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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [tools/] [src/] [tools/] [ecostest/] [common/] [eCosTest.cpp] - Rev 502
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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#### //================================================================= // // eCosTest.cpp // // Test class // //================================================================= //================================================================= //#####DESCRIPTIONBEGIN#### // // Author(s): sdf // Contributors: sdf // Date: 1999-04-01 // Description: This class abstracts a test for use in the testing infrastructure // Usage: // //####DESCRIPTIONEND#### /////////////////////////////////////////////////////////////////////////////// #include "eCosStd.h" #include "eCosTest.h" #include "eCosTestPlatform.h" #include "eCosTrace.h" #include "TestResource.h" #include "eCosTestUtils.h" #include "eCosSocket.h" #include "eCosSerial.h" #include "eCosTestSerialFilter.h" #include "eCosTestDownloadFilter.h" #include "Properties.h" #include "Subprocess.h" #define WF(n) (n+50)/1000,((n+50)%1000)/100 // Present n as whole and fractional part. Round to nearest least significant digit #define WFS _T("%u.%u") // The format string to output the above LPCTSTR const CeCosTest::arResultImage[1+CeCosTest::StatusTypeMax]= {_T("NotStarted"), _T("NoResult"), _T("Inapplicable"), _T("Pass"), _T("DTimeout"), _T("Timeout"), _T("Cancelled"), _T("Fail"), _T("AssertFail"), _T("Unknown")}; CeCosTest *CeCosTest::pFirstInstance=0; int CeCosTest::InstanceCount=0; LPCTSTR const CeCosTest::arServerStatusImage[1+CeCosTest::ServerStatusMax]={ _T("Busy"), _T("Ready"), _T("Can't run"), _T("Connection failed"), _T("Locked"), _T("Bad server status")}; LPCTSTR CeCosTest::ExecutionParameters::arRequestImage [1+ExecutionParameters::RequestTypeMax]={ _T("Run"), _T("Query"), _T("Lock"), _T("Unlock"), _T("Stop"), _T("Bad request") }; static bool CALLBACK IsCancelled(void *pThis) { return CeCosTest::Cancelled==((CeCosTest *)pThis)->Status(); } // Ctors and dtors: CeCosTest::CeCosTest(const ExecutionParameters &e, LPCTSTR pszExecutable,LPCTSTR pszTitle): m_pspPipe(0), m_nStrippedSize(0), m_nFileSize(0), m_bDownloading(false), m_pSock(0), m_ep(e), m_strTitle(pszTitle), m_Status(NotStarted), m_nDownloadTime(0), m_nTotalTime(0), m_nMaxInactiveTime(0), m_pResource(0), m_psp(0) { assert(e.Platform()); SetExecutable (pszExecutable); TRACE(_T("%%%% Create test instance %08x count:=%d\n"),this,InstanceCount+1); // By recording the path now, we ensure processes are always run in the context in which the test instance // is created (important for the ConfigTool to be able to call PrepareEnvironment). #ifdef _WIN32 // for some reason _tgetenv() doesn't return the PATH set // by PrepareEnvironment() so use GetEnvironmentVariable() instead // JLD - 2000-06-09 String strPath; int nSize=GetEnvironmentVariable(_T("PATH"), NULL, 0); GetEnvironmentVariable(_T("PATH"), strPath.GetBuffer(nSize), nSize); strPath.ReleaseBuffer(); m_strPath=strPath; #else LPCTSTR pszPath=_tgetenv(_T("PATH")); if(pszPath){ m_strPath=pszPath; } #endif ENTERCRITICAL; InstanceCount++; m_pNextInstance=pFirstInstance; if(m_pNextInstance){ m_pNextInstance->m_pPrevInstance=this; } m_pPrevInstance=0; pFirstInstance=this; LEAVECRITICAL; } CeCosTest::~CeCosTest() { for(int i=0;i<(signed)m_arpExecsp.size();i++){ delete (CSubprocess *)m_arpExecsp[i]; } delete m_pspPipe; TRACE(_T("%%%% Delete test instance %08x\n"),this); Cancel(); CloseSocket(); if(m_pResource){ m_pResource->Release(); //delete m_pResource; //m_pResource=0; } VTRACE(_T("~CeCosTest(): EnterCritical and decrease instance count\n")); ENTERCRITICAL; InstanceCount--; TRACE(_T("%%%% Destroy instance. Instance count:=%d\n"),InstanceCount); if(pFirstInstance==this){ pFirstInstance=m_pNextInstance; } if(m_pPrevInstance){ m_pPrevInstance->m_pNextInstance=m_pNextInstance; } if(m_pNextInstance){ m_pNextInstance->m_pPrevInstance=m_pPrevInstance; } LEAVECRITICAL; } bool CeCosTest::RunRemote (LPCTSTR pszRemoteHostPort) { bool rc=false; TRACE(_T("RunRemote\n")); m_strExecutionHostPort=pszRemoteHostPort; m_Status=NotStarted; VTRACE(_T("RemoteThreadFunc()\n")); // Find a server. ConnectForExecution(); if(Cancelled!=Status()){ if(m_ep.Platform()->ServerSideGdb()){ // The executable is transmitted to the server for execution. // Send file size if(m_pSock->sendInteger(m_nFileSize,_T("file size"))&&m_nFileSize>0){ int nBufSize=MIN(10000,m_nFileSize); Buffer b(nBufSize); TRACE(_T("Sending [%d bytes]\n"), m_nFileSize); int nToSend=m_nFileSize; FILE *f1=_tfopen(m_strExecutable,_T("rb")); if(0==f1){ Log(_T("Failed to open %s - %s\n"),(LPCTSTR)m_strExecutable,strerror(errno)); } else { while (nToSend>0){ int nRead=fread( b.Data(), 1, nBufSize, f1); if(nRead<=0){ Log(_T("Failure reading %s - %s\n"),(LPCTSTR)m_strExecutable,strerror(errno)); break; } if(!send( b.Data(), nRead, _T("executable"))){ Log(_T("Failure sending %s - %s\n"),(LPCTSTR)m_strExecutable,(LPCTSTR)m_pSock->SocketErrString()); break; } nToSend-=nRead; } fclose(f1); f1=0; if(nToSend>0){ TRACE(_T("done [%d bytes sent]\n"),m_nFileSize-nToSend); Log(_T("Failed to transmit %s - %d/%d bytes sent\n"),(LPCTSTR)m_strExecutable,m_nFileSize-nToSend,m_nFileSize); } else { TRACE(_T("done\n")); rc=true; } } if(!recvResult(9*1000*60)){ // nine minutes Log(_T("Failed to receive result from remote server\n")); rc=false; } m_pSock->sendInteger(456); // send an ack [n'importe quoi] CloseSocket(); } } else { // The server sets up a connection between port and tcp/ip socket, and gdb is run locally // Big timeout here because we have to wait for the target to be reset // We do this: // do { // target ready