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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [tools/] [src/] [tools/] [ecostest/] [common/] [ResetAttributes.cpp] - Rev 403
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//####COPYRIGHTBEGIN#### // // ---------------------------------------------------------------------------- // Copyright (C) 1998, 1999, 2000 Red Hat, Inc. // // This program is part of the eCos host tools. // // This program 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 2 of the License, or (at your option) // any later version. // // This program 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 // this program; if not, write to the Free Software Foundation, Inc., // 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. // // ---------------------------------------------------------------------------- // //####COPYRIGHTEND#### //#####DESCRIPTIONBEGIN#### // // Author(s): sdf // Contributors: sdf // Date: 1999-04-01 // Description: Holds information related to target reset // Usage: // //####DESCRIPTIONEND#### #include "eCosStd.h" #include "eCosThreadUtils.h" #include "eCosTrace.h" #include "ResetAttributes.h" const CResetAttributes CResetAttributes::NoReset; CResetAttributes::CResetAttributes(LPCTSTR psz) : // Default values: m_nDelay(1000), m_nReadTimeout(10*1000), m_nBaud(38400) { // Remove spaces while(*psz){ if(!_istspace(*psz)){ m_str+=*psz; } psz++; } } /* LPCTSTR CResetAttributes::Image(int nErr) { switch(nErr){ case RESET_OK: return _T("RESET_OK"); break; case RESET_ILLEGAL_DEVICE_CODE: return _T("Illegal device code"); break; case RESET_NO_REPLY: return _T("No reply from reset unit"); break; case RESET_BAD_CHECKSUM: return _T("Bad checksum"); break; case RESET_BAD_ACK: return _T("Bad ack"); break; default: return _T("Unknown reset error"); break; } } */ void CResetAttributes::SuckThreadFunc() { m_strResetOutput=_T(""); // Board has apparently been powered on. Suck initial output. ResetLog(String::SFormat(_T("Reading board startup output from %s with timeout of %d seconds..."),(LPCTSTR)m_strAuxPort,m_nReadTimeout/1000)); enum {BUFSIZE=512}; TCHAR buf[1+BUFSIZE]; memset(buf,0,BUFSIZE); // safety for string functions in IsValidReset do { unsigned int dwRead=0; // We are working in non-blocking mode if(m_Socket.Ok()){ if(!m_Socket.Peek(dwRead)||!m_Socket.recv(buf,MIN(dwRead,BUFSIZE))){ break; } } else if (!m_Serial.Read(buf,BUFSIZE,dwRead)){ m_Serial.ClearError(); continue; } if(dwRead>0){ buf[dwRead]=_TCHAR('\0'); // Remove unprintable characters String str; for(const TCHAR *t=buf;*t;t++){ if(_istprint(*t)){ str+=*t; } } if(m_pfnReset){ ENTERCRITICAL; m_pfnReset(m_pfnResetparam,str); LEAVECRITICAL; } ResetLog(str); m_strResetOutput+=str; if(IsValidReset()){ break; } // } else { // Nothing read // CeCosThreadUtils::Sleep(50); } } while (0==m_tResetOccurred || Now()-m_tResetOccurred<m_nReadTimeout); if(0==m_strResetOutput.size()){ ResetLog(_T("No response from board")); } else { if(m_pfnReset){ ENTERCRITICAL; m_pfnReset(m_pfnResetparam,_T("\n")); LEAVECRITICAL; } TRACE(_T("%s"),(LPCTSTR)m_strResetOutput); } } bool CResetAttributes::Reset(Action action,bool bCheckOutput) { m_tResetOccurred=0; m_strResetOutput=_T(""); bool rc=false; CeCosSocket sock; String strStatus; strStatus.Format(_T("Reset target using %s %s port=%s(%d) read timeout=%d delay=%d"), (LPCTSTR)m_strHostPort,(LPCTSTR)m_strControl, (LPCTSTR)m_strAuxPort, m_nBaud, m_nReadTimeout, m_nDelay); if(bCheckOutput){ strStatus+=_T(" expect("); for(unsigned int i=0;i<m_arValidResetStrings.size();i++){ if(i>0){ strStatus+=_TCHAR(','); } strStatus+=m_arValidResetStrings[i]; } strStatus+=_T(")"); } ResetLog(strStatus); // Open