// // cusb3003df2etinterface.cpp // ambed // // Created by Jean-Luc Deltombe (LX3JL) and Florian Wolters (DF2ET) on 03/11/2017. // Copyright © 2017 Jean-Luc Deltombe (LX3JL) and Florian Wolters (DF2ET). // All rights reserved. // // ---------------------------------------------------------------------------- // This file is part of ambed. // // xlxd is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // xlxd is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with Foobar. If not, see . // ---------------------------------------------------------------------------- // Created by Florian Wolters (DF2ET) on 03/11/2017. // Copyright © 2017 Florian Wolters (DF2ET). All rights reserved. #include "main.h" #include "ctimepoint.h" #include "cambepacket.h" #include "cusb3003df2etinterface.h" #include "cvocodecs.h" //////////////////////////////////////////////////////////////////////////////////////// // constructor CUsb3003DF2ETInterface::CUsb3003DF2ETInterface(uint32 uiVid, uint32 uiPid, const char *szDeviceName, const char *szDeviceSerial) : CUsb3003Interface(uiVid, uiPid, szDeviceName, szDeviceSerial) { } //////////////////////////////////////////////////////////////////////////////////////// // low level bool CUsb3003DF2ETInterface::OpenDevice(void) { FT_STATUS ftStatus; int baudrate = 921600; //sets serial VID/PID for a Standard Device NOTE: This is for legacy purposes only. This can be ommitted. ftStatus = FT_SetVIDPID(m_uiVid, m_uiPid); if (ftStatus != FT_OK) {FTDI_Error((char *)"FT_SetVIDPID", ftStatus ); return false; } ftStatus = FT_OpenEx((PVOID)m_szDeviceSerial, FT_OPEN_BY_SERIAL_NUMBER, &m_FtdiHandle); if (ftStatus != FT_OK) { FTDI_Error((char *)"FT_OpenEx", ftStatus ); return false; } CTimePoint::TaskSleepFor(50); FT_Purge(m_FtdiHandle, FT_PURGE_RX | FT_PURGE_TX ); CTimePoint::TaskSleepFor(50); ftStatus = FT_SetDataCharacteristics(m_FtdiHandle, FT_BITS_8, FT_STOP_BITS_1, FT_PARITY_NONE); if ( ftStatus != FT_OK ) { FTDI_Error((char *)"FT_SetDataCharacteristics", ftStatus ); return false; } ftStatus = FT_SetFlowControl(m_FtdiHandle, FT_FLOW_RTS_CTS, 0x11, 0x13); if (ftStatus != FT_OK) { FTDI_Error((char *)"FT_SetFlowControl", ftStatus ); return false; } ftStatus = FT_SetRts (m_FtdiHandle); if (ftStatus != FT_OK) { FTDI_Error((char *)"FT_SetRts", ftStatus ); return false; } // for DF2ET-3003 interface pull DTR low to take AMBE3003 out of reset. ftStatus = FT_SetDtr( m_FtdiHandle ); CTimePoint::TaskSleepFor(50); if (ftStatus != FT_OK) { FTDI_Error((char *)"FT_SetDtr", ftStatus); return false; } ftStatus = FT_SetBaudRate(m_FtdiHandle, baudrate ); if (ftStatus != FT_OK) { FTDI_Error((char *)"FT_SetBaudRate", ftStatus ); return false; } ftStatus = FT_SetLatencyTimer(m_FtdiHandle, 4); if (ftStatus != FT_OK) { FTDI_Error((char *)"FT_SetLatencyTimer", ftStatus ); return false; } ftStatus = FT_SetUSBParameters(m_FtdiHandle, USB3XXX_MAXPACKETSIZE, 0); if (ftStatus != FT_OK) { FTDI_Error((char *)"FT_SetUSBParameters", ftStatus ); return false; } ftStatus = FT_SetTimeouts(m_FtdiHandle, 200, 200 ); if (ftStatus != FT_OK) { FTDI_Error((char *)"FT_SetTimeouts", ftStatus ); return false; } // done return true; } bool CUsb3003DF2ETInterface::ResetDevice(void) { bool ok = false; FT_STATUS ftStatus; int len, i; char rxpacket[100]; std::cout << "Trying AMBE3003USB soft reset" << std::endl; DWORD n, b; char txpacket[10] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }; char reset_packet[7] = { PKT_HEADER, 0, 3, 0, PKT_RESET, PKT_PARITYBYTE, 3 ^ PKT_RESET ^ PKT_PARITYBYTE }; char *p; for (i = 0; i < 35; i++) { p = &txpacket[0]; n = 10; do { ftStatus = FT_Write( m_FtdiHandle, p, n, &b); if (FT_OK != ftStatus) { return 1; } n -= b; p += b; } while (n > 0); } p = &reset_packet[0]; n = 7; do { ftStatus = FT_Write( m_FtdiHandle, p, n, &b); if (FT_OK != ftStatus) { return 1; } n -= b; p += b; } while (n > 0); len = FTDI_read_packet( m_FtdiHandle, rxpacket, sizeof(rxpacket) ); ok = ((len == 7) && (rxpacket[4] == PKT_READY)); if ( ok ) { std::cout << "AMBE3003USB soft reset succeeded" << std::endl; } else { std::cout << "AMBE3003USB soft reset failed" << std::endl; std::cout << "Trying AMBE3003USB hard reset" << std::endl; ftStatus = FT_ClrDtr( m_FtdiHandle ); CTimePoint::TaskSleepFor(10); ftStatus = FT_SetDtr( m_FtdiHandle ); CTimePoint::TaskSleepFor(10); len = FTDI_read_packet( m_FtdiHandle, rxpacket, sizeof(rxpacket) ); ok = ((len == 7) && (rxpacket[4] == PKT_READY)); if ( ok ) { std::cout << "AMBE3003USB hard reset succeeded" << std::endl; } else { std::cout << "AMBE3003USB hard reset failed" << std::endl; } } return ok; }