indicator (0==fail, 1==ready, 2==fail and will retry) // any output so far // } while (2==target ready indicator) // read host:port String strHostPort; if(GetTargetReady(strHostPort)){ // Fix up a resource to represent permission to use the host:port we have been told about CTestResource resource; resource.SetTarget(m_ep.PlatformName()); resource.SetDownload(strHostPort,0); m_pResource=&resource; RunLocal(); m_pResource=0; m_pSock->sendInteger(Status(),_T("Terminating ack")); m_pSock->Close(); rc=true; } } } TRACE(_T("RemoteThreadFunc - exiting\n")); return rc; } // Run the test locally bool CeCosTest::RunLocal() { bool rc=false; TRACE(_T("RunLocal %s\n"),(LPCTSTR)Executable()); if(!CeCosTestUtils::IsFile(Executable())){ Log(_T("Cannot run - %s is not a file\n"),(LPCTSTR)Executable()); } else if(0==m_pResource && 0==CTestResource::Count(m_ep)){ Log(_T("Cannot run a %s test\n"),(LPCTSTR)m_ep.PlatformName()); } else { m_Status=NotStarted; TRACE(_T("LocalThreadFunc - target=%s\n"),(LPCTSTR)m_ep.PlatformName()); // Acquire a port (our caller may have done this for us) VTRACE(_T("LocalThreadFunc():Trying to acquire a port\n")); if(0==m_pResource){ for(;;){ m_pResource=CTestResource::GetResource(m_ep); if(m_pResource||Cancelled==Status()){ break; } CeCosThreadUtils::Sleep(2000); TRACE(_T("Waiting for a port\n")); } } VTRACE(_T("\nPort acquired!\n")); if(Cancelled!=Status()){ // This means we have acquired a local port bool bTargetReady=false; if(!m_pResource->HasReset()){ bTargetReady=true; } else { bTargetReady=(CResetAttributes::RESET_OK==m_pResource->Reset(0,this)); } // we may proceed to execute the test if(bTargetReady){ SetStatus(NotStarted); if(NOTIMEOUT==m_ep.DownloadTimeout()){ // No elapsed timeout given - calculate from knowledge of executable size and baud rate // 10 baud ~= 1 byte/sec, but we halve this to account for download in hex :-( // We use a minimum of 30 seconds and double the calculated result for safety // Note that the baud rate is generally unknown on the client side. int nBaud=m_pResource->Baud(); if(0==nBaud){ CTestResource *pExecutionResource=CTestResource::Lookup(m_strExecutionHostPort); if(pExecutionResource){ nBaud=pExecutionResource->Baud(); } } if(0==nBaud){ nBaud=38400; } int nBytesPerSec=(nBaud/10)/2; // division by 2 assumes download in "ascii" (2 bytes/char) m_ep.SetDownloadTimeout (1000*MAX(30,2*(m_nStrippedSize/nBytesPerSec))); TRACE(_T("Estimated download time %d sec (%d bytes @ %d bytes/sec [%d baud])\n"),m_nStrippedSize/nBytesPerSec,m_nStrippedSize,nBytesPerSec,nBaud); } TRACE(_T("Active timeout=%d download timeout=%d\n"),m_ep.ActiveTimeout(), m_ep.DownloadTimeout()); GetInferiorCommands(m_arstrInferiorCmds); String strInferior(m_ep.Platform()->Inferior()); strInferior.Replace(_T("%e"),CygPath(m_strExecutable),true); RunInferior(strInferior); rc=true; } } if(m_pResource){ m_pResource->Release(); m_pResource=0; } TRACE(_T("RunLocal - exiting\n")); } return rc; } void CeCosTest::Cancel () { SetStatus(Cancelled); } CeCosTest::ServerStatus CeCosTest::Connect (LPCTSTR pszHostPort, CeCosSocket *&pSock, const ExecutionParameters &e,String &strInfo,Duration dTimeout) { // Find out whether this host is receptive ServerStatus s=CONNECTION_FAILED; pSock=new CeCosSocket(pszHostPort,dTimeout); int nStatus; if(pSock->Ok() && pSock->sendString(e.Image(), _T("execution parameters")) && pSock->recvInteger(nStatus,_T("ready status")) && pSock->recvString(strInfo)){ s=(ServerStatus)MIN(nStatus,ServerStatusMax); } if(SERVER_READY!=s || ExecutionParameters::RUN!=e.Request()){ delete pSock; pSock=0; } return s; } // Initiate a connection to hostName:nPort and acquire the ready status [retry until this is achieved] // The socket (m_pSock) is left open. // This function is either called with m_strExecutionHostPort already set to a desired server // or else m_strExecutionHostPort empty (in which case the server is / dynamically) void CeCosTest::ConnectForExecution () { bool bSchedule=(0==m_strExecutionHostPort.size()); Duration nDelay=2000; m_pSock=0; bool *arbHostTried=0; while(Cancelled!=Status()){ StringArray arstrHostPort,arstrTries; int nChoices; if(bSchedule){ if(!CTestResource::GetMatches(m_ep,arstrHostPort)){ Log(_T("Could not establish matches\n")); continue; } nChoices=arstrHostPort.size(); if(nChoices>0){ TRACE(_T("ConnectForExecution: choices are:\n")); for(int i=0;i<nChoices;i++){ TRACE(_T("\t%s\n"),(LPCTSTR)arstrHostPort[i]); } } } else { // Server has already been picked by caller nChoices=1; String str; arstrHostPort.push_back(m_strExecutionHostPort); } if(nChoices>0){ delete [] arbHostTried; arbHostTried=new bool[nChoices]; for(int i=0;i<nChoices;i++){ arbHostTried[i]=false; } // Loop around the choices for(int nUntried=nChoices;nUntried>0;nUntried--) { // Select one we haven't tried already: int nChoice; do { nChoice=rand() % nChoices; } while (arbHostTried[nChoice]); m_strExecutionHostPort=arstrHostPort[nChoice]; TRACE(_T("ConnectForExecution: chosen %s\n"),(LPCTSTR)m_strExecutionHostPort); if(CeCosSocket::IsLegalHostPort(m_strExecutionHostPort)){ // If we're using the resource server we had better check that the host // we are about to lock has not been resource-locked (the other match checks // will of course always succeed) String strInfo; ServerStatus s=bSchedule && !CTestResource::Matches(m_strExecutionHostPort,m_ep)?SERVER_LOCKED: Connect(m_strExecutionHostPort,m_pSock,m_ep,strInfo); arbHostTried[nChoice]=true; TRACE(_T("Connect: %s says %s %s\n"),(LPCTSTR)m_strExecutionHostPort,(LPCTSTR)Image(s),(LPCTSTR)strInfo); CTestResource *pResource=CTestResource::Lookup(m_strExecutionHostPort); if(pResource){ String str; str.Format(_T("%s %s %s"),(LPCTSTR)pResource->Image(),(LPCTSTR)strInfo,(LPCTSTR)Image(s)); arstrTries.push_back(str); } if(SERVER_READY==s){ // So that's ok then. We're outta here. INTERACTIVE(_T("Connected to %s\n"),(LPCTSTR)m_strExecutionHostPort); goto Done; } else { delete m_pSock; m_pSock=0; } } } } INTERACTIVE(_T("Warning - could not connect to any test servers:\n")); if(arstrTries.size()>0){ for(unsigned int i=0;i<arstrTries.size();i++){ INTERACTIVE(_T(" %s\n"),(LPCTSTR)arstrTries[i]); } } else { INTERACTIVE(_T("No servers available to execute %s test:\n"),(LPCTSTR)m_ep.PlatformName()); ENTERCRITICAL; for(CTestResource *pResource=CTestResource::First();pResource;pResource=pResource->Next()){ INTERACTIVE(_T(" %s\n"),(LPCTSTR)pResource->Image()); } LEAVECRITICAL; } INTERACTIVE(_T("Retry in %d seconds...