up communication to port whence we read the board startup bool bThreadDone=false; bCheckOutput&=(m_strAuxPort.size()>0); if(bCheckOutput){ TRACE(_T("Opening %s\n"),(LPCTSTR)m_strAuxPort); if(CeCosSocket::IsLegalHostPort(m_strAuxPort)){ // tcp/ip port if(!m_Socket.Connect(m_strAuxPort,m_nReadTimeout)){ ResetLog(String::SFormat(_T("Failed to open %s - %s"),(LPCTSTR)m_strAuxPort,(LPCTSTR)m_Socket.SocketErrString())); return false; } } else { // Comms device m_Serial.SetBlockingReads(false); if(m_Serial.Open(m_strAuxPort,m_nBaud)){ m_Serial.Flush(); } else { ResetLog(String::SFormat(_T("Failed to open comms port %s - %s"),(LPCTSTR)m_strAuxPort,(LPCTSTR)m_Serial.ErrString())); return false; } } CeCosThreadUtils::RunThread(SSuckThreadFunc,this,&bThreadDone,_T("SSuckThreadFunc")); } else { ResetLog(_T("[not checking output]")); } // This will be true if we need to talk to a reset server, false to talk down a local port bool bRemote=CeCosSocket::IsLegalHostPort(m_strHostPort); if(bRemote){ if(sock.Connect(m_strHostPort,10*1000)){ // Write the message to the socket int nDelay=(action==ON_OFF || action==OFF_ON)?m_nDelay:0; TRACE(_T("-Control=%s -Action=%d -Delay=%d"),(LPCTSTR)m_strControl,action,nDelay); if(sock.sendString(String::SFormat(_T("-Control=%s -Action=%d -Delay=%d"),(LPCTSTR)m_strControl,action,nDelay),_T("Reset control codes"), 10*1000)){ // Wait for an acknowledgement String strResponse; if(sock.recvString(strResponse, _T("Response"), nDelay+20*1000)){ rc=(0==strResponse.size()); if(!rc && m_pfnReset){ ResetLog(String::SFormat(_T("Reset server reports error '%s'"),(LPCTSTR)strResponse)); } } else { ResetLog(String::SFormat(_T("Failed to read response from reset server %s - %s"),(LPCTSTR)m_strHostPort,(LPCTSTR)sock.SocketErrString())); } } else { ResetLog(String::SFormat(_T("Failed to contact reset server %s - %s"),(LPCTSTR)m_strHostPort,(LPCTSTR)sock.SocketErrString())); } m_tResetOccurred=Now(); if(bCheckOutput){ if(!rc){ // force thread to time out m_tResetOccurred=Now()-m_nReadTimeout; } CeCosThreadUtils::WaitFor(bThreadDone); // do not apply a timeout - the thread has one rc=IsValidReset(); ResetLog(rc?_T("Reset output valid"):_T("Reset output INVALID")); } } else { ResetLog(String::SFormat(_T("Failed to contact reset server %s - %s"),(LPCTSTR)m_strHostPort,(LPCTSTR)sock.SocketErrString())); } } else { // Sending something locally m_tResetOccurred=Now(); unsigned int nWritten; m_Serial.Write((void *)(LPCTSTR)m_strControl,1,nWritten); if(bCheckOutput){ CeCosThreadUtils::WaitFor(bThreadDone); // do not apply a timeout - the thread has one rc=IsValidReset(); ResetLog(rc?_T("Reset output valid"):_T("Reset output INVALID")); } } if(m_Socket.Ok()){ m_Socket.Close(); } else { m_Serial.Close(); } return rc && bCheckOutput; } // We expect to be passed a string that starts with "xxx(yyy)" // and the task is to extract xxx into strID and yyy into strArg const TCHAR *CResetAttributes::GetIdAndArg (LPCTSTR psz,String &strID,String &strArg) { const TCHAR *cEnd=_tcschr(psz,_TCHAR('(')); if(cEnd){ strID=String(psz,cEnd-psz); int nNest=0; for(const TCHAR *c=cEnd;*c;c++){ if(_TCHAR('(')==*c){ nNest++; } else if(_TCHAR(')')==*c){ nNest--; if(0==nNest){ strArg=String(cEnd+1,c-(cEnd+1)); return c+1; } } } assert(false); } return 0; } // Do the reset CResetAttributes::ResetResult CResetAttributes::Reset (LogFunc *pfnLog, void *pfnLogparam,bool bCheckOnly) { m_pfnReset=pfnLog; m_pfnResetparam=pfnLogparam; // First we clean up the reset string so as to make subsequent parsing less complicated. // Spaces have already been removed in the ctor // Check paren matching: int nNest=0; for(const TCHAR *c=m_str;*c;c++){ if(_TCHAR('(')==*c){ nNest++; } else if(_TCHAR(')')==*c){ nNest--; if(nNest<0){ ResetLog(_T("Too many right parentheses")); return INVALID_STRING; } } } if(nNest>0){ ResetLog(_T("Too many left parentheses")); return INVALID_STRING; } return Parse(m_str,bCheckOnly); } // This function parses the reset string, whose form is something like: // expect($T05) 3(off(ginga:5000,a1) delay(2000) on(ginga:5000,a1,com1,38400,10000)) // It is recursive (which is another reason elementary syntax checking was carried out above) // and calls itself to perform repeats [e.g. 3(...)] CResetAttributes::ResetResult CResetAttributes::Parse (LPCTSTR psz,bool bCheckOnly) { enum {ARGSEP=_TCHAR(',')}; bool bCheck=false; for(const TCHAR *c=psz;*c;){ String strID,strArg; c=GetIdAndArg(c,strID,strArg); if(0==c){ ResetLog(_T("Invalid reset string")); return INVALID_STRING; } if(isdigit(*(LPCTSTR)strID)){ // Process a repeat-until-reset. Syntax is n(resetstring) int nRepeat=_ttoi(strID); if(0==nRepeat){ ResetLog(_T("Invalid reset string")); return INVALID_STRING; } if(bCheckOnly){ return Parse(strArg,true); } else { while(nRepeat--){ ResetResult r=Parse(strArg); if(RESET_OK==r||INVALID_STRING==r){ return r; } } } } else if (_T("expect")==strID) { // Expected string(s). e.g. expect(str1,str2,...). strArg.Chop(m_arValidResetStrings,ARGSEP,true); } else if (_T("port")==strID) { // Port information. e.g. port(com1,38400,1000) // This information will apply to all subsequent actions until overwritten. // Specifically args are: // 0. Port // 1. Baud // 2. Read timeout StringArray ar; int nArgs=strArg.Chop(ar,ARGSEP,true); if(nArgs>0){ m_strAuxPort=ar[0]; } if(nArgs>1){ m_nBaud=_ttoi(ar[1]); } if(nArgs>2){ m_nReadTimeout=_ttoi(ar[2]); } } else if (_T("off")==strID || _T("on")==strID || _T("on_off")==strID || _T("off_on")==strID) { // Action information. e.g. off(ginga:500,A4,com1,38400,10000,1000) // Specifically args are: // 0. Reset host:port // 1. Control string // 2. Port // 3. Baud // 4. Read timeout // 5. Delay StringArray ar; int nArgs=strArg.Chop(ar,ARGSEP,true); if(nArgs>0){ m_strHostPort=ar[0]; } if(nArgs>1){ m_strControl=ar[1]; } if(nArgs>2){ m_strAuxPort=ar[2]; } if(nArgs>3){ m_nBaud=_ttoi(ar[3]); } if(nArgs>4){ m_nReadTimeout=_ttoi(ar[4]); } if(nArgs>5){ m_nDelay=_ttoi(ar[5]); } if(0==m_strHostPort.size()){ ResetLog(_T("Failed to specify reset host:port")); return INVALID_STRING; } Action action=ON; // prevent compiler warning if(_T("on")==strID){ action=ON; } else if(_T("off")==strID){ action=OFF; } else if(_T("on_off")==strID){ action=ON_OFF; } else if(_T("off_on")==strID){ action=OFF_ON; } if(!bCheckOnly && Reset(action,bCheck||action==ON_OFF||action==OFF_ON)){ return RESET_OK; } bCheck ^= 1; } else if (_T("delay")==strID) { // Delay for a given time right now. e.g. delay(1000) // Specifically args are: // 0. msec to delay TRACE(_T("CeCosThreadUtils::Sleep %d\n"),_ttoi(strArg)); if(!bCheckOnly){ CeCosThreadUtils::Sleep(_ttoi(strArg)); } } else { ResetLog(String::SFormat(_T("Unrecognized command '%s'"),(LPCTSTR)strID)); return INVALID_STRING; } } ResetLog(_T("Target reset not verified")); return NOT_RESET; } // Log some output to the reset log function. void CResetAttributes::ResetLog(LPCTSTR psz) { if(m_pfnReset){ ENTERCRITICAL; m_pfnReset(m_pfnResetparam,String::SFormat(_T("%s >>> %s\n"),(LPCTSTR)CeCosTrace::Timestamp(),psz)); TRACE(_T("%s"),psz); LEAVECRITICAL; } } bool CResetAttributes::IsValidReset() { unsigned int n=0; ENTERCRITICAL; for(int i=m_arValidResetStrings.size()-1;i>=0;--i){ if(_tcsstr(m_strResetOutput,m_arValidResetStrings[i])){ n++; } } LEAVECRITICAL; return n==m_arValidResetStrings.size(); }
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