_PURGE_RXABORT); /* no other expected event so far */ } if (FD_ISSET(pComm->fd_read, &read_set)) { ssize_t nbRead = 0; nbRead = read(pComm->fd_read, lpBuffer, nNumberOfBytesToRead); if (nbRead < 0) { CommLog_Print(WLOG_WARN, "CommReadFile failed, ReadIntervalTimeout=%" PRIu32 ", ReadTotalTimeoutMultiplier=%" PRIu32 ", ReadTotalTimeoutConstant=%" PRIu32 " VMIN=%u, VTIME=%u", pTimeouts->ReadIntervalTimeout, pTimeouts->ReadTotalTimeoutMultiplier, pTimeouts->ReadTotalTimeoutConstant, currentTermios.c_cc[VMIN], currentTermios.c_cc[VTIME]); CommLog_Print(WLOG_WARN, "CommReadFile failed, nNumberOfBytesToRead=%" PRIu32 ", errno=[%d] %s", nNumberOfBytesToRead, errno, strerror(errno)); if (errno == EAGAIN) { /* keep on */ goto return_true; /* expect a read-loop to be implemented on the server side */ } else if (errno == EBADF) { SetLastError(ERROR_BAD_DEVICE); /* STATUS_INVALID_DEVICE_REQUEST */ goto return_false; } else { assert(FALSE); SetLastError(ERROR_IO_DEVICE); goto return_false; } } if (nbRead == 0) { /* termios timeout */ SetLastError(ERROR_TIMEOUT); goto return_false; } *lpNumberOfBytesRead = nbRead; EnterCriticalSection(&pComm->EventsLock); if (pComm->PendingEvents & SERIAL_EV_FREERDP_WAITING) { if (pComm->eventChar != '\0' && memchr(lpBuffer, pComm->eventChar, nbRead)) pComm->PendingEvents |= SERIAL_EV_RXCHAR; } LeaveCriticalSection(&pComm->EventsLock); goto return_true; } assert(FALSE); *lpNumberOfBytesRead = 0; return_false: LeaveCriticalSection(&pComm->ReadLock); return FALSE; return_true: LeaveCriticalSection(&pComm->ReadLock); return TRUE; } /** * ERRORS: * ERROR_INVALID_HANDLE * ERROR_NOT_SUPPORTED * ERROR_INVALID_PARAMETER * ERROR_BAD_DEVICE */ BOOL CommWriteFile(HANDLE hDevice, LPCVOID lpBuffer, DWORD nNumberOfBytesToWrite, LPDWORD lpNumberOfBytesWritten, LPOVERLAPPED lpOverlapped) { WINPR_COMM* pComm = (WINPR_COMM*)hDevice; struct timeval tmaxTimeout, *pTmaxTimeout; EnterCriticalSection(&pComm->WriteLock); /* KISSer by the function's beginning */ if (hDevice == INVALID_HANDLE_VALUE) { SetLastError(ERROR_INVALID_HANDLE); goto return_false; } if (!pComm || pComm->Type != HANDLE_TYPE_COMM) { SetLastError(ERROR_INVALID_HANDLE); goto return_false; } if (lpOverlapped != NULL) { SetLastError(ERROR_NOT_SUPPORTED); goto return_false; } if (lpNumberOfBytesWritten == NULL) { SetLastError(ERROR_INVALID_PARAMETER); /* since we doesn't suppport lpOverlapped != NULL */ goto return_false; } *lpNumberOfBytesWritten = 0; /* will be ajusted if required ... */ if (nNumberOfBytesToWrite <= 0) { goto return_true; /* FIXME: or FALSE? */ } /* FIXME: had expected eventfd_write() to return EAGAIN when * there is no eventfd_read() but this not the case. */ /* discard a possible and no more relevant event */ eventfd_read(pComm->fd_write_event, NULL); /* ms */ ULONGLONG Tmax = nNumberOfBytesToWrite * pComm->timeouts.WriteTotalTimeoutMultiplier + pComm->timeouts.WriteTotalTimeoutConstant; /* NB: select() may update the timeout argument to indicate * how much time was left. Keep