\n"),nDelay/1000); // We have tried all possibilities - sleep before retrying CeCosThreadUtils::Sleep(nDelay); if(Cancelled==m_Status){ TRACE(_T("ConnectForExecution : cancelled\n")); goto Done; } if(nDelay<20*1000){ nDelay+=rand() % 500; } } Done: delete [] arbHostTried; } void CeCosTest::SetStatus (StatusType status) { ENTERCRITICAL; if((int)status>(int)m_Status){ TRACE(_T("Status <- %s\n"),(LPCTSTR)Image(status)); m_Status=status; } LEAVECRITICAL; } bool CeCosTest::WaitForAllInstances(int nPoll,Duration nTimeout) { Time t0=Now(); while(InstanceCount>0){ CeCosThreadUtils::Sleep(nPoll); if(NOTIMEOUT!=nTimeout && Now()-t0>nTimeout){ return false; } } return true; } void CeCosTest::DeleteAllInstances() { while(pFirstInstance){ delete pFirstInstance; } } void CeCosTest::CancelAllInstances() { ENTERCRITICAL; for(CeCosTest *pTest=pFirstInstance;pTest;pTest=pTest->m_pNextInstance){ pTest->Cancel(); } LEAVECRITICAL; } // The same format is used for _stscanf as for Format (which is like printf), so restrict to the format specifiers // the former is happy with. In particular, do not use %-3s etc... LPCTSTR CeCosTest::pszFormat= // 1999-01-15 17:24:36 Fireblade:5002 MN10300 sin.exe 219k/134k Pass sin download=106.3/117.0 Total=107.6 Max inactive=1.0/300.0 _T("%04d-%02d-%02d %02d:%02d:%02d ") // Time _T("%15s ") // Execution host:port _T("%16s ") // Target _T("%30s ") // Executable tail _T("%11s ") // Result _T("%dk/%dk ") // Sizes _T("D=") WFS _T("/") WFS _T(" Total=") WFS _T(" ") // Times _T("E=") WFS _T("/") WFS _T(" ") _T("\"%s\""); bool CeCosTest::Value ( LPCTSTR pszStr, struct tm &t, StatusType &status, String &target, String &strExecutionHostPort, String &strExecutableTail, String &strTitle, int &nFileSize, Duration &nTotalTime, Duration &nMaxInactiveTime, Duration &nDownloadTime, Duration &nDownloadTimeout, Duration &nActiveTimeout, int &nDownloadedSize) { int nLen=_tcslen(pszStr); String strStatus; nFileSize=nTotalTime=nMaxInactiveTime=nDownloadTime=nDownloadTimeout=nActiveTimeout=nDownloadedSize=0; int nTotalTimeFrac=0; int nMaxInactiveTimeFrac=0; int nActiveTimeoutFrac=0; int nDownloadTimeFrac=0; int nDownloadTimeoutFrac=0; static String strFormat; if(0==strFormat.size()){ // Construct a version of the format string sans length attributes for %s items LPCTSTR c=pszFormat; TCHAR *d=strFormat.GetBuffer(_tcslen(pszFormat)); while(_TCHAR('\0')!=*c){ if(_TCHAR('%')==c[0] && _istdigit(c[1])){ *d++=_TCHAR('%'); do { c++; } while (_istdigit(*c)); } *d++=*c++; } *d=_TCHAR('\0'); strFormat.ReleaseBuffer(); } _stscanf(pszStr, strFormat, &t.tm_year,&t.tm_mon,&t.tm_mday, &t.tm_hour,&t.tm_min,&t.tm_sec, // Time of day strExecutionHostPort.GetBuffer(1+nLen), // Execution host:port target.GetBuffer(1+nLen), // Target strExecutableTail.GetBuffer(1+nLen), // Executable strStatus.GetBuffer(1+nLen), // Result &nDownloadedSize,&nFileSize, // Sizes &nDownloadTime,&nDownloadTimeFrac, // Times &nDownloadTimeout,&nDownloadTimeoutFrac, &nTotalTime,&nTotalTimeFrac, &nMaxInactiveTime,&nMaxInactiveTimeFrac, &nActiveTimeout,&nActiveTimeoutFrac, strTitle.GetBuffer(1+nLen) // Title ); strExecutionHostPort.ReleaseBuffer(); target.ReleaseBuffer(); strExecutableTail.ReleaseBuffer(); strStatus.ReleaseBuffer(); strTitle.ReleaseBuffer(); status=StatusTypeValue(strStatus); LPCTSTR c1=_tcschr(pszStr,_TCHAR('"')); if(c1){ c1++; LPCTSTR c2=_tcschr(c1+1,_TCHAR('"')); if(c2){ strTitle=String(c1,c2-c1); } } nTotalTime=nTotalTime*1000+nTotalTimeFrac*100; nMaxInactiveTime=nMaxInactiveTime*1000+nMaxInactiveTimeFrac*100; nActiveTimeout=nActiveTimeout*1000+nActiveTimeoutFrac*100; nDownloadTime=nDownloadTime*1000+nDownloadTimeFrac*100; nDownloadTimeout=nDownloadTimeout*1000+nDownloadTimeoutFrac*100; nFileSize*=1024; nDownloadedSize*=1024; t.tm_year-=1900; t.tm_mon--; return t.tm_year>=0 && t.tm_year<=200 && t.tm_mon>=0 && t.tm_mon<=11 && t.tm_mday>=1 && t.tm_mday<=31 && t.tm_hour>=0 && t.tm_hour<=23 && t.tm_min>=0 && t.tm_min<=59 && t.tm_sec>=0 && t.tm_sec<=59 && status!=StatusTypeMax //&& exetype!=ExecutionParameters::ExecutableTypeMax ; } const String CeCosTest::ResultString(bool bIncludeOutput) const { String strResultString; String strTitle(m_strTitle); String strExecutionHostPort(m_strExecutionHostPort); if(0==strTitle.size()){ strTitle=CeCosSocket::MySimpleHostName(); strTitle+=_TCHAR(':'); strTitle+=m_strExecutable; } if(0==strExecutionHostPort.size()){ strExecutionHostPort=CeCosSocket::MySimpleHostName(); strExecutionHostPort+=_T(":0"); } ENTERCRITICAL; time_t ltime; time(<ime); struct tm *now=localtime( <ime ); strResultString.Format( pszFormat, 1900+now->tm_year,1+now->tm_mon,now->tm_mday, now->tm_hour,now->tm_min,now->tm_sec, // Time of day (LPCTSTR)strExecutionHostPort, // Execution host:port (LPCTSTR)m_ep.PlatformName(), // Target (LPCTSTR)CeCosTestUtils::Tail(m_strExecutable), // Executable (LPCTSTR)Image(Status()), // Result m_nStrippedSize/1024,m_nFileSize/1024, // Sizes WF(m_nDownloadTime),WF(m_ep.DownloadTimeout()),WF(m_nTotalTime),// Times WF(m_nMaxInactiveTime),WF(m_ep.ActiveTimeout()), (LPCTSTR)strTitle // Title ); if(bIncludeOutput && m_strOutput.size()>0){ strResultString+=_TCHAR('\n'); strResultString+=m_strOutput; } LEAVECRITICAL; return strResultString; } // Run as a server, listening on the port given as parameter bool CeCosTest::RunAgent(int nTcpPort) { bool bLocked=false; // Create socket int nSock = CeCosSocket::Listen(nTcpPort); int nLastClient=0; if (-1!=nSock) { for (;;) { try { CeCosSocket *pSock=new CeCosSocket(nSock); // AcceptThreadFunc deletes if not deleted below String str; // Read the execution parameters if(!pSock->recvString(str)){ // Socket error on the recv - nothing much we can do TRACE(_T("RunAgent : could not read execution parameters\n")); delete pSock; pSock=0; } else { ExecutionParameters e; e.FromStr(str); TRACE(_T("Execution parameters: %s\n"),(LPCTSTR)e.Image()); ServerStatus s; CTestResource *pPort=0; String strInfo; switch(e.Request()) { case ExecutionParameters::LOCK: if(bLocked){ s=SERVER_BUSY; } else { WaitForAllInstances(1000,NOTIMEOUT); bLocked=true; s=SERVER_LOCKED; } break; case ExecutionParameters::UNLOCK: if(bLocked){ bLocked=false; s=SERVER_READY; } else { s=SERVER_BUSY; } break; case ExecutionParameters::QUERY: if (bLocked) { s=SERVER_LOCKED; } else { s=SERVER_BUSY; ENTERCRITICAL; for(CTestResource *pResource=CTestResource::First();pResource;pResource=pResource->Next()){ if(!pResource->InUse()){ s=SERVER_READY; break; } } LEAVECRITICAL; if(SERVER_READY!=s){ strInfo.Format(_T("serving %s"),(LPCTSTR)CeCosSocket::ClientName(nLastClient)); } } break; case ExecutionParameters::RUN: if(NULL==e.Platform()){ // Looks like a confused client ... strInfo.Format(_T("Bad target value %s read from client\n"),(LPCTSTR)str); s=SERVER_CANT_RUN; } else if(0==CTestResource::Count(e)){ // No chance of running this test strInfo.Format(_T("Cannot run a %s test from this server\n"),(LPCTSTR)e.PlatformName()); s=SERVER_CANT_RUN; } else if (bLocked) { s=SERVER_LOCKED; } else { pPort=CTestResource::GetResource(e); if(0==pPort){ // We must disappoint our client strInfo.Format(_T("serving %s"),(LPCTSTR)CeCosSocket::ClientName(nLastClient)); s=SERVER_BUSY; } else { s=SERVER_READY; nLastClient=pSock->Client(); } } break; case ExecutionParameters::STOP: s=SERVER_READY; break; default: s=SERVER_CANT_RUN; } #ifndef VERBOSE if(ExecutionParameters::QUERY!=e.Request()) #endif TRACE(_T("RunAgent : %s request tActive=%d tDownload=%d Target=%s Reply status=%s %s\n"), (LPCTSTR)e.Image(e.Request()),e.ActiveTimeout(),e.DownloadTimeout(), (LPCTSTR)e.PlatformName(), (LPCTSTR)Image(s),(LPCTSTR)strInfo); bool bSendok=pSock->sendInteger(s) && pSock->sendString(strInfo); if(SERVER_READY==s && bSendok && ExecutionParameters::RUN==e.Request()){ // Create a new class instance // AcceptThreadFunc deletes the instance and closes new_sock // RunLocal, called by AcceptThreadFunc, releases the port // No need for meaningful callback, but must run asynchronously int nAuxPort=30000; int nAuxListenSock=-1; do { nAuxListenSock=CeCosSocket::Listen(nAuxPort); } while (-1==nAuxListenSock && nAuxPort++<=0xffff); if(-1==nAuxListenSock){ ERROR(_T("Couldn't find a socket to bind to for RDI\n")); } else { CeCosTest *pTest=new CeCosTest(e,NULL); pTest->m_nAuxPort=nAuxPort; pTest->m_nAuxListenSock=nAuxListenSock; pTest->m_pSock=pSock; pTest->m_strExecutionHostPort=CeCosSocket::HostPort(CeCosSocket::MyHostName(),nTcpPort); pTest->m_pResource=pPort; CeCosThreadUtils::RunThread(SAcceptThreadFunc,pTest,_T("SAcceptThreadFunc")); // AcceptThreadFunc deletes pSock } } else { delete pSock; pSock=0; if(pPort){ pPort->Release(); pPort=0; } if(CeCosTest::ExecutionParameters::STOP==e.Request()){ CancelAllInstances(); WaitForAllInstances(1000,20*1000); break; } } } } catch(...){ TRACE(_T("!!! Exception caught in RunAgent()\n")); } } CeCosSocket::CloseSocket (nSock); } return false; } CeCosTest::StatusType CeCosTest::StatusTypeValue(LPCTSTR pszStr) { for(int i=0;i<StatusTypeMax;i++){ StatusType t=(StatusType)i; if(0==_tcsicmp(Image(t),pszStr)){ return t; } } return StatusTypeMax; } // Thread to run ConnectSocketToSerial void CeCosTest::ConnectSocketToSerialThreadFunc() { TRACE(_T("ConnectSocketToSerialThreadFunc sock=%d\n"),m_nAuxListenSock); CeCosTestSerialFilter serial_filter; CeCosTestDownloadFilter download_filter; CeCosSerial serial; serial.SetBlockingReads(false); bool rc=false; // Open serial device. if (!serial.Open(m_pResource->Serial(),m_pResource->Baud())){ ERROR(_T("Couldn't open port %s\n"),m_pResource->Serial()); } else { for(;;){ // Flush the serial buffer. serial.Flush(); TRACE(_T("ConnectSocketToSerial: waiting for connection...\n")); CeCosSocket socket; if(!socket.Accept(m_nAuxListenSock,&m_bStopConnectSocketToSerial)){ ERROR(_T("ConnectSocketToSerial - couldn't accept: %s\n"),(LPCTSTR)socket.SocketErrString()); break; } else if (m_pSock->Client() != socket.Client()){ // Make sure the client is who we think it is... TRACE(_T("ConnectSocketToSerialThread - illegal connection attempted from %s\n"),(LPCTSTR)socket.ClientName(socket.Client())); } else { try { rc=CeCosSocket::ConnectSocketToSerial(socket,serial,m_ep.m_bUseFilter?SerialFilterFunction:NULL, (void*)&serial_filter, m_ep.m_bUseFilter?DownloadFilterFunction:NULL, (void*)&download_filter, &m_bStopConnectSocketToSerial); // If the download filter was just active, it may // allow the session to continue. if(!download_filter.ContinueSession()){ break; } } catch (LPCTSTR pszMsg){ Log(_T("!!! ConnectSocketToSerial exception caught: %s!!!\n"),pszMsg); rc=false; break; } catch (...){ Log(_T("!!! ConnectSocketToSerial exception caught!!!