the timeout variable out of * the while() */ pTmaxTimeout = &tmaxTimeout; ZeroMemory(pTmaxTimeout, sizeof(struct timeval)); if (Tmax > 0) { pTmaxTimeout->tv_sec = Tmax / 1000; /* s */ pTmaxTimeout->tv_usec = (Tmax % 1000) * 1000; /* us */ } else if ((pComm->timeouts.WriteTotalTimeoutMultiplier == 0) && (pComm->timeouts.WriteTotalTimeoutConstant == 0)) { pTmaxTimeout = NULL; } /* else return immdiately */ while (*lpNumberOfBytesWritten < nNumberOfBytesToWrite) { int biggestFd = -1; fd_set event_set, write_set; int nbFds; biggestFd = pComm->fd_write; if (pComm->fd_write_event > biggestFd) biggestFd = pComm->fd_write_event; FD_ZERO(&event_set); FD_ZERO(&write_set); assert(pComm->fd_write_event < FD_SETSIZE); assert(pComm->fd_write < FD_SETSIZE); FD_SET(pComm->fd_write_event, &event_set); FD_SET(pComm->fd_write, &write_set); nbFds = select(biggestFd + 1, &event_set, &write_set, NULL, pTmaxTimeout); if (nbFds < 0) { CommLog_Print(WLOG_WARN, "select() failure, errno=[%d] %s\n", errno, strerror(errno)); SetLastError(ERROR_IO_DEVICE); goto return_false; } if (nbFds == 0) { /* timeout */ SetLastError(ERROR_TIMEOUT); goto return_false; } /* event_set */ if (FD_ISSET(pComm->fd_write_event, &event_set)) { eventfd_t event = 0; if (eventfd_read(pComm->fd_write_event, &event) < 0) { if (errno == EAGAIN) { assert(FALSE); /* not quite sure this should ever happen */ /* keep on */ } else { CommLog_Print(WLOG_WARN, "unexpected error on reading fd_write_event, errno=[%d] %s\n", errno, strerror(errno)); /* FIXME: goto return_false ? */ } assert(errno == EAGAIN); } if (event == FREERDP_PURGE_TXABORT) { SetLastError(ERROR_CANCELLED); goto return_false; } assert(event == FREERDP_PURGE_TXABORT); /* no other expected event so far */ } /* write_set */ if (FD_ISSET(pComm->fd_write, &write_set)) { ssize_t nbWritten; nbWritten = write(pComm->fd_write, ((BYTE*)lpBuffer) + (*lpNumberOfBytesWritten), nNumberOfBytesToWrite - (*lpNumberOfBytesWritten)); if (nbWritten < 0) { CommLog_Print(WLOG_WARN, "CommWriteFile failed after %" PRIu32 " bytes written, errno=[%d] %s\n", *lpNumberOfBytesWritten, errno, strerror(errno)); if (errno == EAGAIN) { /* keep on */ continue; } else if (errno == EBADF) { SetLastError(ERROR_BAD_DEVICE); /* STATUS_INVALID_DEVICE_REQUEST */ goto return_false; } else { assert(FALSE); SetLastError(ERROR_IO_DEVICE); goto return_false; } } *lpNumberOfBytesWritten += nbWritten; } } /* while */ /* FIXME: this call to tcdrain() doesn't look correct and * might hide a bug but was required while testing a serial * printer. Its driver was expecting the modem line status * SERIAL_MSR_DSR true after the sending which was never * happenning otherwise. A purge was also done before each * Write operation. The serial port was opened with: * DesiredAccess=0x0012019F. The printer worked fine with * mstsc. */ tcdrain(pComm->fd_write); return_true: LeaveCriticalSection(&pComm->WriteLock); return TRUE; return_false: LeaveCriticalSection(&pComm->WriteLock); return FALSE; } #endif /* __linux__ */