\n")); rc=false; break; } } } } TRACE(_T("ConnectSocketToSerial : done\n")); CeCosSocket::CloseSocket(m_nAuxListenSock); } static bool CALLBACK DerefBool(void *pParam) { return *(bool *)pParam; } // Function called (on a separate thread) to process a successful connection to the RunAgent loop // In the case of a simulator server, we can have many of these active at the same time. void CeCosTest::AcceptThreadFunc() { if(m_ep.Platform()->ServerSideGdb()){ // We dream up a temporary name for the executable ENTERCRITICAL; m_strExecutable.Format(_T("%s-%s-%d"),_ttmpnam(0),(LPCTSTR)m_ep.PlatformName(),m_nAuxPort); LEAVECRITICAL; int n; if(m_pSock->recvInteger(n,_T("file size"))){ m_nFileSize=n; // Read file from the socket bool bCanRun=true; TRACE(_T("AcceptThreadFunc file size=%d reading...\n"),m_nFileSize); FILE *f2; f2=_tfopen(m_strExecutable,_T("wb")); if(0==f2){ Log(_T("Could not create %s - %s\n"),(LPCTSTR)m_strExecutable,strerror(errno)); bCanRun=false; } unsigned int nBufSize=MIN(100000,m_nFileSize); Buffer b(nBufSize); unsigned int nWritten=0; unsigned int nRead=0; while(nRead<m_nFileSize){ int nToRead=MIN(nBufSize,m_nFileSize-nRead); if(!recv( b.Data(), nToRead, _T("executable"))){ break; } nRead+=nToRead; if(0!=f2){ char *c=(char *)b.Data(); while(nToRead>0){ int w=fwrite(c,1,nToRead,f2); if(-1==w){ Log(_T("Write error on %s - %s\n"),(LPCTSTR)m_strExecutable,strerror(errno)); bCanRun=false; break; } nWritten+=w; c+=w; nToRead-=w; } } } TRACE(_T("Accept - done reading [%d bytes read, %d bytes written]\n"),nRead,nWritten); if(0!=f2){ fclose(f2); _tchmod(m_strExecutable,00700); // user read, write and execute } if(0!=f2 && m_nFileSize!=nWritten){ Log(_T("Failed to create %s correctly [%d/%d bytes written]\n"),(LPCTSTR)m_strExecutable, nWritten, m_nFileSize); bCanRun=false; } SetExecutable(m_strExecutable); // to set stripped length and title RunLocal(); _tunlink(m_strExecutable); } sendResult(); m_pSock->recvInteger(n); // receive an ack } else { // Client-side GDB bool bTargetReady; if(_TCHAR('\0')==*(m_pResource->ResetString())){ bTargetReady=true; TRACE(_T("No reset possible\n")); } else { Log(_T("Resetting target using %s"),(LPCTSTR)m_pResource->ResetString()); bTargetReady=(CResetAttributes::RESET_OK==m_pResource->Reset(ResetLogFunc,this)); } TRACE(_T("Send Target Ready indicator=%d\n"),bTargetReady); m_pSock->sendInteger(bTargetReady,_T("target ready indicator")); int nAck=-1; if(bTargetReady){ if(CeCosSocket::IsLegalHostPort(m_pResource->Serial())){ TRACE(_T("Sending %s\n"),(LPCTSTR)m_pResource->Serial()); if(m_pSock->sendString(m_pResource->Serial(),_T("Serial name")) && m_pSock->recvInteger(nAck,_T("Terminating ack"),CeCosSocket::NOTIMEOUT)){ TRACE(_T("Terminating ack=%d\n"),nAck); } } else { String strHostPort(CeCosSocket::HostPort(CeCosSocket::MyHostName(),m_nAuxPort)); TRACE(_T("Using %s\n"),(LPCTSTR)strHostPort); if(m_pSock->sendString(strHostPort,_T("host:port"))){ // This Boolean signifies that the serial<-->tcp/ip conversation is done. It may be set // on completion of the ConnectSocketToSerial thread (which is why we pass it to runthread) // and also set by us to *cause* the thread to complete. bool bConnectSocketToSerialThreadDone=false; // Indication of termination of ConnectSocketToSerial thread m_bStopConnectSocketToSerial=false; // Used to tap ConnectSocketToSerial thread on the shoulder CeCosThreadUtils::RunThread(SConnectSocketToSerialThreadFunc,this,&bConnectSocketToSerialThreadDone,_T("SConnectSocketToSerialThreadFunc")); // Wait for either client or the ConnectSocketToSerial thread to finish. if(m_pSock->recv(&nAck,sizeof(int),_T("Terminating ack"),CeCosSocket::NOTIMEOUT,DerefBool,&bConnectSocketToSerialThreadDone)){ TRACE(_T("Session terminated by request of client (%s)\n"),(LPCTSTR)Image((StatusType)nAck)); } else if(0!=m_pSock->SocketError()){ TRACE(_T("Session terminated by socket error - %s\n"),(LPCTSTR)m_pSock->SocketErrString()); } if(!bConnectSocketToSerialThreadDone){ // Tap ConnectSocketToSerial thread on the shoulder TRACE(_T("Waiting for ConnectSocketToSerial thread to terminate...\n")); m_bStopConnectSocketToSerial=true; CeCosThreadUtils::WaitFor(bConnectSocketToSerialThreadDone); } } } } } delete this; } bool CeCosTest::send(const void *pData,unsigned int nLength,LPCTSTR pszMsg,Duration dTimeout) { return m_pSock->send(pData,nLength,pszMsg,dTimeout,IsCancelled,this); } bool CeCosTest::recv(const void *pData,unsigned int nLength,LPCTSTR pszMsg,Duration dTimeout) { return m_pSock->recv(pData,nLength,pszMsg,dTimeout,IsCancelled,this); } void CeCosTest::Log(LPCTSTR pszFormat, ...) { va_list args; va_start(args, pszFormat); String str; str.vFormat(pszFormat,args); va_end(args); LogString(str); } void CeCosTest::LogString(LPCTSTR psz) { if(*psz){ ENTERCRITICAL; m_strOutput+=psz; LEAVECRITICAL; if(CeCosTrace::IsInteractive()){ CeCosTrace::Out(psz); } else { TRACE(_T("%s"),psz); } } } bool CeCosTest::sendResult(Duration dTimeout) { bool rc= m_pSock->sendInteger(m_Status,_T("result"),dTimeout) && m_pSock->sendInteger(m_nDownloadTime,_T("result"),dTimeout) && m_pSock->sendInteger(m_nTotalTime,_T("result"),dTimeout) && m_pSock->sendInteger(m_nMaxInactiveTime,_T("result"),dTimeout) && m_pSock->sendString (m_strOutput,_T("result"),dTimeout); return rc; } bool CeCosTest::recvResult(Duration dTimeout) { String strOutput; int nStatus=StatusTypeMax; bool rc= m_pSock->recvInteger(nStatus,_T("result"),dTimeout) && m_pSock->recvInteger(m_nDownloadTime,_T("result"),dTimeout) && m_pSock->recvInteger(m_nTotalTime,_T("result"),dTimeout) && m_pSock->recvInteger(m_nMaxInactiveTime,_T("result"),dTimeout) && m_pSock->recvString (strOutput,_T("result"),dTimeout); m_Status=(StatusType)MIN(nStatus,StatusTypeMax); LogString(strOutput); return rc; } // Return time used by inferior gdb process - CPU for sim, wallclock otherwise Time CeCosTest::InferiorTime() const { if(*(m_pResource->Serial())){ return Now(); } if(!m_psp){ return 0; } Time now=Now(); if(now-m_tPrevSample>1000){ m_tPrevSample=now; m_tInferiorCpuTime=m_psp->CpuTime(); } return m_tInferiorCpuTime; } bool CeCosTest::CheckForTimeout() { bool rc=(Cancelled!=Status()); if(TimeOut!=m_Status && DownloadTimeOut!=m_Status){ Time t=InferiorTime(); if(t){ // We have been able to measure the time if(m_bDownloading){ m_nDownloadTime=MAX(m_nDownloadTime,Duration(InferiorTime()-m_tBase)); if(m_nDownloadTime>m_ep.DownloadTimeout()){ Log(_T("\n*** Timeout - download time ") WFS _T(" exceeds limit of ") WFS _T("\n"),WF(m_nDownloadTime),WF(m_ep.DownloadTimeout())); rc=false; } } else { m_nMaxInactiveTime=MAX(m_nMaxInactiveTime,Duration(InferiorTime()-m_tBase)); if (m_nMaxInactiveTime>m_ep.ActiveTimeout()) { Log(_T("\n*** Timeout - inactive time ") WFS _T(" exceeds limit of ") WFS _T("\n"),WF(m_nMaxInactiveTime),WF(m_ep.ActiveTimeout())); rc=false; } } } m_nTotalTime=Duration(Now()-m_tWallClock0); /* if(m_nTotalTime>m_ep.ElapsedTimeout()){ Log(_T("\n*** Timeout - total time ") WFS _T(" exceeds limit of ") WFS _T("\n"), WF(m_nTotalTime),WF(m_ep.ElapsedTimeout())); rc=false; } */ if(!rc){ SetStatus(m_bDownloading?DownloadTimeOut:TimeOut); } } return rc; } // Convert a path to something a cygwin tool will understand. Used when invoking -size and -gdb String CeCosTest::CygPath (LPCTSTR pszPath) { #ifdef _WIN32 String str = ""; HKEY hKey = 0; DWORD type; BYTE value[256]; DWORD sz = sizeof(value); // look for the cygdrive prefix in the user's registry settings if (ERROR_SUCCESS == RegOpenKeyEx(HKEY_CURRENT_USER, "Software\\Cygnus Solutions\\Cygwin\\mounts v2", 0, KEY_READ, &hKey)) { if (ERROR_SUCCESS == RegQueryValueEx(hKey, "cygdrive prefix", NULL, & type, value, & sz)) { str = (const char*) value; } RegCloseKey(hKey); } // if not yet found, look for the cygdrive prefix in the system registry settings hKey = 0; sz = sizeof(value); if (str.empty() && (ERROR_SUCCESS == RegOpenKeyEx(HKEY_LOCAL_MACHINE, "Software\\Cygnus Solutions\\Cygwin\\mounts v2", 0, KEY_READ, &hKey))) { if (ERROR_SUCCESS == RegQueryValueEx(hKey, "cygdrive prefix", NULL, & type, value, & sz)) { str = (const char*) value; } RegCloseKey(hKey); } int prefixlen = str.length(); TCHAR *buf=str.GetBuffer(prefixlen+1+MAX_PATH); TCHAR *pszFname; if(::GetFullPathName(pszPath,MAX_PATH,prefixlen+buf, &pszFname)){ GetShortPathName(prefixlen+buf,prefixlen+buf,MAX_PATH); // ignore errors buf[prefixlen+1]=buf[prefixlen]; buf[prefixlen]=_TCHAR('/'); for(int i=prefixlen+2;buf[i];i++){ if(_TCHAR('\\')==buf[i]){ buf[i]=_TCHAR('/'); } } str.ReleaseBuffer(); return str; } else { str.ReleaseBuffer(); return pszPath; } #endif return pszPath; } void CeCosTest::SetExecutable(LPCTSTR pszExecutable) { m_strOutput=_T(""); if(pszExecutable){ m_strExecutable=pszExecutable; if(m_ep.Platform()){ GetSizes(); } else { ERROR(_T("Don't know how to get sizes of this platform type\n")); } } else { m_strExecutable=_T(""); } } // Calculate the sizes of the given file. The target parameter is necessary in order to // determine which -size executable to use to do the job. bool CeCosTest::GetSizes() { TRACE(_T("GetSizes %s\n"),(LPCTSTR)Executable()); bool rc=false; m_nStrippedSize=m_nFileSize=0; LPCTSTR pszPrefix=m_ep.Platform()->Prefix(); struct _stat buf; if(-1==_tstat(Executable(),&buf)){ Log(_T("%s does not exist\n"),(LPCTSTR)Executable()); } else if (_TCHAR('\0')==*pszPrefix){ LogString(_T("No prefix to run a size program\n")); } else { m_nFileSize=buf.st_size; const String strSizeCmd(String::SFormat(_T("%s-size %s"),pszPrefix,(LPCTSTR)CygPath(Executable()))); String strOut; CSubprocess sp; if(!sp.Run(strOut,strSizeCmd)){ Log(_T("Failed to run \"%s\" - %s\n"),(LPCTSTR)strSizeCmd,(LPCTSTR)sp.ErrorString()); } else { const TCHAR *c=_tcschr(strOut,_TCHAR('\n')); if(c){ c++; } int s1=0; int s2=0; if(c && 2==_stscanf(c,_T(" %d %d"),&s1,&s2)){ rc=true; m_nStrippedSize=s1+s2; } TRACE(_T("GetSizes %s rc=%d file size=%d stripped size=%d\n"),(LPCTSTR)Executable(),rc,m_nFileSize,m_nStrippedSize); } } return rc; } void CeCosTest::SetTimeouts (Duration dActive,Duration dDownload/*,Duration dElapsed*/) { m_ep.SetActiveTimeout (dActive); m_ep.SetDownloadTimeout(dDownload); /* m_ep.SetElapsedTimeout (dElapsed); */ } void CeCosTest::CloseSocket (){ delete m_pSock; m_pSock=0; } bool CeCosTest::AtPrompt() { const String strPrompt(m_ep.Platform()->Prompt()); unsigned int nPromptLen=_tcslen(strPrompt); return nPromptLen>0 && m_strOutput.size()>=nPromptLen && 0==_tcscmp((LPCTSTR)m_strOutput+m_strOutput.size()-nPromptLen,strPrompt); } #ifdef _WIN32 BOOL WINAPI HandlerRoutine( DWORD dwCtrlType // control signal type ) { dwCtrlType; // eliminate compiler warning return TRUE; } #endif bool CeCosTest::InteractiveInferior(LPCTSTR pszHostPort,TCHAR **argv) { bool rc=false; if(_TCHAR('\0')!=*pszHostPort){ if(!CeCosSocket::IsLegalHostPort(pszHostPort)){ ERROR(_T("Illegal host:port '%s'\n"),pszHostPort); return false; } else { m_strExecutionHostPort=pszHostPort; Log(_T("Waiting to connect to %s...\n"),(LPCTSTR)m_strExecutionHostPort); } } else { Log(_T("Waiting to connect to a server...\n")); } ConnectForExecution(); Log(_T("Connected to %s - waiting for target reset\n"),(LPCTSTR)m_strExecutionHostPort); String strHostPort,strOutput; // We read: // target ready indicator // any output so far // (if target ready) host:port if(GetTargetReady(strHostPort)){ Log(_T("Use target remote %s\n"),(LPCTSTR)strHostPort); String strInferior(m_ep.Platform()->Prefix()); strInferior+=_T("-gdb"); #ifdef _WIN32 SetConsoleCtrlHandler(HandlerRoutine,TRUE); int n=_tspawnvp(_P_WAIT,strInferior,argv); if(-1==n){ Log(_T("Failed to spawn %s\n"),(LPCTSTR)strInferior); } else { rc=(0==n); } SetConsoleCtrlHandler(HandlerRoutine,FALSE); #else // UNIX int pid=fork(); switch(pid){ case -1: _ftprintf(stderr,_T("fork failed\n")); pid=0; break; case 0: // Process is created (we're the child) execvp(strInferior,argv); Log(_T("Error invoking %s - %s\n"),(LPCTSTR)strInferior,strerror(errno)); exit(1); break; default: // Process is created (we're the parent) { signal(SIGINT,SIG_IGN); int stat; waitpid(pid,&stat,0); rc=(0==stat); signal(SIGINT,SIG_DFL); } break; } #endif Log(_T("Inferior terminated\n")); // Tell the server we're through m_pSock->sendInteger(123,_T("Terminating ack")); } return rc; } void CALLBACK CeCosTest::ResetLogFunc(void *pParam, LPCTSTR psz) { CeCosTest *pTest=(CeCosTest *)pParam; TRACE(_T("Send Target Ready indicator=2\n")); pTest->m_pSock->sendInteger(2,_T("target ready indicator")); TRACE(_T("Send %s\n"),psz); pTest->m_pSock->sendString(psz,_T("output so far")); } CeCosTest::ExecutionParameters::RequestType CeCosTest::ExecutionParameters::RequestTypeValue(LPCTSTR psz) { int r; for(r=0;r<RequestTypeMax;r++){ if(0==_tcsicmp(psz,arRequestImage[r])){ break; } } return (RequestType)r; } void CeCosTest::InferiorOutputFunc(LPCTSTR pszMsg) { LogString(pszMsg); m_nOutputLen+=_tcslen(pszMsg); if(m_pspPipe){ m_pspPipe->Send(pszMsg); } if(m_nOutputLen>20000){ LogString(_T("\n>>>> Infra FAIL\n*** too much output ***\n>>>>\n")); SetStatus(Fail); m_psp->Kill(); } m_tBase=InferiorTime(); // We are seeing life, so reset the clock for timeouts if(AtPrompt()){ // gdb's output included one or more prompts // Send another command along if(m_nCmdIndex>=m_arstrInferiorCmds.size()){ // Nothing further to say to gdb - exit m_psp->Kill(); // case 3 } else { if(m_nCmdIndex>0 && 0==_tcscmp(_T("load"),m_arstrInferiorCmds[m_nCmdIndex-1])){ // load command was previous command - we are no longer downloading m_bDownloading=false; } String strCmd(m_arstrInferiorCmds[m_nCmdIndex++]); // If we can there is a GDB instruction to send to gdb, do it String str; if(GetDirective(_T("GDB:"),str,m_nLastGdbInst)){ strCmd=str; m_nCmdIndex--; // undo increment above } if(0==_tcscmp(_T("load"),strCmd)){ // load command issued - we are now "downloading" m_bDownloading=true; } else if(0==_tcscmp(_T("run"),strCmd) || 0==_tcscmp(_T("cont"),strCmd)){ SetStatus(NoResult); } strCmd+=_TCHAR('\n'); LogString(strCmd); m_psp->Send(strCmd); } } // If there is a EXEC instruction to process, obey it String strCmd; while(GetDirective(_T("EXEC:"),strCmd,m_nLastExecInst)){ CSubprocess *pExecsp=new CSubprocess; pExecsp->SetPath(m_strPath); if(!pExecsp->Run(AppendFunc,this,(LPCTSTR)strCmd,false)){ Log(_T("%%%% Failed to create process '%s'\n"),(LPCTSTR)strCmd); delete pExecsp; } else { m_arpExecsp.push_back(pExecsp); } } // If there is a PIPE instruction to process, obey it while(GetDirective(_T("PIPE:"),strCmd,m_nLastPipeInst)){ if(m_pspPipe){ Log(_T("%%%% Two PIPE commands are a no-no\n")); } else { m_pspPipe=new CSubprocess; m_pspPipe->SetPath(m_strPath); if(!m_pspPipe->Run(AppendFunc,this,(LPCTSTR)strCmd,false)){ Log(_T("%%%% Failed to create process '%s'\n"),(LPCTSTR)strCmd); delete m_pspPipe; m_pspPipe=0; } else { // Send what we read have so far m_pspPipe->Send(m_strOutput); } } } while(GetDirective(_T("TIMEOUT:"),strCmd,m_nLastTimeoutInst)){ int n=_ttoi(strCmd); if(n){ SetTimeouts(n); // second parameter is download timeout, which is now irrelevant } else { Log(_T("%%%% Illegal timeout specified: %s\n"),(LPCTSTR)strCmd); } } } void CeCosTest::RunInferior(LPCTSTR pszCmdline) { m_psp=new CSubprocess; m_psp->SetContinuationFunc(SCheckForTimeout,this); try { m_nMaxInactiveTime=0; m_nTotalTime=0; m_nDownloadTime=0; m_nOutputLen=0; m_bDownloading=false; // Decide on the baseline status - NotStarted if there is a download element, NoResult otherwise. m_Status=NoResult; for(unsigned int i=0;i<m_arstrInferiorCmds.size();i++){ if(0==_tcscmp(_T("run"),m_arstrInferiorCmds[i]) || 0==_tcscmp(_T("cont"),m_arstrInferiorCmds[i])){ m_Status=NotStarted; break; } } TRACE(_T("Status <- %s\n"),(LPCTSTR)Image(m_Status)); m_tPrevSample=0; // force an initial reading m_tInferiorCpuTime=0; m_tBase=m_tBase0=InferiorTime(); // Returns either Now() or nothing m_tWallClock0=Now(); m_nCmdIndex=0; TRACE(_T("RunGDB()\n")); m_nLastGdbInst=m_nLastExecInst=m_nLastTimeoutInst=m_nLastPipeInst=0; m_psp->SetPath(m_strPath); if(m_psp->Run(SInferiorOutputFunc,this,pszCmdline,true)){ if(m_pspPipe){ m_pspPipe->Send(_T("\n")); m_pspPipe->CloseInput(); if(m_pspPipe->Wait(5000)){ // OK the pipe process terminated. int rc=m_pspPipe->GetExitCode(); if(0!=rc){ Log(_T("%%%% Pipe process returned rc=%d\n"),rc); SetStatus(Fail); } } else { LogString(_T("%%%% Pipe process would not complete\n")); } } AnalyzeOutput(); } else { Log(_T("Failed to run \"%s\" - %s\n"),pszCmdline,(LPCTSTR)m_psp->ErrorString()); } } catch(...){ ERROR(_T("!!! Exception caught in RunInferior()\n")); } delete m_psp; // will cause process to be killed as necessary and completion to be waited for m_psp=NULL; for(int i=0;i<(signed)m_arpExecsp.size();i++){ delete (CSubprocess *)m_arpExecsp[i]; // ditto } m_arpExecsp.clear(); TRACE(_T("Exiting RunInferior()\n")); } void CeCosTest::AnalyzeOutput() { // This test is pulled out to allow ser_filter to simulate a test failure if(OutputContains(_T("FAIL:"))){ SetStatus(Fail); } if(OutputContains(_T("EXIT:"))||OutputContains(_T("NOTAPPLICABLE:"))){ static LPCTSTR arpszKeepAlive[]={_T("FAIL:"),_T("NOTAPPLICABLE:"), _T("PASS:")}; static const StatusType arStatus[] ={Fail, Inapplicable, Pass}; for(unsigned int i=0;i<sizeof arpszKeepAlive/sizeof arpszKeepAlive[0];i++){ if(OutputContains(arpszKeepAlive[i])){ TRACE(_T("DriveInferior: saw '%s'\n"),arpszKeepAlive[i]); SetStatus(arStatus[i]); // Do not break! } } } // Certain output spells failure... if(OutputContains(_T("cyg_assert_fail ("))){ SetStatus(AssertFail); } else { static LPCTSTR arpszSignals[]={_T("SIGBUS"), _T("SIGSEGV"), _T("SIGILL"), _T("SIGFPE"), _T("SIGSYS"), _T("SIGTRAP")}; for(unsigned int i=0;i<sizeof arpszSignals/sizeof arpszSignals[0];i++){ String str1,str2; str1.Format(_T("signal %s"),arpszSignals[i]); str2.Format(_T("handle %s nostop"),arpszSignals[i]); if(OutputContains(str1)&&!OutputContains(str2)){ SetStatus(Fail); break; } } } int nIndex=0; String str; while(GetDirective(_T("EXPECT:"),str,nIndex)){ // s1 is the pointer to the text following the expect - that to be tested LPCTSTR s1=(LPCTSTR)m_strOutput+nIndex; while (_istspace(*s1)){ s1++; } // whereas s2 is the pointer to the text in the expect string (what we are expecting) LPCTSTR s2=(LPCTSTR)str; while(*s2){ if(*s2!=*s1){ Log(_T("EXPECT:<> failure - expected '%s' saw '%s'\n"),(LPCTSTR)str,(LPCTSTR)m_strOutput+nIndex); SetStatus(Fail); break; } s1++; s2++; } } } bool CeCosTest::ExecutionParameters::FromStr(LPCTSTR psz) { String str1,str2,str3,str4,str5; int nUseFilter,nUnused2,nUnused3; int nLen=_tcslen(psz); _stscanf(psz,_T("%s %s %d %d %d %d %d %d %d %d %s %s %s"), str1.GetBuffer(1+nLen), str2.GetBuffer(1+nLen), &m_nActiveTimeout, &m_nDownloadTimeout, &m_nUnused1, &m_nUnused2, &m_nUnused3, &nUseFilter, &nUnused2, &nUnused3, str3.GetBuffer(1+nLen), str4.GetBuffer(1+nLen), str5.GetBuffer(1+nLen) ); m_bUseFilter=(0!=nUseFilter); m_bUnused2=(0!=nUnused2); m_bUnused3=(0!=nUnused3); str1.ReleaseBuffer(); str2.ReleaseBuffer(); str3.ReleaseBuffer(); str4.ReleaseBuffer(); str5.ReleaseBuffer(); m_Target=str1; int r; for(r=0;r<RequestTypeMax;r++){ if(0==_tcscmp(arRequestImage[r],str2)){ break; } } m_Request=(RequestType)r; return CeCosTestPlatform::IsValid(m_Target); } CeCosTest::ExecutionParameters::ExecutionParameters (RequestType r, LPCTSTR Target, Duration nActiveTimeout/*=NOTIMEOUT*/, Duration nDownloadTimeout/*=NOTIMEOUT*/): m_bUseFilter(true), m_Target(Target), m_nActiveTimeout(nActiveTimeout), m_nDownloadTimeout(nDownloadTimeout), m_Request(r), m_nUnused1(0), m_nUnused2(0), m_nUnused3(0), m_bUnused2(false), m_bUnused3(false) { } String CeCosTest::ExecutionParameters::Image() const { String str; str.Format(_T("%s %s %d %d %d %d %d %d %d %d"),(LPCTSTR)PlatformName(),(LPCTSTR)Image(Request()), ActiveTimeout(),DownloadTimeout(), m_nUnused1, m_nUnused2, m_nUnused3, m_bUseFilter, m_bUnused2, m_bUnused3); return str; } bool CeCosTest::GetTargetReady(String &strHostPort) { bool rc=false; int nTargetReady; do{ if(!m_pSock->recvInteger(nTargetReady,_T("Target ready"),120*1000)){ Log(_T("Failed to read target ready indicator from server - %s\n"),(LPCTSTR)m_pSock->SocketErrString()); break; } switch(nTargetReady){ case 0: LogString(_T("Failed to reset target")); break; case 1: if(m_pSock->recvString(strHostPort, _T("host:port"))){ TRACE(_T("Instructed to use %s\n"),(LPCTSTR)strHostPort); rc=true; } else { Log(_T("Failed to read host:port - %s\n"),(LPCTSTR)m_pSock->SocketErrString()); } break; case 2: { String strOutput; if(m_pSock->recvString(strOutput, _T("output"))){ LogString(strOutput); } else { Log(_T("Failed to read output\n"),(LPCTSTR)m_pSock->SocketErrString()); return false; } } break; } } while(2==nTargetReady); return rc; } CeCosTest::ServerStatus CeCosTest::ServerStatusValue(LPCTSTR psz) { int s; for(s=0;s<ServerStatusMax;s++){ if(0==_tcsicmp(psz,arServerStatusImage[s])){ break; } } return (ServerStatus)s; } // Gets a directive from the test output (like EXEC:) bool CeCosTest::GetDirective(LPCTSTR pszDirective, String &str, int &nIndex) { bool rc=false; ENTERCRITICAL; LPCTSTR pszOutput=(LPCTSTR)m_strOutput; LPCTSTR pc=_tcsstr(pszOutput+nIndex,pszDirective); if(pc){ pc+=_tcslen(pszDirective); // Now after the final character (':') of the directive if(_TCHAR('<')==*pc){ pc++; // Extract the argument str=_T(""); while(*pc){ // Process escapes: FIXME more escapes? TCHAR c=*pc; if(_TCHAR('\\')==c){ switch(pc[1]){ case _TCHAR('t'): c=_TCHAR('\t'); break; case _TCHAR('n'): c=_TCHAR('\n'); break; case _TCHAR('\0'): pc--; // avoid grief break; default: c=pc[1]; break; } pc++; } else if (_TCHAR('>')==c) { nIndex=pc+1-pszOutput; rc=true; break; } else if (_TCHAR('\n')==c) { nIndex=pc+1-pszOutput; Log(_T("%%%% Unterminated directive: %s"),(LPCTSTR)str); break; } str+=c; pc++; } } } LEAVECRITICAL; return rc; } void CeCosTest::GetInferiorCommands(StringArray &arstrInferiorCmds) { arstrInferiorCmds.clear(); // Construct commands for gdb. The commands may be found (semicolon-separated) in the target info: const String strInferiorCmds(m_ep.Platform()->GdbCmds()); StringArray ar; int nCmds=strInferiorCmds.Chop(ar,_TCHAR(';'),false); for(int i=0;i<nCmds;i++){ // Into each command must be substituted: // Baud rate (%b) // Port (%p) This will be a serial port (e.g. COM1) or a socket connection (e.g.aloo:8000) depending on circumstances. // and escapes must be dealt with. String strCmd; for(const TCHAR *pc=ar[i];*pc;pc++){ switch(*pc){ // Process escapes: FIXME more escapes? case _TCHAR('\\'): switch(pc[1]){ case _TCHAR('t'): strCmd+=_TCHAR('\t'); pc++; continue; case _TCHAR('n'): strCmd+=_TCHAR('\n'); pc++; continue; case _TCHAR('\0'): continue; default: break; } break; case _TCHAR('%'): switch(pc[1]){ case _TCHAR('%'): strCmd+=_TCHAR('%'); pc++; break; case _TCHAR('b'): if(0==m_pResource->Baud()){ goto NextCmd; // Suppress output of this command if there is no baud rate to output } strCmd+=String::SFormat(_T("%d"),m_pResource->Baud()); pc++; continue; case _TCHAR('p'): if(_TCHAR('\0')==*(m_pResource->Serial())){ goto NextCmd; // Suppress output of this command if there is no serial port } strCmd+=m_pResource->Serial(); pc++; continue; case _TCHAR('\0'): continue; default: break; } break; default: break; } strCmd+=*pc; } arstrInferiorCmds.push_back(strCmd); NextCmd: ; } return; }
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